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amba_romfs.py
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amba_romfs.py
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#!/usr/bin/env python3
# -*- coding: utf-8 -*-
""" Ambarella Firmware ROMFS tool.
"""
# Copyright (C) 2016,2017 Mefistotelis <[email protected]>
# Copyright (C) 2018 Original Gangsters <https://dji-rev.slack.com/>
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
__version__ = "0.0.2"
__author__ = "Mefistotelis @ Original Gangsters"
__license__ = "GPL"
import argparse
import configparser
import itertools
import sys
import mmap
import os
import re
from ctypes import c_char, c_char_p, c_ubyte, c_uint
from ctypes import cast, sizeof, LittleEndianStructure
from time import gmtime, strftime
def eprint(*args, **kwargs):
print(*args, file=sys.stderr, **kwargs)
# The ROMFS file consists of 3 sections:
# 1. Main header, padded
# 2. File entries, padded at end only
# 3. File data, padded after each entry
# Note that padding is a bit unusual - if a file
# length is exact multiplication of 2048, the
# entry is still padded (with another 2048 bytes).
class ROMFSPartitionHeader(LittleEndianStructure):
_pack_ = 1
_fields_ = [('file_count', c_uint), # Amount of files stored
('magic', c_uint), # magic identifier, 66FC328A
('padding', c_ubyte * 2040)] # padded with 0xff
def dict_export(self):
d = dict()
for (varkey, vartype) in self._fields_:
d[varkey] = getattr(self, varkey)
varkey = 'padding'
d[varkey] = "".join("{:02X}".format(x) for x in d[varkey])
return d
def __repr__(self):
d = self.dict_export()
from pprint import pformat
return pformat(d, indent=4, width=1)
class ROMFSFileEntry(LittleEndianStructure):
_pack_ = 1
_fields_ = [('filename', c_char * 116),
('offset', c_uint),
('length', c_uint),
('magic', c_uint)]
def filename_str(self):
return cast(self.filename, c_char_p).value.decode('utf-8')
def dict_export(self):
d = dict()
for (varkey, vartype) in self._fields_:
d[varkey] = getattr(self, varkey)
return d
def __repr__(self):
d = self.dict_export()
from pprint import pformat
return pformat(d, indent=4, width=1)
def romfs_padded_size(content_offs):
# if (content_offs % 2048) != 0: - no, padding is not done this way
return content_offs + 2048 - (content_offs % 2048)
def romfs_extract_filesystem_head(po, fshead, fsentries):
fname = "{:s}/{:s}".format(po.snglfdir, "_header.a9t")
os.makedirs(os.path.dirname(fname), exist_ok=True)
inifile = open(fname, "w")
inifile.write("# Ambarella Firmware ROMFS header file. Loosly based on AFT format.\n")
inifile.write(strftime("# Generated on %Y-%m-%d %H:%M:%S\n", gmtime()))
inifile.write("filelist={:s}\n".format(",".join("{:s}".format(x.filename_str()) for x in fsentries)))
inifile.close()
def romfs_read_filesystem_head(po):
fshead = ROMFSPartitionHeader()
fsentries = []
fname = "{:s}/{:s}".format(po.snglfdir, "_header.a9t")
parser = configparser.ConfigParser()
with open(fname, "r") as lines:
lines = itertools.chain(("[asection]",), lines) # This line adds section header to ini
parser.read_file(lines)
singlefnames = parser.get("asection", "filelist").split(",")
for sfname in singlefnames:
fe = ROMFSFileEntry()
fe.filename = sfname.encode('utf-8')
fe.offset = sizeof(fshead)
fe.magic = 0x2387AB76
fsentries.append(fe)
fshead.magic = 0x66FC328A
fshead.file_count = len(fsentries)
for i in range(len(fshead.padding)):
fshead.padding[i] = 0xff
del parser
return fshead, fsentries
def romfs_recompute_filesystem_lengths(po, fshead, fsentries):
for i, fe in enumerate(fsentries):
fname = "{:s}/{:s}".format(po.snglfdir, fe.filename_str())
fe.length = os.stat(fname).st_size
fshead.file_count = len(fsentries)
return fshead, fsentries
def romfs_recompute_filesystem_offsets(po, fshead, fsentries):
content_offs = sizeof(fshead)
# ROMFSPartitionHeader is already padded, no need for action
content_offs = romfs_padded_size(content_offs + len(fsentries) * sizeof(ROMFSFileEntry))
for i, fe in enumerate(fsentries):
fe.offset = content_offs
content_offs = romfs_padded_size(content_offs + fe.length)
fshead.file_count = len(fsentries)
return fshead, fsentries
def romfs_extract_filesystem_entry(po, fwpartfile, i, fe):
if (po.verbose > 0):
print("{}: Extracting entry {:d}: {:s}, {:d} bytes".format(po.fwpartfile, i, fe.filename_str(), fe.length))
fwpartfile.seek(fe.offset, 0)
fname = "{:s}/{:s}".format(po.snglfdir, fe.filename_str())
os.makedirs(os.path.dirname(fname), exist_ok=True)
singlefile = open(fname, "wb")
n = 0
while n < fe.length:
copy_buffer = fwpartfile.read(min(1024 * 1024, fe.length - n))
if not copy_buffer:
break
n += len(copy_buffer)
singlefile.write(copy_buffer)
singlefile.close()
if (n < fe.length):
eprint("{}: Warning: file {:d} truncated, {:d} out of {:d} bytes".format(po.fwpartfile, i, n, fe.length))
def romfs_write_filesystem_entry(po, fwpartfile, i, fe):
if (po.verbose > 0):
print("{}: Writing entry {:d}: {:s}, {:d} bytes".format(po.fwpartfile, i, fe.filename_str(), fe.length))
while (fwpartfile.tell() < fe.offset):
fwpartfile.write(b'\xFF')
fname = "{:s}/{:s}".format(po.snglfdir, fe.filename_str())
singlefile = open(fname, "rb")
n = 0
while n < fe.length:
copy_buffer = singlefile.read(min(1024 * 1024, fe.length - n))
if not copy_buffer:
break
n += len(copy_buffer)
fwpartfile.write(copy_buffer)
singlefile.close()
if (n < fe.length):
eprint("{}: Warning: file {:d} truncated, {:d} out of {:d} bytes".format(po.fwpartfile, i, n, fe.length))
content_offs = romfs_padded_size(fwpartfile.tell())
while (fwpartfile.tell() < content_offs):
fwpartfile.write(b'\xFF')
def romfs_extract(po, fwpartfile):
fshead = ROMFSPartitionHeader()
if fwpartfile.readinto(fshead) != sizeof(fshead):
raise EOFError("Couldn't read ROMFS partition file header.")
if (po.verbose > 1):
print("{}: Header:".format(po.fwpartfile))
print(fshead)
if (fshead.magic != 0x66FC328A):
eprint("{}: Warning: magic value is {:08X} instead of {:08X}.".format(po.fwpartfile, fshead.magic, 0x66FC328A))
raise EOFError("Invalid magic value in main header. The file does not store a ROMFS filesystem.")
if (fshead.file_count < 1) or (fshead.file_count > 16*1024):
eprint("{}: Warning: filesystem stores alarming amount of files, which is {:d}".format(po.fwpartfile, fshead.file_count))
# verify if padding area is completely filled with 0xff
if (fshead.padding[0] != 0xff) or (len(set(fshead.padding)) != 1):
eprint("{}: Warning: filesystem uses values from padded area in an unknown manner.".format(po.fwpartfile))
fsentries = []
for i in range(fshead.file_count):
fe = ROMFSFileEntry()
if fwpartfile.readinto(fe) != sizeof(fe):
raise EOFError("Could not read filesystem file header entries.")
if (fe.magic != 0x2387AB76):
eprint("{}: Warning: entry {:d} has magic value {:08X} instead of {:08X}.".format(po.fwpartfile, i, fe.magic, 0x2387AB76))
if re.match(b'[0-9A-Za-z._-]', fe.filename) is None:
eprint("{}: Warning: entry {:d} has invalid file name; skipping.".format(po.fwpartfile, i))
continue
if (fe.length < 0) or (fe.length > 128*1024*1024):
eprint("{}: Warning: entry {:d} has bad size, {:d} bytes; skipping.".format(po.fwpartfile, i, fe.length))
continue
if (fe.offset < 0) or (fe.offset > 128*1024*1024):
eprint("{}: Warning: entry {:d} has bad offset, {:d} bytes; skipping.".format(po.fwpartfile, i, fe.offset))
continue
fsentries.append(fe)
if (po.verbose > 2):
print("{}: Entries:".format(po.fwpartfile))
print(fsentries)
romfs_extract_filesystem_head(po, fshead, fsentries)
for i, fe in enumerate(fsentries):
romfs_extract_filesystem_entry(po, fwpartfile, i, fe)
def romfs_search_extract(po, fwpartfile):
fshead = ROMFSPartitionHeader()
fwpartmm = mmap.mmap(fwpartfile.fileno(), length=0, access=mmap.ACCESS_READ)
fsentries = []
epos = -sizeof(ROMFSFileEntry)
prev_dtlen = 0
prev_dtpos = 0
i = 0
while True:
epos = fwpartmm.find(b'\x76\xAB\x87\x23', epos+sizeof(ROMFSFileEntry))
if (epos < 0):
break
epos -= 124 # pos of 'magic' within FwModPartHeader
if (epos < 0):
continue
fe = ROMFSFileEntry.from_buffer_copy(fwpartmm[epos:epos+sizeof(ROMFSFileEntry)])
dtpos = fe.offset
if (fe.length < 0) or (fe.length > 128*1024*1024) or (fe.length > fwpartmm.size()-dtpos):
print("{}: False positive - entry at {:d} has bad size, {:d} bytes".format(po.fwpartfile, epos, fe.length))
continue
if (prev_dtpos < dtpos+fe.length) and (prev_dtpos+prev_dtlen > dtpos):
eprint("{}: File {:d} data overlaps with previous by {:d} bytes".format(po.fwpartfile, i, prev_dtpos + prev_dtlen - dtpos))
fsentries.append(fe)
prev_dtlen = fe.length
prev_dtpos = dtpos
i += 1
if (po.verbose > 2):
print("{}: Entries:".format(po.fwpartfile))
print(fsentries)
romfs_extract_filesystem_head(po, fshead, fsentries)
for i, fe in enumerate(fsentries):
romfs_extract_filesystem_entry(po, fwpartfile, i, fe)
def romfs_create(po, fwpartfile):
fshead, fsentries = romfs_read_filesystem_head(po)
if (po.verbose > 2):
print("{}: Entries:".format(po.fwpartfile))
print(fsentries)
fshead, fsentries = romfs_recompute_filesystem_lengths(po, fshead, fsentries)
fshead, fsentries = romfs_recompute_filesystem_offsets(po, fshead, fsentries)
if fwpartfile.write(fshead) != sizeof(fshead):
raise EOFError("Couldn't write ROMFS partition file main header.")
for i, fe in enumerate(fsentries):
if fwpartfile.write(fe) != sizeof(fe):
raise EOFError("Couldn't write ROMFS partition file entry header.")
for i, fe in enumerate(fsentries):
romfs_write_filesystem_entry(po, fwpartfile, i, fe)
def main():
""" Main executable function.
Its task is to parse command line options and call a function which performs requested command.
"""
parser = argparse.ArgumentParser(description=__doc__.split('.')[0])
parser.add_argument('-p', '--fwpartfile', type=str, required=True,
help="name of the firmware partition file")
parser.add_argument('-d', '--snglfdir', type=str,
help=("directory for the single extracted files "
"(defaults to base name of firmware partition file)"))
parser.add_argument('--dry-run', action='store_true',
help="do not write any files or do permanent changes")
parser.add_argument('-v', '--verbose', action='count', default=0,
help="increases verbosity level; max level is set by -vvv")
subparser = parser.add_mutually_exclusive_group(required=True)
#subparser.add_argument('-l', '--list', action='store_true',
# help="list single files stored within partition file")
subparser.add_argument('-x', '--extract', action='store_true',
help="extract partition file into single files")
subparser.add_argument('-s', '--search', action='store_true',
help=("search for files within partition and extract them "
"(works similar to -x, but uses brute-force search for file entries)"))
subparser.add_argument('-a', '--add', action='store_true',
help="add single files to partition file")
subparser.add_argument('--version', action='version', version="%(prog)s {version} by {author}"
.format(version=__version__, author=__author__),
help="display version information and exit")
po = parser.parse_args()
if len(po.fwpartfile) > 0 and po.snglfdir is None:
po.snglfdir = os.path.splitext(os.path.basename(po.fwpartfile))[0]
if po.extract:
if (po.verbose > 0):
print("{}: Opening for extraction".format(po.fwpartfile))
with open(po.fwpartfile, 'rb') as fwpartfile:
romfs_extract(po, fwpartfile)
elif po.search:
if (po.verbose > 0):
print("{}: Opening for search".format(po.fwpartfile))
with open(po.fwpartfile, 'rb') as fwpartfile:
romfs_search_extract(po, fwpartfile)
elif po.add:
if (po.verbose > 0):
print("{}: Opening for creation".format(po.fwpartfile))
with open(po.fwpartfile, 'wb') as fwpartfile:
romfs_create(po, fwpartfile)
else:
raise NotImplementedError("Unsupported command.")
if __name__ == '__main__':
try:
main()
except Exception as ex:
eprint("Error: "+str(ex))
if 0: raise
sys.exit(10)