enable TIM4 in shared mode on IOMCU for dshot
stop the PWM peripheral in rcout DMA swapping on IOMCU to prevent UART corruption
provide debugging options on iomcu dshot
support unshared DMA with iomcu dshot
optimize rcout on iomcu
tune iomcu stack for 8 channels
implement dshot ESC telemetry
add support for channel enablement/disablement
add stack checks and reporting for MSP stack
wait correct timeout in tickless mode
ensure that dshot sees all pwm updates as the occur in order to maintain periodicity
ensure dshot options are propagated on reset
implement dshot commands
ensure oneshot/125 and mode are setup correctly
add instrumentation for process stack
prevent illegal recursive locks
ignore requests for dshot 600
add support for soft reboot of iomcu
set timer counter size to be a byte wide
use HAL_DSHOT_ENABLED instead of DISABLE_DSHOT
build iomcu-dshot from existing iomcu
correct defines for DMAR size on iomcu
allow iomcu dshot rate to be configured from FMU
correct DMA allocation for dshot on iomcu
allow debug builds on iofirmware
ensure dshot is enabled on iomcu dshot
support proper iomcu dshot output thread triggered by FMU
allow selective disablement of serial LEDs and passthrough
disable serial LEDs and passthrough on iomcu-dshot
propagate ESC telemetry to iomcu
dshot_send_groups() for iomcu
remove use of ICU on iomcu for dshot. only allocate possible DMA channels
rename serial passthrough and dshot defines
update dshot docs
resize dshot iomcu main stack to minimum
correct dshot prescaler usage and bit_width_mul calculation
use ChibiOS in tickless mode on iomcu-dshot so that virtual timers can be used
propagate dshot commands to iomcu
passthrough oneshot125 to iomcu
add support for selectively disabling serial LEDs and passthrough
provide mutator to allow iomcu to set dshot rate
support HAL_SERIAL_ESC_COMM_ENABLED and DISABLE_SERIAL_ESC_COMM
update dshot docs
make default serial led enablement dependent on dshot
filter status was initially set to zero then updated. This interacts
with the IMU filtering code which checks filter status from a
different thread to determine active_EKF_type(). When the race
condition is hit then the IMU we are running notch filters on changes
for a single sample, causing a notch filter glitch
../../libraries/SITL/SIM_GPS.cpp: In member function 'void SITL::GPS::send_gsof(const uint8_t*, uint16_t)':
../../libraries/SITL/SIM_GPS.cpp:1292:24: error: 'AP_InternalError' has not been declared
1292 | INTERNAL_ERROR(AP_InternalError::error_t::flow_of_control);