pegasus/src/Pegasus/ProviderManager2/Attic/ProviderManagerService.cpp - diff

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Diff for /pegasus/src/Pegasus/ProviderManager2/Attic/ProviderManagerService.cpp between version 1.21 and 1.67

version 1.21, 2003/11/04 05:20:22

version 1.67, 2005/05/06 21:44:28

Line 1

//%2003////////////////////////////////////////////////////////////////////////

//%2005////////////////////////////////////////////////////////////////////////

// Company, L. P., IBM Corp., The Open Group, Tivoli Systems.

// Company, L.P.; IBM Corp.; The Open Group; Tivoli Systems.

// IBM Corp.; EMC Corporation, The Open Group.

// IBM Corp.; EMC Corporation; VERITAS Software Corporation; The Open Group.

// EMC Corporation; VERITAS Software Corporation; The Open Group.

// Permission is hereby granted, free of charge, to any person obtaining a copy

// of this software and associated documentation files (the "Software"), to

Line 31

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// Karl Schopmeyer(k.schopmeyer@opengroup.org) - Fix associators.

// Yi Zhou, Hewlett-Packard Company (yi_zhou@hp.com)

// Adrian Schuur, IBM (schuur@de.ibm.com)

// Amit K Arora (amita@in.ibm.com) for PEP-101

// Roger Kumpf, Hewlett-Packard Company (roger_kumpf@hp.com)

// Seema Gupta (gseema@in.ibm.com for PEP135)

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

#include "ProviderManagerService.h"

#include <Pegasus/Common/Config.h>

#include <Pegasus/Common/PegasusVersion.h>

#include <Pegasus/Common/Constants.h>

#include <Pegasus/Common/CIMMessage.h>

#include <Pegasus/Common/Thread.h>

#include <Pegasus/Common/Tracer.h>

#include <Pegasus/Common/Logger.h>

#include <Pegasus/Common/Destroyer.h>

#include <Pegasus/Common/AutoPtr.h>

#include <Pegasus/Common/Constants.h>

#include <Pegasus/Config/ConfigManager.h>

#include <Pegasus/ProviderManager2/ProviderManagerModule.h>

#include <Pegasus/ProviderManager2/BasicProviderManagerRouter.h>

#include <Pegasus/ProviderManager2/ProviderManager.h>

#include <Pegasus/ProviderManager2/OOPProviderManagerRouter.h>

#include <Pegasus/ProviderManager2/OperationResponseHandler.h>

PEGASUS_NAMESPACE_BEGIN

// BEGIN TEMP SECTION

class ProviderManagerContainer

{

public:

ProviderManagerContainer(void) : _manager(0)

{

}

ProviderManagerContainer(const ProviderManagerContainer & container) : _manager(0)

{

*this = container;

}

ProviderManagerContainer(const String & physicalName, const String & logicalName, const String & interfaceName) : _manager(0)

{

#if defined(PEGASUS_OS_TYPE_WINDOWS)

_physicalName = physicalName + String(".dll");

#elif defined(PEGASUS_OS_HPUX) && defined(PEGASUS_PLATFORM_HPUX_PARISC_ACC)

_physicalName = ConfigManager::getHomedPath(ConfigManager::getInstance()->getCurrentValue("providerDir"));

_physicalName.append(String("/lib") + physicalName + String(".sl"));

#elif defined(PEGASUS_OS_HPUX) && !defined(PEGASUS_PLATFORM_HPUX_PARISC_ACC)

_physicalName = ConfigManager::getHomedPath(ConfigManager::getInstance()->getCurrentValue("providerDir"));

_physicalName.append(String("/lib") + physicalName + String(".so"));

#elif defined(PEGASUS_OS_OS400)

_physicalName = physicalName;

#else

_physicalName = ConfigManager::getHomedPath(ConfigManager::getInstance()->getCurrentValue("providerDir"));

_physicalName.append(String("/lib") + physicalName + String(".so"));

#endif

_logicalName = logicalName;

_interfaceName = interfaceName;

_module = ProviderManagerModule(_physicalName);

_module.load();

_manager = _module.getProviderManager(_logicalName);

PEGASUS_ASSERT(_manager != 0);

}

~ProviderManagerContainer(void)

{

_module.unload();

}

ProviderManagerContainer & operator=(const ProviderManagerContainer & container)

{

if(this == &container)

{

return(*this);

}

_logicalName = container._logicalName;

_physicalName = container._physicalName;

_interfaceName = container._interfaceName;

_module = container._module;

_manager = container._manager;

return(*this);

}

ProviderManager *getProviderManager(void)

{

return _manager;

}

const String & getPhysicalName(void) const

{

return(_physicalName);

}

const String & getLogicalName(void) const

{

return(_logicalName);

}

const String & getInterfaceName(void) const

{

return(_interfaceName);

}

private:

String _physicalName;

String _logicalName;

String _interfaceName;

ProviderManagerModule _module;

ProviderManager * _manager;

};

static Array<ProviderManagerContainer*> _providerManagers;

// END TEMP SECTION

inline Boolean _isSupportedRequestType(const Message * message)

{

// ATTN: needs implementation

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}

ProviderManagerService* ProviderManagerService::providerManagerService=NULL;

Uint32 ProviderManagerService::_indicationServiceQueueId = PEG_NOT_FOUND;

ProviderManagerService::ProviderManagerService(void)

: MessageQueueService(PEGASUS_QUEUENAME_PROVIDERMANAGER_CPP)

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providerManagerService=this;

}

ProviderManagerService::ProviderManagerService(ProviderRegistrationManager * providerRegistrationManager)

ProviderManagerService::ProviderManagerService(

ProviderRegistrationManager * providerRegistrationManager,

CIMRepository * repository)

: MessageQueueService(PEGASUS_QUEUENAME_PROVIDERMANAGER_CPP)

{

providerManagerService=this;

SetProviderRegistrationManager(providerRegistrationManager);

_repository=repository;

// ATTN: this section is a temporary solution to populate the list of enabled

_providerRegistrationManager = providerRegistrationManager;

// provider managers for a given distribution. it includes another temporary

// solution for converting a generic file name into a file name useable by

_unloadIdleProvidersBusy = 0;

// each platform.

_basicProviderManagerRouter = 0;

// BEGIN TEMP SECTION

_oopProviderManagerRouter = 0;

//#if defined(PEGASUS_OS_OS400)

//_providerManagers.append(ProviderManagerContainer("QSYS/??????????", "INTERNAL", "INTERNAL"));

// Determine which ProviderManagerRouter(s) to use

//#else

//_providerManager.append(ProviderManagerContainer("InternalProviderManager", "DEFAULT", "INTERNAL"));

ConfigManager* configManager = ConfigManager::getInstance();

//#endif

Boolean forceProviderProcesses = String::equal(

configManager->getCurrentValue("forceProviderProcesses"), "true");

#if defined(ENABLE_DEFAULT_PROVIDER_MANAGER)

#if defined(PEGASUS_OS_OS400)

_providerManagers.append(

new ProviderManagerContainer("QSYS/QYCMDFTPVM", "DEFAULT", "C++Default"));

#else

_providerManagers.append(

new ProviderManagerContainer("DefaultProviderManager", "DEFAULT", "C++Default"));

#endif

#if defined(ENABLE_CMPI_PROVIDER_MANAGER)

#ifdef PEGASUS_DISABLE_PROV_USERCTXT

#if defined(PEGASUS_OS_OS400)

if (forceProviderProcesses)

_providerManagers.append(

{

new ProviderManagerContainer("QSYS/QYCMCMPIPM", "CMPI", "CMPI"));

_oopProviderManagerRouter =

new OOPProviderManagerRouter(indicationCallback);

}

else

{

_basicProviderManagerRouter =

new BasicProviderManagerRouter(indicationCallback);

}

#else

_providerManagers.append(

_oopProviderManagerRouter =

new ProviderManagerContainer("CMPIProviderManager", "CMPI", "CMPI"));

new OOPProviderManagerRouter(indicationCallback);

#endif

if (!forceProviderProcesses)

{

_basicProviderManagerRouter =

new BasicProviderManagerRouter(indicationCallback);

}

#endif

// END TEMP SECTION

}

ProviderManagerService::~ProviderManagerService(void)

{

delete _basicProviderManagerRouter;

delete _oopProviderManagerRouter;

providerManagerService=NULL;

}

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_incomingQueue.enqueue(request->op);

_thread_pool->allocate_and_awaken((void *)this, ProviderManagerService::handleCimOperation);

while (!_thread_pool->allocate_and_awaken(

(void *)this, ProviderManagerService::handleCimOperation))

{

pegasus_yield();

}

else

{

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return;

}

// Note: This method should not throw an exception. It is used as a thread

PEGASUS_THREAD_RETURN PEGASUS_THREAD_CDECL ProviderManagerService::handleServiceOperation(void * arg) throw()

// entry point, and any exceptions thrown are ignored.

{

PEGASUS_THREAD_RETURN PEGASUS_THREAD_CDECL

// get the service from argument

ProviderManagerService::handleCimOperation(void* arg)

ProviderManagerService * service = reinterpret_cast<ProviderManagerService *>(arg);

PEGASUS_ASSERT(service != 0);

// get message from service queue

Message * message = service->_incomingQueue.dequeue();

PEGASUS_ASSERT(message != 0);

if(service->_incomingQueue.size() == 0)

{

PEG_TRACE_STRING(TRC_PROVIDERMANAGER, Tracer::LEVEL4,

PEG_METHOD_ENTER(TRC_PROVIDERMANAGER,

"ProviderManagerService::handleCimOperation() called with no op node in queue" );

"ProviderManagerService::handleCimOperation");

PEG_METHOD_EXIT();

// thread started with no message in queue.

return(PEGASUS_THREAD_RETURN(1));

}

AsyncOpNode * op = service->_incomingQueue.dequeue();

PEGASUS_ASSERT(op != 0 );

if(op->_request.count() == 0)

{

MessageQueue * queue = MessageQueue::lookup(op->_source_queue);

PEGASUS_ASSERT(queue != 0);

PEG_METHOD_EXIT();

// no request in op node

return(PEGASUS_THREAD_RETURN(1));

}

return(0);

}

PEGASUS_THREAD_RETURN PEGASUS_THREAD_CDECL ProviderManagerService::handleCimOperation(void * arg) throw()

PEGASUS_ASSERT(arg != 0);

{

PEG_METHOD_ENTER(TRC_PROVIDERMANAGER, "ProviderManagerService::handleCimOperation");

if(arg == 0)

{

// thread started with invalid argument.

return(PEGASUS_THREAD_RETURN(1));

}

// get the service from argument

ProviderManagerService * service = reinterpret_cast<ProviderManagerService *>(arg);

ProviderManagerService* service =

reinterpret_cast<ProviderManagerService *>(arg);

PEGASUS_ASSERT(service != 0);

try

{

if(service->_incomingQueue.size() == 0)

{

PEG_TRACE_STRING(TRC_PROVIDERMANAGER, Tracer::LEVEL4,

PEG_TRACE_STRING(TRC_PROVIDERMANAGER, Tracer::LEVEL2,

"ProviderManagerService::handleCimOperation() called with no op node in queue" );

"ProviderManagerService::handleCimOperation() called with no "

"op node in queue");

PEG_METHOD_EXIT();

// thread started with no message in queue.

return(PEGASUS_THREAD_RETURN(1));

}

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if((op == 0) || (op->_request.count() == 0))

{

// ATTN: This may dereference a null pointer!

MessageQueue * queue = MessageQueue::lookup(op->_source_queue);

PEGASUS_ASSERT(queue != 0);

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return(PEGASUS_THREAD_RETURN(1));

}

AsyncRequest * request = static_cast<AsyncRequest *>(op->_request.next(0));

AsyncRequest* request =

static_cast<AsyncRequest*>(op->_request.next(0));

if((request == 0) || (request->getType() != async_messages::ASYNC_LEGACY_OP_START))

if ((request == 0) ||

(request->getType() != async_messages::ASYNC_LEGACY_OP_START))

{

// reply with NAK

PEG_METHOD_EXIT();

return(PEGASUS_THREAD_RETURN(0));

}

try

Message* legacy =

{

static_cast<AsyncLegacyOperationStart *>(request)->get_action();

Message * legacy = static_cast<AsyncLegacyOperationStart *>(request)->get_action();

if(_isSupportedRequestType(legacy))

{

Destroyer<Message> xmessage(legacy);

AutoPtr<Message> xmessage(legacy);

// Set the client's requested language into this service thread.

// This will allow functions in this service to return messages

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if(msg != 0)

{

AcceptLanguages * langs = new AcceptLanguages(msg->acceptLanguages);

AcceptLanguages* langs = new AcceptLanguages(

((AcceptLanguageListContainer)msg->operationContext.get(

AcceptLanguageListContainer::NAME)).getLanguages());

Thread::setLanguages(langs);

}

else

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service->handleCimRequest(op, legacy);

}

catch (const Exception& e)

{

PEG_TRACE_STRING(TRC_DISCARDED_DATA, Tracer::LEVEL2,

"Unexpected exception in handleCimOperation: " + e.getMessage());

}

catch(...)

{

// ATTN: log error

PEG_TRACE_STRING(TRC_DISCARDED_DATA, Tracer::LEVEL2,

"Unexpected exception in handleCimOperation.");

}

PEG_METHOD_EXIT();

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return(PEGASUS_THREAD_RETURN(0));

}

void ProviderManagerService::handleCimRequest(AsyncOpNode * op, const Message * message)

void ProviderManagerService::handleCimRequest(

AsyncOpNode * op,

Message * message)

{

PEG_METHOD_ENTER(TRC_PROVIDERMANAGER, "ProviderManagerService::handleCimRequest");

PEG_METHOD_ENTER(TRC_PROVIDERMANAGER,

"ProviderManagerService::handleCimRequest");

// ATTN: ensure message is a request???

CIMRequestMessage * request = dynamic_cast<CIMRequestMessage *>(message);

CIMMessage * request = dynamic_cast<CIMMessage *>(const_cast<Message *>(message));

PEGASUS_ASSERT(request != 0);

// get request from op node

AsyncRequest * async = static_cast<AsyncRequest *>(op->_request.next(0));

PEGASUS_ASSERT(async != 0);

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

Message * response = 0;

Boolean consumerLookupFailed = false;

// get the responsible provider Manager

if (request->getType() == CIM_EXPORT_INDICATION_REQUEST_MESSAGE)

ProviderManager * pm = locateProviderManager(message);

{

// Get a ProviderIdContainer for ExportIndicationRequestMessage.

// Note: This can be removed when the CIMExportRequestDispatcher

// is updated to add the ProviderIdContainer to the message.

CIMInstance providerModule;

CIMInstance provider;

const CIMExportIndicationRequestMessage* expRequest =

dynamic_cast<const CIMExportIndicationRequestMessage*>(request);

if (_providerRegistrationManager->lookupIndicationConsumer(

expRequest->destinationPath, provider, providerModule))

{

request->operationContext.insert(

ProviderIdContainer(providerModule, provider));

}

else

{

consumerLookupFailed = true;

}

if(pm)

if (consumerLookupFailed)

{

response = pm->processMessage(request);

CIMResponseMessage* cimResponse = request->buildResponse();

cimResponse->cimException = PEGASUS_CIM_EXCEPTION(

CIM_ERR_NOT_SUPPORTED, String::EMPTY);

response = cimResponse;

}

else if ((dynamic_cast<CIMOperationRequestMessage*>(request) != 0) ||

(dynamic_cast<CIMIndicationRequestMessage*>(request) != 0) ||

(request->getType() == CIM_EXPORT_INDICATION_REQUEST_MESSAGE) ||

(request->getType() == CIM_INITIALIZE_PROVIDER_REQUEST_MESSAGE))

{

// Handle CIMOperationRequestMessage, CIMExportIndicationRequestMessage,

// CIMIndicationRequestMessage, and CIMInitializeProviderRequestMessage.

// (These should be blocked when the provider module is disabled.)

// Get the provider module instance to check for a disabled module

CIMInstance providerModule;

// The provider ID container is added to the OperationContext

// by the CIMOperationRequestDispatcher for all CIM operation

// requests to providers, so it does not need to be added again.

// CIMInitializeProviderRequestMessage also has a provider ID

// container.

ProviderIdContainer pidc =

request->operationContext.get(ProviderIdContainer::NAME);

providerModule = pidc.getModule();

// Check if the target provider is disabled

Boolean moduleDisabled = false;

Uint32 pos = providerModule.findProperty(CIMName("OperationalStatus"));

PEGASUS_ASSERT(pos != PEG_NOT_FOUND);

Array<Uint16> operationalStatus;

providerModule.getProperty(pos).getValue().get(operationalStatus);

for(Uint32 i = 0; i < operationalStatus.size(); i++)

{

if ((operationalStatus[i] == CIM_MSE_OPSTATUS_VALUE_STOPPED) ||

(operationalStatus[i] == CIM_MSE_OPSTATUS_VALUE_STOPPING))

{

moduleDisabled = true;

break;

}

if (moduleDisabled)

{

// Send a "provider blocked" response

CIMResponseMessage* cimResponse = request->buildResponse();

cimResponse->cimException = PEGASUS_CIM_EXCEPTION_L(

CIM_ERR_ACCESS_DENIED,

MessageLoaderParms(

"ProviderManager.ProviderManagerService.PROVIDER_BLOCKED",

"provider blocked."));

response = cimResponse;

}

else

{

// no provider manager found ...

// Forward the request to the appropriate ProviderManagerRouter

response = _processMessage(request);

}

else if (request->getType() == CIM_ENABLE_MODULE_REQUEST_MESSAGE)

{

// Handle CIMEnableModuleRequestMessage

CIMEnableModuleRequestMessage * emReq =

dynamic_cast<CIMEnableModuleRequestMessage*>(request);

// preserve message key

CIMInstance providerModule = emReq->providerModule;

response->setKey(request->getKey());

// set HTTP method in response from request

try

response->setHttpMethod(request->getHttpMethod());

{

// Forward the request to the ProviderManager

response = _processMessage(request);

// If successful, update provider module status to OK

// ATTN: Use CIMEnableModuleResponseMessage operationalStatus?

CIMEnableModuleResponseMessage * emResp =

dynamic_cast<CIMEnableModuleResponseMessage*>(response);

if (emResp->cimException.getCode() == CIM_ERR_SUCCESS)

{

_updateProviderModuleStatus(

providerModule, CIM_MSE_OPSTATUS_VALUE_STOPPED,

CIM_MSE_OPSTATUS_VALUE_OK);

}

catch (Exception& e)

{

// Get the OperationalStatus property from the provider module

Array<Uint16> operationalStatus;

CIMValue itValue = emReq->providerModule.getProperty(

emReq->providerModule.findProperty("OperationalStatus"))

.getValue();

itValue.get(operationalStatus);

if (response != 0)

{

delete response;

}

response = new CIMEnableModuleResponseMessage(

request->messageId,

CIMException(CIM_ERR_FAILED, e.getMessage()),

request->queueIds.copyAndPop(),

operationalStatus);

}

else if (request->getType() == CIM_DISABLE_MODULE_REQUEST_MESSAGE)

{

// Handle CIMDisableModuleRequestMessage

CIMDisableModuleRequestMessage * dmReq =

dynamic_cast<CIMDisableModuleRequestMessage*>(request);

CIMInstance providerModule = dmReq->providerModule;

Boolean updateModuleStatus = !dmReq->disableProviderOnly;

try

{

// Change module status from OK to STOPPING

if (updateModuleStatus)

{

_updateProviderModuleStatus(

providerModule, CIM_MSE_OPSTATUS_VALUE_OK,

CIM_MSE_OPSTATUS_VALUE_STOPPING);

}

// Forward the request to the ProviderManager

response = _processMessage(request);

// Update provider module status based on success or failure

if (updateModuleStatus)

{

CIMDisableModuleResponseMessage * dmResp =

dynamic_cast<CIMDisableModuleResponseMessage*>(response);

if (dmResp->cimException.getCode() != CIM_ERR_SUCCESS)

{

// Disable operation failed. Module not stopped.

_updateProviderModuleStatus(

providerModule, CIM_MSE_OPSTATUS_VALUE_STOPPING,

CIM_MSE_OPSTATUS_VALUE_OK);

}

else

{

// Disable may or may not have been successful,

// depending on whether there are outstanding requests.

// Use last operationalStatus entry.

_updateProviderModuleStatus(

providerModule, CIM_MSE_OPSTATUS_VALUE_STOPPING,

dmResp->operationalStatus[

dmResp->operationalStatus.size()-1]);

}

catch (Exception& e)

{

// Get the OperationalStatus property from the provider module

Array<Uint16> operationalStatus;

CIMValue itValue = dmReq->providerModule.getProperty(

dmReq->providerModule.findProperty("OperationalStatus"))

.getValue();

itValue.get(operationalStatus);

if (response != 0)

{

delete response;

}

response = new CIMDisableModuleResponseMessage(

request->messageId,

CIMException(CIM_ERR_FAILED, e.getMessage()),

request->queueIds.copyAndPop(),

operationalStatus);

}

else

{

response = _processMessage(request);

}

AsyncLegacyOperationResult * async_result =

new AsyncLegacyOperationResult(

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PEG_METHOD_EXIT();

}

ProviderManager* ProviderManagerService::locateProviderManager(const Message *message)

void

ProviderManagerService::handleCimResponse(CIMRequestMessage &request,

CIMResponseMessage &response)

{

String nameSpace;

CIMStatusCode code = CIM_ERR_SUCCESS;

String className;

String message;

Uint32 type = ProviderType::INSTANCE;

switch(message->getType())

try

{

case CIM_GET_INSTANCE_REQUEST_MESSAGE:

{

const CIMGetInstanceRequestMessage * p = dynamic_cast<const CIMGetInstanceRequestMessage *>(message);

// only incomplete messages are processed because the caller ends up

// sending the complete() stage

PEGASUS_ASSERT(response.isComplete() == false);

PEGASUS_ASSERT(p != 0);

AsyncLegacyOperationStart *requestAsync =

dynamic_cast<AsyncLegacyOperationStart *>(request._async);

PEGASUS_ASSERT(requestAsync);

AsyncOpNode *op = requestAsync->op;

PEGASUS_ASSERT(op);

PEGASUS_ASSERT(! response._async);

response._async = new AsyncLegacyOperationResult

(requestAsync->getKey(), requestAsync->getRouting(), op, &response);

nameSpace = p->nameSpace.getString();

// set the destination

className = p->instanceName.getClassName().getString();

op->_op_dest = op->_callback_response_q;

}

break;

MessageQueueService *service =

case CIM_ENUMERATE_INSTANCES_REQUEST_MESSAGE:

dynamic_cast<MessageQueueService *>(op->_callback_response_q);

{

const CIMEnumerateInstancesRequestMessage * p = dynamic_cast<const CIMEnumerateInstancesRequestMessage *>(message);

PEGASUS_ASSERT(service);

PEGASUS_ASSERT(p != 0);

// the last chunk MUST be sent last, so use execute the callback

// not all chunks are going through the dispatcher's chunk

// resequencer, so this must be a synchronous call here

// After the call is done, response and asyncResponse are now invalid

// as they have been sent and deleted externally

nameSpace = p->nameSpace.getString();

op->_async_callback(op, service, op->_callback_ptr);

className = p->className.getString();

}

break;

catch(CIMException &e)

case CIM_ENUMERATE_INSTANCE_NAMES_REQUEST_MESSAGE:

{

const CIMEnumerateInstanceNamesRequestMessage * p = dynamic_cast<const CIMEnumerateInstanceNamesRequestMessage *>(message);

code = e.getCode();

message = e.getMessage();

PEGASUS_ASSERT(p != 0);

nameSpace = p->nameSpace.getString();

className = p->className.getString();

}

catch(Exception &e)

break;

case CIM_CREATE_INSTANCE_REQUEST_MESSAGE:

{

const CIMCreateInstanceRequestMessage * p = dynamic_cast<const CIMCreateInstanceRequestMessage *>(message);

code = CIM_ERR_FAILED;

message = e.getMessage();

PEGASUS_ASSERT(p != 0);

}

catch(...)

{

code = CIM_ERR_FAILED;

message = cimStatusCodeToString(code);

}

nameSpace = p->nameSpace.getString();

if (code != CIM_ERR_SUCCESS)

className = p->newInstance.getClassName().getString();

response.cimException = PEGASUS_CIM_EXCEPTION(code, message);

}

break;

Message* ProviderManagerService::_processMessage(CIMRequestMessage* request)

case CIM_MODIFY_INSTANCE_REQUEST_MESSAGE:

{

const CIMModifyInstanceRequestMessage * p = dynamic_cast<const CIMModifyInstanceRequestMessage *>(message);

Message* response = 0;

PEGASUS_ASSERT(p != 0);

nameSpace = p->nameSpace.getString();

if ((request->getType() == CIM_STOP_ALL_PROVIDERS_REQUEST_MESSAGE) ||

className = p->modifiedInstance.getClassName().getString();

(request->getType() ==

CIM_SUBSCRIPTION_INIT_COMPLETE_REQUEST_MESSAGE) ||

(request->getType() == CIM_NOTIFY_CONFIG_CHANGE_REQUEST_MESSAGE))

{

if (_basicProviderManagerRouter)

{

response = _basicProviderManagerRouter->processMessage(request);

}

break;

if (_oopProviderManagerRouter)

case CIM_DELETE_INSTANCE_REQUEST_MESSAGE:

{

// Note: These responses do not contain interesting data, so just

// use the last one.

if (response)

{

const CIMDeleteInstanceRequestMessage * p = dynamic_cast<const CIMDeleteInstanceRequestMessage *>(message);

delete response;

}

PEGASUS_ASSERT(p != 0);

response = _oopProviderManagerRouter->processMessage(request);

}

else

{

CIMInstance providerModule;

nameSpace = p->nameSpace.getString();

if (request->getType() == CIM_ENABLE_MODULE_REQUEST_MESSAGE)

className = p->instanceName.getClassName().getString();

{

CIMEnableModuleRequestMessage* emReq =

dynamic_cast<CIMEnableModuleRequestMessage*>(request);

providerModule = emReq->providerModule;

}

else if (request->getType() == CIM_DISABLE_MODULE_REQUEST_MESSAGE)

{

CIMDisableModuleRequestMessage* dmReq =

dynamic_cast<CIMDisableModuleRequestMessage*>(request);

providerModule = dmReq->providerModule;

}

else

{

ProviderIdContainer pidc =

request->operationContext.get(ProviderIdContainer::NAME);

providerModule = pidc.getModule();

}

break;

Uint16 userContext = 0;

case CIM_EXEC_QUERY_REQUEST_MESSAGE:

Uint32 pos = providerModule.findProperty(

break;

PEGASUS_PROPERTYNAME_MODULE_USERCONTEXT);

case CIM_ASSOCIATORS_REQUEST_MESSAGE:

if (pos != PEG_NOT_FOUND)

{

const CIMAssociatorsRequestMessage * p = dynamic_cast<const CIMAssociatorsRequestMessage *>(message);

providerModule.getProperty(pos).getValue().get(userContext);

}

PEGASUS_ASSERT(p != 0);

// Forward the request to the appropriate ProviderManagerRouter, based

// on the CIM Server configuration and the UserContext setting.

nameSpace = p->nameSpace.getString();

ConfigManager* configManager = ConfigManager::getInstance();

className = p->assocClass.getString();

Boolean forceProviderProcesses = String::equal(

configManager->getCurrentValue("forceProviderProcesses"), "true");

type = ProviderType::ASSOCIATION;

if (forceProviderProcesses

#ifndef PEGASUS_DISABLE_PROV_USERCTXT

|| (userContext == PG_PROVMODULE_USERCTXT_REQUESTOR)

|| (userContext == PG_PROVMODULE_USERCTXT_DESIGNATED)

|| ((userContext == PG_PROVMODULE_USERCTXT_PRIVILEGED) &&

!System::isPrivilegedUser(System::getEffectiveUserName()))

#endif

)

{

response = _oopProviderManagerRouter->processMessage(request);

}

else

break;

case CIM_ASSOCIATOR_NAMES_REQUEST_MESSAGE:

{

const CIMAssociatorNamesRequestMessage * p = dynamic_cast<const CIMAssociatorNamesRequestMessage *>(message);

response = _basicProviderManagerRouter->processMessage(request);

}

PEGASUS_ASSERT(p != 0);

return response;

}

nameSpace = p->nameSpace.getString();

void ProviderManagerService::unloadIdleProviders()

className = p->assocClass.getString();

{

PEG_METHOD_ENTER(TRC_PROVIDERMANAGER,

"ProviderManagerService::unloadIdleProviders");

std::cout<<"--- className: "<<className<<std::endl;

// Ensure that only one _unloadIdleProvidersHandler thread runs at a time

_unloadIdleProvidersBusy++;

if ((_unloadIdleProvidersBusy.value() == 1) &&

(_thread_pool->allocate_and_awaken(

(void*)this, ProviderManagerService::_unloadIdleProvidersHandler)))

{

// _unloadIdleProvidersBusy is decremented in

// _unloadIdleProvidersHandler

}

else

{

// If we fail to allocate a thread, don't retry now.

_unloadIdleProvidersBusy--;

}

type = ProviderType::ASSOCIATION;

PEG_METHOD_EXIT();

}

break;

PEGASUS_THREAD_RETURN PEGASUS_THREAD_CDECL

case CIM_REFERENCES_REQUEST_MESSAGE:

ProviderManagerService::_unloadIdleProvidersHandler(void* arg) throw()

{

const CIMReferencesRequestMessage * p = dynamic_cast<const CIMReferencesRequestMessage *>(message);

try

{

PEGASUS_ASSERT(p != 0);

PEG_METHOD_ENTER(TRC_PROVIDERMANAGER,

"ProviderManagerService::unloadIdleProvidersHandler");

nameSpace = p->nameSpace.getString();

ProviderManagerService* myself =

className = p->resultClass.getString();

reinterpret_cast<ProviderManagerService*>(arg);

type = ProviderType::ASSOCIATION;

if (myself->_basicProviderManagerRouter)

{

try

{

myself->_basicProviderManagerRouter->unloadIdleProviders();

}

catch (...)

break;

case CIM_REFERENCE_NAMES_REQUEST_MESSAGE:

{

const CIMReferenceNamesRequestMessage * p = dynamic_cast<const CIMReferenceNamesRequestMessage *>(message);

// Ignore errors

PEG_TRACE_STRING(TRC_PROVIDERMANAGER, Tracer::LEVEL2,

"Unexpected exception from "

"BasicProviderManagerRouter::_unloadIdleProviders");

}

PEGASUS_ASSERT(p != 0);

if (myself->_oopProviderManagerRouter)

{

try

{

myself->_oopProviderManagerRouter->unloadIdleProviders();

}

catch (...)

{

// Ignore errors

PEG_TRACE_STRING(TRC_PROVIDERMANAGER, Tracer::LEVEL2,

"Unexpected exception from "

"OOPProviderManagerRouter::_unloadIdleProviders");

}

nameSpace = p->nameSpace.getString();

myself->_unloadIdleProvidersBusy--;

className = p->resultClass.getString();

PEG_METHOD_EXIT();

}

catch (...)

{

// Ignore errors

PEG_TRACE_STRING(TRC_PROVIDERMANAGER, Tracer::LEVEL2,

"Unexpected exception in _unloadIdleProvidersHandler");

}

type = ProviderType::ASSOCIATION;

return(PEGASUS_THREAD_RETURN(0));

}

break;

// Updates the providerModule instance and the ProviderRegistrationManager

case CIM_INVOKE_METHOD_REQUEST_MESSAGE:

void ProviderManagerService::_updateProviderModuleStatus(

CIMInstance& providerModule,

Uint16 fromStatus,

Uint16 toStatus)

{

const CIMInvokeMethodRequestMessage * p = dynamic_cast<const CIMInvokeMethodRequestMessage *>(message);

PEG_METHOD_ENTER(TRC_PROVIDERMANAGER,

"ProviderManagerService::_updateProviderModuleStatus");

PEGASUS_ASSERT(p != 0);

Array<Uint16> operationalStatus;

String providerModuleName;

nameSpace = p->nameSpace.getString();

Uint32 pos = providerModule.findProperty(CIMName("Name"));

className = p->instanceName.getClassName().getString();

PEGASUS_ASSERT(pos != PEG_NOT_FOUND);

providerModule.getProperty(pos).getValue().get(providerModuleName);

type = ProviderType::METHOD;

}

// get operational status

break;

pos = providerModule.findProperty(CIMName("OperationalStatus"));

PEGASUS_ASSERT(pos != PEG_NOT_FOUND);

CIMProperty operationalStatusProperty = providerModule.getProperty(pos);

CIMValue operationalStatusValue = operationalStatusProperty.getValue();

case CIM_CREATE_SUBSCRIPTION_REQUEST_MESSAGE:

if (!operationalStatusValue.isNull())

{

const CIMCreateSubscriptionRequestMessage * p = dynamic_cast<const CIMCreateSubscriptionRequestMessage *>(message);

operationalStatusValue.get(operationalStatus);

}

PEGASUS_ASSERT(p != 0);

nameSpace = p->nameSpace.getString();

// update module status

for (Uint32 i = operationalStatus.size(); i > 0; i--)

{

if (operationalStatus[i-1] == fromStatus)

{

operationalStatus.remove(i-1);

}

std::cout<<"--- nameSpace: "<<nameSpace<<std::endl;

operationalStatus.append(toStatus);

className = p->classNames[0].getString();

if (_providerRegistrationManager->setProviderModuleStatus(

providerModuleName, operationalStatus) == false)

{

throw PEGASUS_CIM_EXCEPTION_L(

CIM_ERR_FAILED,

MessageLoaderParms(

"ProviderManager.ProviderManagerService."

"SET_MODULE_STATUS_FAILED",

"set module status failed."));

}

std::cout<<"--- className: "<<className<<std::endl;

operationalStatusProperty.setValue(CIMValue(operationalStatus));

type = ProviderType::INDICATION;

PEG_METHOD_EXIT();

}

break;

void ProviderManagerService::indicationCallback(

default:

CIMProcessIndicationRequestMessage* request)

//asm("int $3");

{

break;

try

{

AcceptLanguageListContainer cntr = request->operationContext.get(AcceptLanguageListContainer::NAME);

}catch(const Exception &)

{

request->operationContext.insert(AcceptLanguageListContainer(AcceptLanguages::EMPTY));

}

ProviderName name(

if (_indicationServiceQueueId == PEG_NOT_FOUND)

CIMObjectPath(String::EMPTY, nameSpace, className).toString(),

{

String::EMPTY,

Array<Uint32> serviceIds;

String::EMPTY,

type);

std::cout<<"--- name: "<<name.toString()<<std::endl;

providerManagerService->find_services(

PEGASUS_QUEUENAME_INDICATIONSERVICE, 0, 0, &serviceIds);

PEGASUS_ASSERT(serviceIds.size() != 0);

// find provider manager

_indicationServiceQueueId = serviceIds[0];

name = ProviderRegistrar().findProvider(name);

}

std::cout<<"--- name.getInterfaceName(): "<<name.getInterfaceName()<<std::endl;

request->queueIds = QueueIdStack(

_indicationServiceQueueId, providerManagerService->getQueueId());

// find provider manager for provider interface

AsyncLegacyOperationStart * asyncRequest =

for(Uint32 i = 0, n = _providerManagers.size(); i < n; i++)

new AsyncLegacyOperationStart(

{

providerManagerService->get_next_xid(),

if (String::equalNoCase(name.getInterfaceName(), _providerManagers[i]->getInterfaceName())) {

ProviderManagerContainer *pmc=_providerManagers[i];

_indicationServiceQueueId,

return pmc->getProviderManager();

request,

}

_indicationServiceQueueId);

}

return NULL;

}

void ProviderManagerService::unload_idle_providers(void)

providerManagerService->SendForget(asyncRequest);

{

}

PEGASUS_NAMESPACE_END

Legend:

Removed from v.1.21
changed lines
	Added in v.1.67

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