/* -*- 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/. */ #ifndef jspubtd_h #define jspubtd_h /* * JS public API typedefs. */ #include "mozilla/PodOperations.h" #include "jsprototypes.h" #include "jstypes.h" #if defined(JSGC_ROOT_ANALYSIS) || defined(JSGC_USE_EXACT_ROOTING) || defined(DEBUG) # define JSGC_TRACK_EXACT_ROOTS #endif namespace JS { /* * Allow headers to reference JS::Value without #including the whole jsapi.h. * Unfortunately, typedefs (hence jsval) cannot be declared. */ class Value; template class Rooted; class JS_PUBLIC_API(AutoGCRooter); struct Zone; } /* namespace JS */ /* * In release builds, jsid is defined to be an integral type. This * prevents many bugs from being caught at compile time. E.g.: * * jsid id = ... * if (id == JS_TRUE) // error * ... * * size_t n = id; // error * * To catch more errors, jsid is given a struct type in C++ debug builds. * Struct assignment and (in C++) operator== allow correct code to be mostly * oblivious to the change. This feature can be explicitly disabled in debug * builds by defining JS_NO_JSVAL_JSID_STRUCT_TYPES. */ // Needed for cocos2d-js #define JS_NO_JSVAL_JSID_STRUCT_TYPES # if defined(DEBUG) && !defined(JS_NO_JSVAL_JSID_STRUCT_TYPES) # define JS_USE_JSID_STRUCT_TYPES # endif # ifdef JS_USE_JSID_STRUCT_TYPES struct jsid { size_t asBits; bool operator==(jsid rhs) const { return asBits == rhs.asBits; } bool operator!=(jsid rhs) const { return asBits != rhs.asBits; } }; # define JSID_BITS(id) (id.asBits) # else /* defined(JS_USE_JSID_STRUCT_TYPES) */ typedef ptrdiff_t jsid; # define JSID_BITS(id) (id) # endif /* defined(JS_USE_JSID_STRUCT_TYPES) */ #ifdef WIN32 typedef wchar_t jschar; #else typedef uint16_t jschar; #endif /* * Run-time version enumeration. For compile-time version checking, please use * the JS_HAS_* macros in jsversion.h, or use MOZJS_MAJOR_VERSION, * MOZJS_MINOR_VERSION, MOZJS_PATCH_VERSION, and MOZJS_ALPHA definitions. */ typedef enum JSVersion { JSVERSION_ECMA_3 = 148, JSVERSION_1_6 = 160, JSVERSION_1_7 = 170, JSVERSION_1_8 = 180, JSVERSION_ECMA_5 = 185, JSVERSION_DEFAULT = 0, JSVERSION_UNKNOWN = -1, JSVERSION_LATEST = JSVERSION_ECMA_5 } JSVersion; /* Result of typeof operator enumeration. */ typedef enum JSType { JSTYPE_VOID, /* undefined */ JSTYPE_OBJECT, /* object */ JSTYPE_FUNCTION, /* function */ JSTYPE_STRING, /* string */ JSTYPE_NUMBER, /* number */ JSTYPE_BOOLEAN, /* boolean */ JSTYPE_NULL, /* null */ JSTYPE_LIMIT } JSType; /* Dense index into cached prototypes and class atoms for standard objects. */ typedef enum JSProtoKey { #define PROTOKEY_AND_INITIALIZER(name,code,init) JSProto_##name = code, JS_FOR_EACH_PROTOTYPE(PROTOKEY_AND_INITIALIZER) #undef JS_PROTO JSProto_LIMIT } JSProtoKey; /* js_CheckAccess mode enumeration. */ typedef enum JSAccessMode { JSACC_PROTO = 0, /* XXXbe redundant w.r.t. id */ /* * enum value #1 formerly called JSACC_PARENT, * gap preserved for ABI compatibility. */ /* * enum value #2 formerly called JSACC_IMPORT, * gap preserved for ABI compatibility. */ JSACC_WATCH = 3, /* a watchpoint on object foo for id 'bar' */ JSACC_READ = 4, /* a "get" of foo.bar */ JSACC_WRITE = 8, /* a "set" of foo.bar = baz */ JSACC_LIMIT } JSAccessMode; #define JSACC_TYPEMASK (JSACC_WRITE - 1) /* * This enum type is used to control the behavior of a JSObject property * iterator function that has type JSNewEnumerate. */ typedef enum JSIterateOp { /* Create new iterator state over enumerable properties. */ JSENUMERATE_INIT, /* Create new iterator state over all properties. */ JSENUMERATE_INIT_ALL, /* Iterate once. */ JSENUMERATE_NEXT, /* Destroy iterator state. */ JSENUMERATE_DESTROY } JSIterateOp; /* See JSVAL_TRACE_KIND and JSTraceCallback in jsapi.h. */ typedef enum { JSTRACE_OBJECT, JSTRACE_STRING, JSTRACE_SCRIPT, /* * Trace kinds internal to the engine. The embedding can only see them if * it implements JSTraceCallback. */ JSTRACE_LAZY_SCRIPT, JSTRACE_IONCODE, JSTRACE_SHAPE, JSTRACE_BASE_SHAPE, JSTRACE_TYPE_OBJECT, JSTRACE_LAST = JSTRACE_TYPE_OBJECT } JSGCTraceKind; /* Struct typedefs and class forward declarations. */ typedef struct JSClass JSClass; typedef struct JSCompartment JSCompartment; typedef struct JSConstDoubleSpec JSConstDoubleSpec; typedef struct JSContext JSContext; typedef struct JSCrossCompartmentCall JSCrossCompartmentCall; typedef struct JSErrorReport JSErrorReport; typedef struct JSExceptionState JSExceptionState; typedef struct JSFunctionSpec JSFunctionSpec; typedef struct JSIdArray JSIdArray; typedef struct JSLocaleCallbacks JSLocaleCallbacks; typedef struct JSObjectMap JSObjectMap; typedef struct JSPrincipals JSPrincipals; typedef struct JSPropertyDescriptor JSPropertyDescriptor; typedef struct JSPropertyName JSPropertyName; typedef struct JSPropertySpec JSPropertySpec; typedef struct JSRuntime JSRuntime; typedef struct JSSecurityCallbacks JSSecurityCallbacks; typedef struct JSStructuredCloneCallbacks JSStructuredCloneCallbacks; typedef struct JSStructuredCloneReader JSStructuredCloneReader; typedef struct JSStructuredCloneWriter JSStructuredCloneWriter; typedef struct JSTracer JSTracer; class JSFlatString; class JSFunction; class JSObject; class JSScript; class JSStableString; // long story class JSString; #ifdef JS_THREADSAFE typedef struct PRCallOnceType JSCallOnceType; #else typedef JSBool JSCallOnceType; #endif typedef JSBool (*JSInitCallback)(void); namespace JS { namespace shadow { struct Runtime { /* Restrict zone access during Minor GC. */ bool needsBarrier_; #ifdef JSGC_GENERATIONAL /* Allow inlining of Nursery::isInside. */ uintptr_t gcNurseryStart_; uintptr_t gcNurseryEnd_; #endif Runtime() : needsBarrier_(false) #ifdef JSGC_GENERATIONAL , gcNurseryStart_(0) , gcNurseryEnd_(0) #endif {} }; } /* namespace shadow */ } /* namespace JS */ namespace js { /* * Parallel operations in general can have one of three states. They may * succeed, fail, or "bail", where bail indicates that the code encountered an * unexpected condition and should be re-run sequentially. Different * subcategories of the "bail" state are encoded as variants of TP_RETRY_*. */ enum ParallelResult { TP_SUCCESS, TP_RETRY_SEQUENTIALLY, TP_RETRY_AFTER_GC, TP_FATAL }; struct ThreadSafeContext; struct ForkJoinSlice; class ExclusiveContext; class Allocator; class SkipRoot; enum ThingRootKind { THING_ROOT_OBJECT, THING_ROOT_SHAPE, THING_ROOT_BASE_SHAPE, THING_ROOT_TYPE_OBJECT, THING_ROOT_STRING, THING_ROOT_ION_CODE, THING_ROOT_SCRIPT, THING_ROOT_ID, THING_ROOT_PROPERTY_ID, THING_ROOT_VALUE, THING_ROOT_TYPE, THING_ROOT_BINDINGS, THING_ROOT_PROPERTY_DESCRIPTOR, THING_ROOT_LIMIT }; template struct RootKind; /* * Specifically mark the ThingRootKind of externally visible types, so that * JSAPI users may use JSRooted... types without having the class definition * available. */ template struct SpecificRootKind { static ThingRootKind rootKind() { return Kind; } }; template <> struct RootKind : SpecificRootKind {}; template <> struct RootKind : SpecificRootKind {}; template <> struct RootKind : SpecificRootKind {}; template <> struct RootKind : SpecificRootKind {}; template <> struct RootKind : SpecificRootKind {}; template <> struct RootKind : SpecificRootKind {}; template <> struct RootKind : SpecificRootKind {}; struct ContextFriendFields { protected: JSRuntime *const runtime_; /* The current compartment. */ JSCompartment *compartment_; /* The current zone. */ JS::Zone *zone_; public: explicit ContextFriendFields(JSRuntime *rt) : runtime_(rt), compartment_(NULL), zone_(NULL), autoGCRooters(NULL) { #ifdef JSGC_TRACK_EXACT_ROOTS mozilla::PodArrayZero(thingGCRooters); #endif #if defined(DEBUG) && defined(JS_GC_ZEAL) && defined(JSGC_ROOT_ANALYSIS) && !defined(JS_THREADSAFE) skipGCRooters = NULL; #endif } static const ContextFriendFields *get(const JSContext *cx) { return reinterpret_cast(cx); } static ContextFriendFields *get(JSContext *cx) { return reinterpret_cast(cx); } #ifdef JSGC_TRACK_EXACT_ROOTS /* * Stack allocated GC roots for stack GC heap pointers, which may be * overwritten if moved during a GC. */ JS::Rooted *thingGCRooters[THING_ROOT_LIMIT]; #endif #if defined(DEBUG) && defined(JS_GC_ZEAL) && defined(JSGC_ROOT_ANALYSIS) && !defined(JS_THREADSAFE) /* * Stack allocated list of stack locations which hold non-relocatable * GC heap pointers (where the target is rooted somewhere else) or integer * values which may be confused for GC heap pointers. These are used to * suppress false positives which occur when a rooting analysis treats the * location as holding a relocatable pointer, but have no other effect on * GC behavior. */ SkipRoot *skipGCRooters; #endif /* Stack of thread-stack-allocated GC roots. */ JS::AutoGCRooter *autoGCRooters; friend JSRuntime *GetRuntime(const JSContext *cx); friend JSCompartment *GetContextCompartment(const JSContext *cx); friend JS::Zone *GetContextZone(const JSContext *cx); }; class PerThreadData; struct PerThreadDataFriendFields { private: // Note: this type only exists to permit us to derive the offset of // the perThread data within the real JSRuntime* type in a portable // way. struct RuntimeDummy : JS::shadow::Runtime { struct PerThreadDummy { void *field1; uintptr_t field2; #ifdef DEBUG uint64_t field3; #endif } mainThread; }; public: PerThreadDataFriendFields(); #ifdef JSGC_TRACK_EXACT_ROOTS /* * Stack allocated GC roots for stack GC heap pointers, which may be * overwritten if moved during a GC. */ JS::Rooted *thingGCRooters[THING_ROOT_LIMIT]; #endif #if defined(DEBUG) && defined(JS_GC_ZEAL) && defined(JSGC_ROOT_ANALYSIS) && !defined(JS_THREADSAFE) /* * Stack allocated list of stack locations which hold non-relocatable * GC heap pointers (where the target is rooted somewhere else) or integer * values which may be confused for GC heap pointers. These are used to * suppress false positives which occur when a rooting analysis treats the * location as holding a relocatable pointer, but have no other effect on * GC behavior. */ SkipRoot *skipGCRooters; #endif /* Limit pointer for checking native stack consumption. */ uintptr_t nativeStackLimit; static const size_t RuntimeMainThreadOffset = offsetof(RuntimeDummy, mainThread); static inline PerThreadDataFriendFields *get(js::PerThreadData *pt) { return reinterpret_cast(pt); } static inline PerThreadDataFriendFields *getMainThread(JSRuntime *rt) { // mainThread must always appear directly after |JS::shadow::Runtime|. // Tested by a JS_STATIC_ASSERT in |jsfriendapi.cpp| return reinterpret_cast( reinterpret_cast(rt) + RuntimeMainThreadOffset); } static inline const PerThreadDataFriendFields *getMainThread(const JSRuntime *rt) { // mainThread must always appear directly after |JS::shadow::Runtime|. // Tested by a JS_STATIC_ASSERT in |jsfriendapi.cpp| return reinterpret_cast( reinterpret_cast(rt) + RuntimeMainThreadOffset); } }; } /* namespace js */ #endif /* jspubtd_h */