panda/board/safety_declarations.h

269 lines
11 KiB
C

#pragma once
#define GET_BIT(msg, b) ((bool)!!(((msg)->data[((b) / 8U)] >> ((b) % 8U)) & 0x1U))
#define GET_BYTE(msg, b) ((msg)->data[(b)])
#define GET_FLAG(value, mask) (((__typeof__(mask))(value) & (mask)) == (mask)) // cppcheck-suppress misra-c2012-1.2; allow __typeof__
#define BUILD_SAFETY_CFG(rx, tx) ((safety_config){(rx), (sizeof((rx)) / sizeof((rx)[0])), \
(tx), (sizeof((tx)) / sizeof((tx)[0]))})
#define SET_RX_CHECKS(rx, config) ((config).rx_checks = (rx), \
(config).rx_checks_len = sizeof((rx)) / sizeof((rx)[0]))
#define SET_TX_MSGS(tx, config) ((config).tx_msgs = (tx), \
(config).tx_msgs_len = sizeof((tx)) / sizeof((tx)[0]))
#define UPDATE_VEHICLE_SPEED(val_ms) (update_sample(&vehicle_speed, ROUND((val_ms) * VEHICLE_SPEED_FACTOR)))
uint32_t GET_BYTES(const CANPacket_t *msg, int start, int len) {
uint32_t ret = 0U;
for (int i = 0; i < len; i++) {
const uint32_t shift = i * 8;
ret |= (((uint32_t)msg->data[start + i]) << shift);
}
return ret;
}
const int MAX_WRONG_COUNTERS = 5;
const uint8_t MAX_MISSED_MSGS = 10U;
#define MAX_ADDR_CHECK_MSGS 3U
#define MAX_SAMPLE_VALS 6
// used to represent floating point vehicle speed in a sample_t
#define VEHICLE_SPEED_FACTOR 100.0
// sample struct that keeps 6 samples in memory
struct sample_t {
int values[MAX_SAMPLE_VALS];
int min;
int max;
} sample_t_default = {.values = {0}, .min = 0, .max = 0};
// safety code requires floats
struct lookup_t {
float x[3];
float y[3];
};
typedef struct {
int addr;
int bus;
int len;
} CanMsg;
typedef enum {
TorqueMotorLimited, // torque steering command, limited by EPS output torque
TorqueDriverLimited, // torque steering command, limited by driver's input torque
} SteeringControlType;
typedef struct {
// torque cmd limits
const int max_steer;
const int max_rate_up;
const int max_rate_down;
const int max_rt_delta;
const uint32_t max_rt_interval;
const SteeringControlType type;
// driver torque limits
const int driver_torque_allowance;
const int driver_torque_factor;
// motor torque limits
const int max_torque_error;
// safety around steer req bit
const int min_valid_request_frames;
const int max_invalid_request_frames;
const uint32_t min_valid_request_rt_interval;
const bool has_steer_req_tolerance;
// angle cmd limits
const float angle_deg_to_can;
const struct lookup_t angle_rate_up_lookup;
const struct lookup_t angle_rate_down_lookup;
const int max_angle_error; // used to limit error between meas and cmd while enabled
const float angle_error_min_speed; // minimum speed to start limiting angle error
const bool enforce_angle_error; // enables max_angle_error check
const bool inactive_angle_is_zero; // if false, enforces angle near meas when disabled (default)
} SteeringLimits;
typedef struct {
// acceleration cmd limits
const int max_accel;
const int min_accel;
const int inactive_accel;
// gas & brake cmd limits
// inactive and min gas are 0 on most safety modes
const int max_gas;
const int min_gas;
const int inactive_gas;
const int max_brake;
// transmission rpm limits
const int max_transmission_rpm;
const int min_transmission_rpm;
const int inactive_transmission_rpm;
// speed cmd limits
const int inactive_speed;
} LongitudinalLimits;
typedef struct {
const int addr;
const int bus;
const int len;
const bool check_checksum; // true is checksum check is performed
const uint8_t max_counter; // maximum value of the counter. 0 means that the counter check is skipped
const bool quality_flag; // true is quality flag check is performed
const uint32_t frequency; // expected frequency of the message [Hz]
} CanMsgCheck;
typedef struct {
// dynamic flags, reset on safety mode init
bool msg_seen;
int index; // if multiple messages are allowed to be checked, this stores the index of the first one seen. only msg[msg_index] will be used
bool valid_checksum; // true if and only if checksum check is passed
int wrong_counters; // counter of wrong counters, saturated between 0 and MAX_WRONG_COUNTERS
bool valid_quality_flag; // true if the message's quality/health/status signals are valid
uint8_t last_counter; // last counter value
uint32_t last_timestamp; // micro-s
bool lagging; // true if and only if the time between updates is excessive
} RxStatus;
// params and flags about checksum, counter and frequency checks for each monitored address
typedef struct {
const CanMsgCheck msg[MAX_ADDR_CHECK_MSGS]; // check either messages (e.g. honda steer)
RxStatus status;
} RxCheck;
typedef struct {
RxCheck *rx_checks;
int rx_checks_len;
const CanMsg *tx_msgs;
int tx_msgs_len;
} safety_config;
typedef uint32_t (*get_checksum_t)(const CANPacket_t *to_push);
typedef uint32_t (*compute_checksum_t)(const CANPacket_t *to_push);
typedef uint8_t (*get_counter_t)(const CANPacket_t *to_push);
typedef bool (*get_quality_flag_valid_t)(const CANPacket_t *to_push);
typedef safety_config (*safety_hook_init)(uint16_t param);
typedef void (*rx_hook)(const CANPacket_t *to_push);
typedef bool (*tx_hook)(const CANPacket_t *to_send);
typedef int (*fwd_hook)(int bus_num, int addr);
typedef struct {
safety_hook_init init;
rx_hook rx;
tx_hook tx;
fwd_hook fwd;
get_checksum_t get_checksum;
compute_checksum_t compute_checksum;
get_counter_t get_counter;
get_quality_flag_valid_t get_quality_flag_valid;
} safety_hooks;
bool safety_rx_hook(const CANPacket_t *to_push);
bool safety_tx_hook(CANPacket_t *to_send);
uint32_t get_ts_elapsed(uint32_t ts, uint32_t ts_last);
int to_signed(int d, int bits);
void update_sample(struct sample_t *sample, int sample_new);
void reset_sample(struct sample_t *sample);
bool max_limit_check(int val, const int MAX, const int MIN);
bool angle_dist_to_meas_check(int val, struct sample_t *val_meas,
const int MAX_ERROR, const int MAX_VAL);
bool dist_to_meas_check(int val, int val_last, struct sample_t *val_meas,
const int MAX_RATE_UP, const int MAX_RATE_DOWN, const int MAX_ERROR);
bool driver_limit_check(int val, int val_last, const struct sample_t *val_driver,
const int MAX, const int MAX_RATE_UP, const int MAX_RATE_DOWN,
const int MAX_ALLOWANCE, const int DRIVER_FACTOR);
bool get_longitudinal_allowed(void);
bool rt_rate_limit_check(int val, int val_last, const int MAX_RT_DELTA);
float interpolate(struct lookup_t xy, float x);
int ROUND(float val);
void gen_crc_lookup_table_8(uint8_t poly, uint8_t crc_lut[]);
void gen_crc_lookup_table_16(uint16_t poly, uint16_t crc_lut[]);
bool msg_allowed(const CANPacket_t *to_send, const CanMsg msg_list[], int len);
int get_addr_check_index(const CANPacket_t *to_push, RxCheck addr_list[], const int len);
void update_counter(RxCheck addr_list[], int index, uint8_t counter);
void update_addr_timestamp(RxCheck addr_list[], int index);
bool is_msg_valid(RxCheck addr_list[], int index);
bool rx_msg_safety_check(const CANPacket_t *to_push,
const safety_config *cfg,
const safety_hooks *safety_hooks);
void generic_rx_checks(bool stock_ecu_detected);
void relay_malfunction_set(void);
void relay_malfunction_reset(void);
bool steer_torque_cmd_checks(int desired_torque, int steer_req, const SteeringLimits limits);
bool steer_angle_cmd_checks(int desired_angle, bool steer_control_enabled, const SteeringLimits limits);
bool longitudinal_accel_checks(int desired_accel, const LongitudinalLimits limits);
bool longitudinal_speed_checks(int desired_speed, const LongitudinalLimits limits);
bool longitudinal_gas_checks(int desired_gas, const LongitudinalLimits limits);
bool longitudinal_transmission_rpm_checks(int desired_transmission_rpm, const LongitudinalLimits limits);
bool longitudinal_brake_checks(int desired_brake, const LongitudinalLimits limits);
void pcm_cruise_check(bool cruise_engaged);
void safety_tick(const safety_config *safety_config);
// This can be set by the safety hooks
bool controls_allowed = false;
bool relay_malfunction = false;
bool gas_pressed = false;
bool gas_pressed_prev = false;
bool brake_pressed = false;
bool brake_pressed_prev = false;
bool regen_braking = false;
bool regen_braking_prev = false;
bool cruise_engaged_prev = false;
struct sample_t vehicle_speed;
bool vehicle_moving = false;
bool acc_main_on = false; // referred to as "ACC off" in ISO 15622:2018
int cruise_button_prev = 0;
bool safety_rx_checks_invalid = false;
// for safety modes with torque steering control
int desired_torque_last = 0; // last desired steer torque
int rt_torque_last = 0; // last desired torque for real time check
int valid_steer_req_count = 0; // counter for steer request bit matching non-zero torque
int invalid_steer_req_count = 0; // counter to allow multiple frames of mismatching torque request bit
struct sample_t torque_meas; // last 6 motor torques produced by the eps
struct sample_t torque_driver; // last 6 driver torques measured
uint32_t ts_torque_check_last = 0;
uint32_t ts_steer_req_mismatch_last = 0; // last timestamp steer req was mismatched with torque
// state for controls_allowed timeout logic
bool heartbeat_engaged = false; // openpilot enabled, passed in heartbeat USB command
uint32_t heartbeat_engaged_mismatches = 0; // count of mismatches between heartbeat_engaged and controls_allowed
// for safety modes with angle steering control
uint32_t ts_angle_last = 0;
int desired_angle_last = 0;
struct sample_t angle_meas; // last 6 steer angles/curvatures
// This can be set with a USB command
// It enables features that allow alternative experiences, like not disengaging on gas press
// It is only either 0 or 1 on mainline comma.ai openpilot
#define ALT_EXP_DISABLE_DISENGAGE_ON_GAS 1
// If using this flag, make sure to communicate to your users that a stock safety feature is now disabled.
#define ALT_EXP_DISABLE_STOCK_AEB 2
// If using this flag, be aware that harder braking is more likely to lead to rear endings,
// and that alone this flag doesn't make braking compliant because there's also a time element.
// Setting this flag is used for allowing the full -5.0 to +4.0 m/s^2 at lower speeds
// See ISO 15622:2018 for more information.
#define ALT_EXP_RAISE_LONGITUDINAL_LIMITS_TO_ISO_MAX 8
// This flag allows AEB to be commanded from openpilot.
#define ALT_EXP_ALLOW_AEB 16
int alternative_experience = 0;
// time since safety mode has been changed
uint32_t safety_mode_cnt = 0U;
// allow 1s of transition timeout after relay changes state before assessing malfunctioning
const uint32_t RELAY_TRNS_TIMEOUT = 1U;