-# vim:ts=4:sts=4:sw=4:noet
-
from lxml import etree, html
+import cookielib
import json
try:
- import hashlib
+ import hashlib
except ImportError:
- import md5 as hashlib
+ import md5 as hashlib
import os
+import re
import shutil
import signal
import subprocess
import tempfile
import time
import urllib
+import urllib2
+import urlparse
-import autosocks
-autosocks.try_autosocks()
+try:
+ import autosocks
+ autosocks.try_autosocks()
+except ImportError:
+ pass
CACHE_DIR = os.path.expanduser("~/.cache/webdl")
+USER_AGENT = "Mozilla/5.0 (Macintosh; Intel Mac OS X 10.6; rv:21.0) Gecko/20100101 Firefox/21.0"
class Node(object):
- def __init__(self, title, parent=None):
- self.title = title
- if parent:
- parent.children.append(self)
- self.parent = parent
- self.children = []
- self.can_download = False
+ def __init__(self, title, parent=None):
+ self.title = title
+ if parent:
+ parent.children.append(self)
+ self.parent = parent
+ self.children = []
+ self.can_download = False
- def get_children(self):
- return self.children
+ def get_children(self):
+ if not self.children:
+ self.fill_children()
+ return self.children
- def download(self):
- raise NotImplemented
+ def fill_children(self):
+ pass
+
+ def download(self):
+ raise NotImplemented
def load_root_node():
- root_node = Node("Root")
+ root_node = Node("Root")
+
+ import iview
+ iview.fill_nodes(root_node)
- import iview
- iview.fill_nodes(root_node)
+ import sbs
+ sbs.fill_nodes(root_node)
- import sbs
- sbs.fill_nodes(root_node)
+ import plus7
+ plus7.fill_nodes(root_node)
- return root_node
+ import brightcove
+ brightcove.fill_nodes(root_node)
-valid_chars = frozenset("-_.() abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789")
+ return root_node
+
+valid_chars = frozenset("-_.()!@#%^ abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789")
def sanify_filename(filename):
filename = filename.encode("ascii", "ignore")
filename = "".join(c for c in filename if c in valid_chars)
return filename
+cookiejar = cookielib.CookieJar()
+urlopener = urllib2.build_opener(urllib2.HTTPCookieProcessor(cookiejar))
+def _urlopen(url, referrer=None):
+ req = urllib2.Request(url)
+ req.add_header("User-Agent", USER_AGENT)
+ if referrer:
+ req.add_header("Referer", referrer)
+ return urlopener.open(req)
def urlopen(url, max_age):
-### print url
- if not os.path.isdir(CACHE_DIR):
- os.makedirs(CACHE_DIR)
-
- if max_age <= 0:
- return urllib.urlopen(url)
-
- filename = hashlib.md5(url).hexdigest()
- filename = os.path.join(CACHE_DIR, filename)
- if os.path.exists(filename):
- file_age = int(time.time()) - os.path.getmtime(filename)
- if file_age < max_age:
- return open(filename)
-
- src = urllib.urlopen(url)
- dst = open(filename, "w")
- try:
- shutil.copyfileobj(src, dst)
- except Exception, e:
- try:
- os.unlink(filename)
- except OSError:
- pass
- raise e
- src.close()
- dst.close()
-
- return open(filename)
+### print url
+ if not os.path.isdir(CACHE_DIR):
+ os.makedirs(CACHE_DIR)
+
+ if max_age <= 0:
+ return _urlopen(url)
+
+ filename = hashlib.md5(url).hexdigest()
+ filename = os.path.join(CACHE_DIR, filename)
+ if os.path.exists(filename):
+ file_age = int(time.time()) - os.path.getmtime(filename)
+ if file_age < max_age:
+ return open(filename)
+
+ src = _urlopen(url)
+ dst = open(filename, "w")
+ try:
+ shutil.copyfileobj(src, dst)
+ except Exception, e:
+ try:
+ os.unlink(filename)
+ except OSError:
+ pass
+ raise e
+ src.close()
+ dst.close()
+
+ return open(filename)
+
+def grab_text(url, max_age):
+ f = urlopen(url, max_age)
+ text = f.read().decode("utf-8")
+ f.close()
+ return text
def grab_html(url, max_age):
- f = urlopen(url, max_age)
- doc = html.parse(f)
- f.close()
- return doc
+ f = urlopen(url, max_age)
+ doc = html.parse(f, html.HTMLParser(encoding="utf-8", recover=True))
+ f.close()
+ return doc
def grab_xml(url, max_age):
- f = urlopen(url, max_age)
- doc = etree.parse(f)
- f.close()
- return doc
+ f = urlopen(url, max_age)
+ doc = etree.parse(f, etree.XMLParser(encoding="utf-8", recover=True))
+ f.close()
+ return doc
-def grab_json(url, max_age):
- f = urlopen(url, max_age)
- doc = json.load(f)
- f.close()
- return doc
+def grab_json(url, max_age, skip_assignment=False, skip_function=False):
+ f = urlopen(url, max_age)
+ if skip_assignment:
+ text = f.read()
+ pos = text.find("=")
+ doc = json.loads(text[pos+1:])
+ elif skip_function:
+ text = f.read()
+ pos = text.find("(")
+ rpos = text.rfind(")")
+ doc = json.loads(text[pos+1:rpos])
+ else:
+ doc = json.load(f)
+ f.close()
+ return doc
def exec_subprocess(cmd):
- try:
- p = subprocess.Popen(cmd)
- ret = p.wait()
- if ret != 0:
- print >>sys.stderr, cmd[0], "exited with error code:", ret
- return False
- else:
- return True
- except OSError, e:
- print >>sys.stderr, "Failed to run", cmd[0], e
- except KeyboardInterrupt:
- print "Cancelled", cmd
- try:
- p.terminate()
- p.wait()
- except KeyboardInterrupt:
- p.send_signal(signal.SIGKILL)
- p.wait()
- return False
+ try:
+ p = subprocess.Popen(cmd)
+ ret = p.wait()
+ if ret != 0:
+ print >>sys.stderr, cmd[0], "exited with error code:", ret
+ return False
+ else:
+ return True
+ except OSError, e:
+ print >>sys.stderr, "Failed to run", cmd[0], e
+ except KeyboardInterrupt:
+ print "Cancelled", cmd
+ try:
+ p.terminate()
+ p.wait()
+ except KeyboardInterrupt:
+ p.send_signal(signal.SIGKILL)
+ p.wait()
+ return False
def convert_flv_mp4(orig_filename):
- basename = os.path.splitext(orig_filename)[0]
- flv_filename = basename + ".flv"
- mp4_filename = basename + ".mp4"
- os.rename(orig_filename, flv_filename)
- print "Converting %s to mp4" % flv_filename
- cmd = [
- "ffmpeg",
- "-i", flv_filename,
- "-acodec", "copy",
- "-vcodec", "copy",
- mp4_filename,
- ]
- if not exec_subprocess(cmd):
- return
- try:
- flv_size = os.stat(flv_filename).st_size
- mp4_size = os.stat(mp4_filename).st_size
- if abs(flv_size - mp4_size) < 0.05 * flv_size:
- os.unlink(flv_filename)
- else:
- print >>sys.stderr, "The size of", mp4_filename, "is suspicious, did ffmpeg fail?"
- except Exception, e:
- print "Conversion failed", e
+ basename = os.path.splitext(orig_filename)[0]
+ flv_filename = basename + ".flv"
+ mp4_filename = basename + ".mp4"
+ if orig_filename != flv_filename:
+ os.rename(orig_filename, flv_filename)
+ print "Converting %s to mp4" % flv_filename
+ if not avconv_remux(flv_filename, mp4_filename):
+ # failed, error has already been logged
+ return
+ try:
+ flv_size = os.stat(flv_filename).st_size
+ mp4_size = os.stat(mp4_filename).st_size
+ if abs(flv_size - mp4_size) < 0.05 * flv_size:
+ os.unlink(flv_filename)
+ else:
+ print >>sys.stderr, "The size of", mp4_filename, "is suspicious, did avconv fail?"
+ except Exception, e:
+ print "Conversion failed", e
+
+def avconv_remux(infile, outfile):
+ cmd = [
+ "avconv",
+ "-i", infile,
+ "-acodec", "copy",
+ "-vcodec", "copy",
+ outfile,
+ ]
+ return exec_subprocess(cmd)
def convert_filename(filename):
- if filename.lower().endswith(".mp4"):
- f = open(filename)
- fourcc = f.read(4)
- f.close()
- if fourcc == "FLV\x01":
- convert_flv_mp4(filename)
+ if os.path.splitext(filename.lower())[1] in (".mp4", ".flv"):
+ f = open(filename)
+ fourcc = f.read(4)
+ f.close()
+ if fourcc == "FLV\x01":
+ convert_flv_mp4(filename)
def download_rtmp(filename, vbase, vpath, hash_url=None):
- filename = sanify_filename(filename)
- print "Downloading: %s" % filename
- if vpath.endswith(".flv"):
- vpath = vpath[:-4]
- cmd = [
- "rtmpdump",
- "-o", filename,
- "-r", vbase,
- "-y", vpath,
- ]
- if hash_url is not None:
- cmd += ["--swfVfy", hash_url]
- success = exec_subprocess(cmd)
- convert_filename(filename)
- return success
-
-def download_urllib(filename, url):
- filename = sanify_filename(filename)
- print "Downloading: %s" % filename
- try:
- src = urllib.urlopen(url)
- dst = open(filename, "w")
- while True:
- buf = src.read(1024*1024)
- if not buf:
- break
- dst.write(buf)
- sys.stdout.write(".")
- sys.stdout.flush()
- convert_filename(filename)
- return True
- except KeyboardInterrupt:
- print "\nCancelled", url
- finally:
- try:
- src.close()
- except:
- pass
- try:
- dst.close()
- except:
- pass
- return False
+ filename = sanify_filename(filename)
+ print "Downloading: %s" % filename
+ if vpath.endswith(".flv"):
+ vpath = vpath[:-4]
+ cmd = [
+ "rtmpdump",
+ "-o", filename,
+ "-r", vbase,
+ "-y", vpath,
+ ]
+ if hash_url is not None:
+ cmd += ["--swfVfy", hash_url]
+ if exec_subprocess(cmd):
+ convert_filename(filename)
+ return True
+ else:
+ return False
+
+def download_urllib(filename, url, referrer=None):
+ filename = sanify_filename(filename)
+ print "Downloading: %s" % filename
+ try:
+ src = _urlopen(url, referrer)
+ dst = open(filename, "w")
+ while True:
+ buf = src.read(1024*1024)
+ if not buf:
+ break
+ dst.write(buf)
+ sys.stdout.write(".")
+ sys.stdout.flush()
+ print
+ except KeyboardInterrupt:
+ print "\nCancelled", url
+ return False
+ finally:
+ try:
+ src.close()
+ except:
+ pass
+ try:
+ dst.close()
+ except:
+ pass
+
+ convert_filename(filename)
+ return True
+
+def download_hls_get_stream(url, hack_url_func):
+ url = hack_url_func(url)
+
+ def parse_bandwidth(line):
+ params = line.split(":", 1)[1].split(",")
+ for kv in params:
+ k, v = kv.split("=", 1)
+ if k == "BANDWIDTH":
+ return int(v)
+ return 0
+
+ m3u8 = grab_text(url, 0)
+ best_bandwidth = None
+ best_url = None
+ for line in m3u8.split("\n"):
+ if line.startswith("#EXT-X-STREAM-INF:"):
+ bandwidth = parse_bandwidth(line)
+ if best_bandwidth is None or bandwidth > best_bandwidth:
+ best_bandwidth = bandwidth
+ best_url = None
+ elif not line.startswith("#"):
+ if best_url is None:
+ best_url = line.strip()
+
+ if not best_url:
+ raise Exception("Failed to find best stream for HLS: " + url)
+
+ return best_url
+
+def download_hls_segments(tmpdir, url, hack_url_func):
+ m3u8 = grab_text(url, 0)
+ result = []
+
+ local_m3u8_filename = tmpdir + "/index.m3u8"
+ local_m3u8 = open(local_m3u8_filename, "w")
+
+ i = 1
+ fail_if_not_last_segment = None
+ for line in m3u8.split("\n"):
+ if not line.strip():
+ continue
+ if line.startswith("#"):
+ local_m3u8.write(line + "\n")
+ continue
+
+ if fail_if_not_last_segment:
+ raise e
+
+ outfile = "%s/segment_%d.ts" % (tmpdir, i)
+ i += 1
+ try:
+ download_hls_fetch_segment(hack_url_func(line), outfile)
+ except urllib2.HTTPError, e:
+ fail_if_not_last_segment = e
+ continue
+ local_m3u8.write(outfile + "\n")
+ sys.stdout.write(".")
+ sys.stdout.flush()
+
+ sys.stdout.write("\n")
+
+ local_m3u8.close()
+ return local_m3u8_filename
+
+def download_hls_fetch_segment(segment, outfile):
+ try:
+ src = _urlopen(segment)
+ dst = open(outfile, "w")
+ shutil.copyfileobj(src, dst)
+ except:
+ print >>sys.stderr, "Failed to fetch", segment
+ raise
+ finally:
+ try:
+ src.close()
+ except:
+ pass
+ try:
+ dst.close()
+ except:
+ pass
+
+def download_hls(filename, m3u8_master_url, hack_url_func=None):
+ if hack_url_func is None:
+ hack_url_func = lambda url: url
+
+ tmpdir = tempfile.mkdtemp(prefix="webdl-hls")
+ filename = sanify_filename(filename)
+
+ print "Downloading: %s" % filename
+
+ try:
+ best_stream_url = download_hls_get_stream(m3u8_master_url, hack_url_func)
+ local_m3u8 = download_hls_segments(tmpdir, best_stream_url, hack_url_func)
+ avconv_remux(local_m3u8, filename)
+ return True
+ except KeyboardInterrupt:
+ print "\nCancelled", m3u8_master_url
+ return False
+ finally:
+ shutil.rmtree(tmpdir)
+
+def natural_sort(l, key=None):
+ ignore_list = ["a", "the"]
+ def key_func(k):
+ if key is not None:
+ k = key(k)
+ k = k.lower()
+ newk = []
+ for c in re.split("([0-9]+)", k):
+ c = c.strip()
+ if c.isdigit():
+ newk.append(int(c))
+ else:
+ for subc in c.split():
+ if subc not in ignore_list:
+ newk.append(subc)
+ return newk
+
+ return sorted(l, key=key_func)
+
+def append_to_qs(url, params):
+ r = list(urlparse.urlsplit(url))
+ qs = urlparse.parse_qs(r[3])
+ for k, v in params.iteritems():
+ if v is not None:
+ qs[k] = v
+ elif qs.has_key(k):
+ del qs[k]
+ r[3] = urllib.urlencode(qs, True)
+ url = urlparse.urlunsplit(r)
+ return url