clangd/TUScheduler.h - toolchain/clang-tools-extra - Git at Google

 //===--- TUScheduler.h -------------------------------------------*-C++-*-===//
 //
 // 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
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_CLANG_TOOLS_EXTRA_CLANGD_TUSCHEDULER_H
 #define LLVM_CLANG_TOOLS_EXTRA_CLANGD_TUSCHEDULER_H

 #include "ClangdUnit.h"
 #include "Function.h"
 #include "Threading.h"
 #include "index/CanonicalIncludes.h"
 #include "llvm/ADT/StringMap.h"
 #include <future>

 namespace clang {
 namespace clangd {

 /// Returns a number of a default async threads to use for TUScheduler.
 /// Returned value is always >= 1 (i.e. will not cause requests to be processed
 /// synchronously).
 unsigned getDefaultAsyncThreadsCount();

 struct InputsAndAST {
   const ParseInputs &Inputs;
   ParsedAST &AST;
 };

 struct InputsAndPreamble {
   llvm::StringRef Contents;
   const tooling::CompileCommand &Command;
   const PreambleData *Preamble;
 };

 /// Determines whether diagnostics should be generated for a file snapshot.
 enum class WantDiagnostics {
   Yes,  /// Diagnostics must be generated for this snapshot.
   No,   /// Diagnostics must not be generated for this snapshot.
   Auto, /// Diagnostics must be generated for this snapshot or a subsequent one,
         /// within a bounded amount of time.
 };

 /// Configuration of the AST retention policy. This only covers retention of
 /// *idle* ASTs. If queue has operations requiring the AST, they might be
 /// kept in memory.
 struct ASTRetentionPolicy {
   /// Maximum number of ASTs to be retained in memory when there are no pending
   /// requests for them.
   unsigned MaxRetainedASTs = 3;
 };

 struct TUAction {
   enum State {
     Queued,           // The TU is pending in the thread task queue to be built.
     RunningAction,    // Starting running actions on the TU.
     BuildingPreamble, // The preamble of the TU is being built.
     BuildingFile,     // The TU is being built. It is only emitted when building
                       // the AST for diagnostics in write action (update).
     Idle, // Indicates the worker thread is idle, and ready to run any upcoming
           // actions.
   };
   TUAction(State S, llvm::StringRef Name) : S(S), Name(Name) {}
   State S;
   /// The name of the action currently running, e.g. Update, GoToDef, Hover.
   /// Empty if we are in the idle state.
   std::string Name;
 };

 // Internal status of the TU in TUScheduler.
 struct TUStatus {
   struct BuildDetails {
     /// Indicates whether clang failed to build the TU.
     bool BuildFailed = false;
     /// Indicates whether we reused the prebuilt AST.
     bool ReuseAST = false;
   };
   /// Serialize this to an LSP file status item.
   FileStatus render(PathRef File) const;

   TUAction Action;
   BuildDetails Details;
 };

 class ParsingCallbacks {
 public:
   virtual ~ParsingCallbacks() = default;

   /// Called on the AST that was built for emitting the preamble. The built AST
   /// contains only AST nodes from the #include directives at the start of the
   /// file. AST node in the current file should be observed on onMainAST call.
   virtual void onPreambleAST(PathRef Path, ASTContext &Ctx,
                              std::shared_ptr<clang::Preprocessor> PP,
                              const CanonicalIncludes &) {}
   /// Called on the AST built for the file itself. Note that preamble AST nodes
   /// are not deserialized and should be processed in the onPreambleAST call
   /// instead.
   /// The \p AST always contains all AST nodes for the main file itself, and
   /// only a portion of the AST nodes deserialized from the preamble. Note that
   /// some nodes from the preamble may have been deserialized and may also be
   /// accessed from the main file AST, e.g. redecls of functions from preamble,
   /// etc. Clients are expected to process only the AST nodes from the main file
   /// in this callback (obtained via ParsedAST::getLocalTopLevelDecls) to obtain
   /// optimal performance.
   virtual void onMainAST(PathRef Path, ParsedAST &AST) {}

   /// Called whenever the diagnostics for \p File are produced.
   virtual void onDiagnostics(PathRef File, std::vector<Diag> Diags) {}

   /// Called whenever the TU status is updated.
   virtual void onFileUpdated(PathRef File, const TUStatus &Status) {}
 };

 /// Handles running tasks for ClangdServer and managing the resources (e.g.,
 /// preambles and ASTs) for opened files.
 /// TUScheduler is not thread-safe, only one thread should be providing updates
 /// and scheduling tasks.
 /// Callbacks are run on a threadpool and it's appropriate to do slow work in
 /// them. Each task has a name, used for tracing (should be UpperCamelCase).
 /// FIXME(sammccall): pull out a scheduler options struct.
 class TUScheduler {
 public:
   TUScheduler(unsigned AsyncThreadsCount, bool StorePreamblesInMemory,
               std::unique_ptr<ParsingCallbacks> ASTCallbacks,
               std::chrono::steady_clock::duration UpdateDebounce,
               ASTRetentionPolicy RetentionPolicy);
   ~TUScheduler();

   /// Returns estimated memory usage for each of the currently open files.
   /// The order of results is unspecified.
   std::vector<std::pair<Path, std::size_t>> getUsedBytesPerFile() const;

   /// Returns a list of files with ASTs currently stored in memory. This method
   /// is not very reliable and is only used for test. E.g., the results will not
   /// contain files that currently run something over their AST.
   std::vector<Path> getFilesWithCachedAST() const;

   /// Schedule an update for \p File. Adds \p File to a list of tracked files if
   /// \p File was not part of it before.
   /// If diagnostics are requested (Yes), and the context is cancelled before
   /// they are prepared, they may be skipped if eventual-consistency permits it
   /// (i.e. WantDiagnostics is downgraded to Auto).
   void update(PathRef File, ParseInputs Inputs, WantDiagnostics WD);

   /// Remove \p File from the list of tracked files and schedule removal of its
   /// resources. Pending diagnostics for closed files may not be delivered, even
   /// if requested with WantDiags::Auto or WantDiags::Yes.
   void remove(PathRef File);

   /// Schedule an async task with no dependencies.
   void run(llvm::StringRef Name, llvm::unique_function<void()> Action);

   /// Schedule an async read of the AST. \p Action will be called when AST is
   /// ready. The AST passed to \p Action refers to the version of \p File
   /// tracked at the time of the call, even if new updates are received before
   /// \p Action is executed.
   /// If an error occurs during processing, it is forwarded to the \p Action
   /// callback.
   /// If the context is cancelled before the AST is ready, the callback will
   /// receive a CancelledError.
   void runWithAST(llvm::StringRef Name, PathRef File,
                   Callback<InputsAndAST> Action);

   /// Controls whether preamble reads wait for the preamble to be up-to-date.
   enum PreambleConsistency {
     /// The preamble is generated from the current version of the file.
     /// If the content was recently updated, we will wait until we have a
     /// preamble that reflects that update.
     /// This is the slowest option, and may be delayed by other tasks.
     Consistent,
     /// The preamble may be generated from an older version of the file.
     /// Reading from locations in the preamble may cause files to be re-read.
     /// This gives callers two options:
     /// - validate that the preamble is still valid, and only use it if so
     /// - accept that the preamble contents may be outdated, and try to avoid
     ///   reading source code from headers.
     /// This is the fastest option, usually a preamble is available immediately.
     Stale,
   };
   /// Schedule an async read of the preamble.
   /// If there's no preamble yet (because the file was just opened), we'll wait
   /// for it to build. The result may be null if it fails to build or is empty.
   /// If an error occurs, it is forwarded to the \p Action callback.
   /// Context cancellation is ignored and should be handled by the Action.
   /// (In practice, the Action is almost always executed immediately).
   void runWithPreamble(llvm::StringRef Name, PathRef File,
                        PreambleConsistency Consistency,
                        Callback<InputsAndPreamble> Action);

   /// Wait until there are no scheduled or running tasks.
   /// Mostly useful for synchronizing tests.
   bool blockUntilIdle(Deadline D) const;

 private:
   /// This class stores per-file data in the Files map.
   struct FileData;

 public:
   /// Responsible for retaining and rebuilding idle ASTs. An implementation is
   /// an LRU cache.
   class ASTCache;

   // The file being built/processed in the current thread. This is a hack in
   // order to get the file name into the index implementations. Do not depend on
   // this inside clangd.
   // FIXME: remove this when there is proper index support via build system
   // integration.
   static llvm::Optional<llvm::StringRef> getFileBeingProcessedInContext();

 private:
   const bool StorePreamblesInMemory;
   const std::shared_ptr<PCHContainerOperations> PCHOps;
   std::unique_ptr<ParsingCallbacks> Callbacks; // not nullptr
   Semaphore Barrier;
   llvm::StringMap<std::unique_ptr<FileData>> Files;
   std::unique_ptr<ASTCache> IdleASTs;
   // None when running tasks synchronously and non-None when running tasks
   // asynchronously.
   llvm::Optional<AsyncTaskRunner> PreambleTasks;
   llvm::Optional<AsyncTaskRunner> WorkerThreads;
   std::chrono::steady_clock::duration UpdateDebounce;
 };

 /// Runs \p Action asynchronously with a new std::thread. The context will be
 /// propagated.
 template <typename T>
 std::future<T> runAsync(llvm::unique_function<T()> Action) {
   return std::async(
       std::launch::async,
       [](llvm::unique_function<T()> &&Action, Context Ctx) {
         WithContext WithCtx(std::move(Ctx));
         return Action();
       },
       std::move(Action), Context::current().clone());
 }

 } // namespace clangd
 } // namespace clang

 #endif
	//===--- TUScheduler.h --------------------------------------------C++--===//
	//
	// 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
	//
	//===----------------------------------------------------------------------===//

	#ifndef LLVM_CLANG_TOOLS_EXTRA_CLANGD_TUSCHEDULER_H
	#define LLVM_CLANG_TOOLS_EXTRA_CLANGD_TUSCHEDULER_H

	#include "ClangdUnit.h"
	#include "Function.h"
	#include "Threading.h"
	#include "index/CanonicalIncludes.h"
	#include "llvm/ADT/StringMap.h"
	#include <future>

	namespace clang {
	namespace clangd {

	/// Returns a number of a default async threads to use for TUScheduler.
	/// Returned value is always >= 1 (i.e. will not cause requests to be processed
	/// synchronously).
	unsigned getDefaultAsyncThreadsCount();

	struct InputsAndAST {
	const ParseInputs &Inputs;
	ParsedAST &AST;
	};

	struct InputsAndPreamble {
	llvm::StringRef Contents;
	const tooling::CompileCommand &Command;
	const PreambleData *Preamble;
	};

	/// Determines whether diagnostics should be generated for a file snapshot.
	enum class WantDiagnostics {
	Yes, /// Diagnostics must be generated for this snapshot.
	No, /// Diagnostics must not be generated for this snapshot.
	Auto, /// Diagnostics must be generated for this snapshot or a subsequent one,
	/// within a bounded amount of time.
	};

	/// Configuration of the AST retention policy. This only covers retention of
	/// idle ASTs. If queue has operations requiring the AST, they might be
	/// kept in memory.
	struct ASTRetentionPolicy {
	/// Maximum number of ASTs to be retained in memory when there are no pending
	/// requests for them.
	unsigned MaxRetainedASTs = 3;
	};

	struct TUAction {
	enum State {
	Queued, // The TU is pending in the thread task queue to be built.
	RunningAction, // Starting running actions on the TU.
	BuildingPreamble, // The preamble of the TU is being built.
	BuildingFile, // The TU is being built. It is only emitted when building
	// the AST for diagnostics in write action (update).
	Idle, // Indicates the worker thread is idle, and ready to run any upcoming
	// actions.
	};
	TUAction(State S, llvm::StringRef Name) : S(S), Name(Name) {}
	State S;
	/// The name of the action currently running, e.g. Update, GoToDef, Hover.
	/// Empty if we are in the idle state.
	std::string Name;
	};

	// Internal status of the TU in TUScheduler.
	struct TUStatus {
	struct BuildDetails {
	/// Indicates whether clang failed to build the TU.
	bool BuildFailed = false;
	/// Indicates whether we reused the prebuilt AST.
	bool ReuseAST = false;
	};
	/// Serialize this to an LSP file status item.
	FileStatus render(PathRef File) const;

	TUAction Action;
	BuildDetails Details;
	};

	class ParsingCallbacks {
	public:
	virtual ~ParsingCallbacks() = default;

	/// Called on the AST that was built for emitting the preamble. The built AST
	/// contains only AST nodes from the #include directives at the start of the
	/// file. AST node in the current file should be observed on onMainAST call.
	virtual void onPreambleAST(PathRef Path, ASTContext &Ctx,
	std::shared_ptr<clang::Preprocessor> PP,
	const CanonicalIncludes &) {}
	/// Called on the AST built for the file itself. Note that preamble AST nodes
	/// are not deserialized and should be processed in the onPreambleAST call
	/// instead.
	/// The \p AST always contains all AST nodes for the main file itself, and
	/// only a portion of the AST nodes deserialized from the preamble. Note that
	/// some nodes from the preamble may have been deserialized and may also be
	/// accessed from the main file AST, e.g. redecls of functions from preamble,
	/// etc. Clients are expected to process only the AST nodes from the main file
	/// in this callback (obtained via ParsedAST::getLocalTopLevelDecls) to obtain
	/// optimal performance.
	virtual void onMainAST(PathRef Path, ParsedAST &AST) {}

	/// Called whenever the diagnostics for \p File are produced.
	virtual void onDiagnostics(PathRef File, std::vector<Diag> Diags) {}

	/// Called whenever the TU status is updated.
	virtual void onFileUpdated(PathRef File, const TUStatus &Status) {}
	};

	/// Handles running tasks for ClangdServer and managing the resources (e.g.,
	/// preambles and ASTs) for opened files.
	/// TUScheduler is not thread-safe, only one thread should be providing updates
	/// and scheduling tasks.
	/// Callbacks are run on a threadpool and it's appropriate to do slow work in
	/// them. Each task has a name, used for tracing (should be UpperCamelCase).
	/// FIXME(sammccall): pull out a scheduler options struct.
	class TUScheduler {
	public:
	TUScheduler(unsigned AsyncThreadsCount, bool StorePreamblesInMemory,
	std::unique_ptr<ParsingCallbacks> ASTCallbacks,
	std::chrono::steady_clock::duration UpdateDebounce,
	ASTRetentionPolicy RetentionPolicy);
	~TUScheduler();

	/// Returns estimated memory usage for each of the currently open files.
	/// The order of results is unspecified.
	std::vector<std::pair<Path, std::size_t>> getUsedBytesPerFile() const;

	/// Returns a list of files with ASTs currently stored in memory. This method
	/// is not very reliable and is only used for test. E.g., the results will not
	/// contain files that currently run something over their AST.
	std::vector<Path> getFilesWithCachedAST() const;

	/// Schedule an update for \p File. Adds \p File to a list of tracked files if
	/// \p File was not part of it before.
	/// If diagnostics are requested (Yes), and the context is cancelled before
	/// they are prepared, they may be skipped if eventual-consistency permits it
	/// (i.e. WantDiagnostics is downgraded to Auto).
	void update(PathRef File, ParseInputs Inputs, WantDiagnostics WD);

	/// Remove \p File from the list of tracked files and schedule removal of its
	/// resources. Pending diagnostics for closed files may not be delivered, even
	/// if requested with WantDiags::Auto or WantDiags::Yes.
	void remove(PathRef File);

	/// Schedule an async task with no dependencies.
	void run(llvm::StringRef Name, llvm::unique_function<void()> Action);

	/// Schedule an async read of the AST. \p Action will be called when AST is
	/// ready. The AST passed to \p Action refers to the version of \p File
	/// tracked at the time of the call, even if new updates are received before
	/// \p Action is executed.
	/// If an error occurs during processing, it is forwarded to the \p Action
	/// callback.
	/// If the context is cancelled before the AST is ready, the callback will
	/// receive a CancelledError.
	void runWithAST(llvm::StringRef Name, PathRef File,
	Callback<InputsAndAST> Action);

	/// Controls whether preamble reads wait for the preamble to be up-to-date.
	enum PreambleConsistency {
	/// The preamble is generated from the current version of the file.
	/// If the content was recently updated, we will wait until we have a
	/// preamble that reflects that update.
	/// This is the slowest option, and may be delayed by other tasks.
	Consistent,
	/// The preamble may be generated from an older version of the file.
	/// Reading from locations in the preamble may cause files to be re-read.
	/// This gives callers two options:
	/// - validate that the preamble is still valid, and only use it if so
	/// - accept that the preamble contents may be outdated, and try to avoid
	/// reading source code from headers.
	/// This is the fastest option, usually a preamble is available immediately.
	Stale,
	};
	/// Schedule an async read of the preamble.
	/// If there's no preamble yet (because the file was just opened), we'll wait
	/// for it to build. The result may be null if it fails to build or is empty.
	/// If an error occurs, it is forwarded to the \p Action callback.
	/// Context cancellation is ignored and should be handled by the Action.
	/// (In practice, the Action is almost always executed immediately).
	void runWithPreamble(llvm::StringRef Name, PathRef File,
	PreambleConsistency Consistency,
	Callback<InputsAndPreamble> Action);

	/// Wait until there are no scheduled or running tasks.
	/// Mostly useful for synchronizing tests.
	bool blockUntilIdle(Deadline D) const;

	private:
	/// This class stores per-file data in the Files map.
	struct FileData;

	public:
	/// Responsible for retaining and rebuilding idle ASTs. An implementation is
	/// an LRU cache.
	class ASTCache;

	// The file being built/processed in the current thread. This is a hack in
	// order to get the file name into the index implementations. Do not depend on
	// this inside clangd.
	// FIXME: remove this when there is proper index support via build system
	// integration.
	static llvm::Optional<llvm::StringRef> getFileBeingProcessedInContext();

	private:
	const bool StorePreamblesInMemory;
	const std::shared_ptr<PCHContainerOperations> PCHOps;
	std::unique_ptr<ParsingCallbacks> Callbacks; // not nullptr
	Semaphore Barrier;
	llvm::StringMap<std::unique_ptr<FileData>> Files;
	std::unique_ptr<ASTCache> IdleASTs;
	// None when running tasks synchronously and non-None when running tasks
	// asynchronously.
	llvm::Optional<AsyncTaskRunner> PreambleTasks;
	llvm::Optional<AsyncTaskRunner> WorkerThreads;
	std::chrono::steady_clock::duration UpdateDebounce;
	};

	/// Runs \p Action asynchronously with a new std::thread. The context will be
	/// propagated.
	template <typename T>
	std::future<T> runAsync(llvm::unique_function<T()> Action) {
	return std::async(
	std::launch::async,
	[](llvm::unique_function<T()> &&Action, Context Ctx) {
	WithContext WithCtx(std::move(Ctx));
	return Action();
	},
	std::move(Action), Context::current().clone());
	}

	} // namespace clangd
	} // namespace clang

	#endif