#!/usr/bin/python # # Copyright 2014 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 """Tests utilizing the sample packager binary.""" import filecmp import os import platform import re import shutil import subprocess import tempfile import unittest import packager_app import test_env _TEST_FAILURE_COMMAND_LINE_MESSAGE = """ !!! To reproduce the failure, change the output files to an !!! !!! existing directory, e.g. output artifacts to current !!! !!! directory by removing /tmp/something/ in the following !!! !!! command line. !!! The test executed the following command line: """.strip() class StreamDescriptor(object): """Basic class used to build stream descriptor commands.""" def __init__(self, input_file): self.buffer = 'input=%s' % input_file def Append(self, key, value): self.buffer += ',%s=%s' % (key, value) return self def __str__(self): return self.buffer def GetExtension(stream_descriptor, output_format): # TODO(rkuroiwa): Support ttml. if stream_descriptor == 'text': return 'vtt' if output_format: return output_format # Default to mp4. return 'mp4' def GetSegmentedExtension(base_extension): if base_extension == 'mp4': return 'm4s' return base_extension class PackagerAppTest(unittest.TestCase): def setUp(self): self.packager = packager_app.PackagerApp() self.tmp_dir = tempfile.mkdtemp() self.test_data_dir = os.path.join(test_env.SRC_DIR, 'packager', 'media', 'test', 'data') self.golden_file_dir = os.path.join(test_env.SRC_DIR, 'packager', 'app', 'test', 'testdata') self.output_prefix = os.path.join(self.tmp_dir, 'output') self.mpd_output = self.output_prefix + '.mpd' self.hls_master_playlist_output = self.output_prefix + '.m3u8' self.output = [] # Test variables. self.encryption_key_id = '31323334353637383930313233343536' if test_env.options.encryption_key: self.encryption_key = test_env.options.encryption_key else: self.encryption_key = '32333435363738393021323334353637' if test_env.options.encryption_iv: self.encryption_iv = test_env.options.encryption_iv else: self.encryption_iv = '3334353637383930' self.widevine_content_id = '3031323334353637' # TS files may have a non-zero start, which could result in the first # segment to be less than 1 second. Set clear_lead to be less than 1 # so only the first segment is left in clear. self.clear_lead = 0.8 def tearDown(self): if test_env.options.remove_temp_files_after_test: shutil.rmtree(self.tmp_dir) def _GetStream(self, descriptor, language=None, output_format=None, segmented=False, hls=False, trick_play_factor=None, drm_label=None, skip_encryption=None, test_file=None, test_file_index=None): """Get a stream descriptor as a string. Create the stream descriptor as a string for the given parameters so that it can be passed as an input parameter to the packager. Args: descriptor: The name of the stream in the container that should be used as input for the output. language: The language override for the input stream. output_format: Specify the format for the output. segmented: Should the output use a segmented formatted. This will affect the output extensions and manifests. hls: Should the output be for an HLS manifest. trick_play_factor: Signals the stream is to be used for a trick play stream and which key frames to use. A trick play factor of 0 is the same as not specifying a trick play factor. drm_label: Sets the drm label for the stream. skip_encryption: If set to true, the stream will not be encrypted. test_file: Specify the input file to use. If the input file is not specify, a default file will be used. test_file_index: Specify the index of the input out of a group of input files. Returns: A string that makes up a single stream descriptor for input to the packager. """ test_file = test_file or 'bear-640x360.mp4' test_file = os.path.join(self.test_data_dir, test_file) if test_file_index is None: output_file = '%s_%s' % (self.output_prefix, descriptor) else: str_params = (self.output_prefix, test_file_index, descriptor) output_file = '%s_%d_%s' % str_params if trick_play_factor: output_file += '_trick_play_factor_%d' % trick_play_factor if skip_encryption: output_file += '_skip_encryption' stream = StreamDescriptor(test_file) stream.Append('stream', descriptor) base_ext = GetExtension(descriptor, output_format) requires_init_segment = segmented and base_ext not in ['ts', 'vtt'] if requires_init_segment: init_seg = '%s-init.%s' % (output_file, base_ext) stream.Append('init_segment', init_seg) if segmented: segment_ext = GetSegmentedExtension(base_ext) seg_template = '%s-$Number$.%s' % (output_file, segment_ext) stream.Append('segment_template', seg_template) else: output_file = '%s.%s' % (output_file, base_ext) stream.Append('output', output_file) self.output.append(output_file) if output_format: stream.Append('format', output_format) if language: stream.Append('lang', language) if hls: stream.Append('playlist_name', descriptor + '.m3u8') if trick_play_factor: stream.Append('trick_play_factor', trick_play_factor) if drm_label: stream.Append('drm_label', drm_label) if skip_encryption: stream.Append('skip_encryption', 1) return str(stream) def _GetStreams(self, streams, test_files=None, **kwargs): # Make sure there is a valid list that we can get the length from. test_files = test_files or [] test_files_count = len(test_files) out = [] if test_files_count == 0: for stream in streams: out.append(self._GetStream(stream, **kwargs)) elif test_files_count == 1: for stream in streams: out.append(self._GetStream(stream, test_file=test_files[0], **kwargs)) else: for index, filename in enumerate(test_files): for stream in streams: out.append(self._GetStream( stream, test_file_index=index, test_file=filename, **kwargs)) return out def _GetFlags(self, strip_parameter_set_nalus=True, encryption=False, fairplay=False, protection_scheme=None, vp9_subsample_encryption=True, decryption=False, random_iv=False, widevine_encryption=False, key_rotation=False, include_pssh_in_stream=True, dash_if_iop=True, output_media_info=False, output_hls=False, hls_playlist_type=None, time_shift_buffer_depth=0.0, generate_static_mpd=False, ad_cues=None, use_fake_clock=True): flags = [] if not strip_parameter_set_nalus: flags += ['--strip_parameter_set_nalus=false'] if widevine_encryption: widevine_server_url = ('https://license.uat.widevine.com/cenc' '/getcontentkey/widevine_test') flags += [ '--enable_widevine_encryption', '--key_server_url=' + widevine_server_url, '--content_id=' + self.widevine_content_id, ] elif encryption: flags += [ '--enable_raw_key_encryption', '--keys=label=:key_id={0}:key={1}'.format(self.encryption_key_id, self.encryption_key), '--clear_lead={0}'.format(self.clear_lead) ] if not random_iv: flags.append('--iv=' + self.encryption_iv) if fairplay: fairplay_pssh = ('000000207073736800000000' '29701FE43CC74A348C5BAE90C7439A4700000000') fairplay_key_uri = ('skd://www.license.com/' 'getkey?KeyId=31323334-3536-3738-3930-313233343536') flags += [ '--pssh=' + fairplay_pssh, '--hls_key_uri=' + fairplay_key_uri ] if protection_scheme: flags += ['--protection_scheme', protection_scheme] if not vp9_subsample_encryption: flags += ['--vp9_subsample_encryption=false'] if decryption: flags += [ '--enable_raw_key_decryption', '--keys=label=:key_id={0}:key={1}'.format(self.encryption_key_id, self.encryption_key) ] if key_rotation: flags.append('--crypto_period_duration=1') if not include_pssh_in_stream: flags.append('--mp4_include_pssh_in_stream=false') if not dash_if_iop: flags.append('--generate_dash_if_iop_compliant_mpd=false') if output_media_info: flags.append('--output_media_info') elif output_hls: flags += ['--hls_master_playlist_output', self.hls_master_playlist_output] if hls_playlist_type: flags += ['--hls_playlist_type', hls_playlist_type] if time_shift_buffer_depth != 0.0: flags += [ '--time_shift_buffer_depth={0}'.format(time_shift_buffer_depth) ] else: flags += ['--mpd_output', self.mpd_output] if generate_static_mpd: flags += ['--generate_static_mpd'] if ad_cues: flags += ['--ad_cues', ad_cues] flags.append('--segment_duration=1') # Use fake clock, so output can be compared. if use_fake_clock: flags.append('--use_fake_clock_for_muxer') # Override packager version string for testing. flags += ['--override_version', '--test_version', '--'] return flags def _CompareWithGold(self, test_output, golden_file_name): golden_file = os.path.join(self.golden_file_dir, golden_file_name) return filecmp.cmp(test_output, golden_file) def _GitDiff(self, file_a, file_b): cmd = [ 'git', '--no-pager', 'diff', '--color=auto', '--no-ext-diff', '--no-index', file_a, file_b ] p = subprocess.Popen(cmd, stderr=subprocess.PIPE, stdout=subprocess.PIPE) return p.communicate() def _DiffGold(self, test_output, golden_file_name): golden_file = os.path.join(self.golden_file_dir, golden_file_name) if test_env.options.test_update_golden_files: if not os.path.exists(golden_file) or not filecmp.cmp(test_output, golden_file): print 'Updating golden file: ', golden_file_name shutil.copyfile(test_output, golden_file) else: match = filecmp.cmp(test_output, golden_file) if not match: output, error = self._GitDiff(test_output, golden_file) command_line = self.packager.GetCommandLine() failure_message = '\n'.join([ output, error, _TEST_FAILURE_COMMAND_LINE_MESSAGE, command_line ]) self.fail(failure_message) # '*.media_info' outputs contain media file names, which is changing for # every test run. These needs to be replaced for comparison. def _DiffMediaInfoGold(self, test_output, golden_file_name): if platform.system() == 'Windows': test_output = test_output.replace('\\', '\\\\') media_info_output = test_output + '.media_info' # Replaces filename, which is changing for every test run. with open(media_info_output, 'rb') as f: content = f.read() with open(media_info_output, 'wb') as f: f.write(content.replace(test_output, 'place_holder')) self._DiffGold(media_info_output, golden_file_name + '.media_info') def _DiffLiveGold(self, test_output_prefix, golden_file_name_prefix, output_format='mp4'): # Compare init and the first three segments. if output_format == 'ts': for i in range(1, 4): self._DiffGold('%s-%d.ts' % (test_output_prefix, i), '%s-%d.ts' % (golden_file_name_prefix, i)) else: self._DiffGold(test_output_prefix + '-init.mp4', golden_file_name_prefix + '-init.mp4') for i in range(1, 4): self._DiffGold('%s-%d.m4s' % (test_output_prefix, i), '%s-%d.m4s' % (golden_file_name_prefix, i)) # Live mpd contains current availabilityStartTime and publishTime, which # needs to be replaced for comparison. def _DiffLiveMpdGold(self, test_output, golden_file_name): with open(test_output, 'rb') as f: content = f.read() # Extract availabilityStartTime. m = re.search('availabilityStartTime="[^"]+"', content) self.assertIsNotNone(m) availability_start_time = m.group(0) print availability_start_time # Extract publishTime. m = re.search('publishTime="[^"]+"', content) self.assertIsNotNone(m) publish_time = m.group(0) print publish_time with open(test_output, 'wb') as f: f.write(content.replace( availability_start_time, 'availabilityStartTime="some_availability_start_time"').replace( publish_time, 'publishTime="some_publish_time"')) self._DiffGold(test_output, golden_file_name) # |test_dir| is expected to be relative to |self.golden_file_dir|. def _CheckTestResults(self, test_dir): if test_env.options.test_update_golden_files: self._UpdateGold(test_dir) else: self._DiffDir(test_dir) # |test_dir| is expected to be relative to |self.golden_file_dir|. def _UpdateGold(self, test_dir): out_dir = self.tmp_dir gold_dir = os.path.join(self.golden_file_dir, test_dir) if not os.path.exists(gold_dir): os.makedirs(gold_dir) # Get a list of the files and dirs that are different between the two top # level directories. diff = filecmp.dircmp(out_dir, gold_dir) # Files in the output that are not in the gold dir yet, need to be copied # over. for filename in diff.left_only: shutil.copyfile( os.path.join(out_dir, filename), os.path.join(gold_dir, filename)) # Files in the gold dir but not in the output need to be removed. for filename in diff.right_only: os.remove(os.path.join(gold_dir, filename)) # Copy any changed files over to the gold directory. for filename in diff.diff_files: shutil.copyfile( os.path.join(out_dir, filename), os.path.join(gold_dir, filename)) # |test_dir| is expected to be relative to |self.golden_file_dir|. def _DiffDir(self, test_dir): out_dir = self.tmp_dir gold_dir = os.path.join(self.golden_file_dir, test_dir) # Get a list of the files and dirs that are different between the two top # level directories. diff = filecmp.dircmp(out_dir, gold_dir) # Create a list of all the details about the failure. The list will be # joined together when sent out. failure_messages = [] missing = diff.left_only if missing: failure_messages += [ 'Missing %d files: %s' % (len(missing), str(missing)) ] extra = diff.right_only if extra: failure_messages += [ 'Found %d unexpected files: %s' % (len(extra), str(extra)) ] # Produce nice diffs for each file that differs. for diff_file in diff.diff_files: actual_file = os.path.join(out_dir, diff_file) expected_file = os.path.join(gold_dir, diff_file) output, error = self._GitDiff(actual_file, expected_file) if output: failure_messages += [output] if error: failure_messages += [error] if failure_messages: # Prepend the failure messages with the header. failure_messages = [ _TEST_FAILURE_COMMAND_LINE_MESSAGE, self.packager.GetCommandLine() ] + failure_messages self.fail('\n'.join(failure_messages)) class PackagerFunctionalTest(PackagerAppTest): def assertPackageSuccess(self, streams, flags=None): self.assertEqual(self.packager.Package(streams, flags), 0) def testVersion(self): self.assertRegexpMatches( self.packager.Version(), '^packager(.exe)? version ' r'((?P[\w\.]+)-)?(?P[a-f\d]+)-(debug|release)[\r\n]+.*$') def testDumpStreamInfo(self): test_file = os.path.join(self.test_data_dir, 'bear-640x360.mp4') stream_info = self.packager.DumpStreamInfo(test_file) expected_stream_info = ('Found 2 stream(s).\n' 'Stream [0] type: Video\n' ' codec_string: avc1.64001e\n' ' time_scale: 30000\n' ' duration: 82082 (2.7 seconds)\n' ' is_encrypted: false\n' ' codec: H264\n' ' width: 640\n' ' height: 360\n' ' pixel_aspect_ratio: 1:1\n' ' trick_play_factor: 0\n' ' nalu_length_size: 4\n\n' 'Stream [1] type: Audio\n' ' codec_string: mp4a.40.2\n' ' time_scale: 44100\n' ' duration: 121856 (2.8 seconds)\n' ' is_encrypted: false\n' ' codec: AAC\n' ' sample_bits: 16\n' ' num_channels: 2\n' ' sampling_frequency: 44100\n' ' language: und\n') stream_info = stream_info.replace('\r\n', '\n') self.assertIn(expected_stream_info, stream_info, '\nExpecting: \n %s\n\nBut seeing: \n%s' % (expected_stream_info, stream_info)) def testPackageFirstStream(self): self.assertPackageSuccess(self._GetStreams(['0']), self._GetFlags()) self._CheckTestResults('first-stream') def testPackageText(self): self.assertPackageSuccess( self._GetStreams(['text'], test_files=['subtitle-english.vtt']), self._GetFlags()) self._CheckTestResults('text') # Probably one of the most common scenarios is to package audio and video. def testPackageAudioVideo(self): self.assertPackageSuccess( self._GetStreams(['audio', 'video']), self._GetFlags()) self._CheckTestResults('audio-video') def testPackageAudioVideoWithTrickPlay(self): streams = [ self._GetStream('audio'), self._GetStream('video'), self._GetStream('video', trick_play_factor=1), ] self.assertPackageSuccess(streams, self._GetFlags()) self._CheckTestResults('audio-video-with-trick-play') def testPackageAudioVideoWithTwoTrickPlay(self): streams = [ self._GetStream('audio'), self._GetStream('video'), self._GetStream('video', trick_play_factor=1), self._GetStream('video', trick_play_factor=2), ] self.assertPackageSuccess(streams, self._GetFlags()) self._CheckTestResults('audio-video-with-two-trick-play') def testPackageAudioVideoWithTwoTrickPlayDecreasingRate(self): streams = [ self._GetStream('audio'), self._GetStream('video'), self._GetStream('video', trick_play_factor=2), self._GetStream('video', trick_play_factor=1), ] self.assertPackageSuccess(streams, self._GetFlags()) # Since the stream descriptors are sorted in packager app, a different # order of trick play factors gets the same mpd. self._CheckTestResults('audio-video-with-two-trick-play') def testPackageAudioVideoWithLanguageOverride(self): self.assertPackageSuccess( self._GetStreams(['audio', 'video'], language='por-BR'), self._GetFlags()) self._CheckTestResults('audio-video-with-language-override') def testPackageAudioVideoWithLanguageOverrideWithSubtag(self): self.assertPackageSuccess( self._GetStreams(['audio', 'video'], language='por-BR'), self._GetFlags()) self._CheckTestResults('audio-video-with-language-override-with-subtag') def testPackageAacHe(self): self.assertPackageSuccess( self._GetStreams( ['audio'], test_files=['bear-640x360-aac_he-silent_right.mp4']), self._GetFlags()) self._CheckTestResults('acc-he') # Package all video, audio, and text. def testPackageVideoAudioText(self): audio_video_streams = self._GetStreams(['audio', 'video']) text_stream = self._GetStreams(['text'], test_files=['subtitle-english.vtt']) self.assertPackageSuccess(audio_video_streams + text_stream, self._GetFlags()) self._CheckTestResults('video-audio-text') def testPackageAvcAacTs(self): # Currently we only support live packaging for ts. self.assertPackageSuccess( self._GetStreams( ['audio', 'video'], output_format='ts', segmented=True, hls=True, test_files=['bear-640x360.ts']), self._GetFlags(output_hls=True)) self._CheckTestResults('avc-aac-ts') def testPackageAvcAc3Ts(self): # Currently we only support live packaging for ts. self.assertPackageSuccess( self._GetStreams( ['audio', 'video'], output_format='ts', segmented=True, hls=True, test_files=['bear-640x360-ac3.ts']), self._GetFlags(output_hls=True)) self._CheckTestResults('avc-ac3-ts') def testPackageAvcAc3TsToMp4(self): self.assertPackageSuccess( self._GetStreams( ['audio', 'video'], hls=True, test_files=['bear-640x360-ac3.ts']), self._GetFlags(output_hls=True)) self._CheckTestResults('avc-ac3-ts-to-mp4') def testPackageAvcTsLivePlaylist(self): self.assertPackageSuccess( self._GetStreams( ['audio', 'video'], output_format='ts', segmented=True, hls=True, test_files=['bear-640x360.ts']), self._GetFlags( output_hls=True, hls_playlist_type='LIVE', time_shift_buffer_depth=0.5)) self._CheckTestResults('avc-ts-live-playlist') def testPackageAvcTsLivePlaylistWithKeyRotation(self): self.packager.Package( self._GetStreams( ['audio', 'video'], output_format='ts', segmented=True, hls=True, test_files=['bear-640x360.ts']), self._GetFlags( encryption=True, key_rotation=True, output_hls=True, hls_playlist_type='LIVE', time_shift_buffer_depth=0.5)) self._CheckTestResults('avc-ts-live-playlist-with-key-rotation') def testPackageAvcTsEventPlaylist(self): self.assertPackageSuccess( self._GetStreams( ['audio', 'video'], output_format='ts', segmented=True, hls=True, test_files=['bear-640x360.ts']), self._GetFlags( output_hls=True, hls_playlist_type='EVENT', time_shift_buffer_depth=0.5)) self._CheckTestResults('avc-ts-event-playlist') def testPackageVp8Webm(self): self.assertPackageSuccess( self._GetStreams(['video'], output_format='webm', test_files=['bear-640x360.webm']), self._GetFlags()) self._CheckTestResults('vp8-webm') def testPackageVp9Webm(self): self.assertPackageSuccess( self._GetStreams(['audio', 'video'], output_format='webm', test_files=['bear-320x240-vp9-opus.webm']), self._GetFlags()) self._CheckTestResults('vp9-webm') def testPackageVp9WebmWithBlockgroup(self): self.assertPackageSuccess( self._GetStreams(['video'], output_format='webm', test_files=['bear-vp9-blockgroup.webm']), self._GetFlags()) self._CheckTestResults('vp9-webm-with-blockgroup') def testPackageVorbisWebm(self): self.assertPackageSuccess( self._GetStreams(['audio'], output_format='webm', test_files=['bear-320x240-audio-only.webm']), self._GetFlags()) self._CheckTestResults('vorbis-webm') def testPackageEncryption(self): self.assertPackageSuccess( self._GetStreams(['audio', 'video']), self._GetFlags(encryption=True)) self._DiffGold(self.output[0], 'bear-640x360-a-cenc-golden.mp4') self._DiffGold(self.output[1], 'bear-640x360-v-cenc-golden.mp4') self._DiffGold(self.mpd_output, 'bear-640x360-av-cenc-golden.mpd') self._VerifyDecryption(self.output[0], 'bear-640x360-a-demuxed-golden.mp4') self._VerifyDecryption(self.output[1], 'bear-640x360-v-golden.mp4') # Test deprecated flag --enable_fixed_key_encryption, which is still # supported currently. def testPackageEncryptionUsingFixedKey(self): flags = self._GetFlags() + [ '--enable_fixed_key_encryption', '--key_id={0}'.format( self.encryption_key_id), '--key={0}'.format(self.encryption_key), '--clear_lead={0}'.format(self.clear_lead), '--iv={0}'.format( self.encryption_iv) ] self.assertPackageSuccess(self._GetStreams(['audio', 'video']), flags) self._DiffGold(self.output[0], 'bear-640x360-a-cenc-golden.mp4') self._DiffGold(self.output[1], 'bear-640x360-v-cenc-golden.mp4') self._DiffGold(self.mpd_output, 'bear-640x360-av-cenc-golden.mpd') self._VerifyDecryption(self.output[0], 'bear-640x360-a-demuxed-golden.mp4') self._VerifyDecryption(self.output[1], 'bear-640x360-v-golden.mp4') def testPackageEncryptionMultiKeys(self): audio_key_id = '10111213141516171819202122232425' audio_key = '11121314151617181920212223242526' video_key_id = '20212223242526272829303132333435' video_key = '21222324252627282930313233343536' flags = self._GetFlags() + [ '--enable_raw_key_encryption', '--keys=label=AUDIO:key_id={0}:key={1},label=SD:key_id={2}:key={3}'. format(audio_key_id, audio_key, video_key_id, video_key), '--clear_lead={0}'.format( self.clear_lead), '--iv={0}'.format(self.encryption_iv) ] self.assertPackageSuccess(self._GetStreams(['audio', 'video']), flags) self.encryption_key_id = audio_key_id self.encryption_key = audio_key self._VerifyDecryption(self.output[0], 'bear-640x360-a-demuxed-golden.mp4') self.encryption_key_id = video_key_id self.encryption_key = video_key self._VerifyDecryption(self.output[1], 'bear-640x360-v-golden.mp4') def testPackageEncryptionMultiKeysWithStreamLabel(self): audio_key_id = '20212223242526272829303132333435' audio_key = '21222324252627282930313233343536' video_key_id = '10111213141516171819202122232425' video_key = '11121314151617181920212223242526' flags = self._GetFlags() + [ '--enable_raw_key_encryption', '--keys=label=MyAudio:key_id={0}:key={1},label=:key_id={2}:key={3}'. format(audio_key_id, audio_key, video_key_id, video_key), '--clear_lead={0}'.format( self.clear_lead), '--iv={0}'.format(self.encryption_iv) ] # DRM label 'MyVideo' is not defined, will fall back to the key for the # empty default label. streams = [ self._GetStream('audio', drm_label='MyAudio'), self._GetStream('video', drm_label='MyVideo') ] self.assertPackageSuccess(streams, flags) self.encryption_key_id = audio_key_id self.encryption_key = audio_key self._VerifyDecryption(self.output[0], 'bear-640x360-a-demuxed-golden.mp4') self.encryption_key_id = video_key_id self.encryption_key = video_key self._VerifyDecryption(self.output[1], 'bear-640x360-v-golden.mp4') def testPackageEncryptionOfOnlyVideoStream(self): streams = [ self._GetStream('audio', skip_encryption=True), self._GetStream('video') ] flags = self._GetFlags(encryption=True) self.assertPackageSuccess(streams, flags) self._DiffGold(self.output[0], 'bear-640x360-a-golden.mp4') self._DiffGold(self.output[1], 'bear-640x360-v-cenc-golden.mp4') self._DiffGold(self.mpd_output, 'bear-640x360-a-clear-v-cenc-golden.mpd') self._VerifyDecryption(self.output[1], 'bear-640x360-v-golden.mp4') def testPackageEncryptionAndTrickPlay(self): streams = [ self._GetStream('audio'), self._GetStream('video'), self._GetStream('video', trick_play_factor=1), ] self.assertPackageSuccess(streams, self._GetFlags(encryption=True)) self._DiffGold(self.output[0], 'bear-640x360-a-cenc-golden.mp4') self._DiffGold(self.output[1], 'bear-640x360-v-cenc-golden.mp4') self._DiffGold(self.output[2], 'bear-640x360-v-trick-1-cenc-golden.mp4') self._DiffGold(self.mpd_output, 'bear-640x360-av-trick-1-cenc-golden.mpd') self._VerifyDecryption(self.output[0], 'bear-640x360-a-demuxed-golden.mp4') self._VerifyDecryption(self.output[1], 'bear-640x360-v-golden.mp4') self._VerifyDecryption(self.output[2], 'bear-640x360-v-trick-1-golden.mp4') # TODO(hmchen): Add a test case that SD and HD AdapatationSet share one trick # play stream. def testPackageEncryptionAndTwoTrickPlays(self): streams = [ self._GetStream('audio'), self._GetStream('video'), self._GetStream('video', trick_play_factor=1), self._GetStream('video', trick_play_factor=2), ] self.assertPackageSuccess(streams, self._GetFlags(encryption=True)) self._DiffGold(self.output[0], 'bear-640x360-a-cenc-golden.mp4') self._DiffGold(self.output[1], 'bear-640x360-v-cenc-golden.mp4') self._DiffGold(self.output[2], 'bear-640x360-v-trick-1-cenc-golden.mp4') self._DiffGold(self.output[3], 'bear-640x360-v-trick-2-cenc-golden.mp4') self._DiffGold(self.mpd_output, 'bear-640x360-av-trick-1-trick-2-cenc-golden.mpd') self._VerifyDecryption(self.output[0], 'bear-640x360-a-demuxed-golden.mp4') self._VerifyDecryption(self.output[1], 'bear-640x360-v-golden.mp4') self._VerifyDecryption(self.output[2], 'bear-640x360-v-trick-1-golden.mp4') self._VerifyDecryption(self.output[3], 'bear-640x360-v-trick-2-golden.mp4') def testPackageEncryptionAndNoClearLead(self): self.clear_lead = 0 self.assertPackageSuccess( self._GetStreams(['audio', 'video']), self._GetFlags(encryption=True)) self._DiffGold(self.output[0], 'bear-640x360-a-cenc-no-clear-lead-golden.mp4') self._DiffGold(self.output[1], 'bear-640x360-v-cenc-no-clear-lead-golden.mp4') self._DiffGold(self.mpd_output, 'bear-640x360-av-cenc-no-clear-lead-golden.mpd') self._VerifyDecryption(self.output[0], 'bear-640x360-a-demuxed-golden.mp4') self._VerifyDecryption(self.output[1], 'bear-640x360-v-golden.mp4') def testPackageEncryptionAndNoPsshInStream(self): self.assertPackageSuccess( self._GetStreams(['audio', 'video']), self._GetFlags(encryption=True, include_pssh_in_stream=False)) self._DiffGold(self.output[0], 'bear-640x360-a-cenc-no-pssh-golden.mp4') self._DiffGold(self.output[1], 'bear-640x360-v-cenc-no-pssh-golden.mp4') self._DiffGold(self.mpd_output, 'bear-640x360-av-cenc-no-pssh-golden.mpd') self._VerifyDecryption(self.output[0], 'bear-640x360-a-demuxed-golden.mp4') self._VerifyDecryption(self.output[1], 'bear-640x360-v-golden.mp4') def testPackageEncryptionCbc1(self): self.assertPackageSuccess( self._GetStreams(['audio', 'video']), self._GetFlags(encryption=True, protection_scheme='cbc1')) self._DiffGold(self.output[0], 'bear-640x360-a-cbc1-golden.mp4') self._DiffGold(self.output[1], 'bear-640x360-v-cbc1-golden.mp4') self._DiffGold(self.mpd_output, 'bear-640x360-av-cbc1-golden.mpd') self._VerifyDecryption(self.output[0], 'bear-640x360-a-demuxed-golden.mp4') self._VerifyDecryption(self.output[1], 'bear-640x360-v-golden.mp4') def testPackageEncryptionCens(self): self.assertPackageSuccess( self._GetStreams(['audio', 'video']), self._GetFlags(encryption=True, protection_scheme='cens')) self._DiffGold(self.output[0], 'bear-640x360-a-cens-golden.mp4') self._DiffGold(self.output[1], 'bear-640x360-v-cens-golden.mp4') self._DiffGold(self.mpd_output, 'bear-640x360-av-cens-golden.mpd') self._VerifyDecryption(self.output[0], 'bear-640x360-a-demuxed-golden.mp4') self._VerifyDecryption(self.output[1], 'bear-640x360-v-golden.mp4') def testPackageEncryptionCbcs(self): self.assertPackageSuccess( self._GetStreams(['audio', 'video']), self._GetFlags(encryption=True, protection_scheme='cbcs')) self._DiffGold(self.output[0], 'bear-640x360-a-cbcs-golden.mp4') self._DiffGold(self.output[1], 'bear-640x360-v-cbcs-golden.mp4') self._DiffGold(self.mpd_output, 'bear-640x360-av-cbcs-golden.mpd') self._VerifyDecryption(self.output[0], 'bear-640x360-a-demuxed-golden.mp4') self._VerifyDecryption(self.output[1], 'bear-640x360-v-golden.mp4') def testPackageEncryptionAndAdCues(self): self.assertPackageSuccess( self._GetStreams(['audio', 'video']), self._GetFlags(encryption=True, ad_cues='1.5')) self._DiffGold(self.output[0], 'bear-640x360-a-cenc-golden.mp4') self._DiffGold(self.output[1], 'bear-640x360-v-cenc-golden.mp4') self._DiffGold(self.mpd_output, 'bear-640x360-av-cenc-ad_cues-golden.mpd') self._VerifyDecryption(self.output[0], 'bear-640x360-a-demuxed-golden.mp4') self._VerifyDecryption(self.output[1], 'bear-640x360-v-golden.mp4') def testPackageWebmSubsampleEncryption(self): self.assertPackageSuccess( self._GetStreams(['video'], output_format='webm', test_files=['bear-320x180-vp9-altref.webm']), self._GetFlags(encryption=True)) self._DiffGold(self.output[0], 'bear-320x180-vp9-altref-enc-golden.webm') self._VerifyDecryption(self.output[0], 'bear-320x180-vp9-altref-dec-golden.webm') def testPackageWebmVp9FullSampleEncryption(self): self.assertPackageSuccess( self._GetStreams(['video'], output_format='webm', test_files=['bear-320x180-vp9-altref.webm']), self._GetFlags(encryption=True, vp9_subsample_encryption=False)) self._DiffGold(self.output[0], 'bear-320x180-vp9-fullsample-enc-golden.webm') self._VerifyDecryption(self.output[0], 'bear-320x180-vp9-altref-dec-golden.webm') def testPackageAvcTsWithEncryption(self): # Currently we only support live packaging for ts. self.assertPackageSuccess( self._GetStreams( ['audio', 'video'], output_format='ts', segmented=True, hls=True, test_files=['bear-640x360.ts']), self._GetFlags(encryption=True, output_hls=True)) self._DiffLiveGold(self.output[0], 'bear-640x360-a-enc-golden', output_format='ts') self._DiffLiveGold(self.output[1], 'bear-640x360-v-enc-golden', output_format='ts') self._DiffGold(self.hls_master_playlist_output, 'bear-640x360-av-master-golden.m3u8') self._DiffGold( os.path.join(self.tmp_dir, 'audio.m3u8'), 'bear-640x360-a-enc-golden.m3u8') self._DiffGold( os.path.join(self.tmp_dir, 'video.m3u8'), 'bear-640x360-v-enc-golden.m3u8') def testPackageAvcTsWithEncryptionAndFairplay(self): # Currently we only support live packaging for ts. self.assertPackageSuccess( self._GetStreams( ['audio', 'video'], output_format='ts', segmented=True, hls=True, test_files=['bear-640x360.ts']), self._GetFlags(encryption=True, output_hls=True, fairplay=True)) self._DiffLiveGold(self.output[0], 'bear-640x360-a-enc-golden', output_format='ts') self._DiffLiveGold(self.output[1], 'bear-640x360-v-enc-golden', output_format='ts') self._DiffGold(self.hls_master_playlist_output, 'bear-640x360-av-master-golden.m3u8') self._DiffGold( os.path.join(self.tmp_dir, 'audio.m3u8'), 'bear-640x360-a-fairplay-enc-golden.m3u8') self._DiffGold( os.path.join(self.tmp_dir, 'video.m3u8'), 'bear-640x360-v-fairplay-enc-golden.m3u8') def testPackageAvcAc3TsWithEncryption(self): # Currently we only support live packaging for ts. self.assertPackageSuccess( self._GetStreams( ['audio', 'video'], output_format='ts', segmented=True, hls=True, test_files=['bear-640x360-ac3.ts']), self._GetFlags(encryption=True, output_hls=True)) self._DiffLiveGold(self.output[0], 'bear-640x360-ac3-enc-golden', output_format='ts') self._DiffLiveGold(self.output[1], 'bear-640x360-v-enc-golden', output_format='ts') self._DiffGold(self.hls_master_playlist_output, 'bear-640x360-av-ac3-master-golden.m3u8') self._DiffGold( os.path.join(self.tmp_dir, 'audio.m3u8'), 'bear-640x360-ac3-enc-golden.m3u8') self._DiffGold( os.path.join(self.tmp_dir, 'video.m3u8'), 'bear-640x360-v-enc-golden.m3u8') def testPackageAvcTsWithEncryptionExerciseEmulationPrevention(self): self.encryption_key = 'ad7e9786def9159db6724be06dfcde7a' # Currently we only support live packaging for ts. self.assertPackageSuccess( self._GetStreams( ['video'], output_format='ts', segmented=True, hls=True, test_files=['sintel-1024x436.mp4']), self._GetFlags( encryption=True, output_hls=True)) self._DiffLiveGold(self.output[0], 'sintel-1024x436-v-enc-golden', output_format='ts') self._DiffGold(self.hls_master_playlist_output, 'sintel-1024x436-v-enc-master-golden.m3u8') self._DiffGold( os.path.join(self.tmp_dir, 'video.m3u8'), 'sintel-1024x436-v-enc-golden.m3u8') def testPackageWebmWithEncryption(self): self.assertPackageSuccess( self._GetStreams(['video'], output_format='webm', test_files=['bear-640x360.webm']), self._GetFlags(encryption=True)) self._DiffGold(self.output[0], 'bear-640x360-vp8-cenc-golden.webm') self._DiffGold(self.mpd_output, 'bear-640x360-vp8-cenc-webm-golden.mpd') self._VerifyDecryption(self.output[0], 'bear-640x360-vp8-golden.webm') def testPackageHevcWithEncryption(self): self.assertPackageSuccess( self._GetStreams(['video'], test_files=['bear-640x360-hevc.mp4']), self._GetFlags(encryption=True)) self._DiffGold(self.output[0], 'bear-640x360-hevc-cenc-golden.mp4') self._DiffGold(self.mpd_output, 'bear-640x360-hevc-cenc-golden.mpd') self._VerifyDecryption(self.output[0], 'bear-640x360-hevc-golden.mp4') def testPackageVp8Mp4WithEncryption(self): self.assertPackageSuccess( self._GetStreams(['video'], output_format='mp4', test_files=['bear-640x360.webm']), self._GetFlags(encryption=True)) self._DiffGold(self.output[0], 'bear-640x360-vp8-cenc-golden.mp4') self._DiffGold(self.mpd_output, 'bear-640x360-vp8-cenc-golden.mpd') self._VerifyDecryption(self.output[0], 'bear-640x360-vp8-golden.mp4') def testPackageOpusVp9Mp4WithEncryption(self): self.assertPackageSuccess( self._GetStreams(['audio', 'video'], output_format='mp4', test_files=['bear-320x240-vp9-opus.webm']), self._GetFlags(encryption=True)) self._DiffGold(self.output[0], 'bear-320x240-opus-cenc-golden.mp4') self._DiffGold(self.output[1], 'bear-320x240-vp9-cenc-golden.mp4') self._DiffGold(self.mpd_output, 'bear-320x240-opus-vp9-cenc-golden.mpd') self._VerifyDecryption(self.output[0], 'bear-320x240-opus-golden.mp4') self._VerifyDecryption(self.output[1], 'bear-320x240-vp9-golden.mp4') def testPackageWvmInput(self): self.encryption_key = '9248d245390e0a49d483ba9b43fc69c3' self.assertPackageSuccess( self._GetStreams( ['0', '1', '2', '3'], test_files=['bear-multi-configs.wvm']), self._GetFlags(decryption=True)) # Output timescale is 90000. self._CheckTestResults('wvm-input') # TODO(kqyang): Fix shared_library not supporting strip_parameter_set_nalus # problem. @unittest.skipUnless( test_env.options.libpackager_type == 'static_library', 'libpackager shared_library does not support ' '--strip_parameter_set_nalus flag.' ) def testPackageWvmInputWithoutStrippingParameterSetNalus(self): self.encryption_key = '9248d245390e0a49d483ba9b43fc69c3' self.assertPackageSuccess( self._GetStreams( ['0', '1', '2', '3'], test_files=['bear-multi-configs.wvm']), self._GetFlags(strip_parameter_set_nalus=False, decryption=True)) # Output timescale is 90000. self._CheckTestResults('wvm-input-without-stripping-parameters-set-nalus') def testPackageEncryptionAndRandomIv(self): self.assertPackageSuccess( self._GetStreams(['audio', 'video']), self._GetFlags(encryption=True, random_iv=True)) self._AssertStreamInfo(self.output[0], 'is_encrypted: true') self._AssertStreamInfo(self.output[1], 'is_encrypted: true') # The outputs are encrypted with random iv, so they are not the same as # golden files. self.assertFalse(self._CompareWithGold(self.output[0], 'bear-640x360-a-cenc-golden.mp4')) self.assertFalse(self._CompareWithGold(self.output[1], 'bear-640x360-v-cenc-golden.mp4')) self._DiffGold(self.mpd_output, 'bear-640x360-av-cenc-golden.mpd') self._VerifyDecryption(self.output[0], 'bear-640x360-a-demuxed-golden.mp4') self._VerifyDecryption(self.output[1], 'bear-640x360-v-golden.mp4') def testPackageEncryptionAndRealClock(self): self.assertPackageSuccess( self._GetStreams(['audio', 'video']), self._GetFlags(encryption=True, use_fake_clock=False)) self._AssertStreamInfo(self.output[0], 'is_encrypted: true') self._AssertStreamInfo(self.output[1], 'is_encrypted: true') # The outputs are generated with real clock, so they are not the same as # golden files. self.assertFalse(self._CompareWithGold(self.output[0], 'bear-640x360-a-cenc-golden.mp4')) self.assertFalse(self._CompareWithGold(self.output[1], 'bear-640x360-v-cenc-golden.mp4')) self._DiffGold(self.mpd_output, 'bear-640x360-av-cenc-golden.mpd') self._VerifyDecryption(self.output[0], 'bear-640x360-a-demuxed-golden.mp4') self._VerifyDecryption(self.output[1], 'bear-640x360-v-golden.mp4') def testPackageEncryptionAndNonDashIfIop(self): self.assertPackageSuccess( self._GetStreams(['audio', 'video']), self._GetFlags(encryption=True, dash_if_iop=False)) self._DiffGold(self.output[0], 'bear-640x360-a-cenc-golden.mp4') self._DiffGold(self.output[1], 'bear-640x360-v-cenc-golden.mp4') self._DiffGold(self.mpd_output, 'bear-640x360-av-cenc-non-iop-golden.mpd') def testPackageEncryptionAndOutputMediaInfo(self): self.assertPackageSuccess( self._GetStreams(['audio', 'video']), self._GetFlags(encryption=True, output_media_info=True)) self._DiffGold(self.output[0], 'bear-640x360-a-cenc-golden.mp4') self._DiffGold(self.output[1], 'bear-640x360-v-cenc-golden.mp4') self._DiffMediaInfoGold(self.output[0], 'bear-640x360-a-cenc-golden.mp4') self._DiffMediaInfoGold(self.output[1], 'bear-640x360-v-cenc-golden.mp4') def testPackageHlsSingleSegmentMp4Encrypted(self): self.assertPackageSuccess( self._GetStreams(['audio', 'video'], hls=True), self._GetFlags(encryption=True, output_hls=True)) self._CheckTestResults('hls-single-segment-mp4-encrypted') def testPackageEc3AndHlsSingleSegmentMp4Encrypted(self): self.assertPackageSuccess( self._GetStreams( ['audio', 'video'], hls=True, test_files=['bear-640x360-ec3.mp4']), self._GetFlags(encryption=True, output_hls=True)) self._CheckTestResults('ec3-and-hls-single-segment-mp4-encrypted') def testPackageHlsSingleSegmentMp4EncryptedAndAdCues(self): self.assertPackageSuccess( self._GetStreams(['audio', 'video'], hls=True), self._GetFlags(encryption=True, output_hls=True, ad_cues='1.5')) self._CheckTestResults('hls-single-segment-mp4-encrypted-and-ad-cues') # Test HLS with multi-segment mp4 and content in subdirectories. def testPackageHlsMultiSegmentMp4WithCustomPath(self): test_file = os.path.join(self.test_data_dir, 'bear-640x360.mp4') # {tmp}/audio/audio-init.mp4, {tmp}/audio/audio-1.m4s etc. audio_output_prefix = os.path.join(self.tmp_dir, 'audio', 'audio') # {tmp}/video/video-init.mp4, {tmp}/video/video-1.m4s etc. video_output_prefix = os.path.join(self.tmp_dir, 'video', 'video') self.assertPackageSuccess( [ 'input=%s,stream=audio,init_segment=%s-init.mp4,' 'segment_template=%s-$Number$.m4s,playlist_name=audio/audio.m3u8' % (test_file, audio_output_prefix, audio_output_prefix), 'input=%s,stream=video,init_segment=%s-init.mp4,' 'segment_template=%s-$Number$.m4s,playlist_name=video/video.m3u8' % (test_file, video_output_prefix, video_output_prefix), ], self._GetFlags(output_hls=True)) self._DiffLiveGold(audio_output_prefix, 'bear-640x360-a-live-golden') self._DiffLiveGold(video_output_prefix, 'bear-640x360-v-live-golden') self._DiffGold(self.hls_master_playlist_output, 'bear-640x360-av-mp4-master-golden.m3u8') self._DiffGold( os.path.join(self.tmp_dir, 'audio', 'audio.m3u8'), 'bear-640x360-a-mp4-golden.m3u8') self._DiffGold( os.path.join(self.tmp_dir, 'video', 'video.m3u8'), 'bear-640x360-v-mp4-golden.m3u8') def testPackageLiveProfile(self): self.assertPackageSuccess( self._GetStreams(['audio', 'video'], segmented=True), self._GetFlags()) self._DiffLiveGold(self.output[0], 'bear-640x360-a-live-golden') self._DiffLiveGold(self.output[1], 'bear-640x360-v-live-golden') self._DiffLiveMpdGold(self.mpd_output, 'bear-640x360-av-live-golden.mpd') def testPackageLiveStaticProfile(self): self.assertPackageSuccess( self._GetStreams(['audio', 'video'], segmented=True), self._GetFlags(generate_static_mpd=True)) self._CheckTestResults('live-static-profile') def testPackageLiveStaticProfileAndAdCues(self): self.assertPackageSuccess( self._GetStreams(['audio', 'video'], segmented=True), self._GetFlags(generate_static_mpd=True, ad_cues='1.5')) self._CheckTestResults('live-static-profile-and-ad-cues') def testPackageLiveProfileAndEncryption(self): self.assertPackageSuccess( self._GetStreams(['audio', 'video'], segmented=True), self._GetFlags(encryption=True)) self._DiffLiveGold(self.output[0], 'bear-640x360-a-live-cenc-golden') self._DiffLiveGold(self.output[1], 'bear-640x360-v-live-cenc-golden') self._DiffLiveMpdGold(self.mpd_output, 'bear-640x360-av-live-cenc-golden.mpd') def testPackageLiveProfileAndEncryptionAndNonDashIfIop(self): self.assertPackageSuccess( self._GetStreams(['audio', 'video'], segmented=True), self._GetFlags(encryption=True, dash_if_iop=False)) self._DiffLiveGold(self.output[0], 'bear-640x360-a-live-cenc-golden') self._DiffLiveGold(self.output[1], 'bear-640x360-v-live-cenc-golden') self._DiffLiveMpdGold(self.mpd_output, 'bear-640x360-av-live-cenc-non-iop-golden.mpd') def testPackageLiveProfileAndEncryptionAndMultFiles(self): self.assertPackageSuccess( self._GetStreams(['audio', 'video'], segmented=True, test_files=['bear-1280x720.mp4', 'bear-640x360.mp4', 'bear-320x180.mp4']), self._GetFlags(encryption=True)) self._DiffLiveGold(self.output[2], 'bear-640x360-a-live-cenc-golden') self._DiffLiveGold(self.output[3], 'bear-640x360-v-live-cenc-golden') # Mpd cannot be validated right now since we don't generate determinstic # mpd with multiple inputs due to thread racing. # TODO(b/73349711): Generate determinstic mpd or at least validate mpd # schema. def testPackageLiveProfileAndKeyRotation(self): self.assertPackageSuccess( self._GetStreams(['audio', 'video'], segmented=True), self._GetFlags(encryption=True, key_rotation=True)) self._DiffLiveGold(self.output[0], 'bear-640x360-a-live-cenc-rotation-golden') self._DiffLiveGold(self.output[1], 'bear-640x360-v-live-cenc-rotation-golden') self._DiffLiveMpdGold(self.mpd_output, 'bear-640x360-av-live-cenc-rotation-golden.mpd') def testPackageLiveProfileAndKeyRotationAndNoPsshInStream(self): self.assertPackageSuccess( self._GetStreams(['audio', 'video'], segmented=True), self._GetFlags( encryption=True, key_rotation=True, include_pssh_in_stream=False)) self._DiffLiveGold(self.output[0], 'bear-640x360-a-live-cenc-rotation-no-pssh-golden') self._DiffLiveGold(self.output[1], 'bear-640x360-v-live-cenc-rotation-no-pssh-golden') self._DiffLiveMpdGold( self.mpd_output, 'bear-640x360-av-live-cenc-rotation-no-pssh-golden.mpd') def testPackageLiveProfileAndKeyRotationAndNonDashIfIop(self): self.assertPackageSuccess( self._GetStreams(['audio', 'video'], segmented=True), self._GetFlags(encryption=True, key_rotation=True, dash_if_iop=False)) self._DiffLiveGold(self.output[0], 'bear-640x360-a-live-cenc-rotation-golden') self._DiffLiveGold(self.output[1], 'bear-640x360-v-live-cenc-rotation-golden') self._DiffLiveMpdGold( self.mpd_output, 'bear-640x360-av-live-cenc-rotation-non-iop-golden.mpd') @unittest.skipUnless(test_env.has_aes_flags, 'Requires AES credentials.') def testWidevineEncryptionWithAes(self): flags = self._GetFlags(widevine_encryption=True) flags += [ '--signer=widevine_test', '--aes_signing_key=' + test_env.options.aes_signing_key, '--aes_signing_iv=' + test_env.options.aes_signing_iv ] self.assertPackageSuccess(self._GetStreams(['audio', 'video']), flags) self._AssertStreamInfo(self.output[0], 'is_encrypted: true') self._AssertStreamInfo(self.output[1], 'is_encrypted: true') @unittest.skipUnless(test_env.has_aes_flags, 'Requires AES credentials.') def testWidevineEncryptionWithAesAndMultFiles(self): flags = self._GetFlags(widevine_encryption=True) flags += [ '--signer=widevine_test', '--aes_signing_key=' + test_env.options.aes_signing_key, '--aes_signing_iv=' + test_env.options.aes_signing_iv ] self.assertPackageSuccess( self._GetStreams(['audio', 'video'], test_files=['bear-1280x720.mp4', 'bear-640x360.mp4', 'bear-320x180.mp4']), flags) with open(self.mpd_output, 'rb') as f: print f.read() # TODO(kqyang): Add some validations. @unittest.skipUnless(test_env.has_aes_flags, 'Requires AES credentials.') def testKeyRotationWithAes(self): flags = self._GetFlags(widevine_encryption=True, key_rotation=True) flags += [ '--signer=widevine_test', '--aes_signing_key=' + test_env.options.aes_signing_key, '--aes_signing_iv=' + test_env.options.aes_signing_iv ] self.assertPackageSuccess(self._GetStreams(['audio', 'video']), flags) self._AssertStreamInfo(self.output[0], 'is_encrypted: true') self._AssertStreamInfo(self.output[1], 'is_encrypted: true') @unittest.skipUnless(test_env.has_rsa_flags, 'Requires RSA credentials.') def testWidevineEncryptionWithRsa(self): flags = self._GetFlags(widevine_encryption=True) flags += [ '--signer=widevine_test', '--rsa_signing_key_path=' + test_env.options.rsa_signing_key_path ] self.assertPackageSuccess(self._GetStreams(['audio', 'video']), flags) self._AssertStreamInfo(self.output[0], 'is_encrypted: true') self._AssertStreamInfo(self.output[1], 'is_encrypted: true') def testHlsSegmentedWebVtt(self): streams = self._GetStreams(['audio', 'video'], segmented=True) streams += self._GetStreams( ['text'], test_files=['bear-subtitle-english.vtt'], segmented=True) flags = self._GetFlags(output_hls=True) self.assertPackageSuccess(streams, flags) self._CheckTestResults('hls-segmented-webvtt') def _AssertStreamInfo(self, stream, info): stream_info = self.packager.DumpStreamInfo(stream) self.assertIn('Found 1 stream(s).', stream_info) self.assertIn(info, stream_info) def _VerifyDecryption(self, test_encrypted_file, golden_clear_file): output_extension = os.path.splitext(golden_clear_file)[1][1:] self.assertPackageSuccess( self._GetStreams(['0'], output_format=output_extension, test_files=[test_encrypted_file]), self._GetFlags(decryption=True)) self._DiffGold(self.output[-1], golden_clear_file) class PackagerCommandParsingTest(PackagerAppTest): def testPackageEncryptionWithIncorrectKeyIdLength1(self): self.encryption_key_id = self.encryption_key_id[0:-2] packaging_result = self.packager.Package( self._GetStreams(['video']), self._GetFlags(encryption=True)) self.assertEqual(packaging_result, 1) def testPackageEncryptionWithIncorrectKeyIdLength2(self): self.encryption_key_id += '12' packaging_result = self.packager.Package( self._GetStreams(['video']), self._GetFlags(encryption=True)) self.assertEqual(packaging_result, 1) def testPackageEncryptionWithInvalidKeyIdValue(self): self.encryption_key_id = self.encryption_key_id[0:-1] + 'g' packaging_result = self.packager.Package( self._GetStreams(['video']), self._GetFlags(encryption=True)) self.assertEqual(packaging_result, 1) def testPackageEncryptionWithIncorrectKeyLength1(self): self.encryption_key = self.encryption_key[0:-2] packaging_result = self.packager.Package( self._GetStreams(['video']), self._GetFlags(encryption=True)) self.assertEqual(packaging_result, 1) def testPackageEncryptionWithIncorrectKeyLength2(self): self.encryption_key += '12' packaging_result = self.packager.Package( self._GetStreams(['video']), self._GetFlags(encryption=True)) self.assertEqual(packaging_result, 1) def testPackageEncryptionWithInvalidKeyValue(self): self.encryption_key = self.encryption_key[0:-1] + 'g' packaging_result = self.packager.Package( self._GetStreams(['video']), self._GetFlags(encryption=True)) self.assertEqual(packaging_result, 1) def testPackageEncryptionWithIncorrectIvLength1(self): self.encryption_iv = self.encryption_iv[0:-2] packaging_result = self.packager.Package( self._GetStreams(['video']), self._GetFlags(encryption=True)) self.assertEqual(packaging_result, 1) def testPackageEncryptionWithIncorrectIvLength2(self): self.encryption_iv += '12' packaging_result = self.packager.Package( self._GetStreams(['video']), self._GetFlags(encryption=True)) self.assertEqual(packaging_result, 1) def testPackageEncryptionWithInvalidIvValue(self): self.encryption_iv = self.encryption_iv[0:-1] + 'g' packaging_result = self.packager.Package( self._GetStreams(['video']), self._GetFlags(encryption=True)) self.assertEqual(packaging_result, 1) def testPackageEncryptionWithInvalidPsshValue1(self): packaging_result = self.packager.Package( self._GetStreams(['video']), self._GetFlags(encryption=True) + ['--pssh=ag']) self.assertEqual(packaging_result, 1) def testPackageEncryptionWithInvalidPsshValue2(self): packaging_result = self.packager.Package( self._GetStreams(['video']), self._GetFlags(encryption=True) + ['--pssh=1122']) self.assertEqual(packaging_result, 1) def testWidevineEncryptionInvalidContentId(self): self.widevine_content_id += 'ag' flags = self._GetFlags(widevine_encryption=True) flags += [ '--signer=widevine_test', '--aes_signing_key=1122', '--aes_signing_iv=3344' ] packaging_result = self.packager.Package( self._GetStreams(['audio', 'video']), flags) self.assertEqual(packaging_result, 1) def testWidevineEncryptionInvalidAesSigningKey(self): flags = self._GetFlags(widevine_encryption=True) flags += [ '--signer=widevine_test', '--aes_signing_key=11ag', '--aes_signing_iv=3344' ] packaging_result = self.packager.Package( self._GetStreams(['audio', 'video']), flags) self.assertEqual(packaging_result, 1) def testWidevineEncryptionInvalidAesSigningIv(self): flags = self._GetFlags(widevine_encryption=True) flags += [ '--signer=widevine_test', '--aes_signing_key=1122', '--aes_signing_iv=33ag' ] packaging_result = self.packager.Package( self._GetStreams(['audio', 'video']), flags) self.assertEqual(packaging_result, 1) def testWidevineEncryptionMissingAesSigningKey(self): flags = self._GetFlags(widevine_encryption=True) flags += ['--signer=widevine_test', '--aes_signing_iv=3344'] packaging_result = self.packager.Package( self._GetStreams(['audio', 'video']), flags) self.assertEqual(packaging_result, 1) def testWidevineEncryptionMissingAesSigningIv(self): flags = self._GetFlags(widevine_encryption=True) flags += ['--signer=widevine_test', '--aes_signing_key=1122'] packaging_result = self.packager.Package( self._GetStreams(['audio', 'video']), flags) self.assertEqual(packaging_result, 1) def testWidevineEncryptionMissingSigner1(self): flags = self._GetFlags(widevine_encryption=True) flags += ['--aes_signing_key=1122', '--aes_signing_iv=3344'] packaging_result = self.packager.Package( self._GetStreams(['audio', 'video']), flags) self.assertEqual(packaging_result, 1) def testWidevineEncryptionMissingSigner2(self): flags = self._GetFlags(widevine_encryption=True) flags += ['--rsa_signing_key_path=/tmp/test'] packaging_result = self.packager.Package( self._GetStreams(['audio', 'video']), flags) self.assertEqual(packaging_result, 1) def testWidevineEncryptionSignerOnly(self): flags = self._GetFlags(widevine_encryption=True) flags += ['--signer=widevine_test'] packaging_result = self.packager.Package( self._GetStreams(['audio', 'video']), flags) self.assertEqual(packaging_result, 1) def testWidevineEncryptionAesSigningAndRsaSigning(self): flags = self._GetFlags(widevine_encryption=True) flags += [ '--signer=widevine_test', '--aes_signing_key=1122', '--aes_signing_iv=3344', '--rsa_signing_key_path=/tmp/test', ] packaging_result = self.packager.Package( self._GetStreams(['audio', 'video']), flags) self.assertEqual(packaging_result, 1) def testPackageAudioVideoWithNotExistText(self): audio_video_stream = self._GetStreams(['audio', 'video']) text_stream = self._GetStreams(['text'], test_files=['not-exist.vtt']) packaging_result = self.packager.Package(audio_video_stream + text_stream, self._GetFlags()) # Expect the test to fail but we do not expect a crash. self.assertEqual(packaging_result, 1) if __name__ == '__main__': unittest.main()