public async Task CatchAllFilter_AutoDelete_ProcessesAndDeletesFiles()
        {
            Mock <ITriggeredFunctionExecutor> mockExecutor   = new Mock <ITriggeredFunctionExecutor>(MockBehavior.Strict);
            ConcurrentBag <string>            processedFiles = new ConcurrentBag <string>();
            FunctionResult result = new FunctionResult(true);

            mockExecutor.Setup(p => p.TryExecuteAsync(It.IsAny <TriggeredFunctionData>(), It.IsAny <CancellationToken>())).ReturnsAsync(result);

            var options = new FilesOptions()
            {
                RootPath = rootPath
            };
            FileTriggerAttribute attribute = new FileTriggerAttribute(attributeSubPath, changeTypes: WatcherChangeTypes.Created, filter: "*.*", autoDelete: true);

            FileListener listener = new FileListener(new OptionsWrapper <FilesOptions>(options), attribute, mockExecutor.Object, new TestLogger("Test"), new DefaultFileProcessorFactory());
            await listener.StartAsync(CancellationToken.None);

            // create a few files with different extensions
            WriteTestFile("jpg");
            WriteTestFile("txt");
            WriteTestFile("png");

            // wait for the files to be processed fully and all files deleted (autoDelete = true)
            await TestHelpers.Await(() =>
            {
                return(Directory.EnumerateFiles(testFileDir).Count() == 0);
            });

            listener.Dispose();
        }
Beispiel #2
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        public void SerializeTheListener()
        {
            var original = new FileListener(@"c:\finns_inte.foo", 10, "foo", true);
            var xs       = new XmlSerializer(original.GetType());
            var sb       = new StringBuilder();
            var sw       = new StringWriter(sb);

            xs.Serialize(sw, original);

            var sr = new StringReader(sb.ToString());

            var copy = (FileListener)xs.Deserialize(sr);

            Assert.AreEqual(original.FileName, copy.FileName);
            Assert.AreEqual(original.MessagePrefix, copy.MessagePrefix);
            Assert.AreEqual(original.OnlyTail, copy.OnlyTail);
            Assert.AreEqual(original.PollInterval, copy.PollInterval);

            original.Dispose();
            copy.Dispose();
        }
        public async Task ConcurrentListeners_ProcessFilesCorrectly(int concurrentListenerCount, int inputFileCount)
        {
            // mock out the executor so we can capture function invocations
            Mock <ITriggeredFunctionExecutor> mockExecutor   = new Mock <ITriggeredFunctionExecutor>(MockBehavior.Strict);
            ConcurrentBag <string>            processedFiles = new ConcurrentBag <string>();
            FunctionResult result = new FunctionResult(true);

            mockExecutor.Setup(p => p.TryExecuteAsync(It.IsAny <TriggeredFunctionData>(), It.IsAny <CancellationToken>()))
            .Callback <TriggeredFunctionData, CancellationToken>(async(mockData, mockToken) =>
            {
                await Task.Delay(50);
                FileSystemEventArgs fileEvent = mockData.TriggerValue as FileSystemEventArgs;
                processedFiles.Add(fileEvent.Name);
            })
            .ReturnsAsync(result);

            var options = new FilesOptions()
            {
                RootPath = rootPath
            };
            FileTriggerAttribute attribute = new FileTriggerAttribute(attributeSubPath, changeTypes: WatcherChangeTypes.Created | WatcherChangeTypes.Changed, filter: "*.dat");

            // create a bunch of listeners and start them
            CancellationTokenSource tokenSource          = new CancellationTokenSource();
            CancellationToken       cancellationToken    = tokenSource.Token;
            List <Task>             listenerStartupTasks = new List <Task>();
            List <FileListener>     listeners            = new List <FileListener>();

            for (int i = 0; i < concurrentListenerCount; i++)
            {
                FileListener listener = new FileListener(new OptionsWrapper <FilesOptions>(options), attribute, mockExecutor.Object, new TestLogger("Test"), new DefaultFileProcessorFactory());
                listeners.Add(listener);
                listenerStartupTasks.Add(listener.StartAsync(cancellationToken));
            }
            await Task.WhenAll(listenerStartupTasks);

            // now start creating files
            List <string> expectedFiles = new List <string>();

            for (int i = 0; i < inputFileCount; i++)
            {
                string file = WriteTestFile();
                await Task.Delay(50);

                expectedFiles.Add(Path.GetFileName(file));
            }

            // wait for all files to be processed
            await TestHelpers.Await(() =>
            {
                return(processedFiles.Count >= inputFileCount);
            });

            Assert.Equal(inputFileCount, processedFiles.Count);

            // verify that each file was only processed once
            Assert.True(expectedFiles.OrderBy(p => p).SequenceEqual(processedFiles.OrderBy(p => p)));
            Assert.Equal(expectedFiles.Count * 2, Directory.GetFiles(testFileDir).Length);

            // verify contents of each status file
            FileProcessor processor = listeners[0].Processor;

            foreach (string processedFile in processedFiles)
            {
                string statusFilePath = processor.GetStatusFile(Path.Combine(testFileDir, processedFile));

                string[] statusLines = File.ReadAllLines(statusFilePath);

                Assert.Equal(2, statusLines.Length);
                StatusFileEntry statusEntry = JsonConvert.DeserializeObject <StatusFileEntry>(statusLines[0]);
                Assert.Equal(ProcessingState.Processing, statusEntry.State);
                Assert.Equal(WatcherChangeTypes.Created, statusEntry.ChangeType);

                statusEntry = JsonConvert.DeserializeObject <StatusFileEntry>(statusLines[1]);
                Assert.Equal(ProcessingState.Processed, statusEntry.State);
                Assert.Equal(WatcherChangeTypes.Created, statusEntry.ChangeType);
            }

            // Now test concurrency handling for updates by updating some files
            // and verifying the updates are only processed once
            string[] filesToUpdate = processedFiles.Take(50).Select(p => Path.Combine(testFileDir, p)).ToArray();
            string   item;

            while (!processedFiles.IsEmpty)
            {
                processedFiles.TryTake(out item);
            }
            await Task.Delay(1000);

            foreach (string fileToUpdate in filesToUpdate)
            {
                await Task.Delay(50);

                File.AppendAllText(fileToUpdate, "update");
            }

            // wait for all files to be processed
            await TestHelpers.Await(() =>
            {
                return(processedFiles.Count >= filesToUpdate.Length);
            });

            Assert.Equal(filesToUpdate.Length, processedFiles.Count);
            Assert.Equal(expectedFiles.Count * 2, Directory.GetFiles(testFileDir).Length);

            // verify the status files are correct for each of the updated files
            foreach (string updatedFile in filesToUpdate)
            {
                string statusFilePath = processor.GetStatusFile(updatedFile);

                string[] statusLines = File.ReadAllLines(statusFilePath);

                Assert.Equal(4, statusLines.Length);
                StatusFileEntry statusEntry = JsonConvert.DeserializeObject <StatusFileEntry>(statusLines[0]);
                Assert.Equal(ProcessingState.Processing, statusEntry.State);
                Assert.Equal(WatcherChangeTypes.Created, statusEntry.ChangeType);

                statusEntry = JsonConvert.DeserializeObject <StatusFileEntry>(statusLines[1]);
                Assert.Equal(ProcessingState.Processed, statusEntry.State);
                Assert.Equal(WatcherChangeTypes.Created, statusEntry.ChangeType);

                statusEntry = JsonConvert.DeserializeObject <StatusFileEntry>(statusLines[2]);
                Assert.Equal(ProcessingState.Processing, statusEntry.State);
                Assert.Equal(WatcherChangeTypes.Changed, statusEntry.ChangeType);

                statusEntry = JsonConvert.DeserializeObject <StatusFileEntry>(statusLines[3]);
                Assert.Equal(ProcessingState.Processed, statusEntry.State);
                Assert.Equal(WatcherChangeTypes.Changed, statusEntry.ChangeType);
            }

            // Now clean up all processed files
            processor.CleanupProcessedFiles();
            Assert.Empty(Directory.GetFiles(testFileDir));

            foreach (FileListener listener in listeners)
            {
                listener.Dispose();
            }
        }