ardupilot/libraries/AP_MSP/Tools/pymsp.py

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#!/usr/bin/env python
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# -*- coding: utf-8 -*-
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"""
author: Alex Apostoli
based on https://github.com/hkm95/python-multiwii
which is under GPLv3
"""
import struct
import time
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import sys
import re
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class MSPItem:
def __init__(self, name, fmt, fields):
self.name = name
self.format = fmt
self.fields = fields
if not isinstance(self.format, list):
self.format = [self.format]
self.fields = [self.fields]
self.values = {}
def parse(self, msp, dataSize):
'''parse data'''
ofs = msp.p
for i in range(len(self.format)):
fmt = self.format[i]
fields = self.fields[i].split(',')
if fmt[0] == '{':
# we have a repeat count from an earlier variable
right = fmt.find('}')
vname = fmt[1:right]
count = self.values[vname]
fmt = "%u%s" % (count, fmt[right+1:])
if fmt[0].isdigit():
repeat = int(re.search(r'\d+', fmt).group())
else:
repeat = None
fmt = "<" + fmt
fmt_size = struct.calcsize(fmt)
if dataSize < fmt_size:
raise Exception("Format %s needs %u bytes got %u for %s" % (self.name, fmt_size, dataSize, fmt))
values = list(struct.unpack(fmt, msp.inBuf[ofs:ofs+fmt_size]))
if repeat is not None:
for i in range(len(fields)):
self.values[fields[i]] = []
for j in range(repeat):
self.values[fields[i]].append(values[j*len(fields)])
else:
for i in range(len(fields)):
self.values[fields[i]] = values[i]
dataSize -= fmt_size
ofs += fmt_size
msp.by_name[self.name] = self
#print("Got %s" % self.name)
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class PyMSP:
""" Multiwii Serial Protocol """
OSD_RSSI_VALUE = 0
OSD_MAIN_BATT_VOLTAGE = 1
OSD_CROSSHAIRS = 2
OSD_ARTIFICIAL_HORIZON = 3
OSD_HORIZON_SIDEBARS = 4
OSD_ITEM_TIMER_1 = 5
OSD_ITEM_TIMER_2 = 6
OSD_FLYMODE = 7
OSD_CRAFT_NAME = 8
OSD_THROTTLE_POS = 9
OSD_VTX_CHANNEL = 10
OSD_CURRENT_DRAW = 11
OSD_MAH_DRAWN = 12
OSD_GPS_SPEED = 13
OSD_GPS_SATS = 14
OSD_ALTITUDE = 15
OSD_ROLL_PIDS = 16
OSD_PITCH_PIDS = 17
OSD_YAW_PIDS = 18
OSD_POWER = 19
OSD_PIDRATE_PROFILE = 20
OSD_WARNINGS = 21
OSD_AVG_CELL_VOLTAGE = 22
OSD_GPS_LON = 23
OSD_GPS_LAT = 24
OSD_DEBUG = 25
OSD_PITCH_ANGLE = 26
OSD_ROLL_ANGLE = 27
OSD_MAIN_BATT_USAGE = 28
OSD_DISARMED = 29
OSD_HOME_DIR = 30
OSD_HOME_DIST = 31
OSD_NUMERICAL_HEADING = 32
OSD_NUMERICAL_VARIO = 33
OSD_COMPASS_BAR = 34
OSD_ESC_TMP = 35
OSD_ESC_RPM = 36
OSD_REMAINING_TIME_ESTIMATE = 37
OSD_RTC_DATETIME = 38
OSD_ADJUSTMENT_RANGE = 39
OSD_CORE_TEMPERATURE = 40
OSD_ANTI_GRAVITY = 41
OSD_G_FORCE = 42
OSD_MOTOR_DIAG = 43
OSD_LOG_STATUS = 44
OSD_FLIP_ARROW = 45
OSD_LINK_QUALITY = 46
OSD_FLIGHT_DIST = 47
OSD_STICK_OVERLAY_LEFT = 48
OSD_STICK_OVERLAY_RIGHT = 49
OSD_DISPLAY_NAME = 50
OSD_ESC_RPM_FREQ = 51
OSD_RATE_PROFILE_NAME = 52
OSD_PID_PROFILE_NAME = 53
OSD_PROFILE_NAME = 54
OSD_RSSI_DBM_VALUE = 55
OSD_RC_CHANNELS = 56
OSD_CAMERA_FRAME = 57
MSP_NAME =10
MSP_OSD_CONFIG =84
MSP_IDENT =100
MSP_STATUS =101
MSP_RAW_IMU =102
MSP_SERVO =103
MSP_MOTOR =104
MSP_RC =105
MSP_RAW_GPS =106
MSP_COMP_GPS =107
MSP_ATTITUDE =108
MSP_ALTITUDE =109
MSP_ANALOG =110
MSP_RC_TUNING =111
MSP_PID =112
MSP_BOX =113
MSP_MISC =114
MSP_MOTOR_PINS =115
MSP_BOXNAMES =116
MSP_PIDNAMES =117
MSP_WP =118
MSP_BOXIDS =119
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MSP_SERVO_CONF =120
MSP_NAV_STATUS =121
MSP_NAV_CONFIG =122
MSP_MOTOR_3D_CONFIG =124
MSP_RC_DEADBAND =125
MSP_SENSOR_ALIGNMENT =126
MSP_LED_STRIP_MODECOLOR =127
MSP_VOLTAGE_METERS =128
MSP_CURRENT_METERS =129
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MSP_BATTERY_STATE =130
MSP_MOTOR_CONFIG =131
MSP_GPS_CONFIG =132
MSP_COMPASS_CONFIG =133
MSP_ESC_SENSOR_DATA =134
MSP_GPS_RESCUE =135
MSP_GPS_RESCUE_PIDS =136
MSP_VTXTABLE_BAND =137
MSP_VTXTABLE_POWERLEVEL =138
MSP_MOTOR_TELEMETRY =139
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MSP_SET_RAW_RC =200
MSP_SET_RAW_GPS =201
MSP_SET_PID =202
MSP_SET_BOX =203
MSP_SET_RC_TUNING =204
MSP_ACC_CALIBRATION =205
MSP_MAG_CALIBRATION =206
MSP_SET_MISC =207
MSP_RESET_CONF =208
MSP_SET_WP =209
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MSP_SELECT_SETTING =210
MSP_SET_HEAD =211
MSP_SET_SERVO_CONF =212
MSP_SET_MOTOR =214
MSP_SET_NAV_CONFIG =215
MSP_SET_MOTOR_3D_CONFIG =217
MSP_SET_RC_DEADBAND =218
MSP_SET_RESET_CURR_PID =219
MSP_SET_SENSOR_ALIGNMENT =220
MSP_SET_LED_STRIP_MODECOLOR=221
MSP_SET_MOTOR_CONFIG =222
MSP_SET_GPS_CONFIG =223
MSP_SET_COMPASS_CONFIG =224
MSP_SET_GPS_RESCUE =225
MSP_SET_GPS_RESCUE_PIDS =226
MSP_SET_VTXTABLE_BAND =227
MSP_SET_VTXTABLE_POWERLEVEL=228
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MSP_BIND =241
MSP_RTC =247
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MSP_EEPROM_WRITE =250
MSP_DEBUGMSG =253
MSP_DEBUG =254
IDLE = 0
HEADER_START = 1
HEADER_M = 2
HEADER_ARROW = 3
HEADER_SIZE = 4
HEADER_CMD = 5
HEADER_ERR = 6
PIDITEMS = 10
MESSAGES = {
MSP_RAW_GPS: MSPItem('RAW_GPS', "BBiihH", "fix,numSat,Lat,Lon,Alt,Speed"),
MSP_IDENT: MSPItem('IDENT', "BBBI", "version,multiType,MSPVersion,multiCapability"),
MSP_STATUS: MSPItem('STATUS', "HHHI", "cycleTime,i2cError,present,mode"),
MSP_RAW_IMU: MSPItem('RAW_IMU', "hhhhhhhhh", "AccX,AccY,AccZ,GyrX,GyrY,GyrZ,MagX,MagY,MagZ"),
MSP_SERVO: MSPItem('SERVO', "8h", "servo"),
MSP_MOTOR: MSPItem('MOTOR', "8h", "motor"),
MSP_RC: MSPItem('RC', "8h", "rc"),
MSP_COMP_GPS: MSPItem('COMP_GPS', "HhB", "distanceToHome,directionToHome,update"),
MSP_ATTITUDE: MSPItem('ATTITUDE', "hhh", "roll,pitch,yaw"),
MSP_ALTITUDE: MSPItem('ALTITUDE', "ih", "alt,vspeed"),
MSP_RC_TUNING: MSPItem('RC_TUNING', "BBBBBBB", "RC_Rate,RC_Expo,RollPitchRate,YawRate,DynThrPID,ThrottleMID,ThrottleExpo"),
MSP_BATTERY_STATE: MSPItem('BATTERY_STATE', "BHBHhBh", "cellCount,capacity,voltage,mah,current,state,voltage_cv"),
MSP_RTC: MSPItem('RTC', "HBBBBBH", "year,mon,mday,hour,min,sec,millis"),
MSP_OSD_CONFIG: MSPItem("OSD_CONFIG",
["BBBBHBBH",
"{osd_item_count}H",
"B", "{stats_item_count}H",
"B", "{timer_count}H",
"HBIBBB"],
["feature,video_system,units,rssi_alarm,cap_alarm,unused1,osd_item_count,alt_alarm",
"osd_items",
"stats_item_count", "stats_items",
"timer_count", "timer_items",
"legacy_warnings,warnings_count,enabled_warnings,profiles,selected_profile,osd_overlay"]),
MSP_PID: MSPItem("PID", "8PID", "P,I,D"),
MSP_MISC: MSPItem("MISC", "HHHHHII","intPowerTrigger,conf1,conf2,conf3,conf4,conf5,conf6"),
MSP_MOTOR_PINS: MSPItem("MOTOR_PINS", "8H","MP"),
MSP_ANALOG: MSPItem("ANALOG", "BHHHH", "dV,consumed_mah,rssi,current,volt"),
MSP_STATUS: MSPItem("STATUS", "HHHIBHHBBIB", "task_delta,i2c_err_count,sensor_status,mode_flags,nop_1,system_load,gyro_time,nop_2,nop_3,armed,extra"),
}
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def __init__(self):
self.msp_name = {
'name':None
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}
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self.msp_osd_config = {}
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self.inBuf = bytearray([0] * 255)
self.p = 0
self.c_state = self.IDLE
self.err_rcvd = False
self.checksum = 0
self.cmd = 0
self.offset=0
self.dataSize=0
self.servo = []
self.mot = []
self.RCChan = []
self.byteP = []
self.byteI = []
self.byteD = []
self.confINF = []
self.byteMP = []
self.confP = []
self.confI = []
self.confD = []
# parsed messages, indexed by name
self.by_name = {}
def get(self, fieldname):
'''get a field from a parsed message by Message.Field name'''
a = fieldname.split('.')
msgName = a[0]
fieldName = a[1]
if not msgName in self.by_name:
# default to zero for simplicty of display
return 0
msg = self.by_name[msgName]
if not fieldName in msg.values:
raise Exception("Unknown field %s" % fieldName)
return msg.values[fieldName]
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def read32(self):
'''signed 32 bit number'''
value, = struct.unpack("<i", self.inBuf[self.p:self.p+4])
self.p += 4
return value
def read32u(self):
'''unsigned 32 bit number'''
value, = struct.unpack("<I", self.inBuf[self.p:self.p+4])
self.p += 4
return value
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def read16(self):
'''signed 16 bit number'''
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value, = struct.unpack("<h", self.inBuf[self.p:self.p+2])
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self.p += 2
return value
def read16u(self):
'''unsigned 16 bit number'''
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value, = struct.unpack("<H", self.inBuf[self.p:self.p+2])
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self.p += 2
return value
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def read8(self):
'''unsigned 8 bit number'''
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value, = struct.unpack("<B", self.inBuf[self.p:self.p+1])
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self.p += 1
return value
def requestMSP (self, msp, payload = [], payloadinbytes = False):
if msp < 0:
return 0
checksum = 0
bf = ['$', 'M', '<']
pl_size = 2 * ((len(payload)) & 0xFF)
bf.append(pl_size)
checksum ^= (pl_size&0xFF)
bf.append(msp&0xFF)
checksum ^= (msp&0xFF)
if payload > 0:
if (payloadinbytes == False):
for c in struct.pack('<%dh' % ((pl_size) / 2), *payload):
checksum ^= (ord(c) & 0xFF)
else:
for c in struct.pack('<%Bh' % ((pl_size) / 2), *payload):
checksum ^= (ord(c) & 0xFF)
bf = bf + payload
bf.append(checksum)
return bf
def evaluateCommand(self, cmd, dataSize):
if cmd in self.MESSAGES:
# most messages are parsed from the MESSAGES list
self.MESSAGES[cmd].parse(self, dataSize)
elif cmd == self.MSP_NAME:
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s = bytearray()
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for i in range(0,dataSize,1):
b = self.read8()
if b == 0:
break
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s.append(b)
self.msp_name['name'] = s.decode("utf-8")
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elif cmd == self.MSP_ACC_CALIBRATION:
x = None
elif cmd == self.MSP_MAG_CALIBRATION:
x = None
elif cmd == self.MSP_BOX:
x = None
elif cmd == self.MSP_BOXNAMES:
x = None
elif cmd == self.MSP_PIDNAMES:
x = None
elif cmd == self.MSP_SERVO_CONF:
x = None
elif cmd == self.MSP_DEBUGMSG:
x = None
elif cmd == self.MSP_DEBUG:
x = None
else:
print("Unhandled command ", cmd, dataSize)
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def parseMspData(self, buf):
for c in buf:
self.parseMspByte(c)
def parseMspByte(self, c):
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if sys.version_info.major >= 3:
cc = chr(c)
ci = c
else:
cc = c
ci = ord(c)
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if self.c_state == self.IDLE:
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if cc == '$':
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self.c_state = self.HEADER_START
else:
self.c_state = self.IDLE
elif self.c_state == self.HEADER_START:
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if cc == 'M':
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self.c_state = self.HEADER_M
else:
self.c_state = self.IDLE
elif self.c_state == self.HEADER_M:
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if cc == '>':
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self.c_state = self.HEADER_ARROW
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elif cc == '!':
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self.c_state = self.HEADER_ERR
else:
self.c_state = self.IDLE
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elif self.c_state == self.HEADER_ARROW or self.c_state == self.HEADER_ERR:
self.err_rcvd = (self.c_state == self.HEADER_ERR)
#print (struct.unpack('<B',c)[0])
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self.dataSize = ci
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# reset index variables
self.p = 0
self.offset = 0
self.checksum = 0
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self.checksum ^= ci
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# the command is to follow
self.c_state = self.HEADER_SIZE
elif self.c_state == self.HEADER_SIZE:
#print (struct.unpack('<B',c)[0])
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self.cmd = ci
self.checksum ^= ci
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self.c_state = self.HEADER_CMD
elif self.c_state == self.HEADER_CMD and self.offset < self.dataSize:
#print (struct.unpack('<B',c)[0])
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self.checksum ^= ci
self.inBuf[self.offset] = ci
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self.offset += 1
elif self.c_state == self.HEADER_CMD and self.offset >= self.dataSize:
# compare calculated and transferred checksum
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if ((self.checksum&0xFF) == ci):
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if self.err_rcvd:
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print("Vehicle didn't understand the request type")
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else:
self.evaluateCommand(self.cmd, self.dataSize)
else:
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print('"invalid checksum for command "+((int)(cmd&0xFF))+": "+(checksum&0xFF)+" expected, got "+(int)(c&0xFF))')
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self.c_state = self.IDLE
def setPID(self):
self.sendRequestMSP(self.requestMSP(self.MSP_PID))
self.receiveData(self.MSP_PID)
time.sleep(0.04)
payload = []
for i in range(0, self.PIDITEMS, 1):
self.byteP[i] = int((round(self.confP[i] * 10)))
self.byteI[i] = int((round(self.confI[i] * 1000)))
self.byteD[i] = int((round(self.confD[i])))
# POS - 4 POSR - 5 NAVR - 6
self.byteP[4] = int((round(self.confP[4] * 100.0)))
self.byteI[4] = int((round(self.confI[4] * 100.0)))
self.byteP[5] = int((round(self.confP[5] * 10.0)))
self.byteI[5] = int((round(self.confI[5] * 100.0)))
self.byteD[5] = int((round(self.confD[5] * 10000.0))) / 10
self.byteP[6] = int((round(self.confP[6] * 10.0)))
self.byteI[6] = int((round(self.confI[6] * 100.0)))
self.byteD[6] = int((round(self.confD[6] * 10000.0))) / 10
for i in range(0, self.PIDITEMS, 1):
payload.append(self.byteP[i])
payload.append(self.byteI[i])
payload.append(self.byteD[i])
self.sendRequestMSP(self.requestMSP(self.MSP_SET_PID, payload, True), True)
def arm(self):
timer = 0
start = time.time()
while timer < 0.5:
data = [1500,1500,2000,1000]
self.sendRequestMSP(self.requestMSP(self.MSP_SET_RAW_RC,data))
time.sleep(0.05)
timer = timer + (time.time() - start)
start = time.time()
def disarm(self):
timer = 0
start = time.time()
while timer < 0.5:
data = [1500,1500,1000,1000]
self.sendRequestMSP(self.requestMSP(self.MSP_SET_RAW_RC,data))
time.sleep(0.05)
timer = timer + (time.time() - start)
start = time.time()
def receiveIMU(self, duration):
timer = 0
start = time.time()
while timer < duration:
self.sendRequestMSP(self.requestMSP(self.MSP_RAW_IMU))
self.receiveData(self.MSP_RAW_IMU)
if self.msp_raw_imu['accx'] > 32768: # 2^15 ...to check if negative number is received
self.msp_raw_imu['accx'] -= 65536 # 2^16 ...converting into 2's complement
if self.msp_raw_imu['accy'] > 32768:
self.msp_raw_imu['accy'] -= 65536
if self.msp_raw_imu['accz'] > 32768:
self.msp_raw_imu['accz'] -= 65536
if self.msp_raw_imu['gyrx'] > 32768:
self.msp_raw_imu['gyrx'] -= 65536
if self.msp_raw_imu['gyry'] > 32768:
self.msp_raw_imu['gyry'] -= 65536
if self.msp_raw_imu['gyrz'] > 32768:
self.msp_raw_imu['gyrz'] -= 65536
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print("size: %d, accx: %f, accy: %f, accz: %f, gyrx: %f, gyry: %f, gyrz: %f " %(self.msp_raw_imu['size'], self.msp_raw_imu['accx'], self.msp_raw_imu['accy'], self.msp_raw_imu['accz'], self.msp_raw_imu['gyrx'], self.msp_raw_imu['gyry'], self.msp_raw_imu['gyrz']))
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time.sleep(0.04)
timer = timer + (time.time() - start)
start = time.time()
def calibrateIMU(self):
self.sendRequestMSP(self.requestMSP(self.MSP_ACC_CALIBRATION))
time.sleep(0.01)