/* -*- Mode: C; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*- * vim: set ts=8 sw=4 et tw=78: * * ***** BEGIN LICENSE BLOCK ***** * Version: MPL 1.1/GPL 2.0/LGPL 2.1 * * The contents of this file are subject to the Mozilla Public License Version * 1.1 (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * http://www.mozilla.org/MPL/ * * Software distributed under the License is distributed on an "AS IS" basis, * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License * for the specific language governing rights and limitations under the * License. * * The Original Code is Mozilla Communicator client code, released * March 31, 1998. * * The Initial Developer of the Original Code is * Netscape Communications Corporation. * Portions created by the Initial Developer are Copyright (C) 1998 * the Initial Developer. All Rights Reserved. * * Contributor(s): * * Alternatively, the contents of this file may be used under the terms of * either of the GNU General Public License Version 2 or later (the "GPL"), * or the GNU Lesser General Public License Version 2.1 or later (the "LGPL"), * in which case the provisions of the GPL or the LGPL are applicable instead * of those above. If you wish to allow use of your version of this file only * under the terms of either the GPL or the LGPL, and not to allow others to * use your version of this file under the terms of the MPL, indicate your * decision by deleting the provisions above and replace them with the notice * and other provisions required by the GPL or the LGPL. If you do not delete * the provisions above, a recipient may use your version of this file under * the terms of any one of the MPL, the GPL or the LGPL. * * ***** END LICENSE BLOCK ***** */ #ifndef jscntxt_h___ #define jscntxt_h___ /* * JS execution context. */ #include "jsarena.h" /* Added by JSIFY */ #include "jsclist.h" #include "jslong.h" #include "jsatom.h" #include "jsconfig.h" #include "jsdhash.h" #include "jsgc.h" #include "jsinterp.h" #include "jsobj.h" #include "jsprvtd.h" #include "jspubtd.h" #include "jsregexp.h" #include "jsutil.h" JS_BEGIN_EXTERN_C /* * js_GetSrcNote cache to avoid O(n^2) growth in finding a source note for a * given pc in a script. */ typedef struct JSGSNCache { JSScript *script; JSDHashTable table; #ifdef JS_GSNMETER uint32 hits; uint32 misses; uint32 fills; uint32 clears; # define GSN_CACHE_METER(cache,cnt) (++(cache)->cnt) #else # define GSN_CACHE_METER(cache,cnt) /* nothing */ #endif } JSGSNCache; #define GSN_CACHE_CLEAR(cache) \ JS_BEGIN_MACRO \ (cache)->script = NULL; \ if ((cache)->table.ops) { \ JS_DHashTableFinish(&(cache)->table); \ (cache)->table.ops = NULL; \ } \ GSN_CACHE_METER(cache, clears); \ JS_END_MACRO /* These helper macros take a cx as parameter and operate on its GSN cache. */ #define JS_CLEAR_GSN_CACHE(cx) GSN_CACHE_CLEAR(&JS_GSN_CACHE(cx)) #define JS_METER_GSN_CACHE(cx,cnt) GSN_CACHE_METER(&JS_GSN_CACHE(cx), cnt) #ifdef JS_THREADSAFE /* * Structure uniquely representing a thread. It holds thread-private data * that can be accessed without a global lock. */ struct JSThread { /* Linked list of all contexts active on this thread. */ JSCList contextList; /* Opaque thread-id, from NSPR's PR_GetCurrentThread(). */ jsword id; /* Thread-local gc free lists array. */ JSGCThing *gcFreeLists[GC_NUM_FREELISTS]; /* * Thread-local version of JSRuntime.gcMallocBytes to avoid taking * locks on each JS_malloc. */ uint32 gcMallocBytes; /* * Store the GSN cache in struct JSThread, not struct JSContext, both to * save space and to simplify cleanup in js_GC. Any embedding (Firefox * or another Gecko application) that uses many contexts per thread is * unlikely to interleave js_GetSrcNote-intensive loops in the decompiler * among two or more contexts running script in one thread. */ JSGSNCache gsnCache; }; #define JS_GSN_CACHE(cx) ((cx)->thread->gsnCache) extern void JS_DLL_CALLBACK js_ThreadDestructorCB(void *ptr); extern JSBool js_SetContextThread(JSContext *cx); extern void js_ClearContextThread(JSContext *cx); extern JSThread * js_GetCurrentThread(JSRuntime *rt); #endif /* JS_THREADSAFE */ typedef enum JSDestroyContextMode { JSDCM_NO_GC, JSDCM_MAYBE_GC, JSDCM_FORCE_GC, JSDCM_NEW_FAILED } JSDestroyContextMode; typedef enum JSRuntimeState { JSRTS_DOWN, JSRTS_LAUNCHING, JSRTS_UP, JSRTS_LANDING } JSRuntimeState; typedef struct JSPropertyTreeEntry { JSDHashEntryHdr hdr; JSScopeProperty *child; } JSPropertyTreeEntry; /* * Forward declaration for opaque JSRuntime.nativeIteratorStates. */ typedef struct JSNativeIteratorState JSNativeIteratorState; struct JSRuntime { /* Runtime state, synchronized by the stateChange/gcLock condvar/lock. */ JSRuntimeState state; /* Context create/destroy callback. */ JSContextCallback cxCallback; /* Garbage collector state, used by jsgc.c. */ JSGCChunkInfo *gcChunkList; JSGCArenaList gcArenaList[GC_NUM_FREELISTS]; JSDHashTable gcRootsHash; JSDHashTable *gcLocksHash; jsrefcount gcKeepAtoms; uint32 gcBytes; uint32 gcLastBytes; uint32 gcMaxBytes; uint32 gcMaxMallocBytes; uint32 gcLevel; uint32 gcNumber; JSTracer *gcMarkingTracer; /* * NB: do not pack another flag here by claiming gcPadding unless the new * flag is written only by the GC thread. Atomic updates to packed bytes * are not guaranteed, so stores issued by one thread may be lost due to * unsynchronized read-modify-write cycles on other threads. */ JSPackedBool gcPoke; JSPackedBool gcRunning; #ifdef JS_GC_ZEAL uint8 gcZeal; uint8 gcPadding; #else uint16 gcPadding; #endif JSGCCallback gcCallback; JSGCThingCallback gcThingCallback; void *gcThingCallbackClosure; uint32 gcMallocBytes; JSGCArenaInfo *gcUntracedArenaStackTop; #ifdef DEBUG size_t gcTraceLaterCount; #endif /* * Table for tracking iterators to ensure that we close iterator's state * before finalizing the iterable object. */ JSPtrTable gcIteratorTable; #ifdef JS_GCMETER JSGCStats gcStats; #endif /* * The trace operation and its data argument to trace embedding-specific * GC roots. */ JSTraceDataOp gcExtraRootsTraceOp; void *gcExtraRootsData; /* Random number generator state, used by jsmath.c. */ JSBool rngInitialized; int64 rngMultiplier; int64 rngAddend; int64 rngMask; int64 rngSeed; jsdouble rngDscale; /* Well-known numbers held for use by this runtime's contexts. */ jsdouble *jsNaN; jsdouble *jsNegativeInfinity; jsdouble *jsPositiveInfinity; #ifdef JS_THREADSAFE JSLock *deflatedStringCacheLock; #endif JSHashTable *deflatedStringCache; #ifdef DEBUG uint32 deflatedStringCacheBytes; #endif /* * Empty and unit-length strings held for use by this runtime's contexts. * The unitStrings array and its elements are created on demand. */ JSString *emptyString; JSString **unitStrings; /* List of active contexts sharing this runtime; protected by gcLock. */ JSCList contextList; /* Per runtime debug hooks -- see jsprvtd.h and jsdbgapi.h. */ JSDebugHooks globalDebugHooks; /* More debugging state, see jsdbgapi.c. */ JSCList trapList; JSCList watchPointList; /* Client opaque pointer */ void *data; #ifdef JS_THREADSAFE /* These combine to interlock the GC and new requests. */ PRLock *gcLock; PRCondVar *gcDone; PRCondVar *requestDone; uint32 requestCount; JSThread *gcThread; /* Lock and owning thread pointer for JS_LOCK_RUNTIME. */ PRLock *rtLock; #ifdef DEBUG jsword rtLockOwner; #endif /* Used to synchronize down/up state change; protected by gcLock. */ PRCondVar *stateChange; /* Used to serialize cycle checks when setting __proto__ or __parent__. */ PRLock *setSlotLock; PRCondVar *setSlotDone; JSBool setSlotBusy; JSScope *setSlotScope; /* deadlock avoidance, see jslock.c */ /* * State for sharing single-threaded scopes, once a second thread tries to * lock a scope. The scopeSharingDone condvar is protected by rt->gcLock, * to minimize number of locks taken in JS_EndRequest. * * The scopeSharingTodo linked list is likewise "global" per runtime, not * one-list-per-context, to conserve space over all contexts, optimizing * for the likely case that scopes become shared rarely, and among a very * small set of threads (contexts). */ PRCondVar *scopeSharingDone; JSScope *scopeSharingTodo; /* * Magic terminator for the rt->scopeSharingTodo linked list, threaded through * scope->u.link. This hack allows us to test whether a scope is on the list * by asking whether scope->u.link is non-null. We use a large, likely bogus * pointer here to distinguish this value from any valid u.count (small int) * value. */ #define NO_SCOPE_SHARING_TODO ((JSScope *) 0xfeedbeef) /* * Lock serializing trapList and watchPointList accesses, and count of all * mutations to trapList and watchPointList made by debugger threads. To * keep the code simple, we define debuggerMutations for the thread-unsafe * case too. */ PRLock *debuggerLock; #endif /* JS_THREADSAFE */ uint32 debuggerMutations; /* * Check property accessibility for objects of arbitrary class. Used at * present to check f.caller accessibility for any function object f. */ JSCheckAccessOp checkObjectAccess; /* Security principals serialization support. */ JSPrincipalsTranscoder principalsTranscoder; /* Optional hook to find principals for an object in this runtime. */ JSObjectPrincipalsFinder findObjectPrincipals; /* * Shared scope property tree, and arena-pool for allocating its nodes. * The propertyRemovals counter is incremented for every js_ClearScope, * and for each js_RemoveScopeProperty that frees a slot in an object. * See js_NativeGet and js_NativeSet in jsobj.c. */ JSDHashTable propertyTreeHash; JSScopeProperty *propertyFreeList; JSArenaPool propertyArenaPool; int32 propertyRemovals; /* Script filename table. */ struct JSHashTable *scriptFilenameTable; JSCList scriptFilenamePrefixes; #ifdef JS_THREADSAFE PRLock *scriptFilenameTableLock; #endif /* Number localization, used by jsnum.c */ const char *thousandsSeparator; const char *decimalSeparator; const char *numGrouping; /* * Weak references to lazily-created, well-known XML singletons. * * NB: Singleton objects must be carefully disconnected from the rest of * the object graph usually associated with a JSContext's global object, * including the set of standard class objects. See jsxml.c for details. */ JSObject *anynameObject; JSObject *functionNamespaceObject; /* * A helper list for the GC, so it can mark native iterator states. See * js_TraceNativeIteratorStates for details. */ JSNativeIteratorState *nativeIteratorStates; #ifndef JS_THREADSAFE /* * For thread-unsafe embeddings, the GSN cache lives in the runtime and * not each context, since we expect it to be filled once when decompiling * a longer script, then hit repeatedly as js_GetSrcNote is called during * the decompiler activation that filled it. */ JSGSNCache gsnCache; #define JS_GSN_CACHE(cx) ((cx)->runtime->gsnCache) #endif /* Literal table maintained by jsatom.c functions. */ JSAtomState atomState; #ifdef DEBUG /* Function invocation metering. */ jsrefcount inlineCalls; jsrefcount nativeCalls; jsrefcount nonInlineCalls; jsrefcount constructs; /* Scope lock and property metering. */ jsrefcount claimAttempts; jsrefcount claimedScopes; jsrefcount deadContexts; jsrefcount deadlocksAvoided; jsrefcount liveScopes; jsrefcount sharedScopes; jsrefcount totalScopes; jsrefcount badUndependStrings; jsrefcount liveScopeProps; jsrefcount totalScopeProps; jsrefcount livePropTreeNodes; jsrefcount duplicatePropTreeNodes; jsrefcount totalPropTreeNodes; jsrefcount propTreeKidsChunks; jsrefcount middleDeleteFixups; /* String instrumentation. */ jsrefcount liveStrings; jsrefcount totalStrings; jsrefcount liveDependentStrings; jsrefcount totalDependentStrings; double lengthSum; double lengthSquaredSum; double strdepLengthSum; double strdepLengthSquaredSum; #endif }; #ifdef DEBUG # define JS_RUNTIME_METER(rt, which) JS_ATOMIC_INCREMENT(&(rt)->which) # define JS_RUNTIME_UNMETER(rt, which) JS_ATOMIC_DECREMENT(&(rt)->which) #else # define JS_RUNTIME_METER(rt, which) /* nothing */ # define JS_RUNTIME_UNMETER(rt, which) /* nothing */ #endif #define JS_KEEP_ATOMS(rt) JS_ATOMIC_INCREMENT(&(rt)->gcKeepAtoms); #define JS_UNKEEP_ATOMS(rt) JS_ATOMIC_DECREMENT(&(rt)->gcKeepAtoms); #ifdef JS_ARGUMENT_FORMATTER_DEFINED /* * Linked list mapping format strings for JS_{Convert,Push}Arguments{,VA} to * formatter functions. Elements are sorted in non-increasing format string * length order. */ struct JSArgumentFormatMap { const char *format; size_t length; JSArgumentFormatter formatter; JSArgumentFormatMap *next; }; #endif struct JSStackHeader { uintN nslots; JSStackHeader *down; }; #define JS_STACK_SEGMENT(sh) ((jsval *)(sh) + 2) /* * Key and entry types for the JSContext.resolvingTable hash table, typedef'd * here because all consumers need to see these declarations (and not just the * typedef names, as would be the case for an opaque pointer-to-typedef'd-type * declaration), along with cx->resolvingTable. */ typedef struct JSResolvingKey { JSObject *obj; jsid id; } JSResolvingKey; typedef struct JSResolvingEntry { JSDHashEntryHdr hdr; JSResolvingKey key; uint32 flags; } JSResolvingEntry; #define JSRESFLAG_LOOKUP 0x1 /* resolving id from lookup */ #define JSRESFLAG_WATCH 0x2 /* resolving id from watch */ typedef struct JSLocalRootChunk JSLocalRootChunk; #define JSLRS_CHUNK_SHIFT 8 #define JSLRS_CHUNK_SIZE JS_BIT(JSLRS_CHUNK_SHIFT) #define JSLRS_CHUNK_MASK JS_BITMASK(JSLRS_CHUNK_SHIFT) struct JSLocalRootChunk { jsval roots[JSLRS_CHUNK_SIZE]; JSLocalRootChunk *down; }; typedef struct JSLocalRootStack { uint32 scopeMark; uint32 rootCount; JSLocalRootChunk *topChunk; JSLocalRootChunk firstChunk; } JSLocalRootStack; #define JSLRS_NULL_MARK ((uint32) -1) /* * Macros to push/pop JSTempValueRooter instances to context-linked stack of * temporary GC roots. If you need to protect a result value that flows out of * a C function across several layers of other functions, use the * js_LeaveLocalRootScopeWithResult internal API (see further below) instead. * * JSTempValueRooter.count defines the type of the rooted value referenced by * JSTempValueRooter.u union of type JSTempValueUnion according to the * following table: * * count description * JSTVU_SINGLE u.value contains the single value or GC-thing to root. * JSTVU_TRACE u.trace holds a trace hook called to trace the values. * JSTVU_SPROP u.sprop points to the property tree node to mark. * JSTVU_WEAK_ROOTS u.weakRoots points to saved weak roots. * JSTVU_PARSE_CONTEXT u.parseContext roots things generated during parsing. * >= 0 u.array points to a stack-allocated vector of jsvals. */ #define JSTVU_SINGLE (-1) #define JSTVU_TRACE (-2) #define JSTVU_SPROP (-3) #define JSTVU_WEAK_ROOTS (-4) #define JSTVU_PARSE_CONTEXT (-5) /* * To root a single GC-thing pointer, which need not be tagged and stored as a * jsval, use JS_PUSH_TEMP_ROOT_GCTHING. The macro reinterprets an arbitrary * GC-thing as jsval. It works because a GC-thing is aligned on a 0 mod 8 * boundary, and object has the 0 jsval tag. So any GC-thing may be tagged as * if it were an object and untagged, if it's then used only as an opaque * pointer until discriminated by other means than tag bits (this is how the * GC mark function uses its |thing| parameter -- it consults GC-thing flags * stored separately from the thing to decide the type of thing). * * JS_PUSH_TEMP_ROOT_OBJECT and JS_PUSH_TEMP_ROOT_STRING are type-safe * alternatives to JS_PUSH_TEMP_ROOT_GCTHING for JSObject and JSString. They * also provide a simple way to get a single pointer to rooted JSObject or * JSString via JS_PUSH_TEMP_ROOT_(OBJECT|STRTING)(cx, NULL, &tvr). Then * &tvr.u.object or tvr.u.string gives the necessary pointer, which puns * tvr.u.value safely because JSObject * and JSString * are GC-things and, as * such, their tag bits are all zeroes. * * The following checks that this type-punning is possible. */ JS_STATIC_ASSERT(sizeof(JSTempValueUnion) == sizeof(jsval)); JS_STATIC_ASSERT(sizeof(JSTempValueUnion) == sizeof(JSObject *)); #define JS_PUSH_TEMP_ROOT_COMMON(cx,tvr) \ JS_BEGIN_MACRO \ JS_ASSERT((cx)->tempValueRooters != (tvr)); \ (tvr)->down = (cx)->tempValueRooters; \ (cx)->tempValueRooters = (tvr); \ JS_END_MACRO #define JS_PUSH_SINGLE_TEMP_ROOT(cx,val,tvr) \ JS_BEGIN_MACRO \ (tvr)->count = JSTVU_SINGLE; \ (tvr)->u.value = val; \ JS_PUSH_TEMP_ROOT_COMMON(cx, tvr); \ JS_END_MACRO #define JS_PUSH_TEMP_ROOT(cx,cnt,arr,tvr) \ JS_BEGIN_MACRO \ JS_ASSERT((ptrdiff_t)(cnt) >= 0); \ (tvr)->count = (ptrdiff_t)(cnt); \ (tvr)->u.array = (arr); \ JS_PUSH_TEMP_ROOT_COMMON(cx, tvr); \ JS_END_MACRO #define JS_PUSH_TEMP_ROOT_TRACE(cx,trace_,tvr) \ JS_BEGIN_MACRO \ (tvr)->count = JSTVU_TRACE; \ (tvr)->u.trace = (trace_); \ JS_PUSH_TEMP_ROOT_COMMON(cx, tvr); \ JS_END_MACRO #define JS_PUSH_TEMP_ROOT_OBJECT(cx,obj,tvr) \ JS_BEGIN_MACRO \ (tvr)->count = JSTVU_SINGLE; \ (tvr)->u.object = (obj); \ JS_PUSH_TEMP_ROOT_COMMON(cx, tvr); \ JS_END_MACRO #define JS_PUSH_TEMP_ROOT_STRING(cx,str,tvr) \ JS_BEGIN_MACRO \ (tvr)->count = JSTVU_SINGLE; \ (tvr)->u.string = (str); \ JS_PUSH_TEMP_ROOT_COMMON(cx, tvr); \ JS_END_MACRO #define JS_PUSH_TEMP_ROOT_GCTHING(cx,thing,tvr) \ JS_BEGIN_MACRO \ JS_ASSERT(JSVAL_IS_OBJECT((jsval)thing)); \ (tvr)->count = JSTVU_SINGLE; \ (tvr)->u.gcthing = (thing); \ JS_PUSH_TEMP_ROOT_COMMON(cx, tvr); \ JS_END_MACRO #define JS_POP_TEMP_ROOT(cx,tvr) \ JS_BEGIN_MACRO \ JS_ASSERT((cx)->tempValueRooters == (tvr)); \ (cx)->tempValueRooters = (tvr)->down; \ JS_END_MACRO #define JS_TEMP_ROOT_EVAL(cx,cnt,val,expr) \ JS_BEGIN_MACRO \ JSTempValueRooter tvr; \ JS_PUSH_TEMP_ROOT(cx, cnt, val, &tvr); \ (expr); \ JS_POP_TEMP_ROOT(cx, &tvr); \ JS_END_MACRO #define JS_PUSH_TEMP_ROOT_SPROP(cx,sprop_,tvr) \ JS_BEGIN_MACRO \ (tvr)->count = JSTVU_SPROP; \ (tvr)->u.sprop = (sprop_); \ JS_PUSH_TEMP_ROOT_COMMON(cx, tvr); \ JS_END_MACRO #define JS_PUSH_TEMP_ROOT_WEAK_COPY(cx,weakRoots_,tvr) \ JS_BEGIN_MACRO \ (tvr)->count = JSTVU_WEAK_ROOTS; \ (tvr)->u.weakRoots = (weakRoots_); \ JS_PUSH_TEMP_ROOT_COMMON(cx, tvr); \ JS_END_MACRO #define JS_PUSH_TEMP_ROOT_PARSE_CONTEXT(cx,pc,tvr) \ JS_BEGIN_MACRO \ (tvr)->count = JSTVU_PARSE_CONTEXT; \ (tvr)->u.parseContext = (pc); \ JS_PUSH_TEMP_ROOT_COMMON(cx, tvr); \ JS_END_MACRO struct JSContext { /* JSRuntime contextList linkage. */ JSCList links; /* Counter of operations for branch callback calls. */ uint32 operationCounter; #if JS_HAS_XML_SUPPORT /* * Bit-set formed from binary exponentials of the XML_* tiny-ids defined * for boolean settings in jsxml.c, plus an XSF_CACHE_VALID bit. Together * these act as a cache of the boolean XML.ignore* and XML.prettyPrinting * property values associated with this context's global object. */ uint8 xmlSettingFlags; uint8 padding; #else uint16 padding; #endif /* Runtime version control identifier. */ uint16 version; /* Per-context options. */ uint32 options; /* see jsapi.h for JSOPTION_* */ /* Locale specific callbacks for string conversion. */ JSLocaleCallbacks *localeCallbacks; /* * cx->resolvingTable is non-null and non-empty if we are initializing * standard classes lazily, or if we are otherwise recursing indirectly * from js_LookupProperty through a JSClass.resolve hook. It is used to * limit runaway recursion (see jsapi.c and jsobj.c). */ JSDHashTable *resolvingTable; #if JS_HAS_LVALUE_RETURN /* * Secondary return value from native method called on the left-hand side * of an assignment operator. The native should store the object in which * to set a property in *rval, and return the property's id expressed as a * jsval by calling JS_SetCallReturnValue2(cx, idval). */ jsval rval2; JSPackedBool rval2set; #endif /* * True if generating an error, to prevent runaway recursion. * NB: generatingError packs with rval2set, #if JS_HAS_LVALUE_RETURN; * with insideGCMarkCallback and with throwing below. */ JSPackedBool generatingError; /* Flag to indicate that we run inside gcCallback(cx, JSGC_MARK_END). */ JSPackedBool insideGCMarkCallback; /* Exception state -- the exception member is a GC root by definition. */ JSPackedBool throwing; /* is there a pending exception? */ jsval exception; /* most-recently-thrown exception */ /* Limit pointer for checking native stack consumption during recursion. */ jsuword stackLimit; /* Quota on the size of arenas used to compile and execute scripts. */ size_t scriptStackQuota; /* Data shared by threads in an address space. */ JSRuntime *runtime; /* Stack arena pool and frame pointer register. */ JSArenaPool stackPool; JSStackFrame *fp; /* Temporary arena pool used while compiling and decompiling. */ JSArenaPool tempPool; /* Top-level object and pointer to top stack frame's scope chain. */ JSObject *globalObject; /* Storage to root recently allocated GC things and script result. */ JSWeakRoots weakRoots; /* Regular expression class statics (XXX not shared globally). */ JSRegExpStatics regExpStatics; /* State for object and array toSource conversion. */ JSSharpObjectMap sharpObjectMap; /* Argument formatter support for JS_{Convert,Push}Arguments{,VA}. */ JSArgumentFormatMap *argumentFormatMap; /* Last message string and trace file for debugging. */ char *lastMessage; #ifdef DEBUG void *tracefp; #endif /* Per-context optional user callbacks. */ JSBranchCallback branchCallback; JSErrorReporter errorReporter; /* Interpreter activation count. */ uintN interpLevel; /* Client opaque pointer */ void *data; /* GC and thread-safe state. */ JSStackFrame *dormantFrameChain; /* dormant stack frame to scan */ #ifdef JS_THREADSAFE JSThread *thread; jsrefcount requestDepth; /* Same as requestDepth but ignoring JS_SuspendRequest/JS_ResumeRequest */ jsrefcount outstandingRequests; JSScope *scopeToShare; /* weak reference, see jslock.c */ JSScope *lockedSealedScope; /* weak ref, for low-cost sealed scope locking */ JSCList threadLinks; /* JSThread contextList linkage */ #define CX_FROM_THREAD_LINKS(tl) \ ((JSContext *)((char *)(tl) - offsetof(JSContext, threadLinks))) #endif /* PDL of stack headers describing stack slots not rooted by argv, etc. */ JSStackHeader *stackHeaders; /* Optional stack of heap-allocated scoped local GC roots. */ JSLocalRootStack *localRootStack; /* Stack of thread-stack-allocated temporary GC roots. */ JSTempValueRooter *tempValueRooters; /* Debug hooks associated with the current context. */ JSDebugHooks *debugHooks; }; #ifdef JS_THREADSAFE # define JS_THREAD_ID(cx) ((cx)->thread ? (cx)->thread->id : 0) #endif #ifdef __cplusplus /* FIXME(bug 332648): Move this into a public header. */ class JSAutoTempValueRooter { public: JSAutoTempValueRooter(JSContext *cx, size_t len, jsval *vec) : mContext(cx) { JS_PUSH_TEMP_ROOT(mContext, len, vec, &mTvr); } JSAutoTempValueRooter(JSContext *cx, jsval v) : mContext(cx) { JS_PUSH_SINGLE_TEMP_ROOT(mContext, v, &mTvr); } ~JSAutoTempValueRooter() { JS_POP_TEMP_ROOT(mContext, &mTvr); } private: static void *operator new(size_t); static void operator delete(void *, size_t); JSContext *mContext; JSTempValueRooter mTvr; }; #endif /* * Slightly more readable macros for testing per-context option settings (also * to hide bitset implementation detail). * * JSOPTION_XML must be handled specially in order to propagate from compile- * to run-time (from cx->options to script->version/cx->version). To do that, * we copy JSOPTION_XML from cx->options into cx->version as JSVERSION_HAS_XML * whenever options are set, and preserve this XML flag across version number * changes done via the JS_SetVersion API. * * But when executing a script or scripted function, the interpreter changes * cx->version, including the XML flag, to script->version. Thus JSOPTION_XML * is a compile-time option that causes a run-time version change during each * activation of the compiled script. That version change has the effect of * changing JS_HAS_XML_OPTION, so that any compiling done via eval enables XML * support. If an XML-enabled script or function calls a non-XML function, * the flag bit will be cleared during the callee's activation. * * Note that JS_SetVersion API calls never pass JSVERSION_HAS_XML or'd into * that API's version parameter. * * Note also that script->version must contain this XML option flag in order * for XDR'ed scripts to serialize and deserialize with that option preserved * for detection at run-time. We can't copy other compile-time options into * script->version because that would break backward compatibility (certain * other options, e.g. JSOPTION_VAROBJFIX, are analogous to JSOPTION_XML). */ #define JS_HAS_OPTION(cx,option) (((cx)->options & (option)) != 0) #define JS_HAS_STRICT_OPTION(cx) JS_HAS_OPTION(cx, JSOPTION_STRICT) #define JS_HAS_WERROR_OPTION(cx) JS_HAS_OPTION(cx, JSOPTION_WERROR) #define JS_HAS_COMPILE_N_GO_OPTION(cx) JS_HAS_OPTION(cx, JSOPTION_COMPILE_N_GO) #define JS_HAS_ATLINE_OPTION(cx) JS_HAS_OPTION(cx, JSOPTION_ATLINE) #define JSVERSION_MASK 0x0FFF /* see JSVersion in jspubtd.h */ #define JSVERSION_HAS_XML 0x1000 /* flag induced by XML option */ #define JSVERSION_NUMBER(cx) ((JSVersion)((cx)->version & \ JSVERSION_MASK)) #define JS_HAS_XML_OPTION(cx) ((cx)->version & JSVERSION_HAS_XML || \ JSVERSION_NUMBER(cx) >= JSVERSION_1_6) #define JS_HAS_NATIVE_BRANCH_CALLBACK_OPTION(cx) \ JS_HAS_OPTION(cx, JSOPTION_NATIVE_BRANCH_CALLBACK) /* * Initialize a library-wide thread private data index, and remember that it * has already been done, so that it happens only once ever. Returns true on * success. */ extern JSBool js_InitThreadPrivateIndex(void (JS_DLL_CALLBACK *ptr)(void *)); /* * Common subroutine of JS_SetVersion and js_SetVersion, to update per-context * data that depends on version. */ extern void js_OnVersionChange(JSContext *cx); /* * Unlike the JS_SetVersion API, this function stores JSVERSION_HAS_XML and * any future non-version-number flags induced by compiler options. */ extern void js_SetVersion(JSContext *cx, JSVersion version); /* * Create and destroy functions for JSContext, which is manually allocated * and exclusively owned. */ extern JSContext * js_NewContext(JSRuntime *rt, size_t stackChunkSize); extern void js_DestroyContext(JSContext *cx, JSDestroyContextMode mode); /* * Return true if cx points to a context in rt->contextList, else return false. * NB: the caller (see jslock.c:ClaimScope) must hold rt->gcLock. */ extern JSBool js_ValidContextPointer(JSRuntime *rt, JSContext *cx); /* * If unlocked, acquire and release rt->gcLock around *iterp update; otherwise * the caller must be holding rt->gcLock. */ extern JSContext * js_ContextIterator(JSRuntime *rt, JSBool unlocked, JSContext **iterp); /* * JSClass.resolve and watchpoint recursion damping machinery. */ extern JSBool js_StartResolving(JSContext *cx, JSResolvingKey *key, uint32 flag, JSResolvingEntry **entryp); extern void js_StopResolving(JSContext *cx, JSResolvingKey *key, uint32 flag, JSResolvingEntry *entry, uint32 generation); /* * Local root set management. * * NB: the jsval parameters below may be properly tagged jsvals, or GC-thing * pointers cast to (jsval). This relies on JSObject's tag being zero, but * on the up side it lets us push int-jsval-encoded scopeMark values on the * local root stack. */ extern JSBool js_EnterLocalRootScope(JSContext *cx); #define js_LeaveLocalRootScope(cx) \ js_LeaveLocalRootScopeWithResult(cx, JSVAL_NULL) extern void js_LeaveLocalRootScopeWithResult(JSContext *cx, jsval rval); extern void js_ForgetLocalRoot(JSContext *cx, jsval v); extern int js_PushLocalRoot(JSContext *cx, JSLocalRootStack *lrs, jsval v); extern void js_TraceLocalRoots(JSTracer *trc, JSLocalRootStack *lrs); /* * Report an exception, which is currently realized as a printf-style format * string and its arguments. */ typedef enum JSErrNum { #define MSG_DEF(name, number, count, exception, format) \ name = number, #include "js.msg" #undef MSG_DEF JSErr_Limit } JSErrNum; extern const JSErrorFormatString * js_GetErrorMessage(void *userRef, const char *locale, const uintN errorNumber); #ifdef va_start extern JSBool js_ReportErrorVA(JSContext *cx, uintN flags, const char *format, va_list ap); extern JSBool js_ReportErrorNumberVA(JSContext *cx, uintN flags, JSErrorCallback callback, void *userRef, const uintN errorNumber, JSBool charArgs, va_list ap); extern JSBool js_ExpandErrorArguments(JSContext *cx, JSErrorCallback callback, void *userRef, const uintN errorNumber, char **message, JSErrorReport *reportp, JSBool *warningp, JSBool charArgs, va_list ap); #endif extern void js_ReportOutOfMemory(JSContext *cx); /* * Report an exception using a previously composed JSErrorReport. * XXXbe remove from "friend" API */ extern JS_FRIEND_API(void) js_ReportErrorAgain(JSContext *cx, const char *message, JSErrorReport *report); extern void js_ReportIsNotDefined(JSContext *cx, const char *name); /* * Report error using js_DecompileValueGenerator(cx, spindex, v, fallback) as * the first argument for the error message. If the error message has less * then 3 arguments, use null for arg1 or arg2. */ extern JSBool js_ReportValueErrorFlags(JSContext *cx, uintN flags, const uintN errorNumber, intN spindex, jsval v, JSString *fallback, const char *arg1, const char *arg2); #define js_ReportValueError(cx,errorNumber,spindex,v,fallback) \ ((void)js_ReportValueErrorFlags(cx, JSREPORT_ERROR, errorNumber, \ spindex, v, fallback, NULL, NULL)) #define js_ReportValueError2(cx,errorNumber,spindex,v,fallback,arg1) \ ((void)js_ReportValueErrorFlags(cx, JSREPORT_ERROR, errorNumber, \ spindex, v, fallback, arg1, NULL)) #define js_ReportValueError3(cx,errorNumber,spindex,v,fallback,arg1,arg2) \ ((void)js_ReportValueErrorFlags(cx, JSREPORT_ERROR, errorNumber, \ spindex, v, fallback, arg1, arg2)) extern JSErrorFormatString js_ErrorFormatString[JSErr_Limit]; /* * See JS_SetThreadStackLimit in jsapi.c, where we check that the stack grows * in the expected direction. On Unix-y systems, JS_STACK_GROWTH_DIRECTION is * computed on the build host by jscpucfg.c and written into jsautocfg.h. The * macro is hardcoded in jscpucfg.h on Windows and Mac systems (for historical * reasons pre-dating autoconf usage). */ #if JS_STACK_GROWTH_DIRECTION > 0 # define JS_CHECK_STACK_SIZE(cx, lval) ((jsuword)&(lval) < (cx)->stackLimit) #else # define JS_CHECK_STACK_SIZE(cx, lval) ((jsuword)&(lval) > (cx)->stackLimit) #endif /* Relative operations weights. */ #define JSOW_JUMP 1 #define JSOW_ALLOCATION 100 #define JSOW_LOOKUP_PROPERTY 5 #define JSOW_GET_PROPERTY 10 #define JSOW_SET_PROPERTY 20 #define JSOW_NEW_PROPERTY 200 #define JSOW_DELETE_PROPERTY 30 #define JSOW_BRANCH_CALLBACK JS_BIT(12) /* * The implementation of JS_COUNT_OPERATION macro below assumes that * JSOW_BRANCH_CALLBACK is a power of two to ensures that an unsigned int * overflow does not bring the counter below JSOW_BRANCH_CALLBACK limit. */ JS_STATIC_ASSERT((JSOW_BRANCH_CALLBACK & (JSOW_BRANCH_CALLBACK - 1)) == 0); /* * Update the operation counter according the specified weight. This macro * does not call the branch callback or any API. */ #define JS_COUNT_OPERATION(cx, weight) \ ((void)(JS_ASSERT((weight) > 0), \ JS_ASSERT((weight) <= JSOW_BRANCH_CALLBACK), \ (cx)->operationCounter = (((cx)->operationCounter + (weight)) | \ (~(JSOW_BRANCH_CALLBACK - 1) & \ (cx)->operationCounter)))) /* * Update the operation counter and call the branch callback when it reaches * JSOW_BRANCH_CALLBACK limit. This macro can run the full GC. Return true if * it is OK to continue and false otherwise. */ #define JS_CHECK_OPERATION_LIMIT(cx, weight) \ (JS_COUNT_OPERATION(cx, weight), \ ((cx)->operationCounter < JSOW_BRANCH_CALLBACK || \ js_ResetOperationCounter(cx))) /* * Reset the operation counter and call branch callback assuming that the * operation limit is reached. */ extern JSBool js_ResetOperationCounter(JSContext *cx); JS_END_EXTERN_C #endif /* jscntxt_h___ */