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author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-28 14:29:10 +0000 |
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committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-28 14:29:10 +0000 |
commit | 2aa4a82499d4becd2284cdb482213d541b8804dd (patch) | |
tree | b80bf8bf13c3766139fbacc530efd0dd9d54394c /js/src/vm/BytecodeUtil.cpp | |
parent | Initial commit. (diff) | |
download | firefox-2aa4a82499d4becd2284cdb482213d541b8804dd.tar.xz firefox-2aa4a82499d4becd2284cdb482213d541b8804dd.zip |
Adding upstream version 86.0.1.upstream/86.0.1upstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'js/src/vm/BytecodeUtil.cpp')
-rw-r--r-- | js/src/vm/BytecodeUtil.cpp | 3036 |
1 files changed, 3036 insertions, 0 deletions
diff --git a/js/src/vm/BytecodeUtil.cpp b/js/src/vm/BytecodeUtil.cpp new file mode 100644 index 0000000000..cb753a00ec --- /dev/null +++ b/js/src/vm/BytecodeUtil.cpp @@ -0,0 +1,3036 @@ +/* -*- 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/. */ + +/* + * JS bytecode descriptors, disassemblers, and (expression) decompilers. + */ + +#include "vm/BytecodeUtil-inl.h" + +#define __STDC_FORMAT_MACROS + +#include "mozilla/Attributes.h" +#include "mozilla/Maybe.h" +#include "mozilla/ReverseIterator.h" +#include "mozilla/Sprintf.h" +#include "mozilla/Vector.h" + +#include <algorithm> +#include <inttypes.h> +#include <stdio.h> +#include <string.h> +#include <type_traits> + +#include "jsapi.h" +#include "jsnum.h" +#include "jstypes.h" + +#include "frontend/BytecodeCompiler.h" +#include "frontend/SourceNotes.h" // SrcNote, SrcNoteType, SrcNoteIterator +#include "gc/PublicIterators.h" +#include "jit/IonScript.h" // IonBlockCounts +#include "js/CharacterEncoding.h" +#include "js/experimental/CodeCoverage.h" +#include "js/friend/DumpFunctions.h" // js::DumpPC, js::DumpScript +#include "js/friend/ErrorMessages.h" // js::GetErrorMessage, JSMSG_* +#include "js/Printf.h" +#include "js/Symbol.h" +#include "util/DifferentialTesting.h" +#include "util/Memory.h" +#include "util/StringBuffer.h" +#include "util/Text.h" +#include "vm/BuiltinObjectKind.h" +#include "vm/BytecodeIterator.h" // for AllBytecodesIterable +#include "vm/BytecodeLocation.h" +#include "vm/CodeCoverage.h" +#include "vm/EnvironmentObject.h" +#include "vm/FrameIter.h" // js::{,Script}FrameIter +#include "vm/JSAtom.h" +#include "vm/JSContext.h" +#include "vm/JSFunction.h" +#include "vm/JSObject.h" +#include "vm/JSScript.h" +#include "vm/Opcodes.h" +#include "vm/Printer.h" +#include "vm/Realm.h" +#include "vm/Shape.h" +#include "vm/ToSource.h" // js::ValueToSource + +#include "gc/GC-inl.h" +#include "vm/BytecodeIterator-inl.h" +#include "vm/BytecodeLocation-inl.h" +#include "vm/JSContext-inl.h" +#include "vm/JSObject-inl.h" +#include "vm/JSScript-inl.h" +#include "vm/Realm-inl.h" + +using namespace js; + +using js::frontend::IsIdentifier; + +/* + * Index limit must stay within 32 bits. + */ +static_assert(sizeof(uint32_t) * CHAR_BIT >= INDEX_LIMIT_LOG2 + 1); + +const JSCodeSpec js::CodeSpecTable[] = { +#define MAKE_CODESPEC(op, op_snake, token, length, nuses, ndefs, format) \ + {length, nuses, ndefs, format}, + FOR_EACH_OPCODE(MAKE_CODESPEC) +#undef MAKE_CODESPEC +}; + +/* + * Each element of the array is either a source literal associated with JS + * bytecode or null. + */ +static const char* const CodeToken[] = { +#define TOKEN(op, op_snake, token, ...) token, + FOR_EACH_OPCODE(TOKEN) +#undef TOKEN +}; + +/* + * Array of JS bytecode names used by PC count JSON, DEBUG-only Disassemble + * and JIT debug spew. + */ +const char* const js::CodeNameTable[] = { +#define OPNAME(op, ...) #op, + FOR_EACH_OPCODE(OPNAME) +#undef OPNAME +}; + +/************************************************************************/ + +static bool DecompileArgumentFromStack(JSContext* cx, int formalIndex, + UniqueChars* res); + +/* static */ const char PCCounts::numExecName[] = "interp"; + +static MOZ_MUST_USE bool DumpIonScriptCounts(Sprinter* sp, HandleScript script, + jit::IonScriptCounts* ionCounts) { + if (!sp->jsprintf("IonScript [%zu blocks]:\n", ionCounts->numBlocks())) { + return false; + } + + for (size_t i = 0; i < ionCounts->numBlocks(); i++) { + const jit::IonBlockCounts& block = ionCounts->block(i); + unsigned lineNumber = 0, columnNumber = 0; + lineNumber = PCToLineNumber(script, script->offsetToPC(block.offset()), + &columnNumber); + if (!sp->jsprintf("BB #%" PRIu32 " [%05u,%u,%u]", block.id(), + block.offset(), lineNumber, columnNumber)) { + return false; + } + if (block.description()) { + if (!sp->jsprintf(" [inlined %s]", block.description())) { + return false; + } + } + for (size_t j = 0; j < block.numSuccessors(); j++) { + if (!sp->jsprintf(" -> #%" PRIu32, block.successor(j))) { + return false; + } + } + if (!sp->jsprintf(" :: %" PRIu64 " hits\n", block.hitCount())) { + return false; + } + if (!sp->jsprintf("%s\n", block.code())) { + return false; + } + } + + return true; +} + +static MOZ_MUST_USE bool DumpPCCounts(JSContext* cx, HandleScript script, + Sprinter* sp) { + MOZ_ASSERT(script->hasScriptCounts()); + + // Ensure the Disassemble1 call below does not discard the script counts. + gc::AutoSuppressGC suppress(cx); + +#ifdef DEBUG + jsbytecode* pc = script->code(); + while (pc < script->codeEnd()) { + jsbytecode* next = GetNextPc(pc); + + if (!Disassemble1(cx, script, pc, script->pcToOffset(pc), true, sp)) { + return false; + } + + if (!sp->put(" {")) { + return false; + } + + PCCounts* counts = script->maybeGetPCCounts(pc); + if (double val = counts ? counts->numExec() : 0.0) { + if (!sp->jsprintf("\"%s\": %.0f", PCCounts::numExecName, val)) { + return false; + } + } + if (!sp->put("}\n")) { + return false; + } + + pc = next; + } +#endif + + jit::IonScriptCounts* ionCounts = script->getIonCounts(); + while (ionCounts) { + if (!DumpIonScriptCounts(sp, script, ionCounts)) { + return false; + } + + ionCounts = ionCounts->previous(); + } + + return true; +} + +bool js::DumpRealmPCCounts(JSContext* cx) { + Rooted<GCVector<JSScript*>> scripts(cx, GCVector<JSScript*>(cx)); + for (auto base = cx->zone()->cellIter<BaseScript>(); !base.done(); + base.next()) { + if (base->realm() != cx->realm()) { + continue; + } + MOZ_ASSERT_IF(base->hasScriptCounts(), base->hasBytecode()); + if (base->hasScriptCounts()) { + if (!scripts.append(base->asJSScript())) { + return false; + } + } + } + + for (uint32_t i = 0; i < scripts.length(); i++) { + HandleScript script = scripts[i]; + Sprinter sprinter(cx); + if (!sprinter.init()) { + return false; + } + + fprintf(stdout, "--- SCRIPT %s:%u ---\n", script->filename(), + script->lineno()); + if (!DumpPCCounts(cx, script, &sprinter)) { + return false; + } + fputs(sprinter.string(), stdout); + fprintf(stdout, "--- END SCRIPT %s:%u ---\n", script->filename(), + script->lineno()); + } + + return true; +} + +///////////////////////////////////////////////////////////////////// +// Bytecode Parser +///////////////////////////////////////////////////////////////////// + +// Stores the information about the stack slot, where the value comes from. +// Elements of BytecodeParser::Bytecode.{offsetStack,offsetStackAfter} arrays. +class OffsetAndDefIndex { + // The offset of the PC that pushed the value for this slot. + uint32_t offset_; + + // The index in `ndefs` for the PC (0-origin) + uint8_t defIndex_; + + enum : uint8_t { + Normal = 0, + + // Ignored this value in the expression decompilation. + // Used by JSOp::NopDestructuring. See BytecodeParser::simulateOp. + Ignored, + + // The value in this slot comes from 2 or more paths. + // offset_ and defIndex_ holds the information for the path that + // reaches here first. + Merged, + } type_; + + public: + uint32_t offset() const { + MOZ_ASSERT(!isSpecial()); + return offset_; + }; + uint32_t specialOffset() const { + MOZ_ASSERT(isSpecial()); + return offset_; + }; + + uint8_t defIndex() const { + MOZ_ASSERT(!isSpecial()); + return defIndex_; + } + uint8_t specialDefIndex() const { + MOZ_ASSERT(isSpecial()); + return defIndex_; + } + + bool isSpecial() const { return type_ != Normal; } + bool isMerged() const { return type_ == Merged; } + bool isIgnored() const { return type_ == Ignored; } + + void set(uint32_t aOffset, uint8_t aDefIndex) { + offset_ = aOffset; + defIndex_ = aDefIndex; + type_ = Normal; + } + + // Keep offset_ and defIndex_ values for stack dump. + void setMerged() { type_ = Merged; } + void setIgnored() { type_ = Ignored; } + + bool operator==(const OffsetAndDefIndex& rhs) const { + return offset_ == rhs.offset_ && defIndex_ == rhs.defIndex_; + } + + bool operator!=(const OffsetAndDefIndex& rhs) const { + return !(*this == rhs); + } +}; + +namespace { + +class BytecodeParser { + public: + enum class JumpKind { + Simple, + SwitchCase, + SwitchDefault, + TryCatch, + TryFinally + }; + + private: + class Bytecode { + public: + explicit Bytecode(const LifoAllocPolicy<Fallible>& alloc) + : parsed(false), + stackDepth(0), + offsetStack(nullptr) +#if defined(DEBUG) || defined(JS_JITSPEW) + , + stackDepthAfter(0), + offsetStackAfter(nullptr), + jumpOrigins(alloc) +#endif /* defined(DEBUG) || defined(JS_JITSPEW) */ + { + } + + // Whether this instruction has been analyzed to get its output defines + // and stack. + bool parsed; + + // Stack depth before this opcode. + uint32_t stackDepth; + + // Pointer to array of |stackDepth| offsets. An element at position N + // in the array is the offset of the opcode that defined the + // corresponding stack slot. The top of the stack is at position + // |stackDepth - 1|. + OffsetAndDefIndex* offsetStack; + +#if defined(DEBUG) || defined(JS_JITSPEW) + // stack depth after this opcode. + uint32_t stackDepthAfter; + + // Pointer to array of |stackDepthAfter| offsets. + OffsetAndDefIndex* offsetStackAfter; + + struct JumpInfo { + uint32_t from; + JumpKind kind; + + JumpInfo(uint32_t from_, JumpKind kind_) : from(from_), kind(kind_) {} + }; + + // A list of offsets of the bytecode that jumps to this bytecode, + // exclusing previous bytecode. + Vector<JumpInfo, 0, LifoAllocPolicy<Fallible>> jumpOrigins; +#endif /* defined(DEBUG) || defined(JS_JITSPEW) */ + + bool captureOffsetStack(LifoAlloc& alloc, const OffsetAndDefIndex* stack, + uint32_t depth) { + stackDepth = depth; + if (stackDepth) { + offsetStack = alloc.newArray<OffsetAndDefIndex>(stackDepth); + if (!offsetStack) { + return false; + } + for (uint32_t n = 0; n < stackDepth; n++) { + offsetStack[n] = stack[n]; + } + } + return true; + } + +#if defined(DEBUG) || defined(JS_JITSPEW) + bool captureOffsetStackAfter(LifoAlloc& alloc, + const OffsetAndDefIndex* stack, + uint32_t depth) { + stackDepthAfter = depth; + if (stackDepthAfter) { + offsetStackAfter = alloc.newArray<OffsetAndDefIndex>(stackDepthAfter); + if (!offsetStackAfter) { + return false; + } + for (uint32_t n = 0; n < stackDepthAfter; n++) { + offsetStackAfter[n] = stack[n]; + } + } + return true; + } + + bool addJump(uint32_t from, JumpKind kind) { + return jumpOrigins.append(JumpInfo(from, kind)); + } +#endif /* defined(DEBUG) || defined(JS_JITSPEW) */ + + // When control-flow merges, intersect the stacks, marking slots that + // are defined by different offsets and/or defIndices merged. + // This is sufficient for forward control-flow. It doesn't grok loops + // -- for that you would have to iterate to a fixed point -- but there + // shouldn't be operands on the stack at a loop back-edge anyway. + void mergeOffsetStack(const OffsetAndDefIndex* stack, uint32_t depth) { + MOZ_ASSERT(depth == stackDepth); + for (uint32_t n = 0; n < stackDepth; n++) { + if (stack[n].isIgnored()) { + continue; + } + if (offsetStack[n].isIgnored()) { + offsetStack[n] = stack[n]; + } + if (offsetStack[n] != stack[n]) { + offsetStack[n].setMerged(); + } + } + } + }; + + JSContext* cx_; + LifoAlloc& alloc_; + RootedScript script_; + + Bytecode** codeArray_; + +#if defined(DEBUG) || defined(JS_JITSPEW) + // Dedicated mode for stack dump. + // Capture stack after each opcode, and also enable special handling for + // some opcodes to make stack transition clearer. + bool isStackDump; +#endif + + public: + BytecodeParser(JSContext* cx, LifoAlloc& alloc, JSScript* script) + : cx_(cx), + alloc_(alloc), + script_(cx, script), + codeArray_(nullptr) +#ifdef DEBUG + , + isStackDump(false) +#endif + { + } + + bool parse(); + +#if defined(DEBUG) || defined(JS_JITSPEW) + bool isReachable(const jsbytecode* pc) const { return maybeCode(pc); } +#endif + + uint32_t stackDepthAtPC(uint32_t offset) const { + // Sometimes the code generator in debug mode asks about the stack depth + // of unreachable code (bug 932180 comment 22). Assume that unreachable + // code has no operands on the stack. + return getCode(offset).stackDepth; + } + uint32_t stackDepthAtPC(const jsbytecode* pc) const { + return stackDepthAtPC(script_->pcToOffset(pc)); + } + +#if defined(DEBUG) || defined(JS_JITSPEW) + uint32_t stackDepthAfterPC(uint32_t offset) const { + return getCode(offset).stackDepthAfter; + } + uint32_t stackDepthAfterPC(const jsbytecode* pc) const { + return stackDepthAfterPC(script_->pcToOffset(pc)); + } +#endif + + const OffsetAndDefIndex& offsetForStackOperand(uint32_t offset, + int operand) const { + Bytecode& code = getCode(offset); + if (operand < 0) { + operand += code.stackDepth; + MOZ_ASSERT(operand >= 0); + } + MOZ_ASSERT(uint32_t(operand) < code.stackDepth); + return code.offsetStack[operand]; + } + jsbytecode* pcForStackOperand(jsbytecode* pc, int operand, + uint8_t* defIndex) const { + size_t offset = script_->pcToOffset(pc); + const OffsetAndDefIndex& offsetAndDefIndex = + offsetForStackOperand(offset, operand); + if (offsetAndDefIndex.isSpecial()) { + return nullptr; + } + *defIndex = offsetAndDefIndex.defIndex(); + return script_->offsetToPC(offsetAndDefIndex.offset()); + } + +#if defined(DEBUG) || defined(JS_JITSPEW) + const OffsetAndDefIndex& offsetForStackOperandAfterPC(uint32_t offset, + int operand) const { + Bytecode& code = getCode(offset); + if (operand < 0) { + operand += code.stackDepthAfter; + MOZ_ASSERT(operand >= 0); + } + MOZ_ASSERT(uint32_t(operand) < code.stackDepthAfter); + return code.offsetStackAfter[operand]; + } + + template <typename Callback> + bool forEachJumpOrigins(jsbytecode* pc, Callback callback) const { + Bytecode& code = getCode(script_->pcToOffset(pc)); + + for (Bytecode::JumpInfo& info : code.jumpOrigins) { + if (!callback(script_->offsetToPC(info.from), info.kind)) { + return false; + } + } + + return true; + } + + void setStackDump() { isStackDump = true; } +#endif /* defined(DEBUG) || defined(JS_JITSPEW) */ + + private: + LifoAlloc& alloc() { return alloc_; } + + void reportOOM() { ReportOutOfMemory(cx_); } + + uint32_t maximumStackDepth() const { + return script_->nslots() - script_->nfixed(); + } + + Bytecode& getCode(uint32_t offset) const { + MOZ_ASSERT(offset < script_->length()); + MOZ_ASSERT(codeArray_[offset]); + return *codeArray_[offset]; + } + + Bytecode* maybeCode(uint32_t offset) const { + MOZ_ASSERT(offset < script_->length()); + return codeArray_[offset]; + } + +#if defined(DEBUG) || defined(JS_JITSPEW) + Bytecode* maybeCode(const jsbytecode* pc) const { + return maybeCode(script_->pcToOffset(pc)); + } +#endif + + uint32_t simulateOp(JSOp op, uint32_t offset, OffsetAndDefIndex* offsetStack, + uint32_t stackDepth); + + inline bool recordBytecode(uint32_t offset, + const OffsetAndDefIndex* offsetStack, + uint32_t stackDepth); + + inline bool addJump(uint32_t offset, uint32_t stackDepth, + const OffsetAndDefIndex* offsetStack, jsbytecode* pc, + JumpKind kind); +}; + +} // anonymous namespace + +uint32_t BytecodeParser::simulateOp(JSOp op, uint32_t offset, + OffsetAndDefIndex* offsetStack, + uint32_t stackDepth) { + jsbytecode* pc = script_->offsetToPC(offset); + uint32_t nuses = GetUseCount(pc); + uint32_t ndefs = GetDefCount(pc); + + MOZ_ASSERT(stackDepth >= nuses); + stackDepth -= nuses; + MOZ_ASSERT(stackDepth + ndefs <= maximumStackDepth()); + +#ifdef DEBUG + if (isStackDump) { + // Opcodes that modifies the object but keeps it on the stack while + // initialization should be listed here instead of switch below. + // For error message, they shouldn't be shown as the original object + // after adding properties. + // For stack dump, keeping the input is better. + switch (op) { + case JSOp::InitHiddenProp: + case JSOp::InitHiddenPropGetter: + case JSOp::InitHiddenPropSetter: + case JSOp::InitLockedProp: + case JSOp::InitProp: + case JSOp::InitPropGetter: + case JSOp::InitPropSetter: + case JSOp::SetFunName: + // Keep the second value. + MOZ_ASSERT(nuses == 2); + MOZ_ASSERT(ndefs == 1); + goto end; + + case JSOp::InitElem: + case JSOp::InitElemGetter: + case JSOp::InitElemSetter: + case JSOp::InitHiddenElem: + case JSOp::InitHiddenElemGetter: + case JSOp::InitHiddenElemSetter: + case JSOp::InitLockedElem: + // Keep the third value. + MOZ_ASSERT(nuses == 3); + MOZ_ASSERT(ndefs == 1); + goto end; + + default: + break; + } + } +#endif /* DEBUG */ + + // Mark the current offset as defining its values on the offset stack, + // unless it just reshuffles the stack. In that case we want to preserve + // the opcode that generated the original value. + switch (op) { + default: + for (uint32_t n = 0; n != ndefs; ++n) { + offsetStack[stackDepth + n].set(offset, n); + } + break; + + case JSOp::NopDestructuring: + // Poison the last offset to not obfuscate the error message. + offsetStack[stackDepth - 1].setIgnored(); + break; + + case JSOp::Case: + // Keep the switch value. + MOZ_ASSERT(ndefs == 1); + break; + + case JSOp::Dup: + MOZ_ASSERT(ndefs == 2); + offsetStack[stackDepth + 1] = offsetStack[stackDepth]; + break; + + case JSOp::Dup2: + MOZ_ASSERT(ndefs == 4); + offsetStack[stackDepth + 2] = offsetStack[stackDepth]; + offsetStack[stackDepth + 3] = offsetStack[stackDepth + 1]; + break; + + case JSOp::DupAt: { + MOZ_ASSERT(ndefs == 1); + unsigned n = GET_UINT24(pc); + MOZ_ASSERT(n < stackDepth); + offsetStack[stackDepth] = offsetStack[stackDepth - 1 - n]; + break; + } + + case JSOp::Swap: { + MOZ_ASSERT(ndefs == 2); + OffsetAndDefIndex tmp = offsetStack[stackDepth + 1]; + offsetStack[stackDepth + 1] = offsetStack[stackDepth]; + offsetStack[stackDepth] = tmp; + break; + } + + case JSOp::Pick: { + unsigned n = GET_UINT8(pc); + MOZ_ASSERT(ndefs == n + 1); + uint32_t top = stackDepth + n; + OffsetAndDefIndex tmp = offsetStack[stackDepth]; + for (uint32_t i = stackDepth; i < top; i++) { + offsetStack[i] = offsetStack[i + 1]; + } + offsetStack[top] = tmp; + break; + } + + case JSOp::Unpick: { + unsigned n = GET_UINT8(pc); + MOZ_ASSERT(ndefs == n + 1); + uint32_t top = stackDepth + n; + OffsetAndDefIndex tmp = offsetStack[top]; + for (uint32_t i = top; i > stackDepth; i--) { + offsetStack[i] = offsetStack[i - 1]; + } + offsetStack[stackDepth] = tmp; + break; + } + + case JSOp::And: + case JSOp::CheckIsObj: + case JSOp::CheckObjCoercible: + case JSOp::CheckThis: + case JSOp::CheckThisReinit: + case JSOp::CheckClassHeritage: + case JSOp::DebugCheckSelfHosted: + case JSOp::InitGLexical: + case JSOp::InitLexical: + case JSOp::Or: + case JSOp::Coalesce: + case JSOp::SetAliasedVar: + case JSOp::SetArg: + case JSOp::SetIntrinsic: + case JSOp::SetLocal: + case JSOp::InitAliasedLexical: + case JSOp::CheckLexical: + case JSOp::CheckAliasedLexical: + // Keep the top value. + MOZ_ASSERT(nuses == 1); + MOZ_ASSERT(ndefs == 1); + break; + + case JSOp::InitHomeObject: + // Pop the top value, keep the other value. + MOZ_ASSERT(nuses == 2); + MOZ_ASSERT(ndefs == 1); + break; + + case JSOp::CheckResumeKind: + // Pop the top two values, keep the other value. + MOZ_ASSERT(nuses == 3); + MOZ_ASSERT(ndefs == 1); + break; + + case JSOp::SetGName: + case JSOp::SetName: + case JSOp::SetProp: + case JSOp::StrictSetGName: + case JSOp::StrictSetName: + case JSOp::StrictSetProp: + // Keep the top value, removing other 1 value. + MOZ_ASSERT(nuses == 2); + MOZ_ASSERT(ndefs == 1); + offsetStack[stackDepth] = offsetStack[stackDepth + 1]; + break; + + case JSOp::SetPropSuper: + case JSOp::StrictSetPropSuper: + // Keep the top value, removing other 2 values. + MOZ_ASSERT(nuses == 3); + MOZ_ASSERT(ndefs == 1); + offsetStack[stackDepth] = offsetStack[stackDepth + 2]; + break; + + case JSOp::SetElemSuper: + case JSOp::StrictSetElemSuper: + // Keep the top value, removing other 3 values. + MOZ_ASSERT(nuses == 4); + MOZ_ASSERT(ndefs == 1); + offsetStack[stackDepth] = offsetStack[stackDepth + 3]; + break; + + case JSOp::IsGenClosing: + case JSOp::IsNoIter: + case JSOp::MoreIter: + case JSOp::OptimizeSpreadCall: + // Keep the top value and push one more value. + MOZ_ASSERT(nuses == 1); + MOZ_ASSERT(ndefs == 2); + offsetStack[stackDepth + 1].set(offset, 1); + break; + + case JSOp::CheckPrivateField: + // Keep the top two values, and push one new value. + MOZ_ASSERT(nuses == 2); + MOZ_ASSERT(ndefs == 3); + offsetStack[stackDepth + 2].set(offset, 2); + break; + } + +#ifdef DEBUG +end: +#endif /* DEBUG */ + + stackDepth += ndefs; + return stackDepth; +} + +bool BytecodeParser::recordBytecode(uint32_t offset, + const OffsetAndDefIndex* offsetStack, + uint32_t stackDepth) { + MOZ_ASSERT(offset < script_->length()); + + Bytecode*& code = codeArray_[offset]; + if (!code) { + code = alloc().new_<Bytecode>(alloc()); + if (!code || !code->captureOffsetStack(alloc(), offsetStack, stackDepth)) { + reportOOM(); + return false; + } + } else { + code->mergeOffsetStack(offsetStack, stackDepth); + } + + return true; +} + +bool BytecodeParser::addJump(uint32_t offset, uint32_t stackDepth, + const OffsetAndDefIndex* offsetStack, + jsbytecode* pc, JumpKind kind) { + if (!recordBytecode(offset, offsetStack, stackDepth)) { + return false; + } + +#ifdef DEBUG + uint32_t currentOffset = script_->pcToOffset(pc); + if (isStackDump) { + if (!codeArray_[offset]->addJump(currentOffset, kind)) { + reportOOM(); + return false; + } + } + + // If this is a backedge, assert we parsed the target JSOp::LoopHead. + MOZ_ASSERT_IF(offset < currentOffset, codeArray_[offset]->parsed); +#endif /* DEBUG */ + + return true; +} + +bool BytecodeParser::parse() { + MOZ_ASSERT(!codeArray_); + + uint32_t length = script_->length(); + codeArray_ = alloc().newArray<Bytecode*>(length); + + if (!codeArray_) { + reportOOM(); + return false; + } + + mozilla::PodZero(codeArray_, length); + + // Fill in stack depth and definitions at initial bytecode. + Bytecode* startcode = alloc().new_<Bytecode>(alloc()); + if (!startcode) { + reportOOM(); + return false; + } + + // Fill in stack depth and definitions at initial bytecode. + OffsetAndDefIndex* offsetStack = + alloc().newArray<OffsetAndDefIndex>(maximumStackDepth()); + if (maximumStackDepth() && !offsetStack) { + reportOOM(); + return false; + } + + startcode->stackDepth = 0; + codeArray_[0] = startcode; + + for (uint32_t offset = 0, nextOffset = 0; offset < length; + offset = nextOffset) { + Bytecode* code = maybeCode(offset); + jsbytecode* pc = script_->offsetToPC(offset); + + // Next bytecode to analyze. + nextOffset = offset + GetBytecodeLength(pc); + + MOZ_ASSERT(*pc < JSOP_LIMIT); + JSOp op = JSOp(*pc); + + if (!code) { + // Haven't found a path by which this bytecode is reachable. + continue; + } + + // On a jump target, we reload the offsetStack saved for the current + // bytecode, as it contains either the original offset stack, or the + // merged offset stack. + if (BytecodeIsJumpTarget(op)) { + for (uint32_t n = 0; n < code->stackDepth; ++n) { + offsetStack[n] = code->offsetStack[n]; + } + } + + if (code->parsed) { + // No need to reparse. + continue; + } + + code->parsed = true; + + uint32_t stackDepth = simulateOp(op, offset, offsetStack, code->stackDepth); + +#ifdef DEBUG + if (isStackDump) { + if (!code->captureOffsetStackAfter(alloc(), offsetStack, stackDepth)) { + reportOOM(); + return false; + } + } +#endif /* DEBUG */ + + switch (op) { + case JSOp::TableSwitch: { + uint32_t defaultOffset = offset + GET_JUMP_OFFSET(pc); + jsbytecode* pc2 = pc + JUMP_OFFSET_LEN; + int32_t low = GET_JUMP_OFFSET(pc2); + pc2 += JUMP_OFFSET_LEN; + int32_t high = GET_JUMP_OFFSET(pc2); + pc2 += JUMP_OFFSET_LEN; + + if (!addJump(defaultOffset, stackDepth, offsetStack, pc, + JumpKind::SwitchDefault)) { + return false; + } + + uint32_t ncases = high - low + 1; + + for (uint32_t i = 0; i < ncases; i++) { + uint32_t targetOffset = script_->tableSwitchCaseOffset(pc, i); + if (targetOffset != defaultOffset) { + if (!addJump(targetOffset, stackDepth, offsetStack, pc, + JumpKind::SwitchCase)) { + return false; + } + } + } + break; + } + + case JSOp::Try: { + // Everything between a try and corresponding catch or finally is + // conditional. Note that there is no problem with code which is skipped + // by a thrown exception but is not caught by a later handler in the + // same function: no more code will execute, and it does not matter what + // is defined. + for (const TryNote& tn : script_->trynotes()) { + if (tn.start == offset + JSOpLength_Try) { + uint32_t catchOffset = tn.start + tn.length; + if (tn.kind() == TryNoteKind::Catch) { + if (!addJump(catchOffset, stackDepth, offsetStack, pc, + JumpKind::TryCatch)) { + return false; + } + } else if (tn.kind() == TryNoteKind::Finally) { + if (!addJump(catchOffset, stackDepth, offsetStack, pc, + JumpKind::TryFinally)) { + return false; + } + } + } + } + break; + } + + default: + break; + } + + // Check basic jump opcodes, which may or may not have a fallthrough. + if (IsJumpOpcode(op)) { + // Case instructions do not push the lvalue back when branching. + uint32_t newStackDepth = stackDepth; + if (op == JSOp::Case) { + newStackDepth--; + } + + uint32_t targetOffset = offset + GET_JUMP_OFFSET(pc); + if (!addJump(targetOffset, newStackDepth, offsetStack, pc, + JumpKind::Simple)) { + return false; + } + } + + // Handle any fallthrough from this opcode. + if (BytecodeFallsThrough(op)) { + if (!recordBytecode(nextOffset, offsetStack, stackDepth)) { + return false; + } + } + } + + return true; +} + +#if defined(DEBUG) || defined(JS_JITSPEW) + +bool js::ReconstructStackDepth(JSContext* cx, JSScript* script, jsbytecode* pc, + uint32_t* depth, bool* reachablePC) { + LifoAllocScope allocScope(&cx->tempLifoAlloc()); + BytecodeParser parser(cx, allocScope.alloc(), script); + if (!parser.parse()) { + return false; + } + + *reachablePC = parser.isReachable(pc); + + if (*reachablePC) { + *depth = parser.stackDepthAtPC(pc); + } + + return true; +} + +static unsigned Disassemble1(JSContext* cx, HandleScript script, jsbytecode* pc, + unsigned loc, bool lines, + const BytecodeParser* parser, Sprinter* sp); + +/* + * If pc != nullptr, include a prefix indicating whether the PC is at the + * current line. If showAll is true, include the source note type and the + * entry stack depth. + */ +static MOZ_MUST_USE bool DisassembleAtPC( + JSContext* cx, JSScript* scriptArg, bool lines, const jsbytecode* pc, + bool showAll, Sprinter* sp, + DisassembleSkeptically skeptically = DisassembleSkeptically::No) { + LifoAllocScope allocScope(&cx->tempLifoAlloc()); + RootedScript script(cx, scriptArg); + mozilla::Maybe<BytecodeParser> parser; + + if (skeptically == DisassembleSkeptically::No) { + parser.emplace(cx, allocScope.alloc(), script); + parser->setStackDump(); + if (!parser->parse()) { + return false; + } + } + + if (showAll) { + if (!sp->jsprintf("%s:%u\n", script->filename(), + unsigned(script->lineno()))) { + return false; + } + } + + if (pc != nullptr) { + if (!sp->put(" ")) { + return false; + } + } + if (showAll) { + if (!sp->put("sn stack ")) { + return false; + } + } + if (!sp->put("loc ")) { + return false; + } + if (lines) { + if (!sp->put("line")) { + return false; + } + } + if (!sp->put(" op\n")) { + return false; + } + + if (pc != nullptr) { + if (!sp->put(" ")) { + return false; + } + } + if (showAll) { + if (!sp->put("-- ----- ")) { + return false; + } + } + if (!sp->put("----- ")) { + return false; + } + if (lines) { + if (!sp->put("----")) { + return false; + } + } + if (!sp->put(" --\n")) { + return false; + } + + jsbytecode* next = script->code(); + jsbytecode* end = script->codeEnd(); + while (next < end) { + if (next == script->main()) { + if (!sp->put("main:\n")) { + return false; + } + } + if (pc != nullptr) { + if (!sp->put(pc == next ? "--> " : " ")) { + return false; + } + } + if (showAll) { + const SrcNote* sn = GetSrcNote(cx, script, next); + if (sn) { + MOZ_ASSERT(!sn->isTerminator()); + SrcNoteIterator iter(sn); + while (true) { + ++iter; + auto next = *iter; + if (!(!next->isTerminator() && next->delta() == 0)) { + break; + } + if (!sp->jsprintf("%s\n ", sn->name())) { + return false; + } + sn = *iter; + } + if (!sp->jsprintf("%s ", sn->name())) { + return false; + } + } else { + if (!sp->put(" ")) { + return false; + } + } + if (parser && parser->isReachable(next)) { + if (!sp->jsprintf("%05u ", parser->stackDepthAtPC(next))) { + return false; + } + } else { + if (!sp->put(" ")) { + return false; + } + } + } + unsigned len = Disassemble1(cx, script, next, script->pcToOffset(next), + lines, parser.ptrOr(nullptr), sp); + if (!len) { + return false; + } + + next += len; + } + + return true; +} + +bool js::Disassemble(JSContext* cx, HandleScript script, bool lines, + Sprinter* sp, DisassembleSkeptically skeptically) { + return DisassembleAtPC(cx, script, lines, nullptr, false, sp, skeptically); +} + +JS_FRIEND_API bool js::DumpPC(JSContext* cx, FILE* fp) { + gc::AutoSuppressGC suppressGC(cx); + Sprinter sprinter(cx); + if (!sprinter.init()) { + return false; + } + ScriptFrameIter iter(cx); + if (iter.done()) { + fprintf(fp, "Empty stack.\n"); + return true; + } + RootedScript script(cx, iter.script()); + bool ok = DisassembleAtPC(cx, script, true, iter.pc(), false, &sprinter); + fprintf(fp, "%s", sprinter.string()); + return ok; +} + +JS_FRIEND_API bool js::DumpScript(JSContext* cx, JSScript* scriptArg, + FILE* fp) { + gc::AutoSuppressGC suppressGC(cx); + Sprinter sprinter(cx); + if (!sprinter.init()) { + return false; + } + RootedScript script(cx, scriptArg); + bool ok = Disassemble(cx, script, true, &sprinter); + fprintf(fp, "%s", sprinter.string()); + return ok; +} + +static UniqueChars ToDisassemblySource(JSContext* cx, HandleValue v) { + if (v.isString()) { + return QuoteString(cx, v.toString(), '"'); + } + + if (JS::RuntimeHeapIsBusy()) { + return DuplicateString(cx, "<value>"); + } + + if (v.isObject()) { + JSObject& obj = v.toObject(); + + if (obj.is<JSFunction>()) { + RootedFunction fun(cx, &obj.as<JSFunction>()); + JSString* str = JS_DecompileFunction(cx, fun); + if (!str) { + return nullptr; + } + return QuoteString(cx, str); + } + + if (obj.is<RegExpObject>()) { + Rooted<RegExpObject*> reobj(cx, &obj.as<RegExpObject>()); + JSString* source = RegExpObject::toString(cx, reobj); + if (!source) { + return nullptr; + } + return QuoteString(cx, source); + } + } + + JSString* str = ValueToSource(cx, v); + if (!str) { + return nullptr; + } + return QuoteString(cx, str); +} + +static bool ToDisassemblySource(JSContext* cx, HandleScope scope, + UniqueChars* bytes) { + UniqueChars source = JS_smprintf("%s {", ScopeKindString(scope->kind())); + if (!source) { + ReportOutOfMemory(cx); + return false; + } + + for (Rooted<BindingIter> bi(cx, BindingIter(scope)); bi; bi++) { + UniqueChars nameBytes = AtomToPrintableString(cx, bi.name()); + if (!nameBytes) { + return false; + } + + source = JS_sprintf_append(std::move(source), "%s: ", nameBytes.get()); + if (!source) { + ReportOutOfMemory(cx); + return false; + } + + BindingLocation loc = bi.location(); + switch (loc.kind()) { + case BindingLocation::Kind::Global: + source = JS_sprintf_append(std::move(source), "global"); + break; + + case BindingLocation::Kind::Frame: + source = + JS_sprintf_append(std::move(source), "frame slot %u", loc.slot()); + break; + + case BindingLocation::Kind::Environment: + source = + JS_sprintf_append(std::move(source), "env slot %u", loc.slot()); + break; + + case BindingLocation::Kind::Argument: + source = + JS_sprintf_append(std::move(source), "arg slot %u", loc.slot()); + break; + + case BindingLocation::Kind::NamedLambdaCallee: + source = JS_sprintf_append(std::move(source), "named lambda callee"); + break; + + case BindingLocation::Kind::Import: + source = JS_sprintf_append(std::move(source), "import"); + break; + } + + if (!source) { + ReportOutOfMemory(cx); + return false; + } + + if (!bi.isLast()) { + source = JS_sprintf_append(std::move(source), ", "); + if (!source) { + ReportOutOfMemory(cx); + return false; + } + } + } + + source = JS_sprintf_append(std::move(source), "}"); + if (!source) { + ReportOutOfMemory(cx); + return false; + } + + *bytes = std::move(source); + return true; +} + +static bool DumpJumpOrigins(HandleScript script, jsbytecode* pc, + const BytecodeParser* parser, Sprinter* sp) { + bool called = false; + auto callback = [&script, &sp, &called](jsbytecode* pc, + BytecodeParser::JumpKind kind) { + if (!called) { + called = true; + if (!sp->put("\n# ")) { + return false; + } + } else { + if (!sp->put(", ")) { + return false; + } + } + + switch (kind) { + case BytecodeParser::JumpKind::Simple: + break; + + case BytecodeParser::JumpKind::SwitchCase: + if (!sp->put("switch-case ")) { + return false; + } + break; + + case BytecodeParser::JumpKind::SwitchDefault: + if (!sp->put("switch-default ")) { + return false; + } + break; + + case BytecodeParser::JumpKind::TryCatch: + if (!sp->put("try-catch ")) { + return false; + } + break; + + case BytecodeParser::JumpKind::TryFinally: + if (!sp->put("try-finally ")) { + return false; + } + break; + } + + if (!sp->jsprintf("from %s @ %05u", CodeName(JSOp(*pc)), + unsigned(script->pcToOffset(pc)))) { + return false; + } + + return true; + }; + if (!parser->forEachJumpOrigins(pc, callback)) { + return false; + } + if (called) { + if (!sp->put("\n")) { + return false; + } + } + + return true; +} + +static bool DecompileAtPCForStackDump( + JSContext* cx, HandleScript script, + const OffsetAndDefIndex& offsetAndDefIndex, Sprinter* sp); + +static unsigned Disassemble1(JSContext* cx, HandleScript script, jsbytecode* pc, + unsigned loc, bool lines, + const BytecodeParser* parser, Sprinter* sp) { + if (parser && parser->isReachable(pc)) { + if (!DumpJumpOrigins(script, pc, parser, sp)) { + return 0; + } + } + + size_t before = sp->stringEnd() - sp->string(); + bool stackDumped = false; + auto dumpStack = [&cx, &script, &pc, &parser, &sp, &before, &stackDumped]() { + if (!parser) { + return true; + } + if (stackDumped) { + return true; + } + stackDumped = true; + + size_t after = sp->stringEnd() - sp->string(); + MOZ_ASSERT(after >= before); + + static const size_t stack_column = 40; + for (size_t i = after - before; i < stack_column - 1; i++) { + if (!sp->put(" ")) { + return false; + } + } + + if (!sp->put(" # ")) { + return false; + } + + if (!parser->isReachable(pc)) { + if (!sp->put("!!! UNREACHABLE !!!")) { + return false; + } + } else { + uint32_t depth = parser->stackDepthAfterPC(pc); + + for (uint32_t i = 0; i < depth; i++) { + if (i) { + if (!sp->put(" ")) { + return false; + } + } + + const OffsetAndDefIndex& offsetAndDefIndex = + parser->offsetForStackOperandAfterPC(script->pcToOffset(pc), i); + // This will decompile the stack for the same PC many times. + // We'll avoid optimizing it since this is a testing function + // and it won't be worth managing cached expression here. + if (!DecompileAtPCForStackDump(cx, script, offsetAndDefIndex, sp)) { + return false; + } + } + } + + return true; + }; + + if (*pc >= JSOP_LIMIT) { + char numBuf1[12], numBuf2[12]; + SprintfLiteral(numBuf1, "%d", int(*pc)); + SprintfLiteral(numBuf2, "%d", JSOP_LIMIT); + JS_ReportErrorNumberASCII(cx, GetErrorMessage, nullptr, + JSMSG_BYTECODE_TOO_BIG, numBuf1, numBuf2); + return 0; + } + JSOp op = JSOp(*pc); + const JSCodeSpec& cs = CodeSpec(op); + const unsigned len = cs.length; + if (!sp->jsprintf("%05u:", loc)) { + return 0; + } + if (lines) { + if (!sp->jsprintf("%4u", PCToLineNumber(script, pc))) { + return 0; + } + } + if (!sp->jsprintf(" %s", CodeName(op))) { + return 0; + } + + int i; + switch (JOF_TYPE(cs.format)) { + case JOF_BYTE: + break; + + case JOF_JUMP: { + ptrdiff_t off = GET_JUMP_OFFSET(pc); + if (!sp->jsprintf(" %u (%+d)", unsigned(loc + int(off)), int(off))) { + return 0; + } + break; + } + + case JOF_SCOPE: { + RootedScope scope(cx, script->getScope(pc)); + UniqueChars bytes; + if (!ToDisassemblySource(cx, scope, &bytes)) { + return 0; + } + if (!sp->jsprintf(" %s", bytes.get())) { + return 0; + } + break; + } + + case JOF_ENVCOORD: { + RootedValue v(cx, StringValue(EnvironmentCoordinateNameSlow(script, pc))); + UniqueChars bytes = ToDisassemblySource(cx, v); + if (!bytes) { + return 0; + } + EnvironmentCoordinate ec(pc); + if (!sp->jsprintf(" %s (hops = %u, slot = %u)", bytes.get(), ec.hops(), + ec.slot())) { + return 0; + } + break; + } + + case JOF_ATOM: { + RootedValue v(cx, StringValue(script->getAtom(pc))); + UniqueChars bytes = ToDisassemblySource(cx, v); + if (!bytes) { + return 0; + } + if (!sp->jsprintf(" %s", bytes.get())) { + return 0; + } + break; + } + + case JOF_DOUBLE: { + double d = GET_INLINE_VALUE(pc).toDouble(); + if (!sp->jsprintf(" %lf", d)) { + return 0; + } + break; + } + + case JOF_BIGINT: { + RootedValue v(cx, BigIntValue(script->getBigInt(pc))); + UniqueChars bytes = ToDisassemblySource(cx, v); + if (!bytes) { + return 0; + } + if (!sp->jsprintf(" %s", bytes.get())) { + return 0; + } + break; + } + + case JOF_OBJECT: { + JSObject* obj = script->getObject(pc); + { + RootedValue v(cx, ObjectValue(*obj)); + UniqueChars bytes = ToDisassemblySource(cx, v); + if (!bytes) { + return 0; + } + if (!sp->jsprintf(" %s", bytes.get())) { + return 0; + } + } + break; + } + + case JOF_REGEXP: { + js::RegExpObject* obj = script->getRegExp(pc); + RootedValue v(cx, ObjectValue(*obj)); + UniqueChars bytes = ToDisassemblySource(cx, v); + if (!bytes) { + return 0; + } + if (!sp->jsprintf(" %s", bytes.get())) { + return 0; + } + break; + } + + case JOF_TABLESWITCH: { + int32_t i, low, high; + + ptrdiff_t off = GET_JUMP_OFFSET(pc); + jsbytecode* pc2 = pc + JUMP_OFFSET_LEN; + low = GET_JUMP_OFFSET(pc2); + pc2 += JUMP_OFFSET_LEN; + high = GET_JUMP_OFFSET(pc2); + pc2 += JUMP_OFFSET_LEN; + if (!sp->jsprintf(" defaultOffset %d low %d high %d", int(off), low, + high)) { + return 0; + } + + // Display stack dump before diplaying the offsets for each case. + if (!dumpStack()) { + return 0; + } + + for (i = low; i <= high; i++) { + off = + script->tableSwitchCaseOffset(pc, i - low) - script->pcToOffset(pc); + if (!sp->jsprintf("\n\t%d: %d", i, int(off))) { + return 0; + } + } + break; + } + + case JOF_QARG: + if (!sp->jsprintf(" %u", GET_ARGNO(pc))) { + return 0; + } + break; + + case JOF_LOCAL: + if (!sp->jsprintf(" %u", GET_LOCALNO(pc))) { + return 0; + } + break; + + case JOF_GCTHING: + if (!sp->jsprintf(" %u", unsigned(GET_GCTHING_INDEX(pc)))) { + return 0; + } + break; + + case JOF_UINT32: + if (!sp->jsprintf(" %u", GET_UINT32(pc))) { + return 0; + } + break; + + case JOF_ICINDEX: + if (!sp->jsprintf(" (ic: %u)", GET_ICINDEX(pc))) { + return 0; + } + break; + + case JOF_LOOPHEAD: + if (!sp->jsprintf(" (ic: %u, depthHint: %u)", GET_ICINDEX(pc), + LoopHeadDepthHint(pc))) { + return 0; + } + break; + + case JOF_CLASS_CTOR: { + GCThingIndex atomIndex; + uint32_t classStartOffset = 0, classEndOffset = 0; + GetClassConstructorOperands(pc, &atomIndex, &classStartOffset, + &classEndOffset); + RootedValue v(cx, StringValue(script->getAtom(atomIndex))); + UniqueChars bytes = ToDisassemblySource(cx, v); + if (!bytes) { + return 0; + } + if (!sp->jsprintf(" %s (off: %u-%u)", bytes.get(), classStartOffset, + classEndOffset)) { + return 0; + } + break; + } + case JOF_TWO_UINT8: { + int one = (int)GET_UINT8(pc); + int two = (int)GET_UINT8(pc + 1); + + if (!sp->jsprintf(" %d", one)) { + return 0; + } + if (!sp->jsprintf(" %d", two)) { + return 0; + } + break; + } + + case JOF_ARGC: + case JOF_UINT16: + i = (int)GET_UINT16(pc); + goto print_int; + + case JOF_RESUMEINDEX: + case JOF_UINT24: + MOZ_ASSERT(len == 4); + i = (int)GET_UINT24(pc); + goto print_int; + + case JOF_UINT8: + i = GET_UINT8(pc); + goto print_int; + + case JOF_INT8: + i = GET_INT8(pc); + goto print_int; + + case JOF_INT32: + MOZ_ASSERT(op == JSOp::Int32); + i = GET_INT32(pc); + print_int: + if (!sp->jsprintf(" %d", i)) { + return 0; + } + break; + + default: { + char numBuf[12]; + SprintfLiteral(numBuf, "%x", cs.format); + JS_ReportErrorNumberASCII(cx, GetErrorMessage, nullptr, + JSMSG_UNKNOWN_FORMAT, numBuf); + return 0; + } + } + + if (!dumpStack()) { + return 0; + } + + if (!sp->put("\n")) { + return 0; + } + return len; +} + +unsigned js::Disassemble1(JSContext* cx, JS::Handle<JSScript*> script, + jsbytecode* pc, unsigned loc, bool lines, + Sprinter* sp) { + return Disassemble1(cx, script, pc, loc, lines, nullptr, sp); +} + +#endif /* defined(DEBUG) || defined(JS_JITSPEW) */ + +namespace { +/* + * The expression decompiler is invoked by error handling code to produce a + * string representation of the erroring expression. As it's only a debugging + * tool, it only supports basic expressions. For anything complicated, it simply + * puts "(intermediate value)" into the error result. + * + * Here's the basic algorithm: + * + * 1. Find the stack location of the value whose expression we wish to + * decompile. The error handler can explicitly pass this as an + * argument. Otherwise, we search backwards down the stack for the offending + * value. + * + * 2. Instantiate and run a BytecodeParser for the current frame. This creates a + * stack of pcs parallel to the interpreter stack; given an interpreter stack + * location, the corresponding pc stack location contains the opcode that pushed + * the value in the interpreter. Now, with the result of step 1, we have the + * opcode responsible for pushing the value we want to decompile. + * + * 3. Pass the opcode to decompilePC. decompilePC is the main decompiler + * routine, responsible for a string representation of the expression that + * generated a certain stack location. decompilePC looks at one opcode and + * returns the JS source equivalent of that opcode. + * + * 4. Expressions can, of course, contain subexpressions. For example, the + * literals "4" and "5" are subexpressions of the addition operator in "4 + + * 5". If we need to decompile a subexpression, we call decompilePC (step 2) + * recursively on the operands' pcs. The result is a depth-first traversal of + * the expression tree. + * + */ +struct ExpressionDecompiler { + JSContext* cx; + RootedScript script; + const BytecodeParser& parser; + Sprinter sprinter; + +#if defined(DEBUG) || defined(JS_JITSPEW) + // Dedicated mode for stack dump. + // Generates an expression for stack dump, including internal state, + // and also disables special handling for self-hosted code. + bool isStackDump; +#endif + + ExpressionDecompiler(JSContext* cx, JSScript* script, + const BytecodeParser& parser) + : cx(cx), + script(cx, script), + parser(parser), + sprinter(cx) +#if defined(DEBUG) || defined(JS_JITSPEW) + , + isStackDump(false) +#endif + { + } + bool init(); + bool decompilePCForStackOperand(jsbytecode* pc, int i); + bool decompilePC(jsbytecode* pc, uint8_t defIndex); + bool decompilePC(const OffsetAndDefIndex& offsetAndDefIndex); + JSAtom* getArg(unsigned slot); + JSAtom* loadAtom(jsbytecode* pc); + bool quote(JSString* s, char quote); + bool write(const char* s); + bool write(JSString* str); + UniqueChars getOutput(); +#if defined(DEBUG) || defined(JS_JITSPEW) + void setStackDump() { isStackDump = true; } +#endif +}; + +bool ExpressionDecompiler::decompilePCForStackOperand(jsbytecode* pc, int i) { + return decompilePC(parser.offsetForStackOperand(script->pcToOffset(pc), i)); +} + +bool ExpressionDecompiler::decompilePC(jsbytecode* pc, uint8_t defIndex) { + MOZ_ASSERT(script->containsPC(pc)); + + JSOp op = (JSOp)*pc; + + if (const char* token = CodeToken[uint8_t(op)]) { + MOZ_ASSERT(defIndex == 0); + MOZ_ASSERT(CodeSpec(op).ndefs == 1); + + // Handle simple cases of binary and unary operators. + switch (CodeSpec(op).nuses) { + case 2: { + const SrcNote* sn = GetSrcNote(cx, script, pc); + const char* extra = + sn && sn->type() == SrcNoteType::AssignOp ? "=" : ""; + return write("(") && decompilePCForStackOperand(pc, -2) && write(" ") && + write(token) && write(extra) && write(" ") && + decompilePCForStackOperand(pc, -1) && write(")"); + break; + } + case 1: + return write("(") && write(token) && + decompilePCForStackOperand(pc, -1) && write(")"); + default: + break; + } + } + + switch (op) { + case JSOp::DelName: + return write("(delete ") && write(loadAtom(pc)) && write(")"); + + case JSOp::GetGName: + case JSOp::GetName: + case JSOp::GetIntrinsic: + return write(loadAtom(pc)); + case JSOp::GetArg: { + unsigned slot = GET_ARGNO(pc); + + // For self-hosted scripts that are called from non-self-hosted code, + // decompiling the parameter name in the self-hosted script is + // unhelpful. Decompile the argument name instead. + if (script->selfHosted() +#ifdef DEBUG + // For stack dump, argument name is not necessary. + && !isStackDump +#endif /* DEBUG */ + ) { + UniqueChars result; + if (!DecompileArgumentFromStack(cx, slot, &result)) { + return false; + } + + // Note that decompiling the argument in the parent frame might + // not succeed. + if (result) { + return write(result.get()); + } + + // If it fails, do not return parameter name and let the caller + // fallback. + return write("(intermediate value)"); + } + + JSAtom* atom = getArg(slot); + if (!atom) { + return false; + } + return write(atom); + } + case JSOp::GetLocal: { + JSAtom* atom = FrameSlotName(script, pc); + MOZ_ASSERT(atom); + return write(atom); + } + case JSOp::GetAliasedVar: { + JSAtom* atom = EnvironmentCoordinateNameSlow(script, pc); + MOZ_ASSERT(atom); + return write(atom); + } + + case JSOp::DelProp: + case JSOp::StrictDelProp: + case JSOp::GetProp: + case JSOp::GetBoundName: { + bool hasDelete = op == JSOp::DelProp || op == JSOp::StrictDelProp; + RootedAtom prop(cx, loadAtom(pc)); + MOZ_ASSERT(prop); + return (hasDelete ? write("(delete ") : true) && + decompilePCForStackOperand(pc, -1) && + (IsIdentifier(prop) + ? write(".") && quote(prop, '\0') + : write("[") && quote(prop, '\'') && write("]")) && + (hasDelete ? write(")") : true); + } + case JSOp::GetPropSuper: { + RootedAtom prop(cx, loadAtom(pc)); + return write("super.") && quote(prop, '\0'); + } + case JSOp::SetElem: + case JSOp::StrictSetElem: + // NOTE: We don't show the right hand side of the operation because + // it's used in error messages like: "a[0] is not readable". + // + // We could though. + return decompilePCForStackOperand(pc, -3) && write("[") && + decompilePCForStackOperand(pc, -2) && write("]"); + + case JSOp::DelElem: + case JSOp::StrictDelElem: + case JSOp::GetElem: { + bool hasDelete = (op == JSOp::DelElem || op == JSOp::StrictDelElem); + return (hasDelete ? write("(delete ") : true) && + decompilePCForStackOperand(pc, -2) && write("[") && + decompilePCForStackOperand(pc, -1) && write("]") && + (hasDelete ? write(")") : true); + } + + case JSOp::GetElemSuper: + return write("super[") && decompilePCForStackOperand(pc, -2) && + write("]"); + case JSOp::Null: + return write(js_null_str); + case JSOp::True: + return write(js_true_str); + case JSOp::False: + return write(js_false_str); + case JSOp::Zero: + case JSOp::One: + case JSOp::Int8: + case JSOp::Uint16: + case JSOp::Uint24: + case JSOp::Int32: + return sprinter.printf("%d", GetBytecodeInteger(pc)); + case JSOp::String: + return quote(loadAtom(pc), '"'); + case JSOp::Symbol: { + unsigned i = uint8_t(pc[1]); + MOZ_ASSERT(i < JS::WellKnownSymbolLimit); + if (i < JS::WellKnownSymbolLimit) { + return write(cx->names().wellKnownSymbolDescriptions()[i]); + } + break; + } + case JSOp::Undefined: + return write(js_undefined_str); + case JSOp::GlobalThis: + // |this| could convert to a very long object initialiser, so cite it by + // its keyword name. + return write(js_this_str); + case JSOp::NewTarget: + return write("new.target"); + case JSOp::Call: + case JSOp::CallIgnoresRv: + case JSOp::CallIter: + case JSOp::FunCall: + case JSOp::FunApply: { + uint16_t argc = GET_ARGC(pc); + return decompilePCForStackOperand(pc, -int32_t(argc + 2)) && + write(argc ? "(...)" : "()"); + } + case JSOp::SpreadCall: + return decompilePCForStackOperand(pc, -3) && write("(...)"); + case JSOp::NewArray: + return write("[]"); + case JSOp::RegExp: { + Rooted<RegExpObject*> obj(cx, &script->getObject(pc)->as<RegExpObject>()); + JSString* str = RegExpObject::toString(cx, obj); + if (!str) { + return false; + } + return write(str); + } + case JSOp::Object: { + JSObject* obj = script->getObject(pc); + RootedValue objv(cx, ObjectValue(*obj)); + JSString* str = ValueToSource(cx, objv); + if (!str) { + return false; + } + return write(str); + } + case JSOp::Void: + return write("(void ") && decompilePCForStackOperand(pc, -1) && + write(")"); + + case JSOp::SuperCall: + if (GET_ARGC(pc) == 0) { + return write("super()"); + } + [[fallthrough]]; + case JSOp::SpreadSuperCall: + return write("super(...)"); + case JSOp::SuperFun: + return write("super"); + + case JSOp::Eval: + case JSOp::SpreadEval: + case JSOp::StrictEval: + case JSOp::StrictSpreadEval: + return write("eval(...)"); + + case JSOp::New: { + uint16_t argc = GET_ARGC(pc); + return write("(new ") && + decompilePCForStackOperand(pc, -int32_t(argc + 3)) && + write(argc ? "(...))" : "())"); + } + + case JSOp::SpreadNew: + return write("(new ") && decompilePCForStackOperand(pc, -4) && + write("(...))"); + + case JSOp::Typeof: + case JSOp::TypeofExpr: + return write("(typeof ") && decompilePCForStackOperand(pc, -1) && + write(")"); + + case JSOp::InitElemArray: + return write("[...]"); + + case JSOp::InitElemInc: + if (defIndex == 0) { + return write("[...]"); + } + MOZ_ASSERT(defIndex == 1); +#ifdef DEBUG + // INDEX won't be be exposed to error message. + if (isStackDump) { + return write("INDEX"); + } +#endif + break; + + case JSOp::ToNumeric: + return write("(tonumeric ") && decompilePCForStackOperand(pc, -1) && + write(")"); + + case JSOp::Inc: + return write("(inc ") && decompilePCForStackOperand(pc, -1) && write(")"); + + case JSOp::Dec: + return write("(dec ") && decompilePCForStackOperand(pc, -1) && write(")"); + + case JSOp::BigInt: +#if defined(DEBUG) || defined(JS_JITSPEW) + // BigInt::dump() only available in this configuration. + script->getBigInt(pc)->dump(sprinter); + return !sprinter.hadOutOfMemory(); +#else + return write("[bigint]"); +#endif + + case JSOp::BuiltinObject: { + auto kind = BuiltinObjectKind(GET_UINT8(pc)); + return write(BuiltinObjectName(kind)); + } + + default: + break; + } + +#ifdef DEBUG + if (isStackDump) { + // Special decompilation for stack dump. + switch (op) { + case JSOp::Arguments: + return write("arguments"); + + case JSOp::BindGName: + return write("GLOBAL"); + + case JSOp::BindName: + case JSOp::BindVar: + return write("ENV"); + + case JSOp::Callee: + return write("CALLEE"); + + case JSOp::EnvCallee: + return write("ENVCALLEE"); + + case JSOp::CallSiteObj: + return write("OBJ"); + + case JSOp::ClassConstructor: + case JSOp::DerivedConstructor: + return write("CONSTRUCTOR"); + + case JSOp::Double: + return sprinter.printf("%lf", GET_INLINE_VALUE(pc).toDouble()); + + case JSOp::Exception: + return write("EXCEPTION"); + + case JSOp::Finally: + if (defIndex == 0) { + return write("THROWING"); + } + MOZ_ASSERT(defIndex == 1); + return write("PC"); + + case JSOp::GImplicitThis: + case JSOp::FunctionThis: + case JSOp::ImplicitThis: + return write("THIS"); + + case JSOp::FunWithProto: + return write("FUN"); + + case JSOp::Generator: + return write("GENERATOR"); + + case JSOp::GetImport: + return write("VAL"); + + case JSOp::GetRval: + return write("RVAL"); + + case JSOp::Hole: + return write("HOLE"); + + case JSOp::IsGenClosing: + // For stack dump, defIndex == 0 is not used. + MOZ_ASSERT(defIndex == 1); + return write("ISGENCLOSING"); + + case JSOp::IsNoIter: + // For stack dump, defIndex == 0 is not used. + MOZ_ASSERT(defIndex == 1); + return write("ISNOITER"); + + case JSOp::IsConstructing: + return write("JS_IS_CONSTRUCTING"); + + case JSOp::Iter: + return write("ITER"); + + case JSOp::Lambda: + case JSOp::LambdaArrow: + return write("FUN"); + + case JSOp::ToAsyncIter: + return write("ASYNCITER"); + + case JSOp::MoreIter: + // For stack dump, defIndex == 0 is not used. + MOZ_ASSERT(defIndex == 1); + return write("MOREITER"); + + case JSOp::MutateProto: + return write("SUCCEEDED"); + + case JSOp::NewInit: + case JSOp::NewObject: + case JSOp::ObjWithProto: + return write("OBJ"); + + case JSOp::OptimizeSpreadCall: + // For stack dump, defIndex == 0 is not used. + MOZ_ASSERT(defIndex == 1); + return write("OPTIMIZED"); + + case JSOp::Rest: + return write("REST"); + + case JSOp::Resume: + return write("RVAL"); + + case JSOp::SuperBase: + return write("HOMEOBJECTPROTO"); + + case JSOp::ToPropertyKey: + return write("TOPROPERTYKEY(") && decompilePCForStackOperand(pc, -1) && + write(")"); + case JSOp::ToString: + return write("TOSTRING(") && decompilePCForStackOperand(pc, -1) && + write(")"); + + case JSOp::Uninitialized: + return write("UNINITIALIZED"); + + case JSOp::InitialYield: + case JSOp::Await: + case JSOp::Yield: + // Printing "yield SOMETHING" is confusing since the operand doesn't + // match to the syntax, since the stack operand for "yield 10" is + // the result object, not 10. + if (defIndex == 0) { + return write("RVAL"); + } + if (defIndex == 1) { + return write("GENERATOR"); + } + MOZ_ASSERT(defIndex == 2); + return write("RESUMEKIND"); + + case JSOp::ResumeKind: + return write("RESUMEKIND"); + + case JSOp::AsyncAwait: + case JSOp::AsyncResolve: + return write("PROMISE"); + + case JSOp::CheckPrivateField: + return write("HasPrivateField"); + + default: + break; + } + return write("<unknown>"); + } +#endif /* DEBUG */ + + return write("(intermediate value)"); +} + +bool ExpressionDecompiler::decompilePC( + const OffsetAndDefIndex& offsetAndDefIndex) { + if (offsetAndDefIndex.isSpecial()) { +#ifdef DEBUG + if (isStackDump) { + if (offsetAndDefIndex.isMerged()) { + if (!write("merged<")) { + return false; + } + } else if (offsetAndDefIndex.isIgnored()) { + if (!write("ignored<")) { + return false; + } + } + + if (!decompilePC(script->offsetToPC(offsetAndDefIndex.specialOffset()), + offsetAndDefIndex.specialDefIndex())) { + return false; + } + + if (!write(">")) { + return false; + } + + return true; + } +#endif /* DEBUG */ + return write("(intermediate value)"); + } + + return decompilePC(script->offsetToPC(offsetAndDefIndex.offset()), + offsetAndDefIndex.defIndex()); +} + +bool ExpressionDecompiler::init() { + cx->check(script); + return sprinter.init(); +} + +bool ExpressionDecompiler::write(const char* s) { return sprinter.put(s); } + +bool ExpressionDecompiler::write(JSString* str) { + if (str == cx->names().dotThis) { + return write("this"); + } + return sprinter.putString(str); +} + +bool ExpressionDecompiler::quote(JSString* s, char quote) { + return QuoteString(&sprinter, s, quote); +} + +JSAtom* ExpressionDecompiler::loadAtom(jsbytecode* pc) { + return script->getAtom(pc); +} + +JSAtom* ExpressionDecompiler::getArg(unsigned slot) { + MOZ_ASSERT(script->isFunction()); + MOZ_ASSERT(slot < script->numArgs()); + + for (PositionalFormalParameterIter fi(script); fi; fi++) { + if (fi.argumentSlot() == slot) { + if (!fi.isDestructured()) { + return fi.name(); + } + + // Destructured arguments have no single binding name. + static const char destructuredParam[] = "(destructured parameter)"; + return Atomize(cx, destructuredParam, strlen(destructuredParam)); + } + } + + MOZ_CRASH("No binding"); +} + +UniqueChars ExpressionDecompiler::getOutput() { + ptrdiff_t len = sprinter.stringEnd() - sprinter.stringAt(0); + auto res = cx->make_pod_array<char>(len + 1); + if (!res) { + return nullptr; + } + js_memcpy(res.get(), sprinter.stringAt(0), len); + res[len] = 0; + return res; +} + +} // anonymous namespace + +#if defined(DEBUG) || defined(JS_JITSPEW) +static bool DecompileAtPCForStackDump( + JSContext* cx, HandleScript script, + const OffsetAndDefIndex& offsetAndDefIndex, Sprinter* sp) { + // The expression decompiler asserts the script is in the current realm. + AutoRealm ar(cx, script); + + LifoAllocScope allocScope(&cx->tempLifoAlloc()); + BytecodeParser parser(cx, allocScope.alloc(), script); + parser.setStackDump(); + if (!parser.parse()) { + return false; + } + + ExpressionDecompiler ed(cx, script, parser); + ed.setStackDump(); + if (!ed.init()) { + return false; + } + + if (!ed.decompilePC(offsetAndDefIndex)) { + return false; + } + + UniqueChars result = ed.getOutput(); + if (!result) { + return false; + } + + return sp->put(result.get()); +} +#endif /* defined(DEBUG) || defined(JS_JITSPEW) */ + +static bool FindStartPC(JSContext* cx, const FrameIter& iter, + const BytecodeParser& parser, int spindex, + int skipStackHits, const Value& v, jsbytecode** valuepc, + uint8_t* defIndex) { + jsbytecode* current = *valuepc; + *valuepc = nullptr; + *defIndex = 0; + + if (spindex < 0 && spindex + int(parser.stackDepthAtPC(current)) < 0) { + spindex = JSDVG_SEARCH_STACK; + } + + if (spindex == JSDVG_SEARCH_STACK) { + size_t index = iter.numFrameSlots(); + + // The decompiler may be called from inside functions that are not + // called from script, but via the C++ API directly, such as + // Invoke. In that case, the youngest script frame may have a + // completely unrelated pc and stack depth, so we give up. + if (index < size_t(parser.stackDepthAtPC(current))) { + return true; + } + + // We search from fp->sp to base to find the most recently calculated + // value matching v under assumption that it is the value that caused + // the exception. + int stackHits = 0; + Value s; + do { + if (!index) { + return true; + } + s = iter.frameSlotValue(--index); + } while (s != v || stackHits++ != skipStackHits); + + // If the current PC has fewer values on the stack than the index we are + // looking for, the blamed value must be one pushed by the current + // bytecode (e.g. JSOp::MoreIter), so restore *valuepc. + if (index < size_t(parser.stackDepthAtPC(current))) { + *valuepc = parser.pcForStackOperand(current, index, defIndex); + } else { + *valuepc = current; + *defIndex = index - size_t(parser.stackDepthAtPC(current)); + } + } else { + *valuepc = parser.pcForStackOperand(current, spindex, defIndex); + } + return true; +} + +static bool DecompileExpressionFromStack(JSContext* cx, int spindex, + int skipStackHits, HandleValue v, + UniqueChars* res) { + MOZ_ASSERT(spindex < 0 || spindex == JSDVG_IGNORE_STACK || + spindex == JSDVG_SEARCH_STACK); + + *res = nullptr; + + /* + * Give up if we need deterministic behavior for differential testing. + * IonMonkey doesn't use InterpreterFrames and this ensures we get the same + * error messages. + */ + if (js::SupportDifferentialTesting()) { + return true; + } + + if (spindex == JSDVG_IGNORE_STACK) { + return true; + } + + FrameIter frameIter(cx); + + if (frameIter.done() || !frameIter.hasScript() || + frameIter.realm() != cx->realm()) { + return true; + } + + /* + * FIXME: Fall back if iter.isIon(), since the stack snapshot may be for the + * previous pc (see bug 831120). + */ + if (frameIter.isIon()) { + return true; + } + + RootedScript script(cx, frameIter.script()); + jsbytecode* valuepc = frameIter.pc(); + + MOZ_ASSERT(script->containsPC(valuepc)); + + // Give up if in prologue. + if (valuepc < script->main()) { + return true; + } + + LifoAllocScope allocScope(&cx->tempLifoAlloc()); + BytecodeParser parser(cx, allocScope.alloc(), frameIter.script()); + if (!parser.parse()) { + return false; + } + + uint8_t defIndex; + if (!FindStartPC(cx, frameIter, parser, spindex, skipStackHits, v, &valuepc, + &defIndex)) { + return false; + } + if (!valuepc) { + return true; + } + + ExpressionDecompiler ed(cx, script, parser); + if (!ed.init()) { + return false; + } + if (!ed.decompilePC(valuepc, defIndex)) { + return false; + } + + *res = ed.getOutput(); + return *res != nullptr; +} + +UniqueChars js::DecompileValueGenerator(JSContext* cx, int spindex, + HandleValue v, HandleString fallbackArg, + int skipStackHits) { + RootedString fallback(cx, fallbackArg); + { + UniqueChars result; + if (!DecompileExpressionFromStack(cx, spindex, skipStackHits, v, &result)) { + return nullptr; + } + if (result && strcmp(result.get(), "(intermediate value)")) { + return result; + } + } + if (!fallback) { + if (v.isUndefined()) { + return DuplicateString( + cx, js_undefined_str); // Prevent users from seeing "(void 0)" + } + fallback = ValueToSource(cx, v); + if (!fallback) { + return nullptr; + } + } + + return StringToNewUTF8CharsZ(cx, *fallback); +} + +static bool DecompileArgumentFromStack(JSContext* cx, int formalIndex, + UniqueChars* res) { + MOZ_ASSERT(formalIndex >= 0); + + *res = nullptr; + + /* See note in DecompileExpressionFromStack. */ + if (js::SupportDifferentialTesting()) { + return true; + } + + /* + * Settle on the nearest script frame, which should be the builtin that + * called the intrinsic. + */ + FrameIter frameIter(cx); + MOZ_ASSERT(!frameIter.done()); + MOZ_ASSERT(frameIter.script()->selfHosted()); + + /* + * Get the second-to-top frame, the non-self-hosted caller of the builtin + * that called the intrinsic. + */ + ++frameIter; + if (frameIter.done() || !frameIter.hasScript() || + frameIter.script()->selfHosted() || frameIter.realm() != cx->realm()) { + return true; + } + + RootedScript script(cx, frameIter.script()); + jsbytecode* current = frameIter.pc(); + + MOZ_ASSERT(script->containsPC(current)); + + if (current < script->main()) { + return true; + } + + /* Don't handle getters, setters or calls from fun.call/fun.apply. */ + JSOp op = JSOp(*current); + if (op != JSOp::Call && op != JSOp::CallIgnoresRv && op != JSOp::New) { + return true; + } + + if (static_cast<unsigned>(formalIndex) >= GET_ARGC(current)) { + return true; + } + + LifoAllocScope allocScope(&cx->tempLifoAlloc()); + BytecodeParser parser(cx, allocScope.alloc(), script); + if (!parser.parse()) { + return false; + } + + bool pushedNewTarget = op == JSOp::New; + int formalStackIndex = parser.stackDepthAtPC(current) - GET_ARGC(current) - + pushedNewTarget + formalIndex; + MOZ_ASSERT(formalStackIndex >= 0); + if (uint32_t(formalStackIndex) >= parser.stackDepthAtPC(current)) { + return true; + } + + ExpressionDecompiler ed(cx, script, parser); + if (!ed.init()) { + return false; + } + if (!ed.decompilePCForStackOperand(current, formalStackIndex)) { + return false; + } + + *res = ed.getOutput(); + return *res != nullptr; +} + +JSString* js::DecompileArgument(JSContext* cx, int formalIndex, HandleValue v) { + { + UniqueChars result; + if (!DecompileArgumentFromStack(cx, formalIndex, &result)) { + return nullptr; + } + if (result && strcmp(result.get(), "(intermediate value)")) { + JS::ConstUTF8CharsZ utf8chars(result.get(), strlen(result.get())); + return NewStringCopyUTF8Z<CanGC>(cx, utf8chars); + } + } + if (v.isUndefined()) { + return cx->names().undefined; // Prevent users from seeing "(void 0)" + } + + return ValueToSource(cx, v); +} + +extern bool js::IsValidBytecodeOffset(JSContext* cx, JSScript* script, + size_t offset) { + // This could be faster (by following jump instructions if the target + // is <= offset). + for (BytecodeRange r(cx, script); !r.empty(); r.popFront()) { + size_t here = r.frontOffset(); + if (here >= offset) { + return here == offset; + } + } + return false; +} + +/* + * There are three possible PCCount profiling states: + * + * 1. None: Neither scripts nor the runtime have count information. + * 2. Profile: Active scripts have count information, the runtime does not. + * 3. Query: Scripts do not have count information, the runtime does. + * + * When starting to profile scripts, counting begins immediately, with all JIT + * code discarded and recompiled with counts as necessary. Active interpreter + * frames will not begin profiling until they begin executing another script + * (via a call or return). + * + * The below API functions manage transitions to new states, according + * to the table below. + * + * Old State + * ------------------------- + * Function None Profile Query + * -------- + * StartPCCountProfiling Profile Profile Profile + * StopPCCountProfiling None Query Query + * PurgePCCounts None None None + */ + +static void ReleaseScriptCounts(JSRuntime* rt) { + MOZ_ASSERT(rt->scriptAndCountsVector); + + js_delete(rt->scriptAndCountsVector.ref()); + rt->scriptAndCountsVector = nullptr; +} + +JS_FRIEND_API void js::StartPCCountProfiling(JSContext* cx) { + JSRuntime* rt = cx->runtime(); + + if (rt->profilingScripts) { + return; + } + + if (rt->scriptAndCountsVector) { + ReleaseScriptCounts(rt); + } + + ReleaseAllJITCode(rt->defaultFreeOp()); + + rt->profilingScripts = true; +} + +JS_FRIEND_API void js::StopPCCountProfiling(JSContext* cx) { + JSRuntime* rt = cx->runtime(); + + if (!rt->profilingScripts) { + return; + } + MOZ_ASSERT(!rt->scriptAndCountsVector); + + ReleaseAllJITCode(rt->defaultFreeOp()); + + auto* vec = cx->new_<PersistentRooted<ScriptAndCountsVector>>( + cx, ScriptAndCountsVector()); + if (!vec) { + return; + } + + for (ZonesIter zone(rt, SkipAtoms); !zone.done(); zone.next()) { + for (auto base = zone->cellIter<BaseScript>(); !base.done(); base.next()) { + if (base->hasScriptCounts() && base->hasJitScript()) { + if (!vec->append(base->asJSScript())) { + return; + } + } + } + } + + rt->profilingScripts = false; + rt->scriptAndCountsVector = vec; +} + +JS_FRIEND_API void js::PurgePCCounts(JSContext* cx) { + JSRuntime* rt = cx->runtime(); + + if (!rt->scriptAndCountsVector) { + return; + } + MOZ_ASSERT(!rt->profilingScripts); + + ReleaseScriptCounts(rt); +} + +JS_FRIEND_API size_t js::GetPCCountScriptCount(JSContext* cx) { + JSRuntime* rt = cx->runtime(); + + if (!rt->scriptAndCountsVector) { + return 0; + } + + return rt->scriptAndCountsVector->length(); +} + +static MOZ_MUST_USE bool JSONStringProperty(Sprinter& sp, JSONPrinter& json, + const char* name, JSString* str) { + json.beginStringProperty(name); + if (!JSONQuoteString(&sp, str)) { + return false; + } + json.endStringProperty(); + return true; +} + +JS_FRIEND_API JSString* js::GetPCCountScriptSummary(JSContext* cx, + size_t index) { + JSRuntime* rt = cx->runtime(); + + if (!rt->scriptAndCountsVector || + index >= rt->scriptAndCountsVector->length()) { + JS_ReportErrorNumberASCII(cx, GetErrorMessage, nullptr, + JSMSG_BUFFER_TOO_SMALL); + return nullptr; + } + + const ScriptAndCounts& sac = (*rt->scriptAndCountsVector)[index]; + RootedScript script(cx, sac.script); + + Sprinter sp(cx); + if (!sp.init()) { + return nullptr; + } + + JSONPrinter json(sp, false); + + json.beginObject(); + + RootedString filename(cx, NewStringCopyZ<CanGC>(cx, script->filename())); + if (!filename) { + return nullptr; + } + if (!JSONStringProperty(sp, json, "file", filename)) { + return nullptr; + } + json.property("line", script->lineno()); + + if (JSFunction* fun = script->function()) { + if (JSAtom* atom = fun->displayAtom()) { + if (!JSONStringProperty(sp, json, "name", atom)) { + return nullptr; + } + } + } + + uint64_t total = 0; + + AllBytecodesIterable iter(script); + for (BytecodeLocation loc : iter) { + if (const PCCounts* counts = sac.maybeGetPCCounts(loc.toRawBytecode())) { + total += counts->numExec(); + } + } + + json.beginObjectProperty("totals"); + + json.property(PCCounts::numExecName, total); + + uint64_t ionActivity = 0; + jit::IonScriptCounts* ionCounts = sac.getIonCounts(); + while (ionCounts) { + for (size_t i = 0; i < ionCounts->numBlocks(); i++) { + ionActivity += ionCounts->block(i).hitCount(); + } + ionCounts = ionCounts->previous(); + } + if (ionActivity) { + json.property("ion", ionActivity); + } + + json.endObject(); + + json.endObject(); + + if (sp.hadOutOfMemory()) { + return nullptr; + } + + return NewStringCopyZ<CanGC>(cx, sp.string()); +} + +static bool GetPCCountJSON(JSContext* cx, const ScriptAndCounts& sac, + Sprinter& sp) { + JSONPrinter json(sp, false); + + RootedScript script(cx, sac.script); + + LifoAllocScope allocScope(&cx->tempLifoAlloc()); + BytecodeParser parser(cx, allocScope.alloc(), script); + if (!parser.parse()) { + return false; + } + + json.beginObject(); + + JSString* str = JS_DecompileScript(cx, script); + if (!str) { + return false; + } + + if (!JSONStringProperty(sp, json, "text", str)) { + return false; + } + + json.property("line", script->lineno()); + + json.beginListProperty("opcodes"); + + uint64_t hits = 0; + for (BytecodeRangeWithPosition range(cx, script); !range.empty(); + range.popFront()) { + jsbytecode* pc = range.frontPC(); + size_t offset = script->pcToOffset(pc); + JSOp op = JSOp(*pc); + + // If the current instruction is a jump target, + // then update the number of hits. + if (const PCCounts* counts = sac.maybeGetPCCounts(pc)) { + hits = counts->numExec(); + } + + json.beginObject(); + + json.property("id", offset); + json.property("line", range.frontLineNumber()); + json.property("name", CodeName(op)); + + { + ExpressionDecompiler ed(cx, script, parser); + if (!ed.init()) { + return false; + } + // defIndex passed here is not used. + if (!ed.decompilePC(pc, /* defIndex = */ 0)) { + return false; + } + UniqueChars text = ed.getOutput(); + if (!text) { + return false; + } + + JS::ConstUTF8CharsZ utf8chars(text.get(), strlen(text.get())); + JSString* str = NewStringCopyUTF8Z<CanGC>(cx, utf8chars); + if (!str) { + return false; + } + + if (!JSONStringProperty(sp, json, "text", str)) { + return false; + } + } + + json.beginObjectProperty("counts"); + if (hits > 0) { + json.property(PCCounts::numExecName, hits); + } + json.endObject(); + + json.endObject(); + + // If the current instruction has thrown, + // then decrement the hit counts with the number of throws. + if (const PCCounts* counts = sac.maybeGetThrowCounts(pc)) { + hits -= counts->numExec(); + } + } + + json.endList(); + + if (jit::IonScriptCounts* ionCounts = sac.getIonCounts()) { + json.beginListProperty("ion"); + + while (ionCounts) { + json.beginList(); + for (size_t i = 0; i < ionCounts->numBlocks(); i++) { + const jit::IonBlockCounts& block = ionCounts->block(i); + + json.beginObject(); + json.property("id", block.id()); + json.property("offset", block.offset()); + + json.beginListProperty("successors"); + for (size_t j = 0; j < block.numSuccessors(); j++) { + json.value(block.successor(j)); + } + json.endList(); + + json.property("hits", block.hitCount()); + + JSString* str = NewStringCopyZ<CanGC>(cx, block.code()); + if (!str) { + return false; + } + + if (!JSONStringProperty(sp, json, "code", str)) { + return false; + } + + json.endObject(); + } + json.endList(); + + ionCounts = ionCounts->previous(); + } + + json.endList(); + } + + json.endObject(); + + return true; +} + +JS_FRIEND_API JSString* js::GetPCCountScriptContents(JSContext* cx, + size_t index) { + JSRuntime* rt = cx->runtime(); + + if (!rt->scriptAndCountsVector || + index >= rt->scriptAndCountsVector->length()) { + JS_ReportErrorNumberASCII(cx, GetErrorMessage, nullptr, + JSMSG_BUFFER_TOO_SMALL); + return nullptr; + } + + const ScriptAndCounts& sac = (*rt->scriptAndCountsVector)[index]; + JSScript* script = sac.script; + + Sprinter sp(cx); + if (!sp.init()) { + return nullptr; + } + + { + AutoRealm ar(cx, &script->global()); + if (!GetPCCountJSON(cx, sac, sp)) { + return nullptr; + } + } + + if (sp.hadOutOfMemory()) { + return nullptr; + } + + return NewStringCopyZ<CanGC>(cx, sp.string()); +} + +struct CollectedScripts { + MutableHandle<ScriptVector> scripts; + bool ok = true; + + explicit CollectedScripts(MutableHandle<ScriptVector> scripts) + : scripts(scripts) {} + + static void consider(JSRuntime* rt, void* data, BaseScript* script, + const JS::AutoRequireNoGC& nogc) { + auto self = static_cast<CollectedScripts*>(data); + if (!script->filename()) { + return; + } + if (!self->scripts.append(script->asJSScript())) { + self->ok = false; + } + } +}; + +static bool GenerateLcovInfo(JSContext* cx, JS::Realm* realm, + GenericPrinter& out) { + AutoRealmUnchecked ar(cx, realm); + + // Collect the list of scripts which are part of the current realm. + + MOZ_RELEASE_ASSERT( + coverage::IsLCovEnabled(), + "Coverage must be enabled for process before generating LCov info"); + + // Hold the scripts that we have already flushed, to avoid flushing them + // twice. + using JSScriptSet = GCHashSet<JSScript*>; + Rooted<JSScriptSet> scriptsDone(cx, JSScriptSet(cx)); + + Rooted<ScriptVector> queue(cx, ScriptVector(cx)); + + { + CollectedScripts result(&queue); + IterateScripts(cx, realm, &result, &CollectedScripts::consider); + if (!result.ok) { + return false; + } + } + + if (queue.length() == 0) { + return true; + } + + // Ensure the LCovRealm exists to collect info into. + coverage::LCovRealm* lcovRealm = realm->lcovRealm(); + if (!lcovRealm) { + return false; + } + + // Collect code coverage info for one realm. + do { + RootedScript script(cx, queue.popCopy()); + RootedFunction fun(cx); + + JSScriptSet::AddPtr entry = scriptsDone.lookupForAdd(script); + if (entry) { + continue; + } + + if (!coverage::CollectScriptCoverage(script, false)) { + return false; + } + + script->resetScriptCounts(); + + if (!scriptsDone.add(entry, script)) { + return false; + } + + if (!script->isTopLevel()) { + continue; + } + + // Iterate from the last to the first object in order to have + // the functions them visited in the opposite order when popping + // elements from the stack of remaining scripts, such that the + // functions are more-less listed with increasing line numbers. + auto gcthings = script->gcthings(); + for (JS::GCCellPtr gcThing : mozilla::Reversed(gcthings)) { + if (!gcThing.is<JSObject>()) { + continue; + } + JSObject* obj = &gcThing.as<JSObject>(); + + if (!obj->is<JSFunction>()) { + continue; + } + fun = &obj->as<JSFunction>(); + + // Ignore asm.js functions + if (!fun->isInterpreted()) { + continue; + } + + // Queue the script in the list of script associated to the + // current source. + JSScript* childScript = JSFunction::getOrCreateScript(cx, fun); + if (!childScript || !queue.append(childScript)) { + return false; + } + } + } while (!queue.empty()); + + bool isEmpty = true; + lcovRealm->exportInto(out, &isEmpty); + if (out.hadOutOfMemory()) { + return false; + } + + return true; +} + +JS_FRIEND_API UniqueChars js::GetCodeCoverageSummaryAll(JSContext* cx, + size_t* length) { + Sprinter out(cx); + if (!out.init()) { + return nullptr; + } + + for (RealmsIter realm(cx->runtime()); !realm.done(); realm.next()) { + if (!GenerateLcovInfo(cx, realm, out)) { + JS_ReportOutOfMemory(cx); + return nullptr; + } + } + + *length = out.getOffset(); + return js::DuplicateString(cx, out.string(), *length); +} + +JS_FRIEND_API UniqueChars js::GetCodeCoverageSummary(JSContext* cx, + size_t* length) { + Sprinter out(cx); + if (!out.init()) { + return nullptr; + } + + if (!GenerateLcovInfo(cx, cx->realm(), out)) { + JS_ReportOutOfMemory(cx); + return nullptr; + } + + *length = out.getOffset(); + return js::DuplicateString(cx, out.string(), *length); +} |