import math import os from struct import pack, unpack, calcsize # segment structure base SEG_STRUCT = [ (">L", "number"), (">B", "flags"), (">B", "retention_flags"), (">B", "page_assoc"), (">L", "data_length"), ] # segment header literals HEADER_FLAG_DEFERRED = 0b10000000 HEADER_FLAG_PAGE_ASSOC_LONG = 0b01000000 SEG_TYPE_MASK = 0b00111111 REF_COUNT_SHORT_MASK = 0b11100000 REF_COUNT_LONG_MASK = 0x1fffffff REF_COUNT_LONG = 7 DATA_LEN_UNKNOWN = 0xffffffff # segment types SEG_TYPE_IMMEDIATE_GEN_REGION = 38 SEG_TYPE_END_OF_PAGE = 49 SEG_TYPE_END_OF_FILE = 50 # file literals FILE_HEADER_ID = b'\x97\x4A\x42\x32\x0D\x0A\x1A\x0A' FILE_HEAD_FLAG_SEQUENTIAL = 0b00000001 FILE_HEAD_FLAG_PAGES_UNKNOWN = 0b00000010 def bit_set(bit_pos, value): return bool((value >> bit_pos) & 1) def check_flag(flag, value): return bool(flag & value) def masked_value(mask, value): for bit_pos in range(0, 31): if bit_set(bit_pos, mask): return (value & mask) >> bit_pos raise Exception("Invalid mask or value") def mask_value(mask, value): for bit_pos in range(0, 31): if bit_set(bit_pos, mask): return (value & (mask >> bit_pos)) << bit_pos raise Exception("Invalid mask or value") class JBIG2StreamReader(object): """Read segments from a JBIG2 byte stream""" def __init__(self, stream): self.stream = stream def get_segments(self): segments = [] while not self.is_eof(): segment = {} for field_format, name in SEG_STRUCT: field_len = calcsize(field_format) field = self.stream.read(field_len) if len(field) < field_len: segment["_error"] = True break value = unpack(field_format, field) if len(value) == 1: [value] = value parser = getattr(self, "parse_%s" % name, None) if callable(parser): value = parser(segment, value, field) segment[name] = value if not segment.get("_error"): segments.append(segment) return segments def is_eof(self): if self.stream.read(1) == b'': return True else: self.stream.seek(-1, os.SEEK_CUR) return False def parse_flags(self, segment, flags, field): return { "deferred": check_flag(HEADER_FLAG_DEFERRED, flags), "page_assoc_long": check_flag(HEADER_FLAG_PAGE_ASSOC_LONG, flags), "type": masked_value(SEG_TYPE_MASK, flags) } def parse_retention_flags(self, segment, flags, field): ref_count = masked_value(REF_COUNT_SHORT_MASK, flags) retain_segments = [] ref_segments = [] if ref_count < REF_COUNT_LONG: for bit_pos in range(5): retain_segments.append(bit_set(bit_pos, flags)) else: field += self.stream.read(3) [ref_count] = unpack(">L", field) ref_count = masked_value(REF_COUNT_LONG_MASK, ref_count) ret_bytes_count = int(math.ceil((ref_count + 1) / 8)) for ret_byte_index in range(ret_bytes_count): [ret_byte] = unpack(">B", self.stream.read(1)) for bit_pos in range(7): retain_segments.append(bit_set(bit_pos, ret_byte)) seg_num = segment["number"] if seg_num <= 256: ref_format = ">B" elif seg_num <= 65536: ref_format = ">I" else: ref_format = ">L" ref_size = calcsize(ref_format) for ref_index in range(ref_count): ref = self.stream.read(ref_size) [ref] = unpack(ref_format, ref) ref_segments.append(ref) return { "ref_count": ref_count, "retain_segments": retain_segments, "ref_segments": ref_segments, } def parse_page_assoc(self, segment, page, field): if segment["flags"]["page_assoc_long"]: field += self.stream.read(3) [page] = unpack(">L", field) return page def parse_data_length(self, segment, length, field): if length: if (segment["flags"]["type"] == SEG_TYPE_IMMEDIATE_GEN_REGION) \ and (length == DATA_LEN_UNKNOWN): raise NotImplementedError( "Working with unknown segment length " "is not implemented yet" ) else: segment["raw_data"] = self.stream.read(length) return length class JBIG2StreamWriter(object): """Write JBIG2 segments to a file in JBIG2 format""" def __init__(self, stream): self.stream = stream def write_segments(self, segments, fix_last_page=True): data_len = 0 current_page = None seg_num = None for segment in segments: data = self.encode_segment(segment) self.stream.write(data) data_len += len(data) seg_num = segment["number"] if fix_last_page: seg_page = segment.get("page_assoc") if segment["flags"]["type"] == SEG_TYPE_END_OF_PAGE: current_page = None elif seg_page: current_page = seg_page if fix_last_page and current_page and (seg_num is not None): segment = self.get_eop_segment(seg_num + 1, current_page) data = self.encode_segment(segment) self.stream.write(data) data_len += len(data) return data_len def write_file(self, segments, fix_last_page=True): header = FILE_HEADER_ID header_flags = FILE_HEAD_FLAG_SEQUENTIAL | FILE_HEAD_FLAG_PAGES_UNKNOWN header += pack(">B", header_flags) self.stream.write(header) data_len = len(header) data_len += self.write_segments(segments, fix_last_page) seg_num = 0 for segment in segments: seg_num = segment["number"] eof_segment = self.get_eof_segment(seg_num + 1) data = self.encode_segment(eof_segment) self.stream.write(data) data_len += len(data) return data_len def encode_segment(self, segment): data = b'' for field_format, name in SEG_STRUCT: value = segment.get(name) encoder = getattr(self, "encode_%s" % name, None) if callable(encoder): field = encoder(value, segment) else: field = pack(field_format, value) data += field return data def encode_flags(self, value, segment): flags = 0 if value.get("deferred"): flags |= HEADER_FLAG_DEFERRED if "page_assoc_long" in value: flags |= HEADER_FLAG_PAGE_ASSOC_LONG \ if value["page_assoc_long"] else flags else: flags |= HEADER_FLAG_PAGE_ASSOC_LONG \ if segment.get("page", 0) > 255 else flags flags |= mask_value(SEG_TYPE_MASK, value["type"]) return pack(">B", flags) def encode_retention_flags(self, value, segment): flags = [] flags_format = ">B" ref_count = value["ref_count"] retain_segments = value.get("retain_segments", []) if ref_count <= 4: flags_byte = mask_value(REF_COUNT_SHORT_MASK, ref_count) for ref_index, ref_retain in enumerate(retain_segments): flags_byte |= 1 << ref_index flags.append(flags_byte) else: bytes_count = math.ceil((ref_count + 1) / 8) flags_format = ">L" + ("B" * bytes_count) flags_dword = mask_value( REF_COUNT_SHORT_MASK, REF_COUNT_LONG ) << 24 flags.append(flags_dword) for byte_index in range(bytes_count): ret_byte = 0 ret_part = retain_segments[byte_index * 8:byte_index * 8 + 8] for bit_pos, ret_seg in enumerate(ret_part): ret_byte |= 1 << bit_pos if ret_seg else ret_byte flags.append(ret_byte) ref_segments = value.get("ref_segments", []) seg_num = segment["number"] if seg_num <= 256: ref_format = "B" elif seg_num <= 65536: ref_format = "I" else: ref_format = "L" for ref in ref_segments: flags_format += ref_format flags.append(ref) return pack(flags_format, *flags) def encode_data_length(self, value, segment): data = pack(">L", value) data += segment["raw_data"] return data def get_eop_segment(self, seg_number, page_number): return { 'data_length': 0, 'flags': {'deferred': False, 'type': SEG_TYPE_END_OF_PAGE}, 'number': seg_number, 'page_assoc': page_number, 'raw_data': b'', 'retention_flags': { 'ref_count': 0, 'ref_segments': [], 'retain_segments': [] } } def get_eof_segment(self, seg_number): return { 'data_length': 0, 'flags': {'deferred': False, 'type': SEG_TYPE_END_OF_FILE}, 'number': seg_number, 'page_assoc': 0, 'raw_data': b'', 'retention_flags': { 'ref_count': 0, 'ref_segments': [], 'retain_segments': [] } }