chrome/renderer/v8_unwinder.h - chromium/src.git - Git at Google

 // Copyright 2019 The Chromium 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 CHROME_RENDERER_V8_UNWINDER_H_
 #define CHROME_RENDERER_V8_UNWINDER_H_

 #include <memory>
 #include <set>

 #include "base/profiler/unwinder.h"
 #include "v8/include/v8-unwinder.h"

 namespace v8 {
 class Isolate;
 }  // namespace v8

 // Implements stack frame unwinding for V8 generated code frames, for use with
 // the StackSamplingProfiler.
 class V8Unwinder : public base::Unwinder {
  public:
   explicit V8Unwinder(v8::Isolate* isolate);
   ~V8Unwinder() override;

   V8Unwinder(const V8Unwinder&) = delete;
   V8Unwinder& operator=(const V8Unwinder&) = delete;

   // Unwinder:
   void InitializeModules() override;
   void OnStackCapture() override;
   void UpdateModules() override;
   bool CanUnwindFrom(const base::Frame& current_frame) const override;
   base::UnwindResult TryUnwind(base::RegisterContext* thread_context,
                                uintptr_t stack_top,
                                std::vector<base::Frame>* stack) const override;

   // Build ids generated by the unwinder. Exposed for test use.
   static const char kV8EmbeddedCodeRangeBuildId[];
   static const char kV8CodeRangeBuildId[];

  protected:
   // Invokes CopyCodePages on the Isolate. Virtual to provide a seam for testing
   // of module processing behavior.
   virtual size_t CopyCodePages(size_t capacity, v8::MemoryRange* code_pages);

  private:
   // Custom container for storing V8 code memory ranges. We use this type rather
   // than std::vector to guarantee that no heap allocation occurs during the
   // operations used in OnStackCapture().
   class MemoryRanges {
    public:
     MemoryRanges();
     ~MemoryRanges();

     // Functions that must not heap allocate:
     // Returns a pointer to the start of the internal buffer.
     v8::MemoryRange* buffer() { return ranges_.get(); }
     const v8::MemoryRange* buffer() const { return ranges_.get(); }

     // The capacity of the internal buffer.
     size_t capacity() const { return capacity_; }

     // Sets the number of elements stored.
     void SetSize(size_t size);

     // Functions that may heap allocate:
     // Ensures that the object can store |required_capacity| elements,
     // allocating more space if necessary.
     void ExpandCapacityIfNecessary(size_t required_capacity);

     // The number of elements stored.
     size_t size() const {
       DCHECK_LE(size_, capacity_);
       return size_;
     }

    private:
     // Capacity and size are denominated in number of elements.
     size_t capacity_;
     size_t size_;
     std::unique_ptr<v8::MemoryRange[]> ranges_;
   };

   // Compares modules by their extents in memory.
   struct ModuleCompare {
     bool operator()(const base::ModuleCache::Module* a,
                     const base::ModuleCache::Module* b) const;
   };

   v8::Isolate* const isolate_;
   const v8::JSEntryStubs js_entry_stubs_;
   const v8::MemoryRange embedded_code_range_;

   // Code ranges recorded for the current sample.
   MemoryRanges code_ranges_;

   // The number of code ranges required to represent all of ranges supplied by
   // V8 on the last call to CopyCodePages().
   size_t required_code_ranges_capacity_ = 0;

   // Records the currently active V8 modules, ordered by their extents in
   // memory.
   std::set<const base::ModuleCache::Module*, ModuleCompare> modules_;
 };

 #endif  // CHROME_RENDERER_V8_UNWINDER_H_
	// Copyright 2019 The Chromium 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 CHROME_RENDERER_V8_UNWINDER_H_
	#define CHROME_RENDERER_V8_UNWINDER_H_

	#include <memory>
	#include <set>

	#include "base/profiler/unwinder.h"
	#include "v8/include/v8-unwinder.h"

	namespace v8 {
	class Isolate;
	} // namespace v8

	// Implements stack frame unwinding for V8 generated code frames, for use with
	// the StackSamplingProfiler.
	class V8Unwinder : public base::Unwinder {
	public:
	explicit V8Unwinder(v8::Isolate* isolate);
	~V8Unwinder() override;

	V8Unwinder(const V8Unwinder&) = delete;
	V8Unwinder& operator=(const V8Unwinder&) = delete;

	// Unwinder:
	void InitializeModules() override;
	void OnStackCapture() override;
	void UpdateModules() override;
	bool CanUnwindFrom(const base::Frame& current_frame) const override;
	base::UnwindResult TryUnwind(base::RegisterContext* thread_context,
	uintptr_t stack_top,
	std::vector<base::Frame>* stack) const override;

	// Build ids generated by the unwinder. Exposed for test use.
	static const char kV8EmbeddedCodeRangeBuildId[];
	static const char kV8CodeRangeBuildId[];

	protected:
	// Invokes CopyCodePages on the Isolate. Virtual to provide a seam for testing
	// of module processing behavior.
	virtual size_t CopyCodePages(size_t capacity, v8::MemoryRange* code_pages);

	private:
	// Custom container for storing V8 code memory ranges. We use this type rather
	// than std::vector to guarantee that no heap allocation occurs during the
	// operations used in OnStackCapture().
	class MemoryRanges {
	public:
	MemoryRanges();
	~MemoryRanges();

	// Functions that must not heap allocate:
	// Returns a pointer to the start of the internal buffer.
	v8::MemoryRange* buffer() { return ranges_.get(); }
	const v8::MemoryRange* buffer() const { return ranges_.get(); }

	// The capacity of the internal buffer.
	size_t capacity() const { return capacity_; }

	// Sets the number of elements stored.
	void SetSize(size_t size);

	// Functions that may heap allocate:
	// Ensures that the object can store \|required_capacity\| elements,
	// allocating more space if necessary.
	void ExpandCapacityIfNecessary(size_t required_capacity);

	// The number of elements stored.
	size_t size() const {
	DCHECK_LE(size_, capacity_);
	return size_;
	}

	private:
	// Capacity and size are denominated in number of elements.
	size_t capacity_;
	size_t size_;
	std::unique_ptr<v8::MemoryRange[]> ranges_;
	};

	// Compares modules by their extents in memory.
	struct ModuleCompare {
	bool operator()(const base::ModuleCache::Module* a,
	const base::ModuleCache::Module* b) const;
	};

	v8::Isolate* const isolate_;
	const v8::JSEntryStubs js_entry_stubs_;
	const v8::MemoryRange embedded_code_range_;

	// Code ranges recorded for the current sample.
	MemoryRanges code_ranges_;

	// The number of code ranges required to represent all of ranges supplied by
	// V8 on the last call to CopyCodePages().
	size_t required_code_ranges_capacity_ = 0;

	// Records the currently active V8 modules, ordered by their extents in
	// memory.
	std::set<const base::ModuleCache::Module*, ModuleCompare> modules_;
	};

	#endif // CHROME_RENDERER_V8_UNWINDER_H_