#include "SCIOP_Connector.h" #include "SCIOP_Profile.h" #if TAO_HAS_SCIOP == 1 #include "tao/debug.h" #include "tao/ORB_Core.h" #include "tao/Client_Strategy_Factory.h" #include "tao/Environment.h" #include "tao/Base_Transport_Property.h" #include "tao/Protocols_Hooks.h" #include "tao/Transport_Cache_Manager.h" #include "tao/Connect_Strategy.h" #include "tao/Thread_Lane_Resources.h" #include "tao/Transport.h" #include "tao/Wait_Strategy.h" #include "ace/OS_NS_strings.h" #include "ace/Strategies_T.h" ACE_RCSID (TAO, SCIOP_Connector, "$Id$") #if defined (ACE_HAS_EXPLICIT_TEMPLATE_INSTANTIATION) template class TAO_Connect_Concurrency_Strategy; template class TAO_Connect_Creation_Strategy; template class ACE_Strategy_Connector; template class ACE_Connect_Strategy; template class ACE_Connector_Base; template class ACE_Connector; template class ACE_Svc_Tuple; template class ACE_Map_Manager *, TAO_SYNCH_RW_MUTEX>; template class ACE_Map_Iterator_Base *, TAO_SYNCH_RW_MUTEX>; template class ACE_Map_Entry*>; template class ACE_Map_Iterator*,TAO_SYNCH_RW_MUTEX>; template class ACE_Map_Reverse_Iterator*,TAO_SYNCH_RW_MUTEX>; #elif defined (ACE_HAS_TEMPLATE_INSTANTIATION_PRAGMA) #pragma instantiate TAO_Connect_Concurrency_Strategy #pragma instantiate TAO_Connect_Creation_Strategy #pragma instantiate ACE_Strategy_Connector #pragma instantiate ACE_Connect_Strategy #pragma instantiate ACE_Connector_Base #pragma instantiate ACE_Connector #pragma instantiate ACE_Svc_Tuple #pragma instantiate ACE_Map_Manager *, TAO_SYNCH_RW_MUTEX> #pragma instantiate ACE_Map_Iterator_Base *, TAO_SYNCH_RW_MUTEX> #pragma instantiate ACE_Map_Entry*> #pragma instantiate ACE_Map_Iterator*,TAO_SYNCH_RW_MUTEX> #pragma instantiate ACE_Map_Reverse_Iterator*,TAO_SYNCH_RW_MUTEX> #endif /* ACE_HAS_EXPLICIT_TEMPLATE_INSTANTIATION */ TAO_SCIOP_Connector::TAO_SCIOP_Connector (CORBA::Boolean flag) : TAO_Connector (TAO_TAG_SCIOP_PROFILE), lite_flag_ (flag), connect_strategy_ (), base_connector_ () { } TAO_SCIOP_Connector::~TAO_SCIOP_Connector (void) { } int TAO_SCIOP_Connector::open (TAO_ORB_Core *orb_core) { // @@todo: The functionality of the following two statements could // be done in the constructor, but that involves changing the // interface of the pluggable transport factory. // Set the ORB Core this->orb_core (orb_core); // Create our connect strategy if (this->create_connect_strategy () == -1) return -1; if (this->init_tcp_properties () != 0) return -1; /// Our connect creation strategy TAO_SCIOP_CONNECT_CREATION_STRATEGY *connect_creation_strategy = 0; ACE_NEW_RETURN (connect_creation_strategy, TAO_SCIOP_CONNECT_CREATION_STRATEGY (orb_core->thr_mgr (), orb_core, &(this->tcp_properties_), this->lite_flag_), -1); /// Our activation strategy TAO_SCIOP_CONNECT_CONCURRENCY_STRATEGY *concurrency_strategy = 0; ACE_NEW_RETURN (concurrency_strategy, TAO_SCIOP_CONNECT_CONCURRENCY_STRATEGY (orb_core), -1); return this->base_connector_.open (this->orb_core ()->reactor (), connect_creation_strategy, &this->connect_strategy_, concurrency_strategy); } int TAO_SCIOP_Connector::close (void) { delete this->base_connector_.concurrency_strategy (); delete this->base_connector_.creation_strategy (); return this->base_connector_.close (); } int TAO_SCIOP_Connector::set_validate_endpoint (TAO_Endpoint *endpoint) { TAO_SCIOP_Endpoint *sciop_endpoint = this->remote_endpoint (endpoint); if (sciop_endpoint == 0) return -1; const ACE_INET_Addr &remote_address = sciop_endpoint->object_addr (); // Verify that the remote ACE_INET_Addr was initialized properly. // Failure can occur if hostname lookup failed when initializing the // remote ACE_INET_Addr. if (remote_address.get_type () != AF_INET) { if (TAO_debug_level > 0) { ACE_DEBUG ((LM_DEBUG, ACE_TEXT ("TAO (%P|%t) SCIOP connection failed.\n") ACE_TEXT ("TAO (%P|%t) This is most likely ") ACE_TEXT ("due to a hostname lookup ") ACE_TEXT ("failure.\n"))); } return -1; } return 0; } TAO_Transport * TAO_SCIOP_Connector::make_connection (TAO::Profile_Transport_Resolver *, TAO_Transport_Descriptor_Interface &desc, ACE_Time_Value *max_wait_time) { TAO_Endpoint *tao_endpoint = desc.endpoint (); TAO_Transport *transport = 0; while (tao_endpoint != 0) { TAO_SCIOP_Endpoint *sciop_endpoint = this->remote_endpoint (tao_endpoint); if (sciop_endpoint != 0) { transport = make_connection_i (desc, max_wait_time, sciop_endpoint); if (transport) { break; } } tao_endpoint = tao_endpoint->next(); } return transport; } TAO_Transport * TAO_SCIOP_Connector::make_connection_i (TAO_Transport_Descriptor_Interface &desc, ACE_Time_Value *max_wait_time, TAO_SCIOP_Endpoint *sciop_endpoint) { const ACE_INET_Addr &remote_address = sciop_endpoint->object_addr (); if (TAO_debug_level > 2) { ACE_DEBUG ((LM_DEBUG, "TAO (%P|%t) - SCIOP_Connector::make_connection_i, " "to <%s:%d>\n", sciop_endpoint->host(), sciop_endpoint->port())); } // Get the right synch options ACE_Synch_Options synch_options; this->active_connect_strategy_->synch_options (max_wait_time, synch_options); TAO_SCIOP_Connection_Handler *svc_handler = 0; // Connect. ACE_Multihomed_INET_Addr multihomed; if (multihomed.set(remote_address.get_port_number(), remote_address.get_ip_address())) return 0; int result = this->base_connector_.connect (svc_handler, multihomed, synch_options); // This call creates the service handler and bumps the #REFCOUNT# up // one extra. There are three possibilities: (a) connection // succeeds immediately - in this case, the #REFCOUNT# on the // handler is two; (b) connection completion is pending - in this // case, the #REFCOUNT# on the handler is also two; (c) connection // fails immediately - in this case, the #REFCOUNT# on the handler // is one since close() gets called on the handler. // // The extra reference count in // TAO_Connect_Creation_Strategy::make_svc_handler() is needed in // the case when connection completion is pending and we are going // to wait on a variable in the handler to changes, signifying // success or failure. Note, that this increment cannot be done // once the connect() returns since this might be too late if // another thread pick up the completion and potentially deletes the // handler before we get a chance to increment the reference count. // No immediate result. Wait for completion. if (result == -1 && errno == EWOULDBLOCK) { if (TAO_debug_level > 2) ACE_DEBUG ((LM_DEBUG, "TAO (%P|%t) - SCIOP_Connector::make_connection, " "going to wait for connection completion on local" "handle [%d]\n", svc_handler->get_handle ())); // Wait for connection completion. result = this->active_connect_strategy_->wait (svc_handler, max_wait_time); if (TAO_debug_level > 2) { ACE_DEBUG ((LM_DEBUG, "TAO (%P|%t) - SCIOP_Connector::make_connection" "wait done for handle[%d], result = %d\n", svc_handler->get_handle (), result)); } // There are three possibilities when wait() returns: (a) // connection succeeded; (b) connection failed; (c) wait() // failed because of some other error. It is easy to deal with // (a) and (b). (c) is tricky since the connection is still // pending and may get completed by some other thread. The // following code deals with (c). // Check if the handler has been closed. int closed = svc_handler->is_closed (); // In case of failures and close() has not be called. if (result == -1 && !closed) { // First, cancel from connector. this->base_connector_.cancel (svc_handler); // Double check to make sure the handler has not been closed // yet. This double check is required to ensure that the // connection handler was not closed yet by some other // thread since it was still registered with the connector. // Once connector.cancel() has been processed, we are // assured that the connector will no longer open/close this // handler. closed = svc_handler->is_closed (); // If closed, there is nothing to do here. If not closed, // it was either opened or is still pending. if (!closed) { // Check if the handler has been opened. int open = svc_handler->is_open (); // Some other thread was able to open the handler even // though wait failed for this thread. if (open) // Overwrite . result = 0; else { // Assert that it is still connecting. ACE_ASSERT (svc_handler->is_connecting ()); // Force close the handler now. svc_handler->close (); } } } } // Irrespective of success or failure, remove the extra #REFCOUNT#. svc_handler->remove_reference (); // In case of errors. if (result == -1) { // Give users a clue to the problem. if (TAO_debug_level) { ACE_DEBUG ((LM_ERROR, "TAO (%P|%t) - SCIOP_Connector::make_connection, " "connection to <%s:%d> failed (%p)\n", sciop_endpoint->host (), sciop_endpoint->port (), "errno")); } return 0; } // At this point, the connection has be successfully connected. // #REFCOUNT# is one. if (TAO_debug_level > 2) ACE_DEBUG ((LM_DEBUG, "TAO (%P|%t) - SCIOP_Connector::make_connection, " "new connection to <%s:%d> on Transport[%d]\n", sciop_endpoint->host (), sciop_endpoint->port (), svc_handler->peer ().get_handle ())); TAO_Transport *transport = svc_handler->transport (); // Add the handler to Cache int retval = this->orb_core ()->lane_resources ().transport_cache ().cache_transport (&desc, transport); // Failure in adding to cache. if (retval != 0) { // Close the handler. svc_handler->close (); if (TAO_debug_level > 0) { ACE_ERROR ((LM_ERROR, "TAO (%P|%t) - SCIOP_Connector::make_connection, " "could not add the new connection to cache\n")); } return 0; } // Registration failures. if (retval != 0) { // Purge from the connection cache. transport->purge_entry (); // Close the handler. svc_handler->close (); if (TAO_debug_level > 0) { ACE_ERROR ((LM_ERROR, "TAO (%P|%t) - SCIOP_Connector::make_connection, " "could not register the new connection in the reactor\n")); } return 0; } return transport; } TAO_Profile * TAO_SCIOP_Connector::create_profile (TAO_InputCDR& cdr) { TAO_Profile *pfile; ACE_NEW_RETURN (pfile, TAO_SCIOP_Profile (this->orb_core ()), 0); int r = pfile->decode (cdr); if (r == -1) { pfile->_decr_refcnt (); pfile = 0; } return pfile; } TAO_Profile * TAO_SCIOP_Connector::make_profile (ACE_ENV_SINGLE_ARG_DECL) { // The endpoint should be of the form: // N.n@host:port/object_key // or: // host:port/object_key TAO_Profile *profile = 0; ACE_NEW_THROW_EX (profile, TAO_SCIOP_Profile (this->orb_core ()), CORBA::NO_MEMORY ( CORBA::SystemException::_tao_minor_code ( TAO_DEFAULT_MINOR_CODE, ENOMEM), CORBA::COMPLETED_NO)); ACE_CHECK_RETURN (0); return profile; } int TAO_SCIOP_Connector::check_prefix (const char *endpoint) { // Check for a valid string if (!endpoint || !*endpoint) return -1; // Failure const char *protocol[] = { "sciop", "scioploc" }; size_t slot = ACE_OS::strchr (endpoint, ':') - endpoint; size_t len0 = ACE_OS::strlen (protocol[0]); size_t len1 = ACE_OS::strlen (protocol[1]); // Check for the proper prefix in the IOR. If the proper prefix // isn't in the IOR then it is not an IOR we can use. if (slot == len0 && ACE_OS::strncasecmp (endpoint, protocol[0], len0) == 0) return 0; else if (slot == len1 && ACE_OS::strncasecmp (endpoint, protocol[1], len1) == 0) return 0; return -1; // Failure: not an SCIOP IOR // DO NOT throw an exception here. } char TAO_SCIOP_Connector::object_key_delimiter (void) const { return TAO_SCIOP_Profile::object_key_delimiter_; } int TAO_SCIOP_Connector::init_tcp_properties (void) { // Connector protocol properties are obtained from ORB-level // RTCORBA::ClientProtocolProperties policy override. // If the override doesn't exist or doesn't contain the // properties, we use ORB default. // // Currently, we do not use Object-level and Current-level policy // overrides for protocol configuration because connection // lookup and caching are not done based on protocol // properties. ACE_DECLARE_NEW_CORBA_ENV; // Initialize the settings to the ORB defaults. If RT CORBA is enabled, // it may override these. int send_buffer_size = this->orb_core ()->orb_params ()->sock_sndbuf_size (); int recv_buffer_size = this->orb_core ()->orb_params ()->sock_rcvbuf_size (); int no_delay = this->orb_core ()->orb_params ()->nodelay (); int enable_network_priority = 0; TAO_Protocols_Hooks *tph = this->orb_core ()->get_protocols_hooks (ACE_ENV_SINGLE_ARG_PARAMETER); ACE_CHECK_RETURN (-1); if (tph != 0) { const char protocol [] = "sciop"; const char *protocol_type = protocol; int hook_result = tph->call_client_protocols_hook (send_buffer_size, recv_buffer_size, no_delay, enable_network_priority, protocol_type); if(hook_result == -1) return -1; } // Extract and locally store properties of interest. this->tcp_properties_.send_buffer_size = send_buffer_size; this->tcp_properties_.recv_buffer_size = recv_buffer_size; this->tcp_properties_.no_delay = no_delay; this->tcp_properties_.enable_network_priority = enable_network_priority; return 0; } TAO_SCIOP_Endpoint * TAO_SCIOP_Connector::remote_endpoint (TAO_Endpoint *endpoint) { if (endpoint->tag () != TAO_TAG_SCIOP_PROFILE) return 0; TAO_SCIOP_Endpoint *sciop_endpoint = ACE_dynamic_cast (TAO_SCIOP_Endpoint *, endpoint ); if (sciop_endpoint == 0) return 0; return sciop_endpoint; } #endif /* TAO_HAS_SCIOP == 1 */