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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*-
* vim: set ts=8 sts=2 et sw=2 tw=80:
* 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/Assertions.h"
#include "mozilla/Attributes.h"
#include "mozilla/Maybe.h"
#include "jstypes.h"
#include "js/GCAnnotations.h"
#include "js/TypeDecls.h"
namespace js {
class Activation;
namespace jit {
class JitActivation;
class JSJitProfilingFrameIterator;
class JitcodeGlobalEntry;
} // namespace jit
namespace wasm {
class ProfilingFrameIterator;
} // namespace wasm
} // namespace js
namespace JS {
// This iterator can be used to walk the stack of a thread suspended at an
// arbitrary pc. To provide accurate results, profiling must have been enabled
// (via EnableRuntimeProfilingStack) before executing the callstack being
// unwound.
//
// Note that the caller must not do anything that could cause GC to happen while
// the iterator is alive, since this could invalidate Ion code and cause its
// contents to become out of date.
class MOZ_NON_PARAM JS_PUBLIC_API ProfilingFrameIterator {
public:
enum class Kind : bool { JSJit, Wasm };
private:
JSContext* cx_;
mozilla::Maybe<uint64_t> samplePositionInProfilerBuffer_;
js::Activation* activation_;
// For each JitActivation, this records the lowest (most recent) stack
// address. This will usually be either the exitFP of the activation or the
// frame or stack pointer of currently executing JIT/Wasm code. The Gecko
// profiler uses this to skip native frames between the activation and
// endStackAddress_.
void* endStackAddress_ = nullptr;
Kind kind_;
static const unsigned StorageSpace = 8 * sizeof(void*);
alignas(void*) unsigned char storage_[StorageSpace];
void* storage() { return storage_; }
const void* storage() const { return storage_; }
js::wasm::ProfilingFrameIterator& wasmIter() {
MOZ_ASSERT(!done());
MOZ_ASSERT(isWasm());
return *static_cast<js::wasm::ProfilingFrameIterator*>(storage());
}
const js::wasm::ProfilingFrameIterator& wasmIter() const {
MOZ_ASSERT(!done());
MOZ_ASSERT(isWasm());
return *static_cast<const js::wasm::ProfilingFrameIterator*>(storage());
}
js::jit::JSJitProfilingFrameIterator& jsJitIter() {
MOZ_ASSERT(!done());
MOZ_ASSERT(isJSJit());
return *static_cast<js::jit::JSJitProfilingFrameIterator*>(storage());
}
const js::jit::JSJitProfilingFrameIterator& jsJitIter() const {
MOZ_ASSERT(!done());
MOZ_ASSERT(isJSJit());
return *static_cast<const js::jit::JSJitProfilingFrameIterator*>(storage());
}
void maybeSetEndStackAddress(void* addr) {
// If endStackAddress_ has already been set, don't change it because we
// want this to correspond to the most recent frame.
if (!endStackAddress_) {
endStackAddress_ = addr;
}
}
void settleFrames();
void settle();
public:
struct RegisterState {
RegisterState() : pc(nullptr), sp(nullptr), fp(nullptr), lr(nullptr) {}
void* pc;
void* sp;
void* fp;
void* lr;
};
ProfilingFrameIterator(
JSContext* cx, const RegisterState& state,
const mozilla::Maybe<uint64_t>& samplePositionInProfilerBuffer =
mozilla::Nothing());
~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_BaselineInterpreter,
Frame_Baseline,
Frame_Ion,
Frame_Wasm
};
struct Frame {
FrameKind kind;
void* stackAddress;
union {
void* returnAddress_;
jsbytecode* interpreterPC_;
};
void* activation;
void* endStackAddress;
const char* label;
JSScript* interpreterScript;
uint64_t realmID;
public:
void* returnAddress() const {
MOZ_ASSERT(kind != Frame_BaselineInterpreter);
return returnAddress_;
}
jsbytecode* interpreterPC() const {
MOZ_ASSERT(kind == Frame_BaselineInterpreter);
return interpreterPC_;
}
} JS_HAZ_GC_INVALIDATED;
bool isWasm() const;
bool isJSJit() const;
uint32_t extractStack(Frame* frames, uint32_t offset, uint32_t end) const;
mozilla::Maybe<Frame> getPhysicalFrameWithoutLabel() const;
// Return the registers from the native caller frame.
// Nothing{} if this iterator is NOT pointing at a native-to-JIT entry frame,
// or if the information is not accessible/implemented on this platform.
mozilla::Maybe<RegisterState> getCppEntryRegisters() const;
private:
mozilla::Maybe<Frame> getPhysicalFrameAndEntry(
const js::jit::JitcodeGlobalEntry** entry) const;
void iteratorConstruct(const RegisterState& state);
void iteratorConstruct();
void iteratorDestroy();
bool iteratorDone();
} JS_HAZ_GC_INVALIDATED;
JS_PUBLIC_API bool IsProfilingEnabledForContext(JSContext* cx);
/**
* After each sample run, this method should be called with the current buffer
* position at which the buffer contents start. This will update the
* corresponding field on the JSRuntime.
*
* See the field |profilerSampleBufferRangeStart| on JSRuntime for documentation
* about what this value is used for.
*/
JS_PUBLIC_API void SetJSContextProfilerSampleBufferRangeStart(
JSContext* cx, uint64_t rangeStart);
class ProfiledFrameRange;
// A handle to the underlying JitcodeGlobalEntry, so as to avoid repeated
// lookups on JitcodeGlobalTable.
class MOZ_STACK_CLASS ProfiledFrameHandle {
friend class ProfiledFrameRange;
JSRuntime* rt_;
js::jit::JitcodeGlobalEntry& entry_;
void* addr_;
void* canonicalAddr_;
const char* label_;
uint32_t depth_;
ProfiledFrameHandle(JSRuntime* rt, js::jit::JitcodeGlobalEntry& entry,
void* addr, const char* label, uint32_t depth);
public:
const char* label() const { return label_; }
uint32_t depth() const { return depth_; }
void* canonicalAddress() const { return canonicalAddr_; }
JS_PUBLIC_API ProfilingFrameIterator::FrameKind frameKind() const;
JS_PUBLIC_API uint64_t realmID() const;
};
class ProfiledFrameRange {
public:
class Iter final {
public:
Iter(const ProfiledFrameRange& range, uint32_t index)
: range_(range), index_(index) {}
JS_PUBLIC_API ProfiledFrameHandle operator*() const;
// Provide the bare minimum of iterator methods that are needed for
// C++ ranged for loops.
Iter& operator++() {
++index_;
return *this;
}
bool operator==(const Iter& rhs) const { return index_ == rhs.index_; }
bool operator!=(const Iter& rhs) const { return !(*this == rhs); }
private:
const ProfiledFrameRange& range_;
uint32_t index_;
};
Iter begin() const { return Iter(*this, 0); }
Iter end() const { return Iter(*this, depth_); }
private:
friend JS_PUBLIC_API ProfiledFrameRange GetProfiledFrames(JSContext* cx,
void* addr);
ProfiledFrameRange(JSRuntime* rt, void* addr,
js::jit::JitcodeGlobalEntry* entry)
: rt_(rt), addr_(addr), entry_(entry), depth_(0) {}
JSRuntime* rt_;
void* addr_;
js::jit::JitcodeGlobalEntry* entry_;
// Assume maximum inlining depth is <64
const char* labels_[64];
uint32_t depth_;
};
// Returns a range that can be iterated over using C++ ranged for loops.
JS_PUBLIC_API ProfiledFrameRange GetProfiledFrames(JSContext* cx, void* addr);
} // namespace JS
#endif /* js_ProfilingFrameIterator_h */
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