/// <summary>
/// Execute the command
/// </summary>
/// <param name="Arguments">Command line arguments</param>
/// <returns>Exit code</returns>
public override int Execute(CommandLineArguments Arguments)
{
// Acquire a different mutex to the regular UBT instance, since this mode will be called as part of a build. We need the mutex to ensure that building two modular configurations
// in parallel don't clash over writing shared *.modules files (eg. DebugGame and Development editors).
string MutexName = SingleInstanceMutex.GetUniqueMutexForPath("UnrealBuildTool_WriteMetadata", UnrealBuildTool.RootDirectory.FullName);
using (new SingleInstanceMutex(MutexName, true))
{
return(ExecuteInternal(Arguments));
}
}
/// <summary>
/// Main entry point. Parses any global options and initializes the logging system, then invokes the appropriate command.
/// </summary>
/// <param name="ArgumentsArray">Command line arguments</param>
/// <returns>Zero on success, non-zero on error</returns>
private static int Main(string[] ArgumentsArray)
{
SingleInstanceMutex Mutex = null;
try
{
// Start capturing performance info
Timeline.Start();
// Parse the command line arguments
CommandLineArguments Arguments = new CommandLineArguments(ArgumentsArray);
// Parse the global options
GlobalOptions Options = new GlobalOptions(Arguments);
// Configure the log system
Log.OutputLevel = Options.LogOutputLevel;
Log.IncludeTimestamps = Options.bLogTimestamps;
Log.IncludeProgramNameWithSeverityPrefix = Options.bLogFromMsBuild;
// Configure the progress writer
ProgressWriter.bWriteMarkup = Options.bWriteProgressMarkup;
// Add the log writer if requested. When building a target, we'll create the writer for the default log file later.
if (Options.LogFileName != null)
{
Log.AddFileWriter("LogTraceListener", Options.LogFileName);
}
// Ensure we can resolve any external assemblies that are not in the same folder as our assembly.
AssemblyUtils.InstallAssemblyResolver(Path.GetDirectoryName(Assembly.GetEntryAssembly().GetOriginalLocation()));
// Change the working directory to be the Engine/Source folder. We are likely running from Engine/Binaries/DotNET
// This is critical to be done early so any code that relies on the current directory being Engine/Source will work.
DirectoryReference.SetCurrentDirectory(UnrealBuildTool.EngineSourceDirectory);
// Get the type of the mode to execute, using a fast-path for the build mode.
Type ModeType = typeof(BuildMode);
if (Options.Mode != null)
{
// Find all the valid modes
Dictionary <string, Type> ModeNameToType = new Dictionary <string, Type>(StringComparer.OrdinalIgnoreCase);
foreach (Type Type in Assembly.GetExecutingAssembly().GetTypes())
{
if (Type.IsClass && !Type.IsAbstract && Type.IsSubclassOf(typeof(ToolMode)))
{
ToolModeAttribute Attribute = Type.GetCustomAttribute <ToolModeAttribute>();
if (Attribute == null)
{
throw new BuildException("Class '{0}' should have a ToolModeAttribute", Type.Name);
}
ModeNameToType.Add(Attribute.Name, Type);
}
}
// Try to get the correct mode
if (!ModeNameToType.TryGetValue(Options.Mode, out ModeType))
{
Log.TraceError("No mode named '{0}'. Available modes are:\n {1}", Options.Mode, String.Join("\n ", ModeNameToType.Keys));
return(1);
}
}
// Get the options for which systems have to be initialized for this mode
ToolModeOptions ModeOptions = ModeType.GetCustomAttribute <ToolModeAttribute>().Options;
// Start prefetching the contents of the engine folder
if ((ModeOptions & ToolModeOptions.StartPrefetchingEngine) != 0)
{
using (Timeline.ScopeEvent("FileMetadataPrefetch.QueueEngineDirectory()"))
{
FileMetadataPrefetch.QueueEngineDirectory();
}
}
// Read the XML configuration files
if ((ModeOptions & ToolModeOptions.XmlConfig) != 0)
{
using (Timeline.ScopeEvent("XmlConfig.ReadConfigFiles()"))
{
string XmlConfigMutexName = SingleInstanceMutex.GetUniqueMutexForPath("UnrealBuildTool_Mutex_XmlConfig", Assembly.GetExecutingAssembly().CodeBase);
using (SingleInstanceMutex XmlConfigMutex = new SingleInstanceMutex(XmlConfigMutexName, true))
{
FileReference XmlConfigCache = Arguments.GetFileReferenceOrDefault("-XmlConfigCache=", null);
XmlConfig.ReadConfigFiles(XmlConfigCache);
}
}
}
// Acquire a lock for this branch
if ((ModeOptions & ToolModeOptions.SingleInstance) != 0 && !Options.bNoMutex)
{
using (Timeline.ScopeEvent("SingleInstanceMutex.Acquire()"))
{
string MutexName = SingleInstanceMutex.GetUniqueMutexForPath("UnrealBuildTool_Mutex", Assembly.GetExecutingAssembly().CodeBase);
Mutex = new SingleInstanceMutex(MutexName, Options.bWaitMutex);
}
}
// Register all the build platforms
if ((ModeOptions & ToolModeOptions.BuildPlatforms) != 0)
{
using (Timeline.ScopeEvent("UEBuildPlatform.RegisterPlatforms()"))
{
UEBuildPlatform.RegisterPlatforms(false);
}
}
if ((ModeOptions & ToolModeOptions.BuildPlatformsForValidation) != 0)
{
using (Timeline.ScopeEvent("UEBuildPlatform.RegisterPlatforms()"))
{
UEBuildPlatform.RegisterPlatforms(true);
}
}
// Create the appropriate handler
ToolMode Mode = (ToolMode)Activator.CreateInstance(ModeType);
// Execute the mode
int Result = Mode.Execute(Arguments);
if ((ModeOptions & ToolModeOptions.ShowExecutionTime) != 0)
{
Log.TraceInformation("Total execution time: {0:0.00} seconds", Timeline.Elapsed.TotalSeconds);
}
return(Result);
}
catch (CompilationResultException Ex)
{
// Used to return a propagate a specific exit code after an error has occurred. Does not log any message.
Log.TraceLog(ExceptionUtils.FormatExceptionDetails(Ex));
return((int)Ex.Result);
}
catch (BuildException Ex)
{
// BuildExceptions should have nicely formatted messages. We can log these directly.
Log.TraceError(ExceptionUtils.FormatException(Ex));
Log.TraceLog(ExceptionUtils.FormatExceptionDetails(Ex));
return((int)CompilationResult.OtherCompilationError);
}
catch (Exception Ex)
{
// Unhandled exception.
Log.TraceError("Unhandled exception: {0}", ExceptionUtils.FormatException(Ex));
Log.TraceLog(ExceptionUtils.FormatExceptionDetails(Ex));
return((int)CompilationResult.OtherCompilationError);
}
finally
{
// Cancel the prefetcher
using (Timeline.ScopeEvent("FileMetadataPrefetch.Stop()"))
{
FileMetadataPrefetch.Stop();
}
// Print out all the performance info
Timeline.Print(TimeSpan.FromMilliseconds(20.0), LogEventType.Log);
// Make sure we flush the logs however we exit
Trace.Close();
// Dispose of the mutex. Must be done last to ensure that another process does not startup and start trying to write to the same log file.
if (Mutex != null)
{
Mutex.Dispose();
}
}
}
