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AdobeHDS.py
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AdobeHDS.py
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#!/usr/bin/env python
# -*- coding:utf-8 -*-
# M6 version 0.1 par k3c
import binascii
import struct
import sys
import os
import base64
import math
import xml.etree.ElementTree
import xml.sax
import re
from urlparse import urlparse, urlunparse
import string
import unicodedata
import Queue
import threading, thread
import time
try:
import urllib3
from urllib3.exceptions import HTTPError
hasUrllib3 = True
except ImportError:
import urllib2
from urllib2 import HTTPError
hasUrllib3 = False
NumWorkerThreads = None
class GetUrl(object):
def __init__(self, url, fragnum):
self.url = url
self.fragNum = fragnum
self.data = None
self.errCount = 0
QueueUrl = Queue.PriorityQueue()
QueueUrlDone = Queue.PriorityQueue()
M6Item = None
def workerRun():
global QueueUrl, QueueUrlDone, M6Item
while not QueueUrl.empty() and M6Item.status == 'DOWNLOADING':
item = QueueUrl.get()[1]
fragUrl = item.url
try:
item.data = M6Item.getFile(fragUrl)
QueueUrlDone.put((item.fragNum, item))
except HTTPError, e:
print sys.exc_info()
if item.errCount > 3:
M6Item.status = 'STOPPED'
# raise
else:
item.errCount += 1
QueueUrl.put((item.fragNum, item))
QueueUrl.task_done()
# If we have exited the previous loop with error
while not QueueUrl.empty():
# print 'Ignore fragment', QueueUrl.get()[1].fragNum
QueueUrl.get()
def worker():
try:
workerRun()
except Exception, e:
print sys.exc_info()
M6Item.status = 'STOPPED'
thread.interrupt_main()
def workerqdRun():
global QueueUrlDone, M6Item
currentFrag = 1
outFile = open(M6Item.localfilename, "wb")
while currentFrag <= M6Item.nbFragments and M6Item.status == 'DOWNLOADING':
item = QueueUrlDone.get()[1]
if currentFrag == item.fragNum:
# M6Item.verifyFragment(item.data)
if not M6Item.decodeFragment(item.fragNum, item.data):
raise Exception('decodeFrament')
M6Item.videoFragment(item.fragNum, item.data, outFile)
print 'Fragment', currentFrag, 'OK'
currentFrag += 1
requeue = False
else:
print 'Requeue', item.fragNum
QueueUrlDone.put((item.fragNum, item))
requeue = True
QueueUrlDone.task_done()
if requeue:
time.sleep(1)
outFile.close()
# If we have exited the previous loop with error
if currentFrag > M6Item.nbFragments:
M6Item.status = 'COMPLETED'
else:
while not QueueUrlDone.empty():
print 'Ignore fragment', QueueUrlDone.get()[1].fragNum
def workerqd():
try:
workerqdRun()
except Exception, e:
print sys.exc_info()
M6Item.status = 'STOPPED'
thread.interrupt_main()
validFilenameChars = "-_.() %s%s" % (string.ascii_letters, string.digits)
def removeDisallowedFilenameChars(filename):
"Remove invalid filename characters"
filename = filename.decode('ASCII', 'ignore')
cleanedFilename = unicodedata.normalize('NFKD', filename).encode('ASCII', 'ignore')
cleanedFilename = cleanedFilename.replace(' ', '_')
return ''.join(c for c in cleanedFilename if c in validFilenameChars)
class M6(object):
def __init__(self, url, dest = '', proxy=None):
self.status = 'INIT'
self.url = url
self.proxy = proxy
self.bitrate = 0
self.duration = 0
self.nbFragments = 0
self.tagHeaderLen = 11
self.prevTagSize = 4
urlp = urlparse(url)
fn = os.path.basename(urlp.path)
self.localfilename = \
os.path.join(dest, os.path.splitext(fn)[0]) + '.flv'
self.localfilename = removeDisallowedFilenameChars(self.localfilename)
self.urlbootstrap = ''
self.bootstrapInfoId = ''
self.baseUrl = urlunparse((urlp.scheme, urlp.netloc,
os.path.dirname(urlp.path),
'', '', ''))
if hasUrllib3:
self.pm = urllib3.PoolManager(num_pools=100)
# self.pm = urllib3.connection_from_url(self.baseUrl)
self.manifest = self.getManifest(self.url)
self.parseManifest()
# self.pm = urllib3.connection_from_url(self.urlbootstrap)
def download(self):
global QueueUrl, QueueUrlDone, M6Item
M6Item = self
self.status = 'DOWNLOADING'
# self.outFile = open(self.localfilename, "wb")
for i in range(self.nbFragments):
fragUrl = self.urlbootstrap + 'Seg1-Frag'+str(i + 1)
QueueUrl.put((i + 1, GetUrl(fragUrl, i + 1)))
t = threading.Thread(target=workerqd)
# t.daemon = True
t.start()
for i in range(NumWorkerThreads):
t = threading.Thread(target=worker)
# t.daemon = True
t.start()
# QueueUrl.join()
# QueueUrlDone.join()
while self.status == 'DOWNLOADING':
try:
time.sleep(3)
except (KeyboardInterrupt, Exception), e:
print sys.exc_info()
self.status = 'STOPPED'
# self.outFile.close()
if self.status != 'STOPPED':
self.status = 'COMPLETED'
def getInfos(self):
infos = {}
infos['status'] = self.status
infos['localfilename'] = self.localfilename
infos['proxy'] = self.proxy
infos['url'] = self.url
infos['bitrate'] = self.bitrate
infos['duration'] = self.duration
infos['nbFragments'] = self.nbFragments
infos['urlbootstrap'] = self.urlbootstrap
infos['baseUrl'] = self.baseUrl
infos['drmId'] = self.drmAdditionalHeaderId
return infos
if hasUrllib3:
def getFile(self, url):
headers = urllib3.make_headers(
keep_alive=True,
user_agent='Mozilla/5.0 (X11; Ubuntu; Linux i686; rv:17.0) Gecko/20100101 Firefox/17.0',
accept_encoding=True)
r = self.pm.request('GET', url, headers=headers)
if r.status != 200:
print 'Error downloading', r.status, url
# sys.exit(1)
return r.data
else:
def getFile(self, url):
txheaders = {'User-Agent':
'Mozilla/5.0 (X11; Ubuntu; Linux i686; rv:17.0) Gecko/20100101 Firefox/17.0',
'Keep-Alive' : '600',
'Connection' : 'keep-alive'
}
request = urllib2.Request(url, None, txheaders)
response = urllib2.urlopen(request)
return response.read()
def getManifest(self, url):
self.status = 'GETTING MANIFEST'
return xml.etree.ElementTree.fromstring(self.getFile(url))
def parseManifest(self):
self.status = 'PARSING MANIFEST'
try:
root = self.manifest
# Duration
self.duration = float(root.find("{http://ns.adobe.com/f4m/1.0}duration").text)
# nombre de fragment
self.nbFragments = int(math.ceil(self.duration/3))
# streamid
self.streamid = root.findall("{http://ns.adobe.com/f4m/1.0}media")[-1]
# media
self.media = None
for media in root.findall('{http://ns.adobe.com/f4m/1.0}media'):
if int(media.attrib['bitrate']) > self.bitrate:
self.media = media
self.bitrate = int(media.attrib['bitrate'])
self.bootstrapInfoId = media.attrib['bootstrapInfoId']
self.drmAdditionalHeaderId = media.attrib['drmAdditionalHeaderId']
self.flvHeader = base64.b64decode(media.find("{http://ns.adobe.com/f4m/1.0}metadata").text)
# Bootstrap URL
self.urlbootstrap = self.media.attrib["url"]
# urlbootstrap
self.urlbootstrap = self.baseUrl + "/" + self.urlbootstrap
except Exception, e:
print("Not possible to parse the manifest")
print e
sys.exit(-1)
def stop(self):
self.status = 'STOPPED'
def videoFragment(self, fragNum, data, fout):
start = M6Item.videostart(fragNum, data)
if fragNum == 1:
self.videoBootstrap(fout)
fout.write(data[start:])
def videoBootstrap(self, fout):
# Ajout de l'en-tête FLV
# fout.write(binascii.a2b_hex("464c560105000000090000000012"))
# fout.write(binascii.a2b_hex("00018700000000000000"))
bootstrap = "464c560105000000090000000012"
bootstrap += "%06X" % (len(self.flvHeader),)
bootstrap += "%06X%08X" % (0, 0)
fout.write(binascii.a2b_hex(bootstrap))
# Ajout de l'header du fichier
fout.write(self.flvHeader)
fout.write(binascii.a2b_hex("00019209"))
def videostart(self, fragNum, fragData):
"""
Trouve le debut de la video dans un fragment
"""
start = fragData.find("mdat") + 12
# print "start ", start
# For all fragment (except frag1)
if (fragNum == 1):
start += 0
else:
# Skip 2 FLV tags
for dummy in range(2):
tagLen, = struct.unpack_from(">L", fragData, start) # Read 32 bits (big endian)
# print 'tagLen = %X' % tagLen
tagLen &= 0x00ffffff # Take the last 24 bits
# print 'tagLen2 = %X' % tagLen
start += tagLen + self.tagHeaderLen + 4 # 11 = tag header len ; 4 = tag footer len
return start
def readBoxHeader(self, data, pos=0):
boxSize, = struct.unpack_from(">L", data, pos) # Read 32 bits (big endian)struct.unpack_from(">L", data, pos) # Read 32 bits (big endian)
boxType = data[pos + 4 : pos + 8]
if boxSize == 1:
boxSize, = struct.unpack_from(">Q", data, pos + 8) # Read 64 bits (big endian)
boxSize -= 16
pos += 16
else:
boxSize -= 8
pos += 8
if boxSize <= 0:
boxSize = 0
return (pos, boxType, boxSize)
def verifyFragment(self, data):
pos = 0
fragLen = len(data)
while pos < fragLen:
pos, boxType, boxSize = self.readBoxHeader(data, pos)
if boxType == 'mdat':
slen = len(data[pos:])
# print 'mdat %s' % (slen,)
if boxSize and slen == boxSize:
return True
else:
boxSize = fraglen - pos
pos += boxSize
return False
def decodeFragment(self, fragNum, data):
fragPos = 0
fragLen = len(data)
if not self.verifyFragment(data):
print "Skipping fragment number", fragNum
return false
while fragPos < fragLen:
fragPos, boxType, boxSize = self.readBoxHeader(data, fragPos)
if boxType == 'mdat':
fragLen = fragPos + boxSize
break
fragPos += boxSize
while fragPos < fragLen:
packetType = self.readInt8(data, fragPos)
packetSize = self.readInt24(data, fragPos + 1)
packetTS = self.readInt24(data, fragPos + 4)
packetTS |= self.readInt8(data, fragPos + 7) << 24
if packetTS & 0x80000000:
packetTS &= 0x7FFFFFFF
totalTagLen = self.tagHeaderLen + packetSize + self.prevTagSize
# print 'decodeFragment', fragNum, packetType, packetSize, packetTS, totalTagLen
# time.sleep(1)
if packetType in (10, 11):
print "This stream is encrypted with Akamai DRM. Decryption of such streams isn't currently possible with this script."
return False
if packetType in (40, 41):
print "This stream is encrypted with FlashAccess DRM. Decryption of such streams isn't currently possible with this script."
return False
fragPos += totalTagLen
return True
def readInt8(self, data, pos):
return ord(struct.unpack_from(">c", data, pos)[0])
def readInt24(self, data, pos):
return struct.unpack_from(">L", "\0" + data[pos:pos + 3], 0)[0]
def main():
global NumWorkerThreads
if len(sys.argv) > 2:
NumWorkerThreads = int(sys.argv[2])
else:
NumWorkerThreads = 7
st = time.time()
x = M6(sys.argv[1])
infos = x.getInfos()
for item in infos.items():
print item[0]+' : '+str(item[1])
x.download()
print 'Download time:', time.time() - st
if __name__ == "__main__":
main()