/usr/share/pyshared/mpdclient2.py is in python-mpdclient 0.11.1-3.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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#
# This software is in the public domain
# and is provided AS IS, with NO WARRANTY.
import socket
# a line is either:
#
# key:val pair
# OK
# ACK
class socket_talker(object):
def __init__(self, host, port):
self.host = host
self.port = port
self.sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
self.sock.connect((host, port))
self.file = self.sock.makefile("rb+")
self.current_line = ''
self.ack = ''
self.done = True
# this SUCKS
def get_line(self):
if not self.current_line:
self.current_line = self.file.readline().rstrip("\n")
if not self.current_line:
raise EOFError
if self.current_line == "OK" or self.current_line.startswith("ACK"):
self.done = True
return self.current_line
def putline(self, line):
self.file.write("%s\n" % line)
self.file.flush()
self.done = False
def get_pair(self):
line = self.get_line()
self.ack = ''
if self.done:
if line.startswith("ACK"):
self.ack = line.split(None, 1)[1]
return ()
pair = line.split(": ", 1)
if len(pair) != 2:
raise RuntimeError("bogus response: ``%s''" % line)
return pair
ZERO = 0
ONE = 1
MANY = 2
plitem_delim = ["file", "directory", "playlist"]
commands = {
# (name, nargs): (format string, nresults, results_type_name, delimiter_key)
# delimiter key is for commands that return multiple results. we use this
# string to detect the beginning of a new result object.
# if results_type_name is empty, the result object's .type will be set to
# the key of the first key/val pair in it; otherwise, it will be set to
# results_type_name.
("kill", 0): ('%s', ZERO, '', []),
("outputs", 0): ('%s', MANY, 'outputs', ['outputid']),
("clear", 0): ('%s', ZERO, '', []),
("currentsong", 0): ('%s', ONE, '', []),
("shuffle", 0): ('%s', ZERO, '', []),
("next", 0): ('%s', ZERO, '', []),
("previous", 0): ('%s', ZERO, '', []),
("stop", 0): ('%s', ZERO, '', []),
("clearerror", 0): ('%s', ZERO, '', []),
("close", 0): ('%s', ZERO, '', []),
("commands", 0): ('%s', MANY, 'commands', ['command']),
("notcommands", 0): ('%s', MANY, 'notcommands', ['command']),
("ping", 0): ('%s', ZERO, '', []),
("stats", 0): ('%s', ONE, 'stats', []),
("status", 0): ('%s', ONE, 'status', []),
("play", 0): ('%s', ZERO, '', []),
("playlistinfo", 0): ('%s', MANY, '', plitem_delim),
("playlistid", 0): ('%s', MANY, '', plitem_delim),
("lsinfo", 0): ('%s', MANY, '', plitem_delim),
("update", 0): ('%s', ZERO, '', []),
("listall", 0): ('%s', MANY, '', plitem_delim),
("listallinfo", 0): ('%s', MANY, '', plitem_delim),
("disableoutput", 1): ("%s %d", ZERO, '', []),
("enableoutput", 1): ("%s %d", ZERO, '', []),
("delete", 1): ('%s %d', ZERO, '', []), # <int song>
("deleteid", 1): ('%s %d', ZERO, '', []), # <int songid>
("playlistinfo", 1): ('%s %d', MANY, '', plitem_delim), # <int song>
("playlistid", 1): ('%s %d', MANY, '', plitem_delim), # <int songid>
("crossfade", 1): ('%s %d', ZERO, '', []), # <int seconds>
("play", 1): ('%s %d', ZERO, '', []), # <int song>
("playid", 1): ('%s %d', ZERO, '', []), # <int songid>
("random", 1): ('%s %d', ZERO, '', []), # <int state>
("repeat", 1): ('%s %d', ZERO, '', []), # <int state>
("setvol", 1): ('%s %d', ZERO, '', []), # <int vol>
("plchanges", 1): ('%s %d', MANY, '', plitem_delim), # <playlist version>
("pause", 1): ('%s %d', ZERO, '', []), # <bool pause>
("update", 1): ('%s "%s"', ONE, 'update', []), # <string path>
("listall", 1): ('%s "%s"', MANY, '', plitem_delim), # <string path>
("listallinfo", 1): ('%s "%s"', MANY, '', plitem_delim), # <string path>
("lsinfo", 1): ('%s "%s"', MANY, '', plitem_delim), # <string directory>
("add", 1): ('%s "%s"', ZERO, '', []), # <string>
("load", 1): ('%s "%s"', ZERO, '', []), # <string name>
("rm", 1): ('%s "%s"', ZERO, '', []), # <string name>
("save", 1): ('%s "%s"', ZERO, '', []), # <string playlist name>
("password", 1): ('%s "%s"', ZERO, '', []), # <string password>
("move", 2): ("%s %d %d", ZERO, '', []), # <int from> <int to>
("moveid", 2): ("%s %d %d", ZERO, '', []), # <int songid from> <int to>
("swap", 2): ("%s %d %d", ZERO, '', []), # <int song1> <int song2>
("swapid", 2): ("%s %d %d", ZERO, '', []), # <int songid1> <int songid2>
("seek", 2): ("%s %d %d", ZERO, '', []), # <int song> <int time>
("seekid", 2): ("%s %d %d", ZERO, '', []), # <int songid> <int time>
# <string type> <string what>
("find", 2): ('%s "%s" "%s"', MANY, '', plitem_delim),
# <string type> <string what>
("search", 2): ('%s "%s" "%s"', MANY, '', plitem_delim),
# list <metadata arg1> [<metadata arg2> <search term>]
# <metadata arg1>
("list", 1): ('%s "%s"', MANY, '', plitem_delim),
# <metadata arg1> <metadata arg2> <search term>
("list", 3): ('%s "%s" "%s" "%s"', MANY, '', plitem_delim),
}
def is_command(cmd):
return cmd in [ k[0] for k in commands.keys() ]
def escape(text):
# join/split is faster than replace
text = '\\\\'.join(text.split('\\')) # \ -> \\
text = '\\"'.join(text.split('"')) # " -> \"
return text
def get_command(cmd, args):
try:
return commands[(cmd, len(args))]
except KeyError:
raise RuntimeError("no such command: %s (%d args)" % (cmd, len(args)))
def send_command(talker, cmd, args):
args = list(args[:])
for i, arg in enumerate(args):
if not isinstance(arg, int):
args[i] = escape(str(arg))
format = get_command(cmd, args)[0]
talker.putline(format % tuple([cmd] + list(args)))
class sender_n_fetcher(object):
def __init__(self, sender, fetcher):
self.sender = sender
self.fetcher = fetcher
self.iterate = False
def __getattr__(self, cmd):
return lambda *args: self.send_n_fetch(cmd, args)
def send_n_fetch(self, cmd, args):
getattr(self.sender, cmd)(*args)
junk, howmany, type, keywords = get_command(cmd, args)
if howmany == ZERO:
self.fetcher.clear()
return
if howmany == ONE:
return self.fetcher.one_object(keywords, type)
assert howmany == MANY
result = self.fetcher.all_objects(keywords, type)
if not self.iterate:
result = list(result)
self.fetcher.clear()
return result
# stupid hack because you apparently can't return non-None and yield
# within the same function
def yield_then_clear(it):
for x in it:
yield x
self.fetcher.clear()
return yield_then_clear(result)
class command_sender(object):
def __init__(self, talker):
self.talker = talker
def __getattr__(self, cmd):
return lambda *args: send_command(self.talker, cmd, args)
class response_fetcher(object):
def __init__(self, talker):
self.talker = talker
self.converters = {}
def clear(self):
while not self.talker.done:
self.talker.current_line = ''
self.talker.get_line()
self.talker.current_line = ''
def one_object(self, keywords, type):
# if type isn't empty, then the object's type is set to it. otherwise
# the type is set to the key of the first key/val pair.
# keywords lists the keys that indicate a new object -- like for the
# 'outputs' command, keywords would be ['outputid'].
entity = dictobj()
if type:
entity['type'] = type
while not self.talker.done:
self.talker.get_line()
pair = self.talker.get_pair()
if not pair:
self.talker.current_line = ''
return entity
key, val = pair
key = key.lower()
if key in keywords and key in entity.keys():
return entity
if not type and 'type' not in entity.keys():
entity['type'] = key
entity[key] = self.convert(entity['type'], key, val)
self.talker.current_line = ''
return entity
def all_objects(self, keywords, type):
while 1:
obj = self.one_object(keywords, type)
if not obj:
raise StopIteration
yield obj
if self.talker.done:
raise StopIteration
def convert(self, cmd, key, val):
# if there's a converter, convert it, otherwise return it the same
return self.converters.get(cmd, {}).get(key, lambda x: x)(val)
class dictobj(dict):
def __getattr__(self, attr):
try:
return self[attr]
except KeyError:
raise AttributeError
def __repr__(self):
# <mpdclient2.dictobj at 0x12345678 ..
# {
# key: val,
# key2: val2
# }>
return (object.__repr__(self).rstrip('>') + ' ..\n' +
' {\n ' +
',\n '.join([ '%s: %s' % (k, v) for k, v in self.items() ]) +
'\n }>')
class mpd_connection(object):
def __init__(self, host, port):
self.talker = socket_talker(host, port)
self.send = command_sender(self.talker)
self.fetch = response_fetcher(self.talker)
self.do = sender_n_fetcher(self.send, self.fetch)
self._hello()
def _hello(self):
line = self.talker.get_line()
if not line.startswith("OK MPD "):
raise RuntimeError("this ain't mpd")
self.mpd_version = line[len("OK MPD "):].strip()
self.talker.current_line = ''
# conn.foo() is equivalent to conn.do.foo(), but nicer
def __getattr__(self, attr):
if is_command(attr):
return getattr(self.do, attr)
raise AttributeError(attr)
def parse_host(host):
if '@' in host:
return host.split('@', 1)
return '', host
def connect(**kw):
import os
port = int(os.environ.get('MPD_PORT', 6600))
password, host = parse_host(os.environ.get('MPD_HOST', 'localhost'))
kw_port = kw.get('port', 0)
kw_password = kw.get('password', '')
kw_host = kw.get('host', '')
if kw_port:
port = kw_port
if kw_password:
password = kw_password
if kw_host:
host = kw_host
conn = mpd_connection(host, port)
if password:
conn.password(password)
return conn
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