def __init__(self, target, adapter, size=None):
self.client = BluetoothAsyncSocket()
self.adapter = adapter
self.client.bind((self.adapter.bt_address, 0))
self.target = target
self.target_t = (target, 1)
self.size = size if size else 'QQVGA'
self.streamserver = StreamServer('0.0.0.0', CameraConnection.port)
self.streamserver.create_server_socket()
CameraConnection.port += 1
def connect_rfcomm(self, address, port, callback, err_callback, bind=None): ''' Start up the RFcomm level connection. Once this successed you have to call connect_rfcomm ''' print "connecting rfcomm" self.socket = BluetoothAsyncSocket() self.__callback = callback self.__err_callback = err_callback if bind: self.socket._sock.bind((bind, 0)) self.socket.connect_ex((address, port), callback=self.__connected_rfcomm, err_callback=self.__failed_rfcomm) self.state = common.CONNECTING_RFCOMM return common.ReplyPending()
def __init__(self, target, adapter, size=None):
self.client = BluetoothAsyncSocket()
self.adapter = adapter
self.client.bind( (self.adapter.bt_address, 0) )
self.target = target
self.target_t = (target, 1)
self.size = size if size else 'QQVGA'
self.streamserver = StreamServer('0.0.0.0', CameraConnection.port)
self.streamserver.create_server_socket()
CameraConnection.port+=1
class CameraConnection():
port = 10000 # class variable
client = None # instance variables
target = None
adapter = None
state = None
index = 0
waiting_for_stop = False
server_socket = None
size = None
def __init__(self, target, adapter, size=None):
self.client = BluetoothAsyncSocket()
self.adapter = adapter
self.client.bind((self.adapter.bt_address, 0))
self.target = target
self.target_t = (target, 1)
self.size = size if size else 'QQVGA'
self.streamserver = StreamServer('0.0.0.0', CameraConnection.port)
self.streamserver.create_server_socket()
CameraConnection.port += 1
def connected(self):
logger.info("got connected")
self.state = FSM.WELCOME
self.client.setReadReady(self.data_available)
if len(self.client.read_buffer) > 0:
self.do_welcome()
def connection_failed(self, condition):
self.client.setCallback(None)
self.client.setErrCallback(None)
self.client.setReadReady(None)
self.adapter.disconnected(self.target)
def disconnect(self):
self.client.setCallback(None)
self.client.setErrCallback(None)
self.client.setReadReady(None)
self.adapter.disconnected(self.target)
self.client.close()
def connect(self):
self.state = FSM.CONNECTING
logger.info("connecting to %s from %s" %
(self.target_t, self.adapter.bt_address))
if self.adapter.manager.zm_backend:
self.pipe = '/tmp/camera_%s.pipe' % (self.target)
if not os.path.exists(self.pipe):
os.mkfifo(self.pipe)
return self.client.connect_ex(self.target_t, self.connected,
self.connection_failed)
def do_welcome(self):
if 'ACK0000' not in self.client.read_buffer:
return
logger.info("got welcome")
self.client.read_buffer = ""
self.state = FSM.SETUP
protocol.set_command_mode(self.client)
protocol.set_capture_mode(self.client, size=self.size)
self.state = FSM.IDLE
gobject.timeout_add(200, self.take_picture)
def take_picture(self):
logger.info("taking picture")
self.state = FSM.STREAM
protocol.send_command(self.client, "SET_PREVIEW_MODE")
#gobject.timeout_add(300,self.ask_size)
return False
def ask_size(self):
if self.state != FSM.ASK_SIZE:
return
logger.info("asking size")
self.state = FSM.GET_SIZE
protocol.send_command(self.client, 'GET_CAPTURE_SIZE')
def get_size(self):
if not CAPTURE_SIZE.match(self.client.read_buffer):
return
size = CAPTURE_SIZE.match(self.client.read_buffer).groupdict()['size']
self.size = size
logger.info("got size %s" % size)
self.state = FSM.STREAM
protocol.send_command(self.client, 'START_CAPTURE_SEND')
def extract_picture(self, start, end):
logger.info("got picture")
self.streamserver.send_to_all(self.client.read_buffer[start:end + 2],
mimetype='image/jpeg')
if self.adapter.manager.zm_backend:
logger.info("writing %i bytes" % (end - start))
asyncpipe.write(self.pipe, self.client.read_buffer[start:end + 2])
if self.adapter.manager.op_backend:
self.adapter.manager.tellListener(
signals.HANDLE_PICTURE,
dongle=self.adapter.bt_address,
target=self.target,
picture=self.client.read_buffer[start:end + 2])
self.index += 1
self.client.read_buffer = self.client.read_buffer[end + 2:]
def wait_for_prompt(self):
logger.info("wait for prompt")
if time.time() - self.last > 2:
logger.info("2 seconds without data, disconnect")
self.disconnect()
return False
return True
def do_stream(self):
start, end = protocol.find_jpeg(self.client.read_buffer)
if start > -1 and end > -1:
self.extract_picture(start, end)
if self.index == -100:
protocol.send_command(self.client, 'SET_COMMAND_MODE')
self.state = FSM.IDLE
self.last = time.time()
gobject.timeout_add(100, self.wait_for_prompt)
def data_available(self, amount):
if self.state == FSM.WELCOME:
self.do_welcome()
elif self.state == FSM.SETUP:
self.do_setup()
elif self.state == FSM.IDLE:
logger.info("ignoring I'm in idle")
self.last = time.time()
self.client.read_buffer = ""
elif self.state == FSM.ASK_SIZE:
self.ask_size()
elif self.state == FSM.GET_SIZE:
self.get_size()
elif self.state == FSM.STREAM:
self.do_stream()
else:
logger.debug("not valid state %s" % self.state)
class CameraConnection():
port = 10000 # class variable
client = None # instance variables
target = None
adapter = None
state = None
index = 0
waiting_for_stop = False
server_socket = None
size = None
def __init__(self, target, adapter, size=None):
self.client = BluetoothAsyncSocket()
self.adapter = adapter
self.client.bind( (self.adapter.bt_address, 0) )
self.target = target
self.target_t = (target, 1)
self.size = size if size else 'QQVGA'
self.streamserver = StreamServer('0.0.0.0', CameraConnection.port)
self.streamserver.create_server_socket()
CameraConnection.port+=1
def connected(self):
logger.info("got connected")
self.state = FSM.WELCOME
self.client.setReadReady(self.data_available)
if len(self.client.read_buffer) > 0:
self.do_welcome()
def connection_failed(self, condition):
self.client.setCallback(None)
self.client.setErrCallback(None)
self.client.setReadReady(None)
self.adapter.disconnected(self.target)
def disconnect(self):
self.client.setCallback(None)
self.client.setErrCallback(None)
self.client.setReadReady(None)
self.adapter.disconnected(self.target)
self.client.close()
def connect(self):
self.state = FSM.CONNECTING
logger.info("connecting to %s from %s" % (self.target_t,
self.adapter.bt_address))
if self.adapter.manager.zm_backend:
self.pipe = '/tmp/camera_%s.pipe' % (self.target)
if not os.path.exists(self.pipe):
os.mkfifo(self.pipe)
return self.client.connect_ex(
self.target_t,
self.connected,
self.connection_failed)
def do_welcome(self):
if 'ACK0000' not in self.client.read_buffer:
return
logger.info("got welcome")
self.client.read_buffer = ""
self.state = FSM.SETUP
protocol.set_command_mode(self.client)
protocol.set_capture_mode(self.client, size=self.size)
self.state = FSM.IDLE
gobject.timeout_add(200,self.take_picture)
def take_picture(self):
logger.info("taking picture")
self.state = FSM.STREAM
protocol.send_command(self.client, "SET_PREVIEW_MODE")
#gobject.timeout_add(300,self.ask_size)
return False
def ask_size(self):
if self.state != FSM.ASK_SIZE:
return
logger.info("asking size")
self.state = FSM.GET_SIZE
protocol.send_command(self.client, 'GET_CAPTURE_SIZE')
def get_size(self):
if not CAPTURE_SIZE.match(self.client.read_buffer):
return
size = CAPTURE_SIZE.match(self.client.read_buffer).groupdict()['size']
self.size = size
logger.info("got size %s" % size)
self.state = FSM.STREAM
protocol.send_command(self.client, 'START_CAPTURE_SEND')
def extract_picture(self, start, end):
logger.info("got picture")
self.streamserver.send_to_all(
self.client.read_buffer[start:end+2],
mimetype='image/jpeg'
)
if self.adapter.manager.zm_backend:
logger.info("writing %i bytes" % (end-start))
asyncpipe.write(self.pipe, self.client.read_buffer[start:end+2])
if self.adapter.manager.op_backend:
self.adapter.manager.tellListener(
signals.HANDLE_PICTURE,
dongle = self.adapter.bt_address,
target = self.target,
picture = self.client.read_buffer[start:end+2]
)
self.index+=1
self.client.read_buffer = self.client.read_buffer[end+2:]
def wait_for_prompt(self):
logger.info("wait for prompt")
if time.time() - self.last > 2:
logger.info("2 seconds without data, disconnect")
self.disconnect()
return False
return True
def do_stream(self):
start, end = protocol.find_jpeg(self.client.read_buffer)
if start > -1 and end > -1:
self.extract_picture(start, end)
if self.index == -100:
protocol.send_command(self.client, 'SET_COMMAND_MODE')
self.state = FSM.IDLE
self.last = time.time()
gobject.timeout_add(100, self.wait_for_prompt)
def data_available(self, amount):
if self.state == FSM.WELCOME:
self.do_welcome()
elif self.state == FSM.SETUP:
self.do_setup()
elif self.state == FSM.IDLE:
logger.info("ignoring I'm in idle")
self.last = time.time()
self.client.read_buffer = ""
elif self.state == FSM.ASK_SIZE:
self.ask_size()
elif self.state == FSM.GET_SIZE:
self.get_size()
elif self.state == FSM.STREAM:
self.do_stream()
else:
logger.debug("not valid state %s" % self.state)
class Client(object):
def __init__(self, callback=None, err_callback=None, loop=None):
self.max_packet_length = 0xffff
self.obex_version = OBEX_Version()
self.__callback=callback
self.__err_callback=err_callback
self.loop = loop
# internal state variables
self.state = common.IDLE
self.state_put = common.PUT_IDLE
# internal holders
self.pending_headers = []
self.response_handler = responses.ResponseHandler()
self.length = 0
self.type = None
self.invalid = False
# a state flag that allow us to know if we have to send more
# headers as soon as we get a reply
self.sending_headers = False
def cleanup(self):
self.socket.remove_callbacks()
self.socket.close()
def callback(self, *args, **kwargs):
if self.invalid:
return
print "callback", args, kwargs
if callable(self.__callback):
self.__callback(self, *args, **kwargs)
def err_callback(self, *args, **kwargs):
print "err_callback", args, kwargs
self.invalid = True
if callable(self.__err_callback):
self.__err_callback(self, *args, **kwargs)
def internal_callback(self, *args, **kwargs):
if self.state != common.PUT:
return self.callback(*args, **kwargs)
if self.state_put == common.PUT_HEADER:
return self.put_headers_done(*args, **kwargs)
if self.state_put == common.PUT_BODY:
return self.put_body_done(*args, **kwargs)
if self.state_put == common.PUT_FINAL:
return self.put_done(*args, **kwargs)
raise Exception("Invalid state %s %s" % (
common.STATES[self.state],
common.STATES_PUT[self.state_put]
))
def data_ready(self, amount):
print "data_ready", amount
if self.length == 0:
if amount < 3:
return
format = ">BH"
data = self.socket.recv(3)
amount=amount-3
type, length = struct.unpack(format, data)
else:
type = self.type
length = self.length
if length-3>amount:
self.type = type
self.length = length
self.data = data
print "pending data", length
return
data += self.socket.recv(length - 3)
self.type = 0
self.length = 0
print type, length, len(data)
if isinstance(self.request, requests.Connect):
response = self.response_handler.decode_connection(type, length, data)
self.remote_info = response
else:
response = self.response_handler.decode(type, length, data)
if self.sending_headers and not isinstance(response, responses.Continue):
self.err_callback(error=common.ObexError(response))
return
self.internal_callback(response=response)
def __connected_rfcomm(self, *args, **kwargs):
self.callback(*args[1:], **kwargs)
def __failed_rfcomm(self, *args, **kwargs):
self.err_callback(error=common.ErrnoError(args[0]), *args[1:], **kwargs)
def connect_rfcomm(self, address, port, callback, err_callback, bind=None):
'''
Start up the RFcomm level connection. Once this successed
you have to call connect_rfcomm
'''
print "connecting rfcomm"
self.socket = BluetoothAsyncSocket()
self.__callback = callback
self.__err_callback = err_callback
if bind:
self.socket._sock.bind((bind, 0))
self.socket.connect_ex((address, port),
callback=self.__connected_rfcomm,
err_callback=self.__failed_rfcomm)
self.state = common.CONNECTING_RFCOMM
return common.ReplyPending()
def connect_obex(self, header_list=[]):
'''
Start the Obex connection.
'''
flags = 0
data = (self.obex_version.to_byte(), flags, self.max_packet_length)
max_length = self.max_packet_length
request = requests.Connect(data)
# upgrade our state
self.state = common.CONNECTING_OBEX
# register to get informed when more data is available
self.socket.setReadReady(self.data_ready)
self.pending_headers = list(header_list)
self._send_headers(request, max_length)
def _send_headers(self, request, max_length):
"""Convenience method to add headers to a request and send one or
more requests with those headers."""
while self.pending_headers:
if request.add_header(self.pending_headers[0], max_length):
self.pending_headers.pop(0)
else:
print "sending on headers", request.encode()
self.socket.sendall(request.encode())
request.reset_headers()
self.sending_headers = True
self.request = request
# now we wait for data
return common.ReplyPending
self.sending_headers = False
# Always send at least one request.
if isinstance(request, requests.Get):
# Turn the last Get request containing the headers into a
# Get_Final request.
request.code = requests.Get_Final.code
print "sending", len(request.encode())
self.socket.sendall(request.encode())
self.request = request
return common.ReplyPending
def put_headers_done(self, response):
if not isinstance(response, responses.Continue):
return self.err_callback(common.ObexError(response))
self.put_body()
def put_body_done(self, response):
if not isinstance(response, responses.Continue):
return self.err_callback(common.ObexError(response))
self.put_body()
def put_done(self, response):
if not isinstance(response, responses.Success):
return self.err_callback(common.ObexError(response))
self.callback(response)
self.state = common.CONNECTED
self.state_put = common.PUT_IDLE
def put_body(self):
max_length = self.remote_info.max_packet_length
file_data = self.file_data
# Send the file data.
# The optimum size is the maximum packet length accepted by the
# remote device minus three bytes for the header ID and length
# minus three bytes for the request.
optimum_size = max_length - 3 - 3
data = file_data[:optimum_size]
self.file_data=self.file_data[optimum_size:]
if len(data) == 0:
raise Exception("work done")
if len(self.file_data) > 0:
self.state_put = common.PUT_BODY
request = requests.Put()
request.add_header(headers.Body(data, False), max_length)
self.socket.sendall(request.encode())
else:
self.state_put = common.PUT_FINAL
request = requests.Put_Final()
request.add_header(headers.End_Of_Body(data, False), max_length)
self.socket.sendall(request.encode())
def put(self, name, file_data, header_list = ()):
"""put(self, name, file_data, header_list = ())
Sends a file with the given name, containing the file_data specified,
to the server for storage in the current directory for the session,
and returns the response.
Additional headers can be sent by passing a sequence as the
header_list keyword argument. These will be sent after the name and
file length information associated with the name and file_data
supplied.
"""
header_list = [
headers.Name(name),
headers.Length(len(file_data))
] + list(header_list)
max_length = self.remote_info.max_packet_length
request = requests.Put()
self.state = common.PUT
self.state_put = common.PUT_HEADER
self.file_data = file_data
self.pending_headers = header_list
self._send_headers(request, max_length)
