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# include <AP_HAL/AP_HAL.h>
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# if CONFIG_HAL_BOARD == HAL_BOARD_PX4
# include <stdio.h>
# include <stdarg.h>
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# include <unistd.h>
# include <stdlib.h>
# include <errno.h>
# include <apps/nsh.h>
# include <fcntl.h>
# include "UARTDriver.h"
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# include <uORB/uORB.h>
# include <uORB/topics/safety.h>
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# include <systemlib/board_serial.h>
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# include <drivers/drv_gpio.h>
# include <AP_Math/AP_Math.h>
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# include <AP_BoardConfig/AP_BoardConfig.h>
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# include <drivers/drv_tone_alarm.h>
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extern const AP_HAL : : HAL & hal ;
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# include "Util.h"
using namespace PX4 ;
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extern bool _px4_thread_should_exit ;
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/*
constructor
*/
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PX4Util : : PX4Util ( void ) : Util ( )
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{
_safety_handle = orb_subscribe ( ORB_ID ( safety ) ) ;
}
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/*
start an instance of nsh
*/
bool PX4Util : : run_debug_shell ( AP_HAL : : BetterStream * stream )
{
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PX4UARTDriver * uart = ( PX4UARTDriver * ) stream ;
int fd ;
// trigger exit in the other threads. This stops use of the
// various driver handles, and especially the px4io handle,
// which otherwise would cause a crash if px4io is stopped in
// the shell
_px4_thread_should_exit = true ;
// take control of stream fd
fd = uart - > _get_fd ( ) ;
// mark it blocking (nsh expects a blocking fd)
unsigned v ;
v = fcntl ( fd , F_GETFL , 0 ) ;
fcntl ( fd , F_SETFL , v & ~ O_NONBLOCK ) ;
// setup the UART on stdin/stdout/stderr
close ( 0 ) ;
close ( 1 ) ;
close ( 2 ) ;
dup2 ( fd , 0 ) ;
dup2 ( fd , 1 ) ;
dup2 ( fd , 2 ) ;
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nsh_consolemain ( 0 , nullptr ) ;
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// this shouldn't happen
hal . console - > printf ( " shell exited \n " ) ;
return true ;
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}
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/*
return state of safety switch
*/
enum PX4Util : : safety_state PX4Util : : safety_switch_state ( void )
{
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# if !HAL_HAVE_SAFETY_SWITCH
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return AP_HAL : : Util : : SAFETY_NONE ;
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# endif
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if ( _safety_handle = = - 1 ) {
_safety_handle = orb_subscribe ( ORB_ID ( safety ) ) ;
}
if ( _safety_handle = = - 1 ) {
return AP_HAL : : Util : : SAFETY_NONE ;
}
struct safety_s safety ;
if ( orb_copy ( ORB_ID ( safety ) , _safety_handle , & safety ) ! = OK ) {
return AP_HAL : : Util : : SAFETY_NONE ;
}
if ( ! safety . safety_switch_available ) {
return AP_HAL : : Util : : SAFETY_NONE ;
}
if ( safety . safety_off ) {
return AP_HAL : : Util : : SAFETY_ARMED ;
}
return AP_HAL : : Util : : SAFETY_DISARMED ;
}
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/*
display PX4 system identifer - board type and serial number
*/
bool PX4Util : : get_system_id ( char buf [ 40 ] )
{
uint8_t serialid [ 12 ] ;
memset ( serialid , 0 , sizeof ( serialid ) ) ;
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get_board_serial ( serialid ) ;
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# if defined(CONFIG_ARCH_BOARD_PX4FMU_V1)
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const char * board_type = " PX4v1 " ;
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# elif defined(CONFIG_ARCH_BOARD_PX4FMU_V3)
const char * board_type = " PX4v3 " ;
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# elif defined(CONFIG_ARCH_BOARD_PX4FMU_V2)
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const char * board_type = " PX4v2 " ;
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# elif defined(CONFIG_ARCH_BOARD_PX4FMU_V4)
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const char * board_type = " PX4v4 " ;
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# elif defined(CONFIG_ARCH_BOARD_PX4FMU_V4PRO)
const char * board_type = " PX4v4PRO " ;
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# elif defined(CONFIG_ARCH_BOARD_AEROFC_V1)
const char * board_type = " AEROFCv1 " ;
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# else
const char * board_type = " PX4v? " ;
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# endif
// this format is chosen to match the human_readable_serial()
// function in auth.c
snprintf ( buf , 40 , " %s %02X%02X%02X%02X %02X%02X%02X%02X %02X%02X%02X%02X " ,
board_type ,
( unsigned ) serialid [ 0 ] , ( unsigned ) serialid [ 1 ] , ( unsigned ) serialid [ 2 ] , ( unsigned ) serialid [ 3 ] ,
( unsigned ) serialid [ 4 ] , ( unsigned ) serialid [ 5 ] , ( unsigned ) serialid [ 6 ] , ( unsigned ) serialid [ 7 ] ,
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( unsigned ) serialid [ 8 ] , ( unsigned ) serialid [ 9 ] , ( unsigned ) serialid [ 10 ] , ( unsigned ) serialid [ 11 ] ) ;
buf [ 39 ] = 0 ;
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return true ;
}
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/**
how much free memory do we have in bytes .
*/
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uint32_t PX4Util : : available_memory ( void )
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{
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return mallinfo ( ) . fordblks ;
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}
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/*
AP_HAL wrapper around PX4 perf counters
*/
PX4Util : : perf_counter_t PX4Util : : perf_alloc ( PX4Util : : perf_counter_type t , const char * name )
{
: : perf_counter_type px4_t ;
switch ( t ) {
case PX4Util : : PC_COUNT :
px4_t = : : PC_COUNT ;
break ;
case PX4Util : : PC_ELAPSED :
px4_t = : : PC_ELAPSED ;
break ;
case PX4Util : : PC_INTERVAL :
px4_t = : : PC_INTERVAL ;
break ;
default :
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return nullptr ;
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}
return ( perf_counter_t ) : : perf_alloc ( px4_t , name ) ;
}
void PX4Util : : perf_begin ( perf_counter_t h )
{
: : perf_begin ( ( : : perf_counter_t ) h ) ;
}
void PX4Util : : perf_end ( perf_counter_t h )
{
: : perf_end ( ( : : perf_counter_t ) h ) ;
}
void PX4Util : : perf_count ( perf_counter_t h )
{
: : perf_count ( ( : : perf_counter_t ) h ) ;
}
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void PX4Util : : set_imu_temp ( float current )
{
if ( ! _heater . target | | * _heater . target = = - 1 ) {
return ;
}
// average over temperatures to remove noise
_heater . count + + ;
_heater . sum + = current ;
// update once a second
uint32_t now = AP_HAL : : millis ( ) ;
if ( now - _heater . last_update_ms < 1000 ) {
return ;
}
_heater . last_update_ms = now ;
current = _heater . sum / _heater . count ;
_heater . sum = 0 ;
_heater . count = 0 ;
// experimentally tweaked for Pixhawk2
const float kI = 0.3f ;
const float kP = 200.0f ;
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float target = ( float ) ( * _heater . target ) ;
// limit to 65 degrees to prevent damage
target = constrain_float ( target , 0 , 65 ) ;
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float err = target - current ;
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_heater . integrator + = kI * err ;
_heater . integrator = constrain_float ( _heater . integrator , 0 , 70 ) ;
float output = constrain_float ( kP * err + _heater . integrator , 0 , 100 ) ;
// hal.console->printf("integrator %.1f out=%.1f temp=%.2f err=%.2f\n", _heater.integrator, output, current, err);
if ( _heater . fd = = - 1 ) {
_heater . fd = open ( " /dev/px4io " , O_RDWR ) ;
}
if ( _heater . fd ! = - 1 ) {
ioctl ( _heater . fd , GPIO_SET_HEATER_DUTY_CYCLE , ( unsigned ) output ) ;
}
}
void PX4Util : : set_imu_target_temp ( int8_t * target )
{
_heater . target = target ;
}
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extern " C " {
extern void * fat_dma_alloc ( size_t ) ;
extern void fat_dma_free ( void * , size_t ) ;
}
/*
allocate DMA - capable memory if possible . Otherwise return normal
memory .
*/
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void * PX4Util : : malloc_type ( size_t size , AP_HAL : : Util : : Memory_Type mem_type )
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{
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# if !defined(CONFIG_ARCH_BOARD_PX4FMU_V1)
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if ( mem_type = = AP_HAL : : Util : : MEM_DMA_SAFE ) {
return fat_dma_alloc ( size ) ;
} else {
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return calloc ( 1 , size ) ;
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}
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# else
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return calloc ( 1 , size ) ;
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# endif
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}
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void PX4Util : : free_type ( void * ptr , size_t size , AP_HAL : : Util : : Memory_Type mem_type )
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{
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# if !defined(CONFIG_ARCH_BOARD_PX4FMU_V1)
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if ( mem_type = = AP_HAL : : Util : : MEM_DMA_SAFE ) {
return fat_dma_free ( ptr , size ) ;
} else {
return free ( ptr ) ;
}
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# else
return free ( ptr ) ;
# endif
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}
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extern " C " {
int bl_update_main ( int argc , char * argv [ ] ) ;
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int tone_alarm_main ( int argc , char * argv [ ] ) ;
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} ;
bool PX4Util : : flash_bootloader ( )
{
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# if !defined(CONFIG_ARCH_BOARD_AEROFC_V1)
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if ( AP_BoardConfig : : px4_start_driver ( bl_update_main , " bl_update " , " /etc/bootloader/fmu_bl.bin " ) ) {
hal . console - > printf ( " updated bootloader \n " ) ;
return true ;
}
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# endif
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return false ;
}
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bool PX4Util : : toneAlarm_init ( )
{
if ( ! AP_BoardConfig : : px4_start_driver ( tone_alarm_main , " tone_alarm " , " start " ) ) {
hal . console - > printf ( " Failed to start tone_alarm \n " ) ;
return false ;
}
_tonealarm_fd = open ( TONEALARM0_DEVICE_PATH , O_WRONLY ) ;
if ( _tonealarm_fd = = - 1 ) {
hal . console - > printf ( " ToneAlarm_PX4: Unable to open " TONEALARM0_DEVICE_PATH ) ;
return false ;
}
return true ;
}
void PX4Util : : toneAlarm_set_buzzer_tone ( float frequency , float volume , uint32_t duration_ms )
{
if ( _tonealarm_fd = = - 1 ) {
return ;
}
if ( is_zero ( frequency ) | | is_zero ( volume ) ) {
write ( _tonealarm_fd , " MFP " , 4 ) ;
} else {
unsigned note = constrain_float ( roundf ( 17.3123404906676f * logf ( frequency ) - 71.3763165622959f ) , 4 , 87 ) ; // constraint based on comment in PX4 tonealarm driver - "note value in the range C1 to B7"
char tune [ 20 ] ;
snprintf ( tune , sizeof ( tune ) , " MFMLT32L1N%u " , note ) ;
tune [ sizeof ( tune ) - 1 ] = ' \0 ' ;
write ( _tonealarm_fd , tune , strlen ( tune ) + 1 ) ;
}
}
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# endif // CONFIG_HAL_BOARD == HAL_BOARD_PX4