int main(int argc, char** argv)
{
verbose = getenv("PEGASUS_TEST_VERBOSE") ? true : false;
Stopwatch sw;
sw.start();
System::sleep(5);
sw.stop();
double elapsed = sw.getElapsed();
if(verbose)
{
sw.printElapsed();
}
PEGASUS_TEST_ASSERT((elapsed >= 4.5) && (elapsed <= 5.5));
cout << argv[0] << " +++++ passed all tests" << endl;
return 0;
}
ThreadReturnType PEGASUS_THREAD_CDECL _executeTests(void *parm)
{
Thread *my_thread = (Thread *)parm;
AutoPtr<T_Parms> parms((T_Parms *)my_thread->get_parm());
CIMClient* client = parms->client;
Uint32 indicationSendCount = parms->indicationSendCount;
Uint32 id = parms->uniqueID;
char id_[4];
memset(id_,0x00,sizeof(id_));
sprintf(id_,"%u",id);
String uniqueID = "_";
uniqueID.append(id_);
try
{
Stopwatch elapsedTime;
elapsedTime.start();
try
{
_sendTestIndication (client, CIMName ("SendTestIndicationTrap"),
indicationSendCount);
}
catch (Exception & e)
{
cerr << "----- sendTestIndication failed: " << e.getMessage () <<
endl;
exit (-1);
}
elapsedTime.stop();
_testEnd(uniqueID, elapsedTime.getElapsed());
}
catch(Exception & e)
{
cout << e.getMessage() << endl;
}
return ThreadReturnType(0);
}
int main(int argc, char** argv)
{
const char* arg0 = System::findBaseName(argv[0]);
#ifdef PEGASUS_OS_ZOS
// for z/OS set stdout and stderr to EBCDIC
setEBCDICEncoding(STDOUT_FILENO);
setEBCDICEncoding(STDERR_FILENO);
#endif
#ifdef PEGASUS_OS_PASE
// Allow user group name larger than 8 chars in PASE environemnt
setenv("PASE_USRGRP_LIMITED","N",1);
#endif
// If no arguments, simply print usage message and terminate.
MessageLoader::_useProcessLocale = true;
if (argc == 1)
{
showUsage();
exit(0);
}
//****** Show the args diagnostic display
if (strcmp(argv[1],"displayargs") == 0)
{
cout << "argc = " << argc << endl;
for (int i = 0; i < argc; i++)
cout << "argv[" << i << "] = " << argv[i] << endl;
}
// Get options (from command line and from configuration file); this
// removes corresponding options and their arguments from the command
// line.
OptionManager om;
Options opts;
try
{
// assume that the config file is local to directory where called.
String testHome = ".";
om.setMessagePath("pegasus/pegasusCLI");
GetOptions(om, argc, argv, testHome);
// Initialize all of the function input parameters.
opts.location = String::EMPTY;
#ifdef PEGASUS_HAS_SSL
opts.ssl = false;
opts.clientCert = String::EMPTY;
opts.clientKey = String::EMPTY;
#endif
opts.nameSpace = "root/cimv2";
opts.cimCmd = "unknown";
opts.className = CIMName();
opts.objectName = "unknown";
opts.isXmlOutput = false;
opts.outputFormatType = OUTPUT_MOF;
opts.user = String::EMPTY;
opts.password = String::EMPTY;
opts.verboseTest = false;
opts.localOnly = true;
opts.deepInheritance = false;
opts.includeQualifiers = true;
opts.includeClassOrigin = false;
opts.assocClassName = String::EMPTY;
opts.assocClass = CIMName();
opts.resultClassName = String::EMPTY;
opts.resultClass = CIMName();
opts.role = String::EMPTY;
opts.resultRole = String::EMPTY;
opts.propertyListText = String::EMPTY;
opts.propertyList.clear();
opts.propertyName = String::EMPTY;
opts.methodName = CIMName("unknown");
opts.delay = 0;
opts.trace = 0;
opts.count= 97832;
opts.repeat = 0;
opts.time = false;
opts.termCondition = 0;
opts.debug = false;
opts.queryLanguage = "WQL";
// move any other input parameters left to the extraParams List
CheckCommonOptionValues(om, argv, opts);
/* note that this is in error since it assumes a fixed
number of parameters will be used for all of the commands
It needs to be expanded to allow for a variable minimum
number of commands before it picks up any extras
*/
if (argc > 2)
{
for (int i = 2 ; i < argc ; i++ )
opts.extraParams.append(argv[i]);
}
}
catch(CIMException& e)
{
cerr << argv[0] << " Caught CIMException during init: "
<< "\n" << e.getMessage()
<< endl;
exit(1);
}
catch (Exception& e)
{
cerr << argv[0] << ": " << e.getMessage() << endl;
exit(1);
}
catch(...)
{
cerr << argv[0] << " Caught General Exception During Init:" << endl;
exit(1);
}
// if there is still an arg1, assume it is the command name.
if (argc > 1)
{
opts.cimCmd = argv[1];
}
else
{
cout << " Command name must be first parameter or --c parameter."
<< " \n ex. " << argv[0] << " enumerateclasses\n"
<< "Enter " << argv[0] << " -h for help."
<< endl;
exit(1);
}
// if the trace option was set initialize the trace function.
if (opts.trace != 0)
{
const char* tmpDir = getenv ("PEGASUS_TMP");
if (tmpDir == NULL)
{
tmpDir = ".";
}
String traceFile (tmpDir);
traceFile.append("/cliTrace.trc");
Tracer::setTraceFile (traceFile.getCString());
Tracer::setTraceComponents("ALL");
Tracer::setTraceLevel(opts.trace);
}
// Find the command and save index in cmdIndex
Uint32 cmdIndex = 0;
if (opts.verboseTest && opts.debug)
cout << "TEST Command = " << opts.cimCmd << endl;
// Find the command or the short cut name
for( ; cmdIndex < NUM_COMMANDS; cmdIndex++ )
{
if ((String::equalNoCase(opts.cimCmd,
CommandTable[cmdIndex].CommandName))
||
(opts.cimCmd == CommandTable[cmdIndex].ShortCut))
// Break if found
break;
}
Stopwatch totalElapsedExecutionTime;
totalElapsedExecutionTime.start();
// Now try to open the connection to the cim server
CIMClient client;
try
{
if (CommandTable[cmdIndex].ID_Command != ID_ShowOptions)
{
String host;
HostLocator addr;
if (opts.location != String::EMPTY)
{
addr.setHostLocator(opts.location);
if (!addr.isValid())
{
throw InvalidLocatorException(opts.location);
}
host = addr.getHost();
}
Uint32 portNumber = System::lookupPort( WBEM_HTTP_SERVICE_NAME,
WBEM_DEFAULT_HTTP_PORT );
// Set up SSL port and flag for verbose display
// if SSL included in build
String useSSL;
#ifdef PEGASUS_HAS_SSL
if (opts.ssl)
{
portNumber = System::lookupPort( WBEM_HTTPS_SERVICE_NAME,
WBEM_DEFAULT_HTTPS_PORT );
}
useSSL = " ssl=";
useSSL.append((opts.ssl)? "true" : "false");
#endif
if (host != String::EMPTY && addr.isPortSpecified())
{
portNumber = addr.getPort();
}
//check whether we should use connect() or connectLocal()
//an empty location option indicates to use connectLocal()
if (String::equal(host, String::EMPTY))
{
if (opts.verboseTest)
{
cout << "Connect with connectLocal" << endl;
}
client.connectLocal();
}
else
{
if (opts.verboseTest)
{
cout << "Connect to " << host
<< " port=" << portNumber
<< useSSL
<< " for User="******"SSL options "
<< "Cert = " << opts.clientCert
<< "clientKey = " << opts.clientKey << endl;
}
client.connect(host,
portNumber,
SSLContext("",
opts.clientCert,
opts.clientKey,
NULL, "ssl.rnd"),
opts.user,
opts.password);
} else
{
client.connect(host,
portNumber,
SSLContext("", NULL, "ssl.rnd"),
opts.user,
opts.password);
}
} else //connect over HTTP
{
client.connect(host, portNumber, opts.user, opts.password);
}
#else
client.connect(host, portNumber, opts.user, opts.password);
#endif
}
}
}
catch(Exception &e)
{
cerr << "Pegasus Exception: " << e.getMessage() <<
" Trying to connect to " << opts.location << endl;
exit(1);
}
// Register for Client statistics.
ClientStatistics statistics = ClientStatistics();
client.registerClientOpPerformanceDataHandler(statistics);
if (opts.delay != 0)
{
// This was a test because of some delay caused problems.
Threads::sleep(opts.delay * 1000);
}
// If the timeout is not zero, set the timeout for this connection.
if (opts.connectionTimeout != 0)
{
client.setTimeout(opts.connectionTimeout * 1000);
}
// Save the total connect time.
double totalConnectTime = opts.elapsedTime.getElapsed();
double totalTime = 0;
Uint32 repeatCount = opts.repeat;
double maxTime = 0;
double minTime = 10000000;
Uint64 serverTotalTime = 0;
Uint64 maxServerTime = 0;
Uint64 minServerTime = 10000000;
Uint64 rtTotalTime = 0;
Uint64 maxRtTime = 0;
Uint64 minRtTime = 10000000;
// Process the input command within a try block.
try
{
// Loop to repeat the command a number of times.
do
{
// or exit with error through default of case logic
switch(CommandTable[cmdIndex].ID_Command)
{
case ID_EnumerateInstanceNames :
if (!_getClassNameInput(argc, argv, opts, true))
exit(1);
enumerateInstanceNames(client, opts);
break;
case ID_EnumerateAllInstanceNames :
if (!_getClassNameInput(argc, argv, opts, false))
exit(1);
enumerateAllInstanceNames(client, opts);
break;
case ID_EnumerateInstances :
if (!_getClassNameInput(argc, argv, opts, true))
exit(1);
enumerateInstances(client, opts);
break;
case ID_GetInstance :
if (!_getObjectNameInput(argc, argv, opts, true))
exit(1);
getInstance(client, opts);
break;
case ID_EnumerateClassNames :
if (!_getClassNameInput(argc, argv, opts, false))
exit(1);
enumerateClassNames(client, opts);
break;
case ID_EnumerateClasses :
if (!_getClassNameInput(argc, argv, opts, false))
exit(1);
enumerateClasses(client, opts);
break;
case ID_GetClass :
if (!_getClassNameInput(argc, argv, opts, true))
exit(1);
getClass(client, opts);
break;
case ID_CreateInstance :
if (!_getClassNameInput(argc, argv, opts, true))
exit(1);
createInstance(client, opts);
break;
case ID_DeleteInstance :
if (!_getObjectNameInput(argc, argv, opts, true))
exit(1);
deleteInstance(client, opts);
break;
case ID_CreateClass :
cerr << "CreateClass not implemented" << endl;
break;
case ID_DeleteClass :
if (!_getClassNameInput(argc, argv, opts, true))
exit(1);
deleteClass(client, opts);
break;
case ID_GetProperty :
if (argc != 4)
{
cout << "Usage: " << arg0 <<
" getproperty <instancename> <propertyname>" <<
endl;
exit(1);
}
opts.instanceName = argv[2];
opts.inputObjectName = argv[2];
opts.propertyName = argv[3];
getProperty(client, opts);
break;
case ID_SetProperty :
if (argc != 5)
cout <<"Usage: " << arg0 <<
" setproperty instancename propertyname value "
<< endl;
setProperty(client, opts);
break;
case ID_EnumerateQualifiers :
enumerateQualifiers(client, opts);
break;
case ID_SetQualifier :
cerr << "SetQualifer not implemented" << endl;
exit(1);
break;
case ID_GetQualifier :
if (!_getQualifierNameInput(argc, argv, opts))
exit(1);
getQualifier(client, opts);
break;
case ID_DeleteQualifier :
if (!_getQualifierNameInput(argc, argv, opts))
exit(1);
deleteQualifier(client, opts);
break;
/* Reference params are
[IN] <objectName> ObjectName,
[IN,OPTIONAL,NULL] <className> ResultClass = NULL,
[IN,OPTIONAL,NULL] string Role = NULL,
[IN,OPTIONAL] boolean IncludeQualifiers = false,
[IN,OPTIONAL] boolean IncludeClassOrigin = false,
[IN,OPTIONAL,NULL] string PropertyList [] = NULL
*/
case ID_References :
if (!_getObjectNameInput(argc, argv, opts, true))
exit(1);
references(client, opts);
break;
case ID_ReferenceNames :
if (!_getObjectNameInput(argc, argv, opts, true))
exit(1);
referenceNames(client, opts);
break;
case ID_Associators :
if (!_getObjectNameInput(argc, argv, opts, true))
exit(1);
associators(client, opts);
break;
case ID_AssociatorNames :
if (!_getObjectNameInput(argc, argv, opts, true))
exit(1);
associatorNames(client,opts);
break;
case ID_EnumerateNamespaces :
// Note that the following constants are fixed here. We
// should be getting them from the environment to assure
// that others know that we are using them.
opts.className = CIMName("CIM_Namespace");
if (argc > 2)
{
opts.nameSpace = argv[2];
opts.inputObjectName = argv[2];
}
else
// set nameSpace to interop namespace name
opts.nameSpace =
PEGASUS_NAMESPACENAME_INTEROP.getString();
enumerateNamespaces_Namespace(client,opts);
break;
/*
CIMValue invokeMethod(
const CIMNamespaceName& nameSpace,
const CIMObjectPath& instanceName,
const CIMName& methodName,
const Array<CIMParamValue>& inParameters,
Array<CIMParamValue>& outParameters
*/
case ID_InvokeMethod :
if (argc < 4)
{
cout << "Usage: InvokeMethod requires that object and"
" method names be specified.\n"
"Input parameters are optional and can be"
" specified with the -ip option or as"
" additional parameters to this call. "
"Enter each input parameter as name=value"
" (no spaces around equal sign)."
<< endl;
exit(1);
}
opts.objectName = argv[2];
opts.inputObjectName = argv[2];
opts.methodName = CIMName(argv[3]);
// If there are any extra arguments they must be parameters
// These parameters can be used in addtion to parameters
// ifrom the -ip option setting. Parameters found here must
// be key=value pairs or they will generate an exception.
if (argc > 4)
{
// get input params from command line
for (Sint32 i = 4 ; i < argc; i++)
{
CIMParamValue pv;
String s = argv[i];
pv = _createMethodParamValue(s, opts);
opts.inParams.append(pv);
}
}
invokeMethod(client, opts);
break;
case ID_ShowOptions :
showUsage();
break;
case ID_ExecQuery:
opts.query = argv[2];
if (argc==4)
opts.queryLanguage = argv[3];
executeQuery(client, opts);
break;
case ID_StatisticsOn:
setObjectManagerStatistics(client, true);
break;
case ID_StatisticsOff:
setObjectManagerStatistics(client, false);
break;
//case ID_Unknown :
default:
cout << "Invalid Command. Command name must be first parm"
" or --c parameter."
<< " \n ex. " << arg0 << " enumerateclasses\n"
<< "Enter " << argv[0] << " -h for help."
<< endl;
exit(1);
break;
}
if (opts.repeat > 0)
{
if (opts.verboseTest)
{
cout << "Repetitition " << opts.repeat << endl;
}
opts.repeat--;
if (opts.time)
{
totalTime += opts.saveElapsedTime;
maxTime = LOCAL_MAX(maxTime, opts.saveElapsedTime);
minTime = LOCAL_MIN(minTime, opts.saveElapsedTime);
rtTotalTime += (returnedPerformanceData.roundTripTime);
maxRtTime = LOCAL_MAX(maxRtTime,
returnedPerformanceData.roundTripTime);
minRtTime = LOCAL_MIN(minRtTime,
returnedPerformanceData.roundTripTime);
if (returnedPerformanceData.serverTimeKnown)
{
serverTotalTime += (returnedPerformanceData.serverTime);
maxServerTime = LOCAL_MAX(maxServerTime,
returnedPerformanceData.serverTime);
minServerTime = LOCAL_MIN(minServerTime,
returnedPerformanceData.serverTime);
}
}
}
} while (opts.repeat > 0 );
if (opts.time)
{
if (repeatCount == 0)
{
cout << CommandTable[cmdIndex].CommandName
<< " "
<< opts.inputObjectName
<< " Time= "
<< opts.saveElapsedTime
<< " Sec "
<< " SvrTime= "
<< CIMValue(returnedPerformanceData.serverTime).toString()
<< " us "
<< " RtTime= "
<< CIMValue(returnedPerformanceData.roundTripTime).
toString()
<< " us "
<< "Req size= "
<< CIMValue(returnedPerformanceData.requestSize).toString()
<< " b Resp size= "
<< CIMValue(returnedPerformanceData.responseSize).toString()
<< " b"
<< endl;
}
else
{
cout << CommandTable[cmdIndex].CommandName
<< " "
<< opts.inputObjectName
<< " Total Time "
<< totalTime
<< " for "
<< repeatCount
<< " ops. Avg= "
<< (totalTime * 1000000)/repeatCount
<< " us min= "
<< minTime * 1000000
<< " us max= "
<< (maxTime * 1000000)
<< " us SvrTime avg= "
<< CIMValue(serverTotalTime/repeatCount).toString()
<< " us SvrTime min= "
<< CIMValue(minServerTime).toString()
<< " us SvrTime max= "
<< CIMValue(maxServerTime).toString()
<< " us"
<< " RtTime avg= "
<< CIMValue(rtTotalTime/repeatCount).toString()
<< " us RtTime min= "
<< CIMValue(minRtTime).toString()
<< " us RtTime max= "
<< CIMValue(maxRtTime).toString()
<< " us"
<< endl;
}
}
}
catch(CIMException& e)
{
cerr << argv[0] << " CIMException: "<<" Cmd= " << opts.cimCmd
<< " Object= " << opts.inputObjectName
<< "\n" << e.getMessage()
<< endl;
opts.termCondition = 1;
}
catch(Exception& e)
{
PEGASUS_STD(cerr) << argv[0] << " Pegasus Exception: " << e.getMessage()
<< ". Cmd = " << opts.cimCmd
<< " Object = " << opts.inputObjectName
<< PEGASUS_STD(endl);
opts.termCondition = 1;
}
catch(...)
{
cerr << argv[0] << " Caught General Exception:" << endl;
opts.termCondition = 1;
}
totalElapsedExecutionTime.stop();
if (opts.time)
{
// if abnormal term, dump all times
if (opts.termCondition == 1)
{
cout << "Exception" << endl;
cout << "Prev Time " << opts.saveElapsedTime << " Sec" << endl;
opts.saveElapsedTime = opts.elapsedTime.getElapsed();
cout << "Last Time " << opts.saveElapsedTime << " Sec" << endl;
cout << "Total Time " << totalTime << " for "
<< repeatCount << " operations. Avg.= " << totalTime/repeatCount
<< " min= " << minTime << " max= " << maxTime << endl;
}
cout << "Total Elapsed Time= " << totalElapsedExecutionTime.getElapsed()
<< " Sec. Terminated at " << System::getCurrentASCIITime() << endl;
}
if (opts.delay != 0)
{
Threads::sleep(opts.delay * 1000);
}
return(opts.termCondition);
}
int main(int argc, char** argv)
{
// char connection[50] = "localhost:5988";
char *address_string = NULL;
Uint32 repetitions = 1;
// Get environment variables:
String pegasusHome;
pegasusHome = "/";
// GetEnvironmentVariables(argv[0], pegasusHome);
// Get options (from command line and from configuration file); this
// removes corresponding options and their arguments fromt he command
// line.
// Get options (from command line and from configuration file); this
// removes corresponding options and their arguments fromt he command
// line.
OptionManager om;
try
{
GetOptions(om, argc, argv, pegasusHome);
}
catch (Exception& e)
{
cerr << argv[0] << ": " << e.getMessage() << endl;
exit(1);
}
// Check to see if user asked for help (-h otpion):
if (om.valueEquals("help", "true"))
{
String header = "Usage ";
header.append(argv[0]);
header.append(" -parameters host [host]");
String trailer = "Assumes localhost:5988 if host not specified";
trailer.append("\nHost may be of the form name or name:port");
trailer.append("\nPort 5988 assumed if port number missing.");
om.printOptionsHelpTxt(header, trailer);
exit(0);
}
String localNameSpace;
om.lookupValue("namespace", localNameSpace);
globalNamespace = localNameSpace;
cout << "Namespace = " << localNameSpace << endl;
String userName;
om.lookupValue("user", userName);
if (userName != String::EMPTY)
{
cout << "Username = "******"verbose");
String password;
om.lookupValue("password", password);
if (password != String::EMPTY)
{
cout << "password = "******"repeat", repeatTestCount))
repeatTestCount = 1;
/*
if (om.lookupValue("repeat", repeats))
{
repeatTestCount = atol(repeats.getCString());
}
else
repeatTestCount = 1;
*/
if(verboseTest)
cout << "Test repeat count " << repeatTestCount << endl;
// Setup the active test flag. Determines if we change repository.
Boolean activeTest = false;
if (om.valueEquals("active", "true"))
activeTest = true;
// here we determine the list of systems to test.
// All arguments remaining in argv go into list.
Boolean localConnection = (om.valueEquals("local", "true"))? true: false;
cout << "localConnection " << (localConnection ? "true" : "false") << endl;
Array<String> connectionList;
if (argc > 1 && !localConnection)
for (Sint32 i = 1; i < argc; i++)
connectionList.append(argv[i]);
// substitute the default if no params
if(argc < 2)
connectionList.append("localhost:5988");
// Expand host to add port if not defined
Boolean useSSL = om.isTrue("ssl");
// Show the connectionlist
cout << "Connection List size " << connectionList.size() << endl;
for (Uint32 i = 0; i < connectionList.size(); i++)
cout << "Connection " << i << " address " << connectionList[i] << endl;
for(Uint32 numTests = 1; numTests <= repeatTestCount; numTests++)
{
cout << "Test Repetition # " << numTests << endl;
for (Uint32 i = 0; i < connectionList.size(); i++)
{
cout << "Start Try Block" << endl;
try
{
cout << "Set Stopwatch" << endl;
Stopwatch elapsedTime;
cout << "Create client" << endl;
CIMClient client;
client.setTimeout(60 * 1000);
cout << "Client created" << endl;
//
// Get host and port number from connection list entry
//
Uint32 index = connectionList[i].find (':');
String host = connectionList[i].subString (0, index);
Uint32 portNumber = 0;
if (index != PEG_NOT_FOUND)
{
String portStr = connectionList[i].subString
(index + 1, connectionList[i].size ());
sscanf (portStr.getCString (), "%u", &portNumber);
}
if (useSSL)
{
//
// Get environment variables:
//
const char* pegasusHome = getenv("PEGASUS_HOME");
String certpath = FileSystem::getAbsolutePath(
pegasusHome, PEGASUS_SSLCLIENT_CERTIFICATEFILE);
String randFile;
#ifdef PEGASUS_SSL_RANDOMFILE
randFile = FileSystem::getAbsolutePath(
pegasusHome, PEGASUS_SSLCLIENT_RANDOMFILE);
#endif
SSLContext sslcontext(certpath,verifyServerCertificate, randFile);
if (om.isTrue("local"))
{
cout << "Using local SSL connection mechanism " << endl;
client.connectLocal();
}
else
{
cout << "connecting to " << connectionList[i] << " using SSL" << endl;
client.connect (host, portNumber, sslcontext,
userName, password);
}
}
else
{
if (om.isTrue("local"))
{
cout << "Using local connection mechanism " << endl;
client.connectLocal();
}
else
{
cout << "Connecting to " << connectionList[i] << endl;
client.connect (host, portNumber,
userName, password);
}
}
cout << "Client Connected" << endl;
testStart("Test NameSpace Operations - Relative Name");
elapsedTime.reset();
elapsedTime.start();
TestNamespaceHierarchy1(client, activeTest, verboseTest);
elapsedTime.stop();
testEnd(elapsedTime.getElapsed());
testStart("Test NameSpace Operations - Absolute Name");
elapsedTime.reset();
elapsedTime.start();
TestNamespaceHierarchy2(client, activeTest, verboseTest);
elapsedTime.stop();
testEnd(elapsedTime.getElapsed());
client.disconnect();
}
catch(Exception& e)
{
PEGASUS_STD(cerr) << "Error: " << e.getMessage() <<
PEGASUS_STD(endl);
exit(1);
}
}
}
PEGASUS_STD(cout) << "+++++ "<< argv[0] << " Terminated Normally" << PEGASUS_STD(endl);
return 0;
}
