/* failsafe support Andrew Tridgell, December 2011 */ #include "Rover.h" /* our failsafe strategy is to detect main loop lockup and switch to passing inputs straight from the RC inputs to RC outputs. */ /* this failsafe_check function is called from the core timer interrupt at 1kHz. */ void Rover::failsafe_check() { static uint16_t last_mainLoop_count; static uint32_t last_timestamp; static bool in_failsafe; uint32_t tnow = AP_HAL::micros(); if (mainLoop_count != last_mainLoop_count) { // the main loop is running, all is OK last_mainLoop_count = mainLoop_count; last_timestamp = tnow; in_failsafe = false; return; } if (tnow - last_timestamp > 200000) { // we have gone at least 0.2 seconds since the main loop // ran. That means we're in trouble, or perhaps are in // an initialisation routine or log erase. Start passing RC // inputs through to outputs in_failsafe = true; } if (in_failsafe && tnow - last_timestamp > 20000 && channel_throttle->read() >= (uint16_t)g.fs_throttle_value) { // pass RC inputs to outputs every 20ms last_timestamp = tnow; hal.rcin->clear_overrides(); uint8_t start_ch = 0; for (uint8_t ch=start_ch; ch < 4; ch++) { hal.rcout->write(ch, hal.rcin->read(ch)); } SRV_Channels::copy_radio_in_out(SRV_Channel::k_manual, true); } } #if ADVANCED_FAILSAFE == ENABLED /* check for AFS failsafe check */ void Rover::afs_fs_check(void) { // perform AFS failsafe checks g2.afs.check(rover.last_heartbeat_ms, false, failsafe.last_valid_rc_ms); // Rover don't have fence } #endif