src/third_party/mozjs-45/js/public/ProfilingFrameIterator.h - cobalt - Git at Google

 /* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*-
  * vim: set ts=8 sts=4 et sw=4 tw=99:
  * This Source Code Form is subject to the terms of the Mozilla Public
  * License, v. 2.0. If a copy of the MPL was not distributed with this
  * file, You can obtain one at http://mozilla.org/MPL/2.0/. */

 #ifndef js_ProfilingFrameIterator_h
 #define js_ProfilingFrameIterator_h

 #include "mozilla/Alignment.h"
 #include "mozilla/Maybe.h"

 #include "jsbytecode.h"
 #include "js/TypeDecls.h"
 #include "js/Utility.h"

 struct JSRuntime;
 class JSScript;

 namespace js {
     class Activation;
     class AsmJSProfilingFrameIterator;
     namespace jit {
         class JitActivation;
         class JitProfilingFrameIterator;
         class JitcodeGlobalEntry;
     } // namespace jit
 } // namespace js

 namespace JS {

 struct ForEachTrackedOptimizationAttemptOp;
 struct ForEachTrackedOptimizationTypeInfoOp;

 // This iterator can be used to walk the stack of a thread suspended at an
 // arbitrary pc. To provide acurate results, profiling must have been enabled
 // (via EnableRuntimeProfilingStack) before executing the callstack being
 // unwound.
 class JS_PUBLIC_API(ProfilingFrameIterator)
 {
     JSRuntime* rt_;
     uint32_t sampleBufferGen_;
     js::Activation* activation_;

     // When moving past a JitActivation, we need to save the prevJitTop
     // from it to use as the exit-frame pointer when the next caller jit
     // activation (if any) comes around.
     void* savedPrevJitTop_;

     static const unsigned StorageSpace = 8 * sizeof(void*);
     mozilla::AlignedStorage<StorageSpace> storage_;
     js::AsmJSProfilingFrameIterator& asmJSIter() {
         MOZ_ASSERT(!done());
         MOZ_ASSERT(isAsmJS());
         return *reinterpret_cast<js::AsmJSProfilingFrameIterator*>(storage_.addr());
     }
     const js::AsmJSProfilingFrameIterator& asmJSIter() const {
         MOZ_ASSERT(!done());
         MOZ_ASSERT(isAsmJS());
         return *reinterpret_cast<const js::AsmJSProfilingFrameIterator*>(storage_.addr());
     }

     js::jit::JitProfilingFrameIterator& jitIter() {
         MOZ_ASSERT(!done());
         MOZ_ASSERT(isJit());
         return *reinterpret_cast<js::jit::JitProfilingFrameIterator*>(storage_.addr());
     }

     const js::jit::JitProfilingFrameIterator& jitIter() const {
         MOZ_ASSERT(!done());
         MOZ_ASSERT(isJit());
         return *reinterpret_cast<const js::jit::JitProfilingFrameIterator*>(storage_.addr());
     }

     void settle();

     bool hasSampleBufferGen() const {
         return sampleBufferGen_ != UINT32_MAX;
     }

   public:
     struct RegisterState
     {
         RegisterState() : pc(nullptr), sp(nullptr), lr(nullptr) {}
         void* pc;
         void* sp;
         void* lr;
     };

     ProfilingFrameIterator(JSRuntime* rt, const RegisterState& state,
                            uint32_t sampleBufferGen = UINT32_MAX);
     ~ProfilingFrameIterator();
     void operator++();
     bool done() const { return !activation_; }

     // Assuming the stack grows down (we do), the return value:
     //  - always points into the stack
     //  - is weakly monotonically increasing (may be equal for successive frames)
     //  - will compare greater than newer native and psuedo-stack frame addresses
     //    and less than older native and psuedo-stack frame addresses
     void* stackAddress() const;

     enum FrameKind
     {
       Frame_Baseline,
       Frame_Ion,
       Frame_AsmJS
     };

     struct Frame
     {
         FrameKind kind;
         void* stackAddress;
         void* returnAddress;
         void* activation;
         const char* label;
     };

     bool isAsmJS() const;
     bool isJit() const;

     uint32_t extractStack(Frame* frames, uint32_t offset, uint32_t end) const;

     mozilla::Maybe<Frame> getPhysicalFrameWithoutLabel() const;

   private:
     mozilla::Maybe<Frame> getPhysicalFrameAndEntry(js::jit::JitcodeGlobalEntry* entry) const;

     void iteratorConstruct(const RegisterState& state);
     void iteratorConstruct();
     void iteratorDestroy();
     bool iteratorDone();
 };

 JS_FRIEND_API(bool)
 IsProfilingEnabledForRuntime(JSRuntime* runtime);

 /**
  * After each sample run, this method should be called with the latest sample
  * buffer generation, and the lapCount.  It will update corresponding fields on
  * JSRuntime.
  *
  * See fields |profilerSampleBufferGen|, |profilerSampleBufferLapCount| on
  * JSRuntime for documentation about what these values are used for.
  */
 JS_FRIEND_API(void)
 UpdateJSRuntimeProfilerSampleBufferGen(JSRuntime* runtime, uint32_t generation,
                                        uint32_t lapCount);

 struct ForEachProfiledFrameOp
 {
     // A handle to the underlying JitcodeGlobalEntry, so as to avoid repeated
     // lookups on JitcodeGlobalTable.
     class MOZ_STACK_CLASS FrameHandle
     {
         friend JS_PUBLIC_API(void) ForEachProfiledFrame(JSRuntime* rt, void* addr,
                                                         ForEachProfiledFrameOp& op);

         JSRuntime* rt_;
         js::jit::JitcodeGlobalEntry& entry_;
         void* addr_;
         void* canonicalAddr_;
         const char* label_;
         uint32_t depth_;
         mozilla::Maybe<uint8_t> optsIndex_;

         FrameHandle(JSRuntime* rt, js::jit::JitcodeGlobalEntry& entry, void* addr,
                     const char* label, uint32_t depth);

         void updateHasTrackedOptimizations();

       public:
         const char* label() const { return label_; }
         uint32_t depth() const { return depth_; }
         bool hasTrackedOptimizations() const { return optsIndex_.isSome(); }
         void* canonicalAddress() const { return canonicalAddr_; }

         ProfilingFrameIterator::FrameKind frameKind() const;
         void forEachOptimizationAttempt(ForEachTrackedOptimizationAttemptOp& op,
                                         JSScript** scriptOut, jsbytecode** pcOut) const;
         void forEachOptimizationTypeInfo(ForEachTrackedOptimizationTypeInfoOp& op) const;
     };

     // Called once per frame.
     virtual void operator()(const FrameHandle& frame) = 0;
 };

 JS_PUBLIC_API(void)
 ForEachProfiledFrame(JSRuntime* rt, void* addr, ForEachProfiledFrameOp& op);

 } // namespace JS

 #endif  /* js_ProfilingFrameIterator_h */
	/* -- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 --
	* vim: set ts=8 sts=4 et sw=4 tw=99:
	* This Source Code Form is subject to the terms of the Mozilla Public
	* License, v. 2.0. If a copy of the MPL was not distributed with this
	* file, You can obtain one at http://mozilla.org/MPL/2.0/. */

	#ifndef js_ProfilingFrameIterator_h
	#define js_ProfilingFrameIterator_h

	#include "mozilla/Alignment.h"
	#include "mozilla/Maybe.h"

	#include "jsbytecode.h"
	#include "js/TypeDecls.h"
	#include "js/Utility.h"

	struct JSRuntime;
	class JSScript;

	namespace js {
	class Activation;
	class AsmJSProfilingFrameIterator;
	namespace jit {
	class JitActivation;
	class JitProfilingFrameIterator;
	class JitcodeGlobalEntry;
	} // namespace jit
	} // namespace js

	namespace JS {

	struct ForEachTrackedOptimizationAttemptOp;
	struct ForEachTrackedOptimizationTypeInfoOp;

	// This iterator can be used to walk the stack of a thread suspended at an
	// arbitrary pc. To provide acurate results, profiling must have been enabled
	// (via EnableRuntimeProfilingStack) before executing the callstack being
	// unwound.
	class JS_PUBLIC_API(ProfilingFrameIterator)
	{
	JSRuntime* rt_;
	uint32_t sampleBufferGen_;
	js::Activation* activation_;

	// When moving past a JitActivation, we need to save the prevJitTop
	// from it to use as the exit-frame pointer when the next caller jit
	// activation (if any) comes around.
	void* savedPrevJitTop_;

	static const unsigned StorageSpace = 8 * sizeof(void*);
	mozilla::AlignedStorage<StorageSpace> storage_;
	js::AsmJSProfilingFrameIterator& asmJSIter() {
	MOZ_ASSERT(!done());
	MOZ_ASSERT(isAsmJS());
	return reinterpret_cast<js::AsmJSProfilingFrameIterator>(storage_.addr());
	}
	const js::AsmJSProfilingFrameIterator& asmJSIter() const {
	MOZ_ASSERT(!done());
	MOZ_ASSERT(isAsmJS());
	return reinterpret_cast<const js::AsmJSProfilingFrameIterator>(storage_.addr());
	}

	js::jit::JitProfilingFrameIterator& jitIter() {
	MOZ_ASSERT(!done());
	MOZ_ASSERT(isJit());
	return reinterpret_cast<js::jit::JitProfilingFrameIterator>(storage_.addr());
	}

	const js::jit::JitProfilingFrameIterator& jitIter() const {
	MOZ_ASSERT(!done());
	MOZ_ASSERT(isJit());
	return reinterpret_cast<const js::jit::JitProfilingFrameIterator>(storage_.addr());
	}

	void settle();

	bool hasSampleBufferGen() const {
	return sampleBufferGen_ != UINT32_MAX;
	}

	public:
	struct RegisterState
	{
	RegisterState() : pc(nullptr), sp(nullptr), lr(nullptr) {}
	void* pc;
	void* sp;
	void* lr;
	};

	ProfilingFrameIterator(JSRuntime* rt, const RegisterState& state,
	uint32_t sampleBufferGen = UINT32_MAX);
	~ProfilingFrameIterator();
	void operator++();
	bool done() const { return !activation_; }

	// Assuming the stack grows down (we do), the return value:
	// - always points into the stack
	// - is weakly monotonically increasing (may be equal for successive frames)
	// - will compare greater than newer native and psuedo-stack frame addresses
	// and less than older native and psuedo-stack frame addresses
	void* stackAddress() const;

	enum FrameKind
	{
	Frame_Baseline,
	Frame_Ion,
	Frame_AsmJS
	};

	struct Frame
	{
	FrameKind kind;
	void* stackAddress;
	void* returnAddress;
	void* activation;
	const char* label;
	};

	bool isAsmJS() const;
	bool isJit() const;

	uint32_t extractStack(Frame* frames, uint32_t offset, uint32_t end) const;

	mozilla::Maybe<Frame> getPhysicalFrameWithoutLabel() const;

	private:
	mozilla::Maybe<Frame> getPhysicalFrameAndEntry(js::jit::JitcodeGlobalEntry* entry) const;

	void iteratorConstruct(const RegisterState& state);
	void iteratorConstruct();
	void iteratorDestroy();
	bool iteratorDone();
	};

	JS_FRIEND_API(bool)
	IsProfilingEnabledForRuntime(JSRuntime* runtime);

	/**
	* After each sample run, this method should be called with the latest sample
	* buffer generation, and the lapCount. It will update corresponding fields on
	* JSRuntime.
	*
	* See fields \|profilerSampleBufferGen\|, \|profilerSampleBufferLapCount\| on
	* JSRuntime for documentation about what these values are used for.
	*/
	JS_FRIEND_API(void)
	UpdateJSRuntimeProfilerSampleBufferGen(JSRuntime* runtime, uint32_t generation,
	uint32_t lapCount);

	struct ForEachProfiledFrameOp
	{
	// A handle to the underlying JitcodeGlobalEntry, so as to avoid repeated
	// lookups on JitcodeGlobalTable.
	class MOZ_STACK_CLASS FrameHandle
	{
	friend JS_PUBLIC_API(void) ForEachProfiledFrame(JSRuntime* rt, void* addr,
	ForEachProfiledFrameOp& op);

	JSRuntime* rt_;
	js::jit::JitcodeGlobalEntry& entry_;
	void* addr_;
	void* canonicalAddr_;
	const char* label_;
	uint32_t depth_;
	mozilla::Maybe<uint8_t> optsIndex_;

	FrameHandle(JSRuntime* rt, js::jit::JitcodeGlobalEntry& entry, void* addr,
	const char* label, uint32_t depth);

	void updateHasTrackedOptimizations();

	public:
	const char* label() const { return label_; }
	uint32_t depth() const { return depth_; }
	bool hasTrackedOptimizations() const { return optsIndex_.isSome(); }
	void* canonicalAddress() const { return canonicalAddr_; }

	ProfilingFrameIterator::FrameKind frameKind() const;
	void forEachOptimizationAttempt(ForEachTrackedOptimizationAttemptOp& op,
	JSScript scriptOut, jsbytecode pcOut) const;
	void forEachOptimizationTypeInfo(ForEachTrackedOptimizationTypeInfoOp& op) const;
	};

	// Called once per frame.
	virtual void operator()(const FrameHandle& frame) = 0;
	};

	JS_PUBLIC_API(void)
	ForEachProfiledFrame(JSRuntime* rt, void* addr, ForEachProfiledFrameOp& op);

	} // namespace JS

	#endif /* js_ProfilingFrameIterator_h */