#!/usr/bin/python # Copyright 2016 Google Inc. All rights reserved. # # Use of this source code is governed by a BSD-style # license that can be found in the LICENSE file or at # https://developers.google.com/open-source/licenses/bsd """A utility to parse and generate PSSH boxes.""" import argparse import base64 import itertools import os import sys # Append the local protobuf location. Use a path relative to the tools/pssh # folder where this file should be found. This allows the file to be executed # from any directory. _pssh_dir = os.path.dirname(os.path.realpath(__file__)) sys.path.append(os.path.join(_pssh_dir, '../../third_party/protobuf/python')) # Import the widevine protobuf. Use either Release or Debug. _proto_path_format = os.path.join( _pssh_dir, '../../../out/%s/pyproto/packager/media/base') if os.path.isdir(_proto_path_format % 'Release'): sys.path.append(_proto_path_format % 'Release') else: sys.path.append(_proto_path_format % 'Debug') try: import widevine_pssh_data_pb2 # pylint: disable=g-import-not-at-top except ImportError: print >> sys.stderr, 'Cannot find proto file, make sure to build first' raise COMMON_SYSTEM_ID = base64.b16decode('1077EFECC0B24D02ACE33C1E52E2FB4B') WIDEVINE_SYSTEM_ID = base64.b16decode('EDEF8BA979D64ACEA3C827DCD51D21ED') PLAYREADY_SYSTEM_ID = base64.b16decode('9A04F07998404286AB92E65BE0885F95') class BinaryReader(object): """A helper class used to read binary data from an binary string.""" def __init__(self, data, little_endian): self.data = data self.little_endian = little_endian self.position = 0 def has_data(self): """Returns whether the reader has any data left to read.""" return self.position < len(self.data) def read_bytes(self, count): """Reads the given number of bytes into an array.""" if len(self.data) < self.position + count: raise Exception('Invalid PSSH box, not enough data') ret = self.data[self.position:self.position+count] self.position += count return ret def read_int(self, size): """Reads an integer of the given size (in bytes).""" data = self.read_bytes(size) ret = 0 for i in range(0, size): if self.little_endian: ret |= (ord(data[i]) << (8 * i)) else: ret |= (ord(data[i]) << (8 * (size - i - 1))) return ret class Pssh(object): """Defines a PSSH box and related functions.""" def __init__(self, version, system_id, key_ids, pssh_data): """Parses a PSSH box from the given data. Args: version: The version number of the box system_id: A binary string of the System ID key_ids: An array of binary strings for the key IDs pssh_data: A binary string of the PSSH data """ self.version = version self.system_id = system_id self.key_ids = key_ids or [] self.pssh_data = pssh_data or '' def binary_string(self): """Converts the PSSH box to a binary string.""" ret = b'pssh' + _create_bin_int(self.version << 24) ret += self.system_id if self.version == 1: ret += _create_bin_int(len(self.key_ids)) for key in self.key_ids: ret += key ret += _create_bin_int(len(self.pssh_data)) ret += self.pssh_data return _create_bin_int(len(ret) + 4) + ret def human_string(self): """Converts the PSSH box to a human readable string.""" system_name = '' convert_data = None if self.system_id == WIDEVINE_SYSTEM_ID: system_name = 'Widevine' convert_data = _parse_widevine_data elif self.system_id == PLAYREADY_SYSTEM_ID: system_name = 'PlayReady' convert_data = _parse_playready_data elif self.system_id == COMMON_SYSTEM_ID: system_name = 'Common' lines = [ 'PSSH Box v%d' % self.version, ' System ID: %s %s' % (system_name, _create_uuid(self.system_id)) ] if self.version == 1: lines.append(' Key IDs (%d):' % len(self.key_ids)) lines.extend([' ' + _create_uuid(key) for key in self.key_ids]) lines.append(' PSSH Data (size: %d):' % len(self.pssh_data)) if self.pssh_data: if convert_data: lines.append(' ' + system_name + ' Data:') try: extra = convert_data(self.pssh_data) lines.extend([' ' + x for x in extra]) # pylint: disable=broad-except except Exception as e: lines.append(' ERROR: ' + e.message) else: lines.extend([ ' Raw Data (base64):', ' ' + base64.b64encode(self.pssh_data) ]) return '\n'.join(lines) def _split_list_on(elems, sep): """Splits the given list on the given separator.""" return [list(g) for k, g in itertools.groupby(elems, lambda x: x == sep) if not k] def _create_bin_int(value): """Creates a 4-byte binary string from the given integer.""" return (chr(value >> 24) + chr((value >> 16) & 0xff) + chr((value >> 8) & 0xff) + chr(value & 0xff)) def _create_uuid(data): """Creates a human readable UUID string from the given binary string.""" ret = base64.b16encode(data).lower() return (ret[:8] + '-' + ret[8:12] + '-' + ret[12:16] + '-' + ret[16:20] + '-' + ret[20:]) def _generate_widevine_data(key_ids, content_id, provider): wv = widevine_pssh_data_pb2.WidevinePsshData() wv.key_id.extend(key_ids) wv.provider = provider or '' wv.content_id = content_id return wv.SerializeToString() def _parse_widevine_data(data): """Parses Widevine PSSH box from the given binary string.""" wv = widevine_pssh_data_pb2.WidevinePsshData() wv.ParseFromString(data) ret = [] if wv.key_id: ret.append('Key IDs (%d):' % len(wv.key_id)) ret.extend([' ' + _create_uuid(x) for x in wv.key_id]) if wv.HasField('provider'): ret.append('Provider: ' + wv.provider) if wv.HasField('content_id'): ret.append('Content ID: ' + base64.b16encode(wv.content_id)) if wv.HasField('policy'): ret.append('Policy: ' + wv.policy) if wv.HasField('crypto_period_index'): ret.append('Crypto Period Index: %d' % wv.crypto_period_index) return ret def _parse_playready_data(data): """Parses PlayReady PSSH data from the given binary string.""" reader = BinaryReader(data, little_endian=True) size = reader.read_int(4) if size != len(data): raise Exception('Length incorrect') ret = [] count = reader.read_int(2) while count > 0: count -= 1 record_type = reader.read_int(2) record_len = reader.read_int(2) record_data = reader.read_bytes(record_len) ret.append('Record (size %d):' % record_len) if record_type == 1: xml = record_data.decode('utf-16 LE') ret.extend([ ' Record Type: Rights Management Header (1)', ' Record XML:', ' ' + xml ]) elif record_type == 3: ret.extend([ ' Record Type: License Store (1)', ' License Data:', ' ' + base64.b64encode(record_data) ]) else: raise Exception('Invalid record type %d' % record_type) if reader.has_data(): raise Exception('Extra data after records') return ret def _parse_boxes(data): """Parses one or more PSSH boxes for the given binary data.""" reader = BinaryReader(data, little_endian=False) boxes = [] while reader.has_data(): start = reader.position size = reader.read_int(4) box_type = reader.read_bytes(4) if box_type != b'pssh': raise Exception( 'Invalid box type 0x%s, not \'pssh\'' % box_type.encode('hex')) version_and_flags = reader.read_int(4) version = version_and_flags >> 24 if version > 1: raise Exception('Invalid PSSH version %d' % version) system_id = reader.read_bytes(16) key_ids = [] if version == 1: count = reader.read_int(4) while count > 0: key = reader.read_bytes(16) key_ids.append(key) count -= 1 pssh_data_size = reader.read_int(4) pssh_data = reader.read_bytes(pssh_data_size) if start + size != reader.position: raise Exception('Box size does not match size of data') pssh = Pssh(version, system_id, key_ids, pssh_data) boxes.append(pssh) return boxes def _create_argument_parser(): """Creates an argument parser.""" def hex_16_bytes(string): if not string or len(string) != 32: raise argparse.ArgumentTypeError( 'Must be a 32-character hex string, %d given' % len(string)) return base64.b16decode(string) parser = argparse.ArgumentParser( formatter_class=argparse.RawDescriptionHelpFormatter, usage='[--base64 | --hex | --human] options [-- options [-- ...]', epilog="""\ This utility can be used to generate one or more PSSH boxes. This is done by passing a system ID and either --key-id or --pssh-data. Multiple boxes can be generated by separating boxes with --. Using --key-id will generate v1 pssh boxes, if none are given, it will generate v0. You can also import PSSH boxes using --from-base64 and --from-hex. These must be valid PSSH boxes, but can be multiple concatenated together. These arguments can appear anywhere in the string. If it appears 'inside' another definition, it will appear before the generated one. An alternative to --pssh-data is to generate Widevine PSSH data. This is only valid with --widevine-system-id. Passing --content-id will make it generate Widevine PSSH data instead. You can optionally add --provider. It will generate a v0 PSSH box for compatibility reasons.""") formats = parser.add_mutually_exclusive_group() formats.add_argument('--base64', dest='format', action='store_const', const='base64', help='Output base64 encoded') formats.add_argument('--hex', dest='format', action='store_const', const='hex', help='Output hexadecimal encoded') formats.add_argument('--human', dest='format', action='store_const', const='human', help='Output a human readable string') inputs = parser.add_mutually_exclusive_group() inputs.add_argument('--from-base64', metavar='', dest='input', type=base64.b64decode, help='Parse the given base64 encoded PSSH box') inputs.add_argument('--from-hex', metavar='', dest='input', type=base64.b16decode, help='Parse the given hexadecimal encoded PSSH box') system_ids = parser.add_mutually_exclusive_group() system_ids.add_argument('--system-id', metavar='', dest='system_id', type=hex_16_bytes, help='Sets the system ID') system_ids.add_argument('--common-system-id', dest='system_id', action='store_const', const=COMMON_SYSTEM_ID, help='Use the Common system ID') system_ids.add_argument('--widevine-system-id', dest='system_id', action='store_const', const=WIDEVINE_SYSTEM_ID, help='Use the Widevine system ID') extra = parser.add_argument_group() extra.add_argument('--key-id', metavar='', action='append', type=hex_16_bytes, help='Adds a key ID (can appear multiple times)') extra.add_argument('--pssh-data', metavar='', type=base64.b64decode, help='Sets the extra data') extra.add_argument('--content-id', metavar='', type=base64.b16decode, help='Sets the content ID of the Widevine PSSH data') extra.add_argument('--provider', metavar='', help='Sets the provider of the Widevine PSSH data') return parser def main(all_args): boxes = [] output_format = None parser = _create_argument_parser() arg_groups = _split_list_on(all_args, '--') for args in arg_groups: ns = parser.parse_args(args) if ns.format: if output_format: raise Exception('Can only specify one of: --base64, --hex, --human') else: output_format = ns.format if ns.input: boxes.extend(_parse_boxes(ns.input)) pssh_data = ns.pssh_data if pssh_data and ns.content_id: raise Exception('Cannot specify both --pssh-data and --content-id') if ns.content_id: if ns.system_id != WIDEVINE_SYSTEM_ID: raise Exception('--content-id only valid with Widevine system ID') pssh_data = _generate_widevine_data(ns.key_id, ns.content_id, ns.provider) # Ignore if we have no data. if not pssh_data and not ns.key_id and not ns.system_id: continue if not ns.system_id: raise Exception('System ID is required') version = 1 if ns.key_id and not ns.content_id else 0 boxes.append(Pssh(version, ns.system_id, ns.key_id, pssh_data)) if output_format == 'human' or not output_format: for box in boxes: print box.human_string() else: box_data = ''.join([x.binary_string() for x in boxes]) if output_format == 'hex': print base64.b16encode(box_data) else: print base64.b64encode(box_data) if __name__ == '__main__': main(sys.argv[1:])