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Direktori : /proc/self/root/usr/lib64/python2.7/site-packages/M2Crypto/SSL/ |
Current File : //proc/self/root/usr/lib64/python2.7/site-packages/M2Crypto/SSL/Connection.py |
"""SSL Connection aka socket Copyright (c) 1999-2004 Ng Pheng Siong. All rights reserved. Portions created by Open Source Applications Foundation (OSAF) are Copyright (C) 2004-2007 OSAF. All Rights Reserved. Copyright 2008 Heikki Toivonen. All rights reserved. """ __all__ = ['Connection', 'timeout', # XXX Not really, but for documentation purposes ] # Python import socket # M2Crypto from Cipher import Cipher, Cipher_Stack from Session import Session from M2Crypto import BIO, X509, m2 import timeout import Checker #SSLError = getattr(__import__('M2Crypto.SSL', globals(), locals(), 'SSLError'), 'SSLError') from M2Crypto.SSL import SSLError def _serverPostConnectionCheck(*args, **kw): return 1 class Connection: """An SSL connection.""" clientPostConnectionCheck = Checker.Checker() serverPostConnectionCheck = _serverPostConnectionCheck m2_bio_free = m2.bio_free m2_ssl_free = m2.ssl_free def __init__(self, ctx, sock=None, family=socket.AF_INET): self.ctx = ctx self.ssl = m2.ssl_new(self.ctx.ctx) if sock is not None: self.socket = sock else: self.socket = socket.socket(family, socket.SOCK_STREAM) self.socket.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1) self._fileno = self.socket.fileno() self._timeout = self.socket.gettimeout() if self._timeout is None: self._timeout = -1.0 self.ssl_close_flag = m2.bio_noclose if self.ctx.post_connection_check is not None: self.set_post_connection_check_callback \ (self.ctx.post_connection_check) def __del__(self): if getattr(self, 'sslbio', None): self.m2_bio_free(self.sslbio) if getattr(self, 'sockbio', None): self.m2_bio_free(self.sockbio) if self.ssl_close_flag == m2.bio_noclose and getattr(self, 'ssl', None): self.m2_ssl_free(self.ssl) self.socket.close() def close(self): m2.ssl_shutdown(self.ssl) def clear(self): """ If there were errors in this connection, call clear() rather than close() to end it, so that bad sessions will be cleared from cache. """ return m2.ssl_clear(self.ssl) def set_shutdown(self, mode): m2.ssl_set_shutdown1(self.ssl, mode) def get_shutdown(self): return m2.ssl_get_shutdown(self.ssl) def bind(self, addr): self.socket.bind(addr) def listen(self, qlen=5): self.socket.listen(qlen) def ssl_get_error(self, ret): return m2.ssl_get_error(self.ssl, ret) def set_bio(self, readbio, writebio): """ Explicitly set read and write bios """ m2.ssl_set_bio(self.ssl, readbio._ptr(), writebio._ptr()) def set_client_CA_list_from_file(self, cafile): """ Set the acceptable client CA list. If the client returns a certificate, it must have been issued by one of the CAs listed in cafile. Makes sense only for servers. @param cafile: Filename from which to load the CA list. """ m2.ssl_set_client_CA_list_from_file(self.ssl, cafile) def set_client_CA_list_from_context(self): """ Set the acceptable client CA list. If the client returns a certificate, it must have been issued by one of the CAs listed in context. Makes sense only for servers. """ m2.ssl_set_client_CA_list_from_context(self.ssl, self.ctx.ctx) def setup_addr(self, addr): self.addr = addr def set_ssl_close_flag(self, flag): """ By default, SSL struct will be freed in __del__. Call with m2.bio_close to override this default. """ if flag not in (m2.bio_close, m2.bio_noclose): raise ValueError("flag must be m2.bio_close or m2.bio_noclose") self.ssl_close_flag = flag def setup_ssl(self): # Make a BIO_s_socket. self.sockbio = m2.bio_new_socket(self.socket.fileno(), 0) # Link SSL struct with the BIO_socket. m2.ssl_set_bio(self.ssl, self.sockbio, self.sockbio) # Make a BIO_f_ssl. self.sslbio = m2.bio_new(m2.bio_f_ssl()) # Link BIO_f_ssl with the SSL struct. m2.bio_set_ssl(self.sslbio, self.ssl, m2.bio_noclose) def _setup_ssl(self, addr): """Deprecated""" self.setup_addr(addr) self.setup_ssl() def set_accept_state(self): m2.ssl_set_accept_state(self.ssl) def accept_ssl(self): return m2.ssl_accept(self.ssl, self._timeout) def accept(self): """Accept an SSL connection. The return value is a pair (ssl, addr) where ssl is a new SSL connection object and addr is the address bound to the other end of the SSL connection.""" sock, addr = self.socket.accept() ssl = Connection(self.ctx, sock) ssl.addr = addr ssl.setup_ssl() ssl.set_accept_state() ssl.accept_ssl() check = getattr(self, 'postConnectionCheck', self.serverPostConnectionCheck) if check is not None: if not check(ssl.get_peer_cert(), ssl.addr[0]): raise Checker.SSLVerificationError, 'post connection check failed' return ssl, addr def set_connect_state(self): m2.ssl_set_connect_state(self.ssl) def connect_ssl(self): return m2.ssl_connect(self.ssl, self._timeout) def connect(self, addr): self.socket.connect(addr) self.addr = addr self.setup_ssl() self.set_connect_state() ret = self.connect_ssl() check = getattr(self, 'postConnectionCheck', self.clientPostConnectionCheck) if check is not None: if not check(self.get_peer_cert(), self.addr[0]): raise Checker.SSLVerificationError, 'post connection check failed' return ret def shutdown(self, how): m2.ssl_set_shutdown(self.ssl, how) def renegotiate(self): """Renegotiate this connection's SSL parameters.""" return m2.ssl_renegotiate(self.ssl) def pending(self): """Return the numbers of octets that can be read from the connection.""" return m2.ssl_pending(self.ssl) def _write_bio(self, data): return m2.ssl_write(self.ssl, data, self._timeout) def _write_nbio(self, data): return m2.ssl_write_nbio(self.ssl, data) def _read_bio(self, size=1024): if size <= 0: raise ValueError, 'size <= 0' return m2.ssl_read(self.ssl, size, self._timeout) def _read_nbio(self, size=1024): if size <= 0: raise ValueError, 'size <= 0' return m2.ssl_read_nbio(self.ssl, size) def write(self, data): if self._timeout != 0.0: return self._write_bio(data) return self._write_nbio(data) sendall = send = write def read(self, size=1024): if self._timeout != 0.0: return self._read_bio(size) return self._read_nbio(size) recv = read def setblocking(self, mode): """Set this connection's underlying socket to _mode_.""" self.socket.setblocking(mode) if mode: self._timeout = -1.0 else: self._timeout = 0.0 def settimeout(self, timeout): """Set this connection's underlying socket's timeout to _timeout_.""" self.socket.settimeout(timeout) self._timeout = timeout if self._timeout is None: self._timeout = -1.0 def fileno(self): return self.socket.fileno() def getsockopt(self, *args): return apply(self.socket.getsockopt, args) def setsockopt(self, *args): return apply(self.socket.setsockopt, args) def get_context(self): """Return the SSL.Context object associated with this connection.""" return m2.ssl_get_ssl_ctx(self.ssl) def get_state(self): """Return the SSL state of this connection.""" return m2.ssl_get_state(self.ssl) def verify_ok(self): return (m2.ssl_get_verify_result(self.ssl) == m2.X509_V_OK) def get_verify_mode(self): """Return the peer certificate verification mode.""" return m2.ssl_get_verify_mode(self.ssl) def get_verify_depth(self): """Return the peer certificate verification depth.""" return m2.ssl_get_verify_depth(self.ssl) def get_verify_result(self): """Return the peer certificate verification result.""" return m2.ssl_get_verify_result(self.ssl) def get_peer_cert(self): """Return the peer certificate; if the peer did not provide a certificate, return None.""" c=m2.ssl_get_peer_cert(self.ssl) if c is None: return None # Need to free the pointer coz OpenSSL doesn't. return X509.X509(c, 1) def get_peer_cert_chain(self): """Return the peer certificate chain; if the peer did not provide a certificate chain, return None. @warning: The returned chain will be valid only for as long as the connection object is alive. Once the connection object gets freed, the chain will be freed as well. """ c=m2.ssl_get_peer_cert_chain(self.ssl) if c is None: return None # No need to free the pointer coz OpenSSL does. return X509.X509_Stack(c) def get_cipher(self): """Return an M2Crypto.SSL.Cipher object for this connection; if the connection has not been initialised with a cipher suite, return None.""" c=m2.ssl_get_current_cipher(self.ssl) if c is None: return None return Cipher(c) def get_ciphers(self): """Return an M2Crypto.SSL.Cipher_Stack object for this connection; if the connection has not been initialised with cipher suites, return None.""" c=m2.ssl_get_ciphers(self.ssl) if c is None: return None return Cipher_Stack(c) def get_cipher_list(self, idx=0): """Return the cipher suites for this connection as a string object.""" return m2.ssl_get_cipher_list(self.ssl, idx) def set_cipher_list(self, cipher_list): """Set the cipher suites for this connection.""" return m2.ssl_set_cipher_list(self.ssl, cipher_list) def makefile(self, mode='rb', bufsize=-1): return socket._fileobject(self, mode, bufsize) def getsockname(self): return self.socket.getsockname() def getpeername(self): return self.socket.getpeername() def set_session_id_ctx(self, id): ret = m2.ssl_set_session_id_context(self.ssl, id) if not ret: raise SSLError(m2.err_reason_error_string(m2.err_get_error())) def get_session(self): sess = m2.ssl_get_session(self.ssl) return Session(sess) def set_session(self, session): m2.ssl_set_session(self.ssl, session._ptr()) def get_default_session_timeout(self): return m2.ssl_get_default_session_timeout(self.ssl) def get_socket_read_timeout(self): return timeout.struct_to_timeout(self.socket.getsockopt(socket.SOL_SOCKET, socket.SO_RCVTIMEO, timeout.struct_size())) def get_socket_write_timeout(self): return timeout.struct_to_timeout(self.socket.getsockopt(socket.SOL_SOCKET, socket.SO_SNDTIMEO, timeout.struct_size())) def set_socket_read_timeout(self, timeo): assert isinstance(timeo, timeout.timeout) self.socket.setsockopt(socket.SOL_SOCKET, socket.SO_RCVTIMEO, timeo.pack()) def set_socket_write_timeout(self, timeo): assert isinstance(timeo, timeout.timeout) self.socket.setsockopt(socket.SOL_SOCKET, socket.SO_SNDTIMEO, timeo.pack()) def get_version(self): "Return the TLS/SSL protocol version for this connection." return m2.ssl_get_version(self.ssl) def set_post_connection_check_callback(self, postConnectionCheck): self.postConnectionCheck = postConnectionCheck def set_tlsext_host_name(self, name): "Set the requested hostname for the SNI (Server Name Indication) extension" m2.ssl_set_tlsext_host_name(self.ssl, name)