version 1.88, 2004/10/17 20:39:17
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version 1.166.2.1, 2009/11/18 14:00:32
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//%2004//////////////////////////////////////////////////////////////////////// |
//%LICENSE//////////////////////////////////////////////////////////////// |
// | // |
// Copyright (c) 2000, 2001, 2002 BMC Software; Hewlett-Packard Development |
// Licensed to The Open Group (TOG) under one or more contributor license |
// Company, L.P.; IBM Corp.; The Open Group; Tivoli Systems. |
// agreements. Refer to the OpenPegasusNOTICE.txt file distributed with |
// Copyright (c) 2003 BMC Software; Hewlett-Packard Development Company, L.P.; |
// this work for additional information regarding copyright ownership. |
// IBM Corp.; EMC Corporation, The Open Group. |
// Each contributor licenses this file to you under the OpenPegasus Open |
// Copyright (c) 2004 BMC Software; Hewlett-Packard Development Company, L.P.; |
// Source License; you may not use this file except in compliance with the |
// IBM Corp.; EMC Corporation; VERITAS Software Corporation; The Open Group. |
// License. |
// | // |
// Permission is hereby granted, free of charge, to any person obtaining a copy |
// Permission is hereby granted, free of charge, to any person obtaining a |
// of this software and associated documentation files (the "Software"), to |
// copy of this software and associated documentation files (the "Software"), |
// deal in the Software without restriction, including without limitation the |
// to deal in the Software without restriction, including without limitation |
// rights to use, copy, modify, merge, publish, distribute, sublicense, and/or |
// the rights to use, copy, modify, merge, publish, distribute, sublicense, |
// sell copies of the Software, and to permit persons to whom the Software is |
// and/or sell copies of the Software, and to permit persons to whom the |
// furnished to do so, subject to the following conditions: |
// Software is furnished to do so, subject to the following conditions: |
// | // |
// THE ABOVE COPYRIGHT NOTICE AND THIS PERMISSION NOTICE SHALL BE INCLUDED IN |
// The above copyright notice and this permission notice shall be included |
// ALL COPIES OR SUBSTANTIAL PORTIONS OF THE SOFTWARE. THE SOFTWARE IS PROVIDED |
// in all copies or substantial portions of the Software. |
// "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT |
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// LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR |
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// PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT |
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// HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN |
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// ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION |
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// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. |
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// | // |
//============================================================================== |
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS |
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// OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF |
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// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. |
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// IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY |
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// CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, |
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// TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE |
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// SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. |
// | // |
// Author: Mike Day (mdday@us.ibm.com) |
////////////////////////////////////////////////////////////////////////// |
// |
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// Modified By: |
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// Amit K Arora, IBM (amita@in.ibm.com) for Bug#1090 |
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// | // |
//%///////////////////////////////////////////////////////////////////////////// | //%///////////////////////////////////////////////////////////////////////////// |
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#include "MessageQueueService.h" | #include "MessageQueueService.h" |
#include <Pegasus/Common/Tracer.h> | #include <Pegasus/Common/Tracer.h> |
#include <Pegasus/Common/MessageLoader.h> //l10n |
#include <Pegasus/Common/MessageLoader.h> |
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PEGASUS_NAMESPACE_BEGIN |
PEGASUS_USING_STD; |
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PEGASUS_NAMESPACE_BEGIN |
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cimom *MessageQueueService::_meta_dispatcher = 0; | cimom *MessageQueueService::_meta_dispatcher = 0; |
AtomicInt MessageQueueService::_service_count = 0; |
AtomicInt MessageQueueService::_service_count(0); |
AtomicInt MessageQueueService::_xid(1); |
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Mutex MessageQueueService::_meta_dispatcher_mutex; | Mutex MessageQueueService::_meta_dispatcher_mutex; |
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static struct timeval create_time = {0, 1}; |
static struct timeval deallocateWait = {300, 0}; |
static struct timeval destroy_time = {300, 0}; |
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static struct timeval deadlock_time = {0, 0}; |
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ThreadPool *MessageQueueService::_thread_pool = 0; | ThreadPool *MessageQueueService::_thread_pool = 0; |
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DQueue<MessageQueueService> MessageQueueService::_polling_list(true); |
MessageQueueService::PollingList* MessageQueueService::_polling_list; |
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Mutex MessageQueueService::_polling_list_mutex; |
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Thread* MessageQueueService::_polling_thread = 0; | Thread* MessageQueueService::_polling_thread = 0; |
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ThreadPool *MessageQueueService::get_thread_pool(void) |
ThreadPool *MessageQueueService::get_thread_pool() |
{ | { |
return _thread_pool; | return _thread_pool; |
} | } |
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PEGASUS_THREAD_RETURN PEGASUS_THREAD_CDECL MessageQueueService::kill_idle_threads(void *parm) |
// |
{ |
// MAX_THREADS_PER_SVC_QUEUE |
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// |
static struct timeval now, last = {0,0}; |
// JR Wunderlich Jun 6, 2005 |
gettimeofday(&now, NULL); |
// |
int dead_threads = 0; |
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if( now.tv_sec - last.tv_sec > 120 ) |
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{ |
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gettimeofday(&last, NULL); |
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try |
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{ |
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dead_threads = MessageQueueService::_thread_pool->kill_dead_threads(); |
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} |
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catch(...) |
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{ |
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} |
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} |
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return (PEGASUS_THREAD_RETURN)dead_threads; |
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} |
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void MessageQueueService::force_shutdown(Boolean destroy_flag) |
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{ |
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return; |
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#ifdef MESSAGEQUEUESERVICE_DEBUG |
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//l10n |
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MessageLoaderParms parms("Common.MessageQueueService.FORCING_SHUTDOWN", |
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"Forcing shutdown of CIMOM Message Router"); |
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PEGASUS_STD(cout) << MessageLoader::getMessage(parms) << PEGASUS_STD(endl); |
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#endif |
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MessageQueueService *svc; |
#define MAX_THREADS_PER_SVC_QUEUE_LIMIT 5000 |
int counter = 0; |
#define MAX_THREADS_PER_SVC_QUEUE_DEFAULT 5 |
_polling_list.lock(); |
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svc = _polling_list.next(0); |
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while(svc != 0) |
#ifndef MAX_THREADS_PER_SVC_QUEUE |
{ |
# define MAX_THREADS_PER_SVC_QUEUE MAX_THREADS_PER_SVC_QUEUE_DEFAULT |
#ifdef MESSAGEQUEUESERVICE_DEBUG |
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//l10n - reuse same MessageLoaderParms to avoid multiple creates |
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parms.msg_id = "Common.MessageQueueService.STOPPING_SERVICE"; |
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parms.default_msg = "Stopping $0"; |
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parms.arg0 = svc->getQueueName(); |
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PEGASUS_STD(cout) << MessageLoader::getMessage(parms) << PEGASUS_STD(endl); |
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#endif | #endif |
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_polling_sem.signal(); |
Uint32 max_threads_per_svc_queue; |
svc->_shutdown_incoming_queue(); |
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counter++; |
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_polling_sem.signal(); |
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svc = _polling_list.next(svc); |
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} |
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_polling_list.unlock(); |
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_polling_sem.signal(); |
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MessageQueueService::_stop_polling = 1; |
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if(destroy_flag == true) |
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{ |
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svc = _polling_list.remove_last(); |
ThreadReturnType PEGASUS_THREAD_CDECL MessageQueueService::polling_routine( |
while(svc) |
void* parm) |
{ | { |
delete svc; |
Thread *myself = reinterpret_cast<Thread *>(parm); |
svc = _polling_list.remove_last(); |
MessageQueueService::PollingList *list = |
} |
reinterpret_cast<MessageQueueService::PollingList*>(myself->get_parm()); |
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} |
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} |
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PEGASUS_THREAD_RETURN PEGASUS_THREAD_CDECL MessageQueueService::polling_routine(void *parm) |
try |
{ | { |
Thread *myself = reinterpret_cast<Thread *>(parm); |
while (_stop_polling.get() == 0) |
DQueue<MessageQueueService> *list = reinterpret_cast<DQueue<MessageQueueService> *>(myself->get_parm()); |
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while ( _stop_polling.value() == 0 ) |
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{ | { |
_polling_sem.wait(); | _polling_sem.wait(); |
if(_stop_polling.value() != 0 ) |
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if (_stop_polling.get() != 0) |
{ | { |
break; | break; |
} | } |
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list->lock(); |
// The polling_routine thread must hold the lock on the |
MessageQueueService *service = list->next(0); |
// _polling_list while processing incoming messages. |
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// This lock is used to give this thread ownership of |
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// services on the _polling_routine list. |
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// This is necessary to avoid confict with other threads |
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// processing the _polling_list |
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// (e.g., MessageQueueServer::~MessageQueueService). |
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_polling_list_mutex.lock(); |
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MessageQueueService *service = list->front(); |
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ThreadStatus rtn = PEGASUS_THREAD_OK; |
while(service != NULL) | while(service != NULL) |
{ | { |
if(service->_incoming.count() > 0 ) |
if ((service->_incoming.count() > 0) && |
{ |
(service->_die.get() == 0) && |
_thread_pool->allocate_and_awaken(service, _req_proc); |
(service->_threads.get() < max_threads_per_svc_queue)) |
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{ |
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// The _threads count is used to track the |
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// number of active threads that have been allocated |
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// to process messages for this service. |
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// The _threads count MUST be incremented while |
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// the polling_routine owns the _polling_thread |
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// lock and has ownership of the service object. |
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service->_threads++; |
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rtn = _thread_pool->allocate_and_awaken( |
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service, _req_proc, &_polling_sem); |
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// if no more threads available, break from processing loop |
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if (rtn != PEGASUS_THREAD_OK ) |
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{ |
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service->_threads--; |
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PEG_TRACE((TRC_MESSAGEQUEUESERVICE, Tracer::LEVEL1, |
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"Could not allocate thread for %s. Queue has %d " |
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"messages waiting and %d threads servicing." |
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"Skipping the service for right now. ", |
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service->getQueueName(), |
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service->_incoming.count(), |
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service->_threads.get())); |
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Threads::yield(); |
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break; |
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} |
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} |
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service = list->next_of(service); |
} | } |
service = list->next(service); |
_polling_list_mutex.unlock(); |
} | } |
list->unlock(); |
} |
if(_check_idle_flag.value() != 0 ) |
catch(const Exception &e) |
{ | { |
_check_idle_flag = 0; |
PEG_TRACE((TRC_MESSAGEQUEUESERVICE,Tracer::LEVEL1, |
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"Exception caught in MessageQueueService::polling_routine : %s", |
// If there are insufficent resources to run |
(const char*)e.getMessage().getCString())); |
// kill_idle_threads, then just return. |
} |
_thread_pool->allocate_and_awaken(service, kill_idle_threads); |
catch(const exception &e) |
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{ |
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PEG_TRACE((TRC_MESSAGEQUEUESERVICE,Tracer::LEVEL1, |
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"Exception caught in MessageQueueService::polling_routine : %s", |
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e.what())); |
} | } |
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catch(...) |
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{ |
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PEG_TRACE_CSTRING(TRC_MESSAGEQUEUESERVICE,Tracer::LEVEL1, |
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"Unknown Exception caught in MessageQueueService::polling_routine"); |
} | } |
myself->exit_self( (PEGASUS_THREAD_RETURN) 1 ); |
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return(0); |
PEGASUS_ASSERT(_stop_polling.get()); |
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return ThreadReturnType(0); |
} | } |
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Semaphore MessageQueueService::_polling_sem(0); | Semaphore MessageQueueService::_polling_sem(0); |
AtomicInt MessageQueueService::_stop_polling(0); | AtomicInt MessageQueueService::_stop_polling(0); |
AtomicInt MessageQueueService::_check_idle_flag(0); |
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MessageQueueService::MessageQueueService(const char *name, |
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Uint32 queueID, |
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Uint32 capabilities, |
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Uint32 mask) |
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: Base(name, true, queueID), |
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_mask(mask), |
MessageQueueService::MessageQueueService( |
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const char* name) |
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: Base(name), |
_die(0), | _die(0), |
_incoming(true, 0), |
_threads(0), |
_callback(true), |
_incoming(), |
_incoming_queue_shutdown(0), |
_incoming_queue_shutdown(0) |
_callback_ready(0), |
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_req_thread(_req_proc, this, false), |
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_callback_thread(_callback_proc, this, false) |
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{ | { |
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_isRunning = true; |
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max_threads_per_svc_queue = MAX_THREADS_PER_SVC_QUEUE; |
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// if requested thread max is out of range, then set to |
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// MAX_THREADS_PER_SVC_QUEUE_LIMIT |
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_capabilities = (capabilities | module_capabilities::async); |
if ((max_threads_per_svc_queue < 1) || |
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(max_threads_per_svc_queue > MAX_THREADS_PER_SVC_QUEUE_LIMIT)) |
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{ |
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max_threads_per_svc_queue = MAX_THREADS_PER_SVC_QUEUE_LIMIT; |
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} |
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_default_op_timeout.tv_sec = 30; |
PEG_TRACE((TRC_MESSAGEQUEUESERVICE, Tracer::LEVEL3, |
_default_op_timeout.tv_usec = 100; |
"max_threads_per_svc_queue set to %u.", max_threads_per_svc_queue)); |
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AutoMutex autoMut(_meta_dispatcher_mutex); | AutoMutex autoMut(_meta_dispatcher_mutex); |
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if( _meta_dispatcher == 0 ) | if( _meta_dispatcher == 0 ) |
{ | { |
PEGASUS_ASSERT( _service_count.value() == 0 ); |
_stop_polling = 0; |
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PEGASUS_ASSERT(_service_count.get() == 0); |
_meta_dispatcher = new cimom(); | _meta_dispatcher = new cimom(); |
if (_meta_dispatcher == NULL ) |
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{ |
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throw NullPointer(); |
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} |
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_thread_pool = new ThreadPool(0, "MessageQueueService", 0, 0, |
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create_time, destroy_time, deadlock_time); |
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_polling_thread = new Thread(polling_routine, |
// _thread_pool = new ThreadPool(initial_cnt, "MessageQueueService", |
reinterpret_cast<void *>(&_polling_list), |
// minimum_cnt, maximum_cnt, deallocateWait); |
false); |
// |
while (!_polling_thread->run()) |
_thread_pool = |
{ |
new ThreadPool(0, "MessageQueueService", 0, 0, deallocateWait); |
pegasus_yield(); |
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} |
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} | } |
_service_count++; | _service_count++; |
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if( false == register_service(name, _capabilities, _mask) ) |
// Add to the polling list |
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if (!_polling_list) |
{ | { |
//l10n |
_polling_list = new PollingList; |
//throw BindFailedException("MessageQueueService Base Unable to register with Meta Dispatcher"); |
} |
MessageLoaderParms parms("Common.MessageQueueService.UNABLE_TO_REGISTER", |
_polling_list->insert_back(this); |
"MessageQueueService Base Unable to register with Meta Dispatcher"); |
_meta_dispatcher->registerCIMService(this); |
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throw BindFailedException(parms); |
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} | } |
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_polling_list.insert_last(this); |
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// _meta_dispatcher_mutex.unlock(); //Bug#1090 |
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// _callback_thread.run(); |
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// _req_thread.run(); |
MessageQueueService::~MessageQueueService() |
} |
{ |
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// Close incoming queue. |
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if (_incoming_queue_shutdown.get() == 0) |
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{ |
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AsyncIoClose *msg = new AsyncIoClose( |
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0, |
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_queueId); |
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MessageQueueService::~MessageQueueService(void) |
SendForget(msg); |
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// Wait until our queue has been shutdown. |
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while (_incoming_queue_shutdown.get() == 0) |
{ | { |
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Threads::yield(); |
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} |
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} |
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// die now. |
_die = 1; | _die = 1; |
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if (_incoming_queue_shutdown.value() == 0 ) |
_meta_dispatcher->deregisterCIMService(this); |
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// Wait until all threads processing the messages |
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// for this service have completed. |
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while (_threads.get() > 0) |
{ | { |
_shutdown_incoming_queue(); |
Threads::yield(); |
} | } |
_callback_ready.signal(); |
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// The polling_routine locks the _polling_list while |
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// processing the incoming messages for services on the |
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// list. Deleting the service from the _polling_list |
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// prior to processing, avoids synchronization issues |
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// with the _polling_routine. |
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_removeFromPollingList(this); |
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{ | { |
AutoMutex autoMut(_meta_dispatcher_mutex); | AutoMutex autoMut(_meta_dispatcher_mutex); |
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_service_count--; | _service_count--; |
if (_service_count.value() == 0 ) |
// If we are last service to die, delete metadispatcher. |
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if (_service_count.get() == 0) |
{ | { |
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_stop_polling++; | _stop_polling++; |
_polling_sem.signal(); | _polling_sem.signal(); |
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if (_polling_thread) |
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{ |
_polling_thread->join(); | _polling_thread->join(); |
delete _polling_thread; | delete _polling_thread; |
_polling_thread = 0; | _polling_thread = 0; |
_meta_dispatcher->_shutdown_routed_queue(); |
} |
delete _meta_dispatcher; | delete _meta_dispatcher; |
_meta_dispatcher = 0; | _meta_dispatcher = 0; |
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delete _thread_pool; | delete _thread_pool; |
_thread_pool = 0; | _thread_pool = 0; |
} | } |
} // mutex unlocks here |
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_polling_list.remove(this); |
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// Clean up in case there are extra stuff on the queue. |
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while (_incoming.count()) |
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{ |
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delete _incoming.remove_first(); |
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} |
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} | } |
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void MessageQueueService::_shutdown_incoming_queue(void) |
// Clean up any extra stuff on the queue. |
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AsyncOpNode* op = 0; |
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while ((op = _incoming.dequeue())) |
{ | { |
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delete op; |
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} |
if (_incoming_queue_shutdown.value() > 0 ) |
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return ; |
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AsyncIoctl *msg = new AsyncIoctl(get_next_xid(), |
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0, |
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_queueId, |
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_queueId, |
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true, |
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AsyncIoctl::IO_CLOSE, |
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0, |
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0); |
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msg->op = get_op(); |
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msg->op->_flags |= ASYNC_OPFLAGS_FIRE_AND_FORGET; |
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msg->op->_flags &= ~(ASYNC_OPFLAGS_CALLBACK | ASYNC_OPFLAGS_SAFE_CALLBACK |
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| ASYNC_OPFLAGS_SIMPLE_STATUS); |
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msg->op->_state &= ~ASYNC_OPSTATE_COMPLETE; |
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msg->op->_op_dest = this; |
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msg->op->_request.insert_first(msg); |
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_incoming.insert_last_wait(msg->op); |
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} | } |
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void MessageQueueService::enqueue(Message *msg) | void MessageQueueService::enqueue(Message *msg) |
{ | { |
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} | } |
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PEGASUS_THREAD_RETURN PEGASUS_THREAD_CDECL MessageQueueService::_callback_proc(void *parm) |
ThreadReturnType PEGASUS_THREAD_CDECL MessageQueueService::_req_proc( |
{ |
void* parm) |
Thread *myself = reinterpret_cast<Thread *>(parm); |
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MessageQueueService *service = reinterpret_cast<MessageQueueService *>(myself->get_parm()); |
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AsyncOpNode *operation = 0; |
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while ( service->_die.value() == 0 ) |
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{ | { |
service->_callback_ready.wait(); |
MessageQueueService* service = |
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reinterpret_cast<MessageQueueService*>(parm); |
service->_callback.lock(); |
PEGASUS_ASSERT(service != 0); |
operation = service->_callback.next(0); |
try |
while( operation != NULL) |
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{ | { |
if( ASYNC_OPSTATE_COMPLETE & operation->read_state()) |
if (service->_die.get() != 0) |
{ | { |
operation = service->_callback.remove_no_lock(operation); |
service->_threads--; |
PEGASUS_ASSERT(operation != NULL); |
return 0; |
operation->_thread_ptr = myself; |
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operation->_service_ptr = service; |
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service->_handle_async_callback(operation); |
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break; |
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} |
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operation = service->_callback.next(operation); |
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} |
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service->_callback.unlock(); |
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} |
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myself->exit_self( (PEGASUS_THREAD_RETURN) 1 ); |
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return(0); |
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} | } |
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PEGASUS_THREAD_RETURN PEGASUS_THREAD_CDECL MessageQueueService::_req_proc(void * parm) |
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{ |
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MessageQueueService *service = reinterpret_cast<MessageQueueService *>(parm); |
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// pull messages off the incoming queue and dispatch them. then | // pull messages off the incoming queue and dispatch them. then |
// check pending messages that are non-blocking | // check pending messages that are non-blocking |
AsyncOpNode *operation = 0; | AsyncOpNode *operation = 0; |
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if ( service->_die.value() == 0 ) |
// many operations may have been queued. |
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do |
{ | { |
try |
operation = service->_incoming.dequeue(); |
{ |
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operation = service->_incoming.remove_first(); |
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} |
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catch(ListClosed & ) |
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{ |
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operation = 0; |
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return(0); |
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} |
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if( operation ) | if( operation ) |
{ | { |
operation->_service_ptr = service; |
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service->_handle_incoming_operation(operation); | service->_handle_incoming_operation(operation); |
} | } |
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} while (operation && !service->_incoming_queue_shutdown.get()); |
} | } |
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catch (const Exception& e) |
return(0); |
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} |
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Uint32 MessageQueueService::get_pending_callback_count(void) |
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{ | { |
return _callback.count(); |
PEG_TRACE((TRC_DISCARDED_DATA, Tracer::LEVEL1, |
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"Caught exception: \"%s\". Exiting _req_proc.", |
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(const char*)e.getMessage().getCString())); |
} | } |
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catch (...) |
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void MessageQueueService::_sendwait_callback(AsyncOpNode *op, |
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MessageQueue *q, |
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void *parm) |
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{ | { |
op->_client_sem.signal(); |
PEG_TRACE_CSTRING(TRC_DISCARDED_DATA, Tracer::LEVEL1, |
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"Caught unrecognized exception. Exiting _req_proc."); |
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} |
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service->_threads--; |
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return 0; |
} | } |
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// callback function is responsible for cleaning up all resources | // callback function is responsible for cleaning up all resources |
// including op, op->_callback_node, and op->_callback_ptr | // including op, op->_callback_node, and op->_callback_ptr |
void MessageQueueService::_handle_async_callback(AsyncOpNode *op) | void MessageQueueService::_handle_async_callback(AsyncOpNode *op) |
{ | { |
if( op->_flags & ASYNC_OPFLAGS_SAFE_CALLBACK ) |
PEGASUS_ASSERT(op->_flags == ASYNC_OPFLAGS_CALLBACK); |
{ |
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Message *msg = op->get_request(); |
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if( msg && ( msg->getMask() & message_mask::ha_async)) |
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{ |
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if(msg->getType() == async_messages::ASYNC_LEGACY_OP_START ) |
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{ |
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AsyncLegacyOperationStart *wrapper = |
|
static_cast<AsyncLegacyOperationStart *>(msg); |
|
msg = wrapper->get_action(); |
|
delete wrapper; |
|
} |
|
else if (msg->getType() == async_messages::ASYNC_MODULE_OP_START) |
|
{ |
|
AsyncModuleOperationStart *wrapper = |
|
static_cast<AsyncModuleOperationStart *>(msg); |
|
msg = wrapper->get_action(); |
|
delete wrapper; |
|
} |
|
else if (msg->getType() == async_messages::ASYNC_OP_START) |
|
{ |
|
AsyncOperationStart *wrapper = |
|
static_cast<AsyncOperationStart *>(msg); |
|
msg = wrapper->get_action(); |
|
delete wrapper; |
|
} |
|
delete msg; |
|
} |
|
|
|
msg = op->get_response(); |
|
if( msg && ( msg->getMask() & message_mask::ha_async)) |
|
{ |
|
if(msg->getType() == async_messages::ASYNC_LEGACY_OP_RESULT ) |
|
{ |
|
AsyncLegacyOperationResult *wrapper = |
|
static_cast<AsyncLegacyOperationResult *>(msg); |
|
msg = wrapper->get_result(); |
|
delete wrapper; |
|
} |
|
else if (msg->getType() == async_messages::ASYNC_MODULE_OP_RESULT) |
|
{ |
|
AsyncModuleOperationResult *wrapper = |
|
static_cast<AsyncModuleOperationResult *>(msg); |
|
msg = wrapper->get_result(); |
|
delete wrapper; |
|
} |
|
} |
|
void (*callback)(Message *, void *, void *) = op->__async_callback; |
|
void *handle = op->_callback_handle; |
|
void *parm = op->_callback_parameter; |
|
op->release(); |
|
return_op(op); |
|
callback(msg, handle, parm); |
|
} |
|
else if( op->_flags & ASYNC_OPFLAGS_CALLBACK ) |
|
{ |
|
// note that _callback_node may be different from op | // note that _callback_node may be different from op |
// op->_callback_response_q is a "this" pointer we can use for | // op->_callback_response_q is a "this" pointer we can use for |
// static callback methods | // static callback methods |
op->_async_callback(op->_callback_node, op->_callback_response_q, op->_callback_ptr); |
op->_async_callback( |
} |
op->_callback_node, op->_callback_response_q, op->_callback_ptr); |
} | } |
| |
| |
void MessageQueueService::_handle_incoming_operation(AsyncOpNode *operation) | void MessageQueueService::_handle_incoming_operation(AsyncOpNode *operation) |
// Thread *thread, |
|
// MessageQueue *queue) |
|
{ | { |
if ( operation != 0 ) | if ( operation != 0 ) |
{ | { |
|
Message *rq = operation->_request.get(); |
// ATTN: optimization |
|
// << Tue Feb 19 14:10:38 2002 mdd >> |
|
operation->lock(); |
|
|
|
Message *rq = operation->_request.next(0); |
|
| |
// optimization <<< Thu Mar 7 21:04:05 2002 mdd >>> | // optimization <<< Thu Mar 7 21:04:05 2002 mdd >>> |
// move this to the bottom of the loop when the majority of | // move this to the bottom of the loop when the majority of |
// messages become async messages. | // messages become async messages. |
| |
// divert legacy messages to handleEnqueue | // divert legacy messages to handleEnqueue |
if ((rq != 0) && (!(rq->getMask() & message_mask::ha_async))) |
if ((rq != 0) && (!(rq->getMask() & MessageMask::ha_async))) |
{ | { |
rq = operation->_request.remove_first() ; |
operation->_request.release(); |
operation->unlock(); |
|
// delete the op node | // delete the op node |
operation->release(); |
|
return_op( operation); | return_op( operation); |
|
|
handleEnqueue(rq); | handleEnqueue(rq); |
return; | return; |
} | } |
| |
if ( (operation->_flags & ASYNC_OPFLAGS_CALLBACK || |
if ((operation->_flags & ASYNC_OPFLAGS_CALLBACK) && |
operation->_flags & ASYNC_OPFLAGS_SAFE_CALLBACK) && |
|
(operation->_state & ASYNC_OPSTATE_COMPLETE)) | (operation->_state & ASYNC_OPSTATE_COMPLETE)) |
{ | { |
|
|
operation->unlock(); |
|
_handle_async_callback(operation); | _handle_async_callback(operation); |
} | } |
else | else |
{ | { |
PEGASUS_ASSERT(rq != 0 ); | PEGASUS_ASSERT(rq != 0 ); |
operation->unlock(); |
|
_handle_async_request(static_cast<AsyncRequest *>(rq)); | _handle_async_request(static_cast<AsyncRequest *>(rq)); |
} | } |
} | } |
|
|
| |
void MessageQueueService::_handle_async_request(AsyncRequest *req) | void MessageQueueService::_handle_async_request(AsyncRequest *req) |
{ | { |
if ( req != 0 ) |
MessageType type = req->getType(); |
|
if (type == ASYNC_IOCLOSE) |
|
{ |
|
handle_AsyncIoClose(static_cast<AsyncIoClose*>(req)); |
|
} |
|
else if (type == ASYNC_CIMSERVICE_START) |
{ | { |
req->op->processing(); |
|
|
|
Uint32 type = req->getType(); |
|
if( type == async_messages::HEARTBEAT ) |
|
handle_heartbeat_request(req); |
|
else if (type == async_messages::IOCTL) |
|
handle_AsyncIoctl(static_cast<AsyncIoctl *>(req)); |
|
else if (type == async_messages::CIMSERVICE_START) |
|
handle_CimServiceStart(static_cast<CimServiceStart *>(req)); | handle_CimServiceStart(static_cast<CimServiceStart *>(req)); |
else if (type == async_messages::CIMSERVICE_STOP) |
} |
|
else if (type == ASYNC_CIMSERVICE_STOP) |
|
{ |
handle_CimServiceStop(static_cast<CimServiceStop *>(req)); | 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) |
|
handle_AsyncOperationStart(static_cast<AsyncOperationStart *>(req)); |
|
else | else |
{ | { |
// we don't handle this request message | // we don't handle this request message |
_make_response(req, async_results::CIM_NAK ); | _make_response(req, async_results::CIM_NAK ); |
} | } |
} | } |
} |
|
|
|
| |
Boolean MessageQueueService::_enqueueResponse( | Boolean MessageQueueService::_enqueueResponse( |
Message* request, | Message* request, |
Message* response) | Message* response) |
|
|
{ | { |
PEG_METHOD_ENTER(TRC_MESSAGEQUEUESERVICE, | PEG_METHOD_ENTER(TRC_MESSAGEQUEUESERVICE, |
"MessageQueueService::_enqueueResponse"); | "MessageQueueService::_enqueueResponse"); |
| |
if( request->getMask() & message_mask::ha_async) |
if (request->getMask() & MessageMask::ha_async) |
{ | { |
if (response->getMask() & message_mask::ha_async ) |
if (response->getMask() & MessageMask::ha_async) |
{ | { |
_completeAsyncResponse(static_cast<AsyncRequest *>(request), |
_completeAsyncResponse( |
static_cast<AsyncReply *>(response), |
static_cast<AsyncRequest *>(request), |
ASYNC_OPSTATE_COMPLETE, 0 ); |
static_cast<AsyncReply *>(response)); |
|
|
PEG_METHOD_EXIT(); | PEG_METHOD_EXIT(); |
return true; | return true; |
} | } |
} | } |
| |
if(request->_async != 0 ) |
AsyncRequest* asyncRequest = |
|
static_cast<AsyncRequest*>(request->get_async()); |
|
|
|
if (asyncRequest != 0) |
{ | { |
Uint32 mask = request->_async->getMask(); |
PEGASUS_ASSERT(asyncRequest->getMask() & |
PEGASUS_ASSERT(mask & (message_mask::ha_async | message_mask::ha_request )); |
(MessageMask::ha_async | MessageMask::ha_request)); |
|
|
|
AsyncOpNode* op = asyncRequest->op; |
| |
AsyncRequest *async = static_cast<AsyncRequest *>(request->_async); |
|
AsyncOpNode *op = async->op; |
|
request->_async = 0; |
|
// the legacy request is going to be deleted by its handler | // the legacy request is going to be deleted by its handler |
// remove it from the op node | // remove it from the op node |
| |
static_cast<AsyncLegacyOperationStart *>(async)->get_action(); |
static_cast<AsyncLegacyOperationStart *>(asyncRequest)->get_action(); |
|
|
| |
AsyncLegacyOperationResult *async_result = | AsyncLegacyOperationResult *async_result = |
new AsyncLegacyOperationResult( | new AsyncLegacyOperationResult( |
async->getKey(), |
|
async->getRouting(), |
|
op, | op, |
response); | response); |
_completeAsyncResponse(async, |
_completeAsyncResponse( |
async_result, |
asyncRequest, |
ASYNC_OPSTATE_COMPLETE, |
async_result); |
0); |
|
PEG_METHOD_EXIT(); | PEG_METHOD_EXIT(); |
return true; | return true; |
} | } |
|
|
// ensure that the destination queue is in response->dest | // ensure that the destination queue is in response->dest |
PEG_METHOD_EXIT(); | PEG_METHOD_EXIT(); |
return SendForget(response); | return SendForget(response); |
|
|
} | } |
| |
void MessageQueueService::_make_response(Message *req, Uint32 code) | void MessageQueueService::_make_response(Message *req, Uint32 code) |
|
|
cimom::_make_response(req, code); | cimom::_make_response(req, code); |
} | } |
| |
|
void MessageQueueService::_completeAsyncResponse( |
void MessageQueueService::_completeAsyncResponse(AsyncRequest *request, |
AsyncRequest* request, |
AsyncReply *reply, |
AsyncReply* reply) |
Uint32 state, |
|
Uint32 flag) |
|
{ | { |
PEG_METHOD_ENTER(TRC_MESSAGEQUEUESERVICE, | PEG_METHOD_ENTER(TRC_MESSAGEQUEUESERVICE, |
"MessageQueueService::_completeAsyncResponse"); | "MessageQueueService::_completeAsyncResponse"); |
| |
cimom::_completeAsyncResponse(request, reply, state, flag); |
cimom::_completeAsyncResponse(request, reply); |
| |
PEG_METHOD_EXIT(); | PEG_METHOD_EXIT(); |
} | } |
| |
| |
void MessageQueueService::_complete_op_node(AsyncOpNode *op, |
void MessageQueueService::_complete_op_node( |
Uint32 state, |
AsyncOpNode* op) |
Uint32 flag, |
|
Uint32 code) |
|
{ | { |
cimom::_complete_op_node(op, state, flag, code); |
cimom::_complete_op_node(op); |
} | } |
| |
| |
Boolean MessageQueueService::accept_async(AsyncOpNode *op) | Boolean MessageQueueService::accept_async(AsyncOpNode *op) |
{ | { |
if (_incoming_queue_shutdown.value() > 0 ) |
if (!_isRunning) |
return false; |
{ |
|
// Don't accept any messages other than start. |
// ATTN optimization remove the message checking altogether in the base |
if (op->_request.get()->getType() != ASYNC_CIMSERVICE_START) |
// << 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( (rq != 0 && (true == messageOK(rq))) || (rp != 0 && ( true == messageOK(rp) )) && |
|
_die.value() == 0 ) |
|
{ | { |
_incoming.insert_last_wait(op); |
|
_polling_sem.signal(); |
|
return true; |
|
} |
|
return false; | return false; |
} | } |
|
} |
| |
Boolean MessageQueueService::messageOK(const Message *msg) |
if (_incoming_queue_shutdown.get() > 0) |
{ |
|
if (_incoming_queue_shutdown.value() > 0 ) |
|
return false; | return false; |
return true; |
|
} |
|
| |
void MessageQueueService::handle_heartbeat_request(AsyncRequest *req) |
if (_polling_thread == NULL) |
{ | { |
// default action is to echo a heartbeat response |
PEGASUS_ASSERT(_polling_list); |
|
_polling_thread = new Thread( |
AsyncReply *reply = |
polling_routine, |
new AsyncReply(async_messages::HEARTBEAT, |
reinterpret_cast<void *>(_polling_list), |
req->getKey(), |
|
req->getRouting(), |
|
0, |
|
req->op, |
|
async_results::OK, |
|
req->resp, |
|
false); | false); |
_completeAsyncResponse(req, reply, ASYNC_OPSTATE_COMPLETE, 0 ); |
ThreadStatus tr = PEGASUS_THREAD_OK; |
} |
while ( (tr =_polling_thread->run()) != PEGASUS_THREAD_OK) |
|
|
|
|
void MessageQueueService::handle_heartbeat_reply(AsyncReply *rep) |
|
{ | { |
; |
if (tr == PEGASUS_THREAD_INSUFFICIENT_RESOURCES) |
|
Threads::yield(); |
|
else |
|
throw Exception(MessageLoaderParms( |
|
"Common.MessageQueueService.NOT_ENOUGH_THREAD", |
|
"Could not allocate thread for the polling thread.")); |
} | } |
|
} |
void MessageQueueService::handle_AsyncIoctl(AsyncIoctl *req) |
if (_die.get() == 0) |
{ |
|
|
|
switch( req->ctl ) |
|
{ | { |
case AsyncIoctl::IO_CLOSE: |
if (_incoming.enqueue(op)) |
{ | { |
|
_polling_sem.signal(); |
|
return true; |
|
} |
|
} |
|
return false; |
|
} |
| |
MessageQueueService *service = static_cast<MessageQueueService *>(req->op->_service_ptr); |
void MessageQueueService::handle_AsyncIoClose(AsyncIoClose *req) |
|
{ |
|
MessageQueueService *service = |
|
static_cast<MessageQueueService*>(req->op->_op_dest); |
| |
#ifdef MESSAGEQUEUESERVICE_DEBUG | #ifdef MESSAGEQUEUESERVICE_DEBUG |
PEGASUS_STD(cout) << service->getQueueName() << " Received AsyncIoctl::IO_CLOSE " << PEGASUS_STD(endl); |
PEGASUS_STD(cout) << service->getQueueName() << |
|
" Received AsyncIoClose " << PEGASUS_STD(endl); |
#endif | #endif |
|
// set the closing flag, don't accept any more messages |
// respond to this message. this is fire and forget, so we don't need to delete anything. |
|
// this takes care of two problems that were being found |
|
// << Thu Oct 9 10:52:48 2003 mdd >> |
|
_make_response(req, async_results::OK); |
|
// ensure we do not accept any further messages |
|
|
|
// ensure we don't recurse on IO_CLOSE |
|
if( _incoming_queue_shutdown.value() > 0 ) |
|
break; |
|
|
|
// set the closing flag |
|
service->_incoming_queue_shutdown = 1; | service->_incoming_queue_shutdown = 1; |
// empty out the queue |
//Wait until no more threads are running in the service except ourself. |
while( 1 ) |
//Note that if we don't wait for all threads to terminate here, deletion |
|
//of this service later may destruct derived class members while still |
|
//running threads in this service trying to access them. |
|
while (service->_threads.get() > 1) |
{ | { |
AsyncOpNode *operation; |
Threads::yield(); |
try |
Threads::sleep(50); |
{ |
|
operation = service->_incoming.remove_first(); |
|
} |
|
catch(IPCException & ) |
|
{ |
|
break; |
|
} |
|
if( operation ) |
|
{ |
|
operation->_service_ptr = service; |
|
service->_handle_incoming_operation(operation); |
|
} |
|
else |
|
break; |
|
} // message processing loop |
|
|
|
// shutdown the AsyncDQueue |
|
service->_incoming.shutdown_queue(); |
|
return; |
|
} |
|
|
|
default: |
|
_make_response(req, async_results::CIM_NAK); |
|
} | } |
|
// respond to this message. this is fire and forget, so we |
|
// don't need to delete anything. |
|
// this takes care of two problems that were being found |
|
// << Thu Oct 9 10:52:48 2003 mdd >> |
|
_make_response(req, async_results::OK); |
} | } |
| |
void MessageQueueService::handle_CimServiceStart(CimServiceStart *req) | void MessageQueueService::handle_CimServiceStart(CimServiceStart *req) |
{ | { |
|
|
#ifdef MESSAGEQUEUESERVICE_DEBUG | #ifdef MESSAGEQUEUESERVICE_DEBUG |
PEGASUS_STD(cout) << getQueueName() << "received START" << PEGASUS_STD(endl); |
PEGASUS_STD(cout) << getQueueName() << "received START" << |
|
PEGASUS_STD(endl); |
#endif | #endif |
|
PEGASUS_ASSERT(!_isRunning); |
// clear the stoped bit and update |
_isRunning = true; |
_capabilities &= (~(module_capabilities::stopped)); |
|
_make_response(req, async_results::OK); | _make_response(req, async_results::OK); |
// now tell the meta dispatcher we are stopped |
|
update_service(_capabilities, _mask); |
|
|
|
} | } |
|
|
void MessageQueueService::handle_CimServiceStop(CimServiceStop *req) | void MessageQueueService::handle_CimServiceStop(CimServiceStop *req) |
{ | { |
#ifdef MESSAGEQUEUESERVICE_DEBUG | #ifdef MESSAGEQUEUESERVICE_DEBUG |
PEGASUS_STD(cout) << getQueueName() << "received STOP" << PEGASUS_STD(endl); | PEGASUS_STD(cout) << getQueueName() << "received STOP" << PEGASUS_STD(endl); |
#endif | #endif |
// set the stopeed bit and update |
PEGASUS_ASSERT(_isRunning); |
_capabilities |= module_capabilities::stopped; |
_isRunning = false; |
_make_response(req, async_results::CIM_STOPPED); |
_make_response(req, async_results::CIM_SERVICE_STOPPED); |
// now tell the meta dispatcher we are stopped |
|
update_service(_capabilities, _mask); |
|
|
|
} |
|
void MessageQueueService::handle_CimServicePause(CimServicePause *req) |
|
{ |
|
// set the paused bit and update |
|
_capabilities |= module_capabilities::paused; |
|
update_service(_capabilities, _mask); |
|
_make_response(req, async_results::CIM_PAUSED); |
|
// now tell the meta dispatcher we are stopped |
|
} |
|
void MessageQueueService::handle_CimServiceResume(CimServiceResume *req) |
|
{ |
|
// clear the paused bit and update |
|
_capabilities &= (~(module_capabilities::paused)); |
|
update_service(_capabilities, _mask); |
|
_make_response(req, async_results::OK); |
|
// now tell the meta dispatcher we are stopped |
|
} |
|
|
|
void MessageQueueService::handle_AsyncOperationStart(AsyncOperationStart *req) |
|
{ |
|
_make_response(req, async_results::CIM_NAK); |
|
} | } |
| |
void MessageQueueService::handle_AsyncOperationResult(AsyncOperationResult *req) |
AsyncOpNode* MessageQueueService::get_op() |
{ |
|
; |
|
} |
|
|
|
|
|
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) |
|
{ | { |
AsyncOpNode *op = new AsyncOpNode(); | AsyncOpNode *op = new AsyncOpNode(); |
| |
op->_state = ASYNC_OPSTATE_UNKNOWN; | op->_state = ASYNC_OPSTATE_UNKNOWN; |
op->_flags = ASYNC_OPFLAGS_SINGLE | ASYNC_OPFLAGS_NORMAL; |
op->_flags = ASYNC_OPFLAGS_UNKNOWN; |
| |
return op; | return op; |
} | } |
| |
void MessageQueueService::return_op(AsyncOpNode *op) | void MessageQueueService::return_op(AsyncOpNode *op) |
{ | { |
PEGASUS_ASSERT(op->read_state() & ASYNC_OPSTATE_RELEASED ); |
|
delete op; | delete op; |
} | } |
| |
| |
Boolean MessageQueueService::ForwardOp(AsyncOpNode *op, |
Boolean MessageQueueService::SendAsync( |
Uint32 destination) |
AsyncOpNode* op, |
{ |
|
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, | Uint32 destination, |
void (*callback)(AsyncOpNode *, |
void (*callback)(AsyncOpNode*, MessageQueue*, void*), |
MessageQueue *, |
|
void *), |
|
MessageQueue *callback_response_q, | MessageQueue *callback_response_q, |
void *callback_ptr) | void *callback_ptr) |
{ | { |
PEGASUS_ASSERT(op != 0 && callback != 0 ); |
return _sendAsync( |
|
op, |
// get the queue handle for the destination |
destination, |
|
callback, |
op->lock(); |
callback_response_q, |
op->_op_dest = MessageQueue::lookup(destination); // destination of this message |
callback_ptr, |
op->_flags |= ASYNC_OPFLAGS_CALLBACK; |
ASYNC_OPFLAGS_CALLBACK); |
op->_flags &= ~(ASYNC_OPFLAGS_FIRE_AND_FORGET); |
|
op->_state &= ~ASYNC_OPSTATE_COMPLETE; |
|
// initialize the callback data |
|
op->_async_callback = callback; // callback function to be executed by recpt. of response |
|
op->_callback_node = op; // the op node |
|
op->_callback_response_q = callback_response_q; // the queue that will receive the response |
|
op->_callback_ptr = callback_ptr; // user data for callback |
|
op->_callback_request_q = this; // I am the originator of this request |
|
|
|
op->unlock(); |
|
if(op->_op_dest == 0) |
|
return false; |
|
| |
return _meta_dispatcher->route_async(op); |
|
} | } |
| |
|
Boolean MessageQueueService::_sendAsync( |
Boolean MessageQueueService::SendAsync(Message *msg, |
AsyncOpNode* op, |
Uint32 destination, | Uint32 destination, |
void (*callback)(Message *response, |
void (*callback)(AsyncOpNode*, MessageQueue*, void*), |
void *handle, |
MessageQueue* callback_response_q, |
void *parameter), |
void* callback_ptr, |
void *handle, |
Uint32 flags) |
void *parameter) |
|
{ | { |
if(msg == NULL) |
PEGASUS_ASSERT(op != 0); |
return false; |
PEGASUS_ASSERT((callback == 0) == |
if(callback == NULL) |
(flags == ASYNC_OPFLAGS_PSEUDO_CALLBACK)); |
return SendForget(msg); |
|
AsyncOpNode *op = get_op(); |
// destination of this message |
msg->dest = destination; |
op->_op_dest = MessageQueue::lookup(destination); |
if( NULL == (op->_op_dest = MessageQueue::lookup(msg->dest))) |
if (op->_op_dest == 0) |
{ | { |
op->release(); |
|
return_op(op); |
|
return false; | return false; |
} | } |
op->_flags |= ASYNC_OPFLAGS_SAFE_CALLBACK; |
op->_flags = flags; |
op->_flags &= ~(ASYNC_OPFLAGS_FIRE_AND_FORGET); |
// initialize the callback data |
op->_state &= ~ASYNC_OPSTATE_COMPLETE; |
// callback function to be executed by recpt. of response |
op->__async_callback = callback; |
op->_async_callback = callback; |
|
// the op node |
op->_callback_node = op; | op->_callback_node = op; |
op->_callback_handle = handle; |
// the queue that will receive the response |
op->_callback_parameter = parameter; |
op->_callback_response_q = callback_response_q; |
op->_callback_response_q = this; |
// user data for callback |
|
op->_callback_ptr = callback_ptr; |
| |
|
|
if( ! (msg->getMask() & message_mask::ha_async) ) |
|
{ |
|
AsyncLegacyOperationStart *wrapper = |
|
new AsyncLegacyOperationStart(get_next_xid(), |
|
op, |
|
destination, |
|
msg, |
|
destination); |
|
} |
|
else |
|
{ |
|
op->_request.insert_first(msg); |
|
(static_cast<AsyncMessage *>(msg))->op = op; |
|
} |
|
|
|
_callback.insert_last(op); |
|
return _meta_dispatcher->route_async(op); | return _meta_dispatcher->route_async(op); |
} | } |
| |
|
|
Boolean MessageQueueService::SendForget(Message *msg) | Boolean MessageQueueService::SendForget(Message *msg) |
{ | { |
|
|
|
|
AsyncOpNode *op = 0; | AsyncOpNode *op = 0; |
Uint32 mask = msg->getMask(); | Uint32 mask = msg->getMask(); |
| |
if (mask & message_mask::ha_async) |
if (mask & MessageMask::ha_async) |
{ | { |
op = (static_cast<AsyncMessage *>(msg))->op ; | op = (static_cast<AsyncMessage *>(msg))->op ; |
} | } |
|
|
if( op == 0 ) | if( op == 0 ) |
{ | { |
op = get_op(); | op = get_op(); |
op->_request.insert_first(msg); |
op->_request.reset(msg); |
if (mask & message_mask::ha_async) |
if (mask & MessageMask::ha_async) |
|
{ |
(static_cast<AsyncMessage *>(msg))->op = op; | (static_cast<AsyncMessage *>(msg))->op = op; |
} | } |
|
} |
|
|
|
PEGASUS_ASSERT(op->_flags == ASYNC_OPFLAGS_UNKNOWN); |
|
PEGASUS_ASSERT(op->_state == ASYNC_OPSTATE_UNKNOWN); |
op->_op_dest = MessageQueue::lookup(msg->dest); | op->_op_dest = MessageQueue::lookup(msg->dest); |
op->_flags |= ASYNC_OPFLAGS_FIRE_AND_FORGET; |
|
op->_flags &= ~(ASYNC_OPFLAGS_CALLBACK | ASYNC_OPFLAGS_SAFE_CALLBACK |
|
| ASYNC_OPFLAGS_SIMPLE_STATUS); |
|
op->_state &= ~ASYNC_OPSTATE_COMPLETE; |
|
if ( op->_op_dest == 0 ) | if ( op->_op_dest == 0 ) |
{ | { |
op->release(); |
|
return_op(op); | return_op(op); |
return false; | return false; |
} | } |
| |
|
op->_flags = ASYNC_OPFLAGS_FIRE_AND_FORGET; |
|
|
// now see if the meta dispatcher will take it | // now see if the meta dispatcher will take it |
return _meta_dispatcher->route_async(op); | return _meta_dispatcher->route_async(op); |
} | } |
|
|
if (request->op == 0) | if (request->op == 0) |
{ | { |
request->op = get_op(); | request->op = get_op(); |
request->op->_request.insert_first(request); |
request->op->_request.reset(request); |
destroy_op = true; | destroy_op = true; |
} | } |
| |
request->block = false; |
PEGASUS_ASSERT(request->op->_flags == ASYNC_OPFLAGS_UNKNOWN); |
request->op->_flags |= ASYNC_OPFLAGS_PSEUDO_CALLBACK; |
PEGASUS_ASSERT(request->op->_state == ASYNC_OPSTATE_UNKNOWN); |
SendAsync(request->op, |
|
|
_sendAsync( |
|
request->op, |
request->dest, | request->dest, |
_sendwait_callback, |
0, |
this, |
0, |
(void *)0); |
(void *)0, |
|
ASYNC_OPFLAGS_PSEUDO_CALLBACK); |
| |
request->op->_client_sem.wait(); | request->op->_client_sem.wait(); |
request->op->lock(); |
|
AsyncReply * rpl = static_cast<AsyncReply *>(request->op->_response.remove_first()); |
AsyncReply* rpl = static_cast<AsyncReply *>(request->op->removeResponse()); |
rpl->op = 0; | rpl->op = 0; |
request->op->unlock(); |
|
| |
if( destroy_op == true) | if( destroy_op == true) |
{ | { |
request->op->lock(); |
request->op->_request.release(); |
request->op->_request.remove(request); |
|
request->op->_state |= ASYNC_OPSTATE_RELEASED; |
|
request->op->unlock(); |
|
return_op(request->op); | return_op(request->op); |
request->op = 0; | request->op = 0; |
} | } |
return rpl; | return rpl; |
} | } |
| |
|
Uint32 MessageQueueService::find_service_qid(const char* name) |
Boolean MessageQueueService::register_service(String name, |
|
Uint32 capabilities, |
|
Uint32 mask) |
|
|
|
{ |
|
RegisterCimService *msg = new RegisterCimService(get_next_xid(), |
|
0, |
|
true, |
|
name, |
|
capabilities, |
|
mask, |
|
_queueId); |
|
msg->dest = CIMOM_Q_ID; |
|
|
|
Boolean registered = false; |
|
AsyncReply *reply = static_cast<AsyncReply *>(SendWait( msg )); |
|
|
|
if ( reply != 0 ) |
|
{ |
|
if(reply->getMask() & message_mask:: ha_async) |
|
{ |
|
if(reply->getMask() & message_mask::ha_reply) |
|
{ |
|
if(reply->result == async_results::OK || |
|
reply->result == async_results::MODULE_ALREADY_REGISTERED ) |
|
registered = true; |
|
} |
|
} |
|
|
|
delete reply; |
|
} |
|
delete msg; |
|
return registered; |
|
} |
|
|
|
Boolean MessageQueueService::update_service(Uint32 capabilities, Uint32 mask) |
|
{ |
|
|
|
|
|
UpdateCimService *msg = new UpdateCimService(get_next_xid(), |
|
0, |
|
true, |
|
_queueId, |
|
_capabilities, |
|
_mask); |
|
Boolean registered = false; |
|
|
|
AsyncMessage *reply = SendWait(msg); |
|
if (reply) |
|
{ |
|
if(reply->getMask() & message_mask:: ha_async) |
|
{ |
|
if(reply->getMask() & message_mask::ha_reply) |
|
{ |
|
if(static_cast<AsyncReply *>(reply)->result == async_results::OK) |
|
registered = true; |
|
} |
|
} |
|
delete reply; |
|
} |
|
delete msg; |
|
return registered; |
|
} |
|
|
|
|
|
Boolean MessageQueueService::deregister_service(void) |
|
{ |
|
|
|
_meta_dispatcher->deregister_module(_queueId); |
|
return true; |
|
} |
|
|
|
|
|
void MessageQueueService::find_services(String name, |
|
Uint32 capabilities, |
|
Uint32 mask, |
|
Array<Uint32> *results) |
|
{ |
|
|
|
if( results == 0 ) |
|
throw NullPointer(); |
|
|
|
results->clear(); |
|
|
|
FindServiceQueue *req = |
|
new FindServiceQueue(get_next_xid(), |
|
0, |
|
_queueId, |
|
true, |
|
name, |
|
capabilities, |
|
mask); |
|
|
|
req->dest = CIMOM_Q_ID; |
|
|
|
AsyncMessage *reply = SendWait(req); |
|
if(reply) |
|
{ |
|
if( reply->getMask() & message_mask::ha_async) |
|
{ |
|
if(reply->getMask() & message_mask::ha_reply) |
|
{ |
|
if(reply->getType() == async_messages::FIND_SERVICE_Q_RESULT) |
|
{ |
|
if( (static_cast<FindServiceQueueResult *>(reply))->result == async_results::OK ) |
|
*results = (static_cast<FindServiceQueueResult *>(reply))->qids; |
|
} |
|
} |
|
} |
|
delete reply; |
|
} |
|
delete req; |
|
return ; |
|
} |
|
|
|
void MessageQueueService::enumerate_service(Uint32 queue, message_module *result) |
|
{ |
|
if(result == 0) |
|
throw NullPointer(); |
|
|
|
EnumerateService *req |
|
= new EnumerateService(get_next_xid(), |
|
0, |
|
_queueId, |
|
true, |
|
queue); |
|
|
|
AsyncMessage *reply = SendWait(req); |
|
|
|
if (reply) |
|
{ |
|
Boolean found = false; |
|
|
|
if( reply->getMask() & message_mask::ha_async) |
|
{ |
|
if(reply->getMask() & message_mask::ha_reply) |
|
{ |
|
if(reply->getType() == async_messages::ENUMERATE_SERVICE_RESULT) |
|
{ | { |
if( (static_cast<EnumerateServiceResponse *>(reply))->result == async_results::OK ) |
MessageQueue* queue = MessageQueue::lookup(name); |
{ |
PEGASUS_ASSERT(queue); |
if( found == false) |
return queue->getQueueId(); |
{ |
|
found = true; |
|
|
|
result->put_name( (static_cast<EnumerateServiceResponse *>(reply))->name); |
|
result->put_capabilities((static_cast<EnumerateServiceResponse *>(reply))->capabilities); |
|
result->put_mask((static_cast<EnumerateServiceResponse *>(reply))->mask); |
|
result->put_queue((static_cast<EnumerateServiceResponse *>(reply))->qid); |
|
} |
|
} |
|
} |
|
} |
|
} |
|
delete reply; |
|
} |
|
delete req; |
|
|
|
return; |
|
} | } |
| |
Uint32 MessageQueueService::get_next_xid(void) |
void MessageQueueService::_removeFromPollingList(MessageQueueService *service) |
{ | { |
static Mutex _monitor; |
_polling_list_mutex.lock(); |
Uint32 value; |
_polling_list->remove(service); |
AutoMutex autoMut(_monitor); |
_polling_list_mutex.unlock(); |
_xid++; |
|
value = _xid.value(); |
|
return value; |
|
|
|
} | } |
| |
PEGASUS_NAMESPACE_END | PEGASUS_NAMESPACE_END |