src/third_party/v8/src/execution/futex-emulation.h - cobalt - Git at Google

 // Copyright 2015 the V8 project authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef V8_EXECUTION_FUTEX_EMULATION_H_
 #define V8_EXECUTION_FUTEX_EMULATION_H_

 #include <stdint.h>

 #include <map>

 #include "include/v8.h"
 #include "src/base/atomicops.h"
 #include "src/base/lazy-instance.h"
 #include "src/base/macros.h"
 #include "src/base/platform/condition-variable.h"
 #include "src/base/platform/mutex.h"
 #include "src/base/platform/time.h"
 #include "src/tasks/cancelable-task.h"
 #include "src/utils/allocation.h"

 // Support for emulating futexes, a low-level synchronization primitive. They
 // are natively supported by Linux, but must be emulated for other platforms.
 // This library emulates them on all platforms using mutexes and condition
 // variables for consistency.
 //
 // This is used by the Futex API defined in the SharedArrayBuffer draft spec,
 // found here: https://github.com/tc39/ecmascript_sharedmem

 namespace v8 {

 namespace base {
 class TimeDelta;
 }  // namespace base

 namespace internal {

 class BackingStore;
 class FutexWaitList;

 template <typename T>
 class Handle;
 class Isolate;
 class JSArrayBuffer;

 class AtomicsWaitWakeHandle {
  public:
   explicit AtomicsWaitWakeHandle(Isolate* isolate) : isolate_(isolate) {}

   void Wake();
   inline bool has_stopped() const { return stopped_; }

  private:
   Isolate* isolate_;
   bool stopped_ = false;
 };

 class FutexWaitListNode {
  public:
   // Create a sync FutexWaitListNode.
   FutexWaitListNode() = default;

   // Create an async FutexWaitListNode.
   FutexWaitListNode(const std::shared_ptr<BackingStore>& backing_store,
                     size_t wait_addr, Handle<JSObject> promise_capability,
                     Isolate* isolate);
   ~FutexWaitListNode();

   void NotifyWake();

   bool IsAsync() const { return isolate_for_async_waiters_ != nullptr; }

   // Returns false if the cancelling failed, true otherwise.
   bool CancelTimeoutTask();

   class ResetWaitingOnScopeExit {
    public:
     explicit ResetWaitingOnScopeExit(FutexWaitListNode* node) : node_(node) {}
     ~ResetWaitingOnScopeExit() { node_->waiting_ = false; }

    private:
     FutexWaitListNode* node_;

     DISALLOW_COPY_AND_ASSIGN(ResetWaitingOnScopeExit);
   };

  private:
   friend class FutexEmulation;
   friend class FutexWaitList;

   // Set only for async FutexWaitListNodes.
   Isolate* isolate_for_async_waiters_ = nullptr;
   std::shared_ptr<TaskRunner> task_runner_;
   CancelableTaskManager* cancelable_task_manager_ = nullptr;

   base::ConditionVariable cond_;
   // prev_ and next_ are protected by FutexEmulation::mutex_.
   FutexWaitListNode* prev_ = nullptr;
   FutexWaitListNode* next_ = nullptr;

   std::weak_ptr<BackingStore> backing_store_;
   size_t wait_addr_ = 0;

   // The memory location the FutexWaitListNode is waiting on. Equals
   // backing_store_->buffer_start() + wait_addr_ at FutexWaitListNode creation
   // time. Storing the wait_location_ separately is needed, since we can't
   // necessarily reconstruct it, because the BackingStore might get deleted
   // while the FutexWaitListNode is still alive. FutexWaitListNode must know its
   // wait location, since they are stored in per-location lists, and to remove
   // the node, we need to be able to find the list it's on (to be able to
   // update the head and tail of the list).
   int8_t* wait_location_ = nullptr;

   // waiting_ and interrupted_ are protected by FutexEmulation::mutex_
   // if this node is currently contained in FutexEmulation::wait_list_
   // or an AtomicsWaitWakeHandle has access to it.
   bool waiting_ = false;
   bool interrupted_ = false;

   // Only for async FutexWaitListNodes. Weak Global handle. Must not be
   // synchronously resolved by a non-owner Isolate.
   v8::Global<v8::Promise> promise_;

   // Only for async FutexWaitListNodes. Weak Global handle.
   v8::Global<v8::Context> native_context_;

   // Only for async FutexWaitListNodes. If async_timeout_time_ is
   // base::TimeTicks(), this async waiter doesn't have a timeout or has already
   // been notified. Values other than base::TimeTicks() are used for async
   // waiters with an active timeout.
   base::TimeTicks async_timeout_time_;

   CancelableTaskManager::Id timeout_task_id_ =
       CancelableTaskManager::kInvalidTaskId;

   DISALLOW_COPY_AND_ASSIGN(FutexWaitListNode);
 };

 class FutexEmulation : public AllStatic {
  public:
   enum WaitMode { kSync = 0, kAsync };

   // Pass to Wake() to wake all waiters.
   static const uint32_t kWakeAll = UINT32_MAX;

   // Check that array_buffer[addr] == value, and return "not-equal" if not. If
   // they are equal, block execution on |isolate|'s thread until woken via
   // |Wake|, or when the time given in |rel_timeout_ms| elapses. Note that
   // |rel_timeout_ms| can be Infinity.
   // If woken, return "ok", otherwise return "timed-out". The initial check and
   // the decision to wait happen atomically.
   static Object WaitJs32(Isolate* isolate, WaitMode mode,
                          Handle<JSArrayBuffer> array_buffer, size_t addr,
                          int32_t value, double rel_timeout_ms);

   // An version of WaitJs32 for int64_t values.
   static Object WaitJs64(Isolate* isolate, WaitMode mode,
                          Handle<JSArrayBuffer> array_buffer, size_t addr,
                          int64_t value, double rel_timeout_ms);

   // Same as WaitJs above except it returns 0 (ok), 1 (not equal) and 2 (timed
   // out) as expected by Wasm.
   V8_EXPORT_PRIVATE static Object WaitWasm32(Isolate* isolate,
                                              Handle<JSArrayBuffer> array_buffer,
                                              size_t addr, int32_t value,
                                              int64_t rel_timeout_ns);

   // Same as Wait32 above except it checks for an int64_t value in the
   // array_buffer.
   V8_EXPORT_PRIVATE static Object WaitWasm64(Isolate* isolate,
                                              Handle<JSArrayBuffer> array_buffer,
                                              size_t addr, int64_t value,
                                              int64_t rel_timeout_ns);

   // Wake |num_waiters_to_wake| threads that are waiting on the given |addr|.
   // |num_waiters_to_wake| can be kWakeAll, in which case all waiters are
   // woken. The rest of the waiters will continue to wait. The return value is
   // the number of woken waiters.
   V8_EXPORT_PRIVATE static Object Wake(Handle<JSArrayBuffer> array_buffer,
                                        size_t addr,
                                        uint32_t num_waiters_to_wake);

   // Called before |isolate| dies. Removes async waiters owned by |isolate|.
   static void IsolateDeinit(Isolate* isolate);

   // Return the number of threads or async waiters waiting on |addr|. Should
   // only be used for testing.
   static Object NumWaitersForTesting(Handle<JSArrayBuffer> array_buffer,
                                      size_t addr);

   // Return the number of async waiters (which belong to |isolate|) waiting.
   // Should only be used for testing.
   static Object NumAsyncWaitersForTesting(Isolate* isolate);

   // Return the number of async waiters which were waiting for |addr| and are
   // now waiting for the Promises to be resolved. Should only be used for
   // testing.
   static Object NumUnresolvedAsyncPromisesForTesting(
       Handle<JSArrayBuffer> array_buffer, size_t addr);

  private:
   friend class FutexWaitListNode;
   friend class AtomicsWaitWakeHandle;
   friend class ResolveAsyncWaiterPromisesTask;
   friend class AsyncWaiterTimeoutTask;

   template <typename T>
   static Object Wait(Isolate* isolate, WaitMode mode,
                      Handle<JSArrayBuffer> array_buffer, size_t addr, T value,
                      double rel_timeout_ms);

   template <typename T>
   static Object Wait(Isolate* isolate, WaitMode mode,
                      Handle<JSArrayBuffer> array_buffer, size_t addr, T value,
                      bool use_timeout, int64_t rel_timeout_ns);

   template <typename T>
   static Object WaitSync(Isolate* isolate, Handle<JSArrayBuffer> array_buffer,
                          size_t addr, T value, bool use_timeout,
                          int64_t rel_timeout_ns);

   template <typename T>
   static Object WaitAsync(Isolate* isolate, Handle<JSArrayBuffer> array_buffer,
                           size_t addr, T value, bool use_timeout,
                           int64_t rel_timeout_ns);

   // Resolve the Promises of the async waiters which belong to |isolate|.
   static void ResolveAsyncWaiterPromises(Isolate* isolate);

   static void ResolveAsyncWaiterPromise(FutexWaitListNode* node);

   static void HandleAsyncWaiterTimeout(FutexWaitListNode* node);

   static void NotifyAsyncWaiter(FutexWaitListNode* node);

   // Remove the node's Promise from the NativeContext's Promise set.
   static void CleanupAsyncWaiterPromise(FutexWaitListNode* node);
 };
 }  // namespace internal
 }  // namespace v8

 #endif  // V8_EXECUTION_FUTEX_EMULATION_H_
	// Copyright 2015 the V8 project authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef V8_EXECUTION_FUTEX_EMULATION_H_
	#define V8_EXECUTION_FUTEX_EMULATION_H_

	#include <stdint.h>

	#include <map>

	#include "include/v8.h"
	#include "src/base/atomicops.h"
	#include "src/base/lazy-instance.h"
	#include "src/base/macros.h"
	#include "src/base/platform/condition-variable.h"
	#include "src/base/platform/mutex.h"
	#include "src/base/platform/time.h"
	#include "src/tasks/cancelable-task.h"
	#include "src/utils/allocation.h"

	// Support for emulating futexes, a low-level synchronization primitive. They
	// are natively supported by Linux, but must be emulated for other platforms.
	// This library emulates them on all platforms using mutexes and condition
	// variables for consistency.
	//
	// This is used by the Futex API defined in the SharedArrayBuffer draft spec,
	// found here: https://github.com/tc39/ecmascript_sharedmem

	namespace v8 {

	namespace base {
	class TimeDelta;
	} // namespace base

	namespace internal {

	class BackingStore;
	class FutexWaitList;

	template <typename T>
	class Handle;
	class Isolate;
	class JSArrayBuffer;

	class AtomicsWaitWakeHandle {
	public:
	explicit AtomicsWaitWakeHandle(Isolate* isolate) : isolate_(isolate) {}

	void Wake();
	inline bool has_stopped() const { return stopped_; }

	private:
	Isolate* isolate_;
	bool stopped_ = false;
	};

	class FutexWaitListNode {
	public:
	// Create a sync FutexWaitListNode.
	FutexWaitListNode() = default;

	// Create an async FutexWaitListNode.
	FutexWaitListNode(const std::shared_ptr<BackingStore>& backing_store,
	size_t wait_addr, Handle<JSObject> promise_capability,
	Isolate* isolate);
	~FutexWaitListNode();

	void NotifyWake();

	bool IsAsync() const { return isolate_for_async_waiters_ != nullptr; }

	// Returns false if the cancelling failed, true otherwise.
	bool CancelTimeoutTask();

	class ResetWaitingOnScopeExit {
	public:
	explicit ResetWaitingOnScopeExit(FutexWaitListNode* node) : node_(node) {}
	~ResetWaitingOnScopeExit() { node_->waiting_ = false; }

	private:
	FutexWaitListNode* node_;

	DISALLOW_COPY_AND_ASSIGN(ResetWaitingOnScopeExit);
	};

	private:
	friend class FutexEmulation;
	friend class FutexWaitList;

	// Set only for async FutexWaitListNodes.
	Isolate* isolate_for_async_waiters_ = nullptr;
	std::shared_ptr<TaskRunner> task_runner_;
	CancelableTaskManager* cancelable_task_manager_ = nullptr;

	base::ConditionVariable cond_;
	// prev_ and next_ are protected by FutexEmulation::mutex_.
	FutexWaitListNode* prev_ = nullptr;
	FutexWaitListNode* next_ = nullptr;

	std::weak_ptr<BackingStore> backing_store_;
	size_t wait_addr_ = 0;

	// The memory location the FutexWaitListNode is waiting on. Equals
	// backing_store_->buffer_start() + wait_addr_ at FutexWaitListNode creation
	// time. Storing the wait_location_ separately is needed, since we can't
	// necessarily reconstruct it, because the BackingStore might get deleted
	// while the FutexWaitListNode is still alive. FutexWaitListNode must know its
	// wait location, since they are stored in per-location lists, and to remove
	// the node, we need to be able to find the list it's on (to be able to
	// update the head and tail of the list).
	int8_t* wait_location_ = nullptr;

	// waiting_ and interrupted_ are protected by FutexEmulation::mutex_
	// if this node is currently contained in FutexEmulation::wait_list_
	// or an AtomicsWaitWakeHandle has access to it.
	bool waiting_ = false;
	bool interrupted_ = false;

	// Only for async FutexWaitListNodes. Weak Global handle. Must not be
	// synchronously resolved by a non-owner Isolate.
	v8::Global<v8::Promise> promise_;

	// Only for async FutexWaitListNodes. Weak Global handle.
	v8::Global<v8::Context> native_context_;

	// Only for async FutexWaitListNodes. If async_timeout_time_ is
	// base::TimeTicks(), this async waiter doesn't have a timeout or has already
	// been notified. Values other than base::TimeTicks() are used for async
	// waiters with an active timeout.
	base::TimeTicks async_timeout_time_;

	CancelableTaskManager::Id timeout_task_id_ =
	CancelableTaskManager::kInvalidTaskId;

	DISALLOW_COPY_AND_ASSIGN(FutexWaitListNode);
	};

	class FutexEmulation : public AllStatic {
	public:
	enum WaitMode { kSync = 0, kAsync };

	// Pass to Wake() to wake all waiters.
	static const uint32_t kWakeAll = UINT32_MAX;

	// Check that array_buffer[addr] == value, and return "not-equal" if not. If
	// they are equal, block execution on \|isolate\|'s thread until woken via
	// \|Wake\|, or when the time given in \|rel_timeout_ms\| elapses. Note that
	// \|rel_timeout_ms\| can be Infinity.
	// If woken, return "ok", otherwise return "timed-out". The initial check and
	// the decision to wait happen atomically.
	static Object WaitJs32(Isolate* isolate, WaitMode mode,
	Handle<JSArrayBuffer> array_buffer, size_t addr,
	int32_t value, double rel_timeout_ms);

	// An version of WaitJs32 for int64_t values.
	static Object WaitJs64(Isolate* isolate, WaitMode mode,
	Handle<JSArrayBuffer> array_buffer, size_t addr,
	int64_t value, double rel_timeout_ms);

	// Same as WaitJs above except it returns 0 (ok), 1 (not equal) and 2 (timed
	// out) as expected by Wasm.
	V8_EXPORT_PRIVATE static Object WaitWasm32(Isolate* isolate,
	Handle<JSArrayBuffer> array_buffer,
	size_t addr, int32_t value,
	int64_t rel_timeout_ns);

	// Same as Wait32 above except it checks for an int64_t value in the
	// array_buffer.
	V8_EXPORT_PRIVATE static Object WaitWasm64(Isolate* isolate,
	Handle<JSArrayBuffer> array_buffer,
	size_t addr, int64_t value,
	int64_t rel_timeout_ns);

	// Wake \|num_waiters_to_wake\| threads that are waiting on the given \|addr\|.
	// \|num_waiters_to_wake\| can be kWakeAll, in which case all waiters are
	// woken. The rest of the waiters will continue to wait. The return value is
	// the number of woken waiters.
	V8_EXPORT_PRIVATE static Object Wake(Handle<JSArrayBuffer> array_buffer,
	size_t addr,
	uint32_t num_waiters_to_wake);

	// Called before \|isolate\| dies. Removes async waiters owned by \|isolate\|.
	static void IsolateDeinit(Isolate* isolate);

	// Return the number of threads or async waiters waiting on \|addr\|. Should
	// only be used for testing.
	static Object NumWaitersForTesting(Handle<JSArrayBuffer> array_buffer,
	size_t addr);

	// Return the number of async waiters (which belong to \|isolate\|) waiting.
	// Should only be used for testing.
	static Object NumAsyncWaitersForTesting(Isolate* isolate);

	// Return the number of async waiters which were waiting for \|addr\| and are
	// now waiting for the Promises to be resolved. Should only be used for
	// testing.
	static Object NumUnresolvedAsyncPromisesForTesting(
	Handle<JSArrayBuffer> array_buffer, size_t addr);

	private:
	friend class FutexWaitListNode;
	friend class AtomicsWaitWakeHandle;
	friend class ResolveAsyncWaiterPromisesTask;
	friend class AsyncWaiterTimeoutTask;

	template <typename T>
	static Object Wait(Isolate* isolate, WaitMode mode,
	Handle<JSArrayBuffer> array_buffer, size_t addr, T value,
	double rel_timeout_ms);

	template <typename T>
	static Object Wait(Isolate* isolate, WaitMode mode,
	Handle<JSArrayBuffer> array_buffer, size_t addr, T value,
	bool use_timeout, int64_t rel_timeout_ns);

	template <typename T>
	static Object WaitSync(Isolate* isolate, Handle<JSArrayBuffer> array_buffer,
	size_t addr, T value, bool use_timeout,
	int64_t rel_timeout_ns);

	template <typename T>
	static Object WaitAsync(Isolate* isolate, Handle<JSArrayBuffer> array_buffer,
	size_t addr, T value, bool use_timeout,
	int64_t rel_timeout_ns);

	// Resolve the Promises of the async waiters which belong to \|isolate\|.
	static void ResolveAsyncWaiterPromises(Isolate* isolate);

	static void ResolveAsyncWaiterPromise(FutexWaitListNode* node);

	static void HandleAsyncWaiterTimeout(FutexWaitListNode* node);

	static void NotifyAsyncWaiter(FutexWaitListNode* node);

	// Remove the node's Promise from the NativeContext's Promise set.
	static void CleanupAsyncWaiterPromise(FutexWaitListNode* node);
	};
	} // namespace internal
	} // namespace v8

	#endif // V8_EXECUTION_FUTEX_EMULATION_H_