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version 1.6, 2002/03/12 01:14:28

version 1.71.10.1, 2013/07/30 05:38:50

Line 1

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

//%LICENSE////////////////////////////////////////////////////////////////

// The Open Group, Tivoli Systems

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

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

// deal in the Software without restriction, including without limitation the

// rights to use, copy, modify, merge, publish, distribute, sublicense, and/or

// sell copies of the Software, and to permit persons to whom the Software is

// furnished to do so, subject to the following conditions:

// THE ABOVE COPYRIGHT NOTICE AND THIS PERMISSION NOTICE SHALL BE INCLUDED IN

// ALL COPIES OR SUBSTANTIAL PORTIONS OF THE SOFTWARE. THE SOFTWARE IS PROVIDED

// "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT

// LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR

// PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT

// HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN

// ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION

// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.

//==============================================================================

// Author: Sushma Fernandes, Hewlett-Packard Company (sushma_fernandes@hp.com)

// Licensed to The Open Group (TOG) under one or more contributor license

// agreements. Refer to the OpenPegasusNOTICE.txt file distributed with

// this work for additional information regarding copyright ownership.

// Each contributor licenses this file to you under the OpenPegasus Open

// Source License; you may not use this file except in compliance with the

// License.

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

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

// to deal in the Software without restriction, including without limitation

// the rights to use, copy, modify, merge, publish, distribute, sublicense,

// and/or sell copies of the Software, and to permit persons to whom the

// Software is furnished to do so, subject to the following conditions:

// The above copyright notice and this permission notice shall be included

// in all copies or substantial portions of the Software.

// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS

// OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF

// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.

// IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY

// CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,

// TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE

// SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.

// Modified By: Jenny Yu, Hewlett-Packard Company (jenny_yu@hp.com)

//////////////////////////////////////////////////////////////////////////

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

#include <Pegasus/Common/Config.h>

#include <Pegasus/Common/Constants.h>

#include <Pegasus/Common/Tracer.h>

#include <Pegasus/Common/Destroyer.h>

#include <Pegasus/Common/TraceFileHandler.h>

#include <Pegasus/Common/TraceLogHandler.h>

#include <Pegasus/Common/TraceMemoryHandler.h>

#include <Pegasus/Common/Thread.h>

#include <Pegasus/Common/IPC.h>

#include <Pegasus/Common/System.h>

#include <Pegasus/Common/HTTPMessage.h>

#include <Pegasus/Common/StringConversion.h>

#include <Pegasus/Common/FileSystem.h>

PEGASUS_USING_STD;

PEGASUS_NAMESPACE_BEGIN

/**

String constants for naming the various Trace components.

These strings will used when turning on tracing for the respective

components. The component list must be kept in sync with the

TraceComponentId enumeration.

The tracer uses the _traceComponentMask in form of a 64bit field to mask

the user configured components.

Please ensure that no more than 64 components are specified in the

TRACE_COMPONENT_LIST.

The following example shows the usage of trace component names.

The setTraceComponents method is used to turn on tracing for the

components: Config and Repository. The component names are passed as a

comma separated list.

Tracer::setTraceComponents("Config,Repository");

char const* Tracer::TRACE_COMPONENT_LIST[] =

{

"Xml",

"XmlIO",

"Http",

"Repository",

"Dispatcher",

"OsAbstraction",

"Config",

"IndicationHandler",

"Authentication",

"Authorization",

"UserManager",

"Shutdown",

"Server",

"IndicationService",

"MessageQueueService",

"ProviderManager",

"ObjectResolution",

"WQL",

"CQL",

"Thread",

"CIMExportRequestDispatcher",

"SSL",

"ControlProvider",

"CIMOMHandle",

"L10N",

"ExportClient",

"Listener",

"DiscardedData",

"ProviderAgent",

"IndicationFormatter",

"StatisticalData",

"CMPIProvider",

"IndicationGeneration",

"IndicationReceipt",

"CMPIProviderInterface",

"WsmServer",

"RsServer",

#ifdef PEGASUS_ENABLE_PROTOCOL_WEB

"WebServer",

#endif

"LogMessages",

"WMIMapperConsumer",

"InternalProvider"

};

// Set the number of defined components

const Uint32 Tracer::_NUM_COMPONENTS =

sizeof(TRACE_COMPONENT_LIST)/sizeof(TRACE_COMPONENT_LIST[0]);

// Defines the value values for trace facilities

// Keep the TRACE_FACILITY_LIST in sync with the TRACE_FACILITY_INDEX,

// so that the index matches the according string in the list.

char const* Tracer::TRACE_FACILITY_LIST[] =

{

"File",

"Log",

"Memory",

};

// Set the trace levels

// These levels will be compared against a trace level mask to determine

// if a specific trace level is enabled

const Uint32 Tracer::LEVEL0 = 0;

const Uint32 Tracer::LEVEL1 = (1 << 0);

const Uint32 Tracer::LEVEL2 = (1 << 1);

const Uint32 Tracer::LEVEL3 = (1 << 2);

const Uint32 Tracer::LEVEL4 = (1 << 3);

const Uint32 Tracer::LEVEL5 = (1 << 4);

// Set the return codes

const Boolean Tracer::_SUCCESS = 1;

const Boolean Tracer::_FAILURE = 0;

String Tracer::_EMPTY_STRING = String::EMPTY;

// Set the Enter and Exit messages

const char Tracer::_FUNC_ENTER_MSG[] = "Entering method";

const char Tracer::_METHOD_ENTER_MSG[] = "Entering method";

const char Tracer::_FUNC_EXIT_MSG[] = "Exiting method";

const char Tracer::_METHOD_EXIT_MSG[] = "Exiting method";

// Set Log messages

const char Tracer::_LOG_MSG[] = "LEVEL1 may only be used with trace macros PEG_FUNC_ENTER/PEG_FUNC_EXIT or PEG_METHOD_ENTER/PEG_METHOD_EXIT.";

// Initialize singleton instance of Tracer

Tracer* Tracer::_tracerInstance = 0;

Line 65

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// Set component separator

const char Tracer::_COMPONENT_SEPARATOR = ',';

// Set the number of defined components

const Uint32 Tracer::_NUM_COMPONENTS =

sizeof(TRACE_COMPONENT_LIST)/sizeof(TRACE_COMPONENT_LIST[0]);

// Set the line maximum

const Uint32 Tracer::_STRLEN_MAX_UNSIGNED_INT = 21;

// Set the max PID and Thread ID Length

const Uint32 Tracer::_STRLEN_MAX_PID_TID = 20;

const Uint32 Tracer::_STRLEN_MAX_PID_TID = 21;

// Initialize public indicator of trace state

Boolean Tracer::_traceOn=false;

Uint32 Tracer::_traceLevelMask=0;

Uint64 Tracer::_traceComponentMask=(Uint64)0;

////////////////////////////////////////////////////////////////////////////////

// Tracer constructor

Line 81

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// Single Instance of Tracer is maintained for each process.

////////////////////////////////////////////////////////////////////////////////

Tracer::Tracer()

: _traceMemoryBufferSize(PEGASUS_TRC_DEFAULT_BUFFER_SIZE_KB),

_traceFacility(TRACE_FACILITY_FILE),

_runningOOP(false),

_traceHandler(0)

{

// Initialize Trace File Handler

_traceHandler=new TraceFileHandler();

_traceLevelMask=0;

_traceComponentMask=new Boolean[_NUM_COMPONENTS];

// Initialize ComponentMask array to false

// The tracer uses a 64bit field to mask the user configured components.

for (Uint32 index=0;index < _NUM_COMPONENTS;

// This assert ensures that no more than 64 components are specified in the

_traceComponentMask[index++]=false);

// TRACE_COMPONENT_LIST.

PEGASUS_ASSERT(_NUM_COMPONENTS <= 64);

// Instantiate trace handler according to configured facility

_setTraceHandler(_traceFacility);

}

////////////////////////////////////////////////////////////////////////////////

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////////////////////////////////////////////////////////////////////////////////

Tracer::~Tracer()

{

delete []_traceComponentMask;

delete _traceHandler;

delete _tracerInstance;

}

////////////////////////////////////////////////////////////////////////////////

//Traces the given message

//Factory function for the trace handler instances.

////////////////////////////////////////////////////////////////////////////////

void Tracer::_trace(

void Tracer::_setTraceHandler( Uint32 traceFacility )

const Uint32 traceComponent,

const Uint32 traceLevel,

const char* fmt,

va_list argList)

{

if ( traceLevel == LEVEL1 )

TraceHandler * oldTrcHandler = _traceHandler;

switch(traceFacility)

{

// ATTN: Setting the Log file type to DEBUG_LOG

case TRACE_FACILITY_LOG:

// May need to change to an appropriate log file type

_traceFacility = TRACE_FACILITY_LOG;

Logger::put(Logger::DEBUG_LOG,"Tracer",Logger::WARNING,"$0", _LOG_MSG);

_traceHandler = new TraceLogHandler();

break;

case TRACE_FACILITY_MEMORY:

_traceFacility = TRACE_FACILITY_MEMORY;

_traceHandler = new TraceMemoryHandler();

break;

case TRACE_FACILITY_FILE:

default:

_traceFacility = TRACE_FACILITY_FILE;

_traceHandler = new TraceFileHandler();

}

else

delete oldTrcHandler;

}

////////////////////////////////////////////////////////////////////////////////

// Validates if a given file path if it is eligible for writing traces.

////////////////////////////////////////////////////////////////////////////////

Boolean Tracer::_isValidTraceFile(String fileName)

{

// Check if the file path is a directory

FileSystem::translateSlashes(fileName);

if (FileSystem::isDirectory(fileName))

{

return false;

}

// Check if the file exists and is writable

if (FileSystem::exists(fileName))

{

return FileSystem::canWrite(fileName);

}

// Check if directory is writable

Uint32 index = fileName.reverseFind('/');

if (index != PEG_NOT_FOUND)

{

String dirName = fileName.subString(0,index);

if (dirName.size() == 0)

{

if (_isTraceEnabled(traceComponent,traceLevel))

dirName = "/";

}

if (!FileSystem::isDirectory(dirName))

{

_trace(traceComponent,"",fmt,argList);

return false;

}

return FileSystem::canWrite(dirName);

}

String currentDir;

// Check if there is permission to write in the

// current working directory

FileSystem::getCurrentDirectory(currentDir);

return FileSystem::canWrite(currentDir);

}

////////////////////////////////////////////////////////////////////////////////

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void Tracer::_trace(

const char* fileName,

const Uint32 lineNum,

const Uint32 traceComponent,

const TraceComponentId traceComponent,

const Uint32 traceLevel,

const char* fmt,

va_list argList)

{

char* message;

if ( traceLevel == LEVEL1 )

{

Logger::put(Logger::DEBUG_LOG,"Tracer",Logger::WARNING,"$0", _LOG_MSG);

}

else

{

if (_isTraceEnabled(traceComponent,traceLevel))

{

// Allocate memory for the message string

// Needs to be updated if additional info is added

message = new char[ strlen(fileName) +

_STRLEN_MAX_UNSIGNED_INT + _STRLEN_MAX_PID_TID ];

_STRLEN_MAX_UNSIGNED_INT + (_STRLEN_MAX_PID_TID * 2) + 8];

sprintf(

message,

"[%d:%d:%s:%d]: ",

"[%u:%s:%s:%u]: ",

System::getPID(),

pegasus_thread_self(),

Threads::id().buffer,

fileName,

lineNum);

_trace(traceComponent,message,fmt,argList);

delete []message;

}

////////////////////////////////////////////////////////////////////////////////

//Traces the given buffer

//Traces the message in the given CIMException object.

////////////////////////////////////////////////////////////////////////////////

void Tracer::_traceBuffer(

void Tracer::_traceCIMException(

const Uint32 traceComponent,

const TraceComponentId traceComponent,

const Uint32 traceLevel,

const CIMException& cimException)

const char* data,

const Uint32 size)

{

if ( traceLevel == LEVEL1 )

{

Logger::put(Logger::DEBUG_LOG,"Tracer",Logger::WARNING,"$0", _LOG_MSG);

// get the CIMException trace message string

CString traceMsg =

TraceableCIMException(cimException).getTraceDescription().getCString();

// trace the string

_traceCString(traceComponent, "", (const char*) traceMsg);

}

else

{

char* Tracer::_formatHexDump(

if (_isTraceEnabled(traceComponent,traceLevel))

char* targetBuffer,

const char * data,

Uint32 size)

{

char* tmpBuf = new char[size+1];

unsigned char* p = (unsigned char*)data;

unsigned char buf[16];

size_t n = 0;

int len;

strncpy( tmpBuf, data, size );

for (size_t i = 0, col = 0; i < size; i++)

tmpBuf[size] = '\0';

{

trace(traceComponent,traceLevel,"%s",tmpBuf);

unsigned char c = p[i];

buf[n++] = c;

delete []tmpBuf;

if (col == 0)

{

len = sprintf(targetBuffer, "%06X ", (unsigned int)i);

targetBuffer+=len;

}

len = sprintf(targetBuffer, "%02X", c);

targetBuffer+=len;

if ( ((col+1) & 3) == 0 )

{

*targetBuffer = ' ';

targetBuffer++;

}

if (col + 1 == sizeof(buf) || i + 1 == size)

{

for (size_t j = col + 1; j < sizeof(buf); j++)

{

targetBuffer[0]=' ';

targetBuffer[1]=' ';

targetBuffer[2]=' ';

targetBuffer += 3;

}

////////////////////////////////////////////////////////////////////////////////

for (size_t j = 0; j < n; j++)

//Traces the given buffer - Overloaded for including FileName and Line number

////////////////////////////////////////////////////////////////////////////////

void Tracer::_traceBuffer(

const char* fileName,

const Uint32 lineNum,

const Uint32 traceComponent,

const Uint32 traceLevel,

const char* data,

const Uint32 size)

{

if ( traceLevel == LEVEL1 )

c = buf[j];

if (c >= ' ' && c <= '~')

{

Logger::put(Logger::DEBUG_LOG,"Tracer",Logger::WARNING,"$0", _LOG_MSG);

*targetBuffer = c;

}

else

{

if ( _isTraceEnabled( traceComponent, traceLevel ) )

*targetBuffer = '.';

{

char* tmpBuf = new char[size+1];

strncpy( tmpBuf, data, size );

tmpBuf[size] = '\0';

trace(fileName,lineNum,traceComponent,traceLevel,"%s",tmpBuf);

delete []tmpBuf;

}

targetBuffer++;

}

*targetBuffer = '\n';

targetBuffer++;

n = 0;

}

if (col + 1 == sizeof(buf))

////////////////////////////////////////////////////////////////////////////////

//Traces the given string

////////////////////////////////////////////////////////////////////////////////

void Tracer::_traceString(

const Uint32 traceComponent,

const Uint32 traceLevel,

const String& traceString)

{

if ( traceLevel == LEVEL1 )

{

Logger::put(Logger::DEBUG_LOG,"Tracer",Logger::WARNING,"$0", _LOG_MSG);

col = 0;

}

else

{

if (_isTraceEnabled(traceComponent,traceLevel))

col++;

{

String msg = traceString;

ArrayDestroyer<char> traceMsg(msg.allocateCString());

trace(traceComponent,traceLevel,"%s",traceMsg);

}

*targetBuffer = '\n';

targetBuffer++;

return targetBuffer;

}

////////////////////////////////////////////////////////////////////////////////

SharedArrayPtr<char> Tracer::traceFormatChars(

//Traces the given string - Overloaded to include the fileName and line number

const Buffer& data,

//of trace origin.

bool binary)

////////////////////////////////////////////////////////////////////////////////

void Tracer::_traceString(

const char* fileName,

const Uint32 lineNum,

const Uint32 traceComponent,

const Uint32 traceLevel,

const String& traceString)

{

if ( traceLevel == LEVEL1 )

static char start[]="\n### Begin of binary data\n";

static char end[]="\n### End of binary data\n";

static char msg[] ="\n### Parts of data omitted. Only first 768 bytes and "\

"last 256 bytes shown. For complete information, use traceLevel 5.\n\n";

SharedArrayPtr<char> outputBuffer(

new char[(10*data.size()+sizeof(start)+sizeof(end)+sizeof(msg))]);

char* target = outputBuffer.get();

size_t size = data.size();

if (0 == size)

{

Logger::put(Logger::DEBUG_LOG,"Tracer",Logger::WARNING,"$0", _LOG_MSG);

target[0] = 0;

return outputBuffer;

}

else

if (binary)

{

if ( _isTraceEnabled( traceComponent, traceLevel ) )

memcpy(target,&(start[0]),sizeof(start)-1);

target+=sizeof(start)-1;

// If there are more then 1024 bytes of binary data and the trace level

// is not at highest level(5), we only trace part of the data and not

// everything

if ((_traceLevelMask & Tracer::LEVEL5) || (size <= 1024))

{

String msg = traceString;

target=_formatHexDump(target, data.getData(), size);

ArrayDestroyer<char> traceMsg(msg.allocateCString());

trace(fileName,lineNum,traceComponent,traceLevel,"%s",traceMsg);

}

////////////////////////////////////////////////////////////////////////////////

//Traces the message in the given CIMException object.

////////////////////////////////////////////////////////////////////////////////

void Tracer::_traceCIMException(

const Uint32 traceComponent,

const Uint32 traceLevel,

CIMException cimException)

{

if ( traceLevel == LEVEL1 )

{

Logger::put(Logger::DEBUG_LOG,"Tracer",Logger::WARNING,"$0", _LOG_MSG);

}

else

{

if ( _isTraceEnabled( traceComponent, traceLevel ) )

target=_formatHexDump(target, data.getData(), 768);

{

// get the CIMException trace message string

String traceMsg = cimException.getTraceMessage();

// trace the string

memcpy(target, &(msg[0]), sizeof(msg)-1);

_traceString(traceComponent, traceLevel, traceMsg);

target+=sizeof(msg)-1;

target=_formatHexDump(target, &(data.getData()[size-256]), 256);

}

memcpy(target,&(end[0]),sizeof(end));

}

else

{

memcpy(target, data.getData(), size);

target[size] = 0;

}

return outputBuffer;

}

////////////////////////////////////////////////////////////////////////////////

SharedArrayPtr<char> Tracer::getHTTPRequestMessage(

//Traces method entry

const Buffer& requestMessage)

////////////////////////////////////////////////////////////////////////////////

void Tracer::_traceEnter(

const char* fileName,

const Uint32 lineNum,

const Uint32 traceComponent,

const char* fmt,

...)

{

va_list argList;

const Uint32 requestSize = requestMessage.size();

char* message;

if (_isTraceEnabled(traceComponent,LEVEL1))

// Check if requestMessage contains "application/x-openpegasus"

// and if true format the the requestBuf as HexDump for tracing

// Binary is only possible on localConnect and doesn't have Basic

// authorization for that reason

if (strstr(requestMessage.getData(),"application/x-openpegasus"))

{

return traceFormatChars(requestMessage,true);

}

va_start(argList,fmt);

// Make a copy of the request message.

SharedArrayPtr<char>

requestBuf(new char [requestSize + 1]);

strncpy(requestBuf.get(), requestMessage.getData(), requestSize);

requestBuf.get()[requestSize] = 0;

// Allocate memory for the message string

// Check if requestBuffer contains a Basic authorization header.

// Needs to be updated if additional info is added

// If true, suppress the user/passwd info in the request buffer.

message = new char[ strlen(fileName) +

char* sep;

_STRLEN_MAX_UNSIGNED_INT + _STRLEN_MAX_PID_TID ];

const char* line = requestBuf.get();

sprintf(

message,

"[%d:%d:%s:%d]: ",

System::getPID(),

pegasus_thread_self(),

fileName,

lineNum);

_trace(traceComponent,message,fmt,argList);

va_end(argList);

while ((sep = HTTPMessage::findSeparator(line)) && (line != sep))

delete []message;

{

if (HTTPMessage::expectHeaderToken(line, "Authorization") &&

HTTPMessage::expectHeaderToken(line, ":") &&

HTTPMessage::expectHeaderToken(line, "Basic"))

{

// Suppress the user/passwd info

HTTPMessage::skipHeaderWhitespace(line);

for ( char* userpass = (char*)line ;

userpass < sep;

*userpass = 'X', userpass++)

{

}

break;

}

line = sep + ((*sep == '\r') ? 2 : 1);

}

return requestBuf;

}

////////////////////////////////////////////////////////////////////////////////

//Traces method exit

//Traces method entry and exit

////////////////////////////////////////////////////////////////////////////////

void Tracer::_traceExit(

void Tracer::_traceMethod(

const char* fileName,

const Uint32 lineNum,

const Uint32 traceComponent,

const TraceComponentId traceComponent,

const char* fmt

const char* methodEntryExit,

...)

const char* method)

{

va_list argList;

char* message;

if (_isTraceEnabled(traceComponent,LEVEL1))

{

va_start(argList,fmt);

// Allocate memory for the message string

// Needs to be updated if additional info is added

// assume Method entry/exit string 15 characters long

// +1 space character

message = new char[ strlen(fileName) +

_STRLEN_MAX_UNSIGNED_INT + _STRLEN_MAX_PID_TID ];

_STRLEN_MAX_UNSIGNED_INT + (_STRLEN_MAX_PID_TID * 2) + 8

+ 16];

sprintf(

message,

"[%d:%d:%s:%d]: ",

"[%u:%s:%s:%u]: %s ",

System::getPID(),

pegasus_thread_self(),

Threads::id().buffer,

fileName,

lineNum);

lineNum,

_trace(traceComponent,message,fmt,argList);

methodEntryExit);

va_end(argList);

delete []message;

_traceCString(traceComponent, message, method);

}

////////////////////////////////////////////////////////////////////////////////

delete [] message;

//Checks if trace is enabled for the given component and level

////////////////////////////////////////////////////////////////////////////////

Boolean Tracer::_isTraceEnabled(const Uint32 traceComponent,

const Uint32 traceLevel)

{

Tracer* instance = _getInstance();

if (traceComponent >= _NUM_COMPONENTS)

{

return false;

}

return ((instance->_traceComponentMask[traceComponent]) &&

(traceLevel & instance->_traceLevelMask));

}

////////////////////////////////////////////////////////////////////////////////

//Called by all trace interfaces to log message to trace file

//Called by all trace interfaces with variable arguments

//to log message to trace file

////////////////////////////////////////////////////////////////////////////////

void Tracer::_trace(

const Uint32 traceComponent,

const TraceComponentId traceComponent,

const char* message,

const char* fmt,

va_list argList)

{

char* msgHeader;

Uint32 msgLen;

Uint32 usec,sec;

// Get the current system time and prepend to message

String currentTime = System::getCurrentASCIITime();

System::getCurrentTimeUsec(sec,usec);

ArrayDestroyer<char> timeStamp(currentTime.allocateCString());

// Allocate messageHeader.

// Needs to be updated if additional info is added

msgHeader = new char [strlen(message)

+ strlen(TRACE_COMPONENT_LIST[traceComponent])

+ strlen(timeStamp.getPointer()) + _STRLEN_MAX_PID_TID];

// Construct the message header

// The message header is in the following format

// timestamp: <component name> [file name:line number]

if (strcmp(message,"") != 0)

// Format string length calculation:

// 11(sec)+ 2('s-')+11(usec)+4('us: ')+1(' ')+1(\0) = 30

if (*message != '\0')

{

sprintf(msgHeader,"%s: %s %s",timeStamp.getPointer(),

msgHeader = new char [strlen(message) +

strlen(TRACE_COMPONENT_LIST[traceComponent]) + 30];

msgLen = sprintf(msgHeader, "%us-%uus: %s %s", sec, usec,

TRACE_COMPONENT_LIST[traceComponent] ,message);

}

else

{

// Since the message is blank form a string using the pid and tid

// Allocate messageHeader.

// Needs to be updated if additional info is added

char* tmpBuffer;

// Format string length calculation:

// 11(sec)+2('s-')+11(usec)+4('us: ')+

// +2(' [')+1(':')+3(']: ')+1(\0) = 35

msgHeader = new char[2 * _STRLEN_MAX_PID_TID +

strlen(TRACE_COMPONENT_LIST[traceComponent]) + 35];

msgLen = sprintf(msgHeader, "%us-%uus: %s [%u:%s]: ", sec, usec,

TRACE_COMPONENT_LIST[traceComponent],

System::getPID(), Threads::id().buffer);

}

// Call trace file handler to write message

_getInstance()->_traceHandler->handleMessage(msgHeader,msgLen,fmt,argList);

delete [] msgHeader;

}

////////////////////////////////////////////////////////////////////////////////

//Called by all trace interfaces using a character string without format string

//to log message to trace file

////////////////////////////////////////////////////////////////////////////////

void Tracer::_traceCString(

const TraceComponentId traceComponent,

const char* message,

const char* cstring)

{

char* completeMessage;

Uint32 msgLen;

Uint32 usec,sec;

// Get the current system time and prepend to message

System::getCurrentTimeUsec(sec,usec);

// Allocate messageHeader.

// Allocate completeMessage.

// Needs to be updated if additional info is added

tmpBuffer = new char[_STRLEN_MAX_PID_TID];

sprintf(tmpBuffer,"[%d:%d]: ",System::getPID(),pegasus_thread_self());

sprintf(msgHeader,"%s: %s %s ",timeStamp.getPointer(),

// Construct the message header

TRACE_COMPONENT_LIST[traceComponent] ,tmpBuffer );

// The message header is in the following format

delete []tmpBuffer;

// timestamp: <component name> [file name:line number]

// Format string length calculation:

// 11(sec)+ 2('s-')+11(usec)+4('us: ')+1(' ')+1(\0) = 30

if (*message != '\0')

{

completeMessage = new char [strlen(message) +

strlen(TRACE_COMPONENT_LIST[traceComponent]) +

strlen(cstring) + 30];

msgLen = sprintf(completeMessage, "%us-%uus: %s %s%s", sec, usec,

TRACE_COMPONENT_LIST[traceComponent], message, cstring);

}

else

{

// Allocate messageHeader.

// Needs to be updated if additional info is added

// Format string length calculation:

// 11(sec)+2('s-')+11(usec)+4('us: ')+

// +2(' [')+1(':')+3(']: ')+1(\0) = 35

completeMessage = new char[2 * _STRLEN_MAX_PID_TID +

strlen(TRACE_COMPONENT_LIST[traceComponent]) +

strlen(cstring) +35];

msgLen = sprintf(completeMessage, "%us-%uus: %s [%u:%s] %s", sec, usec,

TRACE_COMPONENT_LIST[traceComponent],

System::getPID(), Threads::id().buffer,

cstring);

}

// Call trace file handler to write message

_getInstance()->_traceHandler->handleMessage(msgHeader,fmt,argList);

_getInstance()->_traceHandler->handleMessage(completeMessage,msgLen);

delete []msgHeader;

delete [] completeMessage;

}

////////////////////////////////////////////////////////////////////////////////

//Validate the trace file

////////////////////////////////////////////////////////////////////////////////

Boolean Tracer::isValid(const char* filePath)

Boolean Tracer::isValidFileName(const char* filePath)

{

return (_getInstance()->_traceHandler->isValidFilePath(filePath));

Tracer* instance = _getInstance();

String testTraceFile(filePath);

if (instance->_runningOOP)

{

testTraceFile.append(".");

testTraceFile.append(instance->_oopTraceFileExtension);

}

return _isValidTraceFile(testTraceFile);

}

////////////////////////////////////////////////////////////////////////////////

//Validate the trace components

////////////////////////////////////////////////////////////////////////////////

Boolean Tracer::isValid(

Boolean Tracer::isValidComponents(const String& traceComponents)

const String traceComponents, String& invalidComponents)

{

String invalidComponents;

return isValidComponents(traceComponents, invalidComponents);

}

Boolean Tracer::isValidComponents(

const String& traceComponents,

String& invalidComponents)

{

// Validate the trace components and modify the traceComponents argument

// to reflect the invalid components

Uint32 position=0;

Uint32 index=0;

String componentName = String::EMPTY;

String componentName;

String componentStr = String::EMPTY;

String componentStr;

Boolean validComponent=false;

Boolean retCode=true;

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// Check if ALL is specified

if (String::equalNoCase(componentStr,"ALL"))

{

return _SUCCESS;

return true;

}

// Append _COMPONENT_SEPARATOR to the end of the traceComponents

componentStr += _COMPONENT_SEPARATOR;

componentStr.append(_COMPONENT_SEPARATOR);

while (componentStr != String::EMPTY)

{

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if ( !validComponent )

{

invalidComponents += componentName;

invalidComponents.append(componentName);

invalidComponents += _COMPONENT_SEPARATOR;

invalidComponents.append(_COMPONENT_SEPARATOR);

}

else

{

// trace components is empty, it is a valid value so return true

return _SUCCESS;

return true;

}

if ( invalidComponents != String::EMPTY )

{

retCode = false;

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}

////////////////////////////////////////////////////////////////////////////////

//Validate the trace facility

////////////////////////////////////////////////////////////////////////////////

Boolean Tracer::isValidTraceFacility(const String& traceFacility)

{

Boolean retCode = false;

if (traceFacility.size() != 0)

{

Uint32 index = 0;

while (TRACE_FACILITY_LIST[index] != 0 )

{

if (String::equalNoCase(traceFacility,TRACE_FACILITY_LIST[index]))

{

retCode = true;

break;

}

index++;

}

return retCode;

}

////////////////////////////////////////////////////////////////////////////////

// Notify the trare running out of process and provide the trace file extension

// for the out of process trace file.

////////////////////////////////////////////////////////////////////////////////

void Tracer::setOOPTraceFileExtension(const String& oopTraceFileExtension)

{

Tracer* instance = _getInstance();

instance->_oopTraceFileExtension = oopTraceFileExtension;

instance->_runningOOP=true;

instance->_traceMemoryBufferSize /= PEGASUS_TRC_BUFFER_OOP_SIZE_DEVISOR;

}

////////////////////////////////////////////////////////////////////////////////

//Returns the Singleton instance of the Tracer

////////////////////////////////////////////////////////////////////////////////

Tracer* Tracer::_getInstance()

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}

// PEGASUS_REMOVE_TRACE defines the compile time inclusion of the Trace

// interfaces. If defined the interfaces map to empty functions

// interfaces. This section defines the trace functions IF the remove

// trace flag is NOT set. If it is set, they are defined as empty functions

// in the header file.

#ifndef PEGASUS_REMOVE_TRACE

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////////////////////////////////////////////////////////////////////////////////

Uint32 Tracer::setTraceFile(const char* traceFile)

{

return (_getInstance()->_traceHandler->setFileName (traceFile));

if (*traceFile == 0)

{

return 1;

}

Tracer* instance = _getInstance();

String newTraceFile(traceFile);

if (instance->_runningOOP)

{

newTraceFile.append(".");

newTraceFile.append(instance->_oopTraceFileExtension);

}

if (_isValidTraceFile(newTraceFile))

{

instance->_traceFile = newTraceFile;

instance->_traceHandler->configurationUpdated();

}

else

{

return 1;

}

return 0;

}

////////////////////////////////////////////////////////////////////////////////

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Line 843

switch (traceLevel)

{

case LEVEL0:

_traceLevelMask = 0x00;

break;

case LEVEL1:

_getInstance()->_traceLevelMask = 0x01;

_traceLevelMask = 0x01;

break;

case LEVEL2:

_getInstance()->_traceLevelMask = 0x03;

_traceLevelMask = 0x03;

break;

case LEVEL3:

_getInstance()->_traceLevelMask = 0x07;

_traceLevelMask = 0x07;

break;

case LEVEL4:

_getInstance()->_traceLevelMask = 0x0F;

_traceLevelMask = 0x0F;

break;

case LEVEL5:

_traceLevelMask = 0x1F;

break;

default:

_getInstance()->_traceLevelMask = 0;

_traceLevelMask = 0x00;

retCode = 1;

}

// If one of the components was set for tracing and the traceLevel

// is not zero, then turn on tracing.

_traceOn=((_traceComponentMask!=(Uint64)0)&&(_traceLevelMask!=LEVEL0));

return retCode;

}

////////////////////////////////////////////////////////////////////////////////

// Set components to be traced.

////////////////////////////////////////////////////////////////////////////////

void Tracer::setTraceComponents( const String traceComponents )

void Tracer::setTraceComponents(const String& traceComponents)

{

Uint32 position = 0;

Uint32 index = 0;

String componentName = String::EMPTY;

String componentStr = traceComponents;

String invalidComponents = String::EMPTY;

if (componentStr != String::EMPTY)

{

// Check if ALL is specified

if (String::equalNoCase(componentStr,"ALL"))

if (String::equalNoCase(traceComponents,"ALL"))

{

for (index=0; index < _NUM_COMPONENTS;

// initialize ComponentMask bit array to true

_getInstance()->_traceComponentMask[index++] = true);

_traceComponentMask = (Uint64)-1;

// If tracing isn't turned off by a traceLevel of zero, let's

// turn on the flag that activates tracing.

_traceOn = (_traceLevelMask != LEVEL0);

return ;

}

// initialise ComponentMask array to False

// initialize ComponentMask bit array to false

for (index = 0;index < _NUM_COMPONENTS;

_traceComponentMask = (Uint64)0;

_getInstance()->_traceComponentMask[index++] = false);

_traceOn = false;

if (traceComponents != String::EMPTY)

{

Uint32 index = 0;

Uint32 position = 0;

String componentName;

String componentStr = traceComponents;

// Append _COMPONENT_SEPARATOR to the end of the traceComponents

componentStr += _COMPONENT_SEPARATOR;

componentStr.append(_COMPONENT_SEPARATOR);

while (componentStr != String::EMPTY)

{

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if (String::equalNoCase(

componentName,TRACE_COMPONENT_LIST[index]))

{

_getInstance()->_traceComponentMask[index]=true;

_traceComponentMask=_traceComponentMask|((Uint64)1<<index);

// Found component, break from the loop

break;

}

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Line 935

index++;

}

// Remove the searched componentname from the traceComponents

componentStr.remove(0,position+1);

}

// If one of the components was set for tracing and the traceLevel

// is not zero, then turn on tracing.

_traceOn=((_traceComponentMask!=(Uint64)0)&&(_traceLevelMask!=LEVEL0));

}

return ;

}

////////////////////////////////////////////////////////////////////////////////

// Set the trace facility to be used

////////////////////////////////////////////////////////////////////////////////

Uint32 Tracer::setTraceFacility(const String& traceFacility)

{

Uint32 retCode = 0;

Tracer* instance = _getInstance();

if (traceFacility.size() != 0)

{

Uint32 index = 0;

while (TRACE_FACILITY_LIST[index] != 0 )

{

if (String::equalNoCase( traceFacility,TRACE_FACILITY_LIST[index]))

{

if (index != instance->_traceFacility)

{

instance->_setTraceHandler(index);

}

retCode = 1;

break;

}

index++;

}

return retCode;

}

////////////////////////////////////////////////////////////////////////////////

// Get the trace facility in use

////////////////////////////////////////////////////////////////////////////////

Uint32 Tracer::getTraceFacility()

{

return _getInstance()->_traceFacility;

}

////////////////////////////////////////////////////////////////////////////////

// Set the size of the memory trace buffer

////////////////////////////////////////////////////////////////////////////////

Boolean Tracer::setTraceMemoryBufferSize(Uint32 bufferSize)

{

Tracer* instance = _getInstance();

if (instance->_runningOOP)

{

// in OOP we reduce the trace memory buffer by factor

// PEGASUS_TRC_BUFFER_OOP_SIZE_DEVISOR

instance->_traceMemoryBufferSize =

bufferSize / PEGASUS_TRC_BUFFER_OOP_SIZE_DEVISOR;

}

else

{

// initialise ComponentMask array to False

instance->_traceMemoryBufferSize = bufferSize;

for (Uint32 index = 0;index < _NUM_COMPONENTS;

}

_getInstance()->_traceComponentMask[index++] = false);

// If we decide to dynamically change the trace buffer size,

// this is where it needs to be implemented.

return true;

}

////////////////////////////////////////////////////////////////////////////////

// Flushes the trace buffer to traceFilePath. This method will only

// have an effect when traceFacility=Memory.

////////////////////////////////////////////////////////////////////////////////

void Tracer::flushTrace()

{

_getInstance()->_traceHandler->flushTrace();

return ;

}

#endif

void Tracer::traceEnter(

TracerToken& token,

const char* file,

size_t line,

TraceComponentId traceComponent,

const char* method)

{

token.component = traceComponent;

token.method = method;

if (isTraceEnabled(traceComponent, LEVEL5))

{

_traceMethod(

file, (Uint32)line, traceComponent,

_METHOD_ENTER_MSG, method);

}

void Tracer::traceExit(

TracerToken& token,

const char* file,

size_t line)

{

if (isTraceEnabled(token.component, LEVEL5) && token.method)

_traceMethod(

file, (Uint32)line, token.component,

_METHOD_EXIT_MSG, token.method);

}

////////////////////////////////////////////////////////////////////////////////

//Traces the given string - Overloaded to include the fileName and line number

//of trace origin.

////////////////////////////////////////////////////////////////////////////////

void Tracer::traceCString(

const char* fileName,

const Uint32 lineNum,

const TraceComponentId traceComponent,

const char* cstring)

{

char* message;

Uint32 msgLen;

Uint32 usec,sec;

// Get the current system time

System::getCurrentTimeUsec(sec,usec);

// Allocate memory for the message string

// Needs to be updated if additional info is added

message = new char [strlen(fileName) +

_STRLEN_MAX_UNSIGNED_INT + (_STRLEN_MAX_PID_TID * 2) + 8 +

strlen(TRACE_COMPONENT_LIST[traceComponent]) +

strlen(cstring) + 30];

msgLen = sprintf(message, "%us-%uus: %s [%u:%s:%s:%u]: %s",

sec,

usec,

TRACE_COMPONENT_LIST[traceComponent],

System::getPID(),

Threads::id().buffer,

fileName,

lineNum,

cstring);

// Call trace file handler to write message

_getInstance()->_traceHandler->handleMessage(message,msgLen);

delete [] message;

}

void Tracer::traceCIMException(

const TraceComponentId traceComponent,

const Uint32 traceLevel,

const CIMException& cimException)

{

if (isTraceEnabled(traceComponent, traceLevel))

{

_traceCIMException(traceComponent, cimException);

}

#endif /* !PEGASUS_REMOVE_TRACE */

//set the trace file size only when the tracing is on a file

void Tracer::setMaxTraceFileSize(const String &size)

{

Tracer *inst = _getInstance();

if ( inst->getTraceFacility() == TRACE_FACILITY_FILE )

{

Uint32 traceFileSizeKBytes = 0;

tracePropertyToUint32(size, traceFileSizeKBytes);

//Safe to typecast here as we know that handler is of type file

TraceFileHandler *hdlr = (TraceFileHandler*) (inst->_traceHandler);

hdlr->setMaxTraceFileSize(traceFileSizeKBytes*1024);

}

//set the trace file number for rolling only when the tracing is on a file

void Tracer::setMaxTraceFileNumber(const String &maxTraceFileNumber)

{

Tracer *inst = _getInstance();

if ( inst->getTraceFacility() == TRACE_FACILITY_FILE )

{

Uint32 numberOfTraceFiles = 0;

tracePropertyToUint32(maxTraceFileNumber, numberOfTraceFiles);

//Safe to typecast here as we know that handler is of type file

TraceFileHandler *hdlr = (TraceFileHandler*) (inst->_traceHandler);

hdlr->setMaxTraceFileNumber(numberOfTraceFiles);

}

// Converts the quantifiable trace proprties string into a Uint32 value.

// It returns false and the bufferSize is set to 0 if the string was not valid.

Boolean Tracer::tracePropertyToUint32(

const String& traceProperty, Uint32& valueInUint32 )

{

Boolean retCode = false;

Uint64 uInt64BufferSize;

valueInUint32 = 0;

CString stringBufferSize = traceProperty.getCString();

retCode = StringConversion::decimalStringToUint64(stringBufferSize,

uInt64BufferSize);

if (retCode )

{

retCode = StringConversion::checkUintBounds(uInt64BufferSize,

CIMTYPE_UINT32);

}

if (retCode )

{

valueInUint32 = (Uint32)uInt64BufferSize;

}

return retCode;

}

PEGASUS_NAMESPACE_END

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	Added in v.1.71.10.1

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