Windows-powershell / PowerShell-master /src /System.Management.Automation /engine /remoting /client /Job2.cs
| // Copyright (c) Microsoft Corporation. | |
| // Licensed under the MIT License. | |
| using System.Collections.Generic; | |
| using System.ComponentModel; | |
| using System.Diagnostics.CodeAnalysis; | |
| using System.Linq; | |
| using System.Management.Automation.Language; | |
| using System.Management.Automation.Runspaces; | |
| using System.Management.Automation.Tracing; | |
| using System.Runtime.Serialization; | |
| using System.Text; | |
| using System.Threading; | |
| using Dbg = System.Management.Automation.Diagnostics; | |
| // Stops compiler from warning about unknown warnings | |
| namespace System.Management.Automation | |
| { | |
| /// <summary> | |
| /// New base class for a job that provides extended state | |
| /// management functionality on the job. Since the existing | |
| /// Job class is an abstract class and there are existing | |
| /// implementations of the same, it is required to have a | |
| /// new class that will have the extended functionality. This | |
| /// is to ensure that backwards compatibility is maintained | |
| /// | |
| /// However, this class will derive from the existing Job | |
| /// class. The option of deprecating the existing class was | |
| /// considered as well. In order to maintain backwards | |
| /// compatibility of PowerShell job cmdlets they will have | |
| /// to work with the old interface and hence deprecating | |
| /// the Job class did not add any benefit rather than | |
| /// deriving from the same. | |
| /// </summary> | |
| /// <remarks>The following are some of the notes about | |
| /// why the asynchronous operations are provided this way | |
| /// in this class. There are two possible options in which | |
| /// asynchronous support can be provided: | |
| /// 1. Classical pattern (Begin and End) | |
| /// 2. Event based pattern | |
| /// | |
| /// Although the PowerShell API uses the classical pattern | |
| /// and we would like the Job API and PowerShell API to be | |
| /// as close as possible, the classical pattern is inherently | |
| /// complex to use.</remarks> | |
| public abstract class Job2 : Job | |
| { | |
| /// <summary> | |
| /// These are the parameters that can be used by a job | |
| /// implementation when they want to specify parameters | |
| /// to start a job. | |
| /// </summary> | |
| private List<CommandParameterCollection> _parameters; | |
| /// <summary> | |
| /// Object that will be used for thread synchronization. | |
| /// </summary> | |
| private readonly object _syncobject = new object(); | |
| private const int StartJobOperation = 1; | |
| private const int StopJobOperation = 2; | |
| private const int SuspendJobOperation = 3; | |
| private const int ResumeJobOperation = 4; | |
| private const int UnblockJobOperation = 5; | |
| private readonly PowerShellTraceSource _tracer = PowerShellTraceSourceFactory.GetTraceSource(); | |
| /// <summary> | |
| /// Parameters to be used to start a job. | |
| /// This is a property because CommandParameterCollection | |
| /// does not have a public constructor. Hence the | |
| /// infrastructure creates an instance and provides | |
| /// it for the implementations to use. | |
| /// </summary> | |
| [] | |
| [] | |
| public List<CommandParameterCollection> StartParameters | |
| { | |
| get | |
| { | |
| if (_parameters == null) | |
| { | |
| lock (_syncobject) | |
| { | |
| _parameters ??= new List<CommandParameterCollection>(); | |
| } | |
| } | |
| return _parameters; | |
| } | |
| set | |
| { | |
| if (value == null) | |
| { | |
| throw PSTraceSource.NewArgumentNullException("value"); | |
| } | |
| lock (_syncobject) | |
| { | |
| _parameters = value; | |
| } | |
| } | |
| } | |
| /// <summary> | |
| /// </summary> | |
| protected object SyncRoot | |
| { | |
| get { return syncObject; } | |
| } | |
| /// <summary> | |
| /// Default no argument constructor. | |
| /// </summary> | |
| protected Job2() : base() { } | |
| /// <summary> | |
| /// Constructor which will initialize the job | |
| /// with the associated command string. | |
| /// </summary> | |
| /// <param name="command">string representation | |
| /// of the command the job is running</param> | |
| protected Job2(string command) : base(command) { } | |
| /// <summary> | |
| /// Creates an instance of this class. | |
| /// </summary> | |
| /// <param name="command">Command invoked by this job object.</param> | |
| /// <param name="name">Friendly name for the job object.</param> | |
| protected Job2(string command, string name) | |
| : base(command, name) | |
| { | |
| } | |
| /// <summary> | |
| /// Creates an instance of this class. | |
| /// </summary> | |
| /// <param name="command">Command invoked by this job object.</param> | |
| /// <param name="name">Friendly name for the job object.</param> | |
| /// <param name="childJobs">Child jobs of this job object.</param> | |
| protected Job2(string command, string name, IList<Job> childJobs) | |
| : base(command, name, childJobs) | |
| { | |
| } | |
| /// <summary> | |
| /// Creates an instance of this class. | |
| /// </summary> | |
| /// <param name="command">Command invoked by this job object.</param> | |
| /// <param name="name">Friendly name for the job object.</param> | |
| /// <param name="token">JobIdentifier token used to assign Id and InstanceId.</param> | |
| protected Job2(string command, string name, JobIdentifier token) | |
| : base(command, name, token) | |
| { | |
| } | |
| /// <summary> | |
| /// Creates an instance of this class. | |
| /// </summary> | |
| /// <param name="command">Command string.</param> | |
| /// <param name="name">Friendly name for the job.</param> | |
| /// <param name="instanceId">Instance ID to allow job identification across sessions.</param> | |
| protected Job2(string command, string name, Guid instanceId) | |
| : base(command, name, instanceId) | |
| { | |
| } | |
| /// <summary> | |
| /// There is an internal method in Job which is not made | |
| /// public. In order to make this available to someone | |
| /// implementing a job it has to be added here. If the | |
| /// original method is made public it has changes of | |
| /// colliding with some implementation which may have | |
| /// added that method. | |
| /// </summary> | |
| /// <param name="state">State of the job.</param> | |
| /// <param name="reason">exception associated with the | |
| /// job entering this state</param> | |
| protected new void SetJobState(JobState state, Exception reason) | |
| { | |
| base.SetJobState(state, reason); | |
| } | |
| /// <summary> | |
| /// Start a job. The job will be started with the parameters | |
| /// specified in StartParameters. | |
| /// </summary> | |
| /// <remarks>It is redundant to have a method named StartJob | |
| /// on a job class. However, this is done so as to avoid | |
| /// an FxCop violation "CA1716:IdentifiersShouldNotMatchKeywords" | |
| /// Stop and Resume are reserved keyworks in C# and hence cannot | |
| /// be used as method names. Therefore to be consistent it has | |
| /// been decided to use *Job in the name of the methods</remarks> | |
| public abstract void StartJob(); | |
| /// <summary> | |
| /// Start a job asynchronously. | |
| /// </summary> | |
| public abstract void StartJobAsync(); | |
| /// <summary> | |
| /// Event to be raise when the start job activity is completed. | |
| /// This event should not be raised for | |
| /// synchronous operation. | |
| /// </summary> | |
| public event EventHandler<AsyncCompletedEventArgs> StartJobCompleted; | |
| /// <summary> | |
| /// Method which can be extended or called by derived | |
| /// classes to raise the event when start of | |
| /// the job is completed. | |
| /// </summary> | |
| /// <param name="eventArgs">arguments describing | |
| /// an exception that is associated with the event</param> | |
| protected virtual void OnStartJobCompleted(AsyncCompletedEventArgs eventArgs) | |
| { | |
| RaiseCompletedHandler(StartJobOperation, eventArgs); | |
| } | |
| /// <summary> | |
| /// Method which can be extended or called by derived | |
| /// classes to raise the event when stopping a | |
| /// job is completed. | |
| /// </summary> | |
| /// <param name="eventArgs">argument describing | |
| /// an exception that is associated with the event</param> | |
| protected virtual void OnStopJobCompleted(AsyncCompletedEventArgs eventArgs) | |
| { | |
| RaiseCompletedHandler(StopJobOperation, eventArgs); | |
| } | |
| /// <summary> | |
| /// Method which can be extended or called by derived | |
| /// classes to raise the event when suspending a | |
| /// job is completed. | |
| /// </summary> | |
| /// <param name="eventArgs">argument describing | |
| /// an exception that is associated with the event</param> | |
| protected virtual void OnSuspendJobCompleted(AsyncCompletedEventArgs eventArgs) | |
| { | |
| RaiseCompletedHandler(SuspendJobOperation, eventArgs); | |
| } | |
| /// <summary> | |
| /// Method which can be extended or called by derived | |
| /// classes to raise the event when resuming a | |
| /// suspended job is completed. | |
| /// </summary> | |
| /// <param name="eventArgs">argument describing | |
| /// an exception that is associated with the event</param> | |
| protected virtual void OnResumeJobCompleted(AsyncCompletedEventArgs eventArgs) | |
| { | |
| RaiseCompletedHandler(ResumeJobOperation, eventArgs); | |
| } | |
| /// <summary> | |
| /// Method which can be extended or called by derived | |
| /// classes to raise the event when unblocking a | |
| /// blocked job is completed. | |
| /// </summary> | |
| /// <param name="eventArgs">argument describing | |
| /// an exception that is associated with the event</param> | |
| protected virtual void OnUnblockJobCompleted(AsyncCompletedEventArgs eventArgs) | |
| { | |
| RaiseCompletedHandler(UnblockJobOperation, eventArgs); | |
| } | |
| /// <summary> | |
| /// Raises the appropriate event based on the operation | |
| /// and the associated event arguments. | |
| /// </summary> | |
| /// <param name="operation">operation for which the event | |
| /// needs to be raised</param> | |
| /// <param name="eventArgs"></param> | |
| private void RaiseCompletedHandler(int operation, AsyncCompletedEventArgs eventArgs) | |
| { | |
| // Make a temporary copy of the event to avoid possibility of | |
| // a race condition if the last subscriber unsubscribes | |
| // immediately after the null check and before the event is raised. | |
| EventHandler<AsyncCompletedEventArgs> handler = null; | |
| switch (operation) | |
| { | |
| case StartJobOperation: | |
| { | |
| handler = StartJobCompleted; | |
| } | |
| break; | |
| case StopJobOperation: | |
| { | |
| handler = StopJobCompleted; | |
| } | |
| break; | |
| case SuspendJobOperation: | |
| { | |
| handler = SuspendJobCompleted; | |
| } | |
| break; | |
| case ResumeJobOperation: | |
| { | |
| handler = ResumeJobCompleted; | |
| } | |
| break; | |
| case UnblockJobOperation: | |
| { | |
| handler = UnblockJobCompleted; | |
| } | |
| break; | |
| default: | |
| { | |
| Dbg.Assert(false, "this condition should not be hit, check the value of operation that you passed"); | |
| } | |
| break; | |
| } | |
| try | |
| { | |
| handler?.Invoke(this, eventArgs); | |
| } | |
| catch (Exception exception) | |
| { | |
| // errors in the handlers are not errors in the operation | |
| // silently ignore them | |
| _tracer.TraceException(exception); | |
| } | |
| } | |
| /// <summary> | |
| /// Stop a job asynchronously. | |
| /// </summary> | |
| public abstract void StopJobAsync(); | |
| /// <summary> | |
| /// Event to be raised when the asynchronous stopping of a job | |
| /// is completed.This event should not be raised for | |
| /// synchronous operation. | |
| /// </summary> | |
| public event EventHandler<AsyncCompletedEventArgs> StopJobCompleted; | |
| /// <summary> | |
| /// Suspend a job. | |
| /// </summary> | |
| public abstract void SuspendJob(); | |
| /// <summary> | |
| /// Asynchronously suspend a job. | |
| /// </summary> | |
| public abstract void SuspendJobAsync(); | |
| /// <summary> | |
| /// This event should be raised whenever the asynchronous suspend of | |
| /// a job is completed. This event should not be raised for | |
| /// synchronous operation. | |
| /// </summary> | |
| public event EventHandler<AsyncCompletedEventArgs> SuspendJobCompleted; | |
| /// <summary> | |
| /// Resume a suspended job. | |
| /// </summary> | |
| public abstract void ResumeJob(); | |
| /// <summary> | |
| /// Resume a suspended job asynchronously. | |
| /// </summary> | |
| public abstract void ResumeJobAsync(); | |
| /// <summary> | |
| /// This event should be raised whenever the asynchronous resume of | |
| /// a suspended job is completed. This event should not be raised for | |
| /// synchronous operation. | |
| /// </summary> | |
| public event EventHandler<AsyncCompletedEventArgs> ResumeJobCompleted; | |
| /// <summary> | |
| /// Unblock a blocked job. | |
| /// </summary> | |
| public abstract void UnblockJob(); | |
| /// <summary> | |
| /// Unblock a blocked job asynchronously. | |
| /// </summary> | |
| public abstract void UnblockJobAsync(); | |
| /// <summary> | |
| /// StopJob. | |
| /// </summary> | |
| /// <param name="force"></param> | |
| /// <param name="reason"></param> | |
| public abstract void StopJob(bool force, string reason); | |
| /// <summary> | |
| /// StopJobAsync. | |
| /// </summary> | |
| /// <param name="force"></param> | |
| /// <param name="reason"></param> | |
| public abstract void StopJobAsync(bool force, string reason); | |
| /// <summary> | |
| /// SuspendJob. | |
| /// </summary> | |
| /// <param name="force"></param> | |
| /// <param name="reason"></param> | |
| public abstract void SuspendJob(bool force, string reason); | |
| /// <summary> | |
| /// SuspendJobAsync. | |
| /// </summary> | |
| /// <param name="force"></param> | |
| /// <param name="reason"></param> | |
| public abstract void SuspendJobAsync(bool force, string reason); | |
| /// <summary> | |
| /// This event should be raised whenever the asynchronous unblock | |
| /// of a blocked job is completed. This event should not be raised for | |
| /// synchronous operation. | |
| /// </summary> | |
| public event EventHandler<AsyncCompletedEventArgs> UnblockJobCompleted; | |
| } | |
| /// <summary> | |
| /// Specifies the various thread options that can be used | |
| /// for the ThreadBasedJob. | |
| /// </summary> | |
| public enum JobThreadOptions | |
| { | |
| /// <summary> | |
| /// Use the default behavior, which is to use a | |
| /// ThreadPoolThread. | |
| /// </summary> | |
| Default = 0, | |
| /// <summary> | |
| /// Use a thread pool thread. | |
| /// </summary> | |
| UseThreadPoolThread = 1, | |
| /// <summary> | |
| /// Create a new thread everything and reuse. | |
| /// </summary> | |
| UseNewThread = 2, | |
| } | |
| /*/// <summary> | |
| /// This job will provide asynchronous behavior by running | |
| /// the user specified script block in a separate process. | |
| /// There will be options for running the scriptblock | |
| /// in a new process or an existing process. | |
| /// </summary> | |
| /// <remarks>Jobs for the out-of-process activity manager | |
| /// can be implemented using this interface</remarks> | |
| public abstract class ProcessBasedJob : Job2 | |
| { | |
| public override void Start() | |
| { | |
| throw new NotImplementedException(); | |
| } | |
| public override void StartAsync() | |
| { | |
| throw new NotImplementedException(); | |
| } | |
| }*/ | |
| /// <summary> | |
| /// Top level container job. | |
| /// </summary> | |
| public sealed class ContainerParentJob : Job2 | |
| { | |
| private const string TraceClassName = "ContainerParentJob"; | |
| private bool _moreData = true; | |
| private readonly object _syncObject = new object(); | |
| private int _isDisposed = 0; | |
| private const int DisposedTrue = 1; | |
| private const int DisposedFalse = 0; | |
| // This variable is set to true if at least one child job failed. | |
| // count of number of child jobs which have finished | |
| private int _finishedChildJobsCount = 0; | |
| // count of number of child jobs which are blocked | |
| private int _blockedChildJobsCount = 0; | |
| // count of number of child jobs which are suspended | |
| private int _suspendedChildJobsCount = 0; | |
| // count of number of child jobs which are suspending | |
| private int _suspendingChildJobsCount = 0; | |
| // count of number of child jobs which failed | |
| private int _failedChildJobsCount = 0; | |
| // count of number of child jobs which stopped | |
| private int _stoppedChildJobsCount = 0; | |
| private readonly PowerShellTraceSource _tracer = PowerShellTraceSourceFactory.GetTraceSource(); | |
| private readonly PSDataCollection<ErrorRecord> _executionError = new PSDataCollection<ErrorRecord>(); | |
| private PSEventManager _eventManager; | |
| internal PSEventManager EventManager | |
| { | |
| get | |
| { | |
| return _eventManager; | |
| } | |
| set | |
| { | |
| _tracer.WriteMessage("Setting event manager for Job ", InstanceId); | |
| _eventManager = value; | |
| } | |
| } | |
| private ManualResetEvent _jobRunning; | |
| private ManualResetEvent JobRunning | |
| { | |
| get | |
| { | |
| if (_jobRunning == null) | |
| { | |
| lock (_syncObject) | |
| { | |
| if (_jobRunning == null) | |
| { | |
| // this assert is required so that a wait handle | |
| // is not created after the object is disposed | |
| // which will result in a leak | |
| AssertNotDisposed(); | |
| _jobRunning = new ManualResetEvent(false); | |
| } | |
| } | |
| } | |
| return _jobRunning; | |
| } | |
| } | |
| private ManualResetEvent _jobSuspendedOrAborted; | |
| private ManualResetEvent JobSuspendedOrAborted | |
| { | |
| get | |
| { | |
| if (_jobSuspendedOrAborted == null) | |
| { | |
| lock (_syncObject) | |
| { | |
| if (_jobSuspendedOrAborted == null) | |
| { | |
| // this assert is required so that a wait handle | |
| // is not created after the object is disposed | |
| // which will result in a leak | |
| AssertNotDisposed(); | |
| _jobSuspendedOrAborted = new ManualResetEvent(false); | |
| } | |
| } | |
| } | |
| return _jobSuspendedOrAborted; | |
| } | |
| } | |
| /// <summary> | |
| /// Create a container parent job with the | |
| /// specified command string and name. | |
| /// </summary> | |
| /// <param name="command">Command string.</param> | |
| /// <param name="name">Friendly name for display.</param> | |
| public ContainerParentJob(string command, string name) | |
| : base(command, name) | |
| { | |
| StateChanged += HandleMyStateChanged; | |
| } | |
| /// <summary> | |
| /// Create a container parent job with the | |
| /// specified command string. | |
| /// </summary> | |
| /// <param name="command">Command string.</param> | |
| public ContainerParentJob(string command) | |
| : base(command) | |
| { | |
| StateChanged += HandleMyStateChanged; | |
| } | |
| /// <summary> | |
| /// Create a container parent job with the | |
| /// specified command string. | |
| /// </summary> | |
| /// <param name="command">Command string.</param> | |
| /// <param name="name">Friendly name for the job.</param> | |
| /// <param name="jobId">JobIdentifier token that allows reuse of an Id and Instance Id.</param> | |
| public ContainerParentJob(string command, string name, JobIdentifier jobId) | |
| : base(command, name, jobId) | |
| { | |
| StateChanged += HandleMyStateChanged; | |
| } | |
| /// <summary> | |
| /// Create a container parent job with the | |
| /// specified command string. | |
| /// </summary> | |
| /// <param name="command">Command string.</param> | |
| /// <param name="name">Friendly name for the job.</param> | |
| /// <param name="instanceId">Instance ID to allow job identification across sessions.</param> | |
| public ContainerParentJob(string command, string name, Guid instanceId) | |
| : base(command, name, instanceId) | |
| { | |
| StateChanged += HandleMyStateChanged; | |
| } | |
| /// <summary> | |
| /// Create a container parent job with the | |
| /// specified command string. | |
| /// </summary> | |
| /// <param name="command">Command string.</param> | |
| /// <param name="name">Friendly name for the job.</param> | |
| /// <param name="jobId">JobIdentifier token that allows reuse of an Id and Instance Id.</param> | |
| /// <param name="jobType">Job type name.</param> | |
| public ContainerParentJob(string command, string name, JobIdentifier jobId, string jobType) | |
| : base(command, name, jobId) | |
| { | |
| PSJobTypeName = jobType; | |
| StateChanged += HandleMyStateChanged; | |
| } | |
| /// <summary> | |
| /// Create a container parent job with the | |
| /// specified command string. | |
| /// </summary> | |
| /// <param name="command">Command string.</param> | |
| /// <param name="name">Friendly name for the job.</param> | |
| /// <param name="instanceId">Instance ID to allow job identification across sessions.</param> | |
| /// <param name="jobType">Job type name.</param> | |
| public ContainerParentJob(string command, string name, Guid instanceId, string jobType) | |
| : base(command, name, instanceId) | |
| { | |
| PSJobTypeName = jobType; | |
| StateChanged += HandleMyStateChanged; | |
| } | |
| /// <summary> | |
| /// Create a container parent job with the specified command, name, | |
| /// job type strings. | |
| /// </summary> | |
| /// <param name="command">Command string.</param> | |
| /// <param name="name">Friendly name for the job.</param> | |
| /// <param name="jobType">Job type name.</param> | |
| public ContainerParentJob(string command, string name, string jobType) | |
| : base(command, name) | |
| { | |
| PSJobTypeName = jobType; | |
| StateChanged += HandleMyStateChanged; | |
| } | |
| internal PSDataCollection<ErrorRecord> ExecutionError { get { return _executionError; } } | |
| /// <summary> | |
| /// Add a child job to the parent job. | |
| /// </summary> | |
| /// <param name="childJob">Child job to add.</param> | |
| /// <exception cref="ObjectDisposedException">Thrown if the job is disposed.</exception> | |
| /// <exception cref="ArgumentNullException">Thrown if child being added is null.</exception> | |
| public void AddChildJob(Job2 childJob) | |
| { | |
| AssertNotDisposed(); | |
| ArgumentNullException.ThrowIfNull(childJob); | |
| _tracer.WriteMessage(TraceClassName, "AddChildJob", Guid.Empty, childJob, "Adding Child to Parent with InstanceId : ", InstanceId.ToString()); | |
| JobStateInfo childJobStateInfo; | |
| lock (childJob.syncObject) | |
| { | |
| // Store job's state and subscribe to State Changed event. Locking here will | |
| // ensure that the jobstateinfo we get is the state before any state changed events are handled by ContainerParentJob. | |
| childJobStateInfo = childJob.JobStateInfo; | |
| childJob.StateChanged += HandleChildJobStateChanged; | |
| } | |
| ChildJobs.Add(childJob); | |
| ParentJobStateCalculation(new JobStateEventArgs(childJobStateInfo, new JobStateInfo(JobState.NotStarted))); | |
| } | |
| /// <summary> | |
| /// Indicates if more data is available. | |
| /// </summary> | |
| /// <remarks> | |
| /// This has more data if any of the child jobs have more data. | |
| /// </remarks> | |
| public override bool HasMoreData | |
| { | |
| get | |
| { | |
| // moreData is initially set to true, and it | |
| // will remain so until the async result | |
| // object has completed execution. | |
| if (_moreData && IsFinishedState(JobStateInfo.State)) | |
| { | |
| bool atleastOneChildHasMoreData = false; | |
| for (int i = 0; i < ChildJobs.Count; i++) | |
| { | |
| if (ChildJobs[i].HasMoreData) | |
| { | |
| atleastOneChildHasMoreData = true; | |
| break; | |
| } | |
| } | |
| _moreData = atleastOneChildHasMoreData; | |
| } | |
| return _moreData; | |
| } | |
| } | |
| /// <summary> | |
| /// Message indicating status of the job. | |
| /// </summary> | |
| public override string StatusMessage | |
| { | |
| get | |
| { | |
| return ConstructStatusMessage(); | |
| } | |
| } | |
| /// <summary> | |
| /// Starts all jobs. | |
| /// </summary> | |
| /// <exception cref="ObjectDisposedException">Thrown if job is disposed.</exception> | |
| public override void StartJob() | |
| { | |
| AssertNotDisposed(); | |
| _tracer.WriteMessage(TraceClassName, "StartJob", Guid.Empty, this, "Entering method", null); | |
| s_structuredTracer.BeginContainerParentJobExecution(InstanceId); | |
| // If parent contains no child jobs then this method will not respond. Throw error in this case. | |
| if (ChildJobs.Count == 0) | |
| { | |
| throw PSTraceSource.NewInvalidOperationException(RemotingErrorIdStrings.JobActionInvalidWithNoChildJobs); | |
| } | |
| foreach (Job2 job in this.ChildJobs) | |
| { | |
| if (job == null) throw PSTraceSource.NewInvalidOperationException(RemotingErrorIdStrings.JobActionInvalidWithNullChild); | |
| } | |
| // If there is only one child job, call the synchronous method on the child to avoid use of another thread. | |
| // If there are multiple, we can run them in parallel using the asynchronous versions. | |
| if (ChildJobs.Count == 1) | |
| { | |
| Job2 child = ChildJobs[0] as Job2; | |
| Dbg.Assert(child != null, "Job is null after initial null check"); | |
| try | |
| { | |
| _tracer.WriteMessage(TraceClassName, "StartJob", Guid.Empty, this, | |
| "Single child job synchronously, child InstanceId: {0}", child.InstanceId.ToString()); | |
| child.StartJob(); | |
| JobRunning.WaitOne(); | |
| } | |
| catch (Exception e) | |
| { | |
| // These exceptions are thrown by third party code. Adding them here to the collection | |
| // of execution errors to present consistent behavior of the object. | |
| ExecutionError.Add(new ErrorRecord(e, "ContainerParentJobStartError", | |
| ErrorCategory.InvalidResult, child)); | |
| _tracer.WriteMessage(TraceClassName, "StartJob", Guid.Empty, this, | |
| "Single child job threw exception, child InstanceId: {0}", child.InstanceId.ToString()); | |
| _tracer.TraceException(e); | |
| } | |
| return; | |
| } | |
| var completed = new AutoResetEvent(false); | |
| // Count of StartJobCompleted events from children. | |
| var startedChildJobsCount = 0; | |
| EventHandler<AsyncCompletedEventArgs> eventHandler = (object sender, AsyncCompletedEventArgs e) => | |
| { | |
| var childJob = sender as Job2; | |
| Dbg.Assert(childJob != null, | |
| "StartJobCompleted only available on Job2"); | |
| _tracer.WriteMessage(TraceClassName, "StartJob-Handler", Guid.Empty, this, | |
| "Finished starting child job asynchronously, child InstanceId: {0}", childJob.InstanceId.ToString()); | |
| if (e.Error != null) | |
| { | |
| ExecutionError.Add( | |
| new ErrorRecord(e.Error, | |
| "ContainerParentJobStartError", | |
| ErrorCategory.InvalidResult, | |
| childJob)); | |
| _tracer.WriteMessage(TraceClassName, "StartJob-Handler", Guid.Empty, this, | |
| "Child job asynchronously had error, child InstanceId: {0}", childJob.InstanceId.ToString()); | |
| _tracer.TraceException(e.Error); | |
| } | |
| Interlocked.Increment(ref startedChildJobsCount); | |
| if (startedChildJobsCount == ChildJobs.Count) | |
| { | |
| _tracer.WriteMessage(TraceClassName, "StartJob-Handler", Guid.Empty, this, | |
| "Finished starting all child jobs asynchronously", null); | |
| JobRunning.WaitOne(); | |
| completed.Set(); | |
| } | |
| }; | |
| foreach (Job2 job in ChildJobs) | |
| { | |
| Dbg.Assert(job != null, "Job is null after initial null check"); | |
| job.StartJobCompleted += eventHandler; | |
| _tracer.WriteMessage(TraceClassName, "StartJob", Guid.Empty, this, | |
| "Child job asynchronously, child InstanceId: {0}", job.InstanceId.ToString()); | |
| // This child job is created to run synchronously and so can be debugged. Set | |
| // the IJobDebugger.IsAsync accordingly. | |
| ScriptDebugger.SetDebugJobAsync(job as IJobDebugger, false); | |
| job.StartJobAsync(); | |
| } | |
| completed.WaitOne(); | |
| foreach (Job2 job in ChildJobs) | |
| { | |
| Dbg.Assert(job != null, "Job is null after initial null check"); | |
| job.StartJobCompleted -= eventHandler; | |
| } | |
| /* | |
| if (ExecutionError.Count > 0) | |
| { | |
| // Check to see expected behavior if one child job fails to start. | |
| } | |
| if (ExecutionError.Count == 1) | |
| { | |
| throw ExecutionError[0]; | |
| } */ | |
| _tracer.WriteMessage(TraceClassName, "StartJob", Guid.Empty, this, "Exiting method", null); | |
| } | |
| private static readonly Tracer s_structuredTracer = new Tracer(); | |
| /// <summary> | |
| /// Starts all child jobs asynchronously. | |
| /// When all child jobs are started, StartJobCompleted event is raised. | |
| /// </summary> | |
| public override void StartJobAsync() | |
| { | |
| if (_isDisposed == DisposedTrue) | |
| { | |
| OnStartJobCompleted(new AsyncCompletedEventArgs(new ObjectDisposedException(TraceClassName), false, null)); | |
| return; | |
| } | |
| _tracer.WriteMessage(TraceClassName, "StartJobAsync", Guid.Empty, this, "Entering method", null); | |
| s_structuredTracer.BeginContainerParentJobExecution(InstanceId); | |
| foreach (Job2 job in this.ChildJobs) | |
| { | |
| if (job == null) throw PSTraceSource.NewInvalidOperationException(RemotingErrorIdStrings.JobActionInvalidWithNullChild); | |
| } | |
| // Count of StartJobCompleted events from children. | |
| var startedChildJobsCount = 0; | |
| EventHandler<AsyncCompletedEventArgs> eventHandler = null; | |
| eventHandler = (sender, e) => | |
| { | |
| var childJob = sender as Job2; | |
| Dbg.Assert(childJob != null, "StartJobCompleted only available on Job2"); | |
| _tracer.WriteMessage(TraceClassName, "StartJobAsync-Handler", Guid.Empty, this, | |
| "Finished starting child job asynchronously, child InstanceId: {0}", childJob.InstanceId.ToString()); | |
| if (e.Error != null) | |
| { | |
| ExecutionError.Add(new ErrorRecord(e.Error, "ContainerParentJobStartAsyncError", | |
| ErrorCategory.InvalidResult, childJob)); | |
| _tracer.WriteMessage(TraceClassName, "StartJobAsync-Handler", Guid.Empty, this, | |
| "Child job asynchronously had error, child InstanceId: {0}", childJob.InstanceId.ToString()); | |
| _tracer.TraceException(e.Error); | |
| } | |
| Interlocked.Increment(ref startedChildJobsCount); | |
| Dbg.Assert(eventHandler != null, "Event handler magically disappeared"); | |
| childJob.StartJobCompleted -= eventHandler; | |
| if (startedChildJobsCount == ChildJobs.Count) | |
| { | |
| _tracer.WriteMessage(TraceClassName, "StartJobAsync-Handler", Guid.Empty, this, | |
| "Finished starting all child jobs asynchronously", null); | |
| JobRunning.WaitOne(); | |
| // There may be multiple exceptions raised. They | |
| // are stored in the Error stream of this job object, which is otherwise | |
| // unused. | |
| OnStartJobCompleted(new AsyncCompletedEventArgs(null, false, null)); | |
| } | |
| }; | |
| foreach (Job2 job in ChildJobs) | |
| { | |
| Dbg.Assert(job != null, "Job is null after initial null check"); | |
| job.StartJobCompleted += eventHandler; | |
| _tracer.WriteMessage(TraceClassName, "StartJobAsync", Guid.Empty, this, | |
| "Child job asynchronously, child InstanceId: {0}", job.InstanceId.ToString()); | |
| job.StartJobAsync(); | |
| } | |
| _tracer.WriteMessage(TraceClassName, "StartJobAsync", Guid.Empty, this, "Exiting method", null); | |
| } | |
| /// <summary> | |
| /// Resume all jobs. | |
| /// </summary> | |
| /// <exception cref="ObjectDisposedException">Thrown if job is disposed.</exception> | |
| public override void ResumeJob() | |
| { | |
| AssertNotDisposed(); | |
| _tracer.WriteMessage(TraceClassName, "ResumeJob", Guid.Empty, this, "Entering method", null); | |
| // If parent contains no child jobs then this method will not respond. Throw error in this case. | |
| if (ChildJobs.Count == 0) | |
| { | |
| throw PSTraceSource.NewInvalidOperationException(RemotingErrorIdStrings.JobActionInvalidWithNoChildJobs); | |
| } | |
| foreach (Job2 job in this.ChildJobs) | |
| { | |
| if (job == null) throw PSTraceSource.NewInvalidOperationException(RemotingErrorIdStrings.JobActionInvalidWithNullChild); | |
| } | |
| // If there is only one child job, call the synchronous method on the child to avoid use of another thread. | |
| // If there are multiple, we can run them in parallel using the asynchronous versions. | |
| if (ChildJobs.Count == 1) | |
| { | |
| Job2 child = ChildJobs[0] as Job2; | |
| Dbg.Assert(child != null, "Job is null after initial null check"); | |
| try | |
| { | |
| _tracer.WriteMessage(TraceClassName, "ResumeJob", Guid.Empty, this, | |
| "Single child job synchronously, child InstanceId: {0}", child.InstanceId.ToString()); | |
| child.ResumeJob(); | |
| JobRunning.WaitOne(); | |
| } | |
| catch (Exception e) | |
| { | |
| // These exceptions are thrown by third party code. Adding them here to the collection | |
| // of execution errors to present consistent behavior of the object. | |
| ExecutionError.Add(new ErrorRecord(e, "ContainerParentJobResumeError", | |
| ErrorCategory.InvalidResult, child)); | |
| _tracer.WriteMessage(TraceClassName, "ResumeJob", Guid.Empty, this, | |
| "Single child job threw exception, child InstanceId: {0}", child.InstanceId.ToString()); | |
| _tracer.TraceException(e); | |
| } | |
| return; | |
| } | |
| var completed = new AutoResetEvent(false); | |
| // Count of ResumeJobCompleted events from children. | |
| var resumedChildJobsCount = 0; | |
| EventHandler<AsyncCompletedEventArgs> eventHandler = null; | |
| foreach (Job2 job in ChildJobs) | |
| { | |
| Dbg.Assert(job != null, "Job is null after initial null check"); | |
| eventHandler = (object sender, AsyncCompletedEventArgs e) => | |
| { | |
| var childJob = sender as Job2; | |
| Dbg.Assert(childJob != null, "ResumeJobCompleted only available on Job2"); | |
| _tracer.WriteMessage(TraceClassName, "ResumeJob-Handler", Guid.Empty, this, | |
| "Finished resuming child job asynchronously, child InstanceId: {0}", job.InstanceId.ToString()); | |
| if (e.Error != null) | |
| { | |
| ExecutionError.Add(new ErrorRecord(e.Error, "ContainerParentJobResumeError", | |
| ErrorCategory.InvalidResult, job)); | |
| _tracer.WriteMessage(TraceClassName, "ResumeJob-Handler", Guid.Empty, this, | |
| "Child job asynchronously had error, child InstanceId: {0}", job.InstanceId.ToString()); | |
| _tracer.TraceException(e.Error); | |
| } | |
| Interlocked.Increment(ref resumedChildJobsCount); | |
| if (resumedChildJobsCount == ChildJobs.Count) | |
| { | |
| _tracer.WriteMessage(TraceClassName, "ResumeJob-Handler", Guid.Empty, this, | |
| "Finished resuming all child jobs asynchronously", null); | |
| JobRunning.WaitOne(); | |
| completed.Set(); | |
| } | |
| }; | |
| job.ResumeJobCompleted += eventHandler; | |
| _tracer.WriteMessage(TraceClassName, "ResumeJob", Guid.Empty, this, | |
| "Child job asynchronously, child InstanceId: {0}", job.InstanceId.ToString()); | |
| job.ResumeJobAsync(); | |
| } | |
| completed.WaitOne(); | |
| Dbg.Assert(eventHandler != null, "Event handler magically disappeared"); | |
| foreach (Job2 job in ChildJobs) | |
| { | |
| Dbg.Assert(job != null, "Job is null after initial null check"); | |
| job.ResumeJobCompleted -= eventHandler; | |
| } | |
| _tracer.WriteMessage(TraceClassName, "ResumeJob", Guid.Empty, this, "Exiting method", null); | |
| // Errors are taken from the Error collection by the cmdlet for ContainerParentJob. | |
| } | |
| /// <summary> | |
| /// Resume all jobs asynchronously. | |
| /// </summary> | |
| public override void ResumeJobAsync() | |
| { | |
| if (_isDisposed == DisposedTrue) | |
| { | |
| OnResumeJobCompleted(new AsyncCompletedEventArgs(new ObjectDisposedException(TraceClassName), false, null)); | |
| return; | |
| } | |
| _tracer.WriteMessage(TraceClassName, "ResumeJobAsync", Guid.Empty, this, "Entering method", null); | |
| foreach (Job2 job in this.ChildJobs) | |
| { | |
| if (job == null) throw PSTraceSource.NewInvalidOperationException(RemotingErrorIdStrings.JobActionInvalidWithNullChild); | |
| } | |
| // Count of ResumeJobCompleted events from children. | |
| var resumedChildJobsCount = 0; | |
| foreach (Job2 job in ChildJobs) | |
| { | |
| Dbg.Assert(job != null, "Job is null after initial null check"); | |
| EventHandler<AsyncCompletedEventArgs> eventHandler = null; | |
| eventHandler = (sender, e) => | |
| { | |
| var childJob = sender as Job2; | |
| Dbg.Assert(childJob != null, "ResumeJobCompleted only available on Job2"); | |
| _tracer.WriteMessage(TraceClassName, "ResumeJobAsync-Handler", Guid.Empty, this, | |
| "Finished resuming child job asynchronously, child InstanceId: {0}", job.InstanceId.ToString()); | |
| if (e.Error != null) | |
| { | |
| ExecutionError.Add(new ErrorRecord(e.Error, "ContainerParentJobResumeAsyncError", | |
| ErrorCategory.InvalidResult, job)); | |
| _tracer.WriteMessage(TraceClassName, "ResumeJobAsync-Handler", Guid.Empty, this, | |
| "Child job asynchronously had error, child InstanceId: {0}", job.InstanceId.ToString()); | |
| _tracer.TraceException(e.Error); | |
| } | |
| Interlocked.Increment(ref resumedChildJobsCount); | |
| Dbg.Assert(eventHandler != null, "Event handler magically disappeared"); | |
| childJob.ResumeJobCompleted -= eventHandler; | |
| if (resumedChildJobsCount == ChildJobs.Count) | |
| { | |
| _tracer.WriteMessage(TraceClassName, "ResumeJobAsync-Handler", Guid.Empty, this, | |
| "Finished resuming all child jobs asynchronously", null); | |
| JobRunning.WaitOne(); | |
| // There may be multiple exceptions raised. They | |
| // are stored in the Error stream of this job object, which is otherwise | |
| // unused. | |
| OnResumeJobCompleted(new AsyncCompletedEventArgs(null, false, null)); | |
| } | |
| }; | |
| job.ResumeJobCompleted += eventHandler; | |
| _tracer.WriteMessage(TraceClassName, "ResumeJobAsync", Guid.Empty, this, | |
| "Child job asynchronously, child InstanceId: {0}", job.InstanceId.ToString()); | |
| job.ResumeJobAsync(); | |
| } | |
| _tracer.WriteMessage(TraceClassName, "ResumeJobAsync", Guid.Empty, this, "Exiting method", null); | |
| } | |
| /// <summary> | |
| /// Suspends all jobs. | |
| /// </summary> | |
| /// <exception cref="ObjectDisposedException">Thrown if job is disposed.</exception> | |
| public override void SuspendJob() | |
| { | |
| SuspendJobInternal(null, null); | |
| } | |
| /// <summary> | |
| /// Suspends all jobs forcefully. | |
| /// </summary> | |
| /// <param name="force">Force flag for suspending forcefully.</param> | |
| /// <param name="reason">Reason for doing forceful suspend.</param> | |
| public override void SuspendJob(bool force, string reason) | |
| { | |
| SuspendJobInternal(force, reason); | |
| } | |
| /// <summary> | |
| /// Suspends all jobs asynchronously. | |
| /// When all jobs have been suspended, SuspendJobCompleted is raised. | |
| /// </summary> | |
| public override void SuspendJobAsync() | |
| { | |
| SuspendJobAsyncInternal(null, null); | |
| } | |
| /// <summary> | |
| /// Suspends all jobs asynchronously with force flag. | |
| /// When all jobs have been suspended, SuspendJobCompleted is raised. | |
| /// </summary> | |
| /// <param name="force">Force flag for suspending forcefully.</param> | |
| /// <param name="reason">Reason for doing forceful suspend.</param> | |
| public override void SuspendJobAsync(bool force, string reason) | |
| { | |
| SuspendJobAsyncInternal(force, reason); | |
| } | |
| /// <summary> | |
| /// Stop all child jobs. | |
| /// </summary> | |
| public override void StopJob() | |
| { | |
| StopJobInternal(null, null); | |
| } | |
| /// <summary> | |
| /// Stops all child jobs asynchronously. | |
| /// Once all child jobs are stopped, StopJobCompleted event is raised. | |
| /// </summary> | |
| public override void StopJobAsync() | |
| { | |
| StopJobAsyncInternal(null, null); | |
| } | |
| /// <summary> | |
| /// StopJob. | |
| /// </summary> | |
| /// <param name="force"></param> | |
| /// <param name="reason"></param> | |
| public override void StopJob(bool force, string reason) | |
| { | |
| StopJobInternal(force, reason); | |
| } | |
| /// <summary> | |
| /// StopJobAsync. | |
| /// </summary> | |
| /// <param name="force"></param> | |
| /// <param name="reason"></param> | |
| public override void StopJobAsync(bool force, string reason) | |
| { | |
| StopJobAsyncInternal(force, reason); | |
| } | |
| /// <summary> | |
| /// Unblock all child jobs. | |
| /// </summary> | |
| /// <exception cref="ObjectDisposedException">Thrown if job is disposed.</exception> | |
| public override void UnblockJob() | |
| { | |
| AssertNotDisposed(); | |
| _tracer.WriteMessage(TraceClassName, "UnblockJob", Guid.Empty, this, "Entering method", null); | |
| // If parent contains no child jobs then this method will not respond. Throw error in this case. | |
| if (ChildJobs.Count == 0) | |
| { | |
| throw PSTraceSource.NewInvalidOperationException(RemotingErrorIdStrings.JobActionInvalidWithNoChildJobs); | |
| } | |
| foreach (Job2 job in this.ChildJobs) | |
| { | |
| if (job == null) throw PSTraceSource.NewInvalidOperationException(RemotingErrorIdStrings.JobActionInvalidWithNullChild); | |
| } | |
| // If there is only one child job, call the synchronous method on the child to avoid use of another thread. | |
| // If there are multiple, we can run them in parallel using the asynchronous versions. | |
| if (ChildJobs.Count == 1) | |
| { | |
| Job2 child = ChildJobs[0] as Job2; | |
| Dbg.Assert(child != null, "Job is null after initial null check"); | |
| try | |
| { | |
| _tracer.WriteMessage(TraceClassName, "UnblockJob", Guid.Empty, this, | |
| "Single child job synchronously, child InstanceId: {0}", child.InstanceId.ToString()); | |
| child.UnblockJob(); | |
| } | |
| catch (Exception e) | |
| { | |
| // These exceptions are thrown by third party code. Adding them here to the collection | |
| // of execution errors to present consistent behavior of the object. | |
| ExecutionError.Add(new ErrorRecord(e, "ContainerParentJobUnblockError", | |
| ErrorCategory.InvalidResult, child)); | |
| _tracer.WriteMessage(TraceClassName, "UnblockJob", Guid.Empty, this, | |
| "Single child job threw exception, child InstanceId: {0}", child.InstanceId.ToString()); | |
| _tracer.TraceException(e); | |
| } | |
| return; | |
| } | |
| var completed = new AutoResetEvent(false); | |
| // count of UnblockJobCompleted events from children. | |
| int unblockedChildJobsCount = 0; | |
| EventHandler<AsyncCompletedEventArgs> eventHandler = null; | |
| foreach (Job2 job in ChildJobs) | |
| { | |
| Dbg.Assert(job != null, "Job is null after initial null check"); | |
| eventHandler = (object sender, AsyncCompletedEventArgs e) => | |
| { | |
| var childJob = sender as Job2; | |
| Dbg.Assert(childJob != null, "UnblockJobCompleted only available on Job2"); | |
| _tracer.WriteMessage(TraceClassName, "UnblockJob-Handler", Guid.Empty, this, | |
| "Finished unblock child job asynchronously, child InstanceId: {0}", job.InstanceId.ToString()); | |
| if (e.Error != null) | |
| { | |
| ExecutionError.Add(new ErrorRecord(e.Error, "ContainerParentJobUnblockError", | |
| ErrorCategory.InvalidResult, childJob)); | |
| _tracer.WriteMessage(TraceClassName, "UnblockJob-Handler", Guid.Empty, this, | |
| "Child job asynchronously had error, child InstanceId: {0}", job.InstanceId.ToString()); | |
| _tracer.TraceException(e.Error); | |
| } | |
| Interlocked.Increment(ref unblockedChildJobsCount); | |
| if (unblockedChildJobsCount == ChildJobs.Count) | |
| { | |
| _tracer.WriteMessage(TraceClassName, "UnblockJob-Handler", Guid.Empty, this, | |
| "Finished unblock all child jobs asynchronously", null); | |
| completed.Set(); | |
| } | |
| }; | |
| job.UnblockJobCompleted += eventHandler; | |
| _tracer.WriteMessage(TraceClassName, "UnblockJob", Guid.Empty, this, | |
| "Child job asynchronously, child InstanceId: {0}", job.InstanceId.ToString()); | |
| job.UnblockJobAsync(); | |
| } | |
| completed.WaitOne(); | |
| Dbg.Assert(eventHandler != null, "Event handler magically disappeared"); | |
| foreach (Job2 job in ChildJobs) | |
| { | |
| Dbg.Assert(job != null, "Job is null after initial null check"); | |
| job.UnblockJobCompleted -= eventHandler; | |
| } | |
| _tracer.WriteMessage(TraceClassName, "UnblockJob", Guid.Empty, this, "Exiting method", null); | |
| // Errors are taken from the Error collection by the cmdlet for ContainerParentJob. | |
| } | |
| /// <summary> | |
| /// Unblock all child jobs asynchronously. | |
| /// Once all child jobs are unblocked, UnblockJobCompleted event is raised. | |
| /// </summary> | |
| public override void UnblockJobAsync() | |
| { | |
| if (_isDisposed == DisposedTrue) | |
| { | |
| OnUnblockJobCompleted(new AsyncCompletedEventArgs(new ObjectDisposedException(TraceClassName), false, null)); | |
| return; | |
| } | |
| _tracer.WriteMessage(TraceClassName, "UnblockJobAsync", Guid.Empty, this, "Entering method", null); | |
| foreach (Job2 job in this.ChildJobs) | |
| { | |
| if (job == null) throw PSTraceSource.NewInvalidOperationException(RemotingErrorIdStrings.JobActionInvalidWithNullChild); | |
| } | |
| // count of UnblockJobCompleted events from children. | |
| int unblockedChildJobsCount = 0; | |
| foreach (Job2 job in ChildJobs) | |
| { | |
| Dbg.Assert(job != null, "Job is null after initial null check"); | |
| EventHandler<AsyncCompletedEventArgs> eventHandler = null; | |
| eventHandler = (sender, e) => | |
| { | |
| var childJob = sender as Job2; | |
| Dbg.Assert(childJob != null, "UnblockJobCompleted only available on Job2"); | |
| _tracer.WriteMessage(TraceClassName, "UnblockJobAsync-Handler", Guid.Empty, this, | |
| "Finished unblock child job asynchronously, child InstanceId: {0}", job.InstanceId.ToString()); | |
| if (e.Error != null) | |
| { | |
| ExecutionError.Add(new ErrorRecord(e.Error, "ContainerParentJobUnblockError", | |
| ErrorCategory.InvalidResult, childJob)); | |
| _tracer.WriteMessage(TraceClassName, "UnblockJobAsync-Handler", Guid.Empty, this, | |
| "Child job asynchronously had error, child InstanceId: {0}", job.InstanceId.ToString()); | |
| _tracer.TraceException(e.Error); | |
| } | |
| Interlocked.Increment(ref unblockedChildJobsCount); | |
| Dbg.Assert(eventHandler != null, "Event handler magically disappeared"); | |
| childJob.UnblockJobCompleted -= eventHandler; | |
| if (unblockedChildJobsCount == ChildJobs.Count) | |
| { | |
| _tracer.WriteMessage(TraceClassName, "UnblockJobAsync-Handler", Guid.Empty, this, | |
| "Finished unblock all child jobs asynchronously", null); | |
| // State change is handled elsewhere. | |
| // There may be multiple exceptions raised. They | |
| // are stored in the Error stream of this job object, which is otherwise | |
| // unused. | |
| OnUnblockJobCompleted(new AsyncCompletedEventArgs(null, false, null)); | |
| } | |
| }; | |
| job.UnblockJobCompleted += eventHandler; | |
| _tracer.WriteMessage(TraceClassName, "UnblockJobAsync", Guid.Empty, this, | |
| "Child job asynchronously, child InstanceId: {0}", job.InstanceId.ToString()); | |
| job.UnblockJobAsync(); | |
| } | |
| _tracer.WriteMessage(TraceClassName, "UnblockJobAsync", Guid.Empty, this, "Exiting method", null); | |
| } | |
| /// <summary> | |
| /// Internal synchronous SuspendJob, calls appropriate version if Force is specified. | |
| /// </summary> | |
| /// <param name="force"></param> | |
| /// <param name="reason"></param> | |
| private void SuspendJobInternal(bool? force, string reason) | |
| { | |
| AssertNotDisposed(); | |
| _tracer.WriteMessage(TraceClassName, "SuspendJob", Guid.Empty, this, "Entering method", null); | |
| // If parent contains no child jobs then this method will not respond. Throw error in this case. | |
| if (ChildJobs.Count == 0) | |
| { | |
| throw PSTraceSource.NewInvalidOperationException(RemotingErrorIdStrings.JobActionInvalidWithNoChildJobs); | |
| } | |
| foreach (Job2 job in this.ChildJobs) | |
| { | |
| if (job == null) throw PSTraceSource.NewInvalidOperationException(RemotingErrorIdStrings.JobActionInvalidWithNullChild); | |
| } | |
| // If there is only one child job, call the synchronous method on the child to avoid use of another thread. | |
| // If there are multiple, we can run them in parallel using the asynchronous versions. | |
| if (ChildJobs.Count == 1) | |
| { | |
| Job2 child = ChildJobs[0] as Job2; | |
| Dbg.Assert(child != null, "Job is null after initial null check"); | |
| try | |
| { | |
| _tracer.WriteMessage(TraceClassName, "SuspendJob", Guid.Empty, this, | |
| "Single child job synchronously, child InstanceId: {0} force: {1}", child.InstanceId.ToString(), force.ToString()); | |
| if (force.HasValue) | |
| child.SuspendJob(force.Value, reason); | |
| else | |
| child.SuspendJob(); | |
| JobSuspendedOrAborted.WaitOne(); | |
| } | |
| catch (Exception e) | |
| { | |
| // These exceptions are thrown by third party code. Adding them here to the collection | |
| // of execution errors to present consistent behavior of the object. | |
| ExecutionError.Add(new ErrorRecord(e, "ContainerParentJobSuspendError", | |
| ErrorCategory.InvalidResult, child)); | |
| _tracer.WriteMessage(TraceClassName, "SuspendJob", Guid.Empty, this, | |
| "Single child job threw exception, child InstanceId: {0} force: {1}", child.InstanceId.ToString(), force.ToString()); | |
| _tracer.TraceException(e); | |
| } | |
| return; | |
| } | |
| AutoResetEvent completed = new AutoResetEvent(false); | |
| var suspendedChildJobsCount = 0; | |
| EventHandler<AsyncCompletedEventArgs> eventHandler = null; | |
| foreach (Job2 job in ChildJobs) | |
| { | |
| Dbg.Assert(job != null, "Job is null after initial null check"); | |
| eventHandler = (object sender, AsyncCompletedEventArgs e) => | |
| { | |
| var childJob = sender as Job2; | |
| Dbg.Assert(childJob != null, | |
| "SuspendJobCompleted only available on Job2"); | |
| _tracer.WriteMessage(TraceClassName, "SuspendJob-Handler", Guid.Empty, this, | |
| "Finished suspending child job asynchronously, child InstanceId: {0} force: {1}", job.InstanceId.ToString(), force.ToString()); | |
| if (e.Error != null) | |
| { | |
| ExecutionError.Add(new ErrorRecord(e.Error, "ContainerParentJobSuspendError", | |
| ErrorCategory.InvalidResult, job)); | |
| _tracer.WriteMessage(TraceClassName, "SuspendJob-Handler", Guid.Empty, this, | |
| "Child job asynchronously had error, child InstanceId: {0} force: {1}", job.InstanceId.ToString(), force.ToString()); | |
| _tracer.TraceException(e.Error); | |
| } | |
| Interlocked.Increment(ref suspendedChildJobsCount); | |
| if (suspendedChildJobsCount == ChildJobs.Count) | |
| { | |
| _tracer.WriteMessage(TraceClassName, "SuspendJob-Handler", Guid.Empty, this, | |
| "Finished suspending all child jobs asynchronously", null); | |
| JobSuspendedOrAborted.WaitOne(); | |
| completed.Set(); | |
| } | |
| }; | |
| job.SuspendJobCompleted += eventHandler; | |
| _tracer.WriteMessage(TraceClassName, "SuspendJob", Guid.Empty, this, | |
| "Child job asynchronously, child InstanceId: {0} force: {1}", job.InstanceId.ToString(), force.ToString()); | |
| if (force.HasValue) | |
| job.SuspendJobAsync(force.Value, reason); | |
| else | |
| job.SuspendJobAsync(); | |
| } | |
| completed.WaitOne(); | |
| Dbg.Assert(eventHandler != null, "Event handler magically disappeared"); | |
| foreach (Job2 job in ChildJobs) | |
| { | |
| Dbg.Assert(job != null, "Job is null after initial null check"); | |
| job.SuspendJobCompleted -= eventHandler; | |
| } | |
| _tracer.WriteMessage(TraceClassName, "SuspendJob", Guid.Empty, this, "Exiting method", null); | |
| // Errors are taken from the Error collection by the cmdlet for ContainerParentJob. | |
| } | |
| /// <summary> | |
| /// Internal SuspendJobAsync. Calls appropriate method if Force is specified. | |
| /// </summary> | |
| /// <param name="force"></param> | |
| /// <param name="reason"></param> | |
| private void SuspendJobAsyncInternal(bool? force, string reason) | |
| { | |
| if (_isDisposed == DisposedTrue) | |
| { | |
| OnSuspendJobCompleted(new AsyncCompletedEventArgs(new ObjectDisposedException(TraceClassName), false, null)); | |
| return; | |
| } | |
| _tracer.WriteMessage(TraceClassName, "SuspendJobAsync", Guid.Empty, this, "Entering method", null); | |
| foreach (Job2 job in this.ChildJobs) | |
| { | |
| if (job == null) throw PSTraceSource.NewInvalidOperationException(RemotingErrorIdStrings.JobActionInvalidWithNullChild); | |
| } | |
| // Count of SuspendJobCompleted events from children. | |
| var suspendedChildJobsCount = 0; | |
| foreach (Job2 job in ChildJobs) | |
| { | |
| Dbg.Assert(job != null, "Job is null after initial null check"); | |
| EventHandler<AsyncCompletedEventArgs> eventHandler = null; | |
| eventHandler = (sender, e) => | |
| { | |
| var childJob = sender as Job2; | |
| Dbg.Assert(childJob != null, "SuspendJobCompleted only available on Job2"); | |
| _tracer.WriteMessage(TraceClassName, "SuspendJobAsync-Handler", Guid.Empty, this, | |
| "Finished suspending child job asynchronously, child InstanceId: {0} force: {1}", job.InstanceId.ToString(), force.ToString()); | |
| if (e.Error != null) | |
| { | |
| ExecutionError.Add(new ErrorRecord(e.Error, "ContainerParentJobSuspendAsyncError", | |
| ErrorCategory.InvalidResult, job)); | |
| _tracer.WriteMessage(TraceClassName, "SuspendJobAsync-Handler", Guid.Empty, this, | |
| "Child job asynchronously had error, child InstanceId: {0} force: {1}", job.InstanceId.ToString(), force.ToString()); | |
| _tracer.TraceException(e.Error); | |
| } | |
| Interlocked.Increment(ref suspendedChildJobsCount); | |
| Dbg.Assert(eventHandler != null, "Event handler magically disappeared"); | |
| childJob.SuspendJobCompleted -= eventHandler; | |
| if (suspendedChildJobsCount == ChildJobs.Count) | |
| { | |
| _tracer.WriteMessage(TraceClassName, "SuspendJobAsync-Handler", Guid.Empty, this, | |
| "Finished suspending all child jobs asynchronously", null); | |
| JobSuspendedOrAborted.WaitOne(); | |
| // There may be multiple exceptions raised. They | |
| // are stored in the Error stream of this job object, which is otherwise | |
| // unused. | |
| OnSuspendJobCompleted(new AsyncCompletedEventArgs(null, false, null)); | |
| } | |
| }; | |
| job.SuspendJobCompleted += eventHandler; | |
| _tracer.WriteMessage(TraceClassName, "SuspendJobAsync", Guid.Empty, this, | |
| "Child job asynchronously, child InstanceId: {0} force: {1}", job.InstanceId.ToString(), force.ToString()); | |
| if (force.HasValue) | |
| job.SuspendJobAsync(force.Value, reason); | |
| else | |
| job.SuspendJobAsync(); | |
| } | |
| _tracer.WriteMessage(TraceClassName, "SuspendJobAsync", Guid.Empty, this, "Exiting method", null); | |
| } | |
| /// <summary> | |
| /// StopJob. | |
| /// </summary> | |
| /// <param name="force"></param> | |
| /// <param name="reason"></param> | |
| private void StopJobInternal(bool? force, string reason) | |
| { | |
| AssertNotDisposed(); | |
| _tracer.WriteMessage(TraceClassName, "StopJob", Guid.Empty, this, "Entering method", null); | |
| // If parent contains no child jobs then this method will not respond. Throw error in this case. | |
| if (ChildJobs.Count == 0) | |
| { | |
| throw PSTraceSource.NewInvalidOperationException(RemotingErrorIdStrings.JobActionInvalidWithNoChildJobs); | |
| } | |
| foreach (Job2 job in this.ChildJobs) | |
| { | |
| if (job == null) throw PSTraceSource.NewInvalidOperationException(RemotingErrorIdStrings.JobActionInvalidWithNullChild); | |
| } | |
| // If there is only one child job, call the synchronous method on the child to avoid use of another thread. | |
| // If there are multiple, we can run them in parallel using the asynchronous versions. | |
| if (ChildJobs.Count == 1) | |
| { | |
| Job2 child = ChildJobs[0] as Job2; | |
| Dbg.Assert(child != null, "Job is null after initial null check"); | |
| try | |
| { | |
| _tracer.WriteMessage(TraceClassName, "StopJob", Guid.Empty, this, | |
| "Single child job synchronously, child InstanceId: {0}", child.InstanceId.ToString()); | |
| if (force.HasValue) | |
| child.StopJob(force.Value, reason); | |
| else | |
| child.StopJob(); | |
| Finished.WaitOne(); | |
| } | |
| catch (Exception e) | |
| { | |
| // These exceptions are thrown by third party code. Adding them here to the collection | |
| // of execution errors to present consistent behavior of the object. | |
| ExecutionError.Add(new ErrorRecord(e, "ContainerParentJobStopError", | |
| ErrorCategory.InvalidResult, child)); | |
| _tracer.WriteMessage(TraceClassName, "StopJob", Guid.Empty, this, | |
| "Single child job threw exception, child InstanceId: {0}", child.InstanceId.ToString()); | |
| _tracer.TraceException(e); | |
| } | |
| return; | |
| } | |
| AutoResetEvent completed = new AutoResetEvent(false); | |
| // Count of StopJobCompleted events from children. | |
| var stoppedChildJobsCount = 0; | |
| EventHandler<AsyncCompletedEventArgs> eventHandler = null; | |
| foreach (Job2 job in ChildJobs) | |
| { | |
| Dbg.Assert(job != null, "Job is null after initial null check"); | |
| eventHandler = (object sender, AsyncCompletedEventArgs e) => | |
| { | |
| var childJob = sender as Job2; | |
| Dbg.Assert(childJob != null, | |
| "StopJobCompleted only available on Job2"); | |
| _tracer.WriteMessage(TraceClassName, "StopJob-Handler", Guid.Empty, this, | |
| "Finished stopping child job asynchronously, child InstanceId: {0}", job.InstanceId.ToString()); | |
| if (e.Error != null) | |
| { | |
| ExecutionError.Add(new ErrorRecord(e.Error, "ContainerParentJobStopError", | |
| ErrorCategory.InvalidResult, job)); | |
| _tracer.WriteMessage(TraceClassName, "StopJob-Handler", Guid.Empty, this, | |
| "Child job asynchronously had error, child InstanceId: {0}", job.InstanceId.ToString()); | |
| _tracer.TraceException(e.Error); | |
| } | |
| Interlocked.Increment(ref stoppedChildJobsCount); | |
| if (stoppedChildJobsCount == ChildJobs.Count) | |
| { | |
| _tracer.WriteMessage(TraceClassName, "StopJob-Handler", Guid.Empty, this, | |
| "Finished stopping all child jobs asynchronously", null); | |
| Finished.WaitOne(); | |
| completed.Set(); | |
| } | |
| }; | |
| job.StopJobCompleted += eventHandler; | |
| _tracer.WriteMessage(TraceClassName, "StopJob", Guid.Empty, this, | |
| "Child job asynchronously, child InstanceId: {0}", job.InstanceId.ToString()); | |
| if (force.HasValue) | |
| job.StopJobAsync(force.Value, reason); | |
| else | |
| job.StopJobAsync(); | |
| } | |
| completed.WaitOne(); | |
| Dbg.Assert(eventHandler != null, "Event handler magically disappeared"); | |
| foreach (Job2 job in ChildJobs) | |
| { | |
| Dbg.Assert(job != null, "Job is null after initial null check"); | |
| job.StopJobCompleted -= eventHandler; | |
| } | |
| _tracer.WriteMessage(TraceClassName, "StopJob", Guid.Empty, this, "Exiting method", null); | |
| // Errors are taken from the Error collection by the cmdlet for ContainerParentJob. | |
| } | |
| /// <summary> | |
| /// StopJobAsync. | |
| /// </summary> | |
| /// <param name="force"></param> | |
| /// <param name="reason"></param> | |
| private void StopJobAsyncInternal(bool? force, string reason) | |
| { | |
| if (_isDisposed == DisposedTrue) | |
| { | |
| OnStopJobCompleted(new AsyncCompletedEventArgs(new ObjectDisposedException(TraceClassName), false, null)); | |
| return; | |
| } | |
| _tracer.WriteMessage(TraceClassName, "StopJobAsync", Guid.Empty, this, "Entering method", null); | |
| foreach (Job2 job in this.ChildJobs) | |
| { | |
| if (job == null) throw PSTraceSource.NewInvalidOperationException(RemotingErrorIdStrings.JobActionInvalidWithNullChild); | |
| } | |
| // count of StopJobCompleted events from children. | |
| int stoppedChildJobsCount = 0; | |
| foreach (Job2 job in ChildJobs) | |
| { | |
| Dbg.Assert(job != null, "Job is null after initial null check"); | |
| EventHandler<AsyncCompletedEventArgs> eventHandler = null; | |
| eventHandler = (sender, e) => | |
| { | |
| var childJob = sender as Job2; | |
| Dbg.Assert(childJob != null, "StopJobCompleted only available on Job2"); | |
| _tracer.WriteMessage(TraceClassName, "StopJobAsync-Handler", Guid.Empty, this, | |
| "Finished stopping child job asynchronously, child InstanceId: {0}", job.InstanceId.ToString()); | |
| if (e.Error != null) | |
| { | |
| ExecutionError.Add(new ErrorRecord(e.Error, "ContainerParentJobStopAsyncError", | |
| ErrorCategory.InvalidResult, childJob)); | |
| _tracer.WriteMessage(TraceClassName, "StopJobAsync-Handler", Guid.Empty, this, | |
| "Child job asynchronously had error, child InstanceId: {0}", job.InstanceId.ToString()); | |
| _tracer.TraceException(e.Error); | |
| } | |
| Interlocked.Increment(ref stoppedChildJobsCount); | |
| Dbg.Assert(eventHandler != null, "Event handler magically disappeared"); | |
| childJob.StopJobCompleted -= eventHandler; | |
| if (stoppedChildJobsCount == ChildJobs.Count) | |
| { | |
| _tracer.WriteMessage(TraceClassName, "StopJobAsync-Handler", Guid.Empty, this, | |
| "Finished stopping all child jobs asynchronously", null); | |
| Finished.WaitOne(); | |
| // There may be multiple exceptions raised. They | |
| // are stored in the Error stream of this job object, which is otherwise | |
| // unused. | |
| OnStopJobCompleted(new AsyncCompletedEventArgs(null, false, null)); | |
| } | |
| }; | |
| job.StopJobCompleted += eventHandler; | |
| _tracer.WriteMessage(TraceClassName, "StopJobAsync", Guid.Empty, this, | |
| "Child job asynchronously, child InstanceId: {0}", job.InstanceId.ToString()); | |
| if (force.HasValue) | |
| job.StopJobAsync(force.Value, reason); | |
| else | |
| job.StopJobAsync(); | |
| } | |
| _tracer.WriteMessage(TraceClassName, "StopJobAsync", Guid.Empty, this, "Exiting method", null); | |
| } | |
| private void HandleMyStateChanged(object sender, JobStateEventArgs e) | |
| { | |
| _tracer.WriteMessage(TraceClassName, "HandleMyStateChanged", Guid.Empty, this, | |
| "NewState: {0}; OldState: {1}", e.JobStateInfo.State.ToString(), | |
| e.PreviousJobStateInfo.State.ToString()); | |
| switch (e.JobStateInfo.State) | |
| { | |
| case JobState.Running: | |
| { | |
| lock (_syncObject) | |
| { | |
| JobRunning.Set(); | |
| // Do not create the event if it doesn't already exist. Suspend may never be called. | |
| if (_jobSuspendedOrAborted != null) | |
| JobSuspendedOrAborted.Reset(); | |
| } | |
| } | |
| break; | |
| case JobState.Suspended: | |
| { | |
| lock (_syncObject) | |
| { | |
| JobSuspendedOrAborted.Set(); | |
| JobRunning.Reset(); | |
| } | |
| } | |
| break; | |
| case JobState.Failed: | |
| case JobState.Completed: | |
| case JobState.Stopped: | |
| { | |
| lock (_syncObject) | |
| { | |
| JobSuspendedOrAborted.Set(); | |
| // Do not reset JobRunning when the state is terminal. | |
| // No thread should wait on a job transitioning again to | |
| // JobState.Running. | |
| JobRunning.Set(); | |
| } | |
| } | |
| break; | |
| } | |
| } | |
| /// <summary> | |
| /// Handles the StateChanged event from each of the child job objects. | |
| /// </summary> | |
| /// <param name="sender"></param> | |
| /// <param name="e"></param> | |
| private void HandleChildJobStateChanged(object sender, JobStateEventArgs e) | |
| { | |
| ParentJobStateCalculation(e); | |
| } | |
| private void ParentJobStateCalculation(JobStateEventArgs e) | |
| { | |
| JobState computedState; | |
| if (ComputeJobStateFromChildJobStates("ContainerParentJob", e, ref _blockedChildJobsCount, ref _suspendedChildJobsCount, ref _suspendingChildJobsCount, | |
| ref _finishedChildJobsCount, ref _failedChildJobsCount, ref _stoppedChildJobsCount, ChildJobs.Count, out computedState)) | |
| { | |
| if (computedState != JobStateInfo.State) | |
| { | |
| if (JobStateInfo.State == JobState.NotStarted && computedState == JobState.Running) | |
| { | |
| PSBeginTime = DateTime.Now; | |
| } | |
| if (!IsFinishedState(JobStateInfo.State) && IsPersistentState(computedState)) | |
| { | |
| PSEndTime = DateTime.Now; | |
| } | |
| SetJobState(computedState); | |
| } | |
| if (_finishedChildJobsCount == ChildJobs.Count) | |
| { | |
| s_structuredTracer.EndContainerParentJobExecution(InstanceId); | |
| } | |
| } | |
| } | |
| /// <summary> | |
| /// Handles the StateChanged event from each of the child job objects. | |
| /// </summary> | |
| /// <param name="traceClassName"></param> | |
| /// <param name="e"></param> | |
| /// <param name="blockedChildJobsCount"></param> | |
| /// <param name="suspendedChildJobsCount"></param> | |
| /// <param name="suspendingChildJobsCount"></param> | |
| /// <param name="finishedChildJobsCount"></param> | |
| /// <param name="stoppedChildJobsCount"></param> | |
| /// <param name="childJobsCount"></param> | |
| /// <param name="computedJobState"></param> | |
| /// <param name="failedChildJobsCount"></param> | |
| /// <returns>True if the job state needs to be modified, false otherwise.</returns> | |
| internal static bool ComputeJobStateFromChildJobStates(string traceClassName, JobStateEventArgs e, | |
| ref int blockedChildJobsCount, ref int suspendedChildJobsCount, ref int suspendingChildJobsCount, ref int finishedChildJobsCount, | |
| ref int failedChildJobsCount, ref int stoppedChildJobsCount, int childJobsCount, | |
| out JobState computedJobState) | |
| { | |
| computedJobState = JobState.NotStarted; | |
| using (PowerShellTraceSource tracer = PowerShellTraceSourceFactory.GetTraceSource()) | |
| { | |
| if (e.JobStateInfo.State == JobState.Blocked) | |
| { | |
| // increment count of blocked child jobs | |
| Interlocked.Increment(ref blockedChildJobsCount); | |
| // if any of the child job is blocked, we set state to blocked | |
| tracer.WriteMessage(traceClassName, ": JobState is Blocked, at least one child job is blocked."); | |
| computedJobState = JobState.Blocked; | |
| return true; | |
| } | |
| if (e.PreviousJobStateInfo.State == JobState.Blocked) | |
| { | |
| // check if any of the child jobs were unblocked | |
| // in which case we need to check if the parent | |
| // job needs to be unblocked as well | |
| Interlocked.Decrement(ref blockedChildJobsCount); | |
| if (blockedChildJobsCount == 0) | |
| { | |
| tracer.WriteMessage(traceClassName, ": JobState is unblocked, all child jobs are unblocked."); | |
| computedJobState = JobState.Running; | |
| return true; | |
| } | |
| return false; | |
| } | |
| if (e.PreviousJobStateInfo.State == JobState.Suspended) | |
| { | |
| // decrement count of suspended child jobs | |
| // needed to determine when all incomplete child jobs are suspended for parent job state. | |
| Interlocked.Decrement(ref suspendedChildJobsCount); | |
| } | |
| if (e.PreviousJobStateInfo.State == JobState.Suspending) | |
| { | |
| // decrement count of suspending child jobs | |
| // needed to determine when all incomplete child jobs are suspended for parent job state. | |
| Interlocked.Decrement(ref suspendingChildJobsCount); | |
| } | |
| if (e.JobStateInfo.State == JobState.Suspended) | |
| { | |
| // increment count of suspended child jobs. | |
| Interlocked.Increment(ref suspendedChildJobsCount); | |
| // We know that at least one child is suspended. If all jobs are either complete or suspended, set the state. | |
| if (suspendedChildJobsCount + finishedChildJobsCount == childJobsCount) | |
| { | |
| tracer.WriteMessage(traceClassName, ": JobState is suspended, all child jobs are suspended."); | |
| computedJobState = JobState.Suspended; | |
| return true; | |
| } | |
| // Job state should continue to be running unless: | |
| // at least one child is suspended | |
| // AND | |
| // all child jobs are either suspended or finished. | |
| return false; | |
| } | |
| if (e.JobStateInfo.State == JobState.Suspending) | |
| { | |
| // increment count of suspending child jobs. | |
| Interlocked.Increment(ref suspendingChildJobsCount); | |
| // We know that at least one child is suspended. If all jobs are either complete or suspended, set the state. | |
| if (suspendedChildJobsCount + finishedChildJobsCount + suspendingChildJobsCount == childJobsCount) | |
| { | |
| tracer.WriteMessage(traceClassName, ": JobState is suspending, all child jobs are in suspending state."); | |
| computedJobState = JobState.Suspending; | |
| return true; | |
| } | |
| // Job state should continue to be running unless: | |
| // at least one child is suspended, suspending | |
| // AND | |
| // all child jobs are either suspended or finished. | |
| return false; | |
| } | |
| // Ignore state changes which are not resulting in state change to finished. | |
| // State will be Running once at least one child is running. | |
| if ((e.JobStateInfo.State != JobState.Completed && e.JobStateInfo.State != JobState.Failed) && e.JobStateInfo.State != JobState.Stopped) | |
| { | |
| if (e.JobStateInfo.State == JobState.Running) | |
| { | |
| computedJobState = JobState.Running; | |
| return true; | |
| } | |
| // if the job state is Suspended, we have already returned. | |
| // if the job state is NotStarted, do not set the state. | |
| // if the job state is blocked, we have already returned. | |
| return false; | |
| } | |
| if (e.JobStateInfo.State == JobState.Failed) | |
| { | |
| // If any of the child job failed, we set status to failed | |
| // we can set it right now and | |
| Interlocked.Increment(ref failedChildJobsCount); | |
| } | |
| // If stop has not been called, but a child has been stopped, the parent should | |
| // reflect the stopped state. | |
| if (e.JobStateInfo.State == JobState.Stopped) | |
| { | |
| Interlocked.Increment(ref stoppedChildJobsCount); | |
| } | |
| bool allChildJobsFinished = false; | |
| int finishedChildJobsCountNew = Interlocked.Increment(ref finishedChildJobsCount); | |
| // We are done | |
| if (finishedChildJobsCountNew == childJobsCount) | |
| { | |
| allChildJobsFinished = true; | |
| } | |
| if (allChildJobsFinished) | |
| { | |
| // if any child job failed, set status to failed | |
| // If stop was called set, status to stopped | |
| // else completed); | |
| if (failedChildJobsCount > 0) | |
| { | |
| tracer.WriteMessage(traceClassName, ": JobState is failed, at least one child job failed."); | |
| computedJobState = JobState.Failed; | |
| return true; | |
| } | |
| if (stoppedChildJobsCount > 0) | |
| { | |
| tracer.WriteMessage(traceClassName, ": JobState is stopped, stop is called."); | |
| computedJobState = JobState.Stopped; | |
| return true; | |
| } | |
| tracer.WriteMessage(traceClassName, ": JobState is completed."); | |
| computedJobState = JobState.Completed; | |
| return true; | |
| } | |
| // If not all jobs are finished, one child job may be suspended, even though this job did not finish. | |
| // At this point, we know finishedChildJobsCountNew != childJobsCount | |
| if (suspendedChildJobsCount + finishedChildJobsCountNew == childJobsCount) | |
| { | |
| tracer.WriteMessage(traceClassName, ": JobState is suspended, all child jobs are suspended."); | |
| computedJobState = JobState.Suspended; | |
| return true; | |
| } | |
| // If not all jobs are finished, one child job may be suspending, even though this job did not finish. | |
| // At this point, we know finishedChildJobsCountNew != childJobsCount and finishChildJobsCount + suspendedChilJobsCout != childJobsCount | |
| if (suspendingChildJobsCount + suspendedChildJobsCount + finishedChildJobsCountNew == childJobsCount) | |
| { | |
| tracer.WriteMessage(traceClassName, ": JobState is suspending, all child jobs are in suspending state."); | |
| computedJobState = JobState.Suspending; | |
| return true; | |
| } | |
| } | |
| return false; | |
| } | |
| /// <summary> | |
| /// Release all the resources. | |
| /// </summary> | |
| /// <param name="disposing"> | |
| /// if true, release all the managed objects. | |
| /// </param> | |
| protected override void Dispose(bool disposing) | |
| { | |
| if (!disposing) return; | |
| if (Interlocked.CompareExchange(ref _isDisposed, DisposedTrue, DisposedFalse) == DisposedTrue) return; | |
| try | |
| { | |
| UnregisterAllJobEvents(); | |
| _executionError.Dispose(); | |
| StateChanged -= HandleMyStateChanged; | |
| foreach (Job job in ChildJobs) | |
| { | |
| _tracer.WriteMessage("Disposing child job with id : " + job.Id); | |
| job.Dispose(); | |
| } | |
| _jobRunning?.Dispose(); | |
| _jobSuspendedOrAborted?.Dispose(); | |
| } | |
| finally | |
| { | |
| base.Dispose(true); | |
| } | |
| } | |
| private string ConstructLocation() | |
| { | |
| if (ChildJobs == null || ChildJobs.Count == 0) | |
| return string.Empty; | |
| string location = ChildJobs.Select(static (job) => job.Location).Aggregate((s1, s2) => s1 + ',' + s2); | |
| return location; | |
| } | |
| private string ConstructStatusMessage() | |
| { | |
| if (ChildJobs == null || ChildJobs.Count == 0) | |
| return string.Empty; | |
| StringBuilder sb = new StringBuilder(); | |
| for (int i = 0; i < ChildJobs.Count; i++) | |
| { | |
| if (!string.IsNullOrEmpty(ChildJobs[i].StatusMessage)) | |
| { | |
| sb.Append(ChildJobs[i].StatusMessage); | |
| } | |
| if (i < (ChildJobs.Count - 1)) | |
| { | |
| sb.Append(','); | |
| } | |
| } | |
| return sb.ToString(); | |
| } | |
| /// <summary> | |
| /// Computers on which this job is running. | |
| /// </summary> | |
| public override string Location | |
| { | |
| get | |
| { | |
| return ConstructLocation(); | |
| } | |
| } | |
| private void UnregisterJobEvent(Job job) | |
| { | |
| string sourceIdentifier = job.InstanceId + ":StateChanged"; | |
| _tracer.WriteMessage("Unregistering StateChanged event for job ", job.InstanceId); | |
| foreach (PSEventSubscriber subscriber in | |
| EventManager.Subscribers.Where(subscriber => string.Equals(subscriber.SourceIdentifier, sourceIdentifier, StringComparison.OrdinalIgnoreCase))) | |
| { | |
| EventManager.UnsubscribeEvent(subscriber); | |
| break; | |
| } | |
| } | |
| private void UnregisterAllJobEvents() | |
| { | |
| if (EventManager == null) | |
| { | |
| _tracer.WriteMessage("No events subscribed, skipping event unregistrations"); | |
| return; | |
| } | |
| foreach (var job in ChildJobs) | |
| { | |
| UnregisterJobEvent(job); | |
| } | |
| UnregisterJobEvent(this); | |
| _tracer.WriteMessage("Setting event manager to null"); | |
| EventManager = null; | |
| } | |
| } | |
| /// <summary> | |
| /// Container exception for jobs that can map errors and exceptions | |
| /// to specific lines in their input. | |
| /// </summary> | |
| public class JobFailedException : SystemException | |
| { | |
| /// <summary> | |
| /// Creates a new JobFailedException. | |
| /// </summary> | |
| public JobFailedException() | |
| { | |
| } | |
| /// <summary> | |
| /// Creates a new JobFailedException. | |
| /// </summary> | |
| /// <param name="message">The message of the exception.</param> | |
| public JobFailedException(string message) | |
| : base(message) | |
| { | |
| } | |
| /// <summary> | |
| /// Creates a new JobFailedException. | |
| /// </summary> | |
| /// <param name="message">The message of the exception.</param> | |
| /// <param name="innerException">The actual exception that caused this error.</param> | |
| public JobFailedException(string message, Exception innerException) | |
| : base(message, innerException) | |
| { | |
| } | |
| /// <summary> | |
| /// Creates a new JobFailedException. | |
| /// </summary> | |
| /// <param name="innerException">The actual exception that caused this error.</param> | |
| /// <param name="displayScriptPosition">A ScriptExtent that describes where this error originated from.</param> | |
| public JobFailedException(Exception innerException, ScriptExtent displayScriptPosition) | |
| { | |
| _reason = innerException; | |
| _displayScriptPosition = displayScriptPosition; | |
| } | |
| /// <summary> | |
| /// Class constructor. | |
| /// </summary> | |
| /// <param name="serializationInfo">Serialization info.</param> | |
| /// <param name="streamingContext">Streaming context.</param> | |
| [] | |
| protected JobFailedException(SerializationInfo serializationInfo, StreamingContext streamingContext) | |
| { | |
| throw new NotSupportedException(); | |
| } | |
| /// <summary> | |
| /// The actual exception that caused this error. | |
| /// </summary> | |
| public Exception Reason { get { return _reason; } } | |
| private readonly Exception _reason; | |
| /// <summary> | |
| /// The user-focused location from where this error originated. | |
| /// </summary> | |
| public ScriptExtent DisplayScriptPosition { get { return _displayScriptPosition; } } | |
| private readonly ScriptExtent _displayScriptPosition; | |
| /// <summary> | |
| /// Returns the reason for this exception. | |
| /// </summary> | |
| public override string Message | |
| { | |
| get | |
| { | |
| return Reason.Message; | |
| } | |
| } | |
| } | |
| } | |