/// <summary>
        /// Runs the reducer task.
        /// </summary>
        public async Task RunAsync()
        {
            //Set up the Batch Service credentials used to authenticate with the Batch Service.
            BatchCredentials credentials = new BatchCredentials(
                this.configurationSettings.BatchAccountName,
                this.configurationSettings.BatchAccountKey);

            using (IBatchClient batchClient = BatchClient.Connect(this.configurationSettings.BatchServiceUrl, credentials))
            {
                using (IWorkItemManager workItemManager = batchClient.OpenWorkItemManager())
                {
                    //Gather each Mapper tasks output and write it to standard out.
                    for (int i = 0; i < this.configurationSettings.NumberOfMapperTasks; i++)
                    {
                        string mapperTaskName = Helpers.GetMapperTaskName(i);

                        //Download the standard out from each mapper task.
                        ITaskFile taskFile = await workItemManager.GetTaskFileAsync(
                            this.workItemName,
                            this.jobName,
                            mapperTaskName,
                            Microsoft.Azure.Batch.Constants.StandardOutFileName);

                        string taskFileString = await taskFile.ReadAsStringAsync();

                        Console.WriteLine(taskFileString);

                        Console.WriteLine();
                    }
                }
            }
        }
        public static void Main(string[] args)
        {
            // This will boost parallel submission speed for REST APIs. If your use requires many simultaneous service calls set this number to something large, such as 100.
            // See: http://msdn.microsoft.com/en-us/library/system.net.servicepointmanager.defaultconnectionlimit%28v=vs.110%29.aspx for more info.
            System.Net.ServicePointManager.DefaultConnectionLimit = 20;

            // Get an instance of the BatchClient for a given Azure Batch account.
            BatchCredentials cred = new BatchCredentials(BatchAccount, BatchKey);

            using (IBatchClient client = BatchClient.Connect(Url, cred))
            {
                // if you want to put a retry policy in place, enable it here
                // the built-in policies are No Retry (default), Linear Retry, and Exponential Retry
                //client.CustomBehaviors.Add(new SetRetryPolicy(new Microsoft.Azure.Batch.Protocol.LinearRetry()));

                ListPools(client);
                ListWorkItems(client);

                CreatePoolIfNotExist(client, Program.PoolName);
                AddWork(client);

                ListPools(client);
                ListWorkItems(client);

                AddWorkWithFileStaging(client);

                ListPools(client);
                ListWorkItems(client);

                SubmitLargeNumberOfTasks(client);
            }

            Console.WriteLine("Press return to exit...");
            Console.ReadLine();
        }
        public BatchService(string baseUrl, BatchCredentials credentials)
        {
            this.Client      = BatchClient.Connect(baseUrl, credentials);
            this.BaseUri     = new Uri(baseUrl);
            this.Credentials = credentials;
            this.retryPolicy = new LinearRetry(TimeSpan.FromSeconds(10), 5);

            this.Client.CustomBehaviors.Add(new SetRetryPolicy(this.retryPolicy));
            this.Client.CustomBehaviors.Add(new RequestInterceptor((req) => { req.MaximumExecutionTime = TimeSpan.FromMinutes(2); }));
        }
        public static void Main(string[] args)
        {
            // This will boost parallel submission speed for REST APIs. If your use requires many simultaneous service calls set this number to something large, such as 100.
            // See: http://msdn.microsoft.com/en-us/library/system.net.servicepointmanager.defaultconnectionlimit%28v=vs.110%29.aspx for more info.
            ServicePointManager.DefaultConnectionLimit = 20;

            if (File.Exists(CredentialFile))
            {
                var lines = File.ReadAllLines(CredentialFile);
                if (lines.Length >= 2)
                {
                    _batchAccount = lines[0];
                    _batchKey     = lines[1];
                }
            }

            // Get an instance of the BatchClient for a given Azure Batch account.
            var cred = new BatchCredentials(_batchAccount, _batchKey);

            using (var client = BatchClient.Connect(Url, cred))
            {
                // if you want to put a retry policy in place, enable it here
                // the built-in policies are No Retry (default), Linear Retry, and Exponential Retry
                //client.CustomBehaviors.Add(new SetRetryPolicy(new Microsoft.Azure.Batch.Protocol.LinearRetry()));

                ListPools(client);
                ListWorkItems(client);

                CreatePoolIfNotExist(client, PoolName);
                AddWork(client);

                ListPools(client);
                ListWorkItems(client);

                Console.WriteLine(
                    "Remember to delete the pool if you are done. Otherwise you'll still be charged for the running VM.");

                while (true)
                {
                    Console.Write("Do you want to delete the pool? [y/N]:");
                    string line = Console.ReadLine();
                    if (string.IsNullOrEmpty(line) || 0 == string.Compare(line, "n", true, CultureInfo.InvariantCulture))
                    {
                        break;
                    }
                    if (0 == string.Compare(line, "y", true, CultureInfo.InvariantCulture))
                    {
                        DeletePool(client, PoolName);
                        break;
                    }
                }
            }
        }
Exemple #5
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        /// <summary>
        /// Read the configuration object in from the App.Config
        /// </summary>
        /// <returns></returns>
        public static Config ParseConfig()
        {
            var config = new Config();

            config.BatchServiceUrl = GetConfigParam("BatchServiceUrl");
            config.AccountName     = GetConfigParam("Account");
            config.Key             = GetConfigParam("Key");
            config.Client          = BatchClient.Connect(config.BatchServiceUrl, new BatchCredentials(config.AccountName, config.Key));

            config.StorageAccount      = GetConfigParam("StorageAccount");
            config.StorageKey          = GetConfigParam("StorageKey");
            config.StorageBlobEndpoint = "https://" + config.StorageAccount + ".blob.core.windows.net";

            config.NumTasks = Int32.Parse(GetConfigParam("NumTasks"));
            config.NumTvms  = Int32.Parse(GetConfigParam("NumTvms"));
            config.InputDataContainerSAS = GetConfigParam("InputDataContainerSAS");
            config.InputBlobPrefix       = GetConfigParam("InputBlobPrefix");
            config.NumInputBlobs         = Int32.Parse(GetConfigParam("NumInputBlobs"));
            config.OutputContainerSAS    = GetConfigParam("OutputContainerSAS");

            config.WorkitemName = "ImgProcWi" + DateTime.Now.ToString("_yyMMdd_HHmmss_") + Guid.NewGuid().ToString("N");

            config.ResourceContainerSAS = GetConfigParam("ResourcesSAS");
            config.ImageMagickExeSAS    = GetConfigParam("ImageMagickExeSAS");

            config.WaitForCompletion = bool.Parse(GetConfigParam("WaitForCompletion"));
            config.WaitForPool       = bool.Parse(GetConfigParam("WaitForPool"));

            config.DeleteWorkitem = bool.Parse(GetConfigParam("DeleteWorkitem"));

            config.CreatePool = bool.Parse(GetConfigParam("CreatePool"));
            config.PoolName   = GetConfigParam("PoolName");

            if (config.CreatePool)
            {
                if (String.IsNullOrEmpty(config.PoolName))
                {
                    config.PoolName = "ImgProcPool" + Guid.NewGuid().ToString("N");
                }
            }
            else
            {
                if (String.IsNullOrEmpty(config.PoolName))
                {
                    throw new Exception("Provide pool name as CreatePool is false");
                }
            }

            config.DeletePool = bool.Parse(GetConfigParam("DeletePool"));

            config.InitializeStorageContainerSAS = bool.Parse(GetConfigParam("InitStorage"));
            if (config.InitializeStorageContainerSAS)
            {
                string account = GetConfigParam("StorageAccount");
                string key     = GetConfigParam("StorageKey");
                config.InputDataContainerSAS = ImgProcUtils.CreateContainerWithPolicySASIfNotExist(
                    account,
                    key,
                    "watask-input",
                    "readandlist",
                    DateTime.Now,
                    DateTime.Now.AddMonths(12),
                    SharedAccessBlobPermissions.Read | SharedAccessBlobPermissions.List);

                config.OutputContainerSAS = ImgProcUtils.CreateContainerWithPolicySASIfNotExist(
                    account,
                    key,
                    "watask-output",
                    "readandwrite",
                    DateTime.Now,
                    DateTime.Now.AddMonths(12),
                    SharedAccessBlobPermissions.Read | SharedAccessBlobPermissions.Write);

                config.ResourceContainerSAS = ImgProcUtils.CreateContainerWithPolicySASIfNotExist(
                    account,
                    key,
                    "watask-resource",
                    "readandwrite",
                    DateTime.Now,
                    DateTime.Now.AddMonths(12),
                    SharedAccessBlobPermissions.Read | SharedAccessBlobPermissions.Write);
            }

            config.UploadResources = bool.Parse(GetConfigParam("UploadResources"));

            return(config);
        }
Exemple #6
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        /// <summary>
        /// Populates Azure Storage with the required files, and
        /// submits the work item to the Azure Batch service.
        /// </summary>
        public async Task RunAsync()
        {
            Console.WriteLine("Running with the following settings: ");
            Console.WriteLine("----------------------------------------");
            Console.WriteLine(this.configurationSettings.ToString());

            //Upload resources if required.
            if (this.configurationSettings.ShouldUploadResources)
            {
                Console.WriteLine("Splitting file: {0} into {1} subfiles",
                                  Constants.TextFilePath,
                                  this.configurationSettings.NumberOfMapperTasks);

                //Split the text file into the correct number of files for consumption by the mapper tasks.
                FileSplitter  splitter        = new FileSplitter();
                List <string> mapperTaskFiles = await splitter.SplitAsync(
                    Constants.TextFilePath,
                    this.configurationSettings.NumberOfMapperTasks);

                await this.UploadResourcesAsync(mapperTaskFiles);
            }

            //Generate a SAS for the container.
            string containerSasUrl = Helpers.ConstructContainerSas(
                this.configurationSettings.StorageAccountName,
                this.configurationSettings.StorageAccountKey,
                this.configurationSettings.StorageServiceUrl,
                this.configurationSettings.BlobContainer);

            //Set up the Batch Service credentials used to authenticate with the Batch Service.
            BatchCredentials batchCredentials = new BatchCredentials(
                this.configurationSettings.BatchAccountName,
                this.configurationSettings.BatchAccountKey);

            using (IBatchClient batchClient = BatchClient.Connect(this.configurationSettings.BatchServiceUrl, batchCredentials))
            {
                using (IWorkItemManager workItemManager = batchClient.OpenWorkItemManager())
                {
                    //Create the unbound work item in local memory.  An object which exists only in local memory (and not on the Batch Service) is "unbound".
                    string workItemName = Environment.GetEnvironmentVariable("USERNAME") + DateTime.UtcNow.ToString("yyyyMMdd-HHmmss");

                    ICloudWorkItem unboundWorkItem = workItemManager.CreateWorkItem(workItemName);

                    //
                    // Construct the work item properties in local memory before commiting them to the Batch Service.
                    //

                    //Allow enough VMs in the pool to run each mapper task, and 1 extra to run the job manager.
                    int numberOfPoolVMs = 1 + this.configurationSettings.NumberOfMapperTasks;

                    //Define the pool specification for the pool which the work item will run on.
                    IPoolSpecification poolSpecification = new PoolSpecification()
                    {
                        TargetDedicated = numberOfPoolVMs,
                        VMSize          = "small",
                        //You can learn more about os families and versions at:
                        //http://msdn.microsoft.com/en-us/library/azure/ee924680.aspx
                        OSFamily        = "4",
                        TargetOSVersion = "*"
                    };

                    //Use the auto pool feature of the Batch Service to create a pool when the work item is created.
                    //This creates a new pool for each work item which is added.
                    IAutoPoolSpecification autoPoolSpecification = new AutoPoolSpecification()
                    {
                        AutoPoolNamePrefix = "TextSearchPool",
                        KeepAlive          = false,
                        PoolLifeTimeOption = PoolLifeTimeOption.WorkItem,
                        PoolSpecification  = poolSpecification
                    };

                    //Define the execution environment for this work item -- it will run on the pool defined by the auto pool specification above.
                    unboundWorkItem.JobExecutionEnvironment = new JobExecutionEnvironment()
                    {
                        AutoPoolSpecification = autoPoolSpecification
                    };

                    //Define the job manager for this work item.  This job manager will run when any job is created and will submit the tasks for
                    //the work item.  The job manager is the executable which manages the lifetime of the job
                    //and all tasks which should run for the job.  In this case, the job manager submits the mapper and reducer tasks.
                    string jobManagerCommandLine = string.Format("{0} -JobManagerTask", Constants.TextSearchExe);
                    List <IResourceFile> jobManagerResourceFiles = Helpers.GetResourceFiles(containerSasUrl, Constants.RequiredExecutableFiles);
                    const string         jobManagerTaskName      = "JobManager";

                    unboundWorkItem.JobSpecification = new JobSpecification()
                    {
                        JobManager = new JobManager()
                        {
                            ResourceFiles = jobManagerResourceFiles,
                            CommandLine   = jobManagerCommandLine,

                            //Determines if the job should terminate when the job manager process exits
                            KillJobOnCompletion = false,

                            Name = jobManagerTaskName
                        }
                    };

                    try
                    {
                        //Commit the unbound work item to the Batch Service.
                        Console.WriteLine("Adding work item: {0} to the Batch Service.", unboundWorkItem.Name);
                        await unboundWorkItem.CommitAsync(); //Issues a request to the Batch Service to add the work item which was defined above.

                        //
                        // Wait for the job manager task to complete.
                        //

                        //An object which is backed by a corresponding Batch Service object is "bound."
                        ICloudWorkItem boundWorkItem = await workItemManager.GetWorkItemAsync(workItemName);

                        //Wait for the job to be created automatically by the Batch Service.
                        string boundJobName = await Helpers.WaitForActiveJobAsync(boundWorkItem);

                        ICloudTask boundJobManagerTask = await workItemManager.GetTaskAsync(
                            workItemName,
                            boundJobName,
                            jobManagerTaskName);

                        TimeSpan maxJobCompletionTimeout = TimeSpan.FromMinutes(30);

                        IToolbox          toolbox = batchClient.OpenToolbox();
                        ITaskStateMonitor monitor = toolbox.CreateTaskStateMonitor();
                        bool timedOut             = await monitor.WaitAllAsync(new List <ICloudTask> {
                            boundJobManagerTask
                        }, TaskState.Completed, maxJobCompletionTimeout);

                        Console.WriteLine("Done waiting for job manager task.");

                        await boundJobManagerTask.RefreshAsync();

                        //Check to ensure the job manager task exited successfully.
                        await Helpers.CheckForTaskSuccessAsync(boundJobManagerTask, dumpStandardOutOnTaskSuccess : true);

                        if (timedOut)
                        {
                            throw new TimeoutException(string.Format("Timed out waiting for job manager task to complete."));
                        }
                    }
                    catch (AggregateException e)
                    {
                        e.Handle(
                            (innerE) =>
                        {
                            //We print all the inner exceptions for debugging purposes.
                            Console.WriteLine(innerE.ToString());
                            return(false);
                        });
                        throw;
                    }
                    catch (Exception e)
                    {
                        Console.WriteLine("Hit unexpected exception: {0}", e.ToString());
                        throw;
                    }
                    finally
                    {
                        //Delete the work item.
                        //This will delete the auto pool associated with the work item as long as the pool
                        //keep alive property is set to false.
                        if (this.configurationSettings.ShouldDeleteWorkItem)
                        {
                            Console.WriteLine("Deleting work item {0}", workItemName);
                            workItemManager.DeleteWorkItem(workItemName);
                        }

                        //Note that there were files uploaded to a container specified in the
                        //configuration file.  This container will not be deleted or cleaned up by this sample.
                    }
                }
            }
        }
        static void Main(string[] args)
        {
            // open a file for tracing
            var traceFile   = File.Open(SampleConstants.JMTraceFile, FileMode.CreateNew, FileAccess.ReadWrite, FileShare.ReadWrite);
            var traceWriter = new StreamWriter(traceFile);

            traceWriter.AutoFlush = true;

            try
            {
                // pick up hints from the environment as populated by the program run on the client machine
                var workItemName = System.Environment.GetEnvironmentVariable(SampleConstants.EnvWorkItemName);
                if (workItemName == null)
                {
                    traceWriter.WriteLine("Failed to get work item name from environment");
                    return;
                }
                else
                {
                    traceWriter.WriteLine("Our WI Name: " + workItemName);
                }

                BatchCredentials credentials = new BatchCredentials(
                    System.Environment.GetEnvironmentVariable(SampleConstants.EnvWataskAccountName), // Some basic useful elements are preset as environment variables.
                    System.Environment.GetEnvironmentVariable(SampleConstants.EnvBatchAccountKeyName)
                    );

                var bClient = BatchClient.Connect(SampleConstants.BatchSvcEndpoint, credentials);
                bClient.CustomBehaviors.Add(new SetRetryPolicy(new ExponentialRetry(TimeSpan.FromSeconds(5), 5)));

                using (var wiMgr = bClient.OpenWorkItemManager())
                {
                    var ourWorkItem = wiMgr.GetWorkItem(workItemName);

                    // Since is this a job manager task, its current job will be the most recent job. This is not
                    // true for non-JM tasks since the most recent job could have run a while ago.
                    string jobName = null;
                    if (ourWorkItem.ExecutionInformation != null && ourWorkItem.ExecutionInformation.RecentJob != null)
                    {
                        jobName = ourWorkItem.ExecutionInformation.RecentJob.Name;
                        traceWriter.WriteLine("Our job name: " + jobName);
                    }
                    else
                    {
                        traceWriter.WriteLine("Failed to get jobname from workitem - exiting");
                        return;
                    }

                    // Schedule tasks on the job.  Ping is being used as the basic task
                    List <CloudTask> tasksToAdd = new List <CloudTask>();

                    for (int i = 0; i < 5; i++)
                    {
                        string taskName = "pingTask" + i;
                        var    task     = new CloudTask(taskName, "ping 127.0.0.1 -n 8");
                        traceWriter.WriteLine("Adding task: " + taskName);
                        tasksToAdd.Add(task);
                    }

                    wiMgr.AddTask(workItemName, jobName, tasksToAdd);

                    // Monitor the current jobs to see when they are done, and then exit the job manager.  Monitoring the tasks
                    // for completion is necessary if you are using KillJobOnCompletion = TRUE, as otherwise when the job manager
                    // exits it will kill all of the tasks that still running.
                    //
                    // Occasionally a task may get killed and requeued during an upgrade or hardware failure, including the job manager
                    // task.  The job manager will be re-run in this case.  Robustness against this was not added into the sample for
                    // simplicity, but should be added into any production code.
                    while (true)
                    {
                        // Get list of current tasks in queue. Total count includes the job manager so when
                        // we get to one left then we can exit.
                        var taskList          = wiMgr.ListTasks(workItemName, jobName);
                        var tasksStillRunning = taskList.Count(task => task.State != TaskState.Completed);
                        if (tasksStillRunning > 1)
                        {
                            traceWriter.WriteLine("{0} tasks still running", tasksStillRunning);
                            System.Threading.Thread.Sleep(TimeSpan.FromSeconds(5));
                        }
                        else
                        {
                            break;
                        }
                    }

                    traceWriter.WriteLine("All done!");
                }
            }
            catch (Exception e)
            {
                traceWriter.WriteLine("Exception:");
                traceWriter.WriteLine(e.ToString());
            }
            finally
            {
                traceWriter.Flush();
                traceFile.Close();
            }
        }
Exemple #8
0
        /// <summary>
        /// Runs the job manager task.
        /// </summary>
        public async Task RunAsync()
        {
            Console.WriteLine("JobManager for account: {0}, work item: {1}, job: {2} has started...",
                              this.accountName,
                              this.workItemName,
                              this.jobName);
            Console.WriteLine();

            Console.WriteLine("JobManager running with the following settings: ");
            Console.WriteLine("----------------------------------------");
            Console.WriteLine(this.configurationSettings.ToString());

            //Set up the Batch Service credentials used to authenticate with the Batch Service.
            BatchCredentials batchCredentials = new BatchCredentials(
                this.configurationSettings.BatchAccountName,
                this.configurationSettings.BatchAccountKey);

            using (IBatchClient batchClient = BatchClient.Connect(this.configurationSettings.BatchServiceUrl, batchCredentials))
            {
                using (IWorkItemManager workItemManager = batchClient.OpenWorkItemManager())
                {
                    IToolbox toolbox = batchClient.OpenToolbox();

                    //Construct a container SAS to provide the Batch Service access to the files required to
                    //run the mapper and reducer tasks.
                    string containerSas = Helpers.ConstructContainerSas(
                        this.configurationSettings.StorageAccountName,
                        this.configurationSettings.StorageAccountKey,
                        this.configurationSettings.StorageServiceUrl,
                        this.configurationSettings.BlobContainer);

                    //
                    // Submit mapper tasks.
                    //
                    Console.WriteLine("Submitting {0} mapper tasks.", this.configurationSettings.NumberOfMapperTasks);

                    //The collection of tasks to add to the Batch Service.
                    List <ICloudTask> tasksToAdd = new List <ICloudTask>();

                    for (int i = 0; i < this.configurationSettings.NumberOfMapperTasks; i++)
                    {
                        string taskName     = Helpers.GetMapperTaskName(i);
                        string fileBlobName = Helpers.GetSplitFileName(i);
                        string fileBlobPath = Helpers.ConstructBlobSource(containerSas, fileBlobName);

                        string     commandLine       = string.Format("{0} -MapperTask {1}", Constants.TextSearchExe, fileBlobPath);
                        ICloudTask unboundMapperTask = new CloudTask(taskName, commandLine);

                        //The set of files (exe's, dll's and configuration files) required to run the mapper task.
                        IReadOnlyList <string> mapperTaskRequiredFiles = Constants.RequiredExecutableFiles;

                        List <IResourceFile> mapperTaskResourceFiles = Helpers.GetResourceFiles(containerSas, mapperTaskRequiredFiles);

                        unboundMapperTask.ResourceFiles = mapperTaskResourceFiles;

                        tasksToAdd.Add(unboundMapperTask);
                    }

                    //Submit the unbound task collection to the Batch Service.
                    //Use the AddTask method which takes a collection of ICloudTasks for the best performance.
                    await workItemManager.AddTaskAsync(this.workItemName, this.jobName, tasksToAdd);

                    //
                    // Wait for the mapper tasks to complete.
                    //
                    Console.WriteLine("Waiting for the mapper tasks to complete...");

                    //List all the mapper tasks using a name filter.
                    DetailLevel mapperTaskNameFilter = new ODATADetailLevel()
                    {
                        FilterClause = string.Format("startswith(name, '{0}')", Constants.MapperTaskPrefix)
                    };

                    List <ICloudTask> tasksToMonitor = workItemManager.ListTasks(
                        this.workItemName,
                        this.jobName,
                        detailLevel: mapperTaskNameFilter).ToList();

                    //Use the task state monitor to wait for the tasks to complete.
                    ITaskStateMonitor taskStateMonitor = toolbox.CreateTaskStateMonitor();

                    bool timedOut = await taskStateMonitor.WaitAllAsync(tasksToMonitor, TaskState.Completed, TimeSpan.FromMinutes(5));

                    //Get the list of mapper tasks in order to analyze their state and ensure they completed successfully.
                    IEnumerableAsyncExtended <ICloudTask> asyncEnumerable = workItemManager.ListTasks(
                        this.workItemName,
                        this.jobName,
                        detailLevel: mapperTaskNameFilter);
                    IAsyncEnumerator <ICloudTask> asyncEnumerator = asyncEnumerable.GetAsyncEnumerator();

                    //Dump the status of each mapper task.
                    while (await asyncEnumerator.MoveNextAsync())
                    {
                        ICloudTask cloudTask = asyncEnumerator.Current;

                        Console.WriteLine("Task {0} is in state: {1}", cloudTask.Name, cloudTask.State);

                        await Helpers.CheckForTaskSuccessAsync(cloudTask, dumpStandardOutOnTaskSuccess : false);

                        Console.WriteLine();
                    }

                    //If not all the tasks reached the desired state within the timeout then the job manager
                    //cannot continue.
                    if (timedOut)
                    {
                        const string errorMessage = "Mapper tasks did not complete within expected timeout.";
                        Console.WriteLine(errorMessage);

                        throw new TimeoutException(errorMessage);
                    }

                    //
                    // Create the reducer task.
                    //
                    string reducerTaskCommandLine = string.Format("{0} -ReducerTask", Constants.TextSearchExe);

                    Console.WriteLine("Adding the reducer task: {0}", Constants.ReducerTaskName);
                    ICloudTask unboundReducerTask = new CloudTask(Constants.ReducerTaskName, reducerTaskCommandLine);

                    //The set of files (exe's, dll's and configuration files) required to run the reducer task.
                    List <IResourceFile> reducerTaskResourceFiles = Helpers.GetResourceFiles(containerSas, Constants.RequiredExecutableFiles);

                    unboundReducerTask.ResourceFiles = reducerTaskResourceFiles;

                    //Send the request to the Batch Service to add the reducer task.
                    await workItemManager.AddTaskAsync(this.workItemName, this.jobName, unboundReducerTask);

                    //
                    //Wait for the reducer task to complete.
                    //

                    //Get the bound reducer task and monitor it for completion.
                    ICloudTask boundReducerTask = await workItemManager.GetTaskAsync(this.workItemName, this.jobName, Constants.ReducerTaskName);

                    timedOut = await taskStateMonitor.WaitAllAsync(new List <ICloudTask> {
                        boundReducerTask
                    }, TaskState.Completed, TimeSpan.FromMinutes(2));

                    //Refresh the reducer task to get the most recent information about it from the Batch Service.
                    await boundReducerTask.RefreshAsync();

                    //Dump the reducer tasks exit code and scheduling error for debugging purposes.
                    await Helpers.CheckForTaskSuccessAsync(boundReducerTask, dumpStandardOutOnTaskSuccess : true);

                    //Handle the possibilty that the reducer task did not complete in the expected timeout.
                    if (timedOut)
                    {
                        const string errorMessage = "Reducer task did not complete within expected timeout.";

                        Console.WriteLine("Task {0} is in state: {1}", boundReducerTask.Name, boundReducerTask.State);

                        Console.WriteLine(errorMessage);
                        throw new TimeoutException(errorMessage);
                    }

                    //The job manager has completed.
                    Console.WriteLine("JobManager completed successfully.");
                }
            }
        }
        /// <summary>
        /// This will take the basic data provided about the account, upload the necessary information to the account, and schedule a job.
        /// </summary>
        /// <param name="sender"></param>
        /// <param name="e"></param>
        private void btnStart_Click(object sender, RoutedEventArgs e)
        {
            BatchCredentials credentials = new BatchCredentials(txtBAccountName.Text, txtBAccountKey.Text);
            IBatchClient     bClient     = BatchClient.Connect(SampleConstants.BatchSvcEndpoint, credentials);

            // Setting a retry policy adds robustness against an individual call timing out.  When using a policy, by default all recoverable failures are retried.
            bClient.CustomBehaviors.Add(new SetRetryPolicy(new ExponentialRetry(TimeSpan.FromSeconds(5), 5)));

            // Create a unique workitem name; don't forget to delete these when you're done
            string workItemName = SampleConstants.WorkItemNamePrefix + Guid.NewGuid().ToString();

            // Identify the pre-existing pool of VMs that will run the tasks. An Autopool specification
            // is fine but there is the delay associated with the creation of the pool along with waiting
            // for the VMs to reach Idle state before tasks are running. You can use Batch Explorer to
            // pre-create the pool and then resize it to the desired size and number of VMs.
            JobExecutionEnvironment jee = new JobExecutionEnvironment()
            {
                PoolName = PoolName
            };

            // Next, create the JobManager instance describing the environment settings and resources it
            // needs to run
            JobManager jobMgr = new JobManager()
            {
                Name        = "JM1",
                CommandLine = SampleConstants.JobManager,

                // NOTE: We do not in general recommend that customers put their secrets on the command line or as environmental variables, as
                //       these are not a secure locations.  This was done for the simplicity of the sample.
                EnvironmentSettings = new List <IEnvironmentSetting>()
                {
                    { new EnvironmentSetting(SampleConstants.EnvWorkItemName, workItemName) },
                    { new EnvironmentSetting(SampleConstants.EnvBatchAccountKeyName, txtBAccountKey.Text) }
                },

                // In many cases you will want KillJobOnCompletion to be set to 'TRUE' - this allows the previous job to finish before
                // a recurrence is scheduled.  As an alternative, you can set this to 'FALSE' and use MaxWallClockTime as shown below,
                // which will instead ensure that every recurrence happens.
                KillJobOnCompletion = true
            };

            // Create a list of resource files that are needed to run JobManager.exe. A shared access signature key specifying
            // readonly access is used so the JobManager program will have access to the resource files when it is started
            // on a VM.
            var sasPrefix = Helpers.ConstructContainerSas(
                txtSAccountName.Text,
                txtSAccountKey.Text,
                "core.windows.net",
                txtSContainerName.Text);

            jobMgr.ResourceFiles = Helpers.GetResourceFiles(sasPrefix, SampleConstants.JobManagerFiles);

            // Create the job specification, identifying that this job has a job manager associated with it
            JobSpecification jobSpec = new JobSpecification()
            {
                JobManager = jobMgr
            };

            // Set up the desired recurrence or start time schedule.
            WorkItemSchedule wiSchedule = new WorkItemSchedule();

            if (rdoOnce.IsChecked == true)
            {
                // Set information if the task is to be run once.
                DateTime runOnce = (DateTime)(dpkDate.SelectedDate);
                runOnce = runOnce.AddHours(cbxHourO.SelectedIndex);
                runOnce = runOnce.AddMinutes(cbxMinuteO.SelectedIndex);
                wiSchedule.DoNotRunUntil = runOnce;
            }
            else
            {
                // Set information if the task is to be recurring.
                TimeSpan recurring = new TimeSpan(cbxHourR.SelectedIndex, cbxMinuteR.SelectedIndex, 0);
                wiSchedule.RecurrenceInterval = recurring;
                TimeSpan countback = new TimeSpan(0, 0, 30);
                jobSpec.JobConstraints = new JobConstraints(recurring.Subtract(countback), null);
            }

            // Upload files and create workitem.
            UploadFiles();

            using (IWorkItemManager wiMgr = bClient.OpenWorkItemManager())
            {
                ICloudWorkItem workItem = wiMgr.CreateWorkItem(workItemName);
                workItem.JobExecutionEnvironment = jee;
                workItem.Schedule         = wiSchedule;
                workItem.JobSpecification = jobSpec;

                try
                {
                    workItem.Commit();
                }
                catch (Exception ex)
                {
                    MessageBox.Show(ex.ToString());
                }
            }
            // Remember to clean up your workitems and jobs
        }
Exemple #10
0
        public static void JobMain(string[] args)
        {
            //Load the configuration
            TopNWordsConfiguration configuration = TopNWordsConfiguration.LoadConfigurationFromAppConfig();

            StagingStorageAccount stagingStorageAccount = new StagingStorageAccount(
                configuration.StorageAccountName,
                configuration.StorageAccountKey,
                configuration.StorageAccountBlobEndpoint);

            IBatchClient client           = BatchClient.Connect(configuration.BatchServiceUrl, new BatchCredentials(configuration.BatchAccountName, configuration.BatchAccountKey));
            string       stagingContainer = null;

            //Create a pool (if user hasn't provided one)
            if (configuration.ShouldCreatePool)
            {
                using (IPoolManager pm = client.OpenPoolManager())
                {
                    //OSFamily 4 == OS 2012 R2
                    //You can learn more about os families and versions at:
                    //http://msdn.microsoft.com/en-us/library/azure/ee924680.aspx
                    ICloudPool pool = pm.CreatePool(configuration.PoolName, targetDedicated: configuration.PoolSize, osFamily: "4", vmSize: "small");
                    Console.WriteLine("Adding pool {0}", configuration.PoolName);
                    pool.Commit();
                }
            }

            try
            {
                using (IWorkItemManager wm = client.OpenWorkItemManager())
                {
                    IToolbox toolbox = client.OpenToolbox();

                    //Use the TaskSubmissionHelper to help us create a WorkItem and add tasks to it.
                    ITaskSubmissionHelper taskSubmissionHelper = toolbox.CreateTaskSubmissionHelper(wm, configuration.PoolName);
                    taskSubmissionHelper.WorkItemName = configuration.WorkItemName;

                    FileToStage topNWordExe = new FileToStage(TopNWordsExeName, stagingStorageAccount);
                    FileToStage storageDll  = new FileToStage(StorageClientDllName, stagingStorageAccount);

                    string bookFileUri = UploadBookFileToCloudBlob(configuration, configuration.BookFileName);
                    Console.WriteLine("{0} uploaded to cloud", configuration.BookFileName);

                    for (int i = 1; i <= configuration.NumberOfTasks; i++)
                    {
                        ICloudTask task = new CloudTask("task_no_" + i, String.Format("{0} --Task {1} {2} {3} {4}",
                                                                                      TopNWordsExeName,
                                                                                      bookFileUri,
                                                                                      configuration.NumberOfTopWords,
                                                                                      configuration.StorageAccountName,
                                                                                      configuration.StorageAccountKey));

                        //This is the list of files to stage to a container -- for each TaskSubmissionHelper one container is created and
                        //files all resolve to Azure Blobs by their name (so two tasks with the same named file will create just 1 blob in
                        //the TaskSubmissionHelper's container).
                        task.FilesToStage = new List <IFileStagingProvider>
                        {
                            topNWordExe,
                            storageDll
                        };

                        taskSubmissionHelper.AddTask(task);
                    }

                    //Commit all the tasks to the Batch Service.
                    IJobCommitUnboundArtifacts artifacts = taskSubmissionHelper.Commit() as IJobCommitUnboundArtifacts;

                    foreach (var fileStagingArtifact in artifacts.FileStagingArtifacts)
                    {
                        SequentialFileStagingArtifact stagingArtifact = fileStagingArtifact.Value as SequentialFileStagingArtifact;
                        if (stagingArtifact != null)
                        {
                            stagingContainer = stagingArtifact.BlobContainerCreated;
                            Console.WriteLine("Uploaded files to container: {0} -- you will be charged for their storage unless you delete them.",
                                              stagingArtifact.BlobContainerCreated);
                        }
                    }

                    //Get the job to monitor status.
                    ICloudJob job = wm.GetJob(artifacts.WorkItemName, artifacts.JobName);

                    Console.Write("Waiting for tasks to complete ...");
                    // Wait 1 minute for all tasks to reach the completed state
                    client.OpenToolbox().CreateTaskStateMonitor().WaitAll(job.ListTasks(), TaskState.Completed, TimeSpan.FromMinutes(20));
                    Console.WriteLine("Done.");

                    foreach (ICloudTask task in job.ListTasks())
                    {
                        Console.WriteLine("Task " + task.Name + " says:\n" + task.GetTaskFile(Constants.StandardOutFileName).ReadAsString());
                        Console.WriteLine(task.GetTaskFile(Constants.StandardErrorFileName).ReadAsString());
                    }
                }
            }
            finally
            {
                //Delete the pool that we created
                if (configuration.ShouldCreatePool)
                {
                    using (IPoolManager pm = client.OpenPoolManager())
                    {
                        Console.WriteLine("Deleting pool: {0}", configuration.PoolName);
                        pm.DeletePool(configuration.PoolName);
                    }
                }

                //Delete the workitem that we created
                if (configuration.ShouldDeleteWorkItem)
                {
                    using (IWorkItemManager wm = client.OpenWorkItemManager())
                    {
                        Console.WriteLine("Deleting work item: {0}", configuration.WorkItemName);
                        wm.DeleteWorkItem(configuration.WorkItemName);
                    }
                }

                //Delete the containers we created
                if (configuration.ShouldDeleteContainer)
                {
                    DeleteContainers(configuration, stagingContainer);
                }
            }
        }