/* -*- 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/. */ /* * JS execution context. */ #include "jscntxt.h" #include #include #include #include "mozilla/DebugOnly.h" #ifdef ANDROID # include # include # include #endif // ANDROID #include "mozilla/Util.h" #include "jstypes.h" #include "jsprf.h" #include "jsatom.h" #include "jscompartment.h" #include "jsdbgapi.h" #include "jsexn.h" #include "jsfun.h" #include "jsgc.h" #include "jsiter.h" #include "jsmath.h" #include "jsobj.h" #include "jsopcode.h" #include "jspubtd.h" #include "jsscript.h" #include "jsstr.h" #include "jsworkers.h" #ifdef JS_ION #include "jit/Ion.h" #endif #include "gc/Marking.h" #include "js/CharacterEncoding.h" #include "js/MemoryMetrics.h" #include "vm/Shape.h" #include "yarr/BumpPointerAllocator.h" #include "jscntxtinlines.h" #include "jsobjinlines.h" using namespace js; using namespace js::gc; using mozilla::DebugOnly; using mozilla::PodArrayZero; using mozilla::PodZero; using mozilla::PointerRangeSize; bool js::AutoCycleDetector::init() { ObjectSet &set = cx->cycleDetectorSet; hashsetAddPointer = set.lookupForAdd(obj); if (!hashsetAddPointer) { if (!set.add(hashsetAddPointer, obj)) return false; cyclic = false; hashsetGenerationAtInit = set.generation(); } return true; } js::AutoCycleDetector::~AutoCycleDetector() { if (!cyclic) { if (hashsetGenerationAtInit == cx->cycleDetectorSet.generation()) cx->cycleDetectorSet.remove(hashsetAddPointer); else cx->cycleDetectorSet.remove(obj); } } void js::TraceCycleDetectionSet(JSTracer *trc, js::ObjectSet &set) { for (js::ObjectSet::Enum e(set); !e.empty(); e.popFront()) { JSObject *prior = e.front(); MarkObjectRoot(trc, const_cast(&e.front()), "cycle detector table entry"); if (prior != e.front()) e.rekeyFront(e.front()); } } void NewObjectCache::clearNurseryObjects(JSRuntime *rt) { for (unsigned i = 0; i < mozilla::ArrayLength(entries); ++i) { if (IsInsideNursery(rt, entries[i].key)) mozilla::PodZero(&entries[i]); } } void JSRuntime::sizeOfIncludingThis(JSMallocSizeOfFun mallocSizeOf, JS::RuntimeSizes *rtSizes) { rtSizes->object = mallocSizeOf(this); rtSizes->atomsTable = atoms.sizeOfExcludingThis(mallocSizeOf); rtSizes->contexts = 0; for (ContextIter acx(this); !acx.done(); acx.next()) rtSizes->contexts += acx->sizeOfIncludingThis(mallocSizeOf); rtSizes->dtoa = mallocSizeOf(dtoaState); rtSizes->temporary = tempLifoAlloc.sizeOfExcludingThis(mallocSizeOf); rtSizes->code = JS::CodeSizes(); if (execAlloc_) execAlloc_->sizeOfCode(&rtSizes->code); rtSizes->regexpData = bumpAlloc_ ? bumpAlloc_->sizeOfNonHeapData() : 0; rtSizes->interpreterStack = interpreterStack_.sizeOfExcludingThis(mallocSizeOf); rtSizes->gcMarker = gcMarker.sizeOfExcludingThis(mallocSizeOf); rtSizes->mathCache = mathCache_ ? mathCache_->sizeOfIncludingThis(mallocSizeOf) : 0; rtSizes->scriptData = scriptDataTable.sizeOfExcludingThis(mallocSizeOf); for (ScriptDataTable::Range r = scriptDataTable.all(); !r.empty(); r.popFront()) rtSizes->scriptData += mallocSizeOf(r.front()); } void JSRuntime::triggerOperationCallback() { AutoLockForOperationCallback lock(this); /* * Invalidate ionTop to trigger its over-recursion check. Note this must be * set before interrupt, to avoid racing with js_InvokeOperationCallback, * into a weird state where interrupt is stuck at 0 but ionStackLimit is * MAXADDR. */ mainThread.setIonStackLimit(-1); /* * Use JS_ATOMIC_SET in the hope that it ensures the write will become * immediately visible to other processors polling the flag. */ JS_ATOMIC_SET(&interrupt, 1); #ifdef JS_ION /* asm.js code uses a separate mechanism to halt running code. */ TriggerOperationCallbackForAsmJSCode(this); #endif } void JSRuntime::setJitHardening(bool enabled) { jitHardening = enabled; if (execAlloc_) execAlloc_->setRandomize(enabled); } JSC::ExecutableAllocator * JSRuntime::createExecutableAllocator(JSContext *cx) { JS_ASSERT(!execAlloc_); JS_ASSERT(cx->runtime() == this); JSC::AllocationBehavior randomize = jitHardening ? JSC::AllocationCanRandomize : JSC::AllocationDeterministic; execAlloc_ = js_new(randomize); if (!execAlloc_) js_ReportOutOfMemory(cx); return execAlloc_; } WTF::BumpPointerAllocator * JSRuntime::createBumpPointerAllocator(JSContext *cx) { JS_ASSERT(!bumpAlloc_); JS_ASSERT(cx->runtime() == this); bumpAlloc_ = js_new(); if (!bumpAlloc_) js_ReportOutOfMemory(cx); return bumpAlloc_; } MathCache * JSRuntime::createMathCache(JSContext *cx) { JS_ASSERT(!mathCache_); JS_ASSERT(cx->runtime() == this); MathCache *newMathCache = js_new(); if (!newMathCache) { js_ReportOutOfMemory(cx); return NULL; } mathCache_ = newMathCache; return mathCache_; } void JSCompartment::sweepCallsiteClones() { if (callsiteClones.initialized()) { for (CallsiteCloneTable::Enum e(callsiteClones); !e.empty(); e.popFront()) { CallsiteCloneKey key = e.front().key; JSFunction *fun = e.front().value; if (!IsScriptMarked(&key.script) || !IsObjectMarked(&fun)) e.removeFront(); } } } JSFunction * js::CloneFunctionAtCallsite(JSContext *cx, HandleFunction fun, HandleScript script, jsbytecode *pc) { JS_ASSERT(cx->typeInferenceEnabled()); JS_ASSERT(fun->nonLazyScript()->shouldCloneAtCallsite); JS_ASSERT(!fun->nonLazyScript()->enclosingStaticScope()); JS_ASSERT(types::UseNewTypeForClone(fun)); typedef CallsiteCloneKey Key; typedef CallsiteCloneTable Table; Table &table = cx->compartment()->callsiteClones; if (!table.initialized() && !table.init()) return NULL; uint32_t offset = pc - script->code; void* originalScript = script; void* originalFun = fun; SkipRoot skipScript(cx, &originalScript); SkipRoot skipFun(cx, &originalFun); Table::AddPtr p = table.lookupForAdd(Key(fun, script, offset)); SkipRoot skipHash(cx, &p); /* Prevent the hash from being poisoned. */ if (p) return p->value; RootedObject parent(cx, fun->environment()); RootedFunction clone(cx, CloneFunctionObject(cx, fun, parent)); if (!clone) return NULL; /* * Store a link back to the original for function.caller and avoid cloning * clones. */ clone->nonLazyScript()->shouldCloneAtCallsite = false; clone->nonLazyScript()->isCallsiteClone = true; clone->nonLazyScript()->setOriginalFunctionObject(fun); Key key(fun, script, offset); /* Recalculate the hash if script or fun have been moved. */ if (script != originalScript || fun != originalFun) { p = table.lookupForAdd(key); JS_ASSERT(!p); } if (!table.relookupOrAdd(p, key, clone.get())) return NULL; return clone; } JSContext * js::NewContext(JSRuntime *rt, size_t stackChunkSize) { JS_AbortIfWrongThread(rt); JSContext *cx = js_new(rt); if (!cx) return NULL; if (!cx->cycleDetectorSet.init()) { js_delete(cx); return NULL; } /* * Here the GC lock is still held after js_InitContextThreadAndLockGC took it and * the GC is not running on another thread. */ bool first = rt->contextList.isEmpty(); rt->contextList.insertBack(cx); /* * If cx is the first context on this runtime, initialize well-known atoms, * keywords, numbers, strings and self-hosted scripts. If one of these * steps should fail, the runtime will be left in a partially initialized * state, with zeroes and nulls stored in the default-initialized remainder * of the struct. We'll clean the runtime up under DestroyContext, because * cx will be "last" as well as "first". */ if (first) { #ifdef JS_THREADSAFE JS_BeginRequest(cx); #endif bool ok = rt->staticStrings.init(cx); if (ok) ok = InitCommonNames(cx); if (ok) ok = rt->initSelfHosting(cx); #ifdef JS_THREADSAFE JS_EndRequest(cx); #endif if (!ok) { DestroyContext(cx, DCM_NEW_FAILED); return NULL; } } JSContextCallback cxCallback = rt->cxCallback; if (cxCallback && !cxCallback(cx, JSCONTEXT_NEW)) { DestroyContext(cx, DCM_NEW_FAILED); return NULL; } return cx; } void js::DestroyContext(JSContext *cx, DestroyContextMode mode) { JSRuntime *rt = cx->runtime(); JS_AbortIfWrongThread(rt); #ifdef JS_THREADSAFE if (cx->outstandingRequests != 0) MOZ_CRASH(); #endif #if (defined(JSGC_ROOT_ANALYSIS) || defined(JSGC_USE_EXACT_ROOTING)) && defined(DEBUG) for (int i = 0; i < THING_ROOT_LIMIT; ++i) JS_ASSERT(cx->thingGCRooters[i] == NULL); #endif if (mode != DCM_NEW_FAILED) { if (JSContextCallback cxCallback = rt->cxCallback) { /* * JSCONTEXT_DESTROY callback is not allowed to fail and must * return true. */ JS_ALWAYS_TRUE(cxCallback(cx, JSCONTEXT_DESTROY)); } } cx->remove(); bool last = !rt->hasContexts(); if (last) { JS_ASSERT(!rt->isHeapBusy()); /* * Dump remaining type inference results first. This printing * depends on atoms still existing. */ for (CompartmentsIter c(rt); !c.done(); c.next()) c->types.print(cx, false); /* Off thread ion compilations depend on atoms still existing. */ for (CompartmentsIter c(rt); !c.done(); c.next()) CancelOffThreadIonCompile(c, NULL); /* Unpin all common names before final GC. */ FinishCommonNames(rt); /* Clear debugging state to remove GC roots. */ for (CompartmentsIter c(rt); !c.done(); c.next()) c->clearTraps(rt->defaultFreeOp()); JS_ClearAllWatchPoints(cx); /* Clear the statics table to remove GC roots. */ rt->staticStrings.finish(); JS::PrepareForFullGC(rt); GC(rt, GC_NORMAL, JS::gcreason::LAST_CONTEXT); /* * Clear the self-hosted global and delete self-hosted classes *after* * GC, as finalizers for objects check for clasp->finalize during GC. */ rt->finishSelfHosting(); } else if (mode == DCM_FORCE_GC) { JS_ASSERT(!rt->isHeapBusy()); JS::PrepareForFullGC(rt); GC(rt, GC_NORMAL, JS::gcreason::DESTROY_CONTEXT); } js_delete_poison(cx); } bool AutoResolving::alreadyStartedSlow() const { JS_ASSERT(link); AutoResolving *cursor = link; do { JS_ASSERT(this != cursor); if (object.get() == cursor->object && id.get() == cursor->id && kind == cursor->kind) return true; } while (!!(cursor = cursor->link)); return false; } static void ReportError(JSContext *cx, const char *message, JSErrorReport *reportp, JSErrorCallback callback, void *userRef) { /* * Check the error report, and set a JavaScript-catchable exception * if the error is defined to have an associated exception. If an * exception is thrown, then the JSREPORT_EXCEPTION flag will be set * on the error report, and exception-aware hosts should ignore it. */ JS_ASSERT(reportp); if ((!callback || callback == js_GetErrorMessage) && reportp->errorNumber == JSMSG_UNCAUGHT_EXCEPTION) reportp->flags |= JSREPORT_EXCEPTION; /* * Call the error reporter only if an exception wasn't raised. * * If an exception was raised, then we call the debugErrorHook * (if present) to give it a chance to see the error before it * propagates out of scope. This is needed for compatibility * with the old scheme. */ if (!JS_IsRunning(cx) || !js_ErrorToException(cx, message, reportp, callback, userRef)) { js_ReportErrorAgain(cx, message, reportp); } else if (JSDebugErrorHook hook = cx->runtime()->debugHooks.debugErrorHook) { /* * If we've already chewed up all the C stack, don't call into the * error reporter since this may trigger an infinite recursion where * the reporter triggers an over-recursion. */ int stackDummy; if (!JS_CHECK_STACK_SIZE(cx->mainThread().nativeStackLimit, &stackDummy)) return; if (cx->errorReporter) hook(cx, message, reportp, cx->runtime()->debugHooks.debugErrorHookData); } } /* * The given JSErrorReport object have been zeroed and must not outlive * cx->fp() (otherwise report->originPrincipals may become invalid). */ static void PopulateReportBlame(JSContext *cx, JSErrorReport *report) { /* * Walk stack until we find a frame that is associated with a non-builtin * rather than a builtin frame. */ NonBuiltinScriptFrameIter iter(cx); if (iter.done()) return; report->filename = iter.script()->filename(); report->lineno = PCToLineNumber(iter.script(), iter.pc(), &report->column); report->originPrincipals = iter.script()->originPrincipals; } /* * Since memory has been exhausted, avoid the normal error-handling path which * allocates an error object, report and callstack. If code is running, simply * throw the static atom "out of memory". If code is not running, call the * error reporter directly. * * Furthermore, callers of js_ReportOutOfMemory (viz., malloc) assume a GC does * not occur, so GC must be avoided or suppressed. */ void js_ReportOutOfMemory(JSContext *cx) { cx->runtime()->hadOutOfMemory = true; if (JS_IsRunning(cx)) { cx->setPendingException(StringValue(cx->names().outOfMemory)); return; } /* Get the message for this error, but we don't expand any arguments. */ const JSErrorFormatString *efs = js_GetLocalizedErrorMessage(cx, NULL, NULL, JSMSG_OUT_OF_MEMORY); const char *msg = efs ? efs->format : "Out of memory"; /* Fill out the report, but don't do anything that requires allocation. */ JSErrorReport report; PodZero(&report); report.flags = JSREPORT_ERROR; report.errorNumber = JSMSG_OUT_OF_MEMORY; PopulateReportBlame(cx, &report); /* Report the error. */ if (JSErrorReporter onError = cx->errorReporter) { AutoSuppressGC suppressGC(cx); onError(cx, msg, &report); } } JS_FRIEND_API(void) js_ReportOverRecursed(JSContext *maybecx) { #ifdef JS_MORE_DETERMINISTIC /* * We cannot make stack depth deterministic across different * implementations (e.g. JIT vs. interpreter will differ in * their maximum stack depth). * However, we can detect externally when we hit the maximum * stack depth which is useful for external testing programs * like fuzzers. */ fprintf(stderr, "js_ReportOverRecursed called\n"); #endif if (maybecx) JS_ReportErrorNumber(maybecx, js_GetErrorMessage, NULL, JSMSG_OVER_RECURSED); } void js_ReportAllocationOverflow(JSContext *maybecx) { if (maybecx) { AutoSuppressGC suppressGC(maybecx); JS_ReportErrorNumber(maybecx, js_GetErrorMessage, NULL, JSMSG_ALLOC_OVERFLOW); } } /* * Given flags and the state of cx, decide whether we should report an * error, a warning, or just continue execution normally. Return * true if we should continue normally, without reporting anything; * otherwise, adjust *flags as appropriate and return false. */ static bool checkReportFlags(JSContext *cx, unsigned *flags) { if (JSREPORT_IS_STRICT_MODE_ERROR(*flags)) { /* * Error in strict code; warning with extra warnings option; okay * otherwise. We assume that if the top frame is a native, then it is * strict if the nearest scripted frame is strict, see bug 536306. */ JSScript *script = cx->currentScript(); if (script && script->strict) *flags &= ~JSREPORT_WARNING; else if (cx->hasExtraWarningsOption()) *flags |= JSREPORT_WARNING; else return true; } else if (JSREPORT_IS_STRICT(*flags)) { /* Warning/error only when JSOPTION_STRICT is set. */ if (!cx->hasExtraWarningsOption()) return true; } /* Warnings become errors when JSOPTION_WERROR is set. */ if (JSREPORT_IS_WARNING(*flags) && cx->hasWErrorOption()) *flags &= ~JSREPORT_WARNING; return false; } JSBool js_ReportErrorVA(JSContext *cx, unsigned flags, const char *format, va_list ap) { char *message; jschar *ucmessage; size_t messagelen; JSErrorReport report; JSBool warning; if (checkReportFlags(cx, &flags)) return JS_TRUE; message = JS_vsmprintf(format, ap); if (!message) return JS_FALSE; messagelen = strlen(message); PodZero(&report); report.flags = flags; report.errorNumber = JSMSG_USER_DEFINED_ERROR; report.ucmessage = ucmessage = InflateString(cx, message, &messagelen); PopulateReportBlame(cx, &report); warning = JSREPORT_IS_WARNING(report.flags); ReportError(cx, message, &report, NULL, NULL); js_free(message); js_free(ucmessage); return warning; } /* |callee| requires a usage string provided by JS_DefineFunctionsWithHelp. */ void js::ReportUsageError(JSContext *cx, HandleObject callee, const char *msg) { const char *usageStr = "usage"; PropertyName *usageAtom = Atomize(cx, usageStr, strlen(usageStr))->asPropertyName(); RootedId id(cx, NameToId(usageAtom)); DebugOnly shape = static_cast(callee->nativeLookup(cx, id)); JS_ASSERT(!shape->configurable()); JS_ASSERT(!shape->writable()); JS_ASSERT(shape->hasDefaultGetter()); RootedValue usage(cx); if (!JS_LookupProperty(cx, callee, "usage", usage.address())) return; if (JSVAL_IS_VOID(usage)) { JS_ReportError(cx, "%s", msg); } else { JSString *str = JSVAL_TO_STRING(usage); JS::Anchor a_str(str); const jschar *chars = JS_GetStringCharsZ(cx, str); if (!chars) return; JS_ReportError(cx, "%s. Usage: %hs", msg, chars); } } bool js::PrintError(JSContext *cx, FILE *file, const char *message, JSErrorReport *report, bool reportWarnings) { if (!report) { fprintf(file, "%s\n", message); fflush(file); return false; } /* Conditionally ignore reported warnings. */ if (JSREPORT_IS_WARNING(report->flags) && !reportWarnings) return false; char *prefix = NULL; if (report->filename) prefix = JS_smprintf("%s:", report->filename); if (report->lineno) { char *tmp = prefix; prefix = JS_smprintf("%s%u:%u ", tmp ? tmp : "", report->lineno, report->column); JS_free(cx, tmp); } if (JSREPORT_IS_WARNING(report->flags)) { char *tmp = prefix; prefix = JS_smprintf("%s%swarning: ", tmp ? tmp : "", JSREPORT_IS_STRICT(report->flags) ? "strict " : ""); JS_free(cx, tmp); } /* embedded newlines -- argh! */ const char *ctmp; while ((ctmp = strchr(message, '\n')) != 0) { ctmp++; if (prefix) fputs(prefix, file); fwrite(message, 1, ctmp - message, file); message = ctmp; } /* If there were no filename or lineno, the prefix might be empty */ if (prefix) fputs(prefix, file); fputs(message, file); if (report->linebuf) { /* report->linebuf usually ends with a newline. */ int n = strlen(report->linebuf); fprintf(file, ":\n%s%s%s%s", prefix, report->linebuf, (n > 0 && report->linebuf[n-1] == '\n') ? "" : "\n", prefix); n = report->tokenptr - report->linebuf; for (int i = 0, j = 0; i < n; i++) { if (report->linebuf[i] == '\t') { for (int k = (j + 8) & ~7; j < k; j++) { fputc('.', file); } continue; } fputc('.', file); j++; } fputc('^', file); } fputc('\n', file); fflush(file); JS_free(cx, prefix); return true; } char * js_strdup(JSContext *cx, const char *s) { size_t n = strlen(s) + 1; void *p = cx->malloc_(n); if (!p) return NULL; return (char *)js_memcpy(p, s, n); } /* * The arguments from ap need to be packaged up into an array and stored * into the report struct. * * The format string addressed by the error number may contain operands * identified by the format {N}, where N is a decimal digit. Each of these * is to be replaced by the Nth argument from the va_list. The complete * message is placed into reportp->ucmessage converted to a JSString. * * Returns true if the expansion succeeds (can fail if out of memory). */ JSBool js_ExpandErrorArguments(JSContext *cx, JSErrorCallback callback, void *userRef, const unsigned errorNumber, char **messagep, JSErrorReport *reportp, ErrorArgumentsType argumentsType, va_list ap) { const JSErrorFormatString *efs; int i; int argCount; bool messageArgsPassed = !!reportp->messageArgs; *messagep = NULL; /* Most calls supply js_GetErrorMessage; if this is so, assume NULL. */ if (!callback || callback == js_GetErrorMessage) efs = js_GetLocalizedErrorMessage(cx, userRef, NULL, errorNumber); else efs = callback(userRef, NULL, errorNumber); if (efs) { reportp->exnType = efs->exnType; size_t totalArgsLength = 0; size_t argLengths[10]; /* only {0} thru {9} supported */ argCount = efs->argCount; JS_ASSERT(argCount <= 10); if (argCount > 0) { /* * Gather the arguments into an array, and accumulate * their sizes. We allocate 1 more than necessary and * null it out to act as the caboose when we free the * pointers later. */ if (messageArgsPassed) { JS_ASSERT(!reportp->messageArgs[argCount]); } else { reportp->messageArgs = cx->pod_malloc(argCount + 1); if (!reportp->messageArgs) return JS_FALSE; /* NULL-terminate for easy copying. */ reportp->messageArgs[argCount] = NULL; } for (i = 0; i < argCount; i++) { if (messageArgsPassed) { /* Do nothing. */ } else if (argumentsType == ArgumentsAreASCII) { char *charArg = va_arg(ap, char *); size_t charArgLength = strlen(charArg); reportp->messageArgs[i] = InflateString(cx, charArg, &charArgLength); if (!reportp->messageArgs[i]) goto error; } else { reportp->messageArgs[i] = va_arg(ap, jschar *); } argLengths[i] = js_strlen(reportp->messageArgs[i]); totalArgsLength += argLengths[i]; } } /* * Parse the error format, substituting the argument X * for {X} in the format. */ if (argCount > 0) { if (efs->format) { jschar *buffer, *fmt, *out; int expandedArgs = 0; size_t expandedLength; size_t len = strlen(efs->format); buffer = fmt = InflateString(cx, efs->format, &len); if (!buffer) goto error; expandedLength = len - (3 * argCount) /* exclude the {n} */ + totalArgsLength; /* * Note - the above calculation assumes that each argument * is used once and only once in the expansion !!! */ reportp->ucmessage = out = cx->pod_malloc(expandedLength + 1); if (!out) { js_free(buffer); goto error; } while (*fmt) { if (*fmt == '{') { if (isdigit(fmt[1])) { int d = JS7_UNDEC(fmt[1]); JS_ASSERT(d < argCount); js_strncpy(out, reportp->messageArgs[d], argLengths[d]); out += argLengths[d]; fmt += 3; expandedArgs++; continue; } } *out++ = *fmt++; } JS_ASSERT(expandedArgs == argCount); *out = 0; js_free(buffer); TwoByteChars ucmsg(reportp->ucmessage, PointerRangeSize(static_cast(reportp->ucmessage), static_cast(out))); *messagep = LossyTwoByteCharsToNewLatin1CharsZ(cx, ucmsg).c_str(); if (!*messagep) goto error; } } else { /* Non-null messageArgs should have at least one non-null arg. */ JS_ASSERT(!reportp->messageArgs); /* * Zero arguments: the format string (if it exists) is the * entire message. */ if (efs->format) { size_t len; *messagep = JS_strdup(cx, efs->format); if (!*messagep) goto error; len = strlen(*messagep); reportp->ucmessage = InflateString(cx, *messagep, &len); if (!reportp->ucmessage) goto error; } } } if (*messagep == NULL) { /* where's the right place for this ??? */ const char *defaultErrorMessage = "No error message available for error number %d"; size_t nbytes = strlen(defaultErrorMessage) + 16; *messagep = cx->pod_malloc(nbytes); if (!*messagep) goto error; JS_snprintf(*messagep, nbytes, defaultErrorMessage, errorNumber); } return JS_TRUE; error: if (!messageArgsPassed && reportp->messageArgs) { /* free the arguments only if we allocated them */ if (argumentsType == ArgumentsAreASCII) { i = 0; while (reportp->messageArgs[i]) js_free((void *)reportp->messageArgs[i++]); } js_free((void *)reportp->messageArgs); reportp->messageArgs = NULL; } if (reportp->ucmessage) { js_free((void *)reportp->ucmessage); reportp->ucmessage = NULL; } if (*messagep) { js_free((void *)*messagep); *messagep = NULL; } return JS_FALSE; } JSBool js_ReportErrorNumberVA(JSContext *cx, unsigned flags, JSErrorCallback callback, void *userRef, const unsigned errorNumber, ErrorArgumentsType argumentsType, va_list ap) { JSErrorReport report; char *message; JSBool warning; if (checkReportFlags(cx, &flags)) return JS_TRUE; warning = JSREPORT_IS_WARNING(flags); PodZero(&report); report.flags = flags; report.errorNumber = errorNumber; PopulateReportBlame(cx, &report); if (!js_ExpandErrorArguments(cx, callback, userRef, errorNumber, &message, &report, argumentsType, ap)) { return JS_FALSE; } ReportError(cx, message, &report, callback, userRef); if (message) js_free(message); if (report.messageArgs) { /* * js_ExpandErrorArguments owns its messageArgs only if it had to * inflate the arguments (from regular |char *|s). */ if (argumentsType == ArgumentsAreASCII) { int i = 0; while (report.messageArgs[i]) js_free((void *)report.messageArgs[i++]); } js_free((void *)report.messageArgs); } if (report.ucmessage) js_free((void *)report.ucmessage); return warning; } bool js_ReportErrorNumberUCArray(JSContext *cx, unsigned flags, JSErrorCallback callback, void *userRef, const unsigned errorNumber, const jschar **args) { if (checkReportFlags(cx, &flags)) return true; bool warning = JSREPORT_IS_WARNING(flags); JSErrorReport report; PodZero(&report); report.flags = flags; report.errorNumber = errorNumber; PopulateReportBlame(cx, &report); report.messageArgs = args; char *message; va_list dummy; if (!js_ExpandErrorArguments(cx, callback, userRef, errorNumber, &message, &report, ArgumentsAreUnicode, dummy)) { return false; } ReportError(cx, message, &report, callback, userRef); if (message) js_free(message); if (report.ucmessage) js_free((void *)report.ucmessage); return warning; } JS_FRIEND_API(void) js_ReportErrorAgain(JSContext *cx, const char *message, JSErrorReport *reportp) { JSErrorReporter onError; if (!message) return; onError = cx->errorReporter; /* * If debugErrorHook is present then we give it a chance to veto * sending the error on to the regular ErrorReporter. */ if (onError) { JSDebugErrorHook hook = cx->runtime()->debugHooks.debugErrorHook; if (hook && !hook(cx, message, reportp, cx->runtime()->debugHooks.debugErrorHookData)) onError = NULL; } if (onError) onError(cx, message, reportp); } void js_ReportIsNotDefined(JSContext *cx, const char *name) { JS_ReportErrorNumber(cx, js_GetErrorMessage, NULL, JSMSG_NOT_DEFINED, name); } JSBool js_ReportIsNullOrUndefined(JSContext *cx, int spindex, HandleValue v, HandleString fallback) { char *bytes; JSBool ok; bytes = DecompileValueGenerator(cx, spindex, v, fallback); if (!bytes) return JS_FALSE; if (strcmp(bytes, js_undefined_str) == 0 || strcmp(bytes, js_null_str) == 0) { ok = JS_ReportErrorFlagsAndNumber(cx, JSREPORT_ERROR, js_GetErrorMessage, NULL, JSMSG_NO_PROPERTIES, bytes, NULL, NULL); } else if (v.isUndefined()) { ok = JS_ReportErrorFlagsAndNumber(cx, JSREPORT_ERROR, js_GetErrorMessage, NULL, JSMSG_UNEXPECTED_TYPE, bytes, js_undefined_str, NULL); } else { JS_ASSERT(v.isNull()); ok = JS_ReportErrorFlagsAndNumber(cx, JSREPORT_ERROR, js_GetErrorMessage, NULL, JSMSG_UNEXPECTED_TYPE, bytes, js_null_str, NULL); } js_free(bytes); return ok; } void js_ReportMissingArg(JSContext *cx, HandleValue v, unsigned arg) { char argbuf[11]; char *bytes; RootedAtom atom(cx); JS_snprintf(argbuf, sizeof argbuf, "%u", arg); bytes = NULL; if (IsFunctionObject(v)) { atom = v.toObject().as().atom(); bytes = DecompileValueGenerator(cx, JSDVG_SEARCH_STACK, v, atom); if (!bytes) return; } JS_ReportErrorNumber(cx, js_GetErrorMessage, NULL, JSMSG_MISSING_FUN_ARG, argbuf, bytes ? bytes : ""); js_free(bytes); } JSBool js_ReportValueErrorFlags(JSContext *cx, unsigned flags, const unsigned errorNumber, int spindex, HandleValue v, HandleString fallback, const char *arg1, const char *arg2) { char *bytes; JSBool ok; JS_ASSERT(js_ErrorFormatString[errorNumber].argCount >= 1); JS_ASSERT(js_ErrorFormatString[errorNumber].argCount <= 3); bytes = DecompileValueGenerator(cx, spindex, v, fallback); if (!bytes) return JS_FALSE; ok = JS_ReportErrorFlagsAndNumber(cx, flags, js_GetErrorMessage, NULL, errorNumber, bytes, arg1, arg2); js_free(bytes); return ok; } const JSErrorFormatString js_ErrorFormatString[JSErr_Limit] = { #define MSG_DEF(name, number, count, exception, format) \ { format, count, exception } , #include "js.msg" #undef MSG_DEF }; JS_FRIEND_API(const JSErrorFormatString *) js_GetErrorMessage(void *userRef, const char *locale, const unsigned errorNumber) { if ((errorNumber > 0) && (errorNumber < JSErr_Limit)) return &js_ErrorFormatString[errorNumber]; return NULL; } JSBool js_InvokeOperationCallback(JSContext *cx) { JS_ASSERT_REQUEST_DEPTH(cx); JSRuntime *rt = cx->runtime(); JS_ASSERT(rt->interrupt != 0); /* * Reset the callback counter first, then run GC and yield. If another * thread is racing us here we will accumulate another callback request * which will be serviced at the next opportunity. */ JS_ATOMIC_SET(&rt->interrupt, 0); /* IonMonkey sets its stack limit to UINTPTR_MAX to trigger operaton callbacks. */ rt->resetIonStackLimit(); if (rt->gcIsNeeded) GCSlice(rt, GC_NORMAL, rt->gcTriggerReason); #ifdef JSGC_GENERATIONAL if (rt->gcStoreBuffer.isAboutToOverflow()) MinorGC(rt, JS::gcreason::FULL_STORE_BUFFER); #endif #ifdef JS_ION /* * A worker thread may have set the callback after finishing an Ion * compilation. */ jit::AttachFinishedCompilations(cx); #endif /* * Important: Additional callbacks can occur inside the callback handler * if it re-enters the JS engine. The embedding must ensure that the * callback is disconnected before attempting such re-entry. */ JSOperationCallback cb = cx->operationCallback; return !cb || cb(cx); } JSBool js_HandleExecutionInterrupt(JSContext *cx) { JSBool result = JS_TRUE; if (cx->runtime()->interrupt) result = js_InvokeOperationCallback(cx) && result; return result; } js::ThreadSafeContext::ThreadSafeContext(JSRuntime *rt, PerThreadData *pt, ContextKind kind) : ContextFriendFields(rt), contextKind_(kind), perThreadData(pt) { } bool ThreadSafeContext::isJSContext() const { return contextKind_ == Context_JS; } JSContext * ThreadSafeContext::asJSContext() { JS_ASSERT(isJSContext()); return reinterpret_cast(this); } bool ThreadSafeContext::isForkJoinSlice() const { return contextKind_ == Context_ForkJoin; } ForkJoinSlice * ThreadSafeContext::asForkJoinSlice() { JS_ASSERT(isForkJoinSlice()); return reinterpret_cast(this); } JSContext::JSContext(JSRuntime *rt) : ThreadSafeContext(rt, &rt->mainThread, Context_JS), throwing(false), exception(UndefinedValue()), options_(0), reportGranularity(JS_DEFAULT_JITREPORT_GRANULARITY), resolvingList(NULL), generatingError(false), enterCompartmentDepth_(0), savedFrameChains_(), defaultCompartmentObject_(NULL), cycleDetectorSet(thisDuringConstruction()), errorReporter(NULL), operationCallback(NULL), data(NULL), data2(NULL), #ifdef JS_THREADSAFE outstandingRequests(0), #endif resolveFlags(0), iterValue(MagicValue(JS_NO_ITER_VALUE)), jitIsBroken(false), #ifdef MOZ_TRACE_JSCALLS functionCallback(NULL), #endif innermostGenerator_(NULL) { #ifdef DEBUG stackIterAssertionEnabled = true; #endif JS_ASSERT(static_cast(this) == ContextFriendFields::get(this)); #if defined(JSGC_ROOT_ANALYSIS) || defined(JSGC_USE_EXACT_ROOTING) PodArrayZero(thingGCRooters); #endif #if defined(DEBUG) && defined(JS_GC_ZEAL) && defined(JSGC_ROOT_ANALYSIS) && !defined(JS_THREADSAFE) skipGCRooters = NULL; #endif } JSContext::~JSContext() { /* Free the stuff hanging off of cx. */ JS_ASSERT(!resolvingList); } bool JSRuntime::setDefaultLocale(const char *locale) { if (!locale) return false; resetDefaultLocale(); defaultLocale = JS_strdup(this, locale); return defaultLocale != NULL; } void JSRuntime::resetDefaultLocale() { js_free(defaultLocale); defaultLocale = NULL; } const char * JSRuntime::getDefaultLocale() { if (defaultLocale) return defaultLocale; char *locale, *lang, *p; #ifdef HAVE_SETLOCALE locale = setlocale(LC_ALL, NULL); #else locale = getenv("LANG"); #endif // convert to a well-formed BCP 47 language tag if (!locale || !strcmp(locale, "C")) locale = const_cast("und"); lang = JS_strdup(this, locale); if (!lang) return NULL; if ((p = strchr(lang, '.'))) *p = '\0'; while ((p = strchr(lang, '_'))) *p = '-'; defaultLocale = lang; return defaultLocale; } /* * Since this function is only called in the context of a pending exception, * the caller must subsequently take an error path. If wrapping fails, it will * set a new (uncatchable) exception to be used in place of the original. */ void JSContext::wrapPendingException() { RootedValue value(this, getPendingException()); clearPendingException(); if (!IsAtomsCompartment(compartment()) && compartment()->wrap(this, &value)) setPendingException(value); } void JSContext::enterGenerator(JSGenerator *gen) { JS_ASSERT(!gen->prevGenerator); gen->prevGenerator = innermostGenerator_; innermostGenerator_ = gen; } void JSContext::leaveGenerator(JSGenerator *gen) { JS_ASSERT(innermostGenerator_ == gen); innermostGenerator_ = innermostGenerator_->prevGenerator; gen->prevGenerator = NULL; } bool JSContext::runningWithTrustedPrincipals() const { return !compartment() || compartment()->principals == runtime()->trustedPrincipals(); } bool JSContext::saveFrameChain() { if (!savedFrameChains_.append(SavedFrameChain(compartment(), enterCompartmentDepth_))) return false; if (Activation *act = mainThread().activation()) act->saveFrameChain(); setCompartment(NULL); enterCompartmentDepth_ = 0; return true; } void JSContext::restoreFrameChain() { SavedFrameChain sfc = savedFrameChains_.popCopy(); setCompartment(sfc.compartment); enterCompartmentDepth_ = sfc.enterCompartmentCount; if (Activation *act = mainThread().activation()) act->restoreFrameChain(); if (isExceptionPending()) wrapPendingException(); } bool JSContext::currentlyRunning() const { for (ActivationIterator iter(runtime()); !iter.done(); ++iter) { if (iter.activation()->cx() == this) { if (iter.activation()->hasSavedFrameChain()) return false; return true; } } return false; } void JSRuntime::setGCMaxMallocBytes(size_t value) { /* * For compatibility treat any value that exceeds PTRDIFF_T_MAX to * mean that value. */ gcMaxMallocBytes = (ptrdiff_t(value) >= 0) ? value : size_t(-1) >> 1; for (ZonesIter zone(this); !zone.done(); zone.next()) zone->setGCMaxMallocBytes(value); } void JSRuntime::updateMallocCounter(size_t nbytes) { updateMallocCounter(NULL, nbytes); } void JSRuntime::updateMallocCounter(JS::Zone *zone, size_t nbytes) { /* We tolerate any thread races when updating gcMallocBytes. */ ptrdiff_t oldCount = gcMallocBytes; ptrdiff_t newCount = oldCount - ptrdiff_t(nbytes); gcMallocBytes = newCount; if (JS_UNLIKELY(newCount <= 0 && oldCount > 0)) onTooMuchMalloc(); else if (zone) zone->updateMallocCounter(nbytes); } JS_FRIEND_API(void) JSRuntime::onTooMuchMalloc() { TriggerGC(this, JS::gcreason::TOO_MUCH_MALLOC); } JS_FRIEND_API(void *) JSRuntime::onOutOfMemory(void *p, size_t nbytes) { return onOutOfMemory(p, nbytes, NULL); } JS_FRIEND_API(void *) JSRuntime::onOutOfMemory(void *p, size_t nbytes, JSContext *cx) { if (isHeapBusy()) return NULL; /* * Retry when we are done with the background sweeping and have stopped * all the allocations and released the empty GC chunks. */ JS::ShrinkGCBuffers(this); gcHelperThread.waitBackgroundSweepOrAllocEnd(); if (!p) p = js_malloc(nbytes); else if (p == reinterpret_cast(1)) p = js_calloc(nbytes); else p = js_realloc(p, nbytes); if (p) return p; if (cx) js_ReportOutOfMemory(cx); return NULL; } static bool ComputeIsJITBroken() { #if !defined(ANDROID) || defined(GONK) return false; #else // ANDROID if (getenv("JS_IGNORE_JIT_BROKENNESS")) { return false; } std::string line; // Check for the known-bad kernel version (2.6.29). std::ifstream osrelease("/proc/sys/kernel/osrelease"); std::getline(osrelease, line); __android_log_print(ANDROID_LOG_INFO, "Gecko", "Detected osrelease `%s'", line.c_str()); if (line.npos == line.find("2.6.29")) { // We're using something other than 2.6.29, so the JITs should work. __android_log_print(ANDROID_LOG_INFO, "Gecko", "JITs are not broken"); return false; } // We're using 2.6.29, and this causes trouble with the JITs on i9000. line = ""; bool broken = false; std::ifstream cpuinfo("/proc/cpuinfo"); do { if (0 == line.find("Hardware")) { const char* blacklist[] = { "SCH-I400", // Samsung Continuum "SGH-T959", // Samsung i9000, Vibrant device "SGH-I897", // Samsung i9000, Captivate device "SCH-I500", // Samsung i9000, Fascinate device "SPH-D700", // Samsung i9000, Epic device "GT-I9000", // Samsung i9000, UK/Europe device NULL }; for (const char** hw = &blacklist[0]; *hw; ++hw) { if (line.npos != line.find(*hw)) { __android_log_print(ANDROID_LOG_INFO, "Gecko", "Blacklisted device `%s'", *hw); broken = true; break; } } break; } std::getline(cpuinfo, line); } while(!cpuinfo.fail() && !cpuinfo.eof()); __android_log_print(ANDROID_LOG_INFO, "Gecko", "JITs are %sbroken", broken ? "" : "not "); return broken; #endif // ifndef ANDROID } static bool IsJITBrokenHere() { static bool computedIsBroken = false; static bool isBroken = false; if (!computedIsBroken) { isBroken = ComputeIsJITBroken(); computedIsBroken = true; } return isBroken; } void JSContext::updateJITEnabled() { jitIsBroken = IsJITBrokenHere(); } size_t JSContext::sizeOfIncludingThis(JSMallocSizeOfFun mallocSizeOf) const { /* * There are other JSContext members that could be measured; the following * ones have been found by DMD to be worth measuring. More stuff may be * added later. */ return mallocSizeOf(this) + cycleDetectorSet.sizeOfExcludingThis(mallocSizeOf); } void JSContext::mark(JSTracer *trc) { /* Stack frames and slots are traced by StackSpace::mark. */ /* Mark other roots-by-definition in the JSContext. */ if (defaultCompartmentObject_ && !hasOption(JSOPTION_UNROOTED_GLOBAL)) MarkObjectRoot(trc, &defaultCompartmentObject_, "default compartment object"); if (isExceptionPending()) MarkValueRoot(trc, &exception, "exception"); TraceCycleDetectionSet(trc, cycleDetectorSet); MarkValueRoot(trc, &iterValue, "iterValue"); } JSVersion JSContext::findVersion() const { if (JSScript *script = currentScript(NULL, ALLOW_CROSS_COMPARTMENT)) return script->getVersion(); if (compartment() && compartment()->options().hasVersion) return compartment()->options().version; return runtime()->defaultVersion(); } #if defined JS_THREADSAFE && defined DEBUG JS::AutoCheckRequestDepth::AutoCheckRequestDepth(JSContext *cx) : cx(cx) { JS_ASSERT(cx->runtime()->requestDepth || cx->runtime()->isHeapBusy()); cx->runtime()->assertValidThread(); cx->runtime()->checkRequestDepth++; } JS::AutoCheckRequestDepth::~AutoCheckRequestDepth() { JS_ASSERT(cx->runtime()->checkRequestDepth != 0); cx->runtime()->checkRequestDepth--; } #endif #ifdef JS_CRASH_DIAGNOSTICS void CompartmentChecker::check(StackFrame *fp) { if (fp) check(fp->scopeChain()); } void CompartmentChecker::check(AbstractFramePtr frame) { if (frame) check(frame.scopeChain()); } #endif