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Elelabs_EzspFwUtility.py
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Elelabs_EzspFwUtility.py
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#!/usr/bin/python
# -*- coding: utf-8 -*-
# Copyright 2020 Elelabs International Limited
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
# http://www.apache.org/licenses/LICENSE-2.0
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import os
import sys
import time
import serial
import logging
import binascii
import argparse
from xmodem import XMODEM
from struct import pack
def is_valid_file(parser, arg):
if not os.path.isfile(arg):
parser.error("The file %s does not exist!" % arg)
else:
return arg
parser = argparse.ArgumentParser(description='Elelabs EZSP Serial FW Update utility')
subparsers = parser.add_subparsers(help='probe, restart, flash, ele_update')
parser_probe = subparsers.add_parser('probe', help='Check if Elelabs device responds and prints firmware version')
parser_probe.add_argument('-p','--port', type=str, required=True, help='Serial port for NCP')
parser_probe.add_argument('-b','--baudrate', type=str, required=False, default=115200, help='Serial baud rate for NCP (115200/57600)')
parser_probe.add_argument('-d','--dlevel', choices=['RAW', 'PACKET', 'DEBUG', 'INFO'], required=False, default='INFO', help='Debug verbosity level')
parser_probe.set_defaults(which='probe')
parser_restart = subparsers.add_parser('restart', help='Restart attached Elelabs Adapter into BOOTLOADER or NORMAL MODE')
parser_restart.add_argument('-m','--mode', choices=['btl', 'nrml'], required=True, help='Required operation mode')
parser_restart.add_argument('-p','--port', type=str, required=True, help='Serial port for NCP')
parser_restart.add_argument('-b','--baudrate', type=str, required=False, default=115200, help='Serial baud rate for NCP (115200/57600)')
parser_restart.add_argument('-d','--dlevel', choices=['RAW', 'PACKET', 'DEBUG', 'INFO'], required=False, default='INFO', help='Debug verbosity level')
parser_restart.set_defaults(which='restart')
parser_flash = subparsers.add_parser('flash', help='Performs update procedure on any generic EZSP product with a new application packaged in an GBL file.')
parser_flash.add_argument('-f', '--file', type=lambda x: is_valid_file(parser, x), required=True, help='GBL file to upload to the Elelabs product')
parser_flash.add_argument('-p','--port', type=str, required=True, help='Serial port for the EZSP Product')
parser_flash.add_argument('-b','--baudrate', type=str, required=False, default=115200, help='Serial baud rate for NCP (115200/57600)')
parser_flash.add_argument('-d','--dlevel', choices=['RAW', 'PACKET', 'DEBUG', 'INFO'], required=False, default='INFO', help='Debug verbosity level')
parser_flash.set_defaults(which='flash')
parser_ele_update = subparsers.add_parser('ele_update', help='Updates the Elelabs product to a latest available version')
parser_ele_update.add_argument('-v','--version', choices=['zigbee', 'thread'], required=True, help='Required protocol version')
parser_ele_update.add_argument('-p','--port', type=str, required=True, help='Serial port for the Elelabs Product')
parser_ele_update.add_argument('-b','--baudrate', type=str, required=False, default=115200, help='Serial baud rate for NCP (115200/57600)')
parser_ele_update.add_argument('-d','--dlevel', choices=['RAW', 'PACKET', 'DEBUG', 'INFO'], required=False, default='INFO', help='Debug verbosity level')
parser_ele_update.set_defaults(which='ele_update')
class AdapterModeProbeStatus:
ZIGBEE = 0
THREAD = 1
BOOTLOADER = 2
ERROR = 3
class SerialInterface:
def __init__(self, port, baudrate):
self.port = port
self.baudrate = baudrate
def open(self):
try:
self.serial = serial.Serial(port=self.port,
baudrate=self.baudrate,
parity=serial.PARITY_NONE,
stopbits=serial.STOPBITS_ONE,
xonxoff=True,
timeout=3)
except Exception as e:
raise Exception("PORT ERROR: %s" % str(e))
def close(self):
self.serial.close()
class AshProtocolInterface:
FLAG_BYTE = b'\x7E'
RANDOMIZE_START = 0x42
RANDOMIZE_SEQ = 0xB8
RSTACK_FRAME_CMD = b'\x1A\xC0\x38\xBC\x7E'
RSTACK_FRAME_ACK = b'\x1A\xC1\x02\x0B\x0A\x52\x7E'
def __init__(self, serial, config, logger):
self.logger = logger
self.config = config
self.serial = serial
self.ackNum = 0
self.frmNum = 0
def dataRandomize(self, frame):
rand = self.RANDOMIZE_START
out = bytearray()
for x in frame:
out += bytearray([x ^ rand])
if rand % 2:
rand = (rand >> 1) ^ self.RANDOMIZE_SEQ
else:
rand = rand >> 1
return out
def ashFrameBuilder(self, ezsp_frame):
ash_frame = bytearray()
# Control byte
ash_frame += bytearray([(((self.ackNum << 0) & 0xFF) | (((self.frmNum % 8) << 4 ) & 0xFF)) & 0xFF])
self.ackNum = (self.ackNum + 1) % 8
self.frmNum = (self.frmNum + 1) % 8
ash_frame += self.dataRandomize(ezsp_frame)
crc = binascii.crc_hqx(ash_frame, 0xFFFF)
ash_frame += bytearray([crc >> 8, crc & 0xFF])
ash_frame = self.replaceReservedBytes(ash_frame)
ash_frame += self.FLAG_BYTE
if self.config.dlevel == 'RAW':
self.logger.debug('[ ASH REQUEST ] ' + ' '.join(format(x, '02x') for x in ash_frame))
return ash_frame
def revertEscapedBytes(self, msg):
msg = msg.replace(b'\x7d\x5d', b'\x7d')
msg = msg.replace(b'\x7d\x5e', b'\x7e')
msg = msg.replace(b'\x7d\x31', b'\x11')
msg = msg.replace(b'\x7d\x33', b'\x13')
msg = msg.replace(b'\x7d\x38', b'\x18')
msg = msg.replace(b'\x7d\x3a', b'\x1a')
return msg
def replaceReservedBytes(self, msg):
msg = msg.replace(b'\x7d', b'\x7d\x5d')
msg = msg.replace(b'\x7e', b'\x7d\x5e')
msg = msg.replace(b'\x11', b'\x7d\x31')
msg = msg.replace(b'\x13', b'\x7d\x33')
msg = msg.replace(b'\x18', b'\x7d\x38')
msg = msg.replace(b'\x1a', b'\x7d\x3a')
return msg
def getResponse(self, applyRandomize = False):
timeout = time.time() + 3
msg = bytearray()
receivedbyte = None
while (time.time() < timeout) and (receivedbyte != self.FLAG_BYTE):
receivedbyte = self.serial.read()
msg += receivedbyte
if len(msg) == 0:
return -1, None, None
msg = self.revertEscapedBytes(msg)
if self.config.dlevel == 'RAW':
self.logger.debug('[ ASH RESPONSE ] ' + ' '.join(format(x, '02x') for x in msg))
if applyRandomize:
msg_parsed = self.dataRandomize(bytearray(msg[1:-3]))
if self.config.dlevel == 'RAW' or self.config.dlevel == 'PACKET':
self.logger.debug('[ EZSP RESPONSE ] ' + ' '.join(format(x, '02x') for x in msg_parsed))
return 0, msg, msg_parsed
else:
return 0, msg, None
def sendResetFrame(self):
self.serial.flushInput()
self.logger.debug('RESET FRAME')
if self.config.dlevel == 'RAW':
self.logger.debug('[ ASH REQUEST ] ' + ' '.join(format(x, '02x') for x in self.RSTACK_FRAME_CMD))
self.serial.write(self.RSTACK_FRAME_CMD)
status, ash_response, ezsp_response = self.getResponse()
if status:
return status
if not (self.RSTACK_FRAME_ACK in ash_response):
return -1
return 0
def sendAck(self, ackNum):
ack = bytearray([ackNum & 0x07 | 0x80])
crc = binascii.crc_hqx(ack, 0xFFFF)
ack += bytearray([crc >> 8, crc & 0xFF])
ack = self.replaceReservedBytes(ack)
ack += self.FLAG_BYTE
if self.config.dlevel == 'RAW':
self.logger.debug('[ ASH ACK ] ' + ' '.join(format(x, '02x') for x in ack))
self.serial.write(ack)
def sendAshCommand(self, ezspFrame):
ash_frame = self.ashFrameBuilder(ezspFrame)
self.serial.flushInput()
self.serial.write(ash_frame)
status, ash_response, ezsp_response = self.getResponse(True)
if status:
return status, None
self.sendAck(ash_response[0])
return 0, ezsp_response
class EzspProtocolInterface:
def __init__(self, serial, config, logger):
self.logger = logger
self.config = config
self.INITIAL_EZSP_VERSION = 4
self.VERSION = b'\x00'
self.GET_VALUE = b'\xAA'
self.GET_MFG_TOKEN = b'\x0B'
self.LAUNCH_STANDALONE_BOOTLOADER = b'\x8F'
self.EZSP_VALUE_VERSION_INFO = 0x11
self.EZSP_MFG_STRING = 0x01
self.EZSP_MFG_BOARD_NAME = 0x02
self.STANDALONE_BOOTLOADER_NORMAL_MODE = 1
self.ezspVersion = self.INITIAL_EZSP_VERSION
self.sequenceNum = 0
self.ash = AshProtocolInterface(serial, config, logger)
def ezspFrameBuilder(self, command):
ezsp_frame = bytearray()
# Sequence byte
ezsp_frame += bytearray([self.sequenceNum])
self.sequenceNum = (self.sequenceNum + 1) % 255
ezsp_frame += b'\x00'
if self.ezspVersion >=5:
# Legacy frame ID - always 0xFF
ezsp_frame += b'\xFF'
# Extended frame control
ezsp_frame += b'\x00'
ezsp_frame = ezsp_frame + command
if self.ezspVersion >= 8:
ezsp_frame[2] = 0x01
ezsp_frame[3] = command[0] & 0xFF # LSB
ezsp_frame[4] = command[0] >> 8 # MSB
if self.config.dlevel == 'RAW' or self.config.dlevel == 'PACKET':
self.logger.debug('[ EZSP REQUEST ] ' + ' '.join(format(x, '02x') for x in ezsp_frame))
return ezsp_frame
def sendEzspCommand(self, commandData, commandName = ''):
self.logger.debug(commandName)
status, response = self.ash.sendAshCommand(self.ezspFrameBuilder(commandData))
if status:
raise Exception("sendAshCommand status error: %d" % status)
return response
def sendVersion(self, desiredProtocolVersion):
resp = self.sendEzspCommand(self.VERSION + bytearray([desiredProtocolVersion]), 'sendVersion: V%d' % desiredProtocolVersion)
return resp[3] # protocolVersion
def getValue(self, valueId, valueIdName):
resp = self.sendEzspCommand(self.GET_VALUE + bytearray([valueId]), 'getValue: %s' % valueIdName)
status = resp[5]
valueLength = resp[6]
valueArray = resp[7:]
return status, valueLength, valueArray
def getMfgToken(self, tokenId, tokenIdName):
resp = self.sendEzspCommand(self.GET_MFG_TOKEN + bytearray([tokenId]), 'getMfgToken: %s' % tokenIdName)
tokenDataLength = resp[5]
tokenData = resp[6:]
return tokenDataLength, tokenData
def launchStandaloneBootloader(self, mode, modeName):
resp = self.sendEzspCommand(self.LAUNCH_STANDALONE_BOOTLOADER + bytearray([mode]), 'launchStandaloneBootloader: %s' % modeName)
status = resp[5]
return status
def initEzspProtocol(self):
ash_status = self.ash.sendResetFrame()
if ash_status:
return ash_status
self.ezspVersion = self.sendVersion(self.INITIAL_EZSP_VERSION)
self.logger.debug("EZSP v%d detected" % self.ezspVersion)
if (self.ezspVersion != self.INITIAL_EZSP_VERSION):
self.sendVersion(self.ezspVersion)
return 0
class HdlcLiteProtocolInterface:
HDLC_FLAG = 0x7e
HDLC_ESCAPE = 0x7d
HDLC_FCS_INIT = 0xFFFF
HDLC_FCS_POLY = 0x8408
HDLC_FCS_GOOD = 0xF0B8
def __init__(self, serial, config, logger):
self.logger = logger
self.config = config
self.serial = serial
self.fcstab = self.mkfcstab()
def mkfcstab(self):
""" Make a static lookup table for byte value to FCS16 result. """
polynomial = self.HDLC_FCS_POLY
def valiter():
""" Helper to yield FCS16 table entries for each byte value. """
for byte in range(256):
fcs = byte
i = 8
while i:
fcs = (fcs >> 1) ^ polynomial if fcs & 1 else fcs >> 1
i -= 1
yield fcs & 0xFFFF
return tuple(valiter())
def fcs16(self, byte, fcs):
fcs = (fcs >> 8) ^ self.fcstab[(fcs ^ byte) & 0xff]
return fcs
def getResponse(self):
fcs = self.HDLC_FCS_INIT
timeout = time.time() + 3
packet = bytearray()
while (time.time() < timeout):
byte = int.from_bytes(self.serial.read(1), "little")
if byte == self.HDLC_FLAG:
if len(packet) == 0:
# First sync byte
continue
else:
# end of packet, go parse
break
if byte == self.HDLC_ESCAPE:
byte = int.from_bytes(self.serial.read(1), "little")
byte ^= 0x20
packet.append(byte)
fcs = self.fcs16(byte, fcs)
if len(packet) == 0:
return -1, None
if self.config.dlevel == 'RAW':
self.logger.debug('[ HDLC RESPONSE ]: 7e ' + ' '.join(format(x, '02x') for x in packet) + ' 7e')
if fcs != self.HDLC_FCS_GOOD:
return -1, None
else:
packet = packet[:-2] # remove FCS16 from end
packet = pack("%dB" % len(packet), *packet)
return 0, packet
def encode_byte(self, byte, packet=[]):
""" HDLC encode and append a single byte to the given packet. """
if (byte == self.HDLC_ESCAPE) or (byte == self.HDLC_FLAG):
packet.append(self.HDLC_ESCAPE)
packet.append(byte ^ 0x20)
else:
packet.append(byte)
return packet
def encode(self, payload=""):
""" Return the HDLC encoding of the given packet. """
fcs = self.HDLC_FCS_INIT
packet = []
packet.append(self.HDLC_FLAG)
for byte in payload:
fcs = self.fcs16(byte, fcs)
packet = self.encode_byte(byte, packet)
fcs ^= 0xffff
byte = fcs & 0xFF
packet = self.encode_byte(byte, packet)
byte = fcs >> 8
packet = self.encode_byte(byte, packet)
packet.append(self.HDLC_FLAG)
packet = pack("%dB" % len(packet), *packet)
if self.config.dlevel == 'RAW':
self.logger.debug("[ HDLC REQUEST ]: " + ' '.join(format(x, '02x') for x in packet))
return packet
def sendHdlcPacket(self, data):
pkt = self.encode(data)
self.serial.write(pkt)
return self.getResponse()
class SpinelProtocolInterface:
CMD_PROP_VALUE_GET = 2
CMD_PROP_VALUE_SET = 3
HEADER_ASYNC = 0x80
HEADER_DEFAULT = 0x81
PROP_PROTOCOL_VERSION = 1 # < major, minor [i,i]
PROP_NCP_VERSION = 2 # < version string [U]
PROP_MFG_CUSTOM_VERSION = 0x3C00
PROP_MFG_STRING = 0x3C01
PROP_MFG_BOARD_NAME = 0x3C02
CMD_RESET = 1
CMD_MFG_LAUNCH_BOOTLOADER = 15360
def __init__(self, serial, config, logger):
self.logger = logger
self.config = config
self.spinelVersion = ""
self.hdlc = HdlcLiteProtocolInterface(serial, config, logger)
def encode_i(self, data):
result = bytes()
while data:
value = data & 0x7F
data >>= 7
if data:
value |= 0x80
result = result + pack("<B", value)
return result
def encode_packet(self,
command_id,
payload=bytes()):
header = pack(">B", self.HEADER_DEFAULT)
cmd = self.encode_i(command_id)
pkt = header + cmd + payload
return pkt
def sendSpinelCommand(self, command_id, commandName = '', payload=bytes()):
self.logger.debug(commandName)
pkt = self.encode_packet(command_id, payload)
if self.config.dlevel == 'RAW' or self.config.dlevel == 'PACKET':
self.logger.debug("[ SPINEL REQUEST ]: " + ' '.join(format(x, '02x') for x in pkt))
status, response = self.hdlc.sendHdlcPacket(pkt)
if status:
raise Exception("sendHdlcPacket status error: %d" % status)
if self.config.dlevel == 'RAW' or self.config.dlevel == 'PACKET':
self.logger.debug("[ SPINEL RESPONSE ]: " + ' '.join(format(x, '02x') for x in response))
return response
def propValueGet(self, prop_id):
resp = self.sendSpinelCommand(self.CMD_PROP_VALUE_GET, 'CMD_PROP_VALUE_GET %d' % (prop_id), self.encode_i(prop_id))
if (prop_id > 0xFFFF):
raise Exception("prop_id is more than 0xFFFF. Not sure what to do")
elif (prop_id > 0xFF):
return resp[4:]
else:
return resp[3:]
def eleLaunchBtl(self):
header = pack(">B", self.HEADER_ASYNC)
cmd = self.encode_i(self.CMD_MFG_LAUNCH_BOOTLOADER)
pkt = header + cmd
if self.config.dlevel == 'RAW' or self.config.dlevel == 'PACKET':
self.logger.debug("[ SPINEL REQUEST ]: " + ' '.join(format(x, '02x') for x in pkt))
self.hdlc.sendHdlcPacket(pkt)
def initSpinelProtocol(self):
self.spinelVersion = ""
header = pack(">B", self.HEADER_ASYNC)
cmd = self.encode_i(self.CMD_RESET)
pkt = header + cmd
if self.config.dlevel == 'RAW' or self.config.dlevel == 'PACKET':
self.logger.debug("[ SPINEL REQUEST ]: " + ' '.join(format(x, '02x') for x in pkt))
status, response = self.hdlc.sendHdlcPacket(pkt)
if status:
return status
if response == pkt:
self.logger.debug("Received same SPINEL packet. That's bootloader echo")
return -1
if self.config.dlevel == 'RAW' or self.config.dlevel == 'PACKET':
self.logger.debug("[ SPINEL RESPONSE ]: " + ' '.join(format(x, '02x') for x in response))
# request version of the SPINEL protocol
counter = 0
while self.spinelVersion == "":
response = self.sendSpinelCommand(self.CMD_PROP_VALUE_GET, 'CMD_PROP_VALUE_GET %d' % (self.PROP_PROTOCOL_VERSION), self.encode_i(self.PROP_PROTOCOL_VERSION))
if response[2] != self.PROP_PROTOCOL_VERSION:
# missmatch, request again
counter = counter + 1
if counter >= 5:
return -1
else:
continue
self.spinelVersion = "%d.%d"% (response[3],response[4])
self.logger.debug("SPINEL v%s detected" % (self.spinelVersion))
break
return 0
class ElelabsUtilities:
def __init__(self, config, logger):
self.logger = logger
self.config = config
def probe(self):
serialInterface = SerialInterface(self.config.port, self.config.baudrate)
serialInterface.open()
ezsp = EzspProtocolInterface(serialInterface.serial, self.config, self.logger)
ezsp_status = ezsp.initEzspProtocol()
if ezsp_status == 0:
status, value_length, value_array = ezsp.getValue(ezsp.EZSP_VALUE_VERSION_INFO, "EZSP_VALUE_VERSION_INFO")
if (status == 0):
firmware_version = str(value_array[2]) + '.' + str(value_array[3]) + '.' + str(value_array[4]) + '-' + str(value_array[0])
else:
self.logger.info('EZSP status returned %d' % status)
token_data_length, token_data = ezsp.getMfgToken(ezsp.EZSP_MFG_STRING, "EZSP_MFG_STRING")
if token_data.decode("ascii", "ignore") == "Elelabs":
token_data_length, token_data = ezsp.getMfgToken(ezsp.EZSP_MFG_BOARD_NAME, "EZSP_MFG_BOARD_NAME")
adapter_name = token_data.decode("ascii", "ignore")
self.logger.info("Elelabs Zigbee adapter detected:")
self.logger.info("Adapter: %s" % adapter_name)
else:
adapter_name = None
self.logger.info("Generic Zigbee EZSP adapter detected:")
self.logger.info("Firmware: %s" % firmware_version)
self.logger.info("EZSP v%d" % ezsp.ezspVersion)
serialInterface.close()
return AdapterModeProbeStatus.ZIGBEE, adapter_name
else:
spinel = SpinelProtocolInterface(serialInterface.serial, self.config, self.logger)
spinel_status = spinel.initSpinelProtocol()
if spinel_status == 0:
property_data = spinel.propValueGet(spinel.PROP_NCP_VERSION)
firmware_version = property_data.decode("ascii", "ignore")
property_data = spinel.propValueGet(spinel.PROP_MFG_STRING)
vendor_name = property_data.decode("ascii", "ignore").rstrip('\x00')
if vendor_name == "Elelabs":
property_data = spinel.propValueGet(spinel.PROP_MFG_BOARD_NAME)
adapter_name = property_data.decode("ascii", "ignore").rstrip('\x00')
self.logger.info("Elelabs Thread adapter detected:")
self.logger.info("Adapter: %s"%adapter_name)
else:
adapter_name = None
self.logger.info("Generic Thread adapter detected:")
self.logger.info("Firmware: %s"%firmware_version)
self.logger.info("SPINEL v%s" % spinel.spinelVersion)
serialInterface.close()
return AdapterModeProbeStatus.THREAD, adapter_name
else:
if self.config.baudrate != 115200:
serialInterface.close()
time.sleep(1)
serialInterface = SerialInterface(self.config.port, 115200)
serialInterface.open()
# check if allready in bootloader mode
serialInterface.serial.write(b'\x0D')
first_line = serialInterface.serial.readline() # read blank line
if len(first_line) == 0:
# timeout
serialInterface.close()
self.logger.info("Couldn't communicate with the adapter in Zigbee (EZSP) mode, Thread (Spinel) mode or bootloader mode")
return AdapterModeProbeStatus.ERROR, None
btl_info = serialInterface.serial.readline() # read Gecko BTL version or blank line
self.logger.info("EZSP adapter in bootloader mode detected:")
self.logger.info(btl_info.decode("ascii", "ignore")[:-2]) # show Bootloader version
serialInterface.close()
return AdapterModeProbeStatus.BOOTLOADER, None
def restart(self, mode):
adapter_status, adapter_name = self.probe()
if adapter_status == AdapterModeProbeStatus.ZIGBEE or adapter_status == AdapterModeProbeStatus.THREAD:
if mode == 'btl':
serialInterface = SerialInterface(self.config.port, self.config.baudrate)
serialInterface.open()
self.logger.info("Launch in bootloader mode")
if adapter_status == AdapterModeProbeStatus.ZIGBEE:
ezsp = EzspProtocolInterface(serialInterface.serial, self.config, self.logger)
ezsp_status = ezsp.initEzspProtocol()
status = ezsp.launchStandaloneBootloader(ezsp.STANDALONE_BOOTLOADER_NORMAL_MODE, "STANDALONE_BOOTLOADER_NORMAL_MODE")
if status:
serialInterface.close()
self.logger.critical("Error launching the adapter in bootloader mode")
return -1
else:
if adapter_name == None:
self.logger.critical("No Elelabs Thread product detected.\r\nWe don't know how to force it into bootloader mode.\r\n Manually launch the product into bootloader mode")
return -1
spinel = SpinelProtocolInterface(serialInterface.serial, self.config, self.logger)
spinel_status = spinel.initSpinelProtocol()
if spinel_status:
serialInterface.close()
self.logger.critical("Error launching the adapter in bootloader mode")
return -1
spinel.eleLaunchBtl()
serialInterface.close()
# wait for reboot
time.sleep(2)
adapter_status, adapter_name = self.probe()
if adapter_status == AdapterModeProbeStatus.BOOTLOADER:
return 0
else:
return -1
else:
self.logger.info("Allready in normal mode. No need to restart")
return 0
elif adapter_status == AdapterModeProbeStatus.BOOTLOADER:
if mode == 'btl':
self.logger.info("Allready in bootloader mode. No need to restart")
return 0
else:
serialInterface = SerialInterface(self.config.port, 115200)
serialInterface.open()
self.logger.info("Launch in normal application mode")
# Send Reboot
serialInterface.serial.write(b'2')
serialInterface.close()
# wait for reboot
time.sleep(2)
adapter_status, adapter_name = self.probe()
if adapter_status == AdapterModeProbeStatus.ZIGBEE or adapter_status == AdapterModeProbeStatus.THREAD:
return 0
else:
return -1
def flash(self, filename):
# STATIC FUNCTIONS
def getc(size, timeout=1):
read_data = self.serialInterface.serial.read(size)
return read_data
def putc(data, timeout=1):
self.currentPacket += 1
if (self.currentPacket % 20) == 0:
print('.', end = '')
if (self.currentPacket % 100) == 0:
print('')
self.serialInterface.serial.write(data)
time.sleep(0.001)
if not (".gbl" in filename) and not (".ebl" in filename):
self.logger.critical('Aborted! Gecko bootloader accepts .gbl or .ebl images only.')
return
if self.restart("btl"):
self.logger.critical("EZSP adapter not in the bootloader mode. Can't perform update procedure")
return
self.serialInterface = SerialInterface(self.config.port, 115200)
self.serialInterface.open()
# Enter '1' to initialize X-MODEM mode
self.serialInterface.serial.write(b'\x0A')
self.serialInterface.serial.write(b'1')
time.sleep(1)
self.serialInterface.serial.readline() # BL > 1
self.serialInterface.serial.readline() # begin upload
self.logger.info('Successfully restarted into X-MODEM mode! Starting upload of the new firmware... DO NOT INTERRUPT(!)')
self.currentPacket = 0
# Wait for char 'C'
success = False
start_time = time.time()
while time.time()-start_time < 10:
if self.serialInterface.serial.read() == b'C':
success = True
if time.time()-start_time > 5:
break
if not success:
self.logger.info('Failed to restart into bootloader mode. Please see users guide.')
return
# Start XMODEM transaction
modem = XMODEM(getc, putc)
stream = open(filename,'rb')
sentcheck = modem.send(stream)
print('')
if sentcheck:
self.logger.info('Firmware upload complete')
else:
self.logger.critical('Firmware upload failed. Please try a correct firmware image or restart in normal mode.')
return
self.logger.info('Rebooting NCP...')
# Wait for restart
time.sleep(4)
# Send Reboot into App-Code command
self.serialInterface.serial.write(b'2')
self.serialInterface.close()
time.sleep(2)
self.probe()
def ele_update(self, new_version):
adapter_status, adapter_name = self.probe()
if adapter_status == AdapterModeProbeStatus.ZIGBEE or adapter_status == AdapterModeProbeStatus.THREAD:
if adapter_name == None:
self.logger.critical("No Elelabs product detected.\r\nUse 'flash' utility for generic EZSP products.\r\nContact [email protected] if you see this message for original Elelabs product")
return
if adapter_name == "ELR023" or adapter_name == "ELU013":
if new_version == 'thread':
self.flash("data/EFR32MG13/ELE_MG13_ot_rcp_123_220206.gbl")
elif new_version == 'zigbee':
self.flash("data/EFR32MG13/ELE_MG13_zb_ncp_115200_610_211112.gbl")
else:
self.logger.critical("Unknown protocol version " + new_version)
elif adapter_name == "ELR022" or adapter_name == "ELU012":
self.logger.critical("TODO!. Contact Elelabs at [email protected]")
elif adapter_name == "EZBPIS" or adapter_name == "EZBUSBA":
self.logger.critical("TODO!. Contact Elelabs at [email protected]")
elif adapter_name == "ELU0143":
if new_version == 'thread':
self.flash("data/EFR32MG21/ELU0143_MG21_ot_rcp_123_220131.gbl")
elif new_version == 'zigbee':
self.flash("data/EFR32MG21/ELU0143_MG21_zb_ncp_6103_220131.gbl")
else:
self.logger.critical("Unknown protocol version " + new_version)
elif adapter_name == "ELU0141" or adapter_name == "ELU0142":
if new_version == 'thread':
self.flash("data/EFR32MG21/ELU0141_MG21_ot_rcp_123_211204.gbl")
elif new_version == 'zigbee':
self.flash("data/EFR32MG21/ELU0141_MG21_zb_ncp_6103_211204.gbl")
else:
self.logger.critical("Unknown protocol version " + new_version)
else:
self.logger.critical("Unknown Elelabs product %s detected.\r\nContact [email protected] if you see this message for original Elelabs product" % adapter_name)
elif adapter_status == AdapterModeProbeStatus.BOOTLOADER:
self.logger.critical("The product not in the normal EZSP mode.\r\n'restart' into normal mode or use 'flash' utility instead")
else:
self.logger.critical("No upgradable device found")
args = parser.parse_args()
main_app_loger = logging.getLogger("Elelabs_EzspFwUtility")
if args.dlevel == 'INFO':
main_app_loger.setLevel(logging.INFO)
else:
main_app_loger.setLevel(logging.DEBUG)
formatter = logging.Formatter("%(asctime)s %(name)s: %(message)s", datefmt="%Y/%m/%d %H:%M:%S")
streamHandler = logging.StreamHandler()
streamHandler.setFormatter(formatter)
main_app_loger.addHandler(streamHandler)
elelabs = ElelabsUtilities(args, main_app_loger)
if args.which == 'restart':
elelabs.restart(args.mode)
if args.which == 'probe':
elelabs.probe()
if args.which == 'ele_update':
elelabs.ele_update(args.version)
if args.which == 'flash':
elelabs.flash(args.file)