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PX4-Autopilot/ROMFS/px4fmu_common/init.d/rcS
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José Roberto de Souza 126172d70c Aerofc: px4fmu_common: Only set AUTOSTART to 4070 if nothing was set 
This way user can set aftwards any other AUTOSTART value and it will
not be overwritten.
Also move the block up and set SYS_AUTOCONFIG, this way if air frame
configuration was reset in ground station it will wipe the parameters
before load new ones.
2016-12-01 07:52:23 +01:00

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#!nsh
#
# PX4FMU startup script.
#
# NOTE: COMMENT LINES ARE REMOVED BEFORE STORED IN ROMFS.
#
#
# Start CDC/ACM serial driver
#
sercon
#
# Default to auto-start mode.
#
set MODE autostart
set TUNE_ERR ML<<CP4CP4CP4CP4CP4
set LOG_FILE /fs/microsd/bootlog.txt
#
# Try to mount the microSD card.
#
# REBOOTWORK this needs to start after the flight control loop
if mount -t vfat /dev/mmcsd0 /fs/microsd
then
# Start playing the startup tune
tone_alarm start
else
tone_alarm MBAGP
if mkfatfs /dev/mmcsd0
then
if mount -t vfat /dev/mmcsd0 /fs/microsd
then
echo "INFO [init] MicroSD card formatted"
else
echo "ERROR [init] Format failed"
tone_alarm MNBG
set LOG_FILE /dev/null
fi
else
set LOG_FILE /dev/null
fi
fi
#
# Look for an init script on the microSD card.
# Disable autostart if the script found.
#
set FRC /fs/microsd/etc/rc.txt
if [ -f $FRC ]
then
echo "INFO [init] Executing script: $FRC"
sh $FRC
set MODE custom
fi
unset FRC
if [ $MODE == autostart ]
then
#
# Start the ORB (first app to start)
#
uorb start
#
# Load parameters
#
set PARAM_FILE /fs/microsd/params
if mtd start
then
set PARAM_FILE /fs/mtd_params
fi
param select $PARAM_FILE
if param load
then
else
if param reset
then
fi
fi
#
# Start system state indicator
#
if rgbled start
then
else
if blinkm start
then
blinkm systemstate
fi
fi
# Currently unused, but might be useful down the road
#if pca8574 start
#then
#fi
if ver hwcmp AEROFC_V1
then
if param compare SYS_AUTOSTART 0
then
param set SYS_AUTOCONFIG 1
param set SYS_AUTOSTART 4070
fi
fi
#
# Set AUTOCNF flag to use it in AUTOSTART scripts
#
if param compare SYS_AUTOCONFIG 1
then
# Wipe out params except RC*
param reset_nostart RC*
set AUTOCNF yes
else
set AUTOCNF no
#
# Release 1.4.0 transitional support:
# set to old default if unconfigured.
# this preserves the previous behaviour
#
if param compare BAT_N_CELLS 0
then
param set BAT_N_CELLS 3
fi
fi
#
# Set default values
#
set HIL no
set VEHICLE_TYPE none
set MIXER none
set MIXER_AUX none
set OUTPUT_MODE none
set PWM_OUT none
set PWM_RATE none
set PWM_DISARMED none
set PWM_MIN none
set PWM_MAX none
set PWM_AUX_OUT none
set PWM_AUX_RATE none
set PWM_ACHDIS none
set PWM_AUX_DISARMED none
set PWM_AUX_MIN none
set PWM_AUX_MAX none
set FAILSAFE_AUX none
set MK_MODE none
set FMU_MODE pwm
set AUX_MODE pwm
set MAVLINK_F default
set MAVLINK_COMPANION_DEVICE /dev/ttyS2
set EXIT_ON_END no
set MAV_TYPE none
set FAILSAFE none
set USE_IO yes
#
# Set USE_IO flag
#
if param compare SYS_USE_IO 1
then
if ver hwcmp PX4FMU_V4
then
set USE_IO no
fi
if ver hwcmp MINDPX_V2
then
set USE_IO no
fi
if ver hwcmp CRAZYFLIE
then
set USE_IO no
if param compare SYS_AUTOSTART 0
then
param set SYS_AUTOSTART 4900
set AUTOCNF yes
fi
fi
if ver hwcmp AEROFC_V1
then
set USE_IO no
fi
else
set USE_IO no
fi
#
# Set parameters and env variables for selected AUTOSTART
#
if param compare SYS_AUTOSTART 0
then
else
sh /etc/init.d/rc.autostart
fi
unset MODE
#
# Wipe incompatible settings for boards not having two outputs
if ver hwcmp PX4FMU_V4
then
set MIXER_AUX none
fi
if ver hwcmp AEROFC_V1
then
set MIXER_AUX none
fi
#
# Override parameters from user configuration file
#
set FCONFIG /fs/microsd/etc/config.txt
if [ -f $FCONFIG ]
then
echo "Custom: $FCONFIG"
sh $FCONFIG
fi
unset FCONFIG
#
# If autoconfig parameter was set, reset it and save parameters
#
if [ $AUTOCNF == yes ]
then
param set SYS_AUTOCONFIG 0
fi
unset AUTOCNF
set IO_PRESENT no
if [ $USE_IO == yes ]
then
#
# Check if PX4IO present and update firmware if needed
#
if [ -f /etc/extras/px4io-v2.bin ]
then
set IO_FILE /etc/extras/px4io-v2.bin
else
set IO_FILE /etc/extras/px4io-v1.bin
fi
if px4io checkcrc ${IO_FILE}
then
echo "[init] PX4IO CRC OK" >> $LOG_FILE
set IO_PRESENT yes
else
tone_alarm MLL32CP8MB
if px4io start
then
# try to safe px4 io so motor outputs dont go crazy
if px4io safety_on
then
# success! no-op
else
# px4io did not respond to the safety command
px4io stop
fi
fi
if px4io forceupdate 14662 ${IO_FILE}
then
usleep 500000
if px4io checkcrc $IO_FILE
then
echo "PX4IO CRC OK after updating" >> $LOG_FILE
tone_alarm MLL8CDE
set IO_PRESENT yes
else
echo "PX4IO update failed" >> $LOG_FILE
tone_alarm $TUNE_ERR
fi
else
echo "PX4IO update failed" >> $LOG_FILE
tone_alarm $TUNE_ERR
fi
fi
unset IO_FILE
if [ $IO_PRESENT == no ]
then
echo "PX4IO not found" >> $LOG_FILE
tone_alarm $TUNE_ERR
fi
fi
#
# Set default output if not set
#
if [ $OUTPUT_MODE == none ]
then
if [ $USE_IO == yes ]
then
set OUTPUT_MODE io
else
set OUTPUT_MODE fmu
fi
fi
if [ $OUTPUT_MODE == io -a $IO_PRESENT != yes ]
then
# Need IO for output but it not present, disable output
set OUTPUT_MODE none
# Avoid using ttyS0 for MAVLink on FMUv1
if ver hwcmp PX4FMU_V1
then
set FMU_MODE serial
fi
fi
if [ $OUTPUT_MODE == ardrone ]
then
set FMU_MODE gpio_serial
fi
if [ $OUTPUT_MODE == tap_esc ]
then
set FMU_MODE rcin
fi
if [ $HIL == yes ]
then
set OUTPUT_MODE hil
if ver hwcmp PX4FMU_V1
then
set FMU_MODE serial
fi
unset HIL
else
unset HIL
gps start
fi
# waypoint storage
# REBOOTWORK this needs to start in parallel
if dataman start
then
fi
#
# Sensors System (start before Commander so Preflight checks are properly run)
#
sh /etc/init.d/rc.sensors
# Needs to be this early for in-air-restarts
if [ $OUTPUT_MODE == hil ]
then
commander start -hil
else
commander start
fi
#
# Start CPU load monitor
#
load_mon start
#
# Start primary output
#
set TTYS1_BUSY no
#
# Check if UAVCAN is enabled, default to it for ESCs
#
if param greater UAVCAN_ENABLE 2
then
set OUTPUT_MODE uavcan_esc
fi
# Sensors on the PWM interface bank
# clear pins 5 and 6
if param compare SENS_EN_LL40LS 1
then
set FMU_MODE pwm4
set AUX_MODE pwm4
fi
if param greater TRIG_MODE 0
then
set FMU_MODE pwm4
set AUX_MODE pwm4
camera_trigger start
fi
# If OUTPUT_MODE == none then something is wrong with setup and we shouldn't try to enable output
if [ $OUTPUT_MODE != none ]
then
if [ $OUTPUT_MODE == uavcan_esc ]
then
if param compare UAVCAN_ENABLE 0
then
echo "OVERRIDING UAVCAN_ENABLE = 3" >> $LOG_FILE
param set UAVCAN_ENABLE 3
fi
fi
if [ $OUTPUT_MODE == io -o $OUTPUT_MODE == uavcan_esc ]
then
if px4io start
then
sh /etc/init.d/rc.io
else
echo "PX4IO start failed" >> $LOG_FILE
tone_alarm $TUNE_ERR
fi
fi
if [ $OUTPUT_MODE == fmu -o $OUTPUT_MODE == ardrone ]
then
if fmu mode_$FMU_MODE
then
else
echo "FMU start failed" >> $LOG_FILE
tone_alarm $TUNE_ERR
fi
if ver hwcmp PX4FMU_V1
then
if [ $FMU_MODE == pwm -o $FMU_MODE == gpio ]
then
set TTYS1_BUSY yes
fi
if [ $FMU_MODE == pwm_gpio -o $OUTPUT_MODE == ardrone ]
then
set TTYS1_BUSY yes
fi
fi
fi
if [ $OUTPUT_MODE == mkblctrl ]
then
set MKBLCTRL_ARG ""
if [ $MKBLCTRL_MODE == x ]
then
set MKBLCTRL_ARG "-mkmode x"
fi
if [ $MKBLCTRL_MODE == + ]
then
set MKBLCTRL_ARG "-mkmode +"
fi
if mkblctrl $MKBLCTRL_ARG
then
else
echo "MK start failed" >> $LOG_FILE
tone_alarm $TUNE_ERR
fi
unset MKBLCTRL_ARG
fi
unset MK_MODE
if [ $OUTPUT_MODE == hil ]
then
if pwm_out_sim mode_pwm16
then
else
tone_alarm $TUNE_ERR
fi
fi
#
# Start IO or FMU for RC PPM input if needed
#
if [ $IO_PRESENT == yes ]
then
if [ $OUTPUT_MODE != io ]
then
if px4io start
then
sh /etc/init.d/rc.io
else
echo "PX4IO start failed" >> $LOG_FILE
tone_alarm $TUNE_ERR
fi
fi
else
if [ $OUTPUT_MODE != fmu -a $OUTPUT_MODE != ardrone ]
then
if fmu mode_$FMU_MODE
then
else
echo "FMU mode_$FMU_MODE start failed" >> $LOG_FILE
tone_alarm $TUNE_ERR
fi
if ver hwcmp PX4FMU_V1
then
if [ $FMU_MODE == pwm -o $FMU_MODE == gpio ]
then
set TTYS1_BUSY yes
fi
if [ $FMU_MODE == pwm_gpio -o $OUTPUT_MODE == ardrone ]
then
set TTYS1_BUSY yes
fi
fi
fi
fi
fi
if [ $MAVLINK_F == default ]
then
# Normal mode, use baudrate 57600 (default) and data rate 1000 bytes/s
if [ $TTYS1_BUSY == yes ]
then
# Start MAVLink on ttyS0, because FMU ttyS1 pins configured as something else
set MAVLINK_F "-r 1200 -d /dev/ttyS0"
# Exit from nsh to free port for mavlink
set EXIT_ON_END yes
else
set MAVLINK_F "-r 1200"
# Avoid using ttyS1 for MAVLink on FMUv4
if ver hwcmp PX4FMU_V4
then
set MAVLINK_F "-r 1200 -d /dev/ttyS1"
# Start MAVLink on Wifi (ESP8266 port)
mavlink start -r 20000 -m config -b 921600 -d /dev/ttyS0
fi
if ver hwcmp AEROFC_V1
then
set MAVLINK_F "-r 1200 -d /dev/ttyS4"
fi
fi
if ver hwcmp CRAZYFLIE
then
# Avoid using either of the two available serials
set MAVLINK_F none
fi
fi
if [ "x$MAVLINK_F" == xnone ]
then
else
mavlink start $MAVLINK_F
fi
unset MAVLINK_F
#
# MAVLink onboard / TELEM2
#
if ver hwcmp PX4FMU_V1
then
else
# XXX We need a better way for runtime eval of shell variables,
# but this works for now
if param compare SYS_COMPANION 10
then
frsky_telemetry start -d $MAVLINK_COMPANION_DEVICE
fi
if param compare SYS_COMPANION 20
then
syslink start
mavlink start -d /dev/bridge0 -b 57600 -m osd -r 40000
fi
if param compare SYS_COMPANION 921600
then
mavlink start -d $MAVLINK_COMPANION_DEVICE -b 921600 -m onboard -r 80000 -x
fi
if param compare SYS_COMPANION 57600
then
mavlink start -d $MAVLINK_COMPANION_DEVICE -b 57600 -m onboard -r 5000 -x
fi
if param compare SYS_COMPANION 157600
then
mavlink start -d $MAVLINK_COMPANION_DEVICE -b 57600 -m osd -r 1000
fi
if param compare SYS_COMPANION 257600
then
mavlink start -d $MAVLINK_COMPANION_DEVICE -b 57600 -m magic -r 5000 -x
fi
if param compare SYS_COMPANION 319200
then
mavlink start -d $MAVLINK_COMPANION_DEVICE -b 19200 -r 1000
fi
if param compare SYS_COMPANION 338400
then
mavlink start -d $MAVLINK_COMPANION_DEVICE -b 38400 -r 1000
fi
if param compare SYS_COMPANION 357600
then
mavlink start -d $MAVLINK_COMPANION_DEVICE -b 57600 -r 1000
fi
if param compare SYS_COMPANION 1921600
then
mavlink start -d $MAVLINK_COMPANION_DEVICE -b 921600 -r 20000
fi
if param compare SYS_COMPANION 1500000
then
mavlink start -d $MAVLINK_COMPANION_DEVICE -b 1500000 -m onboard -r 10000 -x
fi
fi
unset MAVLINK_COMPANION_DEVICE
#
# Starting stuff according to UAVCAN_ENABLE value
#
if param greater UAVCAN_ENABLE 0
then
if uavcan start fw
then
else
tone_alarm $TUNE_ERR
fi
fi
#
# Optional drivers
#
# Sensors on the PWM interface bank
if param compare SENS_EN_LL40LS 1
then
if pwm_input start
then
if ll40ls start pwm
then
fi
fi
fi
# sf0x lidar sensor
if param compare SENS_EN_SF0X 1
then
sf0x start
fi
# mb12xx sonar sensor
if param compare SENS_EN_MB12XX 1
then
mb12xx start
fi
# teraranger one tof sensor
if param compare SENS_EN_TRONE 1
then
trone start
fi
if ver hwcmp PX4FMU_V4
then
frsky_telemetry start -d /dev/ttyS6
fi
if ver hwcmp MINDPX_V2
then
frsky_telemetry start -d /dev/ttyS6
fi
if ver hwcmp PX4FMU_V2
then
# Check for flow sensor - as it is a background task, launch it last
px4flow start &
fi
if ver hwcmp PX4FMU_V4
then
# Check for flow sensor - as it is a background task, launch it last
px4flow start &
fi
if ver hwcmp MINDPX_V2
then
px4flow start &
fi
# Start MAVLink
mavlink start -r 800000 -d /dev/ttyACM0 -m config -x
#
# Logging
#
if ver hwcmp PX4FMU_V1
then
if sdlog2 start -r 30 -a -b 2 -t
then
fi
else
if param compare SYS_LOGGER 0
then
# check if we should increase logging rate for ekf2 replay message logging
if param greater EKF2_REC_RPL 0
then
if sdlog2 start -r 500 -e -b 18 -t
then
fi
else
if sdlog2 start -r 100 -a -b 9 -t
then
fi
fi
else
set LOGGER_ARGS ""
if param compare SDLOG_MODE 1
then
set LOGGER_ARGS "-e"
fi
if param compare SDLOG_MODE 2
then
set LOGGER_ARGS "-f"
fi
if logger start -b 12 -t $LOGGER_ARGS
then
fi
unset LOGGER_ARGS
fi
fi
#
# Start up ARDrone Motor interface
#
if [ $OUTPUT_MODE == ardrone ]
then
ardrone_interface start -d /dev/ttyS1
fi
#
# Fixed wing setup
#
if [ $VEHICLE_TYPE == fw ]
then
if [ $MIXER == none ]
then
# Set default mixer for fixed wing if not defined
set MIXER AERT
fi
if [ $MAV_TYPE == none ]
then
# Use MAV_TYPE = 1 (fixed wing) if not defined
set MAV_TYPE 1
fi
param set MAV_TYPE $MAV_TYPE
# Load mixer and configure outputs
sh /etc/init.d/rc.interface
# Start standard fixedwing apps
sh /etc/init.d/rc.fw_apps
fi
#
# Multicopters setup
#
if [ $VEHICLE_TYPE == mc ]
then
if [ $MIXER == none ]
then
echo "Mixer undefined"
fi
if [ $MAV_TYPE == none ]
then
# Use mixer to detect vehicle type
if [ $MIXER == quad_x -o $MIXER == quad_+ ]
then
set MAV_TYPE 2
fi
if [ $MIXER == quad_w -o $MIXER == sk450_deadcat ]
then
set MAV_TYPE 2
fi
if [ $MIXER == quad_h ]
then
set MAV_TYPE 2
fi
if [ $MIXER == tri_y_yaw- -o $MIXER == tri_y_yaw+ ]
then
set MAV_TYPE 15
fi
if [ $MIXER == hexa_x -o $MIXER == hexa_+ ]
then
set MAV_TYPE 13
fi
if [ $MIXER == hexa_cox ]
then
set MAV_TYPE 13
fi
if [ $MIXER == octo_x -o $MIXER == octo_+ ]
then
set MAV_TYPE 14
fi
if [ $MIXER == octo_cox -o $MIXER == octo_cox_w ]
then
set MAV_TYPE 14
fi
if [ $MIXER == coax ]
then
set MAV_TYPE 3
fi
fi
# Still no MAV_TYPE found
if [ $MAV_TYPE == none ]
then
echo "Unknown MAV_TYPE"
param set MAV_TYPE 2
else
param set MAV_TYPE $MAV_TYPE
fi
# Load mixer and configure outputs
sh /etc/init.d/rc.interface
# Start standard multicopter apps
sh /etc/init.d/rc.mc_apps
fi
#
# VTOL setup
#
if [ $VEHICLE_TYPE == vtol ]
then
if [ $MIXER == none ]
then
echo "VTOL mixer undefined"
fi
if [ $MAV_TYPE == none ]
then
# Use mixer to detect vehicle type
if [ $MIXER == caipirinha_vtol ]
then
set MAV_TYPE 19
fi
if [ $MIXER == firefly6 ]
then
set MAV_TYPE 21
fi
if [ $MIXER == quad_x_pusher_vtol ]
then
set MAV_TYPE 22
fi
fi
# Still no MAV_TYPE found
if [ $MAV_TYPE == none ]
then
echo "Unknown MAV_TYPE"
param set MAV_TYPE 19
else
param set MAV_TYPE $MAV_TYPE
fi
# Load mixer and configure outputs
sh /etc/init.d/rc.interface
# Start standard vtol apps
sh /etc/init.d/rc.vtol_apps
fi
#
# Rover setup
#
if [ $VEHICLE_TYPE == rover ]
then
# 10 is MAV_TYPE_GROUND_ROVER
set MAV_TYPE 10
# Load mixer and configure outputs
sh /etc/init.d/rc.interface
# Start standard rover apps
sh /etc/init.d/rc.axialracing_ax10_apps
param set MAV_TYPE 10
fi
#
# For snapdragon, we need a passthrough mode
# Do not run any mavlink instances since we need the serial port for
# communication with Snapdragon.
#
if [ $VEHICLE_TYPE == passthrough ]
then
mavlink stop-all
commander stop
# Stop multicopter attitude controller if it is running, the controls come
# from Snapdragon.
if mc_att_control stop
then
fi
# Start snapdragon interface on serial port.
if ver hwcmp PX4FMU_V2
then
# On Pixfalcon use the standard telemetry port (Telem 1).
snapdragon_rc_pwm start -d /dev/ttyS1
px4io start
fi
if ver hwcmp PX4FMU_V4
then
# On Pixracer use Telem 2 port (TL2).
snapdragon_rc_pwm start -d /dev/ttyS2
fmu mode_pwm4
fi
pwm failsafe -c 1234 -p 900
pwm disarmed -c 1234 -p 900
# Arm straightaway.
pwm arm
# Use 400 Hz PWM on all channels.
pwm rate -a -r 400
fi
unset MIXER
unset MAV_TYPE
unset OUTPUT_MODE
#
# Start the navigator
#
navigator start
#
# Generic setup (autostart ID not found)
#
if [ $VEHICLE_TYPE == none ]
then
echo "No autostart ID found"
fi
# Start any custom addons
set FEXTRAS /fs/microsd/etc/extras.txt
if [ -f $FEXTRAS ]
then
echo "Addons script: $FEXTRAS"
sh $FEXTRAS
fi
unset FEXTRAS
if ver hwcmp CRAZYFLIE
then
# CF2 shouldn't have an sd card
else
# Run no SD alarm
if [ $LOG_FILE == /dev/null ]
then
# Play SOS
tone_alarm error
fi
fi
# End of autostart
fi
# There is no further script processing, so we can free some RAM
# XXX potentially unset all script variables.
unset TUNE_ERR
# Boot is complete, inform MAVLink app(s) that the system is now fully up and running
mavlink boot_complete
if [ $EXIT_ON_END == yes ]
then
echo "NSH exit"
exit
fi
unset EXIT_ON_END
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