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saltylab-firmware/include/jlink.h
sl-jetson 8e03a209be feat: ROS2 sensor health monitor (Issue #566) 
Add sensor_health_node to saltybot_health_monitor package. Monitors 8
sensor topics for staleness, publishing DiagnosticArray on
/saltybot/diagnostics and MQTT JSON on saltybot/health.

Sensors monitored (configurable thresholds):
  /camera/color/image_raw, /camera/depth/image_rect_raw,
  /camera/color/camera_info, /scan, /imu/data,
  /saltybot/uwb/range, /saltybot/battery, /saltybot/motor_daemon/status

Each sensor: OK/WARN/ERROR based on topic age vs warn_s/error_s thresholds.
Critical sensors (camera, lidar, imu, motor_daemon) escalate overall status.

Files added:
  sensor_health_node.py — SensorWatcher + SensorHealthNode
  config/sensor_health_params.yaml — per-sensor thresholds
  launch/sensor_health.launch.py
  test/test_sensor_health.py — 35 tests, all passing

setup.py/package.xml updated: sensor_msgs, diagnostic_msgs deps + new entry point.

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
2026-03-14 11:47:01 -04:00

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#ifndef JLINK_H
#define JLINK_H
#include <stdint.h>
#include <stdbool.h>
#include "pid_flash.h" /* pid_sched_entry_t, PID_SCHED_MAX_BANDS */
/*
* JLink -- Jetson serial binary protocol over USART1 (PB6=TX, PB7=RX).
*
* Issue #120: replaces jetson_cmd ASCII-over-USB-CDC with a dedicated
* hardware UART at 921600 baud using DMA circular RX and IDLE interrupt.
*
* Frame format (both directions):
* [STX=0x02][LEN][CMD][PAYLOAD...][CRC16_hi][CRC16_lo][ETX=0x03]
*
* STX : frame start sentinel (0x02)
* LEN : count of CMD + PAYLOAD bytes (1 + payload_len)
* CMD : command/telemetry type byte
* PAYLOAD: 0..N bytes depending on CMD
* CRC16 : CRC16-XModem over CMD+PAYLOAD (poly 0x1021, init 0), big-endian
* ETX : frame end sentinel (0x03)
*
* Jetson to STM32 commands:
* 0x01 HEARTBEAT - no payload; refreshes heartbeat timer
* 0x02 DRIVE - int16 speed (-1000..+1000), int16 steer (-1000..+1000)
* 0x03 ARM - no payload; request arm (same interlock as CDC 'A')
* 0x04 DISARM - no payload; disarm immediately
* 0x05 PID_SET - float kp, float ki, float kd (12 bytes, IEEE-754 LE)
* 0x06 DFU_ENTER - no payload; request OTA DFU reboot (denied while armed)
* 0x07 ESTOP - no payload; engage emergency stop
* 0x08 AUDIO - int16 PCM samples (up to 126 samples)
* 0x09 SLEEP - no payload; request STOP-mode sleep
* 0x0A PID_SAVE - no payload; save current Kp/Ki/Kd to flash (Issue #531)
* 0x0B GIMBAL_POS - int16 pan_x10, int16 tilt_x10, uint16 speed (Issue #547)
* 0x0C SCHED_GET - no payload; reply with TLM_SCHED (Issue #550)
* 0x0D SCHED_SET - uint8 num_bands + N*16-byte pid_sched_entry_t (Issue #550)
* 0x0E SCHED_SAVE - float kp, ki, kd (12 bytes); save sched+single to flash (Issue #550)
*
* STM32 to Jetson telemetry:
* 0x80 STATUS - jlink_tlm_status_t (20 bytes), sent at JLINK_TLM_HZ
* 0x81 POWER - jlink_tlm_power_t (11 bytes), sent at PM_TLM_HZ
* 0x82 BATTERY - jlink_tlm_battery_t (10 bytes, Issue #533)
* 0x83 PID_RESULT - jlink_tlm_pid_result_t (13 bytes), sent after PID_SAVE (Issue #531)
* 0x84 GIMBAL_STATE - jlink_tlm_gimbal_state_t (10 bytes, Issue #547)
* 0x85 SCHED - jlink_tlm_sched_t (1+N*16 bytes), sent on SCHED_GET (Issue #550)
*
* Priority: CRSF RC always takes precedence. Jetson steer/speed only applied
* when mode_manager_active() == MODE_AUTONOMOUS (CH6 high). In RC_MANUAL and
* RC_ASSISTED modes the Jetson speed offset and steer are injected via
* mode_manager_set_auto_cmd() and blended per the existing blend ramp.
*
* Heartbeat: if no valid frame arrives within JLINK_HB_TIMEOUT_MS (1000ms),
* jlink_is_active() returns false and the main loop clears the auto command.
*/
/* ---- Frame constants ---- */
#define JLINK_STX 0x02u
#define JLINK_ETX 0x03u
/* ---- Command IDs (Jetson to STM32) ---- */
#define JLINK_CMD_HEARTBEAT 0x01u
#define JLINK_CMD_DRIVE 0x02u
#define JLINK_CMD_ARM 0x03u
#define JLINK_CMD_DISARM 0x04u
#define JLINK_CMD_PID_SET 0x05u
#define JLINK_CMD_DFU_ENTER 0x06u
#define JLINK_CMD_ESTOP 0x07u
#define JLINK_CMD_AUDIO 0x08u /* PCM audio chunk: int16 samples, up to 126 */
#define JLINK_CMD_SLEEP 0x09u /* no payload; request STOP-mode sleep */
#define JLINK_CMD_PID_SAVE 0x0Au /* no payload; save Kp/Ki/Kd to flash (Issue #531) */
#define JLINK_CMD_GIMBAL_POS 0x0Bu /* int16 pan_x10, int16 tilt_x10, uint16 speed (Issue #547) */
#define JLINK_CMD_SCHED_GET 0x0Cu /* no payload; reply TLM_SCHED (Issue #550) */
#define JLINK_CMD_SCHED_SET 0x0Du /* uint8 num_bands + N*16-byte entries (Issue #550) */
#define JLINK_CMD_SCHED_SAVE 0x0Eu /* float kp,ki,kd; save sched+single to flash (Issue #550) */
/* ---- Telemetry IDs (STM32 to Jetson) ---- */
#define JLINK_TLM_STATUS 0x80u
#define JLINK_TLM_POWER 0x81u /* jlink_tlm_power_t (11 bytes) */
#define JLINK_TLM_BATTERY 0x82u /* jlink_tlm_battery_t (10 bytes, Issue #533) */
#define JLINK_TLM_PID_RESULT 0x83u /* jlink_tlm_pid_result_t (13 bytes, Issue #531) */
#define JLINK_TLM_GIMBAL_STATE 0x84u /* jlink_tlm_gimbal_state_t (10 bytes, Issue #547) */
#define JLINK_TLM_SCHED 0x85u /* jlink_tlm_sched_t (1+N*16 bytes, Issue #550) */
/* ---- Telemetry STATUS payload (20 bytes, packed) ---- */
typedef struct __attribute__((packed)) {
int16_t pitch_x10; /* pitch degrees x10 */
int16_t roll_x10; /* roll degrees x10 */
int16_t yaw_x10; /* yaw degrees x10 (gyro-integrated) */
int16_t motor_cmd; /* ESC output -1000..+1000 */
uint16_t vbat_mv; /* battery millivolts */
int8_t rssi_dbm; /* CRSF RSSI (dBm, negative) */
uint8_t link_quality; /* CRSF LQ 0-100 */
uint8_t balance_state; /* 0=DISARMED, 1=ARMED, 2=TILT_FAULT */
uint8_t rc_armed; /* crsf_state.armed (1=armed) */
uint8_t mode; /* robot_mode_t: 0=RC_MANUAL,1=ASSISTED,2=AUTONOMOUS */
uint8_t estop; /* EstopSource value */
uint8_t soc_pct; /* state-of-charge 0-100, 255=unknown */
uint8_t fw_major;
uint8_t fw_minor;
uint8_t fw_patch;
} jlink_tlm_status_t; /* 20 bytes */
/* ---- Telemetry POWER payload (11 bytes, packed) ---- */
typedef struct __attribute__((packed)) {
uint8_t power_state; /* PowerState: 0=ACTIVE,1=SLEEP_PENDING,2=SLEEPING,3=WAKING */
uint16_t est_total_ma; /* estimated total current draw (mA) */
uint16_t est_audio_ma; /* estimated I2S3+amp current (mA); 0 if gated */
uint16_t est_osd_ma; /* estimated OSD SPI2 current (mA); 0 if gated */
uint32_t idle_ms; /* ms since last cmd_vel activity */
} jlink_tlm_power_t; /* 11 bytes */
/* ---- Telemetry BATTERY payload (10 bytes, packed) Issue #533 ---- */
typedef struct __attribute__((packed)) {
uint16_t vbat_mv; /* DMA-sampled LPF-filtered Vbat (mV) */
int16_t ibat_ma; /* DMA-sampled LPF-filtered Ibat (mA, + = discharge) */
uint16_t vbat_raw_mv; /* unfiltered last-tick average (mV) */
uint8_t flags; /* bit0=low, bit1=critical, bit2=4S, bit3=adc_ready */
int8_t cal_offset; /* vbat_offset_mv / 4 (+-127 -> +-508 mV) */
uint8_t lpf_shift; /* IIR shift factor (alpha = 1/2^lpf_shift) */
uint8_t soc_pct; /* voltage-based SoC 0-100, 255 = unknown */
} jlink_tlm_battery_t; /* 10 bytes */
/* ---- Telemetry PID_RESULT payload (13 bytes, packed) Issue #531 ---- */
/* Sent after JLINK_CMD_PID_SAVE is processed; confirms gains written to flash. */
typedef struct __attribute__((packed)) {
float kp; /* Kp saved */
float ki; /* Ki saved */
float kd; /* Kd saved */
uint8_t saved_ok; /* 1 = flash write verified, 0 = write failed */
} jlink_tlm_pid_result_t; /* 13 bytes */
/* ---- Telemetry GIMBAL_STATE payload (10 bytes, packed) Issue #547 ---- */
/* Sent at GIMBAL_TLM_HZ (50 Hz); reports measured pan/tilt and speed. */
typedef struct __attribute__((packed)) {
int16_t pan_x10; /* Measured pan angle, deg x10 */
int16_t tilt_x10; /* Measured tilt angle, deg x10 */
uint16_t pan_speed_raw; /* Present speed register, pan servo */
uint16_t tilt_speed_raw; /* Present speed register, tilt servo */
uint8_t torque_en; /* 1 = torque enabled */
uint8_t rx_err_pct; /* bus error rate 0-100% (rx_err*100/(rx_ok+rx_err)) */
} jlink_tlm_gimbal_state_t; /* 10 bytes */
/* ---- Telemetry SCHED payload (1 + N*16 bytes, packed) Issue #550 ---- */
/* Sent in response to JLINK_CMD_SCHED_GET; N = num_bands (1..PID_SCHED_MAX_BANDS). */
typedef struct __attribute__((packed)) {
uint8_t num_bands; /* number of valid entries */
pid_sched_entry_t bands[PID_SCHED_MAX_BANDS]; /* up to 6 x 16 = 96 bytes */
} jlink_tlm_sched_t; /* 1 + 96 = 97 bytes max */
/* ---- Volatile state (read from main loop) ---- */
typedef struct {
/* Drive command - updated on JLINK_CMD_DRIVE */
volatile int16_t speed; /* -1000..+1000 */
volatile int16_t steer; /* -1000..+1000 */
/* Heartbeat timer - updated on any valid frame */
volatile uint32_t last_rx_ms; /* HAL_GetTick() of last valid frame; 0=none */
/* One-shot request flags - set by parser, cleared by main loop */
volatile uint8_t arm_req;
volatile uint8_t disarm_req;
volatile uint8_t estop_req;
/* PID update - set by parser, cleared by main loop */
volatile uint8_t pid_updated;
volatile float pid_kp;
volatile float pid_ki;
volatile float pid_kd;
/* DFU reboot request - set by parser, cleared by main loop */
volatile uint8_t dfu_req;
/* Sleep request - set by JLINK_CMD_SLEEP, cleared by main loop */
volatile uint8_t sleep_req;
/* PID save request - set by JLINK_CMD_PID_SAVE, cleared by main loop (Issue #531) */
volatile uint8_t pid_save_req;
/* Gimbal position command - set by JLINK_CMD_GIMBAL_POS (Issue #547) */
volatile uint8_t gimbal_updated; /* set by parser, cleared by main loop */
volatile int16_t gimbal_pan_x10; /* pan angle deg x10 */
volatile int16_t gimbal_tilt_x10; /* tilt angle deg x10 */
volatile uint16_t gimbal_speed; /* servo speed 0-4095 (0=max) */
/* PID schedule commands (Issue #550) - set by parser, cleared by main loop */
volatile uint8_t sched_get_req; /* SCHED_GET: main loop calls jlink_send_sched_telemetry() */
volatile uint8_t sched_save_req; /* SCHED_SAVE: main loop calls pid_schedule_flash_save() */
volatile float sched_save_kp; /* kp for single-PID record in SCHED_SAVE */
volatile float sched_save_ki;
volatile float sched_save_kd;
} JLinkState;
extern volatile JLinkState jlink_state;
/* ---- SCHED_SET receive buffer -- Issue #550 ---- */
/*
* Populated by the parser on JLINK_CMD_SCHED_SET. Main loop reads via
* jlink_get_sched_set() and calls pid_schedule_set_table() before clearing.
*/
typedef struct {
volatile uint8_t ready; /* set by parser, cleared by main loop */
volatile uint8_t num_bands;
pid_sched_entry_t bands[PID_SCHED_MAX_BANDS]; /* copied from frame */
} JLinkSchedSetBuf;
/* ---- API ---- */
void jlink_init(void);
bool jlink_is_active(uint32_t now_ms);
void jlink_process(void);
void jlink_send_telemetry(const jlink_tlm_status_t *status);
void jlink_send_power_telemetry(const jlink_tlm_power_t *power);
void jlink_send_battery_telemetry(const jlink_tlm_battery_t *batt);
void jlink_send_pid_result(const jlink_tlm_pid_result_t *result);
/*
* jlink_send_gimbal_state(state) - transmit JLINK_TLM_GIMBAL_STATE (0x84)
* frame (16 bytes) at GIMBAL_TLM_HZ (50 Hz). Issue #547.
*/
void jlink_send_gimbal_state(const jlink_tlm_gimbal_state_t *state);
/*
* jlink_send_sched_telemetry(tlm) - transmit JLINK_TLM_SCHED (0x85) in
* response to SCHED_GET. tlm->num_bands determines actual frame size.
* Issue #550.
*/
void jlink_send_sched_telemetry(const jlink_tlm_sched_t *tlm);
/*
* jlink_get_sched_set() - return pointer to the most-recently received
* SCHED_SET payload buffer (static storage in jlink.c). Main loop calls
* pid_schedule_set_table() from this buffer, then clears ready. Issue #550.
*/
JLinkSchedSetBuf *jlink_get_sched_set(void);
#endif /* JLINK_H */
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