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#include "IIOP_Transport.h"
#include "IIOP_Acceptor.h"
#include "IIOPC.h"
#include "Acceptor_Registry.h"
#include "operation_details.h"
#include "Wait_Strategy.h"
#include "debug.h"
#include "GIOP_Message_Base.h"
#include "Protocols_Hooks.h"
#include "ORB_Core.h"
#include "Thread_Lane_Resources.h"
#include "Transport_Mux_Strategy.h"
ACE_RCSID (tao,
IIOP_Transport,
"$Id$")
TAO_BEGIN_VERSIONED_NAMESPACE_DECL
TAO_IIOP_Transport::TAO_IIOP_Transport (TAO_IIOP_Connection_Handler *handler,
TAO_ORB_Core *orb_core,
CORBA::Boolean )
: TAO_Transport (IOP::TAG_INTERNET_IOP,
orb_core)
, connection_handler_ (handler)
, messaging_object_ (0)
{
// Use the normal GIOP object
ACE_NEW (this->messaging_object_,
TAO_GIOP_Message_Base (orb_core));
}
TAO_IIOP_Transport::~TAO_IIOP_Transport (void)
{
delete this->messaging_object_;
}
/*
* Hook to copy over all concrete implementations
* of Transport class from this class to the base
* class as a part of the specialization.
* All enhancements to the IIOP_Transport
* class, i.e., addition of new concrete non virtual
* methods should be added within this hook.
*/
//@@ TAO_TRANSPORT_SPL_COPY_HOOK_START
ACE_Event_Handler *
TAO_IIOP_Transport::event_handler_i (void)
{
return this->connection_handler_;
}
TAO_Connection_Handler *
TAO_IIOP_Transport::connection_handler_i (void)
{
return this->connection_handler_;
}
TAO_Pluggable_Messaging *
TAO_IIOP_Transport::messaging_object (void)
{
return this->messaging_object_;
}
ssize_t
TAO_IIOP_Transport::send (iovec *iov, int iovcnt,
size_t &bytes_transferred,
const ACE_Time_Value *max_wait_time)
{
ssize_t retval = this->connection_handler_->peer ().sendv (iov, iovcnt,
max_wait_time);
if (retval > 0)
bytes_transferred = retval;
else
{
if (TAO_debug_level > 4)
{
ACE_DEBUG ((LM_DEBUG,
ACE_TEXT ("TAO (%P|%t) - IIOP_Transport[%d]::send, ")
ACE_TEXT ("send failure - %m (errno: %d)\n"),
this->id (), errno));
}
}
return retval;
}
ssize_t
TAO_IIOP_Transport::recv (char *buf,
size_t len,
const ACE_Time_Value *max_wait_time)
{
ssize_t n = this->connection_handler_->peer ().recv (buf,
len,
max_wait_time);
// Do not print the error message if it is a timeout, which could
// occur in thread-per-connection.
if (n == -1 &&
TAO_debug_level > 4 &&
errno != ETIME)
{
ACE_DEBUG ((LM_DEBUG,
ACE_TEXT ("TAO (%P|%t) - IIOP_Transport[%d]::recv_i, ")
ACE_TEXT ("read failure - %m\n"),
this->id ()));
}
// Error handling
if (n == -1)
{
if (errno == EWOULDBLOCK)
return 0;
return -1;
}
// Most of the errors handling is common for
// Now the message has been read
// @@ What are the other error handling here??
else if (n == 0)
{
return -1;
}
return n;
}
int
TAO_IIOP_Transport::send_request (TAO_Stub *stub,
TAO_ORB_Core *orb_core,
TAO_OutputCDR &stream,
int message_semantics,
ACE_Time_Value *max_wait_time)
{
if (this->ws_->sending_request (orb_core,
message_semantics) == -1)
return -1;
if (this->send_message (stream,
stub,
message_semantics,
max_wait_time) == -1)
return -1;
this->first_request_sent();
return 0;
}
int
TAO_IIOP_Transport::send_message (TAO_OutputCDR &stream,
TAO_Stub *stub,
int message_semantics,
ACE_Time_Value *max_wait_time)
{
// Format the message in the stream first
if (this->messaging_object_->format_message (stream) != 0)
return -1;
// This guarantees to send all data (bytes) or return an error.
const ssize_t n = this->send_message_shared (stub,
message_semantics,
stream.begin (),
max_wait_time);
if (n == -1)
{
// Dont try to be smart and request for %p in the debug
// statement. If the event handler is destroyed the transport
// would return -1 with errno set to ENOENT. %p then would dump
// a core. %m would then be softer on this.
if (TAO_debug_level)
ACE_DEBUG ((LM_DEBUG,
ACE_TEXT ("TAO (%P|%t) - IIOP_Transport[%d]::send_message, ")
ACE_TEXT ("write failure - %m\n"),
this->id ()));
return -1;
}
return 1;
}
int
TAO_IIOP_Transport::send_message_shared (
TAO_Stub *stub,
int message_semantics,
const ACE_Message_Block *message_block,
ACE_Time_Value *max_wait_time)
{
int r;
{
ACE_GUARD_RETURN (ACE_Lock, ace_mon, *this->handler_lock_, -1);
r = this->send_message_shared_i (stub, message_semantics,
message_block, max_wait_time);
}
if (r == -1)
{
this->close_connection ();
}
return r;
}
int
TAO_IIOP_Transport::generate_request_header (TAO_Operation_Details &opdetails,
TAO_Target_Specification &spec,
TAO_OutputCDR &msg)
{
// Check whether we have a Bi Dir IIOP policy set, whether the
// messaging objects are ready to handle bidirectional connections
// and also make sure that we have not recd. or sent any information
// regarding this before...
if (this->orb_core ()->bidir_giop_policy () &&
this->messaging_object_->is_ready_for_bidirectional (msg) &&
this->bidirectional_flag () < 0)
{
this->set_bidir_context_info (opdetails);
// Set the flag to 1 (i.e., originating side)
this->bidirectional_flag (1);
// At the moment we enable BiDIR giop we have to get a new
// request id to make sure that we follow the even/odd rule
// for request id's. We only need to do this when enabled
// it, after that the Transport Mux Strategy will make sure
// that the rule is followed
opdetails.request_id (this->tms ()->request_id ());
}
return TAO_Transport::generate_request_header (opdetails,
spec,
msg);
}
int
TAO_IIOP_Transport::messaging_init (CORBA::Octet major,
CORBA::Octet minor)
{
this->messaging_object_->init (major, minor);
return 1;
}
int
TAO_IIOP_Transport::tear_listen_point_list (TAO_InputCDR &cdr)
{
CORBA::Boolean byte_order;
if ((cdr >> ACE_InputCDR::to_boolean (byte_order)) == 0)
return -1;
cdr.reset_byte_order (static_cast<int> (byte_order));
IIOP::ListenPointList listen_list;
if ((cdr >> listen_list) == 0)
return -1;
// As we have received a bidirectional information, set the flag to
// 0 (i.e., non-originating side)
this->bidirectional_flag (0);
return this->connection_handler_->process_listen_point_list (listen_list);
}
void
TAO_IIOP_Transport::set_bidir_context_info (TAO_Operation_Details &opdetails)
{
// Get a handle to the acceptor registry
TAO_Acceptor_Registry &ar =
this->orb_core ()->lane_resources ().acceptor_registry ();
IIOP::ListenPointList listen_point_list;
const TAO_AcceptorSetIterator end = ar.end ();
for (TAO_AcceptorSetIterator acceptor = ar.begin ();
acceptor != end;
++acceptor)
{
// Check whether it is an IIOP acceptor
if ((*acceptor)->tag () == IOP::TAG_INTERNET_IOP)
{
if (this->get_listen_point (listen_point_list, *acceptor) == -1)
{
if (TAO_debug_level > 0)
ACE_ERROR ((LM_ERROR,
"TAO (%P|%t) - IIOP_Transport::set_bidir_context_info, "
"error getting listen_point\n"));
return;
}
}
}
if (listen_point_list.length () == 0)
{
if (TAO_debug_level > 0)
ACE_ERROR ((LM_ERROR,
"TAO (%P|%t) - IIOP_Transport::set_bidir_context_info, "
"listen_point list is empty, client should send a list "
"with at least one point\n"));
return;
}
// We have the ListenPointList at this point. Create a output CDR
// stream at this point
TAO_OutputCDR cdr;
// Marshal the information into the stream
if ((cdr << ACE_OutputCDR::from_boolean (TAO_ENCAP_BYTE_ORDER) == 0)
|| (cdr << listen_point_list) == 0)
return;
// Add this info in to the svc_list
opdetails.request_service_context ().set_context (IOP::BI_DIR_IIOP,
cdr);
return;
}
int
TAO_IIOP_Transport::get_listen_point (
IIOP::ListenPointList &listen_point_list,
TAO_Acceptor *acceptor)
{
TAO_IIOP_Acceptor *iiop_acceptor =
dynamic_cast<TAO_IIOP_Acceptor *> (acceptor);
if (iiop_acceptor == 0)
return -1;
// Get the array of endpoints serviced by TAO_IIOP_Acceptor
const ACE_INET_Addr *endpoint_addr =
iiop_acceptor->endpoints ();
// Get the endpoint count
const size_t count =
iiop_acceptor->endpoint_count ();
// Get the local address of the connection
ACE_INET_Addr local_addr;
if (this->connection_handler_->peer ().get_local_addr (local_addr)
== -1)
{
ACE_ERROR_RETURN ((LM_ERROR,
ACE_TEXT ("TAO (%P|%t) - IIOP_Transport::get_listen_point, ")
ACE_TEXT ("could not resolve local host address\n")),
-1);
}
// Note: Looks like there is no point in sending the list of
// endpoints on interfaces on which this connection has not
// been established. If this is wrong, please correct me.
CORBA::String_var local_interface;
// Get the hostname for the local address
if (iiop_acceptor->hostname (this->orb_core_,
local_addr,
local_interface.out ()) == -1)
{
ACE_ERROR_RETURN ((LM_ERROR,
ACE_TEXT ("TAO (%P|%t) - IIOP_Transport::get_listen_point, ")
ACE_TEXT ("could not resolve local host name\n")),
-1);
}
#if defined (ACE_HAS_IPV6)
// If this is an IPv6 decimal linklocal address containing a scopeid than
// remove the scopeid from the information being sent.
const char *cp_scope = 0;
if (local_addr.get_type () == PF_INET6 &&
(cp_scope = ACE_OS::strchr (local_interface.in (), '%')) != 0)
{
CORBA::ULong len = cp_scope - local_interface.in ();
local_interface[len] = '\0';
}
#endif /* ACE_HAS_IPV6 */
for (size_t index = 0;
index < count;
++index)
{
// Make sure port numbers are equal so the following comparison
// only concerns the IP(v4/v6) address.
local_addr.set_port_number (endpoint_addr[index].get_port_number ());
if (local_addr == endpoint_addr[index])
{
// Get the count of the number of elements
const CORBA::ULong len = listen_point_list.length ();
// Increase the length by 1
listen_point_list.length (len + 1);
// We have the connection and the acceptor endpoint on the
// same interface
IIOP::ListenPoint & point = listen_point_list[len];
point.host = CORBA::string_dup (local_interface.in ());
point.port = endpoint_addr[index].get_port_number ();
if (TAO_debug_level >= 5)
{
ACE_DEBUG ((LM_DEBUG, ACE_TEXT("TAO (%P:%t) Listen_Point_List[%d] = <%s:%d>"),
len,
point.host.in (),
point.port));
}
}
}
return 1;
}
//@@ TAO_TRANSPORT_SPL_COPY_HOOK_END
/*
* End of copy hook.
*/
TAO_END_VERSIONED_NAMESPACE_DECL
|