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TLSR825xComFlasher.py
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TLSR825xComFlasher.py
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#!/usr/bin/env python
### ComSwireWriter.py ###
### Autor: pvvx ###
### Edited: Aaron Christophel ATCnetz.de ###
### Edit : Pila ###
import sys
import signal
import struct
import serial
import platform
import time
import argparse
import os
import io
import serial.tools.list_ports
__progname__ = 'TLSR825x Flasher'
__version__ = "00.00.04"
COMPORT_MIN_BAUD_RATE=340000
COMPORT_DEF_BAUD_RATE=921600
USBCOMPORT_BAD_BAUD_RATE=460800
FLASH_SECTOR_SIZE = 4096
debug = False
bit8mask = 0x20
class FatalError(RuntimeError):
def __init__(self, message):
RuntimeError.__init__(self, message)
@staticmethod
def WithResult(message, result):
message += " (result was %s)" % hexify(result)
return FatalError(message)
def signal_handler(signal, frame):
print()
print('Keyboard Break!')
sys.exit(0)
def arg_auto_int(x):
return int(x, 0)
def hex_dump(addr, blk):
print('%06x: ' % addr, end='')
for i in range(len(blk)):
if (i+1) % 16 == 0:
print('%02x ' % blk[i])
if i < len(blk) - 1:
print('%06x: ' % (addr + i + 1), end='')
else:
print('%02x ' % blk[i], end='')
if len(blk) % 16 != 0:
print('')
# encode data (blk) into 10-bit swire words
def sws_encode_blk(blk):
pkt=[]
d = bytearray(10) # word swire 10 bits
d[0] = 0x80 # start bit byte cmd swire = 1
for el in blk:
m = 0x80 # mask bit
idx = 1
while m != 0:
if (el & m) != 0:
d[idx] = 0x80
else:
d[idx] = 0xfe
idx += 1
m >>= 1
d[9] = 0xfe # stop bit swire = 0
pkt += d
d[0] = 0xfe # start bit next byte swire = 0
return pkt
# decode 9 bit swire response to byte (blk)
def sws_decode_blk(blk):
if (len(blk) == 9) and ((blk[8] & 0xfe) == 0xfe):
bitmask = bit8mask
data = 0;
for el in range(8):
data <<= 1
if (blk[el] & bitmask) == 0:
data |= 1
bitmask = 0x10
#print('0x%02x' % data)
return data
#print('Error blk:', blk)
return None
# encode a part of the read-by-address command (before the data read start bit) into 10-bit swire words
def sws_rd_addr(addr):
return sws_encode_blk(bytearray([0x5a, (addr>>16)&0xff, (addr>>8)&0xff, addr & 0xff, 0x80]))
# encode command stop into 10-bit swire words
def sws_code_end():
return sws_encode_blk([0xff])
# encode the command for writing data into 10-bit swire words
def sws_wr_addr(addr, data):
return sws_encode_blk(bytearray([0x5a, (addr>>16)&0xff, (addr>>8)&0xff, addr & 0xff, 0x00]) + bytearray(data)) + sws_encode_blk([0xff])
# send block to USB-COM
def wr_usbcom_blk(serialPort, blk):
# USB-COM chips throttle the stream into blocks at high speed!
# Swire is transmitted by 10 bytes of UART.
# The packet must be a multiple of these 10 bytes.
# Max block USB2.0 64 bytes -> the packet will be 60 bytes.
if serialPort.baudrate > USBCOMPORT_BAD_BAUD_RATE:
i = 0
s = 60
l = len(blk)
while i < l:
if l - i < s:
s = l - i
i += serialPort.write(blk[i:i+s])
serialPort.flush()
return i
return serialPort.write(blk)
# send and receive block to USB-COM
def rd_wr_usbcom_blk(serialPort, blk):
i = wr_usbcom_blk(serialPort, blk)
return i == len(serialPort.read(i))
# send swire command write to USB-COM
def sws_wr_addr_usbcom(serialPort, addr, data):
return wr_usbcom_blk(serialPort, sws_wr_addr(addr, data))
# send and receive swire command write to USB-COM
def rd_sws_wr_addr_usbcom(serialPort, addr, data):
i = wr_usbcom_blk(serialPort, sws_wr_addr(addr, data))
return i == len(serialPort.read(i))
# send swire data in fifo mode
def rd_sws_fifo_wr_usbcom(serialPort, addr, data):
rd_sws_wr_addr_usbcom(serialPort, 0x00b3, bytearray([0x80])) # [0xb3]=0x80 ext.SWS into fifo mode
rd_sws_wr_addr_usbcom(serialPort, addr, data) # send all data to one register (no increment address - fifo mode)
rd_sws_wr_addr_usbcom(serialPort, 0x00b3, bytearray([0x00])) # [0xb3]=0x00 ext.SWS into normal(ram) mode
# send and receive swire command read to USB-COM
def sws_read_data(serialPort, addr, size = 1):
time.sleep(0.05)
serialPort.reset_input_buffer()
# send addr and flag read
rd_wr_usbcom_blk(serialPort, sws_rd_addr(addr))
out = []
# read size bytes
for i in range(size):
# send bit start read byte
serialPort.write([0xfe])
# read 9 bits swire, decode read byte
blk = serialPort.read(9)
# Added retry reading for Prolific PL-2303HX and ...
if len(blk) < 9:
blk += serialPort.read(10-len(blk))
x = sws_decode_blk(blk)
if x != None:
out += [x]
else:
if debug:
print('\r\nDebug: read swire byte:')
hex_dump(addr+i, blk)
# send stop read
rd_wr_usbcom_blk(serialPort, sws_code_end())
out = None
break
# send stop read
rd_wr_usbcom_blk(serialPort, sws_code_end())
return out
# set sws speed according to clk frequency and serialPort baud
def set_sws_speed(serialPort, clk):
#--------------------------------
# Set register[0x00b2]
print('SWire speed for CLK %.1f MHz... ' % (clk/1000000), end='')
swsdiv = int(round(clk*2/serialPort.baudrate))
if swsdiv > 0x7f:
print('Low UART baud rate!')
return False
byteSent = sws_wr_addr_usbcom(serialPort, 0x00b2, [swsdiv])
# print('Test SWM/SWS %d/%d baud...' % (int(serialPort.baudrate/5),int(clk/5/swsbaud)))
read = serialPort.read(byteSent)
if len(read) != byteSent:
if serialPort.baudrate > USBCOMPORT_BAD_BAUD_RATE and byteSent > 64 and len(read) >= 64 and len(read) < byteSent:
print('\n\r!!!!!!!!!!!!!!!!!!!BAD USB-UART Chip!!!!!!!!!!!!!!!!!!!')
print('UART Output:')
hex_dump(0,sws_wr_addr(0x00b2, [swsdiv]))
print('UART Input:')
hex_dump(0,read)
print('!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!')
return False
print('\n\rError: Wrong RX-TX connection!')
return False
#--------------------------------
# Test read register[0x00b2]
x = sws_read_data(serialPort, 0x00b2)
#print(x)
if x != None and x[0] == swsdiv:
print('ok.')
if debug:
print('Debug: UART-SWS %d baud. SW-CLK ~%.1f MHz' % (int(serialPort.baudrate/10), serialPort.baudrate*swsdiv/2000000))
print('Debug: swdiv = 0x%02x' % (swsdiv))
return True
#--------------------------------
# Set default register[0x00b2]
rd_sws_wr_addr_usbcom(serialPort, 0x00b2, 0x05)
print('no')
return False
# auto set sws speed according to serialport baud
def set_sws_auto_speed(serialPort):
#---------------------------------------------------
# swsbaud = Fclk/5/register[0x00b2]
# register[0x00b2] = Fclk/5/swsbaud
# swsbaud = serialPort.baudrate/10
# register[0x00b2] = Fclk*2/serialPort.baudrate
# Fclk = 16000000..48000000 Hz
# serialPort.baudrate = 460800..3000000 bits/s
# register[0x00b2] = swsdiv = 10..208
#---------------------------------------------------
#serialPort.timeout = 0.01 # A serialPort.timeout must be set !
if debug:
swsdiv_def = int(round(24000000*2/serialPort.baudrate))
print('Debug: default swdiv for 24 MHz = %d (0x%02x)' % (swsdiv_def, swsdiv_def))
swsdiv = int(round(16000000*2/serialPort.baudrate))
if swsdiv > 0x7f:
print('Low UART baud rate!')
return False
swsdiv_max = int(round(48000000*2/serialPort.baudrate))
#bit8m = (bit8mask + (bit8mask<<1) + (bit8mask<<2))&0xff
bit8m = ((~(bit8mask-1))<<1)&0xff
while swsdiv <= swsdiv_max:
# register[0x00b2] = swsdiv
rd_sws_wr_addr_usbcom(serialPort, 0x00b2, bytearray([swsdiv]))
# send addr and flag read
rd_wr_usbcom_blk(serialPort, sws_rd_addr(0x00b2))
# start read data
serialPort.write([0xfe])
# read 9 bits data
blk = serialPort.read(9)
# Added retry reading for Prolific PL-2303HX and ...
if len(blk) < 9:
blk += serialPort.read(9-len(blk))
# send stop read
rd_wr_usbcom_blk(serialPort, sws_code_end())
if debug:
print('Debug (read data):')
hex_dump(swsdiv, blk)
if len(blk) == 9 and blk[8] == 0xfe:
cmp = sws_encode_blk([swsdiv])
if debug:
print('Debug (check data):')
hex_dump(swsdiv+0xccc00, sws_encode_blk([swsdiv]))
print('bit mask: 0x%02x' % (bit8m))
if (blk[0]&bit8m) == bit8m and blk[1] == cmp[2] and blk[2] == cmp[3] and blk[4] == cmp[5] and blk[6] == cmp[7] and blk[7] == cmp[8]:
'''
swsdiv += 1
rd_sws_wr_addr_usbcom(serialPort, 0x00b2, bytearray([swsdiv]))
data = sws_read_data(serialPort, 0x00b2, 1)
if data == None or data[0] != swsdiv:
swsdiv -= 1
if debug:
print('swsdiv:', swsdiv)
break
rd_sws_wr_addr_usbcom(serialPort, 0x00b2, bytearray([swsdiv]))
'''
print('UART-SWS %d baud. SW-CLK ~%.1f MHz(?)' % (int(serialPort.baudrate/10), serialPort.baudrate*swsdiv/2000000))
return True
swsdiv += 1
if swsdiv > 0x7f:
print('Low UART baud rate!')
break
#--------------------------------
# Set default register[0x00b2]
rd_sws_wr_addr_usbcom(serialPort, 0x00b2, bytearray([0x05]))
return False
def activate(serialPort, tact_ms):
#--------------------------------
# issue reset-to-bootloader:
# RTS = either RESET (active low = chip in reset)
# DTR = active low
print('Reset module (RTS low)...')
serialPort.setDTR(True)
serialPort.setRTS(True)
time.sleep(0.05)
serialPort.setDTR(False)
serialPort.setRTS(False)
#--------------------------------
# Stop CPU|: [0x0602]=5
print('Activate (%d ms)...' % tact_ms)
sws_wr_addr_usbcom(serialPort, 0x06f, bytearray([0x20])) # soft reset mcu
blk = sws_wr_addr(0x0602, bytearray([0x05]))
if tact_ms > 0:
tact = tact_ms/1000.0
t1 = time.time()
while time.time()-t1 < tact:
for i in range(5):
wr_usbcom_blk(serialPort, blk)
serialPort.reset_input_buffer()
#--------------------------------
# Duplication with syncronization
time.sleep(0.01)
serialPort.reset_input_buffer()
rd_wr_usbcom_blk(serialPort, sws_code_end())
rd_wr_usbcom_blk(serialPort, blk)
time.sleep(0.01)
serialPort.reset_input_buffer()
def FlashReadBlock(serialPort, stream, offset = 0, size = 0x80000):
offset &= 0x00ffffff
rdsize = 0x100
while size > 0:
if rdsize > size:
rdsize = size
print('\rRead from 0x%06x...' % offset, end = '')
rd_sws_wr_addr_usbcom(serialPort, 0x0b3, bytearray([0x80])) # [0xb3]=0x80 ext.SWS into fifo mode
rd_sws_wr_addr_usbcom(serialPort, 0x0d, bytearray([0x00])) # SPI set cns low
# send all data to one register (not increment address - fifo mode), cmd flash rd, addr, + launch first read
rd_sws_wr_addr_usbcom(serialPort, 0x0c, bytearray([0x03, (offset >> 16) & 0xffff, (offset >> 8) & 0xff, offset & 0xff, 0]))
rd_sws_wr_addr_usbcom(serialPort, 0x0d, bytearray([0x0A])) # [0x0d]=0x0a SPI set auto read mode & cns low
# read all data from one register (not increment address - fifo mode)
data = sws_read_data(serialPort, 0x0c, rdsize)
rd_sws_wr_addr_usbcom(serialPort, 0x0d, bytearray([0x01])) # SPI set cns high
rd_sws_wr_addr_usbcom(serialPort, 0x0b3, bytearray([0x00])) # [0xb3]=0x00 ext.SWS into normal(ram) mode
if data == None or len(data) != rdsize:
print('\rError Read Flash data at 0x%06x! ' % offset)
return False
stream.write(bytearray(data))
size -= rdsize
offset += rdsize
print('\r \r', end = '')
return True
def FlashReady(serialPort, count = 33):
for _ in range(count):
rd_sws_wr_addr_usbcom(serialPort, 0x0d, bytearray([0x00])) # SPI set cns low
rd_sws_wr_addr_usbcom(serialPort, 0x0c, bytearray([0x05])) # Flash cmd rd status
data = sws_read_data(serialPort, 0x0c)
rd_sws_wr_addr_usbcom(serialPort, 0x0d, bytearray([0x01])) # SPI set cns high
if data == None:
print('\rError Read Flash Status! (%d) ' %(_))
return False
if (data[0] & 0x01) == 0:
return True
print('\rTimeout! Flash status 0x%02x! ' % data[0])
return False
def FlashWriteEnable(serialPort):
rd_sws_wr_addr_usbcom(serialPort, 0x0d, bytearray([0x00])) # cns low
rd_sws_wr_addr_usbcom(serialPort, 0x0c, bytearray([0x06])) # Flash cmd write enable
rd_sws_wr_addr_usbcom(serialPort, 0x0d, bytearray([0x01])) # cns high
def FlashWriteAddr(serialPort, addr, data):
FlashWriteEnable(serialPort)
rd_sws_wr_addr_usbcom(serialPort, 0x0d, bytearray([0x00])) # cns low
# Flash cmd write + addr + data
rd_sws_fifo_wr_usbcom(serialPort, 0x0c, bytearray([0x02, (addr >> 16) & 0xffff, (addr >> 8) & 0xff, addr & 0xff]) + bytearray(data))
rd_sws_wr_addr_usbcom(serialPort, 0x0d, bytearray([0x01])) # cns high
return FlashReady(serialPort)
def FlashEraseAll(serialPort):
FlashWriteEnable(serialPort)
rd_sws_wr_addr_usbcom(serialPort, 0x0d, bytearray([0x00])) # cns low
rd_sws_fifo_wr_usbcom(serialPort, 0x0c, bytearray([0x60])) # Flash cmd erase all
rd_sws_wr_addr_usbcom(serialPort, 0x0d, bytearray([0x01])) # cns high
return FlashReady(serialPort, 1000)
def FlashEraseSectors(serialPort, offset = 0, size = 1):
offset &= ~(FLASH_SECTOR_SIZE-1)
size = (size + FLASH_SECTOR_SIZE-1) & (~(FLASH_SECTOR_SIZE-1))
while size > 0:
print('\rErase Sector at 0x%06x...' % offset, end = '')
FlashWriteEnable(serialPort)
rd_sws_wr_addr_usbcom(serialPort, 0x0d, bytearray([0x00])) # cns low
rd_sws_wr_addr_usbcom(serialPort, 0x0c, bytearray([0x20])) # Flash cmd erase sector
rd_sws_wr_addr_usbcom(serialPort, 0x0c, bytearray([(offset >> 16) & 0xffff])) # Faddr hi
rd_sws_wr_addr_usbcom(serialPort, 0x0c, bytearray([(offset >> 8) & 0xff])) # Faddr mi
rd_sws_wr_addr_usbcom(serialPort, 0x0c, bytearray([offset & 0xff])) # Faddr lo
rd_sws_wr_addr_usbcom(serialPort, 0x0d, bytearray([0x01])) # cns high
offset += FLASH_SECTOR_SIZE
size -= FLASH_SECTOR_SIZE
if not FlashReady(serialPort):
return False
print('\r \r', end = '')
return True
def FlashWriteBlock(serialPort, stream, offset = 0, size = 0, erase = True):
wrsize = 0x100
if erase and (offset & (FLASH_SECTOR_SIZE-1)) != 0:
erasec = offset & (0xffffff^(FLASH_SECTOR_SIZE-1))
else:
erasec = 0xffffffff # = flag
fa = 0
while size > 0:
offset &= 0xffffff
if erase:
wrsec = offset & (0xffffff^(FLASH_SECTOR_SIZE-1))
if erasec != wrsec:
# send sector erase command + faddr
if not FlashEraseSectors(serialPort, offset):
print('\rError Erase sector at 0x%06x!' % offset)
return False
erasec = wrsec
data = stream.read(wrsize)
wrsize = len(data)
if not data or wrsize == 0: # end of stream
print('\rError Read file at 0x%06x! ' % (fa+wrsize))
return False
for e in data:
if e != 0xff:
print('\rWrite to 0x%06x...' % offset, end = '')
if not FlashWriteAddr(serialPort, offset, data):
print('\rError write sector at 0x%06x!' % offset)
return False
break
offset += wrsize
size -= wrsize
fa + wrsize
print('\r \r', end = '')
return True
def main():
signal.signal(signal.SIGINT, signal_handler)
t1 = time.time()
#ports = serial.tools.list_ports.comports() #(win10) execution time more than 30 sec!
#comport_def_name = ports[0].device
comport_def_name='COM1'
if sys.platform == 'linux' or sys.platform == 'linux2':
comport_def_name = '/dev/ttyS0'
elif sys.platform == 'win32':
comport_def_name='COM1'
#elif sys.platform == "darwin":
#else:
# print(sys.platform)
parser = argparse.ArgumentParser(description='%s version %s' % (__progname__, __version__))
parser.add_argument(
'-p', '--port',
help='Serial port device (default: '+comport_def_name+')',
default=comport_def_name)
parser.add_argument(
'-t', '--tact',
help='Time Activation ms (0-off, default: 0 ms)',
type=arg_auto_int,
default=0)
parser.add_argument(
'-c', '--clk',
help='SWire CLK (default: auto, 0 - auto)',
type=arg_auto_int,
default=0)
parser.add_argument(
'-b', '--baud',
help='UART Baud Rate (default: '+str(COMPORT_DEF_BAUD_RATE)+', min: '+str(COMPORT_MIN_BAUD_RATE)+')',
type=arg_auto_int,
default=COMPORT_DEF_BAUD_RATE)
parser.add_argument(
'-r', '--run',
help='CPU Run (post main processing)',
action='store_true')
parser.add_argument(
'-d', '--debug',
help='Debug info',
action='store_true')
subparsers = parser.add_subparsers(
dest='operation',
help=os.path.splitext(os.path.basename(__file__))[0]+' {command} -h for additional help')
parser_read_flash = subparsers.add_parser(
'rf',
help='Read Flash to binary file')
parser_read_flash.add_argument('address', help='Start address', type=arg_auto_int)
parser_read_flash.add_argument('size', help='Size of region', type=arg_auto_int)
parser_read_flash.add_argument('filename', help='Name of binary file')
parser_burn_flash = subparsers.add_parser(
'wf',
help='Write file to Flash with sectors erases')
parser_burn_flash.add_argument('address', help='Start address', type=arg_auto_int)
parser_burn_flash.add_argument('filename', help='Name of binary file')
parser_erase_sec_flash = subparsers.add_parser(
'es',
help='Erase Region (sectors) of Flash')
parser_erase_sec_flash.add_argument('address', help='Start address', type=arg_auto_int)
parser_erase_sec_flash.add_argument('size', help='Size of region', type=arg_auto_int)
parser_erase_all_flash = subparsers.add_parser(
'ea',
help='Erase All Flash')
args = parser.parse_args()
print('=======================================================')
print('%s version %s' % (__progname__, __version__))
print('-------------------------------------------------------')
global debug
debug = args.debug
if(args.baud < COMPORT_MIN_BAUD_RATE):
print ('The minimum speed of the COM port is %d baud!' % COMPORT_MIN_BAUD_RATE)
sys.exit(1)
print ('Open %s, %d baud...' % (args.port, args.baud))
try:
serialPort = serial.Serial(args.port,args.baud)
serialPort.reset_input_buffer()
serialPort.timeout = 0.01
except:
print ('Error: Open %s, %d baud!' % (args.port, args.baud))
sys.exit(1)
if args.tact != 0:
# activate
activate(serialPort, args.tact)
if args.clk == 0:
# auto speed
if not set_sws_auto_speed(serialPort):
print('Chip sleep? -> Use reset chip (RTS-RST): see option --tact')
sys.exit(1)
else:
# Set SWS Speed = CLK/5/[0xb2] bits/s
if not set_sws_speed(serialPort, args.clk * 1000000):
if not set_sws_speed(serialPort, 16000000):
if not set_sws_speed(serialPort, 24000000):
if not set_sws_speed(serialPort, 32000000):
if not set_sws_speed(serialPort, 48000000):
print('Chip sleep? -> Use reset chip (RTS-RST): see option --tact')
sys.exit(1)
#serialPort.timeout = 0.01 # SerialPort.timeout must be set for the following operations!
if args.operation == 'rf':
offset = args.address & 0x00ffffff
size = args.size & 0x00ffffff
if size == 0:
print('\rError: Read size = %d!' % size)
sys.exit(1)
print('Outfile: %s' % args.filename)
try:
stream = open(args.filename, 'wb')
except:
print('Error: Not open Outfile file <%s>!' % args.filename)
sys.exit(1)
print('Read Flash from 0x%06x to 0x%06x...' % (offset, offset + size))
if not FlashReadBlock(serialPort, stream, offset, size):
sys.exit(1)
elif args.operation == 'wf':
offset = args.address & 0x00ffffff
print('Inputfile: %s' % (args.filename))
try:
stream = open(args.filename, 'rb')
size = os.path.getsize(args.filename)
except:
print('Error: Not open input file <%s>!' % args.fldr)
sys.exit(1)
if size < 1:
print('Error: File size = %d!'% size)
else:
print('Write Flash data 0x%08x to 0x%08x...' % (offset, offset + size))
if not FlashWriteBlock(serialPort, stream, offset, size):
sys.exit(1)
elif args.operation == 'es':
count = int((args.size + FLASH_SECTOR_SIZE - 1) / FLASH_SECTOR_SIZE)
size = (count * FLASH_SECTOR_SIZE)
offset = args.address & (0xffffff^(FLASH_SECTOR_SIZE-1))
print('Erase Flash %d sectors,\r\ndata from 0x%06x to 0x%06x...' % (count, offset, offset + size))
if not FlashEraseSectors(serialPort, offset, size):
sys.exit(1)
elif args.operation == 'ea':
print('Erase All Flash ...')
if not FlashEraseAll(serialPort):
print('Error Erase All Flash!')
sys.exit(1)
else:
pc = sws_read_data(serialPort, 0x06bc, 4)
if pc == None or len(pc) != 4:
print('Error read PC!')
sys.exit(1)
x = pc[0] + (pc[1]<<8) + (pc[2]<<16) + (pc[3]<<24)
print('PC = 0x%06x' % (x))
if args.run != 0:
print('Reset CPU...')
sws_wr_addr_usbcom(serialPort, 0x006f, bytearray([0x22])) # Reset CPU
print('-------------------------------------------------------')
# Second time slice
t2 = time.time()
print("Worked Time: %.3f sec" % (t2-t1))
print('Done!')
#--------------------------------
# Set default register[0x00b2]
# sws_wr_addr_usbcom(serialPort, 0x00b2, bytearray([5]))
sys.exit(0)
if __name__ == '__main__':
main()