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C++ LOG_TRACE函数代码示例

原作者: [db:作者] 来自: [db:来源] 收藏 邀请

本文整理汇总了C++中LOG_TRACE函数的典型用法代码示例。如果您正苦于以下问题:C++ LOG_TRACE函数的具体用法?C++ LOG_TRACE怎么用?C++ LOG_TRACE使用的例子?那么恭喜您, 这里精选的函数代码示例或许可以为您提供帮助。



在下文中一共展示了LOG_TRACE函数的20个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于我们的系统推荐出更棒的C++代码示例。

示例1: aTest

int TaskManager::loadWorker(std::string workerFileName, OSFileSys* fsys)
{
	int result = 0;
	int errorCount = 0;

	std::auto_ptr<EParser> aTest(new EParser(m_ostr));
	//EParser* aTest = new EParser(m_ostr);

	aTest->setFilename(workerFileName);
	int res = aTest->extractInclude(workerFileName, TaskConfig::getDeployHome());
	if(res != 0){
		result = res;
		errorCount = res;
	}

	if(aTest->getInclude() != 0){
		//preprocessing include
		EList<std::string> includedFiles = aTest->getInclude()->getIncludeFiles();
		if(includedFiles.moveHead()){
			do{
				std::string fName = includedFiles.getCurObject();
				//parsing
				LOG_TRACE(m_log, "Reading the file, '%s'...", fName.c_str());
				aTest->setFilename(fName);
				errorCount = aTest->parseScript(TaskConfig::getDeployHome() + fName);
				if(errorCount>0){					
					result = errorCount; ///////////////////////////////////에러코드정리
					LOG_ERROR(m_log, "Parser can not open the file '%s'.", fName.c_str());
					break;
				}
			}
			while(includedFiles.moveNext());
		}
	}

	if(errorCount == 0){
		GparsedResult* pRslt = aTest->getParsingResult();

		EList<Genum*>*		enumlist	= pRslt->getEnums();
		EList<Gmodel*>*		modellist	= pRslt->getModels();
		EList<Gaction*>*	actionlist	= pRslt->getActions();
//		EList<Gworker*>*	workerlist	= pRslt->getWorkers();     //예전 방법 task 정의
		EList<Gtask*>*		tasklist	= pRslt->getTasks();       //최근 방법 task 정의
		EList<Gbehavior*>*	bhvlist		= pRslt->getbehaviors();
		EList<Gconnector*>* connlist	= pRslt->getconnectors();

		
		
		SymTAB4Task* newSymT = new SymTAB4Task();
		std::auto_ptr<RTObjBuilder> rtmBuilder(new RTObjBuilder(m_ostr, newSymT));
		//RTObjBuilder *rtmBuilder = new RTObjBuilder(m_ostr, newSymT);

		EList<RFSMtask*>*		rtasks	= NULL;
		EList<RFSMbehavior*>*	rbhvs	= NULL;
		EList<RFSMconnector*>*	rconns	= NULL;

		try{
			//model, action, enum 검사
			LOG_TRACE(m_log, "Checking Model composed of Symbol, Function, Action and Enum ...");
			rtmBuilder->makeSymTable(pRslt);

			//TASK 명세 검사
			LOG_TRACE(m_log, "Checking Tasks ...");
			rtasks	= rtmBuilder->checkSemantics(tasklist);
			rbhvs	= rtmBuilder->checkSemantics(bhvlist);
			rconns	= rtmBuilder->checkSemantics(connlist);

			//Model 파일수가 여러개 이더라도 1개의 심볼테이블이 만들어진다.
			//파일이 나누어져도 하나의 파일로 간주
			//SymTAB4Task* newSymT = rtmBuilder->getSymT();

	/*		
			if(workerlist !=NULL && workerlist->getSize()>0 && workerlist->moveHead()){
				do{
					Gworker* worker = workerlist->getCurObject();
					std::string workerName = worker->getName()->getData();

					//Task 들을 등록
					result = m_taskMem->addTask(workerName, worker->getStartBhv()->getData());

					//심볼테이블 등록
					if(result ==0){
						newSymT->pluRefCount();
						result = m_taskMem->addSymbolT(workerName, newSymT);
					}
					else
						result = 100; ///////////////////////////////////에러코드정리
				}
				while(workerlist->moveNext());
			}
*/
			if(rtasks !=NULL && rtasks->getSize()>0 && rtasks->moveHead()){
				do{
					RFSMtask* task = rtasks->getCurObject();
					std::string taskName = task->getName();

					//Task 들을 등록
					result = m_taskMem->addTask2(taskName, task);
					
//여기까지 했다 다음부터 구현 할 것
//.........这里部分代码省略.........
开发者ID:OPRoS,项目名称:TaskEngine,代码行数:101,代码来源:TaskManager.cpp


示例2: lock

template <  typename IN_PORT_TYPE, typename OUT_PORT_TYPE > int add_const_vii_base::_transformerServiceFunction( typename  std::vector< gr_istream< IN_PORT_TYPE > > &istreams ,
    typename  std::vector< gr_ostream< OUT_PORT_TYPE > > &ostreams  )
{
    typedef typename std::vector< gr_istream< IN_PORT_TYPE > >   _IStreamList;
    typedef typename std::vector< gr_ostream< OUT_PORT_TYPE > >  _OStreamList;

    boost::mutex::scoped_lock lock(serviceThreadLock);

    if ( validGRBlock() == false ) {

        // create our processing block, and setup  property notifiers
        createBlock();

        LOG_DEBUG( add_const_vii_base, " FINISHED BUILDING  GNU RADIO BLOCK");
    }
 
    //process any Stream ID changes this could affect number of io streams
    processStreamIdChanges();

    if ( !validGRBlock() || istreams.size() == 0 || ostreams.size() == 0  ) {
        LOG_WARN( add_const_vii_base, "NO STREAMS ATTACHED TO BLOCK..." );
        return NOOP;
    }

    _input_ready.resize( istreams.size() );
    _ninput_items_required.resize( istreams.size() );
    _ninput_items.resize( istreams.size() );
    _input_items.resize( istreams.size() );
    _output_items.resize( ostreams.size() );

    //
    // RESOLVE: need to look at forecast strategy, 
    //    1)  see how many read items are necessary for N number of outputs
    //    2)  read input data and see how much output we can produce
    //

    //
    // Grab available data from input streams
    //
    typename _OStreamList::iterator ostream;
    typename _IStreamList::iterator istream = istreams.begin();
    int nitems=0;
    for ( int idx=0 ; istream != istreams.end() && serviceThread->threadRunning() ; idx++, istream++ ) {
        // note this a blocking read that can cause deadlocks
        nitems = istream->read();
    
        if ( istream->overrun() ) {
            LOG_WARN( add_const_vii_base, " NOT KEEPING UP WITH STREAM ID:" << istream->streamID );
        }

        if ( istream->sriChanged() ) {
            // RESOLVE - need to look at how SRI changes can affect Gnu Radio BLOCK state
            LOG_DEBUG( add_const_vii_base, "SRI CHANGED, STREAMD IDX/ID: " 
                      << idx << "/" << istream->pkt->streamID );
            setOutputStreamSRI( idx, istream->pkt->SRI );
        }
    }

    LOG_TRACE( add_const_vii_base, "READ NITEMS: "  << nitems );
    if ( nitems <= 0 && !_istreams[0].eos() ) {
        return NOOP;
    }

    bool eos = false;
    int  nout = 0;
    bool workDone = false;

    while ( nout > -1 && serviceThread->threadRunning() ) {
        eos = false;
        nout = _forecastAndProcess( eos, istreams, ostreams );
        if ( nout > -1  ) {
            workDone = true;

            // we chunked on data so move read pointer..
            istream = istreams.begin();
            for ( ; istream != istreams.end(); istream++ ) {
                int idx=std::distance( istreams.begin(), istream );
                // if we processed data for this stream
                if ( _input_ready[idx] ) {
                    size_t nitems = 0;
                    try {
                        nitems = gr_sptr->nitems_read( idx );
                    } catch(...){}
      
                    if ( nitems > istream->nitems() ) {
                        LOG_WARN( add_const_vii_base,  "WORK CONSUMED MORE DATA THAN AVAILABLE,  READ/AVAILABLE "
                                 << nitems << "/" << istream->nitems() );
                        nitems = istream->nitems();
                    }
                    istream->consume( nitems );
                    LOG_TRACE( add_const_vii_base, " CONSUME READ DATA  ITEMS/REMAIN " << nitems << "/" << istream->nitems());
                }
            }
            gr_sptr->reset_read_index();
        }

        // check for not enough data return
        if ( nout == -1 ) {

            // check for  end of stream
//.........这里部分代码省略.........
开发者ID:54AndyN,项目名称:integration-gnuhawk,代码行数:101,代码来源:add_const_vii_base.cpp


示例3: esm_send_activate_default_eps_bearer_context_request

/****************************************************************************
 **                                                                        **
 ** Name:    esm_send_activate_default_eps_bearer_context_request()    **
 **                                                                        **
 ** Description: Builds Activate Default EPS Bearer Context Request        **
 **      message                                                   **
 **                                                                        **
 **      The activate default EPS bearer context request message   **
 **      is sent by the network to the UE to request activation of **
 **      a default EPS bearer context.                             **
 **                                                                        **
 ** Inputs:  pti:       Procedure transaction identity             **
 **      ebi:       EPS bearer identity                        **
 **      qos:       Subscribed EPS quality of service          **
 **      apn:       Access Point Name in used                  **
 **      pdn_addr:  PDN IPv4 address and/or IPv6 suffix        **
 **      esm_cause: ESM cause code                             **
 **      Others:    None                                       **
 **                                                                        **
 ** Outputs:     msg:       The ESM message to be sent                 **
 **      Return:    RETURNok, RETURNerror                      **
 **      Others:    None                                       **
 **                                                                        **
 ***************************************************************************/
int
esm_send_activate_default_eps_bearer_context_request (
  int pti,
  int ebi,
  activate_default_eps_bearer_context_request_msg * msg,
  const OctetString * apn,
  const ProtocolConfigurationOptions * pco,
  int pdn_type,
  const OctetString * pdn_addr,
  const EpsQualityOfService * qos,
  int esm_cause)
{
  LOG_FUNC_IN;
  /*
   * Mandatory - ESM message header
   */
  msg->protocoldiscriminator = EPS_SESSION_MANAGEMENT_MESSAGE;
  msg->epsbeareridentity = ebi;
  msg->messagetype = ACTIVATE_DEFAULT_EPS_BEARER_CONTEXT_REQUEST;
  msg->proceduretransactionidentity = pti;
  /*
   * Mandatory - EPS QoS
   */
  msg->epsqos = *qos;
  LOG_TRACE (INFO, "ESM-SAP   - epsqos  qci:  %u", qos->qci);

  if (qos->bitRatesPresent) {
    LOG_TRACE (INFO, "ESM-SAP   - epsqos  maxBitRateForUL:  %u", qos->bitRates.maxBitRateForUL);
    LOG_TRACE (INFO, "ESM-SAP   - epsqos  maxBitRateForDL:  %u", qos->bitRates.maxBitRateForDL);
    LOG_TRACE (INFO, "ESM-SAP   - epsqos  guarBitRateForUL: %u", qos->bitRates.guarBitRateForUL);
    LOG_TRACE (INFO, "ESM-SAP   - epsqos  guarBitRateForDL: %u", qos->bitRates.guarBitRateForDL);
  } else {
    LOG_TRACE (INFO, "ESM-SAP   - epsqos  no bit rates defined");
  }

  if (qos->bitRatesExtPresent) {
    LOG_TRACE (INFO, "ESM-SAP   - epsqos  maxBitRateForUL  Ext: %u", qos->bitRatesExt.maxBitRateForUL);
    LOG_TRACE (INFO, "ESM-SAP   - epsqos  maxBitRateForDL  Ext: %u", qos->bitRatesExt.maxBitRateForDL);
    LOG_TRACE (INFO, "ESM-SAP   - epsqos  guarBitRateForUL Ext: %u", qos->bitRatesExt.guarBitRateForUL);
    LOG_TRACE (INFO, "ESM-SAP   - epsqos  guarBitRateForDL Ext: %u", qos->bitRatesExt.guarBitRateForDL);
  } else {
    LOG_TRACE (INFO, "ESM-SAP   - epsqos  no bit rates ext defined");
  }

  if ((apn == NULL) || ((apn != NULL) && (apn->value == NULL))) {
    LOG_TRACE (WARNING, "ESM-SAP   - apn is NULL!");
  }

  LOG_TRACE (INFO, "ESM-SAP   - apn is %s", apn->value);
  /*
   * Mandatory - Access Point Name
   */
  msg->accesspointname.accesspointnamevalue = *apn;
  /*
   * Mandatory - PDN address
   */
  LOG_TRACE (INFO, "ESM-SAP   - pdn_type is %u", pdn_type);
  msg->pdnaddress.pdntypevalue = pdn_type;
  LOG_TRACE (INFO, "ESM-SAP   - pdn_addr is %u", dump_octet_string (pdn_addr));
  msg->pdnaddress.pdnaddressinformation = *pdn_addr;
  /*
   * Optional - ESM cause code
   */
  msg->presencemask = 0;

  if (esm_cause != ESM_CAUSE_SUCCESS) {
    msg->presencemask |= ACTIVATE_DEFAULT_EPS_BEARER_CONTEXT_REQUEST_ESM_CAUSE_PRESENT;
    msg->esmcause = esm_cause;
  }

  if (pco != NULL) {
    msg->presencemask |= ACTIVATE_DEFAULT_EPS_BEARER_CONTEXT_REQUEST_PROTOCOL_CONFIGURATION_OPTIONS_PRESENT;
    msg->protocolconfigurationoptions = *pco;
  }
#warning "TEST LG FORCE APN-AMBR"
  LOG_TRACE (INFO, "ESM-SAP   - FORCE APN-AMBR");
//.........这里部分代码省略.........
开发者ID:debashish216,项目名称:lte-testbed-news,代码行数:101,代码来源:esm_send.c


示例4: PL_ASSERT

bool HybridScanExecutor::ExecPrimaryIndexLookup() {
  PL_ASSERT(index_done_ == false);

  const planner::HybridScanPlan &node = GetPlanNode<planner::HybridScanPlan>();
  bool acquire_owner = GetPlanNode<planner::AbstractScan>().IsForUpdate();

  auto key_column_ids_ = node.GetKeyColumnIds();
  auto expr_type_ = node.GetExprTypes();

  std::vector<ItemPointer *> tuple_location_ptrs;

  PL_ASSERT(index_->GetIndexType() == INDEX_CONSTRAINT_TYPE_PRIMARY_KEY);

  if (0 == key_column_ids_.size()) {
    LOG_TRACE("Scan all keys");
    index_->ScanAllKeys(tuple_location_ptrs);
  } else {
    LOG_TRACE("Scan");
    index_->Scan(values_,
                 key_column_ids_,
                 expr_type_,
                 SCAN_DIRECTION_TYPE_FORWARD,
                 tuple_location_ptrs,
                 &node.GetIndexPredicate().GetConjunctionList()[0]);
  }

  LOG_TRACE("Result tuple count: %lu", tuple_location_ptrs.size());

  auto &transaction_manager =
      concurrency::TransactionManagerFactory::GetInstance();

  auto current_txn = executor_context_->GetTransaction();

  if (tuple_location_ptrs.size() == 0) {
    index_done_ = true;
    return false;
  }

  std::map<oid_t, std::vector<oid_t>> visible_tuples;

  // for every tuple that is found in the index.
  for (auto tuple_location_ptr : tuple_location_ptrs) {
    ItemPointer tuple_location = *tuple_location_ptr;

    if (type_ == HYBRID_SCAN_TYPE_HYBRID &&
        tuple_location.block >= (block_threshold)) {
      item_pointers_.insert(tuple_location);
    }

    auto &manager = catalog::Manager::GetInstance();
    auto tile_group = manager.GetTileGroup(tuple_location.block);
    auto tile_group_header = tile_group.get()->GetHeader();

    // perform transaction read
    size_t chain_length = 0;
    while (true) {
      ++chain_length;

      auto visibility = transaction_manager.IsVisible(current_txn, tile_group_header, tuple_location.offset);

      if (visibility == VISIBILITY_OK) {

        visible_tuples[tuple_location.block].push_back(tuple_location.offset);
        auto res = transaction_manager.PerformRead(current_txn, tuple_location, acquire_owner);
        if (!res) {
          transaction_manager.SetTransactionResult(current_txn, RESULT_FAILURE);
          return res;
        }
        break;
      } else {
        ItemPointer old_item = tuple_location;
        cid_t old_end_cid = tile_group_header->GetEndCommitId(old_item.offset);

        tuple_location = tile_group_header->GetNextItemPointer(old_item.offset);
        // there must exist a visible version.
        assert(tuple_location.IsNull() == false);

        cid_t max_committed_cid = transaction_manager.GetMaxCommittedCid();

        // check whether older version is garbage.
        if (old_end_cid < max_committed_cid) {
          assert(tile_group_header->GetTransactionId(old_item.offset) ==
              INITIAL_TXN_ID ||
              tile_group_header->GetTransactionId(old_item.offset) ==
                  INVALID_TXN_ID);

          if (tile_group_header->SetAtomicTransactionId(
              old_item.offset, INVALID_TXN_ID) == true) {
            // atomically swap item pointer held in the index bucket.
            AtomicUpdateItemPointer(tuple_location_ptr, tuple_location);
          }
        }

        tile_group = manager.GetTileGroup(tuple_location.block);
        tile_group_header = tile_group.get()->GetHeader();
      }
    }
  }

  // Construct a logical tile for each block
//.........这里部分代码省略.........
开发者ID:jessesleeping,项目名称:iso_peloton,代码行数:101,代码来源:hybrid_scan_executor.cpp


示例5: do_request_redirected

useragentObj::response useragentObj::do_request(const fd *terminate_fd,
						requestimpl &req,
						request_sans_body &impl)
{
	bool initial=true;
	method_t meth=req.getMethod();

	uriimpl redirected_uri;

	for (size_t i=0; ; ++i)
	{
		auto response=initial ?
			do_request_redirected(terminate_fd, req, impl)
			: ({
					requestimpl next(GET, redirected_uri);
					request_sans_body no_body;

					meth=GET;

					do_request_redirected(terminate_fd,
							      next,
							      no_body);
				});

		initial=false;

		if (i >= maxredirects.get())
			return response; // Too many redirections

		LOG_DEBUG("Processing redirect " + to_string(i+1));

		// Check for redirects that we should handle
		// See RFC 2616.

		switch (response->message.getStatusCode()) {
		case 301:
		case 302:
		case 307:
			if (meth != HEAD && meth != GET)
				return response;
			break;
		case 303:
			break;
		default:
			return response;
		}

		// If there's no location header, we cannot redirect

		auto location=response->message.equal_range("Location");

		if (location.first == location.second)
			return response;

		try {
			redirected_uri=response->uri +
				uriimpl(std::string(location.first->
						    second.begin(),
						    location.first->
						    second.end()));
		} catch (...) {

			// Probably a bad URI

			return response;
		}

		LOG_TRACE("Processing redirect: "
			  + std::string(response->begin(), response->end()));

		response->discardbody();
	}
开发者ID:svarshavchik,项目名称:libcxx,代码行数:72,代码来源:http_useragentobj.C


示例6: LOG_DEBUG

void CommRemote::runThread() {
  fd_set sockets;
  int maxSocket = serverSocket + 1;

  struct timeval timeout;
  timeout.tv_sec  = (int)floor(socketTimeout);
  timeout.tv_usec = (int)floor((socketTimeout - timeout.tv_sec) * 1000);

  LOG_DEBUG("Timeouts = %d %d", timeout.tv_sec, timeout.tv_usec);

  struct sockaddr_in from;
  int                fromLength = sizeof(from);

  unsigned char clientBuffer[maxPacketSize];
  unsigned int  offset = 0;
  unsigned int  size = 0;

  FD_ZERO(&sockets);
  FD_SET(serverSocket, &sockets);

  LOG_TRACE("Starting thread");

  threadRunning = true;
  while (threadRunning) {

    FD_ZERO(&sockets);
    FD_SET(serverSocket, &sockets);
    if (clientSocket >= 0) {
      FD_SET(clientSocket, &sockets);
    }
    maxSocket = serverSocket > clientSocket ? serverSocket + 1 : clientSocket + 1;

    int result = select(maxSocket, &sockets, NULL, NULL, &timeout);
    if (result < 0) {
      if (errno == EINTR) {
//        printf("EINTR caught in select()\n.");
        usleep((int)(socketTimeout * 1000000));
        continue;
      }
      LOG_ERROR("Error reading from sockets using select().")
      threadRunning = false;
      break;
    }

    // Read data from connected client (if any)
    if ((clientSocket >= 0) && FD_ISSET(clientSocket, &sockets)) {
      bool closeConnection = false;

      // Read as much as we can
      int numRead = recv(clientSocket, clientBuffer + offset, maxPacketSize - offset, 0);
      if (numRead > 0) {
        LOG_INFO("Read %d bytes.", numRead);
      }

      // Client ended the connection
      if (numRead == 0) {
        closeConnection = true;
        LOG_INFO("Client ended the connection.");
      }
      // Error reading from the socket
      else if ((numRead == -1) && (errno != EAGAIN) && (errno != EINTR)) {
        closeConnection = true;
        LOG_INFO("Error reading from client socket: %d.", errno);
      }

      if (closeConnection) {
        LOG_INFO("Disconnecting client");
        disconnectClient(sockets, maxSocket);
      }

      // We actually read some data
      while (numRead > 0) {
        // Do we have a size for the packet?
        if ((numRead + offset >= robotMessageHeaderSize) && (size == 0)) {
          // We want to read the last 4 bytes (32 bits)
          uint32_t *sizePointer = (uint32_t *)(clientBuffer + robotMessageHeaderSize - 4);
          size = ntohl(*sizePointer);

          LOG_INFO("Read a size of %d", size);

          // Update the buffer's offset and numRead counter
          offset += robotMessageHeaderSize;
          numRead -= robotMessageHeaderSize;
        }
        // Has the whole packet been read?
        if ((size >= 0) && (offset + numRead >= size + robotMessageHeaderSize)) {
          // Update the buffer's offset and numRead counter
          numRead -= (size + robotMessageHeaderSize - offset);
          offset = size + robotMessageHeaderSize; // same as: offset += (size + robotMessageHeaderSize - offset)

          LOG_INFO("Received a packet of type %d, size %d.", clientBuffer[0], size);

          // Convert it into a packet
          // Assumption: the type fits in 1 byte
          RemoteMessageToRobot const *message = RemoteMessageToRobot::create(clientBuffer[0],
                                                                             size,
                                                                             clientBuffer + robotMessageHeaderSize);
          if (message != NULL) {
            pthread_mutex_lock(&dataMutex);
            messagesToRobot.push_back(message);
//.........这里部分代码省略.........
开发者ID:rcahoon,项目名称:2010CMRoboBitsGroup3,代码行数:101,代码来源:CommRemote.cpp


示例7: usim_api_authenticate

/****************************************************************************
 **                                                                        **
 ** Name:        usim_api_authenticate()                                   **
 **                                                                        **
 ** Description: Performs mutual authentication of the USIM to the network,**
 **              checking whether authentication token AUTN can be accep-  **
 **              ted. If so, returns an authentication response RES and    **
 **              the ciphering and integrity keys.                         **
 **              In case of synch failure, returns a re-synchronization    **
 **              token AUTS.                                               **
 **                                                                        **
 **              3GPP TS 31.102, section 7.1.1.1                           **
 **                                                                        **
 **              Authentication and key generating function algorithms are **
 **              specified in 3GPP TS 35.206.                              **
 **                                                                        **
 ** Inputs:      rand_pP:          Random challenge number                    **
 **              autn_pP:          Authentication token                       **
 **                             AUTN = (SQN xor AK) || AMF || MAC          **
 **                                         48          16     64 bits     **
 **              Others:        Security key                               **
 **                                                                        **
 ** Outputs:     auts_pP:          Re-synchronization token                   **
 **              res_pP:           Authentication response                    **
 **              ck_pP:            Ciphering key                              **
 **              ik_pP             Integrity key                              **
 **                                                                        **
 **              Return:        RETURNerror, RETURNok                      **
 **              Others:        None                                       **
 **                                                                        **
 ***************************************************************************/
int usim_api_authenticate(const OctetString* rand_pP, const OctetString* autn_pP,
                          OctetString* auts_pP, OctetString* res_pP,
                          OctetString* ck_pP, OctetString* ik_pP)
{
  LOG_FUNC_IN;

  int rc;
  int i;

  LOG_TRACE(DEBUG, "USIM-API  - rand :%s",dump_octet_string(rand_pP));
  LOG_TRACE(DEBUG, "USIM-API  - autn :%s",dump_octet_string(autn_pP));

  /* Compute the authentication response RES = f2K (RAND) */
  /* Compute the cipher key CK = f3K (RAND) */
  /* Compute the integrity key IK = f4K (RAND) */
  /* Compute the anonymity key AK = f5K (RAND) */
#define USIM_API_AK_SIZE 6
  u8 ak[USIM_API_AK_SIZE];
  f2345(_usim_api_k, rand_pP->value,
        res_pP->value, ck_pP->value, ik_pP->value, ak);
  LOG_TRACE(DEBUG, "USIM-API  - res(f2)  :%s",dump_octet_string(res_pP));
  LOG_TRACE(DEBUG, "USIM-API  - ck(f3)   :%s",dump_octet_string(ck_pP));
  LOG_TRACE(DEBUG, "USIM-API  - ik(f4)   :%s",dump_octet_string(ik_pP));
  LOG_TRACE(DEBUG, "USIM-API  - ak(f5)   : %02X%02X%02X%02X%02X%02X",
            ak[0],ak[1],ak[2],ak[3],ak[4],ak[5]);

  /* Retrieve the sequence number SQN = (SQN ⊕ AK) ⊕ AK */
#define USIM_API_SQN_SIZE USIM_API_AK_SIZE
  u8 sqn[USIM_API_SQN_SIZE];

  for (i = 0; i < USIM_API_SQN_SIZE; i++) {
    sqn[i] = autn_pP->value[i] ^ ak[i];
  }

  LOG_TRACE(DEBUG, "USIM-API  - Retrieved SQN %02X%02X%02X%02X%02X%02X",
            sqn[0],sqn[1],sqn[2],sqn[3],sqn[4],sqn[5]);

  /* Compute XMAC = f1K (SQN || RAND || AMF) */
#define USIM_API_XMAC_SIZE 8
  u8 xmac[USIM_API_XMAC_SIZE];
  f1(_usim_api_k, rand_pP->value, sqn, &autn_pP->value[USIM_API_SQN_SIZE], xmac);
  LOG_TRACE(DEBUG,
            "USIM-API  - Computed XMAC %02X%02X%02X%02X%02X%02X%02X%02X",
            xmac[0],xmac[1],xmac[2],xmac[3],
            xmac[4],xmac[5],xmac[6],xmac[7]);

  /* Compare the XMAC with the MAC included in AUTN */
#define USIM_API_AMF_SIZE 2

  if ( memcmp(xmac, &autn_pP->value[USIM_API_SQN_SIZE + USIM_API_AMF_SIZE],
              USIM_API_XMAC_SIZE) != 0 ) {
    LOG_TRACE(INFO,
              "USIM-API  - Comparing the XMAC with the MAC included in AUTN Failed");
    //LOG_FUNC_RETURN (RETURNerror);
  } else {
    LOG_TRACE(INFO,
              "USIM-API  - Comparing the XMAC with the MAC included in AUTN Succeeded");
  }

  /* Verify that the received sequence number SQN is in the correct range */
  rc = _usim_api_check_sqn(*(uint32_t*)(sqn), sqn[USIM_API_SQN_SIZE - 1]);

  if (rc != RETURNok) {
    /* Synchronisation failure; compute the AUTS parameter */

    /* Concealed value of the counter SQNms in the USIM:
     * Conc(SQNMS) = SQNMS ⊕ f5*K(RAND) */
    f5star(_usim_api_k, rand_pP->value, ak);

//.........这里部分代码省略.........
开发者ID:debashish216,项目名称:lte-testbed-news,代码行数:101,代码来源:usim_api.c


示例8: ipapwd_CheckPolicy

/* check password strenght and history */
int ipapwd_CheckPolicy(struct ipapwd_data *data)
{
    struct ipapwd_policy pol = {0};
    struct ipapwd_policy tmppol = {0};
    time_t acct_expiration;
    time_t pwd_expiration;
    time_t last_pwd_change;
    char **pwd_history;
    char *tmpstr;
    int ret;

    pol.max_pwd_life = IPAPWD_DEFAULT_PWDLIFE;
    pol.min_pwd_length = IPAPWD_DEFAULT_MINLEN;

    switch(data->changetype) {
        case IPA_CHANGETYPE_NORMAL:
            /* Find the entry with the password policy */
            ret = ipapwd_getPolicy(data->dn, data->target, &pol);
            if (ret) {
                LOG_TRACE("No password policy, use defaults");
            }
            break;
	case IPA_CHANGETYPE_ADMIN:
            /* The expiration date needs to be older than the current time
             * otherwise the KDC may not immediately register the password
             * as expired. The last password change needs to match the
             * password expiration otherwise minlife issues will arise.
             */
            data->timeNow -= 1;
            data->expireTime = data->timeNow;

            /* let set the entry password property according to its
             * entry password policy (done with ipapwd_getPolicy)
             * For this intentional fallthrough here
             */
        case IPA_CHANGETYPE_DSMGR:
            /* PassSync agents and Directory Manager can administratively
             * change the password without expiring it.
             *
             * Find password policy for the entry to properly set expiration.
             * Do not store it in resulting policy to avoid aplying password
             * quality checks on administratively set passwords
             */
            ret = ipapwd_getPolicy(data->dn, data->target, &tmppol);
            if (ret) {
                LOG_TRACE("No password policy, use defaults");
            } else {
                pol.max_pwd_life = tmppol.max_pwd_life;
                pol.history_length = tmppol.history_length;
            }
            break;
        default:
            LOG_TRACE("Unknown password change type, use defaults");
            break;
    }

    tmpstr = slapi_entry_attr_get_charptr(data->target,
                                          "krbPrincipalExpiration");
    acct_expiration = ipapwd_gentime_to_time_t(tmpstr);
    slapi_ch_free_string(&tmpstr);

    tmpstr = slapi_entry_attr_get_charptr(data->target,
                                          "krbPasswordExpiration");
    pwd_expiration = ipapwd_gentime_to_time_t(tmpstr);
    slapi_ch_free_string(&tmpstr);

    tmpstr = slapi_entry_attr_get_charptr(data->target,
                                          "krbLastPwdChange");
    last_pwd_change = ipapwd_gentime_to_time_t(tmpstr);
    slapi_ch_free_string(&tmpstr);

    pwd_history = slapi_entry_attr_get_charray(data->target,
                                               "passwordHistory");

    /* check policy */
    ret = ipapwd_check_policy(&pol, data->password,
                                    data->timeNow,
                                    acct_expiration,
                                    pwd_expiration,
                                    last_pwd_change,
                                    pwd_history);

    slapi_ch_array_free(pwd_history);

    if (data->expireTime == 0) {
        if (pol.max_pwd_life > 0) {
            /* max_pwd_life = 0 => never expire
             * set expire time only when max_pwd_life > 0 */
            data->expireTime = data->timeNow + pol.max_pwd_life;
        }
    }

    data->policy = pol;

    return ret;
}
开发者ID:infraredgirl,项目名称:freeipa,代码行数:97,代码来源:common.c


示例9: ipapwd_SetPassword

/* Modify the Password attributes of the entry */
int ipapwd_SetPassword(struct ipapwd_krbcfg *krbcfg,
                       struct ipapwd_data *data, int is_krb)
{
    int ret = 0;
    Slapi_Mods *smods = NULL;
    Slapi_Value **svals = NULL;
    Slapi_Value **ntvals = NULL;
    Slapi_Value **pwvals = NULL;
    char *nt = NULL;
    int is_smb = 0;
    int is_ipant = 0;
    int is_host = 0;
    Slapi_Value *sambaSamAccount;
    Slapi_Value *ipaNTUserAttrs;
    Slapi_Value *ipaHost;
    char *errMesg = NULL;
    char *modtime = NULL;

    LOG_TRACE("=>\n");

    sambaSamAccount = slapi_value_new_string("sambaSamAccount");
    if (slapi_entry_attr_has_syntax_value(data->target,
                                          "objectClass", sambaSamAccount)) {
        is_smb = 1;
    }
    slapi_value_free(&sambaSamAccount);

    ipaNTUserAttrs = slapi_value_new_string("ipaNTUserAttrs");
    if (slapi_entry_attr_has_syntax_value(data->target,
                                          "objectClass", ipaNTUserAttrs)) {
        is_ipant = 1;
    }
    slapi_value_free(&ipaNTUserAttrs);

    ipaHost = slapi_value_new_string("ipaHost");
    if (slapi_entry_attr_has_syntax_value(data->target,
                                          "objectClass", ipaHost)) {
        is_host = 1;
    }
    slapi_value_free(&ipaHost);

    ret = ipapwd_gen_hashes(krbcfg, data,
                            data->password,
                            is_krb, is_smb, is_ipant,
                            &svals, &nt, &ntvals, &errMesg);
    if (ret) {
        goto free_and_return;
    }

    smods = slapi_mods_new();

    if (svals) {
        slapi_mods_add_mod_values(smods, LDAP_MOD_REPLACE,
                                  "krbPrincipalKey", svals);

		/* krbLastPwdChange is used to tell whether a host entry has a
		 * keytab so don't set it on hosts.
		 */
        if (!is_host) {
	    /* change Last Password Change field with the current date */
            ret = ipapwd_setdate(data->target, smods, "krbLastPwdChange",
                                 data->timeNow, false);
            if (ret != LDAP_SUCCESS)
                goto free_and_return;

	    /* set Password Expiration date */
            ret = ipapwd_setdate(data->target, smods, "krbPasswordExpiration",
                                 data->expireTime, (data->expireTime == 0));
            if (ret != LDAP_SUCCESS)
                goto free_and_return;
	}
    }

    if (nt && is_smb) {
        slapi_mods_add_string(smods, LDAP_MOD_REPLACE,
                              "sambaNTPassword", nt);
    }

    if (ntvals && is_ipant) {
        slapi_mods_add_mod_values(smods, LDAP_MOD_REPLACE,
                                  "ipaNTHash", ntvals);
    }

    if (is_smb) {
        /* with samba integration we need to also set sambaPwdLastSet or
         * samba will decide the user has to change the password again */
        if (data->changetype == IPA_CHANGETYPE_ADMIN) {
            /* if it is an admin change instead we need to let know to
             * samba as well that the use rmust change its password */
            modtime = slapi_ch_smprintf("0");
        } else {
            modtime = slapi_ch_smprintf("%ld", (long)data->timeNow);
        }
        if (!modtime) {
            LOG_FATAL("failed to smprintf string!\n");
            ret = LDAP_OPERATIONS_ERROR;
            goto free_and_return;
        }
        slapi_mods_add_string(smods, LDAP_MOD_REPLACE,
//.........这里部分代码省略.........
开发者ID:infraredgirl,项目名称:freeipa,代码行数:101,代码来源:common.c


示例10: ipapwd_getPolicy

int ipapwd_getPolicy(const char *dn,
                     Slapi_Entry *target,
                     struct ipapwd_policy *policy)
{
    const char *krbPwdPolicyReference;
    char *pdn = NULL;
    Slapi_PBlock *pb = NULL;
    char *attrs[] = { "krbMaxPwdLife", "krbMinPwdLife",
                      "krbPwdMinDiffChars", "krbPwdMinLength",
                      "krbPwdHistoryLength", NULL};
    Slapi_Entry **es = NULL;
    Slapi_Entry *pe = NULL;
    int ret, res, scope, i;
    int buffer_flags=0;
    Slapi_ValueSet* results = NULL;
    char *actual_type_name = NULL;

    LOG_TRACE("Searching policy for [%s]\n", dn);

    pwd_get_values(target, "krbPwdPolicyReference",
                   &results, &actual_type_name, &buffer_flags);
    if (results) {
        Slapi_Value *sv;
        slapi_valueset_first_value(results, &sv);
        krbPwdPolicyReference = slapi_value_get_string(sv);
        pdn = slapi_ch_strdup(krbPwdPolicyReference);
    } else {
        /* Fallback to hardcoded value */
        pdn = slapi_ch_smprintf("cn=global_policy,%s", ipa_realm_dn);
    }
    if (pdn == NULL) {
        LOG_OOM();
        ret = -1;
        goto done;
    }
    LOG_TRACE("Using policy at [%s]\n", pdn);
    scope = LDAP_SCOPE_BASE;

    pb = slapi_pblock_new();
    slapi_search_internal_set_pb(pb,
                                 pdn, scope,
                                 "(objectClass=krbPwdPolicy)",
                                 attrs, 0,
                                 NULL, /* Controls */
                                 NULL, /* UniqueID */
                                 ipapwd_plugin_id,
                                 0); /* Flags */

    /* do search the tree */
    ret = slapi_search_internal_pb(pb);
    slapi_pblock_get(pb, SLAPI_PLUGIN_INTOP_RESULT, &res);
    if (ret == -1 || res != LDAP_SUCCESS) {
        LOG_FATAL("Couldn't find policy, err (%d)\n", res ? res : ret);
        ret = -1;
        goto done;
    }

    /* get entries */
    slapi_pblock_get(pb, SLAPI_PLUGIN_INTOP_SEARCH_ENTRIES, &es);
    if (!es) {
        LOG_TRACE("No entries ?!");
        ret = -1;
        goto done;
    }

    /* count entries */
    for (i = 0; es[i]; i++) /* count */ ;

    /* if there is only one, return that */
    if (i == 1) {
        pe = es[0];
    } else {
        LOG_TRACE("Multiple entries from a base search ?!");
        ret = -1;
        goto done;
    }

    /* read data out of policy object */
    policy->min_pwd_life = slapi_entry_attr_get_int(pe, "krbMinPwdLife");

    policy->max_pwd_life = slapi_entry_attr_get_int(pe, "krbMaxPwdLife");

    policy->min_pwd_length = slapi_entry_attr_get_int(pe, "krbPwdMinLength");

    policy->history_length = slapi_entry_attr_get_int(pe,
                                                      "krbPwdHistoryLength");

    policy->min_complexity = slapi_entry_attr_get_int(pe,
                                                      "krbPwdMinDiffChars");

    ret = 0;

done:
    if (results) {
        pwd_values_free(&results, &actual_type_name, buffer_flags);
    }
    if (pb) {
        slapi_free_search_results_internal(pb);
        slapi_pblock_destroy(pb);
    }
//.........这里部分代码省略.........
开发者ID:infraredgirl,项目名称:freeipa,代码行数:101,代码来源:common.c


示例11: ipapwd_gen_checks

int ipapwd_gen_checks(Slapi_PBlock *pb, char **errMesg,
                      struct ipapwd_krbcfg **config, int check_flags)
{
    int ret, ssf;
    int rc = LDAP_SUCCESS;
    Slapi_Backend *be;
    const Slapi_DN *psdn;
    Slapi_DN *sdn;
    char *dn = NULL;

    LOG_TRACE("=>\n");

#ifdef LDAP_EXTOP_PASSMOD_CONN_SECURE
    if (check_flags & IPAPWD_CHECK_CONN_SECURE) {
       /* Allow password modify on all connections with a Security Strength
        * Factor (SSF) higher than 1 */
        if (slapi_pblock_get(pb, SLAPI_OPERATION_SSF, &ssf) != 0) {
            LOG("Could not get SSF from connection\n");
            *errMesg = "Operation requires a secure connection.\n";
            rc = LDAP_OPERATIONS_ERROR;
            goto done;
        }

        if (ssf <= 1) {
            *errMesg = "Operation requires a secure connection.\n";
            rc = LDAP_CONFIDENTIALITY_REQUIRED;
            goto done;
        }
    }
#endif

    if (check_flags & IPAPWD_CHECK_DN) {
        /* check we have a valid DN in the pblock or just abort */
        ret = slapi_pblock_get(pb, SLAPI_TARGET_DN, &dn);
        if (ret) {
            LOG("Tried to change password for an invalid DN [%s]\n",
                dn ? dn : "<NULL>");
            *errMesg = "Invalid DN";
            rc = LDAP_OPERATIONS_ERROR;
            goto done;
        }
        sdn = slapi_sdn_new_dn_byref(dn);
        if (!sdn) {
            LOG_FATAL("Unable to convert dn to sdn %s", dn ? dn : "<NULL>");
            *errMesg = "Internal Error";
            rc = LDAP_OPERATIONS_ERROR;
            goto done;
        }
        be = slapi_be_select(sdn);
        slapi_sdn_free(&sdn);

        psdn = slapi_be_getsuffix(be, 0);
        if (!psdn) {
            *errMesg = "Invalid DN";
            rc = LDAP_OPERATIONS_ERROR;
            goto done;
        }
    }

    /* get the kerberos context and master key */
    *config = ipapwd_getConfig();
    if (NULL == *config) {
        LOG_FATAL("Error Retrieving Master Key");
        *errMesg = "Fatal Internal Error";
        rc = LDAP_OPERATIONS_ERROR;
    }

done:
    return rc;
}
开发者ID:infraredgirl,项目名称:freeipa,代码行数:70,代码来源:common.c


示例12: LOG_TRACE

void gcm::TetrFirstOrderInterpolator::interpolate(CalcNode& node, CalcNode& node0, CalcNode& node1, CalcNode& node2, CalcNode& node3)
{
    LOG_TRACE("Start interpolation");

    float Vol = tetrVolume(
                           (node1.coords[0])-(node0.coords[0]),
                           (node1.coords[1])-(node0.coords[1]),
                           (node1.coords[2])-(node0.coords[2]),
                           (node2.coords[0])-(node0.coords[0]),
                           (node2.coords[1])-(node0.coords[1]),
                           (node2.coords[2])-(node0.coords[2]),
                           (node3.coords[0])-(node0.coords[0]),
                           (node3.coords[1])-(node0.coords[1]),
                           (node3.coords[2])-(node0.coords[2])
                           );

    float factor[4];

    factor[0] = fabs(tetrVolume(
                                (node1.coords[0])-(node.coords[0]),
                                (node1.coords[1])-(node.coords[1]),
                                (node1.coords[2])-(node.coords[2]),
                                (node2.coords[0])-(node.coords[0]),
                                (node2.coords[1])-(node.coords[1]),
                                (node2.coords[2])-(node.coords[2]),
                                (node3.coords[0])-(node.coords[0]),
                                (node3.coords[1])-(node.coords[1]),
                                (node3.coords[2])-(node.coords[2])
                                ) / Vol);

    factor[1] = fabs(tetrVolume(
                                (node0.coords[0])-(node.coords[0]),
                                (node0.coords[1])-(node.coords[1]),
                                (node0.coords[2])-(node.coords[2]),
                                (node2.coords[0])-(node.coords[0]),
                                (node2.coords[1])-(node.coords[1]),
                                (node2.coords[2])-(node.coords[2]),
                                (node3.coords[0])-(node.coords[0]),
                                (node3.coords[1])-(node.coords[1]),
                                (node3.coords[2])-(node.coords[2])
                                ) / Vol);

    factor[2] = fabs(tetrVolume(
                                (node1.coords[0])-(node.coords[0]),
                                (node1.coords[1])-(node.coords[1]),
                                (node1.coords[2])-(node.coords[2]),
                                (node0.coords[0])-(node.coords[0]),
                                (node0.coords[1])-(node.coords[1]),
                                (node0.coords[2])-(node.coords[2]),
                                (node3.coords[0])-(node.coords[0]),
                                (node3.coords[1])-(node.coords[1]),
                                (node3.coords[2])-(node.coords[2])
                                ) / Vol);

    factor[3] = fabs(tetrVolume(
                                (node1.coords[0])-(node.coords[0]),
                                (node1.coords[1])-(node.coords[1]),
                                (node1.coords[2])-(node.coords[2]),
                                (node2.coords[0])-(node.coords[0]),
                                (node2.coords[1])-(node.coords[1]),
                                (node2.coords[2])-(node.coords[2]),
                                (node0.coords[0])-(node.coords[0]),
                                (node0.coords[1])-(node.coords[1]),
                                (node0.coords[2])-(node.coords[2])
                                ) / Vol);

    // If we see potential instability
    if (factor[0] + factor[1] + factor[2] + factor[3] > 1.0) {
        // If it is small - treat instability as minor and just 'smooth' it
        // TODO - think about it more carefully
        //if( point_in_tetr(node.local_num, node.coords[0], node.coords[1], node.coords[2], tetr) )
        if (factor[0] + factor[1] + factor[2] + factor[3] < 10) // [email protected]
        {
            if (factor[0] + factor[1] + factor[2] + factor[3] > 5.0)
                LOG_ERROR("Factor: " << factor[0] + factor[1] + factor[2] + factor[3]);
            float sum = factor[0] + factor[1] + factor[2] + factor[3];
            for (int i = 0; i < 4; i++)
                factor[i] = factor[i] / sum;
        }
            // If point is not in tetr - throw exception
        else {
            /*            *logger << "\tTetrVol = " < Vol;
             *logger << "\tfactor[0]=" << factor[0] << " factor[1]=" << factor[1] << " factor[2]=" << factor[2]     << " factor[3]=" << factor[3] << " Sum: " < factor[0] + factor[1] + factor[2] + factor[3];

             *logger << "\tnode.x[0]=" << node.coords[0] << " node.x[1]=" << node.coords[1]
                                            << " node.x[2]=" < node.coords[2];
                                    if( node.isFirstOrder() )
             *logger < "First order node";
                                    else if( node.isSecondOrder() )
             *logger < "Second order node";

             *logger << "\tv0.x[0]=" << nodes[tetr.vert[0]].coords[0] << " v0.x[1]=" << nodes[tetr.vert[0]].coords[1] << " v0.x[2]=" < nodes[tetr.vert[0]].coords[2];

             *logger << "\tv1.x[0]=" << nodes[tetr.vert[1]].coords[0] << " v1.x[1]=" << nodes[tetr.vert[1]].coords[1] << " v1.x[2]=" < nodes[tetr.vert[1]].coords[2];

             *logger << "\tv2.x[0]=" << nodes[tetr.vert[2]].coords[0] << " v2.x[1]=" << nodes[tetr.vert[2]].coords[1] << " v2.x[2]=" < nodes[tetr.vert[2]].coords[2];

             *logger << "\tv3.x[0]=" << nodes[tetr.vert[3]].coords[0] << " v3.x[1]=" << nodes[tetr.vert[3]].coords[1] << " v3.x[2]=" < nodes[tetr.vert[3]].coords[2];*/
            LOG_ERROR("Requested node: " << node);
            LOG_ERROR("Node #1: " << node0);
//.........这里部分代码省略.........
开发者ID:cranon,项目名称:gcm-3d,代码行数:101,代码来源:TetrFirstOrderInterpolator.cpp


示例13: GetRawNode

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