18.5.4. Transports and protocols (callback based API)
18.5.4.1. Transports
Transports are classes provided by asyncio
in order to abstract
various kinds of communication channels. You generally won’t instantiate
a transport yourself; instead, you will call a BaseEventLoop
method
which will create the transport and try to initiate the underlying
communication channel, calling you back when it succeeds.
Once the communication channel is established, a transport is always paired with a protocol instance. The protocol can then call the transport’s methods for various purposes.
asyncio
currently implements transports for TCP, UDP, SSL, and
subprocess pipes. The methods available on a transport depend on
the transport’s kind.
The transport classes are not thread safe.
18.5.4.1.1. BaseTransport
-
class
asyncio.
BaseTransport
Base class for transports.
-
close
(self) Close the transport. If the transport has a buffer for outgoing data, buffered data will be flushed asynchronously. No more data will be received. After all buffered data is flushed, the protocol’s
connection_lost()
method will be called withNone
as its argument.
-
is_closing
(self) Return
True
if the transport is closing or is closed.New in version 3.5.1.
-
get_extra_info
(name, default=None) Return optional transport information. name is a string representing the piece of transport-specific information to get, default is the value to return if the information doesn’t exist.
This method allows transport implementations to easily expose channel-specific information.
- socket:
'peername'
: the remote address to which the socket is connected, result ofsocket.socket.getpeername()
(None
on error)'socket'
:socket.socket
instance'sockname'
: the socket’s own address, result ofsocket.socket.getsockname()
- SSL socket:
'compression'
: the compression algorithm being used as a string, orNone
if the connection isn’t compressed; result ofssl.SSLSocket.compression()
'cipher'
: a three-value tuple containing the name of the cipher being used, the version of the SSL protocol that defines its use, and the number of secret bits being used; result ofssl.SSLSocket.cipher()
'peercert'
: peer certificate; result ofssl.SSLSocket.getpeercert()
'sslcontext'
:ssl.SSLContext
instance'ssl_object'
:ssl.SSLObject
orssl.SSLSocket
instance
- pipe:
'pipe'
: pipe object
- subprocess:
'subprocess'
:subprocess.Popen
instance
- socket:
Changed in version 3.5.1:
'ssl_object'
info was added to SSL sockets.-
18.5.4.1.2. ReadTransport
-
class
asyncio.
ReadTransport
Interface for read-only transports.
-
pause_reading
() Pause the receiving end of the transport. No data will be passed to the protocol’s
data_received()
method untilresume_reading()
is called.
-
resume_reading
() Resume the receiving end. The protocol’s
data_received()
method will be called once again if some data is available for reading.
-
18.5.4.1.3. WriteTransport
-
class
asyncio.
WriteTransport
Interface for write-only transports.
-
abort
() Close the transport immediately, without waiting for pending operations to complete. Buffered data will be lost. No more data will be received. The protocol’s
connection_lost()
method will eventually be called withNone
as its argument.
-
can_write_eof
() Return
True
if the transport supportswrite_eof()
,False
if not.
-
get_write_buffer_size
() Return the current size of the output buffer used by the transport.
-
get_write_buffer_limits
() Get the high- and low-water limits for write flow control. Return a tuple
(low, high)
where low and high are positive number of bytes.Use
set_write_buffer_limits()
to set the limits.New in version 3.4.2.
-
set_write_buffer_limits
(high=None, low=None) Set the high- and low-water limits for write flow control.
These two values control when call the protocol’s
pause_writing()
andresume_writing()
methods are called. If specified, the low-water limit must be less than or equal to the high-water limit. Neither high nor low can be negative.The defaults are implementation-specific. If only the high-water limit is given, the low-water limit defaults to an implementation-specific value less than or equal to the high-water limit. Setting high to zero forces low to zero as well, and causes
pause_writing()
to be called whenever the buffer becomes non-empty. Setting low to zero causesresume_writing()
to be called only once the buffer is empty. Use of zero for either limit is generally sub-optimal as it reduces opportunities for doing I/O and computation concurrently.Use
get_write_buffer_limits()
to get the limits.
-
write
(data) Write some data bytes to the transport.
This method does not block; it buffers the data and arranges for it to be sent out asynchronously.
-
writelines
(list_of_data) Write a list (or any iterable) of data bytes to the transport. This is functionally equivalent to calling
write()
on each element yielded by the iterable, but may be implemented more efficiently.
-
write_eof
() Close the write end of the transport after flushing buffered data. Data may still be received.
This method can raise
NotImplementedError
if the transport (e.g. SSL) doesn’t support half-closes.
-
18.5.4.1.4. DatagramTransport
-
DatagramTransport.
sendto
(data, addr=None) Send the data bytes to the remote peer given by addr (a transport-dependent target address). If addr is
None
, the data is sent to the target address given on transport creation.This method does not block; it buffers the data and arranges for it to be sent out asynchronously.
-
DatagramTransport.
abort
() Close the transport immediately, without waiting for pending operations to complete. Buffered data will be lost. No more data will be received. The protocol’s
connection_lost()
method will eventually be called withNone
as its argument.
18.5.4.1.5. BaseSubprocessTransport
-
class
asyncio.
BaseSubprocessTransport
-
get_pid
() Return the subprocess process id as an integer.
-
get_pipe_transport
(fd) Return the transport for the communication pipe corresponding to the integer file descriptor fd:
0
: readable streaming transport of the standard input (stdin), orNone
if the subprocess was not created withstdin=PIPE
1
: writable streaming transport of the standard output (stdout), orNone
if the subprocess was not created withstdout=PIPE
2
: writable streaming transport of the standard error (stderr), orNone
if the subprocess was not created withstderr=PIPE
- other fd:
None
-
get_returncode
() Return the subprocess returncode as an integer or
None
if it hasn’t returned, similarly to thesubprocess.Popen.returncode
attribute.
-
kill
(self) Kill the subprocess, as in
subprocess.Popen.kill()
.On POSIX systems, the function sends SIGKILL to the subprocess. On Windows, this method is an alias for
terminate()
.
-
send_signal
(signal) Send the signal number to the subprocess, as in
subprocess.Popen.send_signal()
.
-
terminate
() Ask the subprocess to stop, as in
subprocess.Popen.terminate()
. This method is an alias for theclose()
method.On POSIX systems, this method sends SIGTERM to the subprocess. On Windows, the Windows API function TerminateProcess() is called to stop the subprocess.
-
close
() Ask the subprocess to stop by calling the
terminate()
method if the subprocess hasn’t returned yet, and close transports of all pipes (stdin, stdout and stderr).
-
18.5.4.2. Protocols
asyncio
provides base classes that you can subclass to implement
your network protocols. Those classes are used in conjunction with
transports (see below): the protocol parses incoming
data and asks for the writing of outgoing data, while the transport is
responsible for the actual I/O and buffering.
When subclassing a protocol class, it is recommended you override certain methods. Those methods are callbacks: they will be called by the transport on certain events (for example when some data is received); you shouldn’t call them yourself, unless you are implementing a transport.
Note
All callbacks have default implementations, which are empty. Therefore, you only need to implement the callbacks for the events in which you are interested.
18.5.4.2.1. Protocol classes
-
class
asyncio.
Protocol
The base class for implementing streaming protocols (for use with e.g. TCP and SSL transports).
-
class
asyncio.
DatagramProtocol
The base class for implementing datagram protocols (for use with e.g. UDP transports).
-
class
asyncio.
SubprocessProtocol
The base class for implementing protocols communicating with child processes (through a set of unidirectional pipes).
18.5.4.2.2. Connection callbacks
These callbacks may be called on Protocol
, DatagramProtocol
and SubprocessProtocol
instances:
-
BaseProtocol.
connection_made
(transport) Called when a connection is made.
The transport argument is the transport representing the connection. You are responsible for storing it somewhere (e.g. as an attribute) if you need to.
-
BaseProtocol.
connection_lost
(exc) Called when the connection is lost or closed.
The argument is either an exception object or
None
. The latter means a regular EOF is received, or the connection was aborted or closed by this side of the connection.
connection_made()
and connection_lost()
are called exactly once per successful connection. All other callbacks will be
called between those two methods, which allows for easier resource management
in your protocol implementation.
The following callbacks may be called only on SubprocessProtocol
instances:
-
SubprocessProtocol.
pipe_data_received
(fd, data) Called when the child process writes data into its stdout or stderr pipe. fd is the integer file descriptor of the pipe. data is a non-empty bytes object containing the data.
-
SubprocessProtocol.
pipe_connection_lost
(fd, exc) Called when one of the pipes communicating with the child process is closed. fd is the integer file descriptor that was closed.
-
SubprocessProtocol.
process_exited
() Called when the child process has exited.
18.5.4.2.3. Streaming protocols
The following callbacks are called on Protocol
instances:
-
Protocol.
data_received
(data) Called when some data is received. data is a non-empty bytes object containing the incoming data.
Note
Whether the data is buffered, chunked or reassembled depends on the transport. In general, you shouldn’t rely on specific semantics and instead make your parsing generic and flexible enough. However, data is always received in the correct order.
-
Protocol.
eof_received
() Calls when the other end signals it won’t send any more data (for example by calling
write_eof()
, if the other end also uses asyncio).This method may return a false value (including None), in which case the transport will close itself. Conversely, if this method returns a true value, closing the transport is up to the protocol. Since the default implementation returns None, it implicitly closes the connection.
Note
Some transports such as SSL don’t support half-closed connections, in which case returning true from this method will not prevent closing the connection.
data_received()
can be called an arbitrary number of times during
a connection. However, eof_received()
is called at most once
and, if called, data_received()
won’t be called after it.
State machine:
18.5.4.2.4. Datagram protocols
The following callbacks are called on DatagramProtocol
instances.
-
DatagramProtocol.
datagram_received
(data, addr) Called when a datagram is received. data is a bytes object containing the incoming data. addr is the address of the peer sending the data; the exact format depends on the transport.
-
DatagramProtocol.
error_received
(exc) Called when a previous send or receive operation raises an
OSError
. exc is theOSError
instance.This method is called in rare conditions, when the transport (e.g. UDP) detects that a datagram couldn’t be delivered to its recipient. In many conditions though, undeliverable datagrams will be silently dropped.
18.5.4.2.5. Flow control callbacks
These callbacks may be called on Protocol
,
DatagramProtocol
and SubprocessProtocol
instances:
-
BaseProtocol.
pause_writing
() Called when the transport’s buffer goes over the high-water mark.
-
BaseProtocol.
resume_writing
() Called when the transport’s buffer drains below the low-water mark.
pause_writing()
and resume_writing()
calls are paired –
pause_writing()
is called once when the buffer goes strictly over
the high-water mark (even if subsequent writes increases the buffer size
even more), and eventually resume_writing()
is called once when the
buffer size reaches the low-water mark.
Note
If the buffer size equals the high-water mark,
pause_writing()
is not called – it must go strictly over.
Conversely, resume_writing()
is called when the buffer size is
equal or lower than the low-water mark. These end conditions
are important to ensure that things go as expected when either
mark is zero.
Note
On BSD systems (OS X, FreeBSD, etc.) flow control is not supported
for DatagramProtocol
, because send failures caused by
writing too many packets cannot be detected easily. The socket
always appears ‘ready’ and excess packets are dropped; an
OSError
with errno set to errno.ENOBUFS
may or
may not be raised; if it is raised, it will be reported to
DatagramProtocol.error_received()
but otherwise ignored.
18.5.4.2.6. Coroutines and protocols
Coroutines can be scheduled in a protocol method using ensure_future()
,
but there is no guarantee made about the execution order. Protocols are not
aware of coroutines created in protocol methods and so will not wait for them.
To have a reliable execution order, use stream objects in a
coroutine with yield from
. For example, the StreamWriter.drain()
coroutine can be used to wait until the write buffer is flushed.
18.5.4.3. Protocol examples
18.5.4.3.1. TCP echo client protocol
TCP echo client using the BaseEventLoop.create_connection()
method, send
data and wait until the connection is closed:
import asyncio
class EchoClientProtocol(asyncio.Protocol):
def __init__(self, message, loop):
self.message = message
self.loop = loop
def connection_made(self, transport):
transport.write(self.message.encode())
print('Data sent: {!r}'.format(self.message))
def data_received(self, data):
print('Data received: {!r}'.format(data.decode()))
def connection_lost(self, exc):
print('The server closed the connection')
print('Stop the event loop')
self.loop.stop()
loop = asyncio.get_event_loop()
message = 'Hello World!'
coro = loop.create_connection(lambda: EchoClientProtocol(message, loop),
'127.0.0.1', 8888)
loop.run_until_complete(coro)
loop.run_forever()
loop.close()
The event loop is running twice. The
run_until_complete()
method is preferred in this short
example to raise an exception if the server is not listening, instead of
having to write a short coroutine to handle the exception and stop the
running loop. At run_until_complete()
exit, the loop is
no longer running, so there is no need to stop the loop in case of an error.
See also
The TCP echo client using streams
example uses the asyncio.open_connection()
function.
18.5.4.3.2. TCP echo server protocol
TCP echo server using the BaseEventLoop.create_server()
method, send back
received data and close the connection:
import asyncio
class EchoServerClientProtocol(asyncio.Protocol):
def connection_made(self, transport):
peername = transport.get_extra_info('peername')
print('Connection from {}'.format(peername))
self.transport = transport
def data_received(self, data):
message = data.decode()
print('Data received: {!r}'.format(message))
print('Send: {!r}'.format(message))
self.transport.write(data)
print('Close the client socket')
self.transport.close()
loop = asyncio.get_event_loop()
# Each client connection will create a new protocol instance
coro = loop.create_server(EchoServerClientProtocol, '127.0.0.1', 8888)
server = loop.run_until_complete(coro)
# Serve requests until Ctrl+C is pressed
print('Serving on {}'.format(server.sockets[0].getsockname()))
try:
loop.run_forever()
except KeyboardInterrupt:
pass
# Close the server
server.close()
loop.run_until_complete(server.wait_closed())
loop.close()
Transport.close()
can be called immediately after
WriteTransport.write()
even if data are not sent yet on the socket: both
methods are asynchronous. yield from
is not needed because these transport
methods are not coroutines.
See also
The TCP echo server using streams
example uses the asyncio.start_server()
function.
18.5.4.3.3. UDP echo client protocol
UDP echo client using the BaseEventLoop.create_datagram_endpoint()
method, send data and close the transport when we received the answer:
import asyncio
class EchoClientProtocol:
def __init__(self, message, loop):
self.message = message
self.loop = loop
self.transport = None
def connection_made(self, transport):
self.transport = transport
print('Send:', self.message)
self.transport.sendto(self.message.encode())
def datagram_received(self, data, addr):
print("Received:", data.decode())
print("Close the socket")
self.transport.close()
def error_received(self, exc):
print('Error received:', exc)
def connection_lost(self, exc):
print("Socket closed, stop the event loop")
loop = asyncio.get_event_loop()
loop.stop()
loop = asyncio.get_event_loop()
message = "Hello World!"
connect = loop.create_datagram_endpoint(
lambda: EchoClientProtocol(message, loop),
remote_addr=('127.0.0.1', 9999))
transport, protocol = loop.run_until_complete(connect)
loop.run_forever()
transport.close()
loop.close()
18.5.4.3.4. UDP echo server protocol
UDP echo server using the BaseEventLoop.create_datagram_endpoint()
method, send back received data:
import asyncio
class EchoServerProtocol:
def connection_made(self, transport):
self.transport = transport
def datagram_received(self, data, addr):
message = data.decode()
print('Received %r from %s' % (message, addr))
print('Send %r to %s' % (message, addr))
self.transport.sendto(data, addr)
loop = asyncio.get_event_loop()
print("Starting UDP server")
# One protocol instance will be created to serve all client requests
listen = loop.create_datagram_endpoint(
EchoServerProtocol, local_addr=('127.0.0.1', 9999))
transport, protocol = loop.run_until_complete(listen)
try:
loop.run_forever()
except KeyboardInterrupt:
pass
transport.close()
loop.close()
18.5.4.3.5. Register an open socket to wait for data using a protocol
Wait until a socket receives data using the
BaseEventLoop.create_connection()
method with a protocol, and then close
the event loop
import asyncio
try:
from socket import socketpair
except ImportError:
from asyncio.windows_utils import socketpair
# Create a pair of connected sockets
rsock, wsock = socketpair()
loop = asyncio.get_event_loop()
class MyProtocol(asyncio.Protocol):
transport = None
def connection_made(self, transport):
self.transport = transport
def data_received(self, data):
print("Received:", data.decode())
# We are done: close the transport (it will call connection_lost())
self.transport.close()
def connection_lost(self, exc):
# The socket has been closed, stop the event loop
loop.stop()
# Register the socket to wait for data
connect_coro = loop.create_connection(MyProtocol, sock=rsock)
transport, protocol = loop.run_until_complete(connect_coro)
# Simulate the reception of data from the network
loop.call_soon(wsock.send, 'abc'.encode())
# Run the event loop
loop.run_forever()
# We are done, close sockets and the event loop
rsock.close()
wsock.close()
loop.close()
See also
The watch a file descriptor for read events example uses the low-level
BaseEventLoop.add_reader()
method to register the file descriptor of a
socket.
The register an open socket to wait for data using streams example uses high-level streams
created by the open_connection()
function in a coroutine.