/* -*- 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 "mozilla/NullPtr.h" #include "mozilla/TypedEnum.h" #include "jsbytecode.h" #include "jstypes.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: ProfileEntry(void) : flags(0) {} // 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, call `setJsFrame` or `setCppFrame`. IS_CPP_ENTRY = 0x01, // Indicate that copying the frame label is not necessary when taking a // sample of the pseudostack. FRAME_LABEL_COPY = 0x02 }; MOZ_BEGIN_NESTED_ENUM_CLASS(Category, uint32_t) OTHER = 0x04, CSS = 0x08, JS = 0x10, GC = 0x20, CC = 0x40, NETWORK = 0x80, GRAPHICS = 0x100, STORAGE = 0x200, EVENTS = 0x400, FIRST = OTHER, LAST = EVENTS MOZ_END_NESTED_ENUM_CLASS(Category) // 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 setJsFrame(JSScript *aScript, jsbytecode *aPc) volatile { flags &= ~IS_CPP_ENTRY; spOrScript = aScript; setPC(aPc); } void setCppFrame(void *aSp, uint32_t aLine) volatile { flags |= IS_CPP_ENTRY; spOrScript = aSp; lineOrPc = static_cast(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 & uint32_t(flag)); } 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(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 */