adding additional bugfixed files

host/basic_host.py

@@ -11,7 +11,6 @@ class BasicHost(IHost):
     def __init__(self, _network):
         self.network = _network
         self.peerstore = self.network.peerstore
-        # self.stream_handlers = {}
 
     def get_id(self):
         """
@@ -49,13 +48,13 @@ class BasicHost(IHost):
 
     # protocol_id can be a list of protocol_ids
     # stream will decide which protocol_id to run on
-    def new_stream(self, peer_id, protocol_id):
+    async def new_stream(self, peer_id, protocol_id):
         """
         :param peer_id: peer_id that host is connecting
         :param proto_id: protocol id that stream runs on
         :return: true if successful
         """
         # TODO: host should return a mux stream not a raw stream
-        stream = self.network.new_stream(peer_id)
+        stream = await self.network.new_stream(peer_id, protocol_id)
         stream.set_protocol(protocol_id)
         return stream

libp2p/libp2p.py

@@ -8,7 +8,7 @@ from Crypto.PublicKey import RSA
 class Libp2p(object):
 
     def __init__(self, idOpt = None, \
-        transportOpt = ["/ip4/127.0.0.1/tcp/10000"], \
+        transportOpt = ["/ip4/127.0.0.1/tcp/8001"], \
         muxerOpt = ["mplex/6.7.0"], \
         secOpt = ["secio"], \
         peerstore = PeerStore()):
@@ -25,16 +25,15 @@ class Libp2p(object):
         self.secOpt = secOpt
         self.peerstore = peerstore
 
-    def new_node(self):
+    async def new_node(self):
 
         upgrader = TransportUpgrader(self.secOpt, self.transportOpt)
         swarm = Swarm(self.idOpt, self.peerstore, upgrader)
         tcp = TCP()
         swarm.add_transport(tcp)
-        swarm.listen(self.transportOpts)
+        await swarm.listen(self.transportOpt[0])
         host = BasicHost(swarm)
 
-        # TODO MuxedConnection currently contains all muxing logic
+        # TODO MuxedConnection currently contains all muxing logic (move to a Muxer)
         # TODO routing unimplemented
-
         return host

muxer/mplex/muxed_connection.py

@@ -17,8 +17,9 @@ class MuxedConn(IMuxedConn):
         self.initiator = initiator
         self.buffers = {}
         self.streams = {}
+        self.stream_queue = asyncio.Queue()
 
-        self.add_incoming_task()
+        asyncio.ensure_future(self.handle_incoming())
 
     def close(self):
         """
@@ -33,7 +34,12 @@ class MuxedConn(IMuxedConn):
         """
         pass
 
-    def read_buffer(self, stream_id):
+    async def read_buffer(self, stream_id):
+        # Empty buffer or nonexistent stream
+        # TODO: propagate up timeout exception and catch
+        if stream_id not in self.buffers or not self.buffers[stream_id]:
+            await self.handle_incoming()
+
         data = self.buffers[stream_id]
         self.buffers[stream_id] = bytearray()
         return data
@@ -43,37 +49,22 @@ class MuxedConn(IMuxedConn):
         creates a new muxed_stream
         :return: a new stream
         """
-        stream = MuxedStream(peer_id, multi_addr, self)
+        stream = MuxedStream(stream_id, multi_addr, self)
         self.streams[stream_id] = stream
-        self.buffers[stream_id] = bytearray()
         return stream
 
-    def accept_stream(self):
+    async def accept_stream(self):
         """
         accepts a muxed stream opened by the other end
         :return: the accepted stream
         """
-        data = bytearray()
-        while True:
-            chunk = self.raw_conn.reader.read(100)
-            if not chunk:
-                break
-            data += chunk
-        header, end_index = decode_uvarint(data, 0)
-        length, end_index = decode_uvarint(data, end_index)
-        message = data[end_index, end_index + length]
-        
-        flag = header & 0x07
-        stream_id = header >> 3
-
         # TODO update to pull out protocol_id from message
         protocol_id = "/echo/1.0.0"
-
+        stream_id = await self.stream_queue.get()
         stream = MuxedStream(stream_id, False, self)
-
         return stream, stream_id, protocol_id
 
-    def send_message(self, flag, data, stream_id):
+    async def send_message(self, flag, data, stream_id):
         """
         sends a message over the connection
         :param header: header to use
@@ -86,7 +77,8 @@ class MuxedConn(IMuxedConn):
         header = encode_uvarint(header)
         data_length = encode_uvarint(len(data))
         _bytes = header + data_length + data
-        return self.write_to_stream(_bytes)
+
+        return await self.write_to_stream(_bytes)
 
     async def write_to_stream(self, _bytes):
         self.raw_conn.writer.write(_bytes)
@@ -95,25 +87,23 @@ class MuxedConn(IMuxedConn):
 
     async def handle_incoming(self):
         data = bytearray()
-        while True:
-            chunk = self.raw_conn.reader.read(100)
-            if not chunk:
-                break
+        try:
+            chunk = await asyncio.wait_for(self.raw_conn.reader.read(1024), timeout=5)
             data += chunk
-        header, end_index = decode_uvarint(data, 0)
-        length, end_index = decode_uvarint(data, end_index)
-        message = data[end_index, end_index + length]
 
-        # Deal with other types of messages
-        flag = header & 0x07
-        stream_id = header >> 3
+            header, end_index = decode_uvarint(data, 0)
+            length, end_index = decode_uvarint(data, end_index + 1)
 
-        self.buffers[stream_id] = self.buffers[stream_id] + message
-        # Read header
-        # Read message length
-        # Read message into corresponding buffer
+            message = data[-length:]
 
-    def add_incoming_task(self):
-        loop = asyncio.get_event_loop()
-        handle_incoming_task = loop.create_task(self.handle_incoming())
-        handle_incoming_task.add_done_callback(self.add_incoming_task)
+            # Deal with other types of messages
+            flag = header & 0x07
+            stream_id = header >> 3
+
+            if stream_id not in self.buffers:
+                self.buffers[stream_id] = message
+                await self.stream_queue.put(stream_id)
+            else:
+                self.buffers[stream_id] = self.buffers[stream_id] + message
+        except asyncio.TimeoutError:
+            print('timeout!')

muxer/mplex/muxed_stream.py

@@ -36,19 +36,19 @@ class MuxedStream(IMuxedStream):
         else:
             return HEADER_TAGS[action] - 1
 
-    def read(self):
+    async def read(self):
         """
         read messages associated with stream from buffer til end of file
         :return: bytes of input
         """
-        return self.muxed_conn.read_buffer(self.id)
+        return await self.muxed_conn.read_buffer(self.id)
 
-    def write(self, data):
+    async def write(self, data):
         """
         write to stream
         :return: number of bytes written
         """
-        return self.muxed_conn.send_message(self.get_flag("MESSAGE"), data, self.id)
+        return await self.muxed_conn.send_message(self.get_flag("MESSAGE"), data, self.id)
 
     def close(self):
         """

network/multiaddr.py

@@ -2,6 +2,8 @@ class MultiAddr:
 
     # Validates input string and constructs internal representation.
     def __init__(self, addr):
+        self.protocol_map = dict()
+
         # Empty multiaddrs are valid.
         if not addr:
             self.protocol_map = dict()

network/stream/net_stream.py

@@ -19,19 +19,19 @@ class NetStream(INetStream):
         """
         self.protocol_id = protocol_id
 
-    def read(self):
+    async def read(self):
         """
         read from stream
         :return: bytes of input until EOF
         """
-        return self.muxed_stream.read()
+        return await self.muxed_stream.read()
 
-    def write(self, bytes):
+    async def write(self, bytes):
         """
         write to stream
         :return: number of bytes written
         """
-        return self.muxed_stream.write(bytes)
+        return await self.muxed_stream.write(bytes)
 
     def close(self):
         """

network/swarm.py

@@ -22,13 +22,20 @@ class Swarm(INetwork):
         """
         self.stream_handlers[protocol_id] = stream_handler
 
-    def new_stream(self, peer_id, protocol_id):
+    async def new_stream(self, peer_id, protocol_id):
         """
         :param peer_id: peer_id of destination
         :param protocol_id: protocol id
         :return: net stream instance
         """
-        muxed_conn = None
+        # Get peer info from peer store
+        addrs = self.peerstore.addrs(peer_id)
+
+        if not addrs:
+            raise SwarmException("No known addresses to peer")
+
+        multiaddr = addrs[0]
+
         if peer_id in self.connections:
             """
             If muxed connection already exists for peer_id,
@@ -37,14 +44,8 @@ class Swarm(INetwork):
             """
             muxed_conn = self.connections[peer_id]
         else:
-            # Get peer info from peer store
-            addrs = self.peerstore.addrs(peer_id)
-
             # Transport dials peer (gets back a raw conn)
-            if not addrs:
-                raise SwarmException("No known addresses to peer")
-            first_addr = addrs[0]
-            raw_conn = self.transport.dial(first_addr)
+            raw_conn = await self.transport.dial(MultiAddr(multiaddr))
 
             # Use upgrader to upgrade raw conn to muxed conn
             muxed_conn = self.upgrader.upgrade_connection(raw_conn, True)
@@ -54,28 +55,30 @@ class Swarm(INetwork):
 
         # Use muxed conn to open stream, which returns
         # a muxed stream
-        stream_id = str(uuid.uuid4())
-        muxed_stream = muxed_conn.open_stream(protocol_id, stream_id, peer_id, first_addr)
+        # TODO: use better stream IDs
+        stream_id = (uuid.uuid4().int & (1<<64)-1) >> 3
+        muxed_stream = muxed_conn.open_stream(protocol_id, stream_id, peer_id, multiaddr)
 
         # Create a net stream
         net_stream = NetStream(muxed_stream)
 
         return net_stream
 
-    def listen(self, *args):
+    async def listen(self, *args):
         """
         :param *args: one or many multiaddrs to start listening on
         :return: true if at least one success
         """
-
-        # For each multiaddr in args
-            # Check if a listener for multiaddr exists already
-            # If listener already exists, continue
-            # Otherwise, do the following:
-                # Pass multiaddr into conn handler
-                # Have conn handler delegate to stream handler
-                # Call listener listen with the multiaddr
-                # Map multiaddr to listener
+        """
+        For each multiaddr in args
+            Check if a listener for multiaddr exists already
+            If listener already exists, continue
+            Otherwise:
+                Capture multiaddr in conn handler
+                Have conn handler delegate to stream handler
+                Call listener listen with the multiaddr
+                Map multiaddr to listener
+        """
         for multiaddr_str in args:
             if multiaddr_str in self.listeners:
                 return True
@@ -83,27 +86,28 @@ class Swarm(INetwork):
             multiaddr = MultiAddr(multiaddr_str)
             multiaddr_dict = multiaddr.to_options()
 
-            def conn_handler(reader, writer):
+            async def conn_handler(reader, writer):
                 # Upgrade reader/write to a net_stream and pass to appropriate stream handler (using multiaddr)
-                raw_conn = RawConnection(multiaddr_dict.host, multiaddr_dict.port, reader, writer)
+                raw_conn = RawConnection(multiaddr_dict['host'], multiaddr_dict['port'], reader, writer)
                 muxed_conn = self.upgrader.upgrade_connection(raw_conn, False)
 
-                muxed_stream, stream_id, protocol_id = muxed_conn.accept_stream()
+                muxed_stream, stream_id, protocol_id = await muxed_conn.accept_stream()
                 net_stream = NetStream(muxed_stream)
                 net_stream.set_protocol(protocol_id)
 
                 # Give to stream handler
                 # TODO: handle case when stream handler is set
-                self.stream_handlers[protocol_id](net_stream)
+                # TODO: handle case of multiple protocols over same raw connection
+                await self.stream_handlers[protocol_id](net_stream)
 
             try:
                 # Success
                 listener = self.transport.create_listener(conn_handler)
-                listener.listen(multiaddr)
+                await listener.listen(multiaddr)
                 return True
             except IOError:
                 # Failed. Continue looping.
-                print("Failed to connect to: " + multiaddr)
+                print("Failed to connect to: " + str(multiaddr))
 
         # No multiaddr succeeded
         return False

requirements.txt

@@ -2,3 +2,4 @@ asyncio
 pylint
 pytest
 pycryptodome
+pytest-asyncio

transport/tcp/tcp.py

@@ -13,25 +13,26 @@ class TCP(ITransport):
         def __init__(self, handler_function=None):
             self.multiaddrs = []
             self.server = None
-            self.handler = staticmethod(handler_function)
+            self.handler = handler_function
 
-        def listen(self, multiaddr):
+        async def listen(self, multiaddr):
             """
             put listener in listening mode and wait for incoming connections
             :param multiaddr: multiaddr of peer
             :return: return True if successful
             """
-            # TODO check for exceptions
-            if "ipfs" in multiaddr.get_protocols():
-                # ipfs_id = multiaddr.get_ipfs_id()
-                _multiaddr = multiaddr.remove_protocol("ipfs")
+            _multiaddr = multiaddr
 
-            self.multiaddrs.append(multiaddr)
+            # TODO check for exceptions
+            if "ipfs" in _multiaddr.get_protocols():
+                # ipfs_id = multiaddr.get_ipfs_id()
+                _multiaddr.remove_protocol("ipfs")
+
+            self.multiaddrs.append(_multiaddr)
             multiaddr_dict = _multiaddr.to_options()
-            loop = asyncio.get_event_loop()
-            coroutine = asyncio.start_server(self.handler, multiaddr_dict.host,\
-                multiaddr_dict.port, loop=loop)
-            self.server = loop.run_until_complete(coroutine)
+            coroutine = asyncio.start_server(self.handler, multiaddr_dict['host'],\
+                multiaddr_dict['port'])
+            self.server = await coroutine
             return True
 
         def get_addrs(self):
@@ -59,17 +60,19 @@ class TCP(ITransport):
             self.server = None
             return True
 
-    def dial(self, multiaddr, options=None):
+    async def dial(self, multiaddr, options=None):
         """
         dial a transport to peer listening on multiaddr
         :param multiaddr: multiaddr of peer
         :param options: optional object
         :return: True if successful
         """
-        _multiaddr_dict = multiaddr.to_dict()
-        host = _multiaddr_dict.host
-        port = _multiaddr_dict.port
-        reader, writer = open_conn(host, port)
+        _multiaddr_dict = multiaddr.to_options()
+        host = _multiaddr_dict['host']
+        port = _multiaddr_dict['port']
+
+        reader, writer = await asyncio.open_connection(host, port)
+
         return RawConnection(host, port, reader, writer)
 
     def create_listener(self, handler_function, options=None):
@@ -81,7 +84,3 @@ class TCP(ITransport):
         :return: a listener object that implements listener_interface.py
         """
         return self.Listener(handler_function)
-
-async def open_conn(host, port):
-    reader, writer = await asyncio.open_connection(host, port)
-    return reader, writer