mlir/lib/Pass/PassCrashRecovery.cpp - llvm-project - Git at Google

 //===- PassCrashRecovery.cpp - Pass Crash Recovery Implementation ---------===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//

 #include "PassDetail.h"
 #include "mlir/IR/Diagnostics.h"
 #include "mlir/IR/Dialect.h"
 #include "mlir/IR/Verifier.h"
 #include "mlir/Pass/Pass.h"
 #include "mlir/Support/FileUtilities.h"
 #include "llvm/ADT/STLExtras.h"
 #include "llvm/ADT/ScopeExit.h"
 #include "llvm/ADT/SetVector.h"
 #include "llvm/Support/CommandLine.h"
 #include "llvm/Support/CrashRecoveryContext.h"
 #include "llvm/Support/Mutex.h"
 #include "llvm/Support/Signals.h"
 #include "llvm/Support/Threading.h"
 #include "llvm/Support/ToolOutputFile.h"

 using namespace mlir;
 using namespace mlir::detail;

 //===----------------------------------------------------------------------===//
 // RecoveryReproducerContext
 //===----------------------------------------------------------------------===//

 namespace mlir {
 namespace detail {
 /// This class contains all of the context for generating a recovery reproducer.
 /// Each recovery context is registered globally to allow for generating
 /// reproducers when a signal is raised, such as a segfault.
 struct RecoveryReproducerContext {
   RecoveryReproducerContext(std::string passPipelineStr, Operation *op,
                             PassManager::ReproducerStreamFactory &streamFactory,
                             bool verifyPasses);
   ~RecoveryReproducerContext();

   /// Generate a reproducer with the current context.
   void generate(std::string &description);

   /// Disable this reproducer context. This prevents the context from generating
   /// a reproducer in the result of a crash.
   void disable();

   /// Enable a previously disabled reproducer context.
   void enable();

 private:
   /// This function is invoked in the event of a crash.
   static void crashHandler(void *);

   /// Register a signal handler to run in the event of a crash.
   static void registerSignalHandler();

   /// The textual description of the currently executing pipeline.
   std::string pipeline;

   /// The MLIR operation representing the IR before the crash.
   Operation *preCrashOperation;

   /// The factory for the reproducer output stream to use when generating the
   /// reproducer.
   PassManager::ReproducerStreamFactory &streamFactory;

   /// Various pass manager and context flags.
   bool disableThreads;
   bool verifyPasses;

   /// The current set of active reproducer contexts. This is used in the event
   /// of a crash. This is not thread_local as the pass manager may produce any
   /// number of child threads. This uses a set to allow for multiple MLIR pass
   /// managers to be running at the same time.
   static llvm::ManagedStatic<llvm::sys::SmartMutex<true>> reproducerMutex;
   static llvm::ManagedStatic<
       llvm::SmallSetVector<RecoveryReproducerContext *, 1>>
       reproducerSet;
 };
 } // namespace detail
 } // namespace mlir

 llvm::ManagedStatic<llvm::sys::SmartMutex<true>>
     RecoveryReproducerContext::reproducerMutex;
 llvm::ManagedStatic<llvm::SmallSetVector<RecoveryReproducerContext *, 1>>
     RecoveryReproducerContext::reproducerSet;

 RecoveryReproducerContext::RecoveryReproducerContext(
     std::string passPipelineStr, Operation *op,
     PassManager::ReproducerStreamFactory &streamFactory, bool verifyPasses)
     : pipeline(std::move(passPipelineStr)), preCrashOperation(op->clone()),
       streamFactory(streamFactory),
       disableThreads(!op->getContext()->isMultithreadingEnabled()),
       verifyPasses(verifyPasses) {
   enable();
 }

 RecoveryReproducerContext::~RecoveryReproducerContext() {
   // Erase the cloned preCrash IR that we cached.
   preCrashOperation->erase();
   disable();
 }

 void RecoveryReproducerContext::generate(std::string &description) {
   llvm::raw_string_ostream descOS(description);

   // Try to create a new output stream for this crash reproducer.
   std::string error;
   std::unique_ptr<PassManager::ReproducerStream> stream = streamFactory(error);
   if (!stream) {
     descOS << "failed to create output stream: " << error;
     return;
   }
   descOS << "reproducer generated at `" << stream->description() << "`";

   // Output the current pass manager configuration to the crash stream.
   auto &os = stream->os();
   os << "// configuration: -pass-pipeline='" << pipeline << "'";
   if (disableThreads)
     os << " -mlir-disable-threading";
   if (verifyPasses)
     os << " -verify-each";
   os << '\n';

   // Output the .mlir module.
   preCrashOperation->print(os);
 }

 void RecoveryReproducerContext::disable() {
   llvm::sys::SmartScopedLock<true> lock(*reproducerMutex);
   reproducerSet->remove(this);
   if (reproducerSet->empty())
     llvm::CrashRecoveryContext::Disable();
 }

 void RecoveryReproducerContext::enable() {
   llvm::sys::SmartScopedLock<true> lock(*reproducerMutex);
   if (reproducerSet->empty())
     llvm::CrashRecoveryContext::Enable();
   registerSignalHandler();
   reproducerSet->insert(this);
 }

 void RecoveryReproducerContext::crashHandler(void *) {
   // Walk the current stack of contexts and generate a reproducer for each one.
   // We can't know for certain which one was the cause, so we need to generate
   // a reproducer for all of them.
   for (RecoveryReproducerContext *context : *reproducerSet) {
     std::string description;
     context->generate(description);

     // Emit an error using information only available within the context.
     emitError(context->preCrashOperation->getLoc())
         << "A failure has been detected while processing the MLIR module:"
         << description;
   }
 }

 void RecoveryReproducerContext::registerSignalHandler() {
   // Ensure that the handler is only registered once.
   static bool registered =
       (llvm::sys::AddSignalHandler(crashHandler, nullptr), false);
   (void)registered;
 }

 //===----------------------------------------------------------------------===//
 // PassCrashReproducerGenerator
 //===----------------------------------------------------------------------===//

 struct PassCrashReproducerGenerator::Impl {
   Impl(PassManager::ReproducerStreamFactory &streamFactory,
        bool localReproducer)
       : streamFactory(streamFactory), localReproducer(localReproducer) {}

   /// The factory to use when generating a crash reproducer.
   PassManager::ReproducerStreamFactory streamFactory;

   /// Flag indicating if reproducer generation should be localized to the
   /// failing pass.
   bool localReproducer;

   /// A record of all of the currently active reproducer contexts.
   SmallVector<std::unique_ptr<RecoveryReproducerContext>> activeContexts;

   /// The set of all currently running passes. Note: This is not populated when
   /// `localReproducer` is true, as each pass will get its own recovery context.
   SetVector<std::pair<Pass *, Operation *>> runningPasses;

   /// Various pass manager flags that get emitted when generating a reproducer.
   bool pmFlagVerifyPasses;
 };

 PassCrashReproducerGenerator::PassCrashReproducerGenerator(
     PassManager::ReproducerStreamFactory &streamFactory, bool localReproducer)
     : impl(std::make_unique<Impl>(streamFactory, localReproducer)) {}
 PassCrashReproducerGenerator::~PassCrashReproducerGenerator() {}

 void PassCrashReproducerGenerator::initialize(
     iterator_range<PassManager::pass_iterator> passes, Operation *op,
     bool pmFlagVerifyPasses) {
   assert((!impl->localReproducer ||
           !op->getContext()->isMultithreadingEnabled()) &&
          "expected multi-threading to be disabled when generating a local "
          "reproducer");

   llvm::CrashRecoveryContext::Enable();
   impl->pmFlagVerifyPasses = pmFlagVerifyPasses;

   // If we aren't generating a local reproducer, prepare a reproducer for the
   // given top-level operation.
   if (!impl->localReproducer)
     prepareReproducerFor(passes, op);
 }

 static void
 formatPassOpReproducerMessage(Diagnostic &os,
                               std::pair<Pass *, Operation *> passOpPair) {
   os << "`" << passOpPair.first->getName() << "` on "
      << "'" << passOpPair.second->getName() << "' operation";
   if (SymbolOpInterface symbol = dyn_cast<SymbolOpInterface>(passOpPair.second))
     os << ": @" << symbol.getName();
 }

 void PassCrashReproducerGenerator::finalize(Operation *rootOp,
                                             LogicalResult executionResult) {
   // Don't generate a reproducer if we have no active contexts.
   if (impl->activeContexts.empty())
     return;

   // If the pass manager execution succeeded, we don't generate any reproducers.
   if (succeeded(executionResult))
     return impl->activeContexts.clear();

   InFlightDiagnostic diag = emitError(rootOp->getLoc())
                             << "Failures have been detected while "
                                "processing an MLIR pass pipeline";

   // If we are generating a global reproducer, we include all of the running
   // passes in the error message for the only active context.
   if (!impl->localReproducer) {
     assert(impl->activeContexts.size() == 1 && "expected one active context");

     // Generate the reproducer.
     std::string description;
     impl->activeContexts.front()->generate(description);

     // Emit an error to the user.
     Diagnostic &note = diag.attachNote() << "Pipeline failed while executing [";
     llvm::interleaveComma(impl->runningPasses, note,
                           [&](const std::pair<Pass *, Operation *> &value) {
                             formatPassOpReproducerMessage(note, value);
                           });
     note << "]: " << description;
     return;
   }

   // If we were generating a local reproducer, we generate a reproducer for the
   // most recently executing pass using the matching entry from  `runningPasses`
   // to generate a localized diagnostic message.
   assert(impl->activeContexts.size() == impl->runningPasses.size() &&
          "expected running passes to match active contexts");

   // Generate the reproducer.
   RecoveryReproducerContext &reproducerContext = *impl->activeContexts.back();
   std::string description;
   reproducerContext.generate(description);

   // Emit an error to the user.
   Diagnostic &note = diag.attachNote() << "Pipeline failed while executing ";
   formatPassOpReproducerMessage(note, impl->runningPasses.back());
   note << ": " << description;

   impl->activeContexts.clear();
 }

 void PassCrashReproducerGenerator::prepareReproducerFor(Pass *pass,
                                                         Operation *op) {
   // If not tracking local reproducers, we simply remember that this pass is
   // running.
   impl->runningPasses.insert(std::make_pair(pass, op));
   if (!impl->localReproducer)
     return;

   // Disable the current pass recovery context, if there is one. This may happen
   // in the case of dynamic pass pipelines.
   if (!impl->activeContexts.empty())
     impl->activeContexts.back()->disable();

   // Collect all of the parent scopes of this operation.
   SmallVector<OperationName> scopes;
   while (Operation *parentOp = op->getParentOp()) {
     scopes.push_back(op->getName());
     op = parentOp;
   }

   // Emit a pass pipeline string for the current pass running on the current
   // operation type.
   std::string passStr;
   llvm::raw_string_ostream passOS(passStr);
   for (OperationName scope : llvm::reverse(scopes))
     passOS << scope << "(";
   pass->printAsTextualPipeline(passOS);
   for (unsigned i = 0, e = scopes.size(); i < e; ++i)
     passOS << ")";

   impl->activeContexts.push_back(std::make_unique<RecoveryReproducerContext>(
       passOS.str(), op, impl->streamFactory, impl->pmFlagVerifyPasses));
 }
 void PassCrashReproducerGenerator::prepareReproducerFor(
     iterator_range<PassManager::pass_iterator> passes, Operation *op) {
   std::string passStr;
   llvm::raw_string_ostream passOS(passStr);
   llvm::interleaveComma(
       passes, passOS, [&](Pass &pass) { pass.printAsTextualPipeline(passOS); });

   impl->activeContexts.push_back(std::make_unique<RecoveryReproducerContext>(
       passOS.str(), op, impl->streamFactory, impl->pmFlagVerifyPasses));
 }

 void PassCrashReproducerGenerator::removeLastReproducerFor(Pass *pass,
                                                            Operation *op) {
   // We only pop the active context if we are tracking local reproducers.
   impl->runningPasses.remove(std::make_pair(pass, op));
   if (impl->localReproducer) {
     impl->activeContexts.pop_back();

     // Re-enable the previous pass recovery context, if there was one. This may
     // happen in the case of dynamic pass pipelines.
     if (!impl->activeContexts.empty())
       impl->activeContexts.back()->enable();
   }
 }

 //===----------------------------------------------------------------------===//
 // CrashReproducerInstrumentation
 //===----------------------------------------------------------------------===//

 namespace {
 struct CrashReproducerInstrumentation : public PassInstrumentation {
   CrashReproducerInstrumentation(PassCrashReproducerGenerator &generator)
       : generator(generator) {}
   ~CrashReproducerInstrumentation() override = default;

   void runBeforePass(Pass *pass, Operation *op) override {
     if (!isa<OpToOpPassAdaptor>(pass))
       generator.prepareReproducerFor(pass, op);
   }

   void runAfterPass(Pass *pass, Operation *op) override {
     if (!isa<OpToOpPassAdaptor>(pass))
       generator.removeLastReproducerFor(pass, op);
   }

   void runAfterPassFailed(Pass *pass, Operation *op) override {
     generator.finalize(op, /*executionResult=*/failure());
   }

 private:
   /// The generator used to create crash reproducers.
   PassCrashReproducerGenerator &generator;
 };
 } // end anonymous namespace

 //===----------------------------------------------------------------------===//
 // FileReproducerStream
 //===----------------------------------------------------------------------===//

 namespace {
 /// This class represents a default instance of PassManager::ReproducerStream
 /// that is backed by a file.
 struct FileReproducerStream : public PassManager::ReproducerStream {
   FileReproducerStream(std::unique_ptr<llvm::ToolOutputFile> outputFile)
       : outputFile(std::move(outputFile)) {}
   ~FileReproducerStream() override { outputFile->keep(); }

   /// Returns a description of the reproducer stream.
   StringRef description() override { return outputFile->getFilename(); }

   /// Returns the stream on which to output the reproducer.
   raw_ostream &os() override { return outputFile->os(); }

 private:
   /// ToolOutputFile corresponding to opened `filename`.
   std::unique_ptr<llvm::ToolOutputFile> outputFile = nullptr;
 };
 } // end anonymous namespace

 //===----------------------------------------------------------------------===//
 // PassManager
 //===----------------------------------------------------------------------===//

 LogicalResult PassManager::runWithCrashRecovery(Operation *op,
                                                 AnalysisManager am) {
   crashReproGenerator->initialize(getPasses(), op, verifyPasses);

   // Safely invoke the passes within a recovery context.
   LogicalResult passManagerResult = failure();
   llvm::CrashRecoveryContext recoveryContext;
   recoveryContext.RunSafelyOnThread(
       [&] { passManagerResult = runPasses(op, am); });
   crashReproGenerator->finalize(op, passManagerResult);
   return passManagerResult;
 }

 void PassManager::enableCrashReproducerGeneration(StringRef outputFile,
                                                   bool genLocalReproducer) {
   // Capture the filename by value in case outputFile is out of scope when
   // invoked.
   std::string filename = outputFile.str();
   enableCrashReproducerGeneration(
       [filename](std::string &error) -> std::unique_ptr<ReproducerStream> {
         std::unique_ptr<llvm::ToolOutputFile> outputFile =
             mlir::openOutputFile(filename, &error);
         if (!outputFile) {
           error = "Failed to create reproducer stream: " + error;
           return nullptr;
         }
         return std::make_unique<FileReproducerStream>(std::move(outputFile));
       },
       genLocalReproducer);
 }

 void PassManager::enableCrashReproducerGeneration(
     ReproducerStreamFactory factory, bool genLocalReproducer) {
   assert(!crashReproGenerator &&
          "crash reproducer has already been initialized");
   if (genLocalReproducer && getContext()->isMultithreadingEnabled())
     llvm::report_fatal_error(
         "Local crash reproduction can't be setup on a "
         "pass-manager without disabling multi-threading first.");

   crashReproGenerator = std::make_unique<PassCrashReproducerGenerator>(
       factory, genLocalReproducer);
   addInstrumentation(
       std::make_unique<CrashReproducerInstrumentation>(*crashReproGenerator));
 }
	//===- PassCrashRecovery.cpp - Pass Crash Recovery Implementation ---------===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//

	#include "PassDetail.h"
	#include "mlir/IR/Diagnostics.h"
	#include "mlir/IR/Dialect.h"
	#include "mlir/IR/Verifier.h"
	#include "mlir/Pass/Pass.h"
	#include "mlir/Support/FileUtilities.h"
	#include "llvm/ADT/STLExtras.h"
	#include "llvm/ADT/ScopeExit.h"
	#include "llvm/ADT/SetVector.h"
	#include "llvm/Support/CommandLine.h"
	#include "llvm/Support/CrashRecoveryContext.h"
	#include "llvm/Support/Mutex.h"
	#include "llvm/Support/Signals.h"
	#include "llvm/Support/Threading.h"
	#include "llvm/Support/ToolOutputFile.h"

	using namespace mlir;
	using namespace mlir::detail;

	//===----------------------------------------------------------------------===//
	// RecoveryReproducerContext
	//===----------------------------------------------------------------------===//

	namespace mlir {
	namespace detail {
	/// This class contains all of the context for generating a recovery reproducer.
	/// Each recovery context is registered globally to allow for generating
	/// reproducers when a signal is raised, such as a segfault.
	struct RecoveryReproducerContext {
	RecoveryReproducerContext(std::string passPipelineStr, Operation *op,
	PassManager::ReproducerStreamFactory &streamFactory,
	bool verifyPasses);
	~RecoveryReproducerContext();

	/// Generate a reproducer with the current context.
	void generate(std::string &description);

	/// Disable this reproducer context. This prevents the context from generating
	/// a reproducer in the result of a crash.
	void disable();

	/// Enable a previously disabled reproducer context.
	void enable();

	private:
	/// This function is invoked in the event of a crash.
	static void crashHandler(void *);

	/// Register a signal handler to run in the event of a crash.
	static void registerSignalHandler();

	/// The textual description of the currently executing pipeline.
	std::string pipeline;

	/// The MLIR operation representing the IR before the crash.
	Operation *preCrashOperation;

	/// The factory for the reproducer output stream to use when generating the
	/// reproducer.
	PassManager::ReproducerStreamFactory &streamFactory;

	/// Various pass manager and context flags.
	bool disableThreads;
	bool verifyPasses;

	/// The current set of active reproducer contexts. This is used in the event
	/// of a crash. This is not thread_local as the pass manager may produce any
	/// number of child threads. This uses a set to allow for multiple MLIR pass
	/// managers to be running at the same time.
	static llvm::ManagedStatic<llvm::sys::SmartMutex<true>> reproducerMutex;
	static llvm::ManagedStatic<
	llvm::SmallSetVector<RecoveryReproducerContext *, 1>>
	reproducerSet;
	};
	} // namespace detail
	} // namespace mlir

	llvm::ManagedStatic<llvm::sys::SmartMutex<true>>
	RecoveryReproducerContext::reproducerMutex;
	llvm::ManagedStatic<llvm::SmallSetVector<RecoveryReproducerContext *, 1>>
	RecoveryReproducerContext::reproducerSet;

	RecoveryReproducerContext::RecoveryReproducerContext(
	std::string passPipelineStr, Operation *op,
	PassManager::ReproducerStreamFactory &streamFactory, bool verifyPasses)
	: pipeline(std::move(passPipelineStr)), preCrashOperation(op->clone()),
	streamFactory(streamFactory),
	disableThreads(!op->getContext()->isMultithreadingEnabled()),
	verifyPasses(verifyPasses) {
	enable();
	}

	RecoveryReproducerContext::~RecoveryReproducerContext() {
	// Erase the cloned preCrash IR that we cached.
	preCrashOperation->erase();
	disable();
	}

	void RecoveryReproducerContext::generate(std::string &description) {
	llvm::raw_string_ostream descOS(description);

	// Try to create a new output stream for this crash reproducer.
	std::string error;
	std::unique_ptr<PassManager::ReproducerStream> stream = streamFactory(error);
	if (!stream) {
	descOS << "failed to create output stream: " << error;
	return;
	}
	descOS << "reproducer generated at `" << stream->description() << "`";

	// Output the current pass manager configuration to the crash stream.
	auto &os = stream->os();
	os << "// configuration: -pass-pipeline='" << pipeline << "'";
	if (disableThreads)
	os << " -mlir-disable-threading";
	if (verifyPasses)
	os << " -verify-each";
	os << '\n';

	// Output the .mlir module.
	preCrashOperation->print(os);
	}

	void RecoveryReproducerContext::disable() {
	llvm::sys::SmartScopedLock<true> lock(*reproducerMutex);
	reproducerSet->remove(this);
	if (reproducerSet->empty())
	llvm::CrashRecoveryContext::Disable();
	}

	void RecoveryReproducerContext::enable() {
	llvm::sys::SmartScopedLock<true> lock(*reproducerMutex);
	if (reproducerSet->empty())
	llvm::CrashRecoveryContext::Enable();
	registerSignalHandler();
	reproducerSet->insert(this);
	}

	void RecoveryReproducerContext::crashHandler(void *) {
	// Walk the current stack of contexts and generate a reproducer for each one.
	// We can't know for certain which one was the cause, so we need to generate
	// a reproducer for all of them.
	for (RecoveryReproducerContext context : reproducerSet) {
	std::string description;
	context->generate(description);

	// Emit an error using information only available within the context.
	emitError(context->preCrashOperation->getLoc())
	<< "A failure has been detected while processing the MLIR module:"
	<< description;
	}
	}

	void RecoveryReproducerContext::registerSignalHandler() {
	// Ensure that the handler is only registered once.
	static bool registered =
	(llvm::sys::AddSignalHandler(crashHandler, nullptr), false);
	(void)registered;
	}

	//===----------------------------------------------------------------------===//
	// PassCrashReproducerGenerator
	//===----------------------------------------------------------------------===//

	struct PassCrashReproducerGenerator::Impl {
	Impl(PassManager::ReproducerStreamFactory &streamFactory,
	bool localReproducer)
	: streamFactory(streamFactory), localReproducer(localReproducer) {}

	/// The factory to use when generating a crash reproducer.
	PassManager::ReproducerStreamFactory streamFactory;

	/// Flag indicating if reproducer generation should be localized to the
	/// failing pass.
	bool localReproducer;

	/// A record of all of the currently active reproducer contexts.
	SmallVector<std::unique_ptr<RecoveryReproducerContext>> activeContexts;

	/// The set of all currently running passes. Note: This is not populated when
	/// `localReproducer` is true, as each pass will get its own recovery context.
	SetVector<std::pair<Pass , Operation >> runningPasses;

	/// Various pass manager flags that get emitted when generating a reproducer.
	bool pmFlagVerifyPasses;
	};

	PassCrashReproducerGenerator::PassCrashReproducerGenerator(
	PassManager::ReproducerStreamFactory &streamFactory, bool localReproducer)
	: impl(std::make_unique<Impl>(streamFactory, localReproducer)) {}
	PassCrashReproducerGenerator::~PassCrashReproducerGenerator() {}

	void PassCrashReproducerGenerator::initialize(
	iterator_range<PassManager::pass_iterator> passes, Operation *op,
	bool pmFlagVerifyPasses) {
	assert((!impl->localReproducer \|\|
	!op->getContext()->isMultithreadingEnabled()) &&
	"expected multi-threading to be disabled when generating a local "
	"reproducer");

	llvm::CrashRecoveryContext::Enable();
	impl->pmFlagVerifyPasses = pmFlagVerifyPasses;

	// If we aren't generating a local reproducer, prepare a reproducer for the
	// given top-level operation.
	if (!impl->localReproducer)
	prepareReproducerFor(passes, op);
	}

	static void
	formatPassOpReproducerMessage(Diagnostic &os,
	std::pair<Pass , Operation > passOpPair) {
	os << "`" << passOpPair.first->getName() << "` on "
	<< "'" << passOpPair.second->getName() << "' operation";
	if (SymbolOpInterface symbol = dyn_cast<SymbolOpInterface>(passOpPair.second))
	os << ": @" << symbol.getName();
	}

	void PassCrashReproducerGenerator::finalize(Operation *rootOp,
	LogicalResult executionResult) {
	// Don't generate a reproducer if we have no active contexts.
	if (impl->activeContexts.empty())
	return;

	// If the pass manager execution succeeded, we don't generate any reproducers.
	if (succeeded(executionResult))
	return impl->activeContexts.clear();

	InFlightDiagnostic diag = emitError(rootOp->getLoc())
	<< "Failures have been detected while "
	"processing an MLIR pass pipeline";

	// If we are generating a global reproducer, we include all of the running
	// passes in the error message for the only active context.
	if (!impl->localReproducer) {
	assert(impl->activeContexts.size() == 1 && "expected one active context");

	// Generate the reproducer.
	std::string description;
	impl->activeContexts.front()->generate(description);

	// Emit an error to the user.
	Diagnostic &note = diag.attachNote() << "Pipeline failed while executing [";
	llvm::interleaveComma(impl->runningPasses, note,
	[&](const std::pair<Pass , Operation > &value) {
	formatPassOpReproducerMessage(note, value);
	});
	note << "]: " << description;
	return;
	}

	// If we were generating a local reproducer, we generate a reproducer for the
	// most recently executing pass using the matching entry from `runningPasses`
	// to generate a localized diagnostic message.
	assert(impl->activeContexts.size() == impl->runningPasses.size() &&
	"expected running passes to match active contexts");

	// Generate the reproducer.
	RecoveryReproducerContext &reproducerContext = *impl->activeContexts.back();
	std::string description;
	reproducerContext.generate(description);

	// Emit an error to the user.
	Diagnostic &note = diag.attachNote() << "Pipeline failed while executing ";
	formatPassOpReproducerMessage(note, impl->runningPasses.back());
	note << ": " << description;

	impl->activeContexts.clear();
	}

	void PassCrashReproducerGenerator::prepareReproducerFor(Pass *pass,
	Operation *op) {
	// If not tracking local reproducers, we simply remember that this pass is
	// running.
	impl->runningPasses.insert(std::make_pair(pass, op));
	if (!impl->localReproducer)
	return;

	// Disable the current pass recovery context, if there is one. This may happen
	// in the case of dynamic pass pipelines.
	if (!impl->activeContexts.empty())
	impl->activeContexts.back()->disable();

	// Collect all of the parent scopes of this operation.
	SmallVector<OperationName> scopes;
	while (Operation *parentOp = op->getParentOp()) {
	scopes.push_back(op->getName());
	op = parentOp;
	}

	// Emit a pass pipeline string for the current pass running on the current
	// operation type.
	std::string passStr;
	llvm::raw_string_ostream passOS(passStr);
	for (OperationName scope : llvm::reverse(scopes))
	passOS << scope << "(";
	pass->printAsTextualPipeline(passOS);
	for (unsigned i = 0, e = scopes.size(); i < e; ++i)
	passOS << ")";

	impl->activeContexts.push_back(std::make_unique<RecoveryReproducerContext>(
	passOS.str(), op, impl->streamFactory, impl->pmFlagVerifyPasses));
	}
	void PassCrashReproducerGenerator::prepareReproducerFor(
	iterator_range<PassManager::pass_iterator> passes, Operation *op) {
	std::string passStr;
	llvm::raw_string_ostream passOS(passStr);
	llvm::interleaveComma(
	passes, passOS, [&](Pass &pass) { pass.printAsTextualPipeline(passOS); });

	impl->activeContexts.push_back(std::make_unique<RecoveryReproducerContext>(
	passOS.str(), op, impl->streamFactory, impl->pmFlagVerifyPasses));
	}

	void PassCrashReproducerGenerator::removeLastReproducerFor(Pass *pass,
	Operation *op) {
	// We only pop the active context if we are tracking local reproducers.
	impl->runningPasses.remove(std::make_pair(pass, op));
	if (impl->localReproducer) {
	impl->activeContexts.pop_back();

	// Re-enable the previous pass recovery context, if there was one. This may
	// happen in the case of dynamic pass pipelines.
	if (!impl->activeContexts.empty())
	impl->activeContexts.back()->enable();
	}
	}

	//===----------------------------------------------------------------------===//
	// CrashReproducerInstrumentation
	//===----------------------------------------------------------------------===//

	namespace {
	struct CrashReproducerInstrumentation : public PassInstrumentation {
	CrashReproducerInstrumentation(PassCrashReproducerGenerator &generator)
	: generator(generator) {}
	~CrashReproducerInstrumentation() override = default;

	void runBeforePass(Pass pass, Operation op) override {
	if (!isa<OpToOpPassAdaptor>(pass))
	generator.prepareReproducerFor(pass, op);
	}

	void runAfterPass(Pass pass, Operation op) override {
	if (!isa<OpToOpPassAdaptor>(pass))
	generator.removeLastReproducerFor(pass, op);
	}

	void runAfterPassFailed(Pass pass, Operation op) override {
	generator.finalize(op, /executionResult=/failure());
	}

	private:
	/// The generator used to create crash reproducers.
	PassCrashReproducerGenerator &generator;
	};
	} // end anonymous namespace

	//===----------------------------------------------------------------------===//
	// FileReproducerStream
	//===----------------------------------------------------------------------===//

	namespace {
	/// This class represents a default instance of PassManager::ReproducerStream
	/// that is backed by a file.
	struct FileReproducerStream : public PassManager::ReproducerStream {
	FileReproducerStream(std::unique_ptr<llvm::ToolOutputFile> outputFile)
	: outputFile(std::move(outputFile)) {}
	~FileReproducerStream() override { outputFile->keep(); }

	/// Returns a description of the reproducer stream.
	StringRef description() override { return outputFile->getFilename(); }

	/// Returns the stream on which to output the reproducer.
	raw_ostream &os() override { return outputFile->os(); }

	private:
	/// ToolOutputFile corresponding to opened `filename`.
	std::unique_ptr<llvm::ToolOutputFile> outputFile = nullptr;
	};
	} // end anonymous namespace

	//===----------------------------------------------------------------------===//
	// PassManager
	//===----------------------------------------------------------------------===//

	LogicalResult PassManager::runWithCrashRecovery(Operation *op,
	AnalysisManager am) {
	crashReproGenerator->initialize(getPasses(), op, verifyPasses);

	// Safely invoke the passes within a recovery context.
	LogicalResult passManagerResult = failure();
	llvm::CrashRecoveryContext recoveryContext;
	recoveryContext.RunSafelyOnThread(
	[&] { passManagerResult = runPasses(op, am); });
	crashReproGenerator->finalize(op, passManagerResult);
	return passManagerResult;
	}

	void PassManager::enableCrashReproducerGeneration(StringRef outputFile,
	bool genLocalReproducer) {
	// Capture the filename by value in case outputFile is out of scope when
	// invoked.
	std::string filename = outputFile.str();
	enableCrashReproducerGeneration(
	[filename](std::string &error) -> std::unique_ptr<ReproducerStream> {
	std::unique_ptr<llvm::ToolOutputFile> outputFile =
	mlir::openOutputFile(filename, &error);
	if (!outputFile) {
	error = "Failed to create reproducer stream: " + error;
	return nullptr;
	}
	return std::make_unique<FileReproducerStream>(std::move(outputFile));
	},
	genLocalReproducer);
	}

	void PassManager::enableCrashReproducerGeneration(
	ReproducerStreamFactory factory, bool genLocalReproducer) {
	assert(!crashReproGenerator &&
	"crash reproducer has already been initialized");
	if (genLocalReproducer && getContext()->isMultithreadingEnabled())
	llvm::report_fatal_error(
	"Local crash reproduction can't be setup on a "
	"pass-manager without disabling multi-threading first.");

	crashReproGenerator = std::make_unique<PassCrashReproducerGenerator>(
	factory, genLocalReproducer);
	addInstrumentation(
	std::make_unique<CrashReproducerInstrumentation>(*crashReproGenerator));
	}