libsparse/simg_dump.py - third_party/android/platform/system/core - Git at Google

 #! /usr/bin/env python

 # Copyright (C) 2012 The Android Open Source Project
 #
 # 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.

 from __future__ import print_function
 import csv
 import getopt
 import hashlib
 import posixpath
 import signal
 import struct
 import sys


 def usage(argv0):
   print("""
 Usage: %s [-v] [-s] [-c <filename>] sparse_image_file ...
  -v             verbose output
  -s             show sha1sum of data blocks
  -c <filename>  save .csv file of blocks
 """ % (argv0))
   sys.exit(2)


 def main():
   signal.signal(signal.SIGPIPE, signal.SIG_DFL)

   me = posixpath.basename(sys.argv[0])

   # Parse the command line
   verbose = 0                   # -v
   showhash = 0                  # -s
   csvfilename = None            # -c
   try:
     opts, args = getopt.getopt(sys.argv[1:],
                                "vsc:",
                                ["verbose", "showhash", "csvfile"])
   except getopt.GetoptError, e:
     print(e)
     usage(me)
   for o, a in opts:
     if o in ("-v", "--verbose"):
       verbose += 1
     elif o in ("-s", "--showhash"):
       showhash = True
     elif o in ("-c", "--csvfile"):
       csvfilename = a
     else:
       print("Unrecognized option \"%s\"" % (o))
       usage(me)

   if not args:
     print("No sparse_image_file specified")
     usage(me)

   if csvfilename:
     csvfile = open(csvfilename, "wb")
     csvwriter = csv.writer(csvfile)

   output = verbose or csvfilename or showhash

   for path in args:
     FH = open(path, "rb")
     header_bin = FH.read(28)
     header = struct.unpack("<I4H4I", header_bin)

     magic = header[0]
     major_version = header[1]
     minor_version = header[2]
     file_hdr_sz = header[3]
     chunk_hdr_sz = header[4]
     blk_sz = header[5]
     total_blks = header[6]
     total_chunks = header[7]
     image_checksum = header[8]

     if magic != 0xED26FF3A:
       print("%s: %s: Magic should be 0xED26FF3A but is 0x%08X"
             % (me, path, magic))
       continue
     if major_version != 1 or minor_version != 0:
       print("%s: %s: I only know about version 1.0, but this is version %u.%u"
             % (me, path, major_version, minor_version))
       continue
     if file_hdr_sz != 28:
       print("%s: %s: The file header size was expected to be 28, but is %u."
             % (me, path, file_hdr_sz))
       continue
     if chunk_hdr_sz != 12:
       print("%s: %s: The chunk header size was expected to be 12, but is %u."
             % (me, path, chunk_hdr_sz))
       continue

     print("%s: Total of %u %u-byte output blocks in %u input chunks."
           % (path, total_blks, blk_sz, total_chunks))

     if image_checksum != 0:
       print("checksum=0x%08X" % (image_checksum))

     if not output:
       continue

     if verbose > 0:
       print("            input_bytes      output_blocks")
       print("chunk    offset     number  offset  number")

     if csvfilename:
       csvwriter.writerow(["chunk", "input offset", "input bytes",
                           "output offset", "output blocks", "type", "hash"])

     offset = 0
     for i in xrange(1, total_chunks + 1):
       header_bin = FH.read(12)
       header = struct.unpack("<2H2I", header_bin)
       chunk_type = header[0]
       chunk_sz = header[2]
       total_sz = header[3]
       data_sz = total_sz - 12
       curhash = ""
       curtype = ""
       curpos = FH.tell()

       if verbose > 0:
         print("%4u %10u %10u %7u %7u" % (i, curpos, data_sz, offset, chunk_sz),
               end=" ")

       if chunk_type == 0xCAC1:
         if data_sz != (chunk_sz * blk_sz):
           print("Raw chunk input size (%u) does not match output size (%u)"
                 % (data_sz, chunk_sz * blk_sz))
           break
         else:
           curtype = "Raw data"
           data = FH.read(data_sz)
           if showhash:
             h = hashlib.sha1()
             h.update(data)
             curhash = h.hexdigest()
       elif chunk_type == 0xCAC2:
         if data_sz != 4:
           print("Fill chunk should have 4 bytes of fill, but this has %u"
                 % (data_sz))
           break
         else:
           fill_bin = FH.read(4)
           fill = struct.unpack("<I", fill_bin)
           curtype = format("Fill with 0x%08X" % (fill))
           if showhash:
             h = hashlib.sha1()
             data = fill_bin * (blk_sz / 4);
             for block in xrange(chunk_sz):
               h.update(data)
             curhash = h.hexdigest()
       elif chunk_type == 0xCAC3:
         if data_sz != 0:
           print("Don't care chunk input size is non-zero (%u)" % (data_sz))
           break
         else:
           curtype = "Don't care"
       elif chunk_type == 0xCAC4:
         if data_sz != 4:
           print("CRC32 chunk should have 4 bytes of CRC, but this has %u"
                 % (data_sz))
           break
         else:
           crc_bin = FH.read(4)
           crc = struct.unpack("<I", crc_bin)
           curtype = format("Unverified CRC32 0x%08X" % (crc))
       else:
         print("Unknown chunk type 0x%04X" % (chunk_type))
         break

       if verbose > 0:
         print("%-18s" % (curtype), end=" ")

         if verbose > 1:
           header = struct.unpack("<12B", header_bin)
           print(" (%02X%02X %02X%02X %02X%02X%02X%02X %02X%02X%02X%02X)"
                 % (header[0], header[1], header[2], header[3],
                    header[4], header[5], header[6], header[7],
                    header[8], header[9], header[10], header[11]), end=" ")

         print(curhash)

       if csvfilename:
         csvwriter.writerow([i, curpos, data_sz, offset, chunk_sz, curtype,
                             curhash])

       offset += chunk_sz

     if verbose > 0:
       print("     %10u            %7u         End" % (FH.tell(), offset))

     if total_blks != offset:
       print("The header said we should have %u output blocks, but we saw %u"
             % (total_blks, offset))

     junk_len = len(FH.read())
     if junk_len:
       print("There were %u bytes of extra data at the end of the file."
             % (junk_len))

   if csvfilename:
     csvfile.close()

   sys.exit(0)

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

	# Copyright (C) 2012 The Android Open Source Project
	#
	# 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.

	from __future__ import print_function
	import csv
	import getopt
	import hashlib
	import posixpath
	import signal
	import struct
	import sys


	def usage(argv0):
	print("""
	Usage: %s [-v] [-s] [-c <filename>] sparse_image_file ...
	-v verbose output
	-s show sha1sum of data blocks
	-c <filename> save .csv file of blocks
	""" % (argv0))
	sys.exit(2)


	def main():
	signal.signal(signal.SIGPIPE, signal.SIG_DFL)

	me = posixpath.basename(sys.argv[0])

	# Parse the command line
	verbose = 0 # -v
	showhash = 0 # -s
	csvfilename = None # -c
	try:
	opts, args = getopt.getopt(sys.argv[1:],
	"vsc:",
	["verbose", "showhash", "csvfile"])
	except getopt.GetoptError, e:
	print(e)
	usage(me)
	for o, a in opts:
	if o in ("-v", "--verbose"):
	verbose += 1
	elif o in ("-s", "--showhash"):
	showhash = True
	elif o in ("-c", "--csvfile"):
	csvfilename = a
	else:
	print("Unrecognized option \"%s\"" % (o))
	usage(me)

	if not args:
	print("No sparse_image_file specified")
	usage(me)

	if csvfilename:
	csvfile = open(csvfilename, "wb")
	csvwriter = csv.writer(csvfile)

	output = verbose or csvfilename or showhash

	for path in args:
	FH = open(path, "rb")
	header_bin = FH.read(28)
	header = struct.unpack("<I4H4I", header_bin)

	magic = header[0]
	major_version = header[1]
	minor_version = header[2]
	file_hdr_sz = header[3]
	chunk_hdr_sz = header[4]
	blk_sz = header[5]
	total_blks = header[6]
	total_chunks = header[7]
	image_checksum = header[8]

	if magic != 0xED26FF3A:
	print("%s: %s: Magic should be 0xED26FF3A but is 0x%08X"
	% (me, path, magic))
	continue
	if major_version != 1 or minor_version != 0:
	print("%s: %s: I only know about version 1.0, but this is version %u.%u"
	% (me, path, major_version, minor_version))
	continue
	if file_hdr_sz != 28:
	print("%s: %s: The file header size was expected to be 28, but is %u."
	% (me, path, file_hdr_sz))
	continue
	if chunk_hdr_sz != 12:
	print("%s: %s: The chunk header size was expected to be 12, but is %u."
	% (me, path, chunk_hdr_sz))
	continue

	print("%s: Total of %u %u-byte output blocks in %u input chunks."
	% (path, total_blks, blk_sz, total_chunks))

	if image_checksum != 0:
	print("checksum=0x%08X" % (image_checksum))

	if not output:
	continue

	if verbose > 0:
	print(" input_bytes output_blocks")
	print("chunk offset number offset number")

	if csvfilename:
	csvwriter.writerow(["chunk", "input offset", "input bytes",
	"output offset", "output blocks", "type", "hash"])

	offset = 0
	for i in xrange(1, total_chunks + 1):
	header_bin = FH.read(12)
	header = struct.unpack("<2H2I", header_bin)
	chunk_type = header[0]
	chunk_sz = header[2]
	total_sz = header[3]
	data_sz = total_sz - 12
	curhash = ""
	curtype = ""
	curpos = FH.tell()

	if verbose > 0:
	print("%4u %10u %10u %7u %7u" % (i, curpos, data_sz, offset, chunk_sz),
	end=" ")

	if chunk_type == 0xCAC1:
	if data_sz != (chunk_sz * blk_sz):
	print("Raw chunk input size (%u) does not match output size (%u)"
	% (data_sz, chunk_sz * blk_sz))
	break
	else:
	curtype = "Raw data"
	data = FH.read(data_sz)
	if showhash:
	h = hashlib.sha1()
	h.update(data)
	curhash = h.hexdigest()
	elif chunk_type == 0xCAC2:
	if data_sz != 4:
	print("Fill chunk should have 4 bytes of fill, but this has %u"
	% (data_sz))
	break
	else:
	fill_bin = FH.read(4)
	fill = struct.unpack("<I", fill_bin)
	curtype = format("Fill with 0x%08X" % (fill))
	if showhash:
	h = hashlib.sha1()
	data = fill_bin * (blk_sz / 4);
	for block in xrange(chunk_sz):
	h.update(data)
	curhash = h.hexdigest()
	elif chunk_type == 0xCAC3:
	if data_sz != 0:
	print("Don't care chunk input size is non-zero (%u)" % (data_sz))
	break
	else:
	curtype = "Don't care"
	elif chunk_type == 0xCAC4:
	if data_sz != 4:
	print("CRC32 chunk should have 4 bytes of CRC, but this has %u"
	% (data_sz))
	break
	else:
	crc_bin = FH.read(4)
	crc = struct.unpack("<I", crc_bin)
	curtype = format("Unverified CRC32 0x%08X" % (crc))
	else:
	print("Unknown chunk type 0x%04X" % (chunk_type))
	break

	if verbose > 0:
	print("%-18s" % (curtype), end=" ")

	if verbose > 1:
	header = struct.unpack("<12B", header_bin)
	print(" (%02X%02X %02X%02X %02X%02X%02X%02X %02X%02X%02X%02X)"
	% (header[0], header[1], header[2], header[3],
	header[4], header[5], header[6], header[7],
	header[8], header[9], header[10], header[11]), end=" ")

	print(curhash)

	if csvfilename:
	csvwriter.writerow([i, curpos, data_sz, offset, chunk_sz, curtype,
	curhash])

	offset += chunk_sz

	if verbose > 0:
	print(" %10u %7u End" % (FH.tell(), offset))

	if total_blks != offset:
	print("The header said we should have %u output blocks, but we saw %u"
	% (total_blks, offset))

	junk_len = len(FH.read())
	if junk_len:
	print("There were %u bytes of extra data at the end of the file."
	% (junk_len))

	if csvfilename:
	csvfile.close()

	sys.exit(0)

	if __name__ == "__main__":
	main()