#!nsh # Disable USB and autostart set USB no set MODE camflyer # # Start the ORB (first app to start) # uorb start # # Load microSD params # echo "[init] loading microSD params" param select /fs/microsd/parameters if [ -f /fs/microsd/parameters ] then param load /fs/microsd/parameters fi # # Force some key parameters to sane values # MAV_TYPE 1 = fixed wing, 2 = quadrotor, 13 = hexarotor # see https://pixhawk.ethz.ch/mavlink/ # param set MAV_TYPE 1 # # Check if PX4IO Firmware should be upgraded (from Andrew Tridgell) # if [ -f /fs/microsd/px4io.bin ] then echo "PX4IO Firmware found. Checking Upgrade.." if cmp /fs/microsd/px4io.bin /fs/microsd/px4io.bin.current then echo "No newer version, skipping upgrade." else echo "Loading /fs/microsd/px4io.bin" if px4io update /fs/microsd/px4io.bin > /fs/microsd/px4io_update.log then cp /fs/microsd/px4io.bin /fs/microsd/px4io.bin.current echo "Flashed /fs/microsd/px4io.bin OK" >> /fs/microsd/px4io_update.log else echo "Failed flashing /fs/microsd/px4io.bin" >> /fs/microsd/px4io_update.log echo "Failed to upgrade PX4IO firmware - check if PX4IO is in bootloader mode" fi fi fi # # Start MAVLink (depends on orb) # mavlink start -d /dev/ttyS1 -b 57600 usleep 5000 # # Start the commander (depends on orb, mavlink) # commander start # # Start PX4IO interface (depends on orb, commander) # px4io start # # Allow PX4IO to recover from midair restarts. # this is very unlikely, but quite safe and robust. px4io recovery # # Start the sensors (depends on orb, px4io) # sh /etc/init.d/rc.sensors # # Start GPS interface (depends on orb) # gps start # # Start the attitude estimator (depends on orb) # kalman_demo start # # Load mixer and start controllers (depends on px4io) # mixer load /dev/pwm_output /etc/mixers/FMU_Q.mix control_demo start # # Start logging # #sdlog start -s 4 # # Start system state # if blinkm start then echo "using BlinkM for state indication" blinkm systemstate else echo "no BlinkM found, OK." fi