Exemplo n.º 1
0
        public static async Task Test(IMediaBasedReaderFactory factory, ILogMedia media, ExpectedLog expectation)
        {
            using (ILogSourceThreadsInternal threads = new LogSourceThreads())
                using (IPositionedMessagesReader reader = factory.CreateMessagesReader(new MediaBasedReaderParams(threads, media)))
                {
                    await reader.UpdateAvailableBounds(false);

                    List <IMessage> msgs = new List <IMessage>();

                    await DisposableAsync.Using(await reader.CreateParser(new CreateParserParams(reader.BeginPosition)), async parser =>
                    {
                        for (; ;)
                        {
                            var msg = await parser.ReadNext();
                            if (msg == null)
                            {
                                break;
                            }
                            msgs.Add(msg);
                        }
                    });

                    expectation.StartVerification();
                    for (int i = 0; i < msgs.Count; ++i)
                    {
                        expectation.Verify(i, msgs[i]);
                    }
                    expectation.FinishVerification();
                }
        }
 public async Task <IReadOnlyList <LogData> > GetLogInformation(Maybe <LogQuery> logQuery)
 {
     if (logQuery.HasNoValue)
     {
         return(new List <LogData>());
     }
     return(await DisposableAsync.Using(() => new DotNetLogEntities("name=DotNetLogEntities" + logQuery.Value.Environment),
                                        context => LogInformation(logQuery, context)));
 }
Exemplo n.º 3
0
        async Task TestSyncResults(FileRange.Range cachedRange, params string[] expectedSyncResults)
        {
            IPositionedMessagesReader reader = new PositionedMessagesUtilsTests.TestReader(new long[] { 0, 10, 20, 30, 40, 50, 60 });

            var(firstMsg, lastMsg) = await PositionedMessagesUtils.GetBoundaryMessages(reader, null);

            var availableTime = DateRange.MakeFromBoundaryValues(
                firstMsg.Time.ToLocalDateTime(),
                lastMsg.Time.ToLocalDateTime()
                );
            var availableRange = new FileRange.Range(reader.BeginPosition, reader.EndPosition);
            var ctx            = new CommandContext()
            {
                Cache = new AsyncLogProviderDataCache()
                {
                    Messages      = new LogJoint.MessagesContainers.ListBasedCollection(),
                    MessagesRange = cachedRange,
                },
                Stats = new LogProviderStats()
                {
                    PositionsRange = availableRange,
                    AvailableTime  = availableTime,
                },
                Cancellation = CancellationToken.None,
                Preemption   = CancellationToken.None,
                Reader       = reader,
                Tracer       = LJTraceSource.EmptyTracer
            };
            await DisposableAsync.Using(await reader.CreateParser(new CreateParserParams()
            {
                Direction     = MessagesParserDirection.Forward,
                StartPosition = cachedRange.Begin,
                Range         = cachedRange
            }), async parser =>
            {
                for (; ;)
                {
                    IMessage msg = await parser.ReadNext();
                    if (msg == null)
                    {
                        break;
                    }
                    else
                    {
                        ctx.Cache.Messages.Add(msg);
                    }
                }
            });

            await TestSyncResults(ctx, expectedSyncResults);
        }
Exemplo n.º 4
0
        async Task DoTest(LogEntry[] logContent, CreateParserParams originalParams, int jitterBufferSize, LogEntry[] expectedParsedMessages)
        {
            if (originalParams.Range == null)
            {
                originalParams.Range = new Range(0, logContent.Length);
            }
            CreateParserParams validatedParams = originalParams;

            validatedParams.EnsureStartPositionIsInRange();
            await DisposableAsync.Using(await DejitteringMessagesParser.Create(async p => new ParserImpl(logContent, p), originalParams, jitterBufferSize), async jitter =>
            {
                int messageIdx;
                int idxStep;
                if (originalParams.Direction == MessagesParserDirection.Forward)
                {
                    messageIdx = 0;
                    idxStep    = 1;
                }
                else
                {
                    messageIdx = -1;
                    idxStep    = -1;
                }
                foreach (LogEntry expectedMessage in expectedParsedMessages)
                {
                    IMessage actualMessage = await jitter.ReadNext();
                    Assert.IsNotNull(actualMessage);
                    Assert.AreEqual((long)expectedMessage.Time, actualMessage.Time.ToLocalDateTime().Ticks);
                    Assert.AreEqual(expectedMessage.Msg, actualMessage.Text.Value);
                    Assert.AreEqual(validatedParams.StartPosition + messageIdx, actualMessage.Position);
                    messageIdx += idxStep;
                }
                IMessage lastMessage = await jitter.ReadNext();
                Assert.IsNull(lastMessage);
            });
        }
Exemplo n.º 5
0
        async Task <PreprocessingStepParams> ExecuteInternal(IPreprocessingStepCallback callback)
        {
            await callback.BecomeLongRunning();

            string factoryName = @params.Argument;

            callback.TempFilesCleanupList.Add(@params.Location);
            Action <double?> setStepDescription = prctComplete =>
            {
                var str = new StringBuilder();
                str.Append(@params.FullPath);
                str.Append(": fixing timestamp anomalies...");
                if (prctComplete != null)
                {
                    str.AppendFormat(" {0}%", (int)(prctComplete.Value * 100));
                }
                callback.SetStepDescription(str.ToString());
            };

            setStepDescription(null);

            string tmpFileName = callback.TempFilesManager.GenerateNewName();

            var factoryNameSplit = factoryName.Split('\\');

            if (factoryNameSplit.Length != 2)
            {
                throw new InvalidFormatException();
            }
            var factory = logProviderFactoryRegistry.Find(factoryNameSplit[0], factoryNameSplit[1]);

            if (factory == null)
            {
                throw new InvalidDataException("factory not found: " + factoryName);
            }
            var readerFactory = factory as IMediaBasedReaderFactory;

            if (readerFactory == null)
            {
                throw new InvalidDataException("bad factory: " + factoryName);
            }
            using (ILogMedia fileMedia = await SimpleFileMedia.Create(fileSystem,
                                                                      SimpleFileMedia.CreateConnectionParamsFromFileName(@params.Location)))
                using (ILogSourceThreadsInternal threads = new LogSourceThreads())
                    using (var reader = readerFactory.CreateMessagesReader(
                               new MediaBasedReaderParams(threads, fileMedia)))
                    {
                        var readerImpl = reader as MediaBasedPositionedMessagesReader;         // todo: do not use real classes; have stream encoding in an interface.
                        if (readerImpl == null)
                        {
                            throw new InvalidDataException("bad reader was made by factory " + factoryName);
                        }
                        await reader.UpdateAvailableBounds(false);

                        var    range    = new FileRange.Range(reader.BeginPosition, reader.EndPosition);
                        double rangeLen = range.Length;
                        using (var progress = progressAggregator.CreateProgressSink())
                            using (var writer = new StreamWriter(tmpFileName, false, readerImpl.StreamEncoding))
                                await DisposableAsync.Using(await reader.CreateParser(new CreateParserParams(reader.BeginPosition,
                                                                                                             flags: MessagesParserFlag.DisableDejitter | MessagesParserFlag.HintParserWillBeUsedForMassiveSequentialReading)), async parser =>
                                {
                                    var queue = new VCSKicksCollection.PriorityQueue <IMessage>(
                                        new MessagesComparer(ignoreConnectionIds: true));
                                    Action dequeue          = () => writer.WriteLine(queue.Dequeue().RawText.ToString());
                                    double lastPrctComplete = 0;
                                    var cancellation        = callback.Cancellation;
                                    for (long msgIdx = 0;; ++msgIdx)
                                    {
                                        if (cancellation.IsCancellationRequested)
                                        {
                                            break;
                                        }
                                        var msg = await parser.ReadNext();
                                        if (msg == null)
                                        {
                                            break;
                                        }
                                        if ((msgIdx % progressUpdateThreshold) == 0 && rangeLen > 0)
                                        {
                                            var prctComplete = (double)(msg.Position - range.Begin) / rangeLen;
                                            progress.SetValue(prctComplete);
                                            if (prctComplete - lastPrctComplete > 0.05)
                                            {
                                                setStepDescription(prctComplete);
                                                lastPrctComplete = prctComplete;
                                            }
                                        }
                                        queue.Enqueue(msg);
                                        if (queue.Count > queueSize)
                                        {
                                            dequeue();
                                        }
                                    }
                                    while (queue.Count > 0)
                                    {
                                        dequeue();
                                    }
                                });
                    }

            return(new PreprocessingStepParams(
                       tmpFileName,
                       @params.FullPath + " (reordered)",
                       @params.PreprocessingHistory.Add(new PreprocessingHistoryItem(name, factoryName))
                       ));
        }