/usr/lib/python2.7/dist-packages/daap.py is in python-daap 0.7.1-4.
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#
# DAAP classes and methods.
#
# original work (c) 2004, Davyd Madeley <davyd@ucc.asn.au>
#
# Later iTunes authentication work and object model
# copyright 2005 Tom Insam <tom@jerakeen.org>
#
import httplib, struct, sys
import md5, md5daap
import gzip
import logging
from cStringIO import StringIO
__all__ = ['DAAPError', 'DAAPObject', 'DAAPClient', 'DAAPSession', 'DAAPDatabase', 'DAAPPlaylist', 'DAAPTrack']
log = logging.getLogger('daap')
# the itunes authentication hasher
seed_v2 = []
for i in (range(255)):
ctx = md5.new()
if (i & 0x80): ctx.update("Accept-Language")
else: ctx.update("user-agent")
if (i & 0x40): ctx.update("max-age")
else: ctx.update("Authorization")
if (i & 0x20): ctx.update("Client-DAAP-Version")
else: ctx.update("Accept-Encoding")
if (i & 0x10): ctx.update("daap.protocolversion")
else: ctx.update("daap.songartist")
if (i & 0x08): ctx.update("daap.songcomposer")
else: ctx.update("daap.songdatemodified")
if (i & 0x04): ctx.update("daap.songdiscnumber")
else: ctx.update("daap.songdisabled")
if (i & 0x02): ctx.update("playlist-item-spec")
else: ctx.update("revision-number")
if (i & 0x01): ctx.update("session-id")
else: ctx.update("content-codes")
seed_v2.append( ctx.hexdigest().upper() )
# this is a translation of the GenerateHash function in hasher.c of
# libopendaap http://crazney.net/programs/itunes/authentication.html
seed_v3 = []
for i in (range(255)):
ctx = md5daap.new()
if (i & 0x40): ctx.update("eqwsdxcqwesdc")
else: ctx.update("op[;lm,piojkmn")
if (i & 0x20): ctx.update("876trfvb 34rtgbvc")
else: ctx.update("=-0ol.,m3ewrdfv")
if (i & 0x10): ctx.update("87654323e4rgbv ")
else: ctx.update("1535753690868867974342659792")
if (i & 0x08): ctx.update("Song Name")
else: ctx.update("DAAP-CLIENT-ID:")
if (i & 0x04): ctx.update("111222333444555")
else: ctx.update("4089961010")
if (i & 0x02): ctx.update("playlist-item-spec")
else: ctx.update("revision-number")
if (i & 0x01): ctx.update("session-id")
else: ctx.update("content-codes")
if (i & 0x80): ctx.update("IUYHGFDCXWEDFGHN")
else: ctx.update("iuytgfdxwerfghjm")
seed_v3.append( ctx.hexdigest().upper() )
def hash_v2(url, select):
ctx = md5.new()
ctx.update( url )
ctx.update( "Copyright 2003 Apple Computer, Inc." )
ctx.update( seed_v2[ select ])
return ctx.hexdigest().upper()
def hash_v3(url, select, sequence = 0):
ctx = md5daap.new()
ctx.update( url )
ctx.update( "Copyright 2003 Apple Computer, Inc." )
ctx.update( seed_v3[ select ])
if sequence > 0: ctx.update( str(sequence) )
return ctx.hexdigest().upper()
dmapCodeTypes = {
# these content codes are needed to learn all others
'mccr':('dmap.contentcodesresponse', 'c'),
'mstt':('dmap.status', 'ui'),
'mdcl':('dmap.dictionary', 'c'),
'mcnm':('dmap.contentcodesnumber', 's'),
'mcna':('dmap.contentcodesname', 's'),
'mcty':('dmap.contentcodestype', 'uh'),
# stupid, stupid. The reflection just isn't good enough
# to connect to an iPhoto server.
'ppro':('dpap.protocolversion', 'i'),
'avdb':('daap.serverdatabases', 'c'),
'adbs':('daap.databasesongs', 'c'),
'pret':('dpap.unknown', 'c'),
}
dmapDataTypes = {
# these are the data types
1:'b', # byte
2:'ub', # unsigned byte
3:'h', # short
4:'uh', # unsigned short
5:'i', # integer
6:'ui', # unsigned integer
7:'l', # long
8:'ul', # unsigned long
9:'s', # string
10:'t', # timestamp
11:'v', # version
12:'c', # container
}
dmapFudgeDataTypes = {
'dmap.authenticationschemes':'1'
}
def DAAPParseCodeTypes(treeroot):
# the treeroot we are given should be a
# dmap.contentcodesresponse
if treeroot.codeName() != 'dmap.contentcodesresponse':
raise DAAPError("DAAPParseCodeTypes: We cannot generate a dictionary from this tree.")
return
for object in treeroot.contains:
# each item should be one of two things
# a status code, or a dictionary
if object.codeName() == 'dmap.status':
pass
elif object.codeName() == 'dmap.dictionary':
code = None
name = None
dtype = None
# a dictionary object should contain three items:
# a 'dmap.contentcodesnumber' the 4 letter content code
# a 'dmap.contentcodesname' the name of the code
# a 'dmap.contentcodestype' the type of the code
for info in object.contains:
if info.codeName() == 'dmap.contentcodesnumber':
code = info.value
elif info.codeName() == 'dmap.contentcodesname':
name = info.value
elif info.codeName() == 'dmap.contentcodestype':
try:
dtype = dmapDataTypes[info.value]
except:
log.debug('DAAPParseCodeTypes: unknown data type %s for code %s, defaulting to s', info.value, name)
dtype = 's'
else:
raise DAAPError('DAAPParseCodeTypes: unexpected code %s at level 2' % info.codeName())
if code == None or name == None or dtype == None:
log.debug('DAAPParseCodeTypes: missing information, not adding entry')
else:
try:
dtype = dmapFudgeDataTypes[name]
except: pass
#print("** %s %s %s", code, name, dtype)
dmapCodeTypes[code] = (name, dtype)
else:
raise DAAPError('DAAPParseCodeTypes: unexpected code %s at level 1' % info.codeName())
class DAAPError(Exception): pass
class DAAPObject(object):
def getAtom(self, code):
"""returns an atom of the given code by searching 'contains' recursively."""
if self.code == code:
if self.type == 'c':
return self
return self.value
# ok, it's not us. check our children
if hasattr(self, 'contains'):
for object in self.contains:
value = object.getAtom(code)
if value: return value
return None
def codeName(self):
if self.code == None or not dmapCodeTypes.has_key(self.code):
return None
else:
return dmapCodeTypes[self.code][0]
def objectType(self):
if self.code == None or not dmapCodeTypes.has_key(self.code):
return None
else:
return dmapCodeTypes[self.code][1]
def printTree(self, level = 0, out = sys.stdout):
if hasattr(self, 'value'):
out.write('\t' * level + '%s (%s)\t%s\t%s\n' % (self.codeName(), self.code, self.type, self.value))
else:
out.write('\t' * level + '%s (%s)\t%s\t%s\n' % (self.codeName(), self.code, self.type, None))
if hasattr(self, 'contains'):
for object in self.contains:
object.printTree(level + 1)
def encode(self):
# generate DMAP tagged data format
# step 1 - find out what type of object we are
if self.type == 'c':
# our object is a container,
# this means we're going to have to
# check contains[]
value = ''
for item in self.contains:
# get the data stream from each of the sub elements
value += item.encode()
# get the length of the data
length = len(value)
# pack: 4 byte code, 4 byte length, length bytes of value
data = struct.pack('!4sI%ss' % length, self.code, length, value)
return data
elif self.type == 'v':
# packing a version tag is about 1 point different to everything
# below, but it means it won't fit into our abstract packing
value = self.value.split('.')
length = struct.calcsize('!HH')
data = struct.pack('!4sIHH', self.code, length, value[0], value[1])
return data
else:
# we don't have to traverse anything
# to calculate the length and such
# we want to encode the contents of
# value for our value
if self.type == 'l':
packing = 'q'
elif self.type == 'ul':
packing = 'Q'
elif self.type == 'i':
packing = 'i'
elif self.type == 'ui':
packing = 'I'
elif self.type == 'h':
packing = 'h'
elif self.type == 'uh':
packing = 'H'
elif self.type == 'b':
packing = 'b'
elif self.type == 'ub':
packing = 'B'
elif self.type == 't':
packing = 'I'
elif self.type == 's':
packing = '%ss' % len(self.value)
else:
raise DAAPError('DAAPObject: encode: unknown code %s' % self.code)
return
# calculate the length of what we're packing
length = struct.calcsize('!%s' % packing)
# pack: 4 characters for the code, 4 bytes for the length, and 'length' bytes for the value
data = struct.pack('!4sI%s' % packing, self.code, length, self.value)
return data
def processData(self, str):
# read 4 bytes for the code and 4 bytes for the length of the objects data
data = str.read(8)
#print("'%s'"%data)
if not data: return
self.code, self.length = struct.unpack('!4sI', data)
# now we need to find out what type of object it is
if self.code == None or not dmapCodeTypes.has_key(self.code):
self.type = None
else:
self.type = dmapCodeTypes[self.code][1]
start_pos = str.tell()
if self.type == 'c':
self.contains = []
# the object is a container, we need to pass it
# it's length amount of data for processessing
eof = 0
while str.tell() < start_pos + self.length:
object = DAAPObject()
self.contains.append(object)
object.processData(str)
return
# not a container, we're a single atom. Read it.
code = str.read(self.length)
if self.type == 'l':
# the object is a long long number,
self.value = struct.unpack('!q', code)[0]
elif self.type == 'ul':
# the object is an unsigned long long
self.value = struct.unpack('!Q', code)[0]
elif self.type == 'i':
# the object is a number,
self.value = struct.unpack('!i', code)[0]
elif self.type == 'ui':
# unsigned integer
self.value = struct.unpack('!I', code)[0]
elif self.type == 'h':
# this is a short number,
self.value = struct.unpack('!h', code)[0]
elif self.type == 'uh':
# unsigned short
self.value = struct.unpack('!H', code)[0]
elif self.type == 'b':
# this is a byte long number
self.value = struct.unpack('!b', code)[0]
elif self.type == 'ub':
# unsigned byte
self.value = struct.unpack('!B', code)[0]
elif self.type == 'v':
# this is a version tag
self.value = float("%s.%s" % struct.unpack('!HH', code))
elif self.type == 't':
# this is a time string
self.value = struct.unpack('!I', code)[0]
elif self.type == 's':
# the object is a string
# we need to read length characters from the string
try:
self.value = unicode(
struct.unpack('!%ss' % self.length, code)[0], 'utf-8')
except UnicodeDecodeError:
# oh, urgh
self.value = unicode(
struct.unpack('!%ss' % self.length, code)[0], 'latin-1')
else:
# we don't know what to do with this object
# put it's raw data into value
log.debug('DAAPObject: Unknown code %s for type %s, writing raw data', code, self.code)
self.value = code
class DAAPClient(object):
def __init__(self):
self.socket = None
self.request_id = 0
self._old_itunes = 0
def connect(self, hostname, port = 3689, password = None):
if self.socket != None:
raise DAAPError("DAAPClient: already connected.")
self.hostname = hostname
self.port = port
self.password = password
self.socket = httplib.HTTPConnection(hostname, port)
self.getContentCodes() # practically required
self.getInfo() # to determine the remote server version
def _get_response(self, r, params = {}, gzip = 1):
"""Makes a request, doing the right thing, returns the raw data"""
if params:
l = ['%s=%s' % (k, v) for k, v in params.iteritems()]
r = '%s?%s' % (r, '&'.join(l))
log.debug('getting %s', r)
headers = {
'Client-DAAP-Version': '3.0',
'Client-DAAP-Access-Index': '2',
}
if gzip: headers['Accept-encoding'] = 'gzip'
if self.password:
import base64
b64 = base64.encodestring( '%s:%s'%('user', self.password) )[:-1]
headers['Authorization'] = 'Basic %s' % b64
# TODO - we should allow for different versions of itunes - there
# are a few different hashing algos we could be using. I need some
# older versions of iTunes to test against.
if self.request_id > 0:
headers[ 'Client-DAAP-Request-ID' ] = self.request_id
if (self._old_itunes):
headers[ 'Client-DAAP-Validation' ] = hash_v2(r, 2)
else:
headers[ 'Client-DAAP-Validation' ] = hash_v3(r, 2, self.request_id)
# there are servers that don't allow >1 download from a single HTTP
# session, or something. Reset the connection each time. Thanks to
# Fernando Herrera for this one.
self.socket.close()
self.socket.connect()
self.socket.request('GET', r, None, headers)
response = self.socket.getresponse()
return response;
def request(self, r, params = {}, answers = 1):
"""Make a request to the DAAP server, with the passed params. This
deals with all the cikiness like validation hashes, etc, etc"""
# this returns an HTTP response object
response = self._get_response(r, params)
status = response.status
content = response.read()
# if we got gzipped data base, gunzip it.
if response.getheader("Content-Encoding") == "gzip":
log.debug("gunzipping data")
old_len = len(content)
compressedstream = StringIO( content )
gunzipper = gzip.GzipFile(fileobj=compressedstream)
content = gunzipper.read()
log.debug("expanded from %s bytes to %s bytes", old_len, len(content))
# close this, we're done with it
response.close()
if status == 401:
raise DAAPError('DAAPClient: %s: auth required'%r)
elif status == 403:
raise DAAPError('DAAPClient: %s: Authentication failure'%r)
elif status == 503:
raise DAAPError('DAAPClient: %s: 503 - probably max connections to server'%r)
elif status == 204:
# no content, ie logout messages
return None
elif status != 200:
raise DAAPError('DAAPClient: %s: Error %s making request'%(r, response.status))
return self.readResponse( content )
def readResponse(self, data):
"""Convert binary response from a request to a DAAPObject"""
str = StringIO(data)
object = DAAPObject()
object.processData(str)
return object
def getContentCodes(self):
# make the request for the content codes
response = self.request('/content-codes')
# now parse and add this information to the dictionary
DAAPParseCodeTypes(response)
def getInfo(self):
response = self.request('/server-info')
# detect the 'old' iTunes 4.2 servers, and set a flag, so we use
# the real MD5 hash algo to verify requests.
version = response.getAtom("apro") or response.getAtom("ppro")
if int(version) == 2:
self._old_itunes = 1
# response.printTree()
def login(self):
response = self.request("/login")
sessionid = response.getAtom("mlid")
if sessionid == None:
log.debug('DAAPClient: login unable to determine session ID')
return
log.debug("Logged in as session %s", sessionid)
return DAAPSession(self, sessionid)
class DAAPSession(object):
def __init__(self, connection, sessionid):
self.connection = connection
self.sessionid = sessionid
self.revision = 1
def request(self, r, params = {}, answers = 1):
"""Pass the request through to the connection, adding the session-id
parameter."""
params['session-id'] = self.sessionid
return self.connection.request(r, params, answers)
def update(self):
response = self.request("/update")
#response.printTree()
def databases(self):
response = self.request("/databases")
db_list = response.getAtom("mlcl").contains
return [DAAPDatabase(self, d) for d in db_list]
def library(self):
# there's only ever one db, and it's always the library...
return self.databases()[0]
def logout(self):
response = self.request("/logout")
log.debug('DAAPSession: expired session id %s', self.sessionid)
# the atoms we want. Making this list smaller reduces memory footprint,
# and speeds up reading large libraries. It also reduces the metainformation
# available to the client.
daap_atoms = "dmap.itemid,dmap.itemname,daap.songalbum,daap.songartist,daap.songformat,daap.songtime,daap.songsize,daap.songgenre,daap.songyear,daap.songtracknumber"
class DAAPDatabase(object):
def __init__(self, session, atom):
self.session = session
self.name = atom.getAtom("minm")
self.id = atom.getAtom("miid")
def tracks(self):
"""returns all the tracks in this database, as DAAPTrack objects"""
response = self.session.request("/databases/%s/items"%self.id, {
'meta':daap_atoms
})
#response.printTree()
track_list = response.getAtom("mlcl").contains
return [DAAPTrack(self, t) for t in track_list]
def playlists(self):
response = self.session.request("/databases/%s/containers"%self.id)
db_list = response.getAtom("mlcl").contains
return [DAAPPlaylist(self, d) for d in db_list]
class DAAPPlaylist(object):
def __init__(self, database, atom):
self.database = database
self.id = atom.getAtom("miid")
self.name = atom.getAtom("minm")
self.count = atom.getAtom("mimc")
def tracks(self):
"""returns all the tracks in this playlist, as DAAPTrack objects"""
response = self.database.session.request("/databases/%s/containers/%s/items"%(self.database.id,self.id), {
'meta':daap_atoms
})
track_list = response.getAtom("mlcl").contains
return [DAAPTrack(self.database, t) for t in track_list]
class DAAPTrack(object):
attrmap = {'name':'minm',
'artist':'asar',
'album':'asal',
'id':'miid',
'type':'asfm',
'time':'astm',
'size':'assz'}
def __init__(self, database, atom):
self.database = database
self.atom = atom
def __getattr__(self, name):
if self.__dict__.has_key(name):
return self.__dict__[name]
elif DAAPTrack.attrmap.has_key(name):
return self.atom.getAtom(DAAPTrack.attrmap[name])
raise AttributeError, name
def request(self):
"""returns a 'response' object for the track's mp3 data.
presumably you can strem from this or something"""
# gotta bump this every track download
self.database.session.connection.request_id += 1
# get the raw response object directly, not the parsed version
return self.database.session.connection._get_response(
"/databases/%s/items/%s.%s"%(self.database.id, self.id, self.type),
{ 'session-id':self.database.session.sessionid },
gzip = 0,
)
def save(self, filename):
"""saves the file to 'filename' on the local machine"""
log.debug("saving to '%s'", filename)
mp3 = open(filename, "wb")
r = self.request()
# doing this all on one lump seems to explode a lot. TODO - what
# is a good block size here?
data = r.read(32 * 1024)
while (data):
mp3.write(data)
data = r.read(32 * 1024)
mp3.close()
r.close()
log.debug("Done")
if __name__ == '__main__':
def main():
connection = DAAPClient()
# I'm new to this python thing. There's got to be a better idiom
# for this.
try: host = sys.argv[1]
except IndexError: host = "localhost"
try: port = sys.argv[2]
except IndexError: port = 3689
logging.basicConfig(level=logging.DEBUG,
format='%(asctime)s %(levelname)s %(message)s')
try:
# do everything in a big try, so we can disconnect at the end
connection.connect( host, port )
# auth isn't supported yet. Just log in
session = connection.login()
library = session.library()
log.debug("Library name is '%s'", repr(library.name))
tracks = library.tracks()
# demo - save the first track to disk
#print("Saving %s by %s to disk as 'track.mp3'"%(tracks[0].name, tracks[0].artist))
#tracks[0].save("track.mp3")
tracks[0].atom.printTree()
finally:
# this here, so we logout even if there's an error somewhere,
# or itunes will eventually refuse more connections.
print "--------------"
try:
session.logout()
except Exception: pass
main()
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