private Possible <Unit> TryReportInputs(List <FileArtifactKeyedHash> hashes)
{
var dynamicDirectoryMap = new Dictionary <DirectoryArtifact, List <FileArtifact> >();
var failedFiles = new List <(FileArtifact file, ContentHash hash)>();
var fileContentManager = m_environment.State.FileContentManager;
foreach (FileArtifactKeyedHash fileArtifactKeyedHash in hashes)
{
FileArtifact file;
if (fileArtifactKeyedHash.AssociatedDirectories != null && fileArtifactKeyedHash.AssociatedDirectories.Count != 0)
{
// All workers have the same entries in the path table up to the schedule phase. Dynamic outputs add entries to the path table of the worker that generates them.
// Dynamic outputs can be generated by one worker, but consumed by another, which potentially is not the master. Thus, the two workers do not have the same entries
// in the path table.
// The approach we have here may be sub-optimal(the worker may have had the paths already). But it ensures correctness.
// Need to create absolute path because the path is potentially not in the path table.
file = new FileArtifact(
AbsolutePath.Create(m_environment.Context.PathTable, fileArtifactKeyedHash.PathString),
fileArtifactKeyedHash.RewriteCount);
foreach (var bondDirectoryArtifact in fileArtifactKeyedHash.AssociatedDirectories)
{
var directory = new DirectoryArtifact(
new AbsolutePath(bondDirectoryArtifact.DirectoryPathValue),
bondDirectoryArtifact.DirectorySealId,
bondDirectoryArtifact.IsDirectorySharedOpaque);
if (!dynamicDirectoryMap.TryGetValue(directory, out var files))
{
files = new List <FileArtifact>();
dynamicDirectoryMap.Add(directory, files);
}
files.Add(file);
}
}
else
{
file = fileArtifactKeyedHash.File;
}
if (fileArtifactKeyedHash.IsSourceAffected)
{
fileContentManager.SourceChangeAffectedInputs.ReportSourceChangedAffectedFile(file.Path);
}
var materializationInfo = fileArtifactKeyedHash.GetFileMaterializationInfo(m_environment.Context.PathTable);
if (!fileContentManager.ReportWorkerPipInputContent(
m_appLoggingContext,
file,
materializationInfo))
{
failedFiles.Add((file, materializationInfo.Hash));
}
}
foreach (var directoryAndContents in dynamicDirectoryMap)
{
fileContentManager.ReportDynamicDirectoryContents(directoryAndContents.Key, directoryAndContents.Value, PipOutputOrigin.NotMaterialized);
}
if (failedFiles.Count != 0)
{
return(new ArtifactMaterializationFailure(failedFiles.ToReadOnlyArray(), m_environment.Context.PathTable));
}
return(Unit.Void);
}
/*** COMMAND LINE PARSING FUNCTION ***/
/// <summary>
/// Converts command line arg input to process ops
/// Input format: "OpType?Path?Content?LinkPath?SymLinkFlag"
/// </summary>
public static Operation CreateFromCommandLine(PathTable pathTable, string commandLineArg)
{
var opArgs = commandLineArg.Split(OperationArgsDelimiter);
if (opArgs.Length != NumArgsExpected)
{
throw new ArgumentException(
string.Format(System.Globalization.CultureInfo.CurrentCulture,
"An input argument (or delimiter) is missing. Expected {0} arguments, but received {1} arguments. Valid format is: OpType?Path?Content?LinkPath?SymLinkFlag. Raw command line is {2}", NumArgsExpected, opArgs.Length, commandLineArg));
}
Type opType;
AbsolutePath absolutePath = AbsolutePath.Invalid;
SymbolicLinkFlag symLinkFlag;
AbsolutePath absoluteLinkPath = AbsolutePath.Invalid;
if (!Enum.TryParse <Type>(opArgs[0], out opType))
{
throw new InvalidCastException("A malformed or invalid input argument was passed for the Operation type enum.");
}
if (opArgs[1].Length != 0 && !AbsolutePath.TryCreate(pathTable, opArgs[1], out absolutePath))
{
throw new InvalidCastException("A malformed or invalid input argument was passed for the Operation path. Could not convert to absolute path.");
}
// This might be a directory, but since the running executable only cares about the string path,
// arbitrarily choose to store it in a FileArtifact
FileArtifact?path = null;
if (absolutePath.IsValid)
{
path = new FileArtifact(absolutePath);
}
string content = opArgs[2].Length == 0 ? null : opArgs[2];
if (opArgs[3].Length != 0 && !AbsolutePath.TryCreate(pathTable, opArgs[3], out absoluteLinkPath))
{
throw new InvalidCastException("A malformed or invalid input argument was passed for the Operation link path. Could not convert to absolute path.");
}
// This might be a directory, but since the running executable only cares about the string path,
// arbitrarily choose to store it in a FileArtifact
FileArtifact?linkPath = null;
if (absoluteLinkPath.IsValid)
{
linkPath = new FileArtifact(absoluteLinkPath);
}
if (!Enum.TryParse <SymbolicLinkFlag>(opArgs[4], out symLinkFlag))
{
throw new InvalidCastException("A malformed or invalid input argument was passed for the Operation symbolic link flag enum.");
}
string additionalArgs = opArgs[5].Length == 0 ? null : opArgs[5];
var op = new Operation(opType, path, content, linkPath, symLinkFlag)
{
PathTable = pathTable,
AdditionalArgs = additionalArgs
};
return(op);
}
private MSBuildProjectOutputs(IEnumerable <StaticDirectory> outputDirectories, FileArtifact outputCacheFile)
{
OutputDirectories = outputDirectories;
OutputCacheFile = outputCacheFile;
}
/// <summary>
/// <see cref="WriteFile"/>, with the option to retry writing to the file a specified number of times
/// </summary>
public static Operation WriteFileWithRetries(FileArtifact path, string content = null, bool doNotInfer = false, int retries = 5)
{
Contract.Requires(retries >= 0);
return(new Operation(Type.WriteFileWithRetries, path, content, doNotInfer: doNotInfer, retriesOnWrite: retries));
}
/// <summary>
/// Creates a copy file operation
/// </summary>
public static Operation CopyFile(FileArtifact srcPath, FileArtifact destPath, bool doNotInfer = false)
{
return(new Operation(Type.CopyFile, path: srcPath, linkPath: destPath, doNotInfer: doNotInfer));
}
/// <summary>
/// Creates a write file operation that appends. The file is created if it does not exist.
/// Writes random content to file at path if no content is specified.
/// </summary>
public static Operation WriteFile(FileArtifact path, string content = null, bool doNotInfer = false)
{
return(content == Environment.NewLine
? new Operation(Type.AppendNewLine, path, doNotInfer: doNotInfer)
: new Operation(Type.WriteFile, path, content, doNotInfer: doNotInfer));
}
/// <summary>
/// Creates a delete file operation
/// </summary>
public static Operation DeleteFile(FileArtifact path, bool doNotInfer = false)
{
return(new Operation(Type.DeleteFile, path, content: null, doNotInfer: doNotInfer));
}
public void TestAddingAndUnifyingIpcPip()
{
var fragment = CreatePipGraphFragmentTest(nameof(TestAddingAndUnifyingIpcPip));
(IIpcMoniker moniker, PipId servicePipId) = TestPipGraphFragmentUtils.CreateService(fragment);
var processBuilder = fragment.GetProcessBuilder();
var argumentsBuilder = new ArgumentsBuilder(processBuilder);
FileArtifact outputFileToVerify = fragment.CreateOutputFile("g");
AbsolutePath outputDirectoryToVerify = fragment.CreateOutputDirectory("d").Path;
argumentsBuilder
.AddInputFileOption("/input:", fragment.CreateSourceFile("f"))
.AddOutputFileOption("/output:", outputFileToVerify.Path)
.AddOutputDirectoryOption("/outputDir:", outputDirectoryToVerify)
.Finish();
(Process process, ProcessOutputs processOutputs) = fragment.ScheduleProcessBuilder(processBuilder);
XAssert.IsTrue(processOutputs.TryGetOutputDirectory(outputDirectoryToVerify, out var outputDirectory));
var addFileProcessBuilder = fragment.GetIpcProcessBuilder();
new ArgumentsBuilder(addFileProcessBuilder)
.AddStringOption("--command ", "addFile")
.AddIpcMonikerOption("--ipcMoniker ", moniker)
.AddInputFileOption("--file ", outputFileToVerify)
.AddInputDirectoryOption("--directory ", outputDirectory.Root)
.AddFileIdOption("--fileId ", outputFileToVerify)
.AddDirectoryIdOption("--directoryId ", outputDirectory.Root)
.AddVsoHashOption("--vsoHash ", outputFileToVerify)
.Finish();
FileArtifact ipcOutputFileToVerify;
IpcPip ipcPip = fragment.ScheduleIpcPip(
moniker,
servicePipId,
addFileProcessBuilder,
ipcOutputFileToVerify = fragment.CreateOutputFile("add"),
false);
var graph = SerializeAndDeserializeIndependentFragments(fragment, fragment);
VerifyGraphSuccessfullyConstructed(graph);
VerifyProducerExists(graph, fragment, outputFileToVerify.Path);
VerifyProducerExists(graph, fragment, outputDirectoryToVerify);
VerifyProducerExists(graph, fragment, ipcOutputFileToVerify);
var remappedOutputFile = FileArtifact.CreateOutputFile(RemapFragmentPath(fragment, outputFileToVerify.Path));
var remappedOutputDirectory = DirectoryArtifact.CreateWithZeroPartialSealId(RemapFragmentPath(fragment, outputDirectory.Root));
PipData expectedArguments = new ArgumentsDataBuilder(Context.StringTable)
.AddStringOption("--command ", "addFile")
.AddIpcMonikerOption("--ipcMoniker ", moniker)
.AddPathOption("--file ", remappedOutputFile.Path)
.AddPathOption("--directory ", remappedOutputDirectory.Path)
.AddFileIdOption("--fileId ", remappedOutputFile)
.AddDirectoryIdOption("--directoryId ", remappedOutputDirectory)
.AddVsoHashOption("--vsoHash ", remappedOutputFile)
.Finish();
VerifyResultingArguments(graph, fragment, ipcOutputFileToVerify, expectedArguments);
}
/// <summary>
/// Verifies the resulting arguments after full graph construction.
/// </summary>
/// <param name="graph">Resulting graph.</param>
/// <param name="fragmentOrigin">Graph fragment where the arguments are constructed.</param>
/// <param name="outputInFragmentOrigin">Output file to identify pip.</param>
/// <param name="expectedArguments">Expected arguments.</param>
private void VerifyResultingArguments(PipGraph graph, TestPipGraphFragment fragmentOrigin, FileArtifact outputInFragmentOrigin, PipData expectedArguments)
{
var pipId = graph.TryGetProducer(FileArtifact.CreateOutputFile(RemapFragmentPath(fragmentOrigin, outputInFragmentOrigin)));
XAssert.IsTrue(pipId.IsValid);
Pip pip = graph.PipTable.HydratePip(pipId, PipQueryContext.PipGraphGetProducingPip);
XAssert.IsNotNull(pip);
PipData actualArguments = PipData.Invalid;
if (pip is Process process)
{
actualArguments = process.Arguments;
}
else if (pip is IpcPip ipcPip)
{
actualArguments = ipcPip.MessageBody;
}
else
{
XAssert.Fail("No arguments associated with pip");
}
string expected = expectedArguments.ToString(Context.PathTable).ToUpperInvariant();
string actual = actualArguments.ToString(Context.PathTable).ToUpperInvariant();
XAssert.AreEqual(expected, actual);
}
private bool TryScheduleIpcPip(Context context, ObjectLiteral obj, bool allowUndefinedTargetService, bool isServiceFinalization, out FileArtifact outputFile, out PipId pipId)
{
// IpcClientInfo
IIpcMoniker moniker = Converter.ExtractRef <IIpcMoniker>(obj, m_ipcSendMoniker, allowUndefined: false);
int? numRetries = Converter.ExtractNumber(obj, m_ipcSendMaxConnectRetries, allowUndefined: true);
int? retryDelayMillis = Converter.ExtractNumber(obj, m_ipcSendConnectRetryDelayMillis, allowUndefined: true);
var clientConfig = new ClientConfig(numRetries, retryDelayMillis);
var ipcClientInfo = new IpcClientInfo(moniker.ToStringId(context.StringTable), clientConfig);
// target service pip
PipId?servicePipId = Converter.ExtractValue <PipId>(obj, m_ipcSendTargetServicePip, allowUndefined: allowUndefinedTargetService);
// arguments
PipData arguments;
ReadOnlyArray <FileArtifact> fileDependencies;
ReadOnlyArray <DirectoryArtifact> directoryDependencies;
using (var ipcProcessBuilder = ProcessBuilder.Create(context.PathTable, context.FrontEndContext.GetPipDataBuilder()))
{
// process arguments
ArrayLiteral argumentsArrayLiteral = Converter.ExtractArrayLiteral(obj, m_ipcSendMessageBody);
TransformerExecuteArgumentsProcessor.ProcessArguments(context, ipcProcessBuilder, argumentsArrayLiteral);
// input file dependencies
var dependenciesArray = Converter.ExtractArrayLiteral(obj, m_ipcSendDependencies, allowUndefined: true);
if (dependenciesArray != null)
{
for (int i = 0; i < dependenciesArray.Length; i++)
{
ProcessImplicitDependency(ipcProcessBuilder, dependenciesArray[i], convContext: new ConversionContext(pos: i, objectCtx: dependenciesArray));
}
}
arguments = ipcProcessBuilder.ArgumentsBuilder.ToPipData(" ", PipDataFragmentEscaping.CRuntimeArgumentRules);
fileDependencies = ipcProcessBuilder.GetInputFilesSoFar();
directoryDependencies = ipcProcessBuilder.GetInputDirectoriesSoFar();
}
// output
AbsolutePath output = Converter.ExtractPath(obj, m_ipcSendOutputFile, allowUndefined: true);
if (!output.IsValid)
{
output = context.GetPipConstructionHelper().GetUniqueObjectDirectory(m_ipcObjectFolderName).Path.Combine(context.PathTable, m_ipcOutputFileName);
}
// tags
string[] tags = null;
var tagsArray = Converter.ExtractArrayLiteral(obj, m_executeTags, allowUndefined: true);
if (tagsArray != null && tagsArray.Count > 0)
{
tags = new string[tagsArray.Count];
for (int i = 0; i < tagsArray.Count; i++)
{
tags[i] = Converter.ExpectString(tagsArray[i], context: new ConversionContext(pos: i, objectCtx: tagsArray));
}
}
// skip materialization for files
FileOrDirectoryArtifact[] skipMaterializationArtifacts = CollectionUtilities.EmptyArray <FileOrDirectoryArtifact>();
ArrayLiteral skipMaterializationLiteral = Converter.ExtractArrayLiteral(obj, m_ipcSendLazilyMaterializedDependencies, allowUndefined: true);
if (skipMaterializationLiteral != null)
{
skipMaterializationArtifacts = new FileOrDirectoryArtifact[skipMaterializationLiteral.Length];
for (int i = 0; i < skipMaterializationLiteral.Length; i++)
{
Converter.ExpectFileOrStaticDirectory(
skipMaterializationLiteral[i],
out var fileArtifact,
out var staticDirectory,
context: new ConversionContext(pos: i, objectCtx: skipMaterializationLiteral));
Contract.Assert(fileArtifact.IsValid ^ staticDirectory != null);
skipMaterializationArtifacts[i] = fileArtifact.IsValid
? FileOrDirectoryArtifact.Create(fileArtifact)
: FileOrDirectoryArtifact.Create(staticDirectory.Root);
}
}
// must run on master
var mustRunOnMaster = Converter.ExtractOptionalBoolean(obj, m_ipcSendMustRunOnMaster) == true;
outputFile = FileArtifact.CreateOutputFile(output);
// create IPC pip and add it to the graph
bool result = context.GetPipConstructionHelper().TryAddIpc(
ipcClientInfo,
arguments,
outputFile,
servicePipDependencies: servicePipId != null ? ReadOnlyArray <PipId> .From(new[] { servicePipId.Value }) : ReadOnlyArray <PipId> .Empty,
fileDependencies: fileDependencies,
directoryDependencies: directoryDependencies,
skipMaterializationFor: ReadOnlyArray <FileOrDirectoryArtifact> .FromWithoutCopy(skipMaterializationArtifacts),
isServiceFinalization: isServiceFinalization,
mustRunOnMaster: mustRunOnMaster,
tags: tags,
out var ipcPip);
pipId = ipcPip.PipId;
return(result);
}
/// <nodoc />
public MacOsDefaults(PathTable pathTable, IMutablePipGraph pipGraph)
{
m_provenance = new PipProvenance(
0,
ModuleId.Invalid,
StringId.Invalid,
FullSymbol.Invalid,
LocationData.Invalid,
QualifierId.Unqualified,
PipData.Invalid);
m_sourceSealDirectoryPaths =
new[]
{
MacPaths.Applications,
MacPaths.Library,
MacPaths.UserProvisioning
}
.Select(p => AbsolutePath.Create(pathTable, p))
.ToArray();
// Sealed Source inputs
// (using Lazy so that these directories are sealed and added to the graph only if explicitly requested by a process)
m_lazySourceSealDirectories = Lazy.Create(() =>
new DefaultSourceSealDirectories(m_sourceSealDirectoryPaths.Select(p => GetSourceSeal(pipGraph, p)).ToArray()));
m_untrackedFiles =
new[]
{
// login.keychain is created by the OS the first time any process invokes an OS API that references the keychain.
// Untracked because build state will not be stored there and code signing will fail if required certs are in the keychain
MacPaths.Etc,
MacPaths.UserKeyChainsDb,
MacPaths.UserKeyChains,
MacPaths.UserCFTextEncoding,
MacPaths.TmpDir
}
.Select(p => FileArtifact.CreateSourceFile(AbsolutePath.Create(pathTable, p)))
.ToArray();
m_untrackedDirectories =
new[]
{
MacPaths.Bin,
MacPaths.Dev,
MacPaths.Private,
MacPaths.Sbin,
MacPaths.SystemLibrary,
MacPaths.UsrBin,
MacPaths.UsrInclude,
MacPaths.UsrLibexec,
MacPaths.UsrShare,
MacPaths.UsrStandalone,
MacPaths.UsrSbin,
MacPaths.Var,
MacPaths.UserPreferences,
// it's important to untrack /usr/lib instead of creating a sealed source directory
// - the set of dynamically loaded libraries during an execution of a process is
// not necessarily deterministic, i.e., when the same process---which itself is
// deterministic---is executed multiple times on same inputs, the set of
// dynamically loaded libraries is not necessarily going to stay the same.
MacPaths.UsrLib
}
.Select(p => DirectoryArtifact.CreateWithZeroPartialSealId(pathTable, p))
.ToArray();
}
/// <summary>
/// Adds all predicted dependencies as inputs, plus all individual inputs predicted for the project
/// </summary>
/// <remarks>
/// Adding all predicted dependencies is key to get the right scheduling. On the other hand, all predicted inputs
/// are not really needed since we are running in undeclared read mode. However, they contribute to make the weak fingerprint stronger (that
/// otherwise will likely be just a shared opaque output at the root).
/// </remarks>
private void ProcessInputs(
ProjectWithPredictions project,
ProcessBuilder processBuilder)
{
// Predicted output directories for all direct dependencies, plus the output directories for the given project itself
var knownOutputDirectories = project.ProjectReferences.SelectMany(reference => reference.PredictedOutputFolders).Union(project.PredictedOutputFolders);
// Add all predicted inputs that are recognized as true source files
// This is done to make the weak fingerprint stronger. Pips are scheduled so undeclared source reads are allowed. This means
// we don't actually need accurate (or in fact any) input predictions to run successfully. But we are trying to avoid the degenerate case
// of a very small weak fingerprint with too many candidates, that can slow down two-phase cache look-up.
foreach (AbsolutePath buildInput in project.PredictedInputFiles)
{
// If any of the predicted inputs is under the predicted output folder of a dependency, then there is a very good chance the predicted input is actually an intermediate file
// In that case, don't add the input as a source file to stay on the safe side. Otherwise we will have a file that is both declared as a source file and contained in a directory
// dependency.
if (knownOutputDirectories.Any(outputFolder => buildInput.IsWithin(PathTable, outputFolder)))
{
continue;
}
// If any of the predicted inputs is under an untracked directory scope, don't add it as an input
if (processBuilder.GetUntrackedDirectoryScopesSoFar().Any(untrackedDirectory => buildInput.IsWithin(PathTable, untrackedDirectory)))
{
continue;
}
processBuilder.AddInputFile(FileArtifact.CreateSourceFile(buildInput));
}
IEnumerable <ProjectWithPredictions> references;
// The default for EnableTransitiveProjectReferences is false, so it has to be true explicitly to kick in
if (m_resolverSettings.EnableTransitiveProjectReferences == true)
{
// In this case all the transitive closure is automatically exposed to the project as direct references
var transitiveReferences = new HashSet <ProjectWithPredictions>();
ComputeTransitiveDependenciesFor(project, transitiveReferences);
references = transitiveReferences;
}
else
{
// Only direct dependencies are declared.
// Add all known explicit inputs from project references. But rule out
// projects that have a known empty list of targets: those projects are not scheduled, so
// there is nothing to consume from them.
references = project.ProjectReferences.Where(projectReference => projectReference.PredictedTargetsToExecute.Targets.Count != 0);
}
var argumentsBuilder = processBuilder.ArgumentsBuilder;
foreach (ProjectWithPredictions projectReference in references)
{
bool outputsPresent = m_processOutputsPerProject.TryGetValue(projectReference, out MSBuildProjectOutputs projectOutputs);
if (!outputsPresent)
{
Contract.Assert(false, $"Pips must have been presented in dependency order: {projectReference.FullPath.ToString(PathTable)} missing, dependency of {project.FullPath.ToString(PathTable)}");
}
// Add all known output directories
foreach (StaticDirectory output in projectOutputs.OutputDirectories)
{
processBuilder.AddInputDirectory(output.Root);
}
// If the dependency was built in isolation, this project needs to access the generated cache files
if (projectOutputs.BuildsInIsolation)
{
var outputCache = projectOutputs.OutputCacheFile;
processBuilder.AddInputFile(outputCache);
// Instruct MSBuild to use the cache file from the associated dependency as an input.
// Flag /irc is the short form of /inputResultsCaches, and part of MSBuild 'build in isolation' mode.
using (argumentsBuilder.StartFragment(PipDataFragmentEscaping.NoEscaping, string.Empty))
{
argumentsBuilder.Add(PipDataAtom.FromString("/irc:"));
argumentsBuilder.Add(PipDataAtom.FromAbsolutePath(outputCache));
}
}
}
}
public async Task Stress()
{
const int N = 5;
const int M = N * N;
var context = BuildXLContext.CreateInstanceForTesting();
var loggingContext = CreateLoggingContextForTest();
var pathTable = context.PathTable;
using (var tempFiles = new TempFileStorage(canGetFileNames: true))
{
var config = ConfigHelpers.CreateDefault(pathTable, tempFiles.GetUniqueFileName(), tempFiles);
using (var pipTable = new PipTable(
context.PathTable,
context.SymbolTable,
initialBufferSize: 1024,
maxDegreeOfParallelism: (Environment.ProcessorCount + 2) / 3,
debug: false))
{
var executionEnvironment = new PipQueueTestExecutionEnvironment(
context,
config,
pipTable,
Path.Combine(TestOutputDirectory, "temp"),
TryGetSubstSourceAndTarget(out string substSource, out string substTarget) ? (substSource, substTarget) : default((string, string)?),
GetSandboxConnection());
Func <RunnablePip, Task <PipResult> > taskFactory = async(runnablePip) =>
{
PipResult result;
var operationTracker = new OperationTracker(runnablePip.LoggingContext);
var pip = runnablePip.Pip;
using (var operationContext = operationTracker.StartOperation(PipExecutorCounter.PipRunningStateDuration, pip.PipId, pip.PipType, runnablePip.LoggingContext))
{
result = await TestPipExecutor.ExecuteAsync(operationContext, executionEnvironment, pip);
}
executionEnvironment.MarkExecuted(pip);
return(result);
};
string executable = CmdHelper.OsShellExe;
FileArtifact executableArtifact = FileArtifact.CreateSourceFile(AbsolutePath.Create(pathTable, executable));
// This is the only file artifact we reference without a producer. Rather than scheduling a hashing pip, let's just invent one (so fingerprinting can succeed).
executionEnvironment.AddWellKnownFile(executableArtifact, WellKnownContentHashes.UntrackedFile);
using (var phase1PipQueue = new PipQueue(LoggingContext, executionEnvironment.Configuration.Schedule))
{
// phase 1: create some files
var baseFileArtifacts = new List <FileArtifact>();
for (int i = 0; i < N; i++)
{
string destination = tempFiles.GetUniqueFileName();
AbsolutePath destinationAbsolutePath = AbsolutePath.Create(pathTable, destination);
FileArtifact destinationArtifact = FileArtifact.CreateSourceFile(destinationAbsolutePath).CreateNextWrittenVersion();
baseFileArtifacts.Add(destinationArtifact);
PipData contents = PipDataBuilder.CreatePipData(
context.StringTable,
" ",
PipDataFragmentEscaping.CRuntimeArgumentRules,
i.ToString(CultureInfo.InvariantCulture));
var writeFile = new WriteFile(destinationArtifact, contents, WriteFileEncoding.Utf8, ReadOnlyArray <StringId> .Empty, PipProvenance.CreateDummy(context));
var pipId = pipTable.Add((uint)(i + 1), writeFile);
var contentHash = ContentHashingUtilities.HashString(contents.ToString(pathTable));
executionEnvironment.AddExpectedWrite(writeFile, destinationArtifact, contentHash);
var runnable = RunnablePip.Create(loggingContext, executionEnvironment, pipId, pipTable.GetPipType(pipId), 0, taskFactory, 0);
runnable.Start(new OperationTracker(loggingContext), loggingContext);
runnable.SetDispatcherKind(DispatcherKind.IO);
phase1PipQueue.Enqueue(runnable);
}
phase1PipQueue.SetAsFinalized();
phase1PipQueue.DrainQueues();
await Task.WhenAll(
Enumerable.Range(0, 2).Select(
async range =>
{
using (var phase2PipQueue = new PipQueue(LoggingContext, executionEnvironment.Configuration.Schedule))
{
// phase 2: do some more with those files
var pips = new ConcurrentDictionary <PipId, Tuple <string, int> >();
var checkerTasks = new ConcurrentQueue <Task>();
Action <PipId, Task <PipResult> > callback =
(id, task) =>
{
XAssert.IsTrue(task.Status == TaskStatus.RanToCompletion);
XAssert.IsFalse(task.Result.Status.IndicatesFailure());
Tuple <string, int> t;
if (!pips.TryRemove(id, out t))
{
XAssert.Fail();
}
checkerTasks.Enqueue(
Task.Run(
() =>
{
string actual = File.ReadAllText(t.Item1).Trim();
// TODO: Make this async
XAssert.AreEqual(actual, t.Item2.ToString());
}));
};
var r = new Random(0);
for (int i = 0; i < M; i++)
{
int sourceIndex = r.Next(baseFileArtifacts.Count);
FileArtifact sourceArtifact = baseFileArtifacts[sourceIndex];
string destination = tempFiles.GetUniqueFileName();
AbsolutePath destinationAbsolutePath = AbsolutePath.Create(pathTable, destination);
FileArtifact destinationArtifact = FileArtifact.CreateSourceFile(destinationAbsolutePath).CreateNextWrittenVersion();
Pip pip;
DispatcherKind queueKind;
switch (r.Next(2))
{
case 0:
pip = new CopyFile(sourceArtifact, destinationArtifact, ReadOnlyArray <StringId> .Empty, PipProvenance.CreateDummy(context));
queueKind = DispatcherKind.IO;
executionEnvironment.AddExpectedWrite(pip, destinationArtifact, executionEnvironment.GetExpectedContent(sourceArtifact));
break;
case 1:
string workingDirectory =
OperatingSystemHelper.IsUnixOS ? "/tmp" :
Environment.GetFolderPath(Environment.SpecialFolder.Windows);
AbsolutePath workingDirectoryAbsolutePath = AbsolutePath.Create(pathTable, workingDirectory);
var pipData = OperatingSystemHelper.IsUnixOS ?
PipDataBuilder.CreatePipData(pathTable.StringTable, " ", PipDataFragmentEscaping.CRuntimeArgumentRules, "-c", "'", "cp", sourceArtifact, destinationArtifact, "'") :
PipDataBuilder.CreatePipData(pathTable.StringTable, " ", PipDataFragmentEscaping.CRuntimeArgumentRules, "/d", "/c", "copy", "/B", sourceArtifact, destinationArtifact);
queueKind = DispatcherKind.CPU;
pip = new Process(
executableArtifact,
workingDirectoryAbsolutePath,
pipData,
FileArtifact.Invalid,
PipData.Invalid,
ReadOnlyArray <EnvironmentVariable> .Empty,
FileArtifact.Invalid,
FileArtifact.Invalid,
FileArtifact.Invalid,
tempFiles.GetUniqueDirectory(pathTable),
null,
null,
ReadOnlyArray <FileArtifact> .FromWithoutCopy(executableArtifact, sourceArtifact),
ReadOnlyArray <FileArtifactWithAttributes> .FromWithoutCopy(destinationArtifact.WithAttributes()),
ReadOnlyArray <DirectoryArtifact> .Empty,
ReadOnlyArray <DirectoryArtifact> .Empty,
ReadOnlyArray <PipId> .Empty,
ReadOnlyArray <AbsolutePath> .From(CmdHelper.GetCmdDependencies(pathTable)),
ReadOnlyArray <AbsolutePath> .From(CmdHelper.GetCmdDependencyScopes(pathTable)),
ReadOnlyArray <StringId> .Empty,
ReadOnlyArray <int> .Empty,
ReadOnlyArray <ProcessSemaphoreInfo> .Empty,
provenance: PipProvenance.CreateDummy(context),
toolDescription: StringId.Invalid,
additionalTempDirectories: ReadOnlyArray <AbsolutePath> .Empty);
executionEnvironment.AddExpectedWrite(pip, destinationArtifact, executionEnvironment.GetExpectedContent(sourceArtifact));
break;
default:
Contract.Assert(false);
continue;
}
var pipId = pipTable.Add((uint)((range *M) + N + i + 1), pip);
Func <RunnablePip, Task> taskFactoryWithCallback = async(runnablePip) =>
{
var task = taskFactory(runnablePip);
var pipResult = await task;
callback(pipId, task);
};
var runnable = RunnablePip.Create(loggingContext, executionEnvironment, pipId, pipTable.GetPipType(pipId), 0, taskFactoryWithCallback, 0);
runnable.Start(new OperationTracker(loggingContext), loggingContext);
runnable.SetDispatcherKind(queueKind);
phase2PipQueue.Enqueue(runnable);
if (!pips.TryAdd(pipId, Tuple.Create(destination, sourceIndex)))
{
Contract.Assert(false);
}
}
phase2PipQueue.SetAsFinalized();
phase2PipQueue.DrainQueues();
XAssert.AreEqual(0, pips.Count);
await Task.WhenAll(checkerTasks);
}
}));
}
}
}
}
/// <nodoc />
public FileArtifact Remap(FileArtifact file)
{
return(m_oldPathTable == null || !file.IsValid ? file : FileArtifact.CreateSourceFile(Remap(file.Path)));
}
private EvaluationResult CreateSourceFile(string path)
{
return(EvaluationResult.Create(FileArtifact.CreateSourceFile(CreateAbsolutePath(path))));
}
private static Process CreateConsoleProcessInContainer(
BuildXLContext context,
TempFileStorage tempFiles,
PathTable pt,
string arguments,
ReadOnlyArray <FileArtifactWithAttributes> outputFiles,
ReadOnlyArray <DirectoryArtifact> directoryOutputs,
ContainerIsolationLevel containerIsolationLevel = ContainerIsolationLevel.IsolateAllOutputs)
{
var executableFileArtifact = FileArtifact.CreateSourceFile(AbsolutePath.Create(context.PathTable, CmdHelper.CmdX64));
var argumentBuilder = new PipDataBuilder(context.PathTable.StringTable);
argumentBuilder.Add("/d");
argumentBuilder.Add("/c");
using (argumentBuilder.StartFragment(PipDataFragmentEscaping.CRuntimeArgumentRules, " "))
{
foreach (var arg in arguments.Split(new[] { ' ' }, System.StringSplitOptions.RemoveEmptyEntries))
{
argumentBuilder.Add(arg);
}
}
string workingDirectory = tempFiles.GetUniqueDirectory();
var workingDirectoryAbsolutePath = AbsolutePath.Create(context.PathTable, workingDirectory);
string uniqueOutputDirectory = tempFiles.GetUniqueDirectory();
var uniqueOutputDirectoryPath = AbsolutePath.Create(context.PathTable, uniqueOutputDirectory);
string uniqueRedirectedOutputDirectory = tempFiles.GetUniqueDirectory("redirected");
var uniqueRedirectedOutputDirectoryPath = AbsolutePath.Create(context.PathTable, uniqueRedirectedOutputDirectory);
var pip = new Process(
executableFileArtifact,
workingDirectoryAbsolutePath,
argumentBuilder.ToPipData(" ", PipDataFragmentEscaping.NoEscaping),
FileArtifact.Invalid,
PipData.Invalid,
ReadOnlyArray <EnvironmentVariable> .FromWithoutCopy(),
FileArtifact.Invalid,
FileArtifact.Invalid,
FileArtifact.Invalid,
tempFiles.GetUniqueDirectory(pt),
null,
null,
dependencies: ReadOnlyArray <FileArtifact> .FromWithoutCopy(new[] { executableFileArtifact }),
outputs: outputFiles,
directoryDependencies: ReadOnlyArray <DirectoryArtifact> .Empty,
directoryOutputs: directoryOutputs,
orderDependencies: ReadOnlyArray <PipId> .Empty,
untrackedPaths: ReadOnlyArray <AbsolutePath> .Empty,
untrackedScopes: ReadOnlyArray <AbsolutePath> .Empty,
tags: ReadOnlyArray <StringId> .Empty,
successExitCodes: ReadOnlyArray <int> .Empty,
semaphores: ReadOnlyArray <ProcessSemaphoreInfo> .Empty,
provenance: PipProvenance.CreateDummy(context),
toolDescription: StringId.Invalid,
additionalTempDirectories: ReadOnlyArray <AbsolutePath> .Empty,
options: Process.Options.NeedsToRunInContainer,
uniqueOutputDirectory: uniqueOutputDirectoryPath,
uniqueRedirectedDirectoryRoot: uniqueRedirectedOutputDirectoryPath,
containerIsolationLevel: containerIsolationLevel);
return(pip);
}
private FileArtifact CreateOutputFile(string path)
{
return(FileArtifact.CreateOutputFile(CreateAbsolutePath(path)));
}
private EvaluationResult SealDirectoryHelper(Context context, ModuleLiteral env, EvaluationStackFrame args, SealDirectoryKind sealDirectoryKind)
{
AbsolutePath path;
ArrayLiteral contents;
ArrayLiteral outputDirectoryContents;
string[] tags;
string description;
bool scrub;
if (args.Length > 0 && args[0].Value is ObjectLiteral)
{
var obj = Args.AsObjectLiteral(args, 0);
var directory = Converter.ExtractDirectory(obj, m_sealRoot, allowUndefined: false);
path = directory.Path;
contents = Converter.ExtractArrayLiteral(obj, m_sealFiles, allowUndefined: false);
tags = Converter.ExtractStringArray(obj, m_sealTags, allowUndefined: true);
description = Converter.ExtractString(obj, m_sealDescription, allowUndefined: true);
scrub = sealDirectoryKind.IsFull()
? Converter.ExtractOptionalBoolean(obj, m_sealScrub) ?? false
: false;
outputDirectoryContents = sealDirectoryKind.IsFull()
? Converter.ExtractOptionalArrayLiteral(obj, m_sealOutputDirectories, allowUndefined: false)
: null;
}
else
{
path = Args.AsPath(args, 0, false);
contents = Args.AsArrayLiteral(args, 1);
tags = Args.AsStringArrayOptional(args, 2);
description = Args.AsStringOptional(args, 3);
// Only do scrub for fully seal directory
scrub = sealDirectoryKind.IsFull() ? Args.AsBoolOptional(args, 4) : false;
outputDirectoryContents = sealDirectoryKind.IsFull() ? Args.AsArrayLiteralOptional(args, 5) : null;
}
var fileContents = new FileArtifact[contents.Length];
for (int i = 0; i < contents.Length; ++i)
{
fileContents[i] = Converter.ExpectFile(contents[i], strict: false, context: new ConversionContext(pos: i, objectCtx: contents));
}
var outputDirectoryArtifactContents = new DirectoryArtifact[outputDirectoryContents?.Count ?? 0];
for (int i = 0; i < outputDirectoryArtifactContents.Length; ++i)
{
outputDirectoryArtifactContents[i] = Converter.ExpectStaticDirectory(outputDirectoryContents[i], context: new ConversionContext(pos: i, objectCtx: contents)).Root;
}
var sortedFileContents = SortedReadOnlyArray <FileArtifact, OrdinalFileArtifactComparer> .CloneAndSort(fileContents, OrdinalFileArtifactComparer.Instance);
var sortedDirectoryContents = SortedReadOnlyArray <DirectoryArtifact, OrdinalDirectoryArtifactComparer> .CloneAndSort(
outputDirectoryArtifactContents,
OrdinalDirectoryArtifactComparer.Instance);
DirectoryArtifact sealedDirectoryArtifact;
if (!context.GetPipConstructionHelper().TrySealDirectory(
directoryRoot: path, contents: sortedFileContents, outputDirectorycontents: sortedDirectoryContents,
kind: sealDirectoryKind, tags: tags, description: description, patterns: null,
sealedDirectory: out sealedDirectoryArtifact, scrub: scrub))
{
// Error has been logged
return(EvaluationResult.Error);
}
var result = new StaticDirectory(sealedDirectoryArtifact, sealDirectoryKind, sortedFileContents.WithCompatibleComparer(OrdinalPathOnlyFileArtifactComparer.Instance));
return(new EvaluationResult(result));
}
/// <summary>
/// Creates a write file operation that appends. The file is created if it does not exist.
/// Writes random content to file at path if no content is specified.
/// </summary>
public static Operation WriteFileIfInputEqual(FileArtifact path, string input, string value, string content = null)
{
return(new Operation(Type.WriteFileIfInputEqual, path, EncodeList(input, value, content)));
}
private FileArtifact SourceFile(string path) => FileArtifact.CreateSourceFile(AbsolutePath.Create(PathTable, path));
/// <summary>
/// Creates a delete file operation with with the option to retry deleting to the file a specified number of times
/// </summary>
public static Operation DeleteFileWithRetries(FileArtifact path, bool doNotInfer = false, int retries = 5)
{
return(new Operation(Type.DeleteFileWithRetries, path, content: null, doNotInfer: doNotInfer, retriesOnWrite: retries));
}
private FileArtifact OutputFile(string path) => FileArtifact.CreateOutputFile(AbsolutePath.Create(PathTable, path));
/// <summary>
/// Creates a read file operation
/// </summary>
public static Operation ReadFile(FileArtifact path, bool doNotInfer = false)
{
return(new Operation(Type.ReadFile, path, doNotInfer: doNotInfer));
}
public void ValidateCachingDirectoryEnumerationReadOnlyMountUntrackedScope(bool maskUntrackedAccesses)
{
// When true (default), directory enumerations in untracked scopes are ignored
// When false, directory enumerations in untracked scopes are tracked as normal
Configuration.Sandbox.MaskUntrackedAccesses = maskUntrackedAccesses;
AbsolutePath readonlyRootPath;
AbsolutePath.TryCreate(Context.PathTable, ReadonlyRoot, out readonlyRootPath);
DirectoryArtifact dir = DirectoryArtifact.CreateWithZeroPartialSealId(CreateUniqueDirectory(ReadonlyRoot));
// Enumerate untracked scope /dir and its parent directory
FileArtifact outFile = CreateOutputFileArtifact();
var ops = new Operation[]
{
Operation.EnumerateDir(DirectoryArtifact.CreateWithZeroPartialSealId(readonlyRootPath)),
Operation.EnumerateDir(dir),
Operation.WriteFile(outFile)
};
var builder = CreatePipBuilder(ops);
builder.AddUntrackedDirectoryScope(dir);
Process pip = SchedulePipBuilder(builder).Process;
RunScheduler().AssertCacheMiss(pip.PipId);
RunScheduler().AssertCacheHit(pip.PipId);
string checkpoint1 = File.ReadAllText(ArtifactToString(outFile));
// Create /dir/nestedFile in untracked scope
FileArtifact nestedFile = CreateSourceFile(ArtifactToString(dir));
if (!maskUntrackedAccesses)
{
RunScheduler().AssertCacheMiss(pip.PipId);
}
RunScheduler().AssertCacheHit(pip.PipId);
// Modify /dir/nestedFile in untracked scope
File.WriteAllText(ArtifactToString(nestedFile), "nestedFile");
RunScheduler().AssertCacheHit(pip.PipId);
// Delete /dir/nestedFile in untracked scope
File.Delete(ArtifactToString(nestedFile));
RunScheduler().AssertCacheHit(pip.PipId);
string checkpoint2 = File.ReadAllText(ArtifactToString(outFile));
// Filesystem should match state from original run, so cache replays output from that run
XAssert.AreEqual(checkpoint1, checkpoint2);
// Create /dir/nestedDir in untracked scope
DirectoryArtifact nestedDir = DirectoryArtifact.CreateWithZeroPartialSealId(CreateUniqueDirectory(ArtifactToString(dir)));
if (!maskUntrackedAccesses)
{
RunScheduler().AssertCacheMiss(pip.PipId);
}
RunScheduler().AssertCacheHit(pip.PipId);
// Delete /dir/nestedDir in untracked scope
Directory.Delete(ArtifactToString(nestedDir));
RunScheduler().AssertCacheHit(pip.PipId);
string checkpoint3 = File.ReadAllText(ArtifactToString(outFile));
// Filesystem should match state from original run, so cache replays output from that run
XAssert.AreEqual(checkpoint1, checkpoint3);
// Delete untracked scope /dir
Directory.Delete(ArtifactToString(dir));
RunScheduler().AssertCacheMiss(pip.PipId);
RunScheduler().AssertCacheHit(pip.PipId);
}
/// <summary>
/// Creates a create hard link operation
/// </summary>
public static Operation CreateHardlink(FileArtifact linkPath, FileArtifact path, bool doNotInfer = false)
{
return(new Operation(Type.CreateHardlink, path, linkPath: linkPath, doNotInfer: doNotInfer));
}
/// <summary>
/// Checks if file content exists in the artifact cache.
/// </summary>
public bool FileContentExistsInArtifactCache(FileArtifact file)
{
ContentHash hash = ContentHashingUtilities.HashFileAsync(file.Path.ToString(Context.PathTable)).Result;
return(ExistsInArtifactCache(hash));
}
/// <summary>
/// Creates a project that is built in isolation, and therefore it produces an output cache file
/// </summary>
public static MSBuildProjectOutputs CreateIsolated(IEnumerable <StaticDirectory> outputDirectories, FileArtifact outputCacheFile)
{
Contract.Requires(outputDirectories != null);
Contract.Requires(outputCacheFile != FileArtifact.Invalid);
return(new MSBuildProjectOutputs(outputDirectories, outputCacheFile));
}
/// <summary>
/// Discards file content in artifact cache if exists.
/// </summary>
public void DiscardFileContentInArtifactCacheIfExists(FileArtifact file, CacheSites sites = CacheSites.LocalAndRemote)
{
ContentHash hash = ContentHashingUtilities.HashFileAsync(file.Path.ToString(Context.PathTable)).Result;
DiscardContentInArtifactCacheIfExists(hash, sites);
}
public void ScrubFileDirectoriesWithPipGraph()
{
string rootDirectory = Path.Combine(TemporaryDirectory, nameof(ScrubFileDirectoriesWithPipGraph));
string sourceRoot = Path.Combine(rootDirectory, "Src");
string outputRoot = Path.Combine(rootDirectory, "Out");
string targetRoot = Path.Combine(rootDirectory, "Target");
var pathTable = new PathTable();
using (TestEnv env = TestEnv.CreateTestEnvWithPausedScheduler(
new List <IMount> {
new Mount()
{
Name = PathAtom.Create(pathTable.StringTable, "testRoot"),
Path = AbsolutePath.Create(pathTable, TemporaryDirectory),
IsWritable = true,
IsReadable = true,
IsScrubbable = true,
AllowCreateDirectory = true,
}
},
pathTable)
)
{
string inputFilePath = Path.Combine(sourceRoot, "input.txt");
WriteFile(inputFilePath);
string outputFilePath = Path.Combine(outputRoot, "output.txt");
WriteFile(outputFilePath);
string tempOutputDirectoryPath = Path.Combine(outputRoot, "TempOutDir");
string tempOutputPath = Path.Combine(tempOutputDirectoryPath, "tempOutputInDir.txt");
Directory.CreateDirectory(tempOutputDirectoryPath);
string optionalOutputDirectoryPath = Path.Combine(outputRoot, "OptionalOutDir");
string optionalOutputPath = Path.Combine(optionalOutputDirectoryPath, "optionalOutputInDir.txt");
Directory.CreateDirectory(optionalOutputDirectoryPath);
string targetFileInOutputDirectoryPath = Path.Combine(targetRoot, "targetInDir.txt");
WriteFile(targetFileInOutputDirectoryPath);
string outputDirectoryPath = Path.Combine(outputRoot, "OutDir");
string outputFileInOutputDirectoryPath = Path.Combine(outputDirectoryPath, "outputInDir.txt");
WriteFile(outputFileInOutputDirectoryPath);
string sharedOutputDirectoryPath = Path.Combine(outputRoot, "SharedOutDir");
string outputFileInOutputSharedDirectoryPath = Path.Combine(sharedOutputDirectoryPath, "outputInSharedDir.txt");
WriteFile(outputFileInOutputSharedDirectoryPath);
string junkOutputPath = Path.Combine(outputRoot, "junk.txt");
WriteFile(junkOutputPath);
string junkOutputInOutputDirectoryPath = Path.Combine(outputDirectoryPath, "junkInDir.txt");
WriteFile(junkOutputInOutputDirectoryPath);
string junkTempOutputPath = Path.Combine(tempOutputDirectoryPath, "junkTempOutput.txt");
WriteFile(junkTempOutputPath);
string junkOptionalOutputPath = Path.Combine(optionalOutputDirectoryPath, "junkOptionalOutput.txt");
WriteFile(junkOptionalOutputPath);
string junkDirectoryPath = Path.Combine(outputRoot, "JunkDir");
string junkFileInJunkDirectoryPath = Path.Combine(junkDirectoryPath, "junkInJunkDir.txt");
WriteFile(junkFileInJunkDirectoryPath);
var pipBuilder = CreatePipBuilderWithTag(env, nameof(ScrubFileDirectoriesWithPipGraph));
FileArtifact input = env.Paths.CreateSourceFile(env.Paths.CreateAbsolutePath(inputFilePath));
pipBuilder.AddInputFile(input);
AbsolutePath output = env.Paths.CreateAbsolutePath(outputFilePath);
pipBuilder.AddOutputFile(output);
AbsolutePath tempOutput = env.Paths.CreateAbsolutePath(tempOutputPath);
pipBuilder.AddOutputFile(tempOutput, FileExistence.Temporary);
AbsolutePath optionalOutput = env.Paths.CreateAbsolutePath(optionalOutputPath);
pipBuilder.AddOutputFile(optionalOutput, FileExistence.Optional);
AbsolutePath outputDirectory = env.Paths.CreateAbsolutePath(outputDirectoryPath);
pipBuilder.AddOutputDirectory(outputDirectory);
AbsolutePath targetRootAbsolutePath = env.Paths.CreateAbsolutePath(targetRoot);
pipBuilder.AddOutputDirectory(targetRootAbsolutePath);
AbsolutePath sharedOutputDirectory = env.Paths.CreateAbsolutePath(sharedOutputDirectoryPath);
pipBuilder.AddOutputDirectory(sharedOutputDirectory, SealDirectoryKind.SharedOpaque);
env.PipConstructionHelper.AddProcess(pipBuilder);
PipGraph pipGraph = AssertSuccessGraphBuilding(env);
RunScrubberWithPipGraph(env, pipGraph, pathsToScrub: new[] { outputRoot, targetRoot });
// All non-junk files/directories should be preserved, except ... (see below)
XAssert.IsTrue(File.Exists(inputFilePath));
XAssert.IsTrue(File.Exists(outputFilePath));
XAssert.IsTrue(Directory.Exists(tempOutputDirectoryPath));
XAssert.IsTrue(Directory.Exists(optionalOutputDirectoryPath));
XAssert.IsTrue(Directory.Exists(outputDirectoryPath));
XAssert.IsTrue(Directory.Exists(sharedOutputDirectoryPath));
// Shared output directory is always scrubbed, and thus its contents should be removed.
XAssert.IsFalse(File.Exists(outputFileInOutputSharedDirectoryPath));
// All junk files/directories should be removed, except ... (see below).
XAssert.IsFalse(File.Exists(junkOutputPath));
XAssert.IsFalse(File.Exists(junkTempOutputPath));
XAssert.IsFalse(File.Exists(junkOptionalOutputPath));
XAssert.IsFalse(Directory.Exists(junkDirectoryPath));
// Junk output in an output directory is not removed because
// when we run again the pip (can be from cache), the whole output directory will be removed.
XAssert.IsTrue(File.Exists(junkOutputInOutputDirectoryPath));
}
}
/// <summary>
/// Serializes a file artifact into a string identifier.
/// </summary>
public static string ToString(FileArtifact file)
{
return(I($"{file.Path.RawValue}{Separator}{file.RewriteCount}"));
}
