// board enforces // in-state // accel set/resume // out-state // cancel button // regen paddle // accel rising edge // brake rising edge // brake > 0mph const int GM_MAX_STEER = 300; const int GM_MAX_RT_DELTA = 128; // max delta torque allowed for real time checks const uint32_t GM_RT_INTERVAL = 250000; // 250ms between real time checks const int GM_MAX_RATE_UP = 7; const int GM_MAX_RATE_DOWN = 17; const int GM_DRIVER_TORQUE_ALLOWANCE = 50; const int GM_DRIVER_TORQUE_FACTOR = 4; const int GM_MAX_GAS = 3072; const int GM_MAX_REGEN = 1404; const int GM_MAX_BRAKE = 350; const AddrBus GM_TX_MSGS[] = {{384, 0}, {1033, 0}, {1034, 0}, {715, 0}, {880, 0}, // pt bus {161, 1}, {774, 1}, {776, 1}, {784, 1}, // obs bus {789, 2}, // ch bus {0x104c006c, 3}, {0x10400060, 3}}; // gmlan int gm_brake_prev = 0; int gm_gas_prev = 0; bool gm_moving = false; int gm_rt_torque_last = 0; int gm_desired_torque_last = 0; uint32_t gm_ts_last = 0; struct sample_t gm_torque_driver; // last few driver torques measured static void gm_rx_hook(CAN_FIFOMailBox_TypeDef *to_push) { int bus = GET_BUS(to_push); int addr = GET_ADDR(to_push); if (addr == 388) { int torque_driver_new = ((GET_BYTE(to_push, 6) & 0x7) << 8) | GET_BYTE(to_push, 7); torque_driver_new = to_signed(torque_driver_new, 11); // update array of samples update_sample(&gm_torque_driver, torque_driver_new); } // sample speed, really only care if car is moving or not // rear left wheel speed if (addr == 842) { gm_moving = GET_BYTE(to_push, 0) | GET_BYTE(to_push, 1); } // ACC steering wheel buttons if (addr == 481) { int button = (GET_BYTE(to_push, 5) & 0x70) >> 4; switch (button) { case 2: // resume case 3: // set controls_allowed = 1; break; case 6: // cancel controls_allowed = 0; break; default: break; // any other button is irrelevant } } // exit controls on rising edge of brake press or on brake press when // speed > 0 if (addr == 241) { int brake = GET_BYTE(to_push, 1); // Brake pedal's potentiometer returns near-zero reading // even when pedal is not pressed if (brake < 10) { brake = 0; } if (brake && (!gm_brake_prev || gm_moving)) { controls_allowed = 0; } gm_brake_prev = brake; } // exit controls on rising edge of gas press if (addr == 417) { int gas = GET_BYTE(to_push, 6); if (gas && !gm_gas_prev && long_controls_allowed) { controls_allowed = 0; } gm_gas_prev = gas; } // exit controls on regen paddle if (addr == 189) { bool regen = GET_BYTE(to_push, 0) & 0x20; if (regen) { controls_allowed = 0; } } // Check if ASCM or LKA camera are online // on powertrain bus. // 384 = ASCMLKASteeringCmd // 715 = ASCMGasRegenCmd if ((safety_mode_cnt > RELAY_TRNS_TIMEOUT) && (bus == 0) && ((addr == 384) || (addr == 715))) { relay_malfunction = true; } } // all commands: gas/regen, friction brake and steering // if controls_allowed and no pedals pressed // allow all commands up to limit // else // block all commands that produce actuation static int gm_tx_hook(CAN_FIFOMailBox_TypeDef *to_send) { int tx = 1; int addr = GET_ADDR(to_send); int bus = GET_BUS(to_send); if (!msg_allowed(addr, bus, GM_TX_MSGS, sizeof(GM_TX_MSGS)/sizeof(GM_TX_MSGS[0]))) { tx = 0; } if (relay_malfunction) { tx = 0; } // disallow actuator commands if gas or brake (with vehicle moving) are pressed // and the the latching controls_allowed flag is True int pedal_pressed = gm_gas_prev || (gm_brake_prev && gm_moving); bool current_controls_allowed = controls_allowed && !pedal_pressed; // BRAKE: safety check if (addr == 789) { int brake = ((GET_BYTE(to_send, 0) & 0xFU) << 8) + GET_BYTE(to_send, 1); brake = (0x1000 - brake) & 0xFFF; if (!current_controls_allowed || !long_controls_allowed) { if (brake != 0) { tx = 0; } } if (brake > GM_MAX_BRAKE) { tx = 0; } } // LKA STEER: safety check if (addr == 384) { int desired_torque = ((GET_BYTE(to_send, 0) & 0x7U) << 8) + GET_BYTE(to_send, 1); uint32_t ts = TIM2->CNT; bool violation = 0; desired_torque = to_signed(desired_torque, 11); if (current_controls_allowed) { // *** global torque limit check *** violation |= max_limit_check(desired_torque, GM_MAX_STEER, -GM_MAX_STEER); // *** torque rate limit check *** violation |= driver_limit_check(desired_torque, gm_desired_torque_last, &gm_torque_driver, GM_MAX_STEER, GM_MAX_RATE_UP, GM_MAX_RATE_DOWN, GM_DRIVER_TORQUE_ALLOWANCE, GM_DRIVER_TORQUE_FACTOR); // used next time gm_desired_torque_last = desired_torque; // *** torque real time rate limit check *** violation |= rt_rate_limit_check(desired_torque, gm_rt_torque_last, GM_MAX_RT_DELTA); // every RT_INTERVAL set the new limits uint32_t ts_elapsed = get_ts_elapsed(ts, gm_ts_last); if (ts_elapsed > GM_RT_INTERVAL) { gm_rt_torque_last = desired_torque; gm_ts_last = ts; } } // no torque if controls is not allowed if (!current_controls_allowed && (desired_torque != 0)) { violation = 1; } // reset to 0 if either controls is not allowed or there's a violation if (violation || !current_controls_allowed) { gm_desired_torque_last = 0; gm_rt_torque_last = 0; gm_ts_last = ts; } if (violation) { tx = 0; } } // GAS/REGEN: safety check if (addr == 715) { int gas_regen = ((GET_BYTE(to_send, 2) & 0x7FU) << 5) + ((GET_BYTE(to_send, 3) & 0xF8U) >> 3); // Disabled message is !engaged with gas // value that corresponds to max regen. if (!current_controls_allowed || !long_controls_allowed) { bool apply = GET_BYTE(to_send, 0) & 1U; if (apply || (gas_regen != GM_MAX_REGEN)) { tx = 0; } } if (gas_regen > GM_MAX_GAS) { tx = 0; } } // 1 allows the message through return tx; } const safety_hooks gm_hooks = { .init = nooutput_init, .rx = gm_rx_hook, .tx = gm_tx_hook, .tx_lin = nooutput_tx_lin_hook, .fwd = default_fwd_hook, };