public static bool ShowModal(IWin32Window Owner, PerforceConnection DefaultConnection, string StreamName, string ProjectPath, int Changelist, string Command, UserSettings Settings, TextWriter Log, out BuildInfo BuildInfo)
{
string DefaultWorkspaceName = AutomatedSyncWindow.FindDefaultWorkspace(Owner, DefaultConnection, StreamName, Log);
string DefaultProjectPath = null;
if (!String.IsNullOrEmpty(ProjectPath))
{
DefaultProjectPath = ProjectPath;
}
else if (DefaultWorkspaceName != null)
{
string ClientPrefix = String.Format("//{0}/", DefaultWorkspaceName);
foreach (UserSelectedProjectSettings ProjectSettings in Settings.RecentProjects)
{
if (ProjectSettings.ClientPath.StartsWith(ClientPrefix, StringComparison.OrdinalIgnoreCase))
{
DefaultProjectPath = ProjectSettings.ClientPath.Substring(ClientPrefix.Length - 1);
break;
}
}
}
AutomatedBuildWindow Window = new AutomatedBuildWindow(StreamName, Changelist, Command, DefaultConnection, DefaultWorkspaceName, DefaultProjectPath, Log);
if (Window.ShowDialog() == DialogResult.OK)
{
BuildInfo = Window.Result;
return(true);
}
else
{
BuildInfo = null;
return(false);
}
}
/// <summary>
/// Filters all the likely causers from the list of changes since an issue was created
/// </summary>
/// <param name="Perforce">The perforce connection</param>
/// <param name="Fingerprint">Fingerprint for the issue</param>
/// <param name="Changes">List of changes since the issue first occurred.</param>
/// <returns>List of changes which are causers for the issue</returns>
public virtual List <ChangeInfo> FindCausers(PerforceConnection Perforce, BuildHealthIssue Issue, IReadOnlyList <ChangeInfo> Changes)
{
SortedSet <string> FileNamesWithoutPath = GetFileNamesWithoutPath(Issue.FileNames);
List <ChangeInfo> Causers = new List <ChangeInfo>();
foreach (ChangeInfo Change in Changes)
{
DescribeRecord Description = Perforce.Describe(Change.Record.Number).Data;
if (ContainsFileNames(Description, FileNamesWithoutPath))
{
Causers.Add(Change);
}
}
if (Causers.Count > 0)
{
return(Causers);
}
else
{
return(new List <ChangeInfo>(Changes));
}
}
/// <summary>
/// Finds or adds an issue for a particular issue
/// </summary>
/// <param name="Perforce">Perforce connection used to find possible causers</param>
/// <param name="State">The current set of tracked issues</param>
/// <param name="Build">The new build</param>
/// <param name="PreviousChange">The last changelist that was built before this one</param>
/// <param name="InputJob">Job containing the step to add</param>
/// <param name="InputJobStep">The job step to add</param>
BuildHealthIssue MergeIntoExistingIssue(PerforceConnection Perforce, BuildHealthState State, InputJob InputJob, InputJobStep InputJobStep, BuildHealthIssue InputIssue, Lazy <IReadOnlyList <ChangeInfo> > LazyChanges)
{
// Find the pattern matcher for this fingerprint
PatternMatcher Matcher = CategoryToMatcher[InputIssue.Category];
// Check if it can be added to an existing open issue
foreach (BuildHealthIssue Issue in State.Issues)
{
// Check this issue already exists in the current stream
Dictionary <string, BuildHealthJobHistory> StepNameToHistory;
if (!Issue.Streams.TryGetValue(InputJob.Stream, out StepNameToHistory))
{
continue;
}
// Check that this issue has not already been closed
BuildHealthJobHistory History;
if (StepNameToHistory.TryGetValue(InputJobStep.Name, out History))
{
if (!History.CanAddFailedBuild(InputJob.Change))
{
continue;
}
}
else
{
if (!StepNameToHistory.Values.Any(x => x.CanAddFailedBuild(InputJob.Change)))
{
continue;
}
}
// Try to merge the fingerprint
if (!Matcher.CanMerge(InputIssue, Issue))
{
continue;
}
// Add the new build
Matcher.Merge(InputIssue, Issue);
return(Issue);
}
// Check if this issue can be merged with an issue built in another stream
IReadOnlyList <ChangeInfo> Changes = LazyChanges.Value;
if (Changes != null && Changes.Count > 0)
{
SortedSet <int> SourceChanges = new SortedSet <int>(Changes.SelectMany(x => x.SourceChanges));
foreach (BuildHealthIssue Issue in State.Issues)
{
// Check if this issue does not already contain this stream, but contains one of the causing changes
if (Issue.Streams.ContainsKey(InputJob.Stream))
{
continue;
}
if (!SourceChanges.Any(x => Issue.SourceChanges.Contains(x)))
{
continue;
}
if (!Matcher.CanMerge(InputIssue, Issue))
{
continue;
}
// Merge the issue
Matcher.Merge(InputIssue, Issue);
return(Issue);
}
}
// Check if it can be merged into an issue that's been created for this job. We only do this after exhausting all other options.
foreach (BuildHealthIssue Issue in State.Issues)
{
if (Issue.InitialJobUrl == InputIssue.InitialJobUrl && Matcher.CanMergeInitialJob(InputIssue, Issue))
{
Matcher.Merge(InputIssue, Issue);
return(Issue);
}
}
return(null);
}
/// <summary>
/// Main command entry point
/// </summary>
/// <param name="Arguments">The command line arguments</param>
public override void Exec(CommandLineArguments Arguments)
{
// Parse the arguments
bool bClean = Arguments.HasOption("-Clean");
string PerforcePort = Arguments.GetStringOrDefault("-P4Port=", null);
string PerforceUser = Arguments.GetStringOrDefault("-P4User="******"-InputFile=", null);
FileReference StateFile = Arguments.GetFileReference("-StateFile=");
string ServerUrl = Arguments.GetStringOrDefault("-Server=", null);
bool bKeepHistory = Arguments.HasOption("-KeepHistory");
bool bReadOnly = Arguments.HasOption("-ReadOnly");
DirectoryReference SaveUnmatchedDir = Arguments.GetDirectoryReferenceOrDefault("-SaveUnmatched=", null);
Arguments.CheckAllArgumentsUsed();
// Build a mapping from category to matching
Dictionary <string, PatternMatcher> CategoryNameToMatcher = new Dictionary <string, PatternMatcher>();
foreach (PatternMatcher Matcher in Matchers)
{
CategoryNameToMatcher[Matcher.Category] = Matcher;
}
// Complete any interrupted operation to update the state file
CompleteStateTransaction(StateFile);
// Read the persistent data file
BuildHealthState State;
if (!bClean && FileReference.Exists(StateFile))
{
Log.TraceInformation("Reading persistent data from {0}", StateFile);
State = DeserializeJson <BuildHealthState>(StateFile);
}
else
{
Log.TraceInformation("Creating new persistent data");
State = new BuildHealthState();
}
// Fixup any issues loaded from disk
foreach (BuildHealthIssue Issue in State.Issues)
{
if (Issue.References == null)
{
Issue.References = new SortedSet <string>();
}
}
// Create the Perforce connection
PerforceConnection Perforce = new PerforceConnection(PerforcePort, PerforceUser, null);
// Process the input data
if (InputFile != null)
{
// Parse the input file
Log.TraceInformation("Reading build results from {0}", InputFile);
InputData InputData = DeserializeJson <InputData>(InputFile);
// Parse all the builds and add them to the persistent data
List <InputJob> InputJobs = InputData.Jobs.OrderBy(x => x.Change).ThenBy(x => x.Stream).ToList();
Stopwatch Timer = Stopwatch.StartNew();
foreach (InputJob InputJob in InputJobs)
{
// Add a new build for each job step
foreach (InputJobStep InputJobStep in InputJob.Steps)
{
BuildHealthJobStep NewBuild = new BuildHealthJobStep(InputJob.Change, InputJob.Name, InputJob.Url, InputJobStep.Name, InputJobStep.Url, null);
State.AddBuild(InputJob.Stream, NewBuild);
}
// Add all the job steps
List <InputJobStep> InputJobSteps = InputJob.Steps.OrderBy(x => x.Name).ToList();
foreach (InputJobStep InputJobStep in InputJobSteps)
{
if (InputJobStep.Diagnostics != null && InputJobStep.Diagnostics.Count > 0)
{
AddStep(Perforce, State, InputJob, InputJobStep);
}
}
// Remove any steps which are empty
InputJob.Steps.RemoveAll(x => x.Diagnostics == null || x.Diagnostics.Count == 0);
}
InputJobs.RemoveAll(x => x.Steps.Count == 0);
Log.TraceInformation("Added jobs in {0}s", Timer.Elapsed.TotalSeconds);
// If there are any unmatched issues, save out the current state and remaining input
if (SaveUnmatchedDir != null && InputJobs.Count > 0)
{
DirectoryReference.CreateDirectory(SaveUnmatchedDir);
if (FileReference.Exists(StateFile))
{
FileReference.Copy(StateFile, FileReference.Combine(SaveUnmatchedDir, "State.json"), true);
}
SerializeJson(FileReference.Combine(SaveUnmatchedDir, "Input.json"), InputData);
}
// Try to find the next successful build for each stream, so we can close it as part of updating the server
for (int Idx = 0; Idx < State.Issues.Count; Idx++)
{
BuildHealthIssue Issue = State.Issues[Idx];
foreach (string Stream in Issue.Streams.Keys)
{
Dictionary <string, BuildHealthJobHistory> StepNameToHistory = Issue.Streams[Stream];
foreach (string StepName in StepNameToHistory.Keys)
{
BuildHealthJobHistory IssueHistory = StepNameToHistory[StepName];
if (IssueHistory.FailedBuilds.Count > 0 && IssueHistory.NextSuccessfulBuild == null)
{
// Find the successful build after this change
BuildHealthJobStep LastFailedBuild = IssueHistory.FailedBuilds[IssueHistory.FailedBuilds.Count - 1];
IssueHistory.NextSuccessfulBuild = State.FindBuildAfter(Stream, LastFailedBuild.Change, StepName);
}
}
}
}
// Find the change two days before the latest change being added
if (InputData.Jobs.Count > 0 && !bKeepHistory)
{
// Find all the unique change numbers for each stream
SortedSet <int> ChangeNumbers = new SortedSet <int>();
foreach (List <BuildHealthJobStep> Builds in State.Streams.Values)
{
ChangeNumbers.UnionWith(Builds.Select(x => x.Change));
}
// Get the latest change record
int LatestChangeNumber = InputData.Jobs.Min(x => x.Change);
ChangeRecord LatestChangeRecord = Perforce.GetChange(GetChangeOptions.None, LatestChangeNumber).Data;
// Step forward through all the changelists until we get to one we don't want to delete
int DeleteChangeNumber = -1;
foreach (int ChangeNumber in ChangeNumbers)
{
ChangeRecord ChangeRecord = Perforce.GetChange(GetChangeOptions.None, ChangeNumber).Data;
if (ChangeRecord.Date > LatestChangeRecord.Date - TimeSpan.FromDays(2))
{
break;
}
DeleteChangeNumber = ChangeNumber;
}
// Remove any builds we no longer want to track
foreach (List <BuildHealthJobStep> Builds in State.Streams.Values)
{
Builds.RemoveAll(x => x.Change <= DeleteChangeNumber);
}
}
}
// Mark any issues as resolved
foreach (BuildHealthIssue Issue in State.Issues)
{
if (Issue.IsResolved())
{
if (!Issue.ResolvedAt.HasValue)
{
Issue.ResolvedAt = DateTime.UtcNow;
}
}
else
{
if (Issue.ResolvedAt.HasValue)
{
Issue.ResolvedAt = null;
}
}
}
// If we're in read-only mode, don't write anything out
if (bReadOnly)
{
return;
}
// Save the persistent data
Log.TraceInformation("Writing persistent data to {0}", StateFile);
DirectoryReference.CreateDirectory(StateFile.Directory);
WriteState(StateFile, State);
// Synchronize with the server
if (ServerUrl != null)
{
// Post any issue updates
foreach (BuildHealthIssue Issue in State.Issues)
{
PatternMatcher Matcher;
if (!CategoryNameToMatcher.TryGetValue(Issue.Category, out Matcher))
{
continue;
}
string Summary = Matcher.GetSummary(Issue);
if (Issue.Id == -1)
{
Log.TraceInformation("Adding issue: {0}", Issue);
if (Issue.PendingWatchers.Count == 0)
{
Log.TraceWarning("(No possible causers)");
}
CommandTypes.AddIssue IssueBody = new CommandTypes.AddIssue();
IssueBody.Project = Issue.Project;
IssueBody.Summary = Summary;
if (Issue.PendingWatchers.Count == 1)
{
IssueBody.Owner = Issue.PendingWatchers.First();
}
using (HttpWebResponse Response = SendHttpRequest(String.Format("{0}/api/issues", ServerUrl), "POST", IssueBody))
{
int ResponseCode = (int)Response.StatusCode;
if (!(ResponseCode >= 200 && ResponseCode <= 299))
{
throw new Exception("Unable to add issue");
}
Issue.Id = ParseHttpResponse <CommandTypes.AddIssueResponse>(Response).Id;
}
Issue.PostedSummary = Summary;
WriteState(StateFile, State);
}
else if (Issue.PostedSummary == null || !String.Equals(Issue.PostedSummary, Summary, StringComparison.Ordinal))
{
Log.TraceInformation("Updating issue {0}", Issue.Id);
CommandTypes.UpdateIssue IssueBody = new CommandTypes.UpdateIssue();
IssueBody.Summary = Summary;
using (HttpWebResponse Response = SendHttpRequest(String.Format("{0}/api/issues/{1}", ServerUrl, Issue.Id), "PUT", IssueBody))
{
int ResponseCode = (int)Response.StatusCode;
if (!(ResponseCode >= 200 && ResponseCode <= 299))
{
throw new Exception("Unable to add issue");
}
}
Issue.PostedSummary = Summary;
WriteState(StateFile, State);
}
}
// Add any new builds associated with issues
Dictionary <string, long> JobStepUrlToId = new Dictionary <string, long>(StringComparer.Ordinal);
foreach (BuildHealthIssue Issue in State.Issues)
{
foreach (KeyValuePair <string, Dictionary <string, BuildHealthJobHistory> > StreamPair in Issue.Streams)
{
foreach (BuildHealthJobHistory StreamHistory in StreamPair.Value.Values)
{
foreach (BuildHealthJobStep Build in StreamHistory.Builds)
{
if (!Build.bPostedToServer)
{
Log.TraceInformation("Adding {0} to issue {1}", Build.JobStepUrl, Issue.Id);
CommandTypes.AddBuild AddBuild = new CommandTypes.AddBuild();
AddBuild.Stream = StreamPair.Key;
AddBuild.Change = Build.Change;
AddBuild.JobName = Build.JobName;
AddBuild.JobUrl = Build.JobUrl;
AddBuild.JobStepName = Build.JobStepName;
AddBuild.JobStepUrl = Build.JobStepUrl;
AddBuild.ErrorUrl = Build.ErrorUrl;
AddBuild.Outcome = (Build == StreamHistory.PrevSuccessfulBuild || Build == StreamHistory.NextSuccessfulBuild)? CommandTypes.Outcome.Success : CommandTypes.Outcome.Error;
using (HttpWebResponse Response = SendHttpRequest(String.Format("{0}/api/issues/{1}/builds", ServerUrl, Issue.Id), "POST", AddBuild))
{
int ResponseCode = (int)Response.StatusCode;
if (!(ResponseCode >= 200 && ResponseCode <= 299))
{
throw new Exception("Unable to add build");
}
Build.Id = ParseHttpResponse <CommandTypes.AddBuildResponse>(Response).Id;
}
Build.bPostedToServer = true;
WriteState(StateFile, State);
}
if (Build.Id != -1)
{
JobStepUrlToId[Build.JobStepUrl] = Build.Id;
}
}
}
}
}
// Add any new diagnostics
foreach (BuildHealthIssue Issue in State.Issues)
{
foreach (BuildHealthDiagnostic Diagnostic in Issue.Diagnostics)
{
if (!Diagnostic.bPostedToServer)
{
string Summary = Diagnostic.Message;
const int MaxLength = 40;
if (Summary.Length > MaxLength)
{
Summary = Summary.Substring(0, MaxLength).TrimEnd();
}
Log.TraceInformation("Adding diagnostic '{0}' to issue {1}", Summary, Issue.Id);
CommandTypes.AddDiagnostic AddDiagnostic = new CommandTypes.AddDiagnostic();
long BuildId;
if (Diagnostic.JobStepUrl != null && JobStepUrlToId.TryGetValue(Diagnostic.JobStepUrl, out BuildId))
{
AddDiagnostic.BuildId = BuildId;
}
else
{
Console.WriteLine("ERROR");
}
AddDiagnostic.Message = Diagnostic.Message;
AddDiagnostic.Url = Diagnostic.ErrorUrl;
using (HttpWebResponse Response = SendHttpRequest(String.Format("{0}/api/issues/{1}/diagnostics", ServerUrl, Issue.Id), "POST", AddDiagnostic))
{
int ResponseCode = (int)Response.StatusCode;
if (!(ResponseCode >= 200 && ResponseCode <= 299))
{
throw new Exception("Unable to add build");
}
}
Diagnostic.bPostedToServer = true;
WriteState(StateFile, State);
}
}
}
// Close any issues which are complete
for (int Idx = 0; Idx < State.Issues.Count; Idx++)
{
BuildHealthIssue Issue = State.Issues[Idx];
if (Issue.ResolvedAt.HasValue != Issue.bPostedResolved)
{
Log.TraceInformation("Setting issue {0} resolved flag to {1}", Issue.Id, Issue.ResolvedAt.HasValue);
CommandTypes.UpdateIssue UpdateBody = new CommandTypes.UpdateIssue();
UpdateBody.Resolved = Issue.ResolvedAt.HasValue;
using (HttpWebResponse Response = SendHttpRequest(String.Format("{0}/api/issues/{1}", ServerUrl, Issue.Id), "PUT", UpdateBody))
{
int ResponseCode = (int)Response.StatusCode;
if (!(ResponseCode >= 200 && ResponseCode <= 299))
{
throw new Exception("Unable to delete issue");
}
}
Issue.bPostedResolved = Issue.ResolvedAt.HasValue;
WriteState(StateFile, State);
}
}
// Update watchers on any open builds
foreach (BuildHealthIssue Issue in State.Issues)
{
while (Issue.PendingWatchers.Count > 0)
{
CommandTypes.Watcher Watcher = new CommandTypes.Watcher();
Watcher.UserName = Issue.PendingWatchers.First();
using (HttpWebResponse Response = SendHttpRequest(String.Format("{0}/api/issues/{1}/watchers", ServerUrl, Issue.Id), "POST", Watcher))
{
int ResponseCode = (int)Response.StatusCode;
if (!(ResponseCode >= 200 && ResponseCode <= 299))
{
throw new Exception("Unable to add watcher");
}
}
Issue.PendingWatchers.Remove(Watcher.UserName);
Issue.Watchers.Add(Watcher.UserName);
WriteState(StateFile, State);
}
}
}
// Remove any issues which have been resolved for 24 hours. We have to keep information about issues that have been fixed for some time; we may be updating the same job
// multiple times while other steps are running, and we don't want to keep opening new issues for it. Also, it can take time for changes to propagate between streams.
DateTime RemoveIssueTime = DateTime.UtcNow - TimeSpan.FromHours(24.0);
for (int Idx = 0; Idx < State.Issues.Count; Idx++)
{
BuildHealthIssue Issue = State.Issues[Idx];
if (Issue.ResolvedAt.HasValue && Issue.ResolvedAt.Value < RemoveIssueTime)
{
State.Issues.RemoveAt(Idx--);
WriteState(StateFile, State);
continue;
}
}
// TODO: VERIFY ISSUES ARE CLOSED
}
public static bool SyncAndRun(PerforceConnection Perforce, string BaseDepotPath, bool bUnstable, string[] Args, Mutex InstanceMutex, TextWriter LogWriter)
{
try
{
string SyncPath = BaseDepotPath.TrimEnd('/') + (bUnstable? "/UnstableRelease/..." : "/Release/...");
LogWriter.WriteLine("Syncing from {0}", SyncPath);
// Create the target folder
string ApplicationFolder = Path.Combine(Environment.GetFolderPath(Environment.SpecialFolder.LocalApplicationData), "UnrealGameSync", "Latest");
if (!SafeCreateDirectory(ApplicationFolder))
{
LogWriter.WriteLine("Couldn't create directory: {0}", ApplicationFolder);
return(false);
}
// Find the most recent changelist
List <PerforceChangeSummary> Changes;
if (!Perforce.FindChanges(SyncPath, 1, out Changes, LogWriter) || Changes.Count < 1)
{
LogWriter.WriteLine("Couldn't find last changelist");
return(false);
}
// Take the first changelist number
int RequiredChangeNumber = Changes[0].Number;
// Read the current version
string SyncVersionFile = Path.Combine(ApplicationFolder, "SyncVersion.txt");
string RequiredSyncText = String.Format("{0}\n{1}@{2}", Perforce.ServerAndPort ?? "", SyncPath, RequiredChangeNumber);
// Check the application exists
string ApplicationExe = Path.Combine(ApplicationFolder, "UnrealGameSync.exe");
// Check if the version has changed
string SyncText;
if (!File.Exists(SyncVersionFile) || !File.Exists(ApplicationExe) || !TryReadAllText(SyncVersionFile, out SyncText) || SyncText != RequiredSyncText)
{
// Try to delete the directory contents. Retry for a while, in case we've been spawned by an application in this folder to do an update.
for (int NumRetries = 0; !SafeDeleteDirectoryContents(ApplicationFolder); NumRetries++)
{
if (NumRetries > 20)
{
LogWriter.WriteLine("Couldn't delete contents of {0} (retried {1} times).", ApplicationFolder, NumRetries);
return(false);
}
Thread.Sleep(500);
}
// Find all the files in the sync path at this changelist
List <PerforceFileRecord> FileRecords;
if (!Perforce.Stat(String.Format("{0}@{1}", SyncPath, RequiredChangeNumber), out FileRecords, LogWriter))
{
LogWriter.WriteLine("Couldn't find matching files.");
return(false);
}
// Sync all the files in this list to the same directory structure under the application folder
string DepotPathPrefix = SyncPath.Substring(0, SyncPath.LastIndexOf('/') + 1);
foreach (PerforceFileRecord FileRecord in FileRecords)
{
string LocalPath = Path.Combine(ApplicationFolder, FileRecord.DepotPath.Substring(DepotPathPrefix.Length).Replace('/', Path.DirectorySeparatorChar));
if (!SafeCreateDirectory(Path.GetDirectoryName(LocalPath)))
{
LogWriter.WriteLine("Couldn't create folder {0}", Path.GetDirectoryName(LocalPath));
return(false);
}
if (!Perforce.PrintToFile(FileRecord.DepotPath, LocalPath, LogWriter))
{
LogWriter.WriteLine("Couldn't sync {0} to {1}", FileRecord.DepotPath, LocalPath);
return(false);
}
}
// Check the application exists
if (!File.Exists(ApplicationExe))
{
LogWriter.WriteLine("Application was not synced from Perforce. Check that UnrealGameSync exists at {0}/UnrealGameSync.exe, and you have access to it.", SyncPath);
return(false);
}
// Update the version
if (!TryWriteAllText(SyncVersionFile, RequiredSyncText))
{
LogWriter.WriteLine("Couldn't write sync text to {0}", SyncVersionFile);
return(false);
}
}
LogWriter.WriteLine();
// Build the command line for the synced application, including the sync path to monitor for updates
StringBuilder NewCommandLine = new StringBuilder(String.Format("-updatepath=\"{0}@>{1}\" -updatespawn=\"{2}\"{3}", SyncPath, RequiredChangeNumber, Assembly.GetEntryAssembly().Location, bUnstable? " -unstable" : ""));
if (!String.IsNullOrEmpty(Perforce.ServerAndPort))
{
NewCommandLine.AppendFormat(" -p4port={0}", QuoteArgument(Perforce.ServerAndPort));
}
if (!String.IsNullOrEmpty(Perforce.UserName))
{
NewCommandLine.AppendFormat(" -p4user={0}", QuoteArgument(Perforce.UserName));
}
foreach (string Arg in Args)
{
NewCommandLine.AppendFormat(" {0}", QuoteArgument(Arg));
}
// Release the mutex now so that the new application can start up
InstanceMutex.Close();
// Spawn the application
LogWriter.WriteLine("Spawning {0} with command line: {1}", ApplicationExe, NewCommandLine.ToString());
using (Process ChildProcess = new Process())
{
ChildProcess.StartInfo.FileName = ApplicationExe;
ChildProcess.StartInfo.Arguments = NewCommandLine.ToString();
ChildProcess.StartInfo.UseShellExecute = false;
ChildProcess.StartInfo.CreateNoWindow = false;
if (!ChildProcess.Start())
{
LogWriter.WriteLine("Failed to start process");
return(false);
}
}
return(true);
}
catch (Exception Ex)
{
LogWriter.WriteLine(Ex.ToString());
return(false);
}
}
private AutomatedBuildWindow(string StreamName, int Changelist, string Command, PerforceConnection DefaultConnection, string DefaultWorkspaceName, string DefaultProjectPath, TextWriter Log)
{
this.StreamName = StreamName;
this.DefaultConnection = DefaultConnection;
this.Log = Log;
InitializeComponent();
ActiveControl = WorkspaceNameTextBox;
MinimumSize = Size;
MaximumSize = new Size(32768, Size.Height);
SyncToChangeCheckBox.Text = String.Format("Sync to changelist {0}", Changelist);
ExecCommandTextBox.Text = Command;
if (DefaultWorkspaceName != null)
{
WorkspaceNameTextBox.Text = DefaultWorkspaceName;
WorkspaceNameTextBox.Select(WorkspaceNameTextBox.Text.Length, 0);
}
if (DefaultProjectPath != null)
{
WorkspacePathTextBox.Text = DefaultProjectPath;
WorkspacePathTextBox.Select(WorkspacePathTextBox.Text.Length, 0);
}
UpdateServerLabel();
UpdateOkButton();
UpdateWorkspacePathBrowseButton();
}
public override List <ChangeInfo> FindCausers(PerforceConnection Perforce, Issue Issue, IReadOnlyList <ChangeInfo> Changes)
{
return(new List <ChangeInfo>());
}
/// <summary>
/// Finds or adds an issue for a particular fingerprint
/// </summary>
/// <param name="Perforce">Perforce connection used to find possible causers</param>
/// <param name="State">The current set of tracked issues</param>
/// <param name="Build">The new build</param>
/// <param name="PreviousChange">The last changelist that was built before this one</param>
/// <param name="InputJob">Job containing the step to add</param>
/// <param name="InputJobStep">The job step to add</param>
BuildHealthIssue FindOrAddIssueForFingerprint(PerforceConnection Perforce, BuildHealthState State, InputJob InputJob, InputJobStep InputJobStep, BuildHealthIssue InputIssue)
{
// Find the pattern matcher for this fingerprint
PatternMatcher Matcher = CategoryToMatcher[InputIssue.Category];
// Check if it can be added to an existing open issue
foreach (BuildHealthIssue Issue in State.Issues)
{
// Check this issue already exists in the current stream
Dictionary <string, BuildHealthJobHistory> StepNameToHistory;
if (!Issue.Streams.TryGetValue(InputJob.Stream, out StepNameToHistory))
{
continue;
}
// Check that this issue has not already been closed
BuildHealthJobHistory History;
if (StepNameToHistory.TryGetValue(InputJobStep.Name, out History))
{
if (!History.CanAddFailedBuild(InputJob.Change))
{
continue;
}
}
else
{
if (!StepNameToHistory.Values.Any(x => x.CanAddFailedBuild(InputJob.Change)))
{
continue;
}
}
// Try to merge the fingerprint
if (!Matcher.CanMerge(InputIssue, Issue))
{
continue;
}
// Add the new build
Matcher.Merge(InputIssue, Issue);
return(Issue);
}
// List of changes since the last successful build in this stream
IReadOnlyList <ChangeInfo> Changes = null;
// Find the previous changelist that was built in this stream
List <BuildHealthJobStep> StreamBuilds;
if (State.Streams.TryGetValue(InputJob.Stream, out StreamBuilds))
{
// Find the last change submitted to this stream before it started failing
int LastChange = -1;
for (int Idx = 0; Idx < StreamBuilds.Count && StreamBuilds[Idx].Change < InputJob.Change; Idx++)
{
LastChange = StreamBuilds[Idx].Change;
}
// Allow adding to any open issue that contains changes merged from other branches
if (LastChange != -1)
{
// Query for all the changes since then
Changes = FindChanges(Perforce, InputJob.Stream, LastChange, InputJob.Change);
if (Changes.Count > 0)
{
SortedSet <int> SourceChanges = new SortedSet <int>(Changes.SelectMany(x => x.SourceChanges));
foreach (BuildHealthIssue Issue in State.Issues)
{
// Check if this issue does not already contain this stream, but contains one of the causing changes
if (Issue.Streams.ContainsKey(InputJob.Stream))
{
continue;
}
if (!SourceChanges.Any(x => Issue.SourceChanges.Contains(x)))
{
continue;
}
if (!Matcher.CanMerge(InputIssue, Issue))
{
continue;
}
// Merge the issue
Matcher.Merge(InputIssue, Issue);
return(Issue);
}
}
}
}
// Create new issues for everything else in this stream
if (Changes != null)
{
List <ChangeInfo> Causers = Matcher.FindCausers(Perforce, InputIssue, Changes);
foreach (ChangeInfo Causer in Causers)
{
InputIssue.SourceChanges.UnionWith(Causer.SourceChanges);
InputIssue.PendingWatchers.Add(Causer.Record.User);
}
}
State.Issues.Add(InputIssue);
return(InputIssue);
}
