mirror of https://github.com/ArduPilot/ardupilot
308 lines
8.3 KiB
C++
308 lines
8.3 KiB
C++
#include <AP_HAL/AP_HAL.h>
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#if CONFIG_HAL_BOARD == HAL_BOARD_SITL
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#include <assert.h>
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#include <errno.h>
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#include <signal.h>
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#include <stdio.h>
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#include "AP_HAL_SITL.h"
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#include "AP_HAL_SITL_Namespace.h"
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#include "HAL_SITL_Class.h"
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#include "Scheduler.h"
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#include "AnalogIn.h"
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#include "UARTDriver.h"
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#include "I2CDevice.h"
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#include "Storage.h"
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#include "RCInput.h"
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#include "RCOutput.h"
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#include "GPIO.h"
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#include "SITL_State.h"
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#include "Util.h"
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#include "DSP.h"
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#include "CANSocketIface.h"
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#include "SPIDevice.h"
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#include <AP_BoardConfig/AP_BoardConfig.h>
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#include <AP_HAL_Empty/AP_HAL_Empty.h>
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#include <AP_HAL_Empty/AP_HAL_Empty_Private.h>
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#include <AP_InternalError/AP_InternalError.h>
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#include <AP_Logger/AP_Logger.h>
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#include <AP_RCProtocol/AP_RCProtocol_config.h>
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using namespace HALSITL;
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HAL_SITL& hal_sitl = (HAL_SITL&)AP_HAL::get_HAL();
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static Storage sitlStorage;
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static SITL_State sitlState;
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static Scheduler sitlScheduler(&sitlState);
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#if AP_RCPROTOCOL_ENABLED
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static RCInput sitlRCInput(&sitlState);
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#else
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static Empty::RCInput sitlRCInput;
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#endif
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static RCOutput sitlRCOutput(&sitlState);
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static GPIO sitlGPIO(&sitlState);
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static AnalogIn sitlAnalogIn(&sitlState);
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static DSP dspDriver;
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// use the Empty HAL for hardware we don't emulate
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static Empty::OpticalFlow emptyOpticalFlow;
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static Empty::Flash emptyFlash;
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static UARTDriver sitlUart0Driver(0, &sitlState);
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static UARTDriver sitlUart1Driver(1, &sitlState);
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static UARTDriver sitlUart2Driver(2, &sitlState);
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static UARTDriver sitlUart3Driver(3, &sitlState);
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static UARTDriver sitlUart4Driver(4, &sitlState);
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static UARTDriver sitlUart5Driver(5, &sitlState);
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static UARTDriver sitlUart6Driver(6, &sitlState);
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static UARTDriver sitlUart7Driver(7, &sitlState);
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static UARTDriver sitlUart8Driver(8, &sitlState);
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static UARTDriver sitlUart9Driver(9, &sitlState);
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#if defined(HAL_BUILD_AP_PERIPH)
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static Empty::I2CDeviceManager i2c_mgr_instance;
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static Empty::SPIDeviceManager spi_mgr_instance;
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#else
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static I2CDeviceManager i2c_mgr_instance;
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static SPIDeviceManager spi_mgr_instance;
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#endif
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static Util utilInstance(&sitlState);
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#if HAL_NUM_CAN_IFACES
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static HALSITL::CANIface* canDrivers[HAL_NUM_CAN_IFACES];
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#endif
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static Empty::WSPIDeviceManager wspi_mgr_instance;
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HAL_SITL::HAL_SITL() :
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AP_HAL::HAL(
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&sitlUart0Driver, /* uartA */
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&sitlUart1Driver, /* uartB */
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&sitlUart2Driver, /* uartC */
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&sitlUart3Driver, /* uartD */
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&sitlUart4Driver, /* uartE */
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&sitlUart5Driver, /* uartF */
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&sitlUart6Driver, /* uartG */
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&sitlUart7Driver, /* uartH */
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&sitlUart8Driver, /* uartI */
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&sitlUart9Driver, /* uartJ */
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&i2c_mgr_instance,
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&spi_mgr_instance, /* spi */
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&wspi_mgr_instance,
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&sitlAnalogIn, /* analogin */
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&sitlStorage, /* storage */
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&sitlUart0Driver, /* console */
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&sitlGPIO, /* gpio */
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&sitlRCInput, /* rcinput */
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&sitlRCOutput, /* rcoutput */
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&sitlScheduler, /* scheduler */
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&utilInstance, /* util */
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&emptyOpticalFlow, /* onboard optical flow */
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&emptyFlash, /* flash driver */
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&dspDriver, /* dsp driver */
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#if HAL_NUM_CAN_IFACES
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(AP_HAL::CANIface**)canDrivers
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#else
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nullptr
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#endif
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), /* CAN */
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_sitl_state(&sitlState)
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{}
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static char *new_argv[100];
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/*
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save watchdog data
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*/
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static bool watchdog_save(const uint32_t *data, uint32_t nwords)
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{
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int fd = ::open("persistent.dat", O_WRONLY|O_CREAT|O_TRUNC, 0644);
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bool ret = false;
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if (fd != -1) {
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if (::write(fd, data, nwords*4) == (ssize_t)(nwords*4)) {
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ret = true;
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}
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::close(fd);
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}
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return ret;
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}
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/*
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load watchdog data
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*/
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static bool watchdog_load(uint32_t *data, uint32_t nwords)
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{
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int fd = ::open("persistent.dat", O_RDONLY, 0644);
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bool ret = false;
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if (fd != -1) {
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ret = (::read(fd, data, nwords*4) == (ssize_t)(nwords*4));
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::close(fd);
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}
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return ret;
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}
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/*
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implement watchdoh reset via SIGALRM
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*/
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static void sig_alrm(int signum)
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{
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static char env[] = "SITL_WATCHDOG_RESET=1";
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putenv(env);
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printf("GOT SIGALRM\n");
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execv(new_argv[0], new_argv);
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}
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void HAL_SITL::exit_signal_handler(int signum)
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{
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HALSITL::Scheduler::_should_exit = true;
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}
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void HAL_SITL::setup_signal_handlers() const
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{
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struct sigaction sa = { };
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sa.sa_flags = SA_NOCLDSTOP;
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sa.sa_handler = HAL_SITL::exit_signal_handler;
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sigaction(SIGTERM, &sa, NULL);
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#if defined(HAL_COVERAGE_BUILD) && HAL_COVERAGE_BUILD == 1
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sigaction(SIGINT, &sa, NULL);
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sigaction(SIGHUP, &sa, NULL);
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sigaction(SIGQUIT, &sa, NULL);
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#endif
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}
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/*
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fill 8k of stack with NaN. This allows us to find uses of
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uninitialised memory without valgrind
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*/
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static void fill_stack_nan(void)
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{
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float stk[2048];
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fill_nanf(stk, ARRAY_SIZE(stk));
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}
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uint8_t HAL_SITL::get_instance() const
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{
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return _sitl_state->get_instance();
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}
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#if defined(HAL_BUILD_AP_PERIPH)
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bool HAL_SITL::run_in_maintenance_mode() const
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{
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return _sitl_state->run_in_maintenance_mode();
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}
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#endif
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void HAL_SITL::run(int argc, char * const argv[], Callbacks* callbacks) const
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{
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assert(callbacks);
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utilInstance.init(argc, argv);
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_sitl_state->init(argc, argv);
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scheduler->init();
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serial(0)->begin(115200);
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rcin->init();
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rcout->init();
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// spi->init();
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analogin->init();
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if (getenv("SITL_WATCHDOG_RESET")) {
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INTERNAL_ERROR(AP_InternalError::error_t::watchdog_reset);
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if (watchdog_load((uint32_t *)&utilInstance.persistent_data, (sizeof(utilInstance.persistent_data)+3)/4)) {
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serial(0)->printf("Loaded watchdog data");
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utilInstance.last_persistent_data = utilInstance.persistent_data;
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}
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}
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// form a new argv, removing problem parameters. This is used for reboot
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uint8_t new_argv_offset = 0;
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for (uint8_t i=0; i<ARRAY_SIZE(new_argv) && i<argc; i++) {
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if (!strcmp(argv[i], "-w")) {
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// don't wipe params on reboot
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continue;
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}
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new_argv[new_argv_offset++] = argv[i];
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}
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fill_stack_nan();
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callbacks->setup();
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scheduler->set_system_initialized();
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#if HAL_LOGGING_ENABLED
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if (getenv("SITL_WATCHDOG_RESET")) {
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const AP_HAL::Util::PersistentData &pd = util->persistent_data;
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AP::logger().WriteCritical("WDOG", "TimeUS,Task,IErr,IErrCnt,IErrLn,MavMsg,MavCmd,SemLine", "QbIHHHHH",
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AP_HAL::micros64(),
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pd.scheduler_task,
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pd.internal_errors,
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pd.internal_error_count,
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pd.internal_error_last_line,
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pd.last_mavlink_msgid,
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pd.last_mavlink_cmd,
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pd.semaphore_line);
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}
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#endif
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bool using_watchdog = AP_BoardConfig::watchdog_enabled();
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if (using_watchdog) {
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signal(SIGALRM, sig_alrm);
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alarm(2);
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}
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setup_signal_handlers();
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uint32_t last_watchdog_save = AP_HAL::millis();
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uint8_t fill_count = 0;
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while (true) {
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if (HALSITL::Scheduler::_should_exit) {
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::fprintf(stderr, "Exitting\n");
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exit(0);
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}
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if (fill_count++ % 10 == 0) {
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// only fill every 10 loops. This still gives us a lot of
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// protection, but saves a lot of CPU
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fill_count = 1u;
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fill_stack_nan();
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}
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callbacks->loop();
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HALSITL::Scheduler::_run_io_procs();
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uint32_t now = AP_HAL::millis();
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if (now - last_watchdog_save >= 100 && using_watchdog) {
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// save persistent data every 100ms
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last_watchdog_save = now;
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watchdog_save((uint32_t *)&utilInstance.persistent_data, (sizeof(utilInstance.persistent_data)+3)/4);
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}
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if (using_watchdog) {
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// note that this only works for a speedup of 1
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alarm(2);
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}
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}
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actually_reboot();
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}
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void HAL_SITL::actually_reboot()
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{
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execv(new_argv[0], new_argv);
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AP_HAL::panic("PANIC: REBOOT FAILED: %s", strerror(errno));
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}
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const AP_HAL::HAL& AP_HAL::get_HAL() {
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static const HAL_SITL hal;
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return hal;
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}
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#endif // CONFIG_HAL_BOARD == HAL_BOARD_SITL
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