#include "tao/IIOP_Connection_Handler.h" #if defined (TAO_HAS_IIOP) && (TAO_HAS_IIOP != 0) #include "tao/debug.h" #include "tao/ORB_Core.h" #include "tao/IIOP_Transport.h" #include "tao/IIOP_Endpoint.h" #include "tao/IIOPC.h" #include "tao/Thread_Lane_Resources.h" #include "tao/Base_Transport_Property.h" #include "tao/Protocols_Hooks.h" #include "tao/Wait_Strategy.h" #include "ace/os_include/netinet/os_tcp.h" #include "ace/os_include/os_netdb.h" ACE_RCSID (tao, IIOP_Connection_Handler, "$Id$") TAO_BEGIN_VERSIONED_NAMESPACE_DECL TAO_IIOP_Connection_Handler::TAO_IIOP_Connection_Handler (ACE_Thread_Manager *t) : TAO_IIOP_SVC_HANDLER (t, 0 , 0), TAO_Connection_Handler (0), dscp_codepoint_ (IPDSFIELD_DSCP_DEFAULT << 2) { // This constructor should *never* get called, it is just here to // make the compiler happy: the default implementation of the // Creation_Strategy requires a constructor with that signature, we // don't use that implementation, but some (most?) compilers // instantiate it anyway. ACE_ASSERT (0); } TAO_IIOP_Connection_Handler::TAO_IIOP_Connection_Handler ( TAO_ORB_Core *orb_core, CORBA::Boolean flag) : TAO_IIOP_SVC_HANDLER (orb_core->thr_mgr (), 0, 0), TAO_Connection_Handler (orb_core), dscp_codepoint_ (IPDSFIELD_DSCP_DEFAULT << 2) { TAO_IIOP_Transport* specific_transport = 0; ACE_NEW (specific_transport, TAO_IIOP_Transport (this, orb_core, flag)); // store this pointer (indirectly increment ref count) this->transport (specific_transport); } TAO_IIOP_Connection_Handler::TAO_IIOP_Connection_Handler (TAO_ORB_Core *orb_core) : TAO_IIOP_SVC_HANDLER (orb_core->thr_mgr (), 0, 0), TAO_Connection_Handler (orb_core), dscp_codepoint_ (IPDSFIELD_DSCP_DEFAULT << 2) { } TAO_IIOP_Connection_Handler::~TAO_IIOP_Connection_Handler (void) { delete this->transport (); } /* Copy hook that copies over the concrete methods from this class * to the base Connection_Handler class as a part of the specialization * process. Add all concrete and virtual * methods implemented in this class within this hook. */ //@@ CONNECTION_HANDLER_SPL_COPY_HOOK_START int TAO_IIOP_Connection_Handler::open_handler (void *v) { return this->open (v); } int TAO_IIOP_Connection_Handler::open (void*) { TAO_IIOP_Protocol_Properties protocol_properties; // Initialize values from ORB params. protocol_properties.send_buffer_size_ = this->orb_core ()->orb_params ()->sock_sndbuf_size (); protocol_properties.recv_buffer_size_ = this->orb_core ()->orb_params ()->sock_rcvbuf_size (); protocol_properties.no_delay_ = this->orb_core ()->orb_params ()->nodelay (); protocol_properties.keep_alive_ = this->orb_core ()->orb_params ()->sock_keepalive (); TAO_Protocols_Hooks *tph = this->orb_core ()->get_protocols_hooks (); bool const client = this->transport ()->opened_as () == TAO::TAO_CLIENT_ROLE; ACE_DECLARE_NEW_CORBA_ENV; ACE_TRY { if (client) { tph->client_protocol_properties_at_orb_level ( protocol_properties ACE_ENV_ARG_PARAMETER); ACE_TRY_CHECK; } else { tph->server_protocol_properties_at_orb_level ( protocol_properties ACE_ENV_ARG_PARAMETER); ACE_TRY_CHECK; } } ACE_CATCHANY { return -1; } ACE_ENDTRY; ACE_CHECK_RETURN (-1); if (this->set_socket_option (this->peer (), protocol_properties.send_buffer_size_, protocol_properties.recv_buffer_size_) == -1) return -1; #if !defined (ACE_LACKS_TCP_NODELAY) if (this->peer ().set_option (ACE_IPPROTO_TCP, TCP_NODELAY, (void *) &protocol_properties.no_delay_, sizeof (protocol_properties.no_delay_)) == -1) return -1; #endif /* ! ACE_LACKS_TCP_NODELAY */ if (protocol_properties.keep_alive_) { if (this->peer (). set_option (SOL_SOCKET, SO_KEEPALIVE, (void *) &protocol_properties.keep_alive_, sizeof (protocol_properties.keep_alive_)) == -1 && errno != ENOTSUP) { return -1; } } if (this->transport ()->wait_strategy ()->non_blocking () || this->transport ()->opened_as () == TAO::TAO_SERVER_ROLE) { if (this->peer ().enable (ACE_NONBLOCK) == -1) return -1; } // Called by the when the handler is // completely connected. ACE_INET_Addr remote_addr; if (this->peer ().get_remote_addr (remote_addr) == -1) return -1; ACE_INET_Addr local_addr; if (this->peer ().get_local_addr (local_addr) == -1) return -1; if (TAO_debug_level > 2) ACE_DEBUG ((LM_DEBUG, ACE_TEXT("TAO (%P|%t) - IIOP_Connection_Handler::open, ") ACE_TEXT("The local addr is <%s> \n"), local_addr. get_host_addr ())); if (local_addr == remote_addr) { if (TAO_debug_level > 0) { ACE_TCHAR remote_as_string[MAXHOSTNAMELEN + 16]; ACE_TCHAR local_as_string[MAXHOSTNAMELEN + 16]; (void) remote_addr.addr_to_string (remote_as_string, sizeof(remote_as_string)); (void) local_addr.addr_to_string (local_as_string, sizeof(local_as_string)); ACE_ERROR ((LM_ERROR, ACE_TEXT("TAO(%P|%t) - IIOP_Connection_Handler::open, ") ACE_TEXT("Holy Cow! The remote addr and ") ACE_TEXT("local addr are identical (%s == %s)\n"), remote_as_string, local_as_string)); } return -1; } #if defined (ACE_HAS_IPV6) && !defined (ACE_HAS_IPV6_V6ONLY) // Check if we need to invalidate accepted connections // from IPv4 mapped IPv6 addresses if (this->orb_core ()->orb_params ()->connect_ipv6_only () && remote_addr.is_ipv4_mapped_ipv6 ()) { if (TAO_debug_level > 0) { ACE_TCHAR remote_as_string[MAXHOSTNAMELEN + 16]; (void) remote_addr.addr_to_string (remote_as_string, sizeof(remote_as_string)); ACE_ERROR ((LM_WARNING, ACE_TEXT("TAO (%P|%t) - IIOP_Connection_Handler::open, ") ACE_TEXT("invalid connection from IPv4 mapped IPv6 interface <%s>!\n"), remote_as_string)); } return -1; } #endif /* ACE_HAS_IPV6 && ACE_HAS_IPV6_V6ONLY */ if (TAO_debug_level > 0) { ACE_TCHAR client_addr[MAXHOSTNAMELEN + 16]; // Verify that we can resolve the peer hostname. if (remote_addr.addr_to_string (client_addr, sizeof (client_addr)) == -1) return -1; ACE_DEBUG ((LM_DEBUG, ACE_TEXT ("TAO (%P|%t) - IIOP_Connection_Handler::open, IIOP ") ACE_TEXT ("connection to peer <%s> on %d\n"), client_addr, this->peer ().get_handle ())); } // Set that the transport is now connected, if fails we return -1 // Use C-style cast b/c otherwise we get warnings on lots of // compilers if (!this->transport ()->post_open ((size_t) this->get_handle ())) return -1; this->state_changed (TAO_LF_Event::LFS_SUCCESS, this->orb_core ()->leader_follower ()); return 0; } int TAO_IIOP_Connection_Handler::resume_handler (void) { return ACE_Event_Handler::ACE_APPLICATION_RESUMES_HANDLER; } int TAO_IIOP_Connection_Handler::close_connection (void) { // To maintain maximum compatibility, we only set this socket option // if the user has provided a linger timeout. int linger = this->orb_core()->orb_params()->linger (); if (linger != -1) { struct linger lval; lval.l_onoff = 1; lval.l_linger = (u_short)linger; if (this->peer ().set_option(SOL_SOCKET, SO_LINGER, (void*) &lval, sizeof (lval)) == -1) { if (TAO_debug_level) { ACE_DEBUG ((LM_DEBUG, ACE_TEXT ("TAO (%P|%t) Unable to set ") ACE_TEXT ("SO_LINGER on %d\n"), this->peer ().get_handle ())); } } } return this->close_connection_eh (this); } int TAO_IIOP_Connection_Handler::handle_input (ACE_HANDLE h) { return this->handle_input_eh (h, this); } int TAO_IIOP_Connection_Handler::handle_output (ACE_HANDLE handle) { const int result = this->handle_output_eh (handle, this); if (result == -1) { this->close_connection (); return 0; } return result; } int TAO_IIOP_Connection_Handler::handle_timeout (const ACE_Time_Value &, const void *) { // We don't use this upcall for I/O. This is only used by the // Connector to indicate that the connection timedout. Therefore, // we should call close(). return this->close (); } int TAO_IIOP_Connection_Handler::handle_close (ACE_HANDLE, ACE_Reactor_Mask) { ACE_ASSERT (0); return 0; } int TAO_IIOP_Connection_Handler::close (u_long) { return this->close_handler (); } int TAO_IIOP_Connection_Handler::release_os_resources (void) { return this->peer ().close (); } int TAO_IIOP_Connection_Handler::add_transport_to_cache (void) { ACE_INET_Addr addr; // Get the peername. if (this->peer ().get_remote_addr (addr) == -1) return -1; // Construct an IIOP_Endpoint object TAO_IIOP_Endpoint endpoint ( addr, this->orb_core()->orb_params()->cache_incoming_by_dotted_decimal_address ()); // Construct a property object TAO_Base_Transport_Property prop (&endpoint); TAO::Transport_Cache_Manager &cache = this->orb_core ()->lane_resources ().transport_cache (); // Idle the transport.. return cache.cache_idle_transport (&prop, this->transport ()); } int TAO_IIOP_Connection_Handler::process_listen_point_list ( IIOP::ListenPointList &listen_list) { // Get the size of the list const CORBA::ULong len = listen_list.length (); if (TAO_debug_level > 0 && len == 0) { ACE_ERROR ((LM_ERROR, ACE_TEXT("TAO (%P|%t) - IIOP_Connection_Handler::") ACE_TEXT("process_listen_point_list, ") ACE_TEXT("Received list of size 0, check client config.\n"))); } for (CORBA::ULong i = 0; i < len; ++i) { IIOP::ListenPoint listen_point = listen_list[i]; ACE_INET_Addr addr (listen_point.port, listen_point.host.in ()); if (TAO_debug_level > 0) { ACE_DEBUG ((LM_DEBUG, ACE_TEXT("TAO (%P|%t) - IIOP_Connection_Handler::") ACE_TEXT("process_listen_point_list, ") ACE_TEXT("Listening port [%d] on [%s]\n"), listen_point.port, ACE_TEXT_TO_TCHAR_IN(listen_point.host.in ()))); } // Construct an IIOP_Endpoint object using the host as provided // in the listen point list. We must use host in that form because // that's also how the ORB on the other side will advertise the host // in an IOR. TAO_IIOP_Endpoint endpoint (listen_point.host.in (), listen_point.port, addr); // Construct a property object TAO_Base_Transport_Property prop (&endpoint); // Mark the connection as bidirectional prop.set_bidir_flag (1); // The property for this handler has changed. Recache the // handler with this property int retval = this->transport ()->recache_transport (&prop); if (retval == -1) return retval; // Make the handler idle and ready for use this->transport ()->make_idle (); } return 0; } int TAO_IIOP_Connection_Handler::set_dscp_codepoint (CORBA::Boolean set_network_priority) { int tos = IPDSFIELD_DSCP_DEFAULT << 2; if (set_network_priority) { TAO_Protocols_Hooks *tph = this->orb_core ()->get_protocols_hooks (); CORBA::Long codepoint = tph->get_dscp_codepoint (); tos = static_cast (codepoint) << 2; } if (tos != this->dscp_codepoint_) { int result = 0; #if defined (ACE_HAS_IPV6) ACE_INET_Addr local_addr; if (this->peer ().get_local_addr (local_addr) == -1) return -1; else if (local_addr.get_type () == AF_INET6) # if !defined (IPV6_TCLASS) // IPv6 defines option IPV6_TCLASS for specifying traffic class/priority // but not many implementations yet (very new;-). { if (TAO_debug_level) { ACE_DEBUG ((LM_DEBUG, "TAO (%P|%t) - IIOP_Connection_Handler::" "set_dscp_codepoint -> IPV6_TCLASS not supported yet\n")); } return 0; } # else /* !IPV6_TCLASS */ result = this->peer ().set_option (IPPROTO_IPV6, IPV6_TCLASS, (int *) &tos , (int) sizeof (tos)); else # endif /* IPV6_TCLASS */ #endif /* ACE_HAS_IPV6 */ result = this->peer ().set_option (IPPROTO_IP, IP_TOS, (int *) &tos , (int) sizeof (tos)); if (TAO_debug_level) { ACE_DEBUG ((LM_DEBUG, "TAO (%P|%t) - IIOP_Connection_Handler::" "set_dscp_codepoint -> dscp: %x; result: %d; %s\n", tos, result, result == -1 ? "try running as superuser" : "")); } // On successful setting of TOS field. if (result == 0) this->dscp_codepoint_ = tos; } return 0; } //@@ CONNECTION_HANDLER_SPL_COPY_HOOK_END /* * End copy hook */ TAO_END_VERSIONED_NAMESPACE_DECL #endif /* TAO_HAS_IIOP && TAO_HAS_IIOP != 0 */