我们从Python开源项目中,提取了以下50个代码示例,用于说明如何使用socket.fromfd()。
def bind_unix_listener(self): # http://0pointer.de/blog/projects/systemd.html (search "file # descriptor 3") try: socket_fd = 3 self.sock = socket.fromfd(socket_fd, socket.AF_UNIX, socket.SOCK_STREAM) self.sock.listen(50) return self.sock except (TypeError, BlockingIOError, socket.error, ValueError): pass try: self.sock = socket.socket(socket.AF_UNIX, socket.SOCK_STREAM) if os.path.exists(MESSAGE_SOCK_PATH): os.remove(MESSAGE_SOCK_PATH) self.sock.bind(MESSAGE_SOCK_PATH) self.sock.listen(50) return self.sock except Exception as ex: exc_type, exc_value, exc_tb = sys.exc_info() traceback.print_exception(exc_type, exc_value, exc_tb, file=sys.stderr) raise ex
def NewConnection(self, path, fd, properties): address = str(path) address = address[len(address) - 17:len(address)] address = address.replace("_", ":") print_info("Connected: {}\n".format(address)) blue_socket = socket.fromfd( fd.take(), socket.AF_UNIX, socket.SOCK_STREAM) socket_sink = SocketSink(sock=blue_socket) self.bridge = TCPBridge( sink=socket_sink, port_in=self.tcp_port_in, port_out=self.tcp_port_out) try: self.bridge.start(in_background=False) except TCPBridgeError as error: print_error(str(error) + "\n") self.bridge.stop() blue_socket.close() print_info("Disconnected: {}\n".format(address)) Bluetooth().disconnect(address)
def NewConnection(self, path, fd, properties): self.fd = fd.take() print("NewConnection(%s, %d)" % (path, self.fd)) server_sock = socket.fromfd(self.fd, socket.AF_UNIX, socket.SOCK_STREAM) server_sock.setblocking(1) server_sock.send("This is Edison SPP loopback test\nAll data will be loopback\nPlease start:\n") myfifo.openFifo() print('enter recv loop\n') try: while True: data = server_sock.recv(1024) print("received: %s" % data) myfifo.writeFifo(data) #server_sock.send("looping back: %s\n" % data) except IOError as err: print (err) pass server_sock.close() print("all done")
def NewConnection(self, path, fd, properties): self.fd = fd.take() print("NewConnection(%s, %d)" % (path, self.fd)) server_sock = socket.fromfd(self.fd, socket.AF_UNIX, socket.SOCK_STREAM) server_sock.setblocking(1) server_sock.send("This is Edison SPP loopback test\nAll data will be loopback\nPlease start:\n") try: while True: data = server_sock.recv(1024) print("received: %s" % data) server_sock.send("looping back: %s\n" % data) except IOError: pass server_sock.close() print("all done")
def NewConnection(self, path, fd, properties): self.fd = fd.take() device_path = os.path.basename(path) print("\nConnected to %s\nPress [ENTER] to continue" % device_path) server_sock = socket.fromfd(self.fd, socket.AF_UNIX, socket.SOCK_STREAM) server_sock.settimeout(1) server_sock.send("Hello, this is Edison!") try: while True: try: data = server_sock.recv(1024) gardening_system.function(data) if data == 'b': server_sock.send(gardening_system.requestData()) except socket.timeout: pass gardening_system.myProgram() except IOError: pass server_sock.close() print("\nYour device is now disconnected\nPress [ENTER] to continue")
def processSockets(fd): data = "" server_sock = socket.fromfd(fd, socket.AF_UNIX, socket.SOCK_STREAM) server_sock.settimeout(1) server_sock.send("Hello, this is Edison!") try: while not closing: try: data = server_sock.recv(1024) print ("Here's data %s" % data) result = ha.callFunction(data) if result: server_sock.send(result) except socket.timeout: pass except IOError: pass server_sock.close() # Agent class
def NewConnection(self, path, fd, properties): self.fd = fd.take() device_path = os.path.basename(path) print("\nConnected to %s\nPress [ENTER] to continue" % device_path) server_sock = socket.fromfd(self.fd, socket.AF_UNIX, socket.SOCK_STREAM) server_sock.settimeout(1) server_sock.send("Hello, this is Edison!") try: while True: try: data = server_sock.recv(1024) temperature_monitor.function(data) if data == 'get': server_sock.send(temperature_monitor.requestData()) except socket.timeout: pass temperature_monitor.myProgram() except IOError: pass server_sock.close() print("\nYour device is now disconnected\nPress [ENTER] to continue")
def get_high_socket_fd(self): if WIN32: # The child process will not have any socket handles, so # calling socket.fromfd() should produce WSAENOTSOCK even # if there is a handle of the same number. return socket.socket().detach() else: # We want to produce a socket with an fd high enough that a # freshly created child process will not have any fds as high. fd = socket.socket().detach() to_close = [] while fd < 50: to_close.append(fd) fd = os.dup(fd) for x in to_close: os.close(x) return fd
def recvfd(socketfd): """ Receive a file descriptor from a L{sendmsg} message on the given C{AF_UNIX} socket. @param socketfd: An C{AF_UNIX} socket, attached to another process waiting to send sockets via the ancillary data mechanism in L{send1msg}. @param fd: C{int} @return: a 2-tuple of (new file descriptor, description). @rtype: 2-tuple of (C{int}, C{bytes}) """ ourSocket = socket.fromfd(socketfd, socket.AF_UNIX, socket.SOCK_STREAM) data, ancillary, flags = recvmsg(ourSocket) [(cmsgLevel, cmsgType, packedFD)] = ancillary # cmsgLevel and cmsgType really need to be SOL_SOCKET / SCM_RIGHTS, but # since those are the *only* standard values, there's not much point in # checking. [unpackedFD] = unpack("i", packedFD) return (unpackedFD, data)
def _fromListeningDescriptor(cls, reactor, fd, addressFamily, factory): """ Create a new L{Port} based on an existing listening I{SOCK_STREAM} socket. Arguments are the same as to L{Port.__init__}, except where noted. @param fd: An integer file descriptor associated with a listening socket. The socket must be in non-blocking mode. Any additional attributes desired, such as I{FD_CLOEXEC}, must also be set already. @param addressFamily: The address family (sometimes called I{domain}) of the existing socket. For example, L{socket.AF_INET}. @return: A new instance of C{cls} wrapping the socket given by C{fd}. """ port = socket.fromfd(fd, addressFamily, cls.socketType) interface = port.getsockname()[0] self = cls(None, factory, None, interface, reactor) self._preexistingSocket = port return self
def killSocket(self): if not self.currentResponse: return try: socket.fromfd(self.currentResponse.raw.fileno(), socket.AF_INET, socket.SOCK_STREAM).shutdown(socket.SHUT_RDWR) return except AttributeError: pass except Exception, e: util.ERROR(err=e) try: self.currentResponse.raw._fp.fp._sock.shutdown(socket.SHUT_RDWR) except AttributeError: pass except Exception, e: util.ERROR(err=e)
def fromfd(fd, family, type_, proto=0): s = socket.fromfd(fd, family, type_, proto) if s.__class__ is not socket.socket: s = socket.socket(_sock=s) return s
def rebuild_socket(reduced_handle, family, type_, proto): fd = rebuild_handle(reduced_handle) _sock = fromfd(fd, family, type_, proto) close(fd) return _sock
def socketpair(): s1, s2 = eunuchs.socketpair.socketpair() p, c = (socket.fromfd(s1, socket.AF_UNIX, socket.SOCK_STREAM), socket.fromfd(s2, socket.AF_UNIX, socket.SOCK_STREAM)) os.close(s1) os.close(s2) return p, c
def __init__(self, host, port, app, handler=None, passthrough_errors=False, ssl_context=None, fd=None): if handler is None: handler = WSGIRequestHandler self.address_family = select_ip_version(host, port) if fd is not None: real_sock = socket.fromfd(fd, self.address_family, socket.SOCK_STREAM) port = 0 HTTPServer.__init__(self, (host, int(port)), handler) self.app = app self.passthrough_errors = passthrough_errors self.shutdown_signal = False self.host = host self.port = port # Patch in the original socket. if fd is not None: self.socket.close() self.socket = real_sock self.server_address = self.socket.getsockname() if ssl_context is not None: if isinstance(ssl_context, tuple): ssl_context = load_ssl_context(*ssl_context) if ssl_context == 'adhoc': ssl_context = generate_adhoc_ssl_context() # If we are on Python 2 the return value from socket.fromfd # is an internal socket object but what we need for ssl wrap # is the wrapper around it :( sock = self.socket if PY2 and not isinstance(sock, socket.socket): sock = socket.socket(sock.family, sock.type, sock.proto, sock) self.socket = ssl_context.wrap_socket(sock, server_side=True) self.ssl_context = ssl_context else: self.ssl_context = None
def adopt_sessions(self): if not self.fdtx_path: return fdtx = FdTx(None) fdtx.connect(self.fdtx_path, 5) # receive open file descriptors together with their associated authkeys while True: try: # future safety: double the needed message length, two fd's authkey, fd = fdtx.get(AUTHKEY_LENGTH*2, 2) except ConnectionClosed: break # other end sent all it had if authkey not in self.adoption: continue # session died during handover self.adoption[authkey]['fd'] = fd[0] # just one fd per message for authkey in self.adoption: if 'fd' not in self.adoption[authkey]: continue # session died during handover # reconnect the session fd = self.adoption[authkey]['fd'] pid = self.adoption[authkey]['pid'] address = tuple(self.adoption[authkey]['address']) # represent the adopted session by an AdoptedSession instance that # only implements .pid and .terminate() local = AdoptedSession(pid) sock = socket.fromfd(fd, socket.AF_INET, socket.SOCK_STREAM) remote = RemoteSession(address, authkey, timeout=1, sock=sock) self.add_connection(remote._connection, authkey) self.sessions[authkey] = (local, remote) # recreate the allocation records alloc = self.adoption[authkey]['allocations'] for a in alloc: resource = a['profile'] collateral = a['collateral'] self.allocators['local'].allocate(resource, remote, collateral)
def _start_worker(self): env = dict(os.environ) env["ABUSEHELPER_SUBPROCESS"] = "" # Find out the full package & module name. Don't refer to the # variable __loader__ directly to keep flake8 (version 2.5.0) # linter happy. fullname = globals()["__loader__"].fullname own_conn, other_conn = native_socket.socketpair(socket.AF_UNIX, socket.SOCK_STREAM) try: process = subprocess.Popen( [sys.executable, "-m", fullname], preexec_fn=os.setpgrp, stdin=other_conn.fileno(), close_fds=True, env=env ) try: conn = socket.fromfd(own_conn.fileno(), socket.AF_UNIX, socket.SOCK_STREAM) except: process.terminate() process.wait() raise finally: own_conn.close() other_conn.close() return process, conn
def stop(self): try: if six.PY2: self._response.raw._fp.close() else: s = socket.fromfd(self._response.raw._fp.fileno(), socket.AF_INET, socket.SOCK_STREAM) s.shutdown(socket.SHUT_RDWR) s.close() except Exception: pass self._response.connection.close() self._executor.shutdown(wait=False)
def __init__(self, host, port, app, handler=None, passthrough_errors=False, ssl_context=None, fd=None): if handler is None: handler = WSGIRequestHandler self.address_family = select_ip_version(host, port) if fd is not None: real_sock = socket.fromfd(fd, self.address_family, socket.SOCK_STREAM) port = 0 HTTPServer.__init__(self, (host, int(port)), handler) self.app = app self.passthrough_errors = passthrough_errors self.shutdown_signal = False self.host = host self.port = self.socket.getsockname()[1] # Patch in the original socket. if fd is not None: self.socket.close() self.socket = real_sock self.server_address = self.socket.getsockname() if ssl_context is not None: if isinstance(ssl_context, tuple): ssl_context = load_ssl_context(*ssl_context) if ssl_context == 'adhoc': ssl_context = generate_adhoc_ssl_context() # If we are on Python 2 the return value from socket.fromfd # is an internal socket object but what we need for ssl wrap # is the wrapper around it :( sock = self.socket if PY2 and not isinstance(sock, socket.socket): sock = socket.socket(sock.family, sock.type, sock.proto, sock) self.socket = ssl_context.wrap_socket(sock, server_side=True) self.ssl_context = ssl_context else: self.ssl_context = None
def __init__(self, host, port, app, handler=None, passthrough_errors=False, ssl_context=None, fd=None): if handler is None: handler = WSGIRequestHandler self.address_family = select_ip_version(host, port) if fd is not None: real_sock = socket.fromfd(fd, self.address_family, socket.SOCK_STREAM) port = 0 HTTPServer.__init__(self, (host, int(port)), handler) self.app = app self.passthrough_errors = passthrough_errors self.shutdown_signal = False self.host = host self.port = port # Patch in the original socket. if fd is not None: self.socket.close() self.socket = real_sock self.server_address = self.socket.getsockname() if ssl_context is not None: if isinstance(ssl_context, tuple): ssl_context = load_ssl_context(*ssl_context) if ssl_context == 'adhoc': ssl_context = generate_adhoc_ssl_context() self.socket = ssl_context.wrap_socket(self.socket, server_side=True) self.ssl_context = ssl_context else: self.ssl_context = None
def __init__(self): self.handle = nfq.nfq_open() self.fileno = nfq.nfq_fd(self.handle) self.socket = socket.fromfd(self.fileno, socket.AF_UNIX, socket.SOCK_RAW) if nfq.nfq_unbind_pf(self.handle, socket.AF_INET) < 0: raise OSError('nfq_unbind_pf() failed. Are you root?') if nfq.nfq_bind_pf(self.handle, socket.AF_INET) < 0: raise OSError('nfq_bind_pf() failed. Are you root?')
def __init__(self, address, conf, log, fd=None): self.log = log self.conf = conf self.cfg_addr = address if fd is None: sock = socket.socket(self.FAMILY, socket.SOCK_STREAM) else: sock = socket.fromfd(fd, self.FAMILY, socket.SOCK_STREAM) self.sock = self.set_options(sock, bound=(fd is not None))
def is_socket(fd): """ Determine whether the file descriptor is a socket. :param fd: The file descriptor to interrogate. :return: ``True`` iff the file descriptor is a socket; otherwise ``False``. Query the socket type of `fd`. If there is no error, the file is a socket. """ result = False file_socket = socket.fromfd(fd, socket.AF_INET, socket.SOCK_RAW) try: socket_type = file_socket.getsockopt( socket.SOL_SOCKET, socket.SO_TYPE) except socket.error as exc: exc_errno = exc.args[0] if exc_errno == errno.ENOTSOCK: # Socket operation on non-socket. pass else: # Some other socket error. result = True else: # No error getting socket type. result = True return result
def fromfd(*args, **kwargs): """Like :func:`socket.fromfd`, but returns a trio socket object. """ return from_stdlib_socket(_stdlib_socket.fromfd(*args, **kwargs))
def test_from_fd(): sa, sb = stdlib_socket.socketpair() ta = tsocket.fromfd(sa.fileno(), sa.family, sa.type, sa.proto) with sa, sb, ta: assert ta.fileno() != sa.fileno() await ta.send(b"x") assert sb.recv(3) == b"x"
def test_peername(self): response = self.http_get(PEERNAME_PATH) sock = socket.fromfd(response.fileno(), socket.AF_INET, socket.SOCK_STREAM) sockname = sock.getsockname() self.assertEqual(response.read(), (sockname[0] + ':' + str(sockname[1])).encode()) sock.close()
def testFromFd(self): # Testing fromfd() fd = self.cli_conn.fileno() sock = socket.fromfd(fd, socket.AF_INET, socket.SOCK_STREAM) self.addCleanup(sock.close) self.assertIsInstance(sock, socket.socket) msg = sock.recv(1024) self.assertEqual(msg, MSG)
def __init__(self, address, conf, log, fd=None): self.log = log self.conf = conf self.cfg_addr = address if fd is None: sock = socket.socket(self.FAMILY, socket.SOCK_STREAM) bound = False else: sock = socket.fromfd(fd, self.FAMILY, socket.SOCK_STREAM) os.close(fd) bound = True self.sock = self.set_options(sock, bound=bound)
def test_connection_fromfd(self): with contextlib.closing(socket.socket()) as sock: sock.bind(('localhost', 0)) sock.listen(1) p = psutil.Process() for conn in p.connections(): if conn.fd == sock.fileno(): break else: self.fail("couldn't find socket fd") dupsock = socket.fromfd(conn.fd, conn.family, conn.type) with contextlib.closing(dupsock): self.assertEqual(dupsock.getsockname(), conn.laddr) self.assertNotEqual(sock.fileno(), dupsock.fileno())
