fix(bt-locate): stabilize first-load map and release v2.21.1

The slant correction was severely under-correcting because bwd=50 caused
the sync deviation measurements to saturate after only ~25 lines (for a
2-sample/line SDR clock drift). Lines 25-256 all reported deviation=-50,
pulling the linear regression slope toward zero.

Increase bwd and fwd to 800 samples each — sufficient to track cumulative
drift from up to ~±200 ppm SDR clock offset across the full 256-line image.

Also use a full-sync-length (432-sample) Goertzel window instead of 1/3
length, giving ~111 Hz frequency resolution to cleanly separate the 1200 Hz
sync tone from 1500 Hz pixel data. Search is stepped at 5 samples (~0.1 ms)
for efficiency, keeping the goertzel_batch batch size at ~320 windows/line.

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>

.dockerignore

@@ -35,6 +35,7 @@ htmlcov/
 
 # Local Postgres data
 pgdata/
+pgdata.bak/
 
 # Captured files (don't include in image)
 *.cap

.env.example

@@ -0,0 +1,2 @@
+# Uncomment and set to use external storage for ADS-B history
+# PGDATA_PATH=/mnt/external/intercept/pgdata

.gitignore

@@ -10,17 +10,17 @@ venv/
 ENV/
 uv.lock
 
-# Logs
-*.log
-pager_messages.log
-
-# Local data
-downloads/
-pgdata/
-
-# Local data
-downloads/
-pgdata/
+# Logs
+*.log
+pager_messages.log
+
+# Local data
+downloads/
+pgdata/
+
+# Local data
+downloads/
+pgdata/
 
 # IDE
 .idea/
@@ -42,4 +42,26 @@ build/
 uv.lock
 *.db
 *.sqlite3
-intercept.db
+intercept.db
+
+# Instance folder (contains database with user data)
+instance/
+
+# Agent configs with real credentials (keep template only)
+intercept_agent_*.cfg
+!intercept_agent.cfg
+
+# Temporary files
+/tmp/
+*.tmp
+
+# Weather satellite runtime data (decoded images, samples, SatDump output)
+data/weather_sat/
+
+# SDR capture files (large IQ recordings)
+data/subghz/captures/
+
+# Env files
+.env
+.env.*
+!.env.example

CHANGELOG.md

@@ -1,6 +1,259 @@
 # Changelog
 
-All notable changes to iNTERCEPT will be documented in this file.
+All notable changes to iNTERCEPT will be documented in this file.
+
+## [2.21.1] - 2026-02-20
+
+### Fixed
+- BT Locate map first-load rendering race that could cause blank/late map initialization
+- BT Locate mode switch timing so Leaflet invalidation runs after panel visibility settles
+- BT Locate trail restore startup latency by batching historical GPS point rendering
+
+---
+
+## [2.21.0] - 2026-02-20
+
+### Added
+- Analytics panels for operational insights and temporal pattern analysis
+
+### Changed
+- Global map theme refresh with improved contrast and cross-dashboard consistency
+- Cross-app UX refinements for accessibility, mode consistency, and render performance
+- BT Locate enhancements including improved continuity, smoothing, and confidence reporting
+
+### Fixed
+- Weather satellite auto-scheduler and Mercator tracking reliability issues
+- Bluetooth/WiFi runtime health issues affecting scanner continuity
+- ADS-B SSE multi-client fanout stability and remote VDL2 streaming reliability
+
+---
+
+## [2.15.0] - 2026-02-09
+
+### Added
+- **Real-time WebSocket Waterfall** - I/Q capture with server-side FFT
+  - Click-to-tune, zoom controls, and auto-scaling quantization
+  - Shared waterfall UI across SDR modes with function bar controls
+  - WebSocket frame serialization and connection reuse
+- **Cross-Module Frequency Routing** - Tune from Listening Post directly to decoders
+- **Pure Python SSTV Decoder** - Replaces broken slowrx C dependency
+  - Real-time decode progress with partial image streaming
+  - VIS detector state in signal monitor diagnostics
+  - Image gallery with delete and download functionality
+- **Real-time Signal Scope** - Live signal visualization for pager, sensor, and SSTV modes
+- **SSTV Image Gallery** - Delete and download decoded images
+- **USB Device Probe** - Detect broken SDR devices before rtl_fm crashes
+
+### Fixed
+- DMR dsd-fme protocol flags, device label, and tuning controls
+- DMR frontend/backend state desync causing 409 on start
+- Digital voice decoder producing no output due to wrong dsd-fme flags
+- SDR device lock-up from unreleased device registry on process crash
+- APRS crash on large station count and station list overflow
+- Settings modal overflowing viewport on smaller screens
+- Waterfall crash on zoom by reusing WebSocket and adding USB release retry
+- PD120 SSTV decode hang and false leader tone detection
+- WebSocket waterfall blocked by login redirect
+- TSCM sweep KeyError on RiskLevel.NEEDS_REVIEW
+
+### Removed
+- GSM Spy functionality removed for legal compliance
+
+---
+
+## [2.14.0] - 2026-02-06
+
+### Added
+- **DMR Digital Voice Decoder** - Decode DMR, P25, NXDN, and D-STAR protocols
+  - Integration with dsd-fme (Digital Speech Decoder - Florida Man Edition)
+  - Real-time SSE streaming of sync, call, voice, and slot events
+  - Call history table with talkgroup, source ID, and protocol tracking
+  - Protocol auto-detection or manual selection
+  - Pipeline error diagnostics with rtl_fm stderr capture
+- **DMR Visual Synthesizer** - Canvas-based signal activity visualization
+  - Spring-physics animated bars reacting to SSE decoder events
+  - Color-coded by event type: cyan (sync), green (call), orange (voice)
+  - Center-outward ripple bursts on sync events
+  - Smooth decay and idle breathing animation
+  - Responsive canvas with window resize handling
+- **HF SSTV General Mode** - Terrestrial slow-scan TV on shortwave frequencies
+  - Predefined HF SSTV frequencies (14.230, 21.340, 28.680 MHz, etc.)
+  - Modulation support for USB/LSB reception
+- **WebSDR Integration** - Remote HF/shortwave listening via WebSDR servers
+- **Listening Post Enhancements** - Improved signal scanner and audio handling
+
+### Fixed
+- APRS rtl_fm startup failure and SDR device conflicts
+- DSD voice decoder detection for dsd-fme and PulseAudio errors
+- dsd-fme protocol flags and ncurses disable for headless operation
+- dsd-fme audio output flag for pipeline compatibility
+- TSCM sweep scan resilience with per-device error isolation
+- TSCM WiFi detection using scanner singleton for device availability
+- TSCM correlation and cluster emission fixes
+- Detected Threats panel items now clickable to show device details
+- Proximity radar tooltip flicker on hover
+- Radar blip flicker by deferring renders during hover
+- ISS position API priority swap to avoid timeout delays
+- Updater settings panel error when updater.js is blocked
+- Missing scapy in optionals dependency group
+
+---
+
+## [2.13.1] - 2026-02-04
+
+### Added
+- **UI Overhaul** - Revamped styling with slate/cyan theme
+  - Switched app font to JetBrains Mono
+  - Global navigation bar across all dashboards
+  - Cyan-tinted map tiles as default
+- **Signal Scanner Rewrite** - Switched to rtl_power sweep for better coverage
+  - SNR column added to signal hits table
+  - SNR threshold control for power scan
+  - Improved sweep progress tracking and stability
+  - Frequency-based sweep display with range syncing
+- **Listening Post Audio** - WAV streaming with retry and fallback
+  - WebSocket audio fallback for listening
+  - User-initiated audio play prompt
+  - Audio pipeline restart for fresh stream headers
+
+### Fixed
+- WiFi connected clients panel now filters to selected AP instead of showing all clients
+- USB device contention when starting audio pipeline
+- Dual scrollbar issue on main dashboard
+- Controls bar alignment in dashboard pages
+- Mode query routing from dashboard nav
+
+---
+
+## [2.13.0] - 2026-02-04
+
+### Added
+- **WiFi Client Display** - Connected clients shown in AP detail drawer
+  - Real-time client updates via SSE streaming
+  - Probed SSID badges for connected clients
+  - Signal strength indicators and vendor identification
+- **Help Modal** - Keyboard shortcuts reference system
+- **Main Dashboard Button** - Quick navigation from any page
+- **Settings Modal** - Accessible from all dashboards
+
+### Changed
+- Dashboard CSS improvements and consistency fixes
+
+---
+
+## [2.12.1] - 2026-02-02
+
+### Added
+- **SDR Device Registry** - Prevents decoder conflicts between concurrent modes
+- **SDR Device Status Panel** - Shows connected SDR devices with ADS-B Bias-T toggle
+- **Real-time Doppler Tracking** - ISS SSTV reception with Doppler correction
+- **TCP Connection Support** - Meshtastic devices connectable over TCP
+- **Shared Observer Location** - Configurable shared location with auto-start options
+- **slowrx Source Build** - Fallback build for Debian/Ubuntu
+
+### Fixed
+- SDR device type not synced on page refresh
+- Meshtastic connection type not restored on page refresh
+- WiFi deep scan polling on agent with normalized scan_type value
+- Auto-detect RTL-SDR drivers and blacklist instead of prompting
+- TPMS pressure field mappings for 433MHz sensor display
+- Agent capabilities cache invalidation after monitor mode toggle
+
+---
+
+## [2.12.0] - 2026-01-29
+
+### Added
+- **ISS SSTV Decoder Mode** - Receive Slow Scan Television transmissions from the ISS
+  - Real-time ISS tracking globe with accurate position via N2YO API
+  - Leaflet world map showing ISS ground track and current position
+  - Location settings for ISS pass predictions
+  - Integration with satellite tracking TLE data
+- **GitHub Update Notifications** - Automatic new version alerts
+  - Checks for updates on app startup
+  - Unobtrusive notification when new releases are available
+  - Configurable check interval via settings
+- **Meshtastic Enhancements**
+  - QR code support for easy device sharing
+  - Telemetry display with battery, voltage, and environmental data
+  - Traceroute visualization for mesh network topology
+  - Improved node synchronization between map and top bar
+- **UI Improvements**
+  - New Space category for satellite and ISS-related modes
+  - Pulsating ring effect for tracked aircraft/vessels
+  - Map marker highlighting for selected aircraft in ADS-B
+  - Consolidated settings and dependencies into single modal
+- **Auto-Update TLE Data** - Satellite tracking data updates automatically on app startup
+- **GPS Auto-Connect** - AIS dashboard now connects to gpsd automatically
+
+### Changed
+- **Utility Meters** - Added device grouping by ID with consumption trends
+- **Utility Meters** - Device intelligence and manufacturer information display
+
+### Fixed
+- **SoapySDR** - Module detection on macOS with Homebrew
+- **dump1090** - Build failures in Docker containers
+- **dump1090** - Build failures on Kali Linux and newer GCC versions
+- **Flask** - Ensure Flask 3.0+ compatibility in setup script
+- **psycopg2** - Now optional for Flask/Werkzeug compatibility
+- **Bias-T** - Setting now properly passed to ADS-B and AIS dashboards
+- **Dark Mode Maps** - Removed CSS filter that was inverting dark tiles
+- **Map Tiles** - Fixed CARTO tile URLs and added cache-busting
+- **Meshtastic** - Traceroute button and dark mode map fixes
+- **ADS-B Dashboard** - Height adjustment to prevent bottom controls cutoff
+- **Audio Visualizer** - Now works without spectrum canvas
+
+---
+
+## [2.11.0] - 2026-01-28
+
+### Added
+- **Meshtastic Mesh Network Integration** - LoRa mesh communication support
+  - Connect to Meshtastic devices (Heltec, T-Beam, RAK) via USB/Serial
+  - Real-time message streaming via SSE
+  - Channel configuration with encryption key support
+  - Node information display with signal metrics (RSSI, SNR)
+  - Message history with up to 500 messages
+- **Ubertooth One BLE Scanner** - Advanced Bluetooth scanning
+  - Passive BLE packet capture across all 40 BLE channels
+  - Raw advertising payload access
+  - Integration with existing Bluetooth scanning modes
+  - Automatic detection of Ubertooth hardware
+- **Offline Mode** - Run iNTERCEPT without internet connectivity
+  - Bundled Leaflet 1.9.4 (JS, CSS, marker images)
+  - Bundled Chart.js 4.4.1
+  - Bundled Inter and JetBrains Mono fonts (woff2)
+  - Local asset status checking and validation
+- **Settings Modal** - New configuration interface accessible from navigation
+  - Offline tab: Toggle offline mode, configure asset sources
+  - Display tab: Theme and animation preferences
+  - About tab: Version info and links
+- **Multiple Map Tile Providers** - Choose from:
+  - OpenStreetMap (default)
+  - CartoDB Dark
+  - CartoDB Positron (light)
+  - ESRI World Imagery
+  - Custom tile server URL
+
+### Changed
+- **Dashboard Templates** - Conditional asset loading based on offline settings
+- **Bluetooth Scanner** - Added Ubertooth backend alongside BlueZ/DBus
+- **Dependencies** - Added meshtastic SDK to requirements.txt
+
+### Technical
+- Added `routes/meshtastic.py` for Meshtastic API endpoints
+- Added `utils/meshtastic.py` for device management
+- Added `utils/bluetooth/ubertooth_scanner.py` for Ubertooth support
+- Added `routes/offline.py` for offline mode API
+- Added `static/js/core/settings-manager.js` for client-side settings
+- Added `static/css/settings.css` for settings modal styles
+- Added `static/css/modes/meshtastic.css` for Meshtastic UI
+- Added `static/js/modes/meshtastic.js` for Meshtastic frontend
+- Added `templates/partials/modes/meshtastic.html` for Meshtastic mode
+- Added `templates/partials/settings-modal.html` for settings UI
+- Added `static/vendor/` directory structure for bundled assets
+
+---
 
 ## [2.10.0] - 2026-01-25
 

CLAUDE.md

@@ -4,11 +4,26 @@ This file provides guidance to Claude Code (claude.ai/code) when working with co
 
 ## Project Overview
 
-INTERCEPT is a web-based Signal Intelligence (SIGINT) platform providing a unified Flask interface for software-defined radio (SDR) tools. It supports pager decoding, 433MHz sensors, ADS-B aircraft tracking, ACARS messaging, WiFi/Bluetooth scanning, and satellite tracking.
+INTERCEPT is a web-based Signal Intelligence (SIGINT) platform providing a unified Flask interface for software-defined radio (SDR) tools. It supports pager decoding, 433MHz sensors, ADS-B aircraft tracking, ACARS messaging, WiFi/Bluetooth scanning, satellite tracking, ISS SSTV decoding, AIS vessel tracking, weather satellite imagery (NOAA APT & Meteor LRPT), and Meshtastic mesh networking.
 
 ## Common Commands
 
-### Setup and Running
+### Docker (Primary)
+```bash
+# Build and run (basic profile)
+docker compose --profile basic up -d
+
+# Build and run with ADS-B history (Postgres)
+docker compose --profile history up -d
+
+# Rebuild after code changes
+docker compose --profile basic up -d --build
+
+# Multi-arch build (amd64 + arm64 for RPi)
+./build-multiarch.sh
+```
+
+### Local Setup (Alternative)
 ```bash
 # Initial setup (installs dependencies and configures SDR tools)
 ./setup.sh
@@ -66,8 +81,12 @@ Each signal type has its own Flask blueprint:
 - `wifi.py`, `wifi_v2.py` - WiFi scanning (legacy and unified APIs)
 - `bluetooth.py`, `bluetooth_v2.py` - Bluetooth scanning (legacy and unified APIs)
 - `satellite.py` - Pass prediction using TLE data
+- `sstv.py` - ISS SSTV image decoding via slowrx
+- `weather_sat.py` - NOAA APT & Meteor LRPT via SatDump
+- `ais.py` - AIS vessel tracking and VHF DSC distress monitoring
 - `aprs.py` - Amateur packet radio via direwolf
 - `rtlamr.py` - Utility meter reading
+- `meshtastic_routes.py` - Meshtastic LoRa mesh networking
 
 ### Core Utilities (utils/)
 
@@ -91,6 +110,15 @@ Each signal type has its own Flask blueprint:
 - Platform-agnostic scanner with parsers for airodump-ng, nmcli, iw, iwlist, airport (macOS)
 - `channel_analyzer.py` - Frequency band analysis
 
+**Weather Satellite** (`utils/weather_sat.py`):
+- Singleton `WeatherSatDecoder` using SatDump CLI for NOAA APT and Meteor LRPT
+- Subprocess management with stdout parsing, image watcher via rglob
+- Pass prediction using skyfield TLE data
+
+**SSTV Decoder** (`utils/sstv.py`):
+- ISS SSTV reception via slowrx with Doppler tracking
+- Singleton pattern, image gallery with timestamped filenames
+
 ### Key Patterns
 
 **Server-Sent Events (SSE)**: All real-time features stream via SSE endpoints (`/stream_pager`, `/stream_sensor`, etc.). Pattern uses `queue.Queue` with timeout and keepalive messages.
@@ -112,9 +140,25 @@ Each signal type has its own Flask blueprint:
 | acarsdec | ACARS messages | Output parsing |
 | airmon-ng/airodump-ng | WiFi scanning | Monitor mode, CSV parsing |
 | bluetoothctl/hcitool | Bluetooth | Fallback when DBus unavailable |
+| slowrx | SSTV decoding | Subprocess with audio pipe |
+| SatDump | Weather satellites | CLI live mode, NOAA APT + Meteor LRPT |
+| AIS-catcher | AIS vessel tracking | JSON output parsing |
+| direwolf | APRS | TNC modem for packet radio |
+
+### Frontend Structure
+- **Templates**: `templates/index.html` (main SPA), `templates/partials/modes/*.html` (sidebar panels), `templates/partials/nav.html` (global nav)
+- **JS Modules**: `static/js/modes/*.js` - IIFE pattern per mode (e.g., `WeatherSat`, `SSTV`, `Meshtastic`)
+- **CSS**: `static/css/modes/*.css` - scoped styles per mode, CSS variables for theming (`--bg-card`, `--accent-cyan`, `--font-mono`)
+- **Mode Integration**: Each mode needs entries in `index.html` at ~12 points: CSS include, welcome card, partial include, visuals container, JS include, `validModes` set, `modeGroups` map, classList toggle, `modeNames`, visuals display toggle, titles, and init call in `switchMode()`
+
+### Docker
+- `Dockerfile` - Single-stage build with all SDR tools compiled from source (dump1090, AIS-catcher, slowrx, SatDump, etc.)
+- `docker-compose.yml` - Two profiles: `basic` (standalone) and `history` (with Postgres for ADS-B)
+- `build-multiarch.sh` - Multi-arch build script for amd64 + arm64 (RPi5)
+- Data persisted via `./data:/app/data` volume mount
 
 ### Configuration
-- `config.py` - Environment variable support with `INTERCEPT_` prefix
+- `config.py` - Environment variable support with `INTERCEPT_` prefix (e.g., `INTERCEPT_PORT`, `INTERCEPT_WEATHER_SAT_GAIN`)
 - Database: SQLite in `instance/` directory for settings, baselines, history
 
 ## Testing Notes

Dockerfile

@@ -9,6 +9,9 @@ LABEL description="Signal Intelligence Platform for SDR monitoring"
 # Set working directory
 WORKDIR /app
 
+# Pre-accept tshark non-root capture prompt for non-interactive install
+RUN echo 'wireshark-common wireshark-common/install-setuid boolean true' | debconf-set-selections
+
 # Install system dependencies for SDR tools
 RUN apt-get update && apt-get install -y --no-install-recommends \
     # RTL-SDR tools
@@ -21,6 +24,15 @@ RUN apt-get update && apt-get install -y --no-install-recommends \
     multimon-ng \
     # Audio tools for Listening Post
     ffmpeg \
+    # SSTV decoder runtime libs
+    libsndfile1 \
+    # SatDump runtime libs (weather satellite decoding)
+    libpng16-16 \
+    libtiff6 \
+    libjemalloc2 \
+    libvolk-bin \
+    libnng1 \
+    libzstd1 \
     # WiFi tools (aircrack-ng suite)
     aircrack-ng \
     iw \
@@ -29,6 +41,7 @@ RUN apt-get update && apt-get install -y --no-install-recommends \
     bluez \
     bluetooth \
     # GPS support
+    gpsd \
     gpsd-clients \
     # Utilities
     # APRS
@@ -41,6 +54,8 @@ RUN apt-get update && apt-get install -y --no-install-recommends \
     soapysdr-module-rtlsdr \
     soapysdr-module-hackrf \
     soapysdr-module-lms7 \
+    soapysdr-module-airspy \
+    airspy \
     limesuite \
     hackrf \
     # Utilities
@@ -56,18 +71,38 @@ RUN apt-get update && apt-get install -y --no-install-recommends \
     cmake \
     libncurses-dev \
     libsndfile1-dev \
+    # GTK is required for slowrx (SSTV decoder GUI dependency).
+    # Note: slowrx is kept for backwards compatibility, but the pure Python
+    # SSTV decoder in utils/sstv/ is now the primary implementation.
+    # GTK can be removed if slowrx is deprecated in future releases.
+    libgtk-3-dev \
+    libasound2-dev \
     libsoapysdr-dev \
     libhackrf-dev \
     liblimesuite-dev \
+    libfftw3-dev \
+    libpng-dev \
+    libtiff-dev \
+    libjemalloc-dev \
+    libvolk-dev \
+    libnng-dev \
+    libzstd-dev \
     libsqlite3-dev \
     libcurl4-openssl-dev \
     zlib1g-dev \
     libzmq3-dev \
+    libpulse-dev \
+    libfftw3-dev \
+    liblapack-dev \
+    libcodec2-dev \
+    libglib2.0-dev \
+    libxml2-dev \
     # Build dump1090
     && cd /tmp \
     && git clone --depth 1 https://github.com/flightaware/dump1090.git \
     && cd dump1090 \
-    && make \
+    && sed -i 's/-Werror//g' Makefile \
+    && make BLADERF=no RTLSDR=yes \
     && cp dump1090 /usr/bin/dump1090-fa \
     && ln -s /usr/bin/dump1090-fa /usr/bin/dump1090 \
     && rm -rf /tmp/dump1090 \
@@ -104,11 +139,89 @@ RUN apt-get update && apt-get install -y --no-install-recommends \
     && git clone --depth 1 https://github.com/TLeconte/acarsdec.git \
     && cd acarsdec \
     && mkdir build && cd build \
-    && cmake .. -Drtl=ON \
+    && cmake .. -Drtl=ON -DCMAKE_POLICY_VERSION_MINIMUM=3.5 \
     && make \
     && cp acarsdec /usr/bin/acarsdec \
     && rm -rf /tmp/acarsdec \
+    # Build libacars (required by dumpvdl2)
+    && cd /tmp \
+    && git clone --depth 1 https://github.com/szpajder/libacars.git \
+    && cd libacars \
+    && mkdir build && cd build \
+    && cmake .. \
+    && make \
+    && make install \
+    && ldconfig \
+    && rm -rf /tmp/libacars \
+    # Build dumpvdl2 (VDL2 aircraft datalink decoder)
+    && cd /tmp \
+    && git clone --depth 1 https://github.com/szpajder/dumpvdl2.git \
+    && cd dumpvdl2 \
+    && mkdir build && cd build \
+    && cmake .. \
+    && make \
+    && cp src/dumpvdl2 /usr/bin/dumpvdl2 \
+    && rm -rf /tmp/dumpvdl2 \
+    # Build slowrx (SSTV decoder) — pinned to known-good commit
+    && cd /tmp \
+    && git clone https://github.com/windytan/slowrx.git \
+    && cd slowrx \
+    && git checkout ca6d7012 \
+    && make \
+    && install -m 0755 slowrx /usr/local/bin/slowrx \
+    && rm -rf /tmp/slowrx \
+    # Build SatDump (weather satellite decoder - NOAA APT & Meteor LRPT) — pinned to v1.2.2
+    && cd /tmp \
+    && git clone --depth 1 --branch 1.2.2 https://github.com/SatDump/SatDump.git \
+    && cd SatDump \
+    && mkdir build && cd build \
+    && cmake -DCMAKE_BUILD_TYPE=Release -DBUILD_GUI=OFF -DCMAKE_INSTALL_LIBDIR=lib .. \
+    && make -j$(nproc) \
+    && make install \
+    && ldconfig \
+    # Ensure SatDump plugins are in the expected path (handles multiarch differences)
+    && mkdir -p /usr/local/lib/satdump/plugins \
+    && if [ -z "$(ls /usr/local/lib/satdump/plugins/*.so 2>/dev/null)" ]; then \
+        for dir in /usr/local/lib/*/satdump/plugins /usr/lib/*/satdump/plugins /usr/lib/satdump/plugins; do \
+            if [ -d "$dir" ] && [ -n "$(ls "$dir"/*.so 2>/dev/null)" ]; then \
+                ln -sf "$dir"/*.so /usr/local/lib/satdump/plugins/; \
+                break; \
+            fi; \
+        done; \
+    fi \
+    && cd /tmp \
+    && rm -rf /tmp/SatDump \
+    # Build rtlamr (utility meter decoder - requires Go)
+    && cd /tmp \
+    && curl -fsSL "https://go.dev/dl/go1.22.5.linux-$(dpkg --print-architecture).tar.gz" | tar -C /usr/local -xz \
+    && export PATH="$PATH:/usr/local/go/bin" \
+    && export GOPATH=/tmp/gopath \
+    && go install github.com/bemasher/rtlamr@latest \
+    && cp /tmp/gopath/bin/rtlamr /usr/bin/rtlamr \
+    && rm -rf /usr/local/go /tmp/gopath \
+    # Build mbelib (required by DSD)
+    && cd /tmp \
+    && git clone https://github.com/lwvmobile/mbelib.git \
+    && cd mbelib \
+    && (git checkout ambe_tones || true) \
+    && mkdir build && cd build \
+    && cmake .. \
+    && make -j$(nproc) \
+    && make install \
+    && ldconfig \
+    && rm -rf /tmp/mbelib \
+    # Build DSD-FME (Digital Speech Decoder for DMR/P25)
+    && cd /tmp \
+    && git clone --depth 1 https://github.com/lwvmobile/dsd-fme.git \
+    && cd dsd-fme \
+    && mkdir build && cd build \
+    && cmake .. \
+    && make -j$(nproc) \
+    && make install \
+    && ldconfig \
+    && rm -rf /tmp/dsd-fme \
     # Cleanup build tools to reduce image size
+    # libgtk-3-dev is explicitly removed; runtime GTK libs remain for slowrx
     && apt-get remove -y \
     build-essential \
     git \
@@ -116,6 +229,14 @@ RUN apt-get update && apt-get install -y --no-install-recommends \
     cmake \
     libncurses-dev \
     libsndfile1-dev \
+    libgtk-3-dev \
+    libasound2-dev \
+    libpng-dev \
+    libtiff-dev \
+    libjemalloc-dev \
+    libvolk-dev \
+    libnng-dev \
+    libzstd-dev \
     libsoapysdr-dev \
     libhackrf-dev \
     liblimesuite-dev \
@@ -123,6 +244,10 @@ RUN apt-get update && apt-get install -y --no-install-recommends \
     libcurl4-openssl-dev \
     zlib1g-dev \
     libzmq3-dev \
+    libpulse-dev \
+    libfftw3-dev \
+    liblapack-dev \
+    libcodec2-dev \
     && apt-get autoremove -y \
     && rm -rf /var/lib/apt/lists/*
 
@@ -134,7 +259,7 @@ RUN pip install --no-cache-dir -r requirements.txt
 COPY . .
 
 # Create data directory for persistence
-RUN mkdir -p /app/data
+RUN mkdir -p /app/data /app/data/weather_sat
 
 # Expose web interface port
 EXPOSE 5050

LICENSE

@@ -1,21 +1,200 @@
-MIT License
 
-Copyright (c) 2025 smittix
+                                 Apache License
+                           Version 2.0, January 2004
+                        http://www.apache.org/licenses/
 
-Permission is hereby granted, free of charge, to any person obtaining a copy
-of this software and associated documentation files (the "Software"), to deal
-in the Software without restriction, including without limitation the rights
-to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
-copies of the Software, and to permit persons to whom the Software is
-furnished to do so, subject to the following conditions:
+   TERMS AND CONDITIONS FOR USE, REPRODUCTION, AND DISTRIBUTION
 
-The above copyright notice and this permission notice shall be included in all
-copies or substantial portions of the Software.
+   1. Definitions.
 
-THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
-IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
-FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
-AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
-LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
-OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
-SOFTWARE.
+      "License" shall mean the terms and conditions for use, reproduction,
+      and distribution as defined by Sections 1 through 9 of this document.
+
+      "Licensor" shall mean the copyright owner or entity authorized by
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+
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+
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+
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+
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+      may provide additional or different license terms and conditions
+      for use, reproduction, or distribution of Your modifications, or
+      for any such Derivative Works as a whole, provided Your use,
+      reproduction, and distribution of the Work otherwise complies with
+      the conditions stated in this License.
+
+   5. Submission of Contributions. Unless You explicitly state otherwise,
+      any Contribution intentionally submitted for inclusion in the Work
+      by You to the Licensor shall be under the terms and conditions of
+      this License, without any additional terms or conditions.
+      Notwithstanding the above, nothing herein shall supersede or modify
+      the terms of any separate license agreement you may have executed
+      with Licensor regarding such Contributions.
+
+   6. Trademarks. This License does not grant permission to use the trade
+      names, trademarks, service marks, or product names of the Licensor,
+      except as required for reasonable and customary use in describing the
+      origin of the Work and reproducing the content of the NOTICE file.
+
+   7. Disclaimer of Warranty. Unless required by applicable law or
+      agreed to in writing, Licensor provides the Work (and each
+      Contributor provides its Contributions) on an "AS IS" BASIS,
+      WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
+      implied, including, without limitation, any warranties or conditions
+      of TITLE, NON-INFRINGEMENT, MERCHANTABILITY, or FITNESS FOR A
+      PARTICULAR PURPOSE. You are solely responsible for determining the
+      appropriateness of using or redistributing the Work and assume any
+      risks associated with Your exercise of permissions under this License.
+
+   8. Limitation of Liability. In no event and under no legal theory,
+      whether in tort (including negligence), contract, or otherwise,
+      unless required by applicable law (such as deliberate and grossly
+      negligent acts) or agreed to in writing, shall any Contributor be
+      liable to You for damages, including any direct, indirect, special,
+      incidental, or consequential damages of any character arising as a
+      result of this License or out of the use or inability to use the
+      Work (including but not limited to damages for loss of goodwill,
+      work stoppage, computer failure or malfunction, or any and all
+      other commercial damages or losses), even if such Contributor
+      has been advised of the possibility of such damages.
+
+   9. Accepting Warranty or Additional Liability. While redistributing
+      the Work or Derivative Works thereof, You may choose to offer,
+      and charge a fee for, acceptance of support, warranty, indemnity,
+      or other liability obligations and/or rights consistent with this
+      License. However, in accepting such obligations, You may act only
+      on Your own behalf and on Your sole responsibility, not on behalf
+      of any other Contributor, and only if You agree to indemnify,
+      defend, and hold each Contributor harmless for any liability
+      incurred by, or claims asserted against, such Contributor by reason
+      of your accepting any such warranty or additional liability.
+
+   END OF TERMS AND CONDITIONS
+
+   APPENDIX: How to apply the Apache License to your work.
+
+      To apply the Apache License to your work, attach the following
+      boilerplate notice, with the fields enclosed by brackets "[]"
+      replaced with your own identifying information. (Don't include
+      the brackets!)  The text should be enclosed in the appropriate
+      comment syntax for the file format. Please also get an OpenPGP
+      key and encrypt outgoing communications.
+
+   Copyright 2025 smittix
+
+   Licensed under the Apache License, Version 2.0 (the "License");
+   you may not use this file except in compliance with the License.
+   You may obtain a copy of the License at
+
+       http://www.apache.org/licenses/LICENSE-2.0
+
+   Unless required by applicable law or agreed to in writing, software
+   distributed under the License is distributed on an "AS IS" BASIS,
+   WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+   See the License for the specific language governing permissions and
+   limitations under the License.

README.md

@@ -28,15 +28,30 @@ Support the developer of this open-source project
 
 - **Pager Decoding** - POCSAG/FLEX via rtl_fm + multimon-ng
 - **433MHz Sensors** - Weather stations, TPMS, IoT devices via rtl_433
+- **Sub-GHz Analyzer** - RF capture and protocol decoding for 300-928 MHz ISM bands via HackRF
 - **Aircraft Tracking** - ADS-B via dump1090 with real-time map and radar
 - **Vessel Tracking** - AIS ship tracking with VHF DSC distress monitoring
 - **ACARS Messaging** - Aircraft datalink messages via acarsdec
-- **Listening Post** - Frequency scanner with audio monitoring
-- **Satellite Tracking** - Pass prediction using TLE data
+- **VDL2** - VHF Data Link Mode 2 aircraft datalink decoding via dumpvdl2
+- **Listening Post** - Wideband frequency scanner with real-time audio monitoring
+- **Weather Satellites** - NOAA APT and Meteor LRPT image decoding via SatDump with auto-scheduler
+- **WebSDR** - Remote HF/shortwave listening via KiwiSDR network
+- **ISS SSTV** - Slow-scan TV image reception from the International Space Station
+- **HF SSTV** - Terrestrial SSTV on shortwave frequencies (80m-10m, VHF, UHF)
+- **APRS** - Amateur packet radio position reports and telemetry via direwolf
+- **Satellite Tracking** - Pass prediction with polar plot and ground track map
+- **Utility Meters** - Electric, gas, and water meter reading via rtl_amr
 - **ADS-B History** - Persistent aircraft history with reporting dashboard (Postgres optional)
 - **WiFi Scanning** - Monitor mode reconnaissance via aircrack-ng
-- **Bluetooth Scanning** - Device discovery and tracker detection
+- **Bluetooth Scanning** - Device discovery and tracker detection (with Ubertooth support)
+- **BT Locate** - SAR Bluetooth device location with GPS-tagged signal trail mapping and proximity alerts
+- **GPS** - Real-time GPS position tracking with live map, speed, altitude, and satellite info
+- **TSCM** - Counter-surveillance with RF baseline comparison and threat detection
+- **Meshtastic** - LoRa mesh network integration
+- **Space Weather** - Real-time solar and geomagnetic data from NOAA SWPC, NASA SDO, and HamQSL (no SDR required)
 - **Spy Stations** - Number stations and diplomatic HF network database
+- **Remote Agents** - Distributed SIGINT with remote sensor nodes
+- **Offline Mode** - Bundled assets for air-gapped/field deployments
 
 ---
 
@@ -52,15 +67,54 @@ cd intercept
 sudo -E venv/bin/python intercept.py
 ```
 
-### Docker (Alternative)
+### Docker
 
 ```bash
 git clone https://github.com/smittix/intercept.git
 cd intercept
-docker compose up -d
+docker compose --profile basic up -d --build
 ```
 
-> **Note:** Docker requires privileged mode for USB SDR access. See `docker-compose.yml` for configuration options.
+> **Note:** Docker requires privileged mode for USB SDR access. SDR devices are passed through via `/dev/bus/usb`.
+
+#### Multi-Architecture Builds (amd64 + arm64)
+
+Cross-compile on an x64 machine and push to a registry. This is much faster than building natively on an RPi.
+
+```bash
+# One-time setup on your x64 build machine
+docker run --privileged --rm tonistiigi/binfmt --install all
+docker buildx create --name intercept-builder --use --bootstrap
+
+# Build and push for both architectures
+REGISTRY=ghcr.io/youruser ./build-multiarch.sh --push
+
+# On the RPi5, just pull and run
+INTERCEPT_IMAGE=ghcr.io/youruser/intercept:latest docker compose --profile basic up -d
+```
+
+Build script options:
+
+| Flag | Description |
+|------|-------------|
+| `--push` | Push to container registry |
+| `--load` | Load into local Docker (single platform only) |
+| `--arm64-only` | Build arm64 only (for RPi deployment) |
+| `--amd64-only` | Build amd64 only |
+
+Environment variables: `REGISTRY`, `IMAGE_NAME`, `IMAGE_TAG`
+
+#### Using a Pre-built Image
+
+If you've pushed to a registry, you can skip building entirely on the target machine:
+
+```bash
+# Set in .env or export
+INTERCEPT_IMAGE=ghcr.io/youruser/intercept:latest
+
+# Then just run
+docker compose --profile basic up -d
+```
 
 ### ADS-B History (Optional)
 
@@ -71,6 +125,47 @@ The ADS-B history feature persists aircraft messages to Postgres for long-term a
 docker compose --profile history up -d
 ```
 
+Set the following environment variables (for example in a `.env` file):
+
+```bash
+INTERCEPT_ADSB_HISTORY_ENABLED=true
+INTERCEPT_ADSB_DB_HOST=adsb_db
+INTERCEPT_ADSB_DB_PORT=5432
+INTERCEPT_ADSB_DB_NAME=intercept_adsb
+INTERCEPT_ADSB_DB_USER=intercept
+INTERCEPT_ADSB_DB_PASSWORD=intercept
+```
+
+### Other ADS-B Settings
+
+Set these as environment variables for either local installs or Docker:
+
+| Variable | Default | Description |
+|----------|---------|-------------|
+| `INTERCEPT_ADSB_AUTO_START` | `false` | Auto-start ADS-B tracking when the dashboard loads |
+| `INTERCEPT_SHARED_OBSERVER_LOCATION` | `true` | Share observer location across ADS-B/AIS/SSTV/Satellite modules |
+
+**Local install example**
+
+```bash
+INTERCEPT_ADSB_AUTO_START=true \
+INTERCEPT_SHARED_OBSERVER_LOCATION=false \
+python app.py
+```
+
+**Docker example (.env)**
+
+```bash
+INTERCEPT_ADSB_AUTO_START=true
+INTERCEPT_SHARED_OBSERVER_LOCATION=false
+```
+
+To store Postgres data on external storage, set `PGDATA_PATH` (defaults to `./pgdata`):
+
+```bash
+PGDATA_PATH=/mnt/usbpi1/intercept/pgdata
+```
+
 Then open **/adsb/history** for the reporting dashboard.
 
 ### Open the Interface
@@ -114,6 +209,7 @@ Most features work with a basic RTL-SDR dongle (RTL2832U + R820T2).
 ## Documentation
 
 - [Usage Guide](docs/USAGE.md) - Detailed instructions for each mode
+- [Distributed Agents](docs/DISTRIBUTED_AGENTS.md) - Remote sensor node deployment
 - [Hardware Guide](docs/HARDWARE.md) - SDR hardware and advanced setup
 - [Troubleshooting](docs/TROUBLESHOOTING.md) - Common issues and solutions
 - [Security](docs/SECURITY.md) - Network security and best practices
@@ -134,7 +230,7 @@ This project was developed using AI as a coding partner, combining human directi
 
 ## License
 
-MIT License - see [LICENSE](LICENSE)
+Apache 2.0 License - see [LICENSE](LICENSE)
 
 ## Author
 
@@ -148,8 +244,12 @@ Created by **smittix** - [GitHub](https://github.com/smittix)
 [dump1090](https://github.com/flightaware/dump1090) |
 [AIS-catcher](https://github.com/jvde-github/AIS-catcher) |
 [acarsdec](https://github.com/TLeconte/acarsdec) |
+[direwolf](https://github.com/wb2osz/direwolf) |
+[rtl_amr](https://github.com/bemasher/rtlamr) |
+[dumpvdl2](https://github.com/szpajder/dumpvdl2) |
 [aircrack-ng](https://www.aircrack-ng.org/) |
 [Leaflet.js](https://leafletjs.com/) |
+[SatDump](https://github.com/SatDump/SatDump) |
 [Celestrak](https://celestrak.org/) |
 [Priyom.org](https://priyom.org/)
 
@@ -161,3 +261,4 @@ Created by **smittix** - [GitHub](https://github.com/smittix)
 
 
 
+

aircraft_db_meta.json

@@ -1,4 +1,4 @@
 {
-  "version": "2026-01-11_fae1348c",
-  "downloaded": "2026-01-12T15:55:42.769654Z"
+  "version": "2026-02-15_ae16bb62",
+  "downloaded": "2026-02-20T00:29:06.228007Z"
 }

app.py

@@ -27,9 +27,9 @@ from typing import Any
 
 from flask import Flask, render_template, jsonify, send_file, Response, request,redirect, url_for, flash, session
 from werkzeug.security import check_password_hash
-from config import VERSION, CHANGELOG
+from config import VERSION, CHANGELOG, SHARED_OBSERVER_LOCATION_ENABLED, DEFAULT_LATITUDE, DEFAULT_LONGITUDE
 from utils.dependencies import check_tool, check_all_dependencies, TOOL_DEPENDENCIES
-from utils.process import cleanup_stale_processes
+from utils.process import cleanup_stale_processes, cleanup_stale_dump1090
 from utils.sdr import SDRFactory
 from utils.cleanup import DataStore, cleanup_manager
 from utils.constants import (
@@ -38,6 +38,7 @@ from utils.constants import (
     MAX_BT_DEVICE_AGE_SECONDS,
     MAX_VESSEL_AGE_SECONDS,
     MAX_DSC_MESSAGE_AGE_SECONDS,
+    MAX_DEAUTH_ALERTS_AGE_SECONDS,
     QUEUE_MAX_SIZE,
 )
 import logging
@@ -91,6 +92,25 @@ def add_security_headers(response):
     return response
 
 
+# ============================================
+# CONTEXT PROCESSORS
+# ============================================
+
+@app.context_processor
+def inject_offline_settings():
+    """Inject offline settings into all templates."""
+    from utils.database import get_setting
+    return {
+        'offline_settings': {
+            'enabled': get_setting('offline.enabled', False),
+            'assets_source': get_setting('offline.assets_source', 'cdn'),
+            'fonts_source': get_setting('offline.fonts_source', 'cdn'),
+            'tile_provider': get_setting('offline.tile_provider', 'cartodb_dark_cyan'),
+            'tile_server_url': get_setting('offline.tile_server_url', '')
+        }
+    }
+
+
 # ============================================
 # GLOBAL PROCESS MANAGEMENT
 # ============================================
@@ -130,6 +150,11 @@ acars_process = None
 acars_queue = queue.Queue(maxsize=QUEUE_MAX_SIZE)
 acars_lock = threading.Lock()
 
+# VDL2 aircraft datalink
+vdl2_process = None
+vdl2_queue = queue.Queue(maxsize=QUEUE_MAX_SIZE)
+vdl2_lock = threading.Lock()
+
 # APRS amateur radio tracking
 aprs_process = None
 aprs_rtl_process = None
@@ -152,10 +177,25 @@ dsc_rtl_process = None
 dsc_queue = queue.Queue(maxsize=QUEUE_MAX_SIZE)
 dsc_lock = threading.Lock()
 
+# DMR / Digital Voice
+dmr_process = None
+dmr_rtl_process = None
+dmr_queue = queue.Queue(maxsize=QUEUE_MAX_SIZE)
+dmr_lock = threading.Lock()
+
 # TSCM (Technical Surveillance Countermeasures)
 tscm_queue = queue.Queue(maxsize=QUEUE_MAX_SIZE)
 tscm_lock = threading.Lock()
 
+# SubGHz Transceiver (HackRF)
+subghz_queue = queue.Queue(maxsize=QUEUE_MAX_SIZE)
+subghz_lock = threading.Lock()
+
+# Deauth Attack Detection
+deauth_detector = None
+deauth_detector_queue = queue.Queue(maxsize=QUEUE_MAX_SIZE)
+deauth_detector_lock = threading.Lock()
+
 # ============================================
 # GLOBAL STATE DICTIONARIES
 # ============================================
@@ -185,6 +225,9 @@ ais_vessels = DataStore(max_age_seconds=MAX_VESSEL_AGE_SECONDS, name='ais_vessel
 # DSC (Digital Selective Calling) state - using DataStore for automatic cleanup
 dsc_messages = DataStore(max_age_seconds=MAX_DSC_MESSAGE_AGE_SECONDS, name='dsc_messages')
 
+# Deauth alerts - using DataStore for automatic cleanup
+deauth_alerts = DataStore(max_age_seconds=MAX_DEAUTH_ALERTS_AGE_SECONDS, name='deauth_alerts')
+
 # Satellite state
 satellite_passes = []  # Predicted satellite passes (not auto-cleaned, calculated)
 
@@ -196,6 +239,67 @@ cleanup_manager.register(bt_beacons)
 cleanup_manager.register(adsb_aircraft)
 cleanup_manager.register(ais_vessels)
 cleanup_manager.register(dsc_messages)
+cleanup_manager.register(deauth_alerts)
+
+# ============================================
+# SDR DEVICE REGISTRY
+# ============================================
+# Tracks which mode is using which SDR device to prevent conflicts
+# Key: device_index (int), Value: mode_name (str)
+sdr_device_registry: dict[int, str] = {}
+sdr_device_registry_lock = threading.Lock()
+
+
+def claim_sdr_device(device_index: int, mode_name: str) -> str | None:
+    """Claim an SDR device for a mode.
+
+    Checks the in-app registry first, then probes the USB device to
+    catch stale handles held by external processes (e.g. a leftover
+    rtl_fm from a previous crash).
+
+    Args:
+        device_index: The SDR device index to claim
+        mode_name: Name of the mode claiming the device (e.g., 'sensor', 'rtlamr')
+
+    Returns:
+        Error message if device is in use, None if successfully claimed
+    """
+    with sdr_device_registry_lock:
+        if device_index in sdr_device_registry:
+            in_use_by = sdr_device_registry[device_index]
+            return f'SDR device {device_index} is in use by {in_use_by}. Stop {in_use_by} first or use a different device.'
+
+        # Probe the USB device to catch external processes holding the handle
+        try:
+            from utils.sdr.detection import probe_rtlsdr_device
+            usb_error = probe_rtlsdr_device(device_index)
+            if usb_error:
+                return usb_error
+        except Exception:
+            pass  # If probe fails, let the caller proceed normally
+
+        sdr_device_registry[device_index] = mode_name
+        return None
+
+
+def release_sdr_device(device_index: int) -> None:
+    """Release an SDR device from the registry.
+
+    Args:
+        device_index: The SDR device index to release
+    """
+    with sdr_device_registry_lock:
+        sdr_device_registry.pop(device_index, None)
+
+
+def get_sdr_device_status() -> dict[int, str]:
+    """Get current SDR device allocations.
+
+    Returns:
+        Dictionary mapping device indices to mode names
+    """
+    with sdr_device_registry_lock:
+        return dict(sdr_device_registry)
 
 
 # ============================================
@@ -203,9 +307,22 @@ cleanup_manager.register(dsc_messages)
 # ============================================
 
 @app.before_request
-def require_login():
-    # Routes that don't require login (to avoid infinite redirect loop)
-    allowed_routes = ['login', 'static', 'favicon', 'health', 'health_check']
+def require_login():
+    # Routes that don't require login (to avoid infinite redirect loop)
+    allowed_routes = ['login', 'static', 'favicon', 'health', 'health_check']
+
+    # Allow audio streaming endpoints without session auth
+    if request.path.startswith('/listening/audio/'):
+        return None
+
+    # Allow WebSocket upgrade requests (page load already required auth)
+    if request.path.startswith('/ws/'):
+        return None
+
+    # Controller API endpoints use API key auth, not session auth
+    # Allow agent push/pull endpoints without session login
+    if request.path.startswith('/controller/'):
+        return None  # Skip session check, controller routes handle their own auth
 
     # If user is not logged in and the current route is not allowed...
     if 'logged_in' not in session and request.endpoint not in allowed_routes:
@@ -255,7 +372,16 @@ def index() -> str:
         'rtlamr': check_tool('rtlamr')
     }
     devices = [d.to_dict() for d in SDRFactory.detect_devices()]
-    return render_template('index.html', tools=tools, devices=devices, version=VERSION, changelog=CHANGELOG)
+    return render_template(
+        'index.html',
+        tools=tools,
+        devices=devices,
+        version=VERSION,
+        changelog=CHANGELOG,
+        shared_observer_location=SHARED_OBSERVER_LOCATION_ENABLED,
+        default_latitude=DEFAULT_LATITUDE,
+        default_longitude=DEFAULT_LONGITUDE,
+    )
 
 
 @app.route('/favicon.svg')
@@ -270,6 +396,22 @@ def get_devices() -> Response:
     return jsonify([d.to_dict() for d in devices])
 
 
+@app.route('/devices/status')
+def get_devices_status() -> Response:
+    """Get all SDR devices with usage status."""
+    devices = SDRFactory.detect_devices()
+    registry = get_sdr_device_status()
+
+    result = []
+    for device in devices:
+        d = device.to_dict()
+        d['in_use'] = device.index in registry
+        d['used_by'] = registry.get(device.index)
+        result.append(d)
+
+    return jsonify(result)
+
+
 @app.route('/devices/debug')
 def get_devices_debug() -> Response:
     """Get detailed SDR device detection diagnostics."""
@@ -510,51 +652,135 @@ def export_bluetooth() -> Response:
         })
 
 
-@app.route('/health')
-def health_check() -> Response:
-    """Health check endpoint for monitoring."""
-    import time
-    return jsonify({
-        'status': 'healthy',
-        'version': VERSION,
-        'uptime_seconds': round(time.time() - _app_start_time, 2),
-        'processes': {
+def _get_subghz_active() -> bool:
+    """Check if SubGHz manager has an active process."""
+    try:
+        from utils.subghz import get_subghz_manager
+        return get_subghz_manager().active_mode != 'idle'
+    except Exception:
+        return False
+
+
+def _get_dmr_active() -> bool:
+    """Check if Digital Voice decoder has an active process."""
+    try:
+        from routes import dmr as dmr_module
+        proc = dmr_module.dmr_dsd_process
+        return bool(dmr_module.dmr_running and proc and proc.poll() is None)
+    except Exception:
+        return False
+
+
+def _get_bluetooth_health() -> tuple[bool, int]:
+    """Return Bluetooth active state and best-effort device count."""
+    legacy_running = bt_process is not None and (bt_process.poll() is None if bt_process else False)
+    scanner_running = False
+    scanner_count = 0
+
+    try:
+        from utils.bluetooth.scanner import _scanner_instance as bt_scanner
+        if bt_scanner is not None:
+            scanner_running = bool(bt_scanner.is_scanning)
+            scanner_count = int(bt_scanner.device_count)
+    except Exception:
+        scanner_running = False
+        scanner_count = 0
+
+    locate_running = False
+    try:
+        from utils.bt_locate import get_locate_session
+        session = get_locate_session()
+        if session and getattr(session, 'active', False):
+            scanner = getattr(session, '_scanner', None)
+            locate_running = bool(scanner and scanner.is_scanning)
+    except Exception:
+        locate_running = False
+
+    return (legacy_running or scanner_running or locate_running), max(len(bt_devices), scanner_count)
+
+
+def _get_wifi_health() -> tuple[bool, int, int]:
+    """Return WiFi active state and best-effort network/client counts."""
+    legacy_running = wifi_process is not None and (wifi_process.poll() is None if wifi_process else False)
+    scanner_running = False
+    scanner_networks = 0
+    scanner_clients = 0
+
+    try:
+        from utils.wifi.scanner import _scanner_instance as wifi_scanner
+        if wifi_scanner is not None:
+            status = wifi_scanner.get_status()
+            scanner_running = bool(status.is_scanning)
+            scanner_networks = int(status.networks_found or 0)
+            scanner_clients = int(status.clients_found or 0)
+    except Exception:
+        scanner_running = False
+        scanner_networks = 0
+        scanner_clients = 0
+
+    return (
+        legacy_running or scanner_running,
+        max(len(wifi_networks), scanner_networks),
+        max(len(wifi_clients), scanner_clients),
+    )
+
+
+@app.route('/health')
+def health_check() -> Response:
+    """Health check endpoint for monitoring."""
+    import time
+    bt_active, bt_device_count = _get_bluetooth_health()
+    wifi_active, wifi_network_count, wifi_client_count = _get_wifi_health()
+    return jsonify({
+        'status': 'healthy',
+        'version': VERSION,
+        'uptime_seconds': round(time.time() - _app_start_time, 2),
+        'processes': {
             'pager': current_process is not None and (current_process.poll() is None if current_process else False),
             'sensor': sensor_process is not None and (sensor_process.poll() is None if sensor_process else False),
             'adsb': adsb_process is not None and (adsb_process.poll() is None if adsb_process else False),
-            'ais': ais_process is not None and (ais_process.poll() is None if ais_process else False),
-            'acars': acars_process is not None and (acars_process.poll() is None if acars_process else False),
-            'aprs': aprs_process is not None and (aprs_process.poll() is None if aprs_process else False),
-            'wifi': wifi_process is not None and (wifi_process.poll() is None if wifi_process else False),
-            'bluetooth': bt_process is not None and (bt_process.poll() is None if bt_process else False),
-            'dsc': dsc_process is not None and (dsc_process.poll() is None if dsc_process else False),
-        },
-        'data': {
-            'aircraft_count': len(adsb_aircraft),
-            'vessel_count': len(ais_vessels),
-            'wifi_networks_count': len(wifi_networks),
-            'wifi_clients_count': len(wifi_clients),
-            'bt_devices_count': len(bt_devices),
-            'dsc_messages_count': len(dsc_messages),
-        }
-    })
+            'ais': ais_process is not None and (ais_process.poll() is None if ais_process else False),
+            'acars': acars_process is not None and (acars_process.poll() is None if acars_process else False),
+            'vdl2': vdl2_process is not None and (vdl2_process.poll() is None if vdl2_process else False),
+            'aprs': aprs_process is not None and (aprs_process.poll() is None if aprs_process else False),
+            'wifi': wifi_active,
+            'bluetooth': bt_active,
+            'dsc': dsc_process is not None and (dsc_process.poll() is None if dsc_process else False),
+            'dmr': _get_dmr_active(),
+            'subghz': _get_subghz_active(),
+        },
+        'data': {
+            'aircraft_count': len(adsb_aircraft),
+            'vessel_count': len(ais_vessels),
+            'wifi_networks_count': wifi_network_count,
+            'wifi_clients_count': wifi_client_count,
+            'bt_devices_count': bt_device_count,
+            'dsc_messages_count': len(dsc_messages),
+        }
+    })
 
 
 @app.route('/killall', methods=['POST'])
 def kill_all() -> Response:
-    """Kill all decoder and WiFi processes."""
+    """Kill all decoder, WiFi, and Bluetooth processes."""
     global current_process, sensor_process, wifi_process, adsb_process, ais_process, acars_process
-    global aprs_process, aprs_rtl_process, dsc_process, dsc_rtl_process
+    global vdl2_process
+    global aprs_process, aprs_rtl_process, dsc_process, dsc_rtl_process, bt_process
+    global dmr_process, dmr_rtl_process
 
     # Import adsb and ais modules to reset their state
     from routes import adsb as adsb_module
     from routes import ais as ais_module
+    from utils.bluetooth import reset_bluetooth_scanner
 
     killed = []
     processes_to_kill = [
         'rtl_fm', 'multimon-ng', 'rtl_433',
         'airodump-ng', 'aireplay-ng', 'airmon-ng',
-        'dump1090', 'acarsdec', 'direwolf', 'AIS-catcher'
+        'dump1090', 'acarsdec', 'dumpvdl2', 'direwolf', 'AIS-catcher',
+        'hcitool', 'bluetoothctl', 'satdump', 'dsd',
+        'rtl_tcp', 'rtl_power', 'rtlamr', 'ffmpeg',
+        'hackrf_transfer', 'hackrf_sweep'
     ]
 
     for proc in processes_to_kill:
@@ -588,6 +814,10 @@ def kill_all() -> Response:
     with acars_lock:
         acars_process = None
 
+    # Reset VDL2 state
+    with vdl2_lock:
+        vdl2_process = None
+
     # Reset APRS state
     with aprs_lock:
         aprs_process = None
@@ -598,6 +828,42 @@ def kill_all() -> Response:
         dsc_process = None
         dsc_rtl_process = None
 
+    # Reset DMR state
+    with dmr_lock:
+        dmr_process = None
+        dmr_rtl_process = None
+
+    # Reset Bluetooth state (legacy)
+    with bt_lock:
+        if bt_process:
+            try:
+                bt_process.terminate()
+                bt_process.wait(timeout=2)
+            except Exception:
+                try:
+                    bt_process.kill()
+                except Exception:
+                    pass
+        bt_process = None
+
+    # Reset Bluetooth v2 scanner
+    try:
+        reset_bluetooth_scanner()
+        killed.append('bluetooth')
+    except Exception:
+        pass
+
+    # Reset SubGHz state
+    try:
+        from utils.subghz import get_subghz_manager
+        get_subghz_manager().stop_all()
+    except Exception:
+        pass
+
+    # Clear SDR device registry
+    with sdr_device_registry_lock:
+        sdr_device_registry.clear()
+
     return jsonify({'status': 'killed', 'processes': killed})
 
 
@@ -678,11 +944,24 @@ def main() -> None:
 
     # Clean up any stale processes from previous runs
     cleanup_stale_processes()
+    cleanup_stale_dump1090()
 
     # Initialize database for settings storage
     from utils.database import init_db
     init_db()
 
+    # Register database cleanup functions
+    from utils.database import (
+        cleanup_old_signal_history,
+        cleanup_old_timeline_entries,
+        cleanup_old_dsc_alerts,
+        cleanup_old_payloads
+    )
+    cleanup_manager.register_db_cleanup(cleanup_old_signal_history, interval_multiplier=1440)  # Every 24 hours
+    cleanup_manager.register_db_cleanup(cleanup_old_timeline_entries, interval_multiplier=1440)  # Every 24 hours
+    cleanup_manager.register_db_cleanup(cleanup_old_dsc_alerts, interval_multiplier=1440)  # Every 24 hours
+    cleanup_manager.register_db_cleanup(cleanup_old_payloads, interval_multiplier=1440)  # Every 24 hours
+
     # Start automatic cleanup of stale data entries
     cleanup_manager.start()
 
@@ -690,6 +969,31 @@ def main() -> None:
     from routes import register_blueprints
     register_blueprints(app)
 
+    # Initialize TLE auto-refresh (must be after blueprint registration)
+    try:
+        from routes.satellite import init_tle_auto_refresh
+        import os
+        if not os.environ.get('TESTING'):
+            init_tle_auto_refresh()
+    except Exception as e:
+        logger.warning(f"Failed to initialize TLE auto-refresh: {e}")
+
+    # Update TLE data in background thread (non-blocking)
+    def update_tle_background():
+        try:
+            from routes.satellite import refresh_tle_data
+            print("Updating satellite TLE data from CelesTrak...")
+            updated = refresh_tle_data()
+            if updated:
+                print(f"TLE data updated for: {', '.join(updated)}")
+            else:
+                print("TLE update: No satellites updated (may be offline)")
+        except Exception as e:
+            print(f"TLE update failed (will use cached data): {e}")
+
+    tle_thread = threading.Thread(target=update_tle_background, daemon=True)
+    tle_thread.start()
+
     # Initialize WebSocket for audio streaming
     try:
         from routes.audio_websocket import init_audio_websocket
@@ -698,6 +1002,22 @@ def main() -> None:
     except ImportError as e:
         print(f"WebSocket audio disabled (install flask-sock): {e}")
 
+    # Initialize KiwiSDR WebSocket audio proxy
+    try:
+        from routes.websdr import init_websdr_audio
+        init_websdr_audio(app)
+        print("KiwiSDR audio proxy enabled")
+    except ImportError as e:
+        print(f"KiwiSDR audio proxy disabled: {e}")
+
+    # Initialize WebSocket for waterfall streaming
+    try:
+        from routes.waterfall_websocket import init_waterfall_websocket
+        init_waterfall_websocket(app)
+        print("WebSocket waterfall streaming enabled")
+    except ImportError as e:
+        print(f"WebSocket waterfall disabled: {e}")
+
     print(f"Open http://localhost:{args.port} in your browser")
     print()
     print("Press Ctrl+C to stop")
@@ -710,4 +1030,4 @@ def main() -> None:
         debug=args.debug,
         threaded=True,
         load_dotenv=False,
-    )
+    )

build-multiarch.sh

@@ -0,0 +1,139 @@
+#!/bin/bash
+# INTERCEPT - Multi-architecture Docker image builder
+#
+# Builds for both linux/amd64 and linux/arm64 using Docker buildx.
+# Run this on your x64 machine to cross-compile the arm64 image
+# instead of building natively on the RPi5.
+#
+# Prerequisites (one-time setup):
+#   docker run --privileged --rm tonistiigi/binfmt --install all
+#   docker buildx create --name intercept-builder --use --bootstrap
+#
+# Usage:
+#   ./build-multiarch.sh                    # Build both platforms, load locally
+#   ./build-multiarch.sh --push             # Build and push to registry
+#   ./build-multiarch.sh --arm64-only       # Build arm64 only (for RPi)
+#   REGISTRY=ghcr.io/user ./build-multiarch.sh --push
+#
+# Environment variables:
+#   REGISTRY    - Container registry (default: docker.io/library)
+#   IMAGE_NAME  - Image name (default: intercept)
+#   IMAGE_TAG   - Image tag (default: latest)
+
+set -euo pipefail
+
+# Configuration
+REGISTRY="${REGISTRY:-}"
+IMAGE_NAME="${IMAGE_NAME:-intercept}"
+IMAGE_TAG="${IMAGE_TAG:-latest}"
+BUILDER_NAME="intercept-builder"
+PLATFORMS="linux/amd64,linux/arm64"
+
+# Parse arguments
+PUSH=false
+LOAD=false
+ARM64_ONLY=false
+
+for arg in "$@"; do
+    case $arg in
+        --push)     PUSH=true ;;
+        --load)     LOAD=true ;;
+        --arm64-only)
+            ARM64_ONLY=true
+            PLATFORMS="linux/arm64"
+            ;;
+        --amd64-only)
+            PLATFORMS="linux/amd64"
+            ;;
+        --help|-h)
+            echo "Usage: $0 [--push] [--load] [--arm64-only] [--amd64-only]"
+            echo ""
+            echo "Options:"
+            echo "  --push        Push to container registry"
+            echo "  --load        Load into local Docker (single platform only)"
+            echo "  --arm64-only  Build arm64 only (for RPi5 deployment)"
+            echo "  --amd64-only  Build amd64 only"
+            echo ""
+            echo "Environment variables:"
+            echo "  REGISTRY    Container registry (e.g. ghcr.io/username)"
+            echo "  IMAGE_NAME  Image name (default: intercept)"
+            echo "  IMAGE_TAG   Image tag (default: latest)"
+            echo ""
+            echo "Examples:"
+            echo "  $0 --push                                    # Build both, push"
+            echo "  REGISTRY=ghcr.io/myuser $0 --push            # Push to GHCR"
+            echo "  $0 --arm64-only --load                       # Build arm64, load locally"
+            echo "  $0 --arm64-only --push && ssh rpi docker pull # Build + deploy to RPi"
+            exit 0
+            ;;
+        *)
+            echo "Unknown option: $arg"
+            exit 1
+            ;;
+    esac
+done
+
+# Build full image reference
+if [ -n "$REGISTRY" ]; then
+    FULL_IMAGE="${REGISTRY}/${IMAGE_NAME}:${IMAGE_TAG}"
+else
+    FULL_IMAGE="${IMAGE_NAME}:${IMAGE_TAG}"
+fi
+
+echo "============================================"
+echo "  INTERCEPT Multi-Architecture Builder"
+echo "============================================"
+echo "  Image:     ${FULL_IMAGE}"
+echo "  Platforms: ${PLATFORMS}"
+echo "  Push:      ${PUSH}"
+echo "============================================"
+echo ""
+
+# Check if buildx builder exists, create if not
+if ! docker buildx inspect "$BUILDER_NAME" >/dev/null 2>&1; then
+    echo "Creating buildx builder: ${BUILDER_NAME}"
+    docker buildx create --name "$BUILDER_NAME" --use --bootstrap
+
+    # Check for QEMU support
+    if ! docker run --rm --privileged tonistiigi/binfmt --install all >/dev/null 2>&1; then
+        echo "WARNING: QEMU binfmt setup may have failed."
+        echo "Run: docker run --privileged --rm tonistiigi/binfmt --install all"
+    fi
+else
+    docker buildx use "$BUILDER_NAME"
+fi
+
+# Build command
+BUILD_CMD="docker buildx build --platform ${PLATFORMS} --tag ${FULL_IMAGE}"
+
+if [ "$PUSH" = true ]; then
+    BUILD_CMD="${BUILD_CMD} --push"
+    echo "Will push to: ${FULL_IMAGE}"
+elif [ "$LOAD" = true ]; then
+    # --load only works with single platform
+    if echo "$PLATFORMS" | grep -q ","; then
+        echo "ERROR: --load only works with a single platform."
+        echo "Use --arm64-only or --amd64-only with --load."
+        exit 1
+    fi
+    BUILD_CMD="${BUILD_CMD} --load"
+    echo "Will load into local Docker"
+fi
+
+echo ""
+echo "Building..."
+echo "Command: ${BUILD_CMD} ."
+echo ""
+
+$BUILD_CMD .
+
+echo ""
+echo "============================================"
+echo "  Build complete!"
+if [ "$PUSH" = true ]; then
+    echo "  Image pushed to: ${FULL_IMAGE}"
+    echo ""
+    echo "  Pull on RPi5:"
+    echo "    docker pull ${FULL_IMAGE}"
+fi
+echo "============================================"

config.py

@@ -6,11 +6,169 @@ import logging
 import os
 import sys
 
-# Application version
-VERSION = "2.10.0"
-
-# Changelog - latest release notes (shown on welcome screen)
-CHANGELOG = [
+# Application version
+VERSION = "2.21.1"
+
+# Changelog - latest release notes (shown on welcome screen)
+CHANGELOG = [
+    {
+        "version": "2.21.1",
+        "date": "February 2026",
+        "highlights": [
+            "BT Locate map first-load fix with render stabilization retries during initial mode open",
+            "BT Locate trail restore optimization for faster startup when historical GPS points exist",
+            "BT Locate mode-switch map invalidation timing fix to prevent delayed/blank map render",
+        ]
+    },
+    {
+        "version": "2.21.0",
+        "date": "February 2026",
+        "highlights": [
+            "Global map theme refresh with improved contrast and cross-dashboard consistency",
+            "Cross-app UX updates for accessibility, mode consistency, and render performance",
+            "Weather satellite reliability fixes for auto-scheduler and Mercator pass tracking",
+            "Bluetooth/WiFi runtime health fixes with BT Locate continuity and confidence improvements",
+            "ADS-B/VDL2 streaming reliability upgrades for multi-client SSE fanout and remote decoding",
+            "Analytics enhancements with operational insights and temporal pattern panels",
+        ]
+    },
+    {
+        "version": "2.20.0",
+        "date": "February 2026",
+        "highlights": [
+            "Space Weather mode: real-time solar and geomagnetic monitoring from NOAA SWPC, NASA SDO, and HamQSL",
+            "Kp index, solar wind, X-ray flux charts with Chart.js visualization",
+            "HF band conditions, D-RAP absorption maps, aurora forecast, and solar imagery",
+            "NOAA Space Weather Scales (G/S/R), flare probability, and active solar regions",
+            "No SDR hardware required — all data from public APIs with server-side caching",
+        ]
+    },
+    {
+        "version": "2.19.0",
+        "date": "February 2026",
+        "highlights": [
+            "VDL2 mode with modal message viewer, consolidated into ADS-B dashboard",
+            "ADS-B: trails enabled by default, radar modes removed, CSV export added",
+            "Bundled Roboto Condensed font for offline mode with SVG icon overhaul",
+            "Help modal updated with all modes and correct SVG icons",
+            "Setup script overhauled for reliability and macOS compatibility",
+            "GPS fix for preserving satellites across DOP-only SKY messages",
+            "Fix gpsd deadlock causing GPS connect to hang",
+        ]
+    },
+    {
+        "version": "2.18.0",
+        "date": "February 2026",
+        "highlights": [
+            "Bluetooth: service data inspector, appearance codes, MAC cluster tracking, and behavioral flags",
+            "Bluetooth: IRK badge display, distance estimation with confidence, and signal stability metrics",
+            "ACARS: SoapySDR device support for SDRplay, LimeSDR, Airspy, and other non-RTL backends",
+            "ADS-B: stale dump1090 process cleanup via PID file tracking",
+            "GPS: error state indicator and UI refinements",
+            "Proximity radar and signal card UI improvements",
+        ]
+    },
+    {
+        "version": "2.17.0",
+        "date": "February 2026",
+        "highlights": [
+            "BT Locate: SAR Bluetooth device location with GPS-tagged signal trail and proximity alerts",
+            "IRK auto-detection: extract Identity Resolving Keys from paired devices (macOS/Linux)",
+            "GPS mode: real-time position tracking with live map, speed, altitude, and satellite info",
+            "Bluetooth scanner lifecycle fix for bleak scan timeout tracking",
+        ]
+    },
+    {
+        "version": "2.16.0",
+        "date": "February 2026",
+        "highlights": [
+            "Sub-GHz analyzer with real-time RF capture and protocol decoding",
+            "Weather satellite auto-scheduler with polar plot and ground track map",
+            "SatDump support for local (non-Docker) installs via setup.sh",
+            "Shared waterfall UI across SDR modes",
+            "Listening post audio stuttering fix and SDR race condition fixes",
+            "Multi-arch Docker build support (amd64 + arm64)",
+        ]
+    },
+    {
+        "version": "2.15.0",
+        "date": "February 2026",
+        "highlights": [
+            "Real-time WebSocket waterfall with I/Q capture and server-side FFT",
+            "Cross-module frequency routing from Listening Post to decoders",
+            "Pure Python SSTV decoder replacing broken slowrx dependency",
+            "Real-time signal scope for pager, sensor, and SSTV modes",
+            "USB-level device probe to prevent cryptic rtl_fm crashes",
+            "DMR dsd-fme protocol fixes, tuning controls, and state sync",
+            "SDR device lock-up fix from unreleased device registry on crash",
+        ]
+    },
+    {
+        "version": "2.14.0",
+        "date": "February 2026",
+        "highlights": [
+            "DMR/P25/NXDN/D-STAR digital voice decoder with dsd-fme",
+            "DMR visual synthesizer with event-driven spring-physics bars",
+            "HF SSTV general mode with predefined shortwave frequencies",
+            "WebSDR integration for remote HF/shortwave listening",
+            "Listening Post signal scanner and audio pipeline improvements",
+            "TSCM sweep resilience, WiFi detection, and correlation fixes",
+            "APRS rtl_fm startup and SDR device conflict fixes",
+        ]
+    },
+    {
+        "version": "2.13.1",
+        "date": "February 2026",
+        "highlights": [
+            "UI overhaul with slate/cyan theme and JetBrains Mono font",
+            "Signal scanner rewritten with rtl_power sweep and SNR filtering",
+            "Listening Post audio streaming via WAV with retry/fallback",
+            "WiFi connected clients panel now filters to selected AP",
+            "Global navigation bar across all dashboards",
+            "Fixed USB device contention when starting audio pipeline",
+        ]
+    },
+    {
+        "version": "2.13.0",
+        "date": "February 2026",
+        "highlights": [
+            "WiFi client display in AP detail drawer with real-time SSE updates",
+            "Help modal system with keyboard shortcuts reference",
+            "Global navbar and settings modal accessible from all dashboards",
+            "Probed SSID badges for connected clients",
+        ]
+    },
+    {
+        "version": "2.12.1",
+        "date": "February 2026",
+        "highlights": [
+            "SDR device registry to prevent decoder conflicts",
+            "SDR device status panel and ADS-B Bias-T toggle",
+            "Real-time Doppler tracking for ISS SSTV reception",
+            "TCP connection support for Meshtastic",
+            "Shared observer location with auto-start options",
+        ]
+    },
+    {
+        "version": "2.12.0",
+        "date": "January 2026",
+        "highlights": [
+            "ISS SSTV decoder with real-time ISS tracking globe",
+            "GitHub update notifications for new releases",
+            "Meshtastic QR code support and telemetry display",
+            "New Space category with reorganized UI",
+        ]
+    },
+    {
+        "version": "2.11.0",
+        "date": "January 2026",
+        "highlights": [
+            "Meshtastic LoRa mesh network integration",
+            "Ubertooth One BLE scanning support",
+            "Offline mode with bundled assets",
+            "Settings modal with tile provider configuration",
+        ]
+    },
     {
         "version": "2.10.0",
         "date": "January 2026",
@@ -51,16 +209,6 @@ CHANGELOG = [
             "Risk scoring and threat classification",
         ]
     },
-    {
-        "version": "2.7.0",
-        "date": "November 2025",
-        "highlights": [
-            "Multi-SDR hardware support via SoapySDR",
-            "LimeSDR, HackRF, Airspy, SDRplay support",
-            "Improved aircraft database with photo lookup",
-            "GPS auto-detection and integration",
-        ]
-    },
 ]
 
 
@@ -126,28 +274,63 @@ AIRODUMP_HEADER_LINES = _get_env_int('AIRODUMP_HEADER_LINES', 2)
 BT_SCAN_TIMEOUT = _get_env_int('BT_SCAN_TIMEOUT', 10)
 BT_UPDATE_INTERVAL = _get_env_float('BT_UPDATE_INTERVAL', 2.0)
 
-# ADS-B settings
-ADSB_SBS_PORT = _get_env_int('ADSB_SBS_PORT', 30003)
-ADSB_UPDATE_INTERVAL = _get_env_float('ADSB_UPDATE_INTERVAL', 1.0)
-ADSB_HISTORY_ENABLED = _get_env_bool('ADSB_HISTORY_ENABLED', False)
-ADSB_DB_HOST = _get_env('ADSB_DB_HOST', 'localhost')
-ADSB_DB_PORT = _get_env_int('ADSB_DB_PORT', 5432)
-ADSB_DB_NAME = _get_env('ADSB_DB_NAME', 'intercept_adsb')
-ADSB_DB_USER = _get_env('ADSB_DB_USER', 'intercept')
-ADSB_DB_PASSWORD = _get_env('ADSB_DB_PASSWORD', 'intercept')
-ADSB_HISTORY_BATCH_SIZE = _get_env_int('ADSB_HISTORY_BATCH_SIZE', 500)
-ADSB_HISTORY_FLUSH_INTERVAL = _get_env_float('ADSB_HISTORY_FLUSH_INTERVAL', 1.0)
-ADSB_HISTORY_QUEUE_SIZE = _get_env_int('ADSB_HISTORY_QUEUE_SIZE', 50000)
+# ADS-B settings
+ADSB_SBS_PORT = _get_env_int('ADSB_SBS_PORT', 30003)
+ADSB_UPDATE_INTERVAL = _get_env_float('ADSB_UPDATE_INTERVAL', 1.0)
+ADSB_AUTO_START = _get_env_bool('ADSB_AUTO_START', False)
+ADSB_HISTORY_ENABLED = _get_env_bool('ADSB_HISTORY_ENABLED', False)
+ADSB_DB_HOST = _get_env('ADSB_DB_HOST', 'localhost')
+ADSB_DB_PORT = _get_env_int('ADSB_DB_PORT', 5432)
+ADSB_DB_NAME = _get_env('ADSB_DB_NAME', 'intercept_adsb')
+ADSB_DB_USER = _get_env('ADSB_DB_USER', 'intercept')
+ADSB_DB_PASSWORD = _get_env('ADSB_DB_PASSWORD', 'intercept')
+ADSB_HISTORY_BATCH_SIZE = _get_env_int('ADSB_HISTORY_BATCH_SIZE', 500)
+ADSB_HISTORY_FLUSH_INTERVAL = _get_env_float('ADSB_HISTORY_FLUSH_INTERVAL', 1.0)
+ADSB_HISTORY_QUEUE_SIZE = _get_env_int('ADSB_HISTORY_QUEUE_SIZE', 50000)
+
+# Observer location settings
+SHARED_OBSERVER_LOCATION_ENABLED = _get_env_bool('SHARED_OBSERVER_LOCATION', True)
+DEFAULT_LATITUDE = _get_env_float('DEFAULT_LAT', 0.0)
+DEFAULT_LONGITUDE = _get_env_float('DEFAULT_LON', 0.0)
 
 # Satellite settings
 SATELLITE_UPDATE_INTERVAL = _get_env_int('SATELLITE_UPDATE_INTERVAL', 30)
 SATELLITE_TRAJECTORY_POINTS = _get_env_int('SATELLITE_TRAJECTORY_POINTS', 30)
 SATELLITE_ORBIT_MINUTES = _get_env_int('SATELLITE_ORBIT_MINUTES', 45)
 
+# Weather satellite settings
+WEATHER_SAT_DEFAULT_GAIN = _get_env_float('WEATHER_SAT_GAIN', 40.0)
+WEATHER_SAT_SAMPLE_RATE = _get_env_int('WEATHER_SAT_SAMPLE_RATE', 1000000)
+WEATHER_SAT_MIN_ELEVATION = _get_env_float('WEATHER_SAT_MIN_ELEVATION', 15.0)
+WEATHER_SAT_PREDICTION_HOURS = _get_env_int('WEATHER_SAT_PREDICTION_HOURS', 24)
+WEATHER_SAT_SCHEDULE_REFRESH_MINUTES = _get_env_int('WEATHER_SAT_SCHEDULE_REFRESH_MINUTES', 30)
+WEATHER_SAT_CAPTURE_BUFFER_SECONDS = _get_env_int('WEATHER_SAT_CAPTURE_BUFFER_SECONDS', 30)
+
+# SubGHz transceiver settings (HackRF)
+SUBGHZ_DEFAULT_FREQUENCY = _get_env_float('SUBGHZ_FREQUENCY', 433.92)
+SUBGHZ_DEFAULT_SAMPLE_RATE = _get_env_int('SUBGHZ_SAMPLE_RATE', 2000000)
+SUBGHZ_DEFAULT_LNA_GAIN = _get_env_int('SUBGHZ_LNA_GAIN', 32)
+SUBGHZ_DEFAULT_VGA_GAIN = _get_env_int('SUBGHZ_VGA_GAIN', 20)
+SUBGHZ_DEFAULT_TX_GAIN = _get_env_int('SUBGHZ_TX_GAIN', 20)
+SUBGHZ_MAX_TX_DURATION = _get_env_int('SUBGHZ_MAX_TX_DURATION', 10)
+SUBGHZ_SWEEP_START_MHZ = _get_env_float('SUBGHZ_SWEEP_START', 300.0)
+SUBGHZ_SWEEP_END_MHZ = _get_env_float('SUBGHZ_SWEEP_END', 928.0)
+
+# Update checking
+GITHUB_REPO = _get_env('GITHUB_REPO', 'smittix/intercept')
+UPDATE_CHECK_ENABLED = _get_env_bool('UPDATE_CHECK_ENABLED', True)
+UPDATE_CHECK_INTERVAL_HOURS = _get_env_int('UPDATE_CHECK_INTERVAL_HOURS', 6)
+
+# Alerting
+ALERT_WEBHOOK_URL = _get_env('ALERT_WEBHOOK_URL', '')
+ALERT_WEBHOOK_SECRET = _get_env('ALERT_WEBHOOK_SECRET', '')
+ALERT_WEBHOOK_TIMEOUT = _get_env_int('ALERT_WEBHOOK_TIMEOUT', 5)
+
 # Admin credentials
 ADMIN_USERNAME = _get_env('ADMIN_USERNAME', 'admin')
 ADMIN_PASSWORD = _get_env('ADMIN_PASSWORD', 'admin')
 
+
 def configure_logging() -> None:
     """Configure application logging."""
     logging.basicConfig(

data/satellites.py

@@ -1,18 +1,29 @@
 # TLE data for satellite tracking (updated periodically)
+# To update: click "Update TLE" in satellite dashboard or SSTV mode
+# Data source: CelesTrak (celestrak.org)
 TLE_SATELLITES = {
     'ISS': ('ISS (ZARYA)',
-            '1 25544U 98067A   24001.00000000  .00000000  00000-0  00000-0 0  0000',
-            '2 25544  51.6400   0.0000 0000000   0.0000   0.0000 15.50000000000000'),
+            '1 25544U 98067A   25029.51432176  .00020818  00000+0  36919-3 0  9991',
+            '2 25544  51.6400 157.5640 0002671 123.5041 236.6291 15.49988902492099'),
+    'NOAA-15': ('NOAA 15',
+                '1 25338U 98030A   25028.84157420  .00000535  00000+0  26168-3 0  9999',
+                '2 25338  98.5676 356.1853 0009968 282.2567  77.7505 14.26225252390049'),
+    'NOAA-18': ('NOAA 18',
+                '1 28654U 05018A   25028.87364583  .00000454  00000+0  25082-3 0  9996',
+                '2 28654  98.8801  59.1618 0013609 281.7181  78.2479 14.13003043 24668'),
+    'NOAA-19': ('NOAA 19',
+                '1 33591U 09005A   25028.82370718  .00000425  00000+0  24556-3 0  9998',
+                '2 33591  99.0905  25.2347 0013428 265.3457  94.6190 14.13019285827447'),
     'NOAA-20': ('NOAA 20 (JPSS-1)',
-                '1 43013U 17073A   24001.00000000  .00000-0  00000-0  00000-0 0  0000',
-                '2 43013  98.7400   0.0000 0001000   0.0000   0.0000 14.19000000000000'),
+                '1 43013U 17073A   25028.83917428  .00000284  00000+0  15698-3 0  9995',
+                '2 43013  98.7104  59.9558 0001165 102.5891 257.5432 14.19571458378899'),
     'NOAA-21': ('NOAA 21 (JPSS-2)',
-                '1 54234U 22150A   24001.00000000  .00000-0  00000-0  00000-0 0  0000',
-                '2 54234  98.7100   0.0000 0001000   0.0000   0.0000 14.19000000000000'),
+                '1 54234U 22150A   25028.86292604  .00000268  00000+0  14911-3 0  9995',
+                '2 54234  98.7064  59.6648 0001271  88.4689 271.6646 14.19545810114699'),
     'METEOR-M2': ('METEOR-M 2',
-                  '1 40069U 14037A   24001.00000000  .00000-0  00000-0  00000-0 0  0000',
-                  '2 40069  98.5400   0.0000 0005000   0.0000   0.0000 14.21000000000000'),
+                  '1 40069U 14037A   25028.47802083  .00000099  00000+0  69422-4 0  9990',
+                  '2 40069  98.4752 356.8632 0003942 251.7291 108.3489 14.20719440555299'),
     'METEOR-M2-3': ('METEOR-M2 3',
-                    '1 57166U 23091A   24001.00000000  .00000-0  00000-0  00000-0 0  0000',
-                    '2 57166  98.7700   0.0000 0002000   0.0000   0.0000 14.23000000000000'),
+                    '1 57166U 23091A   25028.81539352  .00000157  00000+0  94432-4 0  9993',
+                    '2 57166  98.7690  91.9652 0001790 107.4859 252.6519 14.23646028 77844'),
 }

docker-compose.yml

@@ -1,27 +1,31 @@
 # INTERCEPT - Signal Intelligence Platform
 # Docker Compose configuration for easy deployment
 #
-# Basic usage:
-#   docker compose up -d
+# Basic usage (build locally):
+#   docker compose --profile basic up -d --build
+#
+# Basic usage (pre-built image from registry):
+#   INTERCEPT_IMAGE=ghcr.io/user/intercept:latest docker compose --profile basic up -d
 #
 # With ADS-B history (Postgres):
 #   docker compose --profile history up -d
 
 services:
   intercept:
+    # When INTERCEPT_IMAGE is set, use that pre-built image; otherwise build locally
+    image: ${INTERCEPT_IMAGE:-intercept:latest}
     build: .
     container_name: intercept
     ports:
       - "5050:5050"
     # Privileged mode required for USB SDR device access
-    # Alternatively, use device mapping (see below)
     privileged: true
-    # USB device mapping (alternative to privileged mode)
-    # devices:
-    #   - /dev/bus/usb:/dev/bus/usb
-    # volumes:
-      # Persist data directory
-      # - ./data:/app/data
+    # USB device mapping for all USB devices
+    devices:
+      - /dev/bus/usb:/dev/bus/usb
+    volumes:
+      # Persist decoded images and database across container rebuilds
+      - ./data:/app/data
       # Optional: mount logs directory
       # - ./logs:/app/logs
     environment:
@@ -36,6 +40,13 @@ services:
       # - INTERCEPT_ADSB_DB_NAME=intercept_adsb
       # - INTERCEPT_ADSB_DB_USER=intercept
       # - INTERCEPT_ADSB_DB_PASSWORD=intercept
+      # ADS-B auto-start on dashboard load (default false)
+      - INTERCEPT_ADSB_AUTO_START=${INTERCEPT_ADSB_AUTO_START:-false}
+      # Shared observer location across modules
+      - INTERCEPT_SHARED_OBSERVER_LOCATION=${INTERCEPT_SHARED_OBSERVER_LOCATION:-true}
+      # Default observer coordinates (set to your location to skip the GPS prompt)
+      # - INTERCEPT_DEFAULT_LAT=${INTERCEPT_DEFAULT_LAT:-0}
+      # - INTERCEPT_DEFAULT_LON=${INTERCEPT_DEFAULT_LON:-0}
     # Network mode for WiFi scanning (requires host network)
     # network_mode: host
     restart: unless-stopped
@@ -49,15 +60,23 @@ services:
   # ADS-B history with Postgres persistence
   # Enable with: docker compose --profile history up -d
   intercept-history:
+    # Same image/build fallback pattern as above
+    image: ${INTERCEPT_IMAGE:-intercept:latest}
     build: .
-    container_name: intercept
+    container_name: intercept-history
     profiles:
       - history
     depends_on:
       - adsb_db
     ports:
       - "5050:5050"
+    # Privileged mode required for USB SDR device access
     privileged: true
+    # USB device mapping for all USB devices
+    devices:
+      - /dev/bus/usb:/dev/bus/usb
+    volumes:
+      - ./data:/app/data
     environment:
       - INTERCEPT_HOST=0.0.0.0
       - INTERCEPT_PORT=5050
@@ -68,6 +87,13 @@ services:
       - INTERCEPT_ADSB_DB_NAME=intercept_adsb
       - INTERCEPT_ADSB_DB_USER=intercept
       - INTERCEPT_ADSB_DB_PASSWORD=intercept
+      # ADS-B auto-start on dashboard load (default false)
+      - INTERCEPT_ADSB_AUTO_START=${INTERCEPT_ADSB_AUTO_START:-false}
+      # Shared observer location across modules
+      - INTERCEPT_SHARED_OBSERVER_LOCATION=${INTERCEPT_SHARED_OBSERVER_LOCATION:-true}
+      # Default observer coordinates (set to your location to skip the GPS prompt)
+      # - INTERCEPT_DEFAULT_LAT=${INTERCEPT_DEFAULT_LAT:-0}
+      # - INTERCEPT_DEFAULT_LON=${INTERCEPT_DEFAULT_LON:-0}
     restart: unless-stopped
     healthcheck:
       test: ["CMD", "curl", "-sf", "http://localhost:5050/health"]
@@ -86,7 +112,8 @@ services:
       - POSTGRES_USER=intercept
       - POSTGRES_PASSWORD=intercept
     volumes:
-      - ./pgdata:/var/lib/postgresql/data
+      # Default local path (override with PGDATA_PATH for external storage)
+      - ${PGDATA_PATH:-./pgdata}:/var/lib/postgresql/data
     restart: unless-stopped
     healthcheck:
       test: ["CMD-SHELL", "pg_isready -U intercept -d intercept_adsb"]

docs/CNAME

@@ -0,0 +1 @@
+www.intercept-sigint.com

docs/DISTRIBUTED_AGENTS.md

@@ -0,0 +1,506 @@
+# Intercept Distributed Agent System
+
+This document describes the distributed agent architecture that allows multiple remote sensor nodes to feed data into a central Intercept controller.
+
+## Overview
+
+The agent system uses a hub-and-spoke architecture where:
+- **Controller**: The main Intercept instance that aggregates data from multiple agents
+- **Agents**: Lightweight sensor nodes running on remote devices with SDR hardware
+
+```
+                    ┌─────────────────────────────────┐
+                    │      INTERCEPT CONTROLLER       │
+                    │         (port 5050)             │
+                    │                                 │
+                    │  - Web UI with agent selector   │
+                    │  - /controller/manage page      │
+                    │  - Multi-agent SSE stream       │
+                    │  - Push data storage            │
+                    └─────────────────────────────────┘
+                         ▲           ▲           ▲
+                         │           │           │
+              Push/Pull  │           │           │  Push/Pull
+                         │           │           │
+                    ┌────┴───┐  ┌────┴───┐  ┌────┴───┐
+                    │ Agent  │  │ Agent  │  │ Agent  │
+                    │  :8020 │  │  :8020 │  │  :8020 │
+                    │        │  │        │  │        │
+                    │[RTL-SDR]  │[HackRF] │  │[LimeSDR]
+                    └────────┘  └────────┘  └────────┘
+```
+
+## Quick Start
+
+### 1. Start the Controller
+
+The controller is the main Intercept application:
+
+```bash
+cd intercept
+python app.py
+# Runs on http://localhost:5050
+```
+
+### 2. Configure an Agent
+
+Create a config file on the remote machine:
+
+```ini
+# intercept_agent.cfg
+[agent]
+name = sensor-node-1
+port = 8020
+allowed_ips =
+allow_cors = false
+
+[controller]
+url = http://192.168.1.100:5050
+api_key = your-secret-key-here
+push_enabled = true
+push_interval = 5
+
+[modes]
+pager = true
+sensor = true
+adsb = true
+wifi = true
+bluetooth = true
+```
+
+### 3. Start the Agent
+
+```bash
+python intercept_agent.py --config intercept_agent.cfg
+# Runs on http://localhost:8020
+```
+
+### 4. Register the Agent
+
+Go to `http://controller:5050/controller/manage` and add the agent:
+- **Name**: sensor-node-1 (must match config)
+- **Base URL**: http://agent-ip:8020
+- **API Key**: your-secret-key-here (must match config)
+
+## Architecture
+
+### Data Flow
+
+The system supports two data flow patterns:
+
+#### Push (Agent → Controller)
+
+Agents automatically push captured data to the controller:
+
+1. Agent captures data (e.g., rtl_433 sensor readings)
+2. Data is queued in the `ControllerPushClient`
+3. Agent POSTs to `http://controller/controller/api/ingest`
+4. Controller validates API key and stores in `push_payloads` table
+5. Data is available via SSE stream at `/controller/stream/all`
+
+```
+Agent                           Controller
+  │                                 │
+  │  POST /controller/api/ingest    │
+  │  Header: X-API-Key: secret      │
+  │  Body: {agent_name, scan_type,  │
+  │         payload, timestamp}     │
+  │ ──────────────────────────────► │
+  │                                 │
+  │         200 OK                  │
+  │ ◄────────────────────────────── │
+```
+
+#### Pull (Controller → Agent)
+
+The controller can also pull data on-demand:
+
+1. User selects agent in UI dropdown
+2. User clicks "Start Listening"
+3. Controller proxies request to agent
+4. Agent starts the mode and returns status
+5. Controller polls agent for data
+
+```
+Browser                 Controller                    Agent
+   │                        │                           │
+   │ POST /controller/      │                           │
+   │   agents/1/sensor/start│                           │
+   │ ─────────────────────► │                           │
+   │                        │ POST /sensor/start        │
+   │                        │ ────────────────────────► │
+   │                        │                           │
+   │                        │      {status: started}    │
+   │                        │ ◄──────────────────────── │
+   │    {status: success}   │                           │
+   │ ◄───────────────────── │                           │
+```
+
+### Authentication
+
+API key authentication secures the push mechanism:
+
+1. Agent config specifies `api_key` in `[controller]` section
+2. Agent sends `X-API-Key` header with each push request
+3. Controller looks up agent by name in database
+4. Controller compares provided key with stored key
+5. Mismatched keys return 401 Unauthorized
+
+### Database Schema
+
+Two tables support the agent system:
+
+```sql
+-- Registered agents
+CREATE TABLE agents (
+    id INTEGER PRIMARY KEY,
+    name TEXT UNIQUE NOT NULL,
+    base_url TEXT NOT NULL,
+    api_key TEXT,
+    capabilities TEXT,      -- JSON: {pager: true, sensor: true, ...}
+    interfaces TEXT,        -- JSON: {devices: [...]}
+    gps_coords TEXT,        -- JSON: {lat, lon}
+    last_seen TIMESTAMP,
+    is_active BOOLEAN
+);
+
+-- Pushed data from agents
+CREATE TABLE push_payloads (
+    id INTEGER PRIMARY KEY,
+    agent_id INTEGER,
+    scan_type TEXT,         -- pager, sensor, adsb, wifi, etc.
+    payload TEXT,           -- JSON data
+    received_at TIMESTAMP,
+    FOREIGN KEY (agent_id) REFERENCES agents(id)
+);
+```
+
+## Agent REST API
+
+The agent exposes these endpoints:
+
+| Endpoint | Method | Description |
+|----------|--------|-------------|
+| `/health` | GET | Health check (returns `{status: "healthy"}`) |
+| `/capabilities` | GET | Available modes, devices, GPS status |
+| `/status` | GET | Running modes, uptime, push status |
+| `/{mode}/start` | POST | Start a mode (pager, sensor, adsb, etc.) |
+| `/{mode}/stop` | POST | Stop a mode |
+| `/{mode}/status` | GET | Mode-specific status |
+| `/{mode}/data` | GET | Current data snapshot |
+
+### Example: Start Sensor Mode
+
+```bash
+curl -X POST http://agent:8020/sensor/start \
+  -H "Content-Type: application/json" \
+  -d '{"frequency": 433.92, "device_index": 0}'
+```
+
+Response:
+```json
+{
+  "status": "started",
+  "mode": "sensor",
+  "command": "/usr/local/bin/rtl_433 -d 0 -f 433.92M -F json",
+  "gps_enabled": true
+}
+```
+
+### Example: Get Capabilities
+
+```bash
+curl http://agent:8020/capabilities
+```
+
+Response:
+```json
+{
+  "modes": {
+    "pager": true,
+    "sensor": true,
+    "adsb": true,
+    "wifi": true,
+    "bluetooth": true
+  },
+  "devices": [
+    {
+      "index": 0,
+      "name": "RTLSDRBlog, Blog V4",
+      "sdr_type": "rtlsdr",
+      "capabilities": {
+        "freq_min_mhz": 24.0,
+        "freq_max_mhz": 1766.0
+      }
+    }
+  ],
+  "gps": true,
+  "gps_position": {
+    "lat": 33.543,
+    "lon": -82.194,
+    "altitude": 70.0
+  },
+  "tool_details": {
+    "sensor": {
+      "name": "433MHz Sensors",
+      "ready": true,
+      "tools": {
+        "rtl_433": {"installed": true, "required": true}
+      }
+    }
+  }
+}
+```
+
+## Supported Modes
+
+All modes are fully implemented in the agent with the following tools and data formats:
+
+| Mode | Tool(s) | Data Format | Notes |
+|------|---------|-------------|-------|
+| `sensor` | rtl_433 | JSON readings | ISM band devices (433/868/915 MHz) |
+| `pager` | rtl_fm + multimon-ng | POCSAG/FLEX messages | Address, function, message content |
+| `adsb` | dump1090 | SBS-format aircraft | ICAO, callsign, position, altitude |
+| `ais` | AIS-catcher | JSON vessels | MMSI, position, speed, vessel info |
+| `acars` | acarsdec | JSON messages | Aircraft tail, label, message text |
+| `aprs` | rtl_fm + direwolf | APRS packets | Callsign, position, path |
+| `wifi` | airodump-ng | Networks + clients | BSSID, ESSID, signal, clients |
+| `bluetooth` | bluetoothctl | Device list | MAC, name, RSSI |
+| `rtlamr` | rtl_tcp + rtlamr | Meter readings | Meter ID, consumption data |
+| `dsc` | rtl_fm (+ dsc-decoder) | DSC messages | MMSI, distress category, position |
+| `tscm` | WiFi/BT analysis | Anomaly reports | New/rogue devices detected |
+| `satellite` | skyfield (TLE) | Pass predictions | No SDR required |
+| `listening_post` | rtl_fm scanner | Signal detections | Frequency, modulation |
+
+### Mode-Specific Notes
+
+**Listening Post**: Full FFT streaming isn't practical over HTTP. Instead, the agent provides:
+- Signal detection events when activity is found
+- Current scanning frequency
+- Activity log of detected signals
+
+**TSCM**: Analyzes WiFi and Bluetooth data for anomalies:
+- Builds baseline of known devices
+- Reports new/unknown devices as anomalies
+- No SDR required (uses WiFi/BT data)
+
+**Satellite**: Pure computational mode:
+- Calculates pass predictions from TLE data
+- Requires observer location (lat/lon)
+- No SDR required
+
+**Audio Modes**: Modes requiring real-time audio (airband, listening_post audio) are limited via agents. Use rtl_tcp for remote audio streaming instead.
+
+## Controller API
+
+### Agent Management
+
+| Endpoint | Method | Description |
+|----------|--------|-------------|
+| `/controller/agents` | GET | List all agents |
+| `/controller/agents` | POST | Register new agent |
+| `/controller/agents/{id}` | GET | Get agent details |
+| `/controller/agents/{id}` | DELETE | Remove agent |
+| `/controller/agents/{id}?refresh=true` | GET | Refresh agent capabilities |
+
+### Proxy Operations
+
+| Endpoint | Method | Description |
+|----------|--------|-------------|
+| `/controller/agents/{id}/{mode}/start` | POST | Start mode on agent |
+| `/controller/agents/{id}/{mode}/stop` | POST | Stop mode on agent |
+| `/controller/agents/{id}/{mode}/data` | GET | Get data from agent |
+
+### Push Ingestion
+
+| Endpoint | Method | Description |
+|----------|--------|-------------|
+| `/controller/api/ingest` | POST | Receive pushed data from agents |
+
+### SSE Streams
+
+| Endpoint | Description |
+|----------|-------------|
+| `/controller/stream/all` | Combined stream from all agents |
+
+## Frontend Integration
+
+### Agent Selector
+
+The main UI includes an agent dropdown in supported modes:
+
+```html
+<select id="agentSelect">
+    <option value="local">Local (This Device)</option>
+    <option value="1">● sensor-node-1</option>
+</select>
+```
+
+When an agent is selected:
+1. Device list updates to show agent's SDR devices
+2. Start/Stop commands route through controller proxy
+3. Data displays with agent name badge
+
+### Multi-Agent Mode
+
+Enable "Show All Agents" checkbox to:
+- Connect to `/controller/stream/all` SSE
+- Display combined data from all agents
+- Show agent name badge on each data item
+
+## GPS Integration
+
+Agents can include GPS coordinates with captured data:
+
+1. Agent connects to local `gpsd` daemon
+2. GPS position included in `/capabilities` and `/status`
+3. Each data snapshot includes `agent_gps` field
+4. Controller can use GPS for trilateration (multiple agents)
+
+## Configuration Reference
+
+### Agent Config (`intercept_agent.cfg`)
+
+```ini
+[agent]
+# Agent identity (must be unique across all agents)
+name = sensor-node-1
+
+# Port to listen on
+port = 8020
+
+# Restrict connections to specific IPs (comma-separated, empty = all)
+allowed_ips =
+
+# Enable CORS headers
+allow_cors = false
+
+[controller]
+# Controller URL (required for push)
+url = http://192.168.1.100:5050
+
+# API key for authentication
+api_key = your-secret-key
+
+# Enable automatic data push
+push_enabled = true
+
+# Push interval in seconds
+push_interval = 5
+
+[modes]
+# Enable/disable specific modes
+pager = true
+sensor = true
+adsb = true
+ais = true
+wifi = true
+bluetooth = true
+```
+
+## Troubleshooting
+
+### Agent not appearing in controller
+
+1. Check agent is running: `curl http://agent:8020/health`
+2. Verify agent is registered in `/controller/manage`
+3. Check API key matches between agent config and controller registration
+4. Check network connectivity between agent and controller
+
+### Push data not arriving
+
+1. Check agent status: `curl http://agent:8020/status`
+   - Verify `push_enabled: true` and `push_connected: true`
+2. Check controller logs for authentication errors
+3. Verify API key matches
+4. Check if mode is running and producing data
+
+### Mode won't start on agent
+
+1. Check capabilities: `curl http://agent:8020/capabilities`
+2. Verify required tools are installed (check `tool_details`)
+3. Check if SDR device is available (not in use by another process)
+
+### No data from sensor mode
+
+1. Verify rtl_433 is running: `ps aux | grep rtl_433`
+2. Check sensor status: `curl http://agent:8020/sensor/status`
+3. Note: Empty data is normal if no 433MHz devices are transmitting nearby
+
+## Security Considerations
+
+1. **API Keys**: Always use strong, unique API keys for each agent
+2. **Network**: Consider running agents on a private network or VPN
+3. **HTTPS**: For production, use HTTPS between agents and controller
+4. **Firewall**: Restrict agent ports to controller IP only
+5. **allowed_ips**: Use this config option to restrict agent connections
+
+## Dashboard Integration
+
+Agent support has been integrated into the following specialized dashboards:
+
+### ADS-B Dashboard (`/adsb/dashboard`)
+- Agent selector in header bar
+- Routes tracking start/stop through agent proxy when remote agent selected
+- Connects to multi-agent stream for data from remote agents
+- Displays agent badge on aircraft from remote sources
+- Updates observer location from agent's GPS coordinates
+
+### AIS Dashboard (`/ais/dashboard`)
+- Agent selector in header bar
+- Routes AIS and DSC mode operations through agent proxy
+- Connects to multi-agent stream for vessel data
+- Displays agent badge on vessels from remote sources
+- Updates observer location from agent's GPS coordinates
+
+### Main Dashboard (`/`)
+- Agent selector in sidebar
+- Supports sensor, pager, WiFi, Bluetooth modes via agents
+- SDR conflict detection with device-aware warnings
+- Real-time sync with agent's running mode state
+
+### Multi-SDR Agent Support
+
+For agents with multiple SDR devices, the system now tracks which device each mode is using:
+
+```json
+{
+  "running_modes": ["sensor", "adsb"],
+  "running_modes_detail": {
+    "sensor": {"device": 0, "started_at": "2024-01-15T10:30:00Z"},
+    "adsb": {"device": 1, "started_at": "2024-01-15T10:35:00Z"}
+  }
+}
+```
+
+This allows:
+- Smart conflict detection (only warns if same device is in use)
+- Display of which device each mode is using
+- Parallel operation of multiple SDR modes on multi-SDR agents
+
+### Agent Mode Warnings
+
+When an agent has SDR modes running, the UI displays:
+- Warning banner showing active modes with device numbers
+- Stop buttons for each running mode
+- Refresh button to re-sync with agent state
+
+### Pages Without Agent Support
+
+The following pages don't require SDR-based agent support:
+- **Satellite Dashboard** (`/satellite/dashboard`) - Uses TLE orbital calculations, no SDR
+- **History pages** - Display stored data, not live SDR streams
+
+## Files
+
+| File | Description |
+|------|-------------|
+| `intercept_agent.py` | Standalone agent server |
+| `intercept_agent.cfg` | Agent configuration template |
+| `routes/controller.py` | Controller API blueprint |
+| `utils/agent_client.py` | HTTP client for agents |
+| `utils/database.py` | Agent CRUD operations |
+| `static/js/core/agents.js` | Frontend agent management |
+| `templates/agents.html` | Agent management page |
+| `templates/adsb_dashboard.html` | ADS-B page with agent integration |
+| `templates/ais_dashboard.html` | AIS page with agent integration |

docs/FEATURES.md

@@ -16,6 +16,14 @@ Complete feature list for all modules.
 - **Doorbells, remotes, and IoT devices**
 - **Smart meters** and utility monitors
 
+## Sub-GHz Analyzer
+
+- **HackRF-based** signal capture and analysis for 300-928 MHz ISM bands
+- **Protocol decoding** - identify and decode common Sub-GHz protocols
+- **Signal replay/transmit** capabilities for authorized testing
+- **Wideband spectrum analysis** with real-time visualization
+- **I/Q capture** - record raw samples for offline analysis
+
 ## AIS Vessel Tracking
 
 - **Real-time vessel tracking** via AIS-catcher on 161.975/162.025 MHz
@@ -38,22 +46,22 @@ Complete feature list for all modules.
 - **Source links** - references to priyom.org for detailed information
 - **Famous stations** - UVB-76 "The Buzzer", Cuban HM01, Israeli E17z
 
-## ADS-B Aircraft Tracking
-
-- **Real-time aircraft tracking** via dump1090 or rtl_adsb
-- **Full-screen dashboard** - dedicated popout with virtual radar scope
-- **Interactive Leaflet map** with OpenStreetMap tiles (dark-themed)
-- **Aircraft trails** - optional flight path history visualization
-- **Range rings** - distance reference circles from observer position
-- **Aircraft filtering** - show all, military only, civil only, or emergency only
-- **Marker clustering** - group nearby aircraft at lower zoom levels
-- **Reception statistics** - max range, message rate, busiest hour, total seen
-- **Persistent ADS-B history** - optional Postgres-backed message and snapshot storage
-- **History reporting dashboard** - session controls, aircraft timelines, and detail modal
-- **Observer location** - manual input or GPS geolocation
-- **Audio alerts** - notifications for military and emergency aircraft
-- **Emergency squawk highlighting** - visual alerts for 7500/7600/7700
-- **Aircraft details popup** - callsign, altitude, speed, heading, squawk, ICAO
+## ADS-B Aircraft Tracking
+
+- **Real-time aircraft tracking** via dump1090 or rtl_adsb
+- **Full-screen dashboard** - dedicated popout with virtual radar scope
+- **Interactive Leaflet map** with OpenStreetMap tiles (dark-themed)
+- **Aircraft trails** - optional flight path history visualization
+- **Range rings** - distance reference circles from observer position
+- **Aircraft filtering** - show all, military only, civil only, or emergency only
+- **Marker clustering** - group nearby aircraft at lower zoom levels
+- **Reception statistics** - max range, message rate, busiest hour, total seen
+- **Persistent ADS-B history** - optional Postgres-backed message and snapshot storage
+- **History reporting dashboard** - session controls, aircraft timelines, and detail modal
+- **Observer location** - manual input or GPS geolocation
+- **Audio alerts** - notifications for military and emergency aircraft
+- **Emergency squawk highlighting** - visual alerts for 7500/7600/7700
+- **Aircraft details popup** - callsign, altitude, speed, heading, squawk, ICAO
 
 <p align="center">
   <img src="/static/images/screenshots/screenshot_radar.png" alt="Screenshot">
@@ -84,6 +92,95 @@ Digital Selective Calling (DSC) monitoring on the international maritime distres
 - **SDR conflict detection** - Prevents device collisions with AIS tracking
 - **Alert summary** - Dashboard counts for unacknowledged distress/urgency
 
+## ACARS Messaging
+
+- **Real-time ACARS decoding** via acarsdec
+- **Aircraft datalink messages** - operational, weather, and position reports
+- **Multi-SDR support** - RTL-SDR, HackRF, LimeSDR, Airspy, SDRplay
+- **Message filtering** - filter by message type, flight, or registration
+
+## VDL2 (VHF Data Link Mode 2)
+
+- **Real-time VDL2 decoding** via dumpvdl2 on standard VDL2 frequencies
+- **ACARS-over-AVLC** message capture with full frame parsing
+- **Signal analysis** - frequency, signal level, noise level, SNR, burst length
+- **AVLC frame details** - source/destination addresses, frame type, command/response
+- **Raw JSON inspection** - expandable raw message data for each frame
+- **Multi-frequency monitoring** - simultaneous reception on multiple VDL2 channels
+- **Multi-SDR support** - RTL-SDR, HackRF, LimeSDR, Airspy, SDRplay
+- **CSV/JSON export** - export captured messages for offline analysis
+- **Integrated with ADS-B dashboard** - VDL2 messages linked to aircraft tracking
+
+## Listening Post
+
+- **Wideband frequency scanning** via rtl_power sweep with SNR filtering
+- **Real-time audio monitoring** with FM and SSB demodulation
+- **Cross-module frequency routing** from scanner to decoders
+- **Customizable frequency presets** and band bookmarks
+- **Multi-SDR support** - RTL-SDR, LimeSDR, HackRF, Airspy, SDRplay
+
+## Weather Satellites
+
+- **NOAA APT** and **Meteor LRPT** image decoding via SatDump
+- **Auto-scheduler** with pass prediction and automatic capture
+- **Polar plot** - real-time satellite position on azimuth/elevation display
+- **Ground track map** - orbit path with past/future trajectory
+- **Image gallery** with timestamped decoded imagery
+
+## WebSDR
+
+- **KiwiSDR network integration** for remote HF/shortwave listening
+- **WebSocket audio streaming** from remote receivers
+- **Receiver discovery** with automatic caching
+- **Frequency tuning** with band presets
+
+## ISS SSTV
+
+- **ISS SSTV image reception** on 145.800 MHz FM during special event transmissions
+- **Real-time ISS tracking** with world map and pass predictions
+- **Doppler correction** - optional lat/lon input for real-time frequency shift compensation
+- **Next pass countdown** - time remaining until ISS is overhead
+- **Image gallery** with timestamped decoded imagery
+- **TLE updates** - fetch latest ISS orbital elements
+- **Multi-SDR support** - RTL-SDR, HackRF, LimeSDR, Airspy, SDRplay
+
+## HF SSTV
+
+- **Terrestrial SSTV decoding** across HF (80m-10m), VHF (6m, 2m), and UHF (70cm) bands
+- **Predefined frequency lookup** for 13 active SSTV calling frequencies
+- **Auto-modulation selection** - frequency table maps to correct mode (USB, LSB, FM)
+- **Image gallery** with decoded transmissions
+- **Common modes supported** - PD120, PD180, Martin1, Scottie1, Robot36
+
+## APRS
+
+- **Amateur packet radio** position reports and telemetry via direwolf
+- **Region-specific frequencies** - 144.390 MHz (North America), 144.800 MHz (Europe), and more
+- **Real-time position tracking** on interactive map
+- **Message and telemetry display** from APRS network
+
+## Utility Meter Reading
+
+- **Smart meter monitoring** via rtl_amr for electric, gas, and water meters
+- **Real-time JSON output** with meter ID, consumption, and signal data
+- **Multiple meter protocol support** via rtl_tcp integration
+
+## Space Weather
+
+- **Real-time solar indices** - Solar Flux Index (SFI), Kp index, A-index, sunspot number
+- **NOAA Space Weather Scales** - Geomagnetic storms (G), solar radiation (S), radio blackouts (R)
+- **HF band conditions** - Day/night propagation from HamQSL for 80m through 10m bands
+- **Solar wind monitoring** - Speed, density, and IMF Bz from DSCOVR satellite
+- **X-ray flux chart** - GOES X-ray data with flare class scale (A/B/C/M/X)
+- **Flare probability** - 1-day and 3-day C/M/X-class flare forecasts
+- **Solar imagery** - NASA SDO 193A, 304A, and magnetogram images
+- **D-RAP absorption maps** - HF radio absorption at 5-30 MHz frequency bands
+- **Aurora forecast** - OVATION aurora oval visualization
+- **SWPC alerts** - Real-time space weather alerts and warnings
+- **Active solar regions** - Current sunspot region data with location and area
+- **Auto-refresh** - 5-minute polling with manual refresh option
+- **No SDR required** - Data fetched from NOAA SWPC, NASA SDO, and HamQSL public APIs
+
 ## Satellite Tracking
 
 - **Full-screen dashboard** - dedicated popout with polar plot and ground track
@@ -131,6 +228,52 @@ Digital Selective Calling (DSC) monitoring on the international maritime distres
 - **Proximity radar** visualization
 - **Device type breakdown** chart
 
+## BT Locate (SAR Bluetooth Device Location)
+
+Search and rescue Bluetooth device location with GPS-tagged signal trail mapping.
+
+### Core Features
+- **Target tracking** - Locate devices by MAC address, name pattern, or IRK (Identity Resolving Key)
+- **RPA resolution** - Resolve BLE Resolvable Private Addresses using IRK for tracking devices with randomized addresses
+- **IRK auto-detection** - Extract IRKs from paired devices on macOS and Linux
+- **GPS-tagged signal trail** - Every detection is tagged with GPS coordinates for trail mapping
+- **Proximity bands** - IMMEDIATE (<1m), NEAR (1-5m), FAR (>5m) with color-coded HUD
+- **RSSI history chart** - Real-time signal strength sparkline for trend analysis
+- **Distance estimation** - Log-distance path loss model with environment presets
+- **Audio proximity alerts** - Web Audio API tones that increase in pitch as signal strengthens
+- **Hand-off from Bluetooth mode** - One-click transfer of a device from BT scanner to BT Locate
+
+### Environment Presets
+- **Open Field** (n=2.0) - Free space path loss
+- **Outdoor** (n=2.2) - Typical outdoor environment
+- **Indoor** (n=3.0) - Indoor with walls and obstacles
+
+### Map & Trail
+- Interactive Leaflet map with GPS trail visualization
+- Trail points color-coded by proximity band
+- Polyline connecting detection points for path visualization
+- Supports user-configured tile providers
+
+### Requirements
+- Bluetooth adapter (built-in or USB)
+- GPS receiver (optional, falls back to manual coordinates)
+
+## GPS Mode
+
+Real-time GPS position tracking with live map visualization.
+
+### Features
+- **Live position tracking** - Real-time latitude, longitude, altitude display
+- **Interactive map** - Current position on Leaflet map with track history
+- **Speed and heading** - Real-time speed (km/h) and compass heading
+- **Satellite info** - Number of satellites in view and fix quality
+- **Track recording** - Record GPS tracks with export capability
+- **Accuracy display** - Horizontal and vertical position accuracy (EPX/EPY)
+
+### Requirements
+- USB GPS receiver connected via gpsd
+- gpsd daemon running (`sudo gpsd /dev/ttyUSB0 -F /var/run/gpsd.sock`)
+
 ## TSCM Counter-Surveillance Mode
 
 Technical Surveillance Countermeasures (TSCM) screening for detecting wireless surveillance indicators.
@@ -165,6 +308,78 @@ Technical Surveillance Countermeasures (TSCM) screening for detecting wireless s
 - No cryptographic de-randomization
 - Passive screening only (no active probing by default)
 
+## Meshtastic Mesh Networks
+
+Integration with Meshtastic LoRa mesh networking devices for decentralized communication.
+
+### Device Support
+- **Heltec** - LoRa32 series
+- **T-Beam** - TTGO T-Beam with GPS
+- **RAK** - WisBlock series
+- Any Meshtastic-compatible device via USB/Serial
+
+### Features
+- **Real-time messaging** - Stream messages as they arrive
+- **Channel configuration** - Set encryption keys and channel names
+- **Node information** - View connected nodes with signal metrics
+- **Message history** - Up to 500 messages retained
+- **Signal quality** - RSSI and SNR for each message
+- **Hop tracking** - See message hop count
+
+### Requirements
+- Physical Meshtastic device connected via USB
+- Meshtastic Python SDK (`pip install meshtastic`)
+
+## Ubertooth One BLE Scanning
+
+Advanced Bluetooth Low Energy scanning using Ubertooth One hardware.
+
+### Capabilities
+- **40-channel scanning** - Capture BLE advertisements across all channels
+- **Raw payload access** - Full advertising data for analysis
+- **Passive sniffing** - No active scanning required
+- **MAC address extraction** - Public and random address types
+- **RSSI measurement** - Signal strength for proximity estimation
+
+### Integration
+- Works alongside standard BlueZ/DBus Bluetooth scanning
+- Automatically detected when ubertooth-btle is available
+- Falls back to standard adapter if Ubertooth not present
+
+### Requirements
+- Ubertooth One hardware
+- ubertooth-btle command-line tool installed
+- libubertooth library
+
+## Remote Agents (Distributed SIGINT)
+
+Deploy lightweight sensor nodes across multiple locations and aggregate data to a central controller.
+
+### Architecture
+- **Hub-and-spoke model** - Central controller with multiple remote agents
+- **Push and Pull modes** - Agents can push data automatically or respond to on-demand requests
+- **API key authentication** - Secure communication between agents and controller
+
+### Agent Features
+- **Standalone deployment** - Run on Raspberry Pi, mini PCs, or any Linux device with SDR
+- **All modes supported** - Pager, sensor, ADS-B, AIS, WiFi, Bluetooth, and more
+- **GPS integration** - Automatic location tagging from USB GPS receivers
+- **Multi-SDR support** - Run multiple modes simultaneously on agents with multiple SDRs
+- **Capability discovery** - Controller auto-detects available modes and devices
+
+### Controller Features
+- **Agent management UI** - Register, test, and remove agents from `/controller/manage`
+- **Real-time status** - Health monitoring with online/offline indicators
+- **Unified data stream** - Aggregate data from all agents via SSE
+- **Dashboard integration** - Agent selector in ADS-B, AIS, and main dashboards
+- **Device conflict detection** - Smart warnings when SDR is in use
+
+### Use Cases
+- **Wide-area monitoring** - Cover larger geographic areas with distributed sensors
+- **Remote installations** - Deploy sensors in locations without direct access
+- **Redundancy** - Multiple nodes for reliable coverage
+- **Triangulation** - Use multiple GPS-enabled agents for signal location
+
 ## User Interface
 
 - **Mode-specific header stats** - real-time badges showing key metrics per mode
@@ -186,6 +401,42 @@ Technical Surveillance Countermeasures (TSCM) screening for detecting wireless s
 | ? | Open help (when not typing) |
 | Escape | Close help/modals |
 
+## Offline Mode
+
+Run iNTERCEPT without internet connectivity by using bundled local assets.
+
+### Bundled Assets
+- **Leaflet 1.9.4** - Map library with marker images
+- **Chart.js 4.4.1** - Signal strength graphs
+- **Inter font** - Primary UI font (400, 500, 600, 700 weights)
+- **JetBrains Mono font** - Monospace/code font (400, 500, 600, 700 weights)
+
+### Settings Modal
+Access via the gear icon in the navigation bar:
+- **Offline Tab** - Toggle offline mode, configure asset sources (CDN vs local)
+- **Display Tab** - Theme and animation preferences
+- **About Tab** - Version info and links
+
+### Map Tile Providers
+Choose from multiple tile sources for maps:
+- **OpenStreetMap** - Default, general purpose
+- **CartoDB Dark** - Dark themed, matches UI
+- **CartoDB Positron** - Light themed
+- **ESRI World Imagery** - Satellite imagery
+- **Custom URL** - Connect to your own tile server (e.g., local OpenStreetMap tile cache)
+
+### Local Asset Status
+The settings modal shows availability status for each bundled asset:
+- Green "Available" badge when asset is present
+- Red "Missing" badge when asset is not found
+- Click "Check Assets" to refresh status
+
+### Use Cases
+- **Air-gapped environments** - Run on isolated networks
+- **Field deployments** - Operate without reliable internet
+- **Local tile servers** - Use pre-cached map tiles for specific regions
+- **Reduced latency** - Faster loading with local assets
+
 ## General
 
 - **Web-based interface** - no desktop app needed

docs/UI_GUIDE.md

@@ -0,0 +1,618 @@
+# iNTERCEPT UI Guide
+
+This guide documents the UI design system, components, and patterns used in iNTERCEPT.
+
+## Table of Contents
+
+1. [Design Tokens](#design-tokens)
+2. [Base Templates](#base-templates)
+3. [Navigation](#navigation)
+4. [Components](#components)
+5. [Adding a New Module Page](#adding-a-new-module-page)
+6. [Adding a New Dashboard](#adding-a-new-dashboard)
+
+---
+
+## Design Tokens
+
+All design tokens are defined in `static/css/core/variables.css`. Import this file first in any stylesheet.
+
+### Colors
+
+```css
+/* Backgrounds (layered depth) */
+--bg-primary: #0a0c10;      /* Darkest - page background */
+--bg-secondary: #0f1218;    /* Panels, sidebars */
+--bg-tertiary: #151a23;     /* Cards, elevated elements */
+--bg-card: #121620;         /* Card backgrounds */
+--bg-elevated: #1a202c;     /* Hover states, modals */
+
+/* Accent Colors */
+--accent-cyan: #4a9eff;     /* Primary action color */
+--accent-green: #22c55e;    /* Success, online status */
+--accent-red: #ef4444;      /* Error, danger, stop */
+--accent-orange: #f59e0b;   /* Warning */
+--accent-amber: #d4a853;    /* Secondary highlight */
+
+/* Text Hierarchy */
+--text-primary: #e8eaed;    /* Main content */
+--text-secondary: #9ca3af;  /* Secondary content */
+--text-dim: #4b5563;        /* Disabled, placeholder */
+--text-muted: #374151;      /* Barely visible */
+
+/* Status Colors */
+--status-online: #22c55e;
+--status-warning: #f59e0b;
+--status-error: #ef4444;
+--status-offline: #6b7280;
+```
+
+### Spacing Scale
+
+```css
+--space-1: 4px;
+--space-2: 8px;
+--space-3: 12px;
+--space-4: 16px;
+--space-5: 20px;
+--space-6: 24px;
+--space-8: 32px;
+--space-10: 40px;
+--space-12: 48px;
+--space-16: 64px;
+```
+
+### Typography
+
+```css
+/* Font Families */
+--font-sans: 'Inter', -apple-system, sans-serif;
+--font-mono: 'JetBrains Mono', monospace;
+
+/* Font Sizes */
+--text-xs: 10px;
+--text-sm: 12px;
+--text-base: 14px;
+--text-lg: 16px;
+--text-xl: 18px;
+--text-2xl: 20px;
+--text-3xl: 24px;
+--text-4xl: 30px;
+```
+
+### Border Radius
+
+```css
+--radius-sm: 4px;
+--radius-md: 6px;
+--radius-lg: 8px;
+--radius-xl: 12px;
+--radius-full: 9999px;
+```
+
+### Light Theme
+
+The design system supports light/dark themes via `data-theme` attribute:
+
+```html
+<html data-theme="dark">  <!-- or "light" -->
+```
+
+Toggle with JavaScript:
+```javascript
+document.documentElement.setAttribute('data-theme', 'light');
+```
+
+---
+
+## Base Templates
+
+### `templates/layout/base.html`
+
+The main base template for standard pages. Use for pages with sidebar + content layout.
+
+```html
+{% extends 'layout/base.html' %}
+
+{% block title %}My Page Title{% endblock %}
+
+{% block styles %}
+<link rel="stylesheet" href="{{ url_for('static', filename='css/my-page.css') }}">
+{% endblock %}
+
+{% block navigation %}
+{% set active_mode = 'mymode' %}
+{% include 'partials/nav.html' %}
+{% endblock %}
+
+{% block sidebar %}
+<div class="app-sidebar">
+    <!-- Sidebar content -->
+</div>
+{% endblock %}
+
+{% block content %}
+<div class="page-container">
+    <h1>Page Title</h1>
+    <!-- Page content -->
+</div>
+{% endblock %}
+
+{% block scripts %}
+<script>
+    // Page-specific JavaScript
+</script>
+{% endblock %}
+```
+
+### `templates/layout/base_dashboard.html`
+
+Extended base for full-screen dashboards (maps, visualizations).
+
+```html
+{% extends 'layout/base_dashboard.html' %}
+
+{% set active_mode = 'mydashboard' %}
+
+{% block dashboard_title %}MY DASHBOARD{% endblock %}
+
+{% block styles %}
+{{ super() }}
+<link rel="stylesheet" href="{{ url_for('static', filename='css/my_dashboard.css') }}">
+{% endblock %}
+
+{% block stats_strip %}
+<div class="stats-strip">
+    <!-- Stats bar content -->
+</div>
+{% endblock %}
+
+{% block dashboard_content %}
+<div class="dashboard-map-container">
+    <!-- Main visualization -->
+</div>
+<div class="dashboard-sidebar">
+    <!-- Sidebar panels -->
+</div>
+{% endblock %}
+```
+
+---
+
+## Navigation
+
+### Including Navigation
+
+```html
+{% set active_mode = 'pager' %}
+{% include 'partials/nav.html' %}
+```
+
+### Valid `active_mode` Values
+
+| Mode | Description |
+|------|-------------|
+| `pager` | Pager decoding |
+| `sensor` | 433MHz sensors |
+| `rtlamr` | Utility meters |
+| `adsb` | Aircraft tracking |
+| `ais` | Vessel tracking |
+| `aprs` | Amateur radio |
+| `wifi` | WiFi scanning |
+| `bluetooth` | Bluetooth scanning |
+| `tscm` | Counter-surveillance |
+| `satellite` | Satellite tracking |
+| `sstv` | ISS SSTV |
+| `listening` | Listening post |
+| `spystations` | Spy stations |
+| `meshtastic` | Mesh networking |
+| `weathersat` | Weather satellites |
+| `sstv_general` | HF SSTV |
+| `gps` | GPS tracking |
+| `websdr` | WebSDR |
+| `subghz` | Sub-GHz analyzer |
+| `bt_locate` | BT Locate |
+| `analytics` | Analytics dashboard |
+| `spaceweather` | Space weather |
+| `dmr` | DMR/P25 digital voice |
+
+### Navigation Groups
+
+The navigation is organized into groups:
+- **Signals**: Pager, 433MHz, Meters, Listening Post, SubGHz
+- **Tracking**: Aircraft, Vessels, APRS, GPS
+- **Space**: Satellite, ISS SSTV, Weather Sat, HF SSTV, Space Weather
+- **Wireless**: WiFi, Bluetooth, BT Locate, Meshtastic
+- **Intel**: TSCM, Analytics, Spy Stations, WebSDR
+
+---
+
+## Components
+
+### Card / Panel
+
+```html
+{% call card(title='PANEL TITLE', indicator=true, indicator_active=false) %}
+<p>Panel content here</p>
+{% endcall %}
+```
+
+Or manually:
+```html
+<div class="panel">
+    <div class="panel-header">
+        <span>PANEL TITLE</span>
+        <div class="panel-indicator active"></div>
+    </div>
+    <div class="panel-content">
+        <p>Content here</p>
+    </div>
+</div>
+```
+
+### Empty State
+
+```html
+{% include 'components/empty_state.html' with context %}
+{# Or with variables: #}
+{% with title='No data yet', description='Start scanning to see results', action_text='Start Scan', action_onclick='startScan()' %}
+{% include 'components/empty_state.html' %}
+{% endwith %}
+```
+
+### Loading State
+
+```html
+{# Inline spinner #}
+{% include 'components/loading.html' %}
+
+{# With text #}
+{% with text='Loading data...', size='lg' %}
+{% include 'components/loading.html' %}
+{% endwith %}
+
+{# Full overlay #}
+{% with overlay=true, text='Please wait...' %}
+{% include 'components/loading.html' %}
+{% endwith %}
+```
+
+### Status Badge
+
+```html
+{% with status='online', text='Connected', id='connectionStatus' %}
+{% include 'components/status_badge.html' %}
+{% endwith %}
+```
+
+Status values: `online`, `offline`, `warning`, `error`, `inactive`
+
+### Buttons
+
+```html
+<!-- Primary action -->
+<button class="btn btn-primary">Start Tracking</button>
+
+<!-- Secondary action -->
+<button class="btn btn-secondary">Cancel</button>
+
+<!-- Danger action -->
+<button class="btn btn-danger">Stop</button>
+
+<!-- Ghost/subtle -->
+<button class="btn btn-ghost">Settings</button>
+
+<!-- Sizes -->
+<button class="btn btn-primary btn-sm">Small</button>
+<button class="btn btn-primary btn-lg">Large</button>
+
+<!-- Icon button -->
+<button class="btn btn-icon btn-secondary">
+    <span class="icon">...</span>
+</button>
+```
+
+### Badges
+
+```html
+<span class="badge">Default</span>
+<span class="badge badge-primary">Primary</span>
+<span class="badge badge-success">Online</span>
+<span class="badge badge-warning">Warning</span>
+<span class="badge badge-danger">Error</span>
+```
+
+### Form Groups
+
+```html
+<div class="form-group">
+    <label for="frequency">Frequency (MHz)</label>
+    <input type="text" id="frequency" value="153.350">
+    <span class="form-help">Enter frequency in MHz</span>
+</div>
+
+<div class="form-group">
+    <label for="gain">Gain</label>
+    <select id="gain">
+        <option value="auto">Auto</option>
+        <option value="30">30 dB</option>
+    </select>
+</div>
+
+<label class="form-check">
+    <input type="checkbox" id="alerts">
+    <span>Enable alerts</span>
+</label>
+```
+
+### Stats Strip
+
+Used in dashboards for horizontal statistics display:
+
+```html
+<div class="stats-strip">
+    <div class="stats-strip-inner">
+        <div class="strip-stat">
+            <span class="strip-value" id="count">0</span>
+            <span class="strip-label">COUNT</span>
+        </div>
+        <div class="strip-divider"></div>
+        <div class="strip-status">
+            <div class="status-dot active" id="statusDot"></div>
+            <span id="statusText">TRACKING</span>
+        </div>
+        <div class="strip-time" id="utcTime">--:--:-- UTC</div>
+    </div>
+</div>
+```
+
+---
+
+## Adding a New Module Page
+
+### 1. Create the Route
+
+In `routes/mymodule.py`:
+
+```python
+from flask import Blueprint, render_template
+
+mymodule_bp = Blueprint('mymodule', __name__, url_prefix='/mymodule')
+
+@mymodule_bp.route('/dashboard')
+def dashboard():
+    return render_template('mymodule_dashboard.html',
+                          offline_settings=get_offline_settings())
+```
+
+### 2. Register the Blueprint
+
+In `routes/__init__.py`:
+
+```python
+from routes.mymodule import mymodule_bp
+app.register_blueprint(mymodule_bp)
+```
+
+### 3. Create the Template
+
+Option A: Simple page extending base.html
+```html
+{% extends 'layout/base.html' %}
+{% set active_mode = 'mymodule' %}
+
+{% block title %}My Module{% endblock %}
+
+{% block navigation %}
+{% include 'partials/nav.html' %}
+{% endblock %}
+
+{% block content %}
+<!-- Your content -->
+{% endblock %}
+```
+
+Option B: Full-screen dashboard
+```html
+{% extends 'layout/base_dashboard.html' %}
+{% set active_mode = 'mymodule' %}
+
+{% block dashboard_title %}MY MODULE{% endblock %}
+
+{% block dashboard_content %}
+<!-- Your dashboard content -->
+{% endblock %}
+```
+
+### 4. Add to Navigation
+
+In `templates/partials/nav.html`, add your module to the appropriate group:
+
+```html
+<button class="mode-nav-btn {% if active_mode == 'mymodule' %}active{% endif %}"
+        onclick="switchMode('mymodule')">
+    <span class="nav-icon icon"><!-- SVG icon --></span>
+    <span class="nav-label">My Module</span>
+</button>
+```
+
+Or if it's a dashboard link:
+```html
+<a href="/mymodule/dashboard"
+   class="mode-nav-btn {% if active_mode == 'mymodule' %}active{% endif %}"
+   style="text-decoration: none;">
+    <span class="nav-icon icon"><!-- SVG icon --></span>
+    <span class="nav-label">My Module</span>
+</a>
+```
+
+### 5. Create Stylesheet
+
+In `static/css/mymodule.css`:
+
+```css
+/**
+ * My Module Styles
+ */
+@import url('./core/variables.css');
+
+/* Your styles using design tokens */
+.mymodule-container {
+    background: var(--bg-secondary);
+    border: 1px solid var(--border-color);
+    border-radius: var(--radius-lg);
+    padding: var(--space-4);
+}
+```
+
+---
+
+## Adding a New Dashboard
+
+For full-screen dashboards like ADSB, AIS, or Satellite:
+
+### 1. Create the Template
+
+```html
+<!DOCTYPE html>
+<html lang="en" data-theme="dark">
+<head>
+    <meta charset="UTF-8">
+    <meta name="viewport" content="width=device-width, initial-scale=1.0">
+    <title>MY DASHBOARD // iNTERCEPT</title>
+    <link rel="icon" type="image/svg+xml" href="{{ url_for('static', filename='favicon.svg') }}">
+
+    <!-- Design tokens (required) -->
+    <link rel="stylesheet" href="{{ url_for('static', filename='css/core/variables.css') }}">
+
+    <!-- Fonts -->
+    {% if offline_settings.fonts_source == 'local' %}
+    <link rel="stylesheet" href="{{ url_for('static', filename='css/fonts-local.css') }}">
+    {% else %}
+    <link href="https://fonts.googleapis.com/css2?family=Inter:wght@400;500;600;700&family=JetBrains+Mono:wght@400;500;600&display=swap" rel="stylesheet">
+    {% endif %}
+
+    <!-- External libraries if needed -->
+    <link rel="stylesheet" href="https://unpkg.com/leaflet@1.9.4/dist/leaflet.css" />
+    <script src="https://unpkg.com/leaflet@1.9.4/dist/leaflet.js"></script>
+
+    <!-- Dashboard styles -->
+    <link rel="stylesheet" href="{{ url_for('static', filename='css/responsive.css') }}">
+    <link rel="stylesheet" href="{{ url_for('static', filename='css/mydashboard.css') }}">
+</head>
+<body>
+    <!-- Background effects -->
+    <div class="radar-bg"></div>
+    <div class="scanline"></div>
+
+    <!-- Header -->
+    <header class="header">
+        <div class="logo">
+            <a href="/" style="color: inherit; text-decoration: none;">
+                MY DASHBOARD
+                <span>// iNTERCEPT</span>
+            </a>
+        </div>
+        <div class="status-bar">
+            <a href="#" onclick="history.back(); return false;" class="back-link">Back</a>
+            <a href="/" class="back-link">Main Dashboard</a>
+        </div>
+    </header>
+
+    <!-- Unified Navigation -->
+    {% set active_mode = 'mydashboard' %}
+    {% include 'partials/nav.html' %}
+
+    <!-- Stats Strip -->
+    <div class="stats-strip">
+        <!-- Stats content -->
+    </div>
+
+    <!-- Main Dashboard Content -->
+    <main class="dashboard">
+        <!-- Your dashboard layout -->
+    </main>
+
+    <script>
+        // Dashboard JavaScript
+    </script>
+</body>
+</html>
+```
+
+### 2. Create the Stylesheet
+
+```css
+/**
+ * My Dashboard Styles
+ */
+@import url('./core/variables.css');
+
+:root {
+    /* Dashboard-specific aliases */
+    --bg-dark: var(--bg-primary);
+    --bg-panel: var(--bg-secondary);
+    --bg-card: var(--bg-tertiary);
+    --grid-line: rgba(74, 158, 255, 0.08);
+}
+
+/* Your dashboard styles */
+```
+
+---
+
+## Best Practices
+
+### DO
+
+- Use design tokens for all colors, spacing, and typography
+- Include the nav partial on all pages for consistent navigation
+- Set `active_mode` before including the nav partial
+- Use semantic component classes (`btn`, `panel`, `badge`, etc.)
+- Support both light and dark themes
+- Test on mobile viewports
+
+### DON'T
+
+- Hardcode color values - use CSS variables
+- Create new color variations without adding to tokens
+- Duplicate navigation markup - use the partial
+- Skip the favicon and design tokens imports
+- Use inline styles for layout (use utility classes)
+
+---
+
+## File Structure
+
+```
+templates/
+├── layout/
+│   ├── base.html              # Standard page base
+│   └── base_dashboard.html    # Dashboard page base
+├── partials/
+│   ├── nav.html               # Unified navigation
+│   ├── page_header.html       # Page title component
+│   └── settings-modal.html    # Settings modal
+├── components/
+│   ├── card.html              # Panel/card component
+│   ├── empty_state.html       # Empty state placeholder
+│   ├── loading.html           # Loading spinner
+│   ├── stats_strip.html       # Stats bar component
+│   └── status_badge.html      # Status indicator
+├── index.html                 # Main dashboard
+├── adsb_dashboard.html        # Aircraft tracking
+├── ais_dashboard.html         # Vessel tracking
+└── satellite_dashboard.html   # Satellite tracking
+
+static/css/
+├── core/
+│   ├── variables.css          # Design tokens
+│   ├── base.css               # Reset & typography
+│   ├── components.css         # Component styles
+│   └── layout.css             # Layout styles
+├── index.css                  # Main dashboard styles
+├── adsb_dashboard.css         # Aircraft dashboard
+├── ais_dashboard.css          # Vessel dashboard
+├── satellite_dashboard.css    # Satellite dashboard
+└── responsive.css             # Responsive breakpoints
+```

docs/USAGE.md

@@ -57,6 +57,48 @@ INTERCEPT automatically detects known trackers:
 - Samsung SmartTag
 - Chipolo
 
+## Sub-GHz Analyzer
+
+1. **Connect HackRF** - Plug in your HackRF One device
+2. **Set Frequency** - Enter a frequency in the 300-928 MHz ISM range or use a preset
+3. **Start Capture** - Click "Start Capture" to begin signal analysis
+4. **View Spectrum** - Real-time spectrum visualization of the selected band
+5. **Protocol Decoding** - Identified protocols are displayed with decoded data
+
+### Supported Protocols
+
+Common ISM band protocols including garage doors, key fobs, weather stations, and IoT devices in the 300-928 MHz range.
+
+## VDL2 (Aircraft Datalink)
+
+1. **Select Hardware** - Choose your SDR type
+2. **Select Device** - Choose your SDR device
+3. **Set Frequencies** - Default VDL2 frequencies are pre-configured (136.975, 136.725, 136.775 MHz etc.)
+4. **Start Decoding** - Click "Start" to begin VDL2 reception via dumpvdl2
+5. **View Messages** - AVLC frames appear with source/destination, signal levels, and decoded content
+6. **Inspect Details** - Click a message to view full AVLC frame details and raw JSON
+7. **Export** - Use CSV or JSON export buttons to save captured messages
+
+### Tips
+
+- VDL2 is most active near airports and along flight corridors
+- Multiple frequencies can be monitored simultaneously for better coverage
+- VDL2 data is also accessible from the ADS-B dashboard
+
+## Listening Post
+
+1. **Select Hardware** - Choose your SDR type
+2. **Set Frequency Range** - Define start and end frequencies for scanning
+3. **Start Scanning** - Click "Start Scan" for wideband sweep
+4. **View Signals** - Discovered signals are listed with frequency and SNR
+5. **Tune In** - Click a signal to tune the audio demodulator
+6. **Listen** - Real-time audio plays in your browser
+
+### Demodulation Modes
+
+- **FM** - Narrowband and wideband FM
+- **SSB** - Upper and lower sideband for amateur radio and shortwave
+
 ## Aircraft Mode (ADS-B)
 
 1. **Select Hardware** - Choose your SDR type (RTL-SDR uses dump1090, others use readsb)
@@ -65,6 +107,8 @@ INTERCEPT automatically detects known trackers:
    - **Manual Entry** - Type coordinates directly
    - **Browser GPS** - Use browser's built-in geolocation (requires HTTPS)
    - **USB GPS Dongle** - Connect a USB GPS receiver for continuous updates
+   - **Shared Location** - By default, the observer location is shared across modules
+     (disable with `INTERCEPT_SHARED_OBSERVER_LOCATION=false`)
 4. **Start Tracking** - Click "Start Tracking" to begin ADS-B reception
 5. **View Map** - Aircraft appear on the interactive Leaflet map
 6. **Click Aircraft** - Click markers for detailed information
@@ -72,44 +116,94 @@ INTERCEPT automatically detects known trackers:
 8. **Filter Aircraft** - Use dropdown to show all, military, civil, or emergency only
 9. **Full Dashboard** - Click "Full Screen Dashboard" for dedicated radar view
 
+> Note: ADS-B auto-start is disabled by default. To enable auto-start on dashboard load,
+> set `INTERCEPT_ADSB_AUTO_START=true`.
+
 ### Emergency Squawks
 
-The system highlights aircraft transmitting emergency squawks:
-- **7500** - Hijack
-- **7600** - Radio failure
-- **7700** - General emergency
-
-## ADS-B History (Optional)
-
-The history dashboard persists aircraft messages and per-aircraft snapshots to Postgres for long-running tracking and reporting.
-
-### Enable History
-
-Set the following environment variables (Docker recommended):
-
-| Variable | Default | Description |
-|----------|---------|-------------|
-| `INTERCEPT_ADSB_HISTORY_ENABLED` | `false` | Enables history storage and reporting |
-| `INTERCEPT_ADSB_DB_HOST` | `localhost` | Postgres host (use `adsb_db` in Docker) |
-| `INTERCEPT_ADSB_DB_PORT` | `5432` | Postgres port |
-| `INTERCEPT_ADSB_DB_NAME` | `intercept_adsb` | Database name |
-| `INTERCEPT_ADSB_DB_USER` | `intercept` | Database user |
-| `INTERCEPT_ADSB_DB_PASSWORD` | `intercept` | Database password |
-
-### Docker Setup
-
-`docker-compose.yml` includes an `adsb_db` service and a persistent volume for history storage:
-
-```bash
-docker compose up -d
-```
-
-### Using the History Dashboard
-
-1. Open **/adsb/history**
-2. Use **Start Tracking** to run ADS-B in headless mode
-3. View aircraft history and timelines
-4. Stop tracking when desired (session history is recorded)
+The system highlights aircraft transmitting emergency squawks:
+- **7500** - Hijack
+- **7600** - Radio failure
+- **7700** - General emergency
+
+## ACARS Messaging
+
+1. **Select Hardware** - Choose your SDR type
+2. **Select Device** - Choose your SDR device
+3. **Select Region** - Choose North America, Europe, or Asia-Pacific to auto-populate frequencies
+4. **Select Frequencies** - Check one or more ACARS frequencies (131.550 MHz primary worldwide, 130.025 MHz secondary USA/Canada, etc.)
+5. **Adjust Gain** - Set gain (0 for auto, or 0-50 dB)
+6. **Start Decoding** - Click "Start" to begin ACARS reception via acarsdec
+7. **View Messages** - Aircraft messages appear in real-time with flight ID, registration, and content
+
+### Tips
+
+- A vertical polarization antenna works best for ACARS
+- Quarter-wave dipole: 57 cm per element at 130 MHz
+- Stock SDR antenna may work at close range near airports
+- Outdoor placement with clear sky view significantly improves reception
+
+## ADS-B History (Optional)
+
+The history dashboard persists aircraft messages and per-aircraft snapshots to Postgres for long-running tracking and reporting.
+
+### Enable History
+
+Set the following environment variables (Docker recommended):
+
+| Variable | Default | Description |
+|----------|---------|-------------|
+| `INTERCEPT_ADSB_HISTORY_ENABLED` | `false` | Enables history storage and reporting |
+| `INTERCEPT_ADSB_DB_HOST` | `localhost` | Postgres host (use `adsb_db` in Docker) |
+| `INTERCEPT_ADSB_DB_PORT` | `5432` | Postgres port |
+| `INTERCEPT_ADSB_DB_NAME` | `intercept_adsb` | Database name |
+| `INTERCEPT_ADSB_DB_USER` | `intercept` | Database user |
+| `INTERCEPT_ADSB_DB_PASSWORD` | `intercept` | Database password |
+
+### Other ADS-B Settings
+
+| Variable | Default | Description |
+|----------|---------|-------------|
+| `INTERCEPT_ADSB_AUTO_START` | `false` | Auto-start ADS-B tracking when the dashboard loads |
+| `INTERCEPT_SHARED_OBSERVER_LOCATION` | `true` | Share observer location across ADS-B/AIS/SSTV/Satellite modules |
+
+**Local install example**
+
+```bash
+INTERCEPT_ADSB_AUTO_START=true \
+INTERCEPT_SHARED_OBSERVER_LOCATION=false \
+python app.py
+```
+
+**Docker example (.env)**
+
+```bash
+INTERCEPT_ADSB_AUTO_START=true
+INTERCEPT_SHARED_OBSERVER_LOCATION=false
+```
+
+### Docker Setup
+
+`docker-compose.yml` includes an `adsb_db` service and a persistent volume for history storage:
+
+```bash
+docker compose --profile history up -d
+```
+
+To store Postgres data on external storage, set `PGDATA_PATH` (defaults to `./pgdata`):
+
+```bash
+PGDATA_PATH=/mnt/usbpi1/intercept/pgdata
+```
+
+### Using the History Dashboard
+
+1. Open **/adsb/history**
+2. Use **Start Tracking** to run ADS-B in headless mode
+3. View aircraft history and timelines
+4. Stop tracking when desired (session history is recorded)
+
+If the History dashboard shows **HISTORY DISABLED**, enable `INTERCEPT_ADSB_HISTORY_ENABLED=true` and ensure Postgres is running.
 
 ## Satellite Mode
 
@@ -130,6 +224,288 @@ docker compose up -d
 3. Choose a category (Amateur, Weather, ISS, Starlink, etc.)
 4. Select satellites to add
 
+## Weather Satellites
+
+1. **Set Location** - Enter observer coordinates or use GPS
+2. **Select Satellite** - Choose NOAA (APT) or Meteor (LRPT)
+3. **View Passes** - Upcoming passes shown with polar plot and ground track
+4. **Start Capture** - Click "Start Capture" when a satellite is overhead, or enable auto-scheduler
+5. **View Images** - Decoded imagery appears in the gallery
+
+### Auto-Scheduler
+
+Enable the auto-scheduler to automatically capture passes:
+- Calculates upcoming NOAA and Meteor passes for your location
+- Starts SatDump at the correct time and frequency
+- Decoded images are saved with timestamps
+
+## Space Weather
+
+1. **Switch to Space Weather mode** - Select "Space Weather" from the Space navigation group
+2. **View Dashboard** - Solar indices, NOAA scales, band conditions, and charts load automatically
+3. **Solar Imagery** - Toggle between SDO 193A, 304A, and Magnetogram views
+4. **D-RAP Maps** - Select frequency (5-30 MHz) to view HF radio absorption maps
+5. **Aurora Forecast** - View the OVATION aurora oval for the northern hemisphere
+6. **Alerts** - Review current SWPC space weather alerts and warnings
+7. **Active Regions** - View solar active region data (number, location, area)
+8. **Refresh** - Data auto-refreshes every 5 minutes, or click "Refresh Now"
+
+### Tips
+
+- No SDR hardware required — all data comes from public APIs (NOAA SWPC, NASA SDO, HamQSL)
+- Check HF band conditions before operating on shortwave frequencies
+- Kp >= 5 indicates geomagnetic storm conditions that may affect HF propagation
+- D-RAP maps show where HF absorption is highest — useful for path planning
+- Solar imagery updates approximately every 15 minutes from NASA SDO
+
+## AIS Vessel Tracking
+
+1. **Select Hardware** - Choose your SDR type
+2. **Start Tracking** - Click "Start Tracking" to monitor AIS frequencies (161.975/162.025 MHz)
+3. **View Map** - Vessels appear on the interactive maritime map
+4. **Click Vessels** - View name, MMSI, callsign, destination, speed, heading
+5. **Full Dashboard** - Click "Full Screen Dashboard" for dedicated maritime view
+
+### VHF DSC Channel 70
+
+Digital Selective Calling monitoring runs alongside AIS:
+- Distress, Urgency, Safety, and Routine messages
+- Distress positions plotted with pulsing alert markers
+- Audio alerts for critical messages
+
+## WebSDR
+
+1. **Set Frequency** - Enter a frequency in kHz (e.g., 6500 for 6.5 MHz)
+2. **Select Mode** - Choose demodulation mode (USB, LSB, AM, CW)
+3. **Find Receivers** - Click "Find Receivers" to discover available KiwiSDR nodes worldwide
+4. **Select Receiver** - Click a receiver from the list to connect
+5. **Listen** - Audio streams in real-time via WebSocket
+6. **Adjust Volume** - Use the volume slider and monitor the S-meter
+7. **Spy Station Presets** - Use the quick-tune buttons to jump to known number station frequencies
+
+### Tips
+
+- Requires an internet connection to access the KiwiSDR network
+- Receiver list is cached for 1 hour to reduce API load
+- Receivers are sorted by distance from your location
+- Integrated spy station presets allow quick tuning to SIGINT targets
+
+## ISS SSTV
+
+1. **Select Hardware** - Choose your SDR type
+2. **Select Device** - Choose your SDR device
+3. **Set Frequency** - Default is 145.800 MHz (ISS downlink)
+4. **Set Location** - Enter lat/lon for Doppler correction and pass prediction
+5. **Update TLE** - Click "Update TLE" to fetch latest ISS orbital elements
+6. **Wait for Pass** - The next pass countdown shows when ISS will be overhead
+7. **Start Decoding** - Click "Start" to begin SSTV reception
+8. **View Images** - Decoded SSTV images appear in the gallery with timestamps
+
+### Tips
+
+- A V-dipole or better antenna is required (stock antenna will not work)
+- V-dipole construction: 51 cm per element at 145.8 MHz, 120-degree angle between elements
+- ISS SSTV events occur during special anniversaries and missions — check ARISS for schedules
+- Best passes have elevation > 30 degrees above horizon
+- Doppler shift tracking dramatically improves reception quality
+- Common SSTV modes: PD120, PD180, Martin1, Scottie1
+- Outdoor antenna placement with clear sky view is essential
+
+## HF SSTV
+
+1. **Select Hardware** - Choose your SDR type
+2. **Select Device** - Choose your SDR device
+3. **Select Frequency** - Choose from 13 preset frequencies or enter a custom one
+4. **Modulation** - Auto-selected based on frequency (USB for HF, FM for VHF/UHF)
+5. **Start Decoding** - Click "Start" to begin SSTV reception
+6. **View Images** - Decoded amateur radio images appear in the gallery
+
+### Tips
+
+- HF frequencies (3-30 MHz) require an upconverter with RTL-SDR
+- VHF/UHF frequencies (145 MHz, 433 MHz) work directly with RTL-SDR
+- Most popular frequency: 14.230 MHz USB (20m band) with regular activity
+- Weekend activity peaks on most HF bands
+- Amateur license is not required to receive (listen-only)
+
+## APRS
+
+1. **Select Hardware** - Choose your SDR type
+2. **Set Frequency** - Defaults to regional APRS frequency (144.390 MHz NA, 144.800 MHz EU)
+3. **Start Decoding** - Click "Start Decoding" to begin packet radio reception via direwolf
+4. **View Map** - Station positions appear on the interactive map
+5. **View Messages** - Position reports, telemetry, and messages displayed in real time
+
+## Utility Meters
+
+1. **Start Monitoring** - Click "Start" to begin meter broadcast reception via rtl_amr
+2. **View Meters** - Decoded meter data appears with meter ID, type, and consumption
+3. **Filter** - Filter by meter type (electric, gas, water) or meter ID
+
+## BT Locate (SAR Device Location)
+
+1. **Set Target** - Enter one or more target identifiers:
+   - **MAC Address** - Exact Bluetooth address (AA:BB:CC:DD:EE:FF)
+   - **Name Pattern** - Substring match (e.g., "iPhone", "Galaxy")
+   - **IRK** - 32-character hex Identity Resolving Key for RPA resolution
+   - **Detect IRKs** - Click "Detect" to auto-extract IRKs from paired devices
+2. **Choose Environment** - Select the RF environment preset:
+   - **Open Field** (n=2.0) - Best for open areas with line-of-sight
+   - **Outdoor** (n=2.2) - Default, works well in most outdoor settings
+   - **Indoor** (n=3.0) - For buildings with walls and obstacles
+3. **Start Locate** - Click "Start Locate" to begin tracking
+4. **Monitor HUD** - The proximity display shows:
+   - Proximity band (IMMEDIATE / NEAR / FAR)
+   - Estimated distance in meters
+   - Raw RSSI and smoothed RSSI average
+   - Detection count and GPS-tagged points
+5. **Follow the Signal** - Move towards stronger signal (higher RSSI / closer distance)
+6. **Audio Alerts** - Enable audio for proximity tones that increase in pitch as you get closer
+7. **Review Trail** - Check the map for GPS-tagged detection trail
+
+### Hand-off from Bluetooth Mode
+
+1. Open Bluetooth scanning mode and find the target device
+2. Click the "Locate" button on the device card
+3. BT Locate opens with the device pre-filled
+4. Click "Start Locate" to begin tracking
+
+### Tips
+
+- For devices with address randomization (iPhones, modern Android), use the IRK method
+- Click "Detect" next to the IRK field to auto-extract IRKs from paired devices
+- The RSSI chart shows signal trend over time — use it to determine if you're getting closer
+- Clear the trail when starting a new search area
+
+## GPS Mode
+
+1. **Start GPS** - Click "Start" to connect to gpsd and begin position tracking
+2. **View Map** - Your position appears on the interactive map with a track trail
+3. **Monitor Stats** - Speed, heading, altitude, and satellite count displayed in real-time
+4. **Record Track** - Enable track recording to save your path
+
+### Tips
+
+- Ensure gpsd is running: `sudo gpsd /dev/ttyUSB0 -F /var/run/gpsd.sock`
+- GPS fix may take 30-60 seconds after cold start
+- Accuracy improves with more satellites in view
+
+## TSCM (Counter-Surveillance)
+
+1. **Select Sweep Type** - Choose from Quick Scan (2 min), Standard (5 min), Full Sweep (15 min), or presets for Wireless Cameras, Body-Worn Devices, or GPS Trackers
+2. **Select Scan Sources** - Toggle WiFi, Bluetooth, and/or RF/SDR scanning and select the appropriate interfaces
+3. **Select Baseline** - Optionally choose a previously recorded baseline to compare against
+4. **Start Sweep** - Click "Start Sweep" to begin scanning
+5. **Review Results** - Detected devices are classified and scored by threat level
+6. **Record Baseline** - In a known clean environment, record a baseline for future comparison
+7. **Export Report** - Generate PDF report, JSON annex, or CSV data
+
+### Threat Levels
+
+- **Informational (0-2)** - Known or expected devices
+- **Needs Review (3-5)** - Unusual devices requiring assessment
+- **High Interest (6+)** - Multiple indicators warrant investigation
+
+### Tips
+
+- Record a baseline in a known clean environment before conducting sweeps
+- Use the meeting window feature to flag new RF signatures during sensitive periods
+- Full functionality requires WiFi adapter, Bluetooth adapter, and SDR hardware
+- Threat detection uses a database of 47K+ known tracker fingerprints
+
+## Spy Stations
+
+1. **Browse Database** - View the full list of documented number stations and diplomatic networks
+2. **Filter by Type** - Toggle between Number Stations and Diplomatic Networks
+3. **Filter by Country** - Select specific countries (Russia, Cuba, Israel, Poland, etc.)
+4. **Filter by Mode** - Filter by demodulation mode (USB, AM, CW, OFDM)
+5. **View Details** - Click "Details" on a station card for full information
+6. **Tune In** - Click "Tune In" to route the station frequency to the Listening Post or WebSDR
+
+### Tips
+
+- Data sourced from priyom.org (non-profit monitoring community)
+- Most activity is on HF bands (3-30 MHz) — propagation varies by time of day
+- Notable stations: UVB-76 "The Buzzer" (4625 kHz), E06 English Man, HM01 Cuban Numbers
+- Legal to monitor in most countries (check local regulations)
+- No decryption or content decoding is included — this is a reference database
+
+## Meshtastic
+
+1. **Connect Device** - Plug in a Meshtastic device via USB or connect via TCP
+2. **Start** - Click "Start" to connect to the mesh network
+3. **View Messages** - Real-time message stream from the mesh
+4. **View Nodes** - Connected nodes displayed with signal metrics (RSSI, SNR)
+5. **Send Messages** - Type messages to broadcast on the mesh
+
+## Offline Mode
+
+1. **Open Settings** - Click the gear icon in the navigation bar
+2. **Offline Tab** - Toggle "Offline Mode" to enable local assets
+3. **Configure Sources** - Switch assets and fonts from CDN to local
+4. **Set Tile Provider** - Choose a map tile provider or enter a custom tile server URL
+5. **Check Assets** - Click "Check Assets" to verify all local files are present
+
+### Tips
+
+- Download required assets: Leaflet JS/CSS, Chart.js, Inter and JetBrains Mono fonts
+- Assets are stored in the `static/vendor/` directory
+- For maps, you need a local tile server (e.g., self-hosted OpenStreetMap tiles)
+- Missing assets fail gracefully with console warnings
+- Useful for air-gapped environments, field deployments, or reducing latency
+
+## Remote Agents (Distributed SIGINT)
+
+Deploy lightweight sensor nodes across multiple locations and aggregate data to a central controller.
+
+### Setting Up an Agent
+
+1. **Install INTERCEPT** on the remote machine
+2. **Create config file** (`intercept_agent.cfg`):
+   ```ini
+   [agent]
+   name = sensor-node-1
+   port = 8020
+
+   [controller]
+   url = http://192.168.1.100:5050
+   api_key = your-secret-key
+   push_enabled = true
+
+   [modes]
+   pager = true
+   sensor = true
+   adsb = true
+   ```
+3. **Start the agent**:
+   ```bash
+   python intercept_agent.py --config intercept_agent.cfg
+   ```
+
+### Registering Agents in the Controller
+
+1. Navigate to `/controller/manage` in the main INTERCEPT instance
+2. Enter agent details:
+   - **Name**: Must match config file (e.g., `sensor-node-1`)
+   - **Base URL**: Agent address (e.g., `http://192.168.1.50:8020`)
+   - **API Key**: Must match config file
+3. Click "Register Agent"
+4. Use "Test" to verify connectivity
+
+### Using Remote Agents
+
+Once registered, agents appear in mode dropdowns:
+
+1. **Select agent** from the dropdown in supported modes
+2. **Start mode** - Commands are proxied to the remote agent
+3. **View data** - Data streams back to your browser via SSE
+
+### Multi-Agent Streaming
+
+Enable "Show All Agents" to aggregate data from all registered agents simultaneously.
+
+For complete documentation, see [Distributed Agents Guide](DISTRIBUTED_AGENTS.md).
+
 ## Configuration
 
 INTERCEPT can be configured via environment variables:

docs/_config.yml

@@ -15,3 +15,4 @@ exclude:
   - USAGE.md
   - FEATURES.md
   - HARDWARE.md
+  - DISTRIBUTED_AGENTS.md

docs/index.html

@@ -11,6 +11,7 @@
     <link href="https://fonts.googleapis.com/css2?family=JetBrains+Mono:wght@400;500;600&family=Inter:wght@400;500;600;700&display=swap" rel="stylesheet">
 </head>
 <body>
+    <canvas id="bg-canvas"></canvas>
     <nav class="navbar">
         <div class="nav-container">
             <a href="#" class="nav-logo">iNTERCEPT</a>
@@ -18,6 +19,7 @@
                 <a href="#features">Features</a>
                 <a href="#screenshots">Screenshots</a>
                 <a href="#installation">Install</a>
+                <a href="https://github.com/smittix/intercept/blob/main/docs/DISTRIBUTED_AGENTS.md">Remote Agents</a>
                 <a href="https://github.com/smittix/intercept" class="nav-btn" target="_blank">GitHub</a>
             </div>
         </div>
@@ -34,7 +36,7 @@
             </div>
             <div class="hero-stats">
                 <div class="stat">
-                    <span class="stat-value">12+</span>
+                    <span class="stat-value">25+</span>
                     <span class="stat-label">Modes</span>
                 </div>
                 <div class="stat">
@@ -57,73 +59,149 @@
             <h2>Capabilities</h2>
             <p class="section-subtitle">Everything you need for signal intelligence in one interface</p>
 
-            <div class="features-grid">
-                <div class="feature-card">
-                    <div class="feature-icon">📟</div>
-                    <h3>Pager Decoding</h3>
-                    <p>Decode POCSAG and FLEX pager messages using rtl_fm and multimon-ng. Monitor emergency services and legacy paging systems.</p>
-                </div>
-
-                <div class="feature-card">
-                    <div class="feature-icon">✈️</div>
-                    <h3>Aircraft Tracking</h3>
-                    <p>Real-time ADS-B tracking with interactive maps, aircraft photos, emergency squawk detection, and range visualization.</p>
-                </div>
-
-                <div class="feature-card">
-                    <div class="feature-icon">📡</div>
-                    <h3>433MHz Sensors</h3>
-                    <p>Decode 200+ protocols including weather stations, TPMS, smart home devices, and IoT sensors via rtl_433.</p>
-                </div>
-
-                <div class="feature-card">
-                    <div class="feature-icon">📻</div>
-                    <h3>Listening Post</h3>
-                    <p>Frequency scanner with real-time audio monitoring, fine-tuning controls, and customizable frequency presets.</p>
-                </div>
-
-                <div class="feature-card">
-                    <div class="feature-icon">🛰️</div>
-                    <h3>Satellite Tracking</h3>
-                    <p>Track satellites with TLE data, sky plots, ground track visualization, and pass predictions for your location.</p>
-                </div>
-
-                <div class="feature-card">
-                    <div class="feature-icon">📶</div>
-                    <h3>WiFi Scanning</h3>
-                    <p>Monitor mode reconnaissance via aircrack-ng. Network discovery, client tracking, and handshake capture.</p>
-                </div>
-
-                <div class="feature-card">
-                    <div class="feature-icon">🔵</div>
-                    <h3>Bluetooth Scanning</h3>
-                    <p>Device discovery with tracker detection for AirTags, Tile, Samsung SmartTag, and other Bluetooth devices.</p>
-                </div>
-
-                <div class="feature-card">
-                    <div class="feature-icon">🛡️</div>
-                    <h3>TSCM</h3>
-                    <p>Counter-surveillance with baseline recording, threat detection, device correlation, and risk scoring.</p>
-                </div>
-
-                <div class="feature-card">
-                    <div class="feature-icon">⚡</div>
-                    <h3>Meter Reading</h3>
-                    <p>Intercept smart utility meters via rtl_amr. Monitor electricity, gas, and water meter transmissions.</p>
-                </div>
-
-                <div class="feature-card">
-                    <div class="feature-icon">🚢</div>
-                    <h3>Vessel Tracking</h3>
-                    <p>Real-time AIS ship tracking via AIS-catcher. Monitor maritime traffic with vessel details, course, speed, and destination.</p>
-                </div>
-
-                <div class="feature-card">
-                    <div class="feature-icon">🔢</div>
-                    <h3>Spy Stations</h3>
-                    <p>Number stations and diplomatic HF network database. Frequencies, schedules, and background info from priyom.org.</p>
-                </div>
+            <div class="carousel-filters">
+                <button class="filter-btn active" data-filter="all">All</button>
+                <button class="filter-btn" data-filter="signals">Signals</button>
+                <button class="filter-btn" data-filter="tracking">Tracking</button>
+                <button class="filter-btn" data-filter="space">Space</button>
+                <button class="filter-btn" data-filter="wireless">Wireless</button>
+                <button class="filter-btn" data-filter="intel">Intel</button>
+                <button class="filter-btn" data-filter="platform">Platform</button>
             </div>
+
+            <div class="carousel-wrapper">
+                <button class="carousel-arrow carousel-arrow-left" aria-label="Scroll left">&#8249;</button>
+                <div class="carousel-track">
+                    <div class="feature-card" data-category="signals">
+                        <div class="feature-icon"><svg viewBox="0 0 24 24" fill="none" stroke="currentColor" stroke-width="1.5" stroke-linecap="round" stroke-linejoin="round"><rect x="2" y="5" width="20" height="14" rx="2"/><line x1="6" y1="9" x2="6" y2="15"/><line x1="10" y1="9" x2="10" y2="15"/><line x1="14" y1="11" x2="18" y2="11"/><line x1="14" y1="13" x2="18" y2="13"/></svg></div>
+                        <h3>Pager Decoding</h3>
+                        <p>Decode POCSAG and FLEX pager messages using rtl_fm and multimon-ng. Monitor emergency services and legacy paging systems.</p>
+                    </div>
+                    <div class="feature-card" data-category="signals">
+                        <div class="feature-icon"><svg viewBox="0 0 24 24" fill="none" stroke="currentColor" stroke-width="1.5" stroke-linecap="round" stroke-linejoin="round"><path d="M12 2v4"/><path d="M12 18v4"/><circle cx="12" cy="12" r="4"/><path d="M4.93 4.93l2.83 2.83"/><path d="M16.24 16.24l2.83 2.83"/><path d="M2 12h4"/><path d="M18 12h4"/><path d="M4.93 19.07l2.83-2.83"/><path d="M16.24 7.76l2.83-2.83"/></svg></div>
+                        <h3>433MHz Sensors</h3>
+                        <p>Decode 200+ protocols including weather stations, TPMS, smart home devices, and IoT sensors via rtl_433.</p>
+                    </div>
+                    <div class="feature-card" data-category="signals">
+                        <div class="feature-icon"><svg viewBox="0 0 24 24" fill="none" stroke="currentColor" stroke-width="1.5" stroke-linecap="round" stroke-linejoin="round"><path d="M2 12h4l3-9 6 18 3-9h4"/></svg></div>
+                        <h3>Sub-GHz Analyzer</h3>
+                        <p>HackRF-based signal capture and protocol decoding for 300-928 MHz ISM bands with spectrum analysis and replay.</p>
+                    </div>
+                    <div class="feature-card" data-category="signals">
+                        <div class="feature-icon"><svg viewBox="0 0 24 24" fill="none" stroke="currentColor" stroke-width="1.5" stroke-linecap="round" stroke-linejoin="round"><path d="M12 18.5a6.5 6.5 0 1 1 0-13"/><path d="M17 12h5"/><path d="M12 7V2"/><circle cx="12" cy="12" r="2"/><path d="M8.5 8.5L5 5"/></svg></div>
+                        <h3>Listening Post</h3>
+                        <p>Frequency scanner with real-time audio monitoring, fine-tuning controls, and customizable frequency presets.</p>
+                    </div>
+                    <div class="feature-card" data-category="intel">
+                        <div class="feature-icon"><svg viewBox="0 0 24 24" fill="none" stroke="currentColor" stroke-width="1.5" stroke-linecap="round" stroke-linejoin="round"><circle cx="12" cy="12" r="10"/><line x1="2" y1="12" x2="22" y2="12"/><path d="M12 2a15.3 15.3 0 0 1 4 10 15.3 15.3 0 0 1-4 10 15.3 15.3 0 0 1-4-10 15.3 15.3 0 0 1 4-10z"/></svg></div>
+                        <h3>WebSDR</h3>
+                        <p>Remote HF/shortwave listening via the KiwiSDR network. Access receivers worldwide with real-time audio streaming.</p>
+                    </div>
+                    <div class="feature-card" data-category="intel">
+                        <div class="feature-icon"><svg viewBox="0 0 24 24" fill="none" stroke="currentColor" stroke-width="1.5" stroke-linecap="round" stroke-linejoin="round"><rect x="4" y="4" width="16" height="16" rx="2"/><path d="M8 8h2v2H8z"/><path d="M14 8h2v2h-2z"/><path d="M8 14h2v2H8z"/><path d="M14 14h2v2h-2z"/><path d="M11 8h2v2h-2z"/><path d="M11 11h2v2h-2z"/></svg></div>
+                        <h3>Spy Stations</h3>
+                        <p>Number stations and diplomatic HF network database. Frequencies, schedules, and background info from priyom.org.</p>
+                    </div>
+                    <div class="feature-card" data-category="tracking">
+                        <div class="feature-icon"><svg viewBox="0 0 24 24" fill="none" stroke="currentColor" stroke-width="1.5" stroke-linecap="round" stroke-linejoin="round"><path d="M21 10c0 7-9 13-9 13s-9-6-9-13a9 9 0 0 1 18 0z"/><circle cx="12" cy="10" r="3"/></svg></div>
+                        <h3>APRS</h3>
+                        <p>Amateur packet radio position reports and telemetry via direwolf. Track amateur radio operators on an interactive map.</p>
+                    </div>
+                    <div class="feature-card" data-category="signals">
+                        <div class="feature-icon"><svg viewBox="0 0 24 24" fill="none" stroke="currentColor" stroke-width="1.5" stroke-linecap="round" stroke-linejoin="round"><path d="M13 2L3 14h9l-1 8 10-12h-9l1-8z"/></svg></div>
+                        <h3>Utility Meters</h3>
+                        <p>Smart meter monitoring via rtl_amr. Receive electric, gas, and water meter broadcasts in real time.</p>
+                    </div>
+                    <div class="feature-card" data-category="tracking">
+                        <div class="feature-icon"><svg viewBox="0 0 24 24" fill="none" stroke="currentColor" stroke-width="1.5" stroke-linecap="round" stroke-linejoin="round"><path d="M17.8 19.2L16 11l3.5-3.5C21 6 21.5 4 21 3c-1-.5-3 0-4.5 1.5L13 8 4.8 6.2c-.5-.1-.9.1-1.1.5l-.3.5c-.2.5-.1 1 .3 1.3L9 12l-2 3H4l-1 1 3 2 2 3 1-1v-3l3-2 3.5 5.3c.3.4.8.5 1.3.3l.5-.2c.4-.3.6-.7.5-1.2z"/></svg></div>
+                        <h3>Aircraft Tracking</h3>
+                        <p>Real-time ADS-B tracking with interactive maps, aircraft photos, emergency squawk detection, and range visualization.</p>
+                    </div>
+                    <div class="feature-card" data-category="tracking">
+                        <div class="feature-icon"><svg viewBox="0 0 24 24" fill="none" stroke="currentColor" stroke-width="1.5" stroke-linecap="round" stroke-linejoin="round"><rect x="3" y="4" width="18" height="16" rx="2"/><path d="M7 8h10"/><path d="M7 12h6"/><path d="M7 16h8"/></svg></div>
+                        <h3>ACARS</h3>
+                        <p>Aircraft datalink messages via acarsdec. Decode operational, weather, and position reports from commercial flights.</p>
+                    </div>
+                    <div class="feature-card" data-category="tracking">
+                        <div class="feature-icon"><svg viewBox="0 0 24 24" fill="none" stroke="currentColor" stroke-width="1.5" stroke-linecap="round" stroke-linejoin="round"><path d="M12 5v14"/><path d="M5 12h14"/><circle cx="12" cy="12" r="9"/><path d="M3.5 9h17"/><path d="M3.5 15h17"/></svg></div>
+                        <h3>VDL2</h3>
+                        <p>VHF Data Link Mode 2 aircraft datalink decoding via dumpvdl2. Real-time ACARS-over-AVLC message capture with signal analysis.</p>
+                    </div>
+                    <div class="feature-card" data-category="tracking">
+                        <div class="feature-icon"><svg viewBox="0 0 24 24" fill="none" stroke="currentColor" stroke-width="1.5" stroke-linecap="round" stroke-linejoin="round"><path d="M2 20l4-4h3l4-7 2 4h2l5-9"/><path d="M22 20H2"/><path d="M6 16v4"/></svg></div>
+                        <h3>Vessel Tracking</h3>
+                        <p>Real-time AIS ship tracking via AIS-catcher. Monitor maritime traffic with vessel details, course, speed, and destination.</p>
+                    </div>
+                    <div class="feature-card" data-category="space">
+                        <div class="feature-icon"><svg viewBox="0 0 24 24" fill="none" stroke="currentColor" stroke-width="1.5" stroke-linecap="round" stroke-linejoin="round"><circle cx="12" cy="12" r="3"/><path d="M12 1v4"/><path d="M12 19v4"/><path d="M5 5l2 2"/><path d="M17 17l2 2"/><path d="M1 12h4"/><path d="M19 12h4"/><path d="M5 19l2-2"/><path d="M17 7l2-2"/><ellipse cx="12" cy="12" rx="10" ry="4" transform="rotate(45 12 12)"/></svg></div>
+                        <h3>Satellite Tracking</h3>
+                        <p>Track satellites with TLE data, sky plots, ground track visualization, and pass predictions for your location.</p>
+                    </div>
+                    <div class="feature-card" data-category="space">
+                        <div class="feature-icon"><svg viewBox="0 0 24 24" fill="none" stroke="currentColor" stroke-width="1.5" stroke-linecap="round" stroke-linejoin="round"><path d="M12 2v2"/><path d="M12 20v2"/><path d="m4.93 4.93 1.41 1.41"/><path d="m17.66 17.66 1.41 1.41"/><path d="M2 12h2"/><path d="M20 12h2"/><path d="m6.34 17.66-1.41 1.41"/><path d="m19.07 4.93-1.41 1.41"/><circle cx="12" cy="12" r="4"/><path d="M16 12a4 4 0 0 0-4-4"/></svg></div>
+                        <h3>Weather Satellites</h3>
+                        <p>NOAA APT and Meteor LRPT image decoding via SatDump with auto-scheduler, polar plot, and ground track map.</p>
+                    </div>
+                    <div class="feature-card" data-category="space">
+                        <div class="feature-icon"><svg viewBox="0 0 24 24" fill="none" stroke="currentColor" stroke-width="1.5" stroke-linecap="round" stroke-linejoin="round"><rect x="3" y="3" width="18" height="18" rx="2"/><circle cx="8.5" cy="8.5" r="1.5"/><path d="M21 15l-5-5L5 21"/></svg></div>
+                        <h3>ISS SSTV</h3>
+                        <p>Receive Slow Scan Television from the ISS. Real-time tracking globe, pass predictions, and image decoding.</p>
+                    </div>
+                    <div class="feature-card" data-category="space">
+                        <div class="feature-icon"><svg viewBox="0 0 24 24" fill="none" stroke="currentColor" stroke-width="1.5" stroke-linecap="round" stroke-linejoin="round"><rect x="3" y="3" width="18" height="18" rx="2"/><path d="M3 9h18"/><path d="M9 3v18"/></svg></div>
+                        <h3>HF SSTV</h3>
+                        <p>Terrestrial SSTV on shortwave frequencies. Decode amateur radio image transmissions across HF, VHF, and UHF bands.</p>
+                    </div>
+                    <div class="feature-card" data-category="tracking">
+                        <div class="feature-icon"><svg viewBox="0 0 24 24" fill="none" stroke="currentColor" stroke-width="1.5" stroke-linecap="round" stroke-linejoin="round"><circle cx="12" cy="12" r="10"/><path d="M12 2a14.5 14.5 0 0 0 0 20 14.5 14.5 0 0 0 0-20"/><path d="M2 12h20"/><path d="M12 8l4 4-4 4"/></svg></div>
+                        <h3>GPS Tracking</h3>
+                        <p>Real-time GPS position tracking with live map, speed, heading, altitude, satellite info, and track recording.</p>
+                    </div>
+                    <div class="feature-card" data-category="space">
+                        <div class="feature-icon"><svg viewBox="0 0 24 24" fill="none" stroke="currentColor" stroke-width="1.5" stroke-linecap="round" stroke-linejoin="round"><circle cx="12" cy="12" r="5"/><line x1="12" y1="1" x2="12" y2="3"/><line x1="12" y1="21" x2="12" y2="23"/><line x1="4.22" y1="4.22" x2="5.64" y2="5.64"/><line x1="18.36" y1="18.36" x2="19.78" y2="19.78"/><line x1="1" y1="12" x2="3" y2="12"/><line x1="21" y1="12" x2="23" y2="12"/><line x1="4.22" y1="19.78" x2="5.64" y2="18.36"/><line x1="18.36" y1="5.64" x2="19.78" y2="4.22"/></svg></div>
+                        <h3>Space Weather</h3>
+                        <p>Real-time solar and geomagnetic monitoring. Kp index, HF band conditions, solar imagery, D-RAP maps, and aurora forecasts from NOAA SWPC.</p>
+                    </div>
+                    <div class="feature-card" data-category="wireless">
+                        <div class="feature-icon"><svg viewBox="0 0 24 24" fill="none" stroke="currentColor" stroke-width="1.5" stroke-linecap="round" stroke-linejoin="round"><path d="M5 12.55a11 11 0 0 1 14.08 0"/><path d="M1.42 9a16 16 0 0 1 21.16 0"/><path d="M8.53 16.11a6 6 0 0 1 6.95 0"/><circle cx="12" cy="20" r="1"/></svg></div>
+                        <h3>WiFi Scanning</h3>
+                        <p>Monitor mode reconnaissance via aircrack-ng. Network discovery, client tracking, and handshake capture.</p>
+                    </div>
+                    <div class="feature-card" data-category="wireless">
+                        <div class="feature-icon"><svg viewBox="0 0 24 24" fill="none" stroke="currentColor" stroke-width="1.5" stroke-linecap="round" stroke-linejoin="round"><circle cx="12" cy="10" r="6"/><path d="M12 16v5"/><path d="M8 21h8"/><path d="M9.5 7.5L12 10l2.5-2.5"/></svg></div>
+                        <h3>Bluetooth Scanning</h3>
+                        <p>Device discovery with tracker detection for AirTags, Tile, Samsung SmartTag, and other Bluetooth devices.</p>
+                    </div>
+                    <div class="feature-card" data-category="wireless">
+                        <div class="feature-icon"><svg viewBox="0 0 24 24" fill="none" stroke="currentColor" stroke-width="1.5" stroke-linecap="round" stroke-linejoin="round"><circle cx="12" cy="12" r="3"/><circle cx="12" cy="12" r="7" stroke-dasharray="4 2"/><circle cx="12" cy="12" r="11" stroke-dasharray="2 3"/><line x1="12" y1="1" x2="12" y2="3"/></svg></div>
+                        <h3>BT Locate</h3>
+                        <p>SAR Bluetooth device location with GPS-tagged signal trail mapping, IRK-based RPA resolution, and proximity audio alerts.</p>
+                    </div>
+                    <div class="feature-card" data-category="intel">
+                        <div class="feature-icon"><svg viewBox="0 0 24 24" fill="none" stroke="currentColor" stroke-width="1.5" stroke-linecap="round" stroke-linejoin="round"><path d="M12 22s-8-4.5-8-11.8A8 8 0 0 1 12 2a8 8 0 0 1 8 8.2c0 7.3-8 11.8-8 11.8z"/><circle cx="12" cy="10" r="3"/><path d="M12 2v3"/><path d="M4.93 4.93l2.12 2.12"/><path d="M20 12h-3"/></svg></div>
+                        <h3>TSCM</h3>
+                        <p>Counter-surveillance with baseline recording, threat detection, device correlation, and risk scoring.</p>
+                    </div>
+                    <div class="feature-card" data-category="wireless">
+                        <div class="feature-icon"><svg viewBox="0 0 24 24" fill="none" stroke="currentColor" stroke-width="1.5" stroke-linecap="round" stroke-linejoin="round"><path d="M12 2L2 7l10 5 10-5-10-5z"/><path d="M2 17l10 5 10-5"/><path d="M2 12l10 5 10-5"/></svg></div>
+                        <h3>Meshtastic</h3>
+                        <p>LoRa mesh network integration. Connect to Meshtastic devices for decentralized, long-range communication monitoring.</p>
+                    </div>
+                    <div class="feature-card" data-category="platform">
+                        <div class="feature-icon"><svg viewBox="0 0 24 24" fill="none" stroke="currentColor" stroke-width="1.5" stroke-linecap="round" stroke-linejoin="round"><rect x="2" y="3" width="20" height="14" rx="2"/><line x1="8" y1="21" x2="16" y2="21"/><line x1="12" y1="17" x2="12" y2="21"/><circle cx="9" cy="10" r="1.5"/><circle cx="15" cy="10" r="1.5"/><path d="M5 10h2"/><path d="M17 10h2"/></svg></div>
+                        <h3>Remote Agents</h3>
+                        <p>Distributed signal intelligence with remote sensor nodes. Deploy agents across multiple locations and aggregate data to a central controller.</p>
+                    </div>
+                    <div class="feature-card" data-category="platform">
+                        <div class="feature-icon"><svg viewBox="0 0 24 24" fill="none" stroke="currentColor" stroke-width="1.5" stroke-linecap="round" stroke-linejoin="round"><path d="M18.36 6.64A9 9 0 0 1 20.77 15"/><path d="M6.16 6.16a9 9 0 0 0-2.57 8.84"/><path d="M12 2v4"/><path d="M2 12h4"/><line x1="2" y1="2" x2="22" y2="22"/><circle cx="12" cy="12" r="3"/></svg></div>
+                        <h3>Offline Mode</h3>
+                        <p>Run without internet using bundled assets. Choose from multiple map tile providers or use your own local tile server.</p>
+                    </div>
+                </div>
+                <button class="carousel-arrow carousel-arrow-right" aria-label="Scroll right">&#8250;</button>
+            </div>
+
+            <div class="carousel-indicators" id="carousel-indicators"></div>
         </div>
     </section>
 
@@ -161,6 +239,58 @@
                     <img src="images/tscm-detail.png" alt="Device Detail Dialog">
                     <span class="screenshot-label">Device Analysis</span>
                 </div>
+                <div class="screenshot-item">
+                    <img src="images/remote-agents.png" alt="Remote Agents Management">
+                    <span class="screenshot-label">Remote Agents</span>
+                </div>
+                <div class="screenshot-item">
+                    <img src="images/ais.png" alt="AIS Vessel Tracking">
+                    <span class="screenshot-label">AIS Vessel Tracking</span>
+                </div>
+                <div class="screenshot-item">
+                    <img src="images/bt-locate.png" alt="BT Locate SAR Tracker">
+                    <span class="screenshot-label">BT Locate — SAR Tracker</span>
+                </div>
+                <div class="screenshot-item">
+                    <img src="images/spy-stations.png" alt="Spy Stations Database">
+                    <span class="screenshot-label">Spy Stations</span>
+                </div>
+                <div class="screenshot-item">
+                    <img src="images/gps.png" alt="GPS Receiver">
+                    <span class="screenshot-label">GPS Receiver</span>
+                </div>
+                <div class="screenshot-item">
+                    <img src="images/websdr.png" alt="WebSDR Remote Listening">
+                    <span class="screenshot-label">WebSDR</span>
+                </div>
+                <div class="screenshot-item">
+                    <img src="images/aprs.png" alt="APRS Tracker">
+                    <span class="screenshot-label">APRS Tracker</span>
+                </div>
+                <div class="screenshot-item">
+                    <img src="images/vdl2.png" alt="VDL2 Aircraft Datalink">
+                    <span class="screenshot-label">VDL2 Aircraft Datalink</span>
+                </div>
+                <div class="screenshot-item">
+                    <img src="images/weather-satellite.png" alt="Weather Satellite Decoder">
+                    <span class="screenshot-label">Weather Satellite</span>
+                </div>
+                <div class="screenshot-item">
+                    <img src="images/space-weather-1.png" alt="Space Weather Dashboard">
+                    <span class="screenshot-label">Space Weather</span>
+                </div>
+                <div class="screenshot-item">
+                    <img src="images/space-weather-2.png" alt="Space Weather Solar Imagery">
+                    <span class="screenshot-label">Space Weather — Solar &amp; Aurora</span>
+                </div>
+                <div class="screenshot-item">
+                    <img src="images/satellite-tracker.png" alt="Satellite Tracker">
+                    <span class="screenshot-label">Satellite Tracker</span>
+                </div>
+                <div class="screenshot-item">
+                    <img src="images/iss-sstv.png" alt="ISS SSTV Decoder">
+                    <span class="screenshot-label">ISS SSTV</span>
+                </div>
             </div>
         </div>
     </section>
@@ -245,6 +375,36 @@ docker compose up -d</code></pre>
         </div>
     </section>
 
+    <section class="support">
+        <div class="container">
+            <h2>Support & Contact</h2>
+            <p class="section-subtitle">Help keep iNTERCEPT alive or get in touch</p>
+
+            <div class="support-grid">
+                <a href="https://www.buymeacoffee.com/smittix" target="_blank" class="support-card support-coffee">
+                    <div class="support-icon"><svg viewBox="0 0 24 24" fill="none" stroke="currentColor" stroke-width="1.5" stroke-linecap="round" stroke-linejoin="round"><path d="M17 8h1a4 4 0 0 1 0 8h-1"/><path d="M3 8h14v9a4 4 0 0 1-4 4H7a4 4 0 0 1-4-4V8z"/><line x1="6" y1="2" x2="6" y2="4"/><line x1="10" y1="2" x2="10" y2="4"/><line x1="14" y1="2" x2="14" y2="4"/></svg></div>
+                    <h3>Buy Me a Coffee</h3>
+                    <p>Support development with a one-time donation</p>
+                </a>
+                <a href="#" id="email-card" class="support-card" onclick="return false;">
+                    <div class="support-icon"><svg viewBox="0 0 24 24" fill="none" stroke="currentColor" stroke-width="1.5" stroke-linecap="round" stroke-linejoin="round"><rect x="2" y="4" width="20" height="16" rx="2"/><path d="M22 4L12 13 2 4"/></svg></div>
+                    <h3>Email</h3>
+                    <p id="email-text">Click to reveal</p>
+                </a>
+                <a href="https://discord.gg/EyeksEJmWE" target="_blank" class="support-card">
+                    <div class="support-icon"><svg viewBox="0 0 24 24" fill="none" stroke="currentColor" stroke-width="1.5" stroke-linecap="round" stroke-linejoin="round"><path d="M9.09 9a3 3 0 0 1 5.83 1c0 2-3 3-3 3"/><circle cx="12" cy="12" r="10"/><line x1="12" y1="17" x2="12.01" y2="17"/></svg></div>
+                    <h3>Discord</h3>
+                    <p>Join the community for help and discussion</p>
+                </a>
+                <a href="https://github.com/smittix/intercept/issues" target="_blank" class="support-card">
+                    <div class="support-icon"><svg viewBox="0 0 24 24" fill="none" stroke="currentColor" stroke-width="1.5" stroke-linecap="round" stroke-linejoin="round"><circle cx="12" cy="12" r="10"/><line x1="12" y1="8" x2="12" y2="12"/><line x1="12" y1="16" x2="12.01" y2="16"/></svg></div>
+                    <h3>Report an Issue</h3>
+                    <p>Bug reports and feature requests on GitHub</p>
+                </a>
+            </div>
+        </div>
+    </section>
+
     <footer class="footer">
         <div class="container">
             <div class="footer-content">
@@ -255,7 +415,10 @@ docker compose up -d</code></pre>
                 <div class="footer-links">
                     <a href="https://github.com/smittix/intercept" target="_blank">GitHub</a>
                     <a href="https://discord.gg/EyeksEJmWE" target="_blank">Discord</a>
-                    <a href="USAGE.html">Documentation</a>
+                    <a href="#" id="footer-email">Email</a>
+                    <a href="https://www.buymeacoffee.com/smittix" target="_blank">Donate</a>
+                    <a href="https://github.com/smittix/intercept/blob/main/docs/USAGE.md">Documentation</a>
+                    <a href="https://github.com/smittix/intercept/blob/main/docs/DISTRIBUTED_AGENTS.md">Remote Agents</a>
                 </div>
             </div>
             <div class="footer-bottom">
@@ -302,6 +465,334 @@ docker compose up -d</code></pre>
         document.addEventListener('keydown', (e) => {
             if (e.key === 'Escape') closeLightbox();
         });
+
+        // Carousel functionality
+        (function() {
+            const track = document.querySelector('.carousel-track');
+            const cards = Array.from(track.querySelectorAll('.feature-card'));
+            const leftArrow = document.querySelector('.carousel-arrow-left');
+            const rightArrow = document.querySelector('.carousel-arrow-right');
+            const filterBtns = document.querySelectorAll('.filter-btn');
+            const indicatorContainer = document.getElementById('carousel-indicators');
+
+            const SCROLL_AMOUNT = 300;
+
+            function updateArrows() {
+                leftArrow.disabled = track.scrollLeft <= 0;
+                rightArrow.disabled = track.scrollLeft + track.clientWidth >= track.scrollWidth - 2;
+            }
+
+            function buildIndicators() {
+                const visible = cards.filter(c => !c.classList.contains('hidden'));
+                const totalWidth = visible.length * 300;
+                const pages = Math.max(1, Math.ceil(totalWidth / track.clientWidth));
+                indicatorContainer.innerHTML = '';
+                for (let i = 0; i < pages; i++) {
+                    const dot = document.createElement('button');
+                    dot.className = 'carousel-dot' + (i === 0 ? ' active' : '');
+                    dot.addEventListener('click', () => {
+                        track.scrollTo({ left: (track.scrollWidth / pages) * i, behavior: 'smooth' });
+                    });
+                    indicatorContainer.appendChild(dot);
+                }
+            }
+
+            function updateIndicators() {
+                const dots = indicatorContainer.querySelectorAll('.carousel-dot');
+                if (!dots.length) return;
+                const ratio = track.scrollLeft / Math.max(1, track.scrollWidth - track.clientWidth);
+                const idx = Math.round(ratio * (dots.length - 1));
+                dots.forEach((d, i) => d.classList.toggle('active', i === idx));
+            }
+
+            leftArrow.addEventListener('click', () => {
+                track.scrollBy({ left: -SCROLL_AMOUNT, behavior: 'smooth' });
+            });
+
+            rightArrow.addEventListener('click', () => {
+                track.scrollBy({ left: SCROLL_AMOUNT, behavior: 'smooth' });
+            });
+
+            track.addEventListener('scroll', () => {
+                updateArrows();
+                updateIndicators();
+            });
+
+            filterBtns.forEach(btn => {
+                btn.addEventListener('click', () => {
+                    filterBtns.forEach(b => b.classList.remove('active'));
+                    btn.classList.add('active');
+                    const filter = btn.dataset.filter;
+
+                    cards.forEach(card => {
+                        if (filter === 'all' || card.dataset.category === filter) {
+                            card.classList.remove('hidden');
+                        } else {
+                            card.classList.add('hidden');
+                        }
+                    });
+
+                    track.scrollTo({ left: 0 });
+                    buildIndicators();
+                    updateArrows();
+                });
+            });
+
+            buildIndicators();
+            updateArrows();
+            window.addEventListener('resize', () => { buildIndicators(); updateArrows(); });
+        })();
+
+        // Obfuscated email - assembled at runtime to defeat scrapers
+        (function() {
+            const p = ['smittix', 'outlook', 'com'];
+            const addr = p[0] + '@' + p[1] + '.' + p[2];
+            const card = document.getElementById('email-card');
+            const text = document.getElementById('email-text');
+            const footerLink = document.getElementById('footer-email');
+            let revealed = false;
+
+            card.addEventListener('click', function(e) {
+                e.preventDefault();
+                if (!revealed) {
+                    text.textContent = addr;
+                    revealed = true;
+                } else {
+                    window.location.href = 'mail' + 'to:' + addr;
+                }
+            });
+
+            footerLink.addEventListener('click', function(e) {
+                e.preventDefault();
+                window.location.href = 'mail' + 'to:' + addr;
+            });
+        })();
+    </script>
+
+    <script>
+    // Animated satellite & signal background
+    (function() {
+        const canvas = document.getElementById('bg-canvas');
+        const ctx = canvas.getContext('2d');
+        let w, h, dpr;
+        let orbits = [];
+        let pulses = [];
+        let particles = [];
+        let mouse = { x: -1000, y: -1000 };
+
+        function resize() {
+            dpr = Math.min(window.devicePixelRatio || 1, 2);
+            w = window.innerWidth;
+            h = document.documentElement.scrollHeight;
+            canvas.width = w * dpr;
+            canvas.height = h * dpr;
+            canvas.style.width = w + 'px';
+            canvas.style.height = h + 'px';
+            ctx.setTransform(dpr, 0, 0, dpr, 0, 0);
+        }
+
+        // Orbital paths with satellites
+        function createOrbits() {
+            orbits = [];
+            const count = Math.max(4, Math.floor(w / 300));
+            for (let i = 0; i < count; i++) {
+                const cx = Math.random() * w;
+                const cy = Math.random() * h;
+                const rx = 120 + Math.random() * 280;
+                const ry = 40 + Math.random() * 100;
+                const tilt = (Math.random() - 0.5) * 1.2;
+                const speed = (0.0002 + Math.random() * 0.0004) * (Math.random() > 0.5 ? 1 : -1);
+                const sats = [];
+                const satCount = 1 + Math.floor(Math.random() * 2);
+                for (let j = 0; j < satCount; j++) {
+                    sats.push({ angle: Math.random() * Math.PI * 2, pulseTimer: 0 });
+                }
+                orbits.push({ cx, cy, rx, ry, tilt, speed, sats });
+            }
+        }
+
+        // Floating signal particles (tiny dots drifting upward)
+        function createParticles() {
+            particles = [];
+            const count = Math.max(30, Math.floor((w * h) / 25000));
+            for (let i = 0; i < count; i++) {
+                particles.push({
+                    x: Math.random() * w,
+                    y: Math.random() * h,
+                    vy: -(0.08 + Math.random() * 0.15),
+                    vx: (Math.random() - 0.5) * 0.1,
+                    size: 0.5 + Math.random() * 1.2,
+                    alpha: 0.1 + Math.random() * 0.25,
+                    flicker: Math.random() * Math.PI * 2,
+                });
+            }
+        }
+
+        function spawnPulse(x, y) {
+            pulses.push({ x, y, r: 2, maxR: 50 + Math.random() * 40, alpha: 0.35 });
+        }
+
+        function drawOrbitPath(orbit) {
+            ctx.save();
+            ctx.translate(orbit.cx, orbit.cy);
+            ctx.rotate(orbit.tilt);
+            ctx.beginPath();
+            ctx.ellipse(0, 0, orbit.rx, orbit.ry, 0, 0, Math.PI * 2);
+            ctx.strokeStyle = 'rgba(0, 212, 170, 0.04)';
+            ctx.lineWidth = 1;
+            ctx.stroke();
+            ctx.restore();
+        }
+
+        function drawSatellite(orbit, sat, dt) {
+            sat.angle += orbit.speed * dt;
+            const cos = Math.cos(orbit.tilt);
+            const sin = Math.sin(orbit.tilt);
+            const ex = orbit.rx * Math.cos(sat.angle);
+            const ey = orbit.ry * Math.sin(sat.angle);
+            const sx = orbit.cx + ex * cos - ey * sin;
+            const sy = orbit.cy + ex * sin + ey * cos;
+
+            // Satellite dot
+            ctx.beginPath();
+            ctx.arc(sx, sy, 2, 0, Math.PI * 2);
+            ctx.fillStyle = 'rgba(0, 212, 170, 0.7)';
+            ctx.fill();
+
+            // Faint glow
+            ctx.beginPath();
+            ctx.arc(sx, sy, 6, 0, Math.PI * 2);
+            const g = ctx.createRadialGradient(sx, sy, 0, sx, sy, 6);
+            g.addColorStop(0, 'rgba(0, 212, 170, 0.15)');
+            g.addColorStop(1, 'rgba(0, 212, 170, 0)');
+            ctx.fillStyle = g;
+            ctx.fill();
+
+            // Periodic signal pulse
+            sat.pulseTimer += dt;
+            if (sat.pulseTimer > 3000 + Math.random() * 500) {
+                sat.pulseTimer = 0;
+                spawnPulse(sx, sy);
+            }
+        }
+
+        function drawPulses(dt) {
+            for (let i = pulses.length - 1; i >= 0; i--) {
+                const p = pulses[i];
+                p.r += dt * 0.025;
+                p.alpha = 0.35 * (1 - p.r / p.maxR);
+                if (p.r >= p.maxR) { pulses.splice(i, 1); continue; }
+
+                ctx.beginPath();
+                ctx.arc(p.x, p.y, p.r, 0, Math.PI * 2);
+                ctx.strokeStyle = `rgba(0, 212, 170, ${p.alpha})`;
+                ctx.lineWidth = 1;
+                ctx.stroke();
+
+                // Second ring
+                if (p.r > 12) {
+                    ctx.beginPath();
+                    ctx.arc(p.x, p.y, p.r * 0.6, 0, Math.PI * 2);
+                    ctx.strokeStyle = `rgba(0, 136, 255, ${p.alpha * 0.5})`;
+                    ctx.stroke();
+                }
+            }
+        }
+
+        function drawParticles(dt, time) {
+            for (const p of particles) {
+                p.y += p.vy * dt * 0.06;
+                p.x += p.vx * dt * 0.06;
+                p.flicker += dt * 0.002;
+
+                if (p.y < -10) { p.y = h + 10; p.x = Math.random() * w; }
+                if (p.x < -10) p.x = w + 10;
+                if (p.x > w + 10) p.x = -10;
+
+                const flick = p.alpha * (0.6 + 0.4 * Math.sin(p.flicker));
+
+                // Mouse interaction - subtle brighten
+                const dx = p.x - mouse.x;
+                const dy = p.y - mouse.y;
+                const dist = Math.sqrt(dx * dx + dy * dy);
+                const boost = dist < 150 ? 0.3 * (1 - dist / 150) : 0;
+
+                ctx.beginPath();
+                ctx.arc(p.x, p.y, p.size, 0, Math.PI * 2);
+                ctx.fillStyle = `rgba(0, 212, 170, ${Math.min(flick + boost, 0.6)})`;
+                ctx.fill();
+            }
+        }
+
+        // Faint grid lines (signal grid)
+        function drawGrid(time) {
+            ctx.strokeStyle = 'rgba(0, 212, 170, 0.015)';
+            ctx.lineWidth = 1;
+            const spacing = 120;
+            const offset = (time * 0.005) % spacing;
+
+            for (let x = -spacing + offset; x < w + spacing; x += spacing) {
+                ctx.beginPath();
+                ctx.moveTo(x, 0);
+                ctx.lineTo(x, h);
+                ctx.stroke();
+            }
+            for (let y = -spacing + offset * 0.7; y < h + spacing; y += spacing) {
+                ctx.beginPath();
+                ctx.moveTo(0, y);
+                ctx.lineTo(w, y);
+                ctx.stroke();
+            }
+        }
+
+        let last = 0;
+        function animate(now) {
+            const dt = last ? Math.min(now - last, 50) : 16;
+            last = now;
+
+            ctx.clearRect(0, 0, w, h);
+            drawGrid(now);
+
+            for (const orbit of orbits) {
+                drawOrbitPath(orbit);
+                for (const sat of orbit.sats) {
+                    drawSatellite(orbit, sat, dt);
+                }
+            }
+
+            drawPulses(dt);
+            drawParticles(dt, now);
+
+            requestAnimationFrame(animate);
+        }
+
+        // Track mouse for particle interaction
+        document.addEventListener('mousemove', (e) => {
+            mouse.x = e.clientX;
+            mouse.y = e.clientY + window.scrollY;
+        });
+
+        // Resize handling
+        let resizeTimer;
+        function handleResize() {
+            clearTimeout(resizeTimer);
+            resizeTimer = setTimeout(() => {
+                resize();
+                createOrbits();
+                createParticles();
+            }, 200);
+        }
+
+        // Keep canvas height synced with document
+        const ro = new ResizeObserver(() => { handleResize(); });
+        ro.observe(document.documentElement);
+        window.addEventListener('resize', handleResize);
+
+        resize();
+        createOrbits();
+        createParticles();
+        requestAnimationFrame(animate);
+    })();
     </script>
 </body>
 </html>

docs/style.css

@@ -17,6 +17,22 @@
     --gradient-end: #0088ff;
 }
 
+/* Animated background canvas */
+#bg-canvas {
+    position: fixed;
+    top: 0;
+    left: 0;
+    width: 100%;
+    height: 100%;
+    z-index: 0;
+    pointer-events: none;
+}
+
+body > *:not(#bg-canvas) {
+    position: relative;
+    z-index: 1;
+}
+
 * {
     margin: 0;
     padding: 0;
@@ -245,18 +261,74 @@ section h2 {
     background: var(--bg-secondary);
 }
 
-.features-grid {
-    display: grid;
-    grid-template-columns: repeat(4, 1fr);
-    gap: 24px;
+/* Category filter tabs */
+.carousel-filters {
+    display: flex;
+    justify-content: center;
+    gap: 8px;
+    margin-bottom: 40px;
+    flex-wrap: wrap;
+}
+
+.filter-btn {
+    font-family: 'JetBrains Mono', monospace;
+    font-size: 0.8rem;
+    font-weight: 500;
+    padding: 8px 20px;
+    border-radius: 20px;
+    border: 1px solid var(--border);
+    background: transparent;
+    color: var(--text-secondary);
+    cursor: pointer;
+    transition: all 0.25s;
+    letter-spacing: 0.5px;
+}
+
+.filter-btn:hover {
+    border-color: var(--accent);
+    color: var(--text-primary);
+}
+
+.filter-btn.active {
+    background: var(--accent);
+    color: var(--bg-primary);
+    border-color: var(--accent);
+}
+
+/* Carousel */
+.carousel-wrapper {
+    position: relative;
+    padding: 0 56px;
+}
+
+.carousel-track {
+    display: flex;
+    gap: 20px;
+    overflow-x: auto;
+    scroll-behavior: smooth;
+    scroll-snap-type: x mandatory;
+    -webkit-overflow-scrolling: touch;
+    scrollbar-width: none;
+    padding: 8px 0 16px;
+}
+
+.carousel-track::-webkit-scrollbar {
+    display: none;
 }
 
 .feature-card {
+    flex: 0 0 280px;
+    scroll-snap-align: start;
     background: var(--bg-card);
     border: 1px solid var(--border);
     border-radius: 12px;
     padding: 32px 24px;
     transition: all 0.3s;
+    min-height: 200px;
+}
+
+.feature-card.hidden {
+    display: none;
 }
 
 .feature-card:hover {
@@ -266,8 +338,15 @@ section h2 {
 }
 
 .feature-icon {
-    font-size: 2rem;
+    width: 36px;
+    height: 36px;
     margin-bottom: 16px;
+    color: var(--accent);
+}
+
+.feature-icon svg {
+    width: 100%;
+    height: 100%;
 }
 
 .feature-card h3 {
@@ -283,6 +362,81 @@ section h2 {
     line-height: 1.7;
 }
 
+/* Carousel arrows */
+.carousel-arrow {
+    position: absolute;
+    top: 50%;
+    transform: translateY(-50%);
+    width: 44px;
+    height: 44px;
+    border-radius: 50%;
+    border: 1px solid var(--border);
+    background: var(--bg-card);
+    color: var(--text-primary);
+    font-size: 1.5rem;
+    cursor: pointer;
+    transition: all 0.25s;
+    display: flex;
+    align-items: center;
+    justify-content: center;
+    z-index: 10;
+    line-height: 1;
+}
+
+.carousel-arrow:hover {
+    background: var(--bg-card-hover);
+    border-color: var(--accent);
+    color: var(--accent);
+}
+
+.carousel-arrow:disabled {
+    opacity: 0.3;
+    cursor: default;
+}
+
+.carousel-arrow:disabled:hover {
+    background: var(--bg-card);
+    border-color: var(--border);
+    color: var(--text-primary);
+}
+
+.carousel-arrow-left {
+    left: 0;
+}
+
+.carousel-arrow-right {
+    right: 0;
+}
+
+/* Carousel indicators */
+.carousel-indicators {
+    display: flex;
+    justify-content: center;
+    gap: 8px;
+    margin-top: 28px;
+}
+
+.carousel-dot {
+    width: 8px;
+    height: 8px;
+    border-radius: 50%;
+    background: var(--border);
+    border: none;
+    cursor: pointer;
+    transition: all 0.25s;
+    padding: 0;
+}
+
+.carousel-dot.active {
+    background: var(--accent);
+    width: 24px;
+    border-radius: 4px;
+}
+
+.carousel-dot:hover {
+    background: var(--text-muted);
+}
+
 /* Screenshots */
 .screenshot-gallery {
     display: grid;
@@ -550,6 +704,72 @@ section h2 {
     gap: 16px;
 }
 
+/* Support & Contact */
+.support {
+    background: var(--bg-secondary);
+}
+
+.support-grid {
+    display: grid;
+    grid-template-columns: repeat(4, 1fr);
+    gap: 24px;
+}
+
+.support-card {
+    background: var(--bg-card);
+    border: 1px solid var(--border);
+    border-radius: 12px;
+    padding: 32px 24px;
+    text-align: center;
+    text-decoration: none;
+    transition: all 0.3s;
+    display: block;
+}
+
+.support-card:hover {
+    background: var(--bg-card-hover);
+    border-color: var(--accent);
+    transform: translateY(-4px);
+}
+
+.support-card.support-coffee {
+    border-color: rgba(255, 193, 59, 0.3);
+}
+
+.support-card.support-coffee:hover {
+    border-color: #ffc13b;
+    box-shadow: 0 8px 30px rgba(255, 193, 59, 0.1);
+}
+
+.support-card.support-coffee .support-icon {
+    color: #ffc13b;
+}
+
+.support-icon {
+    width: 36px;
+    height: 36px;
+    margin: 0 auto 16px;
+    color: var(--accent);
+}
+
+.support-icon svg {
+    width: 100%;
+    height: 100%;
+}
+
+.support-card h3 {
+    font-size: 1.1rem;
+    font-weight: 600;
+    margin-bottom: 8px;
+    color: var(--text-primary);
+}
+
+.support-card p {
+    font-size: 0.85rem;
+    color: var(--text-secondary);
+    line-height: 1.6;
+}
+
 /* Footer */
 .footer {
     background: var(--bg-secondary);
@@ -641,14 +861,22 @@ section h2 {
         margin: 0 auto;
     }
 
-    .features-grid {
-        grid-template-columns: repeat(2, 1fr);
+    .carousel-wrapper {
+        padding: 0 48px;
+    }
+
+    .feature-card {
+        flex: 0 0 260px;
     }
 
     .screenshot-gallery {
         grid-template-columns: repeat(2, 1fr);
     }
 
+    .support-grid {
+        grid-template-columns: repeat(2, 1fr);
+    }
+
     .install-options {
         grid-template-columns: 1fr;
     }
@@ -669,14 +897,35 @@ section h2 {
         gap: 24px;
     }
 
-    .features-grid {
-        grid-template-columns: 1fr;
+    .carousel-wrapper {
+        padding: 0 4px;
+    }
+
+    .carousel-arrow {
+        display: none;
+    }
+
+    .feature-card {
+        flex: 0 0 260px;
+    }
+
+    .carousel-filters {
+        gap: 6px;
+    }
+
+    .filter-btn {
+        font-size: 0.7rem;
+        padding: 6px 14px;
     }
 
     .screenshot-gallery {
         grid-template-columns: 1fr;
     }
 
+    .support-grid {
+        grid-template-columns: 1fr;
+    }
+
     .nav-links {
         display: none;
     }

download-weather-sat-samples.sh

@@ -0,0 +1,30 @@
+#!/usr/bin/env bash
+# Download sample NOAA APT recordings for testing the weather satellite
+# test-decode feature. These are FM-demodulated audio WAV files.
+#
+# Usage:
+#   ./download-weather-sat-samples.sh
+#   docker exec intercept /app/download-weather-sat-samples.sh
+
+set -euo pipefail
+
+SAMPLE_DIR="$(dirname "$0")/data/weather_sat/samples"
+mkdir -p "$SAMPLE_DIR"
+
+echo "Downloading NOAA APT sample files to $SAMPLE_DIR ..."
+
+# Full satellite pass recorded over Argentina (NOAA, 11025 Hz mono WAV)
+# Source: https://github.com/martinber/noaa-apt
+if [ ! -f "$SAMPLE_DIR/noaa_apt_argentina.wav" ]; then
+    echo "  -> noaa_apt_argentina.wav (18 MB) ..."
+    curl -fSL -o "$SAMPLE_DIR/noaa_apt_argentina.wav" \
+        "https://noaa-apt.mbernardi.com.ar/examples/argentina.wav"
+else
+    echo "  -> noaa_apt_argentina.wav (already exists)"
+fi
+
+echo ""
+echo "Done. Test decode with:"
+echo "  Satellite:    NOAA-18"
+echo "  File path:    data/weather_sat/samples/noaa_apt_argentina.wav"
+echo "  Sample rate:  11025 Hz"

gp.php

@@ -0,0 +1,210 @@
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+2 28054  99.0018  60.5544 0007736 150.6435 318.8272 14.14449870151032
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+2 28912   9.0646  55.4438 0001292 220.3216 340.7358  1.00280364  5681
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+2 32958  98.6761 340.6748 0009336 139.4536 220.7337 14.19536323916838
+GOES 14                 
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+2 35491   1.3510  84.7861 0001663 279.3774 203.6871  1.00112472  5283
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+2 36411   0.9477  85.6904 0004764 200.6178  64.5237  1.00275731 58322
+COMS 1                  
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+2 38771  98.6708  91.6029 0002456  28.4142 331.7169 14.21434029694718
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+GOES 17                 
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+2 43689  98.6834  99.5280 0001629 143.8933 216.2355 14.21510040376280
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+2 43823   0.0152  95.1913 0001141 313.4173  65.1318  1.00271011 26327
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+2 44387  98.9044  23.0180 0002141  55.2566 304.8814 14.24320728342700
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+2 58663  97.4371 153.6033 0005010  87.2275 272.9538 15.28818503117364
+TIANMU-1 15             
+1 58700U 24004A   26037.63062994  .00009739  00000+0  38850-3 0  9991
+2 58700  97.4651 223.9243 0008449  88.7599 271.4607 15.25356935115862
+TIANMU-1 16             
+1 58701U 24004B   26037.61474986  .00010691  00000+0  42590-3 0  9993
+2 58701  97.4590 223.2544 0006831  91.0928 269.1093 15.25387104115863
+TIANMU-1 17             
+1 58702U 24004C   26037.59783649  .00011079  00000+0  44078-3 0  9994
+2 58702  97.4624 223.6760 0006020  92.0871 268.1056 15.25425175115852
+TIANMU-1 18             
+1 58703U 24004D   26037.64767373  .00010786  00000+0  42976-3 0  9996
+2 58703  97.4642 223.9320 0005432  91.0134 269.1726 15.25387870115860
+INSAT-3DS               
+1 58990U 24033A   26037.64159978 -.00000153  00000+0  00000+0 0  9998
+2 58990   0.0277 242.2492 0001855  99.2205 108.3003  1.00271452 45758
+METEOR-M2 4             
+1 59051U 24039A   26037.62796654  .00000070  00000+0  51194-4 0  9991
+2 59051  98.6849 358.6843 0006923 178.9165 181.2029 14.22412185100701
+GOES 19                 
+1 60133U 24119A   26037.61098274 -.00000246  00000+0  00000+0 0  9996
+2 60133   0.0027 288.6290 0001204  74.2636 278.5881  1.00270967  5651
+FENGYUN 3H              
+1 65815U 25219A   26037.60879211  .00000151  00000+0  91464-4 0  9990
+2 65815  98.6649 341.0050 0001596  86.5100 273.6260 14.19924132 18857

intercept_agent.cfg

@@ -0,0 +1,59 @@
+# =============================================================================
+# INTERCEPT AGENT CONFIGURATION
+# =============================================================================
+# This file configures the Intercept remote agent.
+# Copy this file and customize for your deployment.
+
+[agent]
+# Agent name (used to identify this node in the controller)
+# Default: system hostname
+name = sensor-node-1
+
+# HTTP server port
+# Default: 8020
+port = 8020
+
+# Comma-separated list of allowed client IPs (empty = allow all)
+# Example: 192.168.1.100, 192.168.1.101, 10.0.0.0/8
+allowed_ips =
+
+# Enable CORS headers for browser-based clients
+# Default: false
+allow_cors = false
+
+
+[controller]
+# Controller URL for push mode
+# Example: http://192.168.1.100:5050
+url =
+
+# API key for controller authentication (shared secret)
+api_key =
+
+# Enable automatic push of scan data to controller
+# Default: false
+push_enabled = false
+
+# Push interval in seconds (minimum time between pushes)
+# Default: 5
+push_interval = 5
+
+
+[modes]
+# Enable/disable specific modes on this agent
+# Set to false to disable a mode even if tools are available
+# Default: all true
+
+pager = true
+sensor = true
+adsb = true
+ais = true
+acars = true
+aprs = true
+wifi = true
+bluetooth = true
+dsc = true
+rtlamr = true
+tscm = true
+satellite = true
+listening_post = true

pyproject.toml

@@ -1,10 +1,10 @@
 [project]
 name = "intercept"
-version = "2.10.0"
+version = "2.21.1"
 description = "Signal Intelligence Platform - Pager/433MHz/ADS-B/Satellite/WiFi/Bluetooth"
 readme = "README.md"
 requires-python = ">=3.9"
-license = {text = "MIT"}
+license = {text = "Apache-2.0"}
 authors = [
     {name = "Intercept Contributors"}
 ]
@@ -14,7 +14,7 @@ classifiers = [
     "Environment :: Web Environment",
     "Framework :: Flask",
     "Intended Audience :: Developers",
-    "License :: OSI Approved :: MIT License",
+    "License :: OSI Approved :: Apache Software License",
     "Operating System :: POSIX :: Linux",
     "Operating System :: MacOS",
     "Programming Language :: Python :: 3",
@@ -26,13 +26,14 @@ classifiers = [
     "Topic :: System :: Networking :: Monitoring",
 ]
 dependencies = [
-    "flask>=2.0.0",
+    "flask>=3.0.0",
     "skyfield>=1.45",
     "pyserial>=3.5",
     "Werkzeug>=3.1.5",
     "flask-limiter>=2.5.4",
     "bleak>=0.21.0",
     "flask-sock",
+    "websocket-client>=1.6.0",
     "requests>=2.28.0",
 ]
 
@@ -52,6 +53,16 @@ dev = [
     "types-flask>=1.1.0",
 ]
 
+optionals = [
+    "scipy>=1.10.0",
+    "qrcode[pil]>=7.4",
+    "numpy>=1.24.0",
+    "Pillow>=9.0.0",
+    "meshtastic>=2.0.0",
+    "psycopg2-binary>=2.9.9",
+    "scapy>=2.4.5",
+]
+
 [project.scripts]
 intercept = "intercept:main"
 

requirements.txt

@@ -1,5 +1,5 @@
 # Core dependencies
-flask>=2.0.0
+flask>=3.0.0
 flask-limiter>=2.5.4
 requests>=2.28.0
 Werkzeug>=3.1.5
@@ -13,17 +13,34 @@ bleak>=0.21.0
 # Satellite tracking (optional - only needed for satellite features)
 skyfield>=1.45
 
-# DSC decoding (optional - only needed for VHF DSC maritime distress)
+# DSC decoding and SSTV decoding (DSP pipeline)
 scipy>=1.10.0
 numpy>=1.24.0
 
+# SSTV image output (optional - needed for SSTV image decoding)
+Pillow>=9.0.0
+
 # GPS dongle support (optional - only needed for USB GPS receivers)
 pyserial>=3.5
 
+# Meshtastic mesh network support (optional - only needed for Meshtastic features)
+meshtastic>=2.0.0
+
+# Deauthentication attack detection (optional - for WiFi TSCM)
+scapy>=2.4.5
+
+# QR code generation for Meshtastic channels (optional)
+qrcode[pil]>=7.4
+
+# BLE RPA resolution for BT Locate (optional - for SAR device tracking)
+cryptography>=41.0.0
+
 # Development dependencies (install with: pip install -r requirements-dev.txt)
 # pytest>=7.0.0
 # pytest-cov>=4.0.0
 # ruff>=0.1.0
 # black>=23.0.0
 # mypy>=1.0.0
+# WebSocket support for in-app audio streaming (KiwiSDR, Listening Post)
 flask-sock
+websocket-client>=1.6.0

routes/__init__.py

@@ -13,14 +13,30 @@ def register_blueprints(app):
     from .ais import ais_bp
     from .dsc import dsc_bp
     from .acars import acars_bp
+    from .vdl2 import vdl2_bp
     from .aprs import aprs_bp
     from .satellite import satellite_bp
     from .gps import gps_bp
     from .settings import settings_bp
     from .correlation import correlation_bp
     from .listening_post import listening_post_bp
+    from .meshtastic import meshtastic_bp
     from .tscm import tscm_bp, init_tscm_state
     from .spy_stations import spy_stations_bp
+    from .controller import controller_bp
+    from .offline import offline_bp
+    from .updater import updater_bp
+    from .sstv import sstv_bp
+    from .weather_sat import weather_sat_bp
+    from .sstv_general import sstv_general_bp
+    from .dmr import dmr_bp
+    from .websdr import websdr_bp
+    from .alerts import alerts_bp
+    from .recordings import recordings_bp
+    from .subghz import subghz_bp
+    from .bt_locate import bt_locate_bp
+    from .analytics import analytics_bp
+    from .space_weather import space_weather_bp
 
     app.register_blueprint(pager_bp)
     app.register_blueprint(sensor_bp)
@@ -33,14 +49,30 @@ def register_blueprints(app):
     app.register_blueprint(ais_bp)
     app.register_blueprint(dsc_bp)  # VHF DSC maritime distress
     app.register_blueprint(acars_bp)
+    app.register_blueprint(vdl2_bp)
     app.register_blueprint(aprs_bp)
     app.register_blueprint(satellite_bp)
     app.register_blueprint(gps_bp)
     app.register_blueprint(settings_bp)
     app.register_blueprint(correlation_bp)
     app.register_blueprint(listening_post_bp)
+    app.register_blueprint(meshtastic_bp)
     app.register_blueprint(tscm_bp)
     app.register_blueprint(spy_stations_bp)
+    app.register_blueprint(controller_bp)  # Remote agent controller
+    app.register_blueprint(offline_bp)  # Offline mode settings
+    app.register_blueprint(updater_bp)  # GitHub update checking
+    app.register_blueprint(sstv_bp)  # ISS SSTV decoder
+    app.register_blueprint(weather_sat_bp)  # NOAA/Meteor weather satellite decoder
+    app.register_blueprint(sstv_general_bp)  # General terrestrial SSTV
+    app.register_blueprint(dmr_bp)  # DMR / P25 / Digital Voice
+    app.register_blueprint(websdr_bp)  # HF/Shortwave WebSDR
+    app.register_blueprint(alerts_bp)  # Cross-mode alerts
+    app.register_blueprint(recordings_bp)  # Session recordings
+    app.register_blueprint(subghz_bp)  # SubGHz transceiver (HackRF)
+    app.register_blueprint(bt_locate_bp)  # BT Locate SAR device tracking
+    app.register_blueprint(analytics_bp)  # Cross-mode analytics dashboard
+    app.register_blueprint(space_weather_bp)  # Space weather monitoring
 
     # Initialize TSCM state with queue and lock from app
     import app as app_module

routes/acars.py

@@ -20,29 +20,32 @@ from flask import Blueprint, jsonify, request, Response
 import app as app_module
 from utils.logging import sensor_logger as logger
 from utils.validation import validate_device_index, validate_gain, validate_ppm
-from utils.sse import format_sse
+from utils.sdr import SDRFactory, SDRType
+from utils.sse import sse_stream_fanout
+from utils.event_pipeline import process_event
 from utils.constants import (
     PROCESS_TERMINATE_TIMEOUT,
     SSE_KEEPALIVE_INTERVAL,
     SSE_QUEUE_TIMEOUT,
     PROCESS_START_WAIT,
 )
+from utils.process import register_process, unregister_process
 
 acars_bp = Blueprint('acars', __name__, url_prefix='/acars')
 
 # Default VHF ACARS frequencies (MHz) - common worldwide
 DEFAULT_ACARS_FREQUENCIES = [
-    '131.550',  # Primary worldwide
-    '130.025',  # Secondary USA/Canada
-    '129.125',  # USA
-    '131.525',  # Europe
-    '131.725',  # Europe secondary
+    '131.725',  # North America
+    '131.825',  # North America
 ]
 
 # Message counter for statistics
 acars_message_count = 0
 acars_last_message_time = None
 
+# Track which device is being used
+acars_active_device: int | None = None
+
 
 def find_acarsdec():
     """Find acarsdec binary."""
@@ -52,11 +55,13 @@ def find_acarsdec():
 def get_acarsdec_json_flag(acarsdec_path: str) -> str:
     """Detect which JSON output flag acarsdec supports.
 
-    Version 4.0+ uses -j for JSON stdout.
-    Version 3.x uses -o 4 for JSON stdout.
+    Different forks use different flags:
+    - TLeconte v4.0+: uses -j for JSON stdout
+    - TLeconte v3.x: uses -o 4 for JSON stdout
+    - f00b4r0 fork (DragonOS): uses --output json:file:- for JSON stdout
     """
     try:
-        # Get version by running acarsdec with no args (shows usage with version)
+        # Get help/version by running acarsdec with no args (shows usage)
         result = subprocess.run(
             [acarsdec_path],
             capture_output=True,
@@ -65,8 +70,15 @@ def get_acarsdec_json_flag(acarsdec_path: str) -> str:
         )
         output = result.stdout + result.stderr
 
-        # Parse version from output like "Acarsdec v4.3.1" or "Acarsdec/acarsserv 3.7"
         import re
+
+        # Check for f00b4r0 fork signature: uses --output instead of -j/-o
+        # f00b4r0's help shows "--output" for output configuration
+        if '--output' in output or 'json:file:' in output.lower():
+            logger.debug("Detected f00b4r0 acarsdec fork (--output syntax)")
+            return '--output'
+
+        # Parse version from output like "Acarsdec v4.3.1" or "Acarsdec/acarsserv 3.7"
         version_match = re.search(r'acarsdec[^\d]*v?(\d+)\.(\d+)', output, re.IGNORECASE)
         if version_match:
             major = int(version_match.group(1))
@@ -79,7 +91,7 @@ def get_acarsdec_json_flag(acarsdec_path: str) -> str:
     except Exception as e:
         logger.debug(f"Could not detect acarsdec version: {e}")
 
-    # Default to -j (modern standard for current builds from source)
+    # Default to -j (TLeconte modern standard)
     return '-j'
 
 
@@ -114,6 +126,13 @@ def stream_acars_output(process: subprocess.Popen, is_text_mode: bool = False) -
 
                 app_module.acars_queue.put(data)
 
+                # Feed flight correlator
+                try:
+                    from utils.flight_correlator import get_flight_correlator
+                    get_flight_correlator().add_acars_message(data)
+                except Exception:
+                    pass
+
                 # Log if enabled
                 if app_module.logging_enabled:
                     try:
@@ -132,9 +151,24 @@ def stream_acars_output(process: subprocess.Popen, is_text_mode: bool = False) -
         logger.error(f"ACARS stream error: {e}")
         app_module.acars_queue.put({'type': 'error', 'message': str(e)})
     finally:
+        global acars_active_device
+        # Ensure process is terminated
+        try:
+            process.terminate()
+            process.wait(timeout=2)
+        except Exception:
+            try:
+                process.kill()
+            except Exception:
+                pass
+        unregister_process(process)
         app_module.acars_queue.put({'type': 'status', 'status': 'stopped'})
         with app_module.acars_lock:
             app_module.acars_process = None
+        # Release SDR device
+        if acars_active_device is not None:
+            app_module.release_sdr_device(acars_active_device)
+            acars_active_device = None
 
 
 @acars_bp.route('/tools')
@@ -166,7 +200,7 @@ def acars_status() -> Response:
 @acars_bp.route('/start', methods=['POST'])
 def start_acars() -> Response:
     """Start ACARS decoder."""
-    global acars_message_count, acars_last_message_time
+    global acars_message_count, acars_last_message_time, acars_active_device
 
     with app_module.acars_lock:
         if app_module.acars_process and app_module.acars_process.poll() is None:
@@ -193,6 +227,18 @@ def start_acars() -> Response:
     except ValueError as e:
         return jsonify({'status': 'error', 'message': str(e)}), 400
 
+    # Check if device is available
+    device_int = int(device)
+    error = app_module.claim_sdr_device(device_int, 'acars')
+    if error:
+        return jsonify({
+            'status': 'error',
+            'error_type': 'DEVICE_BUSY',
+            'message': error
+        }), 409
+
+    acars_active_device = device_int
+
     # Get frequencies - use provided or defaults
     frequencies = data.get('frequencies', DEFAULT_ACARS_FREQUENCIES)
     if isinstance(frequencies, str):
@@ -209,27 +255,60 @@ def start_acars() -> Response:
     acars_message_count = 0
     acars_last_message_time = None
 
+    # Resolve SDR type for device selection
+    sdr_type_str = data.get('sdr_type', 'rtlsdr')
+    try:
+        sdr_type = SDRType(sdr_type_str)
+    except ValueError:
+        sdr_type = SDRType.RTL_SDR
+
+    is_soapy = sdr_type not in (SDRType.RTL_SDR,)
+
     # Build acarsdec command
-    # acarsdec -j -g <gain> -p <ppm> -r <device> <freq1> <freq2> ...
-    # Note: -j is JSON stdout (newer forks), -o 4 was the old syntax
-    # gain/ppm must come BEFORE -r
+    # Different forks have different syntax:
+    # - TLeconte v4+: acarsdec -j -g <gain> -p <ppm> -r <device> <freq1> <freq2> ...
+    # - TLeconte v3: acarsdec -o 4 -g <gain> -p <ppm> -r <device> <freq1> <freq2> ...
+    # - f00b4r0 (DragonOS): acarsdec --output json:file:- -g <gain> -p <ppm> -r <device> <freq1> ...
+    # SoapySDR devices: TLeconte uses -d <device_string>, f00b4r0 uses --soapysdr <device_string>
+    # Note: gain/ppm must come BEFORE -r/-d
     json_flag = get_acarsdec_json_flag(acarsdec_path)
     cmd = [acarsdec_path]
-    if json_flag == '-j':
-        cmd.append('-j')         # JSON output (newer TLeconte fork)
+    if json_flag == '--output':
+        # f00b4r0 fork: --output json:file (no path = stdout)
+        cmd.extend(['--output', 'json:file'])
+    elif json_flag == '-j':
+        cmd.append('-j')         # JSON output (TLeconte v4+)
     else:
-        cmd.extend(['-o', '4'])  # JSON output (older versions)
+        cmd.extend(['-o', '4'])  # JSON output (TLeconte v3.x)
 
-    # Add gain if not auto (must be before -r)
+    # Add gain if not auto (must be before -r/-d)
     if gain and str(gain) != '0':
         cmd.extend(['-g', str(gain)])
 
-    # Add PPM correction if specified (must be before -r)
+    # Add PPM correction if specified (must be before -r/-d)
     if ppm and str(ppm) != '0':
         cmd.extend(['-p', str(ppm)])
 
-    # Add device and frequencies (-r takes device, remaining args are frequencies)
-    cmd.extend(['-r', str(device)])
+    # Add device and frequencies
+    if is_soapy:
+        # SoapySDR device (SDRplay, LimeSDR, Airspy, etc.)
+        sdr_device = SDRFactory.create_default_device(sdr_type, index=device_int)
+        # Build SoapySDR driver string (e.g., "driver=sdrplay,serial=...")
+        builder = SDRFactory.get_builder(sdr_type)
+        device_str = builder._build_device_string(sdr_device)
+        if json_flag == '--output':
+            cmd.extend(['-m', '256'])
+            cmd.extend(['--soapysdr', device_str])
+        else:
+            cmd.extend(['-d', device_str])
+    elif json_flag == '--output':
+        # f00b4r0 fork RTL-SDR: --rtlsdr <device>
+        # Use 3.2 MS/s sample rate for wider bandwidth (handles NA frequency span)
+        cmd.extend(['-m', '256'])
+        cmd.extend(['--rtlsdr', str(device)])
+    else:
+        # TLeconte fork RTL-SDR: -r <device>
+        cmd.extend(['-r', str(device)])
     cmd.extend(frequencies)
 
     logger.info(f"Starting ACARS decoder: {' '.join(cmd)}")
@@ -262,7 +341,10 @@ def start_acars() -> Response:
         time.sleep(PROCESS_START_WAIT)
 
         if process.poll() is not None:
-            # Process died
+            # Process died - release device
+            if acars_active_device is not None:
+                app_module.release_sdr_device(acars_active_device)
+                acars_active_device = None
             stderr = ''
             if process.stderr:
                 stderr = process.stderr.read().decode('utf-8', errors='replace')
@@ -273,6 +355,7 @@ def start_acars() -> Response:
             return jsonify({'status': 'error', 'message': error_msg}), 500
 
         app_module.acars_process = process
+        register_process(process)
 
         # Start output streaming thread
         thread = threading.Thread(
@@ -290,6 +373,10 @@ def start_acars() -> Response:
         })
 
     except Exception as e:
+        # Release device on failure
+        if acars_active_device is not None:
+            app_module.release_sdr_device(acars_active_device)
+            acars_active_device = None
         logger.error(f"Failed to start ACARS decoder: {e}")
         return jsonify({'status': 'error', 'message': str(e)}), 500
 
@@ -297,6 +384,8 @@ def start_acars() -> Response:
 @acars_bp.route('/stop', methods=['POST'])
 def stop_acars() -> Response:
     """Stop ACARS decoder."""
+    global acars_active_device
+
     with app_module.acars_lock:
         if not app_module.acars_process:
             return jsonify({
@@ -314,30 +403,33 @@ def stop_acars() -> Response:
 
         app_module.acars_process = None
 
+    # Release device from registry
+    if acars_active_device is not None:
+        app_module.release_sdr_device(acars_active_device)
+        acars_active_device = None
+
     return jsonify({'status': 'stopped'})
 
 
-@acars_bp.route('/stream')
-def stream_acars() -> Response:
-    """SSE stream for ACARS messages."""
-    def generate() -> Generator[str, None, None]:
-        last_keepalive = time.time()
-
-        while True:
-            try:
-                msg = app_module.acars_queue.get(timeout=SSE_QUEUE_TIMEOUT)
-                last_keepalive = time.time()
-                yield format_sse(msg)
-            except queue.Empty:
-                now = time.time()
-                if now - last_keepalive >= SSE_KEEPALIVE_INTERVAL:
-                    yield format_sse({'type': 'keepalive'})
-                    last_keepalive = now
-
-    response = Response(generate(), mimetype='text/event-stream')
-    response.headers['Cache-Control'] = 'no-cache'
-    response.headers['X-Accel-Buffering'] = 'no'
-    return response
+@acars_bp.route('/stream')
+def stream_acars() -> Response:
+    """SSE stream for ACARS messages."""
+    def _on_msg(msg: dict[str, Any]) -> None:
+        process_event('acars', msg, msg.get('type'))
+
+    response = Response(
+        sse_stream_fanout(
+            source_queue=app_module.acars_queue,
+            channel_key='acars',
+            timeout=SSE_QUEUE_TIMEOUT,
+            keepalive_interval=SSE_KEEPALIVE_INTERVAL,
+            on_message=_on_msg,
+        ),
+        mimetype='text/event-stream',
+    )
+    response.headers['Cache-Control'] = 'no-cache'
+    response.headers['X-Accel-Buffering'] = 'no'
+    return response
 
 
 @acars_bp.route('/frequencies')
@@ -346,7 +438,7 @@ def get_frequencies() -> Response:
     return jsonify({
         'default': DEFAULT_ACARS_FREQUENCIES,
         'regions': {
-            'north_america': ['129.125', '130.025', '130.450', '131.550'],
+            'north_america': ['131.725', '131.825'],
             'europe': ['131.525', '131.725', '131.550'],
             'asia_pacific': ['131.550', '131.450'],
         }

routes/ais.py

@@ -15,9 +15,11 @@ from typing import Generator
 from flask import Blueprint, jsonify, request, Response, render_template
 
 import app as app_module
+from config import SHARED_OBSERVER_LOCATION_ENABLED
 from utils.logging import get_logger
 from utils.validation import validate_device_index, validate_gain
-from utils.sse import format_sse
+from utils.sse import sse_stream_fanout
+from utils.event_pipeline import process_event
 from utils.sdr import SDRFactory, SDRType
 from utils.constants import (
     AIS_TCP_PORT,
@@ -122,13 +124,27 @@ def parse_ais_stream(port: int):
                     if now - last_update >= AIS_UPDATE_INTERVAL:
                         for mmsi in pending_updates:
                             if mmsi in app_module.ais_vessels:
+                                _vessel_snap = app_module.ais_vessels[mmsi]
                                 try:
                                     app_module.ais_queue.put_nowait({
                                         'type': 'vessel',
-                                        **app_module.ais_vessels[mmsi]
+                                        **_vessel_snap
                                     })
                                 except queue.Full:
                                     pass
+                                # Geofence check
+                                _v_lat = _vessel_snap.get('lat')
+                                _v_lon = _vessel_snap.get('lon')
+                                if _v_lat and _v_lon:
+                                    try:
+                                        from utils.geofence import get_geofence_manager
+                                        for _gf_evt in get_geofence_manager().check_position(
+                                            mmsi, 'vessel', _v_lat, _v_lon,
+                                            {'name': _vessel_snap.get('name'), 'ship_type': _vessel_snap.get('ship_type_text')}
+                                        ):
+                                            process_event('ais', _gf_evt, 'geofence')
+                                    except Exception:
+                                        pass
                         pending_updates.clear()
                         last_update = now
 
@@ -163,10 +179,13 @@ def process_ais_message(msg: dict) -> dict | None:
     vessel = app_module.ais_vessels.get(mmsi) or {'mmsi': mmsi}
 
     # Extract common fields
-    if 'lat' in msg and 'lon' in msg:
+    # AIS-catcher JSON_FULL uses 'longitude'/'latitude', but some versions use 'lon'/'lat'
+    lat_val = msg.get('latitude') or msg.get('lat')
+    lon_val = msg.get('longitude') or msg.get('lon')
+    if lat_val is not None and lon_val is not None:
         try:
-            lat = float(msg['lat'])
-            lon = float(msg['lon'])
+            lat = float(lat_val)
+            lon = float(lon_val)
             # Validate coordinates (AIS uses 181 for unavailable)
             if -90 <= lat <= 90 and -180 <= lon <= 180:
                 vessel['lat'] = lat
@@ -277,6 +296,16 @@ def process_ais_message(msg: dict) -> dict | None:
     # Timestamp
     vessel['last_seen'] = time.time()
 
+    # Check for DSC DISTRESS matching this MMSI
+    try:
+        for _dsc_key, _dsc_msg in app_module.dsc_messages.items():
+            if (str(_dsc_msg.get('source_mmsi', '')) == mmsi
+                    and _dsc_msg.get('category', '').upper() == 'DISTRESS'):
+                vessel['dsc_distress'] = True
+                break
+    except Exception:
+        pass
+
     return vessel
 
 
@@ -366,6 +395,16 @@ def start_ais():
         app_module.ais_process = None
         logger.info("Killed existing AIS process")
 
+    # Check if device is available
+    device_int = int(device)
+    error = app_module.claim_sdr_device(device_int, 'ais')
+    if error:
+        return jsonify({
+            'status': 'error',
+            'error_type': 'DEVICE_BUSY',
+            'message': error
+        }), 409
+
     # Build command using SDR abstraction
     sdr_device = SDRFactory.create_default_device(sdr_type, index=device)
     builder = SDRFactory.get_builder(sdr_type)
@@ -396,6 +435,8 @@ def start_ais():
         time.sleep(2.0)
 
         if app_module.ais_process.poll() is not None:
+            # Release device on failure
+            app_module.release_sdr_device(device_int)
             stderr_output = ''
             if app_module.ais_process.stderr:
                 try:
@@ -421,6 +462,8 @@ def start_ais():
             'port': tcp_port
         })
     except Exception as e:
+        # Release device on failure
+        app_module.release_sdr_device(device_int)
         logger.error(f"Failed to start AIS-catcher: {e}")
         return jsonify({'status': 'error', 'message': str(e)}), 500
 
@@ -444,6 +487,11 @@ def stop_ais():
                     pass
             app_module.ais_process = None
             logger.info("AIS process stopped")
+
+        # Release device from registry
+        if ais_active_device is not None:
+            app_module.release_sdr_device(ais_active_device)
+
         ais_running = False
         ais_active_device = None
 
@@ -454,27 +502,45 @@ def stop_ais():
 @ais_bp.route('/stream')
 def stream_ais():
     """SSE stream for AIS vessels."""
-    def generate() -> Generator[str, None, None]:
-        last_keepalive = time.time()
+    def _on_msg(msg: dict[str, Any]) -> None:
+        process_event('ais', msg, msg.get('type'))
 
-        while True:
-            try:
-                msg = app_module.ais_queue.get(timeout=SSE_QUEUE_TIMEOUT)
-                last_keepalive = time.time()
-                yield format_sse(msg)
-            except queue.Empty:
-                now = time.time()
-                if now - last_keepalive >= SSE_KEEPALIVE_INTERVAL:
-                    yield format_sse({'type': 'keepalive'})
-                    last_keepalive = now
-
-    response = Response(generate(), mimetype='text/event-stream')
+    response = Response(
+        sse_stream_fanout(
+            source_queue=app_module.ais_queue,
+            channel_key='ais',
+            timeout=SSE_QUEUE_TIMEOUT,
+            keepalive_interval=SSE_KEEPALIVE_INTERVAL,
+            on_message=_on_msg,
+        ),
+        mimetype='text/event-stream',
+    )
     response.headers['Cache-Control'] = 'no-cache'
     response.headers['X-Accel-Buffering'] = 'no'
     return response
 
 
+@ais_bp.route('/vessel/<mmsi>/dsc')
+def get_vessel_dsc(mmsi: str):
+    """Get DSC messages associated with a vessel MMSI."""
+    if not mmsi or not mmsi.isdigit():
+        return jsonify({'status': 'error', 'message': 'Invalid MMSI'}), 400
+
+    matches = []
+    try:
+        for key, msg in app_module.dsc_messages.items():
+            if str(msg.get('source_mmsi', '')) == mmsi:
+                matches.append(dict(msg))
+    except Exception:
+        pass
+
+    return jsonify({'status': 'success', 'mmsi': mmsi, 'dsc_messages': matches})
+
+
 @ais_bp.route('/dashboard')
 def ais_dashboard():
     """Popout AIS dashboard."""
-    return render_template('ais_dashboard.html')
+    return render_template(
+        'ais_dashboard.html',
+        shared_observer_location=SHARED_OBSERVER_LOCATION_ENABLED,
+    )

routes/alerts.py

@@ -0,0 +1,76 @@
+"""Alerting API endpoints."""
+
+from __future__ import annotations
+
+import queue
+import time
+from typing import Generator
+
+from flask import Blueprint, Response, jsonify, request
+
+from utils.alerts import get_alert_manager
+from utils.sse import format_sse
+
+alerts_bp = Blueprint('alerts', __name__, url_prefix='/alerts')
+
+
+@alerts_bp.route('/rules', methods=['GET'])
+def list_rules():
+    manager = get_alert_manager()
+    include_disabled = request.args.get('all') in ('1', 'true', 'yes')
+    return jsonify({'status': 'success', 'rules': manager.list_rules(include_disabled=include_disabled)})
+
+
+@alerts_bp.route('/rules', methods=['POST'])
+def create_rule():
+    data = request.get_json() or {}
+    if not isinstance(data.get('match', {}), dict):
+        return jsonify({'status': 'error', 'message': 'match must be a JSON object'}), 400
+
+    manager = get_alert_manager()
+    rule_id = manager.add_rule(data)
+    return jsonify({'status': 'success', 'rule_id': rule_id})
+
+
+@alerts_bp.route('/rules/<int:rule_id>', methods=['PUT', 'PATCH'])
+def update_rule(rule_id: int):
+    data = request.get_json() or {}
+    manager = get_alert_manager()
+    ok = manager.update_rule(rule_id, data)
+    if not ok:
+        return jsonify({'status': 'error', 'message': 'Rule not found or no changes'}), 404
+    return jsonify({'status': 'success'})
+
+
+@alerts_bp.route('/rules/<int:rule_id>', methods=['DELETE'])
+def delete_rule(rule_id: int):
+    manager = get_alert_manager()
+    ok = manager.delete_rule(rule_id)
+    if not ok:
+        return jsonify({'status': 'error', 'message': 'Rule not found'}), 404
+    return jsonify({'status': 'success'})
+
+
+@alerts_bp.route('/events', methods=['GET'])
+def list_events():
+    manager = get_alert_manager()
+    limit = request.args.get('limit', default=100, type=int)
+    mode = request.args.get('mode')
+    severity = request.args.get('severity')
+    events = manager.list_events(limit=limit, mode=mode, severity=severity)
+    return jsonify({'status': 'success', 'events': events})
+
+
+@alerts_bp.route('/stream', methods=['GET'])
+def stream_alerts() -> Response:
+    manager = get_alert_manager()
+
+    def generate() -> Generator[str, None, None]:
+        for event in manager.stream_events(timeout=1.0):
+            yield format_sse(event)
+
+    response = Response(generate(), mimetype='text/event-stream')
+    response.headers['Cache-Control'] = 'no-cache'
+    response.headers['X-Accel-Buffering'] = 'no'
+    response.headers['Connection'] = 'keep-alive'
+    return response

routes/analytics.py

@@ -0,0 +1,528 @@
+"""Analytics dashboard: cross-mode summary, activity sparklines, export, geofence CRUD."""
+
+from __future__ import annotations
+
+import csv
+import io
+import json
+from datetime import datetime, timezone
+from typing import Any
+
+from flask import Blueprint, Response, jsonify, request
+
+import app as app_module
+from utils.analytics import (
+    get_activity_tracker,
+    get_cross_mode_summary,
+    get_emergency_squawks,
+    get_mode_health,
+)
+from utils.alerts import get_alert_manager
+from utils.flight_correlator import get_flight_correlator
+from utils.geofence import get_geofence_manager
+from utils.temporal_patterns import get_pattern_detector
+
+analytics_bp = Blueprint('analytics', __name__, url_prefix='/analytics')
+
+
+# Map mode names to DataStore attribute(s)
+MODE_STORES: dict[str, list[str]] = {
+    'adsb': ['adsb_aircraft'],
+    'ais': ['ais_vessels'],
+    'wifi': ['wifi_networks', 'wifi_clients'],
+    'bluetooth': ['bt_devices'],
+    'dsc': ['dsc_messages'],
+}
+
+
+@analytics_bp.route('/summary')
+def analytics_summary():
+    """Return cross-mode counts, health, and emergency squawks."""
+    return jsonify({
+        'status': 'success',
+        'counts': get_cross_mode_summary(),
+        'health': get_mode_health(),
+        'squawks': get_emergency_squawks(),
+        'flight_messages': {
+            'acars': get_flight_correlator().acars_count,
+            'vdl2': get_flight_correlator().vdl2_count,
+        },
+    })
+
+
+@analytics_bp.route('/activity')
+def analytics_activity():
+    """Return sparkline arrays for each mode."""
+    tracker = get_activity_tracker()
+    return jsonify({
+        'status': 'success',
+        'sparklines': tracker.get_all_sparklines(),
+    })
+
+
+@analytics_bp.route('/squawks')
+def analytics_squawks():
+    """Return current emergency squawk codes from ADS-B."""
+    return jsonify({
+        'status': 'success',
+        'squawks': get_emergency_squawks(),
+    })
+
+
+@analytics_bp.route('/patterns')
+def analytics_patterns():
+    """Return detected temporal patterns."""
+    return jsonify({
+        'status': 'success',
+        'patterns': get_pattern_detector().get_all_patterns(),
+    })
+
+
+@analytics_bp.route('/target')
+def analytics_target():
+    """Search entities across multiple modes for a target-centric view."""
+    query = (request.args.get('q') or '').strip()
+    requested_limit = request.args.get('limit', default=120, type=int) or 120
+    limit = max(1, min(500, requested_limit))
+
+    if not query:
+        return jsonify({
+            'status': 'success',
+            'query': '',
+            'results': [],
+            'mode_counts': {},
+        })
+
+    needle = query.lower()
+    results: list[dict[str, Any]] = []
+    mode_counts: dict[str, int] = {}
+
+    def push(mode: str, entity_id: str, title: str, subtitle: str, last_seen: str | None = None) -> None:
+        if len(results) >= limit:
+            return
+        results.append({
+            'mode': mode,
+            'id': entity_id,
+            'title': title,
+            'subtitle': subtitle,
+            'last_seen': last_seen,
+        })
+        mode_counts[mode] = mode_counts.get(mode, 0) + 1
+
+    # ADS-B
+    for icao, aircraft in app_module.adsb_aircraft.items():
+        if not isinstance(aircraft, dict):
+            continue
+        fields = [
+            icao,
+            aircraft.get('icao'),
+            aircraft.get('hex'),
+            aircraft.get('callsign'),
+            aircraft.get('registration'),
+            aircraft.get('flight'),
+        ]
+        if not _matches_query(needle, fields):
+            continue
+        title = str(aircraft.get('callsign') or icao or 'Aircraft').strip()
+        subtitle = f"ICAO {aircraft.get('icao') or icao} | Alt {aircraft.get('altitude', '--')} | Speed {aircraft.get('speed', '--')}"
+        push('adsb', str(icao), title, subtitle, aircraft.get('lastSeen') or aircraft.get('last_seen'))
+        if len(results) >= limit:
+            break
+
+    # AIS
+    if len(results) < limit:
+        for mmsi, vessel in app_module.ais_vessels.items():
+            if not isinstance(vessel, dict):
+                continue
+            fields = [
+                mmsi,
+                vessel.get('mmsi'),
+                vessel.get('name'),
+                vessel.get('shipname'),
+                vessel.get('callsign'),
+                vessel.get('imo'),
+            ]
+            if not _matches_query(needle, fields):
+                continue
+            vessel_name = vessel.get('name') or vessel.get('shipname') or mmsi or 'Vessel'
+            subtitle = f"MMSI {vessel.get('mmsi') or mmsi} | Type {vessel.get('ship_type') or vessel.get('type') or '--'}"
+            push('ais', str(mmsi), str(vessel_name), subtitle, vessel.get('lastSeen') or vessel.get('last_seen'))
+            if len(results) >= limit:
+                break
+
+    # WiFi networks and clients
+    if len(results) < limit:
+        for bssid, net in app_module.wifi_networks.items():
+            if not isinstance(net, dict):
+                continue
+            fields = [bssid, net.get('bssid'), net.get('ssid'), net.get('vendor')]
+            if not _matches_query(needle, fields):
+                continue
+            title = str(net.get('ssid') or net.get('bssid') or bssid or 'WiFi Network')
+            subtitle = f"BSSID {net.get('bssid') or bssid} | CH {net.get('channel', '--')} | RSSI {net.get('signal', '--')}"
+            push('wifi', str(bssid), title, subtitle, net.get('lastSeen') or net.get('last_seen'))
+            if len(results) >= limit:
+                break
+
+    if len(results) < limit:
+        for client_mac, client in app_module.wifi_clients.items():
+            if not isinstance(client, dict):
+                continue
+            fields = [client_mac, client.get('mac'), client.get('bssid'), client.get('ssid'), client.get('vendor')]
+            if not _matches_query(needle, fields):
+                continue
+            title = str(client.get('mac') or client_mac or 'WiFi Client')
+            subtitle = f"BSSID {client.get('bssid') or '--'} | Probe {client.get('ssid') or '--'}"
+            push('wifi', str(client_mac), title, subtitle, client.get('lastSeen') or client.get('last_seen'))
+            if len(results) >= limit:
+                break
+
+    # Bluetooth
+    if len(results) < limit:
+        for address, dev in app_module.bt_devices.items():
+            if not isinstance(dev, dict):
+                continue
+            fields = [
+                address,
+                dev.get('address'),
+                dev.get('mac'),
+                dev.get('name'),
+                dev.get('manufacturer'),
+                dev.get('vendor'),
+            ]
+            if not _matches_query(needle, fields):
+                continue
+            title = str(dev.get('name') or dev.get('address') or address or 'Bluetooth Device')
+            subtitle = f"MAC {dev.get('address') or address} | RSSI {dev.get('rssi', '--')} | Vendor {dev.get('manufacturer') or dev.get('vendor') or '--'}"
+            push('bluetooth', str(address), title, subtitle, dev.get('lastSeen') or dev.get('last_seen'))
+            if len(results) >= limit:
+                break
+
+    # DSC recent messages
+    if len(results) < limit:
+        for msg_id, msg in app_module.dsc_messages.items():
+            if not isinstance(msg, dict):
+                continue
+            fields = [
+                msg_id,
+                msg.get('mmsi'),
+                msg.get('from_mmsi'),
+                msg.get('to_mmsi'),
+                msg.get('from_callsign'),
+                msg.get('to_callsign'),
+                msg.get('category'),
+            ]
+            if not _matches_query(needle, fields):
+                continue
+            title = str(msg.get('from_mmsi') or msg.get('mmsi') or msg_id or 'DSC Message')
+            subtitle = f"To {msg.get('to_mmsi') or '--'} | Cat {msg.get('category') or '--'} | Freq {msg.get('frequency') or '--'}"
+            push('dsc', str(msg_id), title, subtitle, msg.get('timestamp') or msg.get('lastSeen') or msg.get('last_seen'))
+            if len(results) >= limit:
+                break
+
+    return jsonify({
+        'status': 'success',
+        'query': query,
+        'results': results,
+        'mode_counts': mode_counts,
+    })
+
+
+@analytics_bp.route('/insights')
+def analytics_insights():
+    """Return actionable insight cards and top changes."""
+    counts = get_cross_mode_summary()
+    tracker = get_activity_tracker()
+    sparklines = tracker.get_all_sparklines()
+    squawks = get_emergency_squawks()
+    patterns = get_pattern_detector().get_all_patterns()
+    alerts = get_alert_manager().list_events(limit=120)
+
+    top_changes = _compute_mode_changes(sparklines)
+    busiest_mode, busiest_count = _get_busiest_mode(counts)
+    critical_1h = _count_recent_alerts(alerts, severities={'critical', 'high'}, max_age_seconds=3600)
+    recurring_emitters = sum(1 for p in patterns if float(p.get('confidence') or 0.0) >= 0.7)
+
+    cards = []
+    if top_changes:
+        lead = top_changes[0]
+        direction = 'up' if lead['delta'] >= 0 else 'down'
+        cards.append({
+            'id': 'fastest_change',
+            'title': 'Fastest Change',
+            'value': f"{lead['mode_label']} ({lead['signed_delta']})",
+            'label': 'last window vs prior',
+            'severity': 'high' if lead['delta'] > 0 else 'low',
+            'detail': f"Traffic is trending {direction} in {lead['mode_label']}.",
+        })
+    else:
+        cards.append({
+            'id': 'fastest_change',
+            'title': 'Fastest Change',
+            'value': 'Insufficient data',
+            'label': 'wait for activity history',
+            'severity': 'low',
+            'detail': 'Sparklines need more samples to score momentum.',
+        })
+
+    cards.append({
+        'id': 'busiest_mode',
+        'title': 'Busiest Mode',
+        'value': f"{busiest_mode} ({busiest_count})",
+        'label': 'current observed entities',
+        'severity': 'medium' if busiest_count > 0 else 'low',
+        'detail': 'Highest live entity count across monitoring modes.',
+    })
+    cards.append({
+        'id': 'critical_alerts',
+        'title': 'Critical Alerts (1h)',
+        'value': str(critical_1h),
+        'label': 'critical/high severities',
+        'severity': 'critical' if critical_1h > 0 else 'low',
+        'detail': 'Prioritize triage if this count is non-zero.',
+    })
+    cards.append({
+        'id': 'emergency_squawks',
+        'title': 'Emergency Squawks',
+        'value': str(len(squawks)),
+        'label': 'active ADS-B emergency codes',
+        'severity': 'critical' if squawks else 'low',
+        'detail': 'Immediate aviation anomalies currently visible.',
+    })
+    cards.append({
+        'id': 'recurring_emitters',
+        'title': 'Recurring Emitters',
+        'value': str(recurring_emitters),
+        'label': 'pattern confidence >= 0.70',
+        'severity': 'medium' if recurring_emitters > 0 else 'low',
+        'detail': 'Potentially stationary or periodic emitters detected.',
+    })
+
+    return jsonify({
+        'status': 'success',
+        'generated_at': datetime.now(timezone.utc).isoformat(),
+        'cards': cards,
+        'top_changes': top_changes[:5],
+    })
+
+
+def _compute_mode_changes(sparklines: dict[str, list[int]]) -> list[dict]:
+    mode_labels = {
+        'adsb': 'ADS-B',
+        'ais': 'AIS',
+        'wifi': 'WiFi',
+        'bluetooth': 'Bluetooth',
+        'dsc': 'DSC',
+        'acars': 'ACARS',
+        'vdl2': 'VDL2',
+        'aprs': 'APRS',
+        'meshtastic': 'Meshtastic',
+    }
+    rows = []
+    for mode, samples in (sparklines or {}).items():
+        if not isinstance(samples, list) or len(samples) < 4:
+            continue
+
+        window = max(2, min(12, len(samples) // 2))
+        recent = samples[-window:]
+        previous = samples[-(window * 2):-window]
+        if not previous:
+            continue
+
+        recent_avg = sum(recent) / len(recent)
+        prev_avg = sum(previous) / len(previous)
+        delta = round(recent_avg - prev_avg, 1)
+        rows.append({
+            'mode': mode,
+            'mode_label': mode_labels.get(mode, mode.upper()),
+            'delta': delta,
+            'signed_delta': ('+' if delta >= 0 else '') + str(delta),
+            'recent_avg': round(recent_avg, 1),
+            'previous_avg': round(prev_avg, 1),
+            'direction': 'up' if delta > 0 else ('down' if delta < 0 else 'flat'),
+        })
+
+    rows.sort(key=lambda r: abs(r['delta']), reverse=True)
+    return rows
+
+
+def _matches_query(needle: str, values: list[Any]) -> bool:
+    for value in values:
+        if value is None:
+            continue
+        if needle in str(value).lower():
+            return True
+    return False
+
+
+def _count_recent_alerts(alerts: list[dict], severities: set[str], max_age_seconds: int) -> int:
+    now = datetime.now(timezone.utc)
+    count = 0
+    for event in alerts:
+        sev = str(event.get('severity') or '').lower()
+        if sev not in severities:
+            continue
+        created_raw = event.get('created_at')
+        if not created_raw:
+            continue
+        try:
+            created = datetime.fromisoformat(str(created_raw).replace('Z', '+00:00'))
+        except ValueError:
+            continue
+        if created.tzinfo is None:
+            created = created.replace(tzinfo=timezone.utc)
+        age = (now - created).total_seconds()
+        if 0 <= age <= max_age_seconds:
+            count += 1
+    return count
+
+
+def _get_busiest_mode(counts: dict[str, int]) -> tuple[str, int]:
+    mode_labels = {
+        'adsb': 'ADS-B',
+        'ais': 'AIS',
+        'wifi': 'WiFi',
+        'bluetooth': 'Bluetooth',
+        'dsc': 'DSC',
+        'acars': 'ACARS',
+        'vdl2': 'VDL2',
+        'aprs': 'APRS',
+        'meshtastic': 'Meshtastic',
+    }
+    filtered = {k: int(v or 0) for k, v in (counts or {}).items() if k in mode_labels}
+    if not filtered:
+        return ('None', 0)
+    mode = max(filtered, key=filtered.get)
+    return (mode_labels.get(mode, mode.upper()), filtered[mode])
+
+
+@analytics_bp.route('/export/<mode>')
+def analytics_export(mode: str):
+    """Export current DataStore contents as JSON or CSV."""
+    fmt = request.args.get('format', 'json').lower()
+
+    if mode == 'sensor':
+        # Sensor doesn't use DataStore; return recent queue-based data
+        return jsonify({'status': 'success', 'data': [], 'message': 'Sensor data is stream-only'})
+
+    store_names = MODE_STORES.get(mode)
+    if not store_names:
+        return jsonify({'status': 'error', 'message': f'Unknown mode: {mode}'}), 400
+
+    all_items: list[dict] = []
+
+    # Try v2 scanners first for wifi/bluetooth
+    if mode == 'wifi':
+        try:
+            from utils.wifi.scanner import _scanner_instance as wifi_scanner
+            if wifi_scanner is not None:
+                for ap in wifi_scanner.access_points:
+                    all_items.append(ap.to_dict())
+                for client in wifi_scanner.clients:
+                    item = client.to_dict()
+                    item['_store'] = 'wifi_clients'
+                    all_items.append(item)
+        except Exception:
+            pass
+    elif mode == 'bluetooth':
+        try:
+            from utils.bluetooth.scanner import _scanner_instance as bt_scanner
+            if bt_scanner is not None:
+                for dev in bt_scanner.get_devices():
+                    all_items.append(dev.to_dict())
+        except Exception:
+            pass
+
+    # Fall back to legacy DataStores if v2 scanners yielded nothing
+    if not all_items:
+        for store_name in store_names:
+            store = getattr(app_module, store_name, None)
+            if store is None:
+                continue
+            for key, value in store.items():
+                item = dict(value) if isinstance(value, dict) else {'id': key, 'value': value}
+                item.setdefault('_store', store_name)
+                all_items.append(item)
+
+    if fmt == 'csv':
+        if not all_items:
+            output = ''
+        else:
+            # Collect all keys across items
+            fieldnames: list[str] = []
+            seen: set[str] = set()
+            for item in all_items:
+                for k in item:
+                    if k not in seen:
+                        fieldnames.append(k)
+                        seen.add(k)
+
+            buf = io.StringIO()
+            writer = csv.DictWriter(buf, fieldnames=fieldnames, extrasaction='ignore')
+            writer.writeheader()
+            for item in all_items:
+                # Serialize non-scalar values
+                row = {}
+                for k in fieldnames:
+                    v = item.get(k)
+                    if isinstance(v, (dict, list)):
+                        row[k] = json.dumps(v)
+                    else:
+                        row[k] = v
+                writer.writerow(row)
+            output = buf.getvalue()
+
+        response = Response(output, mimetype='text/csv')
+        response.headers['Content-Disposition'] = f'attachment; filename={mode}_export.csv'
+        return response
+
+    # Default: JSON
+    return jsonify({'status': 'success', 'mode': mode, 'count': len(all_items), 'data': all_items})
+
+
+# =========================================================================
+# Geofence CRUD
+# =========================================================================
+
+@analytics_bp.route('/geofences')
+def list_geofences():
+    return jsonify({
+        'status': 'success',
+        'zones': get_geofence_manager().list_zones(),
+    })
+
+
+@analytics_bp.route('/geofences', methods=['POST'])
+def create_geofence():
+    data = request.get_json() or {}
+    name = data.get('name')
+    lat = data.get('lat')
+    lon = data.get('lon')
+    radius_m = data.get('radius_m')
+
+    if not all([name, lat is not None, lon is not None, radius_m is not None]):
+        return jsonify({'status': 'error', 'message': 'name, lat, lon, radius_m are required'}), 400
+
+    try:
+        lat = float(lat)
+        lon = float(lon)
+        radius_m = float(radius_m)
+    except (TypeError, ValueError):
+        return jsonify({'status': 'error', 'message': 'lat, lon, radius_m must be numbers'}), 400
+
+    if not (-90 <= lat <= 90) or not (-180 <= lon <= 180):
+        return jsonify({'status': 'error', 'message': 'Invalid coordinates'}), 400
+    if radius_m <= 0:
+        return jsonify({'status': 'error', 'message': 'radius_m must be positive'}), 400
+
+    alert_on = data.get('alert_on', 'enter_exit')
+    zone_id = get_geofence_manager().add_zone(name, lat, lon, radius_m, alert_on)
+    return jsonify({'status': 'success', 'zone_id': zone_id})
+
+
+@analytics_bp.route('/geofences/<int:zone_id>', methods=['DELETE'])
+def delete_geofence(zone_id: int):
+    ok = get_geofence_manager().delete_zone(zone_id)
+    if not ok:
+        return jsonify({'status': 'error', 'message': 'Zone not found'}), 404
+    return jsonify({'status': 'success'})

routes/aprs.py

@@ -13,7 +13,7 @@ import tempfile
 import threading
 import time
 from datetime import datetime
-from subprocess import DEVNULL, PIPE, STDOUT
+from subprocess import PIPE, STDOUT
 from typing import Generator, Optional
 
 from flask import Blueprint, jsonify, request, Response
@@ -21,7 +21,9 @@ from flask import Blueprint, jsonify, request, Response
 import app as app_module
 from utils.logging import sensor_logger as logger
 from utils.validation import validate_device_index, validate_gain, validate_ppm
-from utils.sse import format_sse
+from utils.sse import sse_stream_fanout
+from utils.event_pipeline import process_event
+from utils.sdr import SDRFactory, SDRType
 from utils.constants import (
     PROCESS_TERMINATE_TIMEOUT,
     SSE_KEEPALIVE_INTERVAL,
@@ -31,6 +33,9 @@ from utils.constants import (
 
 aprs_bp = Blueprint('aprs', __name__, url_prefix='/aprs')
 
+# Track which SDR device is being used
+aprs_active_device: int | None = None
+
 # APRS frequencies by region (MHz)
 APRS_FREQUENCIES = {
     'north_america': '144.390',
@@ -42,6 +47,8 @@ APRS_FREQUENCIES = {
     'brazil': '145.570',
     'japan': '144.640',
     'china': '144.640',
+    'iss': '145.825',
+    'sonate2': '145.825',
 }
 
 # Statistics
@@ -49,6 +56,7 @@ aprs_packet_count = 0
 aprs_station_count = 0
 aprs_last_packet_time = None
 aprs_stations = {}  # callsign -> station data
+APRS_MAX_STATIONS = 500  # Limit tracked stations to prevent memory growth
 
 # Meter rate limiting
 _last_meter_time = 0.0
@@ -72,6 +80,11 @@ def find_rtl_fm() -> Optional[str]:
     return shutil.which('rtl_fm')
 
 
+def find_rx_fm() -> Optional[str]:
+    """Find SoapySDR rx_fm binary."""
+    return shutil.which('rx_fm')
+
+
 def find_rtl_power() -> Optional[str]:
     """Find rtl_power binary for spectrum scanning."""
     return shutil.which('rtl_power')
@@ -1301,7 +1314,7 @@ def stream_aprs_output(rtl_process: subprocess.Popen, decoder_process: subproces
 
     This function reads from the decoder's stdout (text mode, line-buffered).
     The decoder's stderr is merged into stdout (STDOUT) to avoid deadlocks.
-    rtl_fm's stderr is sent to DEVNULL for the same reason.
+    rtl_fm's stderr is captured via PIPE with a monitor thread.
 
     Outputs two types of messages to the queue:
     - type='aprs': Decoded APRS packets
@@ -1367,6 +1380,26 @@ def stream_aprs_output(rtl_process: subprocess.Popen, decoder_process: subproces
                         'last_seen': packet.get('timestamp'),
                         'packet_type': packet.get('packet_type'),
                     }
+                    # Geofence check
+                    _aprs_lat = packet.get('lat')
+                    _aprs_lon = packet.get('lon')
+                    if _aprs_lat and _aprs_lon:
+                        try:
+                            from utils.geofence import get_geofence_manager
+                            for _gf_evt in get_geofence_manager().check_position(
+                                callsign, 'aprs_station', _aprs_lat, _aprs_lon,
+                                {'callsign': callsign}
+                            ):
+                                process_event('aprs', _gf_evt, 'geofence')
+                        except Exception:
+                            pass
+                    # Evict oldest stations when limit is exceeded
+                    if len(aprs_stations) > APRS_MAX_STATIONS:
+                        oldest = min(
+                            aprs_stations,
+                            key=lambda k: aprs_stations[k].get('last_seen', ''),
+                        )
+                        del aprs_stations[oldest]
 
                 app_module.aprs_queue.put(packet)
 
@@ -1383,6 +1416,7 @@ def stream_aprs_output(rtl_process: subprocess.Popen, decoder_process: subproces
         logger.error(f"APRS stream error: {e}")
         app_module.aprs_queue.put({'type': 'error', 'message': str(e)})
     finally:
+        global aprs_active_device
         app_module.aprs_queue.put({'type': 'status', 'status': 'stopped'})
         # Cleanup processes
         for proc in [rtl_process, decoder_process]:
@@ -1394,20 +1428,27 @@ def stream_aprs_output(rtl_process: subprocess.Popen, decoder_process: subproces
                     proc.kill()
                 except Exception:
                     pass
+        # Release SDR device
+        if aprs_active_device is not None:
+            app_module.release_sdr_device(aprs_active_device)
+            aprs_active_device = None
 
 
 @aprs_bp.route('/tools')
 def check_aprs_tools() -> Response:
     """Check for APRS decoding tools."""
     has_rtl_fm = find_rtl_fm() is not None
+    has_rx_fm = find_rx_fm() is not None
     has_direwolf = find_direwolf() is not None
     has_multimon = find_multimon_ng() is not None
+    has_fm_demod = has_rtl_fm or has_rx_fm
 
     return jsonify({
         'rtl_fm': has_rtl_fm,
+        'rx_fm': has_rx_fm,
         'direwolf': has_direwolf,
         'multimon_ng': has_multimon,
-        'ready': has_rtl_fm and (has_direwolf or has_multimon),
+        'ready': has_fm_demod and (has_direwolf or has_multimon),
         'decoder': 'direwolf' if has_direwolf else ('multimon-ng' if has_multimon else None)
     })
 
@@ -1441,6 +1482,7 @@ def get_stations() -> Response:
 def start_aprs() -> Response:
     """Start APRS decoder."""
     global aprs_packet_count, aprs_station_count, aprs_last_packet_time, aprs_stations
+    global aprs_active_device
 
     with app_module.aprs_lock:
         if app_module.aprs_process and app_module.aprs_process.poll() is None:
@@ -1449,14 +1491,6 @@ def start_aprs() -> Response:
                 'message': 'APRS decoder already running'
             }), 409
 
-    # Check for required tools
-    rtl_fm_path = find_rtl_fm()
-    if not rtl_fm_path:
-        return jsonify({
-            'status': 'error',
-            'message': 'rtl_fm not found. Install with: sudo apt install rtl-sdr'
-        }), 400
-
     # Check for decoder (prefer direwolf, fallback to multimon-ng)
     direwolf_path = find_direwolf()
     multimon_path = find_multimon_ng()
@@ -1477,6 +1511,35 @@ def start_aprs() -> Response:
     except ValueError as e:
         return jsonify({'status': 'error', 'message': str(e)}), 400
 
+    sdr_type_str = str(data.get('sdr_type', 'rtlsdr')).lower()
+    try:
+        sdr_type = SDRType(sdr_type_str)
+    except ValueError:
+        sdr_type = SDRType.RTL_SDR
+
+    if sdr_type == SDRType.RTL_SDR:
+        if find_rtl_fm() is None:
+            return jsonify({
+                'status': 'error',
+                'message': 'rtl_fm not found. Install with: sudo apt install rtl-sdr'
+            }), 400
+    else:
+        if find_rx_fm() is None:
+            return jsonify({
+                'status': 'error',
+                'message': f'rx_fm not found. Install SoapySDR tools for {sdr_type.value}.'
+            }), 400
+
+    # Reserve SDR device to prevent conflicts with other modes
+    error = app_module.claim_sdr_device(device, 'aprs')
+    if error:
+        return jsonify({
+            'status': 'error',
+            'error_type': 'DEVICE_BUSY',
+            'message': error
+        }), 409
+    aprs_active_device = device
+
     # Get frequency for region
     region = data.get('region', 'north_america')
     frequency = APRS_FREQUENCIES.get(region, '144.390')
@@ -1497,28 +1560,29 @@ def start_aprs() -> Response:
     aprs_last_packet_time = None
     aprs_stations = {}
 
-    # Build rtl_fm command for APRS (narrowband FM at 22050 Hz for AFSK1200)
-    freq_hz = f"{float(frequency)}M"
-    rtl_cmd = [
-        rtl_fm_path,
-        '-f', freq_hz,
-        '-M', 'nfm',             # Narrowband FM for APRS
-        '-s', '22050',           # Sample rate matching direwolf -r 22050
-        '-E', 'dc',              # Enable DC blocking filter for cleaner audio
-        '-A', 'fast',            # Fast AGC for packet bursts
-        '-d', str(device),
-    ]
+    # Build FM demod command for APRS (AFSK1200 @ 22050 Hz) via SDR abstraction.
+    try:
+        sdr_device = SDRFactory.create_default_device(sdr_type, index=device)
+        builder = SDRFactory.get_builder(sdr_type)
+        rtl_cmd = builder.build_fm_demod_command(
+            device=sdr_device,
+            frequency_mhz=float(frequency),
+            sample_rate=22050,
+            gain=float(gain) if gain and str(gain) != '0' else None,
+            ppm=int(ppm) if ppm and str(ppm) != '0' else None,
+            modulation='nfm' if sdr_type == SDRType.RTL_SDR else 'fm',
+            squelch=None,
+            bias_t=bool(data.get('bias_t', False)),
+        )
 
-    # Gain: 0 means auto, otherwise set specific gain
-    if gain and str(gain) != '0':
-        rtl_cmd.extend(['-g', str(gain)])
-
-    # PPM frequency correction
-    if ppm and str(ppm) != '0':
-        rtl_cmd.extend(['-p', str(ppm)])
-
-    # Output raw audio to stdout
-    rtl_cmd.append('-')
+        if sdr_type == SDRType.RTL_SDR and rtl_cmd and rtl_cmd[-1] == '-':
+            # APRS benefits from DC blocking + fast AGC on rtl_fm.
+            rtl_cmd = rtl_cmd[:-1] + ['-E', 'dc', '-A', 'fast', '-']
+    except Exception as e:
+        if aprs_active_device is not None:
+            app_module.release_sdr_device(aprs_active_device)
+            aprs_active_device = None
+        return jsonify({'status': 'error', 'message': f'Failed to build SDR command: {e}'}), 500
 
     # Build decoder command
     if direwolf_path:
@@ -1552,15 +1616,25 @@ def start_aprs() -> Response:
 
     try:
         # Start rtl_fm with stdout piped to decoder.
-        # stderr goes to DEVNULL to prevent blocking (rtl_fm logs to stderr).
+        # stderr is captured via PIPE so errors are reported to the user.
         # NOTE: RTL-SDR Blog V4 may show offset-tuned frequency in logs - this is normal.
         rtl_process = subprocess.Popen(
             rtl_cmd,
             stdout=PIPE,
-            stderr=DEVNULL,
+            stderr=PIPE,
             start_new_session=True
         )
 
+        # Start a thread to monitor rtl_fm stderr for errors
+        def monitor_rtl_stderr():
+            for line in rtl_process.stderr:
+                err_text = line.decode('utf-8', errors='replace').strip()
+                if err_text:
+                    logger.debug(f"[RTL_FM] {err_text}")
+
+        rtl_stderr_thread = threading.Thread(target=monitor_rtl_stderr, daemon=True)
+        rtl_stderr_thread.start()
+
         # Start decoder with stdin wired to rtl_fm's stdout.
         # Use text mode with line buffering for reliable line-by-line reading.
         # Merge stderr into stdout to avoid blocking on unbuffered stderr.
@@ -1582,13 +1656,25 @@ def start_aprs() -> Response:
         time.sleep(PROCESS_START_WAIT)
 
         if rtl_process.poll() is not None:
-            # rtl_fm exited early - something went wrong
+            # rtl_fm exited early - capture stderr for diagnostics
+            stderr_output = ''
+            try:
+                remaining = rtl_process.stderr.read()
+                if remaining:
+                    stderr_output = remaining.decode('utf-8', errors='replace').strip()
+            except Exception:
+                pass
             error_msg = f'rtl_fm failed to start (exit code {rtl_process.returncode})'
+            if stderr_output:
+                error_msg += f': {stderr_output[:200]}'
             logger.error(error_msg)
             try:
                 decoder_process.kill()
             except Exception:
                 pass
+            if aprs_active_device is not None:
+                app_module.release_sdr_device(aprs_active_device)
+                aprs_active_device = None
             return jsonify({'status': 'error', 'message': error_msg}), 500
 
         if decoder_process.poll() is not None:
@@ -1602,6 +1688,9 @@ def start_aprs() -> Response:
                 rtl_process.kill()
             except Exception:
                 pass
+            if aprs_active_device is not None:
+                app_module.release_sdr_device(aprs_active_device)
+                aprs_active_device = None
             return jsonify({'status': 'error', 'message': error_msg}), 500
 
         # Store references for status checks and cleanup
@@ -1621,17 +1710,23 @@ def start_aprs() -> Response:
             'frequency': frequency,
             'region': region,
             'device': device,
+            'sdr_type': sdr_type.value,
             'decoder': decoder_name
         })
 
     except Exception as e:
         logger.error(f"Failed to start APRS decoder: {e}")
+        if aprs_active_device is not None:
+            app_module.release_sdr_device(aprs_active_device)
+            aprs_active_device = None
         return jsonify({'status': 'error', 'message': str(e)}), 500
 
 
 @aprs_bp.route('/stop', methods=['POST'])
 def stop_aprs() -> Response:
     """Stop APRS decoder."""
+    global aprs_active_device
+
     with app_module.aprs_lock:
         processes_to_stop = []
 
@@ -1660,30 +1755,33 @@ def stop_aprs() -> Response:
         if hasattr(app_module, 'aprs_rtl_process'):
             app_module.aprs_rtl_process = None
 
+        # Release SDR device
+        if aprs_active_device is not None:
+            app_module.release_sdr_device(aprs_active_device)
+            aprs_active_device = None
+
     return jsonify({'status': 'stopped'})
 
 
-@aprs_bp.route('/stream')
-def stream_aprs() -> Response:
-    """SSE stream for APRS packets."""
-    def generate() -> Generator[str, None, None]:
-        last_keepalive = time.time()
-
-        while True:
-            try:
-                msg = app_module.aprs_queue.get(timeout=SSE_QUEUE_TIMEOUT)
-                last_keepalive = time.time()
-                yield format_sse(msg)
-            except queue.Empty:
-                now = time.time()
-                if now - last_keepalive >= SSE_KEEPALIVE_INTERVAL:
-                    yield format_sse({'type': 'keepalive'})
-                    last_keepalive = now
-
-    response = Response(generate(), mimetype='text/event-stream')
-    response.headers['Cache-Control'] = 'no-cache'
-    response.headers['X-Accel-Buffering'] = 'no'
-    return response
+@aprs_bp.route('/stream')
+def stream_aprs() -> Response:
+    """SSE stream for APRS packets."""
+    def _on_msg(msg: dict[str, Any]) -> None:
+        process_event('aprs', msg, msg.get('type'))
+
+    response = Response(
+        sse_stream_fanout(
+            source_queue=app_module.aprs_queue,
+            channel_key='aprs',
+            timeout=SSE_QUEUE_TIMEOUT,
+            keepalive_interval=SSE_KEEPALIVE_INTERVAL,
+            on_message=_on_msg,
+        ),
+        mimetype='text/event-stream',
+    )
+    response.headers['Cache-Control'] = 'no-cache'
+    response.headers['X-Accel-Buffering'] = 'no'
+    return response
 
 
 @aprs_bp.route('/frequencies')

routes/audio_websocket.py

@@ -1,10 +1,11 @@
 """WebSocket-based audio streaming for SDR."""
 
+import json
+import shutil
+import socket
 import subprocess
 import threading
 import time
-import shutil
-import json
 from flask import Flask
 
 # Try to import flask-sock
@@ -36,11 +37,17 @@ def find_rtl_fm():
     return shutil.which('rtl_fm')
 
 
-def find_ffmpeg():
-    return shutil.which('ffmpeg')
-
-
-def kill_audio_processes():
+def find_ffmpeg():
+    return shutil.which('ffmpeg')
+
+
+def _rtl_fm_demod_mode(modulation):
+    """Map UI modulation names to rtl_fm demod tokens."""
+    mod = str(modulation or '').lower().strip()
+    return 'wbfm' if mod == 'wfm' else mod
+
+
+def kill_audio_processes():
     """Kill any running audio processes."""
     global audio_process, rtl_process
 
@@ -66,12 +73,6 @@ def kill_audio_processes():
                 pass
         rtl_process = None
 
-    # Kill any orphaned processes
-    try:
-        subprocess.run(['pkill', '-9', '-f', 'rtl_fm'], capture_output=True, timeout=1)
-    except:
-        pass
-
     time.sleep(0.3)
 
 
@@ -109,14 +110,14 @@ def start_audio_stream(config):
 
     freq_hz = int(freq * 1e6)
 
-    rtl_cmd = [
-        rtl_fm,
-        '-M', mod,
-        '-f', str(freq_hz),
-        '-s', str(sample_rate),
-        '-r', str(resample_rate),
-        '-g', str(gain),
-        '-d', str(device),
+    rtl_cmd = [
+        rtl_fm,
+        '-M', _rtl_fm_demod_mode(mod),
+        '-f', str(freq_hz),
+        '-s', str(sample_rate),
+        '-r', str(resample_rate),
+        '-g', str(gain),
+        '-d', str(device),
         '-l', str(squelch),
     ]
 
@@ -229,7 +230,11 @@ def init_audio_websocket(app: Flask):
                 except TimeoutError:
                     pass
                 except Exception as e:
-                    if "timed out" not in str(e).lower():
+                    msg = str(e).lower()
+                    if "connection closed" in msg:
+                        logger.info("WebSocket closed by client")
+                        break
+                    if "timed out" not in msg:
                         logger.error(f"WebSocket receive error: {e}")
 
                 # Stream audio data if active
@@ -253,4 +258,19 @@ def init_audio_websocket(app: Flask):
         finally:
             with process_lock:
                 kill_audio_processes()
+            # Complete WebSocket close handshake, then shut down the
+            # raw socket so Werkzeug cannot write its HTTP 200 response
+            # on top of the WebSocket stream.
+            try:
+                ws.close()
+            except Exception:
+                pass
+            try:
+                ws.sock.shutdown(socket.SHUT_RDWR)
+            except Exception:
+                pass
+            try:
+                ws.sock.close()
+            except Exception:
+                pass
             logger.info("WebSocket audio client disconnected")

routes/bluetooth.py

@@ -18,10 +18,11 @@ from typing import Any, Generator
 from flask import Blueprint, jsonify, request, Response
 
 import app as app_module
-from utils.dependencies import check_tool
-from utils.logging import bluetooth_logger as logger
-from utils.sse import format_sse
-from utils.validation import validate_bluetooth_interface
+from utils.dependencies import check_tool
+from utils.logging import bluetooth_logger as logger
+from utils.sse import sse_stream_fanout
+from utils.event_pipeline import process_event
+from utils.validation import validate_bluetooth_interface
 from data.oui import OUI_DATABASE, load_oui_database, get_manufacturer
 from data.patterns import AIRTAG_PREFIXES, TILE_PREFIXES, SAMSUNG_TRACKER
 from utils.constants import (
@@ -552,26 +553,23 @@ def get_bt_devices():
     })
 
 
-@bluetooth_bp.route('/stream')
-def stream_bt():
-    """SSE stream for Bluetooth events."""
-    def generate():
-        last_keepalive = time.time()
-        keepalive_interval = 30.0
-
-        while True:
-            try:
-                msg = app_module.bt_queue.get(timeout=1)
-                last_keepalive = time.time()
-                yield format_sse(msg)
-            except queue.Empty:
-                now = time.time()
-                if now - last_keepalive >= keepalive_interval:
-                    yield format_sse({'type': 'keepalive'})
-                    last_keepalive = now
-
-    response = Response(generate(), mimetype='text/event-stream')
-    response.headers['Cache-Control'] = 'no-cache'
-    response.headers['X-Accel-Buffering'] = 'no'
-    response.headers['Connection'] = 'keep-alive'
+@bluetooth_bp.route('/stream')
+def stream_bt():
+    """SSE stream for Bluetooth events."""
+    def _on_msg(msg: dict[str, Any]) -> None:
+        process_event('bluetooth', msg, msg.get('type'))
+
+    response = Response(
+        sse_stream_fanout(
+            source_queue=app_module.bt_queue,
+            channel_key='bluetooth',
+            timeout=1.0,
+            keepalive_interval=30.0,
+            on_message=_on_msg,
+        ),
+        mimetype='text/event-stream',
+    )
+    response.headers['Cache-Control'] = 'no-cache'
+    response.headers['X-Accel-Buffering'] = 'no'
+    response.headers['Connection'] = 'keep-alive'
     return response

routes/bluetooth_v2.py

@@ -11,6 +11,8 @@ import csv
 import io
 import json
 import logging
+import threading
+import time
 from datetime import datetime
 from typing import Generator
 
@@ -28,12 +30,18 @@ from utils.bluetooth import (
 )
 from utils.database import get_db
 from utils.sse import format_sse
+from utils.event_pipeline import process_event
 
 logger = logging.getLogger('intercept.bluetooth_v2')
 
 # Blueprint
 bluetooth_v2_bp = Blueprint('bluetooth_v2', __name__, url_prefix='/api/bluetooth')
 
+# Seen-before tracking
+_bt_seen_cache: set[str] = set()
+_bt_session_seen: set[str] = set()
+_bt_seen_lock = threading.Lock()
+
 # =============================================================================
 # DATABASE FUNCTIONS
 # =============================================================================
@@ -173,6 +181,13 @@ def save_observation_history(device: BTDeviceAggregate) -> None:
         ''', (device.device_id, device.rssi_current, device.seen_count))
 
 
+def load_seen_device_ids() -> set[str]:
+    """Load distinct device IDs from history for seen-before tracking."""
+    with get_db() as conn:
+        cursor = conn.execute('SELECT DISTINCT device_id FROM bt_observation_history')
+        return {row['device_id'] for row in cursor}
+
+
 # =============================================================================
 # API ENDPOINTS
 # =============================================================================
@@ -214,13 +229,35 @@ def start_scan():
     rssi_threshold = data.get('rssi_threshold', -100)
 
     # Validate mode
-    valid_modes = ('auto', 'dbus', 'bleak', 'hcitool', 'bluetoothctl')
+    valid_modes = ('auto', 'dbus', 'bleak', 'hcitool', 'bluetoothctl', 'ubertooth')
     if mode not in valid_modes:
         return jsonify({'error': f'Invalid mode. Must be one of: {valid_modes}'}), 400
 
     # Get scanner instance
     scanner = get_bluetooth_scanner(adapter_id)
 
+    # Initialize database tables if needed
+    init_bt_tables()
+
+    def _handle_seen_before(device: BTDeviceAggregate) -> None:
+        try:
+            with _bt_seen_lock:
+                device.seen_before = device.device_id in _bt_seen_cache
+                if device.device_id not in _bt_session_seen:
+                    save_observation_history(device)
+                    _bt_session_seen.add(device.device_id)
+        except Exception as e:
+            logger.debug(f"BT seen-before update failed: {e}")
+
+    # Setup seen-before callback
+    if _handle_seen_before not in scanner._on_device_updated_callbacks:
+        scanner.add_device_callback(_handle_seen_before)
+
+    # Ensure cache is initialized
+    with _bt_seen_lock:
+        if not _bt_seen_cache:
+            _bt_seen_cache.update(load_seen_device_ids())
+
     # Check if already scanning
     if scanner.is_scanning:
         return jsonify({
@@ -228,8 +265,11 @@ def start_scan():
             'scan_status': scanner.get_status().to_dict()
         })
 
-    # Initialize database tables if needed
-    init_bt_tables()
+    # Refresh seen-before cache and reset session set for a new scan
+    with _bt_seen_lock:
+        _bt_seen_cache.clear()
+        _bt_seen_cache.update(load_seen_device_ids())
+        _bt_session_seen.clear()
 
     # Load active baseline if exists
     baseline_id = get_active_baseline_id()
@@ -860,6 +900,10 @@ def stream_events():
         """Generate SSE events from scanner."""
         for event in scanner.stream_events(timeout=1.0):
             event_name, event_data = map_event_type(event)
+            try:
+                process_event('bluetooth', event_data, event_name)
+            except Exception:
+                pass
             yield format_sse(event_data, event=event_name)
 
     return Response(
@@ -947,6 +991,17 @@ def get_tscm_bluetooth_snapshot(duration: int = 8) -> list[dict]:
     # Convert to TSCM format with tracker detection data
     tscm_devices = []
     for device in devices:
+        manufacturer_name = device.manufacturer_name
+        if (not manufacturer_name) or str(manufacturer_name).lower().startswith('unknown'):
+            if device.address and not device.is_randomized_mac:
+                try:
+                    from data.oui import get_manufacturer
+                    oui_vendor = get_manufacturer(device.address)
+                    if oui_vendor and oui_vendor != 'Unknown':
+                        manufacturer_name = oui_vendor
+                except Exception:
+                    pass
+
         device_data = {
             'mac': device.address,
             'address_type': device.address_type,
@@ -956,7 +1011,7 @@ def get_tscm_bluetooth_snapshot(duration: int = 8) -> list[dict]:
             'rssi_median': device.rssi_median,
             'rssi_ema': round(device.rssi_ema, 1) if device.rssi_ema else None,
             'type': _classify_device_type(device),
-            'manufacturer': device.manufacturer_name,
+            'manufacturer': manufacturer_name,
             'manufacturer_id': device.manufacturer_id,
             'manufacturer_data': device.manufacturer_bytes.hex() if device.manufacturer_bytes else None,
             'protocol': device.protocol,
@@ -1178,6 +1233,30 @@ def _classify_device_type(device: BTDeviceAggregate) -> str:
     """Classify device type from available data."""
     name_lower = (device.name or '').lower()
     manufacturer_lower = (device.manufacturer_name or '').lower()
+    service_uuids = device.service_uuids or []
+
+    if (not manufacturer_lower) or manufacturer_lower.startswith('unknown'):
+        if device.address and not device.is_randomized_mac:
+            try:
+                from data.oui import get_manufacturer
+                oui_vendor = get_manufacturer(device.address)
+                if oui_vendor and oui_vendor != 'Unknown':
+                    manufacturer_lower = oui_vendor.lower()
+            except Exception:
+                pass
+
+    def normalize_uuid(uuid: str) -> str:
+        if not uuid:
+            return ''
+        value = str(uuid).lower().strip()
+        if value.startswith('0x'):
+            value = value[2:]
+        # Bluetooth Base UUID normalization (16-bit UUIDs)
+        if value.endswith('-0000-1000-8000-00805f9b34fb') and len(value) >= 8:
+            return value[4:8]
+        if len(value) == 4:
+            return value
+        return value
 
     # Check by name patterns
     if any(x in name_lower for x in ['airpods', 'headphone', 'earbuds', 'buds', 'beats']):
@@ -1197,6 +1276,29 @@ def _classify_device_type(device: BTDeviceAggregate) -> str:
     if any(x in name_lower for x in ['tv', 'chromecast', 'roku', 'firestick']):
         return 'media'
 
+    # Tracker signals (metadata or Find My service)
+    if getattr(device, 'is_tracker', False) or getattr(device, 'tracker_type', None):
+        return 'tracker'
+
+    normalized_uuids = {normalize_uuid(u) for u in service_uuids if u}
+    if 'fd6f' in normalized_uuids:
+        return 'tracker'
+
+    # Service UUIDs (GATT / classic)
+    audio_uuids = {'110b', '110a', '111e', '111f', '1108', '1203'}
+    wearable_uuids = {'180d', '1814', '1816'}
+    hid_uuids = {'1812'}
+    beacon_uuids = {'feaa', 'feab', 'feb1', 'febe'}
+
+    if normalized_uuids & audio_uuids:
+        return 'audio'
+    if normalized_uuids & hid_uuids:
+        return 'peripheral'
+    if normalized_uuids & wearable_uuids:
+        return 'wearable'
+    if normalized_uuids & beacon_uuids:
+        return 'beacon'
+
     # Check by manufacturer
     if 'apple' in manufacturer_lower:
         return 'apple_device'

routes/bt_locate.py

@@ -0,0 +1,300 @@
+"""
+BT Locate — Bluetooth SAR Device Location Flask Blueprint.
+
+Provides endpoints for managing locate sessions, streaming detection events,
+and retrieving GPS-tagged signal trails.
+"""
+
+from __future__ import annotations
+
+import logging
+from collections.abc import Generator
+
+from flask import Blueprint, Response, jsonify, request
+
+from utils.bluetooth.irk_extractor import get_paired_irks
+from utils.bt_locate import (
+    Environment,
+    LocateTarget,
+    get_locate_session,
+    resolve_rpa,
+    start_locate_session,
+    stop_locate_session,
+)
+from utils.sse import format_sse
+
+logger = logging.getLogger('intercept.bt_locate')
+
+bt_locate_bp = Blueprint('bt_locate', __name__, url_prefix='/bt_locate')
+
+
+@bt_locate_bp.route('/start', methods=['POST'])
+def start_session():
+    """
+    Start a locate session.
+
+    Request JSON:
+        - mac_address: Target MAC address (optional)
+        - name_pattern: Target name substring (optional)
+        - irk_hex: Identity Resolving Key hex string (optional)
+        - device_id: Device ID from Bluetooth scanner (optional)
+        - device_key: Stable device key from Bluetooth scanner (optional)
+        - fingerprint_id: Payload fingerprint ID from Bluetooth scanner (optional)
+        - known_name: Hand-off device name (optional)
+        - known_manufacturer: Hand-off manufacturer (optional)
+        - last_known_rssi: Hand-off last RSSI (optional)
+        - environment: 'FREE_SPACE', 'OUTDOOR', 'INDOOR', 'CUSTOM' (default: OUTDOOR)
+        - custom_exponent: Path loss exponent for CUSTOM environment (optional)
+
+    Returns:
+        JSON with session status.
+    """
+    data = request.get_json() or {}
+
+    # Build target
+    target = LocateTarget(
+        mac_address=data.get('mac_address'),
+        name_pattern=data.get('name_pattern'),
+        irk_hex=data.get('irk_hex'),
+        device_id=data.get('device_id'),
+        device_key=data.get('device_key'),
+        fingerprint_id=data.get('fingerprint_id'),
+        known_name=data.get('known_name'),
+        known_manufacturer=data.get('known_manufacturer'),
+        last_known_rssi=data.get('last_known_rssi'),
+    )
+
+    # At least one identifier required
+    if not any([
+        target.mac_address,
+        target.name_pattern,
+        target.irk_hex,
+        target.device_id,
+        target.device_key,
+        target.fingerprint_id,
+    ]):
+        return jsonify({
+            'error': (
+                'At least one target identifier required '
+                '(mac_address, name_pattern, irk_hex, device_id, device_key, or fingerprint_id)'
+            )
+        }), 400
+
+    # Parse environment
+    env_str = data.get('environment', 'OUTDOOR').upper()
+    try:
+        environment = Environment[env_str]
+    except KeyError:
+        return jsonify({'error': f'Invalid environment: {env_str}'}), 400
+
+    custom_exponent = data.get('custom_exponent')
+    if custom_exponent is not None:
+        try:
+            custom_exponent = float(custom_exponent)
+        except (ValueError, TypeError):
+            return jsonify({'error': 'custom_exponent must be a number'}), 400
+
+    # Fallback coordinates when GPS is unavailable (from user settings)
+    fallback_lat = None
+    fallback_lon = None
+    if data.get('fallback_lat') is not None and data.get('fallback_lon') is not None:
+        try:
+            fallback_lat = float(data['fallback_lat'])
+            fallback_lon = float(data['fallback_lon'])
+        except (ValueError, TypeError):
+            pass
+
+    logger.info(
+        f"Starting locate session: target={target.to_dict()}, "
+        f"env={environment.name}, fallback=({fallback_lat}, {fallback_lon})"
+    )
+
+    session = start_locate_session(
+        target, environment, custom_exponent, fallback_lat, fallback_lon
+    )
+
+    return jsonify({
+        'status': 'started',
+        'session': session.get_status(),
+    })
+
+
+@bt_locate_bp.route('/stop', methods=['POST'])
+def stop_session():
+    """Stop the active locate session."""
+    session = get_locate_session()
+    if not session:
+        return jsonify({'status': 'no_session'})
+
+    stop_locate_session()
+    return jsonify({'status': 'stopped'})
+
+
+@bt_locate_bp.route('/status', methods=['GET'])
+def get_status():
+    """Get locate session status."""
+    session = get_locate_session()
+    if not session:
+        return jsonify({
+            'active': False,
+            'target': None,
+        })
+
+    return jsonify(session.get_status())
+
+
+@bt_locate_bp.route('/trail', methods=['GET'])
+def get_trail():
+    """Get detection trail data."""
+    session = get_locate_session()
+    if not session:
+        return jsonify({'trail': [], 'gps_trail': []})
+
+    return jsonify({
+        'trail': session.get_trail(),
+        'gps_trail': session.get_gps_trail(),
+    })
+
+
+@bt_locate_bp.route('/stream', methods=['GET'])
+def stream_detections():
+    """SSE stream of detection events."""
+
+    def event_generator() -> Generator[str, None, None]:
+        while True:
+            # Re-fetch session each iteration in case it changes
+            s = get_locate_session()
+            if not s:
+                yield format_sse({'type': 'session_ended'}, event='session_ended')
+                return
+
+            try:
+                event = s.event_queue.get(timeout=2.0)
+                yield format_sse(event, event='detection')
+            except Exception:
+                yield format_sse({}, event='ping')
+
+    return Response(
+        event_generator(),
+        mimetype='text/event-stream',
+        headers={
+            'Cache-Control': 'no-cache',
+            'Connection': 'keep-alive',
+            'X-Accel-Buffering': 'no',
+        }
+    )
+
+
+@bt_locate_bp.route('/resolve_rpa', methods=['POST'])
+def test_resolve_rpa():
+    """
+    Test if an IRK resolves to a given address.
+
+    Request JSON:
+        - irk_hex: 16-byte IRK as hex string
+        - address: BLE address string
+
+    Returns:
+        JSON with resolution result.
+    """
+    data = request.get_json() or {}
+    irk_hex = data.get('irk_hex', '')
+    address = data.get('address', '')
+
+    if not irk_hex or not address:
+        return jsonify({'error': 'irk_hex and address are required'}), 400
+
+    try:
+        irk = bytes.fromhex(irk_hex)
+    except ValueError:
+        return jsonify({'error': 'Invalid IRK hex string'}), 400
+
+    if len(irk) != 16:
+        return jsonify({'error': 'IRK must be exactly 16 bytes (32 hex characters)'}), 400
+
+    result = resolve_rpa(irk, address)
+    return jsonify({
+        'resolved': result,
+        'irk_hex': irk_hex,
+        'address': address,
+    })
+
+
+@bt_locate_bp.route('/environment', methods=['POST'])
+def set_environment():
+    """Update the environment on the active session."""
+    session = get_locate_session()
+    if not session:
+        return jsonify({'error': 'no active session'}), 400
+
+    data = request.get_json() or {}
+    env_str = data.get('environment', '').upper()
+    try:
+        environment = Environment[env_str]
+    except KeyError:
+        return jsonify({'error': f'Invalid environment: {env_str}'}), 400
+
+    custom_exponent = data.get('custom_exponent')
+    if custom_exponent is not None:
+        try:
+            custom_exponent = float(custom_exponent)
+        except (ValueError, TypeError):
+            custom_exponent = None
+
+    session.set_environment(environment, custom_exponent)
+    return jsonify({
+        'status': 'updated',
+        'environment': environment.name,
+        'path_loss_exponent': session.estimator.n,
+    })
+
+
+@bt_locate_bp.route('/debug', methods=['GET'])
+def debug_matching():
+    """Debug endpoint showing scanner devices and match results."""
+    session = get_locate_session()
+    if not session:
+        return jsonify({'error': 'no session'})
+
+    scanner = session._scanner
+    if not scanner:
+        return jsonify({'error': 'no scanner'})
+
+    devices = scanner.get_devices(max_age_seconds=30)
+    return jsonify({
+        'target': session.target.to_dict(),
+        'device_count': len(devices),
+        'devices': [
+            {
+                'device_id': d.device_id,
+                'address': d.address,
+                'name': d.name,
+                'rssi': d.rssi_current,
+                'matches': session.target.matches(d),
+            }
+            for d in devices
+        ],
+    })
+
+
+@bt_locate_bp.route('/paired_irks', methods=['GET'])
+def paired_irks():
+    """Return paired Bluetooth devices that have IRKs."""
+    try:
+        devices = get_paired_irks()
+    except Exception as e:
+        logger.exception("Failed to read paired IRKs")
+        return jsonify({'devices': [], 'error': str(e)})
+
+    return jsonify({'devices': devices})
+
+
+@bt_locate_bp.route('/clear_trail', methods=['POST'])
+def clear_trail():
+    """Clear the detection trail."""
+    session = get_locate_session()
+    if not session:
+        return jsonify({'status': 'no_session'})
+
+    session.clear_trail()
+    return jsonify({'status': 'cleared'})

routes/controller.py

@@ -0,0 +1,920 @@
+"""
+Controller routes for managing remote Intercept agents.
+
+This blueprint provides:
+- Agent CRUD operations
+- Proxy endpoints to forward requests to agents
+- Push data ingestion endpoint
+- Multi-agent SSE stream
+"""
+
+from __future__ import annotations
+
+import json
+import logging
+import queue
+import threading
+import time
+from datetime import datetime, timezone
+from typing import Generator
+
+import requests
+
+from flask import Blueprint, jsonify, request, Response
+
+from utils.database import (
+    create_agent, get_agent, get_agent_by_name, list_agents,
+    update_agent, delete_agent, store_push_payload, get_recent_payloads
+)
+from utils.agent_client import (
+    AgentClient, AgentHTTPError, AgentConnectionError, create_client_from_agent
+)
+from utils.sse import format_sse
+from utils.trilateration import (
+    DeviceLocationTracker, PathLossModel, Trilateration,
+    AgentObservation, estimate_location_from_observations
+)
+
+logger = logging.getLogger('intercept.controller')
+
+controller_bp = Blueprint('controller', __name__, url_prefix='/controller')
+
+# Multi-agent SSE fanout state (per-client queues).
+_agent_stream_subscribers: set[queue.Queue] = set()
+_agent_stream_subscribers_lock = threading.Lock()
+_AGENT_STREAM_CLIENT_QUEUE_SIZE = 500
+
+
+def _broadcast_agent_data(payload: dict) -> None:
+    """Fan out an ingested payload to all active /controller/stream/all clients."""
+    with _agent_stream_subscribers_lock:
+        subscribers = tuple(_agent_stream_subscribers)
+
+    for subscriber in subscribers:
+        try:
+            subscriber.put_nowait(payload)
+        except queue.Full:
+            try:
+                subscriber.get_nowait()
+                subscriber.put_nowait(payload)
+            except (queue.Empty, queue.Full):
+                continue
+
+
+# =============================================================================
+# Agent CRUD
+# =============================================================================
+
+@controller_bp.route('/agents', methods=['GET'])
+def get_agents():
+    """List all registered agents."""
+    active_only = request.args.get('active_only', 'true').lower() == 'true'
+    agents = list_agents(active_only=active_only)
+
+    # Optionally refresh status for each agent
+    refresh = request.args.get('refresh', 'false').lower() == 'true'
+    if refresh:
+        for agent in agents:
+            try:
+                client = create_client_from_agent(agent)
+                agent['healthy'] = client.health_check()
+            except Exception:
+                agent['healthy'] = False
+
+    return jsonify({
+        'status': 'success',
+        'agents': agents,
+        'count': len(agents)
+    })
+
+
+@controller_bp.route('/agents', methods=['POST'])
+def register_agent():
+    """
+    Register a new remote agent.
+
+    Expected JSON body:
+    {
+        "name": "sensor-node-1",
+        "base_url": "http://192.168.1.50:8020",
+        "api_key": "optional-shared-secret",
+        "description": "Optional description"
+    }
+    """
+    data = request.json or {}
+
+    # Validate required fields
+    name = data.get('name', '').strip()
+    base_url = data.get('base_url', '').strip()
+
+    if not name:
+        return jsonify({'status': 'error', 'message': 'Agent name is required'}), 400
+    if not base_url:
+        return jsonify({'status': 'error', 'message': 'Base URL is required'}), 400
+
+    # Validate URL format
+    from urllib.parse import urlparse
+    try:
+        parsed = urlparse(base_url)
+        if parsed.scheme not in ('http', 'https'):
+            return jsonify({'status': 'error', 'message': 'URL must start with http:// or https://'}), 400
+        if not parsed.netloc:
+            return jsonify({'status': 'error', 'message': 'Invalid URL format'}), 400
+    except Exception:
+        return jsonify({'status': 'error', 'message': 'Invalid URL format'}), 400
+
+    # Check if agent already exists
+    existing = get_agent_by_name(name)
+    if existing:
+        return jsonify({
+            'status': 'error',
+            'message': f'Agent with name "{name}" already exists'
+        }), 409
+
+    # Try to connect and get capabilities
+    api_key = data.get('api_key', '').strip() or None
+    client = AgentClient(base_url, api_key=api_key)
+
+    capabilities = None
+    interfaces = None
+    try:
+        caps = client.get_capabilities()
+        capabilities = caps.get('modes', {})
+        interfaces = {'devices': caps.get('devices', [])}
+    except (AgentHTTPError, AgentConnectionError) as e:
+        logger.warning(f"Could not fetch capabilities from {base_url}: {e}")
+
+    # Create agent
+    try:
+        agent_id = create_agent(
+            name=name,
+            base_url=base_url,
+            api_key=api_key,
+            description=data.get('description'),
+            capabilities=capabilities,
+            interfaces=interfaces
+        )
+
+        # Update last_seen since we just connected
+        if capabilities is not None:
+            update_agent(agent_id, update_last_seen=True)
+
+        agent = get_agent(agent_id)
+        message = 'Agent registered successfully'
+        if capabilities is None:
+            message += ' (could not connect - agent may be offline)'
+        return jsonify({
+            'status': 'success',
+            'message': message,
+            'agent': agent
+        }), 201
+
+    except Exception as e:
+        logger.exception("Failed to create agent")
+        return jsonify({'status': 'error', 'message': str(e)}), 500
+
+
+@controller_bp.route('/agents/<int:agent_id>', methods=['GET'])
+def get_agent_detail(agent_id: int):
+    """Get details of a specific agent."""
+    agent = get_agent(agent_id)
+    if not agent:
+        return jsonify({'status': 'error', 'message': 'Agent not found'}), 404
+
+    # Optionally refresh from agent
+    refresh = request.args.get('refresh', 'false').lower() == 'true'
+    if refresh:
+        try:
+            client = create_client_from_agent(agent)
+            metadata = client.refresh_metadata()
+            if metadata['healthy']:
+                caps = metadata['capabilities'] or {}
+                # Store full interfaces structure (wifi, bt, sdr)
+                agent_interfaces = caps.get('interfaces', {})
+                # Fallback: also include top-level devices for backwards compatibility
+                if not agent_interfaces.get('sdr_devices') and caps.get('devices'):
+                    agent_interfaces['sdr_devices'] = caps.get('devices', [])
+                update_agent(
+                    agent_id,
+                    capabilities=caps.get('modes'),
+                    interfaces=agent_interfaces,
+                    update_last_seen=True
+                )
+                agent = get_agent(agent_id)
+                agent['healthy'] = True
+            else:
+                agent['healthy'] = False
+        except Exception:
+            agent['healthy'] = False
+
+    return jsonify({'status': 'success', 'agent': agent})
+
+
+@controller_bp.route('/agents/<int:agent_id>', methods=['PUT', 'PATCH'])
+def update_agent_detail(agent_id: int):
+    """Update an agent's details."""
+    agent = get_agent(agent_id)
+    if not agent:
+        return jsonify({'status': 'error', 'message': 'Agent not found'}), 404
+
+    data = request.json or {}
+
+    # Update allowed fields
+    update_agent(
+        agent_id,
+        base_url=data.get('base_url'),
+        description=data.get('description'),
+        api_key=data.get('api_key'),
+        is_active=data.get('is_active')
+    )
+
+    agent = get_agent(agent_id)
+    return jsonify({'status': 'success', 'agent': agent})
+
+
+@controller_bp.route('/agents/<int:agent_id>', methods=['DELETE'])
+def remove_agent(agent_id: int):
+    """Delete an agent."""
+    agent = get_agent(agent_id)
+    if not agent:
+        return jsonify({'status': 'error', 'message': 'Agent not found'}), 404
+
+    delete_agent(agent_id)
+    return jsonify({'status': 'success', 'message': 'Agent deleted'})
+
+
+@controller_bp.route('/agents/<int:agent_id>/refresh', methods=['POST'])
+def refresh_agent_metadata(agent_id: int):
+    """Refresh an agent's capabilities and status."""
+    agent = get_agent(agent_id)
+    if not agent:
+        return jsonify({'status': 'error', 'message': 'Agent not found'}), 404
+
+    try:
+        client = create_client_from_agent(agent)
+        metadata = client.refresh_metadata()
+
+        if metadata['healthy']:
+            caps = metadata['capabilities'] or {}
+            # Store full interfaces structure (wifi, bt, sdr)
+            agent_interfaces = caps.get('interfaces', {})
+            # Fallback: also include top-level devices for backwards compatibility
+            if not agent_interfaces.get('sdr_devices') and caps.get('devices'):
+                agent_interfaces['sdr_devices'] = caps.get('devices', [])
+            update_agent(
+                agent_id,
+                capabilities=caps.get('modes'),
+                interfaces=agent_interfaces,
+                update_last_seen=True
+            )
+            agent = get_agent(agent_id)
+            return jsonify({
+                'status': 'success',
+                'agent': agent,
+                'metadata': metadata
+            })
+        else:
+            return jsonify({
+                'status': 'error',
+                'message': 'Agent is not reachable'
+            }), 503
+
+    except (AgentHTTPError, AgentConnectionError) as e:
+        return jsonify({
+            'status': 'error',
+            'message': f'Failed to reach agent: {e}'
+        }), 503
+
+
+# =============================================================================
+# Agent Status - Get running state
+# =============================================================================
+
+@controller_bp.route('/agents/<int:agent_id>/status', methods=['GET'])
+def get_agent_status(agent_id: int):
+    """Get an agent's current status including running modes."""
+    agent = get_agent(agent_id)
+    if not agent:
+        return jsonify({'status': 'error', 'message': 'Agent not found'}), 404
+
+    try:
+        client = create_client_from_agent(agent)
+        status = client.get_status()
+        return jsonify({
+            'status': 'success',
+            'agent_id': agent_id,
+            'agent_name': agent['name'],
+            'agent_status': status
+        })
+    except (AgentHTTPError, AgentConnectionError) as e:
+        return jsonify({
+            'status': 'error',
+            'message': f'Failed to reach agent: {e}'
+        }), 503
+
+
+@controller_bp.route('/agents/health', methods=['GET'])
+def check_all_agents_health():
+    """
+    Check health of all registered agents in one call.
+
+    More efficient than checking each agent individually.
+    Returns health status, response time, and running modes for each agent.
+    """
+    agents_list = list_agents(active_only=True)
+    results = []
+
+    for agent in agents_list:
+        result = {
+            'id': agent['id'],
+            'name': agent['name'],
+            'healthy': False,
+            'response_time_ms': None,
+            'running_modes': [],
+            'error': None
+        }
+
+        try:
+            client = create_client_from_agent(agent)
+
+            # Time the health check
+            start_time = time.time()
+            is_healthy = client.health_check()
+            response_time = (time.time() - start_time) * 1000
+
+            result['healthy'] = is_healthy
+            result['response_time_ms'] = round(response_time, 1)
+
+            if is_healthy:
+                # Update last_seen in database
+                update_agent(agent['id'], update_last_seen=True)
+
+                # Also fetch running modes
+                try:
+                    status = client.get_status()
+                    result['running_modes'] = status.get('running_modes', [])
+                    result['running_modes_detail'] = status.get('running_modes_detail', {})
+                except Exception:
+                    pass  # Status fetch is optional
+
+        except AgentConnectionError as e:
+            result['error'] = f'Connection failed: {str(e)}'
+        except AgentHTTPError as e:
+            result['error'] = f'HTTP error: {str(e)}'
+        except Exception as e:
+            result['error'] = str(e)
+
+        results.append(result)
+
+    return jsonify({
+        'status': 'success',
+        'timestamp': datetime.now(timezone.utc).isoformat(),
+        'agents': results,
+        'total': len(results),
+        'healthy_count': sum(1 for r in results if r['healthy'])
+    })
+
+
+# =============================================================================
+# Proxy Operations - Forward requests to agents
+# =============================================================================
+
+@controller_bp.route('/agents/<int:agent_id>/<mode>/start', methods=['POST'])
+def proxy_start_mode(agent_id: int, mode: str):
+    """Start a mode on a remote agent."""
+    agent = get_agent(agent_id)
+    if not agent:
+        return jsonify({'status': 'error', 'message': 'Agent not found'}), 404
+
+    params = request.json or {}
+
+    try:
+        client = create_client_from_agent(agent)
+        result = client.start_mode(mode, params)
+
+        # Update last_seen
+        update_agent(agent_id, update_last_seen=True)
+
+        return jsonify({
+            'status': 'success',
+            'agent_id': agent_id,
+            'mode': mode,
+            'result': result
+        })
+
+    except AgentConnectionError as e:
+        return jsonify({
+            'status': 'error',
+            'message': f'Cannot connect to agent: {e}'
+        }), 503
+    except AgentHTTPError as e:
+        return jsonify({
+            'status': 'error',
+            'message': f'Agent error: {e}'
+        }), 502
+
+
+@controller_bp.route('/agents/<int:agent_id>/<mode>/stop', methods=['POST'])
+def proxy_stop_mode(agent_id: int, mode: str):
+    """Stop a mode on a remote agent."""
+    agent = get_agent(agent_id)
+    if not agent:
+        return jsonify({'status': 'error', 'message': 'Agent not found'}), 404
+
+    try:
+        client = create_client_from_agent(agent)
+        result = client.stop_mode(mode)
+
+        update_agent(agent_id, update_last_seen=True)
+
+        return jsonify({
+            'status': 'success',
+            'agent_id': agent_id,
+            'mode': mode,
+            'result': result
+        })
+
+    except AgentConnectionError as e:
+        return jsonify({
+            'status': 'error',
+            'message': f'Cannot connect to agent: {e}'
+        }), 503
+    except AgentHTTPError as e:
+        return jsonify({
+            'status': 'error',
+            'message': f'Agent error: {e}'
+        }), 502
+
+
+@controller_bp.route('/agents/<int:agent_id>/<mode>/status', methods=['GET'])
+def proxy_mode_status(agent_id: int, mode: str):
+    """Get mode status from a remote agent."""
+    agent = get_agent(agent_id)
+    if not agent:
+        return jsonify({'status': 'error', 'message': 'Agent not found'}), 404
+
+    try:
+        client = create_client_from_agent(agent)
+        result = client.get_mode_status(mode)
+
+        return jsonify({
+            'status': 'success',
+            'agent_id': agent_id,
+            'mode': mode,
+            'result': result
+        })
+
+    except (AgentHTTPError, AgentConnectionError) as e:
+        return jsonify({
+            'status': 'error',
+            'message': f'Agent error: {e}'
+        }), 502
+
+
+@controller_bp.route('/agents/<int:agent_id>/<mode>/data', methods=['GET'])
+def proxy_mode_data(agent_id: int, mode: str):
+    """Get current data from a remote agent."""
+    agent = get_agent(agent_id)
+    if not agent:
+        return jsonify({'status': 'error', 'message': 'Agent not found'}), 404
+
+    try:
+        client = create_client_from_agent(agent)
+        result = client.get_mode_data(mode)
+
+        # Tag data with agent info
+        result['agent_id'] = agent_id
+        result['agent_name'] = agent['name']
+
+        return jsonify({
+            'status': 'success',
+            'agent_id': agent_id,
+            'agent_name': agent['name'],
+            'mode': mode,
+            'data': result
+        })
+
+    except (AgentHTTPError, AgentConnectionError) as e:
+        return jsonify({
+            'status': 'error',
+            'message': f'Agent error: {e}'
+        }), 502
+
+
+@controller_bp.route('/agents/<int:agent_id>/<mode>/stream')
+def proxy_mode_stream(agent_id: int, mode: str):
+    """Proxy SSE stream from a remote agent."""
+    agent = get_agent(agent_id)
+    if not agent:
+        return jsonify({'status': 'error', 'message': 'Agent not found'}), 404
+
+    client = create_client_from_agent(agent)
+    query = request.query_string.decode('utf-8')
+    url = f"{client.base_url}/{mode}/stream"
+    if query:
+        url = f"{url}?{query}"
+
+    headers = {'Accept': 'text/event-stream'}
+    if agent.get('api_key'):
+        headers['X-API-Key'] = agent['api_key']
+
+    def generate() -> Generator[str, None, None]:
+        try:
+            with requests.get(url, headers=headers, stream=True, timeout=(5, 3600)) as resp:
+                resp.raise_for_status()
+                for chunk in resp.iter_content(chunk_size=1024):
+                    if not chunk:
+                        continue
+                    yield chunk.decode('utf-8', errors='ignore')
+        except Exception as e:
+            logger.error(f"SSE proxy error for agent {agent_id}/{mode}: {e}")
+            yield format_sse({
+                'type': 'error',
+                'message': str(e),
+                'agent_id': agent_id,
+                'mode': mode,
+            })
+
+    response = Response(generate(), mimetype='text/event-stream')
+    response.headers['Cache-Control'] = 'no-cache'
+    response.headers['X-Accel-Buffering'] = 'no'
+    response.headers['Connection'] = 'keep-alive'
+    return response
+
+
+@controller_bp.route('/agents/<int:agent_id>/wifi/monitor', methods=['POST'])
+def proxy_wifi_monitor(agent_id: int):
+    """Toggle monitor mode on a remote agent's WiFi interface."""
+    agent = get_agent(agent_id)
+    if not agent:
+        return jsonify({'status': 'error', 'message': 'Agent not found'}), 404
+
+    data = request.json or {}
+
+    try:
+        client = create_client_from_agent(agent)
+        result = client.post('/wifi/monitor', data)
+
+        # Refresh agent capabilities after monitor mode toggle so UI stays in sync
+        if result.get('status') == 'success':
+            try:
+                metadata = client.refresh_metadata()
+                if metadata.get('healthy'):
+                    caps = metadata.get('capabilities') or {}
+                    agent_interfaces = caps.get('interfaces', {})
+                    if not agent_interfaces.get('sdr_devices') and caps.get('devices'):
+                        agent_interfaces['sdr_devices'] = caps.get('devices', [])
+                    update_agent(
+                        agent_id,
+                        capabilities=caps.get('modes'),
+                        interfaces=agent_interfaces,
+                        update_last_seen=True
+                    )
+            except Exception:
+                pass  # Non-fatal if refresh fails
+
+        return jsonify({
+            'status': result.get('status', 'error'),
+            'agent_id': agent_id,
+            'agent_name': agent['name'],
+            'monitor_interface': result.get('monitor_interface'),
+            'message': result.get('message')
+        })
+
+    except AgentConnectionError as e:
+        return jsonify({
+            'status': 'error',
+            'message': f'Cannot connect to agent: {e}'
+        }), 503
+    except AgentHTTPError as e:
+        return jsonify({
+            'status': 'error',
+            'message': f'Agent error: {e}'
+        }), 502
+
+
+# =============================================================================
+# Push Data Ingestion
+# =============================================================================
+
+@controller_bp.route('/api/ingest', methods=['POST'])
+def ingest_push_data():
+    """
+    Receive pushed data from remote agents.
+
+    Expected JSON body:
+    {
+        "agent_name": "sensor-node-1",
+        "scan_type": "adsb",
+        "interface": "rtlsdr0",
+        "payload": {...},
+        "received_at": "2024-01-15T10:30:00Z"
+    }
+
+    Expected header:
+        X-API-Key: shared-secret (if agent has api_key configured)
+    """
+    data = request.json
+    if not data:
+        return jsonify({'status': 'error', 'message': 'No data provided'}), 400
+
+    agent_name = data.get('agent_name')
+    if not agent_name:
+        return jsonify({'status': 'error', 'message': 'agent_name required'}), 400
+
+    # Find agent
+    agent = get_agent_by_name(agent_name)
+    if not agent:
+        return jsonify({'status': 'error', 'message': 'Unknown agent'}), 401
+
+    # Validate API key if configured
+    if agent.get('api_key'):
+        provided_key = request.headers.get('X-API-Key', '')
+        if provided_key != agent['api_key']:
+            logger.warning(f"Invalid API key from agent {agent_name}")
+            return jsonify({'status': 'error', 'message': 'Invalid API key'}), 401
+
+    # Store payload
+    try:
+        payload_id = store_push_payload(
+            agent_id=agent['id'],
+            scan_type=data.get('scan_type', 'unknown'),
+            payload=data.get('payload', {}),
+            interface=data.get('interface'),
+            received_at=data.get('received_at')
+        )
+
+        # Emit to SSE stream (fanout to all connected clients)
+        _broadcast_agent_data({
+            'type': 'agent_data',
+            'agent_id': agent['id'],
+            'agent_name': agent_name,
+            'scan_type': data.get('scan_type'),
+            'interface': data.get('interface'),
+            'payload': data.get('payload'),
+            'received_at': data.get('received_at') or datetime.now(timezone.utc).isoformat()
+        })
+
+        return jsonify({
+            'status': 'accepted',
+            'payload_id': payload_id
+        }), 202
+
+    except Exception as e:
+        logger.exception("Failed to store push payload")
+        return jsonify({'status': 'error', 'message': str(e)}), 500
+
+
+@controller_bp.route('/api/payloads', methods=['GET'])
+def get_payloads():
+    """Get recent push payloads."""
+    agent_id = request.args.get('agent_id', type=int)
+    scan_type = request.args.get('scan_type')
+    limit = request.args.get('limit', 100, type=int)
+
+    payloads = get_recent_payloads(
+        agent_id=agent_id,
+        scan_type=scan_type,
+        limit=min(limit, 1000)
+    )
+
+    return jsonify({
+        'status': 'success',
+        'payloads': payloads,
+        'count': len(payloads)
+    })
+
+
+# =============================================================================
+# Multi-Agent SSE Stream
+# =============================================================================
+
+@controller_bp.route('/stream/all')
+def stream_all_agents():
+    """
+    Combined SSE stream for data from all agents.
+
+    This endpoint streams push data as it arrives from agents.
+    Each message is tagged with agent_id and agent_name.
+    """
+    client_queue: queue.Queue = queue.Queue(maxsize=_AGENT_STREAM_CLIENT_QUEUE_SIZE)
+    with _agent_stream_subscribers_lock:
+        _agent_stream_subscribers.add(client_queue)
+
+    def generate() -> Generator[str, None, None]:
+        last_keepalive = time.time()
+        keepalive_interval = 30.0
+
+        try:
+            while True:
+                try:
+                    msg = client_queue.get(timeout=1.0)
+                    last_keepalive = time.time()
+                    yield format_sse(msg)
+                except queue.Empty:
+                    now = time.time()
+                    if now - last_keepalive >= keepalive_interval:
+                        yield format_sse({'type': 'keepalive'})
+                        last_keepalive = now
+        finally:
+            with _agent_stream_subscribers_lock:
+                _agent_stream_subscribers.discard(client_queue)
+
+    response = Response(generate(), mimetype='text/event-stream')
+    response.headers['Cache-Control'] = 'no-cache'
+    response.headers['X-Accel-Buffering'] = 'no'
+    response.headers['Connection'] = 'keep-alive'
+    return response
+
+
+# =============================================================================
+# Agent Management Page
+# =============================================================================
+
+@controller_bp.route('/manage')
+def agent_management_page():
+    """Render the agent management page."""
+    from flask import render_template
+    from config import VERSION
+    return render_template('agents.html', version=VERSION)
+
+
+@controller_bp.route('/monitor')
+def network_monitor_page():
+    """Render the network monitor page for multi-agent aggregated view."""
+    from flask import render_template
+    return render_template('network_monitor.html')
+
+
+# =============================================================================
+# Device Location Estimation (Trilateration)
+# =============================================================================
+
+# Global device location tracker
+device_tracker = DeviceLocationTracker(
+    trilateration=Trilateration(
+        path_loss_model=PathLossModel('outdoor'),
+        min_observations=2
+    ),
+    observation_window_seconds=120.0,  # 2 minute window
+    min_observations=2
+)
+
+
+@controller_bp.route('/api/location/observe', methods=['POST'])
+def add_location_observation():
+    """
+    Add an observation for device location estimation.
+
+    Expected JSON body:
+    {
+        "device_id": "AA:BB:CC:DD:EE:FF",
+        "agent_name": "sensor-node-1",
+        "agent_lat": 40.7128,
+        "agent_lon": -74.0060,
+        "rssi": -55,
+        "frequency_mhz": 2400  (optional)
+    }
+
+    Returns location estimate if enough data, null otherwise.
+    """
+    data = request.json or {}
+
+    required = ['device_id', 'agent_name', 'agent_lat', 'agent_lon', 'rssi']
+    for field in required:
+        if field not in data:
+            return jsonify({'status': 'error', 'message': f'Missing required field: {field}'}), 400
+
+    # Look up agent GPS from database if not provided
+    agent_lat = data.get('agent_lat')
+    agent_lon = data.get('agent_lon')
+
+    if agent_lat is None or agent_lon is None:
+        agent = get_agent_by_name(data['agent_name'])
+        if agent and agent.get('gps_coords'):
+            coords = agent['gps_coords']
+            agent_lat = coords.get('lat') or coords.get('latitude')
+            agent_lon = coords.get('lon') or coords.get('longitude')
+
+    if agent_lat is None or agent_lon is None:
+        return jsonify({
+            'status': 'error',
+            'message': 'Agent GPS coordinates required'
+        }), 400
+
+    estimate = device_tracker.add_observation(
+        device_id=data['device_id'],
+        agent_name=data['agent_name'],
+        agent_lat=float(agent_lat),
+        agent_lon=float(agent_lon),
+        rssi=float(data['rssi']),
+        frequency_mhz=data.get('frequency_mhz')
+    )
+
+    return jsonify({
+        'status': 'success',
+        'device_id': data['device_id'],
+        'location': estimate.to_dict() if estimate else None
+    })
+
+
+@controller_bp.route('/api/location/estimate', methods=['POST'])
+def estimate_location():
+    """
+    Estimate device location from provided observations.
+
+    Expected JSON body:
+    {
+        "observations": [
+            {"agent_lat": 40.7128, "agent_lon": -74.0060, "rssi": -55, "agent_name": "node-1"},
+            {"agent_lat": 40.7135, "agent_lon": -74.0055, "rssi": -70, "agent_name": "node-2"},
+            {"agent_lat": 40.7120, "agent_lon": -74.0050, "rssi": -62, "agent_name": "node-3"}
+        ],
+        "environment": "outdoor"  (optional: outdoor, indoor, free_space)
+    }
+    """
+    data = request.json or {}
+
+    observations = data.get('observations', [])
+    if len(observations) < 2:
+        return jsonify({
+            'status': 'error',
+            'message': 'At least 2 observations required'
+        }), 400
+
+    environment = data.get('environment', 'outdoor')
+
+    try:
+        result = estimate_location_from_observations(observations, environment)
+        return jsonify({
+            'status': 'success' if result else 'insufficient_data',
+            'location': result
+        })
+    except Exception as e:
+        logger.exception("Location estimation failed")
+        return jsonify({'status': 'error', 'message': str(e)}), 500
+
+
+@controller_bp.route('/api/location/<device_id>', methods=['GET'])
+def get_device_location(device_id: str):
+    """Get the latest location estimate for a device."""
+    estimate = device_tracker.get_location(device_id)
+
+    if not estimate:
+        return jsonify({
+            'status': 'not_found',
+            'device_id': device_id,
+            'location': None
+        })
+
+    return jsonify({
+        'status': 'success',
+        'device_id': device_id,
+        'location': estimate.to_dict()
+    })
+
+
+@controller_bp.route('/api/location/all', methods=['GET'])
+def get_all_locations():
+    """Get all current device location estimates."""
+    locations = device_tracker.get_all_locations()
+
+    return jsonify({
+        'status': 'success',
+        'count': len(locations),
+        'devices': {
+            device_id: estimate.to_dict()
+            for device_id, estimate in locations.items()
+        }
+    })
+
+
+@controller_bp.route('/api/location/near', methods=['GET'])
+def get_devices_near():
+    """
+    Find devices near a location.
+
+    Query params:
+        lat: latitude
+        lon: longitude
+        radius: radius in meters (default 100)
+    """
+    try:
+        lat = float(request.args.get('lat', 0))
+        lon = float(request.args.get('lon', 0))
+        radius = float(request.args.get('radius', 100))
+    except (ValueError, TypeError):
+        return jsonify({'status': 'error', 'message': 'Invalid coordinates'}), 400
+
+    results = device_tracker.get_devices_near(lat, lon, radius)
+
+    return jsonify({
+        'status': 'success',
+        'center': {'lat': lat, 'lon': lon},
+        'radius_meters': radius,
+        'count': len(results),
+        'devices': [
+            {'device_id': device_id, 'location': estimate.to_dict()}
+            for device_id, estimate in results
+        ]
+    })

routes/dmr.py

@@ -0,0 +1,753 @@
+"""DMR / P25 / Digital Voice decoding routes."""
+
+from __future__ import annotations
+
+import os
+import queue
+import re
+import select
+import shutil
+import subprocess
+import threading
+import time
+from datetime import datetime
+from typing import Generator, Optional
+
+from flask import Blueprint, jsonify, request, Response
+
+import app as app_module
+from utils.logging import get_logger
+from utils.sse import sse_stream_fanout
+from utils.event_pipeline import process_event
+from utils.process import register_process, unregister_process
+from utils.validation import validate_frequency, validate_gain, validate_device_index, validate_ppm
+from utils.sdr import SDRFactory, SDRType
+from utils.constants import (
+    SSE_QUEUE_TIMEOUT,
+    SSE_KEEPALIVE_INTERVAL,
+    QUEUE_MAX_SIZE,
+)
+
+logger = get_logger('intercept.dmr')
+
+dmr_bp = Blueprint('dmr', __name__, url_prefix='/dmr')
+
+# ============================================
+# GLOBAL STATE
+# ============================================
+
+dmr_rtl_process: Optional[subprocess.Popen] = None
+dmr_dsd_process: Optional[subprocess.Popen] = None
+dmr_thread: Optional[threading.Thread] = None
+dmr_running = False
+dmr_has_audio = False  # True when ffmpeg available and dsd outputs audio
+dmr_lock = threading.Lock()
+dmr_queue: queue.Queue = queue.Queue(maxsize=QUEUE_MAX_SIZE)
+dmr_active_device: Optional[int] = None
+
+# Audio mux: the sole reader of dsd-fme stdout.  Fans out bytes to all
+# active ffmpeg stdin sinks when streaming clients are connected.
+# This prevents dsd-fme from blocking on stdout (which would also
+# freeze stderr / text data output).
+_ffmpeg_sinks: set[object] = set()
+_ffmpeg_sinks_lock = threading.Lock()
+
+VALID_PROTOCOLS = ['auto', 'dmr', 'p25', 'nxdn', 'dstar', 'provoice']
+
+# Classic dsd flags
+_DSD_PROTOCOL_FLAGS = {
+    'auto': [],
+    'dmr': ['-fd'],
+    'p25': ['-fp'],
+    'nxdn': ['-fn'],
+    'dstar': ['-fi'],
+    'provoice': ['-fv'],
+}
+
+# dsd-fme remapped several flags from classic DSD:
+#   -fs = DMR Simplex (NOT -fd which is D-STAR!),
+#   -fd = D-STAR (NOT DMR!), -fp = ProVoice (NOT P25),
+#   -fi = NXDN48 (NOT D-Star), -f1 = P25 Phase 1,
+#   -ft = XDMA multi-protocol decoder
+_DSD_FME_PROTOCOL_FLAGS = {
+    'auto': ['-fa'],       # Broad auto: P25 (P1/P2), DMR, D-STAR, YSF, X2-TDMA
+    'dmr': ['-fs'],        # DMR Simplex (-fd is D-STAR in dsd-fme!)
+    'p25': ['-ft'],        # P25 P1/P2 coverage (also includes DMR in dsd-fme)
+    'nxdn': ['-fn'],       # NXDN96
+    'dstar': ['-fd'],      # D-STAR (-fd in dsd-fme, NOT DMR!)
+    'provoice': ['-fp'],   # ProVoice (-fp in dsd-fme, not -fv)
+}
+
+# Modulation hints: force C4FM for protocols that use it, improving
+# sync reliability vs letting dsd-fme auto-detect modulation type.
+_DSD_FME_MODULATION = {
+    'dmr': ['-mc'],        # C4FM
+    'nxdn': ['-mc'],       # C4FM
+}
+
+# ============================================
+# HELPERS
+# ============================================
+
+
+def find_dsd() -> tuple[str | None, bool]:
+    """Find DSD (Digital Speech Decoder) binary.
+
+    Checks for dsd-fme first (common fork), then falls back to dsd.
+    Returns (path, is_fme) tuple.
+    """
+    path = shutil.which('dsd-fme')
+    if path:
+        return path, True
+    path = shutil.which('dsd')
+    if path:
+        return path, False
+    return None, False
+
+
+def find_rtl_fm() -> str | None:
+    """Find rtl_fm binary."""
+    return shutil.which('rtl_fm')
+
+
+def find_rx_fm() -> str | None:
+    """Find SoapySDR rx_fm binary."""
+    return shutil.which('rx_fm')
+
+
+def find_ffmpeg() -> str | None:
+    """Find ffmpeg for audio encoding."""
+    return shutil.which('ffmpeg')
+
+
+def parse_dsd_output(line: str) -> dict | None:
+    """Parse a line of DSD stderr output into a structured event.
+
+    Handles output from both classic ``dsd`` and ``dsd-fme`` which use
+    different formatting for talkgroup / source / voice frame lines.
+    """
+    line = line.strip()
+    if not line:
+        return None
+
+    # Skip DSD/dsd-fme startup banner lines (ASCII art, version info, etc.)
+    # Only filter lines that are purely decorative — dsd-fme uses box-drawing
+    # characters (│, ─) as column separators in DATA lines, so we must not
+    # discard lines that also contain alphanumeric content.
+    stripped_of_box = re.sub(r'[╔╗╚╝║═██▀▄╗╝╩╦╠╣╬│┤├┘└┐┌─┼█▓▒░\s]', '', line)
+    if not stripped_of_box:
+        return None
+    if re.match(r'^\s*(Build Version|MBElib|CODEC2|Audio (Out|In)|Decoding )', line):
+        return None
+
+    ts = datetime.now().strftime('%H:%M:%S')
+
+    # Sync detection: "Sync: +DMR (data)" or "Sync: +P25 Phase 1"
+    sync_match = re.match(r'Sync:\s*\+?(\S+.*)', line)
+    if sync_match:
+        return {
+            'type': 'sync',
+            'protocol': sync_match.group(1).strip(),
+            'timestamp': ts,
+        }
+
+    # Talkgroup and Source — check BEFORE slot so "Slot 1 Voice LC, TG: …"
+    # is captured as a call event rather than a bare slot event.
+    # Classic dsd:   "TG: 12345  Src: 67890"
+    # dsd-fme:       "TG: 12345, Src: 67890"  or  "Talkgroup: 12345, Source: 67890"
+    #                "TGT: 12345 | SRC: 67890" (pipe-delimited variant)
+    tg_match = re.search(
+        r'(?:TGT?|Talkgroup)[:\s]+(\d+)[,|│\s]+(?:Src|Source|SRC)[:\s]+(\d+)', line, re.IGNORECASE
+    )
+    if tg_match:
+        result = {
+            'type': 'call',
+            'talkgroup': int(tg_match.group(1)),
+            'source_id': int(tg_match.group(2)),
+            'timestamp': ts,
+        }
+        # Extract slot if present on the same line
+        slot_inline = re.search(r'Slot\s*(\d+)', line)
+        if slot_inline:
+            result['slot'] = int(slot_inline.group(1))
+        return result
+
+    # P25 NAC (Network Access Code) — check before voice/slot
+    nac_match = re.search(r'NAC[:\s]+([0-9A-Fa-f]+)', line)
+    if nac_match:
+        return {
+            'type': 'nac',
+            'nac': nac_match.group(1),
+            'timestamp': ts,
+        }
+
+    # Voice frame detection — check BEFORE bare slot match
+    # Classic dsd: "Voice" keyword in frame lines
+    # dsd-fme: "voice" or "Voice LC" or "VOICE" in output
+    if re.search(r'\bvoice\b', line, re.IGNORECASE):
+        result = {
+            'type': 'voice',
+            'detail': line,
+            'timestamp': ts,
+        }
+        slot_inline = re.search(r'Slot\s*(\d+)', line)
+        if slot_inline:
+            result['slot'] = int(slot_inline.group(1))
+        return result
+
+    # Bare slot info (only when line is *just* slot info, not voice/call)
+    slot_match = re.match(r'\s*Slot\s*(\d+)\s*$', line)
+    if slot_match:
+        return {
+            'type': 'slot',
+            'slot': int(slot_match.group(1)),
+            'timestamp': ts,
+        }
+
+    # dsd-fme status lines we can surface: "TDMA", "CACH", "PI", "BS", etc.
+    # Also catches "Closing", "Input", and other lifecycle lines.
+    # Forward as raw so the frontend can show decoder is alive.
+    return {
+        'type': 'raw',
+        'text': line[:200],
+        'timestamp': ts,
+    }
+
+
+_HEARTBEAT_INTERVAL = 3.0  # seconds between heartbeats when decoder is idle
+
+# 100ms of silence at 8kHz 16-bit mono = 1600 bytes
+_SILENCE_CHUNK = b'\x00' * 1600
+
+
+def _register_audio_sink(sink: object) -> None:
+    """Register an ffmpeg stdin sink for mux fanout."""
+    with _ffmpeg_sinks_lock:
+        _ffmpeg_sinks.add(sink)
+
+
+def _unregister_audio_sink(sink: object) -> None:
+    """Remove an ffmpeg stdin sink from mux fanout."""
+    with _ffmpeg_sinks_lock:
+        _ffmpeg_sinks.discard(sink)
+
+
+def _get_audio_sinks() -> tuple[object, ...]:
+    """Snapshot current audio sinks for lock-free iteration."""
+    with _ffmpeg_sinks_lock:
+        return tuple(_ffmpeg_sinks)
+
+
+def _stop_process(proc: Optional[subprocess.Popen]) -> None:
+    """Terminate and unregister a subprocess if present."""
+    if not proc:
+        return
+    if proc.poll() is None:
+        try:
+            proc.terminate()
+            proc.wait(timeout=2)
+        except Exception:
+            try:
+                proc.kill()
+            except Exception:
+                pass
+    unregister_process(proc)
+
+
+def _reset_runtime_state(*, release_device: bool) -> None:
+    """Reset process + runtime state and optionally release SDR ownership."""
+    global dmr_rtl_process, dmr_dsd_process
+    global dmr_running, dmr_has_audio, dmr_active_device
+
+    _stop_process(dmr_dsd_process)
+    _stop_process(dmr_rtl_process)
+    dmr_rtl_process = None
+    dmr_dsd_process = None
+    dmr_running = False
+    dmr_has_audio = False
+    with _ffmpeg_sinks_lock:
+        _ffmpeg_sinks.clear()
+
+    if release_device and dmr_active_device is not None:
+        app_module.release_sdr_device(dmr_active_device)
+        dmr_active_device = None
+
+
+def _dsd_audio_mux(dsd_stdout):
+    """Mux thread: sole reader of dsd-fme stdout.
+
+    Always drains dsd-fme's audio output to prevent the process from
+    blocking on stdout writes (which would also freeze stderr / text
+    data). When streaming clients are connected, forwards data to all
+    active ffmpeg stdin sinks with silence fill during voice gaps.
+    """
+    try:
+        while dmr_running:
+            ready, _, _ = select.select([dsd_stdout], [], [], 0.1)
+            if ready:
+                data = os.read(dsd_stdout.fileno(), 4096)
+                if not data:
+                    break
+                sinks = _get_audio_sinks()
+                for sink in sinks:
+                    try:
+                        sink.write(data)
+                        sink.flush()
+                    except (BrokenPipeError, OSError, ValueError):
+                        _unregister_audio_sink(sink)
+            else:
+                # No audio from decoder — feed silence if client connected
+                sinks = _get_audio_sinks()
+                for sink in sinks:
+                    try:
+                        sink.write(_SILENCE_CHUNK)
+                        sink.flush()
+                    except (BrokenPipeError, OSError, ValueError):
+                        _unregister_audio_sink(sink)
+    except (OSError, ValueError):
+        pass
+
+
+def _queue_put(event: dict):
+    """Put an event on the DMR queue, dropping oldest if full."""
+    try:
+        dmr_queue.put_nowait(event)
+    except queue.Full:
+        try:
+            dmr_queue.get_nowait()
+        except queue.Empty:
+            pass
+        try:
+            dmr_queue.put_nowait(event)
+        except queue.Full:
+            pass
+
+
+def stream_dsd_output(rtl_process: subprocess.Popen, dsd_process: subprocess.Popen):
+    """Read DSD stderr output and push parsed events to the queue.
+
+    Uses select() with a timeout so we can send periodic heartbeat
+    events while readline() would otherwise block indefinitely during
+    silence (no signal being decoded).
+    """
+    global dmr_running
+
+    try:
+        _queue_put({'type': 'status', 'text': 'started'})
+        last_heartbeat = time.time()
+
+        while dmr_running:
+            if dsd_process.poll() is not None:
+                break
+
+            # Wait up to 1s for data on stderr instead of blocking forever
+            ready, _, _ = select.select([dsd_process.stderr], [], [], 1.0)
+
+            if ready:
+                line = dsd_process.stderr.readline()
+                if not line:
+                    if dsd_process.poll() is not None:
+                        break
+                    continue
+
+                text = line.decode('utf-8', errors='replace').strip()
+                if not text:
+                    continue
+
+                logger.debug("DSD raw: %s", text)
+                parsed = parse_dsd_output(text)
+                if parsed:
+                    _queue_put(parsed)
+                last_heartbeat = time.time()
+            else:
+                # No stderr output — send heartbeat so frontend knows
+                # decoder is still alive and listening
+                now = time.time()
+                if now - last_heartbeat >= _HEARTBEAT_INTERVAL:
+                    _queue_put({
+                        'type': 'heartbeat',
+                        'timestamp': datetime.now().strftime('%H:%M:%S'),
+                    })
+                    last_heartbeat = now
+
+    except Exception as e:
+        logger.error(f"DSD stream error: {e}")
+    finally:
+        global dmr_active_device, dmr_rtl_process, dmr_dsd_process
+        global dmr_has_audio
+        dmr_running = False
+        dmr_has_audio = False
+        with _ffmpeg_sinks_lock:
+            _ffmpeg_sinks.clear()
+        # Capture exit info for diagnostics
+        rc = dsd_process.poll()
+        reason = 'stopped'
+        detail = ''
+        if rc is not None and rc != 0:
+            reason = 'crashed'
+            try:
+                remaining = dsd_process.stderr.read(1024)
+                if remaining:
+                    detail = remaining.decode('utf-8', errors='replace').strip()[:200]
+            except Exception:
+                pass
+            logger.warning(f"DSD process exited with code {rc}: {detail}")
+        # Cleanup decoder + demod processes
+        _stop_process(dsd_process)
+        _stop_process(rtl_process)
+        dmr_rtl_process = None
+        dmr_dsd_process = None
+        _queue_put({'type': 'status', 'text': reason, 'exit_code': rc, 'detail': detail})
+        # Release SDR device
+        if dmr_active_device is not None:
+            app_module.release_sdr_device(dmr_active_device)
+            dmr_active_device = None
+        logger.info("DSD stream thread stopped")
+
+
+# ============================================
+# API ENDPOINTS
+# ============================================
+
+@dmr_bp.route('/tools')
+def check_tools() -> Response:
+    """Check for required tools."""
+    dsd_path, _ = find_dsd()
+    rtl_fm = find_rtl_fm()
+    rx_fm = find_rx_fm()
+    ffmpeg = find_ffmpeg()
+    return jsonify({
+        'dsd': dsd_path is not None,
+        'rtl_fm': rtl_fm is not None,
+        'rx_fm': rx_fm is not None,
+        'ffmpeg': ffmpeg is not None,
+        'available': dsd_path is not None and (rtl_fm is not None or rx_fm is not None),
+        'protocols': VALID_PROTOCOLS,
+    })
+
+
+@dmr_bp.route('/start', methods=['POST'])
+def start_dmr() -> Response:
+    """Start digital voice decoding."""
+    global dmr_rtl_process, dmr_dsd_process, dmr_thread
+    global dmr_running, dmr_has_audio, dmr_active_device
+
+    dsd_path, is_fme = find_dsd()
+    if not dsd_path:
+        return jsonify({'status': 'error', 'message': 'dsd not found. Install dsd-fme or dsd.'}), 503
+
+    data = request.json or {}
+
+    try:
+        frequency = validate_frequency(data.get('frequency', 462.5625))
+        gain = int(validate_gain(data.get('gain', 40)))
+        device = validate_device_index(data.get('device', 0))
+        protocol = str(data.get('protocol', 'auto')).lower()
+        ppm = validate_ppm(data.get('ppm', 0))
+    except (ValueError, TypeError) as e:
+        return jsonify({'status': 'error', 'message': f'Invalid parameter: {e}'}), 400
+
+    sdr_type_str = str(data.get('sdr_type', 'rtlsdr')).lower()
+    try:
+        sdr_type = SDRType(sdr_type_str)
+    except ValueError:
+        sdr_type = SDRType.RTL_SDR
+
+    if protocol not in VALID_PROTOCOLS:
+        return jsonify({'status': 'error', 'message': f'Invalid protocol. Use: {", ".join(VALID_PROTOCOLS)}'}), 400
+
+    if sdr_type == SDRType.RTL_SDR:
+        if not find_rtl_fm():
+            return jsonify({'status': 'error', 'message': 'rtl_fm not found. Install rtl-sdr tools.'}), 503
+    else:
+        if not find_rx_fm():
+            return jsonify({
+                'status': 'error',
+                'message': f'rx_fm not found. Install SoapySDR tools for {sdr_type.value}.'
+            }), 503
+
+    # Clear stale queue
+    try:
+        while True:
+            dmr_queue.get_nowait()
+    except queue.Empty:
+        pass
+
+    # Reserve running state before we start claiming resources/processes
+    # so concurrent /start requests cannot race each other.
+    with dmr_lock:
+        if dmr_running:
+            return jsonify({'status': 'error', 'message': 'Already running'}), 409
+        dmr_running = True
+        dmr_has_audio = False
+
+    # Claim SDR device — use protocol name so the device panel shows
+    # "D-STAR", "P25", etc. instead of always "DMR"
+    mode_label = protocol.upper() if protocol != 'auto' else 'DMR'
+    error = app_module.claim_sdr_device(device, mode_label)
+    if error:
+        with dmr_lock:
+            dmr_running = False
+        return jsonify({'status': 'error', 'error_type': 'DEVICE_BUSY', 'message': error}), 409
+
+    dmr_active_device = device
+
+    # Build FM demodulation command via SDR abstraction.
+    try:
+        sdr_device = SDRFactory.create_default_device(sdr_type, index=device)
+        builder = SDRFactory.get_builder(sdr_type)
+        rtl_cmd = builder.build_fm_demod_command(
+            device=sdr_device,
+            frequency_mhz=frequency,
+            sample_rate=48000,
+            gain=float(gain) if gain > 0 else None,
+            ppm=int(ppm) if ppm != 0 else None,
+            modulation='fm',
+            squelch=None,
+            bias_t=bool(data.get('bias_t', False)),
+        )
+        if sdr_type == SDRType.RTL_SDR:
+            # Keep squelch fully open for digital bitstreams.
+            rtl_cmd.extend(['-l', '0'])
+    except Exception as e:
+        _reset_runtime_state(release_device=True)
+        return jsonify({'status': 'error', 'message': f'Failed to build SDR command: {e}'}), 500
+
+    # Build DSD command
+    # Audio output: pipe decoded audio (8kHz s16le PCM) to stdout for
+    # ffmpeg transcoding.  Both dsd-fme and classic dsd support '-o -'.
+    # If ffmpeg is unavailable, fall back to discarding audio.
+    ffmpeg_path = find_ffmpeg()
+    if ffmpeg_path:
+        audio_out = '-'
+    else:
+        audio_out = 'null' if is_fme else '-'
+        logger.warning("ffmpeg not found — audio streaming disabled, data-only mode")
+    dsd_cmd = [dsd_path, '-i', '-', '-o', audio_out]
+    if is_fme:
+        dsd_cmd.extend(_DSD_FME_PROTOCOL_FLAGS.get(protocol, []))
+        dsd_cmd.extend(_DSD_FME_MODULATION.get(protocol, []))
+        # Event log to stderr so we capture TG/Source/Voice data that
+        # dsd-fme may not output on stderr by default.
+        dsd_cmd.extend(['-J', '/dev/stderr'])
+        # Relax CRC checks for marginal signals — lets more frames
+        # through at the cost of occasional decode errors.
+        if data.get('relaxCrc', False):
+            dsd_cmd.append('-F')
+    else:
+        dsd_cmd.extend(_DSD_PROTOCOL_FLAGS.get(protocol, []))
+
+    try:
+        dmr_rtl_process = subprocess.Popen(
+            rtl_cmd,
+            stdout=subprocess.PIPE,
+            stderr=subprocess.PIPE,
+        )
+        register_process(dmr_rtl_process)
+
+        # DSD stdout → PIPE when ffmpeg available (audio pipeline),
+        # otherwise DEVNULL (data-only mode)
+        dsd_stdout = subprocess.PIPE if ffmpeg_path else subprocess.DEVNULL
+        dmr_dsd_process = subprocess.Popen(
+            dsd_cmd,
+            stdin=dmr_rtl_process.stdout,
+            stdout=dsd_stdout,
+            stderr=subprocess.PIPE,
+        )
+        register_process(dmr_dsd_process)
+
+        # Allow rtl_fm to send directly to dsd
+        dmr_rtl_process.stdout.close()
+
+        # Start mux thread: always drains dsd-fme stdout to prevent the
+        # process from blocking (which would freeze stderr / text data).
+        # ffmpeg is started lazily per-client in /dmr/audio/stream.
+        if ffmpeg_path and dmr_dsd_process.stdout:
+            dmr_has_audio = True
+            threading.Thread(
+                target=_dsd_audio_mux,
+                args=(dmr_dsd_process.stdout,),
+                daemon=True,
+            ).start()
+
+        time.sleep(0.3)
+
+        rtl_rc = dmr_rtl_process.poll()
+        dsd_rc = dmr_dsd_process.poll()
+        if rtl_rc is not None or dsd_rc is not None:
+            # Process died — capture stderr for diagnostics
+            rtl_err = ''
+            if dmr_rtl_process.stderr:
+                rtl_err = dmr_rtl_process.stderr.read().decode('utf-8', errors='replace')[:500]
+            dsd_err = ''
+            if dmr_dsd_process.stderr:
+                dsd_err = dmr_dsd_process.stderr.read().decode('utf-8', errors='replace')[:500]
+            logger.error(f"DSD pipeline died: rtl_fm rc={rtl_rc} err={rtl_err!r}, dsd rc={dsd_rc} err={dsd_err!r}")
+            # Terminate surviving processes and release resources.
+            _reset_runtime_state(release_device=True)
+            # Surface a clear error to the user
+            detail = rtl_err.strip() or dsd_err.strip()
+            if 'usb_claim_interface' in rtl_err or 'Failed to open' in rtl_err:
+                msg = f'SDR device {device} is busy — it may be in use by another mode or process. Try a different device.'
+            elif detail:
+                msg = f'Failed to start DSD pipeline: {detail}'
+            else:
+                msg = 'Failed to start DSD pipeline'
+            return jsonify({'status': 'error', 'message': msg}), 500
+
+        # Drain rtl_fm stderr in background to prevent pipe blocking
+        def _drain_rtl_stderr(proc):
+            try:
+                for line in proc.stderr:
+                    pass
+            except Exception:
+                pass
+
+        threading.Thread(target=_drain_rtl_stderr, args=(dmr_rtl_process,), daemon=True).start()
+
+        dmr_thread = threading.Thread(
+            target=stream_dsd_output,
+            args=(dmr_rtl_process, dmr_dsd_process),
+            daemon=True,
+        )
+        dmr_thread.start()
+
+        return jsonify({
+            'status': 'started',
+            'frequency': frequency,
+            'protocol': protocol,
+            'sdr_type': sdr_type.value,
+            'has_audio': dmr_has_audio,
+        })
+
+    except Exception as e:
+        logger.error(f"Failed to start DMR: {e}")
+        _reset_runtime_state(release_device=True)
+        return jsonify({'status': 'error', 'message': str(e)}), 500
+
+
+@dmr_bp.route('/stop', methods=['POST'])
+def stop_dmr() -> Response:
+    """Stop digital voice decoding."""
+    with dmr_lock:
+        _reset_runtime_state(release_device=True)
+
+    return jsonify({'status': 'stopped'})
+
+
+@dmr_bp.route('/status')
+def dmr_status() -> Response:
+    """Get DMR decoder status."""
+    return jsonify({
+        'running': dmr_running,
+        'device': dmr_active_device,
+        'has_audio': dmr_has_audio,
+    })
+
+
+@dmr_bp.route('/audio/stream')
+def stream_dmr_audio() -> Response:
+    """Stream decoded digital voice audio as WAV.
+
+    Starts a per-client ffmpeg encoder.  The global mux thread
+    (_dsd_audio_mux) forwards DSD audio to this ffmpeg's stdin while
+    the client is connected, and discards audio otherwise.  This avoids
+    the pipe-buffer deadlock that occurs when ffmpeg is started at
+    decoder launch (its stdout fills up before any HTTP client reads
+    it, back-pressuring the entire pipeline and freezing stderr/text
+    data output).
+    """
+    if not dmr_running or not dmr_has_audio:
+        return Response(b'', mimetype='audio/wav', status=204)
+
+    ffmpeg_path = find_ffmpeg()
+    if not ffmpeg_path:
+        return Response(b'', mimetype='audio/wav', status=503)
+
+    encoder_cmd = [
+        ffmpeg_path, '-hide_banner', '-loglevel', 'error',
+        '-fflags', 'nobuffer', '-flags', 'low_delay',
+        '-probesize', '32', '-analyzeduration', '0',
+        '-f', 's16le', '-ar', '8000', '-ac', '1', '-i', 'pipe:0',
+        '-acodec', 'pcm_s16le', '-ar', '44100', '-f', 'wav', 'pipe:1',
+    ]
+    audio_proc = subprocess.Popen(
+        encoder_cmd,
+        stdin=subprocess.PIPE,
+        stdout=subprocess.PIPE,
+        stderr=subprocess.PIPE,
+    )
+    # Drain ffmpeg stderr to prevent blocking
+    threading.Thread(
+        target=lambda p: [None for _ in p.stderr],
+        args=(audio_proc,), daemon=True,
+    ).start()
+
+    if audio_proc.stdin:
+        _register_audio_sink(audio_proc.stdin)
+
+    def generate():
+        try:
+            while dmr_running and audio_proc.poll() is None:
+                ready, _, _ = select.select([audio_proc.stdout], [], [], 2.0)
+                if ready:
+                    chunk = audio_proc.stdout.read(4096)
+                    if chunk:
+                        yield chunk
+                    else:
+                        break
+                else:
+                    if audio_proc.poll() is not None:
+                        break
+        except GeneratorExit:
+            pass
+        except Exception as e:
+            logger.error(f"DMR audio stream error: {e}")
+        finally:
+            # Disconnect mux → ffmpeg, then clean up
+            if audio_proc.stdin:
+                _unregister_audio_sink(audio_proc.stdin)
+            try:
+                audio_proc.stdin.close()
+            except Exception:
+                pass
+            try:
+                audio_proc.terminate()
+                audio_proc.wait(timeout=2)
+            except Exception:
+                try:
+                    audio_proc.kill()
+                except Exception:
+                    pass
+
+    return Response(
+        generate(),
+        mimetype='audio/wav',
+        headers={
+            'Content-Type': 'audio/wav',
+            'Cache-Control': 'no-cache, no-store',
+            'X-Accel-Buffering': 'no',
+            'Transfer-Encoding': 'chunked',
+        },
+    )
+
+
+@dmr_bp.route('/stream')
+def stream_dmr() -> Response:
+    """SSE stream for DMR decoder events."""
+    def _on_msg(msg: dict[str, Any]) -> None:
+        process_event('dmr', msg, msg.get('type'))
+
+    response = Response(
+        sse_stream_fanout(
+            source_queue=dmr_queue,
+            channel_key='dmr',
+            timeout=SSE_QUEUE_TIMEOUT,
+            keepalive_interval=SSE_KEEPALIVE_INTERVAL,
+            on_message=_on_msg,
+        ),
+        mimetype='text/event-stream',
+    )
+    response.headers['Cache-Control'] = 'no-cache'
+    response.headers['X-Accel-Buffering'] = 'no'
+    return response

routes/dsc.py

@@ -35,10 +35,12 @@ from utils.database import (
     get_dsc_alert_summary,
 )
 from utils.dsc.parser import parse_dsc_message
-from utils.sse import format_sse
+from utils.sse import sse_stream_fanout
+from utils.event_pipeline import process_event
 from utils.validation import validate_device_index, validate_gain
 from utils.sdr import SDRFactory, SDRType
 from utils.dependencies import get_tool_path
+from utils.process import register_process, unregister_process
 
 logger = logging.getLogger('intercept.dsc')
 
@@ -47,6 +49,9 @@ dsc_bp = Blueprint('dsc', __name__, url_prefix='/dsc')
 # Module state (track if running independent of process state)
 dsc_running = False
 
+# Track which device is being used
+dsc_active_device: int | None = None
+
 
 def _get_dsc_decoder_path() -> str | None:
     """Get path to DSC decoder."""
@@ -166,17 +171,34 @@ def stream_dsc_decoder(master_fd: int, decoder_process: subprocess.Popen) -> Non
             'error': str(e)
         })
     finally:
+        global dsc_active_device
         try:
             os.close(master_fd)
         except OSError:
             pass
-        decoder_process.wait()
         dsc_running = False
+        # Cleanup both processes
+        with app_module.dsc_lock:
+            rtl_proc = app_module.dsc_rtl_process
+        for proc in [rtl_proc, decoder_process]:
+            if proc:
+                try:
+                    proc.terminate()
+                    proc.wait(timeout=2)
+                except Exception:
+                    try:
+                        proc.kill()
+                    except Exception:
+                        pass
+                unregister_process(proc)
         app_module.dsc_queue.put({'type': 'status', 'status': 'stopped'})
-
         with app_module.dsc_lock:
             app_module.dsc_process = None
             app_module.dsc_rtl_process = None
+        # Release SDR device
+        if dsc_active_device is not None:
+            app_module.release_sdr_device(dsc_active_device)
+            dsc_active_device = None
 
 
 def _store_critical_alert(msg: dict) -> None:
@@ -309,21 +331,18 @@ def start_decoding() -> Response:
                 'message': str(e)
             }), 400
 
-        # Check if device is in use by AIS
-        try:
-            from routes import ais as ais_module
-            if hasattr(ais_module, 'ais_running') and ais_module.ais_running:
-                # AIS is running - check if same device
-                if hasattr(ais_module, 'ais_device') and str(ais_module.ais_device) == str(device):
-                    return jsonify({
-                        'status': 'error',
-                        'error_type': 'DEVICE_BUSY',
-                        'message': f'SDR device {device} is in use by AIS tracking',
-                        'suggestion': 'Use a different SDR device or stop AIS tracking first',
-                        'in_use_by': 'ais'
-                    }), 409
-        except ImportError:
-            pass
+        # Check if device is available using centralized registry
+        global dsc_active_device
+        device_int = int(device)
+        error = app_module.claim_sdr_device(device_int, 'dsc')
+        if error:
+            return jsonify({
+                'status': 'error',
+                'error_type': 'DEVICE_BUSY',
+                'message': error
+            }), 409
+
+        dsc_active_device = device_int
 
         # Clear queue
         while not app_module.dsc_queue.empty():
@@ -362,6 +381,7 @@ def start_decoding() -> Response:
                 stdout=subprocess.PIPE,
                 stderr=subprocess.PIPE
             )
+            register_process(rtl_process)
 
             # Start stderr monitor thread
             stderr_thread = threading.Thread(
@@ -382,6 +402,7 @@ def start_decoding() -> Response:
                 stderr=slave_fd,
                 close_fds=True
             )
+            register_process(decoder_process)
 
             os.close(slave_fd)
             rtl_process.stdout.close()
@@ -408,11 +429,37 @@ def start_decoding() -> Response:
             })
 
         except FileNotFoundError as e:
+            # Kill orphaned rtl_fm process
+            try:
+                rtl_process.terminate()
+                rtl_process.wait(timeout=2)
+            except Exception:
+                try:
+                    rtl_process.kill()
+                except Exception:
+                    pass
+            # Release device on failure
+            if dsc_active_device is not None:
+                app_module.release_sdr_device(dsc_active_device)
+                dsc_active_device = None
             return jsonify({
                 'status': 'error',
                 'message': f'Tool not found: {e.filename}'
             }), 400
         except Exception as e:
+            # Kill orphaned rtl_fm process if it was started
+            try:
+                rtl_process.terminate()
+                rtl_process.wait(timeout=2)
+            except Exception:
+                try:
+                    rtl_process.kill()
+                except Exception:
+                    pass
+            # Release device on failure
+            if dsc_active_device is not None:
+                app_module.release_sdr_device(dsc_active_device)
+                dsc_active_device = None
             logger.error(f"Failed to start DSC decoder: {e}")
             return jsonify({
                 'status': 'error',
@@ -423,7 +470,7 @@ def start_decoding() -> Response:
 @dsc_bp.route('/stop', methods=['POST'])
 def stop_decoding() -> Response:
     """Stop DSC decoder."""
-    global dsc_running
+    global dsc_running, dsc_active_device
 
     with app_module.dsc_lock:
         if not app_module.dsc_process:
@@ -460,28 +507,30 @@ def stop_decoding() -> Response:
         app_module.dsc_process = None
         app_module.dsc_rtl_process = None
 
+        # Release device from registry
+        if dsc_active_device is not None:
+            app_module.release_sdr_device(dsc_active_device)
+            dsc_active_device = None
+
         return jsonify({'status': 'stopped'})
 
 
 @dsc_bp.route('/stream')
 def stream() -> Response:
     """SSE stream for real-time DSC messages."""
-    def generate() -> Generator[str, None, None]:
-        last_keepalive = time.time()
-        keepalive_interval = 30.0
+    def _on_msg(msg: dict[str, Any]) -> None:
+        process_event('dsc', msg, msg.get('type'))
 
-        while True:
-            try:
-                msg = app_module.dsc_queue.get(timeout=1)
-                last_keepalive = time.time()
-                yield format_sse(msg)
-            except queue.Empty:
-                now = time.time()
-                if now - last_keepalive >= keepalive_interval:
-                    yield format_sse({'type': 'keepalive'})
-                    last_keepalive = now
-
-    response = Response(generate(), mimetype='text/event-stream')
+    response = Response(
+        sse_stream_fanout(
+            source_queue=app_module.dsc_queue,
+            channel_key='dsc',
+            timeout=1.0,
+            keepalive_interval=30.0,
+            on_message=_on_msg,
+        ),
+        mimetype='text/event-stream',
+    )
     response.headers['Cache-Control'] = 'no-cache'
     response.headers['X-Accel-Buffering'] = 'no'
     response.headers['Connection'] = 'keep-alive'

routes/gps.py

@@ -4,19 +4,24 @@ from __future__ import annotations
 
 import queue
 import time
-from typing import Generator
+from collections.abc import Generator
 
-from flask import Blueprint, jsonify, request, Response
+from flask import Blueprint, Response, jsonify
 
-from utils.logging import get_logger
-from utils.sse import format_sse
 from utils.gps import (
-    get_gps_reader,
-    start_gpsd,
-    stop_gps,
-    get_current_position,
     GPSPosition,
+    GPSSkyData,
+    detect_gps_devices,
+    get_current_position,
+    get_gps_reader,
+    is_gpsd_running,
+    start_gpsd,
+    start_gpsd_daemon,
+    stop_gps,
+    stop_gpsd_daemon,
 )
+from utils.logging import get_logger
+from utils.sse import sse_stream_fanout
 
 logger = get_logger('intercept.gps')
 
@@ -29,12 +34,24 @@ _gps_queue: queue.Queue = queue.Queue(maxsize=100)
 def _position_callback(position: GPSPosition) -> None:
     """Callback to queue position updates for SSE stream."""
     try:
-        _gps_queue.put_nowait(position.to_dict())
+        _gps_queue.put_nowait({'type': 'position', **position.to_dict()})
     except queue.Full:
         # Discard oldest if queue is full
         try:
             _gps_queue.get_nowait()
-            _gps_queue.put_nowait(position.to_dict())
+            _gps_queue.put_nowait({'type': 'position', **position.to_dict()})
+        except queue.Empty:
+            pass
+
+
+def _sky_callback(sky: GPSSkyData) -> None:
+    """Callback to queue sky data updates for SSE stream."""
+    try:
+        _gps_queue.put_nowait({'type': 'sky', **sky.to_dict()})
+    except queue.Full:
+        try:
+            _gps_queue.get_nowait()
+            _gps_queue.put_nowait({'type': 'sky', **sky.to_dict()})
         except queue.Empty:
             pass
 
@@ -45,36 +62,44 @@ def auto_connect_gps():
     Automatically connect to gpsd if available.
 
     Called on page load to seamlessly enable GPS if gpsd is running.
+    If gpsd is not running, attempts to detect GPS devices and start gpsd.
     Returns current status if already connected.
     """
-    import socket
-
     # Check if already running
     reader = get_gps_reader()
     if reader and reader.is_running:
         position = reader.position
+        sky = reader.sky
         return jsonify({
             'status': 'connected',
             'source': 'gpsd',
             'has_fix': position is not None,
-            'position': position.to_dict() if position else None
+            'position': position.to_dict() if position else None,
+            'sky': sky.to_dict() if sky else None,
         })
 
-    # Try to connect to gpsd on localhost:2947
     host = 'localhost'
     port = 2947
 
-    # First check if gpsd is reachable
-    try:
-        sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
-        sock.settimeout(1.0)
-        sock.connect((host, port))
-        sock.close()
-    except Exception:
-        return jsonify({
-            'status': 'unavailable',
-            'message': 'gpsd not running'
-        })
+    # If gpsd isn't running, try to detect a device and start it
+    if not is_gpsd_running(host, port):
+        devices = detect_gps_devices()
+        if not devices:
+            return jsonify({
+                'status': 'unavailable',
+                'message': 'No GPS device detected'
+            })
+
+        # Try to start gpsd with the first detected device
+        device_path = devices[0]['path']
+        success, msg = start_gpsd_daemon(device_path, host, port)
+        if not success:
+            return jsonify({
+                'status': 'unavailable',
+                'message': msg,
+                'devices': devices,
+            })
+        logger.info(f"Auto-started gpsd on {device_path}")
 
     # Clear the queue
     while not _gps_queue.empty():
@@ -84,14 +109,17 @@ def auto_connect_gps():
             break
 
     # Start the gpsd client
-    success = start_gpsd(host, port, callback=_position_callback)
+    success = start_gpsd(host, port,
+                         callback=_position_callback,
+                         sky_callback=_sky_callback)
 
     if success:
         return jsonify({
             'status': 'connected',
             'source': 'gpsd',
             'has_fix': False,
-            'position': None
+            'position': None,
+            'sky': None,
         })
     else:
         return jsonify({
@@ -100,14 +128,26 @@ def auto_connect_gps():
         })
 
 
+@gps_bp.route('/devices')
+def list_gps_devices():
+    """List detected GPS serial devices."""
+    devices = detect_gps_devices()
+    return jsonify({
+        'devices': devices,
+        'gpsd_running': is_gpsd_running(),
+    })
+
+
 @gps_bp.route('/stop', methods=['POST'])
 def stop_gps_reader():
-    """Stop GPS client."""
+    """Stop GPS client and gpsd daemon if we started it."""
     reader = get_gps_reader()
     if reader:
         reader.remove_callback(_position_callback)
+        reader.remove_sky_callback(_sky_callback)
 
     stop_gps()
+    stop_gpsd_daemon()
 
     return jsonify({'status': 'stopped'})
 
@@ -122,15 +162,18 @@ def get_gps_status():
             'running': False,
             'device': None,
             'position': None,
+            'sky': None,
             'error': None,
             'message': 'GPS client not started'
         })
 
     position = reader.position
+    sky = reader.sky
     return jsonify({
         'running': reader.is_running,
         'device': reader.device_path,
         'position': position.to_dict() if position else None,
+        'sky': sky.to_dict() if sky else None,
         'last_update': reader.last_update.isoformat() if reader.last_update else None,
         'error': reader.error,
         'message': 'Waiting for GPS fix - ensure GPS has clear view of sky' if reader.is_running and not position else None
@@ -161,26 +204,43 @@ def get_position():
             })
 
 
-@gps_bp.route('/stream')
-def stream_gps():
-    """SSE stream of GPS position updates."""
-    def generate() -> Generator[str, None, None]:
-        last_keepalive = time.time()
-        keepalive_interval = 30.0
+@gps_bp.route('/satellites')
+def get_satellites():
+    """Get current satellite sky view data."""
+    reader = get_gps_reader()
 
-        while True:
-            try:
-                position = _gps_queue.get(timeout=1)
-                last_keepalive = time.time()
-                yield format_sse({'type': 'position', **position})
-            except queue.Empty:
-                now = time.time()
-                if now - last_keepalive >= keepalive_interval:
-                    yield format_sse({'type': 'keepalive'})
-                    last_keepalive = now
+    if not reader or not reader.is_running:
+        return jsonify({
+            'status': 'error',
+            'message': 'GPS client not running'
+        }), 400
 
-    response = Response(generate(), mimetype='text/event-stream')
-    response.headers['Cache-Control'] = 'no-cache'
-    response.headers['X-Accel-Buffering'] = 'no'
-    response.headers['Connection'] = 'keep-alive'
+    sky = reader.sky
+    if sky:
+        return jsonify({
+            'status': 'ok',
+            'sky': sky.to_dict()
+        })
+    else:
+        return jsonify({
+            'status': 'waiting',
+            'message': 'Waiting for satellite data'
+        })
+
+
+@gps_bp.route('/stream')
+def stream_gps():
+    """SSE stream of GPS position and sky updates."""
+    response = Response(
+        sse_stream_fanout(
+            source_queue=_gps_queue,
+            channel_key='gps',
+            timeout=1.0,
+            keepalive_interval=30.0,
+        ),
+        mimetype='text/event-stream',
+    )
+    response.headers['Cache-Control'] = 'no-cache'
+    response.headers['X-Accel-Buffering'] = 'no'
+    response.headers['Connection'] = 'keep-alive'
     return response

routes/offline.py

@@ -0,0 +1,166 @@
+"""
+Offline mode routes - Asset management and settings for offline operation.
+"""
+
+from flask import Blueprint, jsonify, request
+from utils.database import get_setting, set_setting
+import os
+
+offline_bp = Blueprint('offline', __name__, url_prefix='/offline')
+
+# Default offline settings
+OFFLINE_DEFAULTS = {
+    'offline.enabled': False,
+    'offline.assets_source': 'cdn',
+    'offline.fonts_source': 'cdn',
+    'offline.tile_provider': 'cartodb_dark_cyan',
+    'offline.tile_server_url': ''
+}
+
+# Asset paths to check
+ASSET_PATHS = {
+    'leaflet': [
+        'static/vendor/leaflet/leaflet.js',
+        'static/vendor/leaflet/leaflet.css'
+    ],
+    'chartjs': [
+        'static/vendor/chartjs/chart.umd.min.js'
+    ],
+    'inter': [
+        'static/vendor/fonts/Inter-Regular.woff2',
+        'static/vendor/fonts/Inter-Medium.woff2',
+        'static/vendor/fonts/Inter-SemiBold.woff2',
+        'static/vendor/fonts/Inter-Bold.woff2'
+    ],
+    'jetbrains': [
+        'static/vendor/fonts/JetBrainsMono-Regular.woff2',
+        'static/vendor/fonts/JetBrainsMono-Medium.woff2',
+        'static/vendor/fonts/JetBrainsMono-SemiBold.woff2',
+        'static/vendor/fonts/JetBrainsMono-Bold.woff2'
+    ],
+    'leaflet_images': [
+        'static/vendor/leaflet/images/marker-icon.png',
+        'static/vendor/leaflet/images/marker-icon-2x.png',
+        'static/vendor/leaflet/images/marker-shadow.png',
+        'static/vendor/leaflet/images/layers.png',
+        'static/vendor/leaflet/images/layers-2x.png'
+    ],
+    'leaflet_heat': [
+        'static/vendor/leaflet-heat/leaflet-heat.js'
+    ]
+}
+
+
+def get_offline_settings():
+    """Get all offline settings with defaults."""
+    settings = {}
+    for key, default in OFFLINE_DEFAULTS.items():
+        settings[key] = get_setting(key, default)
+    return settings
+
+
+@offline_bp.route('/settings', methods=['GET'])
+def get_settings():
+    """Get current offline settings."""
+    settings = get_offline_settings()
+    return jsonify({
+        'status': 'success',
+        'settings': settings
+    })
+
+
+@offline_bp.route('/settings', methods=['POST'])
+def save_setting():
+    """Save an offline setting."""
+    data = request.get_json()
+    if not data or 'key' not in data or 'value' not in data:
+        return jsonify({'status': 'error', 'message': 'Missing key or value'}), 400
+
+    key = data['key']
+    value = data['value']
+
+    # Validate key is an allowed setting
+    if key not in OFFLINE_DEFAULTS:
+        return jsonify({'status': 'error', 'message': f'Unknown setting: {key}'}), 400
+
+    # Validate value type matches default
+    default_type = type(OFFLINE_DEFAULTS[key])
+    if not isinstance(value, default_type):
+        # Try to convert
+        try:
+            if default_type == bool:
+                value = str(value).lower() in ('true', '1', 'yes')
+            else:
+                value = default_type(value)
+        except (ValueError, TypeError):
+            return jsonify({
+                'status': 'error',
+                'message': f'Invalid value type for {key}'
+            }), 400
+
+    set_setting(key, value)
+
+    return jsonify({
+        'status': 'success',
+        'key': key,
+        'value': value
+    })
+
+
+@offline_bp.route('/status', methods=['GET'])
+def get_status():
+    """Check status of local assets."""
+    # Get the app root directory
+    app_root = os.path.dirname(os.path.dirname(os.path.abspath(__file__)))
+
+    results = {}
+    all_available = True
+
+    for asset_name, paths in ASSET_PATHS.items():
+        available = True
+        missing = []
+        for path in paths:
+            full_path = os.path.join(app_root, path)
+            if not os.path.exists(full_path):
+                available = False
+                missing.append(path)
+
+        results[asset_name] = {
+            'available': available,
+            'missing': missing if not available else []
+        }
+
+        if not available:
+            all_available = False
+
+    return jsonify({
+        'status': 'success',
+        'all_available': all_available,
+        'assets': results,
+        'offline_enabled': get_setting('offline.enabled', False)
+    })
+
+
+@offline_bp.route('/check-asset', methods=['GET'])
+def check_asset():
+    """Check if a specific asset file exists."""
+    path = request.args.get('path', '')
+    if not path:
+        return jsonify({'status': 'error', 'message': 'Missing path parameter'}), 400
+
+    # Security: only allow checking within static/vendor
+    if not path.startswith('/static/vendor/'):
+        return jsonify({'status': 'error', 'message': 'Invalid path'}), 400
+
+    # Remove leading slash and construct full path
+    relative_path = path.lstrip('/')
+    app_root = os.path.dirname(os.path.dirname(os.path.abspath(__file__)))
+    full_path = os.path.join(app_root, relative_path)
+
+    exists = os.path.exists(full_path)
+
+    return jsonify({
+        'status': 'success',
+        'path': path,
+        'exists': exists
+    })

routes/pager.py

@@ -2,12 +2,14 @@
 
 from __future__ import annotations
 
+import math
 import os
 import pathlib
 import re
 import pty
 import queue
 import select
+import struct
 import subprocess
 import threading
 import time
@@ -22,13 +24,17 @@ from utils.validation import (
     validate_frequency, validate_device_index, validate_gain, validate_ppm,
     validate_rtl_tcp_host, validate_rtl_tcp_port
 )
-from utils.sse import format_sse
-from utils.process import safe_terminate, register_process
+from utils.sse import sse_stream_fanout
+from utils.event_pipeline import process_event
+from utils.process import safe_terminate, register_process, unregister_process
 from utils.sdr import SDRFactory, SDRType, SDRValidationError
 from utils.dependencies import get_tool_path
 
 pager_bp = Blueprint('pager', __name__)
 
+# Track which device is being used
+pager_active_device: int | None = None
+
 
 def parse_multimon_output(line: str) -> dict[str, str] | None:
     """Parse multimon-ng output line."""
@@ -102,6 +108,62 @@ def log_message(msg: dict[str, Any]) -> None:
         logger.error(f"Failed to log message: {e}")
 
 
+def audio_relay_thread(
+    rtl_stdout,
+    multimon_stdin,
+    output_queue: queue.Queue,
+    stop_event: threading.Event,
+) -> None:
+    """Relay audio from rtl_fm to multimon-ng while computing signal levels.
+
+    Reads raw 16-bit LE PCM from *rtl_stdout*, writes every chunk straight
+    through to *multimon_stdin*, and every ~100 ms pushes an RMS / peak scope
+    event onto *output_queue*.
+    """
+    CHUNK = 4096  # bytes – 2048 samples at 16-bit mono
+    INTERVAL = 0.1  # seconds between scope updates
+    last_scope = time.monotonic()
+
+    try:
+        while not stop_event.is_set():
+            data = rtl_stdout.read(CHUNK)
+            if not data:
+                break
+
+            # Forward audio untouched
+            try:
+                multimon_stdin.write(data)
+                multimon_stdin.flush()
+            except (BrokenPipeError, OSError):
+                break
+
+            # Compute scope levels every ~100 ms
+            now = time.monotonic()
+            if now - last_scope >= INTERVAL:
+                last_scope = now
+                try:
+                    n_samples = len(data) // 2
+                    if n_samples == 0:
+                        continue
+                    samples = struct.unpack(f'<{n_samples}h', data[:n_samples * 2])
+                    peak = max(abs(s) for s in samples)
+                    rms = int(math.sqrt(sum(s * s for s in samples) / n_samples))
+                    output_queue.put_nowait({
+                        'type': 'scope',
+                        'rms': rms,
+                        'peak': peak,
+                    })
+                except (struct.error, ValueError, queue.Full):
+                    pass
+    except Exception as e:
+        logger.debug(f"Audio relay error: {e}")
+    finally:
+        try:
+            multimon_stdin.close()
+        except OSError:
+            pass
+
+
 def stream_decoder(master_fd: int, process: subprocess.Popen[bytes]) -> None:
     """Stream decoder output to queue using PTY for unbuffered output."""
     try:
@@ -143,18 +205,43 @@ def stream_decoder(master_fd: int, process: subprocess.Popen[bytes]) -> None:
     except Exception as e:
         app_module.output_queue.put({'type': 'error', 'text': str(e)})
     finally:
+        global pager_active_device
         try:
             os.close(master_fd)
         except OSError:
             pass
-        process.wait()
+        # Signal relay thread to stop
+        with app_module.process_lock:
+            stop_relay = getattr(app_module.current_process, '_stop_relay', None)
+        if stop_relay:
+            stop_relay.set()
+        # Cleanup companion rtl_fm process and decoder
+        with app_module.process_lock:
+            rtl_proc = getattr(app_module.current_process, '_rtl_process', None)
+        for proc in [rtl_proc, process]:
+            if proc:
+                try:
+                    proc.terminate()
+                    proc.wait(timeout=2)
+                except Exception:
+                    try:
+                        proc.kill()
+                    except Exception:
+                        pass
+                unregister_process(proc)
         app_module.output_queue.put({'type': 'status', 'text': 'stopped'})
         with app_module.process_lock:
             app_module.current_process = None
+        # Release SDR device
+        if pager_active_device is not None:
+            app_module.release_sdr_device(pager_active_device)
+            pager_active_device = None
 
 
 @pager_bp.route('/start', methods=['POST'])
 def start_decoding() -> Response:
+    global pager_active_device
+
     with app_module.process_lock:
         if app_module.current_process:
             return jsonify({'status': 'error', 'message': 'Already running'}), 409
@@ -178,10 +265,29 @@ def start_decoding() -> Response:
         except (ValueError, TypeError):
             return jsonify({'status': 'error', 'message': 'Invalid squelch value'}), 400
 
+        # Check for rtl_tcp (remote SDR) connection
+        rtl_tcp_host = data.get('rtl_tcp_host')
+        rtl_tcp_port = data.get('rtl_tcp_port', 1234)
+
+        # Claim local device if not using remote rtl_tcp
+        if not rtl_tcp_host:
+            device_int = int(device)
+            error = app_module.claim_sdr_device(device_int, 'pager')
+            if error:
+                return jsonify({
+                    'status': 'error',
+                    'error_type': 'DEVICE_BUSY',
+                    'message': error
+                }), 409
+            pager_active_device = device_int
+
         # Validate protocols
         valid_protocols = ['POCSAG512', 'POCSAG1200', 'POCSAG2400', 'FLEX']
         protocols = data.get('protocols', valid_protocols)
         if not isinstance(protocols, list):
+            if pager_active_device is not None:
+                app_module.release_sdr_device(pager_active_device)
+                pager_active_device = None
             return jsonify({'status': 'error', 'message': 'Protocols must be a list'}), 400
         protocols = [p for p in protocols if p in valid_protocols]
         if not protocols:
@@ -213,10 +319,6 @@ def start_decoding() -> Response:
         except ValueError:
             sdr_type = SDRType.RTL_SDR
 
-        # Check for rtl_tcp (remote SDR) connection
-        rtl_tcp_host = data.get('rtl_tcp_host')
-        rtl_tcp_port = data.get('rtl_tcp_port', 1234)
-
         if rtl_tcp_host:
             # Validate and create network device
             try:
@@ -261,6 +363,7 @@ def start_decoding() -> Response:
                 stdout=subprocess.PIPE,
                 stderr=subprocess.PIPE
             )
+            register_process(rtl_process)
 
             # Start a thread to monitor rtl_fm stderr for errors
             def monitor_rtl_stderr():
@@ -279,18 +382,30 @@ def start_decoding() -> Response:
 
             multimon_process = subprocess.Popen(
                 multimon_cmd,
-                stdin=rtl_process.stdout,
+                stdin=subprocess.PIPE,
                 stdout=slave_fd,
                 stderr=slave_fd,
                 close_fds=True
             )
+            register_process(multimon_process)
 
             os.close(slave_fd)
-            rtl_process.stdout.close()
+
+            # Spawn audio relay thread between rtl_fm and multimon-ng
+            stop_relay = threading.Event()
+            relay = threading.Thread(
+                target=audio_relay_thread,
+                args=(rtl_process.stdout, multimon_process.stdin,
+                      app_module.output_queue, stop_relay),
+            )
+            relay.daemon = True
+            relay.start()
 
             app_module.current_process = multimon_process
             app_module.current_process._rtl_process = rtl_process
             app_module.current_process._master_fd = master_fd
+            app_module.current_process._stop_relay = stop_relay
+            app_module.current_process._relay_thread = relay
 
             # Start output thread with PTY master fd
             thread = threading.Thread(target=stream_decoder, args=(master_fd, multimon_process))
@@ -302,15 +417,47 @@ def start_decoding() -> Response:
             return jsonify({'status': 'started', 'command': full_cmd})
 
         except FileNotFoundError as e:
+            # Kill orphaned rtl_fm process
+            try:
+                rtl_process.terminate()
+                rtl_process.wait(timeout=2)
+            except Exception:
+                try:
+                    rtl_process.kill()
+                except Exception:
+                    pass
+            # Release device on failure
+            if pager_active_device is not None:
+                app_module.release_sdr_device(pager_active_device)
+                pager_active_device = None
             return jsonify({'status': 'error', 'message': f'Tool not found: {e.filename}'})
         except Exception as e:
+            # Kill orphaned rtl_fm process if it was started
+            try:
+                rtl_process.terminate()
+                rtl_process.wait(timeout=2)
+            except Exception:
+                try:
+                    rtl_process.kill()
+                except Exception:
+                    pass
+            # Release device on failure
+            if pager_active_device is not None:
+                app_module.release_sdr_device(pager_active_device)
+                pager_active_device = None
             return jsonify({'status': 'error', 'message': str(e)})
 
 
 @pager_bp.route('/stop', methods=['POST'])
 def stop_decoding() -> Response:
+    global pager_active_device
+
     with app_module.process_lock:
         if app_module.current_process:
+            # Signal audio relay thread to stop
+            if hasattr(app_module.current_process, '_stop_relay'):
+                app_module.current_process._stop_relay.set()
+
             # Kill rtl_fm process first
             if hasattr(app_module.current_process, '_rtl_process'):
                 try:
@@ -337,6 +484,12 @@ def stop_decoding() -> Response:
                 app_module.current_process.kill()
 
             app_module.current_process = None
+
+            # Release device from registry
+            if pager_active_device is not None:
+                app_module.release_sdr_device(pager_active_device)
+                pager_active_device = None
+
             return jsonify({'status': 'stopped'})
 
         return jsonify({'status': 'not_running'})
@@ -385,27 +538,22 @@ def toggle_logging() -> Response:
     return jsonify({'logging': app_module.logging_enabled, 'log_file': app_module.log_file_path})
 
 
-@pager_bp.route('/stream')
-def stream() -> Response:
-    import json
-
-    def generate() -> Generator[str, None, None]:
-        last_keepalive = time.time()
-        keepalive_interval = 30.0  # Send keepalive every 30 seconds instead of 1 second
-
-        while True:
-            try:
-                msg = app_module.output_queue.get(timeout=1)
-                last_keepalive = time.time()
-                yield format_sse(msg)
-            except queue.Empty:
-                now = time.time()
-                if now - last_keepalive >= keepalive_interval:
-                    yield format_sse({'type': 'keepalive'})
-                    last_keepalive = now
-
-    response = Response(generate(), mimetype='text/event-stream')
-    response.headers['Cache-Control'] = 'no-cache'
-    response.headers['X-Accel-Buffering'] = 'no'
-    response.headers['Connection'] = 'keep-alive'
-    return response
+@pager_bp.route('/stream')
+def stream() -> Response:
+    def _on_msg(msg: dict[str, Any]) -> None:
+        process_event('pager', msg, msg.get('type'))
+
+    response = Response(
+        sse_stream_fanout(
+            source_queue=app_module.output_queue,
+            channel_key='pager',
+            timeout=1.0,
+            keepalive_interval=30.0,
+            on_message=_on_msg,
+        ),
+        mimetype='text/event-stream',
+    )
+    response.headers['Cache-Control'] = 'no-cache'
+    response.headers['X-Accel-Buffering'] = 'no'
+    response.headers['Connection'] = 'keep-alive'
+    return response

routes/recordings.py

@@ -0,0 +1,166 @@
+"""Session recording API endpoints."""
+
+from __future__ import annotations
+
+import json
+from pathlib import Path
+
+from flask import Blueprint, jsonify, request, send_file
+
+from utils.recording import get_recording_manager, RECORDING_ROOT
+
+recordings_bp = Blueprint('recordings', __name__, url_prefix='/recordings')
+
+
+@recordings_bp.route('/start', methods=['POST'])
+def start_recording():
+    data = request.get_json() or {}
+    mode = (data.get('mode') or '').strip()
+    if not mode:
+        return jsonify({'status': 'error', 'message': 'mode is required'}), 400
+
+    label = data.get('label')
+    metadata = data.get('metadata') if isinstance(data.get('metadata'), dict) else {}
+
+    manager = get_recording_manager()
+    session = manager.start_recording(mode=mode, label=label, metadata=metadata)
+
+    return jsonify({
+        'status': 'success',
+        'session': {
+            'id': session.id,
+            'mode': session.mode,
+            'label': session.label,
+            'started_at': session.started_at.isoformat(),
+            'file_path': str(session.file_path),
+        }
+    })
+
+
+@recordings_bp.route('/stop', methods=['POST'])
+def stop_recording():
+    data = request.get_json() or {}
+    mode = data.get('mode')
+    session_id = data.get('id')
+
+    manager = get_recording_manager()
+    session = manager.stop_recording(mode=mode, session_id=session_id)
+    if not session:
+        return jsonify({'status': 'error', 'message': 'No active recording found'}), 404
+
+    return jsonify({
+        'status': 'success',
+        'session': {
+            'id': session.id,
+            'mode': session.mode,
+            'label': session.label,
+            'started_at': session.started_at.isoformat(),
+            'stopped_at': session.stopped_at.isoformat() if session.stopped_at else None,
+            'event_count': session.event_count,
+            'size_bytes': session.size_bytes,
+            'file_path': str(session.file_path),
+        }
+    })
+
+
+@recordings_bp.route('', methods=['GET'])
+def list_recordings():
+    manager = get_recording_manager()
+    limit = request.args.get('limit', default=50, type=int)
+    return jsonify({
+        'status': 'success',
+        'recordings': manager.list_recordings(limit=limit),
+        'active': manager.get_active(),
+    })
+
+
+@recordings_bp.route('/<session_id>', methods=['GET'])
+def get_recording(session_id: str):
+    manager = get_recording_manager()
+    rec = manager.get_recording(session_id)
+    if not rec:
+        return jsonify({'status': 'error', 'message': 'Recording not found'}), 404
+    return jsonify({'status': 'success', 'recording': rec})
+
+
+@recordings_bp.route('/<session_id>/download', methods=['GET'])
+def download_recording(session_id: str):
+    manager = get_recording_manager()
+    rec = manager.get_recording(session_id)
+    if not rec:
+        return jsonify({'status': 'error', 'message': 'Recording not found'}), 404
+
+    file_path = Path(rec['file_path'])
+    try:
+        resolved_root = RECORDING_ROOT.resolve()
+        resolved_file = file_path.resolve()
+        if resolved_root not in resolved_file.parents:
+            return jsonify({'status': 'error', 'message': 'Invalid recording path'}), 400
+    except Exception:
+        return jsonify({'status': 'error', 'message': 'Invalid recording path'}), 400
+
+    if not file_path.exists():
+        return jsonify({'status': 'error', 'message': 'Recording file missing'}), 404
+
+    return send_file(
+        file_path,
+        mimetype='application/x-ndjson',
+        as_attachment=True,
+        download_name=file_path.name,
+    )
+
+
+@recordings_bp.route('/<session_id>/events', methods=['GET'])
+def get_recording_events(session_id: str):
+    """Return parsed events from a recording for in-app replay."""
+    manager = get_recording_manager()
+    rec = manager.get_recording(session_id)
+    if not rec:
+        return jsonify({'status': 'error', 'message': 'Recording not found'}), 404
+
+    file_path = Path(rec['file_path'])
+    try:
+        resolved_root = RECORDING_ROOT.resolve()
+        resolved_file = file_path.resolve()
+        if resolved_root not in resolved_file.parents:
+            return jsonify({'status': 'error', 'message': 'Invalid recording path'}), 400
+    except Exception:
+        return jsonify({'status': 'error', 'message': 'Invalid recording path'}), 400
+
+    if not file_path.exists():
+        return jsonify({'status': 'error', 'message': 'Recording file missing'}), 404
+
+    limit = max(1, min(5000, request.args.get('limit', default=500, type=int)))
+    offset = max(0, request.args.get('offset', default=0, type=int))
+
+    events: list[dict] = []
+    seen = 0
+    with file_path.open('r', encoding='utf-8', errors='replace') as fh:
+        for idx, line in enumerate(fh):
+            if idx < offset:
+                continue
+            if seen >= limit:
+                break
+            line = line.strip()
+            if not line:
+                continue
+            try:
+                events.append(json.loads(line))
+                seen += 1
+            except json.JSONDecodeError:
+                continue
+
+    return jsonify({
+        'status': 'success',
+        'recording': {
+            'id': rec['id'],
+            'mode': rec['mode'],
+            'started_at': rec['started_at'],
+            'stopped_at': rec['stopped_at'],
+            'event_count': rec['event_count'],
+        },
+        'offset': offset,
+        'limit': limit,
+        'returned': len(events),
+        'events': events,
+    })

routes/rtlamr.py

@@ -17,8 +17,9 @@ from utils.logging import sensor_logger as logger
 from utils.validation import (
     validate_frequency, validate_device_index, validate_gain, validate_ppm
 )
-from utils.sse import format_sse
-from utils.process import safe_terminate, register_process
+from utils.sse import sse_stream_fanout
+from utils.event_pipeline import process_event
+from utils.process import safe_terminate, register_process, unregister_process
 
 rtlamr_bp = Blueprint('rtlamr', __name__)
 
@@ -26,6 +27,9 @@ rtlamr_bp = Blueprint('rtlamr', __name__)
 rtl_tcp_process = None
 rtl_tcp_lock = threading.Lock()
 
+# Track which device is being used
+rtlamr_active_device: int | None = None
+
 
 def stream_rtlamr_output(process: subprocess.Popen[bytes]) -> None:
     """Stream rtlamr JSON output to queue."""
@@ -58,15 +62,42 @@ def stream_rtlamr_output(process: subprocess.Popen[bytes]) -> None:
     except Exception as e:
         app_module.rtlamr_queue.put({'type': 'error', 'text': str(e)})
     finally:
-        process.wait()
+        global rtl_tcp_process, rtlamr_active_device
+        # Ensure rtlamr process is terminated
+        try:
+            process.terminate()
+            process.wait(timeout=2)
+        except Exception:
+            try:
+                process.kill()
+            except Exception:
+                pass
+        unregister_process(process)
+        # Kill companion rtl_tcp process
+        with rtl_tcp_lock:
+            if rtl_tcp_process:
+                try:
+                    rtl_tcp_process.terminate()
+                    rtl_tcp_process.wait(timeout=2)
+                except Exception:
+                    try:
+                        rtl_tcp_process.kill()
+                    except Exception:
+                        pass
+                unregister_process(rtl_tcp_process)
+                rtl_tcp_process = None
         app_module.rtlamr_queue.put({'type': 'status', 'text': 'stopped'})
         with app_module.rtlamr_lock:
             app_module.rtlamr_process = None
+        # Release SDR device
+        if rtlamr_active_device is not None:
+            app_module.release_sdr_device(rtlamr_active_device)
+            rtlamr_active_device = None
 
 
 @rtlamr_bp.route('/start_rtlamr', methods=['POST'])
 def start_rtlamr() -> Response:
-    global rtl_tcp_process
+    global rtl_tcp_process, rtlamr_active_device
 
     with app_module.rtlamr_lock:
         if app_module.rtlamr_process:
@@ -83,6 +114,18 @@ def start_rtlamr() -> Response:
         except ValueError as e:
             return jsonify({'status': 'error', 'message': str(e)}), 400
 
+        # Check if device is available
+        device_int = int(device)
+        error = app_module.claim_sdr_device(device_int, 'rtlamr')
+        if error:
+            return jsonify({
+                'status': 'error',
+                'error_type': 'DEVICE_BUSY',
+                'message': error
+            }), 409
+
+        rtlamr_active_device = device_int
+
         # Clear queue
         while not app_module.rtlamr_queue.empty():
             try:
@@ -118,7 +161,8 @@ def start_rtlamr() -> Response:
                         stdout=subprocess.PIPE,
                         stderr=subprocess.PIPE
                     )
-                    
+                    register_process(rtl_tcp_process)
+
                     # Wait a moment for rtl_tcp to start
                     time.sleep(3)
                     
@@ -126,6 +170,10 @@ def start_rtlamr() -> Response:
                     app_module.rtlamr_queue.put({'type': 'info', 'text': f'rtl_tcp: {" ".join(rtl_tcp_cmd)}'})
                 except Exception as e:
                     logger.error(f"Failed to start rtl_tcp: {e}")
+                    # Release SDR device on rtl_tcp failure
+                    if rtlamr_active_device is not None:
+                        app_module.release_sdr_device(rtlamr_active_device)
+                        rtlamr_active_device = None
                     return jsonify({'status': 'error', 'message': f'Failed to start rtl_tcp: {e}'}), 500
 
         # Build rtlamr command
@@ -159,6 +207,7 @@ def start_rtlamr() -> Response:
                 stdout=subprocess.PIPE,
                 stderr=subprocess.PIPE
             )
+            register_process(app_module.rtlamr_process)
 
             # Start output thread
             thread = threading.Thread(target=stream_rtlamr_output, args=(app_module.rtlamr_process,))
@@ -182,27 +231,33 @@ def start_rtlamr() -> Response:
             return jsonify({'status': 'started', 'command': full_cmd})
 
         except FileNotFoundError:
-            # If rtlamr fails, clean up rtl_tcp
+            # If rtlamr fails, clean up rtl_tcp and release device
             with rtl_tcp_lock:
                 if rtl_tcp_process:
                     rtl_tcp_process.terminate()
                     rtl_tcp_process.wait(timeout=2)
                     rtl_tcp_process = None
+            if rtlamr_active_device is not None:
+                app_module.release_sdr_device(rtlamr_active_device)
+                rtlamr_active_device = None
             return jsonify({'status': 'error', 'message': 'rtlamr not found. Install from https://github.com/bemasher/rtlamr'})
         except Exception as e:
-            # If rtlamr fails, clean up rtl_tcp
+            # If rtlamr fails, clean up rtl_tcp and release device
             with rtl_tcp_lock:
                 if rtl_tcp_process:
                     rtl_tcp_process.terminate()
                     rtl_tcp_process.wait(timeout=2)
                     rtl_tcp_process = None
+            if rtlamr_active_device is not None:
+                app_module.release_sdr_device(rtlamr_active_device)
+                rtlamr_active_device = None
             return jsonify({'status': 'error', 'message': str(e)})
 
 
 @rtlamr_bp.route('/stop_rtlamr', methods=['POST'])
 def stop_rtlamr() -> Response:
-    global rtl_tcp_process
-    
+    global rtl_tcp_process, rtlamr_active_device
+
     with app_module.rtlamr_lock:
         if app_module.rtlamr_process:
             app_module.rtlamr_process.terminate()
@@ -211,7 +266,7 @@ def stop_rtlamr() -> Response:
             except subprocess.TimeoutExpired:
                 app_module.rtlamr_process.kill()
             app_module.rtlamr_process = None
-    
+
     # Also stop rtl_tcp
     with rtl_tcp_lock:
         if rtl_tcp_process:
@@ -222,28 +277,30 @@ def stop_rtlamr() -> Response:
                 rtl_tcp_process.kill()
             rtl_tcp_process = None
             logger.info("rtl_tcp stopped")
-    
+
+    # Release device from registry
+    if rtlamr_active_device is not None:
+        app_module.release_sdr_device(rtlamr_active_device)
+        rtlamr_active_device = None
+
     return jsonify({'status': 'stopped'})
 
 
 @rtlamr_bp.route('/stream_rtlamr')
 def stream_rtlamr() -> Response:
-    def generate() -> Generator[str, None, None]:
-        last_keepalive = time.time()
-        keepalive_interval = 30.0
+    def _on_msg(msg: dict[str, Any]) -> None:
+        process_event('rtlamr', msg, msg.get('type'))
 
-        while True:
-            try:
-                msg = app_module.rtlamr_queue.get(timeout=1)
-                last_keepalive = time.time()
-                yield format_sse(msg)
-            except queue.Empty:
-                now = time.time()
-                if now - last_keepalive >= keepalive_interval:
-                    yield format_sse({'type': 'keepalive'})
-                    last_keepalive = now
-
-    response = Response(generate(), mimetype='text/event-stream')
+    response = Response(
+        sse_stream_fanout(
+            source_queue=app_module.rtlamr_queue,
+            channel_key='rtlamr',
+            timeout=1.0,
+            keepalive_interval=30.0,
+            on_message=_on_msg,
+        ),
+        mimetype='text/event-stream',
+    )
     response.headers['Cache-Control'] = 'no-cache'
     response.headers['X-Accel-Buffering'] = 'no'
     response.headers['Connection'] = 'keep-alive'

routes/satellite.py

@@ -3,14 +3,26 @@
 from __future__ import annotations
 
 import json
+import math
 import urllib.request
 from datetime import datetime, timedelta
-from typing import Any
+from typing import Any, Optional
 from urllib.parse import urlparse
 
+import requests
+
 from flask import Blueprint, jsonify, request, render_template, Response
 
+from config import SHARED_OBSERVER_LOCATION_ENABLED
+
 from data.satellites import TLE_SATELLITES
+from utils.database import (
+    get_tracked_satellites,
+    add_tracked_satellite,
+    bulk_add_tracked_satellites,
+    update_tracked_satellite,
+    remove_tracked_satellite,
+)
 from utils.logging import satellite_logger as logger
 from utils.validation import validate_latitude, validate_longitude, validate_hours, validate_elevation
 
@@ -26,10 +38,138 @@ ALLOWED_TLE_HOSTS = ['celestrak.org', 'celestrak.com', 'www.celestrak.org', 'www
 _tle_cache = dict(TLE_SATELLITES)
 
 
+def _load_db_satellites_into_cache():
+    """Load user-tracked satellites from DB into the TLE cache."""
+    global _tle_cache
+    try:
+        db_sats = get_tracked_satellites()
+        loaded = 0
+        for sat in db_sats:
+            if sat['tle_line1'] and sat['tle_line2']:
+                # Use a cache key derived from name (sanitised)
+                cache_key = sat['name'].replace(' ', '-').upper()
+                if cache_key not in _tle_cache:
+                    _tle_cache[cache_key] = (sat['name'], sat['tle_line1'], sat['tle_line2'])
+                    loaded += 1
+        if loaded:
+            logger.info(f"Loaded {loaded} user-tracked satellites into TLE cache")
+    except Exception as e:
+        logger.warning(f"Failed to load DB satellites into TLE cache: {e}")
+
+
+def init_tle_auto_refresh():
+    """Initialize TLE auto-refresh. Called by app.py after initialization."""
+    import threading
+
+    def _auto_refresh_tle():
+        try:
+            _load_db_satellites_into_cache()
+            updated = refresh_tle_data()
+            if updated:
+                logger.info(f"Auto-refreshed TLE data for: {', '.join(updated)}")
+        except Exception as e:
+            logger.warning(f"Auto TLE refresh failed: {e}")
+
+    # Start auto-refresh in background
+    threading.Timer(2.0, _auto_refresh_tle).start()
+    logger.info("TLE auto-refresh scheduled")
+
+
+def _fetch_iss_realtime(observer_lat: Optional[float] = None, observer_lon: Optional[float] = None) -> Optional[dict]:
+    """
+    Fetch real-time ISS position from external APIs.
+
+    Returns position data dict or None if all APIs fail.
+    """
+    iss_lat = None
+    iss_lon = None
+    iss_alt = 420  # Default altitude in km
+    source = None
+
+    # Try primary API: Where The ISS At
+    try:
+        response = requests.get('https://api.wheretheiss.at/v1/satellites/25544', timeout=5)
+        if response.status_code == 200:
+            data = response.json()
+            iss_lat = float(data['latitude'])
+            iss_lon = float(data['longitude'])
+            iss_alt = float(data.get('altitude', 420))
+            source = 'wheretheiss'
+    except Exception as e:
+        logger.debug(f"Where The ISS At API failed: {e}")
+
+    # Try fallback API: Open Notify
+    if iss_lat is None:
+        try:
+            response = requests.get('http://api.open-notify.org/iss-now.json', timeout=5)
+            if response.status_code == 200:
+                data = response.json()
+                if data.get('message') == 'success':
+                    iss_lat = float(data['iss_position']['latitude'])
+                    iss_lon = float(data['iss_position']['longitude'])
+                    source = 'open-notify'
+        except Exception as e:
+            logger.debug(f"Open Notify API failed: {e}")
+
+    if iss_lat is None:
+        return None
+
+    result = {
+        'satellite': 'ISS',
+        'lat': iss_lat,
+        'lon': iss_lon,
+        'altitude': iss_alt,
+        'source': source
+    }
+
+    # Calculate observer-relative data if location provided
+    if observer_lat is not None and observer_lon is not None:
+        # Earth radius in km
+        earth_radius = 6371
+
+        # Convert to radians
+        lat1 = math.radians(observer_lat)
+        lat2 = math.radians(iss_lat)
+        lon1 = math.radians(observer_lon)
+        lon2 = math.radians(iss_lon)
+
+        # Haversine for ground distance
+        dlat = lat2 - lat1
+        dlon = lon2 - lon1
+        a = math.sin(dlat/2)**2 + math.cos(lat1) * math.cos(lat2) * math.sin(dlon/2)**2
+        c = 2 * math.asin(math.sqrt(a))
+        ground_distance = earth_radius * c
+
+        # Calculate slant range
+        slant_range = math.sqrt(ground_distance**2 + iss_alt**2)
+
+        # Calculate elevation angle (simplified)
+        if ground_distance > 0:
+            elevation = math.degrees(math.atan2(iss_alt - (ground_distance**2 / (2 * earth_radius)), ground_distance))
+        else:
+            elevation = 90.0
+
+        # Calculate azimuth
+        y = math.sin(dlon) * math.cos(lat2)
+        x = math.cos(lat1) * math.sin(lat2) - math.sin(lat1) * math.cos(lat2) * math.cos(dlon)
+        azimuth = math.degrees(math.atan2(y, x))
+        azimuth = (azimuth + 360) % 360
+
+        result['elevation'] = round(elevation, 1)
+        result['azimuth'] = round(azimuth, 1)
+        result['distance'] = round(slant_range, 1)
+        result['visible'] = elevation > 0
+
+    return result
+
+
 @satellite_bp.route('/dashboard')
 def satellite_dashboard():
     """Popout satellite tracking dashboard."""
-    return render_template('satellite_dashboard.html')
+    return render_template(
+        'satellite_dashboard.html',
+        shared_observer_location=SHARED_OBSERVER_LOCATION_ENABLED,
+    )
 
 
 @satellite_bp.route('/predict', methods=['POST'])
@@ -57,15 +197,11 @@ def predict_passes():
 
     norad_to_name = {
         25544: 'ISS',
-        25338: 'NOAA-15',
-        28654: 'NOAA-18',
-        33591: 'NOAA-19',
-        43013: 'NOAA-20',
         40069: 'METEOR-M2',
         57166: 'METEOR-M2-3'
     }
 
-    sat_input = data.get('satellites', ['ISS', 'NOAA-15', 'NOAA-18', 'NOAA-19'])
+    sat_input = data.get('satellites', ['ISS', 'METEOR-M2', 'METEOR-M2-3'])
     satellites = []
     for sat in sat_input:
         if isinstance(sat, int) and sat in norad_to_name:
@@ -76,10 +212,6 @@ def predict_passes():
     passes = []
     colors = {
         'ISS': '#00ffff',
-        'NOAA-15': '#00ff00',
-        'NOAA-18': '#ff6600',
-        'NOAA-19': '#ff3366',
-        'NOAA-20': '#00ffaa',
         'METEOR-M2': '#9370DB',
         'METEOR-M2-3': '#ff00ff'
     }
@@ -216,10 +348,6 @@ def get_satellite_position():
 
     norad_to_name = {
         25544: 'ISS',
-        25338: 'NOAA-15',
-        28654: 'NOAA-18',
-        33591: 'NOAA-19',
-        43013: 'NOAA-20',
         40069: 'METEOR-M2',
         57166: 'METEOR-M2-3'
     }
@@ -239,6 +367,35 @@ def get_satellite_position():
     positions = []
 
     for sat_name in satellites:
+        # Special handling for ISS - use real-time API for accurate position
+        if sat_name == 'ISS':
+            iss_data = _fetch_iss_realtime(lat, lon)
+            if iss_data:
+                # Add orbit track if requested (using TLE for track prediction)
+                if include_track and 'ISS' in _tle_cache:
+                    try:
+                        tle_data = _tle_cache['ISS']
+                        satellite = EarthSatellite(tle_data[1], tle_data[2], tle_data[0], ts)
+                        orbit_track = []
+                        for minutes_offset in range(-45, 46, 1):
+                            t_point = ts.utc(now_dt + timedelta(minutes=minutes_offset))
+                            try:
+                                geo = satellite.at(t_point)
+                                sp = wgs84.subpoint(geo)
+                                orbit_track.append({
+                                    'lat': float(sp.latitude.degrees),
+                                    'lon': float(sp.longitude.degrees),
+                                    'past': minutes_offset < 0
+                                })
+                            except Exception:
+                                continue
+                        iss_data['track'] = orbit_track
+                    except Exception:
+                        pass
+                positions.append(iss_data)
+            continue
+
+        # Other satellites - use TLE data
         if sat_name not in _tle_cache:
             continue
 
@@ -292,58 +449,72 @@ def get_satellite_position():
     })
 
 
-@satellite_bp.route('/update-tle', methods=['POST'])
-def update_tle():
-    """Update TLE data from CelesTrak."""
+def refresh_tle_data() -> list:
+    """
+    Refresh TLE data from CelesTrak.
+
+    This can be called at startup or periodically to keep TLE data fresh.
+    Returns list of satellite names that were updated.
+    """
     global _tle_cache
 
-    try:
-        name_mappings = {
-            'ISS (ZARYA)': 'ISS',
-            'NOAA 15': 'NOAA-15',
-            'NOAA 18': 'NOAA-18',
-            'NOAA 19': 'NOAA-19',
-            'METEOR-M 2': 'METEOR-M2',
-            'METEOR-M2 3': 'METEOR-M2-3'
-        }
+    name_mappings = {
+        'ISS (ZARYA)': 'ISS',
+        'NOAA 15': 'NOAA-15',
+        'NOAA 18': 'NOAA-18',
+        'NOAA 19': 'NOAA-19',
+        'NOAA 20 (JPSS-1)': 'NOAA-20',
+        'NOAA 21 (JPSS-2)': 'NOAA-21',
+        'METEOR-M 2': 'METEOR-M2',
+        'METEOR-M2 3': 'METEOR-M2-3'
+    }
 
-        updated = []
+    updated = []
 
-        for group in ['stations', 'weather']:
-            url = f'https://celestrak.org/NORAD/elements/gp.php?GROUP={group}&FORMAT=tle'
-            try:
-                with urllib.request.urlopen(url, timeout=10) as response:
-                    content = response.read().decode('utf-8')
-                    lines = content.strip().split('\n')
+    for group in ['stations', 'weather', 'noaa']:
+        url = f'https://celestrak.org/NORAD/elements/gp.php?GROUP={group}&FORMAT=tle'
+        try:
+            with urllib.request.urlopen(url, timeout=15) as response:
+                content = response.read().decode('utf-8')
+                lines = content.strip().split('\n')
 
-                    i = 0
-                    while i + 2 < len(lines):
-                        name = lines[i].strip()
-                        line1 = lines[i + 1].strip()
-                        line2 = lines[i + 2].strip()
+                i = 0
+                while i + 2 < len(lines):
+                    name = lines[i].strip()
+                    line1 = lines[i + 1].strip()
+                    line2 = lines[i + 2].strip()
 
-                        if not (line1.startswith('1 ') and line2.startswith('2 ')):
-                            i += 1
-                            continue
+                    if not (line1.startswith('1 ') and line2.startswith('2 ')):
+                        i += 1
+                        continue
 
-                        internal_name = name_mappings.get(name, name)
+                    internal_name = name_mappings.get(name, name)
 
-                        if internal_name in _tle_cache:
-                            _tle_cache[internal_name] = (name, line1, line2)
+                    if internal_name in _tle_cache:
+                        _tle_cache[internal_name] = (name, line1, line2)
+                        if internal_name not in updated:
                             updated.append(internal_name)
 
-                        i += 3
-            except Exception as e:
-                logger.error(f"Error fetching {group}: {e}")
-                continue
+                    i += 3
+        except Exception as e:
+            logger.warning(f"Error fetching TLE group {group}: {e}")
+            continue
 
+    return updated
+
+
+@satellite_bp.route('/update-tle', methods=['POST'])
+def update_tle():
+    """Update TLE data from CelesTrak (API endpoint)."""
+    try:
+        updated = refresh_tle_data()
         return jsonify({
             'status': 'success',
             'updated': updated
         })
-
     except Exception as e:
-        return jsonify({'status': 'error', 'message': str(e)})
+        logger.error(f"Error updating TLE data: {e}")
+        return jsonify({'status': 'error', 'message': 'TLE update failed'})
 
 
 @satellite_bp.route('/celestrak/<category>')
@@ -397,4 +568,77 @@ def fetch_celestrak(category):
         })
 
     except Exception as e:
-        return jsonify({'status': 'error', 'message': str(e)})
+        logger.error(f"Error fetching CelesTrak data: {e}")
+        return jsonify({'status': 'error', 'message': 'Failed to fetch satellite data'})
+
+
+# =============================================================================
+# Tracked Satellites CRUD
+# =============================================================================
+
+@satellite_bp.route('/tracked', methods=['GET'])
+def list_tracked_satellites():
+    """Return all tracked satellites from the database."""
+    enabled_only = request.args.get('enabled', '').lower() == 'true'
+    sats = get_tracked_satellites(enabled_only=enabled_only)
+    return jsonify({'status': 'success', 'satellites': sats})
+
+
+@satellite_bp.route('/tracked', methods=['POST'])
+def add_tracked_satellites_endpoint():
+    """Add one or more tracked satellites."""
+    global _tle_cache
+    data = request.json
+    if not data:
+        return jsonify({'status': 'error', 'message': 'No data provided'}), 400
+
+    # Accept a single satellite dict or a list
+    sat_list = data if isinstance(data, list) else [data]
+
+    added = 0
+    for sat in sat_list:
+        norad_id = str(sat.get('norad_id', sat.get('norad', '')))
+        name = sat.get('name', '')
+        if not norad_id or not name:
+            continue
+        tle1 = sat.get('tle_line1', sat.get('tle1'))
+        tle2 = sat.get('tle_line2', sat.get('tle2'))
+        enabled = sat.get('enabled', True)
+
+        if add_tracked_satellite(norad_id, name, tle1, tle2, enabled):
+            added += 1
+
+        # Also inject into TLE cache if we have TLE data
+        if tle1 and tle2:
+            cache_key = name.replace(' ', '-').upper()
+            _tle_cache[cache_key] = (name, tle1, tle2)
+
+    return jsonify({
+        'status': 'success',
+        'added': added,
+        'satellites': get_tracked_satellites(),
+    })
+
+
+@satellite_bp.route('/tracked/<norad_id>', methods=['PUT'])
+def update_tracked_satellite_endpoint(norad_id):
+    """Update the enabled state of a tracked satellite."""
+    data = request.json or {}
+    enabled = data.get('enabled')
+    if enabled is None:
+        return jsonify({'status': 'error', 'message': 'Missing enabled field'}), 400
+
+    ok = update_tracked_satellite(str(norad_id), bool(enabled))
+    if ok:
+        return jsonify({'status': 'success'})
+    return jsonify({'status': 'error', 'message': 'Satellite not found'}), 404
+
+
+@satellite_bp.route('/tracked/<norad_id>', methods=['DELETE'])
+def delete_tracked_satellite_endpoint(norad_id):
+    """Remove a tracked satellite by NORAD ID."""
+    ok, msg = remove_tracked_satellite(str(norad_id))
+    if ok:
+        return jsonify({'status': 'success', 'message': msg})
+    status_code = 403 if 'builtin' in msg.lower() else 404
+    return jsonify({'status': 'error', 'message': msg}), status_code

routes/sensor.py

@@ -18,12 +18,20 @@ from utils.validation import (
     validate_frequency, validate_device_index, validate_gain, validate_ppm,
     validate_rtl_tcp_host, validate_rtl_tcp_port
 )
-from utils.sse import format_sse
-from utils.process import safe_terminate, register_process
+from utils.sse import sse_stream_fanout
+from utils.event_pipeline import process_event
+from utils.process import safe_terminate, register_process, unregister_process
 from utils.sdr import SDRFactory, SDRType
 
 sensor_bp = Blueprint('sensor', __name__)
 
+# Track which device is being used
+sensor_active_device: int | None = None
+
+# RSSI history per device (model_id -> list of (timestamp, rssi))
+sensor_rssi_history: dict[str, list[tuple[float, float]]] = {}
+_MAX_RSSI_HISTORY = 60
+
 
 def stream_sensor_output(process: subprocess.Popen[bytes]) -> None:
     """Stream rtl_433 JSON output to queue."""
@@ -41,6 +49,32 @@ def stream_sensor_output(process: subprocess.Popen[bytes]) -> None:
                 data['type'] = 'sensor'
                 app_module.sensor_queue.put(data)
 
+                # Track RSSI history per device
+                _model = data.get('model', '')
+                _dev_id = data.get('id', '')
+                _rssi_val = data.get('rssi')
+                if _rssi_val is not None and _model:
+                    _hist_key = f"{_model}_{_dev_id}"
+                    hist = sensor_rssi_history.setdefault(_hist_key, [])
+                    hist.append((time.time(), float(_rssi_val)))
+                    if len(hist) > _MAX_RSSI_HISTORY:
+                        del hist[: len(hist) - _MAX_RSSI_HISTORY]
+
+                # Push scope event when signal level data is present
+                rssi = data.get('rssi')
+                snr = data.get('snr')
+                noise = data.get('noise')
+                if rssi is not None or snr is not None:
+                    try:
+                        app_module.sensor_queue.put_nowait({
+                            'type': 'scope',
+                            'rssi': rssi if rssi is not None else 0,
+                            'snr': snr if snr is not None else 0,
+                            'noise': noise if noise is not None else 0,
+                        })
+                    except queue.Full:
+                        pass
+
                 # Log if enabled
                 if app_module.logging_enabled:
                     try:
@@ -56,14 +90,38 @@ def stream_sensor_output(process: subprocess.Popen[bytes]) -> None:
     except Exception as e:
         app_module.sensor_queue.put({'type': 'error', 'text': str(e)})
     finally:
-        process.wait()
+        global sensor_active_device
+        # Ensure process is terminated
+        try:
+            process.terminate()
+            process.wait(timeout=2)
+        except Exception:
+            try:
+                process.kill()
+            except Exception:
+                pass
+        unregister_process(process)
         app_module.sensor_queue.put({'type': 'status', 'text': 'stopped'})
         with app_module.sensor_lock:
             app_module.sensor_process = None
+        # Release SDR device
+        if sensor_active_device is not None:
+            app_module.release_sdr_device(sensor_active_device)
+            sensor_active_device = None
+
+
+@sensor_bp.route('/sensor/status')
+def sensor_status() -> Response:
+    """Check if sensor decoder is currently running."""
+    with app_module.sensor_lock:
+        running = app_module.sensor_process is not None and app_module.sensor_process.poll() is None
+    return jsonify({'running': running})
 
 
 @sensor_bp.route('/start_sensor', methods=['POST'])
 def start_sensor() -> Response:
+    global sensor_active_device
+
     with app_module.sensor_lock:
         if app_module.sensor_process:
             return jsonify({'status': 'error', 'message': 'Sensor already running'}), 409
@@ -79,6 +137,22 @@ def start_sensor() -> Response:
         except ValueError as e:
             return jsonify({'status': 'error', 'message': str(e)}), 400
 
+        # Check for rtl_tcp (remote SDR) connection
+        rtl_tcp_host = data.get('rtl_tcp_host')
+        rtl_tcp_port = data.get('rtl_tcp_port', 1234)
+
+        # Claim local device if not using remote rtl_tcp
+        if not rtl_tcp_host:
+            device_int = int(device)
+            error = app_module.claim_sdr_device(device_int, 'sensor')
+            if error:
+                return jsonify({
+                    'status': 'error',
+                    'error_type': 'DEVICE_BUSY',
+                    'message': error
+                }), 409
+            sensor_active_device = device_int
+
         # Clear queue
         while not app_module.sensor_queue.empty():
             try:
@@ -93,10 +167,6 @@ def start_sensor() -> Response:
         except ValueError:
             sdr_type = SDRType.RTL_SDR
 
-        # Check for rtl_tcp (remote SDR) connection
-        rtl_tcp_host = data.get('rtl_tcp_host')
-        rtl_tcp_port = data.get('rtl_tcp_port', 1234)
-
         if rtl_tcp_host:
             # Validate and create network device
             try:
@@ -126,12 +196,17 @@ def start_sensor() -> Response:
         full_cmd = ' '.join(cmd)
         logger.info(f"Running: {full_cmd}")
 
+        # Add signal level metadata so the frontend scope can display RSSI/SNR
+        # Disable stats reporting to suppress "row count limit 50 reached" warnings
+        cmd.extend(['-M', 'level', '-M', 'stats:0'])
+
         try:
             app_module.sensor_process = subprocess.Popen(
                 cmd,
                 stdout=subprocess.PIPE,
                 stderr=subprocess.PIPE
             )
+            register_process(app_module.sensor_process)
 
             # Start output thread
             thread = threading.Thread(target=stream_sensor_output, args=(app_module.sensor_process,))
@@ -139,10 +214,16 @@ def start_sensor() -> Response:
             thread.start()
 
             # Monitor stderr
+            # Filter noisy rtl_433 diagnostics that aren't useful to display
+            _stderr_noise = (
+                'bitbuffer_add_bit',
+                'row count limit',
+            )
+
             def monitor_stderr():
                 for line in app_module.sensor_process.stderr:
                     err = line.decode('utf-8', errors='replace').strip()
-                    if err:
+                    if err and not any(noise in err for noise in _stderr_noise):
                         logger.debug(f"[rtl_433] {err}")
                         app_module.sensor_queue.put({'type': 'info', 'text': f'[rtl_433] {err}'})
 
@@ -155,13 +236,23 @@ def start_sensor() -> Response:
             return jsonify({'status': 'started', 'command': full_cmd})
 
         except FileNotFoundError:
+            # Release device on failure
+            if sensor_active_device is not None:
+                app_module.release_sdr_device(sensor_active_device)
+                sensor_active_device = None
             return jsonify({'status': 'error', 'message': 'rtl_433 not found. Install with: brew install rtl_433'})
         except Exception as e:
+            # Release device on failure
+            if sensor_active_device is not None:
+                app_module.release_sdr_device(sensor_active_device)
+                sensor_active_device = None
             return jsonify({'status': 'error', 'message': str(e)})
 
 
 @sensor_bp.route('/stop_sensor', methods=['POST'])
 def stop_sensor() -> Response:
+    global sensor_active_device
+
     with app_module.sensor_lock:
         if app_module.sensor_process:
             app_module.sensor_process.terminate()
@@ -170,30 +261,42 @@ def stop_sensor() -> Response:
             except subprocess.TimeoutExpired:
                 app_module.sensor_process.kill()
             app_module.sensor_process = None
+
+            # Release device from registry
+            if sensor_active_device is not None:
+                app_module.release_sdr_device(sensor_active_device)
+                sensor_active_device = None
+
             return jsonify({'status': 'stopped'})
 
         return jsonify({'status': 'not_running'})
 
 
-@sensor_bp.route('/stream_sensor')
-def stream_sensor() -> Response:
-    def generate() -> Generator[str, None, None]:
-        last_keepalive = time.time()
-        keepalive_interval = 30.0
+@sensor_bp.route('/stream_sensor')
+def stream_sensor() -> Response:
+    def _on_msg(msg: dict[str, Any]) -> None:
+        process_event('sensor', msg, msg.get('type'))
+
+    response = Response(
+        sse_stream_fanout(
+            source_queue=app_module.sensor_queue,
+            channel_key='sensor',
+            timeout=1.0,
+            keepalive_interval=30.0,
+            on_message=_on_msg,
+        ),
+        mimetype='text/event-stream',
+    )
+    response.headers['Cache-Control'] = 'no-cache'
+    response.headers['X-Accel-Buffering'] = 'no'
+    response.headers['Connection'] = 'keep-alive'
+    return response
 
-        while True:
-            try:
-                msg = app_module.sensor_queue.get(timeout=1)
-                last_keepalive = time.time()
-                yield format_sse(msg)
-            except queue.Empty:
-                now = time.time()
-                if now - last_keepalive >= keepalive_interval:
-                    yield format_sse({'type': 'keepalive'})
-                    last_keepalive = now
 
-    response = Response(generate(), mimetype='text/event-stream')
-    response.headers['Cache-Control'] = 'no-cache'
-    response.headers['X-Accel-Buffering'] = 'no'
-    response.headers['Connection'] = 'keep-alive'
-    return response
+@sensor_bp.route('/sensor/rssi_history')
+def get_rssi_history() -> Response:
+    """Return RSSI history for all tracked sensor devices."""
+    result = {}
+    for key, entries in sensor_rssi_history.items():
+        result[key] = [{'t': round(t, 1), 'rssi': rssi} for t, rssi in entries]
+    return jsonify({'status': 'success', 'devices': result})

routes/space_weather.py

@@ -0,0 +1,300 @@
+"""Space Weather routes - proxies NOAA SWPC, NASA SDO, and HamQSL data."""
+
+from __future__ import annotations
+
+import json
+import time
+import urllib.error
+import urllib.request
+import xml.etree.ElementTree as ET
+from typing import Any
+
+from flask import Blueprint, Response, jsonify
+
+from utils.logging import get_logger
+
+logger = get_logger('intercept.space_weather')
+
+space_weather_bp = Blueprint('space_weather', __name__, url_prefix='/space-weather')
+
+# ---------------------------------------------------------------------------
+# TTL Cache
+# ---------------------------------------------------------------------------
+
+_cache: dict[str, dict[str, Any]] = {}
+
+# Cache TTLs in seconds
+TTL_REALTIME = 300       # 5 min for real-time data
+TTL_FORECAST = 1800      # 30 min for forecasts
+TTL_DAILY = 3600         # 1 hr for daily summaries
+TTL_IMAGE = 600          # 10 min for images
+
+
+def _cache_get(key: str) -> Any | None:
+    entry = _cache.get(key)
+    if entry and time.time() < entry['expires']:
+        return entry['data']
+    return None
+
+
+def _cache_set(key: str, data: Any, ttl: int) -> None:
+    _cache[key] = {'data': data, 'expires': time.time() + ttl}
+
+
+# ---------------------------------------------------------------------------
+# HTTP helpers
+# ---------------------------------------------------------------------------
+
+_TIMEOUT = 15  # seconds
+
+SWPC_BASE = 'https://services.swpc.noaa.gov'
+SWPC_JSON = f'{SWPC_BASE}/products'
+
+
+def _fetch_json(url: str, timeout: int = _TIMEOUT) -> Any | None:
+    try:
+        req = urllib.request.Request(url, headers={'User-Agent': 'INTERCEPT/1.0'})
+        with urllib.request.urlopen(req, timeout=timeout) as resp:
+            return json.loads(resp.read().decode())
+    except Exception as exc:
+        logger.warning('Failed to fetch %s: %s', url, exc)
+        return None
+
+
+def _fetch_text(url: str, timeout: int = _TIMEOUT) -> str | None:
+    try:
+        req = urllib.request.Request(url, headers={'User-Agent': 'INTERCEPT/1.0'})
+        with urllib.request.urlopen(req, timeout=timeout) as resp:
+            return resp.read().decode()
+    except Exception as exc:
+        logger.warning('Failed to fetch %s: %s', url, exc)
+        return None
+
+
+def _fetch_bytes(url: str, timeout: int = _TIMEOUT) -> bytes | None:
+    try:
+        req = urllib.request.Request(url, headers={'User-Agent': 'INTERCEPT/1.0'})
+        with urllib.request.urlopen(req, timeout=timeout) as resp:
+            return resp.read()
+    except Exception as exc:
+        logger.warning('Failed to fetch %s: %s', url, exc)
+        return None
+
+
+# ---------------------------------------------------------------------------
+# Data source fetchers
+# ---------------------------------------------------------------------------
+
+def _fetch_cached_json(cache_key: str, url: str, ttl: int) -> Any | None:
+    cached = _cache_get(cache_key)
+    if cached is not None:
+        return cached
+    data = _fetch_json(url)
+    if data is not None:
+        _cache_set(cache_key, data, ttl)
+    return data
+
+
+def _fetch_kp_index() -> Any | None:
+    return _fetch_cached_json('kp_index', f'{SWPC_JSON}/noaa-planetary-k-index.json', TTL_REALTIME)
+
+
+def _fetch_kp_forecast() -> Any | None:
+    return _fetch_cached_json('kp_forecast', f'{SWPC_JSON}/noaa-planetary-k-index-forecast.json', TTL_FORECAST)
+
+
+def _fetch_scales() -> Any | None:
+    return _fetch_cached_json('scales', f'{SWPC_JSON}/noaa-scales.json', TTL_REALTIME)
+
+
+def _fetch_flux() -> Any | None:
+    return _fetch_cached_json('flux', f'{SWPC_JSON}/10cm-flux-30-day.json', TTL_DAILY)
+
+
+def _fetch_alerts() -> Any | None:
+    return _fetch_cached_json('alerts', f'{SWPC_JSON}/alerts.json', TTL_REALTIME)
+
+
+def _fetch_solar_wind_plasma() -> Any | None:
+    return _fetch_cached_json('sw_plasma', f'{SWPC_JSON}/solar-wind/plasma-6-hour.json', TTL_REALTIME)
+
+
+def _fetch_solar_wind_mag() -> Any | None:
+    return _fetch_cached_json('sw_mag', f'{SWPC_JSON}/solar-wind/mag-6-hour.json', TTL_REALTIME)
+
+
+def _fetch_xrays() -> Any | None:
+    return _fetch_cached_json('xrays', f'{SWPC_BASE}/json/goes/primary/xrays-1-day.json', TTL_REALTIME)
+
+
+def _fetch_xray_flares() -> Any | None:
+    return _fetch_cached_json('xray_flares', f'{SWPC_BASE}/json/goes/primary/xray-flares-7-day.json', TTL_REALTIME)
+
+
+def _fetch_flare_probability() -> Any | None:
+    return _fetch_cached_json('flare_prob', f'{SWPC_BASE}/json/solar_probabilities.json', TTL_FORECAST)
+
+
+def _fetch_solar_regions() -> Any | None:
+    return _fetch_cached_json('solar_regions', f'{SWPC_BASE}/json/solar_regions.json', TTL_DAILY)
+
+
+def _fetch_sunspot_report() -> Any | None:
+    return _fetch_cached_json('sunspot_report', f'{SWPC_BASE}/json/sunspot_report.json', TTL_DAILY)
+
+
+def _parse_hamqsl_xml(xml_text: str) -> dict[str, Any] | None:
+    """Parse HamQSL solar XML into a dict of band conditions."""
+    try:
+        root = ET.fromstring(xml_text)
+        solar = root.find('.//solardata')
+        if solar is None:
+            return None
+        result: dict[str, Any] = {}
+        # Scalar fields
+        for tag in ('sfi', 'aindex', 'kindex', 'kindexnt', 'xray', 'sunspots',
+                     'heliumline', 'protonflux', 'electonflux', 'aurora',
+                     'normalization', 'latdegree', 'solarwind', 'magneticfield',
+                     'calculatedconditions', 'calculatedvhfconditions',
+                     'geomagfield', 'signalnoise', 'fof2', 'muffactor', 'muf'):
+            el = solar.find(tag)
+            if el is not None and el.text:
+                result[tag] = el.text.strip()
+        # Band conditions
+        bands: list[dict[str, str]] = []
+        for band_el in solar.findall('.//calculatedconditions/band'):
+            bands.append({
+                'name': band_el.get('name', ''),
+                'time': band_el.get('time', ''),
+                'condition': band_el.text.strip() if band_el.text else ''
+            })
+        result['bands'] = bands
+        # VHF conditions
+        vhf: list[dict[str, str]] = []
+        for phen_el in solar.findall('.//calculatedvhfconditions/phenomenon'):
+            vhf.append({
+                'name': phen_el.get('name', ''),
+                'location': phen_el.get('location', ''),
+                'condition': phen_el.text.strip() if phen_el.text else ''
+            })
+        result['vhf'] = vhf
+        return result
+    except ET.ParseError as exc:
+        logger.warning('Failed to parse HamQSL XML: %s', exc)
+        return None
+
+
+def _fetch_band_conditions() -> dict[str, Any] | None:
+    cached = _cache_get('band_conditions')
+    if cached is not None:
+        return cached
+    xml_text = _fetch_text('https://www.hamqsl.com/solarxml.php')
+    if xml_text is None:
+        return None
+    data = _parse_hamqsl_xml(xml_text)
+    if data is not None:
+        _cache_set('band_conditions', data, TTL_FORECAST)
+    return data
+
+
+# ---------------------------------------------------------------------------
+# Image proxy whitelist
+# ---------------------------------------------------------------------------
+
+IMAGE_WHITELIST: dict[str, dict[str, str]] = {
+    # D-RAP absorption maps
+    'drap_global': {
+        'url': f'{SWPC_BASE}/images/animations/d-rap/global/latest.png',
+        'content_type': 'image/png',
+    },
+    'drap_5': {
+        'url': f'{SWPC_BASE}/images/d-rap/global_f05.png',
+        'content_type': 'image/png',
+    },
+    'drap_10': {
+        'url': f'{SWPC_BASE}/images/d-rap/global_f10.png',
+        'content_type': 'image/png',
+    },
+    'drap_15': {
+        'url': f'{SWPC_BASE}/images/d-rap/global_f15.png',
+        'content_type': 'image/png',
+    },
+    'drap_20': {
+        'url': f'{SWPC_BASE}/images/d-rap/global_f20.png',
+        'content_type': 'image/png',
+    },
+    'drap_25': {
+        'url': f'{SWPC_BASE}/images/d-rap/global_f25.png',
+        'content_type': 'image/png',
+    },
+    'drap_30': {
+        'url': f'{SWPC_BASE}/images/d-rap/global_f30.png',
+        'content_type': 'image/png',
+    },
+    # Aurora forecast
+    'aurora_north': {
+        'url': f'{SWPC_BASE}/images/animations/ovation/north/latest.jpg',
+        'content_type': 'image/jpeg',
+    },
+    # SDO solar imagery
+    'sdo_193': {
+        'url': 'https://sdo.gsfc.nasa.gov/assets/img/latest/latest_512_0193.jpg',
+        'content_type': 'image/jpeg',
+    },
+    'sdo_304': {
+        'url': 'https://sdo.gsfc.nasa.gov/assets/img/latest/latest_512_0304.jpg',
+        'content_type': 'image/jpeg',
+    },
+    'sdo_magnetogram': {
+        'url': 'https://sdo.gsfc.nasa.gov/assets/img/latest/latest_512_HMIBC.jpg',
+        'content_type': 'image/jpeg',
+    },
+}
+
+
+# ---------------------------------------------------------------------------
+# Routes
+# ---------------------------------------------------------------------------
+
+@space_weather_bp.route('/data')
+def get_data():
+    """Return aggregated space weather data from all sources."""
+    data = {
+        'kp_index': _fetch_kp_index(),
+        'kp_forecast': _fetch_kp_forecast(),
+        'scales': _fetch_scales(),
+        'flux': _fetch_flux(),
+        'alerts': _fetch_alerts(),
+        'solar_wind_plasma': _fetch_solar_wind_plasma(),
+        'solar_wind_mag': _fetch_solar_wind_mag(),
+        'xrays': _fetch_xrays(),
+        'xray_flares': _fetch_xray_flares(),
+        'flare_probability': _fetch_flare_probability(),
+        'solar_regions': _fetch_solar_regions(),
+        'sunspot_report': _fetch_sunspot_report(),
+        'band_conditions': _fetch_band_conditions(),
+        'timestamp': time.time(),
+    }
+    return jsonify(data)
+
+
+@space_weather_bp.route('/image/<key>')
+def get_image(key: str):
+    """Proxy and cache whitelisted space weather images."""
+    entry = IMAGE_WHITELIST.get(key)
+    if not entry:
+        return jsonify({'error': 'Unknown image key'}), 404
+
+    cache_key = f'img_{key}'
+    cached = _cache_get(cache_key)
+    if cached is not None:
+        return Response(cached, content_type=entry['content_type'],
+                        headers={'Cache-Control': 'public, max-age=300'})
+
+    img_data = _fetch_bytes(entry['url'])
+    if img_data is None:
+        return jsonify({'error': 'Failed to fetch image'}), 502
+
+    _cache_set(cache_key, img_data, TTL_IMAGE)
+    return Response(img_data, content_type=entry['content_type'],
+                    headers={'Cache-Control': 'public, max-age=300'})

routes/sstv.py

@@ -0,0 +1,745 @@
+"""ISS SSTV (Slow-Scan Television) decoder routes.
+
+Provides endpoints for decoding SSTV images from the International Space Station.
+ISS SSTV events occur during special commemorations and typically transmit on 145.800 MHz FM.
+"""
+
+from __future__ import annotations
+
+import queue
+import time
+from pathlib import Path
+from typing import Generator
+
+from flask import Blueprint, jsonify, request, Response, send_file
+
+import app as app_module
+from utils.logging import get_logger
+from utils.sse import sse_stream_fanout
+from utils.event_pipeline import process_event
+from utils.sstv import (
+    get_sstv_decoder,
+    is_sstv_available,
+    ISS_SSTV_FREQ,
+)
+
+logger = get_logger('intercept.sstv')
+
+sstv_bp = Blueprint('sstv', __name__, url_prefix='/sstv')
+
+# ISS SSTV runs on a fixed downlink; allow a small entry tolerance so users
+# can type nearby values and still land on the canonical center frequency.
+ISS_SSTV_MODULATION = 'fm'
+ISS_SSTV_FREQUENCIES = (ISS_SSTV_FREQ,)
+ISS_SSTV_FREQ_TOLERANCE_MHZ = 0.05
+
+# Queue for SSE progress streaming
+_sstv_queue: queue.Queue = queue.Queue(maxsize=100)
+
+# Track which device is being used
+sstv_active_device: int | None = None
+
+
+def _progress_callback(data: dict) -> None:
+    """Callback to queue progress/scope updates for SSE stream."""
+    try:
+        _sstv_queue.put_nowait(data)
+    except queue.Full:
+        try:
+            _sstv_queue.get_nowait()
+            _sstv_queue.put_nowait(data)
+        except queue.Empty:
+            pass
+
+
+def _normalize_iss_frequency(frequency_mhz: float) -> float | None:
+    """Snap near-match user input to a supported ISS SSTV center frequency."""
+    for supported in ISS_SSTV_FREQUENCIES:
+        if abs(frequency_mhz - supported) <= ISS_SSTV_FREQ_TOLERANCE_MHZ:
+            return supported
+    return None
+
+
+@sstv_bp.route('/status')
+def get_status():
+    """
+    Get SSTV decoder status.
+
+    Returns:
+        JSON with decoder availability and current status.
+    """
+    available = is_sstv_available()
+    decoder = get_sstv_decoder()
+
+    result = {
+        'available': available,
+        'decoder': decoder.decoder_available,
+        'running': decoder.is_running,
+        'iss_frequency': ISS_SSTV_FREQ,
+        'modulation': ISS_SSTV_MODULATION,
+        'image_count': len(decoder.get_images()),
+        'doppler_enabled': decoder.doppler_enabled,
+    }
+
+    # Include Doppler info if available
+    doppler_info = decoder.last_doppler_info
+    if doppler_info:
+        result['doppler'] = doppler_info.to_dict()
+
+    return jsonify(result)
+
+
+@sstv_bp.route('/start', methods=['POST'])
+def start_decoder():
+    """
+    Start SSTV decoder.
+
+    JSON body (optional):
+        {
+            "frequency": 145.800,  // Frequency in MHz (default: ISS 145.800)
+            "modulation": "fm",    // ISS mode is FM-only
+            "device": 0,           // RTL-SDR device index
+            "latitude": 40.7128,   // Observer latitude for Doppler correction
+            "longitude": -74.0060  // Observer longitude for Doppler correction
+        }
+
+    If latitude and longitude are provided, real-time Doppler shift compensation
+    will be enabled, which improves reception by tracking the ISS frequency shift
+    as it passes overhead (up to ±3.5 kHz at 145.800 MHz).
+
+    Returns:
+        JSON with start status.
+    """
+    if not is_sstv_available():
+        return jsonify({
+            'status': 'error',
+            'message': 'SSTV decoder not available. Install numpy and Pillow: pip install numpy Pillow'
+        }), 400
+
+    decoder = get_sstv_decoder()
+
+    if decoder.is_running:
+        return jsonify({
+            'status': 'already_running',
+            'frequency': ISS_SSTV_FREQ,
+            'modulation': ISS_SSTV_MODULATION,
+            'doppler_enabled': decoder.doppler_enabled
+        })
+
+    # Clear queue
+    while not _sstv_queue.empty():
+        try:
+            _sstv_queue.get_nowait()
+        except queue.Empty:
+            break
+
+    # Get parameters
+    data = request.get_json(silent=True) or {}
+    frequency = data.get('frequency', ISS_SSTV_FREQ)
+    modulation = str(data.get('modulation', ISS_SSTV_MODULATION)).strip().lower()
+    device_index = data.get('device', 0)
+    latitude = data.get('latitude')
+    longitude = data.get('longitude')
+
+    # Validate modulation (ISS mode is FM-only)
+    if modulation != ISS_SSTV_MODULATION:
+        return jsonify({
+            'status': 'error',
+            'message': f'Modulation must be {ISS_SSTV_MODULATION} for ISS SSTV mode'
+        }), 400
+
+    # Validate frequency
+    try:
+        frequency = float(frequency)
+        normalized_frequency = _normalize_iss_frequency(frequency)
+        if normalized_frequency is None:
+            supported = ', '.join(f'{freq:.3f}' for freq in ISS_SSTV_FREQUENCIES)
+            return jsonify({
+                'status': 'error',
+                'message': f'Supported ISS SSTV frequency: {supported} MHz FM'
+            }), 400
+        frequency = normalized_frequency
+    except (TypeError, ValueError):
+        return jsonify({
+            'status': 'error',
+            'message': 'Invalid frequency'
+        }), 400
+
+    # Validate location if provided
+    if latitude is not None and longitude is not None:
+        try:
+            latitude = float(latitude)
+            longitude = float(longitude)
+            if not (-90 <= latitude <= 90):
+                return jsonify({
+                    'status': 'error',
+                    'message': 'Latitude must be between -90 and 90'
+                }), 400
+            if not (-180 <= longitude <= 180):
+                return jsonify({
+                    'status': 'error',
+                    'message': 'Longitude must be between -180 and 180'
+                }), 400
+        except (TypeError, ValueError):
+            return jsonify({
+                'status': 'error',
+                'message': 'Invalid latitude or longitude'
+            }), 400
+    else:
+        latitude = None
+        longitude = None
+
+    # Claim SDR device
+    global sstv_active_device
+    device_int = int(device_index)
+    error = app_module.claim_sdr_device(device_int, 'sstv')
+    if error:
+        return jsonify({
+            'status': 'error',
+            'error_type': 'DEVICE_BUSY',
+            'message': error
+        }), 409
+
+    # Set callback and start
+    decoder.set_callback(_progress_callback)
+    success = decoder.start(
+        frequency=frequency,
+        device_index=device_index,
+        latitude=latitude,
+        longitude=longitude,
+        modulation=ISS_SSTV_MODULATION,
+    )
+
+    if success:
+        sstv_active_device = device_int
+
+        result = {
+            'status': 'started',
+            'frequency': frequency,
+            'modulation': ISS_SSTV_MODULATION,
+            'device': device_index,
+            'doppler_enabled': decoder.doppler_enabled
+        }
+
+        # Include initial Doppler info if available
+        if decoder.doppler_enabled and decoder.last_doppler_info:
+            result['doppler'] = decoder.last_doppler_info.to_dict()
+
+        return jsonify(result)
+    else:
+        # Release device on failure
+        app_module.release_sdr_device(device_int)
+        return jsonify({
+            'status': 'error',
+            'message': 'Failed to start decoder'
+        }), 500
+
+
+@sstv_bp.route('/stop', methods=['POST'])
+def stop_decoder():
+    """
+    Stop SSTV decoder.
+
+    Returns:
+        JSON confirmation.
+    """
+    global sstv_active_device
+    decoder = get_sstv_decoder()
+    decoder.stop()
+
+    # Release device from registry
+    if sstv_active_device is not None:
+        app_module.release_sdr_device(sstv_active_device)
+        sstv_active_device = None
+
+    return jsonify({'status': 'stopped'})
+
+
+@sstv_bp.route('/doppler')
+def get_doppler():
+    """
+    Get current Doppler shift information.
+
+    Returns real-time Doppler shift data if tracking is enabled.
+
+    Returns:
+        JSON with Doppler shift information.
+    """
+    decoder = get_sstv_decoder()
+
+    if not decoder.doppler_enabled:
+        return jsonify({
+            'status': 'disabled',
+            'message': 'Doppler tracking not enabled. Provide latitude/longitude when starting decoder.'
+        })
+
+    doppler_info = decoder.last_doppler_info
+    if not doppler_info:
+        return jsonify({
+            'status': 'unavailable',
+            'message': 'Doppler data not yet available'
+        })
+
+    return jsonify({
+        'status': 'ok',
+        'doppler': doppler_info.to_dict(),
+        'nominal_frequency_mhz': ISS_SSTV_FREQ,
+        'corrected_frequency_mhz': doppler_info.frequency_hz / 1_000_000
+    })
+
+
+@sstv_bp.route('/images')
+def list_images():
+    """
+    Get list of decoded SSTV images.
+
+    Query parameters:
+        limit: Maximum number of images to return (default: all)
+
+    Returns:
+        JSON with list of decoded images.
+    """
+    decoder = get_sstv_decoder()
+    images = decoder.get_images()
+
+    limit = request.args.get('limit', type=int)
+    if limit and limit > 0:
+        images = images[-limit:]
+
+    return jsonify({
+        'status': 'ok',
+        'images': [img.to_dict() for img in images],
+        'count': len(images)
+    })
+
+
+@sstv_bp.route('/images/<filename>')
+def get_image(filename: str):
+    """
+    Get a decoded SSTV image file.
+
+    Args:
+        filename: Image filename
+
+    Returns:
+        Image file or 404.
+    """
+    decoder = get_sstv_decoder()
+
+    # Security: only allow alphanumeric filenames with .png extension
+    if not filename.replace('_', '').replace('-', '').replace('.', '').isalnum():
+        return jsonify({'status': 'error', 'message': 'Invalid filename'}), 400
+
+    if not filename.endswith('.png'):
+        return jsonify({'status': 'error', 'message': 'Only PNG files supported'}), 400
+
+    # Find image in decoder's output directory
+    image_path = decoder._output_dir / filename
+
+    if not image_path.exists():
+        return jsonify({'status': 'error', 'message': 'Image not found'}), 404
+
+    return send_file(image_path, mimetype='image/png')
+
+
+@sstv_bp.route('/images/<filename>/download')
+def download_image(filename: str):
+    """
+    Download a decoded SSTV image file.
+
+    Args:
+        filename: Image filename
+
+    Returns:
+        Image file as attachment or 404.
+    """
+    decoder = get_sstv_decoder()
+
+    # Security: only allow alphanumeric filenames with .png extension
+    if not filename.replace('_', '').replace('-', '').replace('.', '').isalnum():
+        return jsonify({'status': 'error', 'message': 'Invalid filename'}), 400
+
+    if not filename.endswith('.png'):
+        return jsonify({'status': 'error', 'message': 'Only PNG files supported'}), 400
+
+    image_path = decoder._output_dir / filename
+
+    if not image_path.exists():
+        return jsonify({'status': 'error', 'message': 'Image not found'}), 404
+
+    return send_file(image_path, mimetype='image/png', as_attachment=True, download_name=filename)
+
+
+@sstv_bp.route('/images/<filename>', methods=['DELETE'])
+def delete_image(filename: str):
+    """
+    Delete a decoded SSTV image.
+
+    Args:
+        filename: Image filename
+
+    Returns:
+        JSON confirmation.
+    """
+    decoder = get_sstv_decoder()
+
+    # Security: only allow alphanumeric filenames with .png extension
+    if not filename.replace('_', '').replace('-', '').replace('.', '').isalnum():
+        return jsonify({'status': 'error', 'message': 'Invalid filename'}), 400
+
+    if not filename.endswith('.png'):
+        return jsonify({'status': 'error', 'message': 'Only PNG files supported'}), 400
+
+    if decoder.delete_image(filename):
+        return jsonify({'status': 'ok'})
+    else:
+        return jsonify({'status': 'error', 'message': 'Image not found'}), 404
+
+
+@sstv_bp.route('/images', methods=['DELETE'])
+def delete_all_images():
+    """
+    Delete all decoded SSTV images.
+
+    Returns:
+        JSON with count of deleted images.
+    """
+    decoder = get_sstv_decoder()
+    count = decoder.delete_all_images()
+    return jsonify({'status': 'ok', 'deleted': count})
+
+
+@sstv_bp.route('/stream')
+def stream_progress():
+    """
+    SSE stream of SSTV decode progress.
+
+    Provides real-time Server-Sent Events stream of decode progress.
+
+    Event format:
+        data: {"type": "sstv_progress", "status": "decoding", "mode": "PD120", ...}
+
+    Returns:
+        SSE stream (text/event-stream)
+    """
+    def _on_msg(msg: dict[str, Any]) -> None:
+        process_event('sstv', msg, msg.get('type'))
+
+    response = Response(
+        sse_stream_fanout(
+            source_queue=_sstv_queue,
+            channel_key='sstv',
+            timeout=1.0,
+            keepalive_interval=30.0,
+            on_message=_on_msg,
+        ),
+        mimetype='text/event-stream',
+    )
+    response.headers['Cache-Control'] = 'no-cache'
+    response.headers['X-Accel-Buffering'] = 'no'
+    response.headers['Connection'] = 'keep-alive'
+    return response
+
+
+@sstv_bp.route('/iss-schedule')
+def iss_schedule():
+    """
+    Get ISS pass schedule for SSTV reception.
+
+    Calculates ISS passes directly using skyfield.
+
+    Query parameters:
+        latitude: Observer latitude (required)
+        longitude: Observer longitude (required)
+        hours: Hours to look ahead (default: 48)
+
+    Returns:
+        JSON with ISS pass schedule.
+    """
+    lat = request.args.get('latitude', type=float)
+    lon = request.args.get('longitude', type=float)
+    hours = request.args.get('hours', 48, type=int)
+
+    if lat is None or lon is None:
+        return jsonify({
+            'status': 'error',
+            'message': 'latitude and longitude parameters required'
+        }), 400
+
+    try:
+        from skyfield.api import load, wgs84, EarthSatellite
+        from skyfield.almanac import find_discrete
+        from datetime import timedelta
+        from data.satellites import TLE_SATELLITES
+
+        # Get ISS TLE
+        iss_tle = TLE_SATELLITES.get('ISS')
+        if not iss_tle:
+            return jsonify({
+                'status': 'error',
+                'message': 'ISS TLE data not available'
+            }), 500
+
+        ts = load.timescale()
+        satellite = EarthSatellite(iss_tle[1], iss_tle[2], iss_tle[0], ts)
+        observer = wgs84.latlon(lat, lon)
+
+        t0 = ts.now()
+        t1 = ts.utc(t0.utc_datetime() + timedelta(hours=hours))
+
+        def above_horizon(t):
+            diff = satellite - observer
+            topocentric = diff.at(t)
+            alt, _, _ = topocentric.altaz()
+            return alt.degrees > 0
+
+        above_horizon.step_days = 1/720
+
+        times, events = find_discrete(t0, t1, above_horizon)
+
+        passes = []
+        i = 0
+        while i < len(times):
+            if i < len(events) and events[i]:  # Rising
+                rise_time = times[i]
+                set_time = None
+
+                for j in range(i + 1, len(times)):
+                    if not events[j]:  # Setting
+                        set_time = times[j]
+                        i = j
+                        break
+                else:
+                    i += 1
+                    continue
+
+                if set_time is None:
+                    i += 1
+                    continue
+
+                # Calculate max elevation
+                max_el = 0
+                duration_seconds = (set_time.utc_datetime() - rise_time.utc_datetime()).total_seconds()
+                duration_minutes = int(duration_seconds / 60)
+
+                for k in range(30):
+                    frac = k / 29
+                    t_point = ts.utc(rise_time.utc_datetime() + timedelta(seconds=duration_seconds * frac))
+                    diff = satellite - observer
+                    topocentric = diff.at(t_point)
+                    alt, _, _ = topocentric.altaz()
+                    if alt.degrees > max_el:
+                        max_el = alt.degrees
+
+                if max_el >= 10:  # Min elevation filter
+                    passes.append({
+                        'satellite': 'ISS',
+                        'startTime': rise_time.utc_datetime().strftime('%Y-%m-%d %H:%M UTC'),
+                        'startTimeISO': rise_time.utc_datetime().isoformat(),
+                        'maxEl': round(max_el, 1),
+                        'duration': duration_minutes,
+                        'color': '#00ffff'
+                    })
+
+            i += 1
+
+        return jsonify({
+            'status': 'ok',
+            'passes': passes,
+            'count': len(passes),
+            'sstv_frequency': ISS_SSTV_FREQ,
+            'note': 'ISS SSTV events are not continuous. Check ARISS.org for scheduled events.'
+        })
+
+    except ImportError:
+        return jsonify({
+            'status': 'error',
+            'message': 'skyfield library not installed'
+        }), 503
+
+    except Exception as e:
+        logger.error(f"Error getting ISS schedule: {e}")
+        return jsonify({
+            'status': 'error',
+            'message': str(e)
+        }), 500
+
+
+@sstv_bp.route('/iss-position')
+def iss_position():
+    """
+    Get current ISS position from real-time API.
+
+    Uses the Open Notify API for accurate real-time position,
+    with fallback to "Where The ISS At" API.
+
+    Query parameters:
+        latitude: Observer latitude (optional, for elevation calc)
+        longitude: Observer longitude (optional, for elevation calc)
+
+    Returns:
+        JSON with ISS current position.
+    """
+    import requests
+    from datetime import datetime
+
+    observer_lat = request.args.get('latitude', type=float)
+    observer_lon = request.args.get('longitude', type=float)
+
+    # Try primary API: Where The ISS At
+    try:
+        response = requests.get('https://api.wheretheiss.at/v1/satellites/25544', timeout=5)
+        if response.status_code == 200:
+            data = response.json()
+            iss_lat = float(data['latitude'])
+            iss_lon = float(data['longitude'])
+
+            result = {
+                'status': 'ok',
+                'lat': iss_lat,
+                'lon': iss_lon,
+                'altitude': float(data.get('altitude', 420)),
+                'timestamp': datetime.utcnow().isoformat(),
+                'source': 'wheretheiss'
+            }
+
+            # Calculate observer-relative data if location provided
+            if observer_lat is not None and observer_lon is not None:
+                result.update(_calculate_observer_data(iss_lat, iss_lon, observer_lat, observer_lon))
+
+            return jsonify(result)
+    except Exception as e:
+        logger.warning(f"Where The ISS At API failed: {e}")
+
+    # Try fallback API: Open Notify
+    try:
+        response = requests.get('http://api.open-notify.org/iss-now.json', timeout=5)
+        if response.status_code == 200:
+            data = response.json()
+            if data.get('message') == 'success':
+                iss_lat = float(data['iss_position']['latitude'])
+                iss_lon = float(data['iss_position']['longitude'])
+
+                result = {
+                    'status': 'ok',
+                    'lat': iss_lat,
+                    'lon': iss_lon,
+                    'altitude': 420,  # Approximate ISS altitude in km
+                    'timestamp': datetime.utcnow().isoformat(),
+                    'source': 'open-notify'
+                }
+
+                # Calculate observer-relative data if location provided
+                if observer_lat is not None and observer_lon is not None:
+                    result.update(_calculate_observer_data(iss_lat, iss_lon, observer_lat, observer_lon))
+
+                return jsonify(result)
+    except Exception as e:
+        logger.warning(f"Open Notify API failed: {e}")
+
+    # Both APIs failed
+    return jsonify({
+        'status': 'error',
+        'message': 'Unable to fetch ISS position from real-time APIs'
+    }), 503
+
+
+def _calculate_observer_data(iss_lat: float, iss_lon: float, obs_lat: float, obs_lon: float) -> dict:
+    """Calculate elevation, azimuth, and distance from observer to ISS."""
+    import math
+
+    # ISS altitude in km
+    iss_alt_km = 420
+
+    # Earth radius in km
+    earth_radius = 6371
+
+    # Convert to radians
+    lat1 = math.radians(obs_lat)
+    lat2 = math.radians(iss_lat)
+    lon1 = math.radians(obs_lon)
+    lon2 = math.radians(iss_lon)
+
+    # Haversine for ground distance
+    dlat = lat2 - lat1
+    dlon = lon2 - lon1
+    a = math.sin(dlat/2)**2 + math.cos(lat1) * math.cos(lat2) * math.sin(dlon/2)**2
+    c = 2 * math.asin(math.sqrt(a))
+    ground_distance = earth_radius * c
+
+    # Calculate elevation angle (simplified)
+    # Using spherical geometry approximation
+    iss_height = iss_alt_km
+    slant_range = math.sqrt(ground_distance**2 + iss_height**2)
+
+    if ground_distance > 0:
+        elevation = math.degrees(math.atan2(iss_height - (ground_distance**2 / (2 * earth_radius)), ground_distance))
+    else:
+        elevation = 90.0
+
+    # Calculate azimuth
+    y = math.sin(dlon) * math.cos(lat2)
+    x = math.cos(lat1) * math.sin(lat2) - math.sin(lat1) * math.cos(lat2) * math.cos(dlon)
+    azimuth = math.degrees(math.atan2(y, x))
+    azimuth = (azimuth + 360) % 360
+
+    return {
+        'elevation': round(elevation, 1),
+        'azimuth': round(azimuth, 1),
+        'distance': round(slant_range, 1)
+    }
+
+
+@sstv_bp.route('/decode-file', methods=['POST'])
+def decode_file():
+    """
+    Decode SSTV from an uploaded audio file.
+
+    Expects multipart/form-data with 'audio' file field.
+
+    Returns:
+        JSON with decoded images.
+    """
+    if 'audio' not in request.files:
+        return jsonify({
+            'status': 'error',
+            'message': 'No audio file provided'
+        }), 400
+
+    audio_file = request.files['audio']
+
+    if not audio_file.filename:
+        return jsonify({
+            'status': 'error',
+            'message': 'No file selected'
+        }), 400
+
+    # Save to temp file
+    import tempfile
+    with tempfile.NamedTemporaryFile(suffix='.wav', delete=False) as tmp:
+        audio_file.save(tmp.name)
+        tmp_path = tmp.name
+
+    try:
+        decoder = get_sstv_decoder()
+        images = decoder.decode_file(tmp_path)
+
+        return jsonify({
+            'status': 'ok',
+            'images': [img.to_dict() for img in images],
+            'count': len(images)
+        })
+
+    except Exception as e:
+        logger.error(f"Error decoding file: {e}")
+        return jsonify({
+            'status': 'error',
+            'message': str(e)
+        }), 500
+
+    finally:
+        # Clean up temp file
+        try:
+            Path(tmp_path).unlink()
+        except Exception:
+            pass

routes/sstv_general.py

@@ -0,0 +1,354 @@
+"""General SSTV (Slow-Scan Television) decoder routes.
+
+Provides endpoints for decoding terrestrial SSTV images on common HF/VHF/UHF
+frequencies used by amateur radio operators worldwide.
+"""
+
+from __future__ import annotations
+
+import queue
+import time
+from collections.abc import Generator
+from pathlib import Path
+
+from flask import Blueprint, Response, jsonify, request, send_file
+
+import app as app_module
+from utils.logging import get_logger
+from utils.sse import sse_stream_fanout
+from utils.event_pipeline import process_event
+from utils.sstv import (
+    get_general_sstv_decoder,
+)
+
+logger = get_logger('intercept.sstv_general')
+
+sstv_general_bp = Blueprint('sstv_general', __name__, url_prefix='/sstv-general')
+
+# Queue for SSE progress streaming
+_sstv_general_queue: queue.Queue = queue.Queue(maxsize=100)
+
+# Track which device is being used
+_sstv_general_active_device: int | None = None
+
+# Predefined SSTV frequencies
+SSTV_FREQUENCIES = [
+    {'band': '80 m', 'frequency': 3.845, 'modulation': 'lsb', 'notes': 'Common US SSTV calling frequency', 'type': 'Terrestrial HF'},
+    {'band': '80 m', 'frequency': 3.730, 'modulation': 'lsb', 'notes': 'Europe primary (analog/digital variants)', 'type': 'Terrestrial HF'},
+    {'band': '40 m', 'frequency': 7.171, 'modulation': 'lsb', 'notes': 'Common international/US/EU SSTV activity', 'type': 'Terrestrial HF'},
+    {'band': '40 m', 'frequency': 7.040, 'modulation': 'lsb', 'notes': 'Alternative US/Europe calling', 'type': 'Terrestrial HF'},
+    {'band': '30 m', 'frequency': 10.132, 'modulation': 'usb', 'notes': 'Narrowband SSTV (e.g., MP73-N digital)', 'type': 'Terrestrial HF'},
+    {'band': '20 m', 'frequency': 14.230, 'modulation': 'usb', 'notes': 'Most popular international SSTV frequency', 'type': 'Terrestrial HF'},
+    {'band': '20 m', 'frequency': 14.233, 'modulation': 'usb', 'notes': 'Digital SSTV calling / alternative activity', 'type': 'Terrestrial HF'},
+    {'band': '20 m', 'frequency': 14.240, 'modulation': 'usb', 'notes': 'Europe alternative', 'type': 'Terrestrial HF'},
+    {'band': '15 m', 'frequency': 21.340, 'modulation': 'usb', 'notes': 'International calling frequency', 'type': 'Terrestrial HF'},
+    {'band': '10 m', 'frequency': 28.680, 'modulation': 'usb', 'notes': 'International calling frequency', 'type': 'Terrestrial HF'},
+    {'band': '6 m', 'frequency': 50.950, 'modulation': 'usb', 'notes': 'SSTV calling (less common)', 'type': 'Terrestrial VHF'},
+    {'band': '2 m', 'frequency': 145.500, 'modulation': 'fm', 'notes': 'Australia/common simplex (FM sometimes used)', 'type': 'Terrestrial VHF'},
+    {'band': '70 cm', 'frequency': 433.775, 'modulation': 'fm', 'notes': 'Australia/common simplex', 'type': 'Terrestrial UHF'},
+]
+
+# Build a lookup for auto-detecting modulation from frequency
+_FREQ_MODULATION_MAP = {entry['frequency']: entry['modulation'] for entry in SSTV_FREQUENCIES}
+
+
+def _progress_callback(data: dict) -> None:
+    """Callback to queue progress/scope updates for SSE stream."""
+    try:
+        _sstv_general_queue.put_nowait(data)
+    except queue.Full:
+        try:
+            _sstv_general_queue.get_nowait()
+            _sstv_general_queue.put_nowait(data)
+        except queue.Empty:
+            pass
+
+
+@sstv_general_bp.route('/frequencies')
+def get_frequencies():
+    """Return the predefined SSTV frequency table."""
+    return jsonify({
+        'status': 'ok',
+        'frequencies': SSTV_FREQUENCIES,
+    })
+
+
+@sstv_general_bp.route('/status')
+def get_status():
+    """Get general SSTV decoder status."""
+    decoder = get_general_sstv_decoder()
+
+    return jsonify({
+        'available': decoder.decoder_available is not None,
+        'decoder': decoder.decoder_available,
+        'running': decoder.is_running,
+        'image_count': len(decoder.get_images()),
+    })
+
+
+@sstv_general_bp.route('/start', methods=['POST'])
+def start_decoder():
+    """
+    Start general SSTV decoder.
+
+    JSON body:
+        {
+            "frequency": 14.230,     // Frequency in MHz (required)
+            "modulation": "usb",     // fm, usb, or lsb (auto-detected from frequency table if omitted)
+            "device": 0              // RTL-SDR device index
+        }
+    """
+    decoder = get_general_sstv_decoder()
+
+    if decoder.decoder_available is None:
+        return jsonify({
+            'status': 'error',
+            'message': 'SSTV decoder not available. Install numpy and Pillow: pip install numpy Pillow',
+        }), 400
+
+    if decoder.is_running:
+        return jsonify({
+            'status': 'already_running',
+        })
+
+    # Clear queue
+    while not _sstv_general_queue.empty():
+        try:
+            _sstv_general_queue.get_nowait()
+        except queue.Empty:
+            break
+
+    data = request.get_json(silent=True) or {}
+    frequency = data.get('frequency')
+    modulation = data.get('modulation')
+    device_index = data.get('device', 0)
+
+    # Validate frequency
+    if frequency is None:
+        return jsonify({
+            'status': 'error',
+            'message': 'Frequency is required',
+        }), 400
+
+    try:
+        frequency = float(frequency)
+        if not (1 <= frequency <= 500):
+            return jsonify({
+                'status': 'error',
+                'message': 'Frequency must be between 1-500 MHz (HF requires upconverter for RTL-SDR)',
+            }), 400
+    except (TypeError, ValueError):
+        return jsonify({
+            'status': 'error',
+            'message': 'Invalid frequency',
+        }), 400
+
+    # Auto-detect modulation from frequency table if not specified
+    if not modulation:
+        modulation = _FREQ_MODULATION_MAP.get(frequency, 'usb')
+
+    # Validate modulation
+    if modulation not in ('fm', 'usb', 'lsb'):
+        return jsonify({
+            'status': 'error',
+            'message': 'Modulation must be fm, usb, or lsb',
+        }), 400
+
+    # Claim SDR device
+    global _sstv_general_active_device
+    device_int = int(device_index)
+    error = app_module.claim_sdr_device(device_int, 'sstv_general')
+    if error:
+        return jsonify({
+            'status': 'error',
+            'error_type': 'DEVICE_BUSY',
+            'message': error,
+        }), 409
+
+    # Set callback and start
+    decoder.set_callback(_progress_callback)
+    success = decoder.start(
+        frequency=frequency,
+        device_index=device_index,
+        modulation=modulation,
+    )
+
+    if success:
+        _sstv_general_active_device = device_int
+        return jsonify({
+            'status': 'started',
+            'frequency': frequency,
+            'modulation': modulation,
+            'device': device_index,
+        })
+    else:
+        app_module.release_sdr_device(device_int)
+        return jsonify({
+            'status': 'error',
+            'message': 'Failed to start decoder',
+        }), 500
+
+
+@sstv_general_bp.route('/stop', methods=['POST'])
+def stop_decoder():
+    """Stop general SSTV decoder."""
+    global _sstv_general_active_device
+    decoder = get_general_sstv_decoder()
+    decoder.stop()
+
+    if _sstv_general_active_device is not None:
+        app_module.release_sdr_device(_sstv_general_active_device)
+        _sstv_general_active_device = None
+
+    return jsonify({'status': 'stopped'})
+
+
+@sstv_general_bp.route('/images')
+def list_images():
+    """Get list of decoded SSTV images."""
+    decoder = get_general_sstv_decoder()
+    images = decoder.get_images()
+
+    limit = request.args.get('limit', type=int)
+    if limit and limit > 0:
+        images = images[-limit:]
+
+    return jsonify({
+        'status': 'ok',
+        'images': [img.to_dict() for img in images],
+        'count': len(images),
+    })
+
+
+@sstv_general_bp.route('/images/<filename>')
+def get_image(filename: str):
+    """Get a decoded SSTV image file."""
+    decoder = get_general_sstv_decoder()
+
+    # Security: only allow alphanumeric filenames with .png extension
+    if not filename.replace('_', '').replace('-', '').replace('.', '').isalnum():
+        return jsonify({'status': 'error', 'message': 'Invalid filename'}), 400
+
+    if not filename.endswith('.png'):
+        return jsonify({'status': 'error', 'message': 'Only PNG files supported'}), 400
+
+    image_path = decoder._output_dir / filename
+
+    if not image_path.exists():
+        return jsonify({'status': 'error', 'message': 'Image not found'}), 404
+
+    return send_file(image_path, mimetype='image/png')
+
+
+@sstv_general_bp.route('/images/<filename>/download')
+def download_image(filename: str):
+    """Download a decoded SSTV image file."""
+    decoder = get_general_sstv_decoder()
+
+    # Security: only allow alphanumeric filenames with .png extension
+    if not filename.replace('_', '').replace('-', '').replace('.', '').isalnum():
+        return jsonify({'status': 'error', 'message': 'Invalid filename'}), 400
+
+    if not filename.endswith('.png'):
+        return jsonify({'status': 'error', 'message': 'Only PNG files supported'}), 400
+
+    image_path = decoder._output_dir / filename
+
+    if not image_path.exists():
+        return jsonify({'status': 'error', 'message': 'Image not found'}), 404
+
+    return send_file(image_path, mimetype='image/png', as_attachment=True, download_name=filename)
+
+
+@sstv_general_bp.route('/images/<filename>', methods=['DELETE'])
+def delete_image(filename: str):
+    """Delete a decoded SSTV image."""
+    decoder = get_general_sstv_decoder()
+
+    # Security: only allow alphanumeric filenames with .png extension
+    if not filename.replace('_', '').replace('-', '').replace('.', '').isalnum():
+        return jsonify({'status': 'error', 'message': 'Invalid filename'}), 400
+
+    if not filename.endswith('.png'):
+        return jsonify({'status': 'error', 'message': 'Only PNG files supported'}), 400
+
+    if decoder.delete_image(filename):
+        return jsonify({'status': 'ok'})
+    else:
+        return jsonify({'status': 'error', 'message': 'Image not found'}), 404
+
+
+@sstv_general_bp.route('/images', methods=['DELETE'])
+def delete_all_images():
+    """Delete all decoded SSTV images."""
+    decoder = get_general_sstv_decoder()
+    count = decoder.delete_all_images()
+    return jsonify({'status': 'ok', 'deleted': count})
+
+
+@sstv_general_bp.route('/stream')
+def stream_progress():
+    """SSE stream of SSTV decode progress."""
+    def _on_msg(msg: dict[str, Any]) -> None:
+        process_event('sstv_general', msg, msg.get('type'))
+
+    response = Response(
+        sse_stream_fanout(
+            source_queue=_sstv_general_queue,
+            channel_key='sstv_general',
+            timeout=1.0,
+            keepalive_interval=30.0,
+            on_message=_on_msg,
+        ),
+        mimetype='text/event-stream',
+    )
+    response.headers['Cache-Control'] = 'no-cache'
+    response.headers['X-Accel-Buffering'] = 'no'
+    response.headers['Connection'] = 'keep-alive'
+    return response
+
+
+@sstv_general_bp.route('/decode-file', methods=['POST'])
+def decode_file():
+    """Decode SSTV from an uploaded audio file."""
+    if 'audio' not in request.files:
+        return jsonify({
+            'status': 'error',
+            'message': 'No audio file provided',
+        }), 400
+
+    audio_file = request.files['audio']
+
+    if not audio_file.filename:
+        return jsonify({
+            'status': 'error',
+            'message': 'No file selected',
+        }), 400
+
+    import tempfile
+    with tempfile.NamedTemporaryFile(suffix='.wav', delete=False) as tmp:
+        audio_file.save(tmp.name)
+        tmp_path = tmp.name
+
+    try:
+        decoder = get_general_sstv_decoder()
+        images = decoder.decode_file(tmp_path)
+
+        return jsonify({
+            'status': 'ok',
+            'images': [img.to_dict() for img in images],
+            'count': len(images),
+        })
+
+    except Exception as e:
+        logger.error(f"Error decoding file: {e}")
+        return jsonify({
+            'status': 'error',
+            'message': str(e),
+        }), 500
+
+    finally:
+        try:
+            Path(tmp_path).unlink()
+        except Exception:
+            pass

routes/subghz.py

@@ -0,0 +1,424 @@
+"""SubGHz transceiver routes.
+
+Provides endpoints for HackRF-based SubGHz signal capture, protocol decoding,
+signal replay/transmit, and wideband spectrum analysis.
+"""
+
+from __future__ import annotations
+
+import queue
+
+from flask import Blueprint, jsonify, request, Response, send_file
+
+from utils.logging import get_logger
+from utils.sse import sse_stream
+from utils.subghz import get_subghz_manager
+from utils.constants import (
+    SUBGHZ_FREQ_MIN_MHZ,
+    SUBGHZ_FREQ_MAX_MHZ,
+    SUBGHZ_LNA_GAIN_MAX,
+    SUBGHZ_VGA_GAIN_MAX,
+    SUBGHZ_TX_VGA_GAIN_MAX,
+    SUBGHZ_TX_MAX_DURATION,
+    SUBGHZ_SAMPLE_RATES,
+    SUBGHZ_PRESETS,
+)
+
+logger = get_logger('intercept.subghz')
+
+subghz_bp = Blueprint('subghz', __name__, url_prefix='/subghz')
+
+# SSE queue for streaming events to frontend
+_subghz_queue: queue.Queue = queue.Queue(maxsize=200)
+
+
+def _event_callback(event: dict) -> None:
+    """Forward SubGhzManager events to the SSE queue."""
+    try:
+        _subghz_queue.put_nowait(event)
+    except queue.Full:
+        try:
+            _subghz_queue.get_nowait()
+            _subghz_queue.put_nowait(event)
+        except queue.Empty:
+            pass
+
+
+def _validate_frequency_hz(data: dict, key: str = 'frequency_hz') -> tuple[int | None, str | None]:
+    """Validate frequency in Hz from request data. Returns (freq_hz, error_msg)."""
+    raw = data.get(key)
+    if raw is None:
+        return None, f'{key} is required'
+    try:
+        freq_hz = int(raw)
+        freq_mhz = freq_hz / 1_000_000
+        if not (SUBGHZ_FREQ_MIN_MHZ <= freq_mhz <= SUBGHZ_FREQ_MAX_MHZ):
+            return None, f'Frequency must be between {SUBGHZ_FREQ_MIN_MHZ}-{SUBGHZ_FREQ_MAX_MHZ} MHz'
+        return freq_hz, None
+    except (ValueError, TypeError):
+        return None, f'Invalid {key}'
+
+
+def _validate_serial(data: dict) -> str | None:
+    """Extract and validate optional HackRF device serial."""
+    serial = data.get('device_serial', '')
+    if not serial or not isinstance(serial, str):
+        return None
+    # HackRF serials are hex strings
+    serial = serial.strip()
+    if serial and all(c in '0123456789abcdefABCDEF' for c in serial):
+        return serial
+    return None
+
+
+def _validate_int(data: dict, key: str, default: int, min_val: int, max_val: int) -> int:
+    """Validate integer parameter with bounds clamping."""
+    try:
+        val = int(data.get(key, default))
+        return max(min_val, min(max_val, val))
+    except (ValueError, TypeError):
+        return default
+
+
+def _validate_decode_profile(data: dict, default: str = 'weather') -> str:
+    profile = data.get('decode_profile', default)
+    if not isinstance(profile, str):
+        return default
+    profile = profile.strip().lower()
+    if profile in {'weather', 'all'}:
+        return profile
+    return default
+
+
+def _validate_optional_float(data: dict, key: str) -> tuple[float | None, str | None]:
+    raw = data.get(key)
+    if raw is None or raw == '':
+        return None, None
+    try:
+        return float(raw), None
+    except (ValueError, TypeError):
+        return None, f'Invalid {key}'
+
+
+def _validate_bool(data: dict, key: str, default: bool = False) -> bool:
+    raw = data.get(key, default)
+    if isinstance(raw, bool):
+        return raw
+    if isinstance(raw, (int, float)):
+        return bool(raw)
+    if isinstance(raw, str):
+        return raw.strip().lower() in {'1', 'true', 'yes', 'on', 'enabled'}
+    return default
+
+
+# ------------------------------------------------------------------
+# STATUS
+# ------------------------------------------------------------------
+
+@subghz_bp.route('/status')
+def get_status():
+    manager = get_subghz_manager()
+    return jsonify(manager.get_status())
+
+
+@subghz_bp.route('/presets')
+def get_presets():
+    return jsonify({'presets': SUBGHZ_PRESETS, 'sample_rates': SUBGHZ_SAMPLE_RATES})
+
+
+# ------------------------------------------------------------------
+# RECEIVE
+# ------------------------------------------------------------------
+
+@subghz_bp.route('/receive/start', methods=['POST'])
+def start_receive():
+    data = request.get_json(silent=True) or {}
+
+    freq_hz, err = _validate_frequency_hz(data)
+    if err:
+        return jsonify({'status': 'error', 'message': err}), 400
+
+    sample_rate = _validate_int(data, 'sample_rate', 2000000, 2000000, 20000000)
+    lna_gain = _validate_int(data, 'lna_gain', 32, 0, SUBGHZ_LNA_GAIN_MAX)
+    vga_gain = _validate_int(data, 'vga_gain', 20, 0, SUBGHZ_VGA_GAIN_MAX)
+    trigger_enabled = _validate_bool(data, 'trigger_enabled', False)
+    trigger_pre_ms = _validate_int(data, 'trigger_pre_ms', 350, 50, 5000)
+    trigger_post_ms = _validate_int(data, 'trigger_post_ms', 700, 100, 10000)
+    device_serial = _validate_serial(data)
+
+    manager = get_subghz_manager()
+    manager.set_callback(_event_callback)
+
+    result = manager.start_receive(
+        frequency_hz=freq_hz,
+        sample_rate=sample_rate,
+        lna_gain=lna_gain,
+        vga_gain=vga_gain,
+        trigger_enabled=trigger_enabled,
+        trigger_pre_ms=trigger_pre_ms,
+        trigger_post_ms=trigger_post_ms,
+        device_serial=device_serial,
+    )
+
+    status_code = 200 if result.get('status') != 'error' else 409
+    return jsonify(result), status_code
+
+
+@subghz_bp.route('/receive/stop', methods=['POST'])
+def stop_receive():
+    manager = get_subghz_manager()
+    result = manager.stop_receive()
+    return jsonify(result)
+
+
+# ------------------------------------------------------------------
+# DECODE
+# ------------------------------------------------------------------
+
+@subghz_bp.route('/decode/start', methods=['POST'])
+def start_decode():
+    data = request.get_json(silent=True) or {}
+
+    freq_hz, err = _validate_frequency_hz(data)
+    if err:
+        return jsonify({'status': 'error', 'message': err}), 400
+
+    sample_rate = _validate_int(data, 'sample_rate', 2000000, 2000000, 20000000)
+    lna_gain = _validate_int(data, 'lna_gain', 32, 0, SUBGHZ_LNA_GAIN_MAX)
+    vga_gain = _validate_int(data, 'vga_gain', 20, 0, SUBGHZ_VGA_GAIN_MAX)
+    decode_profile = _validate_decode_profile(data)
+    device_serial = _validate_serial(data)
+
+    manager = get_subghz_manager()
+    manager.set_callback(_event_callback)
+
+    result = manager.start_decode(
+        frequency_hz=freq_hz,
+        sample_rate=sample_rate,
+        lna_gain=lna_gain,
+        vga_gain=vga_gain,
+        decode_profile=decode_profile,
+        device_serial=device_serial,
+    )
+
+    status_code = 200 if result.get('status') != 'error' else 409
+    return jsonify(result), status_code
+
+
+@subghz_bp.route('/decode/stop', methods=['POST'])
+def stop_decode():
+    manager = get_subghz_manager()
+    result = manager.stop_decode()
+    return jsonify(result)
+
+
+# ------------------------------------------------------------------
+# TRANSMIT
+# ------------------------------------------------------------------
+
+@subghz_bp.route('/transmit', methods=['POST'])
+def start_transmit():
+    data = request.get_json(silent=True) or {}
+
+    capture_id = data.get('capture_id')
+    if not capture_id or not isinstance(capture_id, str):
+        return jsonify({'status': 'error', 'message': 'capture_id is required'}), 400
+
+    # Sanitize capture_id
+    if not capture_id.isalnum():
+        return jsonify({'status': 'error', 'message': 'Invalid capture_id'}), 400
+
+    tx_gain = _validate_int(data, 'tx_gain', 20, 0, SUBGHZ_TX_VGA_GAIN_MAX)
+    max_duration = _validate_int(data, 'max_duration', 10, 1, SUBGHZ_TX_MAX_DURATION)
+    start_seconds, start_err = _validate_optional_float(data, 'start_seconds')
+    if start_err:
+        return jsonify({'status': 'error', 'message': start_err}), 400
+    duration_seconds, duration_err = _validate_optional_float(data, 'duration_seconds')
+    if duration_err:
+        return jsonify({'status': 'error', 'message': duration_err}), 400
+    device_serial = _validate_serial(data)
+
+    manager = get_subghz_manager()
+    manager.set_callback(_event_callback)
+
+    result = manager.transmit(
+        capture_id=capture_id,
+        tx_gain=tx_gain,
+        max_duration=max_duration,
+        start_seconds=start_seconds,
+        duration_seconds=duration_seconds,
+        device_serial=device_serial,
+    )
+
+    status_code = 200 if result.get('status') != 'error' else 400
+    return jsonify(result), status_code
+
+
+@subghz_bp.route('/transmit/stop', methods=['POST'])
+def stop_transmit():
+    manager = get_subghz_manager()
+    result = manager.stop_transmit()
+    return jsonify(result)
+
+
+# ------------------------------------------------------------------
+# SWEEP
+# ------------------------------------------------------------------
+
+@subghz_bp.route('/sweep/start', methods=['POST'])
+def start_sweep():
+    data = request.get_json(silent=True) or {}
+
+    try:
+        freq_start = float(data.get('freq_start_mhz', 300))
+        freq_end = float(data.get('freq_end_mhz', 928))
+        if freq_start >= freq_end:
+            return jsonify({'status': 'error', 'message': 'freq_start must be less than freq_end'}), 400
+        if freq_start < SUBGHZ_FREQ_MIN_MHZ or freq_end > SUBGHZ_FREQ_MAX_MHZ:
+            return jsonify({'status': 'error', 'message': f'Frequency range: {SUBGHZ_FREQ_MIN_MHZ}-{SUBGHZ_FREQ_MAX_MHZ} MHz'}), 400
+    except (ValueError, TypeError):
+        return jsonify({'status': 'error', 'message': 'Invalid frequency range'}), 400
+
+    bin_width = _validate_int(data, 'bin_width', 100000, 10000, 5000000)
+    device_serial = _validate_serial(data)
+
+    manager = get_subghz_manager()
+    manager.set_callback(_event_callback)
+
+    result = manager.start_sweep(
+        freq_start_mhz=freq_start,
+        freq_end_mhz=freq_end,
+        bin_width=bin_width,
+        device_serial=device_serial,
+    )
+
+    status_code = 200 if result.get('status') != 'error' else 409
+    return jsonify(result), status_code
+
+
+@subghz_bp.route('/sweep/stop', methods=['POST'])
+def stop_sweep():
+    manager = get_subghz_manager()
+    result = manager.stop_sweep()
+    return jsonify(result)
+
+
+# ------------------------------------------------------------------
+# CAPTURES LIBRARY
+# ------------------------------------------------------------------
+
+@subghz_bp.route('/captures')
+def list_captures():
+    manager = get_subghz_manager()
+    captures = manager.list_captures()
+    return jsonify({
+        'status': 'ok',
+        'captures': [c.to_dict() for c in captures],
+        'count': len(captures),
+    })
+
+
+@subghz_bp.route('/captures/<capture_id>')
+def get_capture(capture_id: str):
+    if not capture_id.isalnum():
+        return jsonify({'status': 'error', 'message': 'Invalid capture_id'}), 400
+
+    manager = get_subghz_manager()
+    capture = manager.get_capture(capture_id)
+    if not capture:
+        return jsonify({'status': 'error', 'message': 'Capture not found'}), 404
+
+    return jsonify({'status': 'ok', 'capture': capture.to_dict()})
+
+
+@subghz_bp.route('/captures/<capture_id>/download')
+def download_capture(capture_id: str):
+    if not capture_id.isalnum():
+        return jsonify({'status': 'error', 'message': 'Invalid capture_id'}), 400
+
+    manager = get_subghz_manager()
+    path = manager.get_capture_path(capture_id)
+    if not path:
+        return jsonify({'status': 'error', 'message': 'Capture not found'}), 404
+
+    return send_file(
+        path,
+        mimetype='application/octet-stream',
+        as_attachment=True,
+        download_name=path.name,
+    )
+
+
+@subghz_bp.route('/captures/<capture_id>/trim', methods=['POST'])
+def trim_capture(capture_id: str):
+    if not capture_id.isalnum():
+        return jsonify({'status': 'error', 'message': 'Invalid capture_id'}), 400
+
+    data = request.get_json(silent=True) or {}
+    start_seconds, start_err = _validate_optional_float(data, 'start_seconds')
+    if start_err:
+        return jsonify({'status': 'error', 'message': start_err}), 400
+    duration_seconds, duration_err = _validate_optional_float(data, 'duration_seconds')
+    if duration_err:
+        return jsonify({'status': 'error', 'message': duration_err}), 400
+
+    label = data.get('label', '')
+    if label is None:
+        label = ''
+    if not isinstance(label, str) or len(label) > 100:
+        return jsonify({'status': 'error', 'message': 'Label must be a string (max 100 chars)'}), 400
+
+    manager = get_subghz_manager()
+    result = manager.trim_capture(
+        capture_id=capture_id,
+        start_seconds=start_seconds,
+        duration_seconds=duration_seconds,
+        label=label,
+    )
+
+    if result.get('status') == 'ok':
+        return jsonify(result), 200
+    message = str(result.get('message') or 'Trim failed')
+    status_code = 404 if 'not found' in message.lower() else 400
+    return jsonify(result), status_code
+
+
+@subghz_bp.route('/captures/<capture_id>', methods=['DELETE'])
+def delete_capture(capture_id: str):
+    if not capture_id.isalnum():
+        return jsonify({'status': 'error', 'message': 'Invalid capture_id'}), 400
+
+    manager = get_subghz_manager()
+    if manager.delete_capture(capture_id):
+        return jsonify({'status': 'deleted', 'id': capture_id})
+    return jsonify({'status': 'error', 'message': 'Capture not found'}), 404
+
+
+@subghz_bp.route('/captures/<capture_id>', methods=['PATCH'])
+def update_capture(capture_id: str):
+    if not capture_id.isalnum():
+        return jsonify({'status': 'error', 'message': 'Invalid capture_id'}), 400
+
+    data = request.get_json(silent=True) or {}
+    label = data.get('label', '')
+
+    if not isinstance(label, str) or len(label) > 100:
+        return jsonify({'status': 'error', 'message': 'Label must be a string (max 100 chars)'}), 400
+
+    manager = get_subghz_manager()
+    if manager.update_capture_label(capture_id, label):
+        return jsonify({'status': 'updated', 'id': capture_id, 'label': label})
+    return jsonify({'status': 'error', 'message': 'Capture not found'}), 404
+
+
+# ------------------------------------------------------------------
+# SSE STREAM
+# ------------------------------------------------------------------
+
+@subghz_bp.route('/stream')
+def stream():
+    response = Response(sse_stream(_subghz_queue), mimetype='text/event-stream')
+    response.headers['Cache-Control'] = 'no-cache'
+    response.headers['X-Accel-Buffering'] = 'no'
+    response.headers['Connection'] = 'keep-alive'
+    return response

routes/updater.py

@@ -0,0 +1,179 @@
+"""Updater routes - GitHub update checking and application updates."""
+
+from __future__ import annotations
+
+from flask import Blueprint, Response, jsonify, request
+
+from utils.logging import get_logger
+from utils.updater import (
+    check_for_updates,
+    dismiss_update,
+    get_update_status,
+    perform_update,
+    restart_application,
+)
+
+logger = get_logger('intercept.routes.updater')
+
+updater_bp = Blueprint('updater', __name__, url_prefix='/updater')
+
+
+@updater_bp.route('/check', methods=['GET'])
+def check_updates() -> Response:
+    """
+    Check for updates from GitHub.
+
+    Uses caching to avoid excessive API calls. Will only hit GitHub
+    if the cache is stale (default: 6 hours).
+
+    Query parameters:
+        force: Set to 'true' to bypass cache and check GitHub directly
+
+    Returns:
+        JSON with update status information
+    """
+    force = request.args.get('force', '').lower() == 'true'
+
+    try:
+        result = check_for_updates(force=force)
+        return jsonify(result)
+    except Exception as e:
+        logger.error(f"Error checking for updates: {e}")
+        return jsonify({
+            'success': False,
+            'error': str(e)
+        }), 500
+
+
+@updater_bp.route('/status', methods=['GET'])
+def update_status() -> Response:
+    """
+    Get current update status from cache.
+
+    This endpoint does NOT trigger a GitHub check - it only returns
+    cached data. Use /check to trigger a fresh check.
+
+    Returns:
+        JSON with cached update status
+    """
+    try:
+        result = get_update_status()
+        return jsonify(result)
+    except Exception as e:
+        logger.error(f"Error getting update status: {e}")
+        return jsonify({
+            'success': False,
+            'error': str(e)
+        }), 500
+
+
+@updater_bp.route('/update', methods=['POST'])
+def do_update() -> Response:
+    """
+    Perform a git pull to update the application.
+
+    Request body (JSON):
+        stash_changes: If true, stash local changes before pulling
+
+    Returns:
+        JSON with update result information
+    """
+    data = request.json or {}
+    stash_changes = data.get('stash_changes', False)
+
+    try:
+        result = perform_update(stash_changes=stash_changes)
+
+        if result.get('success'):
+            return jsonify(result)
+        else:
+            # Return appropriate status code based on error type
+            error = result.get('error', '')
+            if error == 'local_changes':
+                return jsonify(result), 409  # Conflict
+            elif error == 'merge_conflict':
+                return jsonify(result), 409
+            elif result.get('manual_update'):
+                return jsonify(result), 400
+            else:
+                return jsonify(result), 500
+
+    except Exception as e:
+        logger.error(f"Error performing update: {e}")
+        return jsonify({
+            'success': False,
+            'error': str(e)
+        }), 500
+
+
+@updater_bp.route('/dismiss', methods=['POST'])
+def dismiss_notification() -> Response:
+    """
+    Dismiss update notification for a specific version.
+
+    The notification will not be shown again until a newer version
+    is available.
+
+    Request body (JSON):
+        version: The version to dismiss notifications for
+
+    Returns:
+        JSON with success status
+    """
+    data = request.json or {}
+    version = data.get('version')
+
+    if not version:
+        return jsonify({
+            'success': False,
+            'error': 'Version is required'
+        }), 400
+
+    try:
+        result = dismiss_update(version)
+        return jsonify(result)
+    except Exception as e:
+        logger.error(f"Error dismissing update: {e}")
+        return jsonify({
+            'success': False,
+            'error': str(e)
+        }), 500
+
+
+@updater_bp.route('/restart', methods=['POST'])
+def restart_app() -> Response:
+    """
+    Restart the application.
+
+    This endpoint triggers a graceful restart of the application:
+    1. Stops all running decoder processes
+    2. Cleans up global state
+    3. Replaces the current process with a fresh instance
+
+    The response may not be received by the client since the process
+    is replaced immediately. Clients should poll /health until the
+    server responds again.
+
+    Returns:
+        JSON with restart status (may not be delivered)
+    """
+    import threading
+
+    logger.info("Restart requested via API")
+
+    # Send response before restarting
+    # Use a short delay to allow the response to be sent
+    def delayed_restart():
+        import time
+        time.sleep(0.5)  # Allow response to be sent
+        restart_application()
+
+    # Start restart in a background thread so we can return a response
+    restart_thread = threading.Thread(target=delayed_restart, daemon=False)
+    restart_thread.start()
+
+    return jsonify({
+        'success': True,
+        'message': 'Application is restarting. Please wait...',
+        'action': 'restart'
+    })

routes/vdl2.py

@@ -0,0 +1,383 @@
+"""VDL2 aircraft datalink routes."""
+
+from __future__ import annotations
+
+import io
+import json
+import os
+import platform
+import pty
+import queue
+import shutil
+import subprocess
+import threading
+import time
+from datetime import datetime
+from typing import Generator
+
+from flask import Blueprint, jsonify, request, Response
+
+import app as app_module
+from utils.logging import sensor_logger as logger
+from utils.validation import validate_device_index, validate_gain, validate_ppm
+from utils.sdr import SDRFactory, SDRType
+from utils.sse import sse_stream_fanout
+from utils.event_pipeline import process_event
+from utils.constants import (
+    PROCESS_TERMINATE_TIMEOUT,
+    SSE_KEEPALIVE_INTERVAL,
+    SSE_QUEUE_TIMEOUT,
+    PROCESS_START_WAIT,
+)
+from utils.process import register_process, unregister_process
+
+vdl2_bp = Blueprint('vdl2', __name__, url_prefix='/vdl2')
+
+# Default VDL2 frequencies (MHz) - common worldwide
+DEFAULT_VDL2_FREQUENCIES = [
+    '136975000',  # Primary worldwide
+    '136725000',  # Europe
+    '136775000',  # Europe
+    '136800000',  # Multi-region
+    '136875000',  # Multi-region
+]
+
+# Message counter for statistics
+vdl2_message_count = 0
+vdl2_last_message_time = None
+
+# Track which device is being used
+vdl2_active_device: int | None = None
+
+
+def find_dumpvdl2():
+    """Find dumpvdl2 binary."""
+    return shutil.which('dumpvdl2')
+
+
+def stream_vdl2_output(process: subprocess.Popen, is_text_mode: bool = False) -> None:
+    """Stream dumpvdl2 JSON output to queue."""
+    global vdl2_message_count, vdl2_last_message_time
+
+    try:
+        app_module.vdl2_queue.put({'type': 'status', 'status': 'started'})
+
+        # Use appropriate sentinel based on mode (text mode for pty on macOS)
+        sentinel = '' if is_text_mode else b''
+        for line in iter(process.stdout.readline, sentinel):
+            if is_text_mode:
+                line = line.strip()
+            else:
+                line = line.decode('utf-8', errors='replace').strip()
+            if not line:
+                continue
+
+            try:
+                data = json.loads(line)
+
+                # Add our metadata
+                data['type'] = 'vdl2'
+                data['timestamp'] = datetime.utcnow().isoformat() + 'Z'
+
+                # Update stats
+                vdl2_message_count += 1
+                vdl2_last_message_time = time.time()
+
+                app_module.vdl2_queue.put(data)
+
+                # Feed flight correlator
+                try:
+                    from utils.flight_correlator import get_flight_correlator
+                    get_flight_correlator().add_vdl2_message(data)
+                except Exception:
+                    pass
+
+                # Log if enabled
+                if app_module.logging_enabled:
+                    try:
+                        with open(app_module.log_file_path, 'a') as f:
+                            ts = datetime.now().strftime('%Y-%m-%d %H:%M:%S')
+                            f.write(f"{ts} | VDL2 | {json.dumps(data)}\n")
+                    except Exception:
+                        pass
+
+            except json.JSONDecodeError:
+                # Not JSON - could be status message
+                if line:
+                    logger.debug(f"dumpvdl2 non-JSON: {line[:100]}")
+
+    except Exception as e:
+        logger.error(f"VDL2 stream error: {e}")
+        app_module.vdl2_queue.put({'type': 'error', 'message': str(e)})
+    finally:
+        global vdl2_active_device
+        # Ensure process is terminated
+        try:
+            process.terminate()
+            process.wait(timeout=2)
+        except Exception:
+            try:
+                process.kill()
+            except Exception:
+                pass
+        unregister_process(process)
+        app_module.vdl2_queue.put({'type': 'status', 'status': 'stopped'})
+        with app_module.vdl2_lock:
+            app_module.vdl2_process = None
+        # Release SDR device
+        if vdl2_active_device is not None:
+            app_module.release_sdr_device(vdl2_active_device)
+            vdl2_active_device = None
+
+
+@vdl2_bp.route('/tools')
+def check_vdl2_tools() -> Response:
+    """Check for VDL2 decoding tools."""
+    has_dumpvdl2 = find_dumpvdl2() is not None
+
+    return jsonify({
+        'dumpvdl2': has_dumpvdl2,
+        'ready': has_dumpvdl2
+    })
+
+
+@vdl2_bp.route('/status')
+def vdl2_status() -> Response:
+    """Get VDL2 decoder status."""
+    running = False
+    if app_module.vdl2_process:
+        running = app_module.vdl2_process.poll() is None
+
+    return jsonify({
+        'running': running,
+        'message_count': vdl2_message_count,
+        'last_message_time': vdl2_last_message_time,
+        'queue_size': app_module.vdl2_queue.qsize()
+    })
+
+
+@vdl2_bp.route('/start', methods=['POST'])
+def start_vdl2() -> Response:
+    """Start VDL2 decoder."""
+    global vdl2_message_count, vdl2_last_message_time, vdl2_active_device
+
+    with app_module.vdl2_lock:
+        if app_module.vdl2_process and app_module.vdl2_process.poll() is None:
+            return jsonify({
+                'status': 'error',
+                'message': 'VDL2 decoder already running'
+            }), 409
+
+    # Check for dumpvdl2
+    dumpvdl2_path = find_dumpvdl2()
+    if not dumpvdl2_path:
+        return jsonify({
+            'status': 'error',
+            'message': 'dumpvdl2 not found. Install from: https://github.com/szpajder/dumpvdl2'
+        }), 400
+
+    data = request.json or {}
+
+    # Validate inputs
+    try:
+        device = validate_device_index(data.get('device', '0'))
+        gain = validate_gain(data.get('gain', '40'))
+        ppm = validate_ppm(data.get('ppm', '0'))
+    except ValueError as e:
+        return jsonify({'status': 'error', 'message': str(e)}), 400
+
+    # Check if device is available
+    device_int = int(device)
+    error = app_module.claim_sdr_device(device_int, 'vdl2')
+    if error:
+        return jsonify({
+            'status': 'error',
+            'error_type': 'DEVICE_BUSY',
+            'message': error
+        }), 409
+
+    vdl2_active_device = device_int
+
+    # Get frequencies - use provided or defaults
+    # dumpvdl2 expects frequencies in Hz (integers)
+    frequencies = data.get('frequencies', DEFAULT_VDL2_FREQUENCIES)
+    if isinstance(frequencies, str):
+        frequencies = [f.strip() for f in frequencies.split(',')]
+
+    # Clear queue
+    while not app_module.vdl2_queue.empty():
+        try:
+            app_module.vdl2_queue.get_nowait()
+        except queue.Empty:
+            break
+
+    # Reset stats
+    vdl2_message_count = 0
+    vdl2_last_message_time = None
+
+    # Resolve SDR type for device selection
+    sdr_type_str = data.get('sdr_type', 'rtlsdr')
+    try:
+        sdr_type = SDRType(sdr_type_str)
+    except ValueError:
+        sdr_type = SDRType.RTL_SDR
+
+    is_soapy = sdr_type not in (SDRType.RTL_SDR,)
+
+    # Build dumpvdl2 command
+    # dumpvdl2 --output decoded:json --rtlsdr <device> --gain <gain> --correction <ppm> <freq1> <freq2> ...
+    cmd = [dumpvdl2_path]
+    cmd.extend(['--output', 'decoded:json:file:path=-'])
+
+    if is_soapy:
+        # SoapySDR device
+        sdr_device = SDRFactory.create_default_device(sdr_type, index=device_int)
+        builder = SDRFactory.get_builder(sdr_type)
+        device_str = builder._build_device_string(sdr_device)
+        cmd.extend(['--soapysdr', device_str])
+    else:
+        cmd.extend(['--rtlsdr', str(device)])
+
+    # Add gain
+    if gain and str(gain) != '0':
+        cmd.extend(['--gain', str(gain)])
+
+    # Add PPM correction if specified
+    if ppm and str(ppm) != '0':
+        cmd.extend(['--correction', str(ppm)])
+
+    # Add frequencies (dumpvdl2 takes them as positional args in Hz)
+    cmd.extend(frequencies)
+
+    logger.info(f"Starting VDL2 decoder: {' '.join(cmd)}")
+
+    try:
+        is_text_mode = False
+
+        # On macOS, use pty to avoid stdout buffering issues
+        if platform.system() == 'Darwin':
+            master_fd, slave_fd = pty.openpty()
+            process = subprocess.Popen(
+                cmd,
+                stdout=slave_fd,
+                stderr=subprocess.PIPE,
+                start_new_session=True
+            )
+            os.close(slave_fd)
+            # Wrap master_fd as a text file for line-buffered reading
+            process.stdout = io.open(master_fd, 'r', buffering=1)
+            is_text_mode = True
+        else:
+            process = subprocess.Popen(
+                cmd,
+                stdout=subprocess.PIPE,
+                stderr=subprocess.PIPE,
+                start_new_session=True
+            )
+
+        # Wait briefly to check if process started
+        time.sleep(PROCESS_START_WAIT)
+
+        if process.poll() is not None:
+            # Process died - release device
+            if vdl2_active_device is not None:
+                app_module.release_sdr_device(vdl2_active_device)
+                vdl2_active_device = None
+            stderr = ''
+            if process.stderr:
+                stderr = process.stderr.read().decode('utf-8', errors='replace')
+            error_msg = 'dumpvdl2 failed to start'
+            if stderr:
+                error_msg += f': {stderr[:200]}'
+            logger.error(error_msg)
+            return jsonify({'status': 'error', 'message': error_msg}), 500
+
+        app_module.vdl2_process = process
+        register_process(process)
+
+        # Start output streaming thread
+        thread = threading.Thread(
+            target=stream_vdl2_output,
+            args=(process, is_text_mode),
+            daemon=True
+        )
+        thread.start()
+
+        return jsonify({
+            'status': 'started',
+            'frequencies': frequencies,
+            'device': device,
+            'gain': gain
+        })
+
+    except Exception as e:
+        # Release device on failure
+        if vdl2_active_device is not None:
+            app_module.release_sdr_device(vdl2_active_device)
+            vdl2_active_device = None
+        logger.error(f"Failed to start VDL2 decoder: {e}")
+        return jsonify({'status': 'error', 'message': str(e)}), 500
+
+
+@vdl2_bp.route('/stop', methods=['POST'])
+def stop_vdl2() -> Response:
+    """Stop VDL2 decoder."""
+    global vdl2_active_device
+
+    with app_module.vdl2_lock:
+        if not app_module.vdl2_process:
+            return jsonify({
+                'status': 'error',
+                'message': 'VDL2 decoder not running'
+            }), 400
+
+        try:
+            app_module.vdl2_process.terminate()
+            app_module.vdl2_process.wait(timeout=PROCESS_TERMINATE_TIMEOUT)
+        except subprocess.TimeoutExpired:
+            app_module.vdl2_process.kill()
+        except Exception as e:
+            logger.error(f"Error stopping VDL2: {e}")
+
+        app_module.vdl2_process = None
+
+    # Release device from registry
+    if vdl2_active_device is not None:
+        app_module.release_sdr_device(vdl2_active_device)
+        vdl2_active_device = None
+
+    return jsonify({'status': 'stopped'})
+
+
+@vdl2_bp.route('/stream')
+def stream_vdl2() -> Response:
+    """SSE stream for VDL2 messages."""
+    def _on_msg(msg: dict[str, Any]) -> None:
+        process_event('vdl2', msg, msg.get('type'))
+
+    response = Response(
+        sse_stream_fanout(
+            source_queue=app_module.vdl2_queue,
+            channel_key='vdl2',
+            timeout=SSE_QUEUE_TIMEOUT,
+            keepalive_interval=SSE_KEEPALIVE_INTERVAL,
+            on_message=_on_msg,
+        ),
+        mimetype='text/event-stream',
+    )
+    response.headers['Cache-Control'] = 'no-cache'
+    response.headers['X-Accel-Buffering'] = 'no'
+    return response
+
+
+@vdl2_bp.route('/frequencies')
+def get_frequencies() -> Response:
+    """Get default VDL2 frequencies."""
+    return jsonify({
+        'default': DEFAULT_VDL2_FREQUENCIES,
+        'regions': {
+            'north_america': ['136975000', '136100000', '136650000', '136700000', '136800000'],
+            'europe': ['136975000', '136675000', '136725000', '136775000', '136825000'],
+            'asia_pacific': ['136975000', '136900000'],
+        }
+    })

routes/waterfall_websocket.py

@@ -0,0 +1,386 @@
+"""WebSocket-based waterfall streaming with I/Q capture and server-side FFT."""
+
+import json
+import queue
+import socket
+import subprocess
+import threading
+import time
+
+from flask import Flask
+
+try:
+    from flask_sock import Sock
+    WEBSOCKET_AVAILABLE = True
+except ImportError:
+    WEBSOCKET_AVAILABLE = False
+    Sock = None
+
+from utils.logging import get_logger
+from utils.process import safe_terminate, register_process, unregister_process
+from utils.waterfall_fft import (
+    build_binary_frame,
+    compute_power_spectrum,
+    cu8_to_complex,
+    quantize_to_uint8,
+)
+from utils.sdr import SDRFactory, SDRType
+from utils.sdr.base import SDRCapabilities, SDRDevice
+
+logger = get_logger('intercept.waterfall_ws')
+
+# Maximum bandwidth per SDR type (Hz)
+MAX_BANDWIDTH = {
+    SDRType.RTL_SDR: 2400000,
+    SDRType.HACKRF: 20000000,
+    SDRType.LIME_SDR: 20000000,
+    SDRType.AIRSPY: 10000000,
+    SDRType.SDRPLAY: 2000000,
+}
+
+
+def _resolve_sdr_type(sdr_type_str: str) -> SDRType:
+    """Convert client sdr_type string to SDRType enum."""
+    mapping = {
+        'rtlsdr': SDRType.RTL_SDR,
+        'rtl_sdr': SDRType.RTL_SDR,
+        'hackrf': SDRType.HACKRF,
+        'limesdr': SDRType.LIME_SDR,
+        'lime_sdr': SDRType.LIME_SDR,
+        'airspy': SDRType.AIRSPY,
+        'sdrplay': SDRType.SDRPLAY,
+    }
+    return mapping.get(sdr_type_str.lower(), SDRType.RTL_SDR)
+
+
+def _build_dummy_device(device_index: int, sdr_type: SDRType) -> SDRDevice:
+    """Build a minimal SDRDevice for command building."""
+    builder = SDRFactory.get_builder(sdr_type)
+    caps = builder.get_capabilities()
+    return SDRDevice(
+        sdr_type=sdr_type,
+        index=device_index,
+        name=f'{sdr_type.value}-{device_index}',
+        serial='N/A',
+        driver=sdr_type.value,
+        capabilities=caps,
+    )
+
+
+def init_waterfall_websocket(app: Flask):
+    """Initialize WebSocket waterfall streaming."""
+    if not WEBSOCKET_AVAILABLE:
+        logger.warning("flask-sock not installed, WebSocket waterfall disabled")
+        return
+
+    sock = Sock(app)
+
+    @sock.route('/ws/waterfall')
+    def waterfall_stream(ws):
+        """WebSocket endpoint for real-time waterfall streaming."""
+        logger.info("WebSocket waterfall client connected")
+
+        # Import app module for device claiming
+        import app as app_module
+
+        iq_process = None
+        reader_thread = None
+        stop_event = threading.Event()
+        claimed_device = None
+        # Queue for outgoing messages — only the main loop touches ws.send()
+        send_queue = queue.Queue(maxsize=120)
+
+        try:
+            while True:
+                # Drain send queue first (non-blocking)
+                while True:
+                    try:
+                        outgoing = send_queue.get_nowait()
+                    except queue.Empty:
+                        break
+                    try:
+                        ws.send(outgoing)
+                    except Exception:
+                        stop_event.set()
+                        break
+
+                try:
+                    msg = ws.receive(timeout=0.1)
+                except Exception as e:
+                    err = str(e).lower()
+                    if "closed" in err:
+                        break
+                    if "timed out" not in err:
+                        logger.error(f"WebSocket receive error: {e}")
+                    continue
+
+                if msg is None:
+                    # simple-websocket returns None on timeout AND on
+                    # close; check ws.connected to tell them apart.
+                    if not ws.connected:
+                        break
+                    if stop_event.is_set():
+                        break
+                    continue
+
+                try:
+                    data = json.loads(msg)
+                except (json.JSONDecodeError, TypeError):
+                    continue
+
+                cmd = data.get('cmd')
+
+                if cmd == 'start':
+                    # Stop any existing capture
+                    was_restarting = iq_process is not None
+                    stop_event.set()
+                    if reader_thread and reader_thread.is_alive():
+                        reader_thread.join(timeout=2)
+                    if iq_process:
+                        safe_terminate(iq_process)
+                        unregister_process(iq_process)
+                        iq_process = None
+                    if claimed_device is not None:
+                        app_module.release_sdr_device(claimed_device)
+                        claimed_device = None
+                    stop_event.clear()
+                    # Flush stale frames from previous capture
+                    while not send_queue.empty():
+                        try:
+                            send_queue.get_nowait()
+                        except queue.Empty:
+                            break
+                    # Allow USB device to be released by the kernel
+                    if was_restarting:
+                        time.sleep(0.5)
+
+                    # Parse config
+                    center_freq = float(data.get('center_freq', 100.0))
+                    span_mhz = float(data.get('span_mhz', 2.0))
+                    gain = data.get('gain')
+                    if gain is not None:
+                        gain = float(gain)
+                    device_index = int(data.get('device', 0))
+                    sdr_type_str = data.get('sdr_type', 'rtlsdr')
+                    fft_size = int(data.get('fft_size', 1024))
+                    fps = int(data.get('fps', 25))
+                    avg_count = int(data.get('avg_count', 4))
+                    ppm = data.get('ppm')
+                    if ppm is not None:
+                        ppm = int(ppm)
+                    bias_t = bool(data.get('bias_t', False))
+
+                    # Clamp FFT size to valid powers of 2
+                    fft_size = max(256, min(8192, fft_size))
+
+                    # Resolve SDR type and bandwidth
+                    sdr_type = _resolve_sdr_type(sdr_type_str)
+                    max_bw = MAX_BANDWIDTH.get(sdr_type, 2400000)
+                    span_hz = int(span_mhz * 1e6)
+                    sample_rate = min(span_hz, max_bw)
+
+                    # Compute effective frequency range
+                    effective_span_mhz = sample_rate / 1e6
+                    start_freq = center_freq - effective_span_mhz / 2
+                    end_freq = center_freq + effective_span_mhz / 2
+
+                    # Claim the device
+                    claim_err = app_module.claim_sdr_device(device_index, 'waterfall')
+                    if claim_err:
+                        ws.send(json.dumps({
+                            'status': 'error',
+                            'message': claim_err,
+                            'error_type': 'DEVICE_BUSY',
+                        }))
+                        continue
+                    claimed_device = device_index
+
+                    # Build I/Q capture command
+                    try:
+                        builder = SDRFactory.get_builder(sdr_type)
+                        device = _build_dummy_device(device_index, sdr_type)
+                        iq_cmd = builder.build_iq_capture_command(
+                            device=device,
+                            frequency_mhz=center_freq,
+                            sample_rate=sample_rate,
+                            gain=gain,
+                            ppm=ppm,
+                            bias_t=bias_t,
+                        )
+                    except NotImplementedError as e:
+                        app_module.release_sdr_device(device_index)
+                        claimed_device = None
+                        ws.send(json.dumps({
+                            'status': 'error',
+                            'message': str(e),
+                        }))
+                        continue
+
+                    # Spawn I/Q capture process (retry to handle USB release lag)
+                    max_attempts = 3 if was_restarting else 1
+                    try:
+                        for attempt in range(max_attempts):
+                            logger.info(
+                                f"Starting I/Q capture: {center_freq} MHz, "
+                                f"span={effective_span_mhz:.1f} MHz, "
+                                f"sr={sample_rate}, fft={fft_size}"
+                            )
+                            iq_process = subprocess.Popen(
+                                iq_cmd,
+                                stdout=subprocess.PIPE,
+                                stderr=subprocess.DEVNULL,
+                                bufsize=0,
+                            )
+                            register_process(iq_process)
+
+                            # Brief check that process started
+                            time.sleep(0.3)
+                            if iq_process.poll() is not None:
+                                unregister_process(iq_process)
+                                iq_process = None
+                                if attempt < max_attempts - 1:
+                                    logger.info(
+                                        f"I/Q process exited immediately, "
+                                        f"retrying ({attempt + 1}/{max_attempts})..."
+                                    )
+                                    time.sleep(0.5)
+                                    continue
+                                raise RuntimeError(
+                                    "I/Q capture process exited immediately"
+                                )
+                            break  # Process started successfully
+                    except Exception as e:
+                        logger.error(f"Failed to start I/Q capture: {e}")
+                        if iq_process:
+                            safe_terminate(iq_process)
+                            unregister_process(iq_process)
+                            iq_process = None
+                        app_module.release_sdr_device(device_index)
+                        claimed_device = None
+                        ws.send(json.dumps({
+                            'status': 'error',
+                            'message': f'Failed to start I/Q capture: {e}',
+                        }))
+                        continue
+
+                    # Send started confirmation
+                    ws.send(json.dumps({
+                        'status': 'started',
+                        'start_freq': start_freq,
+                        'end_freq': end_freq,
+                        'fft_size': fft_size,
+                        'sample_rate': sample_rate,
+                    }))
+
+                    # Start reader thread — puts frames on queue, never calls ws.send()
+                    def fft_reader(
+                        proc, _send_q, stop_evt,
+                        _fft_size, _avg_count, _fps,
+                        _start_freq, _end_freq,
+                    ):
+                        """Read I/Q from subprocess, compute FFT, enqueue binary frames."""
+                        bytes_per_frame = _fft_size * _avg_count * 2
+                        frame_interval = 1.0 / _fps
+
+                        try:
+                            while not stop_evt.is_set():
+                                if proc.poll() is not None:
+                                    break
+
+                                frame_start = time.monotonic()
+
+                                # Read raw I/Q bytes
+                                raw = b''
+                                remaining = bytes_per_frame
+                                while remaining > 0 and not stop_evt.is_set():
+                                    chunk = proc.stdout.read(min(remaining, 65536))
+                                    if not chunk:
+                                        break
+                                    raw += chunk
+                                    remaining -= len(chunk)
+
+                                if len(raw) < _fft_size * 2:
+                                    break
+
+                                # Process FFT pipeline
+                                samples = cu8_to_complex(raw)
+                                power_db = compute_power_spectrum(
+                                    samples,
+                                    fft_size=_fft_size,
+                                    avg_count=_avg_count,
+                                )
+                                quantized = quantize_to_uint8(power_db)
+                                frame = build_binary_frame(
+                                    _start_freq, _end_freq, quantized,
+                                )
+
+                                try:
+                                    _send_q.put_nowait(frame)
+                                except queue.Full:
+                                    # Drop frame if main loop can't keep up
+                                    pass
+
+                                # Pace to target FPS
+                                elapsed = time.monotonic() - frame_start
+                                sleep_time = frame_interval - elapsed
+                                if sleep_time > 0:
+                                    stop_evt.wait(sleep_time)
+
+                        except Exception as e:
+                            logger.debug(f"FFT reader stopped: {e}")
+
+                    reader_thread = threading.Thread(
+                        target=fft_reader,
+                        args=(
+                            iq_process, send_queue, stop_event,
+                            fft_size, avg_count, fps,
+                            start_freq, end_freq,
+                        ),
+                        daemon=True,
+                    )
+                    reader_thread.start()
+
+                elif cmd == 'stop':
+                    stop_event.set()
+                    if reader_thread and reader_thread.is_alive():
+                        reader_thread.join(timeout=2)
+                        reader_thread = None
+                    if iq_process:
+                        safe_terminate(iq_process)
+                        unregister_process(iq_process)
+                        iq_process = None
+                    if claimed_device is not None:
+                        app_module.release_sdr_device(claimed_device)
+                        claimed_device = None
+                    stop_event.clear()
+                    ws.send(json.dumps({'status': 'stopped'}))
+
+        except Exception as e:
+            logger.info(f"WebSocket waterfall closed: {e}")
+        finally:
+            # Cleanup
+            stop_event.set()
+            if reader_thread and reader_thread.is_alive():
+                reader_thread.join(timeout=2)
+            if iq_process:
+                safe_terminate(iq_process)
+                unregister_process(iq_process)
+            if claimed_device is not None:
+                app_module.release_sdr_device(claimed_device)
+            # Complete WebSocket close handshake, then shut down the
+            # raw socket so Werkzeug cannot write its HTTP 200 response
+            # on top of the WebSocket stream (which browsers see as
+            # "Invalid frame header").
+            try:
+                ws.close()
+            except Exception:
+                pass
+            try:
+                ws.sock.shutdown(socket.SHUT_RDWR)
+            except Exception:
+                pass
+            try:
+                ws.sock.close()
+            except Exception:
+                pass
+            logger.info("WebSocket waterfall client disconnected")

routes/weather_sat.py

@@ -0,0 +1,633 @@
+"""Weather Satellite decoder routes.
+
+Provides endpoints for capturing and decoding weather satellite images
+from NOAA (APT) and Meteor (LRPT) satellites using SatDump.
+"""
+
+from __future__ import annotations
+
+import queue
+
+from flask import Blueprint, jsonify, request, Response, send_file
+
+from utils.logging import get_logger
+from utils.sse import sse_stream
+from utils.validation import validate_device_index, validate_gain, validate_latitude, validate_longitude, validate_elevation
+from utils.weather_sat import (
+    get_weather_sat_decoder,
+    is_weather_sat_available,
+    CaptureProgress,
+    WEATHER_SATELLITES,
+)
+
+logger = get_logger('intercept.weather_sat')
+
+weather_sat_bp = Blueprint('weather_sat', __name__, url_prefix='/weather-sat')
+
+# Queue for SSE progress streaming
+_weather_sat_queue: queue.Queue = queue.Queue(maxsize=100)
+
+
+def _progress_callback(progress: CaptureProgress) -> None:
+    """Callback to queue progress updates for SSE stream."""
+    try:
+        _weather_sat_queue.put_nowait(progress.to_dict())
+    except queue.Full:
+        try:
+            _weather_sat_queue.get_nowait()
+            _weather_sat_queue.put_nowait(progress.to_dict())
+        except queue.Empty:
+            pass
+
+
+@weather_sat_bp.route('/status')
+def get_status():
+    """Get weather satellite decoder status.
+
+    Returns:
+        JSON with decoder availability and current status.
+    """
+    decoder = get_weather_sat_decoder()
+    return jsonify(decoder.get_status())
+
+
+@weather_sat_bp.route('/satellites')
+def list_satellites():
+    """Get list of supported weather satellites with frequencies.
+
+    Returns:
+        JSON with satellite definitions.
+    """
+    satellites = []
+    for key, info in WEATHER_SATELLITES.items():
+        satellites.append({
+            'key': key,
+            'name': info['name'],
+            'frequency': info['frequency'],
+            'mode': info['mode'],
+            'description': info['description'],
+            'active': info['active'],
+        })
+
+    return jsonify({
+        'status': 'ok',
+        'satellites': satellites,
+    })
+
+
+@weather_sat_bp.route('/start', methods=['POST'])
+def start_capture():
+    """Start weather satellite capture and decode.
+
+    JSON body:
+        {
+            "satellite": "NOAA-18",    // Required: satellite key
+            "device": 0,               // RTL-SDR device index (default: 0)
+            "gain": 40.0,              // SDR gain in dB (default: 40)
+            "bias_t": false            // Enable bias-T for LNA (default: false)
+        }
+
+    Returns:
+        JSON with start status.
+    """
+    if not is_weather_sat_available():
+        return jsonify({
+            'status': 'error',
+            'message': 'SatDump not installed. Build from source: https://github.com/SatDump/SatDump'
+        }), 400
+
+    decoder = get_weather_sat_decoder()
+
+    if decoder.is_running:
+        return jsonify({
+            'status': 'already_running',
+            'satellite': decoder.current_satellite,
+            'frequency': decoder.current_frequency,
+        })
+
+    data = request.get_json(silent=True) or {}
+
+    # Validate satellite
+    satellite = data.get('satellite')
+    if not satellite or satellite not in WEATHER_SATELLITES:
+        return jsonify({
+            'status': 'error',
+            'message': f'Invalid satellite. Must be one of: {", ".join(WEATHER_SATELLITES.keys())}'
+        }), 400
+
+    # Validate device index and gain
+    try:
+        device_index = validate_device_index(data.get('device', 0))
+        gain = validate_gain(data.get('gain', 40.0))
+    except ValueError as e:
+        logger.warning('Invalid parameter in start_capture: %s', e)
+        return jsonify({
+            'status': 'error',
+            'message': 'Invalid parameter value'
+        }), 400
+
+    bias_t = bool(data.get('bias_t', False))
+
+    # Claim SDR device
+    try:
+        import app as app_module
+        error = app_module.claim_sdr_device(device_index, 'weather_sat')
+        if error:
+            return jsonify({
+                'status': 'error',
+                'error_type': 'DEVICE_BUSY',
+                'message': error,
+            }), 409
+    except ImportError:
+        pass
+
+    # Clear queue
+    while not _weather_sat_queue.empty():
+        try:
+            _weather_sat_queue.get_nowait()
+        except queue.Empty:
+            break
+
+    # Set callback and on-complete handler for SDR release
+    decoder.set_callback(_progress_callback)
+
+    def _release_device():
+        try:
+            import app as app_module
+            app_module.release_sdr_device(device_index)
+        except ImportError:
+            pass
+
+    decoder.set_on_complete(_release_device)
+
+    success = decoder.start(
+        satellite=satellite,
+        device_index=device_index,
+        gain=gain,
+        bias_t=bias_t,
+    )
+
+    if success:
+        sat_info = WEATHER_SATELLITES[satellite]
+        return jsonify({
+            'status': 'started',
+            'satellite': satellite,
+            'frequency': sat_info['frequency'],
+            'mode': sat_info['mode'],
+            'device': device_index,
+        })
+    else:
+        # Release device on failure
+        _release_device()
+        return jsonify({
+            'status': 'error',
+            'message': 'Failed to start capture'
+        }), 500
+
+
+@weather_sat_bp.route('/test-decode', methods=['POST'])
+def test_decode():
+    """Start weather satellite decode from a pre-recorded file.
+
+    No SDR hardware is required — decodes an IQ baseband or WAV file
+    using SatDump offline mode.
+
+    JSON body:
+        {
+            "satellite": "NOAA-18",       // Required: satellite key
+            "input_file": "/path/to/file", // Required: server-side file path
+            "sample_rate": 1000000         // Sample rate in Hz (default: 1000000)
+        }
+
+    Returns:
+        JSON with start status.
+    """
+    if not is_weather_sat_available():
+        return jsonify({
+            'status': 'error',
+            'message': 'SatDump not installed. Build from source: https://github.com/SatDump/SatDump'
+        }), 400
+
+    decoder = get_weather_sat_decoder()
+
+    if decoder.is_running:
+        return jsonify({
+            'status': 'already_running',
+            'satellite': decoder.current_satellite,
+            'frequency': decoder.current_frequency,
+        })
+
+    data = request.get_json(silent=True) or {}
+
+    # Validate satellite
+    satellite = data.get('satellite')
+    if not satellite or satellite not in WEATHER_SATELLITES:
+        return jsonify({
+            'status': 'error',
+            'message': f'Invalid satellite. Must be one of: {", ".join(WEATHER_SATELLITES.keys())}'
+        }), 400
+
+    # Validate input file
+    input_file = data.get('input_file')
+    if not input_file:
+        return jsonify({
+            'status': 'error',
+            'message': 'input_file is required'
+        }), 400
+
+    from pathlib import Path
+    input_path = Path(input_file)
+
+    # Security: restrict to data directory (anchored to app root, not CWD)
+    allowed_base = Path(__file__).resolve().parent.parent / 'data'
+    try:
+        resolved = input_path.resolve()
+        if not resolved.is_relative_to(allowed_base):
+            return jsonify({
+                'status': 'error',
+                'message': 'input_file must be under the data/ directory'
+            }), 403
+    except (OSError, ValueError):
+        return jsonify({
+            'status': 'error',
+            'message': 'Invalid file path'
+        }), 400
+
+    if not input_path.is_file():
+        logger.warning("Test-decode file not found")
+        return jsonify({
+            'status': 'error',
+            'message': 'File not found'
+        }), 404
+
+    # Validate sample rate
+    sample_rate = data.get('sample_rate', 1000000)
+    try:
+        sample_rate = int(sample_rate)
+        if sample_rate < 1000 or sample_rate > 20000000:
+            raise ValueError
+    except (TypeError, ValueError):
+        return jsonify({
+            'status': 'error',
+            'message': 'Invalid sample_rate (1000-20000000)'
+        }), 400
+
+    # Clear queue
+    while not _weather_sat_queue.empty():
+        try:
+            _weather_sat_queue.get_nowait()
+        except queue.Empty:
+            break
+
+    # Set callback — no on_complete needed (no SDR to release)
+    decoder.set_callback(_progress_callback)
+    decoder.set_on_complete(None)
+
+    success = decoder.start_from_file(
+        satellite=satellite,
+        input_file=input_file,
+        sample_rate=sample_rate,
+    )
+
+    if success:
+        sat_info = WEATHER_SATELLITES[satellite]
+        return jsonify({
+            'status': 'started',
+            'satellite': satellite,
+            'frequency': sat_info['frequency'],
+            'mode': sat_info['mode'],
+            'source': 'file',
+            'input_file': str(input_file),
+        })
+    else:
+        return jsonify({
+            'status': 'error',
+            'message': 'Failed to start file decode'
+        }), 500
+
+
+@weather_sat_bp.route('/stop', methods=['POST'])
+def stop_capture():
+    """Stop weather satellite capture.
+
+    Returns:
+        JSON confirmation.
+    """
+    decoder = get_weather_sat_decoder()
+    device_index = decoder.device_index
+
+    decoder.stop()
+
+    # Release SDR device
+    try:
+        import app as app_module
+        app_module.release_sdr_device(device_index)
+    except ImportError:
+        pass
+
+    return jsonify({'status': 'stopped'})
+
+
+@weather_sat_bp.route('/images')
+def list_images():
+    """Get list of decoded weather satellite images.
+
+    Query parameters:
+        limit: Maximum number of images (default: all)
+        satellite: Filter by satellite key (optional)
+
+    Returns:
+        JSON with list of decoded images.
+    """
+    decoder = get_weather_sat_decoder()
+    images = decoder.get_images()
+
+    # Filter by satellite if specified
+    satellite_filter = request.args.get('satellite')
+    if satellite_filter:
+        images = [img for img in images if img.satellite == satellite_filter]
+
+    # Apply limit
+    limit = request.args.get('limit', type=int)
+    if limit and limit > 0:
+        images = images[-limit:]
+
+    return jsonify({
+        'status': 'ok',
+        'images': [img.to_dict() for img in images],
+        'count': len(images),
+    })
+
+
+@weather_sat_bp.route('/images/<filename>')
+def get_image(filename: str):
+    """Serve a decoded weather satellite image file.
+
+    Args:
+        filename: Image filename
+
+    Returns:
+        Image file or 404.
+    """
+    decoder = get_weather_sat_decoder()
+
+    # Security: only allow safe filenames
+    if not filename.replace('_', '').replace('-', '').replace('.', '').isalnum():
+        return jsonify({'status': 'error', 'message': 'Invalid filename'}), 400
+
+    if not (filename.endswith('.png') or filename.endswith('.jpg') or filename.endswith('.jpeg')):
+        return jsonify({'status': 'error', 'message': 'Only PNG/JPG files supported'}), 400
+
+    image_path = decoder._output_dir / filename
+
+    if not image_path.exists():
+        return jsonify({'status': 'error', 'message': 'Image not found'}), 404
+
+    mimetype = 'image/png' if filename.endswith('.png') else 'image/jpeg'
+    return send_file(image_path, mimetype=mimetype)
+
+
+@weather_sat_bp.route('/images/<filename>', methods=['DELETE'])
+def delete_image(filename: str):
+    """Delete a decoded image.
+
+    Args:
+        filename: Image filename
+
+    Returns:
+        JSON confirmation.
+    """
+    decoder = get_weather_sat_decoder()
+
+    if not filename.replace('_', '').replace('-', '').replace('.', '').isalnum():
+        return jsonify({'status': 'error', 'message': 'Invalid filename'}), 400
+
+    if decoder.delete_image(filename):
+        return jsonify({'status': 'deleted', 'filename': filename})
+    else:
+        return jsonify({'status': 'error', 'message': 'Image not found'}), 404
+
+
+@weather_sat_bp.route('/images', methods=['DELETE'])
+def delete_all_images():
+    """Delete all decoded weather satellite images.
+
+    Returns:
+        JSON with count of deleted images.
+    """
+    decoder = get_weather_sat_decoder()
+    count = decoder.delete_all_images()
+    return jsonify({'status': 'ok', 'deleted': count})
+
+
+@weather_sat_bp.route('/stream')
+def stream_progress():
+    """SSE stream of capture/decode progress.
+
+    Returns:
+        SSE stream (text/event-stream)
+    """
+    response = Response(sse_stream(_weather_sat_queue), mimetype='text/event-stream')
+    response.headers['Cache-Control'] = 'no-cache'
+    response.headers['X-Accel-Buffering'] = 'no'
+    response.headers['Connection'] = 'keep-alive'
+    return response
+
+
+@weather_sat_bp.route('/passes')
+def get_passes():
+    """Get upcoming weather satellite passes for observer location.
+
+    Query parameters:
+        latitude: Observer latitude (required)
+        longitude: Observer longitude (required)
+        hours: Hours to predict ahead (default: 24, max: 72)
+        min_elevation: Minimum elevation in degrees (default: 15)
+        trajectory: Include az/el trajectory points (default: false)
+        ground_track: Include lat/lon ground track points (default: false)
+
+    Returns:
+        JSON with upcoming passes for all weather satellites.
+    """
+    include_trajectory = request.args.get('trajectory', 'false').lower() in ('true', '1')
+    include_ground_track = request.args.get('ground_track', 'false').lower() in ('true', '1')
+
+    raw_lat = request.args.get('latitude')
+    raw_lon = request.args.get('longitude')
+
+    if raw_lat is None or raw_lon is None:
+        return jsonify({
+            'status': 'error',
+            'message': 'latitude and longitude parameters required'
+        }), 400
+
+    try:
+        lat = validate_latitude(raw_lat)
+        lon = validate_longitude(raw_lon)
+    except ValueError as e:
+        logger.warning('Invalid coordinates in get_passes: %s', e)
+        return jsonify({'status': 'error', 'message': 'Invalid coordinates'}), 400
+
+    hours = max(1, min(request.args.get('hours', 24, type=int), 72))
+    min_elevation = max(0, min(request.args.get('min_elevation', 15, type=float), 90))
+
+    try:
+        from utils.weather_sat_predict import predict_passes
+
+        all_passes = predict_passes(
+            lat=lat,
+            lon=lon,
+            hours=hours,
+            min_elevation=min_elevation,
+            include_trajectory=include_trajectory,
+            include_ground_track=include_ground_track,
+        )
+
+        return jsonify({
+            'status': 'ok',
+            'passes': all_passes,
+            'count': len(all_passes),
+            'observer': {'latitude': lat, 'longitude': lon},
+            'prediction_hours': hours,
+            'min_elevation': min_elevation,
+        })
+
+    except ImportError:
+        return jsonify({
+            'status': 'error',
+            'message': 'skyfield library not installed'
+        }), 503
+
+    except Exception as e:
+        logger.error(f"Error predicting passes: {e}")
+        return jsonify({
+            'status': 'error',
+            'message': 'Pass prediction failed'
+        }), 500
+
+
+# ========================
+# Auto-Scheduler Endpoints
+# ========================
+
+
+def _scheduler_event_callback(event: dict) -> None:
+    """Forward scheduler events to the SSE queue."""
+    try:
+        _weather_sat_queue.put_nowait(event)
+    except queue.Full:
+        try:
+            _weather_sat_queue.get_nowait()
+            _weather_sat_queue.put_nowait(event)
+        except queue.Empty:
+            pass
+
+
+@weather_sat_bp.route('/schedule/enable', methods=['POST'])
+def enable_schedule():
+    """Enable auto-scheduling of weather satellite captures.
+
+    JSON body:
+        {
+            "latitude": 51.5,         // Required
+            "longitude": -0.1,        // Required
+            "min_elevation": 15,      // Minimum pass elevation (default: 15)
+            "device": 0,              // RTL-SDR device index (default: 0)
+            "gain": 40.0,             // SDR gain (default: 40)
+            "bias_t": false           // Enable bias-T (default: false)
+        }
+
+    Returns:
+        JSON with scheduler status.
+    """
+    from utils.weather_sat_scheduler import get_weather_sat_scheduler
+
+    data = request.get_json(silent=True) or {}
+
+    if data.get('latitude') is None or data.get('longitude') is None:
+        return jsonify({
+            'status': 'error',
+            'message': 'latitude and longitude required'
+        }), 400
+
+    try:
+        lat = validate_latitude(data.get('latitude'))
+        lon = validate_longitude(data.get('longitude'))
+        min_elev = validate_elevation(data.get('min_elevation', 15))
+        device = validate_device_index(data.get('device', 0))
+        gain_val = validate_gain(data.get('gain', 40.0))
+    except ValueError as e:
+        logger.warning('Invalid parameter in enable_schedule: %s', e)
+        return jsonify({
+            'status': 'error',
+            'message': 'Invalid parameter value'
+        }), 400
+
+    scheduler = get_weather_sat_scheduler()
+    scheduler.set_callbacks(_progress_callback, _scheduler_event_callback)
+
+    try:
+        result = scheduler.enable(
+            lat=lat,
+            lon=lon,
+            min_elevation=min_elev,
+            device=device,
+            gain=gain_val,
+            bias_t=bool(data.get('bias_t', False)),
+        )
+    except Exception as e:
+        logger.exception("Failed to enable weather sat scheduler")
+        return jsonify({
+            'status': 'error',
+            'message': 'Failed to enable scheduler'
+        }), 500
+
+    return jsonify({'status': 'ok', **result})
+
+
+@weather_sat_bp.route('/schedule/disable', methods=['POST'])
+def disable_schedule():
+    """Disable auto-scheduling."""
+    from utils.weather_sat_scheduler import get_weather_sat_scheduler
+
+    scheduler = get_weather_sat_scheduler()
+    result = scheduler.disable()
+    return jsonify(result)
+
+
+@weather_sat_bp.route('/schedule/status')
+def schedule_status():
+    """Get current scheduler state."""
+    from utils.weather_sat_scheduler import get_weather_sat_scheduler
+
+    scheduler = get_weather_sat_scheduler()
+    return jsonify(scheduler.get_status())
+
+
+@weather_sat_bp.route('/schedule/passes')
+def schedule_passes():
+    """List scheduled passes."""
+    from utils.weather_sat_scheduler import get_weather_sat_scheduler
+
+    scheduler = get_weather_sat_scheduler()
+    passes = scheduler.get_passes()
+    return jsonify({
+        'status': 'ok',
+        'passes': passes,
+        'count': len(passes),
+    })
+
+
+@weather_sat_bp.route('/schedule/skip/<pass_id>', methods=['POST'])
+def skip_pass(pass_id: str):
+    """Skip a scheduled pass."""
+    from utils.weather_sat_scheduler import get_weather_sat_scheduler
+
+    if not pass_id.replace('_', '').replace('-', '').isalnum():
+        return jsonify({'status': 'error', 'message': 'Invalid pass ID'}), 400
+
+    scheduler = get_weather_sat_scheduler()
+    if scheduler.skip_pass(pass_id):
+        return jsonify({'status': 'skipped', 'pass_id': pass_id})
+    else:
+        return jsonify({'status': 'error', 'message': 'Pass not found or already processed'}), 404

routes/websdr.py

@@ -0,0 +1,504 @@
+"""HF/Shortwave WebSDR Integration - KiwiSDR network access."""
+
+from __future__ import annotations
+
+import json
+import math
+import queue
+import re
+import struct
+import threading
+import time
+from typing import Optional
+
+from flask import Blueprint, Flask, jsonify, request, Response
+
+try:
+    from flask_sock import Sock
+    WEBSOCKET_AVAILABLE = True
+except ImportError:
+    WEBSOCKET_AVAILABLE = False
+
+from utils.kiwisdr import KiwiSDRClient, KIWI_SAMPLE_RATE, VALID_MODES, parse_host_port
+from utils.logging import get_logger
+
+logger = get_logger('intercept.websdr')
+
+websdr_bp = Blueprint('websdr', __name__, url_prefix='/websdr')
+
+# ============================================
+# RECEIVER CACHE
+# ============================================
+
+_receiver_cache: list[dict] = []
+_cache_lock = threading.Lock()
+_cache_timestamp: float = 0
+CACHE_TTL = 3600  # 1 hour
+
+
+def _parse_gps_coord(coord_str: str) -> Optional[float]:
+    """Parse a GPS coordinate string like '51.5074' or '(-33.87)' into a float."""
+    if not coord_str:
+        return None
+    # Remove parentheses and whitespace
+    cleaned = coord_str.strip().strip('()').strip()
+    try:
+        return float(cleaned)
+    except (ValueError, TypeError):
+        return None
+
+
+def _haversine(lat1: float, lon1: float, lat2: float, lon2: float) -> float:
+    """Calculate distance in km between two GPS coordinates."""
+    R = 6371  # Earth radius in km
+    dlat = math.radians(lat2 - lat1)
+    dlon = math.radians(lon2 - lon1)
+    a = (math.sin(dlat / 2) ** 2 +
+         math.cos(math.radians(lat1)) * math.cos(math.radians(lat2)) *
+         math.sin(dlon / 2) ** 2)
+    c = 2 * math.asin(math.sqrt(a))
+    return R * c
+
+
+KIWI_DATA_URLS = [
+    'https://rx.skywavelinux.com/kiwisdr_com.js',
+    'http://rx.linkfanel.net/kiwisdr_com.js',
+]
+
+
+def _fetch_kiwi_receivers() -> list[dict]:
+    """Fetch the KiwiSDR receiver list from the public directory."""
+    import urllib.request
+    import json
+
+    receivers = []
+    raw = None
+
+    # Try each data source until one works
+    for data_url in KIWI_DATA_URLS:
+        try:
+            req = urllib.request.Request(data_url, headers={
+                'User-Agent': 'INTERCEPT-SIGINT/1.0',
+            })
+            with urllib.request.urlopen(req, timeout=20) as resp:
+                raw = resp.read().decode('utf-8', errors='replace')
+            if raw and len(raw) > 100:
+                logger.info(f"Fetched KiwiSDR data from {data_url}")
+                break
+            raw = None
+        except Exception as e:
+            logger.warning(f"Failed to fetch from {data_url}: {e}")
+            continue
+
+    if not raw:
+        logger.error("All KiwiSDR data sources failed")
+        return receivers
+
+    # The JS file contains: var kiwisdr_com = [ {...}, {...}, ... ];
+    # Extract the JSON array
+    match = re.search(r'var\s+kiwisdr_com\s*=\s*(\[.*\])\s*;?', raw, re.DOTALL)
+    if not match:
+        # Try bare array
+        match = re.search(r'(\[\s*\{.*\}\s*\])', raw, re.DOTALL)
+        if not match:
+            logger.warning("Could not find receiver array in KiwiSDR data")
+            return receivers
+
+    arr_str = match.group(1)
+
+    # Parse JSON
+    try:
+        raw_list = json.loads(arr_str)
+    except json.JSONDecodeError:
+        # Fix common JS → JSON issues (trailing commas)
+        fixed = re.sub(r',\s*}', '}', arr_str)
+        fixed = re.sub(r',\s*]', ']', fixed)
+        try:
+            raw_list = json.loads(fixed)
+        except json.JSONDecodeError:
+            logger.error("Failed to parse KiwiSDR JSON")
+            return receivers
+
+    for entry in raw_list:
+        if not isinstance(entry, dict):
+            continue
+
+        # Skip offline receivers
+        if entry.get('offline') == 'yes' or entry.get('status') != 'active':
+            continue
+
+        name = entry.get('name', 'Unknown')
+        url = entry.get('url', '')
+        gps = entry.get('gps', '')
+        antenna = entry.get('antenna', '')
+        location = entry.get('loc', '')
+
+        # Parse users (strings in actual data)
+        try:
+            users = int(entry.get('users', 0))
+        except (ValueError, TypeError):
+            users = 0
+        try:
+            users_max = int(entry.get('users_max', 4))
+        except (ValueError, TypeError):
+            users_max = 4
+
+        # Parse bands field: "0-30000000" (Hz) → freq_lo/freq_hi in kHz
+        bands_str = entry.get('bands', '0-30000000')
+        freq_lo = 0
+        freq_hi = 30000
+        if bands_str and '-' in str(bands_str):
+            try:
+                parts = str(bands_str).split('-')
+                freq_lo = int(parts[0]) / 1000  # Hz to kHz
+                freq_hi = int(parts[1]) / 1000  # Hz to kHz
+            except (ValueError, IndexError):
+                pass
+
+        # Parse GPS: "(51.317266, -2.950479)" format
+        lat, lon = None, None
+        if gps:
+            parts = str(gps).replace('(', '').replace(')', '').split(',')
+            if len(parts) >= 2:
+                lat = _parse_gps_coord(parts[0])
+                lon = _parse_gps_coord(parts[1])
+
+        if not url:
+            continue
+
+        # Ensure URL has protocol
+        if not url.startswith('http'):
+            url = 'http://' + url
+
+        receivers.append({
+            'name': name,
+            'url': url.rstrip('/'),
+            'lat': lat,
+            'lon': lon,
+            'location': location,
+            'users': users,
+            'users_max': users_max,
+            'antenna': antenna,
+            'bands': bands_str,
+            'freq_lo': freq_lo,
+            'freq_hi': freq_hi,
+            'available': users < users_max,
+        })
+
+    return receivers
+
+
+def get_receivers(force_refresh: bool = False) -> list[dict]:
+    """Get cached receiver list, refreshing if stale."""
+    global _receiver_cache, _cache_timestamp
+
+    with _cache_lock:
+        now = time.time()
+        if force_refresh or not _receiver_cache or (now - _cache_timestamp) > CACHE_TTL:
+            logger.info("Refreshing KiwiSDR receiver list...")
+            _receiver_cache = _fetch_kiwi_receivers()
+            _cache_timestamp = now
+            logger.info(f"Loaded {len(_receiver_cache)} KiwiSDR receivers")
+
+    return _receiver_cache
+
+
+# ============================================
+# API ENDPOINTS
+# ============================================
+
+@websdr_bp.route('/receivers')
+def list_receivers() -> Response:
+    """List KiwiSDR receivers, with optional filters."""
+    freq_khz = request.args.get('freq_khz', type=float)
+    available = request.args.get('available', type=str)
+    refresh = request.args.get('refresh', type=str)
+
+    receivers = get_receivers(force_refresh=(refresh == 'true'))
+
+    filtered = receivers
+    if available == 'true':
+        filtered = [r for r in filtered if r.get('available', True)]
+
+    if freq_khz is not None:
+        filtered = [
+            r for r in filtered
+            if r.get('freq_lo', 0) <= freq_khz <= r.get('freq_hi', 30000)
+        ]
+
+    return jsonify({
+        'status': 'success',
+        'receivers': filtered[:100],
+        'total': len(filtered),
+        'cached_total': len(receivers),
+    })
+
+
+@websdr_bp.route('/receivers/nearest')
+def nearest_receivers() -> Response:
+    """Find receivers nearest to a given location."""
+    lat = request.args.get('lat', type=float)
+    lon = request.args.get('lon', type=float)
+    freq_khz = request.args.get('freq_khz', type=float)
+
+    if lat is None or lon is None:
+        return jsonify({'status': 'error', 'message': 'lat and lon are required'}), 400
+
+    receivers = get_receivers()
+
+    # Filter by frequency if specified
+    if freq_khz is not None:
+        receivers = [
+            r for r in receivers
+            if r.get('freq_lo', 0) <= freq_khz <= r.get('freq_hi', 30000)
+        ]
+
+    # Calculate distances and sort
+    with_distance = []
+    for r in receivers:
+        if r.get('lat') is not None and r.get('lon') is not None:
+            dist = _haversine(lat, lon, r['lat'], r['lon'])
+            entry = dict(r)
+            entry['distance_km'] = round(dist, 1)
+            with_distance.append(entry)
+
+    with_distance.sort(key=lambda x: x['distance_km'])
+
+    return jsonify({
+        'status': 'success',
+        'receivers': with_distance[:10],
+    })
+
+
+@websdr_bp.route('/spy-station/<station_id>/receivers')
+def spy_station_receivers(station_id: str) -> Response:
+    """Find receivers that can tune to a spy station's frequency."""
+    try:
+        from routes.spy_stations import STATIONS
+    except ImportError:
+        return jsonify({'status': 'error', 'message': 'Spy stations module not available'}), 503
+
+    # Find the station
+    station = None
+    for s in STATIONS:
+        if s.get('id') == station_id:
+            station = s
+            break
+
+    if not station:
+        return jsonify({'status': 'error', 'message': 'Station not found'}), 404
+
+    # Get primary frequency
+    freq_khz = None
+    for f in station.get('frequencies', []):
+        if f.get('primary'):
+            freq_khz = f.get('freq_khz')
+            break
+    if freq_khz is None and station.get('frequencies'):
+        freq_khz = station['frequencies'][0].get('freq_khz')
+
+    if freq_khz is None:
+        return jsonify({'status': 'error', 'message': 'No frequency found for station'}), 404
+
+    receivers = get_receivers()
+
+    # Filter receivers that cover this frequency and are available
+    matching = [
+        r for r in receivers
+        if r.get('freq_lo', 0) <= freq_khz <= r.get('freq_hi', 30000) and r.get('available', True)
+    ]
+
+    return jsonify({
+        'status': 'success',
+        'station': {
+            'id': station['id'],
+            'name': station.get('name', ''),
+            'nickname': station.get('nickname', ''),
+            'freq_khz': freq_khz,
+            'mode': station.get('mode', 'USB'),
+        },
+        'receivers': matching[:20],
+        'total': len(matching),
+    })
+
+
+@websdr_bp.route('/status')
+def websdr_status() -> Response:
+    """Get WebSDR connection and cache status."""
+    return jsonify({
+        'status': 'ok',
+        'cached_receivers': len(_receiver_cache),
+        'cache_age_seconds': round(time.time() - _cache_timestamp, 0) if _cache_timestamp > 0 else None,
+        'cache_ttl': CACHE_TTL,
+        'audio_connected': _kiwi_client is not None and _kiwi_client.connected if _kiwi_client else False,
+    })
+
+
+# ============================================
+# KIWISDR AUDIO PROXY
+# ============================================
+
+_kiwi_client: Optional[KiwiSDRClient] = None
+_kiwi_lock = threading.Lock()
+_kiwi_audio_queue: queue.Queue = queue.Queue(maxsize=200)
+
+
+def _disconnect_kiwi() -> None:
+    """Disconnect active KiwiSDR client."""
+    global _kiwi_client
+    with _kiwi_lock:
+        if _kiwi_client:
+            _kiwi_client.disconnect()
+            _kiwi_client = None
+    # Drain audio queue
+    while not _kiwi_audio_queue.empty():
+        try:
+            _kiwi_audio_queue.get_nowait()
+        except queue.Empty:
+            break
+
+
+def _handle_kiwi_command(ws, cmd: str, data: dict) -> None:
+    """Handle a command from the browser client."""
+    global _kiwi_client
+
+    if cmd == 'connect':
+        receiver_url = data.get('url', '')
+        host = data.get('host', '')
+        port = int(data.get('port', 8073))
+        freq_khz = float(data.get('freq_khz', 7000))
+        mode = data.get('mode', 'am').lower()
+        password = data.get('password', '')
+
+        # Parse host/port from URL if provided
+        if receiver_url and not host:
+            host, port = parse_host_port(receiver_url)
+
+        if mode not in VALID_MODES:
+            ws.send(json.dumps({'type': 'error', 'message': f'Invalid mode: {mode}'}))
+            return
+
+        if not host or ';' in host or '&' in host or '|' in host:
+            ws.send(json.dumps({'type': 'error', 'message': 'Invalid host'}))
+            return
+
+        _disconnect_kiwi()
+
+        def on_audio(pcm_bytes, smeter):
+            # Package: 2 bytes smeter (big-endian int16) + PCM data
+            header = struct.pack('>h', smeter)
+            try:
+                _kiwi_audio_queue.put_nowait(header + pcm_bytes)
+            except queue.Full:
+                try:
+                    _kiwi_audio_queue.get_nowait()
+                except queue.Empty:
+                    pass
+                try:
+                    _kiwi_audio_queue.put_nowait(header + pcm_bytes)
+                except queue.Full:
+                    pass
+
+        def on_error(msg):
+            try:
+                ws.send(json.dumps({'type': 'error', 'message': msg}))
+            except Exception:
+                pass
+
+        def on_disconnect():
+            try:
+                ws.send(json.dumps({'type': 'disconnected'}))
+            except Exception:
+                pass
+
+        with _kiwi_lock:
+            _kiwi_client = KiwiSDRClient(
+                host=host, port=port,
+                on_audio=on_audio,
+                on_error=on_error,
+                on_disconnect=on_disconnect,
+                password=password,
+            )
+            success = _kiwi_client.connect(freq_khz, mode)
+
+        if success:
+            ws.send(json.dumps({
+                'type': 'connected',
+                'host': host,
+                'port': port,
+                'freq_khz': freq_khz,
+                'mode': mode,
+                'sample_rate': KIWI_SAMPLE_RATE,
+            }))
+        else:
+            ws.send(json.dumps({'type': 'error', 'message': 'Connection to KiwiSDR failed'}))
+            _disconnect_kiwi()
+
+    elif cmd == 'tune':
+        freq_khz = float(data.get('freq_khz', 0))
+        mode = data.get('mode', '').lower() or None
+
+        with _kiwi_lock:
+            if _kiwi_client and _kiwi_client.connected:
+                success = _kiwi_client.tune(
+                    freq_khz,
+                    mode or _kiwi_client.mode
+                )
+                if success:
+                    ws.send(json.dumps({
+                        'type': 'tuned',
+                        'freq_khz': freq_khz,
+                        'mode': mode or _kiwi_client.mode,
+                    }))
+                else:
+                    ws.send(json.dumps({'type': 'error', 'message': 'Retune failed'}))
+            else:
+                ws.send(json.dumps({'type': 'error', 'message': 'Not connected'}))
+
+    elif cmd == 'disconnect':
+        _disconnect_kiwi()
+        ws.send(json.dumps({'type': 'disconnected'}))
+
+
+def init_websdr_audio(app: Flask) -> None:
+    """Initialize WebSocket audio proxy for KiwiSDR. Called from app.py."""
+    if not WEBSOCKET_AVAILABLE:
+        logger.warning("flask-sock not installed, KiwiSDR audio proxy disabled")
+        return
+
+    sock = Sock(app)
+
+    @sock.route('/ws/kiwi-audio')
+    def kiwi_audio_stream(ws):
+        """WebSocket endpoint: proxy audio between browser and KiwiSDR."""
+        logger.info("KiwiSDR audio client connected")
+
+        try:
+            while True:
+                # Check for commands from browser
+                try:
+                    msg = ws.receive(timeout=0.005)
+                    if msg:
+                        data = json.loads(msg)
+                        cmd = data.get('cmd', '')
+                        _handle_kiwi_command(ws, cmd, data)
+                except TimeoutError:
+                    pass
+                except Exception as e:
+                    if 'closed' in str(e).lower():
+                        break
+                    if 'timed out' not in str(e).lower():
+                        logger.error(f"KiwiSDR WS receive error: {e}")
+
+                # Forward audio from KiwiSDR to browser
+                try:
+                    audio_data = _kiwi_audio_queue.get_nowait()
+                    ws.send(audio_data)
+                except queue.Empty:
+                    time.sleep(0.005)
+
+        except Exception as e:
+            logger.info(f"KiwiSDR WS closed: {e}")
+        finally:
+            _disconnect_kiwi()
+            logger.info("KiwiSDR audio client disconnected")

routes/wifi.py

@@ -17,11 +17,12 @@ from flask import Blueprint, jsonify, request, Response
 
 import app as app_module
 from utils.dependencies import check_tool, get_tool_path
-from utils.logging import wifi_logger as logger
-from utils.process import is_valid_mac, is_valid_channel
-from utils.validation import validate_wifi_channel, validate_mac_address, validate_network_interface
-from utils.sse import format_sse
-from data.oui import get_manufacturer
+from utils.logging import wifi_logger as logger
+from utils.process import is_valid_mac, is_valid_channel
+from utils.validation import validate_wifi_channel, validate_mac_address, validate_network_interface
+from utils.sse import format_sse, sse_stream_fanout
+from utils.event_pipeline import process_event
+from data.oui import get_manufacturer
 from utils.constants import (
     WIFI_TERMINATE_TIMEOUT,
     PMKID_TERMINATE_TIMEOUT,
@@ -46,8 +47,33 @@ from utils.constants import (
 wifi_bp = Blueprint('wifi', __name__, url_prefix='/wifi')
 
 # PMKID process state
-pmkid_process = None
-pmkid_lock = threading.Lock()
+pmkid_process = None
+pmkid_lock = threading.Lock()
+
+
+def _parse_channel_list(raw_channels: Any) -> list[int] | None:
+    """Parse a channel list from string/list input."""
+    if raw_channels in (None, '', []):
+        return None
+
+    if isinstance(raw_channels, str):
+        parts = [p.strip() for p in re.split(r'[\s,]+', raw_channels) if p.strip()]
+    elif isinstance(raw_channels, (list, tuple, set)):
+        parts = list(raw_channels)
+    else:
+        parts = [raw_channels]
+
+    channels: list[int] = []
+    seen = set()
+    for part in parts:
+        if part in (None, ''):
+            continue
+        ch = validate_wifi_channel(part)
+        if ch not in seen:
+            channels.append(ch)
+            seen.add(ch)
+
+    return channels or None
 
 
 def detect_wifi_interfaces():
@@ -607,8 +633,9 @@ def start_wifi_scan():
             return jsonify({'status': 'error', 'message': 'Scan already running'})
 
         data = request.json
-        channel = data.get('channel')
-        band = data.get('band', 'abg')
+        channel = data.get('channel')
+        channels = data.get('channels')
+        band = data.get('band', 'abg')
 
         # Use provided interface or fall back to stored monitor interface
         interface = data.get('interface')
@@ -658,8 +685,17 @@ def start_wifi_scan():
             interface
         ]
 
-        if channel:
-            cmd.extend(['-c', str(channel)])
+        channel_list = None
+        if channels:
+            try:
+                channel_list = _parse_channel_list(channels)
+            except ValueError as e:
+                return jsonify({'status': 'error', 'message': str(e)}), 400
+
+        if channel_list:
+            cmd.extend(['-c', ','.join(str(c) for c in channel_list)])
+        elif channel:
+            cmd.extend(['-c', str(channel)])
 
         logger.info(f"Running: {' '.join(cmd)}")
 
@@ -851,32 +887,53 @@ def check_handshake_status():
                 return jsonify({'status': 'stopped', 'file_exists': False, 'handshake_found': False})
 
     file_size = os.path.getsize(capture_file)
-    handshake_found = False
+    handshake_found = False
+    handshake_valid: bool | None = None
+    handshake_checked = False
+    handshake_reason: str | None = None
 
     try:
-        if target_bssid and is_valid_mac(target_bssid):
-            aircrack_path = get_tool_path('aircrack-ng')
-            if aircrack_path:
-                result = subprocess.run(
-                    [aircrack_path, '-a', '2', '-b', target_bssid, capture_file],
-                    capture_output=True, text=True, timeout=10
-                )
-                output = result.stdout + result.stderr
-                if '1 handshake' in output or ('handshake' in output.lower() and 'wpa' in output.lower()):
-                    if '0 handshake' not in output:
-                        handshake_found = True
+        if target_bssid and is_valid_mac(target_bssid):
+            aircrack_path = get_tool_path('aircrack-ng')
+            if aircrack_path:
+                result = subprocess.run(
+                    [aircrack_path, '-a', '2', '-b', target_bssid, capture_file],
+                    capture_output=True, text=True, timeout=10
+                )
+                output = result.stdout + result.stderr
+                output_lower = output.lower()
+                handshake_checked = True
+
+                if 'no valid wpa handshakes found' in output_lower:
+                    handshake_valid = False
+                    handshake_reason = 'No valid WPA handshake found'
+                elif '0 handshake' in output_lower:
+                    handshake_valid = False
+                elif '1 handshake' in output_lower or ('handshake' in output_lower and 'wpa' in output_lower):
+                    handshake_valid = True
+                else:
+                    handshake_valid = False
     except subprocess.TimeoutExpired:
         pass
-    except Exception as e:
-        logger.error(f"Error checking handshake: {e}")
-
-    return jsonify({
-        'status': 'running' if app_module.wifi_process and app_module.wifi_process.poll() is None else 'stopped',
-        'file_exists': True,
-        'file_size': file_size,
-        'file': capture_file,
-        'handshake_found': handshake_found
-    })
+    except Exception as e:
+        logger.error(f"Error checking handshake: {e}")
+
+    if handshake_valid:
+        handshake_found = True
+        normalized_bssid = target_bssid.upper() if target_bssid else None
+        if normalized_bssid and normalized_bssid not in app_module.wifi_handshakes:
+            app_module.wifi_handshakes.append(normalized_bssid)
+
+    return jsonify({
+        'status': 'running' if app_module.wifi_process and app_module.wifi_process.poll() is None else 'stopped',
+        'file_exists': True,
+        'file_size': file_size,
+        'file': capture_file,
+        'handshake_found': handshake_found,
+        'handshake_valid': handshake_valid,
+        'handshake_checked': handshake_checked,
+        'handshake_reason': handshake_reason
+    })
 
 
 @wifi_bp.route('/pmkid/capture', methods=['POST'])
@@ -1075,29 +1132,26 @@ def get_wifi_networks():
     })
 
 
-@wifi_bp.route('/stream')
-def stream_wifi():
-    """SSE stream for WiFi events."""
-    def generate():
-        last_keepalive = time.time()
-        keepalive_interval = 30.0
-
-        while True:
-            try:
-                msg = app_module.wifi_queue.get(timeout=1)
-                last_keepalive = time.time()
-                yield format_sse(msg)
-            except queue.Empty:
-                now = time.time()
-                if now - last_keepalive >= keepalive_interval:
-                    yield format_sse({'type': 'keepalive'})
-                    last_keepalive = now
-
-    response = Response(generate(), mimetype='text/event-stream')
-    response.headers['Cache-Control'] = 'no-cache'
-    response.headers['X-Accel-Buffering'] = 'no'
-    response.headers['Connection'] = 'keep-alive'
-    return response
+@wifi_bp.route('/stream')
+def stream_wifi():
+    """SSE stream for WiFi events."""
+    def _on_msg(msg: dict[str, Any]) -> None:
+        process_event('wifi', msg, msg.get('type'))
+
+    response = Response(
+        sse_stream_fanout(
+            source_queue=app_module.wifi_queue,
+            channel_key='wifi',
+            timeout=1.0,
+            keepalive_interval=30.0,
+            on_message=_on_msg,
+        ),
+        mimetype='text/event-stream',
+    )
+    response.headers['Cache-Control'] = 'no-cache'
+    response.headers['X-Accel-Buffering'] = 'no'
+    response.headers['Connection'] = 'keep-alive'
+    return response
 
 
 # =============================================================================
@@ -1240,10 +1294,32 @@ def v2_get_networks():
 
 @wifi_bp.route('/v2/clients')
 def v2_get_clients():
-    """Get all discovered clients."""
+    """Get discovered clients with optional filtering."""
     try:
         scanner = get_wifi_scanner()
         clients = scanner.clients
+
+        # Filter by association status
+        associated = request.args.get('associated')
+        if associated == 'true':
+            clients = [c for c in clients if c.is_associated]
+        elif associated == 'false':
+            clients = [c for c in clients if not c.is_associated]
+
+        # Filter by associated BSSID
+        bssid = request.args.get('bssid')
+        if bssid:
+            clients = [c for c in clients if c.associated_bssid == bssid.upper()]
+
+        # Filter by minimum RSSI
+        min_rssi = request.args.get('min_rssi')
+        if min_rssi:
+            try:
+                min_rssi = int(min_rssi)
+                clients = [c for c in clients if c.rssi_current and c.rssi_current >= min_rssi]
+            except ValueError:
+                pass
+
         return jsonify({
             'clients': [c.to_dict() for c in clients],
             'total': len(clients),
@@ -1413,3 +1489,135 @@ def v2_clear_data():
     except Exception as e:
         logger.exception("Error clearing data")
         return jsonify({'error': str(e)}), 500
+
+
+# =============================================================================
+# V2 Deauth Detection Endpoints
+# =============================================================================
+
+@wifi_bp.route('/v2/deauth/status')
+def v2_deauth_status():
+    """
+    Get deauth detection status and recent alerts.
+
+    Returns:
+        - is_running: Whether deauth detector is active
+        - interface: Monitor interface being used
+        - stats: Detection statistics
+        - recent_alerts: Recent deauth alerts
+    """
+    try:
+        scanner = get_wifi_scanner()
+        detector = scanner.deauth_detector
+
+        if detector:
+            stats = detector.stats
+            alerts = detector.get_alerts(limit=50)
+        else:
+            stats = {
+                'is_running': False,
+                'interface': None,
+                'packets_captured': 0,
+                'alerts_generated': 0,
+            }
+            alerts = []
+
+        return jsonify({
+            'is_running': stats.get('is_running', False),
+            'interface': stats.get('interface'),
+            'started_at': stats.get('started_at'),
+            'stats': {
+                'packets_captured': stats.get('packets_captured', 0),
+                'alerts_generated': stats.get('alerts_generated', 0),
+                'active_trackers': stats.get('active_trackers', 0),
+            },
+            'recent_alerts': alerts,
+        })
+    except Exception as e:
+        logger.exception("Error getting deauth status")
+        return jsonify({'error': str(e)}), 500
+
+
+@wifi_bp.route('/v2/deauth/stream')
+def v2_deauth_stream():
+    """
+    SSE stream for real-time deauth alerts.
+
+    Events:
+        - deauth_alert: A deauth attack was detected
+        - deauth_detector_started: Detector started
+        - deauth_detector_stopped: Detector stopped
+        - deauth_error: An error occurred
+        - keepalive: Periodic keepalive
+    """
+    response = Response(
+        sse_stream_fanout(
+            source_queue=app_module.deauth_detector_queue,
+            channel_key='wifi_deauth',
+            timeout=SSE_QUEUE_TIMEOUT,
+            keepalive_interval=SSE_KEEPALIVE_INTERVAL,
+        ),
+        mimetype='text/event-stream',
+    )
+    response.headers['Cache-Control'] = 'no-cache'
+    response.headers['X-Accel-Buffering'] = 'no'
+    response.headers['Connection'] = 'keep-alive'
+    return response
+
+
+@wifi_bp.route('/v2/deauth/alerts')
+def v2_deauth_alerts():
+    """
+    Get historical deauth alerts.
+
+    Query params:
+        - limit: Maximum number of alerts to return (default 100)
+    """
+    try:
+        limit = request.args.get('limit', 100, type=int)
+        limit = max(1, min(limit, 1000))  # Clamp between 1 and 1000
+
+        scanner = get_wifi_scanner()
+        alerts = scanner.get_deauth_alerts(limit=limit)
+
+        # Also include alerts from DataStore that might have been persisted
+        try:
+            stored_alerts = list(app_module.deauth_alerts.values())
+            # Merge and deduplicate by ID
+            alert_ids = {a.get('id') for a in alerts}
+            for alert in stored_alerts:
+                if alert.get('id') not in alert_ids:
+                    alerts.append(alert)
+            # Sort by timestamp descending
+            alerts.sort(key=lambda a: a.get('timestamp', 0), reverse=True)
+            alerts = alerts[:limit]
+        except Exception:
+            pass
+
+        return jsonify({
+            'alerts': alerts,
+            'count': len(alerts),
+        })
+    except Exception as e:
+        logger.exception("Error getting deauth alerts")
+        return jsonify({'error': str(e)}), 500
+
+
+@wifi_bp.route('/v2/deauth/clear', methods=['POST'])
+def v2_deauth_clear():
+    """Clear deauth alert history."""
+    try:
+        scanner = get_wifi_scanner()
+        scanner.clear_deauth_alerts()
+
+        # Clear the queue
+        while not app_module.deauth_detector_queue.empty():
+            try:
+                app_module.deauth_detector_queue.get_nowait()
+            except queue.Empty:
+                break
+
+        return jsonify({'status': 'cleared'})
+    except Exception as e:
+        logger.exception("Error clearing deauth alerts")
+        return jsonify({'error': str(e)}), 500

routes/wifi_v2.py

@@ -16,14 +16,16 @@ from typing import Generator
 
 from flask import Blueprint, jsonify, request, Response
 
-from utils.wifi import (
-    get_wifi_scanner,
-    analyze_channels,
-    get_hidden_correlator,
-    SCAN_MODE_QUICK,
-    SCAN_MODE_DEEP,
-)
-from utils.sse import format_sse
+from utils.wifi import (
+    get_wifi_scanner,
+    analyze_channels,
+    get_hidden_correlator,
+    SCAN_MODE_QUICK,
+    SCAN_MODE_DEEP,
+)
+from utils.sse import format_sse
+from utils.validation import validate_wifi_channel
+from utils.event_pipeline import process_event
 
 logger = logging.getLogger(__name__)
 
@@ -85,28 +87,44 @@ def start_deep_scan():
 
     Requires monitor mode interface and root privileges.
 
-    Request body:
-        interface: Monitor mode interface (e.g., 'wlan0mon')
-        band: Band to scan ('2.4', '5', 'all')
-        channel: Optional specific channel to monitor
+    Request body:
+        interface: Monitor mode interface (e.g., 'wlan0mon')
+        band: Band to scan ('2.4', '5', 'all')
+        channel: Optional specific channel to monitor
+        channels: Optional list or comma-separated channels to monitor
     """
     data = request.get_json() or {}
     interface = data.get('interface')
     band = data.get('band', 'all')
-    channel = data.get('channel')
-
-    if channel:
-        try:
-            channel = int(channel)
-        except ValueError:
-            return jsonify({'error': 'Invalid channel'}), 400
+    channel = data.get('channel')
+    channels = data.get('channels')
+
+    channel_list = None
+    if channels:
+        if isinstance(channels, str):
+            channel_list = [c.strip() for c in channels.split(',') if c.strip()]
+        elif isinstance(channels, (list, tuple, set)):
+            channel_list = list(channels)
+        else:
+            channel_list = [channels]
+        try:
+            channel_list = [validate_wifi_channel(c) for c in channel_list]
+        except (TypeError, ValueError):
+            return jsonify({'error': 'Invalid channels'}), 400
+
+    if channel:
+        try:
+            channel = validate_wifi_channel(channel)
+        except ValueError:
+            return jsonify({'error': 'Invalid channel'}), 400
 
     scanner = get_wifi_scanner()
-    success = scanner.start_deep_scan(
-        interface=interface,
-        band=band,
-        channel=channel,
-    )
+    success = scanner.start_deep_scan(
+        interface=interface,
+        band=band,
+        channel=channel,
+        channels=channel_list,
+    )
 
     if success:
         return jsonify({
@@ -388,10 +406,14 @@ def event_stream():
         - keepalive: Periodic keepalive
     """
     def generate() -> Generator[str, None, None]:
-        scanner = get_wifi_scanner()
-
-        for event in scanner.get_event_stream():
-            yield format_sse(event)
+        scanner = get_wifi_scanner()
+
+        for event in scanner.get_event_stream():
+            try:
+                process_event('wifi', event, event.get('type'))
+            except Exception:
+                pass
+            yield format_sse(event)
 
     response = Response(generate(), mimetype='text/event-stream')
     response.headers['Cache-Control'] = 'no-cache'

static/css/adsb_history.css

@@ -5,38 +5,42 @@
 }
 
 :root {
-    --bg-dark: #0a0c10;
-    --bg-panel: #0f1218;
-    --bg-card: #141a24;
-    --border-color: #1f2937;
-    --border-glow: rgba(74, 158, 255, 0.6);
-    --text-primary: #e8eaed;
-    --text-secondary: #9ca3af;
-    --text-dim: #4b5563;
-    --accent-cyan: #4a9eff;
-    --accent-green: #22c55e;
-    --accent-amber: #d4a853;
-    --grid-line: rgba(74, 158, 255, 0.08);
+    --font-sans: 'Roboto Condensed', 'Arial Narrow', Roboto, 'Helvetica Neue', Arial, sans-serif;
+    --font-mono: 'Roboto Condensed', 'Arial Narrow', Roboto, 'Helvetica Neue', Arial, sans-serif;
+    --bg-dark: #0b1118;
+    --bg-panel: #101823;
+    --bg-card: #151f2b;
+    --border-color: #263246;
+    --border-glow: rgba(74, 163, 255, 0.4);
+    --text-primary: #d7e0ee;
+    --text-secondary: #9fb0c7;
+    --text-dim: #6f7f94;
+    --accent-cyan: #4aa3ff;
+    --accent-green: #38c180;
+    --accent-amber: #d6a85e;
+    --grid-line: rgba(74, 163, 255, 0.1);
+    --noise-image: url("data:image/svg+xml,%3Csvg%20xmlns='http://www.w3.org/2000/svg'%20width='40'%20height='40'%20viewBox='0%200%2040%2040'%3E%3Cg%20fill='%23ffffff'%20fill-opacity='0.05'%3E%3Ccircle%20cx='3'%20cy='5'%20r='1'/%3E%3Ccircle%20cx='11'%20cy='9'%20r='1'/%3E%3Ccircle%20cx='18'%20cy='3'%20r='1'/%3E%3Ccircle%20cx='26'%20cy='12'%20r='1'/%3E%3Ccircle%20cx='34'%20cy='6'%20r='1'/%3E%3Ccircle%20cx='7'%20cy='19'%20r='1'/%3E%3Ccircle%20cx='15'%20cy='24'%20r='1'/%3E%3Ccircle%20cx='28'%20cy='22'%20r='1'/%3E%3Ccircle%20cx='36'%20cy='18'%20r='1'/%3E%3Ccircle%20cx='5'%20cy='33'%20r='1'/%3E%3Ccircle%20cx='19'%20cy='32'%20r='1'/%3E%3Ccircle%20cx='31'%20cy='34'%20r='1'/%3E%3C/g%3E%3C/svg%3E");
 }
 
 body {
-    font-family: 'Inter', -apple-system, BlinkMacSystemFont, sans-serif;
+    font-family: var(--font-sans);
     background: var(--bg-dark);
     color: var(--text-primary);
     min-height: 100vh;
 }
 
 .mono {
-    font-family: 'JetBrains Mono', monospace;
+    font-family: var(--font-mono);
 }
 
 .radar-bg {
     position: fixed;
     inset: 0;
     background-image:
+        var(--noise-image),
         linear-gradient(var(--grid-line) 1px, transparent 1px),
         linear-gradient(90deg, var(--grid-line) 1px, transparent 1px);
-    background-size: 50px 50px;
+    background-size: 40px 40px, 50px 50px, 50px 50px;
     pointer-events: none;
     z-index: 0;
 }
@@ -48,10 +52,12 @@ body {
     right: 0;
     height: 2px;
     background: linear-gradient(90deg, transparent, var(--accent-cyan), transparent);
+    color: var(--accent-cyan);
     animation: scan 6s linear infinite;
     pointer-events: none;
     z-index: 1;
-    opacity: 0.3;
+    opacity: 0.25;
+    box-shadow: 0 0 8px currentColor;
 }
 
 @keyframes scan {
@@ -72,6 +78,18 @@ body {
     gap: 12px;
 }
 
+.header::after {
+    content: '';
+    position: absolute;
+    left: 0;
+    right: 0;
+    bottom: 0;
+    height: 2px;
+    background: linear-gradient(90deg, transparent, var(--accent-cyan), transparent);
+    opacity: 0.6;
+    pointer-events: none;
+}
+
 .logo {
     font-size: 18px;
     font-weight: 700;
@@ -91,7 +109,7 @@ body {
     display: flex;
     align-items: center;
     gap: 12px;
-    font-family: 'JetBrains Mono', monospace;
+    font-family: var(--font-mono);
     font-size: 11px;
 }
 
@@ -268,7 +286,7 @@ body {
 }
 
 .status-pill {
-    font-family: 'JetBrains Mono', monospace;
+    font-family: var(--font-mono);
     font-size: 11px;
     padding: 8px 12px;
     border-radius: 999px;
@@ -306,7 +324,7 @@ body {
 }
 
 .panel-meta {
-    font-family: 'JetBrains Mono', monospace;
+    font-family: var(--font-mono);
     font-size: 11px;
     color: var(--accent-cyan);
 }
@@ -347,7 +365,7 @@ body {
 }
 
 .mono {
-    font-family: 'JetBrains Mono', monospace;
+    font-family: var(--font-mono);
 }
 
 .empty-row td,

static/css/agents.css

@@ -0,0 +1,331 @@
+/*
+ * Agents Management CSS
+ * Styles for the remote agent management interface
+ * Inherits CSS variables from core/variables.css
+ */
+
+/* Agent indicator in navigation */
+.agent-indicator {
+    display: flex;
+    align-items: center;
+    gap: 8px;
+    padding: 6px 12px;
+    background: rgba(0, 212, 255, 0.1);
+    border: 1px solid rgba(0, 212, 255, 0.3);
+    border-radius: 20px;
+    cursor: pointer;
+    transition: all 0.2s;
+}
+
+.agent-indicator:hover {
+    background: rgba(0, 212, 255, 0.2);
+    border-color: var(--accent-cyan);
+}
+
+.agent-indicator-dot {
+    width: 8px;
+    height: 8px;
+    border-radius: 50%;
+    background: var(--accent-green);
+    box-shadow: 0 0 6px var(--accent-green);
+}
+
+.agent-indicator-dot.remote {
+    background: var(--accent-cyan);
+    box-shadow: 0 0 6px var(--accent-cyan);
+}
+
+.agent-indicator-dot.multiple {
+    background: var(--accent-orange);
+    box-shadow: 0 0 6px var(--accent-orange);
+}
+
+.agent-indicator-label {
+    font-size: 11px;
+    color: var(--text-primary);
+    font-family: var(--font-mono);
+}
+
+.agent-indicator-count {
+    font-size: 10px;
+    padding: 2px 6px;
+    background: rgba(0, 212, 255, 0.2);
+    border-radius: 10px;
+    color: var(--accent-cyan);
+}
+
+/* Agent selector dropdown */
+.agent-selector {
+    position: relative;
+}
+
+.agent-selector-dropdown {
+    position: absolute;
+    top: 100%;
+    right: 0;
+    margin-top: 8px;
+    min-width: 280px;
+    background: var(--bg-secondary);
+    border: 1px solid var(--border-color);
+    border-radius: 8px;
+    box-shadow: 0 4px 20px rgba(0, 0, 0, 0.5);
+    z-index: 1000;
+    display: none;
+}
+
+.agent-selector-dropdown.show {
+    display: block;
+}
+
+.agent-selector-header {
+    display: flex;
+    justify-content: space-between;
+    align-items: center;
+    padding: 12px 15px;
+    border-bottom: 1px solid var(--border-color);
+}
+
+.agent-selector-header h4 {
+    margin: 0;
+    font-size: 12px;
+    color: var(--accent-cyan);
+    text-transform: uppercase;
+    letter-spacing: 1px;
+}
+
+.agent-selector-manage {
+    font-size: 11px;
+    color: var(--accent-cyan);
+    text-decoration: none;
+}
+
+.agent-selector-manage:hover {
+    text-decoration: underline;
+}
+
+.agent-selector-list {
+    max-height: 300px;
+    overflow-y: auto;
+}
+
+.agent-selector-item {
+    display: flex;
+    align-items: center;
+    gap: 10px;
+    padding: 10px 15px;
+    cursor: pointer;
+    transition: background 0.2s;
+    border-bottom: 1px solid var(--border-color);
+}
+
+.agent-selector-item:last-child {
+    border-bottom: none;
+}
+
+.agent-selector-item:hover {
+    background: rgba(0, 212, 255, 0.1);
+}
+
+.agent-selector-item.selected {
+    background: rgba(0, 212, 255, 0.15);
+    border-left: 3px solid var(--accent-cyan);
+}
+
+.agent-selector-item.local {
+    border-left: 3px solid var(--accent-green);
+}
+
+.agent-selector-item-status {
+    width: 8px;
+    height: 8px;
+    border-radius: 50%;
+    flex-shrink: 0;
+}
+
+.agent-selector-item-status.online {
+    background: var(--accent-green);
+}
+
+.agent-selector-item-status.offline {
+    background: var(--accent-red);
+}
+
+.agent-selector-item-info {
+    flex: 1;
+    min-width: 0;
+}
+
+.agent-selector-item-name {
+    font-size: 13px;
+    color: var(--text-primary);
+    white-space: nowrap;
+    overflow: hidden;
+    text-overflow: ellipsis;
+}
+
+.agent-selector-item-url {
+    font-size: 10px;
+    color: var(--text-secondary);
+    font-family: var(--font-mono);
+    white-space: nowrap;
+    overflow: hidden;
+    text-overflow: ellipsis;
+}
+
+.agent-selector-item-check {
+    color: var(--accent-green);
+    opacity: 0;
+}
+
+.agent-selector-item.selected .agent-selector-item-check {
+    opacity: 1;
+}
+
+/* Agent badge in data displays */
+.agent-badge {
+    display: inline-flex;
+    align-items: center;
+    gap: 4px;
+    padding: 2px 8px;
+    font-size: 10px;
+    background: rgba(0, 212, 255, 0.1);
+    color: var(--accent-cyan);
+    border-radius: 10px;
+    font-family: var(--font-mono);
+}
+
+.agent-badge.local,
+.agent-badge.agent-local {
+    background: rgba(0, 255, 136, 0.1);
+    color: var(--accent-green);
+}
+
+.agent-badge.agent-remote {
+    background: rgba(0, 212, 255, 0.1);
+    color: var(--accent-cyan);
+}
+
+/* WiFi table agent column */
+.wifi-networks-table .col-agent {
+    width: 100px;
+    text-align: center;
+}
+
+.wifi-networks-table th.col-agent {
+    font-size: 10px;
+}
+
+/* Bluetooth table agent column */
+.bt-devices-table .col-agent {
+    width: 100px;
+    text-align: center;
+}
+
+.agent-badge-dot {
+    width: 6px;
+    height: 6px;
+    border-radius: 50%;
+    background: currentColor;
+}
+
+/* Agent column in data tables */
+.data-table .agent-col {
+    width: 120px;
+    max-width: 120px;
+}
+
+/* Multi-agent stream indicator */
+.multi-agent-indicator {
+    position: fixed;
+    bottom: 20px;
+    left: 20px;
+    display: flex;
+    align-items: center;
+    gap: 8px;
+    padding: 8px 12px;
+    background: var(--bg-secondary);
+    border: 1px solid var(--border-color);
+    border-radius: 20px;
+    font-size: 11px;
+    color: var(--text-secondary);
+    z-index: 100;
+}
+
+.multi-agent-indicator.active {
+    border-color: var(--accent-cyan);
+    color: var(--accent-cyan);
+}
+
+.multi-agent-indicator-pulse {
+    width: 8px;
+    height: 8px;
+    border-radius: 50%;
+    background: var(--accent-cyan);
+    animation: pulse 2s infinite;
+}
+
+@keyframes pulse {
+    0%, 100% { opacity: 1; transform: scale(1); }
+    50% { opacity: 0.5; transform: scale(0.8); }
+}
+
+/* Agent connection status toast */
+.agent-toast {
+    position: fixed;
+    top: 80px;
+    right: 20px;
+    padding: 10px 15px;
+    background: var(--bg-secondary);
+    border: 1px solid var(--border-color);
+    border-radius: 6px;
+    font-size: 12px;
+    z-index: 1001;
+    animation: slideInRight 0.3s ease;
+}
+
+.agent-toast.connected {
+    border-color: var(--accent-green);
+    color: var(--accent-green);
+}
+
+.agent-toast.disconnected {
+    border-color: var(--accent-red);
+    color: var(--accent-red);
+}
+
+@keyframes slideInRight {
+    from {
+        transform: translateX(100%);
+        opacity: 0;
+    }
+    to {
+        transform: translateX(0);
+        opacity: 1;
+    }
+}
+
+/* Responsive adjustments */
+@media (max-width: 768px) {
+    .agent-indicator {
+        padding: 4px 8px;
+    }
+
+    .agent-indicator-label {
+        display: none;
+    }
+
+    .agent-selector-dropdown {
+        position: fixed;
+        top: auto;
+        bottom: 0;
+        left: 0;
+        right: 0;
+        margin: 0;
+        border-radius: 16px 16px 0 0;
+        max-height: 60vh;
+    }
+
+    .agents-grid {
+        grid-template-columns: 1fr;
+    }
+}

static/css/ais_dashboard.css

@@ -8,27 +8,51 @@
 }
 
 :root {
-    --bg-dark: #0a0c10;
-    --bg-panel: #0f1218;
-    --bg-card: #151a23;
-    --border-color: #1f2937;
-    --border-glow: #4a9eff;
-    --text-primary: #e8eaed;
-    --text-secondary: #9ca3af;
-    --text-dim: #4b5563;
-    --accent-green: #22c55e;
-    --accent-cyan: #4a9eff;
-    --accent-orange: #f59e0b;
-    --accent-red: #ef4444;
-    --accent-yellow: #eab308;
-    --accent-amber: #d4a853;
-    --grid-line: rgba(74, 158, 255, 0.08);
-    --radar-cyan: #4a9eff;
-    --radar-bg: #0f1218;
+    --font-sans: 'Roboto Condensed', 'Arial Narrow', Roboto, 'Helvetica Neue', Arial, sans-serif;
+    --font-mono: 'Roboto Condensed', 'Arial Narrow', Roboto, 'Helvetica Neue', Arial, sans-serif;
+    --bg-dark: #0b1118;
+    --bg-panel: #101823;
+    --bg-card: #151f2b;
+    --border-color: #263246;
+    --border-glow: #4aa3ff;
+    --text-primary: #d7e0ee;
+    --text-secondary: #9fb0c7;
+    --text-dim: #6f7f94;
+    --accent-green: #38c180;
+    --accent-cyan: #4aa3ff;
+    --accent-orange: #d6a85e;
+    --accent-red: #e25d5d;
+    --accent-yellow: #e1c26b;
+    --accent-amber: #d6a85e;
+    --grid-line: rgba(74, 163, 255, 0.1);
+    --noise-image: url("data:image/svg+xml,%3Csvg%20xmlns='http://www.w3.org/2000/svg'%20width='40'%20height='40'%20viewBox='0%200%2040%2040'%3E%3Cg%20fill='%23ffffff'%20fill-opacity='0.05'%3E%3Ccircle%20cx='3'%20cy='5'%20r='1'/%3E%3Ccircle%20cx='11'%20cy='9'%20r='1'/%3E%3Ccircle%20cx='18'%20cy='3'%20r='1'/%3E%3Ccircle%20cx='26'%20cy='12'%20r='1'/%3E%3Ccircle%20cx='34'%20cy='6'%20r='1'/%3E%3Ccircle%20cx='7'%20cy='19'%20r='1'/%3E%3Ccircle%20cx='15'%20cy='24'%20r='1'/%3E%3Ccircle%20cx='28'%20cy='22'%20r='1'/%3E%3Ccircle%20cx='36'%20cy='18'%20r='1'/%3E%3Ccircle%20cx='5'%20cy='33'%20r='1'/%3E%3Ccircle%20cx='19'%20cy='32'%20r='1'/%3E%3Ccircle%20cx='31'%20cy='34'%20r='1'/%3E%3C/g%3E%3C/svg%3E");
+    --radar-cyan: #4aa3ff;
+    --radar-bg: #101823;
+}
+
+[data-theme="light"] {
+    --bg-dark: #f4f7fb;
+    --bg-panel: #e9eef5;
+    --bg-card: #ffffff;
+    --border-color: #d1d9e6;
+    --border-glow: #1f5fa8;
+    --text-primary: #122034;
+    --text-secondary: #3a4a5f;
+    --text-dim: #6b7c93;
+    --accent-green: #1f8a57;
+    --accent-cyan: #1f5fa8;
+    --accent-orange: #b5863a;
+    --accent-red: #c74444;
+    --accent-yellow: #b5863a;
+    --accent-amber: #b5863a;
+    --grid-line: rgba(31, 95, 168, 0.12);
+    --noise-image: url("data:image/svg+xml,%3Csvg%20xmlns='http://www.w3.org/2000/svg'%20width='40'%20height='40'%20viewBox='0%200%2040%2040'%3E%3Cg%20fill='%23000000'%20fill-opacity='0.05'%3E%3Ccircle%20cx='3'%20cy='5'%20r='1'/%3E%3Ccircle%20cx='11'%20cy='9'%20r='1'/%3E%3Ccircle%20cx='18'%20cy='3'%20r='1'/%3E%3Ccircle%20cx='26'%20cy='12'%20r='1'/%3E%3Ccircle%20cx='34'%20cy='6'%20r='1'/%3E%3Ccircle%20cx='7'%20cy='19'%20r='1'/%3E%3Ccircle%20cx='15'%20cy='24'%20r='1'/%3E%3Ccircle%20cx='28'%20cy='22'%20r='1'/%3E%3Ccircle%20cx='36'%20cy='18'%20r='1'/%3E%3Ccircle%20cx='5'%20cy='33'%20r='1'/%3E%3Ccircle%20cx='19'%20cy='32'%20r='1'/%3E%3Ccircle%20cx='31'%20cy='34'%20r='1'/%3E%3C/g%3E%3C/svg%3E");
+    --radar-cyan: #1f5fa8;
+    --radar-bg: #e9eef5;
 }
 
 body {
-    font-family: 'Inter', -apple-system, BlinkMacSystemFont, sans-serif;
+    font-family: var(--font-sans);
     background: var(--bg-dark);
     color: var(--text-primary);
     min-height: 100vh;
@@ -43,9 +67,10 @@ body {
     right: 0;
     bottom: 0;
     background-image:
+        var(--noise-image),
         linear-gradient(var(--grid-line) 1px, transparent 1px),
         linear-gradient(90deg, var(--grid-line) 1px, transparent 1px);
-    background-size: 50px 50px;
+    background-size: 40px 40px, 50px 50px, 50px 50px;
     pointer-events: none;
     z-index: 0;
 }
@@ -58,10 +83,12 @@ body {
     right: 0;
     height: 2px;
     background: linear-gradient(90deg, transparent, var(--accent-cyan), transparent);
+    color: var(--accent-cyan);
     animation: scan 6s linear infinite;
     pointer-events: none;
     z-index: 1000;
-    opacity: 0.3;
+    opacity: 0.25;
+    box-shadow: 0 0 8px currentColor;
 }
 
 @keyframes scan {
@@ -89,6 +116,18 @@ body {
     min-height: 52px;
 }
 
+.header::after {
+    content: '';
+    position: absolute;
+    left: 0;
+    right: 0;
+    bottom: 0;
+    height: 2px;
+    background: linear-gradient(90deg, transparent, var(--accent-cyan), transparent);
+    opacity: 0.6;
+    pointer-events: none;
+}
+
 @media (min-width: 768px) {
     .header {
         padding: 12px 20px;
@@ -97,7 +136,7 @@ body {
 }
 
 .logo {
-    font-family: 'Inter', sans-serif;
+    font-family: var(--font-sans);
     font-size: 16px;
     font-weight: 700;
     letter-spacing: 2px;
@@ -132,10 +171,49 @@ body {
 
 .status-bar {
     display: flex;
-    gap: 20px;
+    gap: 12px;
     align-items: center;
-    font-family: 'JetBrains Mono', monospace;
+    font-family: var(--font-mono);
     font-size: 11px;
+    flex-wrap: nowrap;
+}
+
+.agent-selector-compact {
+    display: flex;
+    align-items: center;
+    gap: 8px;
+}
+
+.agent-selector-compact .agent-select-sm {
+    padding: 4px 8px;
+    background: var(--bg-card);
+    border: 1px solid var(--border-color);
+    border-radius: 4px;
+    color: var(--text-primary);
+    font-size: 11px;
+    font-family: var(--font-mono);
+}
+
+.agent-selector-compact .agent-status-dot {
+    width: 8px;
+    height: 8px;
+    border-radius: 50%;
+    background: var(--accent-green);
+    box-shadow: 0 0 6px var(--accent-green);
+}
+
+.agent-selector-compact .agent-status-dot.offline {
+    background: var(--accent-red);
+    box-shadow: 0 0 6px var(--accent-red);
+}
+
+.agent-selector-compact .show-all-label {
+    display: flex;
+    align-items: center;
+    gap: 4px;
+    font-size: 11px;
+    color: var(--text-secondary);
+    cursor: pointer;
 }
 
 .back-link {
@@ -183,7 +261,7 @@ body {
 }
 
 .strip-value {
-    font-family: 'JetBrains Mono', monospace;
+    font-family: var(--font-mono);
     font-size: 14px;
     font-weight: 600;
     color: var(--accent-cyan);
@@ -287,7 +365,7 @@ body {
     font-size: 11px;
     font-weight: 500;
     color: var(--accent-cyan);
-    font-family: 'JetBrains Mono', monospace;
+    font-family: var(--font-mono);
     padding-left: 8px;
     border-left: 1px solid rgba(74, 158, 255, 0.2);
     white-space: nowrap;
@@ -314,20 +392,21 @@ body {
 }
 
 .strip-btn.primary {
-    background: linear-gradient(135deg, var(--accent-cyan) 0%, #2563eb 100%);
+    background: linear-gradient(135deg, var(--accent-cyan) 0%, #2b6fb8 100%);
     border: none;
     color: white;
 }
 
 /* Main dashboard grid - Mobile first */
+/* Header ~52px + Nav 44px + Stats strip ~55px = ~151px, using 160px for safety */
 .dashboard {
     position: relative;
     z-index: 10;
     display: flex;
     flex-direction: column;
     gap: 0;
-    height: calc(100dvh - 95px);
-    height: calc(100vh - 95px);
+    height: calc(100dvh - 160px);
+    height: calc(100vh - 160px);
     min-height: 400px;
 }
 
@@ -367,13 +446,10 @@ body {
 /* Leaflet overrides - Dark map styling */
 .leaflet-container {
     background: var(--bg-dark) !important;
-    font-family: 'JetBrains Mono', monospace;
+    font-family: var(--font-mono);
 }
 
-.leaflet-tile-pane,
-.leaflet-container .leaflet-tile-pane {
-    filter: invert(1) hue-rotate(180deg) brightness(0.8) contrast(1.2) !important;
-}
+/* Using actual dark tiles now - no filter needed */
 
 .leaflet-control-zoom a {
     background: var(--bg-panel) !important;
@@ -441,7 +517,7 @@ body {
     padding: 10px 15px;
     background: rgba(74, 158, 255, 0.05);
     border-bottom: 1px solid rgba(74, 158, 255, 0.1);
-    font-family: 'Orbitron', 'JetBrains Mono', monospace;
+    font-family: 'Roboto Condensed', 'Arial Narrow', sans-serif;
     font-size: 11px;
     font-weight: 500;
     letter-spacing: 2px;
@@ -495,9 +571,8 @@ body {
 }
 
 .no-vessel-icon {
-    font-size: 36px;
     margin-bottom: 10px;
-    opacity: 0.5;
+    color: var(--accent-cyan);
 }
 
 .vessel-header {
@@ -508,11 +583,13 @@ body {
 }
 
 .vessel-icon {
-    font-size: 32px;
+    display: flex;
+    align-items: center;
+    justify-content: center;
 }
 
 .vessel-name {
-    font-family: 'Orbitron', 'JetBrains Mono', monospace;
+    font-family: 'Roboto Condensed', 'Arial Narrow', sans-serif;
     font-size: 16px;
     font-weight: 700;
     color: var(--accent-cyan);
@@ -520,7 +597,7 @@ body {
 }
 
 .vessel-mmsi {
-    font-family: 'JetBrains Mono', monospace;
+    font-family: var(--font-mono);
     font-size: 10px;
     color: var(--text-secondary);
     background: rgba(74, 158, 255, 0.1);
@@ -550,7 +627,7 @@ body {
 }
 
 .detail-value {
-    font-family: 'JetBrains Mono', monospace;
+    font-family: var(--font-mono);
     font-size: 12px;
     color: var(--accent-cyan);
 }
@@ -595,7 +672,10 @@ body {
 }
 
 .vessel-item-icon {
-    font-size: 20px;
+    display: flex;
+    align-items: center;
+    justify-content: center;
+    width: 24px;
 }
 
 .vessel-item-info {
@@ -603,20 +683,20 @@ body {
 }
 
 .vessel-item-name {
-    font-family: 'Orbitron', 'JetBrains Mono', monospace;
+    font-family: 'Roboto Condensed', 'Arial Narrow', sans-serif;
     font-size: 12px;
     font-weight: 600;
     color: var(--accent-cyan);
 }
 
 .vessel-item-type {
-    font-family: 'JetBrains Mono', monospace;
+    font-family: var(--font-mono);
     font-size: 9px;
     color: var(--text-secondary);
 }
 
 .vessel-item-speed {
-    font-family: 'JetBrains Mono', monospace;
+    font-family: var(--font-mono);
     font-size: 11px;
     color: var(--accent-cyan);
     text-align: right;
@@ -627,14 +707,31 @@ body {
     grid-column: 1 / -1;
     grid-row: 2;
     display: flex;
-    align-items: center;
+    align-items: stretch !important;
     flex-wrap: nowrap;
     gap: 8px;
     padding: 8px 15px;
     background: var(--bg-panel);
     border-top: 1px solid rgba(74, 158, 255, 0.3);
     font-size: 11px;
-    overflow-x: auto;
+    overflow: hidden;
+}
+
+.controls-bar > .control-group {
+    flex: 0 0 auto;
+    display: flex;
+    flex-direction: column;
+    justify-content: flex-start;
+    align-items: flex-start;
+    gap: 4px;
+    padding: 6px 10px;
+    background: rgba(74, 158, 255, 0.03);
+    border: 1px solid rgba(74, 158, 255, 0.1);
+    border-radius: 6px;
+}
+
+.controls-bar > .control-group > .control-group-items {
+    margin-top: auto;
 }
 
 .control-group {
@@ -686,7 +783,7 @@ body {
     border: 1px solid rgba(74, 158, 255, 0.3);
     border-radius: 4px;
     color: var(--accent-cyan);
-    font-family: 'JetBrains Mono', monospace;
+    font-family: var(--font-mono);
     font-size: 10px;
 }
 
@@ -697,7 +794,7 @@ body {
     border: 1px solid rgba(74, 158, 255, 0.3);
     border-radius: 4px;
     color: var(--accent-cyan);
-    font-family: 'JetBrains Mono', monospace;
+    font-family: var(--font-mono);
     font-size: 10px;
 }
 
@@ -716,7 +813,7 @@ body {
     border: none;
     background: var(--accent-green);
     color: #fff;
-    font-family: 'JetBrains Mono', monospace;
+    font-family: var(--font-mono);
     font-size: 10px;
     font-weight: 600;
     text-transform: uppercase;
@@ -747,19 +844,61 @@ body {
     border: none;
 }
 
-.vessel-marker-inner {
-    width: 24px;
-    height: 24px;
-    display: flex;
-    align-items: center;
-    justify-content: center;
-    font-size: 18px;
-    filter: drop-shadow(0 0 2px rgba(0,0,0,0.8));
-    transition: transform 0.3s ease;
+.vessel-marker svg {
+    transition: filter 0.2s ease;
 }
 
-.vessel-marker.selected .vessel-marker-inner {
-    filter: drop-shadow(0 0 6px var(--accent-cyan));
+.vessel-marker.selected svg {
+    filter: drop-shadow(0 0 8px rgba(255,255,255,0.8)) !important;
+}
+
+/* ============================================
+   TRACKED VESSEL PULSATING RING
+   ============================================ */
+.vessel-marker.selected {
+    position: relative;
+}
+
+.tracking-ring {
+    position: absolute;
+    top: 50%;
+    left: 50%;
+    transform: translate(-50%, -50%);
+    width: 40px;
+    height: 40px;
+    border: 2px solid var(--accent-cyan);
+    border-radius: 50%;
+    animation: tracking-pulse 1.5s ease-out infinite;
+    pointer-events: none;
+}
+
+.tracking-ring-inner {
+    position: absolute;
+    top: 50%;
+    left: 50%;
+    transform: translate(-50%, -50%);
+    width: 28px;
+    height: 28px;
+    border: 1px solid var(--accent-cyan);
+    border-radius: 50%;
+    animation: tracking-pulse 1.5s ease-out infinite 0.3s;
+    pointer-events: none;
+}
+
+@keyframes tracking-pulse {
+    0% {
+        transform: translate(-50%, -50%) scale(0.8);
+        opacity: 1;
+        border-color: rgba(74, 158, 255, 1);
+    }
+    50% {
+        opacity: 0.6;
+    }
+    100% {
+        transform: translate(-50%, -50%) scale(1.8);
+        opacity: 0;
+        border-color: rgba(74, 158, 255, 0);
+    }
 }
 
 /* Range rings */
@@ -791,7 +930,7 @@ body {
         display: flex !important;
         flex-direction: column !important;
         height: auto !important;
-        min-height: calc(100dvh - 95px);
+        min-height: calc(100dvh - 160px);
         overflow-y: auto !important;
         overflow-x: hidden;
         -webkit-overflow-scrolling: touch;
@@ -961,7 +1100,7 @@ body {
     padding: 6px 12px;
     background: rgba(0, 0, 0, 0.2);
     border-bottom: 1px solid rgba(245, 158, 11, 0.1);
-    font-family: 'JetBrains Mono', monospace;
+    font-family: var(--font-mono);
     font-size: 9px;
 }
 
@@ -1036,7 +1175,7 @@ body {
 }
 
 .dsc-message-category {
-    font-family: 'JetBrains Mono', monospace;
+    font-family: var(--font-mono);
     font-size: 9px;
     font-weight: 700;
     text-transform: uppercase;
@@ -1053,13 +1192,13 @@ body {
 }
 
 .dsc-message-time {
-    font-family: 'JetBrains Mono', monospace;
+    font-family: var(--font-mono);
     font-size: 9px;
     color: var(--text-dim);
 }
 
 .dsc-message-mmsi {
-    font-family: 'JetBrains Mono', monospace;
+    font-family: var(--font-mono);
     font-size: 11px;
     color: var(--accent-orange);
 }
@@ -1077,7 +1216,7 @@ body {
 }
 
 .dsc-message-pos {
-    font-family: 'JetBrains Mono', monospace;
+    font-family: var(--font-mono);
     font-size: 9px;
     color: var(--text-secondary);
 }
@@ -1105,7 +1244,7 @@ body {
 }
 
 .dsc-distress-alert .dsc-alert-header {
-    font-family: 'Orbitron', 'JetBrains Mono', monospace;
+    font-family: 'Roboto Condensed', 'Arial Narrow', sans-serif;
     font-size: 24px;
     font-weight: 700;
     color: var(--accent-red);
@@ -1114,7 +1253,7 @@ body {
 }
 
 .dsc-distress-alert .dsc-alert-mmsi {
-    font-family: 'JetBrains Mono', monospace;
+    font-family: var(--font-mono);
     font-size: 16px;
     color: var(--accent-cyan);
     margin-bottom: 8px;
@@ -1134,7 +1273,7 @@ body {
 }
 
 .dsc-distress-alert .dsc-alert-position {
-    font-family: 'JetBrains Mono', monospace;
+    font-family: var(--font-mono);
     font-size: 14px;
     color: var(--accent-cyan);
     margin-bottom: 16px;
@@ -1145,7 +1284,7 @@ body {
     border: none;
     color: white;
     padding: 10px 24px;
-    font-family: 'JetBrains Mono', monospace;
+    font-family: var(--font-mono);
     font-size: 12px;
     font-weight: 600;
     text-transform: uppercase;
@@ -1204,3 +1343,33 @@ body {
         font-size: 18px;
     }
 }
+
+/* GPS Indicator */
+.gps-indicator {
+    display: inline-flex;
+    align-items: center;
+    gap: 4px;
+    padding: 2px 8px;
+    background: rgba(34, 197, 94, 0.15);
+    border: 1px solid #22c55e;
+    border-radius: 12px;
+    font-size: 10px;
+    font-weight: 600;
+    color: #22c55e;
+    text-transform: uppercase;
+    letter-spacing: 0.5px;
+    margin-left: 10px;
+}
+
+.gps-indicator .gps-dot {
+    width: 6px;
+    height: 6px;
+    background: #22c55e;
+    border-radius: 50%;
+    animation: gps-pulse 2s ease-in-out infinite;
+}
+
+@keyframes gps-pulse {
+    0%, 100% { opacity: 1; transform: scale(1); }
+    50% { opacity: 0.5; transform: scale(0.8); }
+}

static/css/components/function-strip.css

@@ -0,0 +1,382 @@
+/* Function Strip (Action Bar) - Shared across modes
+ * Based on APRS strip pattern, reusable for Pager, Sensor, Bluetooth, WiFi, TSCM, etc.
+ */
+
+.function-strip {
+    background: linear-gradient(180deg, var(--bg-panel) 0%, var(--bg-dark) 100%);
+    border: 1px solid var(--border-color);
+    border-radius: 6px;
+    padding: 8px 12px;
+    margin-bottom: 10px;
+    overflow: visible;
+    min-height: 44px;
+}
+
+.function-strip-inner {
+    display: flex;
+    align-items: center;
+    gap: 8px;
+    min-width: max-content;
+}
+
+/* Strip title badge */
+.function-strip .strip-title {
+    font-size: 9px;
+    font-weight: 700;
+    letter-spacing: 1.5px;
+    text-transform: uppercase;
+    color: var(--text-muted);
+    white-space: nowrap;
+    padding: 4px 0;
+}
+
+/* Stats */
+.function-strip .strip-stat {
+    display: flex;
+    flex-direction: column;
+    align-items: center;
+    padding: 6px 10px;
+    background: rgba(74, 158, 255, 0.05);
+    border: 1px solid rgba(74, 158, 255, 0.15);
+    border-radius: 4px;
+    min-width: 55px;
+}
+
+.function-strip .strip-stat:hover {
+    background: rgba(74, 158, 255, 0.1);
+    border-color: rgba(74, 158, 255, 0.3);
+}
+
+.function-strip .strip-value {
+    font-family: var(--font-mono);
+    font-size: 14px;
+    font-weight: 600;
+    color: var(--accent-cyan);
+    line-height: 1.2;
+}
+
+.function-strip .strip-label {
+    font-size: 8px;
+    font-weight: 600;
+    color: var(--text-dim);
+    text-transform: uppercase;
+    letter-spacing: 0.5px;
+    margin-top: 1px;
+}
+
+.function-strip .strip-divider {
+    width: 1px;
+    height: 28px;
+    background: var(--border-color);
+    margin: 0 4px;
+}
+
+/* Signal stat coloring */
+.function-strip .signal-stat.good .strip-value { color: var(--accent-green); }
+.function-strip .signal-stat.warning .strip-value { color: var(--accent-yellow); }
+.function-strip .signal-stat.poor .strip-value { color: var(--accent-red); }
+
+/* Controls */
+.function-strip .strip-control {
+    display: flex;
+    align-items: center;
+    gap: 4px;
+}
+
+.function-strip .strip-select {
+    background: rgba(0,0,0,0.3);
+    border: 1px solid var(--border-color);
+    color: var(--text-primary);
+    padding: 4px 8px;
+    border-radius: 4px;
+    font-size: 10px;
+    cursor: pointer;
+}
+
+.function-strip .strip-select:hover {
+    border-color: var(--accent-cyan);
+}
+
+.function-strip .strip-select:disabled {
+    opacity: 0.5;
+    cursor: not-allowed;
+}
+
+.function-strip .strip-input-label {
+    font-size: 9px;
+    color: var(--text-muted);
+    font-weight: 600;
+}
+
+.function-strip .strip-input {
+    background: rgba(0,0,0,0.3);
+    border: 1px solid var(--border-color);
+    color: var(--text-primary);
+    padding: 4px 6px;
+    border-radius: 4px;
+    font-size: 10px;
+    width: 50px;
+    text-align: center;
+}
+
+.function-strip .strip-input:hover,
+.function-strip .strip-input:focus {
+    border-color: var(--accent-cyan);
+    outline: none;
+}
+
+.function-strip .strip-input:disabled {
+    opacity: 0.5;
+    cursor: not-allowed;
+}
+
+/* Wider input for frequency values */
+.function-strip .strip-input.wide {
+    width: 70px;
+}
+
+/* Tool Status Indicators */
+.function-strip .strip-tools {
+    display: flex;
+    gap: 4px;
+}
+
+.function-strip .strip-tool {
+    font-size: 9px;
+    font-weight: 600;
+    padding: 3px 6px;
+    border-radius: 3px;
+    background: rgba(255, 59, 48, 0.2);
+    color: var(--accent-red);
+    border: 1px solid rgba(255, 59, 48, 0.3);
+}
+
+.function-strip .strip-tool.ok {
+    background: rgba(0, 255, 136, 0.1);
+    color: var(--accent-green);
+    border-color: rgba(0, 255, 136, 0.3);
+}
+
+.function-strip .strip-tool.warn {
+    background: rgba(255, 193, 7, 0.2);
+    color: var(--accent-yellow);
+    border-color: rgba(255, 193, 7, 0.3);
+}
+
+/* Buttons */
+.function-strip .strip-btn {
+    background: rgba(74, 158, 255, 0.1);
+    border: 1px solid rgba(74, 158, 255, 0.2);
+    color: var(--text-primary);
+    padding: 6px 12px;
+    border-radius: 4px;
+    font-size: 10px;
+    font-weight: 600;
+    cursor: pointer;
+    transition: all 0.2s;
+    white-space: nowrap;
+}
+
+.function-strip .strip-btn:hover:not(:disabled) {
+    background: rgba(74, 158, 255, 0.2);
+    border-color: rgba(74, 158, 255, 0.4);
+}
+
+.function-strip .strip-btn.primary {
+    background: linear-gradient(135deg, var(--accent-green) 0%, #10b981 100%);
+    border: none;
+    color: #000;
+}
+
+.function-strip .strip-btn.primary:hover:not(:disabled) {
+    filter: brightness(1.1);
+}
+
+.function-strip .strip-btn.stop {
+    background: linear-gradient(135deg, var(--accent-red) 0%, #dc2626 100%);
+    border: none;
+    color: #fff;
+}
+
+.function-strip .strip-btn.stop:hover:not(:disabled) {
+    filter: brightness(1.1);
+}
+
+.function-strip .strip-btn:disabled {
+    opacity: 0.5;
+    cursor: not-allowed;
+}
+
+/* Status indicator */
+.function-strip .strip-status {
+    display: flex;
+    align-items: center;
+    gap: 6px;
+    padding: 4px 8px;
+    background: rgba(0,0,0,0.2);
+    border-radius: 4px;
+    font-size: 10px;
+    font-weight: 600;
+    color: var(--text-secondary);
+}
+
+.function-strip .status-dot {
+    width: 8px;
+    height: 8px;
+    border-radius: 50%;
+    background: var(--text-muted);
+}
+
+.function-strip .status-dot.inactive {
+    background: var(--text-muted);
+}
+
+.function-strip .status-dot.active,
+.function-strip .status-dot.scanning,
+.function-strip .status-dot.decoding {
+    background: var(--accent-cyan);
+    animation: strip-pulse 1.5s ease-in-out infinite;
+}
+
+.function-strip .status-dot.listening,
+.function-strip .status-dot.tracking,
+.function-strip .status-dot.receiving {
+    background: var(--accent-green);
+    animation: strip-pulse 1.5s ease-in-out infinite;
+}
+
+.function-strip .status-dot.sweeping {
+    background: var(--accent-orange);
+    animation: strip-pulse 1s ease-in-out infinite;
+}
+
+.function-strip .status-dot.error {
+    background: var(--accent-red);
+}
+
+@keyframes strip-pulse {
+    0%, 100% { opacity: 1; box-shadow: 0 0 4px 2px currentColor; }
+    50% { opacity: 0.6; box-shadow: none; }
+}
+
+/* Time display */
+.function-strip .strip-time {
+    font-family: var(--font-mono);
+    font-size: 10px;
+    color: var(--text-muted);
+    padding: 4px 8px;
+    background: rgba(0,0,0,0.2);
+    border-radius: 4px;
+    white-space: nowrap;
+}
+
+/* Mode-specific accent colors */
+.function-strip.pager-strip .strip-stat {
+    background: rgba(255, 193, 7, 0.05);
+    border-color: rgba(255, 193, 7, 0.15);
+}
+.function-strip.pager-strip .strip-stat:hover {
+    background: rgba(255, 193, 7, 0.1);
+    border-color: rgba(255, 193, 7, 0.3);
+}
+.function-strip.pager-strip .strip-value {
+    color: var(--accent-yellow);
+}
+
+.function-strip.sensor-strip .strip-stat {
+    background: rgba(0, 255, 136, 0.05);
+    border-color: rgba(0, 255, 136, 0.15);
+}
+.function-strip.sensor-strip .strip-stat:hover {
+    background: rgba(0, 255, 136, 0.1);
+    border-color: rgba(0, 255, 136, 0.3);
+}
+.function-strip.sensor-strip .strip-value {
+    color: var(--accent-green);
+}
+
+.function-strip.bt-strip .strip-stat {
+    background: rgba(0, 122, 255, 0.05);
+    border-color: rgba(0, 122, 255, 0.15);
+}
+.function-strip.bt-strip .strip-stat:hover {
+    background: rgba(0, 122, 255, 0.1);
+    border-color: rgba(0, 122, 255, 0.3);
+}
+.function-strip.bt-strip .strip-value {
+    color: #0a84ff;
+}
+
+.function-strip.wifi-strip .strip-stat {
+    background: rgba(255, 149, 0, 0.05);
+    border-color: rgba(255, 149, 0, 0.15);
+}
+.function-strip.wifi-strip .strip-stat:hover {
+    background: rgba(255, 149, 0, 0.1);
+    border-color: rgba(255, 149, 0, 0.3);
+}
+.function-strip.wifi-strip .strip-value {
+    color: var(--accent-orange);
+}
+
+.function-strip.tscm-strip {
+    margin-top: 4px; /* Extra clearance to prevent top clipping */
+}
+
+.function-strip.tscm-strip .strip-stat {
+    background: rgba(255, 59, 48, 0.15);
+    border: 1px solid rgba(255, 59, 48, 0.4);
+}
+.function-strip.tscm-strip .strip-stat:hover {
+    background: rgba(255, 59, 48, 0.25);
+    border-color: rgba(255, 59, 48, 0.6);
+}
+.function-strip.tscm-strip .strip-value {
+    color: #ef4444; /* Explicit red color */
+}
+.function-strip.tscm-strip .strip-label {
+    color: #9ca3af; /* Explicit light gray */
+}
+.function-strip.tscm-strip .strip-select {
+    color: #e8eaed; /* Explicit white for selects */
+    background: rgba(0, 0, 0, 0.4);
+}
+.function-strip.tscm-strip .strip-btn {
+    color: #e8eaed; /* Explicit white for buttons */
+}
+.function-strip.tscm-strip .strip-tool {
+    color: #e8eaed; /* Explicit white for tool indicators */
+}
+.function-strip.tscm-strip .strip-time,
+.function-strip.tscm-strip .strip-status span {
+    color: #9ca3af; /* Explicit gray for status/time */
+}
+
+.function-strip.rtlamr-strip .strip-stat {
+    background: rgba(175, 82, 222, 0.05);
+    border-color: rgba(175, 82, 222, 0.15);
+}
+.function-strip.rtlamr-strip .strip-stat:hover {
+    background: rgba(175, 82, 222, 0.1);
+    border-color: rgba(175, 82, 222, 0.3);
+}
+.function-strip.rtlamr-strip .strip-value {
+    color: #af52de;
+}
+
+.function-strip.listening-strip .strip-stat {
+    background: rgba(74, 158, 255, 0.05);
+    border-color: rgba(74, 158, 255, 0.15);
+}
+.function-strip.listening-strip .strip-stat:hover {
+    background: rgba(74, 158, 255, 0.1);
+    border-color: rgba(74, 158, 255, 0.3);
+}
+.function-strip.listening-strip .strip-value {
+    color: var(--accent-cyan);
+}
+
+/* Threat-colored stats for TSCM */
+.function-strip .strip-stat.threat-high .strip-value { color: var(--accent-red); }
+.function-strip .strip-stat.threat-review .strip-value { color: var(--accent-orange); }
+.function-strip .strip-stat.threat-info .strip-value { color: var(--accent-cyan); }

static/css/components/proximity-viz.css

@@ -14,10 +14,18 @@
 
 .radar-device {
     transition: transform 0.2s ease;
+    transform-origin: center center;
+    cursor: pointer;
 }
 
 .radar-device:hover {
-    transform: scale(1.3);
+    transform: scale(1.2);
+}
+
+/* Invisible larger hit area to prevent hover flicker */
+.radar-device-hitarea {
+    fill: transparent;
+    pointer-events: all;
 }
 
 .radar-dot-pulse circle:first-child {

static/css/components/toast.css

@@ -0,0 +1,626 @@
+/**
+ * Toast Notification System
+ * Reusable toast notifications for update alerts and other messages
+ */
+
+/* ============================================
+   TOAST CONTAINER
+   ============================================ */
+#toastContainer {
+    position: fixed;
+    bottom: 20px;
+    right: 20px;
+    z-index: 10001;
+    display: flex;
+    flex-direction: column;
+    gap: 12px;
+    pointer-events: none;
+}
+
+#toastContainer > * {
+    pointer-events: auto;
+}
+
+/* ============================================
+   UPDATE TOAST
+   ============================================ */
+.update-toast {
+    display: flex;
+    background: var(--bg-card, #121620);
+    border: 1px solid var(--border-color, #1f2937);
+    border-radius: 8px;
+    box-shadow: 0 8px 32px rgba(0, 0, 0, 0.4);
+    max-width: 340px;
+    overflow: hidden;
+    opacity: 0;
+    transform: translateX(100%);
+    transition: all 0.3s cubic-bezier(0.4, 0, 0.2, 1);
+}
+
+.update-toast.show {
+    opacity: 1;
+    transform: translateX(0);
+}
+
+.update-toast-indicator {
+    width: 4px;
+    background: var(--accent-green, #22c55e);
+    flex-shrink: 0;
+}
+
+.update-toast-content {
+    flex: 1;
+    padding: 14px 16px;
+}
+
+.update-toast-header {
+    display: flex;
+    align-items: center;
+    gap: 8px;
+    margin-bottom: 8px;
+}
+
+.update-toast-icon {
+    color: var(--accent-green, #22c55e);
+    display: flex;
+    align-items: center;
+}
+
+.update-toast-icon svg {
+    width: 18px;
+    height: 18px;
+}
+
+.update-toast-title {
+    font-size: 13px;
+    font-weight: 600;
+    color: var(--text-primary, #e8eaed);
+    flex: 1;
+}
+
+.update-toast-close {
+    background: none;
+    border: none;
+    color: var(--text-dim, #4b5563);
+    font-size: 20px;
+    line-height: 1;
+    cursor: pointer;
+    padding: 0;
+    margin: -4px;
+    transition: color 0.15s;
+}
+
+.update-toast-close:hover {
+    color: var(--text-secondary, #9ca3af);
+}
+
+.update-toast-body {
+    font-size: 12px;
+    color: var(--text-secondary, #9ca3af);
+    margin-bottom: 12px;
+}
+
+.update-toast-body strong {
+    color: var(--accent-cyan, #4a9eff);
+}
+
+.update-toast-actions {
+    display: flex;
+    gap: 8px;
+}
+
+.update-toast-btn {
+    font-family: inherit;
+    font-size: 11px;
+    font-weight: 500;
+    padding: 6px 12px;
+    border-radius: 4px;
+    border: none;
+    cursor: pointer;
+    transition: all 0.15s;
+}
+
+.update-toast-btn-primary {
+    background: var(--accent-green, #22c55e);
+    color: #000;
+}
+
+.update-toast-btn-primary:hover {
+    background: #34d673;
+}
+
+.update-toast-btn-secondary {
+    background: var(--bg-secondary, #0f1218);
+    color: var(--text-secondary, #9ca3af);
+    border: 1px solid var(--border-color, #1f2937);
+}
+
+.update-toast-btn-secondary:hover {
+    background: var(--bg-tertiary, #151a23);
+    border-color: var(--border-light, #374151);
+}
+
+/* ============================================
+   UPDATE MODAL
+   ============================================ */
+.update-modal-overlay {
+    position: fixed;
+    top: 0;
+    left: 0;
+    right: 0;
+    bottom: 0;
+    background: rgba(0, 0, 0, 0.7);
+    backdrop-filter: blur(4px);
+    z-index: 10002;
+    display: flex;
+    align-items: center;
+    justify-content: center;
+    opacity: 0;
+    visibility: hidden;
+    transition: all 0.2s ease;
+}
+
+.update-modal-overlay.show {
+    opacity: 1;
+    visibility: visible;
+}
+
+.update-modal {
+    background: var(--bg-card, #121620);
+    border: 1px solid var(--border-color, #1f2937);
+    border-radius: 12px;
+    width: 90%;
+    max-width: 520px;
+    max-height: 85vh;
+    display: flex;
+    flex-direction: column;
+    box-shadow: 0 20px 60px rgba(0, 0, 0, 0.5);
+    transform: scale(0.95);
+    transition: transform 0.2s ease;
+}
+
+.update-modal-overlay.show .update-modal {
+    transform: scale(1);
+}
+
+.update-modal-header {
+    display: flex;
+    align-items: center;
+    justify-content: space-between;
+    padding: 16px 20px;
+    border-bottom: 1px solid var(--border-color, #1f2937);
+}
+
+.update-modal-title {
+    display: flex;
+    align-items: center;
+    gap: 10px;
+    font-size: 16px;
+    font-weight: 600;
+    color: var(--text-primary, #e8eaed);
+}
+
+.update-modal-icon {
+    color: var(--accent-green, #22c55e);
+    display: flex;
+}
+
+.update-modal-icon svg {
+    width: 22px;
+    height: 22px;
+}
+
+.update-modal-close {
+    background: none;
+    border: none;
+    color: var(--text-dim, #4b5563);
+    font-size: 24px;
+    line-height: 1;
+    cursor: pointer;
+    padding: 4px;
+    transition: color 0.15s;
+}
+
+.update-modal-close:hover {
+    color: var(--accent-red, #ef4444);
+}
+
+.update-modal-body {
+    padding: 20px;
+    overflow-y: auto;
+    flex: 1;
+}
+
+/* Version Info */
+.update-version-info {
+    display: flex;
+    align-items: center;
+    justify-content: center;
+    gap: 16px;
+    padding: 16px;
+    background: var(--bg-secondary, #0f1218);
+    border-radius: 8px;
+    margin-bottom: 20px;
+}
+
+.update-version-current,
+.update-version-latest {
+    text-align: center;
+}
+
+.update-version-label {
+    display: block;
+    font-size: 10px;
+    font-weight: 500;
+    text-transform: uppercase;
+    letter-spacing: 0.05em;
+    color: var(--text-dim, #4b5563);
+    margin-bottom: 4px;
+}
+
+.update-version-value {
+    font-family: var(--font-mono);
+    font-size: 18px;
+    font-weight: 600;
+    color: var(--text-secondary, #9ca3af);
+}
+
+.update-version-new {
+    color: var(--accent-green, #22c55e);
+}
+
+.update-version-arrow {
+    color: var(--text-dim, #4b5563);
+}
+
+.update-version-arrow svg {
+    width: 20px;
+    height: 20px;
+}
+
+/* Sections */
+.update-section {
+    margin-bottom: 20px;
+}
+
+.update-section-title {
+    font-size: 11px;
+    font-weight: 600;
+    text-transform: uppercase;
+    letter-spacing: 0.05em;
+    color: var(--text-dim, #4b5563);
+    margin-bottom: 10px;
+}
+
+.update-release-notes {
+    font-size: 13px;
+    color: var(--text-secondary, #9ca3af);
+    background: var(--bg-secondary, #0f1218);
+    border: 1px solid var(--border-color, #1f2937);
+    border-radius: 6px;
+    padding: 14px;
+    max-height: 200px;
+    overflow-y: auto;
+    line-height: 1.6;
+}
+
+.update-release-notes h2,
+.update-release-notes h3,
+.update-release-notes h4 {
+    color: var(--text-primary, #e8eaed);
+    margin: 16px 0 8px 0;
+    font-size: 14px;
+}
+
+.update-release-notes h2:first-child,
+.update-release-notes h3:first-child,
+.update-release-notes h4:first-child {
+    margin-top: 0;
+}
+
+.update-release-notes ul {
+    margin: 8px 0;
+    padding-left: 20px;
+}
+
+.update-release-notes li {
+    margin: 4px 0;
+}
+
+.update-release-notes code {
+    font-family: var(--font-mono);
+    font-size: 11px;
+    background: var(--bg-tertiary, #151a23);
+    padding: 2px 6px;
+    border-radius: 3px;
+    color: var(--accent-cyan, #4a9eff);
+}
+
+.update-release-notes p {
+    margin: 8px 0;
+}
+
+/* Warning */
+.update-warning {
+    display: flex;
+    gap: 12px;
+    padding: 14px;
+    background: rgba(245, 158, 11, 0.1);
+    border: 1px solid rgba(245, 158, 11, 0.3);
+    border-radius: 6px;
+    margin-bottom: 16px;
+}
+
+.update-warning-icon {
+    color: var(--accent-orange, #f59e0b);
+    flex-shrink: 0;
+}
+
+.update-warning-icon svg {
+    width: 20px;
+    height: 20px;
+}
+
+.update-warning-text {
+    font-size: 12px;
+    color: var(--text-secondary, #9ca3af);
+}
+
+.update-warning-text strong {
+    display: block;
+    color: var(--accent-orange, #f59e0b);
+    margin-bottom: 4px;
+}
+
+.update-warning-text p {
+    margin: 0;
+}
+
+/* Options */
+.update-options {
+    margin-bottom: 16px;
+}
+
+.update-option {
+    display: flex;
+    align-items: center;
+    gap: 10px;
+    font-size: 12px;
+    color: var(--text-secondary, #9ca3af);
+    cursor: pointer;
+}
+
+.update-option input[type="checkbox"] {
+    width: 16px;
+    height: 16px;
+    accent-color: var(--accent-cyan, #4a9eff);
+}
+
+/* Progress */
+.update-progress {
+    display: flex;
+    align-items: center;
+    justify-content: center;
+    gap: 12px;
+    padding: 20px;
+    font-size: 13px;
+    color: var(--text-secondary, #9ca3af);
+}
+
+.update-progress-spinner {
+    width: 20px;
+    height: 20px;
+    border: 2px solid var(--border-color, #1f2937);
+    border-top-color: var(--accent-cyan, #4a9eff);
+    border-radius: 50%;
+    animation: updateSpin 0.8s linear infinite;
+}
+
+@keyframes updateSpin {
+    to { transform: rotate(360deg); }
+}
+
+/* Results */
+.update-result {
+    display: flex;
+    gap: 12px;
+    padding: 14px;
+    border-radius: 6px;
+    margin-top: 16px;
+}
+
+.update-result-icon {
+    flex-shrink: 0;
+}
+
+.update-result-icon svg {
+    width: 20px;
+    height: 20px;
+}
+
+.update-result-text {
+    font-size: 12px;
+    line-height: 1.5;
+}
+
+.update-result-text code {
+    font-family: var(--font-mono);
+    font-size: 11px;
+    background: rgba(0, 0, 0, 0.2);
+    padding: 2px 6px;
+    border-radius: 3px;
+    display: inline-block;
+    word-break: break-all;
+}
+
+.update-result-success {
+    background: rgba(34, 197, 94, 0.1);
+    border: 1px solid rgba(34, 197, 94, 0.3);
+}
+
+.update-result-success .update-result-icon {
+    color: var(--accent-green, #22c55e);
+}
+
+.update-result-success .update-result-text {
+    color: var(--accent-green, #22c55e);
+}
+
+.update-result-error {
+    background: rgba(239, 68, 68, 0.1);
+    border: 1px solid rgba(239, 68, 68, 0.3);
+}
+
+.update-result-error .update-result-icon {
+    color: var(--accent-red, #ef4444);
+}
+
+.update-result-error .update-result-text {
+    color: var(--text-secondary, #9ca3af);
+}
+
+.update-result-error .update-result-text strong {
+    color: var(--accent-red, #ef4444);
+}
+
+.update-result-warning {
+    background: rgba(245, 158, 11, 0.1);
+    border: 1px solid rgba(245, 158, 11, 0.3);
+}
+
+.update-result-warning .update-result-icon {
+    color: var(--accent-orange, #f59e0b);
+}
+
+.update-result-warning .update-result-text {
+    color: var(--text-secondary, #9ca3af);
+}
+
+.update-result-warning .update-result-text strong {
+    color: var(--accent-orange, #f59e0b);
+}
+
+.update-result-info {
+    background: rgba(74, 158, 255, 0.1);
+    border: 1px solid rgba(74, 158, 255, 0.3);
+}
+
+.update-result-info .update-result-icon {
+    color: var(--accent-cyan, #4a9eff);
+}
+
+.update-result-info .update-result-text {
+    color: var(--text-secondary, #9ca3af);
+}
+
+/* Footer */
+.update-modal-footer {
+    display: flex;
+    align-items: center;
+    justify-content: space-between;
+    padding: 14px 20px;
+    border-top: 1px solid var(--border-color, #1f2937);
+    background: var(--bg-secondary, #0f1218);
+    border-radius: 0 0 12px 12px;
+}
+
+.update-modal-link {
+    display: inline-flex;
+    align-items: center;
+    gap: 6px;
+    font-size: 12px;
+    color: var(--text-dim, #4b5563);
+    text-decoration: none;
+    transition: color 0.15s;
+}
+
+.update-modal-link:hover {
+    color: var(--accent-cyan, #4a9eff);
+}
+
+.update-modal-actions {
+    display: flex;
+    gap: 10px;
+}
+
+.update-modal-btn {
+    font-family: inherit;
+    font-size: 12px;
+    font-weight: 500;
+    padding: 8px 16px;
+    border-radius: 6px;
+    border: none;
+    cursor: pointer;
+    transition: all 0.15s;
+}
+
+.update-modal-btn:disabled {
+    opacity: 0.5;
+    cursor: not-allowed;
+}
+
+.update-modal-btn-primary {
+    background: var(--accent-green, #22c55e);
+    color: #000;
+}
+
+.update-modal-btn-primary:hover:not(:disabled) {
+    background: #34d673;
+}
+
+.update-modal-btn-secondary {
+    background: var(--bg-tertiary, #151a23);
+    color: var(--text-secondary, #9ca3af);
+    border: 1px solid var(--border-color, #1f2937);
+}
+
+.update-modal-btn-secondary:hover:not(:disabled) {
+    background: var(--bg-elevated, #1a202c);
+    border-color: var(--border-light, #374151);
+}
+
+/* ============================================
+   RESPONSIVE
+   ============================================ */
+@media (max-width: 480px) {
+    #toastContainer {
+        bottom: 10px;
+        right: 10px;
+        left: 10px;
+    }
+
+    .update-toast {
+        max-width: none;
+    }
+
+    .update-modal {
+        width: 95%;
+        max-height: 90vh;
+    }
+
+    .update-version-info {
+        flex-direction: column;
+        gap: 10px;
+    }
+
+    .update-version-arrow {
+        transform: rotate(90deg);
+    }
+
+    .update-modal-footer {
+        flex-direction: column;
+        gap: 12px;
+    }
+
+    .update-modal-link {
+        order: 2;
+    }
+
+    .update-modal-actions {
+        width: 100%;
+    }
+
+    .update-modal-btn {
+        flex: 1;
+    }
+}

static/css/components/ux-platform.css

@@ -0,0 +1,440 @@
+/* Shared UX platform components: run-state strip, command palette, setup assistant, and toasts */
+
+.run-state-strip {
+    display: flex;
+    align-items: center;
+    justify-content: space-between;
+    gap: 10px;
+    padding: 8px 14px;
+    margin: 6px 12px 0;
+    border: 1px solid rgba(74, 163, 255, 0.32);
+    border-radius: 8px;
+    background: linear-gradient(180deg, rgba(19, 30, 44, 0.96), rgba(11, 18, 28, 0.97));
+    box-shadow: 0 12px 24px rgba(0, 0, 0, 0.28), inset 0 1px 0 rgba(255, 255, 255, 0.04);
+}
+
+.run-state-left {
+    display: flex;
+    align-items: center;
+    gap: 8px;
+    flex-wrap: wrap;
+    min-width: 0;
+}
+
+#runStateChips {
+    display: flex;
+    align-items: center;
+    gap: 6px;
+    flex-wrap: wrap;
+}
+
+.run-state-label {
+    font-size: 10px;
+    text-transform: uppercase;
+    letter-spacing: 0.06em;
+    color: var(--text-dim, #8697aa);
+    font-weight: 600;
+}
+
+.run-state-chip {
+    display: inline-flex;
+    align-items: center;
+    gap: 6px;
+    padding: 3px 7px;
+    border-radius: 999px;
+    border: 1px solid rgba(74, 163, 255, 0.25);
+    background: linear-gradient(180deg, rgba(17, 26, 38, 0.82), rgba(12, 18, 28, 0.84));
+    font-size: 10px;
+    color: var(--text-secondary, #b1c2d4);
+    white-space: nowrap;
+}
+
+.run-state-chip .dot {
+    width: 6px;
+    height: 6px;
+    border-radius: 50%;
+    background: #667788;
+    box-shadow: 0 0 0 0 rgba(102, 119, 136, 0.45);
+}
+
+.run-state-chip.running .dot {
+    background: var(--accent-green, #28c27a);
+    box-shadow: 0 0 0 4px rgba(40, 194, 122, 0.16), 0 0 12px rgba(40, 194, 122, 0.35);
+}
+
+.run-state-chip.active {
+    border-color: rgba(74, 163, 255, 0.65);
+    color: var(--text-primary, #e6edf5);
+    box-shadow: inset 0 0 0 1px rgba(74, 163, 255, 0.18);
+}
+
+.run-state-right {
+    display: inline-flex;
+    align-items: center;
+    gap: 8px;
+}
+
+.run-state-value {
+    font-size: 10px;
+    color: var(--text-dim, #8697aa);
+}
+
+.run-state-btn {
+    background: linear-gradient(180deg, rgba(17, 27, 41, 0.9), rgba(10, 16, 25, 0.92));
+    color: var(--accent-cyan, #4aa3ff);
+    border: 1px solid rgba(74, 163, 255, 0.45);
+    border-radius: 6px;
+    font-size: 10px;
+    padding: 4px 8px;
+    cursor: pointer;
+    transition: background 0.16s ease, border-color 0.16s ease, transform 0.16s ease;
+}
+
+.run-state-btn:hover {
+    background: rgba(74, 163, 255, 0.14);
+    border-color: rgba(74, 163, 255, 0.7);
+    transform: translateY(-1px);
+}
+
+.command-palette-overlay {
+    position: fixed;
+    inset: 0;
+    display: none;
+    align-items: flex-start;
+    justify-content: center;
+    padding: 10vh 18px 0;
+    z-index: 25000;
+    background: rgba(4, 8, 14, 0.65);
+    backdrop-filter: blur(3px);
+}
+
+.command-palette-overlay.open {
+    display: flex;
+}
+
+.command-palette {
+    width: min(760px, 100%);
+    border: 1px solid rgba(74, 163, 255, 0.32);
+    border-radius: 12px;
+    background: linear-gradient(180deg, rgba(16, 26, 39, 0.98), rgba(10, 17, 27, 0.98));
+    box-shadow: 0 26px 60px rgba(0, 0, 0, 0.56), inset 0 1px 0 rgba(255, 255, 255, 0.04);
+    overflow: hidden;
+}
+
+.command-palette-header {
+    display: flex;
+    align-items: center;
+    gap: 10px;
+    padding: 10px 12px;
+    border-bottom: 1px solid var(--border-color, #1e2d3d);
+}
+
+.command-palette-input {
+    width: 100%;
+    border: none;
+    outline: none;
+    background: transparent;
+    color: var(--text-primary, #e6edf5);
+    font-size: 14px;
+    padding: 2px 0;
+}
+
+.command-palette-hint {
+    font-size: 10px;
+    color: var(--text-dim, #8697aa);
+    white-space: nowrap;
+}
+
+.command-palette-list {
+    max-height: min(62vh, 520px);
+    overflow-y: auto;
+}
+
+.command-palette-item {
+    width: 100%;
+    display: flex;
+    align-items: center;
+    justify-content: space-between;
+    gap: 8px;
+    padding: 10px 12px;
+    border: none;
+    border-bottom: 1px solid rgba(255, 255, 255, 0.04);
+    background: transparent;
+    color: var(--text-secondary, #b1c2d4);
+    cursor: pointer;
+    text-align: left;
+}
+
+.command-palette-item:last-child {
+    border-bottom: none;
+}
+
+.command-palette-item .meta {
+    display: flex;
+    flex-direction: column;
+    gap: 2px;
+    min-width: 0;
+}
+
+.command-palette-item .title {
+    color: var(--text-primary, #e6edf5);
+    font-size: 12px;
+    font-weight: 600;
+}
+
+.command-palette-item .desc {
+    color: var(--text-dim, #8697aa);
+    font-size: 10px;
+}
+
+.command-palette-item .kbd {
+    font-size: 9px;
+    color: var(--text-dim, #8697aa);
+    border: 1px solid rgba(255, 255, 255, 0.15);
+    border-radius: 4px;
+    padding: 1px 5px;
+}
+
+.command-palette-item.active,
+.command-palette-item:hover,
+.command-palette-item:focus-visible {
+    background: rgba(74, 163, 255, 0.12);
+    outline: none;
+}
+
+.command-palette-empty {
+    padding: 22px 16px;
+    color: var(--text-dim, #8697aa);
+    font-size: 11px;
+    text-align: center;
+}
+
+.setup-overlay {
+    position: fixed;
+    inset: 0;
+    display: none;
+    align-items: center;
+    justify-content: center;
+    z-index: 26000;
+    background: rgba(4, 8, 14, 0.72);
+    backdrop-filter: blur(4px);
+    padding: 14px;
+}
+
+.setup-overlay.open {
+    display: flex;
+}
+
+.setup-modal {
+    width: min(760px, 100%);
+    max-height: 84vh;
+    overflow-y: auto;
+    border: 1px solid var(--border-color, #1e2d3d);
+    border-radius: 12px;
+    background: #101926;
+    box-shadow: 0 20px 50px rgba(0, 0, 0, 0.6);
+}
+
+.setup-header {
+    display: flex;
+    align-items: flex-start;
+    justify-content: space-between;
+    gap: 8px;
+    border-bottom: 1px solid var(--border-color, #1e2d3d);
+    padding: 14px;
+}
+
+.setup-title {
+    font-size: 16px;
+    margin: 0;
+    color: var(--text-primary, #e6edf5);
+}
+
+.setup-subtitle {
+    margin: 4px 0 0;
+    font-size: 11px;
+    color: var(--text-dim, #8697aa);
+}
+
+.setup-close {
+    background: transparent;
+    border: none;
+    color: var(--text-dim, #8697aa);
+    font-size: 22px;
+    cursor: pointer;
+    line-height: 1;
+}
+
+.setup-content {
+    padding: 14px;
+    display: grid;
+    gap: 10px;
+}
+
+.setup-step {
+    border: 1px solid var(--border-color, #1e2d3d);
+    border-radius: 8px;
+    padding: 10px;
+    background: rgba(255, 255, 255, 0.02);
+}
+
+.setup-step-header {
+    display: flex;
+    justify-content: space-between;
+    gap: 8px;
+    margin-bottom: 6px;
+}
+
+.setup-step-title {
+    font-size: 12px;
+    color: var(--text-primary, #e6edf5);
+    font-weight: 600;
+}
+
+.setup-step-status {
+    font-size: 10px;
+    color: var(--text-dim, #8697aa);
+}
+
+.setup-step-status.done {
+    color: var(--accent-green, #28c27a);
+}
+
+.setup-step-desc {
+    font-size: 11px;
+    color: var(--text-secondary, #b1c2d4);
+    margin: 0 0 8px;
+}
+
+.setup-step-actions {
+    display: flex;
+    gap: 8px;
+    flex-wrap: wrap;
+}
+
+.setup-btn {
+    padding: 6px 10px;
+    border-radius: 6px;
+    border: 1px solid var(--border-color, #1e2d3d);
+    background: var(--bg-tertiary, #121f2d);
+    color: var(--text-secondary, #b1c2d4);
+    font-size: 11px;
+    cursor: pointer;
+}
+
+.setup-btn.primary {
+    color: #fff;
+    background: var(--accent-cyan, #4aa3ff);
+    border-color: var(--accent-cyan, #4aa3ff);
+}
+
+.setup-footer {
+    padding: 12px 14px;
+    border-top: 1px solid var(--border-color, #1e2d3d);
+    display: flex;
+    justify-content: space-between;
+    gap: 8px;
+    flex-wrap: wrap;
+    align-items: center;
+}
+
+.setup-footer-note {
+    color: var(--text-dim, #8697aa);
+    font-size: 10px;
+}
+
+.app-toast-stack {
+    position: fixed;
+    right: 14px;
+    bottom: 16px;
+    z-index: 25500;
+    display: flex;
+    flex-direction: column;
+    gap: 8px;
+    max-width: min(380px, calc(100vw - 24px));
+}
+
+.app-toast {
+    border: 1px solid var(--border-color, #1e2d3d);
+    border-left: 3px solid var(--accent-cyan, #4aa3ff);
+    border-radius: 8px;
+    background: rgba(15, 24, 35, 0.97);
+    color: var(--text-secondary, #b1c2d4);
+    box-shadow: 0 10px 20px rgba(0, 0, 0, 0.35);
+    padding: 8px 10px;
+    font-size: 11px;
+}
+
+.app-toast.error {
+    border-left-color: var(--accent-red, #e25d5d);
+}
+
+.app-toast.warning {
+    border-left-color: var(--accent-orange, #d6a85e);
+}
+
+.app-toast-title {
+    font-size: 11px;
+    color: var(--text-primary, #e6edf5);
+    font-weight: 600;
+    margin-bottom: 4px;
+}
+
+.app-toast-msg {
+    color: var(--text-secondary, #b1c2d4);
+}
+
+.app-toast-actions {
+    margin-top: 7px;
+    display: flex;
+    gap: 6px;
+    flex-wrap: wrap;
+}
+
+.app-toast-actions button {
+    border: 1px solid var(--border-color, #1e2d3d);
+    border-radius: 4px;
+    background: var(--bg-tertiary, #132133);
+    color: var(--text-secondary, #b1c2d4);
+    font-size: 10px;
+    padding: 3px 6px;
+    cursor: pointer;
+}
+
+.app-toast-actions button:hover {
+    border-color: rgba(74, 163, 255, 0.5);
+    color: var(--text-primary, #e6edf5);
+}
+
+@media (max-width: 920px) {
+    .run-state-strip {
+        flex-direction: column;
+        align-items: stretch;
+    }
+
+    .run-state-right {
+        justify-content: space-between;
+    }
+}
+
+@media (max-width: 640px) {
+    .command-palette-overlay {
+        padding: 8vh 10px 0;
+    }
+
+    .command-palette-item {
+        padding: 9px 10px;
+    }
+
+    .setup-header,
+    .setup-content,
+    .setup-footer {
+        padding: 10px;
+    }
+
+    .app-toast-stack {
+        left: 10px;
+        right: 10px;
+        max-width: none;
+    }
+}

static/css/core/base.css

@@ -0,0 +1,433 @@
+/**
+ * INTERCEPT Base Styles
+ * Reset, typography, and foundational element styles
+ * Requires: variables.css to be imported first
+ */
+
+/* ============================================
+   CSS RESET
+   ============================================ */
+*,
+*::before,
+*::after {
+    box-sizing: border-box;
+    margin: 0;
+    padding: 0;
+}
+
+html {
+    -webkit-text-size-adjust: 100%;
+    -moz-tab-size: 4;
+    tab-size: 4;
+}
+
+body {
+    font-family: var(--font-sans);
+    font-size: var(--text-base);
+    line-height: var(--leading-normal);
+    color: var(--text-primary);
+    background-color: var(--bg-primary);
+    background-image:
+        radial-gradient(1200px 620px at 8% -12%, var(--ambient-top-left), transparent 62%),
+        radial-gradient(980px 560px at 92% -16%, var(--ambient-top-right), transparent 64%),
+        radial-gradient(900px 520px at 50% 126%, var(--ambient-bottom), transparent 68%),
+        var(--noise-image),
+        linear-gradient(var(--grid-line) 1px, transparent 1px),
+        linear-gradient(90deg, var(--grid-line) 1px, transparent 1px);
+    background-size: auto, auto, auto, 40px 40px, 48px 48px, 48px 48px;
+    background-attachment: fixed;
+    min-height: 100vh;
+    font-variant-numeric: tabular-nums;
+    -webkit-font-smoothing: antialiased;
+    -moz-osx-font-smoothing: grayscale;
+}
+
+/* ============================================
+   TYPOGRAPHY
+   ============================================ */
+h1, h2, h3, h4, h5, h6 {
+    font-weight: var(--font-semibold);
+    line-height: var(--leading-tight);
+    color: var(--text-primary);
+    letter-spacing: 0.01em;
+}
+
+h1 { font-size: var(--text-4xl); }
+h2 { font-size: var(--text-3xl); }
+h3 { font-size: var(--text-2xl); }
+h4 { font-size: var(--text-xl); }
+h5 { font-size: var(--text-lg); }
+h6 { font-size: var(--text-base); }
+
+p {
+    margin-bottom: var(--space-4);
+}
+
+a {
+    color: var(--accent-cyan);
+    text-decoration: none;
+    transition: color var(--transition-fast);
+}
+
+a:hover {
+    color: var(--accent-cyan-hover);
+}
+
+a:focus-visible {
+    outline: 2px solid var(--border-focus);
+    outline-offset: 2px;
+}
+
+strong, b {
+    font-weight: var(--font-semibold);
+}
+
+small {
+    font-size: var(--text-sm);
+}
+
+code, kbd, pre, samp {
+    font-family: var(--font-mono);
+    font-size: 0.9em;
+}
+
+code {
+    background: var(--bg-elevated);
+    border: 1px solid var(--border-color);
+    padding: 2px 6px;
+    border-radius: var(--radius-sm);
+}
+
+pre {
+    background: var(--bg-elevated);
+    border: 1px solid var(--border-color);
+    padding: var(--space-4);
+    border-radius: var(--radius-md);
+    overflow-x: auto;
+}
+
+pre code {
+    background: none;
+    padding: 0;
+}
+
+/* ============================================
+   FORM ELEMENTS
+   ============================================ */
+button,
+input,
+select,
+textarea {
+    font-family: inherit;
+    font-size: inherit;
+    line-height: inherit;
+    color: inherit;
+}
+
+button {
+    cursor: pointer;
+    border: none;
+    background: none;
+}
+
+button:disabled {
+    cursor: not-allowed;
+    opacity: 0.5;
+}
+
+input,
+select,
+textarea {
+    background: var(--bg-secondary);
+    border: 1px solid var(--border-color);
+    border-radius: var(--radius-md);
+    padding: var(--space-2) var(--space-3);
+    color: var(--text-primary);
+    transition: border-color var(--transition-fast), box-shadow var(--transition-fast);
+}
+
+input:focus,
+select:focus,
+textarea:focus {
+    outline: none;
+    border-color: var(--accent-cyan);
+    box-shadow: 0 0 0 2px var(--accent-cyan-dim);
+}
+
+input::placeholder,
+textarea::placeholder {
+    color: var(--text-dim);
+}
+
+select {
+    cursor: pointer;
+    appearance: none;
+    background-image: url("data:image/svg+xml,%3Csvg xmlns='http://www.w3.org/2000/svg' width='12' height='12' viewBox='0 0 24 24' fill='none' stroke='%239fb0c7' stroke-width='2'%3E%3Cpolyline points='6 9 12 15 18 9'/%3E%3C/svg%3E");
+    background-repeat: no-repeat;
+    background-position: right 8px center;
+    padding-right: 28px;
+}
+
+input[type="checkbox"],
+input[type="radio"] {
+    width: 16px;
+    height: 16px;
+    padding: 0;
+    cursor: pointer;
+    accent-color: var(--accent-cyan);
+}
+
+label {
+    display: block;
+    font-size: var(--text-sm);
+    font-weight: var(--font-medium);
+    color: var(--text-secondary);
+    margin-bottom: var(--space-1);
+}
+
+/* ============================================
+   TABLES
+   ============================================ */
+table {
+    width: 100%;
+    border-collapse: collapse;
+    font-size: var(--text-sm);
+}
+
+th,
+td {
+    padding: var(--space-2) var(--space-3);
+    text-align: left;
+    border-bottom: 1px solid var(--border-color);
+}
+
+th {
+    font-weight: var(--font-semibold);
+    color: var(--text-secondary);
+    background: var(--bg-tertiary);
+    text-transform: uppercase;
+    font-size: var(--text-xs);
+    letter-spacing: 0.05em;
+}
+
+tr:hover td {
+    background: var(--bg-elevated);
+}
+
+/* ============================================
+   LISTS
+   ============================================ */
+ul, ol {
+    padding-left: var(--space-6);
+    margin-bottom: var(--space-4);
+}
+
+li {
+    margin-bottom: var(--space-1);
+}
+
+/* ============================================
+   UTILITY CLASSES
+   ============================================ */
+
+/* Text colors */
+.text-primary { color: var(--text-primary); }
+.text-secondary { color: var(--text-secondary); }
+.text-muted { color: var(--text-muted); }
+.text-cyan { color: var(--accent-cyan); }
+.text-green { color: var(--accent-green); }
+.text-red { color: var(--accent-red); }
+.text-orange { color: var(--accent-orange); }
+.text-amber { color: var(--accent-amber); }
+
+/* Font utilities */
+.font-mono { font-family: var(--font-mono); }
+.font-medium { font-weight: var(--font-medium); }
+.font-semibold { font-weight: var(--font-semibold); }
+.font-bold { font-weight: var(--font-bold); }
+
+/* Text sizes */
+.text-xs { font-size: var(--text-xs); }
+.text-sm { font-size: var(--text-sm); }
+.text-base { font-size: var(--text-base); }
+.text-lg { font-size: var(--text-lg); }
+.text-xl { font-size: var(--text-xl); }
+
+/* Display */
+.hidden { display: none !important; }
+.block { display: block; }
+.inline-block { display: inline-block; }
+.flex { display: flex; }
+.inline-flex { display: inline-flex; }
+.grid { display: grid; }
+
+/* Flexbox */
+.items-center { align-items: center; }
+.justify-center { justify-content: center; }
+.justify-between { justify-content: space-between; }
+.flex-1 { flex: 1; }
+.gap-1 { gap: var(--space-1); }
+.gap-2 { gap: var(--space-2); }
+.gap-3 { gap: var(--space-3); }
+.gap-4 { gap: var(--space-4); }
+
+/* Spacing */
+.m-0 { margin: 0; }
+.mt-2 { margin-top: var(--space-2); }
+.mt-4 { margin-top: var(--space-4); }
+.mb-2 { margin-bottom: var(--space-2); }
+.mb-4 { margin-bottom: var(--space-4); }
+.p-2 { padding: var(--space-2); }
+.p-3 { padding: var(--space-3); }
+.p-4 { padding: var(--space-4); }
+
+/* Borders */
+.rounded { border-radius: var(--radius-md); }
+.rounded-lg { border-radius: var(--radius-lg); }
+.border { border: 1px solid var(--border-color); }
+
+/* Truncate text */
+.truncate {
+    overflow: hidden;
+    text-overflow: ellipsis;
+    white-space: nowrap;
+}
+
+/* Screen reader only */
+.sr-only {
+    position: absolute;
+    width: 1px;
+    height: 1px;
+    padding: 0;
+    margin: -1px;
+    overflow: hidden;
+    clip: rect(0, 0, 0, 0);
+    white-space: nowrap;
+    border: 0;
+}
+
+/* ============================================
+   SCROLLBAR STYLING
+   ============================================ */
+::-webkit-scrollbar {
+    width: 8px;
+    height: 8px;
+}
+
+::-webkit-scrollbar-track {
+    background: var(--bg-secondary);
+}
+
+::-webkit-scrollbar-thumb {
+    background: var(--border-light);
+    border-radius: var(--radius-full);
+}
+
+::-webkit-scrollbar-thumb:hover {
+    background: var(--text-dim);
+}
+
+/* Firefox scrollbar */
+* {
+    scrollbar-width: thin;
+    scrollbar-color: var(--border-light) var(--bg-secondary);
+}
+
+/* ============================================
+   SELECTION
+   ============================================ */
+::selection {
+    background: var(--accent-cyan-dim);
+    color: var(--text-primary);
+}
+
+/* ============================================
+   UX POLISH - TRANSITIONS & INTERACTIONS
+   ============================================ */
+
+/* Smooth page transitions */
+html {
+    scroll-behavior: smooth;
+}
+
+/* Better focus ring for all interactive elements */
+:focus-visible {
+    outline: 2px solid var(--accent-cyan);
+    outline-offset: 2px;
+}
+
+/* Remove focus ring for mouse users */
+:focus:not(:focus-visible) {
+    outline: none;
+}
+
+/* Active state feedback */
+button:active:not(:disabled),
+a:active,
+[role="button"]:active {
+    transform: scale(0.98);
+}
+
+/* Smooth transitions for all interactive elements */
+button,
+a,
+input,
+select,
+textarea,
+[role="button"] {
+    transition:
+        color var(--transition-fast),
+        background-color var(--transition-fast),
+        border-color var(--transition-fast),
+        box-shadow var(--transition-fast),
+        transform var(--transition-fast),
+        opacity var(--transition-fast);
+}
+
+/* Subtle hover lift effect for cards and panels */
+.card:hover,
+.panel:hover {
+    box-shadow: var(--shadow-md);
+}
+
+/* Link underline on hover */
+a:hover {
+    text-decoration: underline;
+    text-underline-offset: 2px;
+}
+
+/* Skip link for accessibility */
+.skip-link {
+    position: absolute;
+    top: -40px;
+    left: 0;
+    background: var(--accent-cyan);
+    color: var(--bg-primary);
+    padding: var(--space-2) var(--space-4);
+    z-index: 9999;
+    transition: top var(--transition-fast);
+}
+
+.skip-link:focus {
+    top: 0;
+}
+
+/* Reduced motion preference */
+@media (prefers-reduced-motion: reduce) {
+    *,
+    *::before,
+    *::after {
+        animation-duration: 0.01ms !important;
+        animation-iteration-count: 1 !important;
+        transition-duration: 0.01ms !important;
+        scroll-behavior: auto !important;
+    }
+}
+
+/* High contrast mode support */
+@media (prefers-contrast: high) {
+    :root {
+        --border-color: #4b5563;
+        --text-secondary: #d1d5db;
+    }
+}

static/css/core/components.css

@@ -0,0 +1,857 @@
+/**
+ * INTERCEPT UI Components
+ * Reusable component styles for buttons, cards, badges, etc.
+ * Requires: variables.css and base.css
+ */
+
+/* ============================================
+   BUTTONS
+   ============================================ */
+
+/* Base button */
+.btn {
+    display: inline-flex;
+    align-items: center;
+    justify-content: center;
+    gap: var(--space-2);
+    padding: var(--space-2) var(--space-4);
+    font-size: var(--text-sm);
+    font-weight: var(--font-medium);
+    border-radius: var(--radius-md);
+    border: 1px solid transparent;
+    cursor: pointer;
+    transition: all var(--transition-fast);
+    white-space: nowrap;
+    text-decoration: none;
+    font-family: var(--font-mono);
+    text-transform: uppercase;
+    letter-spacing: 0.06em;
+}
+
+.btn:focus-visible {
+    outline: 2px solid var(--border-focus);
+    outline-offset: 2px;
+}
+
+.btn:disabled {
+    opacity: 0.5;
+    cursor: not-allowed;
+}
+
+/* Button variants */
+.btn-primary {
+    background: var(--accent-cyan);
+    color: var(--text-inverse);
+    border-color: var(--accent-cyan);
+    box-shadow: inset 0 0 0 1px rgba(255, 255, 255, 0.08);
+}
+
+.btn-primary:hover:not(:disabled) {
+    background: var(--accent-cyan-hover);
+    border-color: var(--accent-cyan-hover);
+}
+
+.btn-secondary {
+    background: var(--bg-secondary);
+    color: var(--text-primary);
+    border-color: var(--border-color);
+}
+
+.btn-secondary:hover:not(:disabled) {
+    background: var(--bg-tertiary);
+    border-color: var(--border-light);
+}
+
+.btn-ghost {
+    background: transparent;
+    color: var(--text-secondary);
+    border-color: var(--border-color);
+}
+
+.btn-ghost:hover:not(:disabled) {
+    background: var(--bg-elevated);
+    color: var(--text-primary);
+}
+
+.btn-danger {
+    background: var(--accent-red);
+    color: white;
+    border-color: var(--accent-red);
+}
+
+.btn-danger:hover:not(:disabled) {
+    background: #dc2626;
+    border-color: #dc2626;
+}
+
+.btn-success {
+    background: var(--accent-green);
+    color: white;
+    border-color: var(--accent-green);
+}
+
+.btn-success:hover:not(:disabled) {
+    background: #16a34a;
+    border-color: #16a34a;
+}
+
+/* Button sizes */
+.btn-sm {
+    padding: var(--space-1) var(--space-2);
+    font-size: var(--text-xs);
+}
+
+.btn-lg {
+    padding: var(--space-3) var(--space-6);
+    font-size: var(--text-base);
+}
+
+/* Icon button */
+.btn-icon {
+    padding: var(--space-2);
+    width: 36px;
+    height: 36px;
+}
+
+.btn-icon.btn-sm {
+    width: 28px;
+    height: 28px;
+    padding: var(--space-1);
+}
+
+/* ============================================
+   CARDS / PANELS
+   ============================================ */
+.card {
+    background: var(--surface-panel-gradient);
+    border: 1px solid rgba(74, 163, 255, 0.24);
+    border-radius: var(--radius-lg);
+    overflow: hidden;
+    box-shadow: var(--shadow-sm), inset 0 1px 0 rgba(255, 255, 255, 0.04);
+    backdrop-filter: blur(5px);
+}
+
+.card-header {
+    display: flex;
+    align-items: center;
+    justify-content: space-between;
+    padding: var(--space-3) var(--space-4);
+    border-bottom: 1px solid rgba(74, 163, 255, 0.18);
+    background: linear-gradient(180deg, rgba(25, 38, 55, 0.88) 0%, rgba(17, 27, 40, 0.9) 100%);
+    position: relative;
+}
+
+.card-header-title {
+    font-size: var(--text-xs);
+    font-weight: var(--font-semibold);
+    text-transform: uppercase;
+    letter-spacing: 0.05em;
+    color: var(--text-secondary);
+}
+
+.card-body {
+    padding: var(--space-4);
+}
+
+.card-footer {
+    padding: var(--space-3) var(--space-4);
+    border-top: 1px solid var(--border-color);
+    background: var(--bg-secondary);
+}
+
+/* Panel variant (used in dashboards) */
+.panel {
+    background: var(--surface-panel-gradient);
+    border: 1px solid rgba(74, 163, 255, 0.24);
+    border-radius: var(--radius-lg);
+    overflow: hidden;
+    box-shadow: var(--shadow-sm), inset 0 1px 0 rgba(255, 255, 255, 0.04);
+    backdrop-filter: blur(5px);
+}
+
+@supports (clip-path: polygon(0 0)) {
+    .card,
+    .panel {
+        --notch-size: 6px;
+        border-radius: 0;
+        clip-path: polygon(
+            var(--notch-size) 0,
+            calc(100% - var(--notch-size)) 0,
+            100% var(--notch-size),
+            100% calc(100% - var(--notch-size)),
+            calc(100% - var(--notch-size)) 100%,
+            var(--notch-size) 100%,
+            0 calc(100% - var(--notch-size)),
+            0 var(--notch-size)
+        );
+    }
+}
+
+.panel-header {
+    display: flex;
+    align-items: center;
+    justify-content: space-between;
+    padding: var(--space-2) var(--space-3);
+    border-bottom: 1px solid rgba(74, 163, 255, 0.18);
+    background: linear-gradient(180deg, rgba(25, 38, 55, 0.88) 0%, rgba(17, 27, 40, 0.9) 100%);
+    font-size: var(--text-xs);
+    font-weight: var(--font-semibold);
+    text-transform: uppercase;
+    letter-spacing: 0.1em;
+    color: var(--text-secondary);
+    position: relative;
+}
+
+.card-header::before,
+.panel-header::before {
+    content: '';
+    position: absolute;
+    top: 0;
+    left: var(--space-3);
+    width: 36px;
+    height: 2px;
+    background: var(--accent-cyan);
+    opacity: 0.7;
+}
+
+.panel-indicator {
+    width: 8px;
+    height: 8px;
+    border-radius: var(--radius-full);
+    background: var(--status-offline);
+}
+
+.panel-indicator.active {
+    background: var(--status-online);
+    box-shadow: 0 0 8px var(--status-online);
+}
+
+.panel-content {
+    padding: var(--space-3);
+}
+
+/* ============================================
+   BADGES
+   ============================================ */
+.badge {
+    display: inline-flex;
+    align-items: center;
+    gap: var(--space-1);
+    padding: 2px var(--space-2);
+    font-size: var(--text-xs);
+    font-weight: var(--font-medium);
+    border-radius: var(--radius-full);
+    background: var(--bg-tertiary);
+    color: var(--text-secondary);
+    border: 1px solid var(--border-color);
+}
+
+.badge-primary {
+    background: var(--accent-cyan-dim);
+    color: var(--accent-cyan);
+}
+
+.badge-success {
+    background: var(--accent-green-dim);
+    color: var(--accent-green);
+}
+
+.badge-warning {
+    background: var(--accent-orange-dim);
+    color: var(--accent-orange);
+}
+
+.badge-danger {
+    background: var(--accent-red-dim);
+    color: var(--accent-red);
+}
+
+/* ============================================
+   DATA TAGS
+   ============================================ */
+.data-tag {
+    display: inline-flex;
+    align-items: center;
+    gap: var(--space-1);
+    padding: 2px var(--space-2);
+    font-size: 10px;
+    font-family: var(--font-mono);
+    text-transform: uppercase;
+    letter-spacing: 0.12em;
+    border-radius: var(--radius-sm);
+    border: 1px solid var(--border-color);
+    background: var(--bg-tertiary);
+    color: var(--text-secondary);
+    box-shadow: inset 0 0 0 1px var(--border-glow);
+}
+
+.data-tag--accent {
+    border-color: var(--accent-cyan);
+    color: var(--accent-cyan);
+    background: var(--accent-cyan-dim);
+}
+
+.data-tag--warning {
+    border-color: var(--accent-amber);
+    color: var(--accent-amber);
+    background: var(--accent-amber-dim);
+}
+
+.data-tag--success {
+    border-color: var(--accent-green);
+    color: var(--accent-green);
+    background: var(--accent-green-dim);
+}
+
+.data-tag--danger {
+    border-color: var(--accent-red);
+    color: var(--accent-red);
+    background: var(--accent-red-dim);
+}
+
+/* ============================================
+   STATUS INDICATORS
+   ============================================ */
+.status-dot {
+    width: 8px;
+    height: 8px;
+    border-radius: var(--radius-full);
+    background: var(--status-offline);
+    flex-shrink: 0;
+}
+
+.status-dot.online,
+.status-dot.active {
+    background: var(--status-online);
+    box-shadow: 0 0 4px var(--status-online);
+}
+
+.status-dot.warning {
+    background: var(--status-warning);
+    box-shadow: 0 0 4px var(--status-warning);
+}
+
+.status-dot.error,
+.status-dot.offline {
+    background: var(--status-error);
+}
+
+.status-dot.inactive {
+    background: var(--status-offline);
+}
+
+/* Pulse animation for active status */
+.status-dot.pulse {
+    animation: statusPulse 2s ease-in-out infinite;
+}
+
+@keyframes statusPulse {
+    0%, 100% { opacity: 1; }
+    50% { opacity: 0.5; }
+}
+
+/* ============================================
+   EMPTY STATE
+   ============================================ */
+.empty-state {
+    display: flex;
+    flex-direction: column;
+    align-items: center;
+    justify-content: center;
+    padding: var(--space-8) var(--space-4);
+    text-align: center;
+    color: var(--text-muted);
+}
+
+.empty-state-icon {
+    width: 48px;
+    height: 48px;
+    margin-bottom: var(--space-4);
+    opacity: 0.5;
+}
+
+.empty-state-title {
+    font-size: var(--text-base);
+    font-weight: var(--font-medium);
+    color: var(--text-secondary);
+    margin-bottom: var(--space-2);
+}
+
+.empty-state-description {
+    font-size: var(--text-sm);
+    color: var(--text-dim);
+    max-width: 300px;
+}
+
+.empty-state-action {
+    margin-top: var(--space-4);
+}
+
+/* ============================================
+   LOADING STATES
+   ============================================ */
+.spinner {
+    width: 20px;
+    height: 20px;
+    border: 2px solid var(--border-color);
+    border-top-color: var(--accent-cyan);
+    border-radius: var(--radius-full);
+    animation: spin 0.8s linear infinite;
+}
+
+.spinner-sm {
+    width: 14px;
+    height: 14px;
+    border-width: 2px;
+}
+
+.spinner-lg {
+    width: 32px;
+    height: 32px;
+    border-width: 3px;
+}
+
+@keyframes spin {
+    to { transform: rotate(360deg); }
+}
+
+/* Loading overlay */
+.loading-overlay {
+    position: absolute;
+    inset: 0;
+    display: flex;
+    align-items: center;
+    justify-content: center;
+    background: var(--bg-overlay);
+    z-index: var(--z-modal);
+}
+
+/* Skeleton loader */
+.skeleton {
+    background: linear-gradient(
+        90deg,
+        var(--bg-tertiary) 25%,
+        var(--bg-elevated) 50%,
+        var(--bg-tertiary) 75%
+    );
+    background-size: 200% 100%;
+    animation: shimmer 1.5s infinite;
+    border-radius: var(--radius-sm);
+}
+
+@keyframes shimmer {
+    0% { background-position: 200% 0; }
+    100% { background-position: -200% 0; }
+}
+
+/* ============================================
+   STATS STRIP
+   ============================================ */
+.stats-strip {
+    display: flex;
+    align-items: center;
+    background: var(--bg-secondary);
+    border-bottom: 1px solid var(--border-color);
+    padding: 0 var(--space-4);
+    height: var(--stats-strip-height);
+    overflow-x: auto;
+    gap: var(--space-1);
+}
+
+.strip-stat {
+    display: flex;
+    flex-direction: column;
+    align-items: center;
+    padding: 0 var(--space-3);
+    min-width: fit-content;
+}
+
+.strip-value {
+    font-family: var(--font-mono);
+    font-size: var(--text-sm);
+    font-weight: var(--font-semibold);
+    color: var(--accent-cyan);
+    line-height: 1;
+}
+
+.strip-label {
+    font-size: 9px;
+    color: var(--text-dim);
+    text-transform: uppercase;
+    letter-spacing: 0.05em;
+    line-height: 1;
+    margin-top: 2px;
+}
+
+.strip-divider {
+    width: 1px;
+    height: 20px;
+    background: var(--border-color);
+    margin: 0 var(--space-2);
+}
+
+/* ============================================
+   FORM GROUPS
+   ============================================ */
+.form-group {
+    margin-bottom: var(--space-4);
+}
+
+.form-group label {
+    display: block;
+    margin-bottom: var(--space-1);
+    font-size: var(--text-sm);
+    font-weight: var(--font-medium);
+    color: var(--text-secondary);
+}
+
+.form-group input,
+.form-group select,
+.form-group textarea {
+    width: 100%;
+}
+
+.form-help {
+    margin-top: var(--space-1);
+    font-size: var(--text-xs);
+    color: var(--text-dim);
+}
+
+.form-error {
+    margin-top: var(--space-1);
+    font-size: var(--text-xs);
+    color: var(--accent-red);
+}
+
+/* Inline checkbox/radio */
+.form-check {
+    display: flex;
+    align-items: center;
+    gap: var(--space-2);
+    cursor: pointer;
+}
+
+.form-check input {
+    width: auto;
+}
+
+.form-check label {
+    margin-bottom: 0;
+    cursor: pointer;
+}
+
+/* ============================================
+   ALERTS / TOASTS
+   ============================================ */
+.alert {
+    display: flex;
+    align-items: flex-start;
+    gap: var(--space-3);
+    padding: var(--space-3) var(--space-4);
+    border-radius: var(--radius-md);
+    border: 1px solid;
+    font-size: var(--text-sm);
+}
+
+.alert-info {
+    background: var(--accent-cyan-dim);
+    border-color: var(--accent-cyan);
+    color: var(--accent-cyan);
+}
+
+.alert-success {
+    background: var(--accent-green-dim);
+    border-color: var(--accent-green);
+    color: var(--accent-green);
+}
+
+.alert-warning {
+    background: var(--accent-orange-dim);
+    border-color: var(--accent-orange);
+    color: var(--accent-orange);
+}
+
+.alert-danger {
+    background: var(--accent-red-dim);
+    border-color: var(--accent-red);
+    color: var(--accent-red);
+}
+
+/* ============================================
+   TOOLTIPS
+   ============================================ */
+[data-tooltip] {
+    position: relative;
+}
+
+[data-tooltip]::after {
+    content: attr(data-tooltip);
+    position: absolute;
+    bottom: 100%;
+    left: 50%;
+    transform: translateX(-50%);
+    padding: var(--space-1) var(--space-2);
+    background: var(--bg-elevated);
+    color: var(--text-primary);
+    font-size: var(--text-xs);
+    border-radius: var(--radius-sm);
+    white-space: nowrap;
+    opacity: 0;
+    visibility: hidden;
+    transition: opacity var(--transition-fast), visibility var(--transition-fast);
+    z-index: var(--z-tooltip);
+    pointer-events: none;
+    margin-bottom: var(--space-1);
+    box-shadow: var(--shadow-md);
+}
+
+[data-tooltip]:hover::after {
+    opacity: 1;
+    visibility: visible;
+}
+
+/* ============================================
+   ICONS
+   ============================================ */
+.icon {
+    display: inline-flex;
+    align-items: center;
+    justify-content: center;
+    width: 20px;
+    height: 20px;
+    flex-shrink: 0;
+}
+
+.icon svg {
+    width: 100%;
+    height: 100%;
+}
+
+.icon--sm {
+    width: 16px;
+    height: 16px;
+}
+
+.icon--lg {
+    width: 24px;
+    height: 24px;
+}
+
+/* ============================================
+   SECTION HEADERS
+   ============================================ */
+.section-header {
+    display: flex;
+    align-items: center;
+    justify-content: space-between;
+    margin-bottom: var(--space-4);
+    padding-bottom: var(--space-2);
+    border-bottom: 1px solid var(--border-color);
+}
+
+.section-title {
+    font-size: var(--text-sm);
+    font-weight: var(--font-semibold);
+    text-transform: uppercase;
+    letter-spacing: 0.05em;
+    color: var(--text-secondary);
+    position: relative;
+    padding-left: var(--space-3);
+}
+
+.section-title::before {
+    content: '';
+    position: absolute;
+    left: 0;
+    top: 50%;
+    width: 2px;
+    height: 6px;
+    background: var(--accent-cyan);
+    transform: translateY(-50%);
+    opacity: 0.7;
+    box-shadow: 0 6px 0 var(--accent-cyan);
+}
+
+/* ============================================
+   DIVIDERS
+   ============================================ */
+.divider {
+    height: 1px;
+    background-image: repeating-linear-gradient(
+        90deg,
+        var(--border-light),
+        var(--border-light) 6px,
+        transparent 6px,
+        transparent 12px
+    );
+    margin: var(--space-4) 0;
+}
+
+.divider-vertical {
+    width: 1px;
+    height: 100%;
+    background-image: repeating-linear-gradient(
+        180deg,
+        var(--border-light),
+        var(--border-light) 6px,
+        transparent 6px,
+        transparent 12px
+    );
+    margin: 0 var(--space-3);
+}
+
+/* ============================================
+   UX POLISH - ENHANCED INTERACTIONS
+   ============================================ */
+
+/* Button hover lift */
+.btn:hover:not(:disabled) {
+    box-shadow: 0 0 0 1px var(--border-light);
+}
+
+.btn:active:not(:disabled) {
+    box-shadow: inset 0 0 0 1px var(--border-light);
+}
+
+/* Card/Panel hover effects */
+.card,
+.panel {
+    transition:
+        box-shadow var(--transition-base),
+        border-color var(--transition-base),
+        transform var(--transition-base);
+}
+
+.card:hover,
+.panel:hover {
+    border-color: var(--border-glow);
+    box-shadow: var(--shadow-md), var(--shadow-glow), inset 0 1px 0 rgba(255, 255, 255, 0.06);
+    transform: translateY(-1px);
+}
+
+[data-theme="light"] .card,
+[data-theme="light"] .panel {
+    border-color: rgba(31, 95, 168, 0.24);
+}
+
+[data-theme="light"] .card-header,
+[data-theme="light"] .panel-header {
+    border-bottom-color: rgba(31, 95, 168, 0.2);
+    background: linear-gradient(180deg, rgba(243, 247, 252, 0.96) 0%, rgba(233, 239, 247, 0.95) 100%);
+}
+
+/* Stats strip value highlight on hover */
+.strip-stat {
+    transition: background-color var(--transition-fast);
+    border-radius: var(--radius-sm);
+    cursor: default;
+}
+
+.strip-stat:hover {
+    background: var(--bg-tertiary);
+}
+
+/* Status dot pulse animation */
+.status-dot.online,
+.status-dot.active {
+    animation: statusGlow 2s ease-in-out infinite;
+}
+
+@keyframes statusGlow {
+    0%, 100% {
+        box-shadow: 0 0 4px var(--status-online);
+    }
+    50% {
+        box-shadow: 0 0 8px var(--status-online), 0 0 12px var(--status-online);
+    }
+}
+
+/* Badge hover effect */
+.badge {
+    transition: transform var(--transition-fast), box-shadow var(--transition-fast);
+}
+
+.badge:hover {
+    transform: scale(1.02);
+}
+
+/* Alert entrance animation */
+.alert {
+    animation: alertSlideIn 0.3s ease-out;
+}
+
+@keyframes alertSlideIn {
+    from {
+        opacity: 0;
+        transform: translateY(-10px);
+    }
+    to {
+        opacity: 1;
+        transform: translateY(0);
+    }
+}
+
+/* Loading spinner smooth appearance */
+.spinner {
+    animation: spin 0.8s linear infinite, fadeIn 0.3s ease-out;
+}
+
+@keyframes fadeIn {
+    from { opacity: 0; }
+    to { opacity: 1; }
+}
+
+/* Input focus glow */
+input:focus,
+select:focus,
+textarea:focus {
+    border-color: var(--accent-cyan);
+    box-shadow: 0 0 0 2px var(--accent-cyan-dim);
+}
+
+/* Nav item active indicator */
+.nav-item,
+.mode-nav-btn,
+.mobile-nav-btn {
+    position: relative;
+}
+
+.nav-item.active::after,
+.mode-nav-btn.active::after,
+.mobile-nav-btn.active::after {
+    content: '';
+    position: absolute;
+    left: 12%;
+    right: 12%;
+    bottom: 2px;
+    height: 1px;
+    background: linear-gradient(90deg, transparent, var(--accent-cyan), transparent);
+    opacity: 0.75;
+    animation: railPulse 2.6s ease-in-out infinite;
+}
+
+@keyframes railPulse {
+    0%, 100% { opacity: 0.45; }
+    50% { opacity: 0.9; }
+}
+
+/* Smooth tooltip appearance */
+[data-tooltip]::after {
+    transition:
+        opacity var(--transition-fast),
+        visibility var(--transition-fast),
+        transform var(--transition-fast);
+    transform: translateX(-50%) translateY(-4px);
+}
+
+[data-tooltip]:hover::after {
+    transform: translateX(-50%) translateY(0);
+}
+
+/* Disabled state with better visual feedback */
+:disabled,
+.disabled {
+    opacity: 0.5;
+    cursor: not-allowed;
+    filter: grayscale(30%);
+}

static/css/core/variables.css

@@ -0,0 +1,217 @@
+/**
+ * INTERCEPT Design Tokens
+ * Single source of truth for colors, spacing, typography, and effects
+ * Import this file FIRST in any stylesheet that needs design tokens
+ */
+
+:root {
+    /* ============================================
+       COLOR PALETTE - Dark Theme (Default)
+       ============================================ */
+
+    /* Backgrounds - layered depth system */
+    --bg-primary: #0b1118;
+    --bg-secondary: #101823;
+    --bg-tertiary: #151f2b;
+    --bg-card: #121a25;
+    --bg-elevated: #1b2734;
+    --bg-overlay: rgba(8, 13, 20, 0.75);
+    --surface-glass: rgba(16, 25, 37, 0.82);
+    --surface-panel-gradient: linear-gradient(160deg, rgba(20, 32, 47, 0.94) 0%, rgba(11, 18, 27, 0.96) 100%);
+    --ambient-top-left: rgba(74, 163, 255, 0.14);
+    --ambient-top-right: rgba(56, 193, 128, 0.09);
+    --ambient-bottom: rgba(214, 168, 94, 0.06);
+
+    /* Background aliases for components */
+    --bg-dark: var(--bg-primary);
+    --bg-panel: var(--bg-secondary);
+
+    /* Accent colors */
+    --accent-cyan: #4aa3ff;
+    --accent-cyan-dim: rgba(74, 163, 255, 0.16);
+    --accent-cyan-hover: #6bb3ff;
+    --accent-green: #38c180;
+    --accent-green-dim: rgba(56, 193, 128, 0.18);
+    --accent-red: #e25d5d;
+    --accent-red-dim: rgba(226, 93, 93, 0.16);
+    --accent-orange: #d6a85e;
+    --accent-orange-dim: rgba(214, 168, 94, 0.16);
+    --accent-amber: #d6a85e;
+    --accent-amber-dim: rgba(214, 168, 94, 0.18);
+    --accent-yellow: #e1c26b;
+    --accent-purple: #8f7bd6;
+
+    /* Text hierarchy */
+    --text-primary: #d7e0ee;
+    --text-secondary: #9fb0c7;
+    --text-dim: #6f7f94;
+    --text-muted: #445266;
+    --text-inverse: #0b1118;
+
+    /* Borders */
+    --border-color: #263246;
+    --border-light: #354458;
+    --border-glow: rgba(74, 163, 255, 0.25);
+    --border-focus: var(--accent-cyan);
+
+    /* Status colors */
+    --status-online: #38c180;
+    --status-warning: #d6a85e;
+    --status-error: #e25d5d;
+    --status-offline: #6f7f94;
+    --status-info: #4aa3ff;
+
+    /* Subtle grid/pattern */
+    --grid-line: rgba(74, 163, 255, 0.1);
+    --grid-dot: rgba(255, 255, 255, 0.03);
+    --noise-image: url("data:image/svg+xml,%3Csvg%20xmlns='http://www.w3.org/2000/svg'%20width='40'%20height='40'%20viewBox='0%200%2040%2040'%3E%3Cg%20fill='%23ffffff'%20fill-opacity='0.05'%3E%3Ccircle%20cx='3'%20cy='5'%20r='1'/%3E%3Ccircle%20cx='11'%20cy='9'%20r='1'/%3E%3Ccircle%20cx='18'%20cy='3'%20r='1'/%3E%3Ccircle%20cx='26'%20cy='12'%20r='1'/%3E%3Ccircle%20cx='34'%20cy='6'%20r='1'/%3E%3Ccircle%20cx='7'%20cy='19'%20r='1'/%3E%3Ccircle%20cx='15'%20cy='24'%20r='1'/%3E%3Ccircle%20cx='28'%20cy='22'%20r='1'/%3E%3Ccircle%20cx='36'%20cy='18'%20r='1'/%3E%3Ccircle%20cx='5'%20cy='33'%20r='1'/%3E%3Ccircle%20cx='19'%20cy='32'%20r='1'/%3E%3Ccircle%20cx='31'%20cy='34'%20r='1'/%3E%3C/g%3E%3C/svg%3E");
+
+    /* ============================================
+       SPACING SCALE
+       ============================================ */
+    --space-1: 4px;
+    --space-2: 8px;
+    --space-3: 12px;
+    --space-4: 16px;
+    --space-5: 20px;
+    --space-6: 24px;
+    --space-8: 32px;
+    --space-10: 40px;
+    --space-12: 48px;
+    --space-16: 64px;
+
+    /* ============================================
+       TYPOGRAPHY
+       ============================================ */
+    --font-sans: 'Roboto Condensed', 'Arial Narrow', Roboto, 'Helvetica Neue', Arial, sans-serif;
+    --font-mono: 'Roboto Condensed', 'Arial Narrow', Roboto, 'Helvetica Neue', Arial, sans-serif;
+
+    /* Font sizes */
+    --text-xs: 10px;
+    --text-sm: 12px;
+    --text-base: 14px;
+    --text-lg: 16px;
+    --text-xl: 18px;
+    --text-2xl: 20px;
+    --text-3xl: 24px;
+    --text-4xl: 30px;
+
+    /* Font weights */
+    --font-normal: 400;
+    --font-medium: 500;
+    --font-semibold: 600;
+    --font-bold: 700;
+
+    /* Line heights */
+    --leading-tight: 1.25;
+    --leading-normal: 1.5;
+    --leading-relaxed: 1.75;
+
+    /* ============================================
+       BORDERS & RADIUS
+       ============================================ */
+    --radius-sm: 3px;
+    --radius-md: 4px;
+    --radius-lg: 6px;
+    --radius-xl: 8px;
+    --radius-full: 9999px;
+
+    /* ============================================
+       SHADOWS
+       ============================================ */
+    --shadow-sm: 0 1px 1px rgba(0, 0, 0, 0.35);
+    --shadow-md: 0 4px 8px rgba(0, 0, 0, 0.35);
+    --shadow-lg: 0 12px 18px rgba(0, 0, 0, 0.45);
+    --shadow-glow: 0 0 18px rgba(74, 163, 255, 0.16);
+
+    /* ============================================
+       TRANSITIONS
+       ============================================ */
+    --transition-fast: 150ms ease;
+    --transition-base: 200ms ease;
+    --transition-slow: 300ms ease;
+
+    /* ============================================
+       Z-INDEX SCALE
+       ============================================ */
+    --z-base: 0;
+    --z-dropdown: 100;
+    --z-sticky: 200;
+    --z-fixed: 300;
+    --z-modal-backdrop: 400;
+    --z-modal: 500;
+    --z-toast: 600;
+    --z-tooltip: 700;
+
+    /* ============================================
+       LAYOUT
+       ============================================ */
+    --header-height: 60px;
+    --nav-height: 44px;
+    --sidebar-width: 280px;
+    --stats-strip-height: 36px;
+    --content-max-width: 1400px;
+}
+
+/* ============================================
+   LIGHT THEME OVERRIDES
+   ============================================ */
+[data-theme="light"] {
+    --bg-primary: #f4f7fb;
+    --bg-secondary: #e9eef5;
+    --bg-tertiary: #dde5f0;
+    --bg-card: #ffffff;
+    --bg-elevated: #f1f4f9;
+    --bg-overlay: rgba(244, 247, 251, 0.92);
+    --surface-glass: rgba(255, 255, 255, 0.84);
+    --surface-panel-gradient: linear-gradient(160deg, rgba(255, 255, 255, 0.96) 0%, rgba(241, 245, 251, 0.97) 100%);
+    --ambient-top-left: rgba(31, 95, 168, 0.1);
+    --ambient-top-right: rgba(31, 138, 87, 0.06);
+    --ambient-bottom: rgba(181, 134, 58, 0.05);
+
+    /* Background aliases for components */
+    --bg-dark: var(--bg-primary);
+    --bg-panel: var(--bg-secondary);
+
+    --accent-cyan: #1f5fa8;
+    --accent-cyan-dim: rgba(31, 95, 168, 0.12);
+    --accent-cyan-hover: #2c73bf;
+    --accent-green: #1f8a57;
+    --accent-green-dim: rgba(31, 138, 87, 0.12);
+    --accent-red: #c74444;
+    --accent-red-dim: rgba(199, 68, 68, 0.12);
+    --accent-orange: #b5863a;
+    --accent-orange-dim: rgba(181, 134, 58, 0.12);
+    --accent-amber: #b5863a;
+    --accent-amber-dim: rgba(181, 134, 58, 0.12);
+
+    --text-primary: #122034;
+    --text-secondary: #3a4a5f;
+    --text-dim: #6b7c93;
+    --text-muted: #aab6c8;
+    --text-inverse: #f4f7fb;
+
+    --border-color: #d1d9e6;
+    --border-light: #c1ccdb;
+    --border-glow: rgba(31, 95, 168, 0.12);
+
+    --grid-line: rgba(31, 95, 168, 0.14);
+    --grid-dot: rgba(12, 18, 24, 0.06);
+    --noise-image: url("data:image/svg+xml,%3Csvg%20xmlns='http://www.w3.org/2000/svg'%20width='40'%20height='40'%20viewBox='0%200%2040%2040'%3E%3Cg%20fill='%23000000'%20fill-opacity='0.05'%3E%3Ccircle%20cx='3'%20cy='5'%20r='1'/%3E%3Ccircle%20cx='11'%20cy='9'%20r='1'/%3E%3Ccircle%20cx='18'%20cy='3'%20r='1'/%3E%3Ccircle%20cx='26'%20cy='12'%20r='1'/%3E%3Ccircle%20cx='34'%20cy='6'%20r='1'/%3E%3Ccircle%20cx='7'%20cy='19'%20r='1'/%3E%3Ccircle%20cx='15'%20cy='24'%20r='1'/%3E%3Ccircle%20cx='28'%20cy='22'%20r='1'/%3E%3Ccircle%20cx='36'%20cy='18'%20r='1'/%3E%3Ccircle%20cx='5'%20cy='33'%20r='1'/%3E%3Ccircle%20cx='19'%20cy='32'%20r='1'/%3E%3Ccircle%20cx='31'%20cy='34'%20r='1'/%3E%3C/g%3E%3C/svg%3E");
+
+    --shadow-sm: 0 1px 2px rgba(0, 0, 0, 0.05);
+    --shadow-md: 0 4px 6px rgba(0, 0, 0, 0.1);
+    --shadow-lg: 0 10px 15px rgba(0, 0, 0, 0.15);
+    --shadow-glow: 0 0 18px rgba(31, 95, 168, 0.1);
+}
+
+/* ============================================
+   REDUCED MOTION
+   ============================================ */
+@media (prefers-reduced-motion: reduce) {
+    :root {
+        --transition-fast: 0ms;
+        --transition-base: 0ms;
+        --transition-slow: 0ms;
+    }
+}

static/css/fonts-local.css

@@ -0,0 +1,20 @@
+/* Local font declarations for offline mode */
+/* Roboto Condensed - variable font, one file covers all weights */
+
+@font-face {
+    font-family: 'Roboto Condensed';
+    font-style: normal;
+    font-weight: 300 700;
+    font-display: swap;
+    src: url('/static/vendor/fonts/RobotoCondensed-Latin.woff2') format('woff2');
+    unicode-range: U+0000-00FF, U+0131, U+0152-0153, U+02BB-02BC, U+02C6, U+02DA, U+02DC, U+0304, U+0308, U+0329, U+2000-206F, U+20AC, U+2122, U+2191, U+2193, U+2212, U+2215, U+FEFF, U+FFFD;
+}
+
+@font-face {
+    font-family: 'Roboto Condensed';
+    font-style: normal;
+    font-weight: 300 700;
+    font-display: swap;
+    src: url('/static/vendor/fonts/RobotoCondensed-LatinExt.woff2') format('woff2');
+    unicode-range: U+0100-02BA, U+02BD-02C5, U+02C7-02CC, U+02CE-02D7, U+02DD-02FF, U+0304, U+0308, U+0329, U+1D00-1DBF, U+1E00-1E9F, U+1EF2-1EFF, U+2020, U+20A0-20AB, U+20AD-20C0, U+2113, U+2C60-2C7F, U+A720-A7FF;
+}

static/css/global-nav.css

@@ -0,0 +1,439 @@
+/* ============================================
+   Global Navigation Styles
+   Shared across all pages using nav.html
+   ============================================ */
+
+/* Icon base (kept lightweight for nav usage) */
+.icon {
+    display: inline-flex;
+    align-items: center;
+    justify-content: center;
+    width: 18px;
+    height: 18px;
+    flex-shrink: 0;
+}
+
+.icon svg {
+    width: 100%;
+    height: 100%;
+}
+
+.icon--sm {
+    width: 14px;
+    height: 14px;
+}
+
+/* Mode Navigation Bar */
+.mode-nav {
+    display: none;
+    background: linear-gradient(180deg, rgba(17, 22, 32, 0.92), rgba(15, 20, 28, 0.88));
+    border-bottom: 1px solid var(--border-color, #202833);
+    padding: 0 20px;
+    position: relative;
+    z-index: 1100;
+    backdrop-filter: blur(10px);
+}
+
+@media (min-width: 1024px) {
+    .mode-nav {
+        display: flex;
+        align-items: center;
+        gap: 8px;
+        height: 44px;
+    }
+}
+
+.mode-nav-label {
+    font-size: 9px;
+    color: var(--text-secondary, #b7c1cf);
+    text-transform: uppercase;
+    letter-spacing: 1px;
+    margin-right: 8px;
+    font-weight: 500;
+    font-family: var(--font-mono);
+}
+
+.mode-nav-divider {
+    width: 1px;
+    height: 24px;
+    background: var(--border-color, #202833);
+    margin: 0 12px;
+}
+
+.mode-nav-btn {
+    display: inline-flex;
+    align-items: center;
+    gap: 6px;
+    padding: 8px 14px;
+    background: transparent;
+    border: 1px solid transparent;
+    border-radius: 6px;
+    color: var(--text-secondary, #b7c1cf);
+    font-family: var(--font-sans);
+    font-size: 11px;
+    font-weight: 500;
+    cursor: pointer;
+    transition: all 0.15s ease;
+    text-decoration: none;
+}
+
+.mode-nav-btn .nav-label {
+    text-transform: uppercase;
+    letter-spacing: 0.08em;
+    font-family: var(--font-mono);
+    font-size: 10px;
+}
+
+.mode-nav-btn:hover {
+    background: rgba(27, 36, 51, 0.8);
+    color: var(--text-primary, #e7ebf2);
+    border-color: var(--border-color, #202833);
+}
+
+.mode-nav-btn.active {
+    background: rgba(27, 36, 51, 0.9);
+    color: var(--text-primary, #e7ebf2);
+    border-color: var(--accent-cyan, #4d7dbf);
+    box-shadow: inset 0 -2px 0 var(--accent-cyan, #4d7dbf);
+}
+
+.mode-nav-btn.active .nav-icon {
+    color: var(--accent-cyan, #4d7dbf);
+}
+
+.mode-nav-actions {
+    display: flex;
+    align-items: center;
+    gap: 16px;
+}
+
+.nav-action-btn {
+    display: inline-flex;
+    align-items: center;
+    gap: 6px;
+    padding: 8px 14px;
+    background: rgba(24, 31, 44, 0.85);
+    border: 1px solid var(--border-light, #2b3645);
+    border-radius: 6px;
+    color: var(--text-primary, #e7ebf2);
+    font-family: var(--font-sans);
+    font-size: 11px;
+    font-weight: 500;
+    text-decoration: none;
+    cursor: pointer;
+    transition: all 0.15s ease;
+}
+
+.nav-action-btn .nav-label {
+    text-transform: uppercase;
+    letter-spacing: 0.08em;
+    font-family: var(--font-mono);
+    font-size: 10px;
+}
+
+.nav-action-btn:hover {
+    background: rgba(27, 36, 51, 0.95);
+    color: var(--text-primary, #e7ebf2);
+    box-shadow: 0 8px 16px rgba(5, 9, 15, 0.35);
+    border-color: var(--accent-cyan, #4d7dbf);
+}
+
+/* Dropdown Navigation */
+.mode-nav-dropdown {
+    position: relative;
+}
+
+.mode-nav-dropdown-btn {
+    display: inline-flex;
+    align-items: center;
+    gap: 8px;
+    padding: 8px 14px;
+    background: transparent;
+    border: 1px solid transparent;
+    border-radius: 6px;
+    color: var(--text-secondary, #b7c1cf);
+    font-family: var(--font-sans);
+    font-size: 11px;
+    font-weight: 500;
+    cursor: pointer;
+    transition: all 0.15s ease;
+}
+
+.mode-nav-dropdown-btn .nav-label {
+    text-transform: uppercase;
+    letter-spacing: 0.08em;
+    font-family: var(--font-mono);
+    font-size: 10px;
+}
+
+.mode-nav-dropdown-btn .dropdown-arrow {
+    width: 12px;
+    height: 12px;
+    margin-left: 4px;
+    transition: transform 0.2s ease;
+    display: inline-flex;
+    align-items: center;
+    justify-content: center;
+}
+
+.mode-nav-dropdown-btn .dropdown-arrow svg {
+    width: 100%;
+    height: 100%;
+}
+
+.mode-nav-dropdown-btn:hover {
+    background: rgba(27, 36, 51, 0.8);
+    color: var(--text-primary, #e7ebf2);
+    border-color: var(--border-color, #202833);
+}
+
+.mode-nav-dropdown.open .mode-nav-dropdown-btn {
+    background: rgba(27, 36, 51, 0.9);
+    color: var(--text-primary, #e7ebf2);
+    border-color: var(--border-color, #202833);
+}
+
+.mode-nav-dropdown.open .dropdown-arrow {
+    transform: rotate(180deg);
+}
+
+.mode-nav-dropdown.has-active .mode-nav-dropdown-btn {
+    background: rgba(27, 36, 51, 0.9);
+    color: var(--text-primary, #e7ebf2);
+    border-color: var(--accent-cyan, #4d7dbf);
+    box-shadow: inset 0 -2px 0 var(--accent-cyan, #4d7dbf);
+}
+
+.mode-nav-dropdown.has-active .mode-nav-dropdown-btn .nav-icon {
+    color: var(--accent-cyan, #4d7dbf);
+}
+
+.mode-nav-dropdown-menu {
+    position: absolute;
+    top: 100%;
+    left: 0;
+    margin-top: 4px;
+    min-width: 180px;
+    background: rgba(16, 22, 32, 0.98);
+    border: 1px solid var(--border-color, #202833);
+    border-radius: 8px;
+    box-shadow: 0 16px 36px rgba(5, 9, 15, 0.55);
+    opacity: 0;
+    visibility: hidden;
+    transform: translateY(-8px);
+    transition: all 0.15s ease;
+    z-index: 1000;
+    padding: 6px;
+}
+
+.mode-nav-dropdown.open .mode-nav-dropdown-menu {
+    opacity: 1;
+    visibility: visible;
+    transform: translateY(0);
+}
+
+.mode-nav-dropdown-menu .mode-nav-btn {
+    width: 100%;
+    justify-content: flex-start;
+    padding: 10px 12px;
+    border-radius: 6px;
+}
+
+.mode-nav-dropdown-menu .mode-nav-btn:hover {
+    background: rgba(27, 36, 51, 0.85);
+}
+
+.mode-nav-dropdown-menu .mode-nav-btn.active {
+    background: rgba(27, 36, 51, 0.95);
+    color: var(--text-primary, #e7ebf2);
+    box-shadow: inset 0 -2px 0 var(--accent-cyan, #4d7dbf);
+}
+
+/* Nav Bar Utilities */
+.nav-utilities {
+    display: none;
+    align-items: center;
+    gap: 12px;
+    margin-left: auto;
+    flex-shrink: 0;
+}
+
+@media (min-width: 1024px) {
+    .nav-utilities {
+        display: flex;
+    }
+}
+
+.nav-clock {
+    display: flex;
+    align-items: center;
+    gap: 6px;
+    font-family: var(--font-mono);
+    font-size: 11px;
+    flex-shrink: 0;
+    white-space: nowrap;
+}
+
+.nav-clock .utc-label {
+    font-size: 9px;
+    color: var(--text-dim, #8a97a8);
+    text-transform: uppercase;
+    letter-spacing: 1px;
+}
+
+.nav-clock .utc-time {
+    color: var(--accent-cyan, #4d7dbf);
+    font-weight: 600;
+}
+
+.nav-divider {
+    width: 1px;
+    height: 20px;
+    background: var(--border-color, #202833);
+}
+
+.nav-tools {
+    display: flex;
+    align-items: center;
+    gap: 6px;
+    flex-shrink: 0;
+}
+
+.nav-tool-btn {
+    width: 28px;
+    height: 28px;
+    min-width: 28px;
+    border-radius: 6px;
+    background: rgba(20, 33, 53, 0.6);
+    border: 1px solid rgba(77, 125, 191, 0.12);
+    color: var(--text-secondary, #b7c1cf);
+    font-size: 14px;
+    font-weight: bold;
+    cursor: pointer;
+    transition: all 0.15s ease;
+    display: inline-flex;
+    align-items: center;
+    justify-content: center;
+}
+
+.nav-tool-btn:hover {
+    background: rgba(27, 36, 51, 0.9);
+    border-color: var(--accent-cyan, #4d7dbf);
+    color: var(--accent-cyan, #4d7dbf);
+    box-shadow: 0 6px 14px rgba(5, 9, 15, 0.35);
+}
+
+/* Position relative needed for absolute positioned icon children */
+.nav-tool-btn {
+    position: relative;
+}
+
+.mode-nav-btn:focus-visible,
+.mode-nav-dropdown-btn:focus-visible,
+.nav-action-btn:focus-visible,
+.nav-tool-btn:focus-visible {
+    outline: 2px solid var(--accent-cyan, #4d7dbf);
+    outline-offset: 2px;
+}
+
+/* Nav tool button SVG sizing and styling */
+.nav-tool-btn svg {
+    width: 14px;
+    height: 14px;
+    stroke: currentColor;
+}
+
+.nav-tool-btn .icon {
+    display: inline-flex;
+    align-items: center;
+    justify-content: center;
+}
+
+.nav-tool-btn .icon svg {
+    width: 14px;
+    height: 14px;
+    stroke: currentColor;
+}
+
+/* Theme toggle icon states */
+.nav-tool-btn .icon-sun,
+.nav-tool-btn .icon-moon {
+    position: absolute;
+    transition: opacity 0.2s, transform 0.2s;
+}
+
+.nav-tool-btn .icon-sun {
+    opacity: 0;
+    transform: rotate(-90deg);
+}
+
+.nav-tool-btn .icon-moon {
+    opacity: 1;
+    transform: rotate(0deg);
+}
+
+[data-theme="light"] .nav-tool-btn .icon-sun {
+    opacity: 1;
+    transform: rotate(0deg);
+}
+
+[data-theme="light"] .nav-tool-btn .icon-moon {
+    opacity: 0;
+    transform: rotate(90deg);
+}
+
+/* Effects/animations toggle icon states */
+.nav-tool-btn .icon-effects-off {
+    display: none;
+}
+
+[data-animations="off"] .nav-tool-btn .icon-effects-on {
+    display: none;
+}
+
+[data-animations="off"] .nav-tool-btn .icon-effects-off {
+    display: flex;
+}
+
+/* Main Dashboard Button in Nav */
+a.nav-dashboard-btn,
+a.nav-dashboard-btn:link,
+a.nav-dashboard-btn:visited {
+    display: inline-flex !important;
+    align-items: center;
+    gap: 6px;
+    padding: 6px 12px;
+    border-radius: 6px;
+    background: rgba(20, 33, 53, 0.6) !important;
+    border: 1px solid rgba(77, 125, 191, 0.12) !important;
+    color: #b7c1cf !important;
+    font-size: 11px;
+    font-weight: 500;
+    cursor: pointer;
+    transition: all 0.15s ease;
+    white-space: nowrap;
+    text-decoration: none !important;
+}
+
+a.nav-dashboard-btn:hover {
+    background: rgba(27, 36, 51, 0.9) !important;
+    border-color: #4d7dbf !important;
+    color: #4d7dbf !important;
+    box-shadow: 0 6px 14px rgba(5, 9, 15, 0.35);
+}
+
+.nav-dashboard-btn .icon {
+    width: 14px;
+    height: 14px;
+}
+
+.nav-dashboard-btn .icon svg {
+    width: 100%;
+    height: 100%;
+    stroke: currentColor;
+}
+
+.nav-dashboard-btn .nav-label {
+    font-family: var(--font-mono, 'Roboto Condensed', 'Arial Narrow', sans-serif);
+    letter-spacing: 0.5px;
+}

static/css/help-modal.css

@@ -0,0 +1,206 @@
+/**
+ * Help Modal Styles
+ * Shared across all pages that include the help modal partial
+ */
+
+.help-modal {
+    display: none;
+    position: fixed;
+    top: 0;
+    left: 0;
+    right: 0;
+    bottom: 0;
+    background: rgba(0, 0, 0, 0.85);
+    z-index: 10000;
+    overflow-y: auto;
+    padding: 40px 20px;
+    font-family: var(--font-mono, 'Roboto Condensed', 'Arial Narrow', sans-serif);
+}
+
+.help-modal.active {
+    display: block;
+}
+
+.help-content {
+    max-width: 800px;
+    margin: 0 auto;
+    background: var(--bg-card, var(--bg-secondary, #0f1218));
+    border: 1px solid var(--border-color, #1f2937);
+    border-radius: 8px;
+    padding: 24px;
+    position: relative;
+}
+
+.help-content h2 {
+    color: var(--accent-cyan, #4a9eff);
+    margin-bottom: 16px;
+    font-size: 15px;
+    letter-spacing: 2px;
+    text-transform: uppercase;
+    font-weight: 600;
+}
+
+.help-content h3 {
+    color: var(--text-primary, #e8eaed);
+    margin: 20px 0 10px 0;
+    font-size: 11px;
+    text-transform: uppercase;
+    letter-spacing: 1px;
+    border-bottom: 1px solid var(--border-color, #1f2937);
+    padding-bottom: 6px;
+    font-weight: 600;
+}
+
+.help-close {
+    position: absolute;
+    top: 12px;
+    right: 12px;
+    background: none;
+    border: none;
+    color: var(--text-dim, #4b5563);
+    font-size: 20px;
+    cursor: pointer;
+    transition: color 0.2s;
+    line-height: 1;
+}
+
+.help-close:hover {
+    color: var(--accent-red, #ef4444);
+}
+
+.help-modal .icon-grid {
+    display: grid;
+    grid-template-columns: repeat(auto-fill, minmax(200px, 1fr));
+    gap: 8px;
+    margin: 10px 0;
+}
+
+.help-modal .icon-item {
+    display: flex;
+    align-items: center;
+    gap: 8px;
+    padding: 6px 8px;
+    background: var(--bg-primary, #0a0c10);
+    border: 1px solid var(--border-color, #1f2937);
+    border-radius: 4px;
+    font-size: 11px;
+}
+
+.help-modal .icon-item .icon {
+    width: 20px;
+    height: 20px;
+    flex-shrink: 0;
+    display: flex;
+    align-items: center;
+    justify-content: center;
+}
+
+.help-modal .icon-item .icon svg {
+    width: 16px;
+    height: 16px;
+}
+
+.help-modal .icon-item .desc {
+    color: var(--text-secondary, #9ca3af);
+    font-size: 10.5px;
+    line-height: 1.3;
+}
+
+.help-modal .tip-list {
+    list-style: none;
+    padding: 0;
+    margin: 10px 0;
+}
+
+.help-modal .tip-list li {
+    padding: 5px 0;
+    padding-left: 16px;
+    position: relative;
+    color: var(--text-secondary, #9ca3af);
+    font-size: 11px;
+    line-height: 1.5;
+    border-bottom: 1px solid var(--border-color, #1f2937);
+}
+
+.help-modal .tip-list li:last-child {
+    border-bottom: none;
+}
+
+.help-modal .tip-list li::before {
+    content: '\203A';
+    position: absolute;
+    left: 0;
+    color: var(--accent-cyan, #4a9eff);
+    font-weight: bold;
+}
+
+.help-modal .tip-list li strong {
+    color: var(--text-primary, #e8eaed);
+    font-weight: 600;
+}
+
+.help-tabs {
+    display: flex;
+    gap: 0;
+    margin-bottom: 16px;
+    border: 1px solid var(--border-color, #1f2937);
+    border-radius: 4px;
+    overflow: hidden;
+}
+
+.help-tab {
+    flex: 1;
+    padding: 8px;
+    background: var(--bg-primary, #0a0c10);
+    border: none;
+    color: var(--text-secondary, #9ca3af);
+    cursor: pointer;
+    font-family: var(--font-mono, 'Roboto Condensed', 'Arial Narrow', sans-serif);
+    font-size: 10px;
+    text-transform: uppercase;
+    letter-spacing: 1px;
+    transition: all 0.15s ease;
+    position: relative;
+}
+
+.help-tab:not(:last-child) {
+    border-right: 1px solid var(--border-color, #1f2937);
+}
+
+.help-tab:hover {
+    background: var(--bg-tertiary, #151a23);
+    color: var(--text-primary, #e8eaed);
+}
+
+.help-tab.active {
+    background: var(--bg-tertiary, #151a23);
+    color: var(--accent-cyan, #4a9eff);
+}
+
+.help-tab.active::after {
+    content: '';
+    position: absolute;
+    bottom: 0;
+    left: 0;
+    right: 0;
+    height: 2px;
+    background: var(--accent-cyan, #4a9eff);
+}
+
+.help-section {
+    display: none;
+}
+
+.help-section.active {
+    display: block;
+}
+
+/* Ensure code tags are styled */
+.help-modal code {
+    background: var(--bg-tertiary, #151a23);
+    padding: 1px 5px;
+    border-radius: 3px;
+    font-family: var(--font-mono, 'Roboto Condensed', 'Arial Narrow', sans-serif);
+    font-size: 10.5px;
+    color: var(--accent-cyan, #4a9eff);
+}