ProcedureRunner( VoltProcedure procedure, SiteProcedureConnection site, SystemProcedureExecutionContext sysprocContext, Procedure catProc, CatalogSpecificPlanner csp) { assert (m_inputCRC.getValue() == 0L); if (procedure instanceof StmtProcedure) { m_procedureName = catProc.getTypeName().intern(); } else { m_procedureName = procedure.getClass().getSimpleName(); } m_procedure = procedure; m_isSysProc = procedure instanceof VoltSystemProcedure; m_catProc = catProc; m_site = site; m_systemProcedureContext = sysprocContext; m_csp = csp; m_procedure.init(this); m_statsCollector = new ProcedureStatsCollector( m_site.getCorrespondingSiteId(), m_site.getCorrespondingPartitionId(), m_catProc); VoltDB.instance() .getStatsAgent() .registerStatsSource( SysProcSelector.PROCEDURE, site.getCorrespondingSiteId(), m_statsCollector); reflect(); }
public ClientResponseImpl call(Object... paramListIn) { // verify per-txn state has been reset assert (m_statusCode == ClientResponse.UNINITIALIZED_APP_STATUS_CODE); assert (m_statusString == null); assert (m_cachedRNG == null); // reset the hash of results m_inputCRC.reset(); // use local var to avoid warnings about reassigning method argument Object[] paramList = paramListIn; ClientResponseImpl retval = null; // assert no sql is queued assert (m_batch.size() == 0); try { m_statsCollector.beginProcedure(); byte status = ClientResponse.SUCCESS; VoltTable[] results = null; // inject sysproc execution context as the first parameter. if (isSystemProcedure()) { final Object[] combinedParams = new Object[paramList.length + 1]; combinedParams[0] = m_systemProcedureContext; for (int i = 0; i < paramList.length; ++i) combinedParams[i + 1] = paramList[i]; // swap the lists. paramList = combinedParams; } if (paramList.length != m_paramTypes.length) { m_statsCollector.endProcedure(false, true, null, null); String msg = "PROCEDURE " + m_procedureName + " EXPECTS " + String.valueOf(m_paramTypes.length) + " PARAMS, BUT RECEIVED " + String.valueOf(paramList.length); status = ClientResponse.GRACEFUL_FAILURE; return getErrorResponse(status, msg, null); } for (int i = 0; i < m_paramTypes.length; i++) { try { paramList[i] = ParameterConverter.tryToMakeCompatible( m_paramTypeIsPrimitive[i], m_paramTypeIsArray[i], m_paramTypes[i], m_paramTypeComponentType[i], paramList[i]); } catch (Exception e) { m_statsCollector.endProcedure(false, true, null, null); String msg = "PROCEDURE " + m_procedureName + " TYPE ERROR FOR PARAMETER " + i + ": " + e.toString(); status = ClientResponse.GRACEFUL_FAILURE; return getErrorResponse(status, msg, null); } } boolean error = false; boolean abort = false; // run a regular java class if (m_catProc.getHasjava()) { try { if (log.isTraceEnabled()) { log.trace( "invoking... procMethod=" + m_procMethod.getName() + ", class=" + getClass().getName()); } try { Object rawResult = m_procMethod.invoke(m_procedure, paramList); results = getResultsFromRawResults(rawResult); } catch (IllegalAccessException e) { // If reflection fails, invoke the same error handling that other exceptions do throw new InvocationTargetException(e); } log.trace("invoked"); } catch (InvocationTargetException itex) { // itex.printStackTrace(); Throwable ex = itex.getCause(); if (ex instanceof VoltAbortException && !(ex instanceof EEException)) { abort = true; } else { error = true; } if (ex instanceof Error) { m_statsCollector.endProcedure(false, true, null, null); throw (Error) ex; } retval = getErrorResponse(ex); } } // single statement only work // (this could be made faster, but with less code re-use) else { assert (m_catProc.getStatements().size() == 1); try { m_cachedSingleStmt.params = getCleanParams(m_cachedSingleStmt.stmt, paramList); if (getHsqlBackendIfExists() != null) { // HSQL handling CatalogMap<StmtParameter> sparamsMap = m_cachedSingleStmt.stmt.catStmt.getParameters(); List<StmtParameter> sparams = CatalogUtil.getSortedCatalogItems(sparamsMap, "index"); VoltTable table = getHsqlBackendIfExists() .runSQLWithSubstitutions( m_cachedSingleStmt.stmt, m_cachedSingleStmt.params, sparams); results = new VoltTable[] {table}; } else { m_batch.add(m_cachedSingleStmt); results = voltExecuteSQL(true); } } catch (SerializableException ex) { retval = getErrorResponse(ex); } } // Record statistics for procedure call. StoredProcedureInvocation invoc = (m_txnState != null ? m_txnState.getInvocation() : null); ParameterSet paramSet = (invoc != null ? invoc.getParams() : null); m_statsCollector.endProcedure(abort, error, results, paramSet); // don't leave empty handed if (results == null) results = new VoltTable[0]; if (retval == null) retval = new ClientResponseImpl(status, m_statusCode, m_statusString, results, null); int hash = (int) m_inputCRC.getValue(); if ((retval.getStatus() == ClientResponse.SUCCESS) && (hash != 0)) { retval.setHash(hash); } if ((m_txnState != null) && // may be null for tests (m_txnState.getInvocation() != null) && (m_txnState.getInvocation().getType() == ProcedureInvocationType.REPLICATED)) { retval.convertResultsToHashForDeterminism(); } } finally { // finally at the call(..) scope to ensure params can be // garbage collected and that the queue will be empty for // the next call m_batch.clear(); // reset other per-txn state m_txnState = null; m_statusCode = ClientResponse.UNINITIALIZED_APP_STATUS_CODE; m_statusString = null; m_cachedRNG = null; m_cachedSingleStmt.params = null; m_cachedSingleStmt.expectation = null; m_seenFinalBatch = false; } return retval; }