pegasus/src/Pegasus/Common/MessageQueueService.cpp - diff

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Diff for /pegasus/src/Pegasus/Common/MessageQueueService.cpp between version 1.13 and 1.30

version 1.13, 2002/02/06 15:15:35

version 1.30, 2002/03/07 01:17:56

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//%/////////////////////////////////////////////////////////////////////////////

#include "MessageQueueService.h"

#include <Pegasus/Common/Tracer.h>

PEGASUS_USING_STD;

PEGASUS_NAMESPACE_BEGIN

cimom *MessageQueueService::_meta_dispatcher = 0;

AtomicInt MessageQueueService::_service_count = 0;

AtomicInt MessageQueueService::_xid(1);

Mutex MessageQueueService::_meta_dispatcher_mutex = Mutex();

MessageQueueService::MessageQueueService(const char *name,

Uint32 queueID,

Uint32 capabilities,

Uint32 mask)

: Base(name, false, queueID),

: Base(name, true, queueID),

_capabilities(capabilities),

_mask(mask),

_die(0),

_pending(true),

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_incoming_queue_shutdown(0),

_req_thread(_req_proc, this, false)

{

_capabilities = (capabilities | module_capabilities::async);

_default_op_timeout.tv_sec = 30;

_default_op_timeout.tv_usec = 100;

_meta_dispatcher = static_cast<cimom *>(Base::lookup(CIMOM_Q_ID));

_meta_dispatcher_mutex.lock(pegasus_thread_self());

if(_meta_dispatcher == 0 )

{

PEGASUS_ASSERT( _service_count.value() == 0 );

_meta_dispatcher = new cimom();

if (_meta_dispatcher == NULL )

{

_meta_dispatcher_mutex.unlock();

throw NullPointer();

_req_thread.run();

}

_service_count++;

if( false == register_service(name, _capabilities, _mask) )

{

_meta_dispatcher_mutex.unlock();

throw BindFailed("MessageQueueService Base Unable to register with Meta Dispatcher");

}

_meta_dispatcher_mutex.unlock();

_req_thread.run();

}

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{

_die = 1;

if (_incoming_queue_shutdown.value() == 0 )

{

_incoming.shutdown_queue();

_req_thread.join();

}

_meta_dispatcher_mutex.lock(pegasus_thread_self());

_service_count--;

if (_service_count.value() == 0 )

{

_meta_dispatcher->_shutdown_routed_queue();

delete _meta_dispatcher;

}

_meta_dispatcher_mutex.unlock();

}

AtomicInt MessageQueueService::_xid(1);

void MessageQueueService::_shutdown_incoming_queue(void)

{

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msg->op = get_op();

msg->op->_request.insert_first(msg);

msg->op->_op_dest = this;

_incoming.insert_last_wait(msg->op);

msg->op->_client_sem.wait();

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msg->op = 0;

delete msg;

_req_thread.join();

}

void MessageQueueService::enqueue(Message *msg) throw(IPCException)

{

PEG_METHOD_ENTER(TRC_MESSAGEQUEUESERVICE, "MessageQueueService::enqueue()");

Base::enqueue(msg);

PEG_METHOD_EXIT();

}

PEGASUS_THREAD_RETURN PEGASUS_THREAD_CDECL MessageQueueService::_req_proc(void * parm)

{

Thread *myself = reinterpret_cast<Thread *>(parm);

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}

// callback function is responsible for cleaning up all resources

// including op, op->_callback_node, and op->_callback_ptr

void MessageQueueService::_handle_async_callback(AsyncOpNode *op)

{

// note that _callback_node may be different from op

// op->_callback_q is a "this" pointer we can use for static callback methods

op->_async_callback(op->_callback_node, op->_callback_q, op->_callback_ptr);

}

void MessageQueueService::_handle_incoming_operation(AsyncOpNode *operation,

Thread *thread,

MessageQueue *queue)

{

if ( operation != 0 )

{

// ATTN: optimization

// << Tue Feb 19 14:10:38 2002 mdd >>

operation->lock();

Message *rq = operation->_request.next(0);

// divert legacy messages to handleEnqueue

if ((rq != 0) && (!(rq->getMask() & message_mask::ha_async)))

{

rq = operation->_request.remove_first() ;

operation->unlock();

// delete the op node

delete operation;

handleEnqueue(rq);

return;

}

if ( operation->_state & ASYNC_OPFLAGS_CALLBACK &&

(operation->_state & ASYNC_OPSTATE_COMPLETE))

{

operation->unlock();

_handle_async_callback(operation);

}

else

{

PEGASUS_ASSERT(rq != 0 );

PEGASUS_ASSERT(rq->getMask() & message_mask::ha_async );

// ATTN: optimization

PEGASUS_ASSERT(rq->getMask() & message_mask::ha_request);

// << Wed Mar 6 15:00:39 2002 mdd >>

static_cast<AsyncMessage *>(rq)->_myself = thread;

// put thread and queue into the asyncopnode structure.

static_cast<AsyncMessage *>(rq)->_service = queue;

(static_cast<AsyncMessage *>(rq))->_myself = thread;

(static_cast<AsyncMessage *>(rq))->_service = queue;

operation->unlock();

_handle_async_request(static_cast<AsyncRequest *>(rq));

}

return;

}

void MessageQueueService::_handle_async_request(AsyncRequest *req)

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else if (type == async_messages::CIMSERVICE_STOP)

handle_CimServiceStop(static_cast<CimServiceStop *>(req));

else if (type == async_messages::CIMSERVICE_PAUSE)

{

handle_CimServicePause(static_cast<CimServicePause *>(req));

}

else if (type == async_messages::CIMSERVICE_RESUME)

handle_CimServiceResume(static_cast<CimServiceResume *>(req));

else if ( type == async_messages::ASYNC_OP_START)

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}

void MessageQueueService::_make_response(AsyncRequest *req, Uint32 code)

Boolean MessageQueueService::_enqueueResponse(

Message* request,

Message* response)

{

AsyncReply *reply =

new AsyncReply(async_messages::REPLY,

if( request->getMask() & message_mask::ha_async)

req->getKey(),

{

req->getRouting(),

if (response->getMask() & message_mask::ha_async )

{

req->op,

_completeAsyncResponse(static_cast<AsyncRequest *>(request),

code,

static_cast<AsyncReply *>(response),

req->resp,

ASYNC_OPSTATE_COMPLETE, 0 );

false);

return true;

_completeAsyncResponse(req, reply, ASYNC_OPSTATE_COMPLETE, 0 );

}

if(request->_async != 0 )

{

Uint32 mask = request->_async->getMask();

PEGASUS_ASSERT(mask & (message_mask::ha_async | message_mask::ha_request ));

AsyncRequest *async = static_cast<AsyncRequest *>(request->_async);

AsyncOpNode *op = async->op;

request->_async = 0;

// this request is probably going to be deleted !!

// remove it from the op node

op->_request.remove(request);

AsyncLegacyOperationResult *async_result =

new AsyncLegacyOperationResult(

async->getKey(),

async->getRouting(),

op,

response);

_completeAsyncResponse(async,

async_result,

ASYNC_OPSTATE_COMPLETE,

0);

return true;

}

// ensure that the destination queue is in response->dest

return SendForget(response);

}

void MessageQueueService::_make_response(Message *req, Uint32 code)

{

cimom::_make_response(req, code);

}

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Uint32 state,

Uint32 flag)

{

PEGASUS_ASSERT(request != 0 && reply != 0 );

cimom::_completeAsyncResponse(request, reply, state, flag);

AsyncOpNode *op = request->op;

op->lock();

op->_state |= state ;

op->_flags |= flag;

gettimeofday(&(op->_updated), NULL);

if ( false == op->_response.exists(reinterpret_cast<void *>(reply)) )

op->_response.insert_last(reply);

op->unlock();

op->_client_sem.signal();

}

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if (_incoming_queue_shutdown.value() > 0 )

return false;

// ATTN optimization remove the message checking altogether in the base

// << Mon Feb 18 14:02:20 2002 mdd >>

op->lock();

Message *rq = op->_request.next(0);

Message *rp = op->_response.next(0);

op->unlock();

if( true == messageOK(rq) && _die.value() == 0 )

if( (rq != 0 && (true == messageOK(rq))) || (rp != 0 && ( true == messageOK(rp) )) &&

_die.value() == 0 )

{

_incoming.insert_last_wait(op);

return true;

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{

if (_incoming_queue_shutdown.value() > 0 )

return false;

if ( msg != 0 )

{

Uint32 mask = msg->getMask();

if ( mask & message_mask::ha_async)

if ( mask & message_mask::ha_request)

return true;

}

return false;

}

void MessageQueueService::handleEnqueue(void)

// made pure virtual

{

// << Wed Mar 6 15:11:31 2002 mdd >>

Message *msg = dequeue();

// void MessageQueueService::handleEnqueue(Message *msg)

if( msg )

// {

{

// if ( msg )

delete msg;

// delete msg;

}

// }

}

// made pure virtual

// << Wed Mar 6 15:11:56 2002 mdd >>

// void MessageQueueService::handleEnqueue(void)

// {

// Message *msg = dequeue();

// handleEnqueue(msg);

// }

void MessageQueueService::handle_heartbeat_request(AsyncRequest *req)

{

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void MessageQueueService::handle_AsyncOperationResult(AsyncOperationResult *req)

{

;

}

void MessageQueueService::handle_AsyncLegacyOperationStart(AsyncLegacyOperationStart *req)

{

// remove the legacy message from the request and enqueue it to its destination

Uint32 result = async_results::CIM_NAK;

Message *legacy = req->_act;

if ( legacy != 0 )

{

MessageQueue* queue = MessageQueue::lookup(req->_legacy_destination);

if( queue != 0 )

{

if(queue->isAsync() == true )

{

(static_cast<MessageQueueService *>(queue))->handleEnqueue(legacy);

}

else

{

// Enqueue the response:

queue->enqueue(req->get_action());

}

result = async_results::OK;

}

_make_response(req, result);

}

void MessageQueueService::handle_AsyncLegacyOperationResult(AsyncLegacyOperationResult *rep)

{

;

}

AsyncOpNode *MessageQueueService::get_op(void)

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}

Boolean MessageQueueService::ForwardOp(AsyncOpNode *op,

Uint32 destination)

{

PEGASUS_ASSERT(op != 0 );

op->lock();

op->_op_dest = MessageQueue::lookup(destination);

op->_flags |= (ASYNC_OPFLAGS_FIRE_AND_FORGET | ASYNC_OPFLAGS_FORWARD);

op->_flags &= ~(ASYNC_OPFLAGS_CALLBACK);

op->unlock();

if ( op->_op_dest == 0 )

return false;

return _meta_dispatcher->route_async(op);

}

Boolean MessageQueueService::SendAsync(AsyncOpNode *op,

Uint32 destination,

void (*callback)(AsyncOpNode *,

MessageQueue *,

void *),

MessageQueue *callback_response_q,

void *callback_ptr)

{

PEGASUS_ASSERT(op != 0 && callback != 0 );

// get the queue handle for the destination

op->lock();

op->_op_dest = MessageQueue::lookup(destination);

op->_flags |= ASYNC_OPFLAGS_CALLBACK;

op->_flags &= ~(ASYNC_OPFLAGS_FIRE_AND_FORGET);

op->_state &= ~ASYNC_OPSTATE_COMPLETE;

// initialize the callback data

op->_async_callback = callback;

op->_callback_node = op;

op->_callback_response_q = callback_response_q;

op->_callback_ptr = callback_ptr;

op->_callback_q = this;

op->unlock();

if(op->_op_dest == 0)

return false;

return _meta_dispatcher->route_async(op);

}

Boolean MessageQueueService::SendForget(Message *msg)

{

AsyncOpNode *op = 0;

Uint32 mask = msg->getMask();

if (mask & message_mask::ha_async)

{

op = (static_cast<AsyncMessage *>(msg))->op ;

}

if( op == 0 )

{

op = get_op();

op->_request.insert_first(msg);

if (mask & message_mask::ha_async)

(static_cast<AsyncMessage *>(msg))->op = op;

}

op->lock();

op->_op_dest = MessageQueue::lookup(msg->dest);

op->_flags |= ASYNC_OPFLAGS_FIRE_AND_FORGET;

op->_flags &= ~(ASYNC_OPFLAGS_CALLBACK | ASYNC_OPFLAGS_SIMPLE_STATUS);

op->_state &= ~ASYNC_OPSTATE_COMPLETE;

op->unlock();

if ( op->_op_dest == 0 )

return false;

// now see if the meta dispatcher will take it

return _meta_dispatcher->route_async(op);

}

AsyncReply *MessageQueueService::SendWait(AsyncRequest *request)

{

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}

request->block = true;

request->op->lock();

request->op->_state &= ~ASYNC_OPSTATE_COMPLETE;

request->op->put_response(0);

request->op->_flags &= ~ASYNC_OPFLAGS_CALLBACK;

request->op->_op_dest = MessageQueue::lookup(request->dest);

request->op->unlock();

// first link it on our pending list

if ( request->op->_op_dest == 0 )

// _pending.insert_last_wait(request->op);

return 0;

// now see if the meta dispatcher will take it

if (true == _meta_dispatcher->route_async(request->op))

{

request->op->_client_sem.wait();

PEGASUS_ASSERT(request->op->_state & ASYNC_OPSTATE_COMPLETE);

}

request->op->lock();

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request->op->_request.remove(request);

request->op->_state |= ASYNC_OPSTATE_RELEASED;

request->op->unlock();

return_op(request->op);

request->op = 0;

}

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{

if(reply->getMask() & message_mask::ha_reply)

{

if(reply->result == async_results::OK)

if(reply->result == async_results::OK ||

reply->result == async_results::MODULE_ALREADY_REGISTERED )

registered = true;

}

Legend:

Removed from v.1.13
changed lines
	Added in v.1.30

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