Merge branch 'master' into export-build

Clean up some script trash and update scripts.

ROMFS/px4fmu_common/init.d/rc.PX4IO

@@ -5,7 +5,7 @@ set USB no
 set MODE camflyer
  
 #
-# Start the ORB
+# Start the ORB (first app to start)
 #
 uorb start
  
@@ -27,38 +27,65 @@ fi
 param set MAV_TYPE 1
  
 #
-# Start the sensors.
+# Check if PX4IO Firmware should be upgraded (from Andrew Tridgell)
 #
-sh /etc/init.d/rc.sensors
+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
+# Start MAVLink (depends on orb)
 #
 mavlink start -d /dev/ttyS1 -b 57600
 usleep 5000
  
 #
-# Start the commander.
+# Start the commander (depends on orb, mavlink)
 #
 commander start
  
 #
-# Start GPS interface
+# Start PX4IO interface (depends on orb, commander)
 #
-gps start
+px4io start
+ 
+#
+# Allow PX4IO to recover from midair restarts.
+# this is very unlikely, but quite safe and robust.
+px4io recovery
  
 #
-# Start the attitude estimator
+# Start the sensors (depends on orb, px4io)
 #
-kalman_demo start
+sh /etc/init.d/rc.sensors
  
 #
-# Start PX4IO interface
+# Start GPS interface (depends on orb)
 #
-px4io start
+gps start
+ 
+#
+# Start the attitude estimator (depends on orb)
+#
+kalman_demo start
  
 #
-# Load mixer and start controllers
+# Load mixer and start controllers (depends on px4io)
 #
 mixer load /dev/pwm_output /etc/mixers/FMU_Q.mix
 control_demo start
@@ -66,8 +93,8 @@ control_demo start
 #
 # Start logging
 #
-sdlog start -s 10
-
+#sdlog start -s 4
+ 
 #
 # Start system state
 #

ROMFS/px4fmu_common/init.d/rc.PX4IOAR

@@ -2,10 +2,10 @@
 #
 # Flight startup script for PX4FMU on PX4IOAR carrier board.
 #
- 
+
 # Disable the USB interface
 set USB no
- 
+
 # Disable autostarting other apps
 set MODE ardrone
  
@@ -25,13 +25,18 @@ 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 2
+
+#
+# Configure PX4FMU for operation with PX4IOAR
+#
+fmu mode_gpio_serial
  
 #
 # Start the sensors.
@@ -54,11 +59,6 @@ commander start
 #
 attitude_estimator_ekf start
  
-#
-# Configure PX4FMU for operation with PX4IOAR
-#
-fmu mode_gpio_serial
- 
 #
 # Fire up the multi rotor attitude controller
 #
@@ -68,17 +68,17 @@ multirotor_att_control start
 # Fire up the AR.Drone interface.
 #
 ardrone_interface start -d /dev/ttyS1
- 
-#
-# Start GPS capture
-#
-gps start
 
 #
 # Start logging
 #
 sdlog start -s 10
 
+#
+# Start GPS capture
+#
+gps start
+
 #
 # Start system state
 #
@@ -95,4 +95,5 @@ fi
 # use the same UART for telemetry
 #
 echo "[init] startup done"
-exit
\ No newline at end of file
+
+exit

ROMFS/px4fmu_common/init.d/rcS

@@ -21,9 +21,9 @@ set MODE autostart
 set USB autoconnect
 
 #
-# Start playing the startup tune
+
 #
-tone_alarm start
+
 
 #
 # Try to mount the microSD card.
@@ -32,8 +32,12 @@ echo "[init] looking for microSD..."
 if mount -t vfat /dev/mmcsd0 /fs/microsd
 then
 	echo "[init] card mounted at /fs/microsd"
+	# Start playing the startup tune
+	tone_alarm start
 else
 	echo "[init] no microSD card found"
+	# Play SOS
+	tone_alarm 2
 fi
 
 #

ROMFS/px4fmu_common/mixers/FMU_quad_v.mix

+Multirotor mixer for PX4FMU
+===========================
+
+This file defines a single mixer for a quadrotor in the V configuration.  All controls
+are mixed 100%.
+
+R: 4v 10000 10000 10000 0

ROMFS/scripts/rc.PX4IO

-#!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
\ No newline at end of file

ROMFS/scripts/rc.PX4IOAR

-#!nsh
-#
-# Flight startup script for PX4FMU on PX4IOAR carrier board.
-#
-
-# Disable the USB interface
-set USB no
-
-# Disable autostarting other apps
-set MODE ardrone
- 
-echo "[init] doing PX4IOAR startup..."
- 
-#
-# Start the ORB
-#
-uorb start
- 
-#
-# Init the parameter storage
-#
-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 2
-
-#
-# Configure PX4FMU for operation with PX4IOAR
-#
-fmu mode_gpio_serial
- 
-#
-# Start the sensors.
-#
-sh /etc/init.d/rc.sensors
- 
-#
-# Start MAVLink
-#
-mavlink start -d /dev/ttyS0 -b 57600
-usleep 5000
- 
-#
-# Start the commander.
-#
-commander start
- 
-#
-# Start the attitude estimator
-#
-attitude_estimator_ekf start
- 
-#
-# Fire up the multi rotor attitude controller
-#
-multirotor_att_control start
- 
-#
-# Fire up the AR.Drone interface.
-#
-ardrone_interface start -d /dev/ttyS1
-
-#
-# Start logging
-#
-sdlog start -s 10
-
-#
-# Start GPS capture
-#
-gps start
-
-#
-# Start system state
-#
-if blinkm start
-then
-	echo "using BlinkM for state indication"
-	blinkm systemstate
-else
-	echo "no BlinkM found, OK."
-fi
- 
-#
-# startup is done; we don't want the shell because we
-# use the same UART for telemetry
-#
-echo "[init] startup done"
-
-exit
\ No newline at end of file

ROMFS/scripts/rcS

-#!nsh
-#
-# PX4FMU startup script.
-#
-# This script is responsible for:
-#
-# - mounting the microSD card (if present)
-# - running the user startup script from the microSD card (if present)
-# - detecting the configuration of the system and picking a suitable
-#   startup script to continue with
-#
-# Note: DO NOT add configuration-specific commands to this script;
-#       add them to the per-configuration scripts instead.
-#
-
-#
-# Default to auto-start mode.  An init script on the microSD card
-# can change this to prevent automatic startup of the flight script.
-#
-set MODE autostart
-set USB autoconnect
-
-#
-
-#
-
-
-#
-# Try to mount the microSD card.
-#
-echo "[init] looking for microSD..."
-if mount -t vfat /dev/mmcsd0 /fs/microsd
-then
-	echo "[init] card mounted at /fs/microsd"
-	# Start playing the startup tune
-	tone_alarm start
-else
-	echo "[init] no microSD card found"
-	# Play SOS
-	tone_alarm 2
-fi
-
-#
-# Look for an init script on the microSD card.
-#
-# To prevent automatic startup in the current flight mode,
-# the script should set MODE to some other value.
-#
-if [ -f /fs/microsd/etc/rc ]
-then
-	echo "[init] reading /fs/microsd/etc/rc"
-	sh /fs/microsd/etc/rc
-fi
-# Also consider rc.txt files
-if [ -f /fs/microsd/etc/rc.txt ]
-then
-	echo "[init] reading /fs/microsd/etc/rc.txt"
-	sh /fs/microsd/etc/rc.txt
-fi
-
-#
-# Check for USB host
-#
-if [ $USB != autoconnect ]
-then
-	echo "[init] not connecting USB"
-else
-	if sercon
-	then
-		echo "[init] USB interface connected"
-	else
-		echo "[init] No USB connected"
-	fi
-fi
-
-# if this is an APM build then there will be a rc.APM script
-# from an EXTERNAL_SCRIPTS build option
-if [ -f /etc/init.d/rc.APM ]
-then
-	echo Running rc.APM
-	# if APM startup is successful then nsh will exit
-	sh /etc/init.d/rc.APM
-fi

apps/systemlib/mixer/mixer.h

@@ -418,6 +418,7 @@ public:
 	enum Geometry {
 		QUAD_X = 0,	/**< quad in X configuration */
 		QUAD_PLUS,	/**< quad in + configuration */
+		QUAD_V,		/**< quad in V configuration */
 		HEX_X,		/**< hex in X configuration */
 		HEX_PLUS,	/**< hex in + configuration */
 		OCTA_X,

apps/systemlib/mixer/mixer_multirotor.cpp

@@ -82,6 +82,12 @@ const MultirotorMixer::Rotor _config_quad_plus[] = {
 	{  0.000000,  1.000000, -1.00 },
 	{ -0.000000, -1.000000, -1.00 },
 };
+const MultirotorMixer::Rotor _config_quad_v[] = {
+	{ -0.927184,  0.374607,  1.00 },
+	{  0.694658, -0.719340,  1.00 },
+	{  0.927184,  0.374607, -1.00 },
+	{ -0.694658, -0.719340, -1.00 },
+};
 const MultirotorMixer::Rotor _config_hex_x[] = {
 	{ -1.000000,  0.000000, -1.00 },
 	{  1.000000,  0.000000,  1.00 },
@@ -121,6 +127,7 @@ const MultirotorMixer::Rotor _config_octa_plus[] = {
 const MultirotorMixer::Rotor *_config_index[MultirotorMixer::Geometry::MAX_GEOMETRY] = {
 	&_config_quad_x[0],
 	&_config_quad_plus[0],
+	&_config_quad_v[0],
 	&_config_hex_x[0],
 	&_config_hex_plus[0],
 	&_config_octa_x[0],
@@ -129,6 +136,7 @@ const MultirotorMixer::Rotor *_config_index[MultirotorMixer::Geometry::MAX_GEOME
 const unsigned _config_rotor_count[MultirotorMixer::Geometry::MAX_GEOMETRY] = {
 	4, /* quad_x */
 	4, /* quad_plus */
+	4, /* quad_v */
 	6, /* hex_x */
 	6, /* hex_plus */
 	8, /* octa_x */
@@ -184,6 +192,9 @@ MultirotorMixer::from_text(Mixer::ControlCallback control_cb, uintptr_t cb_handl
 	} else if (!strcmp(geomname, "4x")) {
 		geometry = MultirotorMixer::QUAD_X;
 
+	} else if (!strcmp(geomname, "4v")) {
+		geometry = MultirotorMixer::QUAD_V;
+
 	} else if (!strcmp(geomname, "6+")) {
 		geometry = MultirotorMixer::HEX_PLUS;
 

apps/systemlib/mixer/multi_tables

@@ -20,6 +20,13 @@ set quad_plus {
 	 180 CW
 }
 
+set quad_v {
+	  68 CCW
+	-136 CCW
+	 -68 CW
+	 136 CW
+}
+
 set hex_x {
 	  90 CW
 	 -90 CCW
@@ -60,7 +67,7 @@ set octa_plus {
 	  90 CW
 }
 
-set tables {quad_x quad_plus hex_x hex_plus octa_x octa_plus}
+set tables {quad_x quad_plus quad_v hex_x hex_plus octa_x octa_plus}
 
 proc factors {a d} { puts [format "\t{ %9.6f, %9.6f, %5.2f }," [rcos [expr $a + 90]] [rcos $a] [expr -$d]]}