/** * Executes the specified actions locally. * @return True if all the tasks successfully executed, or false if any of them failed. */ public static bool ExecuteActions(List<Action> Actions) { // Time to sleep after each iteration of the loop in order to not busy wait. const float LoopSleepTime = 0.1f; // Use WMI to figure out physical cores, excluding hyper threading. int NumCores = 0; if (!Utils.IsRunningOnMono) { try { using (var Mos = new System.Management.ManagementObjectSearcher("Select * from Win32_Processor")) { var MosCollection = Mos.Get(); foreach (var Item in MosCollection) { NumCores += int.Parse(Item["NumberOfCores"].ToString()); } } } catch (Exception Ex) { Log.TraceWarning("Unable to get the number of Cores: {0}", Ex.ToString()); Log.TraceWarning("Falling back to processor count."); } } // On some systems this requires a hot fix to work so we fall back to using the (logical) processor count. if (NumCores == 0) { NumCores = System.Environment.ProcessorCount; } // The number of actions to execute in parallel is trying to keep the CPU busy enough in presence of I/O stalls. int MaxActionsToExecuteInParallel = 0; // The CPU has more logical cores than physical ones, aka uses hyper-threading. if (NumCores < System.Environment.ProcessorCount) { MaxActionsToExecuteInParallel = (int)(NumCores * BuildConfiguration.ProcessorCountMultiplier); } // No hyper-threading. Only kicking off a task per CPU to keep machine responsive. else { MaxActionsToExecuteInParallel = NumCores; } if (Utils.IsRunningOnMono) { // heuristic: give each action at least 1.5GB of RAM (some clang instances will need more, actually) long MinMemoryPerActionMB = 3 * 1024 / 2; long PhysicalRAMAvailableMB = (new PerformanceCounter("Mono Memory", "Total Physical Memory").RawValue) / (1024 * 1024); int MaxActionsAffordedByMemory = (int)(Math.Max(1, (PhysicalRAMAvailableMB) / MinMemoryPerActionMB)); MaxActionsToExecuteInParallel = Math.Min(MaxActionsToExecuteInParallel, MaxActionsAffordedByMemory); } MaxActionsToExecuteInParallel = Math.Min(MaxActionsToExecuteInParallel, BuildConfiguration.MaxProcessorCount); Log.TraceInformation("Performing {0} actions ({1} in parallel)", Actions.Count, MaxActionsToExecuteInParallel); Dictionary<Action, ActionThread> ActionThreadDictionary = new Dictionary<Action, ActionThread>(); int JobNumber = 1; using (ProgressWriter ProgressWriter = new ProgressWriter("Compiling C++ source code...", false)) { int ProgressValue = 0; while (true) { // Count the number of pending and still executing actions. int NumUnexecutedActions = 0; int NumExecutingActions = 0; foreach (Action Action in Actions) { ActionThread ActionThread = null; bool bFoundActionProcess = ActionThreadDictionary.TryGetValue(Action, out ActionThread); if (bFoundActionProcess == false) { NumUnexecutedActions++; } else if (ActionThread != null) { if (ActionThread.bComplete == false) { NumUnexecutedActions++; NumExecutingActions++; } } } // Update the current progress int NewProgressValue = Actions.Count + 1 - NumUnexecutedActions; if (ProgressValue != NewProgressValue) { ProgressWriter.Write(ProgressValue, Actions.Count + 1); ProgressValue = NewProgressValue; } // If there aren't any pending actions left, we're done executing. if (NumUnexecutedActions == 0) { break; } // If there are fewer actions executing than the maximum, look for pending actions that don't have any outdated // prerequisites. foreach (Action Action in Actions) { ActionThread ActionProcess = null; bool bFoundActionProcess = ActionThreadDictionary.TryGetValue(Action, out ActionProcess); if (bFoundActionProcess == false) { if (NumExecutingActions < Math.Max(1, MaxActionsToExecuteInParallel)) { // Determine whether there are any prerequisites of the action that are outdated. bool bHasOutdatedPrerequisites = false; bool bHasFailedPrerequisites = false; foreach (FileItem PrerequisiteItem in Action.PrerequisiteItems) { if (PrerequisiteItem.ProducingAction != null && Actions.Contains(PrerequisiteItem.ProducingAction)) { ActionThread PrerequisiteProcess = null; bool bFoundPrerequisiteProcess = ActionThreadDictionary.TryGetValue(PrerequisiteItem.ProducingAction, out PrerequisiteProcess); if (bFoundPrerequisiteProcess == true) { if (PrerequisiteProcess == null) { bHasFailedPrerequisites = true; } else if (PrerequisiteProcess.bComplete == false) { bHasOutdatedPrerequisites = true; } else if (PrerequisiteProcess.ExitCode != 0) { bHasFailedPrerequisites = true; } } else { bHasOutdatedPrerequisites = true; } } } // If there are any failed prerequisites of this action, don't execute it. if (bHasFailedPrerequisites) { // Add a null entry in the dictionary for this action. ActionThreadDictionary.Add(Action, null); } // If there aren't any outdated prerequisites of this action, execute it. else if (!bHasOutdatedPrerequisites) { ActionThread ActionThread = new ActionThread(Action, JobNumber, Actions.Count); JobNumber++; ActionThread.Run(); ActionThreadDictionary.Add(Action, ActionThread); NumExecutingActions++; } } } } System.Threading.Thread.Sleep(TimeSpan.FromSeconds(LoopSleepTime)); } } Log.WriteLineIf(BuildConfiguration.bLogDetailedActionStats, TraceEventType.Information, "-------- Begin Detailed Action Stats ----------------------------------------------------------"); Log.WriteLineIf(BuildConfiguration.bLogDetailedActionStats, TraceEventType.Information, "^Action Type^Duration (seconds)^Tool^Task^Using PCH"); double TotalThreadSeconds = 0; // Check whether any of the tasks failed and log action stats if wanted. bool bSuccess = true; foreach (KeyValuePair<Action, ActionThread> ActionProcess in ActionThreadDictionary) { Action Action = ActionProcess.Key; ActionThread ActionThread = ActionProcess.Value; // Check for pending actions, preemptive failure if (ActionThread == null) { bSuccess = false; continue; } // Check for executed action but general failure if (ActionThread.ExitCode != 0) { bSuccess = false; } // Log CPU time, tool and task. double ThreadSeconds = Action.Duration.TotalSeconds; Log.WriteLineIf(BuildConfiguration.bLogDetailedActionStats, TraceEventType.Information, "^{0}^{1:0.00}^{2}^{3}^{4}", Action.ActionType.ToString(), ThreadSeconds, Path.GetFileName(Action.CommandPath), Action.StatusDescription, Action.bIsUsingPCH); // Update statistics switch (Action.ActionType) { case ActionType.BuildProject: STBuildTool.TotalBuildProjectTime += ThreadSeconds; break; case ActionType.Compile: STBuildTool.TotalCompileTime += ThreadSeconds; break; case ActionType.CreateAppBundle: STBuildTool.TotalCreateAppBundleTime += ThreadSeconds; break; case ActionType.GenerateDebugInfo: STBuildTool.TotalGenerateDebugInfoTime += ThreadSeconds; break; case ActionType.Link: STBuildTool.TotalLinkTime += ThreadSeconds; break; default: STBuildTool.TotalOtherActionsTime += ThreadSeconds; break; } // Keep track of total thread seconds spent on tasks. TotalThreadSeconds += ThreadSeconds; } Log.TraceInformation("-------- End Detailed Actions Stats -----------------------------------------------------------"); // Log total CPU seconds and numbers of processors involved in tasks. Log.WriteLineIf(BuildConfiguration.bLogDetailedActionStats || BuildConfiguration.bPrintDebugInfo, TraceEventType.Information, "Cumulative thread seconds ({0} processors): {1:0.00}", System.Environment.ProcessorCount, TotalThreadSeconds); return bSuccess; }
internal static ExecutionResult ExecuteLocalActions(List<Action> InLocalActions, Dictionary<Action, ActionThread> InActionThreadDictionary, int TotalNumJobs) { // Time to sleep after each iteration of the loop in order to not busy wait. const float LoopSleepTime = 0.1f; ExecutionResult LocalActionsResult = ExecutionResult.TasksSucceeded; while (true) { // Count the number of pending and still executing actions. int NumUnexecutedActions = 0; int NumExecutingActions = 0; foreach (Action Action in InLocalActions) { ActionThread ActionThread = null; bool bFoundActionProcess = InActionThreadDictionary.TryGetValue(Action, out ActionThread); if (bFoundActionProcess == false) { NumUnexecutedActions++; } else if (ActionThread != null) { if (ActionThread.bComplete == false) { NumUnexecutedActions++; NumExecutingActions++; } } } // If there aren't any pending actions left, we're done executing. if (NumUnexecutedActions == 0) { break; } // If there are fewer actions executing than the maximum, look for pending actions that don't have any outdated // prerequisites. foreach (Action Action in InLocalActions) { ActionThread ActionProcess = null; bool bFoundActionProcess = InActionThreadDictionary.TryGetValue(Action, out ActionProcess); if (bFoundActionProcess == false) { if (NumExecutingActions < Math.Max(1, MaxActionsToExecuteInParallel)) { // Determine whether there are any prerequisites of the action that are outdated. bool bHasOutdatedPrerequisites = false; bool bHasFailedPrerequisites = false; foreach (FileItem PrerequisiteItem in Action.PrerequisiteItems) { if (PrerequisiteItem.ProducingAction != null && InLocalActions.Contains(PrerequisiteItem.ProducingAction)) { ActionThread PrerequisiteProcess = null; bool bFoundPrerequisiteProcess = InActionThreadDictionary.TryGetValue(PrerequisiteItem.ProducingAction, out PrerequisiteProcess); if (bFoundPrerequisiteProcess == true) { if (PrerequisiteProcess == null) { bHasFailedPrerequisites = true; } else if (PrerequisiteProcess.bComplete == false) { bHasOutdatedPrerequisites = true; } else if (PrerequisiteProcess.ExitCode != 0) { bHasFailedPrerequisites = true; } } else { bHasOutdatedPrerequisites = true; } } } // If there are any failed prerequisites of this action, don't execute it. if (bHasFailedPrerequisites) { // Add a null entry in the dictionary for this action. InActionThreadDictionary.Add(Action, null); } // If there aren't any outdated prerequisites of this action, execute it. else if (!bHasOutdatedPrerequisites) { ActionThread ActionThread = new ActionThread(Action, JobNumber, TotalNumJobs); ActionThread.Run(); InActionThreadDictionary.Add(Action, ActionThread); NumExecutingActions++; JobNumber++; } } } } System.Threading.Thread.Sleep(TimeSpan.FromSeconds(LoopSleepTime)); } return LocalActionsResult; }
public static bool ExecuteActions(List<Action> Actions) { bool bDistccResult = true; if (Actions.Count > 0) { // Time to sleep after each iteration of the loop in order to not busy wait. const float LoopSleepTime = 0.1f; int MaxActionsToExecuteInParallel = 0; string UserDir = Environment.GetEnvironmentVariable("HOME"); string HostsInfo = UserDir + "/.dmucs/hosts-info"; System.IO.StreamReader File = new System.IO.StreamReader(HostsInfo); string Line = null; while ((Line = File.ReadLine()) != null) { var HostInfo = Line.Split(' '); if (HostInfo.Count() == 3) { int NumCPUs = 0; if (System.Int32.TryParse(HostInfo[1], out NumCPUs)) { MaxActionsToExecuteInParallel += NumCPUs; } } } File.Close(); if (BuildConfiguration.bAllowDistccLocalFallback == false) { Environment.SetEnvironmentVariable("DISTCC_FALLBACK", "0"); } string DistccExecutable = BuildConfiguration.DistccExecutablesPath + "/distcc"; string GetHostExecutable = BuildConfiguration.DistccExecutablesPath + "/gethost"; Log.TraceInformation("Performing {0} actions ({1} in parallel)", Actions.Count, MaxActionsToExecuteInParallel, DistccExecutable, GetHostExecutable); Dictionary<Action, ActionThread> ActionThreadDictionary = new Dictionary<Action, ActionThread>(); int JobNumber = 1; using (ProgressWriter ProgressWriter = new ProgressWriter("Compiling source code...", false)) { int ProgressValue = 0; while (true) { // Count the number of pending and still executing actions. int NumUnexecutedActions = 0; int NumExecutingActions = 0; foreach (Action Action in Actions) { ActionThread ActionThread = null; bool bFoundActionProcess = ActionThreadDictionary.TryGetValue(Action, out ActionThread); if (bFoundActionProcess == false) { NumUnexecutedActions++; } else if (ActionThread != null) { if (ActionThread.bComplete == false) { NumUnexecutedActions++; NumExecutingActions++; } } } // Update the current progress int NewProgressValue = Actions.Count + 1 - NumUnexecutedActions; if (ProgressValue != NewProgressValue) { ProgressWriter.Write(ProgressValue, Actions.Count + 1); ProgressValue = NewProgressValue; } // If there aren't any pending actions left, we're done executing. if (NumUnexecutedActions == 0) { break; } // If there are fewer actions executing than the maximum, look for pending actions that don't have any outdated // prerequisites. foreach (Action Action in Actions) { ActionThread ActionProcess = null; bool bFoundActionProcess = ActionThreadDictionary.TryGetValue(Action, out ActionProcess); if (bFoundActionProcess == false) { if (NumExecutingActions < Math.Max(1, MaxActionsToExecuteInParallel)) { // Determine whether there are any prerequisites of the action that are outdated. bool bHasOutdatedPrerequisites = false; bool bHasFailedPrerequisites = false; foreach (FileItem PrerequisiteItem in Action.PrerequisiteItems) { if (PrerequisiteItem.ProducingAction != null && Actions.Contains(PrerequisiteItem.ProducingAction)) { ActionThread PrerequisiteProcess = null; bool bFoundPrerequisiteProcess = ActionThreadDictionary.TryGetValue(PrerequisiteItem.ProducingAction, out PrerequisiteProcess); if (bFoundPrerequisiteProcess == true) { if (PrerequisiteProcess == null) { bHasFailedPrerequisites = true; } else if (PrerequisiteProcess.bComplete == false) { bHasOutdatedPrerequisites = true; } else if (PrerequisiteProcess.ExitCode != 0) { bHasFailedPrerequisites = true; } } else { bHasOutdatedPrerequisites = true; } } } // If there are any failed prerequisites of this action, don't execute it. if (bHasFailedPrerequisites) { // Add a null entry in the dictionary for this action. ActionThreadDictionary.Add(Action, null); } // If there aren't any outdated prerequisites of this action, execute it. else if (!bHasOutdatedPrerequisites) { if ((Action.ActionType == ActionType.Compile || Action.ActionType == ActionType.Link) && DistccExecutable != null && GetHostExecutable != null) { string NewCommandArguments = "--wait -1 \"" + DistccExecutable + "\" " + Action.CommandPath + " " + Action.CommandArguments; Action.CommandPath = GetHostExecutable; Action.CommandArguments = NewCommandArguments; } ActionThread ActionThread = new ActionThread(Action, JobNumber, Actions.Count); JobNumber++; ActionThread.Run(); ActionThreadDictionary.Add(Action, ActionThread); NumExecutingActions++; } } } } System.Threading.Thread.Sleep(TimeSpan.FromSeconds(LoopSleepTime)); } } Log.WriteLineIf(BuildConfiguration.bLogDetailedActionStats, TraceEventType.Information, "-------- Begin Detailed Action Stats ----------------------------------------------------------"); Log.WriteLineIf(BuildConfiguration.bLogDetailedActionStats, TraceEventType.Information, "^Action Type^Duration (seconds)^Tool^Task^Using PCH"); double TotalThreadSeconds = 0; // Check whether any of the tasks failed and log action stats if wanted. foreach (KeyValuePair<Action, ActionThread> ActionProcess in ActionThreadDictionary) { Action Action = ActionProcess.Key; ActionThread ActionThread = ActionProcess.Value; // Check for pending actions, preemptive failure if (ActionThread == null) { bDistccResult = false; continue; } // Check for executed action but general failure if (ActionThread.ExitCode != 0) { bDistccResult = false; } // Log CPU time, tool and task. double ThreadSeconds = Action.Duration.TotalSeconds; Log.WriteLineIf(BuildConfiguration.bLogDetailedActionStats, TraceEventType.Information, "^{0}^{1:0.00}^{2}^{3}^{4}", Action.ActionType.ToString(), ThreadSeconds, Path.GetFileName(Action.CommandPath), Action.StatusDescription, Action.bIsUsingPCH); // Update statistics switch (Action.ActionType) { case ActionType.BuildProject: STBuildTool.TotalBuildProjectTime += ThreadSeconds; break; case ActionType.Compile: STBuildTool.TotalCompileTime += ThreadSeconds; break; case ActionType.CreateAppBundle: STBuildTool.TotalCreateAppBundleTime += ThreadSeconds; break; case ActionType.GenerateDebugInfo: STBuildTool.TotalGenerateDebugInfoTime += ThreadSeconds; break; case ActionType.Link: STBuildTool.TotalLinkTime += ThreadSeconds; break; default: STBuildTool.TotalOtherActionsTime += ThreadSeconds; break; } // Keep track of total thread seconds spent on tasks. TotalThreadSeconds += ThreadSeconds; } Log.TraceInformation("-------- End Detailed Actions Stats -----------------------------------------------------------"); // Log total CPU seconds and numbers of processors involved in tasks. Log.WriteLineIf(BuildConfiguration.bLogDetailedActionStats || BuildConfiguration.bPrintDebugInfo, TraceEventType.Information, "Cumulative thread seconds ({0} processors): {1:0.00}", System.Environment.ProcessorCount, TotalThreadSeconds); } return bDistccResult; }