ardupilot/Blimp/failsafe.cpp

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#include "Blimp.h"
//
// failsafe support
// Andrew Tridgell, December 2011
//
// our failsafe strategy is to detect main loop lockup and disarm the motors
//
static bool failsafe_enabled = false;
static uint16_t failsafe_last_ticks;
static uint32_t failsafe_last_timestamp;
static bool in_failsafe;
//
// failsafe_enable - enable failsafe
//
void Blimp::failsafe_enable()
{
failsafe_enabled = true;
failsafe_last_timestamp = micros();
}
//
// failsafe_disable - used when we know we are going to delay the mainloop significantly
//
void Blimp::failsafe_disable()
{
failsafe_enabled = false;
}
//
// failsafe_check - this function is called from the core timer interrupt at 1kHz.
//
void Blimp::failsafe_check()
{
uint32_t tnow = AP_HAL::micros();
const uint16_t ticks = scheduler.ticks();
if (ticks != failsafe_last_ticks) {
// the main loop is running, all is OK
failsafe_last_ticks = ticks;
failsafe_last_timestamp = tnow;
if (in_failsafe) {
in_failsafe = false;
AP::logger().Write_Error(LogErrorSubsystem::CPU, LogErrorCode::FAILSAFE_RESOLVED);
}
return;
}
if (!in_failsafe && failsafe_enabled && tnow - failsafe_last_timestamp > 2000000) {
// motors are running but we have gone 2 second since the
// main loop ran. That means we're in trouble and should
// disarm the motors->
in_failsafe = true;
// reduce motors to minimum (we do not immediately disarm because we want to log the failure)
if (motors->armed()) {
motors->output_min();
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//TODO: this may not work correctly.
}
AP::logger().Write_Error(LogErrorSubsystem::CPU, LogErrorCode::FAILSAFE_OCCURRED);
}
if (failsafe_enabled && in_failsafe && tnow - failsafe_last_timestamp > 1000000) {
// disarm motors every second
failsafe_last_timestamp = tnow;
if (motors->armed()) {
motors->armed(false);
motors->output();
}
}
}