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|
// $Id$
#include "tao/GIOP_Message_Base.h"
#include "tao/operation_details.h"
#include "tao/debug.h"
#include "tao/ORB_Core.h"
#include "tao/TAO_Server_Request.h"
#include "tao/GIOP_Message_Locate_Header.h"
#include "tao/Transport.h"
#include "tao/Transport_Mux_Strategy.h"
#include "tao/LF_Strategy.h"
#include "tao/Request_Dispatcher.h"
#include "tao/Codeset_Manager.h"
#include "tao/SystemException.h"
#include "tao/ZIOP_Adapter.h"
#include "ace/Min_Max.h"
/*
* Hook to add additional include files during specializations.
*/
//@@ GIOP_MESSAGE_BASE_INCLUDE_ADD_HOOK
ACE_RCSID (tao,
GIOP_Message_Base,
"$Id$")
TAO_BEGIN_VERSIONED_NAMESPACE_DECL
TAO_GIOP_Message_Base::TAO_GIOP_Message_Base (TAO_ORB_Core *orb_core,
TAO_Transport *transport,
size_t input_cdr_size)
: orb_core_ (orb_core)
, fragmentation_strategy_ (orb_core->fragmentation_strategy (transport))
, out_stream_ (0,
input_cdr_size,
TAO_ENCAP_BYTE_ORDER,
orb_core->output_cdr_buffer_allocator (),
orb_core->output_cdr_dblock_allocator (),
orb_core->output_cdr_msgblock_allocator (),
orb_core->orb_params ()->cdr_memcpy_tradeoff (),
fragmentation_strategy_.get (),
TAO_DEF_GIOP_MAJOR,
TAO_DEF_GIOP_MINOR)
{
#if defined (TAO_HAS_MONITOR_POINTS) && (TAO_HAS_MONITOR_POINTS == 1)
const int nibbles = 2 * sizeof (size_t);
char hex_string[nibbles + 1];
ACE_OS::sprintf (hex_string,
"%8.8X",
transport->id ());
hex_string[nibbles] = '\0';
ACE_CString monitor_name ("OutputCDR_");
monitor_name += hex_string;
this->out_stream_.register_monitor (monitor_name.c_str ());
#endif /* TAO_HAS_MONITOR_POINTS==1 */
}
TAO_GIOP_Message_Base::~TAO_GIOP_Message_Base (void)
{
#if defined (TAO_HAS_MONITOR_POINTS) && (TAO_HAS_MONITOR_POINTS == 1)
this->out_stream_.unregister_monitor ();
#endif /* TAO_HAS_MONITOR_POINTS==1 */
}
void
TAO_GIOP_Message_Base::init (CORBA::Octet major, CORBA::Octet minor)
{
// Set the giop version of the out stream
this->out_stream_.set_version (major, minor);
}
TAO_OutputCDR &
TAO_GIOP_Message_Base::out_stream (void)
{
return this->out_stream_;
}
int
TAO_GIOP_Message_Base::generate_request_header (
TAO_Operation_Details &op,
TAO_Target_Specification &spec,
TAO_OutputCDR &cdr)
{
// Get a parser for us
TAO_GIOP_Message_Version giop_version;
cdr.get_version (giop_version);
// Write the GIOP header first
if (!this->write_protocol_header (GIOP::Request, giop_version, cdr))
{
if (TAO_debug_level)
{
ACE_ERROR ((LM_ERROR,
ACE_TEXT ("(%P|%t) Error in writing GIOP header\n")));
}
return -1;
}
// Get the parser we need to use
TAO_GIOP_Message_Generator_Parser *generator_parser =
this->get_parser (giop_version);
// Now call the implementation for the rest of the header
if (!generator_parser->write_request_header (op, spec, cdr))
{
if (TAO_debug_level)
ACE_ERROR ((LM_ERROR,
ACE_TEXT ("(%P|%t) Error in writing request header\n")));
return -1;
}
return 0;
}
int
TAO_GIOP_Message_Base::generate_locate_request_header (
TAO_Operation_Details &op,
TAO_Target_Specification &spec,
TAO_OutputCDR &cdr)
{
TAO_GIOP_Message_Version giop_version;
cdr.get_version (giop_version);
// Get the parser we need to use
TAO_GIOP_Message_Generator_Parser *generator_parser =
this->get_parser (giop_version);
// Write the GIOP header first
if (!this->write_protocol_header (GIOP::LocateRequest, giop_version, cdr))
{
if (TAO_debug_level)
ACE_ERROR ((LM_ERROR,
ACE_TEXT ("(%P|%t) Error in writing GIOP header\n")));
return -1;
}
// Now call the implementation for the rest of the header
if (!generator_parser->write_locate_request_header
(op.request_id (), spec, cdr))
{
if (TAO_debug_level)
ACE_ERROR ((LM_ERROR,
ACE_TEXT ("(%P|%t) Error in writing locate request header\n")));
return -1;
}
return 0;
}
int
TAO_GIOP_Message_Base::generate_reply_header (
TAO_OutputCDR &cdr,
TAO_Pluggable_Reply_Params_Base ¶ms)
{
TAO_GIOP_Message_Version giop_version;
cdr.get_version (giop_version);
// Write the GIOP header first
if (!this->write_protocol_header (GIOP::Reply, giop_version, cdr))
{
if (TAO_debug_level)
ACE_ERROR ((LM_ERROR,
ACE_TEXT ("(%P|%t) Error in writing GIOP header\n")));
return -1;
}
try
{
// Get the parser we need to use
TAO_GIOP_Message_Generator_Parser *generator_parser =
this->get_parser (giop_version);
// Now call the implementation for the rest of the header
if (!generator_parser->write_reply_header (cdr, params))
{
if (TAO_debug_level > 4)
ACE_ERROR ((LM_ERROR,
ACE_TEXT ("(%P|%t) Error in writing reply ")
ACE_TEXT ("header\n")));
return -1;
}
}
catch (const ::CORBA::Exception& ex)
{
if (TAO_debug_level > 4)
ex._tao_print_exception (
ACE_TEXT ("TAO_GIOP_Message_Base::generate_reply_header"));
return -1;
}
return 0;
}
int
TAO_GIOP_Message_Base::generate_fragment_header (TAO_OutputCDR & cdr,
CORBA::ULong request_id)
{
TAO_GIOP_Message_Version giop_version;
cdr.get_version (giop_version);
// GIOP fragments are supported in GIOP 1.1 and better, but TAO only
// supports them in 1.2 or better since GIOP 1.1 fragments do not
// have a fragment message header.
if (giop_version.major == 1 && giop_version.minor < 2)
return -1;
// Get the parser we need to use
TAO_GIOP_Message_Generator_Parser *generator_parser =
this->get_parser (giop_version);
// Write the GIOP header first
if (!this->write_protocol_header (GIOP::Fragment, giop_version, cdr)
|| !generator_parser->write_fragment_header (cdr, request_id))
{
if (TAO_debug_level)
ACE_ERROR ((LM_ERROR,
ACE_TEXT ("(%P|%t) Error in writing GIOP header\n")));
return -1;
}
return 0;
}
int
TAO_GIOP_Message_Base::dump_consolidated_msg (TAO_OutputCDR &stream, bool hex_dump_only)
{
// Check whether the output cdr stream is build up of multiple
// messageblocks. If so, consolidate them to one block that can be
// dumped
ACE_Message_Block* consolidated_block = 0;
char *buf = const_cast <char*> (stream.buffer ());
size_t const total_len = stream.total_length ();
if (stream.begin()->cont () != 0)
{
ACE_NEW_RETURN (consolidated_block, ACE_Message_Block, 0);
ACE_CDR::consolidate (consolidated_block, stream.begin ());
buf = (char *) (consolidated_block->rd_ptr ());
}
///
this->dump_msg ("send", reinterpret_cast <u_char *> (buf), total_len, hex_dump_only);
//
delete consolidated_block;
consolidated_block = 0;
//
return 0;
}
int
TAO_GIOP_Message_Base::format_message (TAO_OutputCDR &stream, TAO_Stub& stub)
{
this->set_giop_flags (stream);
#if defined (TAO_HAS_ZIOP) && TAO_HAS_ZIOP ==1
TAO_ZIOP_Adapter* ziop_adapter = this->orb_core_->ziop_adapter ();
//ziop adapter found and not compressed yet
if (ziop_adapter)
{
if (TAO_debug_level >= 5)
{
ACE_DEBUG ((LM_DEBUG, ACE_TEXT("Before compression: ")));
this->dump_consolidated_msg (stream, true);
}
bool compressed;
if (&stub == 0)
{
compressed = ziop_adapter->marshal_data (stream, *this->orb_core_);
}
else
{
compressed = ziop_adapter->marshal_data (stream, stub);
}
if (TAO_debug_level >= 5)
{
if (!compressed)
ACE_DEBUG ((LM_DEBUG,
ACE_TEXT("GIOP message not compressed")));
}
}
#else
ACE_UNUSED_ARG (stub);
#endif
// Length of all buffers.
size_t const total_len = stream.total_length ();
// NOTE: Here would also be a fine place to calculate a digital
// signature for the message and place it into a preallocated slot
// in the "ServiceContext". Similarly, this is a good spot to
// encrypt messages (or just the message bodies) if that's needed in
// this particular environment and that isn't handled by the
// networking infrastructure (e.g., IPSEC).
char *buf = const_cast <char*> (stream.buffer ());
CORBA::ULong bodylen = static_cast <CORBA::ULong>
(total_len - TAO_GIOP_MESSAGE_HEADER_LEN);
#if !defined (ACE_ENABLE_SWAP_ON_WRITE)
*(reinterpret_cast <CORBA::ULong *> (buf +
TAO_GIOP_MESSAGE_SIZE_OFFSET)) = bodylen;
#else
if (!stream.do_byte_swap ())
*(reinterpret_cast <CORBA::ULong *>
(buf + TAO_GIOP_MESSAGE_SIZE_OFFSET)) = bodylen;
else
ACE_CDR::swap_4 (reinterpret_cast <char *> (&bodylen),
buf + TAO_GIOP_MESSAGE_SIZE_OFFSET);
#endif /* ACE_ENABLE_SWAP_ON_WRITE */
if (TAO_debug_level >= 5)
{
this->dump_consolidated_msg (stream, false);
}
return 0;
}
int
TAO_GIOP_Message_Base::parse_next_message (TAO_Queued_Data &qd,
size_t &mesg_length)
{
if (qd.msg_block ()->length () < TAO_GIOP_MESSAGE_HEADER_LEN)
{
qd.missing_data (TAO_MISSING_DATA_UNDEFINED);
return 0; /* incomplete header */
}
else
{
TAO_GIOP_Message_State state;
if (state.parse_message_header (*(qd.msg_block ())) == -1)
{
return -1;
}
size_t const message_size = state.message_size (); /* Header + Payload */
if (message_size > qd.msg_block ()->length ())
{
qd.missing_data (message_size - qd.msg_block ()->length ());
}
else
{
qd.missing_data (0);
}
/* init out-parameters */
qd.state (state);
mesg_length = message_size;
return 1; /* complete header */
}
}
int
TAO_GIOP_Message_Base::extract_next_message (ACE_Message_Block &incoming,
TAO_Queued_Data *&qd)
{
if (incoming.length () < TAO_GIOP_MESSAGE_HEADER_LEN)
{
if (incoming.length () > 0)
{
// Optimize memory usage, we dont know actual message size
// so far, but allocate enough space to hold small GIOP
// messages. This way we avoid expensive "grow" operation
// for small messages.
size_t const default_buf_size = ACE_CDR::DEFAULT_BUFSIZE;
// Make a node which has at least message block of the size
// of MESSAGE_HEADER_LEN.
size_t const buf_size = ace_max (TAO_GIOP_MESSAGE_HEADER_LEN,
default_buf_size);
// POST: buf_size >= TAO_GIOP_MESSAGE_HEADER_LEN
qd = this->make_queued_data (buf_size);
if (qd == 0)
{
if (TAO_debug_level > 0)
{
ACE_ERROR((LM_ERROR,
ACE_TEXT ("TAO (%P|%t) - TAO_GIOP_Message_Base::extract_next_message, ")
ACE_TEXT ("out of memory\n")));
}
return -1;
}
qd->msg_block ()->copy (incoming.rd_ptr (), incoming.length ());
incoming.rd_ptr (incoming.length ()); // consume all available data
qd->missing_data (TAO_MISSING_DATA_UNDEFINED);
}
else
{
// handle not initialized variables
qd = 0; // reset
}
return 0;
}
TAO_GIOP_Message_State state;
if (state.parse_message_header (incoming) == -1)
{
return -1;
}
size_t copying_len = state.message_size ();
qd = this->make_queued_data (copying_len);
if (qd == 0)
{
if (TAO_debug_level > 0)
{
ACE_ERROR ((LM_ERROR,
ACE_TEXT ("TAO (%P|%t) - TAO_GIOP_Message_Base::extract_next_message, ")
ACE_TEXT ("out of memory\n")));
}
return -1;
}
if (copying_len > incoming.length ())
{
qd->missing_data (copying_len - incoming.length ());
copying_len = incoming.length ();
}
else
{
qd->missing_data (0);
}
qd->msg_block ()->copy (incoming.rd_ptr (), copying_len);
incoming.rd_ptr (copying_len);
qd->state (state);
return 1;
}
int
TAO_GIOP_Message_Base::consolidate_node (TAO_Queued_Data *qd,
ACE_Message_Block &incoming)
{
// Look to see whether we had atleast parsed the GIOP header ...
if (qd->missing_data () == TAO_MISSING_DATA_UNDEFINED)
{
// The data length that has been stuck in there during the last
// read ....
size_t const len = qd->msg_block ()->length ();
// paranoid check
if (len >= TAO_GIOP_MESSAGE_HEADER_LEN)
{
// inconsistency - this code should have parsed the header
// so far
return -1;
}
// We know that we would have space for
// TAO_GIOP_MESSAGE_HEADER_LEN here. So copy that much of data
// from the <incoming> into the message block in <qd>
size_t const available = incoming.length ();
size_t const desired = TAO_GIOP_MESSAGE_HEADER_LEN - len;
size_t const n_copy = ace_min (available, desired);
// paranoid check, but would cause endless looping
if (n_copy == 0)
{
return -1;
}
if (qd->msg_block ()->copy (incoming.rd_ptr (), n_copy) == -1)
{
return -1;
}
// Move the rd_ptr () in the incoming message block..
incoming.rd_ptr (n_copy);
// verify sufficient data to parse GIOP header
if (qd->msg_block ()->length () < TAO_GIOP_MESSAGE_HEADER_LEN)
{
return 0; /* continue */
}
TAO_GIOP_Message_State state;
// Parse the message header now...
if (state.parse_message_header (*qd->msg_block ()) == -1)
{
if (TAO_debug_level > 0)
{
ACE_ERROR ((LM_ERROR,
ACE_TEXT ("TAO (%P|%t) - TAO_GIOP_Message_Base::consolidate_node, ")
ACE_TEXT ("error parsing header\n") ));
}
return -1;
}
// Now grow the message block so that we can copy the rest of
// the data, the message_block must be able to hold complete message
if (ACE_CDR::grow (qd->msg_block (),
state.message_size ()) == -1) /* GIOP_Header + Payload */
{
// on mem-error get rid of context silently, try to avoid
// system calls that might allocate additional memory
return -1;
}
// Copy the pay load..
// Calculate the bytes that needs to be copied in the queue...
size_t copy_len = state.payload_size ();
// If the data that needs to be copied is more than that is
// available to us ..
if (copy_len > incoming.length ())
{
// Calculate the missing data..
qd->missing_data (copy_len - incoming.length ());
// Set the actual possible copy_len that is available...
copy_len = incoming.length ();
}
else
{
qd->missing_data (0);
}
// ..now we are set to copy the right amount of data to the
// node..
if (qd->msg_block ()->copy (incoming.rd_ptr (), copy_len) == -1)
{
return -1;
}
// Set the <rd_ptr> of the <incoming>..
incoming.rd_ptr (copy_len);
// Get the other details...
qd->state (state);
}
else
{
// @todo: Need to abstract this out to a seperate method...
size_t copy_len = qd->missing_data ();
if (copy_len > incoming.length ())
{
// Calculate the missing data..
qd->missing_data (copy_len - incoming.length ());
// Set the actual possible copy_len that is available...
copy_len = incoming.length ();
}
// paranoid check for endless-event-looping
if (copy_len == 0)
{
return -1;
}
// Copy the right amount of data in to the node...
if (qd->msg_block ()->copy (incoming.rd_ptr (), copy_len) == -1)
{
return -1;
}
// Set the <rd_ptr> of the <incoming>..
qd->msg_block ()->rd_ptr (copy_len);
}
return 0;
}
int
TAO_GIOP_Message_Base::process_request_message (TAO_Transport *transport,
TAO_Queued_Data *qd)
{
// Set the upcall thread
this->orb_core_->lf_strategy ().set_upcall_thread (this->orb_core_->leader_follower ());
// Get the parser we need to use
TAO_GIOP_Message_Generator_Parser *generator_parser =
this->get_parser (qd->giop_version ());
// A buffer that we will use to initialise the CDR stream. Since we're
// allocating the buffer on the stack, we may as well allocate the data
// block on the stack too and avoid an allocation inside the message
// block of the CDR.
#if defined (ACE_INITIALIZE_MEMORY_BEFORE_USE)
char repbuf[ACE_CDR::DEFAULT_BUFSIZE] = { 0 };
#else
char repbuf[ACE_CDR::DEFAULT_BUFSIZE];
#endif /* ACE_INITIALIZE_MEMORY_BEFORE_USE */
ACE_Data_Block out_db (sizeof (repbuf),
ACE_Message_Block::MB_DATA,
repbuf,
this->orb_core_->input_cdr_buffer_allocator (),
0,
ACE_Message_Block::DONT_DELETE,
this->orb_core_->input_cdr_dblock_allocator ());
// Initialize an output CDR on the stack
// NOTE: Don't jump to a conclusion as to why we are using the
// input_cdr and hence the global pool here. These pools will move
// to the lanes anyway at some point of time. Further, it would have
// been awesome to have this in TSS. But for some reason the cloning
// that happens when the ORB gets flow controlled while writing a
// reply is messing things up. We crash horribly. Doing this adds a
// lock, we need to set things like this -- put stuff in TSS here
// and transfer to global memory when we get flow controlled. We
// need to work on the message block to get it right!
TAO_OutputCDR output (&out_db,
TAO_ENCAP_BYTE_ORDER,
this->orb_core_->input_cdr_msgblock_allocator (),
this->orb_core_->orb_params ()->cdr_memcpy_tradeoff (),
this->fragmentation_strategy_.get (),
qd->giop_version ().major_version (),
qd->giop_version ().minor_version ());
// Get the read and write positions and header before we steal data.
size_t rd_pos = qd->msg_block ()->rd_ptr () - qd->msg_block ()->base ();
size_t wr_pos = qd->msg_block ()->wr_ptr () - qd->msg_block ()->base ();
rd_pos += TAO_GIOP_MESSAGE_HEADER_LEN;
if (TAO_debug_level >= 5)
{
this->dump_msg ("recv",
reinterpret_cast <u_char *> (qd->msg_block ()->rd_ptr ()),
qd->msg_block ()->length ());
}
// Create a input CDR stream. We do the following
// 1 - If the incoming message block has a data block with a flag
// DONT_DELETE (for the data block) we create an input CDR
// stream the same way.
// 2 - If the incoming message block had a datablock from heap just
// use it by duplicating it and make the flag 0.
// NOTE: We use the same data block in which we read the message and
// we pass it on to the higher layers of the ORB. So we dont to any
// copies at all here. The same is also done in the higher layers.
ACE_Data_Block *db = 0;
// Get the flag in the message block
ACE_Message_Block::Message_Flags flg = qd->msg_block ()->self_flags ();
if (ACE_BIT_ENABLED (flg, ACE_Message_Block::DONT_DELETE))
{
// Use the same datablock
db = qd->msg_block ()->data_block ();
}
else
{
// Use a duplicated datablock as the datablock has come off the
// heap.
db = qd->msg_block ()->data_block ()->duplicate ();
}
#if defined (TAO_HAS_ZIOP) && TAO_HAS_ZIOP ==1
if (!this->decompress (&db, *qd, rd_pos, wr_pos))
return -1;
#endif
TAO_InputCDR input_cdr (db,
flg,
rd_pos,
wr_pos,
qd->byte_order (),
qd->giop_version ().major_version (),
qd->giop_version ().minor_version (),
this->orb_core_);
transport->assign_translators(&input_cdr,&output);
// We know we have some request message. Check whether it is a
// GIOP_REQUEST or GIOP_LOCATE_REQUEST to take action.
// Once we send the InputCDR stream we need to just forget about
// the stream and never touch that again for anything. We basically
// loose ownership of the data_block.
switch (qd->msg_type ())
{
case GIOP::Request:
// Should be taken care by the state specific invocations. They
// could raise an exception or write things in the output CDR
// stream
return this->process_request (transport,
input_cdr,
output,
generator_parser);
case GIOP::LocateRequest:
return this->process_locate_request (transport,
input_cdr,
output,
generator_parser);
default:
return -1;
}
}
#if defined (TAO_HAS_ZIOP) && TAO_HAS_ZIOP ==1
bool
TAO_GIOP_Message_Base::decompress (ACE_Data_Block **db, TAO_Queued_Data& qd,
size_t& rd_pos, size_t& wr_pos)
{
if (qd.state().compressed ())
{
TAO_ZIOP_Adapter* adapter = this->orb_core_->ziop_adapter ();
if (adapter)
{
if (!adapter->decompress (db, qd, *this->orb_core_))
return false;
rd_pos = TAO_GIOP_MESSAGE_HEADER_LEN;
ACE_Data_Block *tmp = *db;
wr_pos = tmp->size();
if (TAO_debug_level >= 5)
{
ACE_HEX_DUMP ((LM_DEBUG,
const_cast <char*> (tmp->base ()),
tmp->size (),
ACE_TEXT ("GIOP message after decompression")));
}
}
else
{
if (TAO_debug_level > 0)
ACE_ERROR ((LM_ERROR,
ACE_TEXT ("TAO (%P|%t) ERROR: Unable to decompress ")
ACE_TEXT ("data.\n")));
return false;
}
}
return true;
}
#endif
int
TAO_GIOP_Message_Base::process_reply_message (
TAO_Pluggable_Reply_Params ¶ms,
TAO_Queued_Data *qd)
{
// Get the parser we need to use
TAO_GIOP_Message_Generator_Parser *generator_parser =
this->get_parser (qd->giop_version ());
// Get the read and write positions before we steal data.
size_t rd_pos = qd->msg_block ()->rd_ptr () - qd->msg_block ()->base ();
size_t wr_pos = qd->msg_block ()->wr_ptr () - qd->msg_block ()->base ();
rd_pos += TAO_GIOP_MESSAGE_HEADER_LEN;
if (TAO_debug_level >= 5)
{
this->dump_msg ("recv",
reinterpret_cast <u_char *> (qd->msg_block ()->rd_ptr ()),
qd->msg_block ()->length ());
}
ACE_Data_Block *db = qd->msg_block ()->data_block ();;
#if defined (TAO_HAS_ZIOP) && TAO_HAS_ZIOP ==1
if (!this->decompress (&db, *qd, rd_pos, wr_pos))
return -1;
#endif
// Create a empty buffer on stack
// NOTE: We use the same data block in which we read the message and
// we pass it on to the higher layers of the ORB. So we dont to any
// copies at all here.
TAO_InputCDR input_cdr (db,
ACE_Message_Block::DONT_DELETE,
rd_pos,
wr_pos,
qd->byte_order (),
qd->giop_version ().major_version (),
qd->giop_version ().minor_version (),
this->orb_core_);
// We know we have some reply message. Check whether it is a
// GIOP_REPLY or GIOP_LOCATE_REPLY to take action.
// Once we send the InputCDR stream we need to just forget about
// the stream and never touch that again for anything. We basically
// loose ownership of the data_block.
int retval = 0;
switch (qd->msg_type ())
{
case GIOP::Reply:
// Should be taken care by the state specific parsing
retval = generator_parser->parse_reply (input_cdr, params);
break;
case GIOP::LocateReply:
retval = generator_parser->parse_locate_reply (input_cdr, params);
break;
default:
retval = -1;
}
if (retval == -1)
return retval;
params.input_cdr_ = &input_cdr;
params.transport_->assign_translators (params.input_cdr_, 0);
retval = params.transport_->tms ()->dispatch_reply (params);
if (retval == -1)
{
// Something really critical happened, we will forget about
// every reply on this connection.
if (TAO_debug_level > 0)
ACE_ERROR ((LM_ERROR,
ACE_TEXT ("TAO (%P|%t) - GIOP_Message_Base[%d]::process_reply_message, ")
ACE_TEXT ("dispatch reply failed\n"),
params.transport_->id ()));
}
return retval;
}
int
TAO_GIOP_Message_Base::generate_exception_reply (
TAO_OutputCDR &cdr,
TAO_Pluggable_Reply_Params_Base ¶ms,
const CORBA::Exception &x)
{
// A new try/catch block, but if something goes wrong now we have no
// hope, just abort.
try
{
// Make the GIOP & reply header.
this->generate_reply_header (cdr, params);
x._tao_encode (cdr);
}
catch (const ::CORBA::BAD_PARAM&)
{
throw;
}
catch (const ::CORBA::Exception&)
{
// Now we know that while handling the error an other error
// happened -> no hope, close connection.
// Close the handle.
if (TAO_debug_level > 0)
ACE_DEBUG ((LM_DEBUG,
ACE_TEXT ("(%P|%t|%N|%l) cannot marshal exception, ")
ACE_TEXT ("generate_exception_reply ()\n")));
return -1;
}
return 0;
}
int
TAO_GIOP_Message_Base::write_protocol_header (GIOP::MsgType type,
const TAO_GIOP_Message_Version &version,
TAO_OutputCDR &msg)
{
// Reset the message type
msg.reset ();
CORBA::Octet header[12] =
{
// The following works on non-ASCII platforms, such as MVS (which
// uses EBCDIC).
0x47, // 'G'
0x49, // 'I'
0x4f, // 'O'
0x50 // 'P'
};
header[4] = version.major;
header[5] = version.minor;
// "flags" octet, i.e. header[6] will be set up later when message
// is formatted by the transport.
header[7] = static_cast <CORBA::Octet> (type); // Message type
static ACE_CDR::ULong const header_size =
sizeof (header) / sizeof (header[0]);
// Fragmentation should not occur at this point since there are only
// 12 bytes in the stream, and fragmentation may only occur when
// the stream length >= 16.
msg.write_octet_array (header, header_size);
return msg.good_bit ();
}
int
TAO_GIOP_Message_Base::process_request (
TAO_Transport * transport,
TAO_InputCDR & cdr,
TAO_OutputCDR & output,
TAO_GIOP_Message_Generator_Parser * parser)
{
// This will extract the request header, set <response_required>
// and <sync_with_server> as appropriate.
TAO_ServerRequest request (this,
cdr,
output,
transport,
this->orb_core_);
CORBA::ULong request_id = 0;
CORBA::Boolean response_required = false;
try
{
int const parse_error = parser->parse_request_header (request);
// Throw an exception if the
if (parse_error != 0)
throw ::CORBA::MARSHAL (0, CORBA::COMPLETED_NO);
TAO_Codeset_Manager *csm = request.orb_core ()->codeset_manager ();
if (csm)
{
csm->process_service_context (request);
transport->assign_translators (&cdr, &output);
}
request_id = request.request_id ();
response_required = request.response_expected ();
CORBA::Object_var forward_to;
/*
* Hook to specialize request processing within TAO
* This hook will be replaced by specialized request
* processing implementation.
*/
//@@ TAO_DISPATCH_RESOLUTION_OPT_COMMENT_HOOK_START
// Do this before the reply is sent.
this->orb_core_->request_dispatcher ()->dispatch (
this->orb_core_,
request,
forward_to);
//@@ TAO_DISPATCH_RESOLUTION_OPT_COMMENT_HOOK_END
if (request.is_forwarded ())
{
CORBA::Boolean const permanent_forward_condition =
this->orb_core_->is_permanent_forward_condition
(forward_to.in (),
request.request_service_context ());
// We should forward to another object...
TAO_Pluggable_Reply_Params_Base reply_params;
reply_params.request_id_ = request_id;
reply_params.reply_status (
permanent_forward_condition
? GIOP::LOCATION_FORWARD_PERM
: GIOP::LOCATION_FORWARD);
reply_params.svc_ctx_.length (0);
// Send back the reply service context.
reply_params.service_context_notowned (
&request.reply_service_info ());
output.message_attributes (request_id,
0,
TAO_REPLY,
0);
// Make the GIOP header and Reply header
this->generate_reply_header (output, reply_params);
if (!(output << forward_to.in ()))
{
if (TAO_debug_level > 0)
ACE_ERROR ((LM_ERROR,
ACE_TEXT ("TAO (%P|%t) ERROR: Unable to marshal ")
ACE_TEXT ("forward reference.\n")));
return -1;
}
output.more_fragments (false);
int const result = transport->send_message (output,
0,
TAO_REPLY);
if (result == -1)
{
if (TAO_debug_level > 0)
{
// No exception but some kind of error, yet a
// response is required.
ACE_ERROR ((LM_ERROR,
ACE_TEXT ("TAO: (%P|%t|%N|%l) %p: ")
ACE_TEXT ("cannot send reply\n"),
ACE_TEXT ("TAO_GIOP_Message_Base::process_request")));
}
}
return result;
}
}
// Only CORBA exceptions are caught here.
catch ( ::CORBA::Exception& ex)
{
int result = 0;
if (response_required)
{
result = this->send_reply_exception (transport,
output,
request_id,
&request.reply_service_info (),
&ex);
if (result == -1)
{
if (TAO_debug_level > 0)
{
ACE_ERROR ((LM_ERROR,
ACE_TEXT ("TAO: (%P|%t|%N|%l) %p: ")
ACE_TEXT ("cannot send exception\n"),
ACE_TEXT ("process_connector_request ()")));
ex._tao_print_exception (
"TAO_GIOP_Message_Base::process_request[1]");
}
}
}
else if (TAO_debug_level > 0)
{
// It is unfortunate that an exception (probably a system
// exception) was thrown by the upcall code (even by the
// user) when the client was not expecting a response.
// However, in this case, we cannot close the connection
// down, since it really isn't the client's fault.
ACE_ERROR ((LM_ERROR,
ACE_TEXT ("(%P|%t) exception thrown ")
ACE_TEXT ("but client is not waiting a response\n")));
ex._tao_print_exception (
"TAO_GIOP_Message_Base::process_request[2]");
}
return result;
}
catch (...)
{
// @@ TODO some c++ exception or another, but what do we do with
// it?
// We are supposed to map it into a CORBA::UNKNOWN exception.
// BTW, this cannot be detected if using the <env> mapping. If
// we have native exceptions but no support for them in the ORB
// we should still be able to catch it. If we don't have native
// exceptions it couldn't have been raised in the first place!
int result = 0;
if (response_required)
{
CORBA::UNKNOWN exception (CORBA::SystemException::_tao_minor_code
(TAO_UNHANDLED_SERVER_CXX_EXCEPTION, 0),
CORBA::COMPLETED_MAYBE);
if (this->send_reply_exception (transport,
output,
request_id,
&request.reply_service_info (),
&exception) == -1
&& TAO_debug_level > 0)
{
ACE_ERROR ((LM_ERROR,
ACE_TEXT ("TAO (%P|%t) - TAO_GIOP_Message_Base::process_request[3], ")
ACE_TEXT ("%p: ")
ACE_TEXT ("cannot send exception\n"),
ACE_TEXT ("process_request ()")));
exception._tao_print_exception (
"TAO_GIOP_Message_Base::process_request[3]");
}
}
else if (TAO_debug_level > 0)
{
// It is unfotunate that an exception (probably a system
// exception) was thrown by the upcall code (even by the
// user) when the client was not expecting a response.
// However, in this case, we cannot close the connection
// down, since it really isn't the client's fault.
ACE_ERROR ((LM_ERROR,
ACE_TEXT ("TAO (%P|%t) exception thrown ")
ACE_TEXT ("but client is not waiting a response\n")));
}
return result;
}
return 0;
}
int
TAO_GIOP_Message_Base::process_locate_request (TAO_Transport *transport,
TAO_InputCDR &input,
TAO_OutputCDR &output,
TAO_GIOP_Message_Generator_Parser *parser)
{
// This will extract the request header, set <response_required> as
// appropriate.
TAO_GIOP_Locate_Request_Header locate_request (input, this->orb_core_);
TAO_GIOP_Locate_Status_Msg status_info;
// Defaulting.
status_info.status = GIOP::UNKNOWN_OBJECT;
CORBA::Boolean response_required = true;
try
{
int parse_error = parser->parse_locate_header (locate_request);
if (parse_error != 0)
{
throw ::CORBA::MARSHAL (0, CORBA::COMPLETED_NO);
}
TAO::ObjectKey tmp_key (locate_request.object_key ().length (),
locate_request.object_key ().length (),
locate_request.object_key ().get_buffer (),
0);
// Set it to an error state
parse_error = 1;
CORBA::ULong req_id = locate_request.request_id ();
// We will send the reply. The ServerRequest class need not send
// the reply
CORBA::Boolean deferred_reply = true;
TAO_ServerRequest server_request (this,
req_id,
response_required,
deferred_reply,
tmp_key,
"_non_existent",
output,
transport,
this->orb_core_,
parse_error);
if (parse_error != 0)
{
throw ::CORBA::MARSHAL (0, CORBA::COMPLETED_NO);
}
CORBA::Object_var forward_to;
this->orb_core_->request_dispatcher ()->dispatch (
this->orb_core_,
server_request,
forward_to);
if (server_request.is_forwarded ())
{
status_info.status = GIOP::OBJECT_FORWARD;
status_info.forward_location_var = forward_to;
if (TAO_debug_level > 0)
ACE_DEBUG ((LM_DEBUG,
ACE_TEXT ("TAO (%P|%t) - TAO_GIOP_Message_Base::process_locate_request, ")
ACE_TEXT ("called: forwarding\n")));
}
else if (server_request.reply_status () == GIOP::NO_EXCEPTION)
{
// We got no exception, so the object is here.
status_info.status = GIOP::OBJECT_HERE;
if (TAO_debug_level > 0)
ACE_DEBUG ((LM_DEBUG,
ACE_TEXT ("TAO (%P|%t) - TAO_GIOP_Message_Base::process_locate_request, ")
ACE_TEXT ("found\n")));
}
else
{
// Normal exception, so the object is not here
status_info.status = GIOP::UNKNOWN_OBJECT;
ACE_DEBUG ((LM_DEBUG,
ACE_TEXT ("TAO (%P|%t) - TAO_GIOP_Message_Base::process_locate_request, ")
ACE_TEXT ("not here\n")));
}
}
catch (const ::CORBA::Exception&)
{
// Normal exception, so the object is not here
status_info.status = GIOP::UNKNOWN_OBJECT;
if (TAO_debug_level > 0)
ACE_DEBUG ((LM_DEBUG,
ACE_TEXT ("TAO (%P|%t) - TAO_GIOP_Message_Base::process_locate_request, ")
ACE_TEXT ("CORBA exception raised\n")));
}
catch (...)
{
// Normal exception, so the object is not here
status_info.status = GIOP::UNKNOWN_OBJECT;
if (TAO_debug_level > 0)
ACE_DEBUG ((LM_DEBUG,
ACE_TEXT ("TAO (%P|%t) TAO_GIOP_Message_Base::process_locate_request - ")
ACE_TEXT ("C++ exception raised\n")));
}
return this->make_send_locate_reply (transport,
locate_request,
status_info,
output,
parser);
}
int
TAO_GIOP_Message_Base::make_send_locate_reply (TAO_Transport *transport,
TAO_GIOP_Locate_Request_Header &request,
TAO_GIOP_Locate_Status_Msg &status_info,
TAO_OutputCDR &output,
TAO_GIOP_Message_Generator_Parser *parser)
{
TAO_GIOP_Message_Version giop_version;
output.get_version (giop_version);
// Note here we are making the Locate reply header which is *QUITE*
// different from the reply header made by the make_reply () call..
// Make the GIOP message header
this->write_protocol_header (GIOP::LocateReply, giop_version, output);
// This writes the header & body
parser->write_locate_reply_mesg (output,
request.request_id (),
status_info);
output.more_fragments (false);
// Send the message
int const result = transport->send_message (output,
0,
TAO_REPLY);
// Print out message if there is an error
if (result == -1)
{
if (TAO_debug_level > 0)
{
ACE_ERROR ((LM_ERROR,
ACE_TEXT ("TAO: (%P|%t) %p: cannot send reply\n"),
ACE_TEXT ("TAO_GIOP_Message_Base::make_send_locate_reply")));
}
}
return result;
}
// Send an "I can't understand you" message -- again, the message is
// prefabricated for simplicity. This implies abortive disconnect (at
// the application level, if not at the level of TCP).
//
// NOTE that IIOP will still benefit from TCP's orderly disconnect.
int
TAO_GIOP_Message_Base::send_error (TAO_Transport *transport)
{
const char error_message [TAO_GIOP_MESSAGE_HEADER_LEN] =
{
// The following works on non-ASCII platforms, such as MVS (which
// uses EBCDIC).
0x47, // 'G'
0x49, // 'I'
0x4f, // 'O'
0x50, // 'P'
(CORBA::Octet) 1, // Use the lowest GIOP version
(CORBA::Octet) 0,
TAO_ENCAP_BYTE_ORDER,
GIOP::MessageError,
0, 0, 0, 0
};
if (TAO_debug_level >= 5)
{
this->dump_msg ("send_error",
reinterpret_cast <const u_char *> (error_message),
TAO_GIOP_MESSAGE_HEADER_LEN);
}
ACE_Data_Block data_block (TAO_GIOP_MESSAGE_HEADER_LEN,
ACE_Message_Block::MB_DATA,
error_message,
0,
0,
ACE_Message_Block::DONT_DELETE,
0);
ACE_Message_Block message_block(&data_block,
ACE_Message_Block::DONT_DELETE);
message_block.wr_ptr (TAO_GIOP_MESSAGE_HEADER_LEN);
size_t bt;
int const result = transport->send_message_block_chain (&message_block, bt);
if (result == -1)
{
if (TAO_debug_level > 0)
ACE_DEBUG ((LM_DEBUG,
ACE_TEXT ("TAO (%N|%l|%P|%t) error sending error to transport %u\n"),
transport->id ()));
}
return result;
}
TAO_GIOP_Message_Generator_Parser*
TAO_GIOP_Message_Base::get_parser (
const TAO_GIOP_Message_Version &version) const
{
switch (version.major)
{
case 1:
switch (version.minor)
{
case 0:
return
const_cast<TAO_GIOP_Message_Generator_Parser_10 *> (
&this->tao_giop_impl_.tao_giop_10);
break;
case 1:
return
const_cast<TAO_GIOP_Message_Generator_Parser_11 *> (
&this->tao_giop_impl_.tao_giop_11);
break;
case 2:
return
const_cast<TAO_GIOP_Message_Generator_Parser_12 *> (
&this->tao_giop_impl_.tao_giop_12);
break;
default:
throw ::CORBA::INTERNAL (0, CORBA::COMPLETED_NO);
break;
}
break;
default:
throw ::CORBA::INTERNAL (0, CORBA::COMPLETED_NO);
break;
}
}
// Server sends an "I'm shutting down now, any requests you've sent me
// can be retried" message to the server. The message is prefab, for
// simplicity.
//
// NOTE: this is IIOP-specific though it doesn't look like it is. It
// relies on a TCP-ism: orderly disconnect, which doesn't exist in all
// transport protocols. Versions of GIOP atop some transport that's
// lacking orderly disconnect must define some transport-specific
// handshaking (e.g. the XNS/SPP handshake convention) in order to
// know that the same transport semantics are provided when shutdown
// is begun with messages "in flight". (IIOP doesn't report false
// errors in the case of "clean shutdown", because it relies on
// orderly disconnect as provided by TCP. This quality of service is
// required to write robust distributed systems.)
void
TAO_GIOP_Message_Base::
send_close_connection (const TAO_GIOP_Message_Version &version,
TAO_Transport *transport)
{
// static CORBA::Octet
// I hate this in every method. Till the time I figure out a way
// around I will have them here hanging around.
const char close_message [TAO_GIOP_MESSAGE_HEADER_LEN] =
{
// The following works on non-ASCII platforms, such as MVS (which
// uses EBCDIC).
0x47, // 'G'
0x49, // 'I'
0x4f, // 'O'
0x50, // 'P'
version.major,
version.minor,
TAO_ENCAP_BYTE_ORDER,
GIOP::CloseConnection,
0, 0, 0, 0
};
// It's important that we use a reliable shutdown after we send this
// message, so we know it's received.
//
// @@ should recv and discard queued data for portability; note
// that this won't block (long) since we never set SO_LINGER
if (TAO_debug_level >= 5)
{
this->dump_msg ("send_close_connection",
reinterpret_cast <const u_char *> (close_message),
TAO_GIOP_MESSAGE_HEADER_LEN);
}
#if 0
// @@CJC I don't think we need this check b/c the transport's send()
// will simply return -1. However, I guess we could create something
// like TAO_Tranport::is_closed() that returns whether the connection
// is already closed. The problem with that, however, is that it's
// entirely possible that is_closed() could return TRUE, and then the
// transport could get closed down btw. the time it gets called and the
// time that the send actually occurs.
ACE_HANDLE which = transport->handle ();
if (which == ACE_INVALID_HANDLE)
{
if (TAO_debug_level > 0)
ACE_DEBUG ((LM_DEBUG,
ACE_TEXT ("TAO (%P|%t) TAO_GIOP_Message_Base::send_close_connection -")
ACE_TEXT (" connection already closed\n")));
return;
}
#endif
ACE_Data_Block data_block (TAO_GIOP_MESSAGE_HEADER_LEN,
ACE_Message_Block::MB_DATA,
close_message,
0,
0,
ACE_Message_Block::DONT_DELETE,
0);
ACE_Message_Block message_block(&data_block);
message_block.wr_ptr (TAO_GIOP_MESSAGE_HEADER_LEN);
size_t bt;
int const result = transport->send_message_block_chain (&message_block, bt);
if (result == -1)
{
if (TAO_debug_level > 0)
ACE_ERROR ((LM_ERROR,
ACE_TEXT ("(%P|%t) error closing connection %u, errno = %d\n"),
transport->id (), errno));
}
transport->close_connection ();
ACE_DEBUG ((LM_DEBUG,
ACE_TEXT ("(%P|%t) shut down transport, handle %d\n"),
transport-> id ()));
}
int
TAO_GIOP_Message_Base::send_reply_exception (
TAO_Transport *transport,
TAO_OutputCDR &output,
CORBA::ULong request_id,
IOP::ServiceContextList *svc_info,
CORBA::Exception *x
)
{
TAO_Pluggable_Reply_Params_Base reply_params;
reply_params.request_id_ = request_id;
reply_params.svc_ctx_.length (0);
// We are going to send some data
reply_params.argument_flag_ = true;
// Send back the service context we received. (RTCORBA relies on
// this).
reply_params.service_context_notowned (svc_info);
if (CORBA::SystemException::_downcast (x) != 0)
{
reply_params.reply_status (GIOP::SYSTEM_EXCEPTION);
}
else
{
reply_params.reply_status (GIOP::USER_EXCEPTION);
}
if (this->generate_exception_reply (output, reply_params, *x) == -1)
return -1;
output.more_fragments (false);
return transport->send_message (output, 0, TAO_REPLY);
}
void
TAO_GIOP_Message_Base::dump_msg (const char *label,
const u_char *ptr,
size_t len,
bool hex_dump_only)
{
if (TAO_debug_level < 10)
{
return;
}
static const char digits[] = "0123456789ABCD";
static const char *names[] =
{
"Request",
"Reply",
"CancelRequest",
"LocateRequest",
"LocateReply",
"CloseConnection",
"MessageError",
"Fragment"
};
// Message name.
const char *message_name = "UNKNOWN MESSAGE";
u_long slot = ptr[TAO_GIOP_MESSAGE_TYPE_OFFSET];
if (slot < sizeof (names) / sizeof (names[0]))
message_name = names[slot];
// Byte order.
int const byte_order = ptr[TAO_GIOP_MESSAGE_FLAGS_OFFSET] & 0x01;
int const compressed = ptr[0] == 0x5A;
ACE_TCHAR message_type[15];
ACE_OS::sprintf(message_type, "%c%c%c%c message", ptr[0], ptr[1], ptr[2], ptr[3]);
// Get the version info
CORBA::Octet const major = ptr[TAO_GIOP_VERSION_MAJOR_OFFSET];
CORBA::Octet const minor = ptr[TAO_GIOP_VERSION_MINOR_OFFSET];
// request/reply id.
CORBA::ULong tmp = 0;
CORBA::ULong *id = &tmp;
char *tmp_id = 0;
if (ptr[TAO_GIOP_MESSAGE_TYPE_OFFSET] == GIOP::Request ||
ptr[TAO_GIOP_MESSAGE_TYPE_OFFSET] == GIOP::Reply ||
ptr[TAO_GIOP_MESSAGE_TYPE_OFFSET] == GIOP::Fragment)
{
if (major == 1 && minor < 2)
{
// @@ Only works if ServiceContextList is empty....
tmp_id = (char * ) (ptr + TAO_GIOP_MESSAGE_HEADER_LEN + 4);
}
else
{
tmp_id = (char * ) (ptr + TAO_GIOP_MESSAGE_HEADER_LEN);
}
#if !defined (ACE_DISABLE_SWAP_ON_READ)
if (byte_order == TAO_ENCAP_BYTE_ORDER)
{
id = reinterpret_cast <ACE_CDR::ULong*> (tmp_id);
}
else
{
ACE_CDR::swap_4 (tmp_id, reinterpret_cast <char*> (id));
}
#else
id = reinterpret_cast <ACE_CDR::ULong*> (tmp_id);
#endif /* ACE_DISABLE_SWAP_ON_READ */
}
// Print.
if (!hex_dump_only)
{
ACE_DEBUG ((LM_DEBUG,
"TAO (%P|%t) - GIOP_Message_Base::dump_msg, "
"%C %s v%c.%c, %d data bytes, %s endian, "
"Type %C[%u]\n",
label,
message_type,
digits[ptr[TAO_GIOP_VERSION_MAJOR_OFFSET]],
digits[ptr[TAO_GIOP_VERSION_MINOR_OFFSET]],
len - TAO_GIOP_MESSAGE_HEADER_LEN ,
(byte_order == TAO_ENCAP_BYTE_ORDER) ? ACE_TEXT("my") : ACE_TEXT("other"),
message_name,
*id));
}
ACE_HEX_DUMP ((LM_DEBUG,
(const char *) ptr,
len,
ACE_TEXT (message_type)));
}
int
TAO_GIOP_Message_Base::generate_locate_reply_header (
TAO_OutputCDR & /*cdr*/,
TAO_Pluggable_Reply_Params_Base & /*params*/)
{
return 0;
}
bool
TAO_GIOP_Message_Base::is_ready_for_bidirectional (TAO_OutputCDR &msg) const
{
TAO_GIOP_Message_Version giop_version;
msg.get_version (giop_version);
// Get the parser we need to use
TAO_GIOP_Message_Generator_Parser *generator_parser =
this->get_parser (giop_version);
// We dont really know.. So ask the generator and parser objects that
// we know.
// @@ TODO: Need to make this faster, instead of making virtual
// call, try todo the check within this class
return generator_parser->is_ready_for_bidirectional ();
}
TAO_Queued_Data *
TAO_GIOP_Message_Base::make_queued_data (size_t sz)
{
// Make a datablock for the size requested + something. The
// "something" is required because we are going to align the data
// block in the message block. During alignment we could loose some
// bytes. As we may not know how many bytes will be lost, we will
// allocate ACE_CDR::MAX_ALIGNMENT extra.
ACE_Data_Block *db =
this->orb_core_->create_input_cdr_data_block (sz +
ACE_CDR::MAX_ALIGNMENT);
TAO_Queued_Data *qd =
TAO_Queued_Data::make_queued_data (
this->orb_core_->transport_message_buffer_allocator (),
this->orb_core_->input_cdr_msgblock_allocator (),
db);
if (qd == 0)
{
if (TAO_debug_level > 0)
{
ACE_ERROR ((LM_ERROR,
ACE_TEXT ("TAO (%P|%t) - TAO_GIOP_Message_Base::make_queued_data, ")
ACE_TEXT ("out of memory, failed to allocate queued data object\n")));
}
db->release ();
return 0; // NULL pointer
}
return qd;
}
size_t
TAO_GIOP_Message_Base::header_length (void) const
{
return TAO_GIOP_MESSAGE_HEADER_LEN;
}
size_t
TAO_GIOP_Message_Base::fragment_header_length (
const TAO_GIOP_Message_Version& giop_version) const
{
// Get the parser we need to use
TAO_GIOP_Message_Generator_Parser *generator_parser =
this->get_parser (giop_version);
return generator_parser->fragment_header_length ();
}
int
TAO_GIOP_Message_Base::parse_request_id (const TAO_Queued_Data *qd,
CORBA::ULong &request_id) const
{
// Get the read and write positions before we steal data.
size_t rd_pos = qd->msg_block ()->rd_ptr () - qd->msg_block ()->base ();
size_t wr_pos = qd->msg_block ()->wr_ptr () - qd->msg_block ()->base ();
rd_pos += TAO_GIOP_MESSAGE_HEADER_LEN;
// Create a input CDR stream. We do the following
// 1 - If the incoming message block has a data block with a flag
// DONT_DELETE (for the data block) we create an input CDR
// stream the same way.
// 2 - If the incoming message block had a datablock from heap just
// use it by duplicating it and make the flag 0.
// NOTE: We use the same data block in which we read the message and
// we pass it on to the higher layers of the ORB. So we dont to any
// copies at all here. The same is also done in the higher layers.
ACE_Message_Block::Message_Flags flg = 0;
ACE_Data_Block *db = 0;
// Get the flag in the message block
flg = qd->msg_block ()->self_flags ();
if (ACE_BIT_ENABLED (flg, ACE_Message_Block::DONT_DELETE))
{
// Use the same datablock
db = qd->msg_block ()->data_block ();
}
else
{
// Use a duplicated datablock as the datablock has come off the
// heap.
db = qd->msg_block ()->data_block ()->duplicate ();
}
TAO_InputCDR input_cdr (db,
flg,
rd_pos,
wr_pos,
qd->byte_order (),
qd->giop_version ().major_version (),
qd->giop_version ().minor_version (),
this->orb_core_);
if (qd->giop_version ().major == 1 &&
(qd->giop_version ().minor == 0 || qd->giop_version ().minor == 1))
{
switch (qd->msg_type ())
{
case GIOP::Request:
case GIOP::Reply:
{
IOP::ServiceContextList service_context;
if ((input_cdr >> service_context)
&& (input_cdr >> request_id))
{
return 0;
}
}
break;
case GIOP::CancelRequest:
case GIOP::LocateRequest:
case GIOP::LocateReply:
{
if ((input_cdr >> request_id))
{
return 0;
}
}
break;
default:
break;
}
}
else
{
switch (qd->msg_type ())
{
case GIOP::Request:
case GIOP::Reply:
case GIOP::Fragment:
case GIOP::CancelRequest:
case GIOP::LocateRequest:
case GIOP::LocateReply:
{
// Dealing with GIOP-1.2, the request-id is located directly
// behind the GIOP-Header. This is true for all message
// types that might be sent in form of fragments or
// cancel-requests.
if ((input_cdr >> request_id))
{
return 0;
}
}
break;
default:
break;
}
}
return -1;
}
/* @return -1 error, 0 ok, +1 outstanding fragments */
int
TAO_GIOP_Message_Base::consolidate_fragmented_message (
TAO_Queued_Data * qd,
TAO_Queued_Data *& msg)
{
TAO::Incoming_Message_Stack reverse_stack;
TAO_Queued_Data *tail = 0;
TAO_Queued_Data *head = 0;
//
// CONSOLIDATE FRAGMENTED MESSAGE
//
// check for error-condition
if (qd == 0)
{
return -1;
}
if (qd->giop_version ().major == 1 && qd->giop_version ().minor == 0)
{
TAO_Queued_Data::release (qd);
return -1; // error: GIOP-1.0 does not support fragments
}
// If this is not the last fragment, push it onto stack for later processing
if (qd->more_fragments ())
{
this->fragment_stack_.push (qd);
msg = 0; // no consolidated message available yet
return 1; // status: more messages expected.
}
tail = qd; // init
// Add the current message block to the end of the chain
// after adjusting the read pointer to skip the header(s)
size_t const header_adjustment =
this->header_length () +
this->fragment_header_length (tail->giop_version ().major_version ());
if (tail->msg_block ()->length () < header_adjustment)
{
// buffer length not sufficient
TAO_Queued_Data::release (qd);
return -1;
}
// duplicate code to speed up both processes, for GIOP-1.1 and GIOP-1.2
if (tail->giop_version ().major_version () == 1 && tail->giop_version ().minor_version () == 1)
{
// GIOP-1.1
while (this->fragment_stack_.pop (head) != -1)
{
if (head->more_fragments () &&
head->giop_version ().major_version () == 1 &&
head->giop_version ().minor_version () == 1 &&
head->msg_block ()->length () >= header_adjustment)
{
// adjust the read-pointer, skip the fragment header
tail->msg_block ()->rd_ptr(header_adjustment);
head->msg_block ()->cont (tail->msg_block ());
tail->msg_block (0);
TAO_Queued_Data::release (tail);
tail = head;
}
else
{
reverse_stack.push (head);
}
}
}
else
{
// > GIOP-1.2
CORBA::ULong tmp_request_id = 0;
if (this->parse_request_id (tail, tmp_request_id) == -1)
{
return -1;
}
const CORBA::ULong request_id = tmp_request_id;
while (this->fragment_stack_.pop (head) != -1)
{
CORBA::ULong head_request_id = 0;
int parse_status = 0;
if (head->more_fragments () &&
head->giop_version ().major_version () >= 1 &&
head->giop_version ().minor_version () >= 2 &&
head->msg_block ()->length () >= header_adjustment &&
(parse_status = this->parse_request_id (head, head_request_id)) != -1 &&
request_id == head_request_id)
{
// adjust the read-pointer, skip the fragment header
tail->msg_block ()->rd_ptr(header_adjustment);
head->msg_block ()->cont (tail->msg_block ());
tail->msg_block (0);
TAO_Queued_Data::release (tail);
tail = head;
}
else
{
if (parse_status == -1)
{
TAO_Queued_Data::release (head);
return -1;
}
reverse_stack.push (head);
}
}
}
// restore stack
while (reverse_stack.pop (head) != -1)
{
this->fragment_stack_.push (head);
}
if (tail->consolidate () == -1)
{
// memory allocation failed
TAO_Queued_Data::release (tail);
return -1;
}
// set out value
msg = tail;
return 0;
}
int
TAO_GIOP_Message_Base::discard_fragmented_message (const TAO_Queued_Data *cancel_request)
{
// We must extract the specific request-id from message-buffer
// and remove all fragments from stack that match this request-id.
TAO::Incoming_Message_Stack reverse_stack;
CORBA::ULong cancel_request_id;
if (this->parse_request_id (cancel_request, cancel_request_id) == -1)
{
return -1;
}
TAO_Queued_Data *head = 0;
// Revert stack
while (this->fragment_stack_.pop (head) != -1)
{
reverse_stack.push (head);
}
bool discard_all_GIOP11_messages = false;
// Now we are able to process message in order they have arrived.
// If the cancel_request_id matches to GIOP-1.1 message, all succeeding
// fragments belong to this message and must be discarded.
// Note: GIOP-1.1 fragment header dont have any request-id encoded. If the
// cancel_request_id matches GIOP-1.2 messages, all GIOP-1.2 fragments
// having encoded the request id will be discarded.
while (reverse_stack.pop (head) != -1)
{
CORBA::ULong head_request_id;
if (head->giop_version ().major_version () == 1 &&
head->giop_version ().minor_version () <= 1 &&
head->msg_type () != GIOP::Fragment && // GIOP11 fragment does not provide request id
this->parse_request_id (head, head_request_id) >= 0 &&
cancel_request_id == head_request_id)
{
TAO_Queued_Data::release (head);
discard_all_GIOP11_messages = true;
}
else if (head->giop_version ().major_version () == 1 &&
head->giop_version ().minor_version () <= 1 &&
discard_all_GIOP11_messages)
{
TAO_Queued_Data::release (head);
}
else if (head->giop_version ().major_version () >= 1 &&
head->giop_version ().minor_version () >= 2 &&
this->parse_request_id (head, head_request_id) >= 0 &&
cancel_request_id == head_request_id)
{
TAO_Queued_Data::release (head);
}
else
{
this->fragment_stack_.push (head);
}
}
return 0;
}
TAO_GIOP_Fragmentation_Strategy *
TAO_GIOP_Message_Base::fragmentation_strategy (void)
{
return this->fragmentation_strategy_.get ();
}
void
TAO_GIOP_Message_Base::set_giop_flags (TAO_OutputCDR & msg) const
{
CORBA::Octet * const buf =
reinterpret_cast<CORBA::Octet *> (const_cast<char *> (msg.buffer ()));
CORBA::Octet const & major = buf[TAO_GIOP_VERSION_MAJOR_OFFSET];
CORBA::Octet const & minor = buf[TAO_GIOP_VERSION_MINOR_OFFSET];
// Flags for the GIOP protocol header "flags" field.
CORBA::Octet & flags = buf[TAO_GIOP_MESSAGE_FLAGS_OFFSET];
// Least significant bit: Byte order
ACE_SET_BITS (flags, TAO_ENCAP_BYTE_ORDER ^ msg.do_byte_swap ());
// Second least significant bit: More fragments
//
// Only supported in GIOP 1.1 or better.
if (!(major <= 1 && minor == 0))
ACE_SET_BITS (flags, msg.more_fragments () << 1);
}
TAO_END_VERSIONED_NAMESPACE_DECL
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