# ex:ts=4:sw=4:sts=4:et # -*- tab-width: 4; c-basic-offset: 4; indent-tabs-mode: nil -*- from __future__ import absolute_import import sys import base64 import re import struct import logging import binascii import xml.etree.ElementTree as ET from svtplay_dl.output import progressbar, progress_stream, ETA from svtplay_dl.utils import get_http_data, select_quality, is_py2_old, is_py2, is_py3 from svtplay_dl.error import UIException from svtplay_dl.fetcher import VideoRetriever log = logging.getLogger('svtplay_dl') if is_py2: def bytes(string=None, encoding="ascii"): if string is None: return "" return string def _chr(temp): return temp if is_py3: def _chr(temp): return chr(temp) class HDSException(UIException): def __init__(self, url, message): self.url = url super(HDSException, self).__init__(message) class LiveHDSException(HDSException): def __init__(self, url): super(LiveHDSException, self).__init__( url, "This is a live HDS stream, and they are not supported.") def hdsparse(options, manifest): data = get_http_data(manifest) streams = {} bootstrap = {} xml = ET.XML(data) if is_py2_old: bootstrapIter = xml.getiterator("{http://ns.adobe.com/f4m/1.0}bootstrapInfo") mediaIter = xml.getiterator("{http://ns.adobe.com/f4m/1.0}media") else: bootstrapIter = xml.iter("{http://ns.adobe.com/f4m/1.0}bootstrapInfo") mediaIter = xml.iter("{http://ns.adobe.com/f4m/1.0}media") for i in bootstrapIter: bootstrap[i.attrib["id"]] = i.text for i in mediaIter: streams[int(i.attrib["bitrate"])] = HDS(options, i.attrib["url"], i.attrib["bitrate"], manifest=manifest, bootstrap=bootstrap[i.attrib["bootstrapInfoId"]], metadata=i.find("{http://ns.adobe.com/f4m/1.0}metadata").text) return streams class HDS(VideoRetriever): def download(self): if self.options.live and not self.options.force: raise LiveHDSException(self.url) bootstrap = base64.b64decode(self.kwargs["bootstrap"]) box = readboxtype(bootstrap, 0) antal = None if box[2] == b"abst": antal = readbox(bootstrap, box[0]) baseurl = self.kwargs["manifest"][0:self.kwargs["manifest"].rfind("/")] i = 1 if self.options.output != "-": extension = re.search(r"(\.[a-z0-9]+)$", self.options.output) if not extension: self.options.output = "%s.flv" % self.options.output log.info("Outfile: %s", self.options.output) file_d = open(self.options.output, "wb") else: file_d = sys.stdout metasize = struct.pack(">L", len(base64.b64decode(self.kwargs["metadata"])))[1:] file_d.write(binascii.a2b_hex(b"464c560105000000090000000012")) file_d.write(metasize) file_d.write(binascii.a2b_hex(b"00000000000000")) file_d.write(base64.b64decode(self.kwargs["metadata"])) file_d.write(binascii.a2b_hex(b"00000000")) total = antal[1]["total"] eta = ETA(total) while i <= total: url = "%s/%sSeg1-Frag%s" % (baseurl, self.url, i) if self.options.output != "-": eta.update(i) progressbar(total, i, ''.join(["ETA: ", str(eta)])) data = get_http_data(url) number = decode_f4f(i, data) file_d.write(data[number:]) i += 1 if self.options.output != "-": file_d.close() progress_stream.write('\n') def readbyte(data, pos): return struct.unpack("B", bytes(_chr(data[pos]), "ascii"))[0] def read16(data, pos): endpos = pos + 2 return struct.unpack(">H", data[pos:endpos])[0] def read24(data, pos): end = pos + 3 return struct.unpack(">L", "\x00" + data[pos:end])[0] def read32(data, pos): end = pos + 4 return struct.unpack(">i", data[pos:end])[0] def read64(data, pos): end = pos + 8 return struct.unpack(">Q", data[pos:end])[0] def readstring(data, pos): length = 0 while bytes(_chr(data[pos + length]), "ascii") != b"\x00": length += 1 endpos = pos + length string = data[pos:endpos] pos += length + 1 return pos, string def readboxtype(data, pos): boxsize = read32(data, pos) tpos = pos + 4 endpos = tpos + 4 boxtype = data[tpos:endpos] if boxsize > 1: boxsize -= 8 pos += 8 return pos, boxsize, boxtype # Note! A lot of variable assignments are commented out. These are # accessible values that we currently don't use. def readbox(data, pos): #version = readbyte(data, pos) pos += 1 #flags = read24(data, pos) pos += 3 #bootstrapversion = read32(data, pos) pos += 4 #byte = readbyte(data, pos) pos += 1 #profile = (byte & 0xC0) >> 6 #live = (byte & 0x20) >> 5 #update = (byte & 0x10) >> 4 #timescale = read32(data, pos) pos += 4 #currentmediatime = read64(data, pos) pos += 8 #smptetimecodeoffset = read64(data, pos) pos += 8 temp = readstring(data, pos) #movieidentifier = temp[1] pos = temp[0] serverentrycount = readbyte(data, pos) pos += 1 serverentrytable = [] i = 0 while i < serverentrycount: temp = readstring(data, pos) serverentrytable.append(temp[1]) pos = temp[0] i += 1 qualityentrycount = readbyte(data, pos) pos += 1 qualityentrytable = [] i = 0 while i < qualityentrycount: temp = readstring(data, pos) qualityentrytable.append(temp[1]) pos = temp[0] i += 1 tmp = readstring(data, pos) #drm = tmp[1] pos = tmp[0] tmp = readstring(data, pos) #metadata = tmp[1] pos = tmp[0] segmentruntable = readbyte(data, pos) pos += 1 if segmentruntable > 0: tmp = readboxtype(data, pos) boxtype = tmp[2] boxsize = tmp[1] pos = tmp[0] if boxtype == b"asrt": antal = readasrtbox(data, pos) pos += boxsize fragRunTableCount = readbyte(data, pos) pos += 1 i = 0 while i < fragRunTableCount: tmp = readboxtype(data, pos) boxtype = tmp[2] boxsize = tmp[1] pos = tmp[0] if boxtype == b"afrt": readafrtbox(data, pos) pos += boxsize i += 1 return antal # Note! A lot of variable assignments are commented out. These are # accessible values that we currently don't use. def readafrtbox(data, pos): #version = readbyte(data, pos) pos += 1 #flags = read24(data, pos) pos += 3 #timescale = read32(data, pos) pos += 4 qualityentry = readbyte(data, pos) pos += 1 i = 0 while i < qualityentry: temp = readstring(data, pos) #qualitysegmulti = temp[1] pos = temp[0] i += 1 fragrunentrycount = read32(data, pos) pos += 4 i = 0 while i < fragrunentrycount: #firstfragment = read32(data, pos) pos += 4 #timestamp = read64(data, pos) pos += 8 #duration = read32(data, pos) pos += 4 i += 1 # Note! A lot of variable assignments are commented out. These are # accessible values that we currently don't use. def readasrtbox(data, pos): #version = readbyte(data, pos) pos += 1 #flags = read24(data, pos) pos += 3 qualityentrycount = readbyte(data, pos) pos += 1 qualitysegmentmodifers = [] i = 0 while i < qualityentrycount: temp = readstring(data, pos) qualitysegmentmodifers.append(temp[1]) pos = temp[0] i += 1 seqCount = read32(data, pos) pos += 4 ret = {} i = 0 while i < seqCount: firstseg = read32(data, pos) pos += 4 fragPerSeg = read32(data, pos) pos += 4 tmp = i + 1 ret[tmp] = {"first": firstseg, "total": fragPerSeg} i += 1 return ret def decode_f4f(fragID, fragData): start = fragData.find(b"mdat") + 4 if (fragID > 1): tagLen, = struct.unpack_from(">L", fragData, start) tagLen &= 0x00ffffff start += tagLen + 11 + 4 return start