kopia lustrzana https://github.com/espressif/esp-idf
252 wiersze
8.1 KiB
Python
Executable File
252 wiersze
8.1 KiB
Python
Executable File
#!/usr/bin/env python
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#
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# Copyright 2020 Espressif Systems (Shanghai) PTE LTD
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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#
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# This program creates archives compatible with ESP32-S* ROM DFU implementation.
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#
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# The archives are in CPIO format. Each file which needs to be flashed is added to the archive
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# as a separate file. In addition to that, a special index file, 'dfuinfo0.dat', is created.
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# This file must be the first one in the archive. It contains binary structures describing each
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# subsequent file (for example, where the file needs to be flashed/loaded).
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from collections import namedtuple
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from future.utils import iteritems
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import argparse
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import hashlib
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import json
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import os
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import struct
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import zlib
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try:
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import typing
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except ImportError:
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# Only used for type annotations
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pass
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try:
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from itertools import izip as zip
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except ImportError:
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# Python 3
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pass
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# CPIO ("new ASCII") format related things
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CPIO_MAGIC = b"070701"
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CPIO_STRUCT = b"=6s" + b"8s" * 13
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CPIOHeader = namedtuple(
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"CPIOHeader",
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[
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"magic",
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"ino",
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"mode",
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"uid",
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"gid",
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"nlink",
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"mtime",
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"filesize",
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"devmajor",
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"devminor",
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"rdevmajor",
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"rdevminor",
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"namesize",
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"check",
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],
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)
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CPIO_TRAILER = "TRAILER!!!"
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def make_cpio_header(
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filename_len, file_len, is_trailer=False
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): # type: (int, int, bool) -> CPIOHeader
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""" Returns CPIOHeader for the given file name and file size """
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def as_hex(val): # type: (int) -> bytes
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return "{:08x}".format(val).encode("ascii")
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hex_0 = as_hex(0)
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mode = hex_0 if is_trailer else as_hex(0o0100644)
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nlink = as_hex(1) if is_trailer else hex_0
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return CPIOHeader(
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magic=CPIO_MAGIC,
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ino=hex_0,
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mode=mode,
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uid=hex_0,
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gid=hex_0,
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nlink=nlink,
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mtime=hex_0,
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filesize=as_hex(file_len),
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devmajor=hex_0,
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devminor=hex_0,
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rdevmajor=hex_0,
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rdevminor=hex_0,
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namesize=as_hex(filename_len),
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check=hex_0,
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)
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# DFU format related things
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# Structure of one entry in dfuinfo0.dat
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DFUINFO_STRUCT = b"<I I 64s 16s"
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DFUInfo = namedtuple("DFUInfo", ["address", "flags", "name", "md5"])
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DFUINFO_FILE = "dfuinfo0.dat"
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# Structure which gets added at the end of the entire DFU file
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DFUSUFFIX_STRUCT = b"<H H H H 3s B"
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DFUSuffix = namedtuple(
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"DFUSuffix", ["bcd_device", "pid", "vid", "bcd_dfu", "sig", "len"]
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)
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ESPRESSIF_VID = 12346
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# TODO: set PID based on the chip type (add a command line argument)
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DFUSUFFIX_DEFAULT = DFUSuffix(0xFFFF, 0xFFFF, ESPRESSIF_VID, 0x0100, b"UFD", 16)
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# This CRC32 gets added after DFUSUFFIX_STRUCT
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DFUCRC_STRUCT = b"<I"
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def dfu_crc(data, crc=0): # type: (bytes, int) -> int
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""" Calculate CRC32/JAMCRC of data, with an optional initial value """
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uint32_max = 0xFFFFFFFF
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return uint32_max - (zlib.crc32(data, crc) & uint32_max)
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def pad_bytes(b, multiple, padding=b"\x00"): # type: (bytes, int, bytes) -> bytes
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""" Pad 'b' to a length divisible by 'multiple' """
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padded_len = (len(b) + multiple - 1) // multiple * multiple
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return b + padding * (padded_len - len(b))
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class EspDfuWriter(object):
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def __init__(self, dest_file): # type: (typing.BinaryIO) -> None
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self.dest = dest_file
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self.entries = [] # type: typing.List[bytes]
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self.index = [] # type: typing.List[DFUInfo]
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def add_file(self, flash_addr, path): # type: (int, str) -> None
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""" Add file to be written into flash at given address """
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with open(path, "rb") as f:
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self._add_cpio_flash_entry(os.path.basename(path), flash_addr, f.read())
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def finish(self): # type: () -> None
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""" Write DFU file """
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# Prepare and add dfuinfo0.dat file
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dfuinfo = b"".join([struct.pack(DFUINFO_STRUCT, *item) for item in self.index])
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self._add_cpio_entry(DFUINFO_FILE, dfuinfo, first=True)
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# Add CPIO archive trailer
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self._add_cpio_entry(CPIO_TRAILER, b"", trailer=True)
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# Combine all the entries and pad the file
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out_data = b"".join(self.entries)
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cpio_block_size = 10240
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out_data = pad_bytes(out_data, cpio_block_size)
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# Add DFU suffix and CRC
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out_data += struct.pack(DFUSUFFIX_STRUCT, *DFUSUFFIX_DEFAULT)
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out_data += struct.pack(DFUCRC_STRUCT, dfu_crc(out_data))
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# Finally write the entire binary
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self.dest.write(out_data)
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def _add_cpio_flash_entry(
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self, filename, flash_addr, data
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): # type: (str, int, bytes) -> None
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md5 = hashlib.md5()
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md5.update(data)
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self.index.append(
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DFUInfo(
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address=flash_addr,
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flags=0,
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name=filename.encode("utf-8"),
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md5=md5.digest(),
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)
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)
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self._add_cpio_entry(filename, data)
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def _add_cpio_entry(
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self, filename, data, first=False, trailer=False
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): # type: (str, bytes, bool, bool) -> None
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filename_b = filename.encode("utf-8") + b"\x00"
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cpio_header = make_cpio_header(len(filename_b), len(data), is_trailer=trailer)
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entry = pad_bytes(
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struct.pack(CPIO_STRUCT, *cpio_header) + filename_b, 4
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) + pad_bytes(data, 4)
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if not first:
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self.entries.append(entry)
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else:
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self.entries.insert(0, entry)
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def action_write(args):
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writer = EspDfuWriter(args['output_file'])
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for addr, f in args['files']:
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print('Adding {} at {:#x}'.format(f, addr))
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writer.add_file(addr, f)
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writer.finish()
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print('"{}" has been written. You may proceed with DFU flashing.'.format(args['output_file'].name))
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def main():
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parser = argparse.ArgumentParser()
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# Provision to add "info" command
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subparsers = parser.add_subparsers(dest="command")
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write_parser = subparsers.add_parser("write")
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write_parser.add_argument("-o", "--output-file",
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help='Filename for storing the output DFU image',
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required=True,
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type=argparse.FileType("wb"))
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write_parser.add_argument("--json",
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help='Optional file for loading "flash_files" dictionary with <address> <file> items')
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write_parser.add_argument("files",
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metavar="<address> <file>", help='Add <file> at <address>',
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nargs="*")
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args = parser.parse_args()
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def check_file(file_name):
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if not os.path.isfile(file_name):
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raise RuntimeError('{} is not a regular file!'.format(file_name))
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return file_name
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files = []
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if args.files:
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files += [(int(addr, 0), check_file(f_name)) for addr, f_name in zip(args.files[::2], args.files[1::2])]
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if args.json:
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json_dir = os.path.dirname(os.path.abspath(args.json))
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def process_json_file(path):
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'''
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The input path is relative to json_dir. This function makes it relative to the current working
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directory.
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'''
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return check_file(os.path.relpath(os.path.join(json_dir, path), start=os.curdir))
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with open(args.json) as f:
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files += [(int(addr, 0),
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process_json_file(f_name)) for addr, f_name in iteritems(json.load(f)['flash_files'])]
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files = sorted([(addr, f_name) for addr, f_name in iteritems(dict(files))],
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key=lambda x: x[0]) # remove possible duplicates and sort based on the address
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cmd_args = {'output_file': args.output_file,
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'files': files,
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}
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{'write': action_write
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}[args.command](cmd_args)
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if __name__ == "__main__":
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main()
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