src/third_party/mozjs-45/js/public/ProfilingStack.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_ProfilingStack_h
 #define js_ProfilingStack_h

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

 #include "js/Utility.h"

 struct JSRuntime;

 namespace js {

 // A call stack can be specified to the JS engine such that all JS entry/exits
 // to functions push/pop an entry to/from the specified stack.
 //
 // For more detailed information, see vm/SPSProfiler.h.
 //
 class ProfileEntry
 {
     // All fields are marked volatile to prevent the compiler from re-ordering
     // instructions. Namely this sequence:
     //
     //    entry[size] = ...;
     //    size++;
     //
     // If the size modification were somehow reordered before the stores, then
     // if a sample were taken it would be examining bogus information.
     //
     // A ProfileEntry represents both a C++ profile entry and a JS one.

     // Descriptive string of this entry.
     const char * volatile string;

     // Stack pointer for non-JS entries, the script pointer otherwise.
     void * volatile spOrScript;

     // Line number for non-JS entries, the bytecode offset otherwise.
     int32_t volatile lineOrPc;

     // General purpose storage describing this frame.
     uint32_t volatile flags_;

   public:
     // These traits are bit masks. Make sure they're powers of 2.
     enum Flags {
         // Indicate whether a profile entry represents a CPP frame. If not set,
         // a JS frame is assumed by default. You're not allowed to publicly
         // change the frame type. Instead, initialize the ProfileEntry as either
         // a JS or CPP frame with `initJsFrame` or `initCppFrame` respectively.
         IS_CPP_ENTRY = 0x01,

         // Indicate that copying the frame label is not necessary when taking a
         // sample of the pseudostack.
         FRAME_LABEL_COPY = 0x02,

         // This ProfileEntry is a dummy entry indicating the start of a run
         // of JS pseudostack entries.
         BEGIN_PSEUDO_JS = 0x04,

         // This flag is used to indicate that an interpreter JS entry has OSR-ed
         // into baseline.
         OSR = 0x08,

         // Union of all flags.
         ALL = IS_CPP_ENTRY|FRAME_LABEL_COPY|BEGIN_PSEUDO_JS|OSR,

         // Mask for removing all flags except the category information.
         CATEGORY_MASK = ~ALL
     };

     // Keep these in sync with devtools/client/performance/modules/global.js
     enum class Category : uint32_t {
         OTHER    = 0x10,
         CSS      = 0x20,
         JS       = 0x40,
         GC       = 0x80,
         CC       = 0x100,
         NETWORK  = 0x200,
         GRAPHICS = 0x400,
         STORAGE  = 0x800,
         EVENTS   = 0x1000,

         FIRST    = OTHER,
         LAST     = EVENTS
     };

     static_assert((static_cast<int>(Category::FIRST) & Flags::ALL) == 0,
                   "The category bitflags should not intersect with the other flags!");

     // All of these methods are marked with the 'volatile' keyword because SPS's
     // representation of the stack is stored such that all ProfileEntry
     // instances are volatile. These methods would not be available unless they
     // were marked as volatile as well.

     bool isCpp() const volatile { return hasFlag(IS_CPP_ENTRY); }
     bool isJs() const volatile { return !isCpp(); }

     bool isCopyLabel() const volatile { return hasFlag(FRAME_LABEL_COPY); }

     void setLabel(const char* aString) volatile { string = aString; }
     const char* label() const volatile { return string; }

     void initJsFrame(JSScript* aScript, jsbytecode* aPc) volatile {
         flags_ = 0;
         spOrScript = aScript;
         setPC(aPc);
     }
     void initCppFrame(void* aSp, uint32_t aLine) volatile {
         flags_ = IS_CPP_ENTRY;
         spOrScript = aSp;
         lineOrPc = static_cast<int32_t>(aLine);
     }

     void setFlag(uint32_t flag) volatile {
         MOZ_ASSERT(flag != IS_CPP_ENTRY);
         flags_ |= flag;
     }
     void unsetFlag(uint32_t flag) volatile {
         MOZ_ASSERT(flag != IS_CPP_ENTRY);
         flags_ &= ~flag;
     }
     bool hasFlag(uint32_t flag) const volatile {
         return bool(flags_ & flag);
     }

     uint32_t flags() const volatile {
         return flags_;
     }

     uint32_t category() const volatile {
         return flags_ & CATEGORY_MASK;
     }
     void setCategory(Category c) volatile {
         MOZ_ASSERT(c >= Category::FIRST);
         MOZ_ASSERT(c <= Category::LAST);
         flags_ &= ~CATEGORY_MASK;
         setFlag(static_cast<uint32_t>(c));
     }

     void setOSR() volatile {
         MOZ_ASSERT(isJs());
         setFlag(OSR);
     }
     void unsetOSR() volatile {
         MOZ_ASSERT(isJs());
         unsetFlag(OSR);
     }
     bool isOSR() const volatile {
         return hasFlag(OSR);
     }

     void* stackAddress() const volatile {
         MOZ_ASSERT(!isJs());
         return spOrScript;
     }
     JSScript* script() const volatile {
         MOZ_ASSERT(isJs());
         return (JSScript*)spOrScript;
     }
     uint32_t line() const volatile {
         MOZ_ASSERT(!isJs());
         return static_cast<uint32_t>(lineOrPc);
     }

     // We can't know the layout of JSScript, so look in vm/SPSProfiler.cpp.
     JS_FRIEND_API(jsbytecode*) pc() const volatile;
     JS_FRIEND_API(void) setPC(jsbytecode* pc) volatile;

     // The offset of a pc into a script's code can actually be 0, so to
     // signify a nullptr pc, use a -1 index. This is checked against in
     // pc() and setPC() to set/get the right pc.
     static const int32_t NullPCOffset = -1;

     static size_t offsetOfLabel() { return offsetof(ProfileEntry, string); }
     static size_t offsetOfSpOrScript() { return offsetof(ProfileEntry, spOrScript); }
     static size_t offsetOfLineOrPc() { return offsetof(ProfileEntry, lineOrPc); }
     static size_t offsetOfFlags() { return offsetof(ProfileEntry, flags_); }
 };

 JS_FRIEND_API(void)
 SetRuntimeProfilingStack(JSRuntime* rt, ProfileEntry* stack, uint32_t* size,
                          uint32_t max);

 JS_FRIEND_API(void)
 EnableRuntimeProfilingStack(JSRuntime* rt, bool enabled);

 JS_FRIEND_API(void)
 RegisterRuntimeProfilingEventMarker(JSRuntime* rt, void (*fn)(const char*));

 JS_FRIEND_API(jsbytecode*)
 ProfilingGetPC(JSRuntime* rt, JSScript* script, void* ip);

 } // namespace js

 #endif  /* js_ProfilingStack_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_ProfilingStack_h
	#define js_ProfilingStack_h

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

	#include "js/Utility.h"

	struct JSRuntime;

	namespace js {

	// A call stack can be specified to the JS engine such that all JS entry/exits
	// to functions push/pop an entry to/from the specified stack.
	//
	// For more detailed information, see vm/SPSProfiler.h.
	//
	class ProfileEntry
	{
	// All fields are marked volatile to prevent the compiler from re-ordering
	// instructions. Namely this sequence:
	//
	// entry[size] = ...;
	// size++;
	//
	// If the size modification were somehow reordered before the stores, then
	// if a sample were taken it would be examining bogus information.
	//
	// A ProfileEntry represents both a C++ profile entry and a JS one.

	// Descriptive string of this entry.
	const char * volatile string;

	// Stack pointer for non-JS entries, the script pointer otherwise.
	void * volatile spOrScript;

	// Line number for non-JS entries, the bytecode offset otherwise.
	int32_t volatile lineOrPc;

	// General purpose storage describing this frame.
	uint32_t volatile flags_;

	public:
	// These traits are bit masks. Make sure they're powers of 2.
	enum Flags {
	// Indicate whether a profile entry represents a CPP frame. If not set,
	// a JS frame is assumed by default. You're not allowed to publicly
	// change the frame type. Instead, initialize the ProfileEntry as either
	// a JS or CPP frame with `initJsFrame` or `initCppFrame` respectively.
	IS_CPP_ENTRY = 0x01,

	// Indicate that copying the frame label is not necessary when taking a
	// sample of the pseudostack.
	FRAME_LABEL_COPY = 0x02,

	// This ProfileEntry is a dummy entry indicating the start of a run
	// of JS pseudostack entries.
	BEGIN_PSEUDO_JS = 0x04,

	// This flag is used to indicate that an interpreter JS entry has OSR-ed
	// into baseline.
	OSR = 0x08,

	// Union of all flags.
	ALL = IS_CPP_ENTRY\|FRAME_LABEL_COPY\|BEGIN_PSEUDO_JS\|OSR,

	// Mask for removing all flags except the category information.
	CATEGORY_MASK = ~ALL
	};

	// Keep these in sync with devtools/client/performance/modules/global.js
	enum class Category : uint32_t {
	OTHER = 0x10,
	CSS = 0x20,
	JS = 0x40,
	GC = 0x80,
	CC = 0x100,
	NETWORK = 0x200,
	GRAPHICS = 0x400,
	STORAGE = 0x800,
	EVENTS = 0x1000,

	FIRST = OTHER,
	LAST = EVENTS
	};

	static_assert((static_cast<int>(Category::FIRST) & Flags::ALL) == 0,
	"The category bitflags should not intersect with the other flags!");

	// All of these methods are marked with the 'volatile' keyword because SPS's
	// representation of the stack is stored such that all ProfileEntry
	// instances are volatile. These methods would not be available unless they
	// were marked as volatile as well.

	bool isCpp() const volatile { return hasFlag(IS_CPP_ENTRY); }
	bool isJs() const volatile { return !isCpp(); }

	bool isCopyLabel() const volatile { return hasFlag(FRAME_LABEL_COPY); }

	void setLabel(const char* aString) volatile { string = aString; }
	const char* label() const volatile { return string; }

	void initJsFrame(JSScript* aScript, jsbytecode* aPc) volatile {
	flags_ = 0;
	spOrScript = aScript;
	setPC(aPc);
	}
	void initCppFrame(void* aSp, uint32_t aLine) volatile {
	flags_ = IS_CPP_ENTRY;
	spOrScript = aSp;
	lineOrPc = static_cast<int32_t>(aLine);
	}

	void setFlag(uint32_t flag) volatile {
	MOZ_ASSERT(flag != IS_CPP_ENTRY);
	flags_ \|= flag;
	}
	void unsetFlag(uint32_t flag) volatile {
	MOZ_ASSERT(flag != IS_CPP_ENTRY);
	flags_ &= ~flag;
	}
	bool hasFlag(uint32_t flag) const volatile {
	return bool(flags_ & flag);
	}

	uint32_t flags() const volatile {
	return flags_;
	}

	uint32_t category() const volatile {
	return flags_ & CATEGORY_MASK;
	}
	void setCategory(Category c) volatile {
	MOZ_ASSERT(c >= Category::FIRST);
	MOZ_ASSERT(c <= Category::LAST);
	flags_ &= ~CATEGORY_MASK;
	setFlag(static_cast<uint32_t>(c));
	}

	void setOSR() volatile {
	MOZ_ASSERT(isJs());
	setFlag(OSR);
	}
	void unsetOSR() volatile {
	MOZ_ASSERT(isJs());
	unsetFlag(OSR);
	}
	bool isOSR() const volatile {
	return hasFlag(OSR);
	}

	void* stackAddress() const volatile {
	MOZ_ASSERT(!isJs());
	return spOrScript;
	}
	JSScript* script() const volatile {
	MOZ_ASSERT(isJs());
	return (JSScript*)spOrScript;
	}
	uint32_t line() const volatile {
	MOZ_ASSERT(!isJs());
	return static_cast<uint32_t>(lineOrPc);
	}

	// We can't know the layout of JSScript, so look in vm/SPSProfiler.cpp.
	JS_FRIEND_API(jsbytecode*) pc() const volatile;
	JS_FRIEND_API(void) setPC(jsbytecode* pc) volatile;

	// The offset of a pc into a script's code can actually be 0, so to
	// signify a nullptr pc, use a -1 index. This is checked against in
	// pc() and setPC() to set/get the right pc.
	static const int32_t NullPCOffset = -1;

	static size_t offsetOfLabel() { return offsetof(ProfileEntry, string); }
	static size_t offsetOfSpOrScript() { return offsetof(ProfileEntry, spOrScript); }
	static size_t offsetOfLineOrPc() { return offsetof(ProfileEntry, lineOrPc); }
	static size_t offsetOfFlags() { return offsetof(ProfileEntry, flags_); }
	};

	JS_FRIEND_API(void)
	SetRuntimeProfilingStack(JSRuntime* rt, ProfileEntry* stack, uint32_t* size,
	uint32_t max);

	JS_FRIEND_API(void)
	EnableRuntimeProfilingStack(JSRuntime* rt, bool enabled);

	JS_FRIEND_API(void)
	RegisterRuntimeProfilingEventMarker(JSRuntime* rt, void (fn)(const char));

	JS_FRIEND_API(jsbytecode*)
	ProfilingGetPC(JSRuntime* rt, JSScript* script, void* ip);

	} // namespace js

	#endif /* js_ProfilingStack_h */