def __init__(self,
peer_address,
sport=0,
rport=0,
latency=20,
jitter_buffer_size=10,
safe_keyboard=0,
recovery=1,
follow_standard=0,
verbose=0):
#Init mother class
RTPSession.__init__(self, peer_address, sport, rport, PAYLOAD,
jitter_buffer_size, TOOL_NAME)
self.verbose = verbose
if verbose:
print("Your configuration:")
print(" Latency:", latency, "ms")
print(" Jitter Buffer Time:", jitter_buffer_size, "ms")
#init midi
if self.sport > 0:
self.midi_in = MidiIn(self, verbose)
#1 == Permisive mode (make this configurable)
if self.rport > 0:
self.midi_out = MidiOut(0, latency, safe_keyboard, verbose)
#history of the feed
self.packets_received_list = PacketCirc(HISTORY_SIZE)
#Recovery utils
self.recovery = 0
self.recovery_journal_system = None
if recovery:
self.recovery = 1
self.recovery_journal_system = RecoveryJournal(follow_standard)
if verbose:
print(" Recovery journal is running")
if follow_standard:
print(" Recovery is following standard")
self.init_timestamp = None
#Flag
self.sending_data = 0
self.receiving_data = 0
#Timestamp story
self.last_midi_time_sent = pypm.Time()
self.timeouterLoop = None
def __init__(self, peer_address, sport=0, rport=0, latency=20,
jitter_buffer_size=10, safe_keyboard=0, recovery=1,
follow_standard=0, verbose=0):
#Init mother class
RTPSession.__init__(self, peer_address, sport, rport, PAYLOAD,
jitter_buffer_size, TOOL_NAME)
self.verbose = verbose
if verbose:
print "Your configuration:"
print " Latency:", latency, "ms"
print " Jitter Buffer Time:", jitter_buffer_size, "ms"
#init midi
if self.sport > 0:
self.midi_in = MidiIn(self, verbose)
#1 == Permisive mode (make this configurable)
if self.rport > 0:
self.midi_out = MidiOut(0, latency, safe_keyboard, verbose)
#history of the feed
self.packets_received_list = PacketCirc(HISTORY_SIZE)
#Recovery utils
self.recovery = 0
self.recovery_journal_system = None
if recovery:
self.recovery = 1
self.recovery_journal_system = RecoveryJournal(follow_standard)
if verbose:
print " Recovery journal is running"
if follow_standard:
print " Recovery is following standard"
self.init_timestamp = None
#Flag
self.sending_data = 0
self.receiving_data = 0
#Timestamp story
self.last_midi_time_sent = pypm.Time()
self.timeouterLoop = None
class MidiSession(RTPSession):
"""
Control RTP for MIDI payload.
"""
def __init__(self,
peer_address,
sport=0,
rport=0,
latency=20,
jitter_buffer_size=10,
safe_keyboard=0,
recovery=1,
follow_standard=0,
verbose=0):
#Init mother class
RTPSession.__init__(self, peer_address, sport, rport, PAYLOAD,
jitter_buffer_size, TOOL_NAME)
self.verbose = verbose
if verbose:
print("Your configuration:")
print(" Latency:", latency, "ms")
print(" Jitter Buffer Time:", jitter_buffer_size, "ms")
#init midi
if self.sport > 0:
self.midi_in = MidiIn(self, verbose)
#1 == Permisive mode (make this configurable)
if self.rport > 0:
self.midi_out = MidiOut(0, latency, safe_keyboard, verbose)
#history of the feed
self.packets_received_list = PacketCirc(HISTORY_SIZE)
#Recovery utils
self.recovery = 0
self.recovery_journal_system = None
if recovery:
self.recovery = 1
self.recovery_journal_system = RecoveryJournal(follow_standard)
if verbose:
print(" Recovery journal is running")
if follow_standard:
print(" Recovery is following standard")
self.init_timestamp = None
#Flag
self.sending_data = 0
self.receiving_data = 0
#Timestamp story
self.last_midi_time_sent = pypm.Time()
self.timeouterLoop = None
def start(self):
"""
Launch the MIDI session and the RTP session
"""
if self.sport > 0:
self.midi_in.start()
if self.rport > 0:
self.midi_out.start()
self._keep_alive()
def stop(self):
"""
Stop midi session and the RTP session
"""
if self.sport > 0:
self.midi_in.stop()
if self.rport > 0:
self.midi_out.stop()
if not self.timeouterLoop is None:
if self.timeouterLoop.running:
self.timeouterLoop.stop()
def _keep_alive(self):
#FIXME: document this
def check_timeout():
"""
Sends an empty packet if there is no activity.
"""
if time.time() > self.last_send + MIDI_RTP_TIME_OUT:
self.send_silence()
#Deccomment following line if want to log keep aive packet
#log.info("silent packet sent to keep alive the connection")
self.timeouterLoop = task.LoopingCall(check_timeout, now=False)
self.timeouterLoop.start(15)
def incoming_rtp(self, cookie, timestamp, packet, read_recovery_journal=0):
"""
Function called by RTPControl when incoming
data comes out from jitter buffer.
"""
#Parsing RTP MIDI Header
marker_b, marker_j, marker_z, marker_p, length = \
MidiCommand().parse_header(packet.data[0])
if marker_p:
#silent packet with recovery
midi_list = []
else:
#normal packet
#Extract Midi Note (length en nb notes)
midi_list = packet.data[1:length * 7 + 1]
#Decoding midi commands
midi_list = MidiCommand().decode_midi_commands(midi_list, length)
if DEBUG:
print("receiving data", midi_list)
#Saving feed history
packet_to_save = OldPacket(self.seq, midi_list, 0)
self.packets_received_list.to_list(packet_to_save)
#Extract Midi Recovery Journal if is present in the packet and
#the previous packet has been lost
if self.recovery:
if marker_j and read_recovery_journal:
if DEBUG:
print("Read recovery journal")
print(packet.header.marker)
journal = packet.data[length * 7 + 1:]
if len(journal) > 0:
#Parse Recovery journal
r_journal = self.recovery_journal_system.parse(journal)
else:
r_journal = []
#compare it with history feed
#Extract midi notes from checkpoint sent to actual seq
midi_history = self.packets_received_list.get_packets(
self.last_checkpoint, self.seq)
#Selecting only notes present in recovery
#that are not in feed history
midi_cmd_history = []
for i in range(len(midi_history)):
cmd_tmp = midi_history[i].packet
for j in range(len(cmd_tmp)):
midi_cmd_history.append(cmd_tmp[j])
if DEBUG:
rem = time()
midi_from_history = compare_history_with_recovery(
r_journal, midi_cmd_history)
if DEBUG:
print("tps for history compare:", str(time() - rem))
#Initialize timestamp diff
if self.init_timestamp is None:
self.init_timestamp = timestamp
#calculate delta midi
self.midi_out.set_init_time()
#adding recovery journal to the list
if self.recovery:
if marker_j and read_recovery_journal:
midi_list.extend(midi_from_history)
#profiter du parcours pour appliquer les timestamps
for i in range(len(midi_list)):
midi_list[i][1] = (timestamp - self.init_timestamp +
self.midi_out.init_time)
#Adding the note to the playing buffer
for i in range(len(midi_list)):
self.midi_out.midi_cmd_list.put(midi_list[i])
#switch off witness
self.receiving_data = 0
def send_silence(self):
"""
Sends empty packet to signal a silent period
"""
recovery_journal = ""
marker_j = 0
#Getting recovery
if self.recovery:
recovery_journal = self.recovery_journal_system.content
if recovery_journal != "":
#Recovery Journal 1 if present
marker_j = 1
#Creating empty midicommand filed
header = MidiCommand().header(0, marker_j, 1, 1, 0)
if recovery_journal != "":
chunk = header + recovery_journal
else:
chunk = str(0)
#sending silent packet with recovery journal
RTPSession.send_empty_packet(self, chunk)
#RTPControl().send_empty_packet(self.cookie, chunk)
def send_midi_data(self, data, midi_time, recovery=1, timestamp=1):
"""
Sends MIDI data through the RTP session.
"""
if DEBUG:
print("Sending data", data)
#Witness
self.sending_data = 1
#midi Cmd List
midi_list = data
#Saving packet
packet = OldPacket(self.seq, midi_list, 0)
chunk = ""
recovery_journal = ""
if recovery:
#Recovery Journal (can be empty)
#TODO customize it for each member of the feed
if self.recovery_journal_system is not None:
recovery_journal = self.recovery_journal_system.content
if recovery_journal == "":
recovery = 0
#Packing All
#Testing length of midi list ( in nb notes )
if len(midi_list) < 1:
return
#Formating commands for network
midi_list_formated, length = \
MidiCommand().encode_midi_commands(midi_list)
#Creating Header
header = MidiCommand().header(0, recovery, 0, 0, length)
#Building Chunk
chunk = header + midi_list_formated + recovery_journal
#Timestamp care (TS == temps midi ecouler depuis la creation de rtp)
ts = midi_time - self.last_midi_time_sent
self.last_midi_time_sent = midi_time
#sending data to rtp session
RTPSession.send_data(self, chunk, ts)
self.sending_data = 0
#Updating Recovery Journal
if self.recovery:
self.recovery_journal_system.update(packet)
def update_checkpoint(self, new_checkpoint):
"""
Function called by RTCP to reduce size of recovery journal.
"""
if self.recovery:
self.recovery_journal_system.trim(new_checkpoint)
self.checkpoint = new_checkpoint
def drop_connection(self, cookie=0):
"""
Called by RTP when the connection has been dropped.
"""
#Rename drop connection
print("drop connexion for midi session")
def get_devices(self):
"""
Lists MIDI devices on this computer.
@rtype: tuple
@return: Tuple of list of device info. Input devices first, then output devices.
"""
#FIXME: return a dict, not a tuple.
if self.sport > 0:
devices_in = self.midi_in.get_devices()
else:
devices_in = []
if self.rport > 0:
devices_out = self.midi_out.get_devices()
else:
devices_out = []
return devices_in, devices_out
def set_device_in(self, dev):
"""
Selects the MIDI device to be polled.
@param dev: The device number to choose.
@type dev: int
@rtype: bool
@return: Success or not
"""
return self.midi_in.set_device(dev)
def set_device_out(self, dev):
"""
Selects the MIDI output device to send data to.
@param dev: The device number to choose.
@type dev: int
@rtype: bool
@return: Success or not
"""
return self.midi_out.set_device(dev)
class MidiSession(RTPSession):
"""
Control RTP for MIDI payload.
"""
def __init__(self, peer_address, sport=0, rport=0, latency=20,
jitter_buffer_size=10, safe_keyboard=0, recovery=1,
follow_standard=0, verbose=0):
#Init mother class
RTPSession.__init__(self, peer_address, sport, rport, PAYLOAD,
jitter_buffer_size, TOOL_NAME)
self.verbose = verbose
if verbose:
print "Your configuration:"
print " Latency:", latency, "ms"
print " Jitter Buffer Time:", jitter_buffer_size, "ms"
#init midi
if self.sport > 0:
self.midi_in = MidiIn(self, verbose)
#1 == Permisive mode (make this configurable)
if self.rport > 0:
self.midi_out = MidiOut(0, latency, safe_keyboard, verbose)
#history of the feed
self.packets_received_list = PacketCirc(HISTORY_SIZE)
#Recovery utils
self.recovery = 0
self.recovery_journal_system = None
if recovery:
self.recovery = 1
self.recovery_journal_system = RecoveryJournal(follow_standard)
if verbose:
print " Recovery journal is running"
if follow_standard:
print " Recovery is following standard"
self.init_timestamp = None
#Flag
self.sending_data = 0
self.receiving_data = 0
#Timestamp story
self.last_midi_time_sent = pypm.Time()
self.timeouterLoop = None
def start(self):
"""
Launch the MIDI session and the RTP session
"""
if self.sport > 0:
self.midi_in.start()
if self.rport > 0:
self.midi_out.start()
self._keep_alive()
def stop(self):
"""
Stop midi session and the RTP session
"""
if self.sport > 0:
self.midi_in.stop()
if self.rport > 0:
self.midi_out.stop()
if not self.timeouterLoop is None:
if self.timeouterLoop.running:
self.timeouterLoop.stop()
def _keep_alive(self):
#FIXME: document this
def check_timeout():
"""
Sends an empty packet if there is no activity.
"""
if time.time() > self.last_send + MIDI_RTP_TIME_OUT:
self.send_silence()
#Deccomment following line if want to log keep aive packet
#log.info("silent packet sent to keep alive the connection")
self.timeouterLoop = task.LoopingCall(check_timeout, now=False)
self.timeouterLoop.start(15)
def incoming_rtp(self, cookie, timestamp, packet, read_recovery_journal=0):
"""
Function called by RTPControl when incoming
data comes out from jitter buffer.
"""
#Parsing RTP MIDI Header
marker_b, marker_j, marker_z, marker_p, length = \
MidiCommand().parse_header(packet.data[0])
if marker_p :
#silent packet with recovery
midi_list = []
else:
#normal packet
#Extract Midi Note (length en nb notes)
midi_list = packet.data[1:length*7+1]
#Decoding midi commands
midi_list = MidiCommand().decode_midi_commands(midi_list, length)
if DEBUG:
print "receiving data", midi_list
#Saving feed history
packet_to_save = OldPacket(self.seq, midi_list, 0)
self.packets_received_list.to_list(packet_to_save)
#Extract Midi Recovery Journal if is present in the packet and
#the previous packet has been lost
if self.recovery:
if marker_j and read_recovery_journal:
if DEBUG:
print "Read recovery journal"
print packet.header.marker
journal = packet.data[length*7+1:]
if len(journal)>0:
#Parse Recovery journal
r_journal = self.recovery_journal_system.parse(journal)
else:
r_journal = []
#compare it with history feed
#Extract midi notes from checkpoint sent to actual seq
midi_history = self.packets_received_list.get_packets(self.last_checkpoint,self.seq)
#Selecting only notes present in recovery
#that are not in feed history
midi_cmd_history = []
for i in range(len(midi_history)):
cmd_tmp = midi_history[i].packet
for j in range(len(cmd_tmp)):
midi_cmd_history.append(cmd_tmp[j])
if DEBUG:
rem = time()
midi_from_history = compare_history_with_recovery(r_journal, midi_cmd_history)
if DEBUG:
print "tps for history compare:", str(time() - rem)
#Initialize timestamp diff
if self.init_timestamp is None:
self.init_timestamp = timestamp
#calculate delta midi
self.midi_out.set_init_time()
#adding recovery journal to the list
if self.recovery:
if marker_j and read_recovery_journal:
midi_list.extend(midi_from_history)
#profiter du parcours pour appliquer les timestamps
for i in range(len(midi_list)):
midi_list[i][1] = (timestamp - self.init_timestamp + self.midi_out.init_time)
#Adding the note to the playing buffer
for i in range(len(midi_list)):
self.midi_out.midi_cmd_list.put(midi_list[i])
#switch off witness
self.receiving_data = 0
def send_silence(self):
"""
Sends empty packet to signal a silent period
"""
recovery_journal = ""
marker_j = 0
#Getting recovery
if self.recovery:
recovery_journal = self.recovery_journal_system.content
if recovery_journal != "":
#Recovery Journal 1 if present
marker_j = 1
#Creating empty midicommand filed
header = MidiCommand().header(0, marker_j, 1, 1, 0)
if recovery_journal != "":
chunk = header + recovery_journal
else:
chunk = str(0)
#sending silent packet with recovery journal
RTPSession.send_empty_packet(self, chunk)
#RTPControl().send_empty_packet(self.cookie, chunk)
def send_midi_data(self, data, midi_time, recovery=1, timestamp=1):
"""
Sends MIDI data through the RTP session.
"""
if DEBUG:
print "Sending data", data
#Witness
self.sending_data = 1
#midi Cmd List
midi_list = data
#Saving packet
packet = OldPacket(self.seq, midi_list, 0)
chunk = ""
recovery_journal = ""
if recovery:
#Recovery Journal (can be empty)
#TODO customize it for each member of the feed
if self.recovery_journal_system is not None:
recovery_journal = self.recovery_journal_system.content
if recovery_journal == "":
recovery = 0
#Packing All
#Testing length of midi list ( in nb notes )
if len(midi_list) < 1:
return
#Formating commands for network
midi_list_formated, length = \
MidiCommand().encode_midi_commands(midi_list)
#Creating Header
header = MidiCommand().header(0, recovery, 0, 0, length)
#Building Chunk
chunk = header + midi_list_formated + recovery_journal
#Timestamp care (TS == temps midi ecouler depuis la creation de rtp)
ts = midi_time - self.last_midi_time_sent
self.last_midi_time_sent = midi_time
#sending data to rtp session
RTPSession.send_data(self, chunk, ts)
self.sending_data = 0
#Updating Recovery Journal
if self.recovery:
self.recovery_journal_system.update(packet)
def update_checkpoint(self, new_checkpoint):
"""
Function called by RTCP to reduce size of recovery journal.
"""
if self.recovery:
self.recovery_journal_system.trim(new_checkpoint)
self.checkpoint = new_checkpoint
def drop_connection(self, cookie=0):
"""
Called by RTP when the connection has been dropped.
"""
#Rename drop connection
print "drop connexion for midi session"
def get_devices(self):
"""
Lists MIDI devices on this computer.
@rtype: tuple
@return: Tuple of list of device info. Input devices first, then output devices.
"""
#FIXME: return a dict, not a tuple.
if self.sport > 0:
devices_in = self.midi_in.get_devices()
else:
devices_in = []
if self.rport > 0:
devices_out = self.midi_out.get_devices()
else:
devices_out = []
return devices_in, devices_out
def set_device_in(self, dev):
"""
Selects the MIDI device to be polled.
@param dev: The device number to choose.
@type dev: int
@rtype: bool
@return: Success or not
"""
return self.midi_in.set_device(dev)
def set_device_out(self, dev):
"""
Selects the MIDI output device to send data to.
@param dev: The device number to choose.
@type dev: int
@rtype: bool
@return: Success or not
"""
return self.midi_out.set_device(dev)
def setUp(self):
fake_client = FakeClient
self.midi_in = MidiIn(fake_client)
class TestMidiIn(unittest.TestCase):
def setUp(self):
fake_client = FakeClient
self.midi_in = MidiIn(fake_client)
def test_start(self):
res = self.midi_in.start()
assert(res == 0), self.fail("Can start without a midi device set")
#Faking midiDevice
self.midi_in.midi_in = 1
res = self.midi_in.start()
assert(res == 1), self.fail("Can't start with a midi device set")
def test_stop_1(self):
self.midi_in.midi_in = 1
self.midi_in.start()
self.midi_in.stop()
assert(self.midi_in.end_flag == True), \
self.fail("Problem stopping Midi in.")
def test_stop_2(self):
#Set midi device
#Getting list of midi device
self.midi_in.get_devices()
#Setting and testing midi device
if len(self.midi_in.midi_device_list) > 0:
dev_to_use = self.midi_in.midi_device_list
self.midi_in.midi_in = 1
else:
self.fail("Problem getting list of midi" \
+ " devices or no midi device available.")
#Launch midi in
self.midi_in.start()
#Testing end flag
assert( self.midi_in.end_flag == False ), \
self.fail("Problem with end flag when midi is in activity")
self.midi_in.stop()
assert( self.midi_in.end_flag == True ), \
self.fail("Problem with end flag when midi out in activity")
def test_get_devices(self):
self.midi_in.get_devices()
assert(len(self.midi_in.midi_device_list) > 0), self.fail("Problem getting devices")
def test_set_device(self):
#Getting list of midi device
self.midi_in.get_devices()
#Setting and testing midi device
if len(self.midi_in.midi_device_list) > 0:
dev_to_use = self.midi_in.midi_device_list
print dev_to_use
#Port midi failed with the following lines ??
#res = self.midi_in.set_device(1)
#assert( res == True ), self.fail("Problem setting midi device in")
else:
self.fail("Problem getting list of midi" \
+ " devices or no midi device available.")
def test_get_device_info(self):
#setting device midi
self.midi_in.get_devices()
self.midi_in.set_device(self.midi_in.midi_device_list[0][0])
#Getting device infos
res = self.midi_in.get_device_info()
#Testing device infos
assert(res[1] == "Midi Through Port-0"), \
self.fail("Problem getting right info from midi device")
def test_get_input(self):
pass
def test_polling(self):
pass