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Code Editor : stream.py
# Copyright (c) 2010, 2011, 2012 Nicira, Inc. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at: # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. import errno import os import socket import sys import ovs.poller import ovs.socket_util import ovs.vlog try: import ssl except ImportError: ssl = None if sys.platform == 'win32': import ovs.winutils as winutils import pywintypes import win32event import win32file import win32pipe vlog = ovs.vlog.Vlog("stream") def stream_or_pstream_needs_probes(name): """ True if the stream or pstream specified by 'name' needs periodic probes to verify connectivity. For [p]streams which need probes, it can take a long time to notice the connection was dropped. Returns False if probes aren't needed, and None if 'name' is invalid""" cls = Stream._find_method(name) if cls: return cls.needs_probes() elif PassiveStream.is_valid_name(name): return PassiveStream.needs_probes(name) else: return None class Stream(object): """Bidirectional byte stream. Unix domain sockets, tcp and ssl are implemented.""" # States. __S_CONNECTING = 0 __S_CONNECTED = 1 __S_DISCONNECTED = 2 # Kinds of events that one might wait for. W_CONNECT = 0 # Connect complete (success or failure). W_RECV = 1 # Data received. W_SEND = 2 # Send buffer room available. _SOCKET_METHODS = {} _SSL_private_key_file = None _SSL_certificate_file = None _SSL_ca_cert_file = None # Windows only _write = None # overlapped for write operation _read = None # overlapped for read operation _write_pending = False _read_pending = False _retry_connect = False @staticmethod def register_method(method, cls): Stream._SOCKET_METHODS[method + ":"] = cls @staticmethod def _find_method(name): for method, cls in Stream._SOCKET_METHODS.items(): if name.startswith(method): return cls return None @staticmethod def is_valid_name(name): """Returns True if 'name' is a stream name in the form "TYPE:ARGS" and TYPE is a supported stream type ("unix:", "tcp:" and "ssl:"), otherwise False.""" return bool(Stream._find_method(name)) def __init__(self, socket, name, status, pipe=None, is_server=False): self.socket = socket self.pipe = pipe if sys.platform == 'win32': if pipe is not None: # Flag to check if fd is a server HANDLE. In the case of a # server handle we have to issue a disconnect before closing # the actual handle. self._server = is_server suffix = name.split(":", 1)[1] suffix = ovs.util.abs_file_name(ovs.dirs.RUNDIR, suffix) self._pipename = winutils.get_pipe_name(suffix) self._read = pywintypes.OVERLAPPED() self._read.hEvent = winutils.get_new_event() self._write = pywintypes.OVERLAPPED() self._write.hEvent = winutils.get_new_event() else: self._wevent = winutils.get_new_event(bManualReset=False, bInitialState=False) self.name = name if status == errno.EAGAIN: self.state = Stream.__S_CONNECTING elif status == 0: self.state = Stream.__S_CONNECTED else: self.state = Stream.__S_DISCONNECTED self.error = 0 # Default value of dscp bits for connection between controller and manager. # Value of IPTOS_PREC_INTERNETCONTROL = 0xc0 which is defined # in <netinet/ip.h> is used. IPTOS_PREC_INTERNETCONTROL = 0xc0 DSCP_DEFAULT = IPTOS_PREC_INTERNETCONTROL >> 2 @staticmethod def check_connection_completion(sock): return ovs.socket_util.check_connection_completion(sock) @staticmethod def open(name, dscp=DSCP_DEFAULT): """Attempts to connect a stream to a remote peer. 'name' is a connection name in the form "TYPE:ARGS", where TYPE is an active stream class's name and ARGS are stream class-specific. The supported TYPEs include "unix", "tcp", and "ssl". Returns (error, stream): on success 'error' is 0 and 'stream' is the new Stream, on failure 'error' is a positive errno value and 'stream' is None. Never returns errno.EAGAIN or errno.EINPROGRESS. Instead, returns 0 and a new Stream. The connect() method can be used to check for successful connection completion.""" cls = Stream._find_method(name) if not cls: return errno.EAFNOSUPPORT, None suffix = name.split(":", 1)[1] if name.startswith("unix:"): suffix = ovs.util.abs_file_name(ovs.dirs.RUNDIR, suffix) if sys.platform == 'win32': pipename = winutils.get_pipe_name(suffix) if len(suffix) > 255: # Return invalid argument if the name is too long return errno.ENOENT, None try: # In case of "unix:" argument, the assumption is that # there is a file created in the path (suffix). open(suffix, 'r').close() except: return errno.ENOENT, None try: npipe = winutils.create_file(pipename) try: winutils.set_pipe_mode(npipe, win32pipe.PIPE_READMODE_BYTE) except pywintypes.error: return errno.ENOENT, None except pywintypes.error as e: if e.winerror == winutils.winerror.ERROR_PIPE_BUSY: # Pipe is busy, set the retry flag to true and retry # again during the connect function. Stream.retry_connect = True return 0, cls(None, name, errno.EAGAIN, pipe=win32file.INVALID_HANDLE_VALUE, is_server=False) return errno.ENOENT, None return 0, cls(None, name, 0, pipe=npipe, is_server=False) error, sock = cls._open(suffix, dscp) if error: return error, None else: err = cls.check_connection_completion(sock) if err == errno.EAGAIN or err == errno.EINPROGRESS: status = errno.EAGAIN err = 0 elif err == 0: status = 0 else: status = err return err, cls(sock, name, status) @staticmethod def _open(suffix, dscp): raise NotImplementedError("This method must be overrided by subclass") @staticmethod def open_block(error_stream, timeout=None): """Blocks until a Stream completes its connection attempt, either succeeding or failing, but no more than 'timeout' milliseconds. (error, stream) should be the tuple returned by Stream.open(). Negative value of 'timeout' means infinite waiting. Returns a tuple of the same form. Typical usage: error, stream = Stream.open_block(Stream.open("unix:/tmp/socket"))""" # Py3 doesn't support tuple parameter unpacking - PEP 3113 error, stream = error_stream if not error: deadline = None if timeout is not None and timeout >= 0: deadline = ovs.timeval.msec() + timeout while True: error = stream.connect() if sys.platform == 'win32' and error == errno.WSAEWOULDBLOCK: # WSAEWOULDBLOCK would be the equivalent on Windows # for EAGAIN on Unix. error = errno.EAGAIN if error != errno.EAGAIN: break if deadline is not None and ovs.timeval.msec() > deadline: error = errno.ETIMEDOUT break stream.run() poller = ovs.poller.Poller() stream.run_wait(poller) stream.connect_wait(poller) if deadline is not None: poller.timer_wait_until(deadline) poller.block() if stream.socket is not None: assert error != errno.EINPROGRESS if error and stream: stream.close() stream = None return error, stream def close(self): if self.socket is not None: self.socket.close() if self.pipe is not None: if self._server: # Flush the pipe to allow the client to read the pipe # before disconnecting. win32pipe.FlushFileBuffers(self.pipe) win32pipe.DisconnectNamedPipe(self.pipe) winutils.close_handle(self.pipe, vlog.warn) winutils.close_handle(self._read.hEvent, vlog.warn) winutils.close_handle(self._write.hEvent, vlog.warn) def __scs_connecting(self): if self.socket is not None: retval = self.check_connection_completion(self.socket) assert retval != errno.EINPROGRESS elif sys.platform == 'win32': if self.retry_connect: try: self.pipe = winutils.create_file(self._pipename) self._retry_connect = False retval = 0 except pywintypes.error as e: if e.winerror == winutils.winerror.ERROR_PIPE_BUSY: retval = errno.EAGAIN else: self._retry_connect = False retval = errno.ENOENT else: # If retry_connect is false, it means it's already # connected so we can set the value of retval to 0 retval = 0 if retval == 0: self.state = Stream.__S_CONNECTED elif retval != errno.EAGAIN: self.state = Stream.__S_DISCONNECTED self.error = retval def connect(self): """Tries to complete the connection on this stream. If the connection is complete, returns 0 if the connection was successful or a positive errno value if it failed. If the connection is still in progress, returns errno.EAGAIN.""" if self.state == Stream.__S_CONNECTING: self.__scs_connecting() if self.state == Stream.__S_CONNECTING: return errno.EAGAIN elif self.state == Stream.__S_CONNECTED: return 0 else: assert self.state == Stream.__S_DISCONNECTED return self.error def recv(self, n): """Tries to receive up to 'n' bytes from this stream. Returns a (error, string) tuple: - If successful, 'error' is zero and 'string' contains between 1 and 'n' bytes of data. - On error, 'error' is a positive errno value. - If the connection has been closed in the normal fashion or if 'n' is 0, the tuple is (0, ""). The recv function will not block waiting for data to arrive. If no data have been received, it returns (errno.EAGAIN, "") immediately.""" try: return self._recv(n) except socket.error as e: return (ovs.socket_util.get_exception_errno(e), "") def _recv(self, n): retval = self.connect() if retval != 0: return (retval, "") elif n == 0: return (0, "") if sys.platform == 'win32' and self.socket is None: return self.__recv_windows(n) return (0, self.socket.recv(n)) def __recv_windows(self, n): if self._read_pending: try: nBytesRead = winutils.get_overlapped_result(self.pipe, self._read, False) self._read_pending = False except pywintypes.error as e: if e.winerror == winutils.winerror.ERROR_IO_INCOMPLETE: # The operation is still pending, try again self._read_pending = True return (errno.EAGAIN, "") elif e.winerror in winutils.pipe_disconnected_errors: # If the pipe was disconnected, return 0. return (0, "") else: return (errno.EINVAL, "") else: (errCode, self._read_buffer) = winutils.read_file(self.pipe, n, self._read) if errCode: if errCode == winutils.winerror.ERROR_IO_PENDING: self._read_pending = True return (errno.EAGAIN, "") elif errCode in winutils.pipe_disconnected_errors: # If the pipe was disconnected, return 0. return (0, "") else: return (errCode, "") try: nBytesRead = winutils.get_overlapped_result(self.pipe, self._read, False) winutils.win32event.SetEvent(self._read.hEvent) except pywintypes.error as e: if e.winerror in winutils.pipe_disconnected_errors: # If the pipe was disconnected, return 0. return (0, "") else: return (e.winerror, "") recvBuffer = self._read_buffer[:nBytesRead] # recvBuffer will have the type memoryview in Python3. # We can use bytes to convert it to type bytes which works on # both Python2 and Python3. return (0, bytes(recvBuffer)) def send(self, buf): """Tries to send 'buf' on this stream. If successful, returns the number of bytes sent, between 1 and len(buf). 0 is only a valid return value if len(buf) is 0. On error, returns a negative errno value. Will not block. If no bytes can be immediately accepted for transmission, returns -errno.EAGAIN immediately.""" try: return self._send(buf) except socket.error as e: return -ovs.socket_util.get_exception_errno(e) def _send(self, buf): retval = self.connect() if retval != 0: return -retval elif len(buf) == 0: return 0 # We must have bytes for sending. if isinstance(buf, str): buf = buf.encode('utf-8') if sys.platform == 'win32' and self.socket is None: return self.__send_windows(buf) return self.socket.send(buf) def __send_windows(self, buf): if self._write_pending: try: nBytesWritten = winutils.get_overlapped_result(self.pipe, self._write, False) self._write_pending = False except pywintypes.error as e: if e.winerror == winutils.winerror.ERROR_IO_INCOMPLETE: # The operation is still pending, try again self._read_pending = True return -errno.EAGAIN elif e.winerror in winutils.pipe_disconnected_errors: # If the pipe was disconnected, return connection reset. return -errno.ECONNRESET else: return -errno.EINVAL else: (errCode, nBytesWritten) = winutils.write_file(self.pipe, buf, self._write) if errCode: if errCode == winutils.winerror.ERROR_IO_PENDING: self._write_pending = True return -errno.EAGAIN if (not nBytesWritten and errCode in winutils.pipe_disconnected_errors): # If the pipe was disconnected, return connection reset. return -errno.ECONNRESET return nBytesWritten def run(self): pass def run_wait(self, poller): pass def wait(self, poller, wait): assert wait in (Stream.W_CONNECT, Stream.W_RECV, Stream.W_SEND) if self.state == Stream.__S_DISCONNECTED: poller.immediate_wake() return if self.state == Stream.__S_CONNECTING: wait = Stream.W_CONNECT if sys.platform == 'win32': self.__wait_windows(poller, wait) return if wait == Stream.W_RECV: poller.fd_wait(self.socket, ovs.poller.POLLIN) else: poller.fd_wait(self.socket, ovs.poller.POLLOUT) def __wait_windows(self, poller, wait): if self.socket is not None: if wait == Stream.W_RECV: mask = (win32file.FD_READ | win32file.FD_ACCEPT | win32file.FD_CLOSE) event = ovs.poller.POLLIN else: mask = (win32file.FD_WRITE | win32file.FD_CONNECT | win32file.FD_CLOSE) event = ovs.poller.POLLOUT try: win32file.WSAEventSelect(self.socket, self._wevent, mask) except pywintypes.error as e: vlog.err("failed to associate events with socket: %s" % e.strerror) poller.fd_wait(self._wevent, event) else: if wait == Stream.W_RECV: if self._read: poller.fd_wait(self._read.hEvent, ovs.poller.POLLIN) elif wait == Stream.W_SEND: if self._write: poller.fd_wait(self._write.hEvent, ovs.poller.POLLOUT) elif wait == Stream.W_CONNECT: return def connect_wait(self, poller): self.wait(poller, Stream.W_CONNECT) def recv_wait(self, poller): self.wait(poller, Stream.W_RECV) def send_wait(self, poller): self.wait(poller, Stream.W_SEND) def __del__(self): # Don't delete the file: we might have forked. if self.socket is not None: self.socket.close() if self.pipe is not None: # Check if there are any remaining valid handles and close them if self.pipe: winutils.close_handle(self.pipe) if self._read.hEvent: winutils.close_handle(self._read.hEvent) if self._write.hEvent: winutils.close_handle(self._write.hEvent) @staticmethod def ssl_set_private_key_file(file_name): Stream._SSL_private_key_file = file_name @staticmethod def ssl_set_certificate_file(file_name): Stream._SSL_certificate_file = file_name @staticmethod def ssl_set_ca_cert_file(file_name): Stream._SSL_ca_cert_file = file_name class PassiveStream(object): # Windows only connect = None # overlapped for read operation connect_pending = False @staticmethod def needs_probes(name): return False if name.startswith("punix:") else True @staticmethod def is_valid_name(name): """Returns True if 'name' is a passive stream name in the form "TYPE:ARGS" and TYPE is a supported passive stream type (currently "punix:" or "ptcp"), otherwise False.""" return name.startswith("punix:") | name.startswith("ptcp:") def __init__(self, sock, name, bind_path, pipe=None): self.name = name self.pipe = pipe self.socket = sock if pipe is not None: self.connect = pywintypes.OVERLAPPED() self.connect.hEvent = winutils.get_new_event() self.connect_pending = False suffix = name.split(":", 1)[1] suffix = ovs.util.abs_file_name(ovs.dirs.RUNDIR, suffix) self._pipename = winutils.get_pipe_name(suffix) self.bind_path = bind_path @staticmethod def open(name): """Attempts to start listening for remote stream connections. 'name' is a connection name in the form "TYPE:ARGS", where TYPE is an passive stream class's name and ARGS are stream class-specific. Currently the supported values for TYPE are "punix" and "ptcp". Returns (error, pstream): on success 'error' is 0 and 'pstream' is the new PassiveStream, on failure 'error' is a positive errno value and 'pstream' is None.""" if not PassiveStream.is_valid_name(name): return errno.EAFNOSUPPORT, None bind_path = name[6:] if name.startswith("punix:"): bind_path = ovs.util.abs_file_name(ovs.dirs.RUNDIR, bind_path) if sys.platform != 'win32': error, sock = ovs.socket_util.make_unix_socket( socket.SOCK_STREAM, True, bind_path, None) if error: return error, None else: # Branch used only on Windows try: open(bind_path, 'w').close() except: return errno.ENOENT, None pipename = winutils.get_pipe_name(bind_path) if len(pipename) > 255: # Return invalid argument if the name is too long return errno.ENOENT, None npipe = winutils.create_named_pipe(pipename) if not npipe: return errno.ENOENT, None return 0, PassiveStream(None, name, bind_path, pipe=npipe) elif name.startswith("ptcp:"): sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM) sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1) remote = name.split(':') sock.bind((remote[1], int(remote[2]))) else: raise Exception('Unknown connection string') try: sock.listen(10) except socket.error as e: vlog.err("%s: listen: %s" % (name, os.strerror(e.error))) sock.close() return e.error, None return 0, PassiveStream(sock, name, bind_path) def close(self): """Closes this PassiveStream.""" if self.socket is not None: self.socket.close() if self.pipe is not None: winutils.close_handle(self.pipe, vlog.warn) winutils.close_handle(self.connect.hEvent, vlog.warn) if self.bind_path is not None: ovs.fatal_signal.unlink_file_now(self.bind_path) self.bind_path = None def accept(self): """Tries to accept a new connection on this passive stream. Returns (error, stream): if successful, 'error' is 0 and 'stream' is the new Stream object, and on failure 'error' is a positive errno value and 'stream' is None. Will not block waiting for a connection. If no connection is ready to be accepted, returns (errno.EAGAIN, None) immediately.""" if sys.platform == 'win32' and self.socket is None: return self.__accept_windows() while True: try: sock, addr = self.socket.accept() ovs.socket_util.set_nonblocking(sock) if (sys.platform != 'win32' and sock.family == socket.AF_UNIX): return 0, Stream(sock, "unix:%s" % addr, 0) return 0, Stream(sock, 'ptcp:%s:%s' % (addr[0], str(addr[1])), 0) except socket.error as e: error = ovs.socket_util.get_exception_errno(e) if sys.platform == 'win32' and error == errno.WSAEWOULDBLOCK: # WSAEWOULDBLOCK would be the equivalent on Windows # for EAGAIN on Unix. error = errno.EAGAIN if error != errno.EAGAIN: # XXX rate-limit vlog.dbg("accept: %s" % os.strerror(error)) return error, None def __accept_windows(self): if self.connect_pending: try: winutils.get_overlapped_result(self.pipe, self.connect, False) except pywintypes.error as e: if e.winerror == winutils.winerror.ERROR_IO_INCOMPLETE: # The operation is still pending, try again self.connect_pending = True return errno.EAGAIN, None else: if self.pipe: win32pipe.DisconnectNamedPipe(self.pipe) return errno.EINVAL, None self.connect_pending = False error = winutils.connect_named_pipe(self.pipe, self.connect) if error: if error == winutils.winerror.ERROR_IO_PENDING: self.connect_pending = True return errno.EAGAIN, None elif error != winutils.winerror.ERROR_PIPE_CONNECTED: if self.pipe: win32pipe.DisconnectNamedPipe(self.pipe) self.connect_pending = False return errno.EINVAL, None else: win32event.SetEvent(self.connect.hEvent) npipe = winutils.create_named_pipe(self._pipename) if not npipe: return errno.ENOENT, None old_pipe = self.pipe self.pipe = npipe winutils.win32event.ResetEvent(self.connect.hEvent) return 0, Stream(None, self.name, 0, pipe=old_pipe) def wait(self, poller): if sys.platform != 'win32' or self.socket is not None: poller.fd_wait(self.socket, ovs.poller.POLLIN) else: poller.fd_wait(self.connect.hEvent, ovs.poller.POLLIN) def __del__(self): # Don't delete the file: we might have forked. if self.socket is not None: self.socket.close() if self.pipe is not None: # Check if there are any remaining valid handles and close them if self.pipe: winutils.close_handle(self.pipe) if self._connect.hEvent: winutils.close_handle(self._read.hEvent) def usage(name): return """ Active %s connection methods: unix:FILE Unix domain socket named FILE tcp:HOST:PORT TCP socket to HOST with port no of PORT ssl:HOST:PORT SSL socket to HOST with port no of PORT Passive %s connection methods: punix:FILE Listen on Unix domain socket FILE""" % (name, name) class UnixStream(Stream): @staticmethod def needs_probes(): return False @staticmethod def _open(suffix, dscp): connect_path = suffix return ovs.socket_util.make_unix_socket(socket.SOCK_STREAM, True, None, connect_path) Stream.register_method("unix", UnixStream) class TCPStream(Stream): @staticmethod def needs_probes(): return True @staticmethod def _open(suffix, dscp): error, sock = ovs.socket_util.inet_open_active(socket.SOCK_STREAM, suffix, 0, dscp) if not error: try: sock.setsockopt(socket.IPPROTO_TCP, socket.TCP_NODELAY, 1) except socket.error as e: sock.close() return ovs.socket_util.get_exception_errno(e), None return error, sock Stream.register_method("tcp", TCPStream) class SSLStream(Stream): @staticmethod def check_connection_completion(sock): try: return Stream.check_connection_completion(sock) except ssl.SSLSyscallError as e: return ovs.socket_util.get_exception_errno(e) @staticmethod def needs_probes(): return True @staticmethod def _open(suffix, dscp): address = ovs.socket_util.inet_parse_active(suffix, 0) family, sock = ovs.socket_util.inet_create_socket_active( socket.SOCK_STREAM, address) if sock is None: return family, sock # Create an SSL context ctx = ssl.SSLContext(ssl.PROTOCOL_SSLv23) ctx.verify_mode = ssl.CERT_REQUIRED ctx.options |= ssl.OP_NO_SSLv2 ctx.options |= ssl.OP_NO_SSLv3 # If the client has not set the SSL configuration files # exception would be raised. ctx.load_verify_locations(Stream._SSL_ca_cert_file) ctx.load_cert_chain(Stream._SSL_certificate_file, Stream._SSL_private_key_file) ssl_sock = ctx.wrap_socket(sock, do_handshake_on_connect=False) # Connect error = ovs.socket_util.inet_connect_active(ssl_sock, address, family, dscp) if not error: try: ssl_sock.setsockopt(socket.IPPROTO_TCP, socket.TCP_NODELAY, 1) except socket.error as e: ssl_sock.close() return ovs.socket_util.get_exception_errno(e), None return error, ssl_sock def connect(self): retval = super(SSLStream, self).connect() if retval: return retval # TCP Connection is successful. Now do the SSL handshake try: self.socket.do_handshake() except ssl.SSLWantReadError: return errno.EAGAIN except ssl.SSLSyscallError as e: return ovs.socket_util.get_exception_errno(e) return 0 def recv(self, n): try: return super(SSLStream, self)._recv(n) except ssl.SSLWantReadError: return (errno.EAGAIN, "") except ssl.SSLSyscallError as e: return (ovs.socket_util.get_exception_errno(e), "") except ssl.SSLZeroReturnError: return (0, "") except socket.error as e: return (ovs.socket_util.get_exception_errno(e), "") def send(self, buf): try: return super(SSLStream, self)._send(buf) except ssl.SSLWantWriteError: return -errno.EAGAIN except ssl.SSLSyscallError as e: return -ovs.socket_util.get_exception_errno(e) except socket.error as e: return -ovs.socket_util.get_exception_errno(e) def close(self): if self.socket: try: self.socket.shutdown(socket.SHUT_RDWR) except socket.error: pass return super(SSLStream, self).close() if ssl: # Register SSL only if the OpenSSL module is available Stream.register_method("ssl", SSLStream)
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