# Port of Python 3.3's socket module to gevent """ Python 3 socket module. """ # Our import magic sadly makes this warning useless # pylint: disable=undefined-variable # pylint: disable=too-many-statements,too-many-branches # pylint: disable=too-many-public-methods,unused-argument from __future__ import absolute_import import io import os import sys from gevent import _socketcommon from gevent._util import copy_globals from gevent._compat import PYPY from gevent.timeout import Timeout import _socket from os import dup copy_globals(_socketcommon, globals(), names_to_ignore=_socketcommon.__extensions__, dunder_names_to_keep=()) try: from errno import EHOSTUNREACH from errno import ECONNREFUSED except ImportError: EHOSTUNREACH = -1 ECONNREFUSED = -1 __socket__ = _socketcommon.__socket__ __implements__ = _socketcommon._implements __extensions__ = _socketcommon.__extensions__ __imports__ = _socketcommon.__imports__ __dns__ = _socketcommon.__dns__ SocketIO = __socket__.SocketIO # pylint:disable=no-member from gevent._greenlet_primitives import get_memory as _get_memory timeout_default = object() class _closedsocket(object): __slots__ = ('family', 'type', 'proto', 'orig_fileno', 'description') def __init__(self, family, type, proto, orig_fileno, description): self.family = family self.type = type self.proto = proto self.orig_fileno = orig_fileno self.description = description def fileno(self): return -1 def close(self): "No-op" detach = fileno def _dummy(*args, **kwargs): # pylint:disable=no-method-argument,unused-argument raise OSError(EBADF, 'Bad file descriptor') # All _delegate_methods must also be initialized here. send = recv = recv_into = sendto = recvfrom = recvfrom_into = _dummy getsockname = _dummy def __bool__(self): return False __getattr__ = _dummy def __repr__(self): return "" % ( id(self), self.orig_fileno, self.description, ) class _wrefsocket(_socket.socket): # Plain stdlib socket.socket objects subclass _socket.socket # and add weakref ability. The ssl module, for one, counts on this. # We don't create socket.socket objects (because they may have been # monkey patched to be the object from this module), but we still # need to make sure what we do create can be weakrefd. __slots__ = ("__weakref__", ) if PYPY: # server.py unwraps the socket object to get the raw _sock; # it depends on having a timeout property alias, which PyPy does not # provide. timeout = property(lambda s: s.gettimeout(), lambda s, nv: s.settimeout(nv)) from gevent._hub_primitives import wait_on_socket as _wait_on_socket class socket(_socketcommon.SocketMixin): """ gevent `socket.socket `_ for Python 3. This object should have the same API as the standard library socket linked to above. Not all methods are specifically documented here; when they are they may point out a difference to be aware of or may document a method the standard library does not. """ # Subclasses can set this to customize the type of the # native _socket.socket we create. It MUST be a subclass # of _wrefsocket. (gevent internal usage only) _gevent_sock_class = _wrefsocket _io_refs = 0 _closed = False _read_event = None _write_event = None # Take the same approach as socket2: wrap a real socket object, # don't subclass it. This lets code that needs the raw _sock (not tied to the hub) # get it. This shows up in tests like test__example_udp_server. if sys.version_info[:2] < (3, 7): def __init__(self, family=AF_INET, type=SOCK_STREAM, proto=0, fileno=None): self._sock = self._gevent_sock_class(family, type, proto, fileno) self.timeout = None self.__init_common() else: # In 3.7, socket changed to auto-detecting family, type, and proto # when given a fileno. def __init__(self, family=-1, type=-1, proto=-1, fileno=None): if fileno is None: if family == -1: family = AF_INET if type == -1: type = SOCK_STREAM if proto == -1: proto = 0 self._sock = self._gevent_sock_class(family, type, proto, fileno) self.timeout = None self.__init_common() def __init_common(self): _socket.socket.setblocking(self._sock, False) fileno = _socket.socket.fileno(self._sock) self.hub = get_hub() io_class = self.hub.loop.io self._read_event = io_class(fileno, 1) self._write_event = io_class(fileno, 2) self.timeout = _socket.getdefaulttimeout() def __getattr__(self, name): return getattr(self._sock, name) if hasattr(_socket, 'SOCK_NONBLOCK'): # Only defined under Linux @property def type(self): # See https://github.com/gevent/gevent/pull/399 if self.timeout != 0.0: return self._sock.type & ~_socket.SOCK_NONBLOCK # pylint:disable=no-member return self._sock.type def getblocking(self): """ Returns whether the socket will approximate blocking behaviour. .. versionadded:: 1.3a2 Added in Python 3.7. """ return self.timeout != 0.0 def __enter__(self): return self def __exit__(self, *args): if not self._closed: self.close() def __repr__(self): """Wrap __repr__() to reveal the real class name.""" try: s = repr(self._sock) except Exception as ex: # pylint:disable=broad-except # Observed on Windows Py3.3, printing the repr of a socket # that just suffered a ConnectionResetError [WinError 10054]: # "OverflowError: no printf formatter to display the socket descriptor in decimal" # Not sure what the actual cause is or if there's a better way to handle this s = '' % ex if s.startswith(" socket object Return a new socket object connected to the same system resource. """ fd = dup(self.fileno()) sock = self.__class__(self.family, self.type, self.proto, fileno=fd) sock.settimeout(self.gettimeout()) return sock def accept(self): """accept() -> (socket object, address info) Wait for an incoming connection. Return a new socket representing the connection, and the address of the client. For IP sockets, the address info is a pair (hostaddr, port). """ while True: try: fd, addr = self._accept() break except BlockingIOError: if self.timeout == 0.0: raise self._wait(self._read_event) sock = socket(self.family, self.type, self.proto, fileno=fd) # Python Issue #7995: if no default timeout is set and the listening # socket had a (non-zero) timeout, force the new socket in blocking # mode to override platform-specific socket flags inheritance. # XXX do we need to do this? if getdefaulttimeout() is None and self.gettimeout(): sock.setblocking(True) return sock, addr def makefile(self, mode="r", buffering=None, *, encoding=None, errors=None, newline=None): """Return an I/O stream connected to the socket The arguments are as for io.open() after the filename, except the only mode characters supported are 'r', 'w' and 'b'. The semantics are similar too. """ # XXX refactor to share code? We ought to be able to use our FileObject, # adding the appropriate amount of refcounting. At the very least we can use our # OpenDescriptor to handle the parsing. for c in mode: if c not in {"r", "w", "b"}: raise ValueError("invalid mode %r (only r, w, b allowed)") writing = "w" in mode reading = "r" in mode or not writing assert reading or writing binary = "b" in mode rawmode = "" if reading: rawmode += "r" if writing: rawmode += "w" raw = SocketIO(self, rawmode) self._io_refs += 1 if buffering is None: buffering = -1 if buffering < 0: buffering = io.DEFAULT_BUFFER_SIZE if buffering == 0: if not binary: raise ValueError("unbuffered streams must be binary") return raw if reading and writing: buffer = io.BufferedRWPair(raw, raw, buffering) elif reading: buffer = io.BufferedReader(raw, buffering) else: assert writing buffer = io.BufferedWriter(raw, buffering) if binary: return buffer text = io.TextIOWrapper(buffer, encoding, errors, newline) text.mode = mode return text def _decref_socketios(self): # Called by SocketIO when it is closed. if self._io_refs > 0: self._io_refs -= 1 if self._closed: self.close() def _drop_ref_on_close(self, sock): # Send the close event to wake up any watchers we don't know about # so that (hopefully) they can be closed before we destroy # the FD and invalidate them. We may be in the hub running pending # callbacks now, or this may take until the next iteration. scheduled_new = self.hub.loop.closing_fd(sock.fileno()) # Schedule the actual close to happen after that, but only if needed. # (If we always defer, we wind up closing things much later than expected.) if scheduled_new: self.hub.loop.run_callback(sock.close) else: sock.close() def _detach_socket(self, reason): if not self._sock: return # Break any references to the underlying socket object. Tested # by test__refcount. (Why does this matter?). Be sure to # preserve our same family/type/proto if possible (if we # don't, we can get TypeError instead of OSError; see # test_socket.SendmsgUDP6Test.testSendmsgAfterClose)... but # this isn't always possible (see test_socket.test_unknown_socket_family_repr) sock = self._sock family = -1 type = -1 proto = -1 fileno = None try: family = sock.family type = sock.type proto = sock.proto fileno = sock.fileno() except OSError: pass # Break any reference to the loop.io objects. Our fileno, # which they were tied to, is about to be free to be reused, so these # objects are no longer functional. self._drop_events_and_close(closefd=(reason == 'closed')) self._sock = _closedsocket(family, type, proto, fileno, reason) def _real_close(self, _ss=_socket.socket): # This function should not reference any globals. See Python issue #808164. if not self._sock: return self._detach_socket('closed') def close(self): # This function should not reference any globals. See Python issue #808164. self._closed = True if self._io_refs <= 0: self._real_close() @property def closed(self): return self._closed def detach(self): """ detach() -> file descriptor Close the socket object without closing the underlying file descriptor. The object cannot be used after this call; when the real file descriptor is closed, the number that was previously used here may be reused. The fileno() method, after this call, will return an invalid socket id. The previous descriptor is returned. .. versionchanged:: 1.5 Also immediately drop any native event loop resources. """ self._closed = True sock = self._sock self._detach_socket('detached') return sock.detach() def connect(self, address): if self.timeout == 0.0: return _socket.socket.connect(self._sock, address) address = _socketcommon._resolve_addr(self._sock, address) with Timeout._start_new_or_dummy(self.timeout, timeout("timed out")): while True: err = self.getsockopt(SOL_SOCKET, SO_ERROR) if err: raise error(err, strerror(err)) result = _socket.socket.connect_ex(self._sock, address) if not result or result == EISCONN: break if (result in (EWOULDBLOCK, EINPROGRESS, EALREADY)) or (result == EINVAL and is_windows): self._wait(self._write_event) else: if (isinstance(address, tuple) and address[0] == 'fe80::1' and result == EHOSTUNREACH): # On Python 3.7 on mac, we see EHOSTUNREACH # returned for this link-local address, but it really is # supposed to be ECONNREFUSED according to the standard library # tests (test_socket.NetworkConnectionNoServer.test_create_connection) # (On previous versions, that code passed the '127.0.0.1' IPv4 address, so # ipv6 link locals were never a factor; 3.7 passes 'localhost'.) # It is something of a mystery how the stdlib socket code doesn't # produce EHOSTUNREACH---I (JAM) can't see how socketmodule.c would avoid # that. The normal connect just calls connect_ex much like we do. result = ECONNREFUSED raise error(result, strerror(result)) def connect_ex(self, address): try: return self.connect(address) or 0 except timeout: return EAGAIN except gaierror: # pylint:disable=try-except-raise # gaierror/overflowerror/typerror is not silenced by connect_ex; # gaierror extends OSError (aka error) so catch it first raise except error as ex: # error is now OSError and it has various subclasses. # Only those that apply to actually connecting are silenced by # connect_ex. if ex.errno: return ex.errno raise # pragma: no cover def recv(self, *args): while True: try: return self._sock.recv(*args) except error as ex: if ex.args[0] != EWOULDBLOCK or self.timeout == 0.0: raise self._wait(self._read_event) if hasattr(_socket.socket, 'recvmsg'): # Only on Unix; PyPy 3.5 5.10.0 provides sendmsg and recvmsg, but not # recvmsg_into (at least on os x) def recvmsg(self, *args): while True: try: return self._sock.recvmsg(*args) except error as ex: if ex.args[0] != EWOULDBLOCK or self.timeout == 0.0: raise self._wait(self._read_event) if hasattr(_socket.socket, 'recvmsg_into'): def recvmsg_into(self, buffers, *args): while True: try: if args: # The C code is sensitive about whether extra arguments are # passed or not. return self._sock.recvmsg_into(buffers, *args) return self._sock.recvmsg_into(buffers) except error as ex: if ex.args[0] != EWOULDBLOCK or self.timeout == 0.0: raise self._wait(self._read_event) def recvfrom(self, *args): while True: try: return self._sock.recvfrom(*args) except error as ex: if ex.args[0] != EWOULDBLOCK or self.timeout == 0.0: raise self._wait(self._read_event) def recvfrom_into(self, *args): while True: try: return self._sock.recvfrom_into(*args) except error as ex: if ex.args[0] != EWOULDBLOCK or self.timeout == 0.0: raise self._wait(self._read_event) def recv_into(self, *args): while True: try: return self._sock.recv_into(*args) except error as ex: if ex.args[0] != EWOULDBLOCK or self.timeout == 0.0: raise self._wait(self._read_event) def send(self, data, flags=0, timeout=timeout_default): if timeout is timeout_default: timeout = self.timeout try: return self._sock.send(data, flags) except error as ex: if ex.args[0] not in _socketcommon.GSENDAGAIN or timeout == 0.0: raise self._wait(self._write_event) try: return _socket.socket.send(self._sock, data, flags) except error as ex2: if ex2.args[0] == EWOULDBLOCK: return 0 raise def sendall(self, data, flags=0): # XXX Now that we run on PyPy3, see the notes in _socket2.py's sendall() # and implement that here if needed. # PyPy3 is not optimized for performance yet, and is known to be slower than # PyPy2, so it's possibly premature to do this. However, there is a 3.5 test case that # possibly exposes this in a severe way. data_memory = _get_memory(data) return _socketcommon._sendall(self, data_memory, flags) def sendto(self, *args): try: return self._sock.sendto(*args) except error as ex: if ex.args[0] != EWOULDBLOCK or self.timeout == 0.0: raise self._wait(self._write_event) try: return self._sock.sendto(*args) except error as ex2: if ex2.args[0] == EWOULDBLOCK: return 0 raise if hasattr(_socket.socket, 'sendmsg'): # Only on Unix def sendmsg(self, buffers, ancdata=(), flags=0, address=None): try: return self._sock.sendmsg(buffers, ancdata, flags, address) except error as ex: if flags & getattr(_socket, 'MSG_DONTWAIT', 0): # Enable non-blocking behaviour # XXX: Do all platforms that have sendmsg have MSG_DONTWAIT? raise if ex.args[0] != EWOULDBLOCK or self.timeout == 0.0: raise self._wait(self._write_event) try: return self._sock.sendmsg(buffers, ancdata, flags, address) except error as ex2: if ex2.args[0] == EWOULDBLOCK: return 0 raise def setblocking(self, flag): # Beginning in 3.6.0b3 this is supposed to raise # if the file descriptor is closed, but the test for it # involves closing the fileno directly. Since we # don't touch the fileno here, it doesn't make sense for # us. if flag: self.timeout = None else: self.timeout = 0.0 def settimeout(self, howlong): if howlong is not None: try: f = howlong.__float__ except AttributeError: raise TypeError('a float is required') howlong = f() if howlong < 0.0: raise ValueError('Timeout value out of range') self.__dict__['timeout'] = howlong def gettimeout(self): return self.__dict__['timeout'] def shutdown(self, how): if how == 0: # SHUT_RD self.hub.cancel_wait(self._read_event, cancel_wait_ex) elif how == 1: # SHUT_WR self.hub.cancel_wait(self._write_event, cancel_wait_ex) else: self.hub.cancel_wait(self._read_event, cancel_wait_ex) self.hub.cancel_wait(self._write_event, cancel_wait_ex) self._sock.shutdown(how) # sendfile: new in 3.5. But there's no real reason to not # support it everywhere. Note that we can't use os.sendfile() # because it's not cooperative. def _sendfile_use_sendfile(self, file, offset=0, count=None): # This is called directly by tests raise __socket__._GiveupOnSendfile() # pylint:disable=no-member def _sendfile_use_send(self, file, offset=0, count=None): self._check_sendfile_params(file, offset, count) if self.gettimeout() == 0: raise ValueError("non-blocking sockets are not supported") if offset: file.seek(offset) blocksize = min(count, 8192) if count else 8192 total_sent = 0 # localize variable access to minimize overhead file_read = file.read sock_send = self.send try: while True: if count: blocksize = min(count - total_sent, blocksize) if blocksize <= 0: break data = memoryview(file_read(blocksize)) if not data: break # EOF while True: try: sent = sock_send(data) except BlockingIOError: continue else: total_sent += sent if sent < len(data): data = data[sent:] else: break return total_sent finally: if total_sent > 0 and hasattr(file, 'seek'): file.seek(offset + total_sent) def _check_sendfile_params(self, file, offset, count): if 'b' not in getattr(file, 'mode', 'b'): raise ValueError("file should be opened in binary mode") if not self.type & SOCK_STREAM: raise ValueError("only SOCK_STREAM type sockets are supported") if count is not None: if not isinstance(count, int): raise TypeError( "count must be a positive integer (got {!r})".format(count)) if count <= 0: raise ValueError( "count must be a positive integer (got {!r})".format(count)) def sendfile(self, file, offset=0, count=None): """sendfile(file[, offset[, count]]) -> sent Send a file until EOF is reached by using high-performance os.sendfile() and return the total number of bytes which were sent. *file* must be a regular file object opened in binary mode. If os.sendfile() is not available (e.g. Windows) or file is not a regular file socket.send() will be used instead. *offset* tells from where to start reading the file. If specified, *count* is the total number of bytes to transmit as opposed to sending the file until EOF is reached. File position is updated on return or also in case of error in which case file.tell() can be used to figure out the number of bytes which were sent. The socket must be of SOCK_STREAM type. Non-blocking sockets are not supported. .. versionadded:: 1.1rc4 Added in Python 3.5, but available under all Python 3 versions in gevent. """ return self._sendfile_use_send(file, offset, count) if os.name == 'nt': def get_inheritable(self): return os.get_handle_inheritable(self.fileno()) def set_inheritable(self, inheritable): os.set_handle_inheritable(self.fileno(), inheritable) else: def get_inheritable(self): return os.get_inheritable(self.fileno()) def set_inheritable(self, inheritable): os.set_inheritable(self.fileno(), inheritable) get_inheritable.__doc__ = "Get the inheritable flag of the socket" set_inheritable.__doc__ = "Set the inheritable flag of the socket" SocketType = socket def fromfd(fd, family, type, proto=0): """ fromfd(fd, family, type[, proto]) -> socket object Create a socket object from a duplicate of the given file descriptor. The remaining arguments are the same as for socket(). """ nfd = dup(fd) return socket(family, type, proto, nfd) if hasattr(_socket.socket, "share"): def fromshare(info): """ fromshare(info) -> socket object Create a socket object from a the bytes object returned by socket.share(pid). """ return socket(0, 0, 0, info) __implements__.append('fromshare') if hasattr(_socket, "socketpair"): def socketpair(family=None, type=SOCK_STREAM, proto=0): """socketpair([family[, type[, proto]]]) -> (socket object, socket object) Create a pair of socket objects from the sockets returned by the platform socketpair() function. The arguments are the same as for socket() except the default family is AF_UNIX if defined on the platform; otherwise, the default is AF_INET. .. versionchanged:: 1.2 All Python 3 versions on Windows supply this function (natively supplied by Python 3.5 and above). """ if family is None: try: family = AF_UNIX except NameError: family = AF_INET a, b = _socket.socketpair(family, type, proto) a = socket(family, type, proto, a.detach()) b = socket(family, type, proto, b.detach()) return a, b else: # pragma: no cover # Origin: https://gist.github.com/4325783, by Geert Jansen. Public domain. # gevent: taken from 3.6 release, confirmed unchanged in 3.7 and # 3.8a1. Expected to be used only on Win. Added to Win/3.5 _LOCALHOST = '127.0.0.1' _LOCALHOST_V6 = '::1' def socketpair(family=AF_INET, type=SOCK_STREAM, proto=0): if family == AF_INET: host = _LOCALHOST elif family == AF_INET6: host = _LOCALHOST_V6 else: raise ValueError("Only AF_INET and AF_INET6 socket address families " "are supported") if type != SOCK_STREAM: raise ValueError("Only SOCK_STREAM socket type is supported") if proto != 0: raise ValueError("Only protocol zero is supported") # We create a connected TCP socket. Note the trick with # setblocking(False) that prevents us from having to create a thread. lsock = socket(family, type, proto) try: lsock.bind((host, 0)) lsock.listen() # On IPv6, ignore flow_info and scope_id addr, port = lsock.getsockname()[:2] csock = socket(family, type, proto) try: csock.setblocking(False) try: csock.connect((addr, port)) except (BlockingIOError, InterruptedError): pass csock.setblocking(True) ssock, _ = lsock.accept() except: csock.close() raise finally: lsock.close() return (ssock, csock) if hasattr(__socket__, 'close'): # Python 3.7b1+ close = __socket__.close # pylint:disable=no-member __imports__ += ['close'] __all__ = __implements__ + __extensions__ + __imports__