mirror of
https://github.com/dragonpilot/dragonpilot.git
synced 2026-02-20 16:03:56 +08:00
22023ebd58
256d274e7 Fix Mac installation instruction per: https://github.com/commaai/panda/pull/308/files bfd8ff1b1 Update cppcheck commit with more coverage b143a1cf9 Fixed Misra complaint 606f1d913 Fixed RTC on non-uno boards, second try. Cannot work when there is no xtal. 933c75770 Fix RTC on non-uno boards (#311) 48d0d0c78 VW button spam: fix safety and add tests (#306) 6cccf969a Fan and IR at 0 when in power savings mode (#309) 05373282a board get_sdk scripts were left on python2 de18a7ef1 bump version after uno merge 1965817d3 Changed default values for testing a12a148d5 Uno (#274) 7d29dc5a2 bump panda version. We really need a better way 40075321d VW: stricter limits to comply with comma safety policy e2e2be92c add safety mode to health packet 101238c7f turned on VW ignition based CAN logic a0d8d5dae fix misra 5.3: check_ignition is intended as check_started and can't be used twice ea636de61 made check_ignition function to both look at ignition_line and ignition_can 1102e6965 make ignition logic common for all cars (#303) 3a110c6f6 bump version after CMSIS core upgrade 55dfa5230 Update core to CMSIS 5.6 release (#251) ee864907c fix linter 2 f410b110d fix linter 55957d6e4 proper python3 exception inheritance 6ba0f47b5 fix linter errors 5c49fe050 Merge pull request #145 from gregjhogan/uds 0f361999b timeout is float 396d6aad5 safety_replay only installs few extra requirements 25af7d301 Misra also need python 3 env 7434c5ce2 centralize requirements for tests a0c37c70a coverage not needed in linter reqs fce38a91d Linter python (#299) 62e2f5caa update cppcheck commit 711810d2f more uds debug 4454e3a6b better CAN comm abstraction 6b1f28f57 fix more encoding and some bytes cleanup (#300) 43adad311 fix WARNING_INDICATOR_REQUESTED name 9c857da37 0x b64d6fa5d typing 768fdf7e1 bytes() > chr().encode() 1be15ea93 custom errors from thread 68da8315f more python3 eb358e81c uds lib example 4f288586d updates for python3 932745f62 support tx flow control for chunked messages b1c371292 add timeout param cdf2f626b bug fixes b1a319577 fix rx message filtering bug 80fb6a6fa convert uds lib to class 59cd2b47f handle separation time in microseconds 4429600d8 fix separation time parsing c641e66f7 fix typo 48b8dcc6f fix flow control delay scale 78f413d88 flow control delay 33a5167d9 bug fixes 8ee89a091 multi-frame tx 5e89a9c72 clear rx buffer and numeric error ids 966230063 fix remaining size calculation 01ef1fae3 zero pad messages before sending 1ddc9735d uds can communication dca176e71 syntax errors 95be4811e SERVICE_TYPE enum 98e73b51d more UDS message type implementation c1c5b0356 uds lib 162f4853d fix chr to bytes conversions (#298) 4972376de Update VW regression test to follow Comma safety index refactoring (#296) f9053f5df more Python 3 fixes, attempting to fix jenkins wifi regresison test (#295) 2f9e07628 Panda safety code for Volkswagen, Audi, SEAT, and Škoda (#293) git-subtree-dir: panda git-subtree-split: 256d274e760ce00d4e5ff5e0d9b86d0fb5924568
626 lines
19 KiB
Python
626 lines
19 KiB
Python
# python library to interface with panda
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import datetime
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import binascii
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import struct
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import hashlib
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import socket
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import usb1
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import os
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import time
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import traceback
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import subprocess
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from .dfu import PandaDFU
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from .esptool import ESPROM, CesantaFlasher # noqa: F401
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from .flash_release import flash_release # noqa: F401
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from .update import ensure_st_up_to_date # noqa: F401
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from .serial import PandaSerial # noqa: F401
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from .isotp import isotp_send, isotp_recv
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__version__ = '0.0.9'
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BASEDIR = os.path.join(os.path.dirname(os.path.realpath(__file__)), "../")
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DEBUG = os.getenv("PANDADEBUG") is not None
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# *** wifi mode ***
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def build_st(target, mkfile="Makefile"):
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from panda import BASEDIR
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cmd = 'cd %s && make -f %s clean && make -f %s %s >/dev/null' % (os.path.join(BASEDIR, "board"), mkfile, mkfile, target)
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try:
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_ = subprocess.check_output(cmd, stderr=subprocess.STDOUT, shell=True)
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except subprocess.CalledProcessError:
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#output = exception.output
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#returncode = exception.returncode
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raise
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def parse_can_buffer(dat):
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ret = []
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for j in range(0, len(dat), 0x10):
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ddat = dat[j:j+0x10]
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f1, f2 = struct.unpack("II", ddat[0:8])
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extended = 4
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if f1 & extended:
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address = f1 >> 3
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else:
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address = f1 >> 21
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dddat = ddat[8:8+(f2&0xF)]
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if DEBUG:
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print(" R %x: %s" % (address, binascii.hexlify(dddat)))
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ret.append((address, f2>>16, dddat, (f2>>4)&0xFF))
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return ret
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class PandaWifiStreaming(object):
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def __init__(self, ip="192.168.0.10", port=1338):
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self.sock = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
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self.sock.setblocking(0)
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self.ip = ip
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self.port = port
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self.kick()
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def kick(self):
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# must be called at least every 5 seconds
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self.sock.sendto("hello", (self.ip, self.port))
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def can_recv(self):
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ret = []
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while True:
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try:
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dat, addr = self.sock.recvfrom(0x200*0x10)
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if addr == (self.ip, self.port):
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ret += parse_can_buffer(dat)
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except socket.error as e:
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if e.errno != 35 and e.errno != 11:
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traceback.print_exc()
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break
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return ret
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# stupid tunneling of USB over wifi and SPI
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class WifiHandle(object):
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def __init__(self, ip="192.168.0.10", port=1337):
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self.sock = socket.create_connection((ip, port))
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def __recv(self):
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ret = self.sock.recv(0x44)
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length = struct.unpack("I", ret[0:4])[0]
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return ret[4:4+length]
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def controlWrite(self, request_type, request, value, index, data, timeout=0):
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# ignore data in reply, panda doesn't use it
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return self.controlRead(request_type, request, value, index, 0, timeout)
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def controlRead(self, request_type, request, value, index, length, timeout=0):
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self.sock.send(struct.pack("HHBBHHH", 0, 0, request_type, request, value, index, length))
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return self.__recv()
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def bulkWrite(self, endpoint, data, timeout=0):
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if len(data) > 0x10:
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raise ValueError("Data must not be longer than 0x10")
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self.sock.send(struct.pack("HH", endpoint, len(data))+data)
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self.__recv() # to /dev/null
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def bulkRead(self, endpoint, length, timeout=0):
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self.sock.send(struct.pack("HH", endpoint, 0))
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return self.__recv()
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def close(self):
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self.sock.close()
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# *** normal mode ***
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class Panda(object):
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# matches cereal.car.CarParams.SafetyModel
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SAFETY_NOOUTPUT = 0
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SAFETY_HONDA = 1
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SAFETY_TOYOTA = 2
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SAFETY_ELM327 = 3
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SAFETY_GM = 4
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SAFETY_HONDA_BOSCH = 5
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SAFETY_FORD = 6
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SAFETY_CADILLAC = 7
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SAFETY_HYUNDAI = 8
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SAFETY_CHRYSLER = 9
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SAFETY_TESLA = 10
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SAFETY_SUBARU = 11
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SAFETY_MAZDA = 13
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SAFETY_VOLKSWAGEN = 15
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SAFETY_TOYOTA_IPAS = 16
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SAFETY_ALLOUTPUT = 17
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SAFETY_GM_ASCM = 18
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SERIAL_DEBUG = 0
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SERIAL_ESP = 1
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SERIAL_LIN1 = 2
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SERIAL_LIN2 = 3
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GMLAN_CAN2 = 1
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GMLAN_CAN3 = 2
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REQUEST_IN = usb1.ENDPOINT_IN | usb1.TYPE_VENDOR | usb1.RECIPIENT_DEVICE
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REQUEST_OUT = usb1.ENDPOINT_OUT | usb1.TYPE_VENDOR | usb1.RECIPIENT_DEVICE
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HW_TYPE_UNKNOWN = b'\x00'
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HW_TYPE_WHITE_PANDA = b'\x01'
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HW_TYPE_GREY_PANDA = b'\x02'
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HW_TYPE_BLACK_PANDA = b'\x03'
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HW_TYPE_PEDAL = b'\x04'
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HW_TYPE_UNO = b'\x05'
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def __init__(self, serial=None, claim=True):
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self._serial = serial
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self._handle = None
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self.connect(claim)
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def close(self):
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self._handle.close()
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self._handle = None
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def connect(self, claim=True, wait=False):
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if self._handle != None:
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self.close()
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if self._serial == "WIFI":
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self._handle = WifiHandle()
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print("opening WIFI device")
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self.wifi = True
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else:
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context = usb1.USBContext()
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self._handle = None
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self.wifi = False
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while 1:
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try:
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for device in context.getDeviceList(skip_on_error=True):
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#print(device)
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if device.getVendorID() == 0xbbaa and device.getProductID() in [0xddcc, 0xddee]:
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try:
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this_serial = device.getSerialNumber()
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except Exception:
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continue
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if self._serial is None or this_serial == self._serial:
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self._serial = this_serial
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print("opening device", self._serial, hex(device.getProductID()))
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time.sleep(1)
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self.bootstub = device.getProductID() == 0xddee
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self.legacy = (device.getbcdDevice() != 0x2300)
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self._handle = device.open()
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if claim:
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self._handle.claimInterface(0)
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#self._handle.setInterfaceAltSetting(0, 0) #Issue in USB stack
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break
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except Exception as e:
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print("exception", e)
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traceback.print_exc()
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if wait == False or self._handle != None:
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break
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context = usb1.USBContext() #New context needed so new devices show up
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assert(self._handle != None)
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print("connected")
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def reset(self, enter_bootstub=False, enter_bootloader=False):
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# reset
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try:
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if enter_bootloader:
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self._handle.controlWrite(Panda.REQUEST_IN, 0xd1, 0, 0, b'')
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else:
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if enter_bootstub:
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self._handle.controlWrite(Panda.REQUEST_IN, 0xd1, 1, 0, b'')
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else:
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self._handle.controlWrite(Panda.REQUEST_IN, 0xd8, 0, 0, b'')
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except Exception:
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pass
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if not enter_bootloader:
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self.reconnect()
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def reconnect(self):
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self.close()
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time.sleep(1.0)
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success = False
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# wait up to 15 seconds
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for i in range(0, 15):
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try:
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self.connect()
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success = True
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break
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except Exception:
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print("reconnecting is taking %d seconds..." % (i+1))
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try:
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dfu = PandaDFU(PandaDFU.st_serial_to_dfu_serial(self._serial))
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dfu.recover()
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except Exception:
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pass
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time.sleep(1.0)
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if not success:
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raise Exception("reconnect failed")
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@staticmethod
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def flash_static(handle, code):
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# confirm flasher is present
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fr = handle.controlRead(Panda.REQUEST_IN, 0xb0, 0, 0, 0xc)
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assert fr[4:8] == b"\xde\xad\xd0\x0d"
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# unlock flash
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print("flash: unlocking")
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handle.controlWrite(Panda.REQUEST_IN, 0xb1, 0, 0, b'')
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# erase sectors 1 through 3
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print("flash: erasing")
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for i in range(1, 4):
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handle.controlWrite(Panda.REQUEST_IN, 0xb2, i, 0, b'')
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# flash over EP2
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STEP = 0x10
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print("flash: flashing")
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for i in range(0, len(code), STEP):
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handle.bulkWrite(2, code[i:i+STEP])
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# reset
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print("flash: resetting")
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try:
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handle.controlWrite(Panda.REQUEST_IN, 0xd8, 0, 0, b'')
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except Exception:
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pass
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def flash(self, fn=None, code=None, reconnect=True):
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print("flash: main version is " + self.get_version())
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if not self.bootstub:
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self.reset(enter_bootstub=True)
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assert(self.bootstub)
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if fn is None and code is None:
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if self.legacy:
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fn = "obj/comma.bin"
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print("building legacy st code")
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build_st(fn, "Makefile.legacy")
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else:
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fn = "obj/panda.bin"
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print("building panda st code")
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build_st(fn)
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fn = os.path.join(BASEDIR, "board", fn)
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if code is None:
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with open(fn, "rb") as f:
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code = f.read()
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# get version
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print("flash: bootstub version is " + self.get_version())
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# do flash
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Panda.flash_static(self._handle, code)
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# reconnect
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if reconnect:
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self.reconnect()
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def recover(self, timeout=None):
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self.reset(enter_bootloader=True)
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t_start = time.time()
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while len(PandaDFU.list()) == 0:
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print("waiting for DFU...")
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time.sleep(0.1)
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if timeout is not None and (time.time() - t_start) > timeout:
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return False
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dfu = PandaDFU(PandaDFU.st_serial_to_dfu_serial(self._serial))
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dfu.recover()
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# reflash after recover
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self.connect(True, True)
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self.flash()
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return True
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@staticmethod
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def flash_ota_st():
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ret = os.system("cd %s && make clean && make ota" % (os.path.join(BASEDIR, "board")))
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time.sleep(1)
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return ret==0
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@staticmethod
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def flash_ota_wifi(release=False):
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release_str = "RELEASE=1" if release else ""
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ret = os.system("cd {} && make clean && {} make ota".format(os.path.join(BASEDIR, "boardesp"),release_str))
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time.sleep(1)
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return ret==0
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@staticmethod
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def list():
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context = usb1.USBContext()
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ret = []
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try:
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for device in context.getDeviceList(skip_on_error=True):
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if device.getVendorID() == 0xbbaa and device.getProductID() in [0xddcc, 0xddee]:
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try:
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ret.append(device.getSerialNumber())
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except Exception:
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continue
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except Exception:
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pass
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# TODO: detect if this is real
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#ret += ["WIFI"]
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return ret
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def call_control_api(self, msg):
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self._handle.controlWrite(Panda.REQUEST_OUT, msg, 0, 0, b'')
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# ******************* health *******************
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def health(self):
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dat = self._handle.controlRead(Panda.REQUEST_IN, 0xd2, 0, 0, 24)
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a = struct.unpack("IIIIIBBBB", dat)
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return {
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"voltage": a[0],
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"current": a[1],
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"can_send_errs": a[2],
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"can_fwd_errs": a[3],
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"gmlan_send_errs": a[4],
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"started": a[5],
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"controls_allowed": a[6],
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"gas_interceptor_detected": a[7],
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"car_harness_status": a[8]
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}
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# ******************* control *******************
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def enter_bootloader(self):
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try:
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self._handle.controlWrite(Panda.REQUEST_OUT, 0xd1, 0, 0, b'')
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except Exception as e:
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print(e)
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pass
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def get_version(self):
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return self._handle.controlRead(Panda.REQUEST_IN, 0xd6, 0, 0, 0x40).decode('utf8')
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def get_type(self):
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return self._handle.controlRead(Panda.REQUEST_IN, 0xc1, 0, 0, 0x40)
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def is_white(self):
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return self.get_type() == Panda.HW_TYPE_WHITE_PANDA
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def is_grey(self):
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return self.get_type() == Panda.HW_TYPE_GREY_PANDA
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def is_black(self):
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return self.get_type() == Panda.HW_TYPE_BLACK_PANDA
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def is_uno(self):
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return self.get_type() == Panda.HW_TYPE_UNO
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def get_serial(self):
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dat = self._handle.controlRead(Panda.REQUEST_IN, 0xd0, 0, 0, 0x20)
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hashsig, calc_hash = dat[0x1c:], hashlib.sha1(dat[0:0x1c]).digest()[0:4]
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assert(hashsig == calc_hash)
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return [dat[0:0x10].decode("utf8"), dat[0x10:0x10+10].decode("utf8")]
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def get_secret(self):
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return self._handle.controlRead(Panda.REQUEST_IN, 0xd0, 1, 0, 0x10)
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# ******************* configuration *******************
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def set_usb_power(self, on):
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self._handle.controlWrite(Panda.REQUEST_OUT, 0xe6, int(on), 0, b'')
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def set_esp_power(self, on):
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self._handle.controlWrite(Panda.REQUEST_OUT, 0xd9, int(on), 0, b'')
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def esp_reset(self, bootmode=0):
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self._handle.controlWrite(Panda.REQUEST_OUT, 0xda, int(bootmode), 0, b'')
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time.sleep(0.2)
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def set_safety_mode(self, mode=SAFETY_NOOUTPUT):
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self._handle.controlWrite(Panda.REQUEST_OUT, 0xdc, mode, 0, b'')
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def set_can_forwarding(self, from_bus, to_bus):
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# TODO: This feature may not work correctly with saturated buses
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self._handle.controlWrite(Panda.REQUEST_OUT, 0xdd, from_bus, to_bus, b'')
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def set_gmlan(self, bus=2):
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# TODO: check panda type
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if bus is None:
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self._handle.controlWrite(Panda.REQUEST_OUT, 0xdb, 0, 0, b'')
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elif bus in [Panda.GMLAN_CAN2, Panda.GMLAN_CAN3]:
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self._handle.controlWrite(Panda.REQUEST_OUT, 0xdb, 1, bus, b'')
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def set_obd(self, obd):
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# TODO: check panda type
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self._handle.controlWrite(Panda.REQUEST_OUT, 0xdb, int(obd), 0, b'')
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def set_can_loopback(self, enable):
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# set can loopback mode for all buses
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self._handle.controlWrite(Panda.REQUEST_OUT, 0xe5, int(enable), 0, b'')
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def set_can_enable(self, bus_num, enable):
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# sets the can transciever enable pin
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self._handle.controlWrite(Panda.REQUEST_OUT, 0xf4, int(bus_num), int(enable), b'')
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def set_can_speed_kbps(self, bus, speed):
|
|
self._handle.controlWrite(Panda.REQUEST_OUT, 0xde, bus, int(speed*10), b'')
|
|
|
|
def set_uart_baud(self, uart, rate):
|
|
self._handle.controlWrite(Panda.REQUEST_OUT, 0xe4, uart, int(rate/300), b'')
|
|
|
|
def set_uart_parity(self, uart, parity):
|
|
# parity, 0=off, 1=even, 2=odd
|
|
self._handle.controlWrite(Panda.REQUEST_OUT, 0xe2, uart, parity, b'')
|
|
|
|
def set_uart_callback(self, uart, install):
|
|
self._handle.controlWrite(Panda.REQUEST_OUT, 0xe3, uart, int(install), b'')
|
|
|
|
# ******************* can *******************
|
|
|
|
def can_send_many(self, arr):
|
|
snds = []
|
|
transmit = 1
|
|
extended = 4
|
|
for addr, _, dat, bus in arr:
|
|
assert len(dat) <= 8
|
|
if DEBUG:
|
|
print(" W %x: %s" % (addr, binascii.hexlify(dat)))
|
|
if addr >= 0x800:
|
|
rir = (addr << 3) | transmit | extended
|
|
else:
|
|
rir = (addr << 21) | transmit
|
|
snd = struct.pack("II", rir, len(dat) | (bus << 4)) + dat
|
|
snd = snd.ljust(0x10, b'\x00')
|
|
snds.append(snd)
|
|
|
|
while True:
|
|
try:
|
|
#print("DAT: %s"%b''.join(snds).__repr__())
|
|
if self.wifi:
|
|
for s in snds:
|
|
self._handle.bulkWrite(3, s)
|
|
else:
|
|
self._handle.bulkWrite(3, b''.join(snds))
|
|
break
|
|
except (usb1.USBErrorIO, usb1.USBErrorOverflow):
|
|
print("CAN: BAD SEND MANY, RETRYING")
|
|
|
|
def can_send(self, addr, dat, bus):
|
|
self.can_send_many([[addr, None, dat, bus]])
|
|
|
|
def can_recv(self):
|
|
dat = bytearray()
|
|
while True:
|
|
try:
|
|
dat = self._handle.bulkRead(1, 0x10*256)
|
|
break
|
|
except (usb1.USBErrorIO, usb1.USBErrorOverflow):
|
|
print("CAN: BAD RECV, RETRYING")
|
|
time.sleep(0.1)
|
|
return parse_can_buffer(dat)
|
|
|
|
def can_clear(self, bus):
|
|
"""Clears all messages from the specified internal CAN ringbuffer as
|
|
though it were drained.
|
|
|
|
Args:
|
|
bus (int): can bus number to clear a tx queue, or 0xFFFF to clear the
|
|
global can rx queue.
|
|
|
|
"""
|
|
self._handle.controlWrite(Panda.REQUEST_OUT, 0xf1, bus, 0, b'')
|
|
|
|
# ******************* isotp *******************
|
|
|
|
def isotp_send(self, addr, dat, bus, recvaddr=None, subaddr=None):
|
|
return isotp_send(self, dat, addr, bus, recvaddr, subaddr)
|
|
|
|
def isotp_recv(self, addr, bus=0, sendaddr=None, subaddr=None):
|
|
return isotp_recv(self, addr, bus, sendaddr, subaddr)
|
|
|
|
# ******************* serial *******************
|
|
|
|
def serial_read(self, port_number):
|
|
ret = []
|
|
while 1:
|
|
lret = bytes(self._handle.controlRead(Panda.REQUEST_IN, 0xe0, port_number, 0, 0x40))
|
|
if len(lret) == 0:
|
|
break
|
|
ret.append(lret)
|
|
return b''.join(ret)
|
|
|
|
def serial_write(self, port_number, ln):
|
|
ret = 0
|
|
for i in range(0, len(ln), 0x20):
|
|
ret += self._handle.bulkWrite(2, struct.pack("B", port_number) + ln[i:i+0x20])
|
|
return ret
|
|
|
|
def serial_clear(self, port_number):
|
|
"""Clears all messages (tx and rx) from the specified internal uart
|
|
ringbuffer as though it were drained.
|
|
|
|
Args:
|
|
port_number (int): port number of the uart to clear.
|
|
|
|
"""
|
|
self._handle.controlWrite(Panda.REQUEST_OUT, 0xf2, port_number, 0, b'')
|
|
|
|
# ******************* kline *******************
|
|
|
|
# pulse low for wakeup
|
|
def kline_wakeup(self):
|
|
if DEBUG:
|
|
print("kline wakeup...")
|
|
self._handle.controlWrite(Panda.REQUEST_OUT, 0xf0, 0, 0, b'')
|
|
if DEBUG:
|
|
print("kline wakeup done")
|
|
|
|
def kline_drain(self, bus=2):
|
|
# drain buffer
|
|
bret = bytearray()
|
|
while True:
|
|
ret = self._handle.controlRead(Panda.REQUEST_IN, 0xe0, bus, 0, 0x40)
|
|
if len(ret) == 0:
|
|
break
|
|
elif DEBUG:
|
|
print("kline drain: " + binascii.hexlify(ret))
|
|
bret += ret
|
|
return bytes(bret)
|
|
|
|
def kline_ll_recv(self, cnt, bus=2):
|
|
echo = bytearray()
|
|
while len(echo) != cnt:
|
|
ret = self._handle.controlRead(Panda.REQUEST_OUT, 0xe0, bus, 0, cnt-len(echo))
|
|
if DEBUG and len(ret) > 0:
|
|
print("kline recv: " + binascii.hexlify(ret))
|
|
echo += ret
|
|
return str(echo)
|
|
|
|
def kline_send(self, x, bus=2, checksum=True):
|
|
def get_checksum(dat):
|
|
result = 0
|
|
result += sum(map(ord, dat)) if isinstance(b'dat', str) else sum(dat)
|
|
result = -result
|
|
return struct.pack("B", result % 0x100)
|
|
|
|
self.kline_drain(bus=bus)
|
|
if checksum:
|
|
x += get_checksum(x)
|
|
for i in range(0, len(x), 0xf):
|
|
ts = x[i:i+0xf]
|
|
if DEBUG:
|
|
print("kline send: " + binascii.hexlify(ts))
|
|
self._handle.bulkWrite(2, bytes([bus]) + ts)
|
|
echo = self.kline_ll_recv(len(ts), bus=bus)
|
|
if echo != ts:
|
|
print("**** ECHO ERROR %d ****" % i)
|
|
print(binascii.hexlify(echo))
|
|
print(binascii.hexlify(ts))
|
|
assert echo == ts
|
|
|
|
def kline_recv(self, bus=2):
|
|
msg = self.kline_ll_recv(2, bus=bus)
|
|
msg += self.kline_ll_recv(ord(msg[1])-2, bus=bus)
|
|
return msg
|
|
|
|
def send_heartbeat(self):
|
|
self._handle.controlWrite(Panda.REQUEST_OUT, 0xf3, 0, 0, b'')
|
|
|
|
# ******************* RTC *******************
|
|
def set_datetime(self, dt):
|
|
self._handle.controlWrite(Panda.REQUEST_OUT, 0xa1, int(dt.year), 0, b'')
|
|
self._handle.controlWrite(Panda.REQUEST_OUT, 0xa2, int(dt.month), 0, b'')
|
|
self._handle.controlWrite(Panda.REQUEST_OUT, 0xa3, int(dt.day), 0, b'')
|
|
self._handle.controlWrite(Panda.REQUEST_OUT, 0xa4, int(dt.isoweekday()), 0, b'')
|
|
self._handle.controlWrite(Panda.REQUEST_OUT, 0xa5, int(dt.hour), 0, b'')
|
|
self._handle.controlWrite(Panda.REQUEST_OUT, 0xa6, int(dt.minute), 0, b'')
|
|
self._handle.controlWrite(Panda.REQUEST_OUT, 0xa7, int(dt.second), 0, b'')
|
|
|
|
def get_datetime(self):
|
|
dat = self._handle.controlRead(Panda.REQUEST_IN, 0xa0, 0, 0, 8)
|
|
a = struct.unpack("HBBBBBB", dat)
|
|
return datetime.datetime(a[0], a[1], a[2], a[4], a[5], a[6])
|
|
|
|
# ******************* IR *******************
|
|
def set_ir_power(self, percentage):
|
|
self._handle.controlWrite(Panda.REQUEST_OUT, 0xb0, int(percentage), 0, b'')
|
|
|
|
# ******************* Fan ******************
|
|
def set_fan_power(self, percentage):
|
|
self._handle.controlWrite(Panda.REQUEST_OUT, 0xb1, int(percentage), 0, b'')
|
|
|
|
def get_fan_rpm(self):
|
|
dat = self._handle.controlRead(Panda.REQUEST_IN, 0xb2, 0, 0, 2)
|
|
a = struct.unpack("H", dat)
|
|
return a[0] |