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from __future__ import unicode_literals
import os import time import struct import binascii import io
from .fragment import FragmentFD from ..compat import compat_urllib_error from ..utils import ( sanitize_open, encodeFilename, )
u8 = struct.Struct(b'>B') u88 = struct.Struct(b'>Bx') u16 = struct.Struct(b'>H') u1616 = struct.Struct(b'>Hxx') u32 = struct.Struct(b'>I') u64 = struct.Struct(b'>Q')
s88 = struct.Struct(b'>bx') s16 = struct.Struct(b'>h') s1616 = struct.Struct(b'>hxx') s32 = struct.Struct(b'>i')
unity_matrix = (s32.pack(0x10000) + s32.pack(0) * 3) * 2 + s32.pack(0x40000000)
TRACK_ENABLED = 0x1 TRACK_IN_MOVIE = 0x2 TRACK_IN_PREVIEW = 0x4
SELF_CONTAINED = 0x1
def box(box_type, payload): return u32.pack(8 + len(payload)) + box_type + payload
def full_box(box_type, version, flags, payload): return box(box_type, u8.pack(version) + u32.pack(flags)[1:] + payload)
def write_piff_header(stream, params): track_id = params['track_id'] fourcc = params['fourcc'] duration = params['duration'] timescale = params.get('timescale', 10000000) language = params.get('language', 'und') height = params.get('height', 0) width = params.get('width', 0) is_audio = width == 0 and height == 0 creation_time = modification_time = int(time.time())
ftyp_payload = b'isml' # major brand ftyp_payload += u32.pack(1) # minor version ftyp_payload += b'piff' + b'iso2' # compatible brands stream.write(box(b'ftyp', ftyp_payload)) # File Type Box
mvhd_payload = u64.pack(creation_time) mvhd_payload += u64.pack(modification_time) mvhd_payload += u32.pack(timescale) mvhd_payload += u64.pack(duration) mvhd_payload += s1616.pack(1) # rate mvhd_payload += s88.pack(1) # volume mvhd_payload += u16.pack(0) # reserved mvhd_payload += u32.pack(0) * 2 # reserved mvhd_payload += unity_matrix mvhd_payload += u32.pack(0) * 6 # pre defined mvhd_payload += u32.pack(0xffffffff) # next track id moov_payload = full_box(b'mvhd', 1, 0, mvhd_payload) # Movie Header Box
tkhd_payload = u64.pack(creation_time) tkhd_payload += u64.pack(modification_time) tkhd_payload += u32.pack(track_id) # track id tkhd_payload += u32.pack(0) # reserved tkhd_payload += u64.pack(duration) tkhd_payload += u32.pack(0) * 2 # reserved tkhd_payload += s16.pack(0) # layer tkhd_payload += s16.pack(0) # alternate group tkhd_payload += s88.pack(1 if is_audio else 0) # volume tkhd_payload += u16.pack(0) # reserved tkhd_payload += unity_matrix tkhd_payload += u1616.pack(width) tkhd_payload += u1616.pack(height) trak_payload = full_box(b'tkhd', 1, TRACK_ENABLED | TRACK_IN_MOVIE | TRACK_IN_PREVIEW, tkhd_payload) # Track Header Box
mdhd_payload = u64.pack(creation_time) mdhd_payload += u64.pack(modification_time) mdhd_payload += u32.pack(timescale) mdhd_payload += u64.pack(duration) mdhd_payload += u16.pack(((ord(language[0]) - 0x60) << 10) | ((ord(language[1]) - 0x60) << 5) | (ord(language[2]) - 0x60)) mdhd_payload += u16.pack(0) # pre defined mdia_payload = full_box(b'mdhd', 1, 0, mdhd_payload) # Media Header Box
hdlr_payload = u32.pack(0) # pre defined hdlr_payload += b'soun' if is_audio else b'vide' # handler type hdlr_payload += u32.pack(0) * 3 # reserved hdlr_payload += (b'Sound' if is_audio else b'Video') + b'Handler\0' # name mdia_payload += full_box(b'hdlr', 0, 0, hdlr_payload) # Handler Reference Box
if is_audio: smhd_payload = s88.pack(0) # balance smhd_payload = u16.pack(0) # reserved media_header_box = full_box(b'smhd', 0, 0, smhd_payload) # Sound Media Header else: vmhd_payload = u16.pack(0) # graphics mode vmhd_payload += u16.pack(0) * 3 # opcolor media_header_box = full_box(b'vmhd', 0, 1, vmhd_payload) # Video Media Header minf_payload = media_header_box
dref_payload = u32.pack(1) # entry count dref_payload += full_box(b'url ', 0, SELF_CONTAINED, b'') # Data Entry URL Box dinf_payload = full_box(b'dref', 0, 0, dref_payload) # Data Reference Box minf_payload += box(b'dinf', dinf_payload) # Data Information Box
stsd_payload = u32.pack(1) # entry count
sample_entry_payload = u8.pack(0) * 6 # reserved sample_entry_payload += u16.pack(1) # data reference index if is_audio: sample_entry_payload += u32.pack(0) * 2 # reserved sample_entry_payload += u16.pack(params.get('channels', 2)) sample_entry_payload += u16.pack(params.get('bits_per_sample', 16)) sample_entry_payload += u16.pack(0) # pre defined sample_entry_payload += u16.pack(0) # reserved sample_entry_payload += u1616.pack(params['sampling_rate'])
if fourcc == 'AACL': sample_entry_box = box(b'mp4a', sample_entry_payload) else: sample_entry_payload = sample_entry_payload sample_entry_payload += u16.pack(0) # pre defined sample_entry_payload += u16.pack(0) # reserved sample_entry_payload += u32.pack(0) * 3 # pre defined sample_entry_payload += u16.pack(width) sample_entry_payload += u16.pack(height) sample_entry_payload += u1616.pack(0x48) # horiz resolution 72 dpi sample_entry_payload += u1616.pack(0x48) # vert resolution 72 dpi sample_entry_payload += u32.pack(0) # reserved sample_entry_payload += u16.pack(1) # frame count sample_entry_payload += u8.pack(0) * 32 # compressor name sample_entry_payload += u16.pack(0x18) # depth sample_entry_payload += s16.pack(-1) # pre defined
codec_private_data = binascii.unhexlify(params['codec_private_data']) if fourcc in ('H264', 'AVC1'): sps, pps = codec_private_data.split(u32.pack(1))[1:] avcc_payload = u8.pack(1) # configuration version avcc_payload += sps[1:4] # avc profile indication + profile compatibility + avc level indication avcc_payload += u8.pack(0xfc | (params.get('nal_unit_length_field', 4) - 1)) # complete represenation (1) + reserved (11111) + length size minus one avcc_payload += u8.pack(1) # reserved (0) + number of sps (0000001) avcc_payload += u16.pack(len(sps)) avcc_payload += sps avcc_payload += u8.pack(1) # number of pps avcc_payload += u16.pack(len(pps)) avcc_payload += pps sample_entry_payload += box(b'avcC', avcc_payload) # AVC Decoder Configuration Record sample_entry_box = box(b'avc1', sample_entry_payload) # AVC Simple Entry stsd_payload += sample_entry_box
stbl_payload = full_box(b'stsd', 0, 0, stsd_payload) # Sample Description Box
stts_payload = u32.pack(0) # entry count stbl_payload += full_box(b'stts', 0, 0, stts_payload) # Decoding Time to Sample Box
stsc_payload = u32.pack(0) # entry count stbl_payload += full_box(b'stsc', 0, 0, stsc_payload) # Sample To Chunk Box
stco_payload = u32.pack(0) # entry count stbl_payload += full_box(b'stco', 0, 0, stco_payload) # Chunk Offset Box
minf_payload += box(b'stbl', stbl_payload) # Sample Table Box
mdia_payload += box(b'minf', minf_payload) # Media Information Box
trak_payload += box(b'mdia', mdia_payload) # Media Box
moov_payload += box(b'trak', trak_payload) # Track Box
mehd_payload = u64.pack(duration) mvex_payload = full_box(b'mehd', 1, 0, mehd_payload) # Movie Extends Header Box
trex_payload = u32.pack(track_id) # track id trex_payload += u32.pack(1) # default sample description index trex_payload += u32.pack(0) # default sample duration trex_payload += u32.pack(0) # default sample size trex_payload += u32.pack(0) # default sample flags mvex_payload += full_box(b'trex', 0, 0, trex_payload) # Track Extends Box
moov_payload += box(b'mvex', mvex_payload) # Movie Extends Box stream.write(box(b'moov', moov_payload)) # Movie Box
def extract_box_data(data, box_sequence): data_reader = io.BytesIO(data) while True: box_size = u32.unpack(data_reader.read(4))[0] box_type = data_reader.read(4) if box_type == box_sequence[0]: box_data = data_reader.read(box_size - 8) if len(box_sequence) == 1: return box_data return extract_box_data(box_data, box_sequence[1:]) data_reader.seek(box_size - 8, 1)
class IsmFD(FragmentFD): """
Download segments in a ISM manifest """
FD_NAME = 'ism'
def real_download(self, filename, info_dict): segments = info_dict['fragments'][:1] if self.params.get( 'test', False) else info_dict['fragments']
ctx = { 'filename': filename, 'total_frags': len(segments), }
self._prepare_and_start_frag_download(ctx)
segments_filenames = []
fragment_retries = self.params.get('fragment_retries', 0) skip_unavailable_fragments = self.params.get('skip_unavailable_fragments', True)
track_written = False for i, segment in enumerate(segments): segment_url = segment['url'] segment_name = 'Frag%d' % i target_filename = '%s-%s' % (ctx['tmpfilename'], segment_name) count = 0 while count <= fragment_retries: try: success = ctx['dl'].download(target_filename, { 'url': segment_url, 'http_headers': info_dict.get('http_headers'), }) if not success: return False down, target_sanitized = sanitize_open(target_filename, 'rb') down_data = down.read() if not track_written: tfhd_data = extract_box_data(down_data, [b'moof', b'traf', b'tfhd']) info_dict['_download_params']['track_id'] = u32.unpack(tfhd_data[4:8])[0] write_piff_header(ctx['dest_stream'], info_dict['_download_params']) track_written = True ctx['dest_stream'].write(down_data) down.close() segments_filenames.append(target_sanitized) break except compat_urllib_error.HTTPError as err: count += 1 if count <= fragment_retries: self.report_retry_fragment(err, segment_name, count, fragment_retries) if count > fragment_retries: if skip_unavailable_fragments: self.report_skip_fragment(segment_name) continue self.report_error('giving up after %s fragment retries' % fragment_retries) return False
self._finish_frag_download(ctx)
for segment_file in segments_filenames: os.remove(encodeFilename(segment_file))
return True
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