tools/uf2conv.py - lite/micropython - Linaro Git Browser

 #!/usr/bin/env python3

 # Microsoft UF2
 #
 # The MIT License (MIT)
 #
 # Copyright (c) Microsoft Corporation
 #
 # All rights reserved.
 #
 # Permission is hereby granted, free of charge, to any person obtaining a copy
 # of this software and associated documentation files (the "Software"), to deal
 # in the Software without restriction, including without limitation the rights
 # to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
 # copies of the Software, and to permit persons to whom the Software is
 # furnished to do so, subject to the following conditions:
 #
 # The above copyright notice and this permission notice shall be included in all
 # copies or substantial portions of the Software.
 #
 # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 # IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 # FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
 # AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 # LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
 # OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
 # SOFTWARE.

 import sys
 import struct
 import subprocess
 import re
 import os
 import os.path
 import argparse


 UF2_MAGIC_START0 = 0x0A324655  # "UF2\n"
 UF2_MAGIC_START1 = 0x9E5D5157  # Randomly selected
 UF2_MAGIC_END = 0x0AB16F30  # Ditto

 families = {
     "SAMD21": 0x68ED2B88,
     "SAMD51": 0x55114460,
     "NRF52": 0x1B57745F,
     "STM32F1": 0x5EE21072,
     "STM32F4": 0x57755A57,
     "ATMEGA32": 0x16573617,
 }

 INFO_FILE = "/INFO_UF2.TXT"

 appstartaddr = 0x2000
 familyid = 0x0


 def is_uf2(buf):
     w = struct.unpack("<II", buf[0:8])
     return w[0] == UF2_MAGIC_START0 and w[1] == UF2_MAGIC_START1


 def is_hex(buf):
     try:
         w = buf[0:30].decode("utf-8")
     except UnicodeDecodeError:
         return False
     if w[0] == ":" and re.match(b"^[:0-9a-fA-F\r\n]+$", buf):
         return True
     return False


 def convert_from_uf2(buf):
     global appstartaddr
     numblocks = len(buf) // 512
     curraddr = None
     outp = b""
     for blockno in range(numblocks):
         ptr = blockno * 512
         block = buf[ptr : ptr + 512]
         hd = struct.unpack(b"<IIIIIIII", block[0:32])
         if hd[0] != UF2_MAGIC_START0 or hd[1] != UF2_MAGIC_START1:
             print("Skipping block at " + ptr + "; bad magic")
             continue
         if hd[2] & 1:
             # NO-flash flag set; skip block
             continue
         datalen = hd[4]
         if datalen > 476:
             assert False, "Invalid UF2 data size at " + ptr
         newaddr = hd[3]
         if curraddr == None:
             appstartaddr = newaddr
             curraddr = newaddr
         padding = newaddr - curraddr
         if padding < 0:
             assert False, "Block out of order at " + ptr
         if padding > 10 * 1024 * 1024:
             assert False, "More than 10M of padding needed at " + ptr
         if padding % 4 != 0:
             assert False, "Non-word padding size at " + ptr
         while padding > 0:
             padding -= 4
             outp += b"\x00\x00\x00\x00"
         outp += block[32 : 32 + datalen]
         curraddr = newaddr + datalen
     return outp


 def convert_to_carray(file_content):
     outp = "const unsigned char bindata[] __attribute__((aligned(16))) = {"
     for i in range(len(file_content)):
         if i % 16 == 0:
             outp += "\n"
         outp += "0x%02x, " % ord(file_content[i])
     outp += "\n};\n"
     return outp


 def convert_to_uf2(file_content):
     global familyid
     datapadding = b""
     while len(datapadding) < 512 - 256 - 32 - 4:
         datapadding += b"\x00\x00\x00\x00"
     numblocks = (len(file_content) + 255) // 256
     outp = b""
     for blockno in range(numblocks):
         ptr = 256 * blockno
         chunk = file_content[ptr : ptr + 256]
         flags = 0x0
         if familyid:
             flags |= 0x2000
         hd = struct.pack(
             b"<IIIIIIII",
             UF2_MAGIC_START0,
             UF2_MAGIC_START1,
             flags,
             ptr + appstartaddr,
             256,
             blockno,
             numblocks,
             familyid,
         )
         while len(chunk) < 256:
             chunk += b"\x00"
         block = hd + chunk + datapadding + struct.pack(b"<I", UF2_MAGIC_END)
         assert len(block) == 512
         outp += block
     return outp


 class Block:
     def __init__(self, addr):
         self.addr = addr
         self.bytes = bytearray(256)

     def encode(self, blockno, numblocks):
         global familyid
         flags = 0x0
         if familyid:
             flags |= 0x2000
         hd = struct.pack(
             "<IIIIIIII",
             UF2_MAGIC_START0,
             UF2_MAGIC_START1,
             flags,
             self.addr,
             256,
             blockno,
             numblocks,
             familyid,
         )
         hd += self.bytes[0:256]
         while len(hd) < 512 - 4:
             hd += b"\x00"
         hd += struct.pack("<I", UF2_MAGIC_END)
         return hd


 def convert_from_hex_to_uf2(buf):
     global appstartaddr
     appstartaddr = None
     upper = 0
     currblock = None
     blocks = []
     for line in buf.split("\n"):
         if line[0] != ":":
             continue
         i = 1
         rec = []
         while i < len(line) - 1:
             rec.append(int(line[i : i + 2], 16))
             i += 2
         tp = rec[3]
         if tp == 4:
             upper = ((rec[4] << 8) | rec[5]) << 16
         elif tp == 2:
             upper = ((rec[4] << 8) | rec[5]) << 4
             assert (upper & 0xFFFF) == 0
         elif tp == 1:
             break
         elif tp == 0:
             addr = upper | (rec[1] << 8) | rec[2]
             if appstartaddr == None:
                 appstartaddr = addr
             i = 4
             while i < len(rec) - 1:
                 if not currblock or currblock.addr & ~0xFF != addr & ~0xFF:
                     currblock = Block(addr & ~0xFF)
                     blocks.append(currblock)
                 currblock.bytes[addr & 0xFF] = rec[i]
                 addr += 1
                 i += 1
     numblocks = len(blocks)
     resfile = b""
     for i in range(0, numblocks):
         resfile += blocks[i].encode(i, numblocks)
     return resfile


 def get_drives():
     drives = []
     if sys.platform == "win32":
         r = subprocess.check_output(
             [
                 "wmic",
                 "PATH",
                 "Win32_LogicalDisk",
                 "get",
                 "DeviceID,",
                 "VolumeName,",
                 "FileSystem,",
                 "DriveType",
             ]
         )
         for line in r.split("\n"):
             words = re.split("\s+", line)
             if len(words) >= 3 and words[1] == "2" and words[2] == "FAT":
                 drives.append(words[0])
     else:
         rootpath = "/media"
         if sys.platform == "darwin":
             rootpath = "/Volumes"
         elif sys.platform == "linux":
             tmp = rootpath + "/" + os.environ["USER"]
             if os.path.isdir(tmp):
                 rootpath = tmp
         for d in os.listdir(rootpath):
             drives.append(os.path.join(rootpath, d))

     def has_info(d):
         try:
             return os.path.isfile(d + INFO_FILE)
         except:
             return False

     return list(filter(has_info, drives))


 def board_id(path):
     with open(path + INFO_FILE, mode="r") as file:
         file_content = file.read()
     return re.search("Board-ID: ([^\r\n]*)", file_content).group(1)


 def list_drives():
     for d in get_drives():
         print(d, board_id(d))


 def write_file(name, buf):
     with open(name, "wb") as f:
         f.write(buf)
     print("Wrote %d bytes to %s." % (len(buf), name))


 def main():
     global appstartaddr, familyid

     def error(msg):
         print(msg)
         sys.exit(1)

     parser = argparse.ArgumentParser(description="Convert to UF2 or flash directly.")
     parser.add_argument(
         "input", metavar="INPUT", type=str, nargs="?", help="input file (HEX, BIN or UF2)"
     )
     parser.add_argument(
         "-b",
         "--base",
         dest="base",
         type=str,
         default="0x2000",
         help="set base address of application for BIN format (default: 0x2000)",
     )
     parser.add_argument(
         "-o",
         "--output",
         metavar="FILE",
         dest="output",
         type=str,
         help='write output to named file; defaults to "flash.uf2" or "flash.bin" where sensible',
     )
     parser.add_argument("-d", "--device", dest="device_path", help="select a device path to flash")
     parser.add_argument("-l", "--list", action="store_true", help="list connected devices")
     parser.add_argument("-c", "--convert", action="store_true", help="do not flash, just convert")
     parser.add_argument(
         "-f",
         "--family",
         dest="family",
         type=str,
         default="0x0",
         help="specify familyID - number or name (default: 0x0)",
     )
     parser.add_argument(
         "-C", "--carray", action="store_true", help="convert binary file to a C array, not UF2"
     )
     args = parser.parse_args()
     appstartaddr = int(args.base, 0)

     if args.family.upper() in families:
         familyid = families[args.family.upper()]
     else:
         try:
             familyid = int(args.family, 0)
         except ValueError:
             error("Family ID needs to be a number or one of: " + ", ".join(families.keys()))

     if args.list:
         list_drives()
     else:
         if not args.input:
             error("Need input file")
         with open(args.input, mode="rb") as f:
             inpbuf = f.read()
         from_uf2 = is_uf2(inpbuf)
         ext = "uf2"
         if from_uf2:
             outbuf = convert_from_uf2(inpbuf)
             ext = "bin"
         elif is_hex(inpbuf):
             outbuf = convert_from_hex_to_uf2(inpbuf.decode("utf-8"))
         elif args.carray:
             outbuf = convert_to_carray(inpbuf)
             ext = "h"
         else:
             outbuf = convert_to_uf2(inpbuf)
         print(
             "Converting to %s, output size: %d, start address: 0x%x"
             % (ext, len(outbuf), appstartaddr)
         )
         if args.convert:
             drives = []
             if args.output == None:
                 args.output = "flash." + ext
         else:
             drives = get_drives()

         if args.output:
             write_file(args.output, outbuf)
         else:
             if len(drives) == 0:
                 error("No drive to deploy.")
         for d in drives:
             print("Flashing %s (%s)" % (d, board_id(d)))
             write_file(d + "/NEW.UF2", outbuf)


 if __name__ == "__main__":
     main()
	#!/usr/bin/env python3

	# Microsoft UF2
	#
	# The MIT License (MIT)
	#
	# Copyright (c) Microsoft Corporation
	#
	# All rights reserved.
	#
	# Permission is hereby granted, free of charge, to any person obtaining a copy
	# of this software and associated documentation files (the "Software"), to deal
	# in the Software without restriction, including without limitation the rights
	# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
	# copies of the Software, and to permit persons to whom the Software is
	# furnished to do so, subject to the following conditions:
	#
	# The above copyright notice and this permission notice shall be included in all
	# copies or substantial portions of the Software.
	#
	# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
	# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
	# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
	# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
	# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
	# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
	# SOFTWARE.

	import sys
	import struct
	import subprocess
	import re
	import os
	import os.path
	import argparse


	UF2_MAGIC_START0 = 0x0A324655 # "UF2\n"
	UF2_MAGIC_START1 = 0x9E5D5157 # Randomly selected
	UF2_MAGIC_END = 0x0AB16F30 # Ditto

	families = {
	"SAMD21": 0x68ED2B88,
	"SAMD51": 0x55114460,
	"NRF52": 0x1B57745F,
	"STM32F1": 0x5EE21072,
	"STM32F4": 0x57755A57,
	"ATMEGA32": 0x16573617,
	}

	INFO_FILE = "/INFO_UF2.TXT"

	appstartaddr = 0x2000
	familyid = 0x0


	def is_uf2(buf):
	w = struct.unpack("<II", buf[0:8])
	return w[0] == UF2_MAGIC_START0 and w[1] == UF2_MAGIC_START1


	def is_hex(buf):
	try:
	w = buf[0:30].decode("utf-8")
	except UnicodeDecodeError:
	return False
	if w[0] == ":" and re.match(b"^[:0-9a-fA-F\r\n]+$", buf):
	return True
	return False


	def convert_from_uf2(buf):
	global appstartaddr
	numblocks = len(buf) // 512
	curraddr = None
	outp = b""
	for blockno in range(numblocks):
	ptr = blockno * 512
	block = buf[ptr : ptr + 512]
	hd = struct.unpack(b"<IIIIIIII", block[0:32])
	if hd[0] != UF2_MAGIC_START0 or hd[1] != UF2_MAGIC_START1:
	print("Skipping block at " + ptr + "; bad magic")
	continue
	if hd[2] & 1:
	# NO-flash flag set; skip block
	continue
	datalen = hd[4]
	if datalen > 476:
	assert False, "Invalid UF2 data size at " + ptr
	newaddr = hd[3]
	if curraddr == None:
	appstartaddr = newaddr
	curraddr = newaddr
	padding = newaddr - curraddr
	if padding < 0:
	assert False, "Block out of order at " + ptr
	if padding > 10 * 1024 * 1024:
	assert False, "More than 10M of padding needed at " + ptr
	if padding % 4 != 0:
	assert False, "Non-word padding size at " + ptr
	while padding > 0:
	padding -= 4
	outp += b"\x00\x00\x00\x00"
	outp += block[32 : 32 + datalen]
	curraddr = newaddr + datalen
	return outp


	def convert_to_carray(file_content):
	outp = "const unsigned char bindata[] __attribute__((aligned(16))) = {"
	for i in range(len(file_content)):
	if i % 16 == 0:
	outp += "\n"
	outp += "0x%02x, " % ord(file_content[i])
	outp += "\n};\n"
	return outp


	def convert_to_uf2(file_content):
	global familyid
	datapadding = b""
	while len(datapadding) < 512 - 256 - 32 - 4:
	datapadding += b"\x00\x00\x00\x00"
	numblocks = (len(file_content) + 255) // 256
	outp = b""
	for blockno in range(numblocks):
	ptr = 256 * blockno
	chunk = file_content[ptr : ptr + 256]
	flags = 0x0
	if familyid:
	flags \|= 0x2000
	hd = struct.pack(
	b"<IIIIIIII",
	UF2_MAGIC_START0,
	UF2_MAGIC_START1,
	flags,
	ptr + appstartaddr,
	256,
	blockno,
	numblocks,
	familyid,
	)
	while len(chunk) < 256:
	chunk += b"\x00"
	block = hd + chunk + datapadding + struct.pack(b"<I", UF2_MAGIC_END)
	assert len(block) == 512
	outp += block
	return outp


	class Block:
	def __init__(self, addr):
	self.addr = addr
	self.bytes = bytearray(256)

	def encode(self, blockno, numblocks):
	global familyid
	flags = 0x0
	if familyid:
	flags \|= 0x2000
	hd = struct.pack(
	"<IIIIIIII",
	UF2_MAGIC_START0,
	UF2_MAGIC_START1,
	flags,
	self.addr,
	256,
	blockno,
	numblocks,
	familyid,
	)
	hd += self.bytes[0:256]
	while len(hd) < 512 - 4:
	hd += b"\x00"
	hd += struct.pack("<I", UF2_MAGIC_END)
	return hd


	def convert_from_hex_to_uf2(buf):
	global appstartaddr
	appstartaddr = None
	upper = 0
	currblock = None
	blocks = []
	for line in buf.split("\n"):
	if line[0] != ":":
	continue
	i = 1
	rec = []
	while i < len(line) - 1:
	rec.append(int(line[i : i + 2], 16))
	i += 2
	tp = rec[3]
	if tp == 4:
	upper = ((rec[4] << 8) \| rec[5]) << 16
	elif tp == 2:
	upper = ((rec[4] << 8) \| rec[5]) << 4
	assert (upper & 0xFFFF) == 0
	elif tp == 1:
	break
	elif tp == 0:
	addr = upper \| (rec[1] << 8) \| rec[2]
	if appstartaddr == None:
	appstartaddr = addr
	i = 4
	while i < len(rec) - 1:
	if not currblock or currblock.addr & ~0xFF != addr & ~0xFF:
	currblock = Block(addr & ~0xFF)
	blocks.append(currblock)
	currblock.bytes[addr & 0xFF] = rec[i]
	addr += 1
	i += 1
	numblocks = len(blocks)
	resfile = b""
	for i in range(0, numblocks):
	resfile += blocks[i].encode(i, numblocks)
	return resfile


	def get_drives():
	drives = []
	if sys.platform == "win32":
	r = subprocess.check_output(
	[
	"wmic",
	"PATH",
	"Win32_LogicalDisk",
	"get",
	"DeviceID,",
	"VolumeName,",
	"FileSystem,",
	"DriveType",
	]
	)
	for line in r.split("\n"):
	words = re.split("\s+", line)
	if len(words) >= 3 and words[1] == "2" and words[2] == "FAT":
	drives.append(words[0])
	else:
	rootpath = "/media"
	if sys.platform == "darwin":
	rootpath = "/Volumes"
	elif sys.platform == "linux":
	tmp = rootpath + "/" + os.environ["USER"]
	if os.path.isdir(tmp):
	rootpath = tmp
	for d in os.listdir(rootpath):
	drives.append(os.path.join(rootpath, d))

	def has_info(d):
	try:
	return os.path.isfile(d + INFO_FILE)
	except:
	return False

	return list(filter(has_info, drives))


	def board_id(path):
	with open(path + INFO_FILE, mode="r") as file:
	file_content = file.read()
	return re.search("Board-ID: ([^\r\n]*)", file_content).group(1)


	def list_drives():
	for d in get_drives():
	print(d, board_id(d))


	def write_file(name, buf):
	with open(name, "wb") as f:
	f.write(buf)
	print("Wrote %d bytes to %s." % (len(buf), name))


	def main():
	global appstartaddr, familyid

	def error(msg):
	print(msg)
	sys.exit(1)

	parser = argparse.ArgumentParser(description="Convert to UF2 or flash directly.")
	parser.add_argument(
	"input", metavar="INPUT", type=str, nargs="?", help="input file (HEX, BIN or UF2)"
	)
	parser.add_argument(
	"-b",
	"--base",
	dest="base",
	type=str,
	default="0x2000",
	help="set base address of application for BIN format (default: 0x2000)",
	)
	parser.add_argument(
	"-o",
	"--output",
	metavar="FILE",
	dest="output",
	type=str,
	help='write output to named file; defaults to "flash.uf2" or "flash.bin" where sensible',
	)
	parser.add_argument("-d", "--device", dest="device_path", help="select a device path to flash")
	parser.add_argument("-l", "--list", action="store_true", help="list connected devices")
	parser.add_argument("-c", "--convert", action="store_true", help="do not flash, just convert")
	parser.add_argument(
	"-f",
	"--family",
	dest="family",
	type=str,
	default="0x0",
	help="specify familyID - number or name (default: 0x0)",
	)
	parser.add_argument(
	"-C", "--carray", action="store_true", help="convert binary file to a C array, not UF2"
	)
	args = parser.parse_args()
	appstartaddr = int(args.base, 0)

	if args.family.upper() in families:
	familyid = families[args.family.upper()]
	else:
	try:
	familyid = int(args.family, 0)
	except ValueError:
	error("Family ID needs to be a number or one of: " + ", ".join(families.keys()))

	if args.list:
	list_drives()
	else:
	if not args.input:
	error("Need input file")
	with open(args.input, mode="rb") as f:
	inpbuf = f.read()
	from_uf2 = is_uf2(inpbuf)
	ext = "uf2"
	if from_uf2:
	outbuf = convert_from_uf2(inpbuf)
	ext = "bin"
	elif is_hex(inpbuf):
	outbuf = convert_from_hex_to_uf2(inpbuf.decode("utf-8"))
	elif args.carray:
	outbuf = convert_to_carray(inpbuf)
	ext = "h"
	else:
	outbuf = convert_to_uf2(inpbuf)
	print(
	"Converting to %s, output size: %d, start address: 0x%x"
	% (ext, len(outbuf), appstartaddr)
	)
	if args.convert:
	drives = []
	if args.output == None:
	args.output = "flash." + ext
	else:
	drives = get_drives()

	if args.output:
	write_file(args.output, outbuf)
	else:
	if len(drives) == 0:
	error("No drive to deploy.")
	for d in drives:
	print("Flashing %s (%s)" % (d, board_id(d)))
	write_file(d + "/NEW.UF2", outbuf)


	if __name__ == "__main__":
	main()