/* This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ /* * AP_BoardConfig - px4 driver loading and setup */ #include #include "AP_BoardConfig.h" #if CONFIG_HAL_BOARD == HAL_BOARD_PX4 || CONFIG_HAL_BOARD == HAL_BOARD_VRBRAIN #include #include #include #include #include #include #include #include #if HAL_WITH_UAVCAN #include #include #endif extern const AP_HAL::HAL& hal; AP_BoardConfig::px4_board_type AP_BoardConfig::px4_configured_board; /* declare driver main entry points */ extern "C" { #if HAL_WITH_UAVCAN int uavcan_main(int, char **); #endif int fmu_main(int, char **); int px4io_main(int, char **); int adc_main(int, char **); int tone_alarm_main(int, char **); }; /* setup PWM pins */ void AP_BoardConfig::px4_setup_pwm() { /* configure the FMU driver for the right number of PWMs */ static const struct { uint8_t mode_parm; uint8_t mode_value; uint8_t num_gpios; } mode_table[] = { /* table mapping BRD_PWM_COUNT to ioctl arguments */ { 0, PWM_SERVO_MODE_NONE, 6 }, { 2, PWM_SERVO_MODE_2PWM, 4 }, { 4, PWM_SERVO_MODE_4PWM, 2 }, { 6, PWM_SERVO_MODE_6PWM, 0 }, { 7, PWM_SERVO_MODE_3PWM1CAP, 2 }, #if CONFIG_HAL_BOARD == HAL_BOARD_VRBRAIN { 8, PWM_SERVO_MODE_12PWM, 0 }, #endif }; uint8_t mode_parm = (uint8_t)px4.pwm_count.get(); uint8_t i; for (i=0; iprintf("RCOutput: invalid BRD_PWM_COUNT %u\n", mode_parm); } else { int fd = open("/dev/px4fmu", 0); if (fd == -1) { AP_HAL::panic("Unable to open /dev/px4fmu"); } if (ioctl(fd, PWM_SERVO_SET_MODE, mode_table[i].mode_value) != 0) { hal.console->printf("RCOutput: unable to setup AUX PWM with BRD_PWM_COUNT %u\n", mode_parm); } close(fd); #if CONFIG_HAL_BOARD == HAL_BOARD_PX4 if (mode_table[i].num_gpios < 2) { // reduce change of config mistake where relay and PWM interfere AP_Param::set_default_by_name("RELAY_PIN", -1); AP_Param::set_default_by_name("RELAY_PIN2", -1); } #endif } } /* setup flow control on UARTs */ void AP_BoardConfig::px4_setup_uart() { #if CONFIG_HAL_BOARD == HAL_BOARD_PX4 hal.uartC->set_flow_control((AP_HAL::UARTDriver::flow_control)px4.ser1_rtscts.get()); if (hal.uartD != nullptr) { hal.uartD->set_flow_control((AP_HAL::UARTDriver::flow_control)px4.ser2_rtscts.get()); } #endif } /* setup safety switch */ void AP_BoardConfig::px4_setup_safety_mask() { #if CONFIG_HAL_BOARD == HAL_BOARD_PX4 // setup channels to ignore the armed state int px4io_fd = open("/dev/px4io", 0); if (px4io_fd != -1) { if (ioctl(px4io_fd, PWM_SERVO_IGNORE_SAFETY, (uint16_t)px4.ignore_safety_channels) != 0) { hal.console->printf("IGNORE_SAFETY failed\n"); } } int px4fmu_fd = open("/dev/px4fmu", 0); if (px4fmu_fd != -1) { uint16_t mask = px4.ignore_safety_channels; if (px4io_fd != -1) { mask >>= 8; } if (ioctl(px4fmu_fd, PWM_SERVO_IGNORE_SAFETY, (uint16_t)mask) != 0) { hal.console->printf("IGNORE_SAFETY failed\n"); } close(px4fmu_fd); } if (px4io_fd != -1) { close(px4io_fd); } #endif } /* init safety state */ void AP_BoardConfig::px4_init_safety() { if (px4.safety_enable.get() == 0) { hal.rcout->force_safety_off(); hal.rcout->force_safety_no_wait(); // wait until safety has been turned off uint8_t count = 20; while (hal.util->safety_switch_state() != AP_HAL::Util::SAFETY_ARMED && count--) { hal.scheduler->delay(20); } } } /* setup SBUS */ void AP_BoardConfig::px4_setup_sbus(void) { #if CONFIG_HAL_BOARD == HAL_BOARD_PX4 if (px4.sbus_out_rate.get() >= 1) { static const struct { uint8_t value; uint16_t rate; } rates[] = { { 1, 50 }, { 2, 75 }, { 3, 100 }, { 4, 150 }, { 5, 200 }, { 6, 250 }, { 7, 300 } }; uint16_t rate = 300; for (uint8_t i=0; ienable_sbus_out(rate)) { hal.console->printf("Failed to enable SBUS out\n"); } } #endif } /* setup CANBUS drivers */ void AP_BoardConfig::px4_setup_canbus(void) { #if HAL_WITH_UAVCAN if (_var_info_can._can_enable >= 1) { if(hal.can_mgr == nullptr) { const_cast (hal).can_mgr = new PX4::PX4CANManager; } if(hal.can_mgr != nullptr) { if(_var_info_can._uavcan_enable > 0) { _var_info_can._uavcan = new AP_UAVCAN; if(_var_info_can._uavcan != nullptr) { AP_Param::load_object_from_eeprom(_var_info_can._uavcan, AP_UAVCAN::var_info); hal.can_mgr->set_UAVCAN(_var_info_can._uavcan); bool initret = hal.can_mgr->begin(_var_info_can._can_bitrate, _var_info_can._can_enable); if (!initret) { hal.console->printf("Failed to initialize can_mgr\n\r"); } else { hal.console->printf("can_mgr initialized well\n\r"); // start UAVCAN working thread hal.scheduler->create_uavcan_thread(); } } else { _var_info_can._uavcan_enable.set(0); hal.console->printf("AP_UAVCAN failed to allocate\n\r"); } } } } #endif } extern "C" int waitpid(pid_t, int *, int); /* start one px4 driver */ bool AP_BoardConfig::px4_start_driver(main_fn_t main_function, const char *name, const char *arguments) { char *s = strdup(arguments); char *args[10]; uint8_t nargs = 0; char *saveptr = nullptr; // parse into separate arguments for (char *tok=strtok_r(s, " ", &saveptr); tok; tok=strtok_r(nullptr, " ", &saveptr)) { args[nargs++] = tok; if (nargs == ARRAY_SIZE(args)-1) { break; } } args[nargs++] = nullptr; printf("Starting driver %s %s\n", name, arguments); pid_t pid; if (task_spawn(&pid, name, main_function, nullptr, nullptr, args, nullptr) != 0) { free(s); printf("Failed to spawn %s\n", name); return false; } // wait for task to exit and gather status int status = -1; if (waitpid(pid, &status, 0) != pid) { printf("waitpid failed for %s\n", name); free(s); return false; } free(s); return (status >> 8) == 0; } void AP_BoardConfig::px4_setup_drivers(void) { #if defined(CONFIG_ARCH_BOARD_PX4FMU_V4) /* this works around an issue with some FMUv4 hardware (eg. copies of the Pixracer) which have incorrect components leading to sensor brownout on boot */ if (px4_start_driver(fmu_main, "fmu", "sensor_reset 20")) { printf("FMUv4 sensor reset complete\n"); } #endif if (px4.board_type == PX4_BOARD_OLDDRIVERS) { printf("Old drivers no longer supported\n"); px4.board_type = PX4_BOARD_AUTO; } // run board auto-detection px4_autodetect(); if (px4.board_type == PX4_BOARD_PH2SLIM || px4.board_type == PX4_BOARD_PIXHAWK2) { _imu_target_temperature.set_default(60); } px4_configured_board = (enum px4_board_type)px4.board_type.get(); switch (px4_configured_board) { case PX4_BOARD_PX4V1: case PX4_BOARD_PIXHAWK: case PX4_BOARD_PIXHAWK2: case PX4_BOARD_PIXRACER: case PX4_BOARD_PHMINI: case PX4_BOARD_AUAV21: case PX4_BOARD_PH2SLIM: case PX4_BOARD_AEROFC: break; default: sensor_config_error("Unknown board type"); break; } } /* play a tune */ void AP_BoardConfig::px4_tone_alarm(const char *tone_string) { px4_start_driver(tone_alarm_main, "tone_alarm", tone_string); } /* setup px4io, possibly updating firmware */ void AP_BoardConfig::px4_setup_px4io(void) { if (px4_start_driver(px4io_main, "px4io", "start norc")) { printf("px4io started OK\n"); } else { // might be in bootloader mode if user held down safety switch // at power on printf("Loading /etc/px4io/px4io.bin\n"); px4_tone_alarm("MBABGP"); if (px4_start_driver(px4io_main, "px4io", "update /etc/px4io/px4io.bin")) { printf("upgraded PX4IO firmware OK\n"); px4_tone_alarm("MSPAA"); } else { printf("Failed to upgrade PX4IO firmware\n"); px4_tone_alarm("MNGGG"); } hal.scheduler->delay(1000); if (px4_start_driver(px4io_main, "px4io", "start norc")) { printf("px4io started OK\n"); } else { sensor_config_error("px4io start failed"); } } /* see if we need to update px4io firmware */ if (px4_start_driver(px4io_main, "px4io", "checkcrc /etc/px4io/px4io.bin")) { printf("PX4IO CRC OK\n"); } else { printf("PX4IO CRC failure\n"); px4_tone_alarm("MBABGP"); if (px4_start_driver(px4io_main, "px4io", "safety_on")) { printf("PX4IO disarm OK\n"); } else { printf("PX4IO disarm failed\n"); } hal.scheduler->delay(1000); if (px4_start_driver(px4io_main, "px4io", "forceupdate 14662 /etc/px4io/px4io.bin")) { hal.scheduler->delay(1000); if (px4_start_driver(px4io_main, "px4io", "start norc")) { printf("px4io restart OK\n"); px4_tone_alarm("MSPAA"); } else { px4_tone_alarm("MNGGG"); sensor_config_error("PX4IO restart failed"); } } else { printf("PX4IO update failed\n"); px4_tone_alarm("MNGGG"); } } } /* setup required peripherals like adc, rcinput and rcoutput */ void AP_BoardConfig::px4_setup_peripherals(void) { // always start adc if (px4_start_driver(adc_main, "adc", "start")) { hal.analogin->init(); printf("ADC started OK\n"); } else { sensor_config_error("no ADC found"); } #if HAL_PX4_HAVE_PX4IO if (px4.io_enable.get() != 0) { px4_setup_px4io(); } #endif #if defined(CONFIG_ARCH_BOARD_PX4FMU_V1) const char *fmu_mode = "mode_serial"; #elif defined(CONFIG_ARCH_BOARD_AEROFC_V1) const char *fmu_mode = "mode_rcin"; #else const char *fmu_mode = "mode_pwm4"; #endif if (px4_start_driver(fmu_main, "fmu", fmu_mode)) { printf("fmu %s started OK\n", fmu_mode); } else { sensor_config_error("fmu start failed"); } hal.gpio->init(); hal.rcin->init(); hal.rcout->init(); } /* check a SPI device for a register value */ bool AP_BoardConfig::spi_check_register(const char *devname, uint8_t regnum, uint8_t value, uint8_t read_flag) { auto dev = hal.spi->get_device(devname); if (!dev) { printf("%s: no device\n", devname); return false; } dev->set_read_flag(read_flag); uint8_t v; if (!dev->read_registers(regnum, &v, 1)) { printf("%s: reg %02x read fail\n", devname, (unsigned)regnum); return false; } printf("%s: reg %02x %02x %02x\n", devname, (unsigned)regnum, (unsigned)value, (unsigned)v); return v == value; } #define MPUREG_WHOAMI 0x75 #define MPU_WHOAMI_MPU60X0 0x68 #define MPU_WHOAMI_MPU9250 0x71 #define MPU_WHOAMI_ICM20608 0xaf #define MPU_WHOAMI_ICM20602 0x12 #define LSMREG_WHOAMI 0x0f #define LSM_WHOAMI_LSM303D 0x49 /* auto-detect board type */ void AP_BoardConfig::px4_autodetect(void) { if (px4.board_type != PX4_BOARD_AUTO) { // user has chosen a board type return; } #if defined(CONFIG_ARCH_BOARD_PX4FMU_V1) // only one choice px4.board_type.set(PX4_BOARD_PX4V1); hal.console->printf("Detected PX4v1\n"); #elif defined(CONFIG_ARCH_BOARD_PX4FMU_V2) if ((spi_check_register(HAL_INS_MPU60x0_EXT_NAME, MPUREG_WHOAMI, MPU_WHOAMI_MPU60X0) || spi_check_register(HAL_INS_MPU9250_EXT_NAME, MPUREG_WHOAMI, MPU_WHOAMI_MPU9250) || spi_check_register(HAL_INS_ICM20608_EXT_NAME, MPUREG_WHOAMI, MPU_WHOAMI_ICM20608) || spi_check_register(HAL_INS_ICM20608_EXT_NAME, MPUREG_WHOAMI, MPU_WHOAMI_ICM20602)) && spi_check_register(HAL_INS_LSM9DS0_EXT_A_NAME, LSMREG_WHOAMI, LSM_WHOAMI_LSM303D)) { // Pixhawk2 has LSM303D and MPUxxxx on external bus px4.board_type.set(PX4_BOARD_PIXHAWK2); hal.console->printf("Detected PIXHAWK2\n"); } else if ((spi_check_register(HAL_INS_ICM20608_AM_NAME, MPUREG_WHOAMI, MPU_WHOAMI_ICM20608) || spi_check_register(HAL_INS_ICM20608_AM_NAME, MPUREG_WHOAMI, MPU_WHOAMI_ICM20602)) && spi_check_register(HAL_INS_MPU9250_NAME, MPUREG_WHOAMI, MPU_WHOAMI_MPU9250)) { // PHMINI has an ICM20608 and MPU9250 on sensor bus px4.board_type.set(PX4_BOARD_PHMINI); hal.console->printf("Detected PixhawkMini\n"); } else if (spi_check_register(HAL_INS_LSM9DS0_A_NAME, LSMREG_WHOAMI, LSM_WHOAMI_LSM303D) && (spi_check_register(HAL_INS_MPU60x0_NAME, MPUREG_WHOAMI, MPU_WHOAMI_MPU60X0) || spi_check_register(HAL_INS_ICM20608_NAME, MPUREG_WHOAMI, MPU_WHOAMI_ICM20608) || spi_check_register(HAL_INS_ICM20608_NAME, MPUREG_WHOAMI, MPU_WHOAMI_ICM20602) || spi_check_register(HAL_INS_MPU9250_NAME, MPUREG_WHOAMI, MPU_WHOAMI_MPU9250))) { // classic or upgraded Pixhawk1 px4.board_type.set(PX4_BOARD_PIXHAWK); hal.console->printf("Detected Pixhawk\n"); } else { sensor_config_error("Unable to detect board type"); } #elif defined(CONFIG_ARCH_BOARD_PX4FMU_V4) // only one choice px4.board_type.set_and_notify(PX4_BOARD_PIXRACER); hal.console->printf("Detected Pixracer\n"); #elif defined(CONFIG_ARCH_BOARD_AEROFC_V1) px4.board_type.set_and_notify(PX4_BOARD_AEROFC); hal.console->printf("Detected Aero FC\n"); #endif } /* setup px4 peripherals and drivers */ void AP_BoardConfig::px4_setup() { px4_setup_peripherals(); px4_setup_pwm(); px4_setup_safety_mask(); px4_setup_uart(); px4_setup_sbus(); px4_setup_drivers(); px4_setup_canbus(); } #endif // HAL_BOARD_PX4