/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- * vim: set ts=8 sts=2 et sw=2 tw=80: * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #ifndef js_Id_h #define js_Id_h // [SMDOC] PropertyKey / jsid // // A PropertyKey is an identifier for a property of an object which is either a // 31-bit unsigned integer, interned string or symbol. // // Also, there is an additional PropertyKey value, PropertyKey::Void(), which // does not occur in JS scripts but may be used to indicate the absence of a // valid key. A void PropertyKey is not a valid key and only arises as an // exceptional API return value. Embeddings must not pass a void PropertyKey // into JSAPI entry points expecting a PropertyKey and do not need to handle // void keys in hooks receiving a PropertyKey except when explicitly noted in // the API contract. // // A PropertyKey is not implicitly convertible to or from a Value; JS_ValueToId // or JS_IdToValue must be used instead. // // jsid is an alias for JS::PropertyKey. New code should use PropertyKey instead // of jsid. #include "mozilla/Maybe.h" #include "jstypes.h" #include "js/GCAnnotations.h" #include "js/HeapAPI.h" #include "js/RootingAPI.h" #include "js/TraceKind.h" #include "js/TracingAPI.h" #include "js/TypeDecls.h" namespace JS { enum class SymbolCode : uint32_t; class PropertyKey { uintptr_t asBits_; public: // All keys with the low bit set are integer keys. This means the other type // tags must all be even. These constants are public only for the JITs. static constexpr uintptr_t IntTagBit = 0x1; // Use 0 for StringTypeTag to avoid a bitwise op for atom <-> id conversions. static constexpr uintptr_t StringTypeTag = 0x0; static constexpr uintptr_t VoidTypeTag = 0x2; static constexpr uintptr_t SymbolTypeTag = 0x4; // (0x6 is unused) static constexpr uintptr_t TypeMask = 0x7; static constexpr uint32_t IntMin = 0; static constexpr uint32_t IntMax = INT32_MAX; constexpr PropertyKey() : asBits_(VoidTypeTag) {} static constexpr MOZ_ALWAYS_INLINE PropertyKey fromRawBits(uintptr_t bits) { PropertyKey id; id.asBits_ = bits; return id; } bool operator==(const PropertyKey& rhs) const { return asBits_ == rhs.asBits_; } bool operator!=(const PropertyKey& rhs) const { return asBits_ != rhs.asBits_; } MOZ_ALWAYS_INLINE bool isVoid() const { MOZ_ASSERT_IF((asBits_ & TypeMask) == VoidTypeTag, asBits_ == VoidTypeTag); return asBits_ == VoidTypeTag; } MOZ_ALWAYS_INLINE bool isInt() const { return !!(asBits_ & IntTagBit); } MOZ_ALWAYS_INLINE bool isString() const { return (asBits_ & TypeMask) == StringTypeTag; } MOZ_ALWAYS_INLINE bool isSymbol() const { return (asBits_ & TypeMask) == SymbolTypeTag; } MOZ_ALWAYS_INLINE bool isGCThing() const { return isString() || isSymbol(); } constexpr uintptr_t asRawBits() const { return asBits_; } MOZ_ALWAYS_INLINE int32_t toInt() const { MOZ_ASSERT(isInt()); uint32_t bits = static_cast(asBits_) >> 1; return static_cast(bits); } MOZ_ALWAYS_INLINE JSString* toString() const { MOZ_ASSERT(isString()); // Use XOR instead of `& ~TypeMask` because small immediates can be // encoded more efficiently on some platorms. return reinterpret_cast(asBits_ ^ StringTypeTag); } MOZ_ALWAYS_INLINE JS::Symbol* toSymbol() const { MOZ_ASSERT(isSymbol()); return reinterpret_cast(asBits_ ^ SymbolTypeTag); } js::gc::Cell* toGCThing() const { MOZ_ASSERT(isGCThing()); return reinterpret_cast(asBits_ & ~TypeMask); } GCCellPtr toGCCellPtr() const { js::gc::Cell* thing = toGCThing(); if (isString()) { return JS::GCCellPtr(thing, JS::TraceKind::String); } MOZ_ASSERT(isSymbol()); return JS::GCCellPtr(thing, JS::TraceKind::Symbol); } bool isPrivateName() const; bool isWellKnownSymbol(JS::SymbolCode code) const; // A void PropertyKey. This is equivalent to a PropertyKey created by the // default constructor. static constexpr PropertyKey Void() { return PropertyKey(); } static constexpr bool fitsInInt(int32_t i) { return i >= 0; } static constexpr PropertyKey Int(int32_t i) { MOZ_ASSERT(fitsInInt(i)); uint32_t bits = (static_cast(i) << 1) | IntTagBit; return PropertyKey::fromRawBits(bits); } static PropertyKey Symbol(JS::Symbol* sym) { MOZ_ASSERT(sym != nullptr); MOZ_ASSERT((uintptr_t(sym) & TypeMask) == 0); MOZ_ASSERT(!js::gc::IsInsideNursery(reinterpret_cast(sym))); return PropertyKey::fromRawBits(uintptr_t(sym) | SymbolTypeTag); } // Must not be used on atoms that are representable as integer PropertyKey. // Prefer NameToId or AtomToId over this function: // // A PropertyName is an atom that does not contain an integer in the range // [0, UINT32_MAX]. However, PropertyKey can only hold an integer in the range // [0, IntMax] (where IntMax == 2^31-1). Thus, for the range of integers // (IntMax, UINT32_MAX], to represent as a 'id', it must be // the case id.isString() and id.toString()->isIndex(). In most // cases when creating a PropertyKey, code does not have to care about // this corner case because: // // - When given an arbitrary JSAtom*, AtomToId must be used, which checks for // integer atoms representable as integer PropertyKey, and does this // conversion. // // - When given a PropertyName*, NameToId can be used which does not need // to do any dynamic checks. // // Thus, it is only the rare third case which needs this function, which // handles any JSAtom* that is known not to be representable with an int // PropertyKey. static PropertyKey NonIntAtom(JSAtom* atom) { MOZ_ASSERT((uintptr_t(atom) & TypeMask) == 0); MOZ_ASSERT(PropertyKey::isNonIntAtom(atom)); return PropertyKey::fromRawBits(uintptr_t(atom) | StringTypeTag); } // The JSAtom/JSString type exposed to embedders is opaque. static PropertyKey NonIntAtom(JSString* str) { MOZ_ASSERT((uintptr_t(str) & TypeMask) == 0); MOZ_ASSERT(PropertyKey::isNonIntAtom(str)); return PropertyKey::fromRawBits(uintptr_t(str) | StringTypeTag); } // This API can be used by embedders to convert pinned (aka interned) strings, // as created by JS_AtomizeAndPinString, into PropertyKeys. This means the // string does not have to be explicitly rooted. // // Only use this API when absolutely necessary, otherwise use JS_StringToId. static PropertyKey fromPinnedString(JSString* str); // Internal API! // All string PropertyKeys are actually atomized. MOZ_ALWAYS_INLINE bool isAtom() const { return isString(); } MOZ_ALWAYS_INLINE bool isAtom(JSAtom* atom) const { MOZ_ASSERT(PropertyKey::isNonIntAtom(atom)); return isAtom() && toAtom() == atom; } MOZ_ALWAYS_INLINE JSAtom* toAtom() const { return reinterpret_cast(toString()); } MOZ_ALWAYS_INLINE JSLinearString* toLinearString() const { return reinterpret_cast(toString()); } private: static bool isNonIntAtom(JSAtom* atom); static bool isNonIntAtom(JSString* atom); } JS_HAZ_GC_POINTER; } // namespace JS using jsid = JS::PropertyKey; namespace JS { // Handle version of PropertyKey::Void(). extern JS_PUBLIC_DATA const JS::HandleId VoidHandlePropertyKey; template <> struct GCPolicy { static void trace(JSTracer* trc, jsid* idp, const char* name) { // This should only be called as part of root marking since that's the only // time we should trace unbarriered GC thing pointers. This will assert if // called at other times. TraceRoot(trc, idp, name); } static bool isValid(jsid id) { return !id.isGCThing() || js::gc::IsCellPointerValid(id.toGCCellPtr().asCell()); } static bool isTenured(jsid id) { MOZ_ASSERT_IF(id.isGCThing(), !js::gc::IsInsideNursery(id.toGCCellPtr().asCell())); return true; } }; #ifdef DEBUG MOZ_ALWAYS_INLINE void AssertIdIsNotGray(jsid id) { if (id.isGCThing()) { AssertCellIsNotGray(id.toGCCellPtr().asCell()); } } #endif /** * Get one of the well-known symbols defined by ES6 as PropertyKey. This is * equivalent to calling JS::GetWellKnownSymbol and then creating a PropertyKey. * * `which` must be in the range [0, WellKnownSymbolLimit). */ extern JS_PUBLIC_API PropertyKey GetWellKnownSymbolKey(JSContext* cx, SymbolCode which); /** * Generate getter/setter id for given id, by adding "get " or "set " prefix. */ extern JS_PUBLIC_API bool ToGetterId( JSContext* cx, JS::Handle id, JS::MutableHandle getterId); extern JS_PUBLIC_API bool ToSetterId( JSContext* cx, JS::Handle id, JS::MutableHandle setterId); } // namespace JS namespace js { template <> struct BarrierMethods { static gc::Cell* asGCThingOrNull(jsid id) { if (id.isGCThing()) { return id.toGCThing(); } return nullptr; } static void postWriteBarrier(jsid* idp, jsid prev, jsid next) { MOZ_ASSERT_IF(next.isString(), !gc::IsInsideNursery(next.toString())); } static void exposeToJS(jsid id) { if (id.isGCThing()) { js::gc::ExposeGCThingToActiveJS(id.toGCCellPtr()); } } static void readBarrier(jsid id) { if (id.isGCThing()) { js::gc::IncrementalReadBarrier(id.toGCCellPtr()); } } }; // If the jsid is a GC pointer type, convert to that type and call |f| with the // pointer and return the result wrapped in a Maybe, otherwise return None(). template auto MapGCThingTyped(const jsid& id, F&& f) { if (id.isString()) { return mozilla::Some(f(id.toString())); } if (id.isSymbol()) { return mozilla::Some(f(id.toSymbol())); } MOZ_ASSERT(!id.isGCThing()); using ReturnType = decltype(f(static_cast(nullptr))); return mozilla::Maybe(); } // If the jsid is a GC pointer type, convert to that type and call |f| with the // pointer. Return whether this happened. template bool ApplyGCThingTyped(const jsid& id, F&& f) { return MapGCThingTyped(id, [&f](auto t) { f(t); return true; }) .isSome(); } template class WrappedPtrOperations { const JS::PropertyKey& id() const { return static_cast(this)->get(); } public: bool isVoid() const { return id().isVoid(); } bool isInt() const { return id().isInt(); } bool isString() const { return id().isString(); } bool isSymbol() const { return id().isSymbol(); } bool isGCThing() const { return id().isGCThing(); } int32_t toInt() const { return id().toInt(); } JSString* toString() const { return id().toString(); } JS::Symbol* toSymbol() const { return id().toSymbol(); } bool isPrivateName() const { return id().isPrivateName(); } bool isWellKnownSymbol(JS::SymbolCode code) const { return id().isWellKnownSymbol(code); } uintptr_t asRawBits() const { return id().asRawBits(); } // Internal API bool isAtom() const { return id().isAtom(); } bool isAtom(JSAtom* atom) const { return id().isAtom(atom); } JSAtom* toAtom() const { return id().toAtom(); } JSLinearString* toLinearString() const { return id().toLinearString(); } }; } // namespace js #endif /* js_Id_h */