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8 Commits

Author SHA1 Message Date
sl-firmware
fa75c442a7 feat: remove all STM32/Mamba/BlackPill references — ESP32-S3 only 
Archive STM32 firmware to legacy/stm32/:
- src/, include/, lib/USB_CDC/, platformio.ini, test stubs, flash_firmware.py
- test/test_battery_adc.c, test_hw_button.c, test_pid_schedule.c, test_vesc_can.c, test_can_watchdog.c
- USB_CDC_BUG.md

Rename: stm32_protocol → esp32_protocol, mamba_protocol → balance_protocol,
  stm32_cmd_node → esp32_cmd_node, stm32_cmd_params → esp32_cmd_params,
  stm32_cmd.launch.py → esp32_cmd.launch.py,
  test_stm32_protocol → test_esp32_protocol, test_stm32_cmd_node → test_esp32_cmd_node

Content cleanup across all files:
- Mamba F722S → ESP32-S3 BALANCE
- BlackPill → ESP32-S3 IO
- STM32F722/F7xx → ESP32-S3
- stm32Mode/Version/Port → esp32Mode/Version/Port
- STM32 State/Mode labels → ESP32 State/Mode
- Jetson Nano → Jetson Orin Nano Super
- /dev/stm32 → /dev/esp32
- stm32_bridge → esp32_bridge
- STM32 HAL → ESP-IDF

docs/SALTYLAB.md:
- Update "Drone FC Details" to describe ESP32-S3 BALANCE board (Waveshare ESP32-S3 Touch LCD 1.28)
- Replace verbose "Self-Balancing Control" STM32 section with brief note pointing to SAUL-TEE-SYSTEM-REFERENCE.md

TEAM.md: Update Embedded Firmware Engineer role to ESP32-S3 / ESP-IDF

No new functionality — cleanup only.

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
 2026-04-04 09:00:38 -04:00
sl-jetson
92c0628c62 feat: Orin CANable 2.0 bridge for Mamba and VESC CAN bus (Issue #674) 
Adds slcan setup script and saltybot_can_bridge ROS2 package implementing
full CAN bus integration between the Orin and the Mamba motor controller /
VESC motor controllers via a CANable 2.0 USB dongle (slcan interface).

- jetson/scripts/setup_can.sh: slcand-based bring-up/tear-down for slcan0
  at 500 kbps with error handling (already up, device missing, retry)
- saltybot_can_bridge/mamba_protocol.py: CAN message ID constants and
  encode/decode helpers for velocity, mode, e-stop, IMU, battery, VESC state
- saltybot_can_bridge/can_bridge_node.py: ROS2 node subscribing to /cmd_vel
  and /estop, publishing /can/imu, /can/battery, /can/vesc/{left,right}/state
  and /can/connection_status; background reader thread, watchdog zero-vel,
  auto-reconnect every 5 s on CAN error
- config/can_bridge_params.yaml: default params (slcan0, VESC IDs 56/68,
  Mamba ID 1, 0.5 s command timeout)
- test/test_can_bridge.py: 30 unit tests covering encode/decode round-trips
  and edge cases — all pass without ROS2 or CAN hardware

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
 2026-03-17 21:40:07 -04:00
sl-jetson
a506989af6 feat: CANable 2.0 bringup with udev rule and systemd service (Issue #643) 
- udev: 70-canable.rules — gs_usb VID/PID 1d50:606f, names iface can0 and brings it up at 500 kbps on plug-in
- systemd: can-bringup.service — oneshot service bound to sys-subsystem-net-devices-can0.device
- scripts: can_setup.sh — manual up/down/verify helper; candump verify for VESC IDs 61 (0x3D) and 79 (0x4F)
- install_systemd.sh updated to install can-bringup.service and all udev rules

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
 2026-03-17 09:49:21 -04:00
sl-jetson
062c05cac0 feat: Add Issue #502 - Headscale VPN auto-connect on Orin 
Configure Jetson Orin with Tailscale client connecting to Headscale
coordination server at tailscale.vayrette.com:8180. Device registers
as 'saltylab-orin' with persistent auth key for unattended login.

Features:
- systemd auto-start and restart on WiFi drops
- Persistent auth key storage at /opt/saltybot/tailscale-auth.key
- SSH + HTTP access over Tailscale tailnet (encrypted WireGuard)
- IP forwarding enabled for relay/exit node capability
- WiFi resilience with aggressive restart policy
- MQTT reporting of VPN status, IP, and connection type

Components added:
- jetson/scripts/setup-tailscale.sh: Tailscale package installation
- jetson/scripts/headscale-auth-helper.sh: Auth key management utility
- jetson/systemd/tailscale-vpn.service: systemd service unit
- jetson/docs/headscale-vpn-setup.md: Comprehensive setup documentation
- saltybot_cellular/vpn_status_node.py: ROS2 node for MQTT reporting

Updated:
- jetson/systemd/install_systemd.sh: Include tailscale-vpn.service
- jetson/scripts/setup-jetson.sh: Add Tailscale setup steps

Access patterns:
- SSH: ssh user@saltylab-orin.tail12345.ts.net
- HTTP: http://saltylab-orin.tail12345.ts.net:port
- Direct IP: 100.x.x.x (Tailscale allocated address)

Co-Authored-By: Claude Haiku 4.5 <noreply@anthropic.com>
 2026-03-06 10:25:04 -05:00
sl-jetson
93756f5248 feat: Add FC↔Orin UART verification (Issue #362) 
Implements UART bridge verification between Flight Controller (STM32F722)
and Jetson Orin.

Changes:
1. jetson/scripts/uart_test.py (12.7 KB)
   - Opens /dev/ttyTHS1 at 921600 baud
   - Sends jlink binary test frames (PING, VERSION, ECHO)
   - Verifies CRC16-CCITT frame integrity
   - Logs transactions with timestamps
   - JSON result export and optional MQTT publishing

2. jetson/ros2_ws/src/saltybot_bridge/launch/uart_bridge.launch.py
   - ROS2 launch file for serial_bridge_node on UART port
   - Configurable port (default /dev/ttyTHS1), baud rate (921600)
   - Bridges FC telemetry to /saltybot/imu, /saltybot/balance_state
   - Publishes diagnostics to /diagnostics

Usage:
  Test: sudo python3 jetson/scripts/uart_test.py
  Launch: ros2 launch saltybot_bridge uart_bridge.launch.py

Co-Authored-By: Claude Haiku 4.5 <noreply@anthropic.com>
 2026-03-04 12:17:56 -05:00
sl-jetson
a9b2242a2c feat(social): Orin dev environment — JetPack 6 + TRT conversion + systemd (#88) 
- Dockerfile.social: social-bot container with faster-whisper, llama-cpp-python
  (CUDA), piper-tts, insightface, pyannote.audio, OpenWakeWord, pyaudio
- scripts/convert_models.sh: TRT FP16 conversion for SCRFD-10GF, ArcFace-R100,
  ECAPA-TDNN; CTranslate2 setup for Whisper; Piper voice download; benchmark suite
- config/asound.conf: ALSA USB mic (card1) + USB speaker (card2) config
- models/README.md: version-pinned model table, /models/ layout, perf targets
- systemd/: saltybot-social.service + saltybot.target + install_systemd.sh
- docker-compose.yml: saltybot-social service with GPU, audio device passthrough,
  NVMe volume mounts for /models and /social_db

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
 2026-03-02 08:08:57 -05:00
sl-jetson
3755e235aa feat: Orin Nano Super platform update + 4x IMX219 CSI cameras 
Task A — Orin Nano Super platform update:
- docker-compose.yml: update header/comments, switch all service image tags
  to jetson-orin, update devices to udev symlinks (/dev/rplidar,
  /dev/stm32-bridge, i2c-7), add NVMe volume mounts (/mnt/nvme/saltybot),
  update stm32-bridge to saltybot_bridge launch, add csi-cameras service
- docs/pinout.md: full rewrite for Orin Nano Super — i2c-7, ttyTHS0,
  CSI-A/B connectors, M.2 NVMe slot, IMX219 15-pin FFC pinout, V4L2 nodes,
  GStreamer test commands, updated udev rules
- docs/power-budget.md: full rewrite — 25W TDP, 8GB LPDDR5, 67 TOPS,
  4-camera CSI bandwidth analysis, nvpmodel modes, Nano vs Orin comparison,
  5V 6A PSU recommendation, 4S LiPo architecture
- scripts/setup-jetson.sh: full rewrite — JetPack 6 / Ubuntu 22.04,
  nvidia-container-toolkit new keyring method, NVMe partition/format/fstab,
  CSI driver check (imx219 modprobe), video group, jtop install, 8GB swap

Task B — saltybot_cameras ROS2 package:
- launch/csi_cameras.launch.py: 4x v4l2_camera nodes, namespace per camera
  (front/left/rear/right), 640x480x30fps, includes TF launch automatically
- launch/camera_tf.launch.py: static TF for 4 cameras at 90deg intervals
  on sensor_head_link (r=5cm offset), yaw 0/90/180/-90 deg
- package.xml, setup.py, setup.cfg, __init__.py, resource marker
- config/cameras_params.yaml: per-camera device/frame/offset configuration

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
 2026-02-28 22:59:13 -05:00
sl-jetson
c47ac41573 feat: Jetson Nano platform setup and Docker env (bd-1hcg) 
- Dockerfile: L4T R32.6.1 (JetPack 4.6) base + ROS2 Humble + SLAM stack
  (slam_toolbox, Nav2, rplidar_ros, realsense2_camera, robot_localization)
- docker-compose.yml: multi-service stack (ROS2, RPLIDAR A1M8, D435i, STM32 bridge)
  with device passthrough, host networking for DDS, persistent map volume
- docs/pinout.md: full GPIO/I2C/UART pinout for STM32F722 bridge (USB CDC +
  UART fallback), RealSense D435i (USB3), RPLIDAR A1M8, udev rules
- docs/power-budget.md: 10W envelope analysis with per-component breakdown,
  mitigation strategies (RPLIDAR gating, D435i 640p, nvpmodel modes)
- scripts/setup-jetson.sh: host one-shot setup (Docker, nvidia-container-runtime,
  udev rules, MAXN power mode, swap)
- scripts/build-and-run.sh: build/up/down/shell/slam/status helper

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
 2026-02-28 12:46:14 -05:00