From 5f8de423f190bbb79a62f804151bc24824fa32d8 Mon Sep 17 00:00:00 2001 From: "Matt A. Tobin" Date: Fri, 2 Feb 2018 04:16:08 -0500 Subject: Add m-esr52 at 52.6.0 --- js/src/jit/BaselineJIT.cpp | 1251 ++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 1251 insertions(+) create mode 100644 js/src/jit/BaselineJIT.cpp (limited to 'js/src/jit/BaselineJIT.cpp') diff --git a/js/src/jit/BaselineJIT.cpp b/js/src/jit/BaselineJIT.cpp new file mode 100644 index 000000000..d0e297c2d --- /dev/null +++ b/js/src/jit/BaselineJIT.cpp @@ -0,0 +1,1251 @@ +/* -*- 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/. */ + +#include "jit/BaselineJIT.h" + +#include "mozilla/BinarySearch.h" +#include "mozilla/DebugOnly.h" +#include "mozilla/MemoryReporting.h" + +#include "jit/BaselineCompiler.h" +#include "jit/BaselineIC.h" +#include "jit/CompileInfo.h" +#include "jit/JitCommon.h" +#include "jit/JitSpewer.h" +#include "vm/Debugger.h" +#include "vm/Interpreter.h" +#include "vm/TraceLogging.h" +#include "wasm/WasmInstance.h" + +#include "jsobjinlines.h" +#include "jsopcodeinlines.h" +#include "jsscriptinlines.h" + +#include "jit/JitFrames-inl.h" +#include "jit/MacroAssembler-inl.h" +#include "vm/Stack-inl.h" + +using mozilla::BinarySearchIf; +using mozilla::DebugOnly; + +using namespace js; +using namespace js::jit; + +/* static */ PCMappingSlotInfo::SlotLocation +PCMappingSlotInfo::ToSlotLocation(const StackValue* stackVal) +{ + if (stackVal->kind() == StackValue::Register) { + if (stackVal->reg() == R0) + return SlotInR0; + MOZ_ASSERT(stackVal->reg() == R1); + return SlotInR1; + } + MOZ_ASSERT(stackVal->kind() != StackValue::Stack); + return SlotIgnore; +} + +void +ICStubSpace::freeAllAfterMinorGC(JSRuntime* rt) +{ + rt->gc.freeAllLifoBlocksAfterMinorGC(&allocator_); +} + +BaselineScript::BaselineScript(uint32_t prologueOffset, uint32_t epilogueOffset, + uint32_t profilerEnterToggleOffset, + uint32_t profilerExitToggleOffset, + uint32_t postDebugPrologueOffset) + : method_(nullptr), + templateEnv_(nullptr), + fallbackStubSpace_(), + dependentWasmImports_(nullptr), + prologueOffset_(prologueOffset), + epilogueOffset_(epilogueOffset), + profilerEnterToggleOffset_(profilerEnterToggleOffset), + profilerExitToggleOffset_(profilerExitToggleOffset), +#ifdef JS_TRACE_LOGGING +# ifdef DEBUG + traceLoggerScriptsEnabled_(false), + traceLoggerEngineEnabled_(false), +# endif + traceLoggerScriptEvent_(), +#endif + postDebugPrologueOffset_(postDebugPrologueOffset), + flags_(0), + inlinedBytecodeLength_(0), + maxInliningDepth_(UINT8_MAX), + pendingBuilder_(nullptr) +{ } + +static const unsigned BASELINE_MAX_ARGS_LENGTH = 20000; + +static bool +CheckFrame(InterpreterFrame* fp) +{ + if (fp->isDebuggerEvalFrame()) { + // Debugger eval-in-frame. These are likely short-running scripts so + // don't bother compiling them for now. + JitSpew(JitSpew_BaselineAbort, "debugger frame"); + return false; + } + + if (fp->isFunctionFrame() && fp->numActualArgs() > BASELINE_MAX_ARGS_LENGTH) { + // Fall back to the interpreter to avoid running out of stack space. + JitSpew(JitSpew_BaselineAbort, "Too many arguments (%u)", fp->numActualArgs()); + return false; + } + + return true; +} + +static JitExecStatus +EnterBaseline(JSContext* cx, EnterJitData& data) +{ + if (data.osrFrame) { + // Check for potential stack overflow before OSR-ing. + uint8_t spDummy; + uint32_t extra = BaselineFrame::Size() + (data.osrNumStackValues * sizeof(Value)); + uint8_t* checkSp = (&spDummy) - extra; + JS_CHECK_RECURSION_WITH_SP(cx, checkSp, return JitExec_Aborted); + } else { + JS_CHECK_RECURSION(cx, return JitExec_Aborted); + } + +#ifdef DEBUG + // Assert we don't GC before entering JIT code. A GC could discard JIT code + // or move the function stored in the CalleeToken (it won't be traced at + // this point). We use Maybe<> here so we can call reset() to call the + // AutoAssertNoGC destructor before we enter JIT code. + mozilla::Maybe nogc; + nogc.emplace(cx); +#endif + + MOZ_ASSERT(jit::IsBaselineEnabled(cx)); + MOZ_ASSERT_IF(data.osrFrame, CheckFrame(data.osrFrame)); + + EnterJitCode enter = cx->runtime()->jitRuntime()->enterBaseline(); + + bool constructingLegacyGen = + data.constructing && CalleeTokenToFunction(data.calleeToken)->isLegacyGenerator(); + + // Caller must construct |this| before invoking the Ion function. Legacy + // generators can be called with 'new' but when we resume them, the + // this-slot and arguments are |undefined| (they are stored in the + // CallObject). + MOZ_ASSERT_IF(data.constructing && !constructingLegacyGen, + data.maxArgv[0].isObject() || data.maxArgv[0].isMagic(JS_UNINITIALIZED_LEXICAL)); + + data.result.setInt32(data.numActualArgs); + { + AssertCompartmentUnchanged pcc(cx); + ActivationEntryMonitor entryMonitor(cx, data.calleeToken); + JitActivation activation(cx); + + if (data.osrFrame) + data.osrFrame->setRunningInJit(); + +#ifdef DEBUG + nogc.reset(); +#endif + // Single transition point from Interpreter to Baseline. + CALL_GENERATED_CODE(enter, data.jitcode, data.maxArgc, data.maxArgv, data.osrFrame, + data.calleeToken, data.envChain.get(), data.osrNumStackValues, + data.result.address()); + + if (data.osrFrame) + data.osrFrame->clearRunningInJit(); + } + + MOZ_ASSERT(!cx->runtime()->jitRuntime()->hasIonReturnOverride()); + + // Jit callers wrap primitive constructor return, except for derived + // class constructors, which are forced to do it themselves. + if (!data.result.isMagic() && + data.constructing && + data.result.isPrimitive() && + !constructingLegacyGen) + { + MOZ_ASSERT(data.maxArgv[0].isObject()); + data.result = data.maxArgv[0]; + } + + // Release temporary buffer used for OSR into Ion. + cx->runtime()->getJitRuntime(cx)->freeOsrTempData(); + + MOZ_ASSERT_IF(data.result.isMagic(), data.result.isMagic(JS_ION_ERROR)); + return data.result.isMagic() ? JitExec_Error : JitExec_Ok; +} + +JitExecStatus +jit::EnterBaselineMethod(JSContext* cx, RunState& state) +{ + BaselineScript* baseline = state.script()->baselineScript(); + + EnterJitData data(cx); + data.jitcode = baseline->method()->raw(); + + Rooted> vals(cx, GCVector(cx)); + if (!SetEnterJitData(cx, data, state, &vals)) + return JitExec_Error; + + JitExecStatus status = EnterBaseline(cx, data); + if (status != JitExec_Ok) + return status; + + state.setReturnValue(data.result); + return JitExec_Ok; +} + +JitExecStatus +jit::EnterBaselineAtBranch(JSContext* cx, InterpreterFrame* fp, jsbytecode* pc) +{ + MOZ_ASSERT(JSOp(*pc) == JSOP_LOOPENTRY); + + BaselineScript* baseline = fp->script()->baselineScript(); + + EnterJitData data(cx); + data.jitcode = baseline->nativeCodeForPC(fp->script(), pc); + + // Skip debug breakpoint/trap handler, the interpreter already handled it + // for the current op. + if (fp->isDebuggee()) { + MOZ_RELEASE_ASSERT(baseline->hasDebugInstrumentation()); + data.jitcode += MacroAssembler::ToggledCallSize(data.jitcode); + } + + data.osrFrame = fp; + data.osrNumStackValues = fp->script()->nfixed() + cx->interpreterRegs().stackDepth(); + + AutoValueVector vals(cx); + RootedValue thisv(cx); + + if (fp->isFunctionFrame()) { + data.constructing = fp->isConstructing(); + data.numActualArgs = fp->numActualArgs(); + data.maxArgc = Max(fp->numActualArgs(), fp->numFormalArgs()) + 1; // +1 = include |this| + data.maxArgv = fp->argv() - 1; // -1 = include |this| + data.envChain = nullptr; + data.calleeToken = CalleeToToken(&fp->callee(), data.constructing); + } else { + thisv.setUndefined(); + data.constructing = false; + data.numActualArgs = 0; + data.maxArgc = 1; + data.maxArgv = thisv.address(); + data.envChain = fp->environmentChain(); + + data.calleeToken = CalleeToToken(fp->script()); + + if (fp->isEvalFrame()) { + if (!vals.reserve(2)) + return JitExec_Aborted; + + vals.infallibleAppend(thisv); + + if (fp->script()->isDirectEvalInFunction()) + vals.infallibleAppend(fp->newTarget()); + else + vals.infallibleAppend(NullValue()); + + data.maxArgc = 2; + data.maxArgv = vals.begin(); + } + } + + TraceLoggerThread* logger = TraceLoggerForMainThread(cx->runtime()); + TraceLogStopEvent(logger, TraceLogger_Interpreter); + TraceLogStartEvent(logger, TraceLogger_Baseline); + + JitExecStatus status = EnterBaseline(cx, data); + if (status != JitExec_Ok) + return status; + + fp->setReturnValue(data.result); + return JitExec_Ok; +} + +MethodStatus +jit::BaselineCompile(JSContext* cx, JSScript* script, bool forceDebugInstrumentation) +{ + MOZ_ASSERT(!script->hasBaselineScript()); + MOZ_ASSERT(script->canBaselineCompile()); + MOZ_ASSERT(IsBaselineEnabled(cx)); + + script->ensureNonLazyCanonicalFunction(cx); + + LifoAlloc alloc(TempAllocator::PreferredLifoChunkSize); + TempAllocator* temp = alloc.new_(&alloc); + if (!temp) { + ReportOutOfMemory(cx); + return Method_Error; + } + + JitContext jctx(cx, temp); + + BaselineCompiler compiler(cx, *temp, script); + if (!compiler.init()) { + ReportOutOfMemory(cx); + return Method_Error; + } + + if (forceDebugInstrumentation) + compiler.setCompileDebugInstrumentation(); + + MethodStatus status = compiler.compile(); + + MOZ_ASSERT_IF(status == Method_Compiled, script->hasBaselineScript()); + MOZ_ASSERT_IF(status != Method_Compiled, !script->hasBaselineScript()); + + if (status == Method_CantCompile) + script->setBaselineScript(cx->runtime(), BASELINE_DISABLED_SCRIPT); + + return status; +} + +static MethodStatus +CanEnterBaselineJIT(JSContext* cx, HandleScript script, InterpreterFrame* osrFrame) +{ + MOZ_ASSERT(jit::IsBaselineEnabled(cx)); + + // Skip if the script has been disabled. + if (!script->canBaselineCompile()) + return Method_Skipped; + + if (script->length() > BaselineScript::MAX_JSSCRIPT_LENGTH) + return Method_CantCompile; + + if (script->nslots() > BaselineScript::MAX_JSSCRIPT_SLOTS) + return Method_CantCompile; + + if (script->hasBaselineScript()) + return Method_Compiled; + + // Check this before calling ensureJitCompartmentExists, so we're less + // likely to report OOM in JSRuntime::createJitRuntime. + if (!CanLikelyAllocateMoreExecutableMemory()) + return Method_Skipped; + + if (!cx->compartment()->ensureJitCompartmentExists(cx)) + return Method_Error; + + // Check script warm-up counter. + if (script->incWarmUpCounter() <= JitOptions.baselineWarmUpThreshold) + return Method_Skipped; + + // Frames can be marked as debuggee frames independently of its underlying + // script being a debuggee script, e.g., when performing + // Debugger.Frame.prototype.eval. + return BaselineCompile(cx, script, osrFrame && osrFrame->isDebuggee()); +} + +MethodStatus +jit::CanEnterBaselineAtBranch(JSContext* cx, InterpreterFrame* fp, bool newType) +{ + if (!CheckFrame(fp)) + return Method_CantCompile; + + // This check is needed in the following corner case. Consider a function h, + // + // function h(x) { + // h(false); + // if (!x) + // return; + // for (var i = 0; i < N; i++) + // /* do stuff */ + // } + // + // Suppose h is not yet compiled in baseline and is executing in the + // interpreter. Let this interpreter frame be f_older. The debugger marks + // f_older as isDebuggee. At the point of the recursive call h(false), h is + // compiled in baseline without debug instrumentation, pushing a baseline + // frame f_newer. The debugger never flags f_newer as isDebuggee, and never + // recompiles h. When the recursive call returns and execution proceeds to + // the loop, the interpreter attempts to OSR into baseline. Since h is + // already compiled in baseline, execution jumps directly into baseline + // code. This is incorrect as h's baseline script does not have debug + // instrumentation. + if (fp->isDebuggee() && !Debugger::ensureExecutionObservabilityOfOsrFrame(cx, fp)) + return Method_Error; + + RootedScript script(cx, fp->script()); + return CanEnterBaselineJIT(cx, script, fp); +} + +MethodStatus +jit::CanEnterBaselineMethod(JSContext* cx, RunState& state) +{ + if (state.isInvoke()) { + InvokeState& invoke = *state.asInvoke(); + + if (invoke.args().length() > BASELINE_MAX_ARGS_LENGTH) { + JitSpew(JitSpew_BaselineAbort, "Too many arguments (%u)", invoke.args().length()); + return Method_CantCompile; + } + + if (!state.maybeCreateThisForConstructor(cx)) { + if (cx->isThrowingOutOfMemory()) { + cx->recoverFromOutOfMemory(); + return Method_Skipped; + } + return Method_Error; + } + } else { + if (state.asExecute()->isDebuggerEval()) { + JitSpew(JitSpew_BaselineAbort, "debugger frame"); + return Method_CantCompile; + } + } + + RootedScript script(cx, state.script()); + return CanEnterBaselineJIT(cx, script, /* osrFrame = */ nullptr); +}; + +BaselineScript* +BaselineScript::New(JSScript* jsscript, + uint32_t prologueOffset, uint32_t epilogueOffset, + uint32_t profilerEnterToggleOffset, + uint32_t profilerExitToggleOffset, + uint32_t postDebugPrologueOffset, + size_t icEntries, + size_t pcMappingIndexEntries, size_t pcMappingSize, + size_t bytecodeTypeMapEntries, + size_t yieldEntries, + size_t traceLoggerToggleOffsetEntries) +{ + static const unsigned DataAlignment = sizeof(uintptr_t); + + size_t icEntriesSize = icEntries * sizeof(BaselineICEntry); + size_t pcMappingIndexEntriesSize = pcMappingIndexEntries * sizeof(PCMappingIndexEntry); + size_t bytecodeTypeMapSize = bytecodeTypeMapEntries * sizeof(uint32_t); + size_t yieldEntriesSize = yieldEntries * sizeof(uintptr_t); + size_t tlEntriesSize = traceLoggerToggleOffsetEntries * sizeof(uint32_t); + + size_t paddedICEntriesSize = AlignBytes(icEntriesSize, DataAlignment); + size_t paddedPCMappingIndexEntriesSize = AlignBytes(pcMappingIndexEntriesSize, DataAlignment); + size_t paddedPCMappingSize = AlignBytes(pcMappingSize, DataAlignment); + size_t paddedBytecodeTypesMapSize = AlignBytes(bytecodeTypeMapSize, DataAlignment); + size_t paddedYieldEntriesSize = AlignBytes(yieldEntriesSize, DataAlignment); + size_t paddedTLEntriesSize = AlignBytes(tlEntriesSize, DataAlignment); + + size_t allocBytes = paddedICEntriesSize + + paddedPCMappingIndexEntriesSize + + paddedPCMappingSize + + paddedBytecodeTypesMapSize + + paddedYieldEntriesSize + + paddedTLEntriesSize; + + BaselineScript* script = jsscript->zone()->pod_malloc_with_extra(allocBytes); + if (!script) + return nullptr; + new (script) BaselineScript(prologueOffset, epilogueOffset, + profilerEnterToggleOffset, profilerExitToggleOffset, + postDebugPrologueOffset); + + size_t offsetCursor = sizeof(BaselineScript); + MOZ_ASSERT(offsetCursor == AlignBytes(sizeof(BaselineScript), DataAlignment)); + + script->icEntriesOffset_ = offsetCursor; + script->icEntries_ = icEntries; + offsetCursor += paddedICEntriesSize; + + script->pcMappingIndexOffset_ = offsetCursor; + script->pcMappingIndexEntries_ = pcMappingIndexEntries; + offsetCursor += paddedPCMappingIndexEntriesSize; + + script->pcMappingOffset_ = offsetCursor; + script->pcMappingSize_ = pcMappingSize; + offsetCursor += paddedPCMappingSize; + + script->bytecodeTypeMapOffset_ = bytecodeTypeMapEntries ? offsetCursor : 0; + offsetCursor += paddedBytecodeTypesMapSize; + + script->yieldEntriesOffset_ = yieldEntries ? offsetCursor : 0; + offsetCursor += paddedYieldEntriesSize; + + script->traceLoggerToggleOffsetsOffset_ = tlEntriesSize ? offsetCursor : 0; + script->numTraceLoggerToggleOffsets_ = traceLoggerToggleOffsetEntries; + offsetCursor += paddedTLEntriesSize; + + MOZ_ASSERT(offsetCursor == sizeof(BaselineScript) + allocBytes); + return script; +} + +void +BaselineScript::trace(JSTracer* trc) +{ + TraceEdge(trc, &method_, "baseline-method"); + TraceNullableEdge(trc, &templateEnv_, "baseline-template-environment"); + + // Mark all IC stub codes hanging off the IC stub entries. + for (size_t i = 0; i < numICEntries(); i++) { + BaselineICEntry& ent = icEntry(i); + ent.trace(trc); + } +} + +/* static */ +void +BaselineScript::writeBarrierPre(Zone* zone, BaselineScript* script) +{ + if (zone->needsIncrementalBarrier()) + script->trace(zone->barrierTracer()); +} + +void +BaselineScript::Trace(JSTracer* trc, BaselineScript* script) +{ + script->trace(trc); +} + +void +BaselineScript::Destroy(FreeOp* fop, BaselineScript* script) +{ + + MOZ_ASSERT(!script->hasPendingIonBuilder()); + + script->unlinkDependentWasmImports(fop); + + /* + * When the script contains pointers to nursery things, the store buffer can + * contain entries that point into the fallback stub space. Since we can + * destroy scripts outside the context of a GC, this situation could result + * in us trying to mark invalid store buffer entries. + * + * Defer freeing any allocated blocks until after the next minor GC. + */ + script->fallbackStubSpace_.freeAllAfterMinorGC(fop->runtime()); + + fop->delete_(script); +} + +void +JS::DeletePolicy::operator()(const js::jit::BaselineScript* script) +{ + BaselineScript::Destroy(rt_->defaultFreeOp(), const_cast(script)); +} + +void +BaselineScript::clearDependentWasmImports() +{ + // Remove any links from wasm::Instances that contain optimized import calls into + // this BaselineScript. + if (dependentWasmImports_) { + for (DependentWasmImport& dep : *dependentWasmImports_) + dep.instance->deoptimizeImportExit(dep.importIndex); + dependentWasmImports_->clear(); + } +} + +void +BaselineScript::unlinkDependentWasmImports(FreeOp* fop) +{ + // Remove any links from wasm::Instances that contain optimized FFI calls into + // this BaselineScript. + clearDependentWasmImports(); + if (dependentWasmImports_) { + fop->delete_(dependentWasmImports_); + dependentWasmImports_ = nullptr; + } +} + +bool +BaselineScript::addDependentWasmImport(JSContext* cx, wasm::Instance& instance, uint32_t idx) +{ + if (!dependentWasmImports_) { + dependentWasmImports_ = cx->new_>(cx); + if (!dependentWasmImports_) + return false; + } + return dependentWasmImports_->emplaceBack(instance, idx); +} + +void +BaselineScript::removeDependentWasmImport(wasm::Instance& instance, uint32_t idx) +{ + if (!dependentWasmImports_) + return; + + for (DependentWasmImport& dep : *dependentWasmImports_) { + if (dep.instance == &instance && dep.importIndex == idx) { + dependentWasmImports_->erase(&dep); + break; + } + } +} + +BaselineICEntry& +BaselineScript::icEntry(size_t index) +{ + MOZ_ASSERT(index < numICEntries()); + return icEntryList()[index]; +} + +PCMappingIndexEntry& +BaselineScript::pcMappingIndexEntry(size_t index) +{ + MOZ_ASSERT(index < numPCMappingIndexEntries()); + return pcMappingIndexEntryList()[index]; +} + +CompactBufferReader +BaselineScript::pcMappingReader(size_t indexEntry) +{ + PCMappingIndexEntry& entry = pcMappingIndexEntry(indexEntry); + + uint8_t* dataStart = pcMappingData() + entry.bufferOffset; + uint8_t* dataEnd = (indexEntry == numPCMappingIndexEntries() - 1) + ? pcMappingData() + pcMappingSize_ + : pcMappingData() + pcMappingIndexEntry(indexEntry + 1).bufferOffset; + + return CompactBufferReader(dataStart, dataEnd); +} + +struct ICEntries +{ + BaselineScript* const baseline_; + + explicit ICEntries(BaselineScript* baseline) : baseline_(baseline) {} + + BaselineICEntry& operator[](size_t index) const { + return baseline_->icEntry(index); + } +}; + +BaselineICEntry& +BaselineScript::icEntryFromReturnOffset(CodeOffset returnOffset) +{ + size_t loc; +#ifdef DEBUG + bool found = +#endif + BinarySearchIf(ICEntries(this), 0, numICEntries(), + [&returnOffset](BaselineICEntry& entry) { + size_t roffset = returnOffset.offset(); + size_t entryRoffset = entry.returnOffset().offset(); + if (roffset < entryRoffset) + return -1; + if (entryRoffset < roffset) + return 1; + return 0; + }, + &loc); + + MOZ_ASSERT(found); + MOZ_ASSERT(loc < numICEntries()); + MOZ_ASSERT(icEntry(loc).returnOffset().offset() == returnOffset.offset()); + return icEntry(loc); +} + +static inline size_t +ComputeBinarySearchMid(BaselineScript* baseline, uint32_t pcOffset) +{ + size_t loc; + BinarySearchIf(ICEntries(baseline), 0, baseline->numICEntries(), + [pcOffset](BaselineICEntry& entry) { + uint32_t entryOffset = entry.pcOffset(); + if (pcOffset < entryOffset) + return -1; + if (entryOffset < pcOffset) + return 1; + return 0; + }, + &loc); + return loc; +} + +uint8_t* +BaselineScript::returnAddressForIC(const BaselineICEntry& ent) +{ + return method()->raw() + ent.returnOffset().offset(); +} + +BaselineICEntry& +BaselineScript::icEntryFromPCOffset(uint32_t pcOffset) +{ + // Multiple IC entries can have the same PC offset, but this method only looks for + // those which have isForOp() set. + size_t mid = ComputeBinarySearchMid(this, pcOffset); + + // Found an IC entry with a matching PC offset. Search backward, and then + // forward from this IC entry, looking for one with the same PC offset which + // has isForOp() set. + for (size_t i = mid; i < numICEntries() && icEntry(i).pcOffset() == pcOffset; i--) { + if (icEntry(i).isForOp()) + return icEntry(i); + } + for (size_t i = mid+1; i < numICEntries() && icEntry(i).pcOffset() == pcOffset; i++) { + if (icEntry(i).isForOp()) + return icEntry(i); + } + MOZ_CRASH("Invalid PC offset for IC entry."); +} + +BaselineICEntry& +BaselineScript::icEntryFromPCOffset(uint32_t pcOffset, BaselineICEntry* prevLookedUpEntry) +{ + // Do a linear forward search from the last queried PC offset, or fallback to a + // binary search if the last offset is too far away. + if (prevLookedUpEntry && pcOffset >= prevLookedUpEntry->pcOffset() && + (pcOffset - prevLookedUpEntry->pcOffset()) <= 10) + { + BaselineICEntry* firstEntry = &icEntry(0); + BaselineICEntry* lastEntry = &icEntry(numICEntries() - 1); + BaselineICEntry* curEntry = prevLookedUpEntry; + while (curEntry >= firstEntry && curEntry <= lastEntry) { + if (curEntry->pcOffset() == pcOffset && curEntry->isForOp()) + break; + curEntry++; + } + MOZ_ASSERT(curEntry->pcOffset() == pcOffset && curEntry->isForOp()); + return *curEntry; + } + + return icEntryFromPCOffset(pcOffset); +} + +BaselineICEntry& +BaselineScript::callVMEntryFromPCOffset(uint32_t pcOffset) +{ + // Like icEntryFromPCOffset, but only looks for the fake ICEntries + // inserted by VM calls. + size_t mid = ComputeBinarySearchMid(this, pcOffset); + + for (size_t i = mid; i < numICEntries() && icEntry(i).pcOffset() == pcOffset; i--) { + if (icEntry(i).kind() == ICEntry::Kind_CallVM) + return icEntry(i); + } + for (size_t i = mid+1; i < numICEntries() && icEntry(i).pcOffset() == pcOffset; i++) { + if (icEntry(i).kind() == ICEntry::Kind_CallVM) + return icEntry(i); + } + MOZ_CRASH("Invalid PC offset for callVM entry."); +} + +BaselineICEntry& +BaselineScript::stackCheckICEntry(bool earlyCheck) +{ + // The stack check will always be at offset 0, so just do a linear search + // from the beginning. This is only needed for debug mode OSR, when + // patching a frame that has invoked a Debugger hook via the interrupt + // handler via the stack check, which is part of the prologue. + ICEntry::Kind kind = earlyCheck ? ICEntry::Kind_EarlyStackCheck : ICEntry::Kind_StackCheck; + for (size_t i = 0; i < numICEntries() && icEntry(i).pcOffset() == 0; i++) { + if (icEntry(i).kind() == kind) + return icEntry(i); + } + MOZ_CRASH("No stack check ICEntry found."); +} + +BaselineICEntry& +BaselineScript::warmupCountICEntry() +{ + // The stack check will be at a very low offset, so just do a linear search + // from the beginning. + for (size_t i = 0; i < numICEntries() && icEntry(i).pcOffset() == 0; i++) { + if (icEntry(i).kind() == ICEntry::Kind_WarmupCounter) + return icEntry(i); + } + MOZ_CRASH("No warmup count ICEntry found."); +} + +BaselineICEntry& +BaselineScript::icEntryFromReturnAddress(uint8_t* returnAddr) +{ + MOZ_ASSERT(returnAddr > method_->raw()); + MOZ_ASSERT(returnAddr < method_->raw() + method_->instructionsSize()); + CodeOffset offset(returnAddr - method_->raw()); + return icEntryFromReturnOffset(offset); +} + +void +BaselineScript::copyYieldEntries(JSScript* script, Vector& yieldOffsets) +{ + uint8_t** entries = yieldEntryList(); + + for (size_t i = 0; i < yieldOffsets.length(); i++) { + uint32_t offset = yieldOffsets[i]; + entries[i] = nativeCodeForPC(script, script->offsetToPC(offset)); + } +} + +void +BaselineScript::copyICEntries(JSScript* script, const BaselineICEntry* entries, MacroAssembler& masm) +{ + // Fix up the return offset in the IC entries and copy them in. + // Also write out the IC entry ptrs in any fallback stubs that were added. + for (uint32_t i = 0; i < numICEntries(); i++) { + BaselineICEntry& realEntry = icEntry(i); + realEntry = entries[i]; + + if (!realEntry.hasStub()) { + // VM call without any stubs. + continue; + } + + // If the attached stub is a fallback stub, then fix it up with + // a pointer to the (now available) realEntry. + if (realEntry.firstStub()->isFallback()) + realEntry.firstStub()->toFallbackStub()->fixupICEntry(&realEntry); + + if (realEntry.firstStub()->isTypeMonitor_Fallback()) { + ICTypeMonitor_Fallback* stub = realEntry.firstStub()->toTypeMonitor_Fallback(); + stub->fixupICEntry(&realEntry); + } + + if (realEntry.firstStub()->isTableSwitch()) { + ICTableSwitch* stub = realEntry.firstStub()->toTableSwitch(); + stub->fixupJumpTable(script, this); + } + } +} + +void +BaselineScript::adoptFallbackStubs(FallbackICStubSpace* stubSpace) +{ + fallbackStubSpace_.adoptFrom(stubSpace); +} + +void +BaselineScript::copyPCMappingEntries(const CompactBufferWriter& entries) +{ + MOZ_ASSERT(entries.length() > 0); + MOZ_ASSERT(entries.length() == pcMappingSize_); + + memcpy(pcMappingData(), entries.buffer(), entries.length()); +} + +void +BaselineScript::copyPCMappingIndexEntries(const PCMappingIndexEntry* entries) +{ + for (uint32_t i = 0; i < numPCMappingIndexEntries(); i++) + pcMappingIndexEntry(i) = entries[i]; +} + +uint8_t* +BaselineScript::nativeCodeForPC(JSScript* script, jsbytecode* pc, PCMappingSlotInfo* slotInfo) +{ + MOZ_ASSERT_IF(script->hasBaselineScript(), script->baselineScript() == this); + + uint32_t pcOffset = script->pcToOffset(pc); + + // Look for the first PCMappingIndexEntry with pc > the pc we are + // interested in. + uint32_t i = 1; + for (; i < numPCMappingIndexEntries(); i++) { + if (pcMappingIndexEntry(i).pcOffset > pcOffset) + break; + } + + // The previous entry contains the current pc. + MOZ_ASSERT(i > 0); + i--; + + PCMappingIndexEntry& entry = pcMappingIndexEntry(i); + MOZ_ASSERT(pcOffset >= entry.pcOffset); + + CompactBufferReader reader(pcMappingReader(i)); + jsbytecode* curPC = script->offsetToPC(entry.pcOffset); + uint32_t nativeOffset = entry.nativeOffset; + + MOZ_ASSERT(script->containsPC(curPC)); + MOZ_ASSERT(curPC <= pc); + + while (reader.more()) { + // If the high bit is set, the native offset relative to the + // previous pc != 0 and comes next. + uint8_t b = reader.readByte(); + if (b & 0x80) + nativeOffset += reader.readUnsigned(); + + if (curPC == pc) { + if (slotInfo) + *slotInfo = PCMappingSlotInfo(b & ~0x80); + return method_->raw() + nativeOffset; + } + + curPC += GetBytecodeLength(curPC); + } + + MOZ_CRASH("No native code for this pc"); +} + +jsbytecode* +BaselineScript::approximatePcForNativeAddress(JSScript* script, uint8_t* nativeAddress) +{ + MOZ_ASSERT(script->baselineScript() == this); + MOZ_ASSERT(nativeAddress >= method_->raw()); + MOZ_ASSERT(nativeAddress < method_->raw() + method_->instructionsSize()); + + uint32_t nativeOffset = nativeAddress - method_->raw(); + MOZ_ASSERT(nativeOffset < method_->instructionsSize()); + + // Look for the first PCMappingIndexEntry with native offset > the native offset we are + // interested in. + uint32_t i = 1; + for (; i < numPCMappingIndexEntries(); i++) { + if (pcMappingIndexEntry(i).nativeOffset > nativeOffset) + break; + } + + // Go back an entry to search forward from. + MOZ_ASSERT(i > 0); + i--; + + PCMappingIndexEntry& entry = pcMappingIndexEntry(i); + + CompactBufferReader reader(pcMappingReader(i)); + jsbytecode* curPC = script->offsetToPC(entry.pcOffset); + uint32_t curNativeOffset = entry.nativeOffset; + + MOZ_ASSERT(script->containsPC(curPC)); + + // The native code address can occur before the start of ops. + // Associate those with bytecode offset 0. + if (curNativeOffset > nativeOffset) + return script->code(); + + jsbytecode* lastPC = curPC; + while (true) { + // If the high bit is set, the native offset relative to the + // previous pc != 0 and comes next. + uint8_t b = reader.readByte(); + if (b & 0x80) + curNativeOffset += reader.readUnsigned(); + + // Return the last PC that matched nativeOffset. Some bytecode + // generate no native code (e.g., constant-pushing bytecode like + // JSOP_INT8), and so their entries share the same nativeOffset as the + // next op that does generate code. + if (curNativeOffset > nativeOffset) + return lastPC; + + // The native address may lie in-between the last delta-entry in + // a pcMappingIndexEntry, and the next pcMappingIndexEntry. + if (!reader.more()) + return curPC; + + lastPC = curPC; + curPC += GetBytecodeLength(curPC); + } +} + +void +BaselineScript::toggleDebugTraps(JSScript* script, jsbytecode* pc) +{ + MOZ_ASSERT(script->baselineScript() == this); + + // Only scripts compiled for debug mode have toggled calls. + if (!hasDebugInstrumentation()) + return; + + SrcNoteLineScanner scanner(script->notes(), script->lineno()); + + AutoWritableJitCode awjc(method()); + + for (uint32_t i = 0; i < numPCMappingIndexEntries(); i++) { + PCMappingIndexEntry& entry = pcMappingIndexEntry(i); + + CompactBufferReader reader(pcMappingReader(i)); + jsbytecode* curPC = script->offsetToPC(entry.pcOffset); + uint32_t nativeOffset = entry.nativeOffset; + + MOZ_ASSERT(script->containsPC(curPC)); + + while (reader.more()) { + uint8_t b = reader.readByte(); + if (b & 0x80) + nativeOffset += reader.readUnsigned(); + + scanner.advanceTo(script->pcToOffset(curPC)); + + if (!pc || pc == curPC) { + bool enabled = (script->stepModeEnabled() && scanner.isLineHeader()) || + script->hasBreakpointsAt(curPC); + + // Patch the trap. + CodeLocationLabel label(method(), CodeOffset(nativeOffset)); + Assembler::ToggleCall(label, enabled); + } + + curPC += GetBytecodeLength(curPC); + } + } +} + +#ifdef JS_TRACE_LOGGING +void +BaselineScript::initTraceLogger(JSRuntime* runtime, JSScript* script, + const Vector& offsets) +{ +#ifdef DEBUG + traceLoggerScriptsEnabled_ = TraceLogTextIdEnabled(TraceLogger_Scripts); + traceLoggerEngineEnabled_ = TraceLogTextIdEnabled(TraceLogger_Engine); +#endif + + TraceLoggerThread* logger = TraceLoggerForMainThread(runtime); + + MOZ_ASSERT(offsets.length() == numTraceLoggerToggleOffsets_); + for (size_t i = 0; i < offsets.length(); i++) + traceLoggerToggleOffsets()[i] = offsets[i].offset(); + + if (TraceLogTextIdEnabled(TraceLogger_Engine) || TraceLogTextIdEnabled(TraceLogger_Scripts)) { + traceLoggerScriptEvent_ = TraceLoggerEvent(logger, TraceLogger_Scripts, script); + for (size_t i = 0; i < numTraceLoggerToggleOffsets_; i++) { + CodeLocationLabel label(method_, CodeOffset(traceLoggerToggleOffsets()[i])); + Assembler::ToggleToCmp(label); + } + } +} + +void +BaselineScript::toggleTraceLoggerScripts(JSRuntime* runtime, JSScript* script, bool enable) +{ + DebugOnly engineEnabled = TraceLogTextIdEnabled(TraceLogger_Engine); + MOZ_ASSERT(enable == !traceLoggerScriptsEnabled_); + MOZ_ASSERT(engineEnabled == traceLoggerEngineEnabled_); + + // Patch the logging script textId to be correct. + // When logging log the specific textId else the global Scripts textId. + TraceLoggerThread* logger = TraceLoggerForMainThread(runtime); + if (enable && !traceLoggerScriptEvent_.hasPayload()) + traceLoggerScriptEvent_ = TraceLoggerEvent(logger, TraceLogger_Scripts, script); + + AutoWritableJitCode awjc(method()); + + // Enable/Disable the traceLogger. + for (size_t i = 0; i < numTraceLoggerToggleOffsets_; i++) { + CodeLocationLabel label(method_, CodeOffset(traceLoggerToggleOffsets()[i])); + if (enable) + Assembler::ToggleToCmp(label); + else + Assembler::ToggleToJmp(label); + } + +#if DEBUG + traceLoggerScriptsEnabled_ = enable; +#endif +} + +void +BaselineScript::toggleTraceLoggerEngine(bool enable) +{ + DebugOnly scriptsEnabled = TraceLogTextIdEnabled(TraceLogger_Scripts); + MOZ_ASSERT(enable == !traceLoggerEngineEnabled_); + MOZ_ASSERT(scriptsEnabled == traceLoggerScriptsEnabled_); + + AutoWritableJitCode awjc(method()); + + // Enable/Disable the traceLogger prologue and epilogue. + for (size_t i = 0; i < numTraceLoggerToggleOffsets_; i++) { + CodeLocationLabel label(method_, CodeOffset(traceLoggerToggleOffsets()[i])); + if (enable) + Assembler::ToggleToCmp(label); + else + Assembler::ToggleToJmp(label); + } + +#if DEBUG + traceLoggerEngineEnabled_ = enable; +#endif +} +#endif + +void +BaselineScript::toggleProfilerInstrumentation(bool enable) +{ + if (enable == isProfilerInstrumentationOn()) + return; + + JitSpew(JitSpew_BaselineIC, " toggling profiling %s for BaselineScript %p", + enable ? "on" : "off", this); + + // Toggle the jump + CodeLocationLabel enterToggleLocation(method_, CodeOffset(profilerEnterToggleOffset_)); + CodeLocationLabel exitToggleLocation(method_, CodeOffset(profilerExitToggleOffset_)); + if (enable) { + Assembler::ToggleToCmp(enterToggleLocation); + Assembler::ToggleToCmp(exitToggleLocation); + flags_ |= uint32_t(PROFILER_INSTRUMENTATION_ON); + } else { + Assembler::ToggleToJmp(enterToggleLocation); + Assembler::ToggleToJmp(exitToggleLocation); + flags_ &= ~uint32_t(PROFILER_INSTRUMENTATION_ON); + } +} + +void +BaselineScript::purgeOptimizedStubs(Zone* zone) +{ + JitSpew(JitSpew_BaselineIC, "Purging optimized stubs"); + + for (size_t i = 0; i < numICEntries(); i++) { + BaselineICEntry& entry = icEntry(i); + if (!entry.hasStub()) + continue; + + ICStub* lastStub = entry.firstStub(); + while (lastStub->next()) + lastStub = lastStub->next(); + + if (lastStub->isFallback()) { + // Unlink all stubs allocated in the optimized space. + ICStub* stub = entry.firstStub(); + ICStub* prev = nullptr; + + while (stub->next()) { + if (!stub->allocatedInFallbackSpace()) { + lastStub->toFallbackStub()->unlinkStub(zone, prev, stub); + stub = stub->next(); + continue; + } + + prev = stub; + stub = stub->next(); + } + + if (lastStub->isMonitoredFallback()) { + // Monitor stubs can't make calls, so are always in the + // optimized stub space. + ICTypeMonitor_Fallback* lastMonStub = + lastStub->toMonitoredFallbackStub()->fallbackMonitorStub(); + lastMonStub->resetMonitorStubChain(zone); + } + } else if (lastStub->isTypeMonitor_Fallback()) { + lastStub->toTypeMonitor_Fallback()->resetMonitorStubChain(zone); + } else { + MOZ_ASSERT(lastStub->isTableSwitch()); + } + } + +#ifdef DEBUG + // All remaining stubs must be allocated in the fallback space. + for (size_t i = 0; i < numICEntries(); i++) { + BaselineICEntry& entry = icEntry(i); + if (!entry.hasStub()) + continue; + + ICStub* stub = entry.firstStub(); + while (stub->next()) { + MOZ_ASSERT(stub->allocatedInFallbackSpace()); + stub = stub->next(); + } + } +#endif +} + +void +jit::FinishDiscardBaselineScript(FreeOp* fop, JSScript* script) +{ + if (!script->hasBaselineScript()) + return; + + if (script->baselineScript()->active()) { + // Script is live on the stack. Keep the BaselineScript, but destroy + // stubs allocated in the optimized stub space. + script->baselineScript()->purgeOptimizedStubs(script->zone()); + + // Reset |active| flag so that we don't need a separate script + // iteration to unmark them. + script->baselineScript()->resetActive(); + + // The baseline caches have been wiped out, so the script will need to + // warm back up before it can be inlined during Ion compilation. + script->baselineScript()->clearIonCompiledOrInlined(); + return; + } + + BaselineScript* baseline = script->baselineScript(); + script->setBaselineScript(nullptr, nullptr); + BaselineScript::Destroy(fop, baseline); +} + +void +jit::AddSizeOfBaselineData(JSScript* script, mozilla::MallocSizeOf mallocSizeOf, size_t* data, + size_t* fallbackStubs) +{ + if (script->hasBaselineScript()) + script->baselineScript()->addSizeOfIncludingThis(mallocSizeOf, data, fallbackStubs); +} + +void +jit::ToggleBaselineProfiling(JSRuntime* runtime, bool enable) +{ + JitRuntime* jrt = runtime->jitRuntime(); + if (!jrt) + return; + + for (ZonesIter zone(runtime, SkipAtoms); !zone.done(); zone.next()) { + for (auto script = zone->cellIter(); !script.done(); script.next()) { + if (!script->hasBaselineScript()) + continue; + AutoWritableJitCode awjc(script->baselineScript()->method()); + script->baselineScript()->toggleProfilerInstrumentation(enable); + } + } +} + +#ifdef JS_TRACE_LOGGING +void +jit::ToggleBaselineTraceLoggerScripts(JSRuntime* runtime, bool enable) +{ + for (ZonesIter zone(runtime, SkipAtoms); !zone.done(); zone.next()) { + for (auto script = zone->cellIter(); !script.done(); script.next()) { + if (!script->hasBaselineScript()) + continue; + script->baselineScript()->toggleTraceLoggerScripts(runtime, script, enable); + } + } +} + +void +jit::ToggleBaselineTraceLoggerEngine(JSRuntime* runtime, bool enable) +{ + for (ZonesIter zone(runtime, SkipAtoms); !zone.done(); zone.next()) { + for (auto script = zone->cellIter(); !script.done(); script.next()) { + if (!script->hasBaselineScript()) + continue; + script->baselineScript()->toggleTraceLoggerEngine(enable); + } + } +} +#endif + +static void +MarkActiveBaselineScripts(JSRuntime* rt, const JitActivationIterator& activation) +{ + for (jit::JitFrameIterator iter(activation); !iter.done(); ++iter) { + switch (iter.type()) { + case JitFrame_BaselineJS: + iter.script()->baselineScript()->setActive(); + break; + case JitFrame_Exit: + if (iter.exitFrame()->is()) { + LazyLinkExitFrameLayout* ll = iter.exitFrame()->as(); + ScriptFromCalleeToken(ll->jsFrame()->calleeToken())->baselineScript()->setActive(); + } + break; + case JitFrame_Bailout: + case JitFrame_IonJS: { + // Keep the baseline script around, since bailouts from the ion + // jitcode might need to re-enter into the baseline jitcode. + iter.script()->baselineScript()->setActive(); + for (InlineFrameIterator inlineIter(rt, &iter); inlineIter.more(); ++inlineIter) + inlineIter.script()->baselineScript()->setActive(); + break; + } + default:; + } + } +} + +void +jit::MarkActiveBaselineScripts(Zone* zone) +{ + JSRuntime* rt = zone->runtimeFromMainThread(); + for (JitActivationIterator iter(rt); !iter.done(); ++iter) { + if (iter->compartment()->zone() == zone) + MarkActiveBaselineScripts(rt, iter); + } +} -- cgit v1.2.3