/** Start all cqs running for this VM, and create a CQHistory instance for each CQ. */ private void startCQsWithHistory() { initializeQueryService(); CqAttributesFactory cqFac = new CqAttributesFactory(); cqFac.addCqListener(new CQHistoryListener()); cqFac.addCqListener(new CQGatherListener()); CqAttributes cqAttr = cqFac.create(); Iterator it = queryMap.keySet().iterator(); while (it.hasNext()) { String queryName = (String) (it.next()); String query = (String) (queryMap.get(queryName)); try { CqQuery cq = qService.newCq(queryName, query, cqAttr); CQHistory history = new CQHistory(cq.getName()); CQHistoryListener.recordHistory(history); Log.getLogWriter() .info( "Creating CQ with name " + queryName + ": " + query + ", cq attributes: " + cqAttr); Log.getLogWriter().info("Calling executeWithInitialResults on " + cq); CqResults rs = cq.executeWithInitialResults(); SelectResults sr = CQUtil.getSelectResults(rs); if (sr == null) { throw new TestException( "For cq " + cq + " with name " + cq.getName() + " executeWithInitialResults returned " + sr); } Log.getLogWriter() .info( "Done calling executeWithInitializResults on " + cq + " with name " + queryName + ", select results size is " + sr.size()); history.setSelectResults(sr); logNumOps(); // log the select results List srList = sr.asList(); StringBuffer aStr = new StringBuffer(); aStr.append("SelectResults returned from " + queryName + " is\n"); for (int i = 0; i < srList.size(); i++) { aStr.append(srList.get(i) + "\n"); } Log.getLogWriter().info(aStr.toString()); } catch (CqExistsException e) { throw new TestException(TestHelper.getStackTrace(e)); } catch (RegionNotFoundException e) { throw new TestException(TestHelper.getStackTrace(e)); } catch (CqException e) { throw new TestException(TestHelper.getStackTrace(e)); } } }
/** * Verify the result of the CQs registered for this VM. Query results from * executeWithInitialResults are combined with subsequent cq events to form the final result. */ protected void verifyQueryResultsCombine() { Log.getLogWriter().info("In verifyQueryResultsCombine"); Iterator it = queryMap.keySet().iterator(); int count = 0; while (it.hasNext()) { count++; String cqName = (String) (it.next()); Log.getLogWriter() .info("Verifying query " + count + " out of " + queryMap.size() + " with name " + cqName); CqQuery cq = qService.getCq(cqName); String queryStr = cq.getQueryString(); String readableQueryStr = CQTest.getReadableQueryString(queryStr); // combine the initial selectResults with history of events CQHistory history = CQHistoryListener.getCQHistory(cqName); Map combinedMap = history.getCombinedResults(); List combinedList = new ArrayList(combinedMap.values()); List expectedResults = CQTestInstance.getExpectedResults(queryStr); List missingInCombined = new ArrayList(expectedResults); List unexpectedInCombined = new ArrayList(combinedList); unexpectedInCombined.removeAll(expectedResults); missingInCombined.removeAll(combinedList); // prepare error Strings StringBuffer aStr = new StringBuffer(); if (unexpectedInCombined.size() > 0) { String tmpStr = getLocationString(unexpectedInCombined, expectedResults, history) + "\n" + "Found the following " + unexpectedInCombined.size() + " unexpected elements in combined results for cq " + cqName + ", " + readableQueryStr + ": " + QueryObject.toStringFull(unexpectedInCombined); Log.getLogWriter().info(tmpStr); aStr.append(tmpStr); } if (missingInCombined.size() > 0) { String tmpStr = getLocationString(missingInCombined, expectedResults, history) + "\n" + "The following " + missingInCombined.size() + " elements were missing from combined results for cq " + cqName + ", " + readableQueryStr + ": " + QueryObject.toStringFull(missingInCombined); Log.getLogWriter().info(tmpStr); aStr.append(tmpStr); } if (aStr.length() > 0) { throw new TestException( "Probably bug 38065: For cq " + cqName + ", " + readableQueryStr + "\n" + aStr.toString()); } } Log.getLogWriter().info("Done verifying " + count + " queries"); }
/** * Verify the contents of the region, taking into account the keys that were destroyed, * invalidated, etc (as specified in keyIntervals) Throw an error of any problems are detected. * This must be called repeatedly by the same thread until StopSchedulingTaskOnClientOrder is * thrown. */ public void verifyRegionContents() { final long LOG_INTERVAL_MILLIS = 10000; // we already completed this check once; we can't do it again without reinitializing the // verify state variables if (verifyRegionContentsCompleted) { throw new TestException( "Test configuration problem; already verified region contents, " + "cannot call this task again without resetting batch variables"); } // iterate keys long lastLogTime = System.currentTimeMillis(); long minTaskGranularitySec = TestConfig.tab().longAt(TestHelperPrms.minTaskGranularitySec); long minTaskGranularityMS = minTaskGranularitySec * TestHelper.SEC_MILLI_FACTOR; long startTime = System.currentTimeMillis(); long size = aRegion.size(); boolean first = true; int numKeysToCheck = keyIntervals.getNumKeys() + numNewKeys; while (verifyRegionContentsIndex < numKeysToCheck) { verifyRegionContentsIndex++; if (first) { Log.getLogWriter() .info( "In verifyRegionContents, region has " + size + " keys; starting verify at verifyRegionContentsIndex " + verifyRegionContentsIndex + "; verifying key names with indexes through (and including) " + numKeysToCheck); first = false; } // check region size the first time through the loop to avoid it being called // multiple times when this is batched if (verifyRegionContentsIndex == 1) { if (totalNumKeys != size) { String tmpStr = "Expected region size to be " + totalNumKeys + ", but it is size " + size; Log.getLogWriter().info(tmpStr); verifyRegionContentsErrStr.append(tmpStr + "\n"); } } Object key = NameFactory.getObjectNameForCounter(verifyRegionContentsIndex); try { if (((verifyRegionContentsIndex >= keyIntervals.getFirstKey(KeyIntervals.NONE)) && (verifyRegionContentsIndex <= keyIntervals.getLastKey(KeyIntervals.NONE))) || ((verifyRegionContentsIndex >= keyIntervals.getFirstKey(KeyIntervals.GET)) && (verifyRegionContentsIndex <= keyIntervals.getLastKey(KeyIntervals.GET)))) { // this key was untouched after its creation checkContainsKey(key, true, "key was untouched"); checkContainsValueForKey(key, true, "key was untouched"); Object value = aRegion.get(key); checkValue(key, value); } else if ((verifyRegionContentsIndex >= keyIntervals.getFirstKey(KeyIntervals.INVALIDATE)) && (verifyRegionContentsIndex <= keyIntervals.getLastKey(KeyIntervals.INVALIDATE))) { checkContainsKey(key, true, "key was invalidated"); checkContainsValueForKey(key, false, "key was invalidated"); } else if ((verifyRegionContentsIndex >= keyIntervals.getFirstKey(KeyIntervals.LOCAL_INVALIDATE)) && (verifyRegionContentsIndex <= keyIntervals.getLastKey(KeyIntervals.LOCAL_INVALIDATE))) { // this key was locally invalidated checkContainsKey(key, true, "key was locally invalidated"); checkContainsValueForKey(key, true, "key was locally invalidated"); Object value = aRegion.get(key); checkValue(key, value); } else if ((verifyRegionContentsIndex >= keyIntervals.getFirstKey(KeyIntervals.DESTROY)) && (verifyRegionContentsIndex <= keyIntervals.getLastKey(KeyIntervals.DESTROY))) { // this key was destroyed checkContainsKey(key, false, "key was destroyed"); checkContainsValueForKey(key, false, "key was destroyed"); } else if ((verifyRegionContentsIndex >= keyIntervals.getFirstKey(KeyIntervals.LOCAL_DESTROY)) && (verifyRegionContentsIndex <= keyIntervals.getLastKey(KeyIntervals.LOCAL_DESTROY))) { // this key was locally destroyed checkContainsKey(key, true, "key was locally destroyed"); checkContainsValueForKey(key, true, "key was locally destroyed"); Object value = aRegion.get(key); checkValue(key, value); } else if ((verifyRegionContentsIndex >= keyIntervals.getFirstKey(KeyIntervals.UPDATE_EXISTING_KEY)) && (verifyRegionContentsIndex <= keyIntervals.getLastKey(KeyIntervals.UPDATE_EXISTING_KEY))) { // this key was updated checkContainsKey(key, true, "key was updated"); checkContainsValueForKey(key, true, "key was updated"); Object value = aRegion.get(key); checkUpdatedValue(key, value); } else if (verifyRegionContentsIndex > keyIntervals.getNumKeys()) { // key was newly added checkContainsKey(key, true, "key was new"); checkContainsValueForKey(key, true, "key was new"); Object value = aRegion.get(key); checkValue(key, value); } } catch (TestException e) { Log.getLogWriter().info(TestHelper.getStackTrace(e)); verifyRegionContentsErrStr.append(e.getMessage() + "\n"); } if (System.currentTimeMillis() - lastLogTime > LOG_INTERVAL_MILLIS) { Log.getLogWriter() .info("Verified key " + verifyRegionContentsIndex + " out of " + totalNumKeys); lastLogTime = System.currentTimeMillis(); } if (System.currentTimeMillis() - startTime >= minTaskGranularityMS) { Log.getLogWriter() .info( "In HydraTask_verifyRegionContents, returning before completing verify " + "because of task granularity (this task must be batched to complete); last key verified is " + key); return; // task is batched; we are done with this batch } } verifyRegionContentsCompleted = true; if (verifyRegionContentsErrStr.length() > 0) { throw new TestException(verifyRegionContentsErrStr.toString()); } String aStr = "In HydraTask_verifyRegionContents, verified " + verifyRegionContentsIndex + " keys/values"; Log.getLogWriter().info(aStr); throw new StopSchedulingTaskOnClientOrder(aStr); }
/** * Given a List of QueryObjects known to be inconsistent as determined by validation, log where * the suspect objects are found by checking for it in 1) the expected List 2) the CQ history of * events 3) the select results 4) the localRegion * * @param inconsistencies A List of suspect QueryObjects to check in each location. * @param expected The expected List of objects for a query. * @param history The CQHistory for the query * @returns */ private String getLocationString(List inconsistencies, List expected, CQHistory history) { StringBuffer aStr = new StringBuffer(); for (int i = 0; i < inconsistencies.size(); i++) { QueryObject suspect = (QueryObject) (inconsistencies.get(i)); // check the local region boolean found = false; Iterator it = aRegion.keySet().iterator(); while (it.hasNext()) { Object key = it.next(); Region.Entry entry = aRegion.getEntry(key); QueryObject qo = (QueryObject) (entry.getValue()); if ((qo != null) && (qo.equals(suspect))) { found = true; aStr.append( qo.toStringAbbreviated() + " was found in " + aRegion.getFullPath() + " at key " + key + "\n"); } } if (!found) { aStr.append( suspect.toStringAbbreviated() + " was NOT found in " + aRegion.getFullPath() + "\n"); } // seach for all occurrences in expected list found = false; it = expected.iterator(); while (it.hasNext()) { QueryObject qo = (QueryObject) (it.next()); if (qo.equals(suspect)) { found = true; aStr.append(qo.toStringAbbreviated() + " was found in expected results\n"); } } if (!found) { aStr.append(suspect.toStringAbbreviated() + " was NOT found in expected results\n"); } // seach for all occurrences in selectResults SelectResults selResults = history.getSelectResults(); found = false; it = selResults.iterator(); while (it.hasNext()) { QueryObject qo = (QueryObject) (it.next()); if (qo.equals(suspect)) { found = true; aStr.append(qo.toStringAbbreviated() + " was found in SelectResults\n"); } } if (!found) { aStr.append(suspect.toStringAbbreviated() + " was NOT found in SelectResults\n"); } // seach for all occurrences in history found = false; List eventList = history.getEvents(); for (int j = 0; j < eventList.size(); j++) { CqEvent event = (CqEvent) (eventList.get(j)); QueryObject qo = (QueryObject) (event.getNewValue()); if ((qo != null) && (qo.equals(suspect))) { found = true; aStr.append( qo.toStringAbbreviated() + " was found in event history as new value " + event + "\n"); } } if (!found) { aStr.append(suspect.toStringAbbreviated() + " was NOT found in CqEvent history\n"); } } return aStr.toString(); }