public static ConfigFile ReadProjectConfigFile(PerforceConnection Perforce, string BranchClientPath, string SelectedClientFileName, List <KeyValuePair <string, DateTime> > LocalConfigFiles, TextWriter Log) { List <string> ConfigFilePaths = Utility.GetConfigFileLocations(BranchClientPath, SelectedClientFileName, '/'); List <PerforceFileRecord> OpenFiles; Perforce.GetOpenFiles(String.Format("{0}/....ini", BranchClientPath), out OpenFiles, Log); ConfigFile ProjectConfig = new ConfigFile(); foreach (string ConfigFilePath in ConfigFilePaths) { List <string> Lines = null; // If this file is open for edit, read the local version if (OpenFiles != null && OpenFiles.Any(x => x.ClientPath.Equals(ConfigFilePath, StringComparison.InvariantCultureIgnoreCase))) { try { string LocalFileName; if (Perforce.ConvertToLocalPath(ConfigFilePath, out LocalFileName, Log)) { DateTime LastModifiedTime = File.GetLastWriteTimeUtc(LocalFileName); LocalConfigFiles.Add(new KeyValuePair <string, DateTime>(LocalFileName, LastModifiedTime)); Lines = File.ReadAllLines(LocalFileName).ToList(); } } catch (Exception Ex) { Log.WriteLine("Failed to read local config file for {0}: {1}", ConfigFilePath, Ex.ToString()); } } // Otherwise try to get it from perforce if (Lines == null) { Perforce.Print(ConfigFilePath, out Lines, Log); } // Merge the text with the config file if (Lines != null) { try { ProjectConfig.Parse(Lines.ToArray()); Log.WriteLine("Read config file from {0}", ConfigFilePath); } catch (Exception Ex) { Log.WriteLine("Failed to read config file from {0}: {1}", ConfigFilePath, Ex.ToString()); } } } return(ProjectConfig); }
public bool Run(out string ErrorMessage) { Log.WriteLine("Finding files in workspace..."); Log.WriteLine(); // Start enumerating all the files that exist locally foreach (string SyncPath in SyncPaths) { Debug.Assert(SyncPath.StartsWith(ClientRootPath)); if (SyncPath.StartsWith(ClientRootPath, StringComparison.InvariantCultureIgnoreCase)) { string[] Fragments = SyncPath.Substring(ClientRootPath.Length).Split('/'); FolderToClean SyncFolder = RootFolderToClean; for (int Idx = 0; Idx < Fragments.Length - 1; Idx++) { FolderToClean NextSyncFolder; if (!SyncFolder.NameToSubFolder.TryGetValue(Fragments[Idx], out NextSyncFolder)) { NextSyncFolder = new FolderToClean(new DirectoryInfo(Path.Combine(SyncFolder.Directory.FullName, Fragments[Idx]))); SyncFolder.NameToSubFolder[NextSyncFolder.Name] = NextSyncFolder; } SyncFolder = NextSyncFolder; } string Wildcard = Fragments[Fragments.Length - 1]; if (Wildcard == "...") { QueueFolderToPopulate(SyncFolder); } else { if (SyncFolder.Directory.Exists) { foreach (FileInfo File in SyncFolder.Directory.EnumerateFiles(Wildcard)) { SyncFolder.NameToFile[File.Name] = File; } } } } } // Get the prefix for any local file string LocalRootPrefix = RootFolderToClean.Directory.FullName.Replace(Path.AltDirectorySeparatorChar, Path.DirectorySeparatorChar) + Path.DirectorySeparatorChar; // Query the have table and build a separate tree from it PerforceHaveFolder RootHaveFolder = new PerforceHaveFolder(); foreach (string SyncPath in SyncPaths) { List <PerforceFileRecord> FileRecords; if (!PerforceClient.Stat(String.Format("{0}#have", SyncPath), out FileRecords, Log)) { ErrorMessage = "Couldn't query have table from Perforce."; return(false); } foreach (PerforceFileRecord FileRecord in FileRecords) { if (!FileRecord.ClientPath.StartsWith(LocalRootPrefix, StringComparison.InvariantCultureIgnoreCase)) { ErrorMessage = String.Format("Failed to get have table; file '{0}' doesn't start with root path ('{1}')", FileRecord.ClientPath, RootFolderToClean.Directory.FullName); return(false); } string[] Tokens = FileRecord.ClientPath.Substring(LocalRootPrefix.Length).Split('/', '\\'); PerforceHaveFolder FileFolder = RootHaveFolder; for (int Idx = 0; Idx < Tokens.Length - 1; Idx++) { PerforceHaveFolder NextFileFolder; if (!FileFolder.NameToSubFolder.TryGetValue(Tokens[Idx], out NextFileFolder)) { NextFileFolder = new PerforceHaveFolder(); FileFolder.NameToSubFolder.Add(Tokens[Idx], NextFileFolder); } FileFolder = NextFileFolder; } FileFolder.NameToFile[Tokens[Tokens.Length - 1]] = FileRecord; } } // Find all the files which are currently open for edit. We don't want to force sync these. List <PerforceFileRecord> OpenFileRecords; if (!PerforceClient.GetOpenFiles("//...", out OpenFileRecords, Log)) { ErrorMessage = "Couldn't query open files from Perforce."; return(false); } // Build a set of all the open local files HashSet <string> OpenLocalFiles = new HashSet <string>(StringComparer.InvariantCultureIgnoreCase); foreach (PerforceFileRecord OpenFileRecord in OpenFileRecords) { if (!OpenFileRecord.ClientPath.StartsWith(ClientRootPath, StringComparison.InvariantCultureIgnoreCase)) { ErrorMessage = String.Format("Failed to get open file list; file '{0}' doesn't start with client root path ('{1}')", OpenFileRecord.ClientPath, ClientRootPath); return(false); } OpenLocalFiles.Add(LocalRootPrefix + PerforceUtils.UnescapePath(OpenFileRecord.ClientPath).Substring(ClientRootPath.Length).Replace('/', Path.DirectorySeparatorChar)); } // Wait to finish scanning the directory FinishedScan.WaitOne(); // Find the value of the P4CONFIG variable string PerforceConfigFile; PerforceClient.GetSetting("P4CONFIG", out PerforceConfigFile, Log); // Merge the trees MergeTrees(RootFolderToClean, RootHaveFolder, OpenLocalFiles, PerforceConfigFile); // Remove all the empty folders RemoveEmptyFolders(RootFolderToClean); ErrorMessage = null; return(true); }
WorkspaceUpdateResult UpdateWorkspaceInternal(WorkspaceUpdateContext Context, out string StatusMessage) { string CmdExe = Path.Combine(Environment.GetFolderPath(Environment.SpecialFolder.System), "cmd.exe"); if (!File.Exists(CmdExe)) { StatusMessage = String.Format("Missing {0}.", CmdExe); return(WorkspaceUpdateResult.FailedToSync); } List <Tuple <string, TimeSpan> > Times = new List <Tuple <string, TimeSpan> >(); int NumFilesSynced = 0; if (Context.Options.HasFlag(WorkspaceUpdateOptions.Sync) || Context.Options.HasFlag(WorkspaceUpdateOptions.SyncSingleChange)) { using (TelemetryStopwatch Stopwatch = new TelemetryStopwatch("Sync", TelemetryProjectPath)) { Log.WriteLine("Syncing to {0}...", PendingChangeNumber); // Find all the files that are out of date Progress.Set("Finding files to sync..."); // Get the user's sync filter FileFilter UserFilter = null; if (Context.SyncFilter != null) { UserFilter = new FileFilter(FileFilterType.Include); UserFilter.AddRules(Context.SyncFilter.Select(x => x.Trim()).Where(x => x.Length > 0 && !x.StartsWith(";") && !x.StartsWith("#"))); } // Find all the server changes, and anything that's opened for edit locally. We need to sync files we have open to schedule a resolve. List <string> SyncFiles = new List <string>(); foreach (string SyncPath in SyncPaths) { List <PerforceFileRecord> SyncRecords; if (!Perforce.SyncPreview(SyncPath, PendingChangeNumber, !Context.Options.HasFlag(WorkspaceUpdateOptions.Sync), out SyncRecords, Log)) { StatusMessage = String.Format("Couldn't enumerate changes matching {0}.", SyncPath); return(WorkspaceUpdateResult.FailedToSync); } if (UserFilter != null) { SyncRecords.RemoveAll(x => !String.IsNullOrEmpty(x.ClientPath) && !MatchFilter(x.ClientPath, UserFilter)); } SyncFiles.AddRange(SyncRecords.Select(x => x.DepotPath)); List <PerforceFileRecord> OpenRecords; if (!Perforce.GetOpenFiles(SyncPath, out OpenRecords, Log)) { StatusMessage = String.Format("Couldn't find open files matching {0}.", SyncPath); return(WorkspaceUpdateResult.FailedToSync); } // don't force a sync on added files SyncFiles.AddRange(OpenRecords.Where(x => x.Action != "add" && x.Action != "branch" && x.Action != "move/add").Select(x => x.DepotPath)); } // Filter out all the binaries that we don't want FileFilter Filter = new FileFilter(FileFilterType.Include); Filter.Exclude("..." + BuildVersionFileName); Filter.Exclude("..." + VersionHeaderFileName); Filter.Exclude("..." + ObjectVersionFileName); if (Context.Options.HasFlag(WorkspaceUpdateOptions.ContentOnly)) { Filter.Exclude("*.usf"); } SyncFiles.RemoveAll(x => !Filter.Matches(x)); // Sync them all List <string> TamperedFiles = new List <string>(); HashSet <string> RemainingFiles = new HashSet <string>(SyncFiles, StringComparer.InvariantCultureIgnoreCase); if (!Perforce.Sync(SyncFiles, PendingChangeNumber, Record => UpdateSyncProgress(Record, RemainingFiles, SyncFiles.Count), TamperedFiles, Log)) { StatusMessage = "Aborted sync due to errors."; return(WorkspaceUpdateResult.FailedToSync); } // If any files need to be clobbered, defer to the main thread to figure out which ones if (TamperedFiles.Count > 0) { int NumNewFilesToClobber = 0; foreach (string TamperedFile in TamperedFiles) { if (!Context.ClobberFiles.ContainsKey(TamperedFile)) { Context.ClobberFiles[TamperedFile] = true; NumNewFilesToClobber++; } } if (NumNewFilesToClobber > 0) { StatusMessage = String.Format("Cancelled sync after checking files to clobber ({0} new files).", NumNewFilesToClobber); return(WorkspaceUpdateResult.FilesToClobber); } foreach (string TamperedFile in TamperedFiles) { if (Context.ClobberFiles[TamperedFile] && !Perforce.ForceSync(TamperedFile, PendingChangeNumber, Log)) { StatusMessage = String.Format("Couldn't sync {0}.", TamperedFile); return(WorkspaceUpdateResult.FailedToSync); } } } if (Context.Options.HasFlag(WorkspaceUpdateOptions.Sync)) { // Read the new config file ProjectConfigFile = ReadProjectConfigFile(LocalRootPath, SelectedLocalFileName, Log); // Get the branch name string BranchOrStreamName; if (!Perforce.GetActiveStream(out BranchOrStreamName, Log)) { string DepotFileName; if (!Perforce.ConvertToDepotPath(ClientRootPath + "/GenerateProjectFiles.bat", out DepotFileName, Log)) { StatusMessage = String.Format("Couldn't determine branch name for {0}.", SelectedClientFileName); return(WorkspaceUpdateResult.FailedToSync); } BranchOrStreamName = PerforceUtils.GetClientOrDepotDirectoryName(DepotFileName); } // Find the last code change before this changelist. For consistency in versioning between local builds and precompiled binaries, we need to use the last submitted code changelist as our version number. List <PerforceChangeSummary> CodeChanges; if (!Perforce.FindChanges(new string[] { ".cs", ".h", ".cpp", ".usf" }.SelectMany(x => SyncPaths.Select(y => String.Format("{0}{1}@<={2}", y, x, PendingChangeNumber))), 1, out CodeChanges, Log)) { StatusMessage = String.Format("Couldn't determine last code changelist before CL {0}.", PendingChangeNumber); return(WorkspaceUpdateResult.FailedToSync); } if (CodeChanges.Count == 0) { StatusMessage = String.Format("Could not find any code changes before CL {0}.", PendingChangeNumber); return(WorkspaceUpdateResult.FailedToSync); } // Get the last code change int VersionChangeNumber; if (ProjectConfigFile.GetValue("Options.VersionToLastCodeChange", true)) { VersionChangeNumber = CodeChanges.Max(x => x.Number); } else { VersionChangeNumber = PendingChangeNumber; } // Update the version files if (ProjectConfigFile.GetValue("Options.UseFastModularVersioning", false)) { Dictionary <string, string> BuildVersionStrings = new Dictionary <string, string>(); BuildVersionStrings["\"Changelist\":"] = String.Format(" {0},", VersionChangeNumber); BuildVersionStrings["\"BranchName\":"] = String.Format(" \"{0}\"", BranchOrStreamName.Replace('/', '+')); if (!UpdateVersionFile(ClientRootPath + BuildVersionFileName, BuildVersionStrings, PendingChangeNumber)) { StatusMessage = String.Format("Failed to update {0}.", BuildVersionFileName); return(WorkspaceUpdateResult.FailedToSync); } Dictionary <string, string> VersionHeaderStrings = new Dictionary <string, string>(); VersionHeaderStrings["#define ENGINE_IS_PROMOTED_BUILD"] = " (0)"; VersionHeaderStrings["#define BUILT_FROM_CHANGELIST"] = " 0"; VersionHeaderStrings["#define BRANCH_NAME"] = " \"" + BranchOrStreamName.Replace('/', '+') + "\""; if (!UpdateVersionFile(ClientRootPath + VersionHeaderFileName, VersionHeaderStrings, PendingChangeNumber)) { StatusMessage = String.Format("Failed to update {0}.", VersionHeaderFileName); return(WorkspaceUpdateResult.FailedToSync); } if (!UpdateVersionFile(ClientRootPath + ObjectVersionFileName, new Dictionary <string, string>(), PendingChangeNumber)) { StatusMessage = String.Format("Failed to update {0}.", ObjectVersionFileName); return(WorkspaceUpdateResult.FailedToSync); } } else { if (!UpdateVersionFile(ClientRootPath + BuildVersionFileName, new Dictionary <string, string>(), PendingChangeNumber)) { StatusMessage = String.Format("Failed to update {0}", BuildVersionFileName); return(WorkspaceUpdateResult.FailedToSync); } Dictionary <string, string> VersionStrings = new Dictionary <string, string>(); VersionStrings["#define ENGINE_VERSION"] = " " + VersionChangeNumber.ToString(); VersionStrings["#define ENGINE_IS_PROMOTED_BUILD"] = " (0)"; VersionStrings["#define BUILT_FROM_CHANGELIST"] = " " + VersionChangeNumber.ToString(); VersionStrings["#define BRANCH_NAME"] = " \"" + BranchOrStreamName.Replace('/', '+') + "\""; if (!UpdateVersionFile(ClientRootPath + VersionHeaderFileName, VersionStrings, PendingChangeNumber)) { StatusMessage = String.Format("Failed to update {0}", VersionHeaderFileName); return(WorkspaceUpdateResult.FailedToSync); } if (!UpdateVersionFile(ClientRootPath + ObjectVersionFileName, VersionStrings, PendingChangeNumber)) { StatusMessage = String.Format("Failed to update {0}", ObjectVersionFileName); return(WorkspaceUpdateResult.FailedToSync); } } // Remove all the receipts for build targets in this branch if (SelectedClientFileName.EndsWith(".uproject", StringComparison.InvariantCultureIgnoreCase)) { Perforce.Sync(PerforceUtils.GetClientOrDepotDirectoryName(SelectedClientFileName) + "/Build/Receipts/...#0", Log); } } // Check if there are any files which need resolving List <PerforceFileRecord> UnresolvedFiles; if (!FindUnresolvedFiles(SyncPaths, out UnresolvedFiles)) { StatusMessage = "Couldn't get list of unresolved files."; return(WorkspaceUpdateResult.FailedToSync); } if (UnresolvedFiles.Count > 0 && Context.Options.HasFlag(WorkspaceUpdateOptions.AutoResolveChanges)) { foreach (PerforceFileRecord UnresolvedFile in UnresolvedFiles) { Perforce.AutoResolveFile(UnresolvedFile.DepotPath, Log); } if (!FindUnresolvedFiles(SyncPaths, out UnresolvedFiles)) { StatusMessage = "Couldn't get list of unresolved files."; return(WorkspaceUpdateResult.FailedToSync); } } if (UnresolvedFiles.Count > 0) { Log.WriteLine("{0} files need resolving:", UnresolvedFiles.Count); foreach (PerforceFileRecord UnresolvedFile in UnresolvedFiles) { Log.WriteLine(" {0}", UnresolvedFile.ClientPath); } StatusMessage = "Files need resolving."; return(WorkspaceUpdateResult.FilesToResolve); } // Update the current change number. Everything else happens for the new change. if (Context.Options.HasFlag(WorkspaceUpdateOptions.Sync)) { CurrentChangeNumber = PendingChangeNumber; } // Update the timing info Times.Add(new Tuple <string, TimeSpan>("Sync", Stopwatch.Stop("Success"))); // Save the number of files synced NumFilesSynced = SyncFiles.Count; Log.WriteLine(); } } // Extract an archive from the depot path if (Context.Options.HasFlag(WorkspaceUpdateOptions.SyncArchives)) { using (TelemetryStopwatch Stopwatch = new TelemetryStopwatch("Archives", TelemetryProjectPath)) { // Create the directory for extracted archive manifests string ManifestDirectoryName; if (SelectedLocalFileName.EndsWith(".uproject", StringComparison.InvariantCultureIgnoreCase)) { ManifestDirectoryName = Path.Combine(Path.GetDirectoryName(SelectedLocalFileName), "Saved", "UnrealGameSync"); } else { ManifestDirectoryName = Path.Combine(Path.GetDirectoryName(SelectedLocalFileName), "Engine", "Saved", "UnrealGameSync"); } Directory.CreateDirectory(ManifestDirectoryName); // Sync and extract (or just remove) the given archives foreach (KeyValuePair <string, string> ArchiveTypeAndDepotPath in Context.ArchiveTypeToDepotPath) { // Remove any existing binaries string ManifestFileName = Path.Combine(ManifestDirectoryName, String.Format("{0}.zipmanifest", ArchiveTypeAndDepotPath.Key)); if (File.Exists(ManifestFileName)) { Log.WriteLine("Removing {0} binaries...", ArchiveTypeAndDepotPath.Key); Progress.Set(String.Format("Removing {0} binaries...", ArchiveTypeAndDepotPath.Key), 0.0f); ArchiveUtils.RemoveExtractedFiles(LocalRootPath, ManifestFileName, Progress, Log); Log.WriteLine(); } // If we have a new depot path, sync it down and extract it if (ArchiveTypeAndDepotPath.Value != null) { string TempZipFileName = Path.GetTempFileName(); try { Log.WriteLine("Syncing {0} binaries...", ArchiveTypeAndDepotPath.Key.ToLowerInvariant()); Progress.Set(String.Format("Syncing {0} binaries...", ArchiveTypeAndDepotPath.Key.ToLowerInvariant()), 0.0f); if (!Perforce.PrintToFile(ArchiveTypeAndDepotPath.Value, TempZipFileName, Log) || new FileInfo(TempZipFileName).Length == 0) { StatusMessage = String.Format("Couldn't read {0}", ArchiveTypeAndDepotPath.Value); return(WorkspaceUpdateResult.FailedToSync); } ArchiveUtils.ExtractFiles(TempZipFileName, LocalRootPath, ManifestFileName, Progress, Log); Log.WriteLine(); } finally { File.SetAttributes(TempZipFileName, FileAttributes.Normal); File.Delete(TempZipFileName); } } } // Add the finish time Times.Add(new Tuple <string, TimeSpan>("Archive", Stopwatch.Stop("Success"))); } } // Generate project files in the workspace if (Context.Options.HasFlag(WorkspaceUpdateOptions.GenerateProjectFiles)) { using (TelemetryStopwatch Stopwatch = new TelemetryStopwatch("Prj gen", TelemetryProjectPath)) { Progress.Set("Generating project files...", 0.0f); string ProjectFileArgument = ""; if (SelectedLocalFileName.EndsWith(".uproject", StringComparison.InvariantCultureIgnoreCase)) { ProjectFileArgument = String.Format("\"{0}\" ", SelectedLocalFileName); } string CommandLine = String.Format("/C \"\"{0}\" {1}-progress\"", Path.Combine(LocalRootPath, "GenerateProjectFiles.bat"), ProjectFileArgument); Log.WriteLine("Generating project files..."); Log.WriteLine("gpf> Running {0} {1}", CmdExe, CommandLine); int GenerateProjectFilesResult = Utility.ExecuteProcess(CmdExe, CommandLine, null, new ProgressTextWriter(Progress, new PrefixedTextWriter("gpf> ", Log))); if (GenerateProjectFilesResult != 0) { StatusMessage = String.Format("Failed to generate project files (exit code {0}).", GenerateProjectFilesResult); return(WorkspaceUpdateResult.FailedToCompile); } Log.WriteLine(); Times.Add(new Tuple <string, TimeSpan>("Prj gen", Stopwatch.Stop("Success"))); } } // Build everything using MegaXGE if (Context.Options.HasFlag(WorkspaceUpdateOptions.Build)) { // Compile all the build steps together Dictionary <Guid, ConfigObject> BuildStepObjects = Context.DefaultBuildSteps.ToDictionary(x => x.Key, x => new ConfigObject(x.Value)); BuildStep.MergeBuildStepObjects(BuildStepObjects, ProjectConfigFile.GetValues("Build.Step", new string[0]).Select(x => new ConfigObject(x))); BuildStep.MergeBuildStepObjects(BuildStepObjects, Context.UserBuildStepObjects); // Construct build steps from them List <BuildStep> BuildSteps = BuildStepObjects.Values.Select(x => new BuildStep(x)).OrderBy(x => x.OrderIndex).ToList(); if (Context.CustomBuildSteps != null && Context.CustomBuildSteps.Count > 0) { BuildSteps.RemoveAll(x => !Context.CustomBuildSteps.Contains(x.UniqueId)); } else if (Context.Options.HasFlag(WorkspaceUpdateOptions.ScheduledBuild)) { BuildSteps.RemoveAll(x => !x.bScheduledSync); } else { BuildSteps.RemoveAll(x => !x.bNormalSync); } // Check if the last successful build was before a change that we need to force a clean for bool bForceClean = false; if (LastBuiltChangeNumber != 0) { foreach (string CleanBuildChange in ProjectConfigFile.GetValues("ForceClean.Changelist", new string[0])) { int ChangeNumber; if (int.TryParse(CleanBuildChange, out ChangeNumber)) { if ((LastBuiltChangeNumber >= ChangeNumber) != (CurrentChangeNumber >= ChangeNumber)) { Log.WriteLine("Forcing clean build due to changelist {0}.", ChangeNumber); Log.WriteLine(); bForceClean = true; break; } } } } // Execute them all string TelemetryEventName = (Context.UserBuildStepObjects.Count > 0)? "CustomBuild" : Context.Options.HasFlag(WorkspaceUpdateOptions.UseIncrementalBuilds) ? "Compile" : "FullCompile"; using (TelemetryStopwatch Stopwatch = new TelemetryStopwatch(TelemetryEventName, TelemetryProjectPath)) { Progress.Set("Starting build...", 0.0f); // Check we've built UBT (it should have been compiled by generating project files) string UnrealBuildToolPath = Path.Combine(LocalRootPath, "Engine", "Binaries", "DotNET", "UnrealBuildTool.exe"); if (!File.Exists(UnrealBuildToolPath)) { StatusMessage = String.Format("Couldn't find {0}", UnrealBuildToolPath); return(WorkspaceUpdateResult.FailedToCompile); } // Execute all the steps float MaxProgressFraction = 0.0f; foreach (BuildStep Step in BuildSteps) { MaxProgressFraction += (float)Step.EstimatedDuration / (float)Math.Max(BuildSteps.Sum(x => x.EstimatedDuration), 1); Progress.Set(Step.StatusText); Progress.Push(MaxProgressFraction); Log.WriteLine(Step.StatusText); switch (Step.Type) { case BuildStepType.Compile: using (TelemetryStopwatch StepStopwatch = new TelemetryStopwatch("Compile:" + Step.Target, TelemetryProjectPath)) { string CommandLine = String.Format("{0} {1} {2} {3} -NoHotReloadFromIDE", Step.Target, Step.Platform, Step.Configuration, Utility.ExpandVariables(Step.Arguments, Context.Variables)); if (!Context.Options.HasFlag(WorkspaceUpdateOptions.UseIncrementalBuilds) || bForceClean) { Log.WriteLine("ubt> Running {0} {1} -clean", UnrealBuildToolPath, CommandLine); Utility.ExecuteProcess(UnrealBuildToolPath, CommandLine + " -clean", null, new ProgressTextWriter(Progress, new PrefixedTextWriter("ubt> ", Log))); } Log.WriteLine("ubt> Running {0} {1} -progress", UnrealBuildToolPath, CommandLine); int ResultFromBuild = Utility.ExecuteProcess(UnrealBuildToolPath, CommandLine + " -progress", null, new ProgressTextWriter(Progress, new PrefixedTextWriter("ubt> ", Log))); if (ResultFromBuild != 0) { StatusMessage = String.Format("Failed to compile {0}.", Step.Target); return((HasModifiedSourceFiles() || Context.UserBuildStepObjects.Count > 0)? WorkspaceUpdateResult.FailedToCompile : WorkspaceUpdateResult.FailedToCompileWithCleanWorkspace); } } break; case BuildStepType.Cook: using (TelemetryStopwatch StepStopwatch = new TelemetryStopwatch("Cook/Launch: " + Path.GetFileNameWithoutExtension(Step.FileName), TelemetryProjectPath)) { string LocalRunUAT = Path.Combine(LocalRootPath, "Engine", "Build", "BatchFiles", "RunUAT.bat"); string Arguments = String.Format("/C \"\"{0}\" -profile=\"{1}\"\"", LocalRunUAT, Path.Combine(LocalRootPath, Step.FileName)); Log.WriteLine("uat> Running {0} {1}", LocalRunUAT, Arguments); int ResultFromUAT = Utility.ExecuteProcess(CmdExe, Arguments, null, new ProgressTextWriter(Progress, new PrefixedTextWriter("uat> ", Log))); if (ResultFromUAT != 0) { StatusMessage = String.Format("Cook failed. ({0})", ResultFromUAT); return(WorkspaceUpdateResult.FailedToCompile); } } break; case BuildStepType.Other: using (TelemetryStopwatch StepStopwatch = new TelemetryStopwatch("Custom: " + Path.GetFileNameWithoutExtension(Step.FileName), TelemetryProjectPath)) { string ToolFileName = Path.Combine(LocalRootPath, Utility.ExpandVariables(Step.FileName, Context.Variables)); string ToolArguments = Utility.ExpandVariables(Step.Arguments, Context.Variables); Log.WriteLine("tool> Running {0} {1}", ToolFileName, ToolArguments); if (Step.bUseLogWindow) { int ResultFromTool = Utility.ExecuteProcess(ToolFileName, ToolArguments, null, new ProgressTextWriter(Progress, new PrefixedTextWriter("tool> ", Log))); if (ResultFromTool != 0) { StatusMessage = String.Format("Tool terminated with exit code {0}.", ResultFromTool); return(WorkspaceUpdateResult.FailedToCompile); } } else { using (Process.Start(ToolFileName, ToolArguments)) { } } } break; } Log.WriteLine(); Progress.Pop(); } Times.Add(new Tuple <string, TimeSpan>("Build", Stopwatch.Stop("Success"))); } // Update the last successful build change number if (Context.CustomBuildSteps == null || Context.CustomBuildSteps.Count == 0) { LastBuiltChangeNumber = CurrentChangeNumber; } } // Write out all the timing information Log.WriteLine("Total time : " + FormatTime(Times.Sum(x => (long)(x.Item2.TotalMilliseconds / 1000)))); foreach (Tuple <string, TimeSpan> Time in Times) { Log.WriteLine(" {0,-8}: {1}", Time.Item1, FormatTime((long)(Time.Item2.TotalMilliseconds / 1000))); } if (NumFilesSynced > 0) { Log.WriteLine("{0} files synced.", NumFilesSynced); } Log.WriteLine(); Log.WriteLine("UPDATE SUCCEEDED"); StatusMessage = "Update succeeded"; return(WorkspaceUpdateResult.Success); }