TupleInfo getTupleInfo(uint32_t columnKey, const JobInfo& jobInfo)
{
TupleInfoMap::const_iterator cit = jobInfo.keyInfo->tupleInfoMap.find(columnKey);
if ((cit == jobInfo.keyInfo->tupleInfoMap.end()) ||
(cit->second.dtype == CalpontSystemCatalog::BIT))
{
ostringstream strstm;
strstm << "TupleInfo for (" << jobInfo.keyInfo->tupleKeyVec[columnKey].fId << ","
<< jobInfo.keyInfo->tupleKeyVec[columnKey].fTable;
if (jobInfo.keyInfo->tupleKeyVec[columnKey].fView.length() > 0)
strstm << "," << jobInfo.keyInfo->tupleKeyVec[columnKey].fView;
strstm << ") could not be found." << endl;
cerr << strstm.str();
Message::Args args;
args.add(strstm.str());
jobInfo.logger->logMessage(LOG_TYPE_DEBUG, LogMakeJobList, args,
LoggingID(5, jobInfo.sessionId, jobInfo.txnId, 0));
throw runtime_error("column's tuple info could not be found");
}
return cit->second;
}
string ERYDBErrorInfo::errorMsg(const unsigned eid, const string& s)
{
string errMsg = lookupError(eid);
Message::Args args;
args.add(s);
format(errMsg, args);
return errMsg;
}
/******************************************************************************************
* @brief clearAlarm
*
* purpose: clear Alarm that was previously set
*
******************************************************************************************/
void ServerMonitor::clearAlarm(string alarmItem, ALARMS alarmID)
{
SNMPManager alarmMgr;
alarmMgr.sendAlarmReport(alarmItem.c_str(), alarmID, CLEAR);
//Log this event
LoggingID lid(SERVER_MONITOR_LOG_ID);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add(alarmItem);
args.add(" alarm #");
args.add(alarmID);
args.add("cleared");
msg.format(args);
ml.logWarningMessage(msg);
}
/******************************************************************************************
* @brief sendAlarm
*
* purpose: send a trap and log the process information
*
******************************************************************************************/
void ServerMonitor::sendAlarm(string alarmItem, ALARMS alarmID, int action, float sensorValue)
{
ServerMonitor serverMonitor;
Oam oam;
//Log this event
LoggingID lid(SERVER_MONITOR_LOG_ID);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add(alarmItem);
args.add(", sensor value out-of-range: ");
args.add(sensorValue);
// get current server name
string moduleName;
oamModuleInfo_t st;
try {
st = oam.getModuleInfo();
moduleName = boost::get<0>(st);
}
catch (...) {
moduleName = "Unknown Server";
}
// check if there is an active alarm above the reporting theshold
// that needs to be cleared
serverMonitor.checkAlarm(alarmItem, alarmID);
// check if Alarm is already active, don't resend
if ( !( oam.checkActiveAlarm(alarmID, moduleName, alarmItem)) ) {
SNMPManager alarmMgr;
// send alarm
alarmMgr.sendAlarmReport(alarmItem.c_str(), alarmID, action);
args.add(", Alarm set: ");
args.add(alarmID);
}
// output log
msg.format(args);
ml.logWarningMessage(msg);
return;
}
int main(int argc, char** argv)
{
int c;
opterr = 0;
bool cflg = true;
bool wflg = false;
unsigned subsysID = 8; //oamcpp
while ((c = getopt(argc, argv, "s:cwih")) != EOF)
switch (c)
{
case 'c':
cflg = true;
wflg = false;
break;
case 'w':
cflg = false;
wflg = true;
break;
case 'i':
cflg = false;
wflg = false;
break;
case 's':
subsysID = strtoul(optarg, 0, 0);
break;
case 'h':
case '?':
default:
usage();
return (c == 'h' ? 0 : 1);
break;
}
if ((argc - optind) < 1)
{
usage();
return 1;
}
Message::MessageID mid = strtoul(argv[optind++], 0, 0);;
Message::Args args;
for (int i = optind; i < argc; i++)
args.add(argv[optind++]);
LoggingID logInfo(subsysID);
Message msg(mid);
msg.format(args);
MessageLog log(logInfo);
if (cflg)
log.logCriticalMessage(msg);
else if (wflg)
log.logWarningMessage(msg);
else
log.logInfoMessage(msg);
return 0;
}
void DDLIndexPopulator::logError(const string& msg, int error)
{
Message::Args args;
Message message(9);
args.add((string)__FILE__ + ": ");
args.add(msg);
if (error)
{
args.add("Error number: ");
args.add(error);
}
message.format( args );
fResult.result = DDLPackageProcessor::CREATE_ERROR;
fResult.message = message;
}
void m4()
{
LoggingID lid1(100, 200, 300, 400);
MessageLog ml1(lid1);
Message::Args args;
Message* m;
args.add("hello");
args.add("world");
args.add(123);
args.add(1234.55);
for (int i = 0; i < 4; i++)
{
m = new Message(i);
m->format(args);
ml1.logDebugMessage(*m);
delete m;
}
Config::deleteInstanceMap();
}
void ColumnCommand::createCommand(ByteStream &bs)
{
uint8_t tmp8;
bs >> tmp8; // eat the Command
bs >> tmp8;
_isScan = tmp8;
bs >> traceFlags;
bs >> filterString;
#if 0
cout << "filter string: ";
for (uint i = 0; i < filterString.length(); ++i)
cout << (int) filterString.buf()[i] << " ";
cout << endl;
#endif
bs >> tmp8;
colType.colDataType = (execplan::CalpontSystemCatalog::ColDataType) tmp8;
bs >> tmp8;
colType.colWidth = tmp8;
bs >> tmp8;
colType.scale = tmp8;
bs >> tmp8;
colType.compressionType = tmp8;
bs >> BOP;
bs >> filterCount;
bs >> tmp8; // UDF ordinal number
fUdfFuncPtr = ord2Fptr(tmp8);
if (tmp8 != 0 && fUdfFuncPtr == 0) {
Message::Args args;
args.add(tmp8);
mlp->logMessage(logging::M0069, args);
}
deserializeInlineVector(bs, lastLbid);
// cout << "lastLbid count=" << lastLbid.size() << endl;
// for (uint i = 0; i < lastLbid.size(); i++)
// cout << " " << lastLbid[i];
//cout << "CreateCommand() o:" << getOID() << " lastLbid: " << lastLbid << endl;
Command::createCommand(bs);
parsedColumnFilter = bpp->pp.parseColumnFilter(filterString.buf(), colType.colWidth,
colType.colDataType, filterCount, BOP);
/* OR hack */
emptyFilter = bpp->pp.parseColumnFilter(filterString.buf(), colType.colWidth,
colType.colDataType, 0, BOP);
/* XXXPAT: for debugging only */
// bs >> colType.columnOID;
// cout << "got filterCount " << filterCount << endl;
// cout << "made a ColumnCommand OID = " << OID << endl;
}
/******************************************************************************************
* @brief sendMsgShutdownServer
*
* purpose: send a Message to Shutdown server
*
******************************************************************************************/
void sendMsgShutdownServer()
{
Oam oam;
//Log this event
LoggingID lid;
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("Fatal Hardware Alarm detected, Server being shutdown");
msg.format(args);
ml.logCriticalMessage(msg);
string serverName;
oamServerInfo_t st;
try {
st = oam.getServerInfo();
serverName = boost::get<0>(st);
}
catch (...) {
// o well, let's take out own action
if( IPMI_SUPPORT == 0)
system("init 0");
}
try
{
oam.shutdownServer(serverName, FORCEFUL, ACK_NO);
}
catch (exception& e)
{
// o well, let's take out own action
if( IPMI_SUPPORT == 0)
system("init 0");
}
}
/******************************************************************************************
* @brief sendResourceAlarm
*
* purpose: send a trap and log the process information
*
******************************************************************************************/
bool ServerMonitor::sendResourceAlarm(string alarmItem, ALARMS alarmID, int action, int usage)
{
ServerMonitor serverMonitor;
Oam oam;
//Log this event
LoggingID lid(SERVER_MONITOR_LOG_ID);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add(alarmItem);
args.add(" usage at percentage of ");
args.add(usage);
// get current module name
string moduleName;
oamModuleInfo_t st;
try {
st = oam.getModuleInfo();
moduleName = boost::get<0>(st);
}
catch (...) {
moduleName = "Unknown Server";
}
// check if there is an active alarm above the reporting theshold
// that needs to be cleared
if (alarmItem == "CPU")
serverMonitor.checkCPUAlarm(alarmItem, alarmID);
else if (alarmItem == "Local Disk" || alarmItem == "External")
serverMonitor.checkDiskAlarm(alarmItem, alarmID);
else if (alarmItem == "Local Memory")
serverMonitor.checkMemoryAlarm(alarmItem, alarmID);
else if (alarmItem == "Local Swap")
serverMonitor.checkSwapAlarm(alarmItem, alarmID);
// don't issue an alarm on thge dbroots is already issued by this or another server
if ( alarmItem.find(startup::StartUp::installDir() + "/data") == 0 ) {
// check if Alarm is already active from any module, don't resend
if ( !( oam.checkActiveAlarm(alarmID, "*", alarmItem)) ) {
SNMPManager alarmMgr;
// send alarm
alarmMgr.sendAlarmReport(alarmItem.c_str(), alarmID, action);
args.add(", Alarm set: ");
args.add(alarmID);
msg.format(args);
ml.logInfoMessage(msg);
return true;
}
else
return false;
}
else
{
// check if Alarm is already active from this module, don't resend
if ( !( oam.checkActiveAlarm(alarmID, moduleName, alarmItem)) ) {
SNMPManager alarmMgr;
// send alarm
alarmMgr.sendAlarmReport(alarmItem.c_str(), alarmID, action);
args.add(", Alarm set: ");
args.add(alarmID);
msg.format(args);
ml.logInfoMessage(msg);
return true;
}
else
return false;
}
return true;
}
int main(int argc, char* argv[])
{
// get and set locale language
string systemLang = "C";
systemLang = funcexp::utf8::idb_setlocale();
setupCwd();
WriteEngine::WriteEngineWrapper::init( WriteEngine::SUBSYSTEM_ID_DDLPROC );
#ifdef _MSC_VER
// In windows, initializing the wrapper (A dll) does not set the static variables
// in the main program
idbdatafile::IDBPolicy::configIDBPolicy();
#endif
ResourceManager rm;
Dec = DistributedEngineComm::instance(rm);
#ifndef _MSC_VER
/* set up some signal handlers */
struct sigaction ign;
memset(&ign, 0, sizeof(ign));
ign.sa_handler = added_a_pm;
sigaction(SIGHUP, &ign, 0);
ign.sa_handler = SIG_IGN;
sigaction(SIGPIPE, &ign, 0);
#endif
ddlprocessor::DDLProcessor ddlprocessor(5, 10);
{
Oam oam;
try
{
oam.processInitComplete("DDLProc", ACTIVE);
}
catch (...)
{
}
}
try
{
ddlprocessor.process();
}
catch (std::exception& ex)
{
cerr << ex.what() << endl;
Message::Args args;
Message message(8);
args.add("DDLProc failed on: ");
args.add(ex.what());
message.format( args );
}
catch (...)
{
cerr << "Caught unknown exception!" << endl;
Message::Args args;
Message message(8);
args.add("DDLProc failed on: ");
args.add("receiving DDLPackage");
message.format( args );
}
return 0;
}
int main(int argc, char* argv[])
{
// get and set locale language
systemLang = funcexp::utf8::idb_setlocale();
if ( systemLang != "en_US.UTF-8" &&
systemLang.find("UTF") != string::npos )
utf8 = true;
Config* cf = Config::makeConfig();
setupSignalHandlers();
setupCwd(cf);
mlp = new primitiveprocessor::Logger();
int rc;
rc = setupResources();
if (rc) {
Message::Args args;
args.add(rc);
//mlp->logMessage(logging::M0016, args);
}
int serverThreads = 1;
int serverQueueSize = 10;
int processorWeight = 8*1024;
int processorQueueSize = 10*1024;
int BRPBlocksPct = 70;
uint32_t BRPBlocks = 1887437;
int BRPThreads = 16;
int cacheCount = 1;
int maxBlocksPerRead = 256; // 1MB
bool rotatingDestination = false;
uint32_t deleteBlocks = 128;
bool PTTrace = false;
int temp;
string strTemp;
int priority = -1;
const string primitiveServers("PrimitiveServers");
const string jobListStr("JobList");
const string dbbc("DBBC");
const string ExtentMapStr("ExtentMap");
uint64_t extentRows = 8*1024*1024;
uint64_t MaxExtentSize = 0;
double prefetchThreshold;
uint64_t PMSmallSide = 67108864;
BPPCount = 16;
int numCores = -1;
int configNumCores = -1;
uint32_t highPriorityPercentage, medPriorityPercentage, lowPriorityPercentage;
utils::CGroupConfigurator cg;
gDebugLevel = primitiveprocessor::NONE;
temp = toInt(cf->getConfig(primitiveServers, "ServerThreads"));
if (temp > 0)
serverThreads = temp;
temp = toInt(cf->getConfig(primitiveServers, "ServerQueueSize"));
if (temp > 0)
serverQueueSize = temp;
temp = toInt(cf->getConfig(primitiveServers, "ProcessorThreshold"));
if (temp > 0)
processorWeight = temp;
temp = toInt(cf->getConfig(primitiveServers, "ProcessorQueueSize"));
if (temp > 0)
processorQueueSize = temp;
temp = toInt(cf->getConfig(primitiveServers, "DebugLevel"));
if (temp > 0)
gDebugLevel = (DebugLevel)temp;
highPriorityPercentage = 0;
temp = toInt(cf->getConfig(primitiveServers, "HighPriorityPercentage"));
if (temp >= 0)
highPriorityPercentage = temp;
medPriorityPercentage = 0;
temp = toInt(cf->getConfig(primitiveServers, "MediumPriorityPercentage"));
if (temp >= 0)
medPriorityPercentage = temp;
lowPriorityPercentage = 0;
temp = toInt(cf->getConfig(primitiveServers, "LowPriorityPercentage"));
if (temp >= 0)
lowPriorityPercentage = temp;
temp = toInt(cf->getConfig(ExtentMapStr, "ExtentRows"));
if (temp > 0)
extentRows = temp;
temp = toInt(cf->getConfig(primitiveServers, "ConnectionsPerPrimProc"));
if (temp > 0)
connectionsPerUM = temp;
else
connectionsPerUM = 1;
// set to smallest extent size
// do not allow to read beyond the end of an extent
const int MaxReadAheadSz = (extentRows)/BLOCK_SIZE;
//defaultBufferSize = 512 * 1024; // @bug 2627 - changed default dict buffer from 256K to 512K, allows for cols w/ length of 61.
defaultBufferSize = 100*1024; // 1/17/12 - made the dict buffer dynamic, max size for a numeric col is 80k + ovrhd
// This parm controls whether we rotate through the output sockets
// when deciding where to send response messages, or whether to simply
// send the response to the socket of origin. Should normally be set
// to 'y', for install types 1 and 3.
string strVal = cf->getConfig(primitiveServers, "RotatingDestination");
//XXX: Permanently disable for now...
strVal = "N";
if ((strVal == "y") || (strVal == "Y")) {
rotatingDestination = true;
// Disable destination rotation if UM and PM are running on same
// server, because we could accidentally end up sending DMLProc
// responses to ExeMgr and vice versa, if we rotated socket dest.
temp = toInt(cf->getConfig("Installation", "ServerTypeInstall"));
if ((temp == oam::INSTALL_COMBINE_DM_UM_PM) ||
(temp == oam::INSTALL_COMBINE_PM_UM))
rotatingDestination = false;
}
string strBlockPct = cf->getConfig(dbbc, "NumBlocksPct");
temp = atoi(strBlockPct.c_str());
if (temp > 0)
BRPBlocksPct = temp;
#ifdef _MSC_VER
MEMORYSTATUSEX memStat;
memStat.dwLength = sizeof(memStat);
if (GlobalMemoryStatusEx(&memStat) == 0)
//FIXME: Assume 2GB?
BRPBlocks = 2621 * BRPBlocksPct;
else
{
#ifndef _WIN64
memStat.ullTotalPhys = std::min(memStat.ullTotalVirtual, memStat.ullTotalPhys);
#endif
//We now have the total phys mem in bytes
BRPBlocks = memStat.ullTotalPhys / (8 * 1024) / 100 * BRPBlocksPct;
}
#else
// _SC_PHYS_PAGES is in 4KB units. Dividing by 200 converts to 8KB and gets ready to work in pct
// _SC_PHYS_PAGES should always be >> 200 so we shouldn't see a total loss of precision
//BRPBlocks = sysconf(_SC_PHYS_PAGES) / 200 * BRPBlocksPct;
BRPBlocks = ((BRPBlocksPct/100.0) * (double) cg.getTotalMemory()) / 8192;
#endif
#if 0
temp = toInt(cf->getConfig(dbbc, "NumThreads"));
if (temp > 0)
BRPThreads = temp;
#endif
temp = toInt(cf->getConfig(dbbc, "NumCaches"));
if (temp > 0)
cacheCount = temp;
temp = toInt(cf->getConfig(dbbc, "NumDeleteBlocks"));
if (temp > 0)
deleteBlocks = temp;
if ((uint32_t)(.01 * BRPBlocks) < deleteBlocks)
deleteBlocks = (uint32_t)(.01 * BRPBlocks);
temp = toInt(cf->getConfig(primitiveServers, "ColScanBufferSizeBlocks"));
if (temp > (int) MaxReadAheadSz || temp < 1)
maxBlocksPerRead = MaxReadAheadSz;
else if (temp > 0)
maxBlocksPerRead = temp;
temp = toInt(cf->getConfig(primitiveServers, "ColScanReadAheadBlocks"));
if (temp > (int) MaxReadAheadSz || temp < 0)
blocksReadAhead = MaxReadAheadSz;
else if (temp > 0)
{
//make sure we've got an integral factor of extent size
for (; (MaxExtentSize%temp)!=0; ++temp);
blocksReadAhead=temp;
}
temp = toInt(cf->getConfig(primitiveServers, "PTTrace"));
if (temp > 0)
PTTrace = true;
temp = toInt(cf->getConfig(primitiveServers, "PrefetchThreshold"));
if (temp < 0 || temp > 100)
prefetchThreshold = 0;
else
prefetchThreshold = temp/100.0;
int maxPct = 0; //disable by default
temp = toInt(cf->getConfig(primitiveServers, "MaxPct"));
if (temp >= 0)
maxPct = temp;
// @bug4507, configurable pm aggregation AggregationMemoryCheck
// We could use this same mechanism for other growing buffers.
int aggPct = 95;
temp = toInt(cf->getConfig("SystemConfig", "MemoryCheckPercent"));
if (temp >= 0)
aggPct = temp;
//...Start the thread to monitor our memory usage
new boost::thread(utils::MonitorProcMem(maxPct, aggPct, 28));
// config file priority is 40..1 (highest..lowest)
string sPriority = cf->getConfig(primitiveServers, "Priority");
if (sPriority.length() > 0)
temp = toInt(sPriority);
else
temp = 21;
// convert config file value to setpriority(2) value (-20..19, -1 is the default)
if (temp > 0)
priority = 20 - temp;
else if (temp < 0)
priority = 19;
if (priority < -20) priority = -20;
#ifdef _MSC_VER
//FIXME:
#else
setpriority(PRIO_PROCESS, 0, priority);
#endif
//..Instantiate UmSocketSelector singleton. Disable rotating destination
//..selection if no UM IP addresses are in the Calpo67108864LLnt.xml file.
UmSocketSelector* pUmSocketSelector = UmSocketSelector::instance();
if (rotatingDestination)
{
if (pUmSocketSelector->ipAddressCount() < 1)
rotatingDestination = false;
}
//See if we want to override the calculated #cores
temp = toInt(cf->getConfig(primitiveServers, "NumCores"));
if (temp > 0)
configNumCores = temp;
if (configNumCores <= 0)
{
//count the actual #cores
numCores = cg.getNumCores();
if (numCores == 0)
numCores = 8;
}
else
numCores = configNumCores;
//based on the #cores, calculate some thread parms
if (numCores > 0)
{
BRPThreads = 2 * numCores;
//there doesn't seem much benefit to having more than this, and sometimes it causes problems.
//DBBC.NumThreads can override this cap
BRPThreads = std::min(BRPThreads, 32);
}
// the default is ~10% low, 30% medium, 60% high, (where 2*cores = 100%)
if (highPriorityPercentage == 0 && medPriorityPercentage == 0 &&
lowPriorityPercentage == 0) {
lowPriorityThreads = max(1, (2*numCores)/10);
medPriorityThreads = max(1, (2*numCores)/3);
highPriorityThreads = (2 * numCores) - lowPriorityThreads - medPriorityThreads;
}
else {
uint32_t totalThreads = (uint32_t) ((lowPriorityPercentage + medPriorityPercentage +
highPriorityPercentage) / 100.0 * (2*numCores));
if (totalThreads == 0)
totalThreads = 1;
lowPriorityThreads = (uint32_t) (lowPriorityPercentage/100.0 * (2*numCores));
medPriorityThreads = (uint32_t) (medPriorityPercentage/100.0 * (2*numCores));
highPriorityThreads = totalThreads - lowPriorityThreads - medPriorityThreads;
}
BPPCount = highPriorityThreads + medPriorityThreads + lowPriorityThreads;
// let the user override if they want
temp = toInt(cf->getConfig(primitiveServers, "BPPCount"));
if (temp > 0 && temp < (int) BPPCount)
BPPCount = temp;
temp = toInt(cf->getConfig(dbbc, "NumThreads"));
if (temp > 0)
BRPThreads = temp;
#ifndef _MSC_VER
// @bug4598, switch for O_DIRECT to support gluster fs.
// directIOFlag == O_DIRECT, by default
strVal = cf->getConfig(primitiveServers, "DirectIO");
if ((strVal == "n") || (strVal == "N"))
directIOFlag = 0;
#endif
IDBPolicy::configIDBPolicy();
// no versionbuffer if using HDFS for performance reason
if (IDBPolicy::useHdfs())
noVB = 1;
cout << "Starting PrimitiveServer: st = " << serverThreads << ", sq = " << serverQueueSize <<
", pw = " << processorWeight << ", pq = " << processorQueueSize <<
", nb = " << BRPBlocks << ", nt = " << BRPThreads << ", nc = " << cacheCount <<
", ra = " << blocksReadAhead << ", db = " << deleteBlocks << ", mb = " << maxBlocksPerRead <<
", rd = " << rotatingDestination << ", tr = " << PTTrace <<
", ss = " << PMSmallSide << ", bp = " << BPPCount << endl;
PrimitiveServer server(serverThreads, serverQueueSize, processorWeight, processorQueueSize,
rotatingDestination, BRPBlocks, BRPThreads, cacheCount, maxBlocksPerRead, blocksReadAhead,
deleteBlocks, PTTrace, prefetchThreshold, PMSmallSide);
#ifdef QSIZE_DEBUG
thread* qszMonThd;
if (gDebugLevel >= STATS)
{
#ifdef _MSC_VER
ofstream* qszLog = new ofstream("C:/Calpont/log/trace/ppqsz.dat");
#else
ofstream* qszLog = new ofstream("/var/log/Calpont/trace/ppqsz.dat");
#endif
if (!qszLog->good())
{
qszLog->close();
delete qszLog;
qszLog = 0;
}
qszMonThd = new thread(QszMonThd(&server, qszLog));
}
#endif
#ifdef DUMP_CACHE_CONTENTS
{
//Need to use pthreads API here...
pthread_t thd1;
pthread_attr_t attr1;
pthread_attr_init(&attr1);
pthread_attr_setdetachstate(&attr1, PTHREAD_CREATE_DETACHED);
pthread_create(&thd1, &attr1, waitForSIGUSR1, reinterpret_cast<void*>(cacheCount));
}
#endif
server.start();
cerr << "server.start() exited!" << endl;
return 1;
}
CreateTableProcessor::DDLResult CreateTableProcessor::processPackage(
ddlpackage::CreateTableStatement& createTableStmt)
{
SUMMARY_INFO("CreateTableProcessor::processPackage");
DDLResult result;
BRM::TxnID txnID;
txnID.id= fTxnid.id;
txnID.valid= fTxnid.valid;
result.result = NO_ERROR;
int rc1 = 0;
rc1 = fDbrm->isReadWrite();
if (rc1 != 0 )
{
Message::Args args;
Message message(9);
args.add("Unable to execute the statement due to DBRM is read only");
message.format(args);
result.result = CREATE_ERROR;
result.message = message;
fSessionManager.rolledback(txnID);
return result;
}
DETAIL_INFO(createTableStmt);
ddlpackage::TableDef& tableDef = *createTableStmt.fTableDef;
//If schema = CALPONTSYS, do not create table
boost::algorithm::to_lower(tableDef.fQualifiedName->fSchema);
if (tableDef.fQualifiedName->fSchema == CALPONT_SCHEMA)
{
//release the transaction
fSessionManager.rolledback(txnID);
return result;
}
// Commit current transaction.
// all DDL statements cause an implicut commit
VERBOSE_INFO("Getting current txnID");
//Check whether the table is existed already
boost::shared_ptr<CalpontSystemCatalog> systemCatalogPtr =
CalpontSystemCatalog::makeCalpontSystemCatalog(createTableStmt.fSessionID);
execplan::CalpontSystemCatalog::TableName tableName;
tableName.schema = tableDef.fQualifiedName->fSchema;
tableName.table = tableDef.fQualifiedName->fName;
execplan::CalpontSystemCatalog::ROPair roPair;
roPair.objnum = 0;
ByteStream::byte rc = 0;
/** @Bug 217 */
/** @Bug 225 */
try
{
roPair = systemCatalogPtr->tableRID(tableName);
}
catch (IDBExcept &ie)
{
// TODO: What is and is not an error here?
if (ie.errorCode() == ERR_DATA_OFFLINE)
{
//release transaction
fSessionManager.rolledback(txnID);
// Return the error for display to user
Message::Args args;
Message message(9);
args.add(ie.what());
message.format(args);
result.result = CREATE_ERROR;
result.message = message;
return result;
}
else if ( ie.errorCode() == ERR_TABLE_NOT_IN_CATALOG)
{
roPair.objnum = 0;
}
else //error out
{
//release transaction
fSessionManager.rolledback(txnID);
// Return the error for display to user
Message::Args args;
Message message(9);
args.add(ie.what());
message.format(args);
result.result = CREATE_ERROR;
result.message = message;
return result;
}
}
catch (std::exception& ex) //error out
{
//release transaction
fSessionManager.rolledback(txnID);
// Return the error for display to user
Message::Args args;
Message message(9);
args.add(ex.what());
message.format(args);
result.result = CREATE_ERROR;
result.message = message;
return result;
}
catch (...) //error out
{
//release transaction
fSessionManager.rolledback(txnID);
// Return the error for display to user
Message::Args args;
Message message(9);
args.add("Unknown exception caught when checking if the table name is already in use.");
message.format(args);
result.result = CREATE_ERROR;
result.message = message;
return result;
}
//This is a current db bug, it should not turn OID is it cannot find
if (roPair.objnum >= 3000)
{
#ifdef _MSC_VER
//FIXME: Why do we need to do this???
systemCatalogPtr->flushCache();
try { roPair = systemCatalogPtr->tableRID(tableName); }
catch (...) { roPair.objnum = 0; }
if (roPair.objnum < 3000)
goto keepGoing;
#endif
Message::Args args;
Message message(9);
args.add("Internal create table error for");
args.add(tableName.toString());
args.add(": table already exists");
args.add("(your schema is probably out-of-sync)");
message.format(args);
result.result = CREATE_ERROR;
result.message = message;
//release the transaction
fSessionManager.rolledback(txnID);
return result;
}
#ifdef _MSC_VER
keepGoing:
#endif
// Start a new transaction
VERBOSE_INFO("Starting a new transaction");
string stmt = createTableStmt.fSql + "|" + tableDef.fQualifiedName->fSchema +"|";
SQLLogger logger(stmt, fDDLLoggingId, createTableStmt.fSessionID, txnID.id);
std::string err;
execplan::ObjectIDManager fObjectIDManager;
OamCache * oamcache = OamCache::makeOamCache();
string errorMsg;
//get a unique number
uint64_t uniqueId = 0;
//Bug 5070. Added exception handling
try {
uniqueId = fDbrm->getUnique64();
}
catch (std::exception& ex)
{
Message::Args args;
Message message(9);
args.add(ex.what());
message.format(args);
result.result = CREATE_ERROR;
result.message = message;
fSessionManager.rolledback(txnID);
return result;
}
catch ( ... )
{
Message::Args args;
Message message(9);
args.add("Unknown error occured while getting unique number.");
message.format(args);
result.result = CREATE_ERROR;
result.message = message;
fSessionManager.rolledback(txnID);
return result;
}
fWEClient->addQueue(uniqueId);
try
{
//Allocate tableoid table identification
VERBOSE_INFO("Allocating object ID for table");
// Allocate a object ID for each column we are about to create
VERBOSE_INFO("Allocating object IDs for columns");
uint32_t numColumns = tableDef.fColumns.size();
uint32_t numDictCols = 0;
for (unsigned i=0; i < numColumns; i++)
{
int dataType;
dataType = convertDataType(tableDef.fColumns[i]->fType->fType);
if ( (dataType == CalpontSystemCatalog::CHAR && tableDef.fColumns[i]->fType->fLength > 8) ||
(dataType == CalpontSystemCatalog::VARCHAR && tableDef.fColumns[i]->fType->fLength > 7) ||
(dataType == CalpontSystemCatalog::VARBINARY && tableDef.fColumns[i]->fType->fLength > 7) )
numDictCols++;
}
fStartingColOID = fObjectIDManager.allocOIDs(numColumns+numDictCols+1); //include column, oids,dictionary oids and tableoid
#ifdef IDB_DDL_DEBUG
cout << "Create table allocOIDs got the stating oid " << fStartingColOID << endl;
#endif
if (fStartingColOID < 0)
{
result.result = CREATE_ERROR;
errorMsg = "Error in getting objectid from oidmanager.";
Message::Args args;
Message message(9);
args.add("Create table failed due to ");
args.add(errorMsg);
message.format(args);
result.message = message;
fSessionManager.rolledback(txnID);
return result;
}
// Write the table metadata to the systemtable
VERBOSE_INFO("Writing meta data to SYSTABLE");
ByteStream bytestream;
bytestream << (ByteStream::byte)WE_SVR_WRITE_SYSTABLE;
bytestream << uniqueId;
bytestream << (uint32_t) createTableStmt.fSessionID;
bytestream << (uint32_t)txnID.id;
bytestream << (uint32_t)fStartingColOID;
bytestream << (uint32_t)createTableStmt.fTableWithAutoi;
uint16_t dbRoot;
BRM::OID_t sysOid = 1001;
//Find out where systable is
rc = fDbrm->getSysCatDBRoot(sysOid, dbRoot);
if (rc != 0)
{
result.result =(ResultCode) rc;
Message::Args args;
Message message(9);
args.add("Error while calling getSysCatDBRoot ");
args.add(errorMsg);
message.format(args);
result.message = message;
//release transaction
fSessionManager.rolledback(txnID);
return result;
}
int pmNum = 1;
bytestream << (uint32_t)dbRoot;
tableDef.serialize(bytestream);
boost::shared_ptr<messageqcpp::ByteStream> bsIn;
boost::shared_ptr<std::map<int, int> > dbRootPMMap = oamcache->getDBRootToPMMap();
pmNum = (*dbRootPMMap)[dbRoot];
try
{
fWEClient->write(bytestream, (unsigned)pmNum);
#ifdef IDB_DDL_DEBUG
cout << "create table sending We_SVR_WRITE_SYSTABLE to pm " << pmNum << endl;
#endif
while (1)
{
bsIn.reset(new ByteStream());
fWEClient->read(uniqueId, bsIn);
if ( bsIn->length() == 0 ) //read error
{
rc = NETWORK_ERROR;
errorMsg = "Lost connection to Write Engine Server while updating SYSTABLES";
break;
}
else {
*bsIn >> rc;
if (rc != 0) {
errorMsg.clear();
*bsIn >> errorMsg;
#ifdef IDB_DDL_DEBUG
cout << "Create table We_SVR_WRITE_CREATETABLEFILES: " << errorMsg << endl;
#endif
}
break;
}
}
}
catch (runtime_error& ex) //write error
{
#ifdef IDB_DDL_DEBUG
cout << "create table got exception" << ex.what() << endl;
#endif
rc = NETWORK_ERROR;
errorMsg = ex.what();
}
catch (...)
{
rc = NETWORK_ERROR;
#ifdef IDB_DDL_DEBUG
cout << "create table got unknown exception" << endl;
#endif
}
if (rc != 0)
{
result.result =(ResultCode) rc;
Message::Args args;
Message message(9);
args.add("Create table failed due to ");
args.add(errorMsg);
message.format( args );
result.message = message;
if (rc != NETWORK_ERROR)
{
rollBackTransaction( uniqueId, txnID, createTableStmt.fSessionID ); //What to do with the error code
}
//release transaction
fSessionManager.rolledback(txnID);
return result;
}
VERBOSE_INFO("Writing meta data to SYSCOLUMN");
bytestream.restart();
bytestream << (ByteStream::byte)WE_SVR_WRITE_CREATE_SYSCOLUMN;
bytestream << uniqueId;
bytestream << (uint32_t) createTableStmt.fSessionID;
bytestream << (uint32_t)txnID.id;
bytestream << numColumns;
for (unsigned i = 0; i <numColumns; ++i) {
bytestream << (uint32_t)(fStartingColOID+i+1);
}
bytestream << numDictCols;
for (unsigned i = 0; i <numDictCols; ++i) {
bytestream << (uint32_t)(fStartingColOID+numColumns+i+1);
}
uint8_t alterFlag = 0;
int colPos = 0;
bytestream << (ByteStream::byte)alterFlag;
bytestream << (uint32_t)colPos;
sysOid = 1021;
//Find out where syscolumn is
rc = fDbrm->getSysCatDBRoot(sysOid, dbRoot);
if (rc != 0)
{
result.result =(ResultCode) rc;
Message::Args args;
Message message(9);
args.add("Error while calling getSysCatDBRoot ");
args.add(errorMsg);
message.format(args);
result.message = message;
//release transaction
fSessionManager.rolledback(txnID);
return result;
}
bytestream << (uint32_t)dbRoot;
tableDef.serialize(bytestream);
pmNum = (*dbRootPMMap)[dbRoot];
try
{
fWEClient->write(bytestream, (uint32_t)pmNum);
#ifdef IDB_DDL_DEBUG
cout << "create table sending We_SVR_WRITE_SYSTABLE to pm " << pmNum << endl;
#endif
while (1)
{
bsIn.reset(new ByteStream());
fWEClient->read(uniqueId, bsIn);
if ( bsIn->length() == 0 ) //read error
{
rc = NETWORK_ERROR;
errorMsg = "Lost connection to Write Engine Server while updating SYSTABLES";
break;
}
else {
*bsIn >> rc;
if (rc != 0) {
errorMsg.clear();
*bsIn >> errorMsg;
#ifdef IDB_DDL_DEBUG
cout << "Create table We_SVR_WRITE_CREATETABLEFILES: " << errorMsg << endl;
#endif
}
break;
}
}
}
catch (runtime_error& ex) //write error
{
#ifdef IDB_DDL_DEBUG
cout << "create table got exception" << ex.what() << endl;
#endif
rc = NETWORK_ERROR;
errorMsg = ex.what();
}
catch (...)
{
rc = NETWORK_ERROR;
#ifdef IDB_DDL_DEBUG
cout << "create table got unknown exception" << endl;
#endif
}
if (rc != 0)
{
result.result =(ResultCode) rc;
Message::Args args;
Message message(9);
args.add("Create table failed due to ");
args.add(errorMsg);
message.format( args );
result.message = message;
if (rc != NETWORK_ERROR)
{
rollBackTransaction( uniqueId, txnID, createTableStmt.fSessionID ); //What to do with the error code
}
//release transaction
fSessionManager.rolledback(txnID);
return result;
}
//Get the number of tables in the database, the current table is included.
int tableCount = systemCatalogPtr->getTableCount();
//Calculate which dbroot the columns should start
DBRootConfigList dbRootList = oamcache->getDBRootNums();
uint16_t useDBRootIndex = tableCount % dbRootList.size();
//Find out the dbroot# corresponding the useDBRootIndex from oam
uint16_t useDBRoot = dbRootList[useDBRootIndex];
VERBOSE_INFO("Creating column files");
ColumnDef* colDefPtr;
ddlpackage::ColumnDefList tableDefCols = tableDef.fColumns;
ColumnDefList::const_iterator iter = tableDefCols.begin();
bytestream.restart();
bytestream << (ByteStream::byte)WE_SVR_WRITE_CREATETABLEFILES;
bytestream << uniqueId;
bytestream << (uint32_t)txnID.id;
bytestream << (numColumns + numDictCols);
unsigned colNum = 0;
unsigned dictNum = 0;
while (iter != tableDefCols.end())
{
colDefPtr = *iter;
CalpontSystemCatalog::ColDataType dataType = convertDataType(colDefPtr->fType->fType);
if (dataType == CalpontSystemCatalog::DECIMAL ||
dataType == CalpontSystemCatalog::UDECIMAL)
{
if (colDefPtr->fType->fPrecision == -1 || colDefPtr->fType->fPrecision == 0)
{
colDefPtr->fType->fLength = 8;
}
else if ((colDefPtr->fType->fPrecision > 0) && (colDefPtr->fType->fPrecision < 3))
{
colDefPtr->fType->fLength = 1;
}
else if (colDefPtr->fType->fPrecision < 5 && (colDefPtr->fType->fPrecision > 2))
{
colDefPtr->fType->fLength = 2;
}
else if (colDefPtr->fType->fPrecision > 4 && colDefPtr->fType->fPrecision < 10)
{
colDefPtr->fType->fLength = 4;
}
else if (colDefPtr->fType->fPrecision > 9 && colDefPtr->fType->fPrecision < 19)
{
colDefPtr->fType->fLength = 8;
}
}
bytestream << (fStartingColOID + (colNum++) + 1);
bytestream << (uint8_t) dataType;
bytestream << (uint8_t) false;
bytestream << (uint32_t) colDefPtr->fType->fLength;
bytestream << (uint16_t) useDBRoot;
bytestream << (uint32_t) colDefPtr->fType->fCompressiontype;
if ( (dataType == CalpontSystemCatalog::CHAR && colDefPtr->fType->fLength > 8) ||
(dataType == CalpontSystemCatalog::VARCHAR && colDefPtr->fType->fLength > 7) ||
(dataType == CalpontSystemCatalog::VARBINARY && colDefPtr->fType->fLength > 7) )
{
bytestream << (uint32_t) (fStartingColOID+numColumns+(dictNum++)+1);
bytestream << (uint8_t) dataType;
bytestream << (uint8_t) true;
bytestream << (uint32_t) colDefPtr->fType->fLength;
bytestream << (uint16_t) useDBRoot;
bytestream << (uint32_t) colDefPtr->fType->fCompressiontype;
}
++iter;
}
//@Bug 4176. save oids to a log file for cleanup after fail over.
std::vector <CalpontSystemCatalog::OID> oidList;
for (unsigned i = 0; i <numColumns; ++i)
{
oidList.push_back(fStartingColOID+i+1);
}
bytestream << numDictCols;
for (unsigned i = 0; i <numDictCols; ++i)
{
oidList.push_back(fStartingColOID+numColumns+i+1);
}
try {
createWriteDropLogFile( fStartingColOID, uniqueId, oidList );
}
catch (std::exception& ex)
{
result.result =(ResultCode) rc;
Message::Args args;
Message message(9);
args.add("Create table failed due to ");
args.add(ex.what());
message.format( args );
result.message = message;
if (rc != NETWORK_ERROR)
{
rollBackTransaction( uniqueId, txnID, createTableStmt.fSessionID ); //What to do with the error code
}
//release transaction
fSessionManager.rolledback(txnID);
return result;
}
pmNum = (*dbRootPMMap)[useDBRoot];
try
{
fWEClient->write(bytestream, pmNum);
while (1)
{
bsIn.reset(new ByteStream());
fWEClient->read(uniqueId, bsIn);
if ( bsIn->length() == 0 ) //read error
{
rc = NETWORK_ERROR;
errorMsg = "Lost connection to Write Engine Server while updating SYSTABLES";
break;
}
else {
*bsIn >> rc;
if (rc != 0) {
errorMsg.clear();
*bsIn >> errorMsg;
#ifdef IDB_DDL_DEBUG
cout << "Create table We_SVR_WRITE_CREATETABLEFILES: " << errorMsg << endl;
#endif
}
break;
}
}
if (rc != 0) {
//drop the newly created files
bytestream.restart();
bytestream << (ByteStream::byte) WE_SVR_WRITE_DROPFILES;
bytestream << uniqueId;
bytestream << (uint32_t)(numColumns+numDictCols);
for (unsigned i = 0; i < (numColumns+numDictCols); i++)
{
bytestream << (uint32_t)(fStartingColOID + i + 1);
}
fWEClient->write(bytestream, pmNum);
while (1)
{
bsIn.reset(new ByteStream());
fWEClient->read(uniqueId, bsIn);
if ( bsIn->length() == 0 ) //read error
{
break;
}
else {
break;
}
}
//@Bug 5464. Delete from extent map.
fDbrm->deleteOIDs(oidList);
}
}
catch (runtime_error&)
{
errorMsg = "Lost connection to Write Engine Server";
}
if (rc != 0)
{
rollBackTransaction( uniqueId, txnID, createTableStmt.fSessionID); //What to do with the error code
fSessionManager.rolledback(txnID);
}
else
{
commitTransaction(uniqueId, txnID);
fSessionManager.committed(txnID);
fWEClient->removeQueue(uniqueId);
deleteLogFile(DROPTABLE_LOG, fStartingColOID, uniqueId);
}
// Log the DDL statement.
logDDL(createTableStmt.fSessionID, txnID.id, createTableStmt.fSql, createTableStmt.fOwner);
}
//------------------------------------------------------------------------------
// This method is intended to test the messages used to profile db performance.
// The method also provides an example on how to use these log messages.
// Test can be verified by viewing /var/log/erydb/debug.log.
//
// Message types are:
//
// 26 Start Transaction
// 27 End Transaction
// 28 Start Statement
// 29 End Statement
// 30 Start Step
// 31 End Step
// 32 I/O Reads
//
// The messages should be logged in the following way:
//
// 1. The application should log a StartTransaction message at the beginning
// of a database transaction.
// 2. When the application begins processing a statement, the StartStatement
// message should be logged.
// 3. As each primitive step is executed, it's start time should be recorded
// by logging a StartStep message.
// 4. During the execution of a step, 1 or more I/O Read messages should be
// logged to record the I/O block count used in accessing each object. If
// necessary, more than 1 message can be logged for the same object and
// step. In these cases, the script that post-processes the syslog will
// add up the block counts for the same object and step.
// 5. Upon completion of each primitive step, an EndStep message should be
// logged. If multiple steps are executing in parallel, the EndStep msg
// should be logged as each step completes. After all these stpes are
// completed and logged, if needed, a new set of StartStep messages can
// be logged (for the same statement), for a new set of parallel steps.
// 6. Upon completion of each statement, an EndStatement msg should be logged.
// 7. Upon completion of each transaction, an EndTransaction msg should
// be logged.
//
// Some possible enhancements to simplify this profile logging for the
// application programmer:
//
// 1. Define enum or const ints in a common header file to represent the
// list of valid subSystem ids.
//
// 2. Add set of helper methods to MessageLog class to reduce the
// amount of work for the application. For example a method like:
//
// void logStartStatement ( int statement, int ver, string SQL );
//
// would allow the application to log a StartStatement by simply doing;
//
// Message msgStartStatement ( M0028 );
// int statementId = 11;
// int versionId = 22;
// string sql ("SELECT column1, column2 FROM table1 WHERE ...
// msgStartStatement.logStartStatement ( statementId, versionId, sql);
//
// 3. Could also do something similar to #2 except instead of adding helper
// methods to MessageLog, we could add specialized classes that derive
// from MessageLog or contain a MessageLog. One advantage of doing it
// this way is that a derived class like MessageLogStatement "could" be
// implemented to log the StartStatement, and its desctructor could then
// log the EndStatement automatically, on behalf of the application.
//
//------------------------------------------------------------------------------
void m5()
{
int subSystem = 5; // joblist subSystem
int session = 100;
int transaction = 1;
int thread = 0;
LoggingID lid1 ( subSystem, session, transaction, thread );
MessageLog msgLog ( lid1 );
Message::Args args;
// Log the start time of a transaction
Message msgStartTrans ( M0026 );
msgStartTrans.format ( args );
msgLog.logDebugMessage ( msgStartTrans );
// Log the start of execution time for a SQL statement
Message msgStartStatement ( M0028 );
int statementId = 11;
int versionId = 22;
string sql ("SELECT column1, column2 FROM table1 WHERE column1 = 345");
args.reset ( );
args.add ( statementId );
args.add ( versionId );
args.add ( sql );
msgStartStatement.format ( args );
msgLog.logDebugMessage ( msgStartStatement );
const string stepNames[] = { "steponeA", "steptwoA" ,"stepthreeA",
"stepfourB","stepfiveB","stepsixB" };
// To process this SQL statement, simulate executing 2 job steps,
// with each job step consisting of of 3 parallel primitive steps
for (int jobStep=0; jobStep<2; jobStep++)
{
int primStep1 = jobStep * 3;
// Log 3 parallel steps starting to execute
for (int i=primStep1; i<(primStep1+3); i++)
{
Message msgStartStep ( M0030 ); // Start Step
int stepId = i+1;
string stepName = stepNames[i];
args.reset ( );
args.add ( statementId );
args.add ( stepId );
args.add ( stepName );
msgStartStep.format ( args );
msgLog.logDebugMessage ( msgStartStep );
}
// Record I/O block count for 0 or more objects per step;
// for this example we just record I/O for 1 object per step.
// Then log the completion of each step.
for (int i=primStep1; i<(primStep1+3); i++)
{
Message msgBlockCount ( M0032 ); // I/O block count
int stepId = i+1;
int objectId = stepId * 20;
int phyCount = stepId * 30;
int logCount = phyCount + 5;
args.reset ( );
args.add ( statementId );
args.add ( stepId );
args.add ( objectId );
args.add ( phyCount );
args.add ( logCount );
msgBlockCount.format ( args );
msgLog.logDebugMessage ( msgBlockCount );
Message msgEndStep ( M0031 ); // End Step
args.reset ( );
args.add ( statementId );
args.add ( stepId );
msgEndStep.format ( args );
msgLog.logDebugMessage ( msgEndStep );
}
}
// Log the completion time of the SQL statement
Message msgEndStatement ( M0029 );
args.reset ( );
args.add ( statementId );
msgEndStatement.format ( args );
msgLog.logDebugMessage ( msgEndStatement );
// Log the completion time of the transaction
Message msgEndTrans ( M0027 );
args.reset ( );
args.add ( string("COMMIT") );
msgEndTrans.format ( args );
msgLog.logDebugMessage ( msgEndTrans );
Config::deleteInstanceMap();
}
/*****************************************************************************************
* @brief main function
*
* purpose: Parse incoming ALARM statement into calAlarm class
*
*****************************************************************************************/
int main (int argc, char *argv[]) {
if (argc != 2)
exit (0);
Alarm calAlarm;
char buf[100];
char* alarmData;
char* token;
bool successFlag = false;
if (::DEBUG) {
LoggingID lid(11);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("trapHandler Launched");
msg.format(args);
ml.logDebugMessage(msg);
}
// read alarm data
while (cin.getline(buf,100))
{
// Alarm data
if (::DEBUG) {
LoggingID lid(11);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("Alarm Data:");
args.add(buf);
msg.format(args);
ml.logDebugMessage(msg);
}
// search for CALALARM
if ((alarmData = strstr(buf, "CALALARM")) == NULL)
continue;
successFlag = true;
token = strtok (alarmData, DELIM);
// alarmData format: CALALARM|alarmID|componentID|1(set)/0(clear)|server|process
// alarmID
try {
token = getNextToken();
} catch (runtime_error& e)
{
if (::DEBUG) {
LoggingID lid(11);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("getNextToken error:");
args.add(e.what());
msg.format(args);
ml.logDebugMessage(msg);
}
exit(1);
}
calAlarm.setAlarmID (atoi(token));
// componentID
try {
token = getNextToken();
} catch (runtime_error& e)
{
if (::DEBUG) {
LoggingID lid(11);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("getNextToken error:");
args.add(e.what());
msg.format(args);
ml.logDebugMessage(msg);
}
exit(1);
}
calAlarm.setComponentID (token);
// state
try {
token = getNextToken();
} catch (runtime_error& e)
{
if (::DEBUG) {
LoggingID lid(11);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("getNextToken error:");
args.add(e.what());
msg.format(args);
ml.logDebugMessage(msg);
}
exit(1);
}
calAlarm.setState (atoi(token));
// sname
try {
token = getNextToken();
} catch (runtime_error& e)
{
if (::DEBUG) {
LoggingID lid(11);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("getNextToken error:");
args.add(e.what());
msg.format(args);
ml.logDebugMessage(msg);
}
exit(1);
}
calAlarm.setSname (token);
// pname
try {
token = getNextToken();
} catch (runtime_error& e)
{
if (::DEBUG) {
LoggingID lid(11);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("getNextToken error:");
args.add(e.what());
msg.format(args);
ml.logDebugMessage(msg);
}
exit(1);
}
calAlarm.setPname (token);
// distinguish agent trap and process trap.
// agent trap set pid and tid 0.
if (strcmp (argv[1], AGENT_TRAP) == 0)
{
calAlarm.setPid (0);
calAlarm.setTid (0);
}
// process trap continues to get pid from alarm data
else
{
// pid
try {
token = getNextToken();
} catch (runtime_error& e)
{
if (::DEBUG) {
LoggingID lid(11);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("getNextToken error:");
args.add(e.what());
msg.format(args);
ml.logDebugMessage(msg);
}
exit(1);
}
calAlarm.setPid (atoi(token));
// tid
try {
token = getNextToken();
} catch (runtime_error& e)
{
if (::DEBUG) {
LoggingID lid(11);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("getNextToken error:");
args.add(e.what());
msg.format(args);
ml.logDebugMessage(msg);
}
exit(1);
}
calAlarm.setTid (atoi(token));
}
if (::DEBUG){
LoggingID lid(11);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("Alarm Info:");
args.add(calAlarm.getAlarmID());
args.add(calAlarm.getComponentID());
args.add(calAlarm.getState());
msg.format(args);
ml.logDebugMessage(msg);
cout << calAlarm.getAlarmID() << ":"
<< calAlarm.getComponentID() << ":"
<< calAlarm.getState() << endl;
}
// break while loop. ignore the other info carried by
// the trap. May need to retrieve more info in the future.
break;
}
// not valid alarm data if no "CALALARM" found
if (!successFlag){
LoggingID lid(11);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("Error: not valid alarm data if no 'CALALARM' found");
msg.format(args);
ml.logDebugMessage(msg);
exit(1);
}
// Get alarm configuration
try {
configAlarm (calAlarm);
} catch (runtime_error& e)
{
if (::DEBUG) {
LoggingID lid(11);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("configAlarm error:");
args.add(e.what());
msg.format(args);
ml.logDebugMessage(msg);
}
exit(1);
}
return 0;
}
void m1()
{
Message::Args args;
args.add("hello");
args.add("world");
args.add(123);
args.add(1234.55);
Message m(100);
m.fMsg = "%1% %2% %3% %4%";
m.format(args);
//CPPUNIT_ASSERT(m.msg() == "hello world 123 1234.55");
m.reset();
m.fMsg = "%1% %2% %3% %4%";
args.reset();
m.format(args);
//CPPUNIT_ASSERT(m.msg() == " ");
LoggingID lid(7);
MessageLog ml(lid);
m.reset();
args.add("hello");
args.add("world");
args.add(123);
args.add(1234.55);
m.format(args);
ml.logDebugMessage(m);
args.reset();
args.add("begin CEP generation");
m.reset();
m.format(args);
ml.logInfoMessage(m);
args.reset();
args.add("end CEP generation");
m.reset();
m.format(args);
ml.logInfoMessage(m);
args.reset();
args.add("something took too long");
m.reset();
m.format(args);
ml.logWarningMessage(m);
args.reset();
args.add("something seriously took too long");
m.reset();
m.format(args);
ml.logSeriousMessage(m);
ml.logErrorMessage(m);
args.reset();
args.add("something critical took too long");
m.reset();
m.format(args);
ml.logCriticalMessage(m);
LoggingID lid1;
MessageLog ml1(lid1);
args.reset();
m.reset();
args.add("subsystem 0 = erydb test");
m.format(args);
ml1.logDebugMessage(m);
LoggingID lid2(1000);
MessageLog ml2(lid2);
args.reset();
m.reset();
args.add("subsystem above MAX = erydb test");
m.format(args);
ml2.logDebugMessage(m);
LoggingID lid3(7);
MessageLog ml3(lid3);
args.reset();
m.reset();
args.add("subsystem 7 = eryadmin test");
m.format(args);
ml3.logDebugMessage(m);
Config::deleteInstanceMap();
}
/*****************************************************************************************
* @brief diskMonitor Thread
*
* purpose: Get current Local and External disk usage and report alarms
*
*****************************************************************************************/
void diskMonitor()
{
ServerMonitor serverMonitor;
Oam oam;
SystemConfig systemConfig;
ModuleTypeConfig moduleTypeConfig;
typedef std::vector<std::string> LocalFileSystems;
LocalFileSystems lfs;
struct statvfs buf;
// set defaults
int localDiskCritical = 90,
localDiskMajor = 80,
localDiskMinor = 70,
ExternalDiskCritical = 90,
ExternalDiskMajor = 80,
ExternalDiskMinor = 70;
// get module types
string moduleType;
int moduleID=-1;
string moduleName;
oamModuleInfo_t t;
try {
t = oam.getModuleInfo();
moduleType = boost::get<1>(t);
moduleID = boost::get<2>(t);
moduleName = boost::get<0>(t);
}
catch (exception& e) {}
bool Externalflag = false;
//check for external disk
DBrootList dbrootList;
if (moduleType == "pm") {
systemStorageInfo_t t;
t = oam.getStorageConfig();
if ( boost::get<0>(t) == "external")
Externalflag = true;
// get dbroot list and storage type from config file
DBRootConfigList dbrootConfigList;
oam.getPmDbrootConfig(moduleID, dbrootConfigList);
DBRootConfigList::iterator pt = dbrootConfigList.begin();
for( ; pt != dbrootConfigList.end() ; pt++)
{
int dbrootID = *pt;
string dbroot = "DBRoot" + oam.itoa(dbrootID);
string dbootdir;
try{
oam.getSystemConfig(dbroot, dbootdir);
}
catch(...) {}
if ( dbootdir.empty() || dbootdir == "" )
continue;
DBrootData dbrootData;
dbrootData.dbrootDir = dbootdir;
dbrootData.downFlag = false;
dbrootList.push_back(dbrootData);
}
}
string cloud = oam::UnassignedName;
try {
oam.getSystemConfig( "Cloud", cloud);
}
catch(...) {
cloud = oam::UnassignedName;
}
//get Gluster Config setting
string GlusterConfig = "n";
try {
oam.getSystemConfig( "GlusterConfig", GlusterConfig);
}
catch(...)
{
GlusterConfig = "n";
}
int diskSpaceCheck = 0;
while(true)
{
SystemStatus systemstatus;
try {
oam.getSystemStatus(systemstatus);
}
catch (exception& ex)
{}
if (systemstatus.SystemOpState != oam::ACTIVE ) {
sleep(5);
continue;
}
// Get Local/External Disk Mount points to monitor and associated thresholds
try {
oam.getSystemConfig (moduleTypeConfig);
localDiskCritical = moduleTypeConfig.ModuleDiskCriticalThreshold;
localDiskMajor = moduleTypeConfig.ModuleDiskMajorThreshold;
localDiskMinor = moduleTypeConfig.ModuleDiskMinorThreshold;
DiskMonitorFileSystems::iterator p = moduleTypeConfig.FileSystems.begin();
for( ; p != moduleTypeConfig.FileSystems.end() ; p++)
{
string fs = *p;
lfs.push_back(fs);
if (DISK_DEBUG) {
//Log this event
LoggingID lid(SERVER_MONITOR_LOG_ID);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("Local Config File System to monitor =");
args.add(fs);
msg.format(args);
ml.logDebugMessage(msg);
}
}
} catch (...)
{
sleep(5);
continue;
}
// get External info
try
{
oam.getSystemConfig(systemConfig);
} catch (...)
{
sleep(5);
continue;
}
if (Externalflag) {
// get External info
try
{
ExternalDiskCritical = systemConfig.ExternalCriticalThreshold;
ExternalDiskMajor = systemConfig.ExternalMajorThreshold;
ExternalDiskMinor = systemConfig.ExternalMinorThreshold;
} catch (...)
{
sleep(5);
continue;
}
}
//check for local file systems
LocalFileSystems::iterator p = lfs.begin();
while(p != lfs.end())
{
string deviceName = *p;
++p;
string fileName;
// check local
if ( deviceName == "/") {
fileName = deviceName + "usr/local/Calpont/releasenum";
}
else
{
fileName = deviceName + "/000.dir";
}
uint64_t totalBlocks;
uint64_t usedBlocks;
if (!statvfs(fileName.c_str(), &buf)) {
uint64_t blksize, blocks, freeblks, free;
blksize = buf.f_bsize;
blocks = buf.f_blocks;
freeblks = buf.f_bfree;
totalBlocks = blocks * blksize;
free = freeblks * blksize;
usedBlocks = totalBlocks - free;
}
else
continue;
int64_t diskUsage = 0;
if ( totalBlocks == 0 ) {
diskUsage = 0;
//Log this event
LoggingID lid(SERVER_MONITOR_LOG_ID);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("Total Disk Usage is set to 0");
msg.format(args);
ml.logWarningMessage(msg);
}
else
diskUsage = (usedBlocks / (totalBlocks / 100)) + 1;
SMSystemDisk sd;
sd.deviceName = deviceName;
sd.usedPercent = diskUsage;
sd.totalBlocks = totalBlocks;
sd.usedBlocks = usedBlocks;
sdl.push_back(sd);
if (DISK_DEBUG)
cout << "Disk Usage for " << deviceName << " is " << diskUsage << endl;
if ( diskSpaceCheck == 0 )
{
if (diskUsage >= localDiskCritical && localDiskCritical > 0 ) {
//adjust if over 100%
if ( diskUsage > 100 )
diskUsage = 100;
if ( serverMonitor.sendResourceAlarm(deviceName, DISK_USAGE_HIGH, SET, (int) diskUsage) )
{
LoggingID lid(SERVER_MONITOR_LOG_ID);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("Local Disk above Critical Disk threshold with a percentage of ");
args.add((int) diskUsage);
msg.format(args);
ml.logInfoMessage(msg);
}
}
else if (diskUsage >= localDiskMajor && localDiskMajor > 0 ) {
if (serverMonitor.sendResourceAlarm(deviceName, DISK_USAGE_MED, SET, (int) diskUsage))
{
LoggingID lid(SERVER_MONITOR_LOG_ID);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("Local Disk above Major Disk threshold with a percentage of ");
args.add((int) diskUsage);
msg.format(args);
ml.logInfoMessage(msg);
}
}
else if (diskUsage >= localDiskMinor && localDiskMinor > 0 ) {
if ( serverMonitor.sendResourceAlarm(deviceName, DISK_USAGE_LOW, SET, (int) diskUsage))
{
LoggingID lid(SERVER_MONITOR_LOG_ID);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("Local Disk above Minor Disk threshold with a percentage of ");
args.add((int) diskUsage);
msg.format(args);
ml.logInfoMessage(msg);
}
}
else
serverMonitor.checkDiskAlarm(deviceName);
}
//check for external file systems/devices
if (Externalflag ||
(!Externalflag && GlusterConfig == "y" && moduleType == "pm") ){
try
{
DBRootConfigList dbrootConfigList;
oam.getPmDbrootConfig(moduleID, dbrootConfigList);
DBRootConfigList::iterator pt = dbrootConfigList.begin();
for( ; pt != dbrootConfigList.end() ; pt++)
{
int dbroot = *pt;
string deviceName = systemConfig.DBRoot[dbroot-1];
string fileName = deviceName + "/000.dir";
if (DISK_DEBUG) {
//Log this event
LoggingID lid(SERVER_MONITOR_LOG_ID);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("DBRoots monitoring");
args.add(dbroot);
args.add(" ,file system =" );
args.add(fileName);
msg.format(args);
ml.logDebugMessage(msg);
}
uint64_t totalBlocks;
uint64_t usedBlocks;
if (!statvfs(fileName.c_str(), &buf)) {
uint64_t blksize, blocks, freeblks, free;
blksize = buf.f_bsize;
blocks = buf.f_blocks;
freeblks = buf.f_bfree;
totalBlocks = blocks * blksize;
free = freeblks * blksize;
usedBlocks = totalBlocks - free;
}
else
{
SMSystemDisk sd;
sd.deviceName = deviceName;
sd.usedPercent = 0;
sd.totalBlocks = 0;
sd.usedBlocks = 0;
sdl.push_back(sd);
continue;
}
int diskUsage = 0;
if ( totalBlocks == 0 ) {
diskUsage = 0;
//Log this event
LoggingID lid(SERVER_MONITOR_LOG_ID);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("Total Disk Usage is set to 0");
msg.format(args);
ml.logWarningMessage(msg);
}
else
diskUsage = (usedBlocks / (totalBlocks / 100)) + 1;
SMSystemDisk sd;
sd.deviceName = deviceName;
sd.usedPercent = diskUsage;
sd.totalBlocks = totalBlocks;
sd.usedBlocks = usedBlocks;
sdl.push_back(sd);
if (DISK_DEBUG)
cout << "Disk Usage for " << deviceName << " is " << diskUsage << endl;
if (diskUsage >= ExternalDiskCritical && ExternalDiskCritical > 0 ) {
//adjust if over 100%
if ( diskUsage > 100 )
diskUsage = 100;
if ( serverMonitor.sendResourceAlarm(deviceName, DISK_USAGE_HIGH, SET, diskUsage))
{
LoggingID lid(SERVER_MONITOR_LOG_ID);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("Disk usage for");
args.add(deviceName);
args.add(" above Critical Disk threshold with a percentage of ");
args.add((int) diskUsage);
msg.format(args);
ml.logInfoMessage(msg);
}
}
else if (diskUsage >= ExternalDiskMajor && ExternalDiskMajor > 0 ) {
if ( serverMonitor.sendResourceAlarm(deviceName, DISK_USAGE_MED, SET, diskUsage))
{
LoggingID lid(SERVER_MONITOR_LOG_ID);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("Disk usage for");
args.add(deviceName);
args.add(" above Major Disk threshold with a percentage of ");
args.add((int) diskUsage);
msg.format(args);
ml.logInfoMessage(msg);
}
}
else if (diskUsage >= ExternalDiskMinor && ExternalDiskMinor > 0 ) {
if ( serverMonitor.sendResourceAlarm(deviceName, DISK_USAGE_LOW, SET, diskUsage))
{
LoggingID lid(SERVER_MONITOR_LOG_ID);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("Disk usage for");
args.add(deviceName);
args.add(" above Minor Disk threshold with a percentage of ");
args.add((int) diskUsage);
msg.format(args);
ml.logInfoMessage(msg);
}
}
else
serverMonitor.checkDiskAlarm(deviceName);
}
}
catch (exception& e)
{
cout << endl << "**** getPmDbrootConfig Failed : " << e.what() << endl;
}
}
}
//check OAM dbroot test flag to validate dbroot exist if on pm
if ( moduleName.find("pm") != string::npos ) {
//check OAM dbroot test flag to validate dbroot exist
if ( dbrootList.size() != 0 ) {
DBrootList::iterator p = dbrootList.begin();
while ( p != dbrootList.end() )
{
//get dbroot directory
string dbrootDir = (*p).dbrootDir;
string dbrootName;
string dbrootID;
//get dbroot name
string::size_type pos = dbrootDir.rfind("/",80);
if (pos != string::npos)
dbrootName = dbrootDir.substr(pos+1,80);
//get ID
dbrootID = dbrootName.substr(4,80);
string fileName = dbrootDir + "/OAMdbrootCheck";
// retry in case we hit the remount window
for ( int retry = 0 ; ; retry++ )
{
bool fail = false;
//first test, check if OAMdbrootCheck exists
ifstream file (fileName.c_str());
if (!file)
fail = true;
else
{ //second test for amazon, check volume status
if ( cloud != oam::UnassignedName ) {
string volumeNameID = "PMVolumeName" + dbrootID;
string volumeName = oam::UnassignedName;
try {
oam.getSystemConfig( volumeNameID, volumeName);
}
catch(...)
{}
if ( volumeName.empty() || volumeName == oam::UnassignedName )
fail = false;
else
{
string status = oam.getEC2VolumeStatus(volumeName);
if ( status == "attached" )
fail = false;
else
{
fail = true;
LoggingID lid(SERVER_MONITOR_LOG_ID);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("dbroot monitoring: Volume not attached");
args.add(volumeName);
args.add("/");
args.add(dbrootName);
msg.format(args);
ml.logCriticalMessage(msg);
}
}
}
else
fail = false;
}
if (fail) {
//double check system status before reporting any error BUG 5078
SystemStatus systemstatus;
try {
oam.getSystemStatus(systemstatus);
}
catch (exception& ex)
{}
if (systemstatus.SystemOpState != oam::ACTIVE ) {
break;
}
if ( retry < 10 ) {
sleep(3);
continue;
}
else
{
if ( !(*p).downFlag ) {
LoggingID lid(SERVER_MONITOR_LOG_ID);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("dbroot monitoring: Lost access to ");
args.add(dbrootDir);
msg.format(args);
ml.logCriticalMessage(msg);
oam.sendDeviceNotification(dbrootName, DBROOT_DOWN, moduleName);
(*p).downFlag = true;
try{
oam.setDbrootStatus(dbrootID, oam::AUTO_OFFLINE);
}
catch (exception& ex)
{}
break;
}
}
}
else
{
if ( (*p).downFlag ) {
LoggingID lid(SERVER_MONITOR_LOG_ID);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("dbroot monitoring: Access back to ");
args.add(dbrootDir);
msg.format(args);
ml.logInfoMessage(msg);
oam.sendDeviceNotification(dbrootName, DBROOT_UP, moduleName);
(*p).downFlag = false;
try{
oam.setDbrootStatus(dbrootID, oam::ACTIVE);
}
catch (exception& ex)
{}
}
file.close();
break;
}
}
p++;
}
}
}
//do Gluster status check, if configured
if ( GlusterConfig == "y")
{
bool pass = true;
string errmsg = "unknown";
try {
string arg1 = "";
string arg2 = "";
int ret = oam.glusterctl(oam::GLUSTER_STATUS, arg1, arg2, errmsg);
if ( ret != 0 )
{
cerr << "FAILURE: Status check error: " + errmsg << endl;
pass = false;
}
}
catch (exception& e)
{
cerr << endl << "**** glusterctl API exception: " << e.what() << endl;
cerr << "FAILURE: Status check error" << endl;
pass = false;
}
catch (...)
{
cerr << endl << "**** glusterctl API exception: UNKNOWN" << endl;
cerr << "FAILURE: Status check error" << endl;
pass = false;
}
if ( !pass )
{ // issue log and alarm
LoggingID lid(SERVER_MONITOR_LOG_ID);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("Gluster Status check failure error msg: ");
args.add(errmsg);
msg.format(args);
ml.logWarningMessage(msg);
serverMonitor.sendResourceAlarm(errmsg, GLUSTER_DISK_FAILURE, SET, 0);
}
}
// sleep 10 seconds
sleep(MONITOR_PERIOD/6);
//check disk space every 10 minutes
diskSpaceCheck++;
if ( diskSpaceCheck >= 60 )
diskSpaceCheck = 0;
lfs.clear();
sdl.clear();
} // end of while loop
}
void hardwareMonitor(int IPMI_SUPPORT)
{
ServerMonitor serverMonitor;
string data[10];
string SensorName;
float SensorValue;
string Units;
string SensorStatus;
float lowFatal;
float lowCritical;
float lowWarning;
float highWarning;
float highCritical;
float highFatal;
char *p;
if( IPMI_SUPPORT == 0) {
int returnCode = system("ipmitool sensor list > /tmp/harwareMonitor.txt");
if (returnCode) {
// System error, Log this event
LoggingID lid(SERVER_MONITOR_LOG_ID);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("Error running ipmitool sensor list!!!");
msg.format(args);
ml.logWarningMessage(msg);
while(TRUE)
sleep(10000);
}
}
else
{
while(TRUE)
sleep(10000);
}
// register for Heartbeat monitoring
/* try {
ProcHeartbeat procheartbeat;
procheartbeat.registerHeartbeat(HW_HEARTBEAT_ID);
}
catch (exception& ex)
{
string error = ex.what();
LoggingID lid(SERVER_MONITOR_LOG_ID);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("EXCEPTION ERROR on registerHeartbeat: ");
args.add(error);
msg.format(args);
ml.logErrorMessage(msg);
}
catch(...)
{
LoggingID lid(SERVER_MONITOR_LOG_ID);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("EXCEPTION ERROR on sendHeartbeat: Caught unknown exception!");
msg.format(args);
ml.logErrorMessage(msg);
}
*/
// loop forever reading the hardware status
while(TRUE)
{
// parse output file
ifstream File ("/tmp/harwareMonitor.txt");
if (!File){
// System error, Log this event
LoggingID lid(SERVER_MONITOR_LOG_ID);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("Error opening /tmp/harwareMonitor.txt!!!");
msg.format(args);
ml.logWarningMessage(msg);
sleep(300);
continue;
}
char line[200];
while (File.getline(line, 200))
{
// parse the line
int f = 0;
p = strtok(line,"|");
while (p)
{
data[f]=p;
data[f] = serverMonitor.StripWhitespace(data[f]);
p = strtok (NULL, "|");
f++;
}
if( f == 0 )
// nothing on this line, skip
continue;
SensorName = data[0];
SensorValue = atof(data[1].c_str());
Units = data[2];
SensorStatus = data[3];
lowFatal = atof(data[4].c_str());
lowCritical = atof(data[5].c_str());
lowWarning = atof(data[6].c_str());
highWarning = atof(data[7].c_str());
highCritical = atof(data[8].c_str());
highFatal = atof(data[9].c_str());
// check status and issue apporiate alarm if needed
if ( (SensorStatus != "ok") && (SensorStatus != "nr") && (SensorStatus != "na") ) {
// Status error, check for warning or critical levels
if ( SensorValue >= highFatal ) {
// issue critical alarm and send message to shutdown Server
serverMonitor.sendAlarm(SensorName, HARDWARE_HIGH, SET, SensorValue);
serverMonitor.sendMsgShutdownServer();
}
else if ( (SensorValue < highFatal) && (SensorValue >= highCritical) )
// issue major alarm
serverMonitor.sendAlarm(SensorName, HARDWARE_MED, SET, SensorValue);
else if ( (SensorValue < highCritical ) && (SensorValue >= highWarning) )
// issue minor alarm
serverMonitor.sendAlarm(SensorName, HARDWARE_LOW, SET, SensorValue);
else if ( (SensorValue <= lowWarning) && (SensorValue > lowCritical) )
// issue minor alarm
serverMonitor.sendAlarm(SensorName, HARDWARE_LOW, SET, SensorValue);
else if ( (SensorValue <= lowCritical) && (SensorValue > lowFatal) )
// issue major alarm
serverMonitor.sendAlarm(SensorName, HARDWARE_MED, SET, SensorValue);
else if ( SensorValue <= lowFatal ) {
// issue critical alarm and send message to shutdown Server
serverMonitor.sendAlarm(SensorName, HARDWARE_HIGH, SET, SensorValue);
serverMonitor.sendMsgShutdownServer();
}
else
// check if there are any active alarms that needs to be cleared
serverMonitor.checkAlarm(SensorName);
}
else
// check if there are any active alarms that needs to be cleared
serverMonitor.checkAlarm(SensorName);
} //end of parsing file while
File.close();
// send heartbeat message
/* try {
ProcHeartbeat procheartbeat;
procheartbeat.sendHeartbeat(HW_HEARTBEAT_ID);
LoggingID lid(SERVER_MONITOR_LOG_ID);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("Sent Heartbeat Msg");
msg.format(args);
ml.logDebugMessage(msg);
}
catch (exception& ex)
{
string error = ex.what();
if ( error.find("Disabled") == string::npos ) {
LoggingID lid(SERVER_MONITOR_LOG_ID);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("EXCEPTION ERROR on sendHeartbeat: ");
args.add(error);
msg.format(args);
ml.logErrorMessage(msg);
}
}
catch(...)
{
LoggingID lid(SERVER_MONITOR_LOG_ID);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("EXCEPTION ERROR on sendHeartbeat: Caught unknown exception!");
msg.format(args);
ml.logErrorMessage(msg);
}
*/
// sleep
sleep(MONITOR_PERIOD);
} //end of forever while loop
}
/************************************************************************************************************
* @brief main function
*
* purpose: Get current hardware status and report alarms
*
* Parses file generated by the ipmitool
*
* pattern = what it is | value | units | status | value 1 | value 2 | value 3 | value 4 | value 5 | value 6
* data(0) = what it is
* data(1) = value
* data(2) = units
* data(3) = status
* data(4)-data(9) = barrier values
* data(4) - low non-recoverable, i.e. fatal
* data(5) - low critical
* data(6) - low warning
* data(7) - high warning
* data(8) - high critical
* data(9) - high non-recoverable, i.e. fatal
*
************************************************************************************************************/
int main (int argc, char** argv)
{
string data[10];
string SensorName;
float SensorValue;
string Units;
string SensorStatus;
float lowFatal;
float lowCritical;
float lowWarning;
float highWarning;
float highCritical;
float highFatal;
char *p;
// check for IPMI_SUPPORT FLAG passed in
if(argc > 1)
IPMI_SUPPORT = atoi(argv[1]);
// loop forever reading the hardware status
while(true)
{
if( IPMI_SUPPORT == 0) {
int returnCode = system("ipmitool sensor list > /tmp/harwareMonitor.txt");
if (returnCode) {
// System error, Log this event
LoggingID lid;
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("Error running ipmitool sensor list!!!");
msg.format(args);
ml.logWarningMessage(msg);
sleep(300);
continue;
}
}
// parse output file
ifstream File ("/tmp/harwareMonitor.txt");
if (!File){
// System error, Log this event
LoggingID lid;
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("Error opening /tmp/harwareMonitor.txt!!!");
msg.format(args);
ml.logWarningMessage(msg);
sleep(300);
continue;
}
char line[200];
while (File.getline(line, 200))
{
// parse the line
int f = 0;
p = strtok(line,"|");
while (p)
{
data[f]=p;
data[f] = StripWhitespace(data[f]);
p = strtok (NULL, "|");
f++;
}
if( f == 0 )
// nothing on this line, skip
continue;
SensorName = data[0];
SensorValue = atof(data[1].c_str());
Units = data[2];
SensorStatus = data[3];
lowFatal = atof(data[4].c_str());
lowCritical = atof(data[5].c_str());
lowWarning = atof(data[6].c_str());
highWarning = atof(data[7].c_str());
highCritical = atof(data[8].c_str());
highFatal = atof(data[9].c_str());
// check status and issue apporiate alarm if needed
if ( (SensorStatus != "ok") && (SensorStatus != "nr") && (SensorStatus != "na") ) {
// Status error, check for warning or critical levels
if ( SensorValue >= highFatal ) {
// issue critical alarm and send message to shutdown Server
sendAlarm(SensorName, HARDWARE_HIGH, SET, SensorValue);
sendMsgShutdownServer();
}
else if ( (SensorValue < highFatal) && (SensorValue >= highCritical) )
// issue major alarm
sendAlarm(SensorName, HARDWARE_MED, SET, SensorValue);
else if ( (SensorValue < highCritical ) && (SensorValue >= highWarning) )
// issue minor alarm
sendAlarm(SensorName, HARDWARE_LOW, SET, SensorValue);
else if ( (SensorValue <= lowWarning) && (SensorValue > lowCritical) )
// issue minor alarm
sendAlarm(SensorName, HARDWARE_LOW, SET, SensorValue);
else if ( (SensorValue <= lowCritical) && (SensorValue > lowFatal) )
// issue major alarm
sendAlarm(SensorName, HARDWARE_MED, SET, SensorValue);
else if ( SensorValue <= lowFatal ) {
// issue critical alarm and send message to shutdown Server
sendAlarm(SensorName, HARDWARE_HIGH, SET, SensorValue);
sendMsgShutdownServer();
}
else
// check if there are any active alarms that needs to be cleared
checkAlarm(SensorName);
}
else
// check if there are any active alarms that needs to be cleared
checkAlarm(SensorName);
} //end of parsing file while
File.close();
// sleep for 1 minute
sleep(60);
} //end of forever while loop
}
void procmonMonitor()
{
ServerMonitor serverMonitor;
Oam oam;
//wait before monitoring is started
sleep(60);
// get current server name
string moduleName;
oamModuleInfo_t st;
try {
st = oam.getModuleInfo();
moduleName = boost::get<0>(st);
}
catch (...) {
// Critical error, Log this event and exit
LoggingID lid(SERVER_MONITOR_LOG_ID);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("Failed to read local module Info");
msg.format(args);
ml.logCriticalMessage(msg);
exit(-1);
}
string msgPort = moduleName + "_ProcessMonitor";
int heartbeatCount = 0;
// loop forever monitoring Local Process Monitor
while(true)
{
ByteStream msg;
ByteStream::byte requestID = LOCALHEARTBEAT;
msg << requestID;
try
{
MessageQueueClient mqRequest(msgPort);
mqRequest.write(msg);
// wait 10 seconds for response
ByteStream::byte returnACK;
ByteStream::byte returnRequestID;
ByteStream::byte requestStatus;
ByteStream receivedMSG;
struct timespec ts = { 10, 0 };
try {
receivedMSG = mqRequest.read(&ts);
if (receivedMSG.length() > 0) {
receivedMSG >> returnACK;
receivedMSG >> returnRequestID;
receivedMSG >> requestStatus;
if ( returnACK == oam::ACK && returnRequestID == requestID) {
// ACK for this request
heartbeatCount = 0;
}
}
else
{
LoggingID lid(SERVER_MONITOR_LOG_ID);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("procmonMonitor: ProcMon Msg timeout!!!");
msg.format(args);
ml.logWarningMessage(msg);
heartbeatCount++;
if ( heartbeatCount > 2 ) {
//Process Monitor not responding, restart it
system("pkill ProcMon");
LoggingID lid(SERVER_MONITOR_LOG_ID);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("procmonMonitor: Restarting ProcMon");
msg.format(args);
ml.logWarningMessage(msg);
sleep(60);
heartbeatCount = 0;
}
}
mqRequest.shutdown();
}
catch (SocketClosed &ex) {
string error = ex.what();
LoggingID lid(SERVER_MONITOR_LOG_ID);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("procmonMonitor: EXCEPTION ERROR on mqRequest.read: " + error);
msg.format(args);
ml.logErrorMessage(msg);
}
catch (...) {
LoggingID lid(SERVER_MONITOR_LOG_ID);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("procmonMonitor: EXCEPTION ERROR on mqRequest.read: Caught unknown exception");
msg.format(args);
ml.logErrorMessage(msg);
}
}
catch (exception& ex)
/*****************************************************************************************
* @brief cpuMonitor Thread
*
* purpose: Get current CPU usage, average over 5 readings and report alarms
*
*****************************************************************************************/
void cpuMonitor()
{
ServerMonitor serverMonitor;
// register for Heartbeat monitoring
/* try {
ProcHeartbeat procheartbeat;
procheartbeat.registerHeartbeat(CPU_HEARTBEAT_ID);
}
catch (exception& ex)
{
string error = ex.what();
LoggingID lid(SERVER_MONITOR_LOG_ID);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("EXCEPTION ERROR on registerHeartbeat: ");
args.add(error);
msg.format(args);
ml.logErrorMessage(msg);
}
catch(...)
{
LoggingID lid(SERVER_MONITOR_LOG_ID);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("EXCEPTION ERROR on sendHeartbeat: Caught unknown exception!");
msg.format(args);
ml.logErrorMessage(msg);
}
*/
int periodCount = 5;
float cpuPeriod[periodCount];
int periodCounter = 0;
float averageCpuUsage = 0;
currentCpuUsage = 0;
// set defaults
unsigned int cpuCritical = 0,
cpuMajor = 0,
cpuMinor = 0,
cpuMinorClear = 0;
// initial cpu Period table
for (int i =0;i < periodCount; i++)
{
cpuPeriod[i] = 0;
}
while(true)
{
// Get CPU usage water mark from server configuration and compare
ModuleTypeConfig moduleTypeConfig;
Oam oam;
try {
oam.getSystemConfig(moduleTypeConfig);
cpuCritical = moduleTypeConfig.ModuleCPUCriticalThreshold;
cpuMajor = moduleTypeConfig.ModuleCPUMajorThreshold;
cpuMinor = moduleTypeConfig.ModuleCPUMinorThreshold;
cpuMinorClear = moduleTypeConfig.ModuleCPUMinorClearThreshold;
} catch (...)
{
sleep(5);
continue;
}
if (RESOURCE_DEBUG)
cout << "critical water: " << moduleTypeConfig.ModuleCPUCriticalThreshold << endl;
pthread_mutex_lock(&CPU_LOCK);
//
// get Process and System CPU usage
//
serverMonitor.getCPUdata();
// store and get average
cpuPeriod[periodCounter] = currentCpuUsage;
averageCpuUsage = 0;
for (int i =0;i < periodCount; i++)
{
averageCpuUsage += cpuPeriod[i];
}
averageCpuUsage = averageCpuUsage / periodCount;
// serverMonitor.logCPUactive(averageCpuUsage);
if (CPU_DEBUG) {
cout << "Current CPU Usage: " << currentCpuUsage << endl;
cout << "Average CPU Usage: " << averageCpuUsage << endl;
}
if (averageCpuUsage >= cpuCritical && cpuCritical > 0 ) {
serverMonitor.sendResourceAlarm("CPU", CPU_USAGE_HIGH, SET, (int) averageCpuUsage);
}
else if (averageCpuUsage >= cpuMajor && cpuMajor > 0 )
serverMonitor.sendResourceAlarm("CPU", CPU_USAGE_MED, SET, (int) averageCpuUsage);
else if (averageCpuUsage >= cpuMinor && cpuMinor > 0 )
serverMonitor.sendResourceAlarm("CPU", CPU_USAGE_LOW, SET, (int) averageCpuUsage);
else if (averageCpuUsage >= cpuMinorClear && cpuMinorClear > 0 ) {
serverMonitor.checkCPUAlarm("CPU", CPU_USAGE_LOW);
//Log this event
LoggingID lid(SERVER_MONITOR_LOG_ID);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("Current CPU usage = ");
args.add((int) currentCpuUsage);
args.add(", Average CPU usage = ");
args.add((int) averageCpuUsage);
msg.format(args);
ml.logInfoMessage(msg);
}
else
serverMonitor.checkCPUAlarm("CPU");
//
// check CPU usage by process
//
ProcessCPUList::iterator p = pcl.begin();
while(p != pcl.end())
{
string processName = (*p).processName;
double cpuUsage = (*p).usedPercent;
p++;
if (CPU_DEBUG) {
cout << "Process Name : " << processName << endl;
cout << "CPU Usage: " << cpuUsage << endl;
}
// check if a Calpont Process, if so alarm is over thresholds
// if not, just log if over thresholds
if (cpuUsage >= cpuCritical && cpuCritical > 0) {
/* try {
t = oam.getMyProcessStatus(processID);
processName = boost::get<1>(t);
serverMonitor.sendResourceAlarm(processName, CPU_USAGE_HIGH, SET, (int) cpuUsage);
}
catch (...) {
*/ LoggingID lid(SERVER_MONITOR_LOG_ID);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("Process");
args.add(processName);
args.add(" above Critical CPU threshold with a percentage of ");
args.add((int) cpuUsage);
msg.format(args);
ml.logInfoMessage(msg);
// }
}
else if (cpuUsage >= cpuMajor && cpuMajor > 0) {
/* try {
t = oam.getMyProcessStatus(processID);
processName = boost::get<1>(t);
serverMonitor.sendResourceAlarm(processName, CPU_USAGE_MED, SET, (int) cpuUsage);
}
catch (...) {
*/ LoggingID lid(SERVER_MONITOR_LOG_ID);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("Process");
args.add(processName);
args.add(" above Major CPU threshold with a percentage of ");
args.add((int) cpuUsage);
msg.format(args);
ml.logInfoMessage(msg);
// }
}
else if (cpuUsage >= cpuMinor && cpuMinor > 0) {
/* try {
t = oam.getMyProcessStatus(processID);
processName = boost::get<1>(t);
serverMonitor.sendResourceAlarm(processName, CPU_USAGE_LOW, SET, (int) cpuUsage);
}
catch (...) {
*/ LoggingID lid(SERVER_MONITOR_LOG_ID);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("Process");
args.add(processName);
args.add(" above Minor CPU threshold with a percentage of ");
args.add((int) cpuUsage);
msg.format(args);
ml.logInfoMessage(msg);
// }
}
/* else if (cpuUsage >= cpuMinorClear) {
try {
t = oam.getMyProcessStatus(processID);
processName = boost::get<1>(t);
serverMonitor.checkCPUAlarm(processName, CPU_USAGE_LOW);
}
catch (...) {}
}
else
serverMonitor.checkCPUAlarm(processName);
*/ }
// send heartbeat message
/* try {
ProcHeartbeat procheartbeat;
procheartbeat.sendHeartbeat(CPU_HEARTBEAT_ID);
LoggingID lid(SERVER_MONITOR_LOG_ID);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("Sent Heartbeat Msg");
msg.format(args);
ml.logInfoMessage(msg);
}
catch (exception& ex)
{
string error = ex.what();
if ( error.find("Disabled") == string::npos ) {
LoggingID lid(SERVER_MONITOR_LOG_ID);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("EXCEPTION ERROR on sendHeartbeat: ");
args.add(error);
msg.format(args);
ml.logErrorMessage(msg);
}
}
catch(...)
{
LoggingID lid(SERVER_MONITOR_LOG_ID);
MessageLog ml(lid);
Message msg;
Message::Args args;
args.add("EXCEPTION ERROR on sendHeartbeat: Caught unknown exception!");
msg.format(args);
ml.logErrorMessage(msg);
}
*/
pthread_mutex_unlock(&CPU_LOCK);
// sleep, 5 minutes
sleep(MONITOR_PERIOD*5);
++periodCounter;
if ( periodCounter >= periodCount )
periodCounter = 0;
} // end of while loop
}
DropTableProcessor::DDLResult DropTableProcessor::processPackage(ddlpackage::DropTableStatement& dropTableStmt)
{
SUMMARY_INFO("DropTableProcessor::processPackage");
DDLResult result;
result.result = NO_ERROR;
std::string err;
VERBOSE_INFO(dropTableStmt);
// Commit current transaction.
// all DDL statements cause an implicit commit
VERBOSE_INFO("Getting current txnID");
ByteStream::byte rc = 0;
BRM::TxnID txnID;
txnID.id= fTxnid.id;
txnID.valid= fTxnid.valid;
int rc1 = 0;
rc1= fDbrm->isReadWrite();
if (rc1 != 0 )
{
Message::Args args;
Message message(9);
args.add("Unable to execute the statement due to DBRM is read only");
message.format(args);
result.result = DROP_ERROR;
result.message = message;
fSessionManager.rolledback(txnID);
return result;
}
string stmt = dropTableStmt.fSql + "|" + dropTableStmt.fTableName->fSchema +"|";
SQLLogger logger(stmt, fDDLLoggingId, dropTableStmt.fSessionID, txnID.id);
std::vector <CalpontSystemCatalog::OID> oidList;
CalpontSystemCatalog::RIDList tableColRidList;
CalpontSystemCatalog::DictOIDList dictOIDList;
execplan::CalpontSystemCatalog::ROPair roPair;
std::string errorMsg;
ByteStream bytestream;
uint64_t uniqueId = 0;
//Bug 5070. Added exception handling
try {
uniqueId = fDbrm->getUnique64();
}
catch (std::exception& ex)
{
Message::Args args;
Message message(9);
args.add(ex.what());
message.format(args);
result.result = DROP_ERROR;
result.message = message;
fSessionManager.rolledback(txnID);
return result;
}
catch ( ... )
{
Message::Args args;
Message message(9);
args.add("Unknown error occured while getting unique number.");
message.format(args);
result.result = DROP_ERROR;
result.message = message;
fSessionManager.rolledback(txnID);
return result;
}
fWEClient->addQueue(uniqueId);
int pmNum = 1;
boost::shared_ptr<messageqcpp::ByteStream> bsIn;
uint64_t tableLockId = 0;
OamCache* oamcache = OamCache::makeOamCache();
std::vector<int> moduleIds = oamcache->getModuleIds();
try
{
//check table lock
CalpontSystemCatalog *systemCatalogPtr = CalpontSystemCatalog::makeCalpontSystemCatalog(dropTableStmt.fSessionID);
systemCatalogPtr->identity(CalpontSystemCatalog::EC);
systemCatalogPtr->sessionID(dropTableStmt.fSessionID);
CalpontSystemCatalog::TableName tableName;
tableName.schema = dropTableStmt.fTableName->fSchema;
tableName.table = dropTableStmt.fTableName->fName;
roPair = systemCatalogPtr->tableRID( tableName );
u_int32_t processID = ::getpid();
int32_t txnid = txnID.id;
int32_t sessionId = dropTableStmt.fSessionID;
std::string processName("DDLProc");
int i = 0;
std::vector<uint> pms;
for (unsigned i=0; i < moduleIds.size(); i++)
{
pms.push_back((uint)moduleIds[i]);
}
try {
tableLockId = fDbrm->getTableLock(pms, roPair.objnum, &processName, &processID, &sessionId, &txnid, BRM::LOADING );
}
catch (std::exception&)
{
throw std::runtime_error(IDBErrorInfo::instance()->errorMsg(ERR_HARD_FAILURE));
}
if ( tableLockId == 0 )
{
int waitPeriod = 10;
int sleepTime = 100; // sleep 100 milliseconds between checks
int numTries = 10; // try 10 times per second
waitPeriod = WriteEngine::Config::getWaitPeriod();
numTries = waitPeriod * 10;
struct timespec rm_ts;
rm_ts.tv_sec = sleepTime/1000;
rm_ts.tv_nsec = sleepTime%1000 *1000000;
for (; i < numTries; i++)
{
#ifdef _MSC_VER
Sleep(rm_ts.tv_sec * 1000);
#else
struct timespec abs_ts;
do
{
abs_ts.tv_sec = rm_ts.tv_sec;
abs_ts.tv_nsec = rm_ts.tv_nsec;
}
while(nanosleep(&abs_ts,&rm_ts) < 0);
#endif
try {
processID = ::getpid();
txnid = txnID.id;
sessionId = dropTableStmt.fSessionID;;
processName = "DDLProc";
tableLockId = fDbrm->getTableLock(pms, roPair.objnum, &processName, &processID, &sessionId, &txnid, BRM::LOADING );
}
catch (std::exception&)
{
throw std::runtime_error(IDBErrorInfo::instance()->errorMsg(ERR_HARD_FAILURE));
}
if (tableLockId > 0)
break;
}
if (i >= numTries) //error out
{
Message::Args args;
args.add(processName);
args.add((uint64_t)processID);
args.add(sessionId);
throw std::runtime_error(IDBErrorInfo::instance()->errorMsg(ERR_TABLE_LOCKED,args));
}
}
// 1. Get the OIDs for the columns
// 2. Get the OIDs for the dictionaries
// 3. Save the OIDs to a log file
// 4. Remove the Table from SYSTABLE
// 5. Remove the columns from SYSCOLUMN
// 6. Commit the changes made to systables
// 7. Flush PrimProc Cache
// 8. Update extent map
// 9. Remove the column and dictionary files
// 10.Return the OIDs
CalpontSystemCatalog::TableName userTableName;
userTableName.schema = dropTableStmt.fTableName->fSchema;
userTableName.table = dropTableStmt.fTableName->fName;
tableColRidList = systemCatalogPtr->columnRIDs( userTableName );
dictOIDList = systemCatalogPtr->dictOIDs( userTableName );
Oam oam;
//Save qualified tablename, all column, dictionary OIDs, and transaction ID into a file in ASCII format
for ( unsigned i=0; i < tableColRidList.size(); i++ )
{
if ( tableColRidList[i].objnum > 3000 )
oidList.push_back( tableColRidList[i].objnum );
}
for ( unsigned i=0; i < dictOIDList.size(); i++ )
{
if ( dictOIDList[i].dictOID > 3000 )
oidList.push_back( dictOIDList[i].dictOID );
}
//get a unique number
VERBOSE_INFO("Removing the SYSTABLE meta data");
#ifdef IDB_DDL_DEBUG
cout << "Removing the SYSTABLEs meta data" << endl;
#endif
bytestream << (ByteStream::byte)WE_SVR_DELETE_SYSTABLES;
bytestream << uniqueId;
bytestream << (u_int32_t) dropTableStmt.fSessionID;
bytestream << (u_int32_t)txnID.id;
bytestream << dropTableStmt.fTableName->fSchema;
bytestream << dropTableStmt.fTableName->fName;
//Find out where systable is
BRM::OID_t sysOid = 1001;
ByteStream::byte rc = 0;
u_int16_t dbRoot;
rc = fDbrm->getSysCatDBRoot(sysOid, dbRoot);
if (rc != 0)
{
result.result =(ResultCode) rc;
Message::Args args;
Message message(9);
args.add("Error while calling getSysCatDBRoot");
args.add(errorMsg);
result.message = message;
//release transaction
fSessionManager.rolledback(txnID);
return result;
}
boost::shared_ptr<std::map<int, int> > dbRootPMMap = oamcache->getDBRootToPMMap();
pmNum = (*dbRootPMMap)[dbRoot];
try
{
//cout << "deleting systable entries with txnid " << txnID.id << endl;
fWEClient->write(bytestream, (uint)pmNum);
#ifdef IDB_DDL_DEBUG
cout << "Drop table sending WE_SVR_DELETE_SYSTABLES to pm " << pmNum << endl;
#endif
while (1)
{
bsIn.reset(new ByteStream());
fWEClient->read(uniqueId, bsIn);
if ( bsIn->length() == 0 ) //read error
{
rc = NETWORK_ERROR;
errorMsg = "Lost connection to Write Engine Server while updating SYSTABLES";
break;
}
else {
*bsIn >> rc;
if (rc != 0) {
*bsIn >> errorMsg;
}
break;
}
}
}
catch (runtime_error& ex) //write error
{
#ifdef IDB_DDL_DEBUG
cout << "Drop table got exception" << endl;
#endif
rc = NETWORK_ERROR;
errorMsg = ex.what();
}
catch (...)
{
rc = NETWORK_ERROR;
#ifdef IDB_DDL_DEBUG
cout << "Drop table got unknown exception" << endl;
#endif
}
if (rc != 0)
{
Message::Args args;
Message message(9);
args.add("Error in dropping table from systables.");
args.add(errorMsg);
message.format(args);
result.result = (ResultCode)rc;
result.message = message;
//release table lock and session
fSessionManager.rolledback(txnID);
(void)fDbrm->releaseTableLock(tableLockId);
fWEClient->removeQueue(uniqueId);
return result;
}
rc = commitTransaction(uniqueId, txnID);
//cout << "commiting transaction " << txnID.id << " and valid is " << txnID.valid << endl;
if (rc != 0)
fSessionManager.rolledback(txnID);
else
fSessionManager.committed(txnID);
if (rc != 0)
{
Message::Args args;
Message message(9);
ostringstream oss;
oss << " Commit failed with error code " << rc;
args.add(oss.str());
fSessionManager.rolledback(txnID);
(void)fDbrm->releaseTableLock(tableLockId);
message.format(args);
result.result = (ResultCode)rc;
result.message = message;
fWEClient->removeQueue(uniqueId);
return result;
}
// Log the DDL statement
logDDL(dropTableStmt.fSessionID, txnID.id, dropTableStmt.fSql, dropTableStmt.fOwner);
}
catch (std::exception& ex)
{
result.result = DROP_ERROR;
Message::Args args;
Message message(9);
args.add("Drop table failed due to ");
args.add(ex.what());
fSessionManager.rolledback(txnID);
try {
(void)fDbrm->releaseTableLock(tableLockId);
}
catch (std::exception&)
{
args.add(IDBErrorInfo::instance()->errorMsg(ERR_HARD_FAILURE));
}
message.format( args );
result.message = message;
fWEClient->removeQueue(uniqueId);
return result;
}
catch (...)
{
result.result = DROP_ERROR;
errorMsg = "Error in getting information from system catalog or from dbrm.";
Message::Args args;
Message message(9);
args.add("Drop table failed due to ");
args.add(errorMsg);
fSessionManager.rolledback(txnID);
try {
(void)fDbrm->releaseTableLock(tableLockId);
}
catch (std::exception&)
{
args.add(IDBErrorInfo::instance()->errorMsg(ERR_HARD_FAILURE));
}
message.format( args );
result.message = message;
fWEClient->removeQueue(uniqueId);
return result;
}
try {
(void)fDbrm->releaseTableLock(tableLockId);
}
catch (std::exception&)
{
result.result = DROP_ERROR;
Message::Args args;
Message message(9);
args.add("Drop table failed due to ");
args.add(IDBErrorInfo::instance()->errorMsg(ERR_HARD_FAILURE));
fSessionManager.rolledback(txnID);
message.format( args );
result.message = message;
fWEClient->removeQueue(uniqueId);
return result;
}
//Save the oids to a file
try {
createWriteDropLogFile( roPair.objnum, uniqueId, oidList );
}
catch (std::exception& ex)
{
result.result = WARNING;
Message::Args args;
Message message(9);
args.add("Drop table failed due to ");
args.add(ex.what());
message.format(args);
result.message = message;
fSessionManager.rolledback(txnID);
fWEClient->removeQueue(uniqueId);
return result;
}
// Bug 4208 Drop the PrimProcFDCache before droping the column files
// FOr Windows, this ensures (most likely) that the column files have
// no open handles to hinder the deletion of the files.
rc = cacheutils::dropPrimProcFdCache();
//Drop files
bytestream.restart();
bytestream << (ByteStream::byte)WE_SVR_WRITE_DROPFILES;
bytestream << uniqueId;
bytestream << (uint32_t) oidList.size();
for (unsigned i=0; i < oidList.size(); i++)
{
bytestream << (uint32_t) oidList[i];
}
#ifdef IDB_DDL_DEBUG
cout << "Drop table removing column files" << endl;
#endif
uint msgRecived = 0;
try {
fWEClient->write_to_all(bytestream);
bsIn.reset(new ByteStream());
ByteStream::byte tmp8;
while (1)
{
if (msgRecived == fWEClient->getPmCount())
break;
fWEClient->read(uniqueId, bsIn);
if ( bsIn->length() == 0 ) //read error
{
rc = NETWORK_ERROR;
fWEClient->removeQueue(uniqueId);
break;
}
else {
*bsIn >> tmp8;
rc = tmp8;
if (rc != 0) {
*bsIn >> errorMsg;
fWEClient->removeQueue(uniqueId);
break;
}
else
msgRecived++;
}
}
