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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/. */
#include "vm/Stack-inl.h"
#include "mozilla/Maybe.h" // mozilla::Maybe
#include <algorithm> // std::max
#include <iterator> // std::size
#include <stddef.h> // size_t
#include <stdint.h> // uint8_t, uint32_t
#include <utility> // std::move
#include "debugger/DebugAPI.h"
#include "gc/Marking.h"
#include "gc/Tracer.h" // js::TraceRoot
#include "jit/JitcodeMap.h"
#include "jit/JitRuntime.h"
#include "js/friend/ErrorMessages.h" // JSMSG_*
#include "js/Value.h" // JS::Value
#include "vm/FrameIter.h" // js::FrameIter
#include "vm/JSContext.h"
#include "vm/Opcodes.h"
#include "wasm/WasmInstance.h"
#include "jit/JSJitFrameIter-inl.h"
#include "vm/Compartment-inl.h"
#include "vm/EnvironmentObject-inl.h"
#include "vm/Interpreter-inl.h"
#include "vm/Probes-inl.h"
using namespace js;
using mozilla::Maybe;
using JS::Value;
/*****************************************************************************/
void InterpreterFrame::initExecuteFrame(JSContext* cx, HandleScript script,
AbstractFramePtr evalInFramePrev,
HandleValue newTargetValue,
HandleObject envChain) {
flags_ = 0;
script_ = script;
Value* dstvp = (Value*)this - 1;
dstvp[0] = newTargetValue;
envChain_ = envChain.get();
prev_ = nullptr;
prevpc_ = nullptr;
prevsp_ = nullptr;
evalInFramePrev_ = evalInFramePrev;
MOZ_ASSERT_IF(evalInFramePrev, isDebuggerEvalFrame());
if (script->isDebuggee()) {
setIsDebuggee();
}
#ifdef DEBUG
Debug_SetValueRangeToCrashOnTouch(&rval_, 1);
#endif
}
ArrayObject* InterpreterFrame::createRestParameter(JSContext* cx) {
MOZ_ASSERT(script()->hasRest());
unsigned nformal = callee().nargs() - 1, nactual = numActualArgs();
unsigned nrest = (nactual > nformal) ? nactual - nformal : 0;
Value* restvp = argv() + nformal;
return NewDenseCopiedArray(cx, nrest, restvp);
}
static inline void AssertScopeMatchesEnvironment(Scope* scope,
JSObject* originalEnv) {
#ifdef DEBUG
JSObject* env = originalEnv;
for (ScopeIter si(scope); si; si++) {
if (si.kind() == ScopeKind::NonSyntactic) {
while (env->is<WithEnvironmentObject>() ||
env->is<NonSyntacticVariablesObject>() ||
(env->is<LexicalEnvironmentObject>() &&
!env->as<LexicalEnvironmentObject>().isSyntactic())) {
MOZ_ASSERT(!IsSyntacticEnvironment(env));
env = &env->as<EnvironmentObject>().enclosingEnvironment();
}
} else if (si.hasSyntacticEnvironment()) {
switch (si.kind()) {
case ScopeKind::Function:
MOZ_ASSERT(env->as<CallObject>()
.callee()
.maybeCanonicalFunction()
->nonLazyScript() ==
si.scope()->as<FunctionScope>().script());
env = &env->as<CallObject>().enclosingEnvironment();
break;
case ScopeKind::FunctionBodyVar:
MOZ_ASSERT(&env->as<VarEnvironmentObject>().scope() == si.scope());
env = &env->as<VarEnvironmentObject>().enclosingEnvironment();
break;
case ScopeKind::Lexical:
case ScopeKind::SimpleCatch:
case ScopeKind::Catch:
case ScopeKind::NamedLambda:
case ScopeKind::StrictNamedLambda:
case ScopeKind::FunctionLexical:
case ScopeKind::ClassBody:
MOZ_ASSERT(&env->as<LexicalEnvironmentObject>().scope() ==
si.scope());
env = &env->as<LexicalEnvironmentObject>().enclosingEnvironment();
break;
case ScopeKind::With:
MOZ_ASSERT(&env->as<WithEnvironmentObject>().scope() == si.scope());
env = &env->as<WithEnvironmentObject>().enclosingEnvironment();
break;
case ScopeKind::Eval:
case ScopeKind::StrictEval:
env = &env->as<VarEnvironmentObject>().enclosingEnvironment();
break;
case ScopeKind::Global:
MOZ_ASSERT(env->as<LexicalEnvironmentObject>().isGlobal());
env = &env->as<LexicalEnvironmentObject>().enclosingEnvironment();
MOZ_ASSERT(env->is<GlobalObject>());
break;
case ScopeKind::NonSyntactic:
MOZ_CRASH("NonSyntactic should not have a syntactic environment");
break;
case ScopeKind::Module:
MOZ_ASSERT(&env->as<ModuleEnvironmentObject>().module() ==
si.scope()->as<ModuleScope>().module());
env = &env->as<ModuleEnvironmentObject>().enclosingEnvironment();
break;
case ScopeKind::WasmInstance:
env =
&env->as<WasmInstanceEnvironmentObject>().enclosingEnvironment();
break;
case ScopeKind::WasmFunction:
env = &env->as<WasmFunctionCallObject>().enclosingEnvironment();
break;
}
}
}
// In the case of a non-syntactic env chain, the immediate parent of the
// outermost non-syntactic env may be the global lexical env, or, if
// called from Debugger, a DebugEnvironmentProxy.
//
// In the case of a syntactic env chain, the outermost env is always a
// GlobalObject.
MOZ_ASSERT(env->is<GlobalObject>() || IsGlobalLexicalEnvironment(env) ||
env->is<DebugEnvironmentProxy>());
#endif
}
static inline void AssertScopeMatchesEnvironment(InterpreterFrame* fp,
jsbytecode* pc) {
#ifdef DEBUG
// If we OOMed before fully initializing the environment chain, the scope
// and environment will definitely mismatch.
if (fp->script()->initialEnvironmentShape() && fp->hasInitialEnvironment()) {
AssertScopeMatchesEnvironment(fp->script()->innermostScope(pc),
fp->environmentChain());
}
#endif
}
bool InterpreterFrame::initFunctionEnvironmentObjects(JSContext* cx) {
return js::InitFunctionEnvironmentObjects(cx, this);
}
bool InterpreterFrame::prologue(JSContext* cx) {
RootedScript script(cx, this->script());
MOZ_ASSERT(cx->interpreterRegs().pc == script->code());
MOZ_ASSERT(cx->realm() == script->realm());
if (!isFunctionFrame()) {
return probes::EnterScript(cx, script, nullptr, this);
}
// At this point, we've yet to push any environments. Check that they
// match the enclosing scope.
AssertScopeMatchesEnvironment(script->enclosingScope(), environmentChain());
if (callee().needsFunctionEnvironmentObjects() &&
!initFunctionEnvironmentObjects(cx)) {
return false;
}
MOZ_ASSERT_IF(isConstructing(),
thisArgument().isObject() ||
thisArgument().isMagic(JS_UNINITIALIZED_LEXICAL));
return probes::EnterScript(cx, script, script->function(), this);
}
void InterpreterFrame::epilogue(JSContext* cx, jsbytecode* pc) {
RootedScript script(cx, this->script());
MOZ_ASSERT(cx->realm() == script->realm());
probes::ExitScript(cx, script, script->function(),
hasPushedGeckoProfilerFrame());
// Check that the scope matches the environment at the point of leaving
// the frame.
AssertScopeMatchesEnvironment(this, pc);
EnvironmentIter ei(cx, this, pc);
UnwindAllEnvironmentsInFrame(cx, ei);
if (isFunctionFrame()) {
if (!callee().isGenerator() && !callee().isAsync() && isConstructing() &&
thisArgument().isObject() && returnValue().isPrimitive()) {
setReturnValue(thisArgument());
}
return;
}
MOZ_ASSERT(isEvalFrame() || isGlobalFrame() || isModuleFrame());
}
bool InterpreterFrame::checkReturn(JSContext* cx, HandleValue thisv) {
MOZ_ASSERT(script()->isDerivedClassConstructor());
MOZ_ASSERT(isFunctionFrame());
MOZ_ASSERT(callee().isClassConstructor());
HandleValue retVal = returnValue();
if (retVal.isObject()) {
return true;
}
if (!retVal.isUndefined()) {
ReportValueError(cx, JSMSG_BAD_DERIVED_RETURN, JSDVG_IGNORE_STACK, retVal,
nullptr);
return false;
}
if (thisv.isMagic(JS_UNINITIALIZED_LEXICAL)) {
return ThrowUninitializedThis(cx);
}
setReturnValue(thisv);
return true;
}
bool InterpreterFrame::pushVarEnvironment(JSContext* cx, HandleScope scope) {
return js::PushVarEnvironmentObject(cx, scope, this);
}
bool InterpreterFrame::pushLexicalEnvironment(JSContext* cx,
Handle<LexicalScope*> scope) {
LexicalEnvironmentObject* env =
LexicalEnvironmentObject::createForFrame(cx, scope, this);
if (!env) {
return false;
}
pushOnEnvironmentChain(*env);
return true;
}
bool InterpreterFrame::freshenLexicalEnvironment(JSContext* cx) {
Rooted<LexicalEnvironmentObject*> env(
cx, &envChain_->as<LexicalEnvironmentObject>());
LexicalEnvironmentObject* fresh = LexicalEnvironmentObject::clone(cx, env);
if (!fresh) {
return false;
}
replaceInnermostEnvironment(*fresh);
return true;
}
bool InterpreterFrame::recreateLexicalEnvironment(JSContext* cx) {
Rooted<LexicalEnvironmentObject*> env(
cx, &envChain_->as<LexicalEnvironmentObject>());
LexicalEnvironmentObject* fresh = LexicalEnvironmentObject::recreate(cx, env);
if (!fresh) {
return false;
}
replaceInnermostEnvironment(*fresh);
return true;
}
void InterpreterFrame::trace(JSTracer* trc, Value* sp, jsbytecode* pc) {
TraceRoot(trc, &envChain_, "env chain");
TraceRoot(trc, &script_, "script");
if (flags_ & HAS_ARGS_OBJ) {
TraceRoot(trc, &argsObj_, "arguments");
}
if (hasReturnValue()) {
TraceRoot(trc, &rval_, "rval");
}
MOZ_ASSERT(sp >= slots());
if (hasArgs()) {
// Trace the callee and |this|. When we're doing a moving GC, we
// need to fix up the callee pointer before we use it below, under
// numFormalArgs() and script().
TraceRootRange(trc, 2, argv_ - 2, "fp callee and this");
// Trace arguments.
unsigned argc = std::max(numActualArgs(), numFormalArgs());
TraceRootRange(trc, argc + isConstructing(), argv_, "fp argv");
} else {
// Trace newTarget.
TraceRoot(trc, ((Value*)this) - 1, "stack newTarget");
}
JSScript* script = this->script();
size_t nfixed = script->nfixed();
size_t nlivefixed = script->calculateLiveFixed(pc);
if (nfixed == nlivefixed) {
// All locals are live.
traceValues(trc, 0, sp - slots());
} else {
// Trace operand stack.
traceValues(trc, nfixed, sp - slots());
// Clear dead block-scoped locals.
while (nfixed > nlivefixed) {
unaliasedLocal(--nfixed).setUndefined();
}
// Trace live locals.
traceValues(trc, 0, nlivefixed);
}
if (auto* debugEnvs = script->realm()->debugEnvs()) {
debugEnvs->traceLiveFrame(trc, this);
}
}
void InterpreterFrame::traceValues(JSTracer* trc, unsigned start,
unsigned end) {
if (start < end) {
TraceRootRange(trc, end - start, slots() + start, "vm_stack");
}
}
static void TraceInterpreterActivation(JSTracer* trc,
InterpreterActivation* act) {
for (InterpreterFrameIterator frames(act); !frames.done(); ++frames) {
InterpreterFrame* fp = frames.frame();
fp->trace(trc, frames.sp(), frames.pc());
}
}
void js::TraceInterpreterActivations(JSContext* cx, JSTracer* trc) {
for (ActivationIterator iter(cx); !iter.done(); ++iter) {
Activation* act = iter.activation();
if (act->isInterpreter()) {
TraceInterpreterActivation(trc, act->asInterpreter());
}
}
}
/*****************************************************************************/
// Unlike the other methods of this class, this method is defined here so that
// we don't have to #include jsautooplen.h in vm/Stack.h.
void InterpreterRegs::setToEndOfScript() { sp = fp()->base(); }
/*****************************************************************************/
InterpreterFrame* InterpreterStack::pushInvokeFrame(
JSContext* cx, const CallArgs& args, MaybeConstruct constructing) {
LifoAlloc::Mark mark = allocator_.mark();
RootedFunction fun(cx, &args.callee().as<JSFunction>());
RootedScript script(cx, fun->nonLazyScript());
Value* argv;
InterpreterFrame* fp = getCallFrame(cx, args, script, constructing, &argv);
if (!fp) {
return nullptr;
}
fp->mark_ = mark;
fp->initCallFrame(nullptr, nullptr, nullptr, *fun, script, argv,
args.length(), constructing);
return fp;
}
InterpreterFrame* InterpreterStack::pushExecuteFrame(
JSContext* cx, HandleScript script, HandleValue newTargetValue,
HandleObject envChain, AbstractFramePtr evalInFrame) {
LifoAlloc::Mark mark = allocator_.mark();
unsigned nvars = 1 /* newTarget */ + script->nslots();
uint8_t* buffer =
allocateFrame(cx, sizeof(InterpreterFrame) + nvars * sizeof(Value));
if (!buffer) {
return nullptr;
}
InterpreterFrame* fp =
reinterpret_cast<InterpreterFrame*>(buffer + 1 * sizeof(Value));
fp->mark_ = mark;
fp->initExecuteFrame(cx, script, evalInFrame, newTargetValue, envChain);
fp->initLocals();
return fp;
}
/*****************************************************************************/
InterpreterFrameIterator& InterpreterFrameIterator::operator++() {
MOZ_ASSERT(!done());
if (fp_ != activation_->entryFrame_) {
pc_ = fp_->prevpc();
sp_ = fp_->prevsp();
fp_ = fp_->prev();
} else {
pc_ = nullptr;
sp_ = nullptr;
fp_ = nullptr;
}
return *this;
}
JS::ProfilingFrameIterator::ProfilingFrameIterator(
JSContext* cx, const RegisterState& state,
const Maybe<uint64_t>& samplePositionInProfilerBuffer)
: cx_(cx),
samplePositionInProfilerBuffer_(samplePositionInProfilerBuffer),
activation_(nullptr) {
if (!cx->runtime()->geckoProfiler().enabled()) {
MOZ_CRASH(
"ProfilingFrameIterator called when geckoProfiler not enabled for "
"runtime.");
}
if (!cx->profilingActivation()) {
return;
}
// If profiler sampling is not enabled, skip.
if (!cx->isProfilerSamplingEnabled()) {
return;
}
activation_ = cx->profilingActivation();
MOZ_ASSERT(activation_->isProfiling());
static_assert(sizeof(wasm::ProfilingFrameIterator) <= StorageSpace &&
sizeof(jit::JSJitProfilingFrameIterator) <= StorageSpace,
"ProfilingFrameIterator::storage_ is too small");
static_assert(alignof(void*) >= alignof(wasm::ProfilingFrameIterator) &&
alignof(void*) >= alignof(jit::JSJitProfilingFrameIterator),
"ProfilingFrameIterator::storage_ is too weakly aligned");
iteratorConstruct(state);
settle();
}
JS::ProfilingFrameIterator::~ProfilingFrameIterator() {
if (!done()) {
MOZ_ASSERT(activation_->isProfiling());
iteratorDestroy();
}
}
void JS::ProfilingFrameIterator::operator++() {
MOZ_ASSERT(!done());
MOZ_ASSERT(activation_->isJit());
if (isWasm()) {
++wasmIter();
} else {
++jsJitIter();
}
settle();
}
void JS::ProfilingFrameIterator::settleFrames() {
// Handle transition frames (see comment in JitFrameIter::operator++).
if (isJSJit() && !jsJitIter().done() &&
jsJitIter().frameType() == jit::FrameType::WasmToJSJit) {
wasm::Frame* fp = (wasm::Frame*)jsJitIter().fp();
iteratorDestroy();
new (storage()) wasm::ProfilingFrameIterator(fp);
kind_ = Kind::Wasm;
MOZ_ASSERT(!wasmIter().done());
return;
}
if (isWasm() && wasmIter().done() && wasmIter().unwoundIonCallerFP()) {
uint8_t* fp = wasmIter().unwoundIonCallerFP();
iteratorDestroy();
// Using this ctor will skip the first ion->wasm frame, which is
// needed because the profiling iterator doesn't know how to unwind
// when the callee has no script.
new (storage())
jit::JSJitProfilingFrameIterator((jit::CommonFrameLayout*)fp);
kind_ = Kind::JSJit;
MOZ_ASSERT(!jsJitIter().done());
return;
}
}
void JS::ProfilingFrameIterator::settle() {
settleFrames();
while (iteratorDone()) {
iteratorDestroy();
activation_ = activation_->prevProfiling();
if (!activation_) {
return;
}
iteratorConstruct();
settleFrames();
}
}
void JS::ProfilingFrameIterator::iteratorConstruct(const RegisterState& state) {
MOZ_ASSERT(!done());
MOZ_ASSERT(activation_->isJit());
jit::JitActivation* activation = activation_->asJit();
// We want to know if we should start with a wasm profiling frame iterator
// or not. To determine this, there are three possibilities:
// - we've exited to C++ from wasm, in which case the activation
// exitFP low bit is tagged and we can test hasWasmExitFP().
// - we're in wasm code, so we can do a lookup on PC.
// - in all the other cases, we're not in wasm or we haven't exited from
// wasm.
if (activation->hasWasmExitFP() || wasm::InCompiledCode(state.pc)) {
new (storage()) wasm::ProfilingFrameIterator(*activation, state);
kind_ = Kind::Wasm;
return;
}
new (storage()) jit::JSJitProfilingFrameIterator(cx_, state.pc);
kind_ = Kind::JSJit;
}
void JS::ProfilingFrameIterator::iteratorConstruct() {
MOZ_ASSERT(!done());
MOZ_ASSERT(activation_->isJit());
jit::JitActivation* activation = activation_->asJit();
// The same reasoning as in the above iteratorConstruct variant applies
// here, except that it's even simpler: since this activation is higher up
// on the stack, it can only have exited to C++, through wasm or ion.
if (activation->hasWasmExitFP()) {
new (storage()) wasm::ProfilingFrameIterator(*activation);
kind_ = Kind::Wasm;
return;
}
auto* fp = (jit::ExitFrameLayout*)activation->jsExitFP();
new (storage()) jit::JSJitProfilingFrameIterator(fp);
kind_ = Kind::JSJit;
}
void JS::ProfilingFrameIterator::iteratorDestroy() {
MOZ_ASSERT(!done());
MOZ_ASSERT(activation_->isJit());
if (isWasm()) {
wasmIter().~ProfilingFrameIterator();
return;
}
jsJitIter().~JSJitProfilingFrameIterator();
}
bool JS::ProfilingFrameIterator::iteratorDone() {
MOZ_ASSERT(!done());
MOZ_ASSERT(activation_->isJit());
if (isWasm()) {
return wasmIter().done();
}
return jsJitIter().done();
}
void* JS::ProfilingFrameIterator::stackAddress() const {
MOZ_ASSERT(!done());
MOZ_ASSERT(activation_->isJit());
if (isWasm()) {
return wasmIter().stackAddress();
}
return jsJitIter().stackAddress();
}
Maybe<JS::ProfilingFrameIterator::Frame>
JS::ProfilingFrameIterator::getPhysicalFrameAndEntry(
jit::JitcodeGlobalEntry* entry) const {
void* stackAddr = stackAddress();
if (isWasm()) {
Frame frame;
frame.kind = Frame_Wasm;
frame.stackAddress = stackAddr;
frame.returnAddress_ = nullptr;
frame.activation = activation_;
frame.label = nullptr;
frame.endStackAddress = activation_->asJit()->jsOrWasmExitFP();
frame.interpreterScript = nullptr;
// TODO: get the realm ID of wasm frames. Bug 1596235.
frame.realmID = 0;
return mozilla::Some(frame);
}
MOZ_ASSERT(isJSJit());
// Look up an entry for the return address.
void* returnAddr = jsJitIter().resumePCinCurrentFrame();
jit::JitcodeGlobalTable* table =
cx_->runtime()->jitRuntime()->getJitcodeGlobalTable();
// NB:
// The following lookups should be infallible, but the ad-hoc stackwalking
// code rots easily and corner cases where frames can't be looked up
// occur too often (e.g. once every day).
//
// The calls to `lookup*` below have been changed from infallible ones to
// fallible ones. The proper solution to this problem is to fix all
// the jitcode to use frame-pointers and reliably walk the stack with those.
const jit::JitcodeGlobalEntry* lookedUpEntry = nullptr;
if (samplePositionInProfilerBuffer_) {
lookedUpEntry = table->lookupForSampler(returnAddr, cx_->runtime(),
*samplePositionInProfilerBuffer_);
} else {
lookedUpEntry = table->lookup(returnAddr);
}
// Failed to look up a jitcode entry for the given address, ignore.
if (!lookedUpEntry) {
return mozilla::Nothing();
}
*entry = *lookedUpEntry;
MOZ_ASSERT(entry->isIon() || entry->isBaseline() ||
entry->isBaselineInterpreter() || entry->isDummy());
// Dummy frames produce no stack frames.
if (entry->isDummy()) {
return mozilla::Nothing();
}
Frame frame;
if (entry->isBaselineInterpreter()) {
frame.kind = Frame_BaselineInterpreter;
} else if (entry->isBaseline()) {
frame.kind = Frame_Baseline;
} else {
frame.kind = Frame_Ion;
}
frame.stackAddress = stackAddr;
if (entry->isBaselineInterpreter()) {
frame.label = jsJitIter().baselineInterpreterLabel();
jsJitIter().baselineInterpreterScriptPC(
&frame.interpreterScript, &frame.interpreterPC_, &frame.realmID);
MOZ_ASSERT(frame.interpreterScript);
MOZ_ASSERT(frame.interpreterPC_);
} else {
frame.interpreterScript = nullptr;
frame.returnAddress_ = returnAddr;
frame.label = nullptr;
frame.realmID = 0;
}
frame.activation = activation_;
frame.endStackAddress = activation_->asJit()->jsOrWasmExitFP();
return mozilla::Some(frame);
}
uint32_t JS::ProfilingFrameIterator::extractStack(Frame* frames,
uint32_t offset,
uint32_t end) const {
if (offset >= end) {
return 0;
}
jit::JitcodeGlobalEntry entry;
Maybe<Frame> physicalFrame = getPhysicalFrameAndEntry(&entry);
// Dummy frames produce no stack frames.
if (physicalFrame.isNothing()) {
return 0;
}
if (isWasm()) {
frames[offset] = physicalFrame.value();
frames[offset].label = wasmIter().label();
return 1;
}
if (physicalFrame->kind == Frame_BaselineInterpreter) {
frames[offset] = physicalFrame.value();
return 1;
}
// Extract the stack for the entry. Assume maximum inlining depth is <64
const char* labels[64];
uint32_t depth = entry.callStackAtAddr(cx_->runtime(),
jsJitIter().resumePCinCurrentFrame(),
labels, std::size(labels));
MOZ_ASSERT(depth < std::size(labels));
for (uint32_t i = 0; i < depth; i++) {
if (offset + i >= end) {
return i;
}
frames[offset + i] = physicalFrame.value();
frames[offset + i].label = labels[i];
}
return depth;
}
Maybe<JS::ProfilingFrameIterator::Frame>
JS::ProfilingFrameIterator::getPhysicalFrameWithoutLabel() const {
jit::JitcodeGlobalEntry unused;
return getPhysicalFrameAndEntry(&unused);
}
bool JS::ProfilingFrameIterator::isWasm() const {
MOZ_ASSERT(!done());
return kind_ == Kind::Wasm;
}
bool JS::ProfilingFrameIterator::isJSJit() const {
return kind_ == Kind::JSJit;
}
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