""" This is an updated socket module for use on JVMs >= 1.5; it is derived from the old jython socket module. It is documented, along with known issues and workarounds, on the jython wiki. http://wiki.python.org/jython/NewSocketModule """ _defaulttimeout = None import errno import jarray import string import struct import sys import threading import time import types # Java.io classes import java.io.BufferedInputStream import java.io.BufferedOutputStream # Java.io exceptions import java.io.InterruptedIOException import java.io.IOException # Java.lang classes import java.lang.String # Java.lang exceptions import java.lang.Exception # Java.net classes import java.net.DatagramPacket import java.net.InetAddress import java.net.InetSocketAddress import java.net.Socket # Java.net exceptions import java.net.BindException import java.net.ConnectException import java.net.NoRouteToHostException import java.net.PortUnreachableException import java.net.ProtocolException import java.net.SocketException import java.net.SocketTimeoutException import java.net.UnknownHostException # Java.nio classes import java.nio.ByteBuffer import java.nio.channels.DatagramChannel import java.nio.channels.ServerSocketChannel import java.nio.channels.SocketChannel # Java.nio exceptions import java.nio.channels.AlreadyConnectedException import java.nio.channels.AsynchronousCloseException import java.nio.channels.CancelledKeyException import java.nio.channels.ClosedByInterruptException import java.nio.channels.ClosedChannelException import java.nio.channels.ClosedSelectorException import java.nio.channels.ConnectionPendingException import java.nio.channels.IllegalBlockingModeException import java.nio.channels.IllegalSelectorException import java.nio.channels.NoConnectionPendingException import java.nio.channels.NonReadableChannelException import java.nio.channels.NonWritableChannelException import java.nio.channels.NotYetBoundException import java.nio.channels.NotYetConnectedException import java.nio.channels.UnresolvedAddressException import java.nio.channels.UnsupportedAddressTypeException # Javax.net.ssl classes import javax.net.ssl.SSLSocketFactory # Javax.net.ssl exceptions javax.net.ssl.SSLException javax.net.ssl.SSLHandshakeException javax.net.ssl.SSLKeyException javax.net.ssl.SSLPeerUnverifiedException javax.net.ssl.SSLProtocolException import org.python.core.io.DatagramSocketIO import org.python.core.io.ServerSocketIO import org.python.core.io.SocketIO from org.python.core.Py import newString as asPyString class error(Exception): pass class herror(error): pass class gaierror(error): pass class timeout(error): pass class sslerror(error): pass def _unmapped_exception(exc): return error(-1, 'Unmapped exception: %s' % exc) def java_net_socketexception_handler(exc): if exc.message.startswith("Address family not supported by protocol family"): return error(errno.EAFNOSUPPORT, 'Address family not supported by protocol family: See http://wiki.python.org/jython/NewSocketModule#IPV6addresssupport') return _unmapped_exception(exc) def would_block_error(exc=None): return error(errno.EWOULDBLOCK, 'The socket operation could not complete without blocking') ALL = None _ssl_message = ": Differences between the SSL socket behaviour of cpython vs. jython are explained on the wiki: http://wiki.python.org/jython/NewSocketModule#SSL_Support" _exception_map = { # (, ) : callable that raises the python equivalent exception, or None to stub out as unmapped (java.io.IOException, ALL) : lambda x: error(errno.ECONNRESET, 'Software caused connection abort'), (java.io.InterruptedIOException, ALL) : lambda x: timeout('timed out'), (java.net.BindException, ALL) : lambda x: error(errno.EADDRINUSE, 'Address already in use'), (java.net.ConnectException, ALL) : lambda x: error(errno.ECONNREFUSED, 'Connection refused'), (java.net.NoRouteToHostException, ALL) : lambda x: error(errno.EHOSTUNREACH, 'No route to host'), (java.net.PortUnreachableException, ALL) : None, (java.net.ProtocolException, ALL) : None, (java.net.SocketException, ALL) : java_net_socketexception_handler, (java.net.SocketTimeoutException, ALL) : lambda x: timeout('timed out'), (java.net.UnknownHostException, ALL) : lambda x: gaierror(errno.EGETADDRINFOFAILED, 'getaddrinfo failed'), (java.nio.channels.AlreadyConnectedException, ALL) : lambda x: error(errno.EISCONN, 'Socket is already connected'), (java.nio.channels.AsynchronousCloseException, ALL) : None, (java.nio.channels.CancelledKeyException, ALL) : None, (java.nio.channels.ClosedByInterruptException, ALL) : None, (java.nio.channels.ClosedChannelException, ALL) : lambda x: error(errno.EPIPE, 'Socket closed'), (java.nio.channels.ClosedSelectorException, ALL) : None, (java.nio.channels.ConnectionPendingException, ALL) : None, (java.nio.channels.IllegalBlockingModeException, ALL) : None, (java.nio.channels.IllegalSelectorException, ALL) : None, (java.nio.channels.NoConnectionPendingException, ALL) : None, (java.nio.channels.NonReadableChannelException, ALL) : None, (java.nio.channels.NonWritableChannelException, ALL) : None, (java.nio.channels.NotYetBoundException, ALL) : None, (java.nio.channels.NotYetConnectedException, ALL) : None, (java.nio.channels.UnresolvedAddressException, ALL) : lambda x: gaierror(errno.EGETADDRINFOFAILED, 'getaddrinfo failed'), (java.nio.channels.UnsupportedAddressTypeException, ALL) : None, # These error codes are currently wrong: getting them correct is going to require # some investigation. Cpython 2.6 introduced extensive SSL support. (javax.net.ssl.SSLException, ALL) : lambda x: sslerror(-1, 'SSL exception'+_ssl_message), (javax.net.ssl.SSLHandshakeException, ALL) : lambda x: sslerror(-1, 'SSL handshake exception'+_ssl_message), (javax.net.ssl.SSLKeyException, ALL) : lambda x: sslerror(-1, 'SSL key exception'+_ssl_message), (javax.net.ssl.SSLPeerUnverifiedException, ALL) : lambda x: sslerror(-1, 'SSL peer unverified exception'+_ssl_message), (javax.net.ssl.SSLProtocolException, ALL) : lambda x: sslerror(-1, 'SSL protocol exception'+_ssl_message), } def _map_exception(exc, circumstance=ALL): # print "Mapping exception: %s" % exc mapped_exception = _exception_map.get((exc.__class__, circumstance)) if mapped_exception: exception = mapped_exception(exc) else: exception = error(-1, 'Unmapped exception: %s' % exc) exception.java_exception = exc return exception _feature_support_map = { 'ipv6': True, 'idna': False, 'tipc': False, } def supports(feature, *args): if len(args) == 1: _feature_support_map[feature] = args[0] return _feature_support_map.get(feature, False) MODE_BLOCKING = 'block' MODE_NONBLOCKING = 'nonblock' MODE_TIMEOUT = 'timeout' _permitted_modes = (MODE_BLOCKING, MODE_NONBLOCKING, MODE_TIMEOUT) SHUT_RD = 0 SHUT_WR = 1 SHUT_RDWR = 2 AF_UNSPEC = 0 AF_INET = 2 AF_INET6 = 23 AI_PASSIVE = 1 AI_CANONNAME = 2 AI_NUMERICHOST = 4 AI_V4MAPPED = 8 AI_ALL = 16 AI_ADDRCONFIG = 32 AI_NUMERICSERV = 1024 EAI_NONAME = -2 EAI_SERVICE = -8 EAI_ADDRFAMILY = -9 NI_NUMERICHOST = 1 NI_NUMERICSERV = 2 NI_NOFQDN = 4 NI_NAMEREQD = 8 NI_DGRAM = 16 NI_MAXSERV = 32 NI_IDN = 64 NI_IDN_ALLOW_UNASSIGNED = 128 NI_IDN_USE_STD3_ASCII_RULES = 256 NI_MAXHOST = 1025 # For some reason, probably historical, SOCK_DGRAM and SOCK_STREAM are opposite values of what they are on cpython. # I.E. The following is the way they are on cpython # SOCK_STREAM = 1 # SOCK_DGRAM = 2 # At some point, we should probably switch them around, which *should* not affect anybody SOCK_DGRAM = 1 SOCK_STREAM = 2 SOCK_RAW = 3 # not supported SOCK_RDM = 4 # not supported SOCK_SEQPACKET = 5 # not supported SOL_SOCKET = 0xFFFF IPPROTO_TCP = 6 IPPROTO_UDP = 17 SO_BROADCAST = 1 SO_KEEPALIVE = 2 SO_LINGER = 4 SO_OOBINLINE = 8 SO_RCVBUF = 16 SO_REUSEADDR = 32 SO_SNDBUF = 64 SO_TIMEOUT = 128 TCP_NODELAY = 256 INADDR_ANY = "0.0.0.0" INADDR_BROADCAST = "255.255.255.255" IN6ADDR_ANY_INIT = "::" # Options with negative constants are not supported # They are being added here so that code that refers to them # will not break with an AttributeError SO_ACCEPTCONN = -1 SO_DEBUG = -2 SO_DONTROUTE = -4 SO_ERROR = -8 SO_EXCLUSIVEADDRUSE = -16 SO_RCVLOWAT = -32 SO_RCVTIMEO = -64 SO_REUSEPORT = -128 SO_SNDLOWAT = -256 SO_SNDTIMEO = -512 SO_TYPE = -1024 SO_USELOOPBACK = -2048 __all__ = ['AF_UNSPEC', 'AF_INET', 'AF_INET6', 'AI_PASSIVE', 'SOCK_DGRAM', 'SOCK_RAW', 'SOCK_RDM', 'SOCK_SEQPACKET', 'SOCK_STREAM', 'SOL_SOCKET', 'SO_BROADCAST', 'SO_ERROR', 'SO_KEEPALIVE', 'SO_LINGER', 'SO_OOBINLINE', 'SO_RCVBUF', 'SO_REUSEADDR', 'SO_SNDBUF', 'SO_TIMEOUT', 'TCP_NODELAY', 'INADDR_ANY', 'INADDR_BROADCAST', 'IPPROTO_TCP', 'IPPROTO_UDP', 'SocketType', 'error', 'herror', 'gaierror', 'timeout', 'getfqdn', 'gethostbyaddr', 'gethostbyname', 'gethostname', 'socket', 'getaddrinfo', 'getdefaulttimeout', 'setdefaulttimeout', 'has_ipv6', 'htons', 'htonl', 'ntohs', 'ntohl', 'SHUT_RD', 'SHUT_WR', 'SHUT_RDWR', ] def _constant_to_name(const_value): sock_module = sys.modules['socket'] try: for name in dir(sock_module): if getattr(sock_module, name) is const_value and \ (name.startswith('SO_') or name.startswith('SOL_') or \ name.startswith('TCP_') or name.startswith('IPPROTO_')): return name return "Unknown" finally: sock_module = None import _google_ipaddr_r234 def _is_ip_address(addr, version=None): try: _google_ipaddr_r234.IPAddress(addr, version) return True except ValueError: return False def is_ipv4_address(addr): return _is_ip_address(addr, 4) def is_ipv6_address(addr): return _is_ip_address(addr, 6) def is_ip_address(addr): return _is_ip_address(addr) class _nio_impl: timeout = None mode = MODE_BLOCKING def config(self, mode, timeout): self.mode = mode if self.mode == MODE_BLOCKING: self.jchannel.configureBlocking(1) if self.mode == MODE_NONBLOCKING: self.jchannel.configureBlocking(0) if self.mode == MODE_TIMEOUT: self.jchannel.configureBlocking(1) self._timeout_millis = int(timeout*1000) self.jsocket.setSoTimeout(self._timeout_millis) def getsockopt(self, level, option): if (level, option) in self.options: result = getattr(self.jsocket, "get%s" % self.options[ (level, option) ])() if option == SO_LINGER: if result == -1: enabled, linger_time = 0, 0 else: enabled, linger_time = 1, result return struct.pack('ii', enabled, linger_time) return result else: raise error(errno.ENOPROTOOPT, "Socket option '%s' (level '%s') not supported on socket(%s)" % (_constant_to_name(option), _constant_to_name(level), str(self.jsocket))) def setsockopt(self, level, option, value): if (level, option) in self.options: if option == SO_LINGER: values = struct.unpack('ii', value) self.jsocket.setSoLinger(*values) else: getattr(self.jsocket, "set%s" % self.options[ (level, option) ])(value) else: raise error(errno.ENOPROTOOPT, "Socket option '%s' (level '%s') not supported on socket(%s)" % (_constant_to_name(option), _constant_to_name(level), str(self.jsocket))) def close(self): self.jsocket.close() def getchannel(self): return self.jchannel def fileno(self): return self.socketio class _client_socket_impl(_nio_impl): options = { (SOL_SOCKET, SO_KEEPALIVE): 'KeepAlive', (SOL_SOCKET, SO_LINGER): 'SoLinger', (SOL_SOCKET, SO_OOBINLINE): 'OOBInline', (SOL_SOCKET, SO_RCVBUF): 'ReceiveBufferSize', (SOL_SOCKET, SO_REUSEADDR): 'ReuseAddress', (SOL_SOCKET, SO_SNDBUF): 'SendBufferSize', (SOL_SOCKET, SO_TIMEOUT): 'SoTimeout', (IPPROTO_TCP, TCP_NODELAY): 'TcpNoDelay', } def __init__(self, socket=None): if socket: self.jchannel = socket.getChannel() else: self.jchannel = java.nio.channels.SocketChannel.open() self.jsocket = self.jchannel.socket() self.socketio = org.python.core.io.SocketIO(self.jchannel, 'rw') def bind(self, jsockaddr, reuse_addr): self.jsocket.setReuseAddress(reuse_addr) self.jsocket.bind(jsockaddr) def connect(self, jsockaddr): if self.mode == MODE_TIMEOUT: self.jsocket.connect (jsockaddr, self._timeout_millis) else: self.jchannel.connect(jsockaddr) def finish_connect(self): return self.jchannel.finishConnect() def _do_read_net(self, buf): # Need two separate implementations because the java.nio APIs do not support timeouts return self.jsocket.getInputStream().read(buf) def _do_read_nio(self, buf): bytebuf = java.nio.ByteBuffer.wrap(buf) count = self.jchannel.read(bytebuf) return count def _do_write_net(self, buf): self.jsocket.getOutputStream().write(buf) return len(buf) def _do_write_nio(self, buf): bytebuf = java.nio.ByteBuffer.wrap(buf) count = self.jchannel.write(bytebuf) return count def read(self, buf): if self.mode == MODE_TIMEOUT: return self._do_read_net(buf) else: return self._do_read_nio(buf) def write(self, buf): if self.mode == MODE_TIMEOUT: return self._do_write_net(buf) else: return self._do_write_nio(buf) def shutdown(self, how): if how in (SHUT_RD, SHUT_RDWR): self.jsocket.shutdownInput() if how in (SHUT_WR, SHUT_RDWR): self.jsocket.shutdownOutput() def getsockname(self): return (self.jsocket.getLocalAddress().getHostAddress(), self.jsocket.getLocalPort()) def getpeername(self): return (self.jsocket.getInetAddress().getHostAddress(), self.jsocket.getPort() ) class _server_socket_impl(_nio_impl): options = { (SOL_SOCKET, SO_RCVBUF): 'ReceiveBufferSize', (SOL_SOCKET, SO_REUSEADDR): 'ReuseAddress', (SOL_SOCKET, SO_TIMEOUT): 'SoTimeout', } def __init__(self, jsockaddr, backlog, reuse_addr): self.jchannel = java.nio.channels.ServerSocketChannel.open() self.jsocket = self.jchannel.socket() self.jsocket.setReuseAddress(reuse_addr) self.jsocket.bind(jsockaddr, backlog) self.socketio = org.python.core.io.ServerSocketIO(self.jchannel, 'rw') def accept(self): if self.mode in (MODE_BLOCKING, MODE_NONBLOCKING): new_cli_chan = self.jchannel.accept() if new_cli_chan is not None: return _client_socket_impl(new_cli_chan.socket()) else: return None else: # In timeout mode now new_cli_sock = self.jsocket.accept() return _client_socket_impl(new_cli_sock) def shutdown(self, how): # This is no-op on java, for server sockets. # What the user wants to achieve is achieved by calling close() on # java/jython. But we can't call that here because that would then # later cause the user explicit close() call to fail pass def getsockname(self): return (self.jsocket.getInetAddress().getHostAddress(), self.jsocket.getLocalPort()) def getpeername(self): # Not a meaningful operation for server sockets. raise error(errno.ENOTCONN, "Socket is not connected") class _datagram_socket_impl(_nio_impl): options = { (SOL_SOCKET, SO_BROADCAST): 'Broadcast', (SOL_SOCKET, SO_RCVBUF): 'ReceiveBufferSize', (SOL_SOCKET, SO_REUSEADDR): 'ReuseAddress', (SOL_SOCKET, SO_SNDBUF): 'SendBufferSize', (SOL_SOCKET, SO_TIMEOUT): 'SoTimeout', } def __init__(self, jsockaddr=None, reuse_addr=0): self.jchannel = java.nio.channels.DatagramChannel.open() self.jsocket = self.jchannel.socket() if jsockaddr is not None: self.jsocket.setReuseAddress(reuse_addr) self.jsocket.bind(jsockaddr) self.socketio = org.python.core.io.DatagramSocketIO(self.jchannel, 'rw') def connect(self, jsockaddr): self.jchannel.connect(jsockaddr) def disconnect(self): """ Disconnect the datagram socket. cpython appears not to have this operation """ self.jchannel.disconnect() def shutdown(self, how): # This is no-op on java, for datagram sockets. # What the user wants to achieve is achieved by calling close() on # java/jython. But we can't call that here because that would then # later cause the user explicit close() call to fail pass def _do_send_net(self, byte_array, socket_address, flags): # Need two separate implementations because the java.nio APIs do not support timeouts num_bytes = len(byte_array) if self.jsocket.isConnected() and socket_address is None: packet = java.net.DatagramPacket(byte_array, num_bytes) else: packet = java.net.DatagramPacket(byte_array, num_bytes, socket_address) self.jsocket.send(packet) return num_bytes def _do_send_nio(self, byte_array, socket_address, flags): byte_buf = java.nio.ByteBuffer.wrap(byte_array) if self.jchannel.isConnected() and socket_address is None: bytes_sent = self.jchannel.write(byte_buf) else: bytes_sent = self.jchannel.send(byte_buf, socket_address) return bytes_sent def sendto(self, byte_array, jsockaddr, flags): if self.mode == MODE_TIMEOUT: return self._do_send_net(byte_array, jsockaddr, flags) else: return self._do_send_nio(byte_array, jsockaddr, flags) def send(self, byte_array, flags): if self.mode == MODE_TIMEOUT: return self._do_send_net(byte_array, None, flags) else: return self._do_send_nio(byte_array, None, flags) def _do_receive_net(self, return_source_address, num_bytes, flags): byte_array = jarray.zeros(num_bytes, 'b') packet = java.net.DatagramPacket(byte_array, num_bytes) self.jsocket.receive(packet) bytes_rcvd = packet.getLength() if bytes_rcvd < num_bytes: byte_array = byte_array[:bytes_rcvd] return_data = byte_array.tostring() if return_source_address: host = None if packet.getAddress(): host = packet.getAddress().getHostAddress() port = packet.getPort() return return_data, (host, port) else: return return_data def _do_receive_nio(self, return_source_address, num_bytes, flags): byte_array = jarray.zeros(num_bytes, 'b') byte_buf = java.nio.ByteBuffer.wrap(byte_array) source_address = self.jchannel.receive(byte_buf) if source_address is None and not self.jchannel.isBlocking(): raise would_block_error() byte_buf.flip() ; bytes_read = byte_buf.remaining() if bytes_read < num_bytes: byte_array = byte_array[:bytes_read] return_data = byte_array.tostring() if return_source_address: return return_data, (source_address.getAddress().getHostAddress(), source_address.getPort()) else: return return_data def recvfrom(self, num_bytes, flags): if self.mode == MODE_TIMEOUT: return self._do_receive_net(1, num_bytes, flags) else: return self._do_receive_nio(1, num_bytes, flags) def recv(self, num_bytes, flags): if self.mode == MODE_TIMEOUT: return self._do_receive_net(0, num_bytes, flags) else: return self._do_receive_nio(0, num_bytes, flags) def getsockname(self): return (self.jsocket.getLocalAddress().getHostAddress(), self.jsocket.getLocalPort()) def getpeername(self): peer_address = self.jsocket.getInetAddress() if peer_address is None: raise error(errno.ENOTCONN, "Socket is not connected") return (peer_address.getHostAddress(), self.jsocket.getPort() ) has_ipv6 = True # IPV6 FTW! # Name and address functions def _gethostbyaddr(name): # This is as close as I can get; at least the types are correct... addresses = java.net.InetAddress.getAllByName(gethostbyname(name)) names = [] addrs = [] for addr in addresses: names.append(asPyString(addr.getHostName())) addrs.append(asPyString(addr.getHostAddress())) return (names, addrs) def getfqdn(name=None): """ Return a fully qualified domain name for name. If name is omitted or empty it is interpreted as the local host. To find the fully qualified name, the hostname returned by gethostbyaddr() is checked, then aliases for the host, if available. The first name which includes a period is selected. In case no fully qualified domain name is available, the hostname is retur New in version 2.0. """ if not name: name = gethostname() names, addrs = _gethostbyaddr(name) for a in names: if a.find(".") >= 0: return a return name def gethostname(): try: return asPyString(java.net.InetAddress.getLocalHost().getHostName()) except java.lang.Exception, jlx: raise _map_exception(jlx) def gethostbyname(name): try: return asPyString(java.net.InetAddress.getByName(name).getHostAddress()) except java.lang.Exception, jlx: raise _map_exception(jlx) def gethostbyaddr(name): names, addrs = _gethostbyaddr(name) return (names[0], names, addrs) def getservbyname(service_name, protocol_name=None): try: from jnr.netdb import Service except ImportError: return None service = Service.getServiceByName(service_name, protocol_name) if service is None: raise error('service/proto not found') return service.getPort() def getservbyport(port, protocol_name=None): try: from jnr.netdb import Service except ImportError: return None service = Service.getServiceByPort(port, protocol_name) if service is None: raise error('port/proto not found') return service.getName() def getprotobyname(protocol_name=None): try: from jnr.netdb import Protocol except ImportError: return None proto = Protocol.getProtocolByName(protocol_name) if proto is None: raise error('protocol not found') return proto.getProto() def _realsocket(family = AF_INET, sock_type = SOCK_STREAM, protocol=0): assert family in (AF_INET, AF_INET6), "Only AF_INET and AF_INET6 sockets are currently supported on jython" assert sock_type in (SOCK_DGRAM, SOCK_STREAM), "Only SOCK_STREAM and SOCK_DGRAM sockets are currently supported on jython" if sock_type == SOCK_STREAM: if protocol != 0: assert protocol == IPPROTO_TCP, "Only IPPROTO_TCP supported on SOCK_STREAM sockets" else: protocol = IPPROTO_TCP result = _tcpsocket() else: if protocol != 0: assert protocol == IPPROTO_UDP, "Only IPPROTO_UDP supported on SOCK_DGRAM sockets" else: protocol = IPPROTO_UDP result = _udpsocket() setattr(result, "family", family) setattr(result, "type", sock_type) setattr(result, "proto", protocol) return result # # Attempt to provide IDNA (RFC 3490) support. # # Try java.net.IDN, built into java 6 # idna_libraries = [ ('java.net.IDN', 'toASCII', 'toUnicode', 'ALLOW_UNASSIGNED', 'USE_STD3_ASCII_RULES', java.lang.IllegalArgumentException) ] for idna_lib, efn, dfn, au, usar, exc in idna_libraries: try: m = __import__(idna_lib, globals(), locals(), [efn, dfn, au, usar]) encode_fn = getattr(m, efn) def _encode_idna(name): try: return encode_fn(name) except exc: raise UnicodeEncodeError(name) decode_fn = getattr(m, dfn) def _decode_idna(name, flags=0): try: jflags = 0 if flags & NI_IDN_ALLOW_UNASSIGNED: jflags |= au if flags & NI_IDN_USE_STD3_ASCII_RULES: jflags |= usar return decode_fn(name, jflags) except Exception, x: raise UnicodeDecodeError(name) supports('idna', True) break except (AttributeError, ImportError), e: pass else: _encode_idna = lambda x: x.encode("ascii") _decode_idna = lambda x, y=0: x.decode("ascii") # # Define data structures to support IPV4 and IPV6. # class _ip_address_t: pass class _ipv4_address_t(_ip_address_t): def __init__(self, sockaddr, port, jaddress): self.sockaddr = sockaddr self.port = port self.jaddress = jaddress def __getitem__(self, index): if 0 == index: return self.sockaddr elif 1 == index: return self.port else: raise IndexError() def __len__(self): return 2 def __str__(self): return "('%s', %d)" % (self.sockaddr, self.port) __repr__ = __str__ class _ipv6_address_t(_ip_address_t): def __init__(self, sockaddr, port, jaddress): self.sockaddr = sockaddr self.port = port self.jaddress = jaddress def __getitem__(self, index): if 0 == index: return self.sockaddr elif 1 == index: return self.port elif 2 == index: return 0 elif 3 == index: return self.jaddress.scopeId else: raise IndexError() def __len__(self): return 4 def __str__(self): return "('%s', %d, 0, %d)" % (self.sockaddr, self.port, self.jaddress.scopeId) __repr__ = __str__ def _get_jsockaddr(address_object, family, sock_type, proto, flags): # Is this an object that was returned from getaddrinfo? If so, it already contains an InetAddress if isinstance(address_object, _ip_address_t): return java.net.InetSocketAddress(address_object.jaddress, address_object[1]) # The user passed an address tuple, not an object returned from getaddrinfo # So we must call getaddrinfo, after some translations and checking if address_object is None: address_object = ("", 0) error_message = "Address must be a 2-tuple (ipv4: (host, port)) or a 4-tuple (ipv6: (host, port, flow, scope))" if not isinstance(address_object, tuple) or \ ((family == AF_INET and len(address_object) != 2) or (family == AF_INET6 and len(address_object) not in [2,4] )) or \ not isinstance(address_object[0], basestring) or \ not isinstance(address_object[1], (int, long)): raise TypeError(error_message) if len(address_object) == 4 and not isinstance(address_object[3], (int, long)): raise TypeError(error_message) hostname, port = address_object[0].strip(), address_object[1] if family == AF_INET and sock_type == SOCK_DGRAM and hostname == "": hostname = INADDR_BROADCAST if hostname == "": if flags & AI_PASSIVE: hostname = {AF_INET: INADDR_ANY, AF_INET6: IN6ADDR_ANY_INIT}[family] else: hostname = "localhost" if isinstance(hostname, unicode): hostname = _encode_idna(hostname) addresses = getaddrinfo(hostname, port, family, sock_type, proto, flags) if len(addresses) == 0: raise gaierror(errno.EGETADDRINFOFAILED, 'getaddrinfo failed') return java.net.InetSocketAddress(addresses[0][4].jaddress, port) # Workaround for this (predominantly windows) issue # http://wiki.python.org/jython/NewSocketModule#IPV6_address_support _ipv4_addresses_only = False def _use_ipv4_addresses_only(value): global _ipv4_addresses_only _ipv4_addresses_only = value def _getaddrinfo_get_host(host, family, flags): if host is None: return host if not isinstance(host, basestring): raise TypeError("getaddrinfo() argument 1 must be string or None") if flags & AI_NUMERICHOST: if not is_ip_address(host): raise gaierror(EAI_NONAME, "Name or service not known") if family == AF_INET and not is_ipv4_address(host): raise gaierror(EAI_ADDRFAMILY, "Address family for hostname not supported") if family == AF_INET6 and not is_ipv6_address(host): raise gaierror(EAI_ADDRFAMILY, "Address family for hostname not supported") if isinstance(host, unicode): host = _encode_idna(host) return host def _getaddrinfo_get_port(port, flags): if isinstance(port, basestring): try: int_port = int(port) except ValueError: if flags & AI_NUMERICSERV: raise gaierror(EAI_NONAME, "Name or service not known") # Lookup the service by name try: int_port = getservbyname(port) except error: raise gaierror(EAI_SERVICE, "Servname not supported for ai_socktype") elif port is None: int_port = 0 elif not isinstance(port, (int, long)): raise error("Int or String expected") else: int_port = int(port) return int_port % 65536 def getaddrinfo(host, port, family=AF_INET, socktype=None, proto=0, flags=0): try: if _ipv4_addresses_only: family = AF_INET if not family in [AF_INET, AF_INET6, AF_UNSPEC]: raise gaierror(errno.EIO, 'ai_family not supported') host = _getaddrinfo_get_host(host, family, flags) port = _getaddrinfo_get_port(port, flags) filter_fns = [] filter_fns.append({ AF_INET: lambda x: isinstance(x, java.net.Inet4Address), AF_INET6: lambda x: isinstance(x, java.net.Inet6Address), AF_UNSPEC: lambda x: isinstance(x, java.net.InetAddress), }[family]) passive_mode = flags is not None and flags & AI_PASSIVE canonname_mode = flags is not None and flags & AI_CANONNAME results = [] for a in java.net.InetAddress.getAllByName(host): if len([f for f in filter_fns if f(a)]): family = {java.net.Inet4Address: AF_INET, java.net.Inet6Address: AF_INET6}[a.getClass()] if passive_mode and not canonname_mode: canonname = "" else: canonname = asPyString(a.getCanonicalHostName()) if host is None and passive_mode and not canonname_mode: sockaddr = INADDR_ANY else: sockaddr = asPyString(a.getHostAddress()) # TODO: Include flowinfo and scopeid in a 4-tuple for IPv6 addresses sock_tuple = {AF_INET : _ipv4_address_t, AF_INET6 : _ipv6_address_t}[family](sockaddr, port, a) results.append((family, socktype, proto, canonname, sock_tuple)) return results except java.lang.Exception, jlx: raise _map_exception(jlx) def _getnameinfo_get_host(address, flags): if not isinstance(address, basestring): raise TypeError("getnameinfo() address 1 must be string, not None") if isinstance(address, unicode): address = _encode_idna(address) jia = java.net.InetAddress.getByName(address) result = jia.getCanonicalHostName() if flags & NI_NAMEREQD: if is_ip_address(result): raise gaierror(EAI_NONAME, "Name or service not known") elif flags & NI_NUMERICHOST: result = jia.getHostAddress() # Ignoring NI_NOFQDN for now if flags & NI_IDN: result = _decode_idna(result, flags) return result def _getnameinfo_get_port(port, flags): if not isinstance(port, (int, long)): raise TypeError("getnameinfo() port number must be an integer") if flags & NI_NUMERICSERV: return port proto = None if flags & NI_DGRAM: proto = "udp" return getservbyport(port, proto) def getnameinfo(sock_addr, flags): if not isinstance(sock_addr, tuple) or len(sock_addr) < 2: raise TypeError("getnameinfo() argument 1 must be a tuple") host = _getnameinfo_get_host(sock_addr[0], flags) port = _getnameinfo_get_port(sock_addr[1], flags) return (host, port) def getdefaulttimeout(): return _defaulttimeout def _calctimeoutvalue(value): if value is None: return None try: floatvalue = float(value) except: raise TypeError('Socket timeout value must be a number or None') if floatvalue < 0.0: raise ValueError("Socket timeout value cannot be negative") if floatvalue < 0.000001: return 0.0 return floatvalue def setdefaulttimeout(timeout): global _defaulttimeout try: _defaulttimeout = _calctimeoutvalue(timeout) finally: _nonblocking_api_mixin.timeout = _defaulttimeout def htons(x): return x def htonl(x): return x def ntohs(x): return x def ntohl(x): return x def inet_pton(family, ip_string): try: if family == AF_INET: if not is_ipv4_address(ip_string): raise error("illegal IP address string passed to inet_pton") elif family == AF_INET6: if not is_ipv6_address(ip_string): raise error("illegal IP address string passed to inet_pton") else: raise error(errno.EAFNOSUPPORT, "Address family not supported by protocol") ia = java.net.InetAddress.getByName(ip_string) bytes = [] for byte in ia.getAddress(): if byte < 0: bytes.append(byte+256) else: bytes.append(byte) return "".join([chr(byte) for byte in bytes]) except java.lang.Exception, jlx: raise _map_exception(jlx) def inet_ntop(family, packed_ip): try: jByteArray = jarray.array(packed_ip, 'b') if family == AF_INET: if len(jByteArray) != 4: raise ValueError("invalid length of packed IP address string") elif family == AF_INET6: if len(jByteArray) != 16: raise ValueError("invalid length of packed IP address string") else: raise ValueError("unknown address family %s" % family) ia = java.net.InetAddress.getByAddress(jByteArray) return ia.getHostAddress() except java.lang.Exception, jlx: raise _map_exception(jlx) def inet_aton(ip_string): return inet_pton(AF_INET, ip_string) def inet_ntoa(packed_ip): return inet_ntop(AF_INET, packed_ip) class _nonblocking_api_mixin: mode = MODE_BLOCKING reference_count = 0 close_lock = threading.Lock() def __init__(self): self.timeout = _defaulttimeout if self.timeout is not None: self.mode = MODE_TIMEOUT self.pending_options = { (SOL_SOCKET, SO_REUSEADDR): 0, } def gettimeout(self): return self.timeout def settimeout(self, timeout): self.timeout = _calctimeoutvalue(timeout) if self.timeout is None: self.mode = MODE_BLOCKING elif self.timeout < 0.000001: self.mode = MODE_NONBLOCKING else: self.mode = MODE_TIMEOUT self._config() def setblocking(self, flag): if flag: self.mode = MODE_BLOCKING self.timeout = None else: self.mode = MODE_NONBLOCKING self.timeout = 0.0 self._config() def getblocking(self): return self.mode == MODE_BLOCKING def setsockopt(self, level, optname, value): try: if self.sock_impl: self.sock_impl.setsockopt(level, optname, value) else: self.pending_options[ (level, optname) ] = value except java.lang.Exception, jlx: raise _map_exception(jlx) def getsockopt(self, level, optname): try: if self.sock_impl: return self.sock_impl.getsockopt(level, optname) else: return self.pending_options.get( (level, optname), None) except java.lang.Exception, jlx: raise _map_exception(jlx) def shutdown(self, how): assert how in (SHUT_RD, SHUT_WR, SHUT_RDWR) if not self.sock_impl: raise error(errno.ENOTCONN, "Transport endpoint is not connected") try: self.sock_impl.shutdown(how) except java.lang.Exception, jlx: raise _map_exception(jlx) def close(self): try: if self.sock_impl: self.sock_impl.close() except java.lang.Exception, jlx: raise _map_exception(jlx) def getsockname(self): try: if self.sock_impl is None: # If the user has already bound an address, return that if self.local_addr: return self.local_addr # The user has not bound, connected or listened # This is what cpython raises in this scenario raise error(errno.EINVAL, "Invalid argument") return self.sock_impl.getsockname() except java.lang.Exception, jlx: raise _map_exception(jlx) def getpeername(self): try: if self.sock_impl is None: raise error(errno.ENOTCONN, "Socket is not connected") return self.sock_impl.getpeername() except java.lang.Exception, jlx: raise _map_exception(jlx) def _config(self): assert self.mode in _permitted_modes if self.sock_impl: self.sock_impl.config(self.mode, self.timeout) for level, optname in self.pending_options.keys(): if optname != SO_REUSEADDR: self.sock_impl.setsockopt(level, optname, self.pending_options[ (level, optname) ]) def getchannel(self): if not self.sock_impl: return None return self.sock_impl.getchannel() def fileno(self): if not self.sock_impl: return None return self.sock_impl.fileno() def _get_jsocket(self): return self.sock_impl.jsocket class _tcpsocket(_nonblocking_api_mixin): sock_impl = None istream = None ostream = None local_addr = None server = 0 def __init__(self): _nonblocking_api_mixin.__init__(self) def bind(self, addr): assert not self.sock_impl assert not self.local_addr # Do the address format check _get_jsockaddr(addr, self.family, self.type, self.proto, 0) self.local_addr = addr def listen(self, backlog): "This signifies a server socket" try: assert not self.sock_impl self.server = 1 self.sock_impl = _server_socket_impl(_get_jsockaddr(self.local_addr, self.family, self.type, self.proto, AI_PASSIVE), backlog, self.pending_options[ (SOL_SOCKET, SO_REUSEADDR) ]) self._config() except java.lang.Exception, jlx: raise _map_exception(jlx) def accept(self): "This signifies a server socket" try: if not self.sock_impl: self.listen() assert self.server new_sock = self.sock_impl.accept() if not new_sock: raise would_block_error() cliconn = _tcpsocket() cliconn.pending_options[ (SOL_SOCKET, SO_REUSEADDR) ] = new_sock.jsocket.getReuseAddress() cliconn.sock_impl = new_sock cliconn._setup() return cliconn, new_sock.getpeername() except java.lang.Exception, jlx: raise _map_exception(jlx) def _do_connect(self, addr): try: assert not self.sock_impl self.sock_impl = _client_socket_impl() if self.local_addr: # Has the socket been bound to a local address? self.sock_impl.bind(_get_jsockaddr(self.local_addr, self.family, self.type, self.proto, 0), self.pending_options[ (SOL_SOCKET, SO_REUSEADDR) ]) self._config() # Configure timeouts, etc, now that the socket exists self.sock_impl.connect(_get_jsockaddr(addr, self.family, self.type, self.proto, 0)) except java.lang.Exception, jlx: raise _map_exception(jlx) def connect(self, addr): "This signifies a client socket" self._do_connect(addr) self._setup() def connect_ex(self, addr): "This signifies a client socket" if not self.sock_impl: self._do_connect(addr) if self.sock_impl.finish_connect(): self._setup() if self.mode == MODE_NONBLOCKING: return errno.EISCONN return 0 return errno.EINPROGRESS def _setup(self): if self.mode != MODE_NONBLOCKING: self.istream = self.sock_impl.jsocket.getInputStream() self.ostream = self.sock_impl.jsocket.getOutputStream() def recv(self, n): try: if not self.sock_impl: raise error(errno.ENOTCONN, 'Socket is not connected') if self.sock_impl.jchannel.isConnectionPending(): self.sock_impl.jchannel.finishConnect() data = jarray.zeros(n, 'b') m = self.sock_impl.read(data) if m == -1:#indicates EOF has been reached, so we just return the empty string return "" elif m <= 0: if self.mode == MODE_NONBLOCKING: raise would_block_error() return "" if m < n: data = data[:m] return data.tostring() except java.lang.Exception, jlx: raise _map_exception(jlx) def recvfrom(self, n): return self.recv(n), None def send(self, s): try: if not self.sock_impl: raise error(errno.ENOTCONN, 'Socket is not connected') if self.sock_impl.jchannel.isConnectionPending(): self.sock_impl.jchannel.finishConnect() numwritten = self.sock_impl.write(s) if numwritten == 0 and self.mode == MODE_NONBLOCKING: raise would_block_error() return numwritten except java.lang.Exception, jlx: raise _map_exception(jlx) sendall = send def close(self): try: if self.istream: self.istream.close() if self.ostream: self.ostream.close() if self.sock_impl: self.sock_impl.close() except java.lang.Exception, jlx: raise _map_exception(jlx) class _udpsocket(_nonblocking_api_mixin): sock_impl = None connected = False local_addr = None def __init__(self): _nonblocking_api_mixin.__init__(self) def bind(self, addr): try: assert not self.sock_impl assert not self.local_addr # Do the address format check _get_jsockaddr(addr, self.family, self.type, self.proto, 0) self.local_addr = addr self.sock_impl = _datagram_socket_impl(_get_jsockaddr(self.local_addr, self.family, self.type, self.proto, AI_PASSIVE), self.pending_options[ (SOL_SOCKET, SO_REUSEADDR) ]) self._config() except java.lang.Exception, jlx: raise _map_exception(jlx) def _do_connect(self, addr): try: assert not self.connected, "Datagram Socket is already connected" if not self.sock_impl: self.sock_impl = _datagram_socket_impl() self._config() self.sock_impl.connect(_get_jsockaddr(addr, self.family, self.type, self.proto, 0)) self.connected = True except java.lang.Exception, jlx: raise _map_exception(jlx) def connect(self, addr): self._do_connect(addr) def connect_ex(self, addr): if not self.sock_impl: self._do_connect(addr) return 0 def sendto(self, data, p1, p2=None): try: if not p2: flags, addr = 0, p1 else: flags, addr = 0, p2 if not self.sock_impl: self.sock_impl = _datagram_socket_impl() self._config() byte_array = java.lang.String(data).getBytes('iso-8859-1') result = self.sock_impl.sendto(byte_array, _get_jsockaddr(addr, self.family, self.type, self.proto, 0), flags) return result except java.lang.Exception, jlx: raise _map_exception(jlx) def send(self, data, flags=None): if not self.connected: raise error(errno.ENOTCONN, "Socket is not connected") byte_array = java.lang.String(data).getBytes('iso-8859-1') return self.sock_impl.send(byte_array, flags) def recvfrom(self, num_bytes, flags=None): """ There is some disagreement as to what the behaviour should be if a recvfrom operation is requested on an unbound socket. See the following links for more information http://bugs.jython.org/issue1005 http://bugs.sun.com/view_bug.do?bug_id=6621689 """ try: # This is the old 2.1 behaviour #assert self.sock_impl # This is amak's preferred interpretation #raise error(errno.ENOTCONN, "Recvfrom on unbound udp socket meaningless operation") # And this is the option for cpython compatibility if not self.sock_impl: self.sock_impl = _datagram_socket_impl() self._config() return self.sock_impl.recvfrom(num_bytes, flags) except java.lang.Exception, jlx: raise _map_exception(jlx) def recv(self, num_bytes, flags=None): if not self.sock_impl: raise error(errno.ENOTCONN, "Socket is not connected") try: return self.sock_impl.recv(num_bytes, flags) except java.lang.Exception, jlx: raise _map_exception(jlx) def __del__(self): self.close() _socketmethods = ( 'bind', 'connect', 'connect_ex', 'fileno', 'listen', 'getpeername', 'getsockname', 'getsockopt', 'setsockopt', 'sendall', 'setblocking', 'settimeout', 'gettimeout', 'shutdown', 'getchannel') # All the method names that must be delegated to either the real socket # object or the _closedsocket object. _delegate_methods = ("recv", "recvfrom", "recv_into", "recvfrom_into", "send", "sendto") class _closedsocket(object): __slots__ = [] def _dummy(*args): raise error(errno.EBADF, 'Bad file descriptor') # All _delegate_methods must also be initialized here. send = recv = recv_into = sendto = recvfrom = recvfrom_into = _dummy __getattr__ = _dummy _active_sockets = set() def _closeActiveSockets(): for socket in _active_sockets.copy(): try: socket.close() except error: msg = 'Problem closing socket: %s: %r' % (socket, sys.exc_info()) print >> sys.stderr, msg class _socketobject(object): __doc__ = _realsocket.__doc__ __slots__ = ["_sock", "__weakref__"] + list(_delegate_methods) def __init__(self, family=AF_INET, type=SOCK_STREAM, proto=0, _sock=None): if _sock is None: _sock = _realsocket(family, type, proto) _sock.reference_count += 1 elif isinstance(_sock, _nonblocking_api_mixin): _sock.reference_count += 1 self._sock = _sock for method in _delegate_methods: meth = getattr(_sock, method, None) if meth: setattr(self, method, meth) _active_sockets.add(self) def close(self): try: _active_sockets.remove(self) except KeyError: pass _sock = self._sock if isinstance(_sock, _nonblocking_api_mixin): _sock.close_lock.acquire() try: _sock.reference_count -=1 if not _sock.reference_count: _sock.close() self._sock = _closedsocket() dummy = self._sock._dummy for method in _delegate_methods: setattr(self, method, dummy) self.send = self.recv = self.sendto = self.recvfrom = \ self._sock._dummy finally: _sock.close_lock.release() #close.__doc__ = _realsocket.close.__doc__ def accept(self): sock, addr = self._sock.accept() return _socketobject(_sock=sock), addr #accept.__doc__ = _realsocket.accept.__doc__ def dup(self): """dup() -> socket object Return a new socket object connected to the same system resource.""" _sock = self._sock if not isinstance(_sock, _nonblocking_api_mixin): return _socketobject(_sock=_sock) _sock.close_lock.acquire() try: duped = _socketobject(_sock=_sock) finally: _sock.close_lock.release() return duped def makefile(self, mode='r', bufsize=-1): """makefile([mode[, bufsize]]) -> file object Return a regular file object corresponding to the socket. The mode and bufsize arguments are as for the built-in open() function.""" _sock = self._sock if not isinstance(_sock, _nonblocking_api_mixin): return _fileobject(_sock, mode, bufsize) _sock.close_lock.acquire() try: fileobject = _fileobject(_sock, mode, bufsize) finally: _sock.close_lock.release() return fileobject family = property(lambda self: self._sock.family, doc="the socket family") type = property(lambda self: self._sock.type, doc="the socket type") proto = property(lambda self: self._sock.proto, doc="the socket protocol") _s = ("def %s(self, *args): return self._sock.%s(*args)\n\n" #"%s.__doc__ = _realsocket.%s.__doc__\n") ) for _m in _socketmethods: #exec _s % (_m, _m, _m, _m) exec _s % (_m, _m) del _m, _s socket = SocketType = _socketobject class _fileobject(object): """Faux file object attached to a socket object.""" default_bufsize = 8192 name = "" __slots__ = ["mode", "bufsize", "softspace", # "closed" is a property, see below "_sock", "_rbufsize", "_wbufsize", "_rbuf", "_wbuf", "_close"] def __init__(self, sock, mode='rb', bufsize=-1, close=False): self._sock = sock if isinstance(sock, _nonblocking_api_mixin): sock.reference_count += 1 self.mode = mode # Not actually used in this version if bufsize < 0: bufsize = self.default_bufsize self.bufsize = bufsize self.softspace = False if bufsize == 0: self._rbufsize = 1 elif bufsize == 1: self._rbufsize = self.default_bufsize else: self._rbufsize = bufsize self._wbufsize = bufsize self._rbuf = "" # A string self._wbuf = [] # A list of strings self._close = close def _getclosed(self): return self._sock is None closed = property(_getclosed, doc="True if the file is closed") def close(self): try: if self._sock: self.flush() finally: if self._sock: if isinstance(self._sock, _nonblocking_api_mixin): self._sock.reference_count -= 1 if not self._sock.reference_count or self._close: self._sock.close() elif self._close: self._sock.close() self._sock = None def __del__(self): try: self.close() except: # close() may fail if __init__ didn't complete pass def flush(self): if self._wbuf: buffer = "".join(self._wbuf) self._wbuf = [] self._sock.sendall(buffer) def fileno(self): return self._sock.fileno() def write(self, data): data = str(data) # XXX Should really reject non-string non-buffers if not data: return self._wbuf.append(data) if (self._wbufsize == 0 or self._wbufsize == 1 and '\n' in data or self._get_wbuf_len() >= self._wbufsize): self.flush() def writelines(self, list): # XXX We could do better here for very long lists # XXX Should really reject non-string non-buffers self._wbuf.extend(filter(None, map(str, list))) if (self._wbufsize <= 1 or self._get_wbuf_len() >= self._wbufsize): self.flush() def _get_wbuf_len(self): buf_len = 0 for x in self._wbuf: buf_len += len(x) return buf_len def read(self, size=-1): data = self._rbuf if size < 0: # Read until EOF buffers = [] if data: buffers.append(data) self._rbuf = "" if self._rbufsize <= 1: recv_size = self.default_bufsize else: recv_size = self._rbufsize while True: data = self._sock.recv(recv_size) if not data: break buffers.append(data) return "".join(buffers) else: # Read until size bytes or EOF seen, whichever comes first buf_len = len(data) if buf_len >= size: self._rbuf = data[size:] return data[:size] buffers = [] if data: buffers.append(data) self._rbuf = "" while True: left = size - buf_len recv_size = max(self._rbufsize, left) data = self._sock.recv(recv_size) if not data: break buffers.append(data) n = len(data) if n >= left: self._rbuf = data[left:] buffers[-1] = data[:left] break buf_len += n return "".join(buffers) def readline(self, size=-1): data = self._rbuf if size < 0: # Read until \n or EOF, whichever comes first if self._rbufsize <= 1: # Speed up unbuffered case assert data == "" buffers = [] recv = self._sock.recv while data != "\n": data = recv(1) if not data: break buffers.append(data) return "".join(buffers) nl = data.find('\n') if nl >= 0: nl += 1 self._rbuf = data[nl:] return data[:nl] buffers = [] if data: buffers.append(data) self._rbuf = "" while True: data = self._sock.recv(self._rbufsize) if not data: break buffers.append(data) nl = data.find('\n') if nl >= 0: nl += 1 self._rbuf = data[nl:] buffers[-1] = data[:nl] break return "".join(buffers) else: # Read until size bytes or \n or EOF seen, whichever comes first nl = data.find('\n', 0, size) if nl >= 0: nl += 1 self._rbuf = data[nl:] return data[:nl] buf_len = len(data) if buf_len >= size: self._rbuf = data[size:] return data[:size] buffers = [] if data: buffers.append(data) self._rbuf = "" while True: data = self._sock.recv(self._rbufsize) if not data: break buffers.append(data) left = size - buf_len nl = data.find('\n', 0, left) if nl >= 0: nl += 1 self._rbuf = data[nl:] buffers[-1] = data[:nl] break n = len(data) if n >= left: self._rbuf = data[left:] buffers[-1] = data[:left] break buf_len += n return "".join(buffers) def readlines(self, sizehint=0): total = 0 list = [] while True: line = self.readline() if not line: break list.append(line) total += len(line) if sizehint and total >= sizehint: break return list # Iterator protocols def __iter__(self): return self def next(self): line = self.readline() if not line: raise StopIteration return line _GLOBAL_DEFAULT_TIMEOUT = object() def create_connection(address, timeout=_GLOBAL_DEFAULT_TIMEOUT): """Connect to *address* and return the socket object. Convenience function. Connect to *address* (a 2-tuple ``(host, port)``) and return the socket object. Passing the optional *timeout* parameter will set the timeout on the socket instance before attempting to connect. If no *timeout* is supplied, the global default timeout setting returned by :func:`getdefaulttimeout` is used. """ msg = "getaddrinfo returns an empty list" host, port = address for res in getaddrinfo(host, port, 0, SOCK_STREAM): af, socktype, proto, canonname, sa = res sock = None try: sock = socket(af, socktype, proto) if timeout is not _GLOBAL_DEFAULT_TIMEOUT: sock.settimeout(timeout) sock.connect(sa) return sock except error, msg: if sock is not None: sock.close() raise error, msg # Define the SSL support class ssl: def __init__(self, plain_sock, keyfile=None, certfile=None): try: self.ssl_sock = self._make_ssl_socket(plain_sock) self._in_buf = java.io.BufferedInputStream(self.ssl_sock.getInputStream()) self._out_buf = java.io.BufferedOutputStream(self.ssl_sock.getOutputStream()) except java.lang.Exception, jlx: raise _map_exception(jlx) def _make_ssl_socket(self, plain_socket, auto_close=0): java_net_socket = plain_socket._get_jsocket() assert isinstance(java_net_socket, java.net.Socket) host = java_net_socket.getInetAddress().getHostAddress() port = java_net_socket.getPort() factory = javax.net.ssl.SSLSocketFactory.getDefault(); ssl_socket = factory.createSocket(java_net_socket, host, port, auto_close) ssl_socket.setEnabledCipherSuites(ssl_socket.getSupportedCipherSuites()) ssl_socket.startHandshake() return ssl_socket def read(self, n=4096): try: data = jarray.zeros(n, 'b') m = self._in_buf.read(data, 0, n) if m <= 0: return "" if m < n: data = data[:m] return data.tostring() except java.lang.Exception, jlx: raise _map_exception(jlx) def write(self, s): try: self._out_buf.write(s) self._out_buf.flush() return len(s) except java.lang.Exception, jlx: raise _map_exception(jlx) def _get_server_cert(self): try: return self.ssl_sock.getSession().getPeerCertificates()[0] except java.lang.Exception, jlx: raise _map_exception(jlx) def server(self): cert = self._get_server_cert() return cert.getSubjectDN().toString() def issuer(self): cert = self._get_server_cert() return cert.getIssuerDN().toString() _realssl = ssl def ssl(sock, keyfile=None, certfile=None): if hasattr(sock, "_sock"): sock = sock._sock return _realssl(sock, keyfile, certfile) def test(): s = socket(AF_INET, SOCK_STREAM) s.connect(("", 80)) s.send("GET / HTTP/1.0\r\n\r\n") while 1: data = s.recv(2000) print data if not data: break if __name__ == '__main__': test()