/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*- * vim: set ts=8 sw=4 et tw=79: * * ***** 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 ***** */ /* * JS object implementation. */ #define __STDC_LIMIT_MACROS #include #include #include "jstypes.h" #include "jsstdint.h" #include "jsarena.h" /* Added by JSIFY */ #include "jsbit.h" #include "jsutil.h" /* Added by JSIFY */ #include "jshash.h" /* Added by JSIFY */ #include "jsdhash.h" #include "jsprf.h" #include "jsapi.h" #include "jsarray.h" #include "jsatom.h" #include "jsbool.h" #include "jsbuiltins.h" #include "jscntxt.h" #include "jsversion.h" #include "jsemit.h" #include "jsfun.h" #include "jsgc.h" #include "jsinterp.h" #include "jslock.h" #include "jsnum.h" #include "jsobj.h" #include "jsopcode.h" #include "jsparse.h" #include "jsscope.h" #include "jsscript.h" #include "jsstaticcheck.h" #include "jsstdint.h" #include "jsstr.h" #include "jstracer.h" #include "jsdbgapi.h" #include "jsscopeinlines.h" #include "jsscriptinlines.h" #include "jsobjinlines.h" #if JS_HAS_GENERATORS #include "jsiter.h" #endif #if JS_HAS_XML_SUPPORT #include "jsxml.h" #endif #if JS_HAS_XDR #include "jsxdrapi.h" #endif #ifdef INCLUDE_MOZILLA_DTRACE #include "jsdtracef.h" #endif #include "jsatominlines.h" #include "jsobjinlines.h" #include "jsscriptinlines.h" #include "jsautooplen.h" using namespace js; JS_FRIEND_DATA(JSObjectOps) js_ObjectOps = { NULL, js_LookupProperty, js_DefineProperty, js_GetProperty, js_SetProperty, js_GetAttributes, js_SetAttributes, js_DeleteProperty, js_DefaultValue, js_Enumerate, js_CheckAccess, js_TypeOf, js_TraceObject, NULL, NATIVE_DROP_PROPERTY, js_Call, js_Construct, js_HasInstance, js_Clear }; JSClass js_ObjectClass = { js_Object_str, JSCLASS_HAS_CACHED_PROTO(JSProto_Object), JS_PropertyStub, JS_PropertyStub, JS_PropertyStub, JS_PropertyStub, JS_EnumerateStub, JS_ResolveStub, JS_ConvertStub, NULL, JSCLASS_NO_OPTIONAL_MEMBERS }; #if JS_HAS_OBJ_PROTO_PROP static JSBool obj_getSlot(JSContext *cx, JSObject *obj, jsval id, jsval *vp); static JSBool obj_setSlot(JSContext *cx, JSObject *obj, jsval id, jsval *vp); static JSPropertySpec object_props[] = { /* These two must come first; see object_props[slot].name usage below. */ {js_proto_str, JSSLOT_PROTO, JSPROP_PERMANENT|JSPROP_SHARED, obj_getSlot, obj_setSlot}, {js_parent_str,JSSLOT_PARENT,JSPROP_READONLY|JSPROP_PERMANENT|JSPROP_SHARED, obj_getSlot, obj_setSlot}, {0,0,0,0,0} }; /* NB: JSSLOT_PROTO and JSSLOT_PARENT are already indexes into object_props. */ #define JSSLOT_COUNT 2 static JSBool ReportStrictSlot(JSContext *cx, uint32 slot) { if (slot == JSSLOT_PROTO) return JS_TRUE; return JS_ReportErrorFlagsAndNumber(cx, JSREPORT_WARNING | JSREPORT_STRICT, js_GetErrorMessage, NULL, JSMSG_DEPRECATED_USAGE, object_props[slot].name); } static JSBool obj_getSlot(JSContext *cx, JSObject *obj, jsval id, jsval *vp) { jsid propid; JSAccessMode mode; uintN attrs; JSObject *pobj; JSClass *clasp; if (id == INT_TO_JSVAL(JSSLOT_PROTO)) { propid = ATOM_TO_JSID(cx->runtime->atomState.protoAtom); mode = JSACC_PROTO; } else { propid = ATOM_TO_JSID(cx->runtime->atomState.parentAtom); mode = JSACC_PARENT; } /* Let obj->checkAccess get the slot's value, based on the access mode. */ if (!obj->checkAccess(cx, propid, mode, vp, &attrs)) return JS_FALSE; pobj = JSVAL_TO_OBJECT(*vp); if (pobj) { clasp = pobj->getClass(); if (clasp == &js_CallClass || clasp == &js_BlockClass) { /* Censor activations and lexical scopes per ECMA-262. */ *vp = JSVAL_NULL; } else { /* * DeclEnv only exists as a parent for a Call object which we * censor. So it cannot escape to scripts. */ JS_ASSERT(clasp != &js_DeclEnvClass); if (pobj->map->ops->thisObject) { pobj = pobj->map->ops->thisObject(cx, pobj); if (!pobj) return JS_FALSE; *vp = OBJECT_TO_JSVAL(pobj); } } } return JS_TRUE; } static JSBool obj_setSlot(JSContext *cx, JSObject *obj, jsval id, jsval *vp) { JSObject *pobj; uint32 slot; jsid propid; uintN attrs; if (!JSVAL_IS_OBJECT(*vp)) return JS_TRUE; pobj = JSVAL_TO_OBJECT(*vp); if (pobj) { /* * Innerize pobj here to avoid sticking unwanted properties on the * outer object. This ensures that any with statements only grant * access to the inner object. */ OBJ_TO_INNER_OBJECT(cx, pobj); if (!pobj) return JS_FALSE; } slot = (uint32) JSVAL_TO_INT(id); if (JS_HAS_STRICT_OPTION(cx) && !ReportStrictSlot(cx, slot)) return JS_FALSE; /* __parent__ is readonly and permanent, only __proto__ may be set. */ propid = ATOM_TO_JSID(cx->runtime->atomState.protoAtom); if (!obj->checkAccess(cx, propid, (JSAccessMode)(JSACC_PROTO|JSACC_WRITE), vp, &attrs)) return JS_FALSE; return js_SetProtoOrParent(cx, obj, slot, pobj, JS_TRUE); } #else /* !JS_HAS_OBJ_PROTO_PROP */ #define object_props NULL #endif /* !JS_HAS_OBJ_PROTO_PROP */ JSBool js_SetProtoOrParent(JSContext *cx, JSObject *obj, uint32 slot, JSObject *pobj, JSBool checkForCycles) { JS_ASSERT(slot == JSSLOT_PARENT || slot == JSSLOT_PROTO); JS_ASSERT_IF(!checkForCycles, obj != pobj); if (slot == JSSLOT_PROTO) { if (obj->isNative()) { JS_LOCK_OBJ(cx, obj); bool ok = !!js_GetMutableScope(cx, obj); JS_UNLOCK_OBJ(cx, obj); if (!ok) return JS_FALSE; } /* * Regenerate property cache shape ids for all of the scopes along the * old prototype chain to invalidate their property cache entries, in * case any entries were filled by looking up through obj. */ JSObject *oldproto = obj; while (oldproto && oldproto->isNative()) { JS_LOCK_OBJ(cx, oldproto); JSScope *scope = oldproto->scope(); scope->protoShapeChange(cx); JSObject *tmp = oldproto->getProto(); JS_UNLOCK_OBJ(cx, oldproto); oldproto = tmp; } } if (!pobj || !checkForCycles) { if (slot == JSSLOT_PROTO) obj->setProto(pobj); else obj->setParent(pobj); } else { /* * Use the GC machinery to serialize access to all objects on the * prototype or parent chain. */ JSSetSlotRequest ssr; ssr.obj = obj; ssr.pobj = pobj; ssr.slot = (uint16) slot; ssr.cycle = false; JSRuntime *rt = cx->runtime; JS_LOCK_GC(rt); ssr.next = rt->setSlotRequests; rt->setSlotRequests = &ssr; for (;;) { js_GC(cx, GC_SET_SLOT_REQUEST); JS_UNLOCK_GC(rt); if (!rt->setSlotRequests) break; JS_LOCK_GC(rt); } if (ssr.cycle) { JS_ReportErrorNumber(cx, js_GetErrorMessage, NULL, JSMSG_CYCLIC_VALUE, #if JS_HAS_OBJ_PROTO_PROP object_props[slot].name #else (slot == JSSLOT_PROTO) ? js_proto_str : js_parent_str #endif ); return JS_FALSE; } } return JS_TRUE; } static JSHashNumber js_hash_object(const void *key) { return JSHashNumber(uintptr_t(key) >> JSVAL_TAGBITS); } static JSHashEntry * MarkSharpObjects(JSContext *cx, JSObject *obj, JSIdArray **idap) { JSSharpObjectMap *map; JSHashTable *table; JSHashNumber hash; JSHashEntry **hep, *he; jsatomid sharpid; JSIdArray *ida; JSBool ok; jsint i, length; jsid id; JSObject *obj2; JSProperty *prop; uintN attrs; jsval val; JS_CHECK_RECURSION(cx, return NULL); map = &cx->sharpObjectMap; JS_ASSERT(map->depth >= 1); table = map->table; hash = js_hash_object(obj); hep = JS_HashTableRawLookup(table, hash, obj); he = *hep; if (!he) { sharpid = 0; he = JS_HashTableRawAdd(table, hep, hash, obj, (void *) sharpid); if (!he) { JS_ReportOutOfMemory(cx); return NULL; } ida = JS_Enumerate(cx, obj); if (!ida) return NULL; ok = JS_TRUE; for (i = 0, length = ida->length; i < length; i++) { id = ida->vector[i]; ok = obj->lookupProperty(cx, id, &obj2, &prop); if (!ok) break; if (!prop) continue; ok = obj2->getAttributes(cx, id, prop, &attrs); if (ok) { if (obj2->isNative() && (attrs & (JSPROP_GETTER | JSPROP_SETTER))) { JSScopeProperty *sprop = (JSScopeProperty *) prop; val = JSVAL_VOID; if (attrs & JSPROP_GETTER) val = sprop->getterValue(); if (attrs & JSPROP_SETTER) { if (val != JSVAL_VOID) { /* Mark the getter, then set val to setter. */ ok = (MarkSharpObjects(cx, JSVAL_TO_OBJECT(val), NULL) != NULL); } val = sprop->setterValue(); } } else { ok = obj->getProperty(cx, id, &val); } } obj2->dropProperty(cx, prop); if (!ok) break; if (!JSVAL_IS_PRIMITIVE(val) && !MarkSharpObjects(cx, JSVAL_TO_OBJECT(val), NULL)) { ok = JS_FALSE; break; } } if (!ok || !idap) JS_DestroyIdArray(cx, ida); if (!ok) return NULL; } else { sharpid = uintptr_t(he->value); if (sharpid == 0) { sharpid = ++map->sharpgen << SHARP_ID_SHIFT; he->value = (void *) sharpid; } ida = NULL; } if (idap) *idap = ida; return he; } JSHashEntry * js_EnterSharpObject(JSContext *cx, JSObject *obj, JSIdArray **idap, jschar **sp) { JSSharpObjectMap *map; JSHashTable *table; JSIdArray *ida; JSHashNumber hash; JSHashEntry *he, **hep; jsatomid sharpid; char buf[20]; size_t len; if (!JS_CHECK_OPERATION_LIMIT(cx)) return NULL; /* Set to null in case we return an early error. */ *sp = NULL; map = &cx->sharpObjectMap; table = map->table; if (!table) { table = JS_NewHashTable(8, js_hash_object, JS_CompareValues, JS_CompareValues, NULL, NULL); if (!table) { JS_ReportOutOfMemory(cx); return NULL; } map->table = table; JS_KEEP_ATOMS(cx->runtime); } /* From this point the control must flow either through out: or bad:. */ ida = NULL; if (map->depth == 0) { /* * Although MarkSharpObjects tries to avoid invoking getters, * it ends up doing so anyway under some circumstances; for * example, if a wrapped object has getters, the wrapper will * prevent MarkSharpObjects from recognizing them as such. * This could lead to js_LeaveSharpObject being called while * MarkSharpObjects is still working. * * Increment map->depth while we call MarkSharpObjects, to * ensure that such a call doesn't free the hash table we're * still using. */ ++map->depth; he = MarkSharpObjects(cx, obj, &ida); --map->depth; if (!he) goto bad; JS_ASSERT((uintptr_t(he->value) & SHARP_BIT) == 0); if (!idap) { JS_DestroyIdArray(cx, ida); ida = NULL; } } else { hash = js_hash_object(obj); hep = JS_HashTableRawLookup(table, hash, obj); he = *hep; /* * It's possible that the value of a property has changed from the * first time the object's properties are traversed (when the property * ids are entered into the hash table) to the second (when they are * converted to strings), i.e., the JSObject::getProperty() call is not * idempotent. */ if (!he) { he = JS_HashTableRawAdd(table, hep, hash, obj, NULL); if (!he) { JS_ReportOutOfMemory(cx); goto bad; } sharpid = 0; goto out; } } sharpid = uintptr_t(he->value); if (sharpid != 0) { len = JS_snprintf(buf, sizeof buf, "#%u%c", sharpid >> SHARP_ID_SHIFT, (sharpid & SHARP_BIT) ? '#' : '='); *sp = js_InflateString(cx, buf, &len); if (!*sp) { if (ida) JS_DestroyIdArray(cx, ida); goto bad; } } out: JS_ASSERT(he); if ((sharpid & SHARP_BIT) == 0) { if (idap && !ida) { ida = JS_Enumerate(cx, obj); if (!ida) { if (*sp) { cx->free(*sp); *sp = NULL; } goto bad; } } map->depth++; } if (idap) *idap = ida; return he; bad: /* Clean up the sharpObjectMap table on outermost error. */ if (map->depth == 0) { JS_UNKEEP_ATOMS(cx->runtime); map->sharpgen = 0; JS_HashTableDestroy(map->table); map->table = NULL; } return NULL; } void js_LeaveSharpObject(JSContext *cx, JSIdArray **idap) { JSSharpObjectMap *map; JSIdArray *ida; map = &cx->sharpObjectMap; JS_ASSERT(map->depth > 0); if (--map->depth == 0) { JS_UNKEEP_ATOMS(cx->runtime); map->sharpgen = 0; JS_HashTableDestroy(map->table); map->table = NULL; } if (idap) { ida = *idap; if (ida) { JS_DestroyIdArray(cx, ida); *idap = NULL; } } } static intN gc_sharp_table_entry_marker(JSHashEntry *he, intN i, void *arg) { JS_CALL_OBJECT_TRACER((JSTracer *)arg, (JSObject *)he->key, "sharp table entry"); return JS_DHASH_NEXT; } void js_TraceSharpMap(JSTracer *trc, JSSharpObjectMap *map) { JS_ASSERT(map->depth > 0); JS_ASSERT(map->table); /* * During recursive calls to MarkSharpObjects a non-native object or * object with a custom getProperty method can potentially return an * unrooted value or even cut from the object graph an argument of one of * MarkSharpObjects recursive invocations. So we must protect map->table * entries against GC. * * We can not simply use JSTempValueRooter to mark the obj argument of * MarkSharpObjects during recursion as we have to protect *all* entries * in JSSharpObjectMap including those that contains otherwise unreachable * objects just allocated through custom getProperty. Otherwise newer * allocations can re-use the address of an object stored in the hashtable * confusing js_EnterSharpObject. So to address the problem we simply * mark all objects from map->table. * * An alternative "proper" solution is to use JSTempValueRooter in * MarkSharpObjects with code to remove during finalization entries * with otherwise unreachable objects. But this is way too complex * to justify spending efforts. */ JS_HashTableEnumerateEntries(map->table, gc_sharp_table_entry_marker, trc); } #if JS_HAS_TOSOURCE static JSBool obj_toSource(JSContext *cx, uintN argc, jsval *vp) { JSBool ok, outermost; JSObject *obj; JSHashEntry *he; JSIdArray *ida; jschar *chars, *ochars, *vsharp; const jschar *idstrchars, *vchars; size_t nchars, idstrlength, gsoplength, vlength, vsharplength, curlen; const char *comma; JSObject *obj2; JSProperty *prop; uintN attrs; jsval *val; JSString *gsop[2]; JSString *idstr, *valstr, *str; JS_CHECK_RECURSION(cx, return JS_FALSE); jsval localroot[4] = {JSVAL_NULL, JSVAL_NULL, JSVAL_NULL, JSVAL_NULL}; AutoArrayRooter tvr(cx, JS_ARRAY_LENGTH(localroot), localroot); /* If outermost, we need parentheses to be an expression, not a block. */ outermost = (cx->sharpObjectMap.depth == 0); obj = JS_THIS_OBJECT(cx, vp); if (!obj || !(he = js_EnterSharpObject(cx, obj, &ida, &chars))) { ok = JS_FALSE; goto out; } if (IS_SHARP(he)) { /* * We didn't enter -- obj is already "sharp", meaning we've visited it * already in our depth first search, and therefore chars contains a * string of the form "#n#". */ JS_ASSERT(!ida); #if JS_HAS_SHARP_VARS nchars = js_strlen(chars); #else chars[0] = '{'; chars[1] = '}'; chars[2] = 0; nchars = 2; #endif goto make_string; } JS_ASSERT(ida); ok = JS_TRUE; if (!chars) { /* If outermost, allocate 4 + 1 for "({})" and the terminator. */ chars = (jschar *) js_malloc(((outermost ? 4 : 2) + 1) * sizeof(jschar)); nchars = 0; if (!chars) goto error; if (outermost) chars[nchars++] = '('; } else { /* js_EnterSharpObject returned a string of the form "#n=" in chars. */ MAKE_SHARP(he); nchars = js_strlen(chars); chars = (jschar *) js_realloc((ochars = chars), (nchars + 2 + 1) * sizeof(jschar)); if (!chars) { js_free(ochars); goto error; } if (outermost) { /* * No need for parentheses around the whole shebang, because #n= * unambiguously begins an object initializer, and never a block * statement. */ outermost = JS_FALSE; } } chars[nchars++] = '{'; comma = NULL; /* * We have four local roots for cooked and raw value GC safety. Hoist the * "localroot + 2" out of the loop using the val local, which refers to * the raw (unconverted, "uncooked") values. */ val = localroot + 2; for (jsint i = 0, length = ida->length; i < length; i++) { /* Get strings for id and value and GC-root them via vp. */ jsid id = ida->vector[i]; ok = obj->lookupProperty(cx, id, &obj2, &prop); if (!ok) goto error; /* * Convert id to a jsval and then to a string. Decide early whether we * prefer get/set or old getter/setter syntax. */ idstr = js_ValueToString(cx, ID_TO_VALUE(id)); if (!idstr) { ok = JS_FALSE; obj2->dropProperty(cx, prop); goto error; } *vp = STRING_TO_JSVAL(idstr); /* local root */ jsint valcnt = 0; if (prop) { ok = obj2->getAttributes(cx, id, prop, &attrs); if (!ok) { obj2->dropProperty(cx, prop); goto error; } if (obj2->isNative() && (attrs & (JSPROP_GETTER | JSPROP_SETTER))) { JSScopeProperty *sprop = (JSScopeProperty *) prop; if (attrs & JSPROP_GETTER) { val[valcnt] = sprop->getterValue(); gsop[valcnt] = ATOM_TO_STRING(cx->runtime->atomState.getAtom); valcnt++; } if (attrs & JSPROP_SETTER) { val[valcnt] = sprop->setterValue(); gsop[valcnt] = ATOM_TO_STRING(cx->runtime->atomState.setAtom); valcnt++; } } else { valcnt = 1; gsop[0] = NULL; ok = obj->getProperty(cx, id, &val[0]); } obj2->dropProperty(cx, prop); } if (!ok) goto error; /* * If id is a string that's not an identifier, or if it's a negative * integer, then it must be quoted. */ bool idIsLexicalIdentifier = !!js_IsIdentifier(idstr); if (JSID_IS_ATOM(id) ? !idIsLexicalIdentifier : (!JSID_IS_INT(id) || JSID_TO_INT(id) < 0)) { idstr = js_QuoteString(cx, idstr, jschar('\'')); if (!idstr) { ok = JS_FALSE; goto error; } *vp = STRING_TO_JSVAL(idstr); /* local root */ } idstr->getCharsAndLength(idstrchars, idstrlength); for (jsint j = 0; j < valcnt; j++) { /* * Censor an accessor descriptor getter or setter part if it's * undefined. */ if (gsop[j] && JSVAL_IS_VOID(val[j])) continue; /* Convert val[j] to its canonical source form. */ valstr = js_ValueToSource(cx, val[j]); if (!valstr) { ok = JS_FALSE; goto error; } localroot[j] = STRING_TO_JSVAL(valstr); /* local root */ valstr->getCharsAndLength(vchars, vlength); /* * If val[j] is a non-sharp object, and we're not serializing an * accessor (ECMA syntax can't accommodate sharpened accessors), * consider sharpening it. */ vsharp = NULL; vsharplength = 0; #if JS_HAS_SHARP_VARS if (!gsop[j] && !JSVAL_IS_PRIMITIVE(val[j]) && vchars[0] != '#') { he = js_EnterSharpObject(cx, JSVAL_TO_OBJECT(val[j]), NULL, &vsharp); if (!he) { ok = JS_FALSE; goto error; } if (IS_SHARP(he)) { vchars = vsharp; vlength = js_strlen(vchars); } else { if (vsharp) { vsharplength = js_strlen(vsharp); MAKE_SHARP(he); } js_LeaveSharpObject(cx, NULL); } } #endif /* * Remove '(function ' from the beginning of valstr and ')' from the * end so that we can put "get" in front of the function definition. */ if (gsop[j] && VALUE_IS_FUNCTION(cx, val[j])) { JSFunction *fun = JS_ValueToFunction(cx, val[j]); const jschar *start = vchars; const jschar *end = vchars + vlength; uint8 parenChomp = 0; if (vchars[0] == '(') { vchars++; parenChomp = 1; } /* * Try to jump "getter" or "setter" keywords, if we suspect * they might appear here. This code can be confused by people * defining Function.prototype.toString, so let's be cautious. */ if (JSFUN_GETTER_TEST(fun->flags) || JSFUN_SETTER_TEST(fun->flags)) { /* skip "getter/setter" */ const jschar *tmp = js_strchr_limit(vchars, ' ', end); if (tmp) vchars = tmp + 1; } /* Try to jump "function" keyword. */ if (vchars) vchars = js_strchr_limit(vchars, ' ', end); /* * Jump over the function's name: it can't be encoded as part * of an ECMA getter or setter. */ if (vchars) vchars = js_strchr_limit(vchars, '(', end); if (vchars) { if (*vchars == ' ') vchars++; vlength = end - vchars - parenChomp; } else { gsop[j] = NULL; vchars = start; } } #define SAFE_ADD(n) \ JS_BEGIN_MACRO \ size_t n_ = (n); \ curlen += n_; \ if (curlen < n_) \ goto overflow; \ JS_END_MACRO curlen = nchars; if (comma) SAFE_ADD(2); SAFE_ADD(idstrlength + 1); if (gsop[j]) SAFE_ADD(gsop[j]->length() + 1); SAFE_ADD(vsharplength); SAFE_ADD(vlength); /* Account for the trailing null. */ SAFE_ADD((outermost ? 2 : 1) + 1); #undef SAFE_ADD if (curlen > size_t(-1) / sizeof(jschar)) goto overflow; /* Allocate 1 + 1 at end for closing brace and terminating 0. */ chars = (jschar *) js_realloc((ochars = chars), curlen * sizeof(jschar)); if (!chars) { /* Save code space on error: let JS_free ignore null vsharp. */ cx->free(vsharp); js_free(ochars); goto error; } if (comma) { chars[nchars++] = comma[0]; chars[nchars++] = comma[1]; } comma = ", "; if (gsop[j]) { gsoplength = gsop[j]->length(); js_strncpy(&chars[nchars], gsop[j]->chars(), gsoplength); nchars += gsoplength; chars[nchars++] = ' '; } js_strncpy(&chars[nchars], idstrchars, idstrlength); nchars += idstrlength; /* Extraneous space after id here will be extracted later */ chars[nchars++] = gsop[j] ? ' ' : ':'; if (vsharplength) { js_strncpy(&chars[nchars], vsharp, vsharplength); nchars += vsharplength; } js_strncpy(&chars[nchars], vchars, vlength); nchars += vlength; if (vsharp) cx->free(vsharp); } } chars[nchars++] = '}'; if (outermost) chars[nchars++] = ')'; chars[nchars] = 0; error: js_LeaveSharpObject(cx, &ida); if (!ok) { if (chars) js_free(chars); goto out; } if (!chars) { JS_ReportOutOfMemory(cx); ok = JS_FALSE; goto out; } make_string: str = js_NewString(cx, chars, nchars); if (!str) { js_free(chars); ok = JS_FALSE; goto out; } *vp = STRING_TO_JSVAL(str); ok = JS_TRUE; out: return ok; overflow: cx->free(vsharp); js_free(chars); chars = NULL; goto error; } #endif /* JS_HAS_TOSOURCE */ static JSBool obj_toString(JSContext *cx, uintN argc, jsval *vp) { JSObject *obj; jschar *chars; size_t nchars; const char *clazz, *prefix; JSString *str; obj = JS_THIS_OBJECT(cx, vp); if (!obj) return JS_FALSE; obj = js_GetWrappedObject(cx, obj); clazz = obj->getClass()->name; nchars = 9 + strlen(clazz); /* 9 for "[object ]" */ chars = (jschar *) cx->malloc((nchars + 1) * sizeof(jschar)); if (!chars) return JS_FALSE; prefix = "[object "; nchars = 0; while ((chars[nchars] = (jschar)*prefix) != 0) nchars++, prefix++; while ((chars[nchars] = (jschar)*clazz) != 0) nchars++, clazz++; chars[nchars++] = ']'; chars[nchars] = 0; str = js_NewString(cx, chars, nchars); if (!str) { cx->free(chars); return JS_FALSE; } *vp = STRING_TO_JSVAL(str); return JS_TRUE; } static JSBool obj_toLocaleString(JSContext *cx, uintN argc, jsval *vp) { jsval thisv; JSString *str; thisv = JS_THIS(cx, vp); if (JSVAL_IS_NULL(thisv)) return JS_FALSE; str = js_ValueToString(cx, thisv); if (!str) return JS_FALSE; *vp = STRING_TO_JSVAL(str); return JS_TRUE; } static JSBool obj_valueOf(JSContext *cx, uintN argc, jsval *vp) { *vp = JS_THIS(cx, vp); return !JSVAL_IS_NULL(*vp); } #ifdef JS_TRACER static jsval FASTCALL Object_p_valueOf(JSContext* cx, JSObject* obj, JSString *hint) { return OBJECT_TO_JSVAL(obj); } #endif /* * Check if CSP allows new Function() or eval() to run in the current * principals. */ JSBool js_CheckContentSecurityPolicy(JSContext *cx) { JSSecurityCallbacks *callbacks; callbacks = JS_GetSecurityCallbacks(cx); // if there are callbacks, make sure that the CSP callback is installed and // that it permits eval(). if (callbacks && callbacks->contentSecurityPolicyAllows) return callbacks->contentSecurityPolicyAllows(cx); return JS_TRUE; } /* * Check whether principals subsumes scopeobj's principals, and return true * if so (or if scopeobj has no principals, for backward compatibility with * the JS API, which does not require principals), and false otherwise. */ JSBool js_CheckPrincipalsAccess(JSContext *cx, JSObject *scopeobj, JSPrincipals *principals, JSAtom *caller) { JSSecurityCallbacks *callbacks; JSPrincipals *scopePrincipals; const char *callerstr; callbacks = JS_GetSecurityCallbacks(cx); if (callbacks && callbacks->findObjectPrincipals) { scopePrincipals = callbacks->findObjectPrincipals(cx, scopeobj); if (!principals || !scopePrincipals || !principals->subsume(principals, scopePrincipals)) { callerstr = js_AtomToPrintableString(cx, caller); if (!callerstr) return JS_FALSE; JS_ReportErrorNumber(cx, js_GetErrorMessage, NULL, JSMSG_BAD_INDIRECT_CALL, callerstr); return JS_FALSE; } } return JS_TRUE; } JSObject * js_CheckScopeChainValidity(JSContext *cx, JSObject *scopeobj, const char *caller) { JSClass *clasp; JSExtendedClass *xclasp; JSObject *inner; if (!scopeobj) goto bad; OBJ_TO_INNER_OBJECT(cx, scopeobj); if (!scopeobj) return NULL; inner = scopeobj; /* XXX This is an awful gross hack. */ while (scopeobj) { clasp = scopeobj->getClass(); if (clasp->flags & JSCLASS_IS_EXTENDED) { xclasp = (JSExtendedClass*)clasp; if (xclasp->innerObject && xclasp->innerObject(cx, scopeobj) != scopeobj) { goto bad; } } scopeobj = scopeobj->getParent(); } return inner; bad: JS_ReportErrorNumber(cx, js_GetErrorMessage, NULL, JSMSG_BAD_INDIRECT_CALL, caller); return NULL; } const char * js_ComputeFilename(JSContext *cx, JSStackFrame *caller, JSPrincipals *principals, uintN *linenop) { uint32 flags; #ifdef DEBUG JSSecurityCallbacks *callbacks = JS_GetSecurityCallbacks(cx); #endif JS_ASSERT(principals || !(callbacks && callbacks->findObjectPrincipals)); flags = JS_GetScriptFilenameFlags(caller->script); if ((flags & JSFILENAME_PROTECTED) && principals && strcmp(principals->codebase, "[System Principal]")) { *linenop = 0; return principals->codebase; } if (caller->regs && js_GetOpcode(cx, caller->script, caller->regs->pc) == JSOP_EVAL) { JS_ASSERT(js_GetOpcode(cx, caller->script, caller->regs->pc + JSOP_EVAL_LENGTH) == JSOP_LINENO); *linenop = GET_UINT16(caller->regs->pc + JSOP_EVAL_LENGTH); } else { *linenop = js_FramePCToLineNumber(cx, caller); } return caller->script->filename; } #ifndef EVAL_CACHE_CHAIN_LIMIT # define EVAL_CACHE_CHAIN_LIMIT 4 #endif static inline JSScript ** EvalCacheHash(JSContext *cx, JSString *str) { const jschar *s; size_t n; uint32 h; str->getCharsAndLength(s, n); if (n > 100) n = 100; for (h = 0; n; s++, n--) h = JS_ROTATE_LEFT32(h, 4) ^ *s; h *= JS_GOLDEN_RATIO; h >>= 32 - JS_EVAL_CACHE_SHIFT; return &JS_SCRIPTS_TO_GC(cx)[h]; } static JSBool obj_eval(JSContext *cx, uintN argc, jsval *vp) { if (argc < 1) { *vp = JSVAL_VOID; return JS_TRUE; } JSStackFrame *caller = js_GetScriptedCaller(cx, NULL); if (!caller) { JS_ReportErrorNumber(cx, js_GetErrorMessage, NULL, JSMSG_BAD_INDIRECT_CALL, js_eval_str); return JS_FALSE; } bool indirectCall = (caller->regs && *caller->regs->pc != JSOP_EVAL); /* * This call to js_GetWrappedObject is safe because of the security checks * we do below. However, the control flow below is confusing, so we double * check. There are two cases: * - Direct call: This object is never used. So unwrapping can't hurt. * - Indirect call: If this object isn't already the scope chain (which * we're guaranteed to be allowed to access) then we do a security * check. */ jsval *argv = JS_ARGV(cx, vp); JSObject *obj = JS_THIS_OBJECT(cx, vp); if (!obj) return JS_FALSE; obj = js_GetWrappedObject(cx, obj); /* * Ban all indirect uses of eval (global.foo = eval; global.foo(...)) and * calls that attempt to use a non-global object as the "with" object in * the former indirect case. */ { JSObject *parent = obj->getParent(); if (indirectCall || parent) { uintN flags = parent ? JSREPORT_ERROR : JSREPORT_STRICT | JSREPORT_WARNING; if (!JS_ReportErrorFlagsAndNumber(cx, flags, js_GetErrorMessage, NULL, JSMSG_BAD_INDIRECT_CALL, js_eval_str)) { return JS_FALSE; } } } if (!JSVAL_IS_STRING(argv[0])) { *vp = argv[0]; return JS_TRUE; } /* * If the caller is a lightweight function and doesn't have a variables * object, then we need to provide one for the compiler to stick any * declared (var) variables into. */ if (caller->fun && !caller->callobj && !js_GetCallObject(cx, caller)) return JS_FALSE; /* Accept an optional trailing argument that overrides the scope object. */ JSObject *scopeobj = NULL; if (argc >= 2) { if (!js_ValueToObject(cx, argv[1], &scopeobj)) return JS_FALSE; argv[1] = OBJECT_TO_JSVAL(scopeobj); } /* Guard for conditionally-created with object below. */ struct WithGuard { JSObject *obj; WithGuard() : obj(NULL) {} ~WithGuard() { if (obj) obj->setPrivate(NULL); } } withGuard; /* From here on, control must exit through label out with ok set. */ MUST_FLOW_THROUGH("out"); uintN staticLevel = caller->script->staticLevel + 1; if (!scopeobj) { /* * Bring fp->scopeChain up to date. We're either going to use * it (direct call) or save it and restore it (indirect call). */ JSObject *callerScopeChain = js_GetScopeChain(cx, caller); if (!callerScopeChain) return JS_FALSE; #if JS_HAS_EVAL_THIS_SCOPE /* * If we see an indirect call, then run eval in the global scope. We do * this so the compiler can make assumptions about what bindings may or * may not exist in the current frame if it doesn't see 'eval'. */ if (indirectCall) { /* Pretend that we're top level. */ staticLevel = 0; OBJ_TO_INNER_OBJECT(cx, obj); if (!obj) return JS_FALSE; if (!js_CheckPrincipalsAccess(cx, obj, JS_StackFramePrincipals(cx, caller), cx->runtime->atomState.evalAtom)) { return JS_FALSE; } /* NB: We know obj is a global object here. */ JS_ASSERT(!obj->getParent()); scopeobj = obj; } else { /* * Compile using the caller's current scope object. * * NB: This means that native callers (who reach this point through * the C API) must use the two parameter form. */ scopeobj = callerScopeChain; } #endif } else { scopeobj = js_GetWrappedObject(cx, scopeobj); OBJ_TO_INNER_OBJECT(cx, scopeobj); if (!scopeobj) return JS_FALSE; if (!js_CheckPrincipalsAccess(cx, scopeobj, JS_StackFramePrincipals(cx, caller), cx->runtime->atomState.evalAtom)) return JS_FALSE; /* * If scopeobj is not a global object, then we need to wrap it in a * with object to maintain invariants in the engine (see bug 520164). */ if (scopeobj->getParent()) { JSObject *global = scopeobj->getGlobal(); withGuard.obj = js_NewWithObject(cx, scopeobj, global, 0); if (!withGuard.obj) return JS_FALSE; scopeobj = withGuard.obj; JS_ASSERT(argc >= 2); argv[1] = OBJECT_TO_JSVAL(withGuard.obj); } /* We're pretending that we're in global code. */ staticLevel = 0; } /* Ensure we compile this eval with the right object in the scope chain. */ JSObject *result = js_CheckScopeChainValidity(cx, scopeobj, js_eval_str); JS_ASSERT_IF(result, result == scopeobj); if (!result) return JS_FALSE; // CSP check: is eval() allowed at all? // report errors via CSP is done in the script security mgr. if (!js_CheckContentSecurityPolicy(cx)) { JS_ReportError(cx, "call to eval() blocked by CSP"); return JS_FALSE; } JSObject *callee = JSVAL_TO_OBJECT(vp[0]); JSPrincipals *principals = js_EvalFramePrincipals(cx, callee, caller); uintN line; const char *file = js_ComputeFilename(cx, caller, principals, &line); JSString *str = JSVAL_TO_STRING(argv[0]); JSScript *script = NULL; /* * Cache local eval scripts indexed by source qualified by scope. * * An eval cache entry should never be considered a hit unless its * strictness matches that of the new eval code. The existing code takes * care of this, because hits are qualified by the function from which * eval was called, whose strictness doesn't change. Scripts produced by * calls to eval from global code are not cached. */ JSScript **bucket = EvalCacheHash(cx, str); if (!indirectCall && caller->fun) { uintN count = 0; JSScript **scriptp = bucket; EVAL_CACHE_METER(probe); while ((script = *scriptp) != NULL) { if (script->savedCallerFun && script->staticLevel == staticLevel && script->version == cx->version && (script->principals == principals || (principals->subsume(principals, script->principals) && script->principals->subsume(script->principals, principals)))) { /* * Get the prior (cache-filling) eval's saved caller function. * See Compiler::compileScript in jsparse.cpp. */ JSFunction *fun = script->getFunction(0); if (fun == caller->fun) { /* * Get the source string passed for safekeeping in the * atom map by the prior eval to Compiler::compileScript. */ JSString *src = ATOM_TO_STRING(script->atomMap.vector[0]); if (src == str || js_EqualStrings(src, str)) { /* * Source matches, qualify by comparing scopeobj to the * COMPILE_N_GO-memoized parent of the first literal * function or regexp object if any. If none, then this * script has no compiled-in dependencies on the prior * eval's scopeobj. */ JSObjectArray *objarray = script->objects(); int i = 1; if (objarray->length == 1) { if (script->regexpsOffset != 0) { objarray = script->regexps(); i = 0; } else { EVAL_CACHE_METER(noscope); i = -1; } } if (i < 0 || objarray->vector[i]->getParent() == scopeobj) { JS_ASSERT(staticLevel == script->staticLevel); EVAL_CACHE_METER(hit); *scriptp = script->u.nextToGC; script->u.nextToGC = NULL; break; } } } } if (++count == EVAL_CACHE_CHAIN_LIMIT) { script = NULL; break; } EVAL_CACHE_METER(step); scriptp = &script->u.nextToGC; } } /* * We can't have a callerFrame (down in js_Execute's terms) if we're in * global code. This includes indirect eval and direct eval called with a * scope object parameter. */ JSStackFrame *callerFrame = (staticLevel != 0) ? caller : NULL; if (!script) { script = Compiler::compileScript(cx, scopeobj, callerFrame, principals, TCF_COMPILE_N_GO | TCF_NEED_MUTABLE_SCRIPT, str->chars(), str->length(), NULL, file, line, str, staticLevel); if (!script) return JS_FALSE; } /* * Belt-and-braces: check that the lesser of eval's principals and the * caller's principals has access to scopeobj. */ JSBool ok = js_CheckPrincipalsAccess(cx, scopeobj, principals, cx->runtime->atomState.evalAtom) && js_Execute(cx, scopeobj, script, callerFrame, JSFRAME_EVAL, vp); script->u.nextToGC = *bucket; *bucket = script; #ifdef CHECK_SCRIPT_OWNER script->owner = NULL; #endif return ok; } #if JS_HAS_OBJ_WATCHPOINT static JSBool obj_watch_handler(JSContext *cx, JSObject *obj, jsval id, jsval old, jsval *nvp, void *closure) { JSObject *callable; JSSecurityCallbacks *callbacks; JSStackFrame *caller; JSPrincipals *subject, *watcher; JSResolvingKey key; JSResolvingEntry *entry; uint32 generation; jsval argv[3]; JSBool ok; callable = (JSObject *) closure; callbacks = JS_GetSecurityCallbacks(cx); if (callbacks && callbacks->findObjectPrincipals) { /* Skip over any obj_watch_* frames between us and the real subject. */ caller = js_GetScriptedCaller(cx, NULL); if (caller) { /* * Only call the watch handler if the watcher is allowed to watch * the currently executing script. */ watcher = callbacks->findObjectPrincipals(cx, callable); subject = JS_StackFramePrincipals(cx, caller); if (watcher && subject && !watcher->subsume(watcher, subject)) { /* Silently don't call the watch handler. */ return JS_TRUE; } } } /* Avoid recursion on (obj, id) already being watched on cx. */ key.obj = obj; key.id = id; if (!js_StartResolving(cx, &key, JSRESFLAG_WATCH, &entry)) return JS_FALSE; if (!entry) return JS_TRUE; generation = cx->resolvingTable->generation; argv[0] = id; argv[1] = old; argv[2] = *nvp; ok = js_InternalCall(cx, obj, OBJECT_TO_JSVAL(callable), 3, argv, nvp); js_StopResolving(cx, &key, JSRESFLAG_WATCH, entry, generation); return ok; } static JSBool obj_watch(JSContext *cx, uintN argc, jsval *vp) { JSObject *callable; jsval userid, value; jsid propid; JSObject *obj; uintN attrs; if (argc <= 1) { js_ReportMissingArg(cx, vp, 1); return JS_FALSE; } callable = js_ValueToCallableObject(cx, &vp[3], 0); if (!callable) return JS_FALSE; /* Compute the unique int/atom symbol id needed by js_LookupProperty. */ userid = vp[2]; if (!JS_ValueToId(cx, userid, &propid)) return JS_FALSE; obj = JS_THIS_OBJECT(cx, vp); if (!obj || !obj->checkAccess(cx, propid, JSACC_WATCH, &value, &attrs)) return JS_FALSE; *vp = JSVAL_VOID; if (attrs & JSPROP_READONLY) return JS_TRUE; if (obj->isDenseArray() && !js_MakeArraySlow(cx, obj)) return JS_FALSE; return JS_SetWatchPoint(cx, obj, userid, obj_watch_handler, callable); } static JSBool obj_unwatch(JSContext *cx, uintN argc, jsval *vp) { JSObject *obj; obj = JS_THIS_OBJECT(cx, vp); if (!obj) return JS_FALSE; *vp = JSVAL_VOID; return JS_ClearWatchPoint(cx, obj, argc != 0 ? vp[2] : JSVAL_VOID, NULL, NULL); } #endif /* JS_HAS_OBJ_WATCHPOINT */ /* * Prototype and property query methods, to complement the 'in' and * 'instanceof' operators. */ /* Proposed ECMA 15.2.4.5. */ static JSBool obj_hasOwnProperty(JSContext *cx, uintN argc, jsval *vp) { JSObject *obj; obj = JS_THIS_OBJECT(cx, vp); return obj && js_HasOwnPropertyHelper(cx, obj->map->ops->lookupProperty, argc, vp); } JSBool js_HasOwnPropertyHelper(JSContext *cx, JSLookupPropOp lookup, uintN argc, jsval *vp) { jsid id; if (!JS_ValueToId(cx, argc != 0 ? vp[2] : JSVAL_VOID, &id)) return JS_FALSE; JSObject *obj = JS_THIS_OBJECT(cx, vp); JSObject *obj2; JSProperty *prop; if (!obj || !js_HasOwnProperty(cx, lookup, obj, id, &obj2, &prop)) return JS_FALSE; if (prop) { *vp = JSVAL_TRUE; obj2->dropProperty(cx, prop); } else { *vp = JSVAL_FALSE; } return JS_TRUE; } JSBool js_HasOwnProperty(JSContext *cx, JSLookupPropOp lookup, JSObject *obj, jsid id, JSObject **objp, JSProperty **propp) { if (!lookup(cx, obj, id, objp, propp)) return false; if (!*propp) return true; if (*objp == obj) return true; JSExtendedClass *xclasp; JSObject *outer; JSClass *clasp = (*objp)->getClass(); if (!(clasp->flags & JSCLASS_IS_EXTENDED) || !(xclasp = (JSExtendedClass *) clasp)->outerObject) { outer = NULL; } else { outer = xclasp->outerObject(cx, *objp); if (!outer) return false; } if (outer != *objp) { if ((*objp)->isNative() && obj->getClass() == clasp) { /* * The combination of JSPROP_SHARED and JSPROP_PERMANENT in a * delegated property makes that property appear to be direct in * all delegating instances of the same native class. This hack * avoids bloating every function instance with its own 'length' * (AKA 'arity') property. But it must not extend across class * boundaries, to avoid making hasOwnProperty lie (bug 320854). * * It's not really a hack, of course: a permanent property can't * be deleted, and JSPROP_SHARED means "don't allocate a slot in * any instance, prototype or delegating". Without a slot, and * without the ability to remove and recreate (with differences) * the property, there is no way to tell whether it is directly * owned, or indirectly delegated. */ JSScopeProperty *sprop = reinterpret_cast(*propp); if (sprop->isSharedPermanent()) return true; } (*objp)->dropProperty(cx, *propp); *propp = NULL; } return true; } #ifdef JS_TRACER static JSBool FASTCALL Object_p_hasOwnProperty(JSContext* cx, JSObject* obj, JSString *str) { jsid id; JSObject *pobj; JSProperty *prop; if (!js_ValueToStringId(cx, STRING_TO_JSVAL(str), &id) || !js_HasOwnProperty(cx, obj->map->ops->lookupProperty, obj, id, &pobj, &prop)) { SetBuiltinError(cx); return JSVAL_TO_BOOLEAN(JSVAL_VOID); } if (prop) pobj->dropProperty(cx, prop); return !!prop; } #endif /* Proposed ECMA 15.2.4.6. */ static JSBool obj_isPrototypeOf(JSContext *cx, uintN argc, jsval *vp) { JSObject *obj = JS_THIS_OBJECT(cx, vp); if (!obj) return JS_FALSE; JSBool b; if (!js_IsDelegate(cx, obj, argc != 0 ? vp[2] : JSVAL_VOID, &b)) return JS_FALSE; *vp = BOOLEAN_TO_JSVAL(b); return JS_TRUE; } /* Proposed ECMA 15.2.4.7. */ static JSBool obj_propertyIsEnumerable(JSContext *cx, uintN argc, jsval *vp) { jsid id; JSObject *obj; if (!JS_ValueToId(cx, argc != 0 ? vp[2] : JSVAL_VOID, &id)) return JS_FALSE; obj = JS_THIS_OBJECT(cx, vp); return obj && js_PropertyIsEnumerable(cx, obj, id, vp); } #ifdef JS_TRACER static JSBool FASTCALL Object_p_propertyIsEnumerable(JSContext* cx, JSObject* obj, JSString *str) { jsid id = ATOM_TO_JSID(STRING_TO_JSVAL(str)); jsval v; if (!js_PropertyIsEnumerable(cx, obj, id, &v)) { SetBuiltinError(cx); return JSVAL_TO_BOOLEAN(JSVAL_VOID); } JS_ASSERT(JSVAL_IS_BOOLEAN(v)); return JSVAL_TO_BOOLEAN(v); } #endif JSBool js_PropertyIsEnumerable(JSContext *cx, JSObject *obj, jsid id, jsval *vp) { JSObject *pobj; uintN attrs; JSProperty *prop; JSBool ok; if (!obj->lookupProperty(cx, id, &pobj, &prop)) return JS_FALSE; if (!prop) { *vp = JSVAL_FALSE; return JS_TRUE; } /* * XXX ECMA spec error compatible: return false unless hasOwnProperty. * The ECMA spec really should be fixed so propertyIsEnumerable and the * for..in loop agree on whether prototype properties are enumerable, * obviously by fixing this method (not by breaking the for..in loop!). * * We check here for shared permanent prototype properties, which should * be treated as if they are local to obj. They are an implementation * technique used to satisfy ECMA requirements; users should not be able * to distinguish a shared permanent proto-property from a local one. */ if (pobj != obj && !(pobj->isNative() && ((JSScopeProperty *)prop)->isSharedPermanent())) { pobj->dropProperty(cx, prop); *vp = JSVAL_FALSE; return JS_TRUE; } ok = pobj->getAttributes(cx, id, prop, &attrs); pobj->dropProperty(cx, prop); if (ok) *vp = BOOLEAN_TO_JSVAL((attrs & JSPROP_ENUMERATE) != 0); return ok; } #if OLD_GETTER_SETTER_METHODS const char js_defineGetter_str[] = "__defineGetter__"; const char js_defineSetter_str[] = "__defineSetter__"; const char js_lookupGetter_str[] = "__lookupGetter__"; const char js_lookupSetter_str[] = "__lookupSetter__"; JS_FRIEND_API(JSBool) js_obj_defineGetter(JSContext *cx, uintN argc, jsval *vp) { jsval fval, junk; jsid id; JSObject *obj; uintN attrs; if (argc <= 1 || !js_IsCallable(vp[3])) { JS_ReportErrorNumber(cx, js_GetErrorMessage, NULL, JSMSG_BAD_GETTER_OR_SETTER, js_getter_str); return JS_FALSE; } fval = vp[3]; if (!JS_ValueToId(cx, vp[2], &id)) return JS_FALSE; obj = JS_THIS_OBJECT(cx, vp); if (!obj || !js_CheckRedeclaration(cx, obj, id, JSPROP_GETTER, NULL, NULL)) return JS_FALSE; /* * Getters and setters are just like watchpoints from an access * control point of view. */ if (!obj->checkAccess(cx, id, JSACC_WATCH, &junk, &attrs)) return JS_FALSE; *vp = JSVAL_VOID; return obj->defineProperty(cx, id, JSVAL_VOID, js_CastAsPropertyOp(JSVAL_TO_OBJECT(fval)), JS_PropertyStub, JSPROP_ENUMERATE | JSPROP_GETTER | JSPROP_SHARED); } JS_FRIEND_API(JSBool) js_obj_defineSetter(JSContext *cx, uintN argc, jsval *vp) { jsval fval, junk; jsid id; JSObject *obj; uintN attrs; if (argc <= 1 || !js_IsCallable(vp[3])) { JS_ReportErrorNumber(cx, js_GetErrorMessage, NULL, JSMSG_BAD_GETTER_OR_SETTER, js_setter_str); return JS_FALSE; } fval = vp[3]; if (!JS_ValueToId(cx, vp[2], &id)) return JS_FALSE; obj = JS_THIS_OBJECT(cx, vp); if (!obj || !js_CheckRedeclaration(cx, obj, id, JSPROP_SETTER, NULL, NULL)) return JS_FALSE; /* * Getters and setters are just like watchpoints from an access * control point of view. */ if (!obj->checkAccess(cx, id, JSACC_WATCH, &junk, &attrs)) return JS_FALSE; *vp = JSVAL_VOID; return obj->defineProperty(cx, id, JSVAL_VOID, JS_PropertyStub, js_CastAsPropertyOp(JSVAL_TO_OBJECT(fval)), JSPROP_ENUMERATE | JSPROP_SETTER | JSPROP_SHARED); } static JSBool obj_lookupGetter(JSContext *cx, uintN argc, jsval *vp) { jsid id; JSObject *obj, *pobj; JSProperty *prop; JSScopeProperty *sprop; if (!JS_ValueToId(cx, argc != 0 ? vp[2] : JSVAL_VOID, &id)) return JS_FALSE; obj = JS_THIS_OBJECT(cx, vp); if (!obj || !obj->lookupProperty(cx, id, &pobj, &prop)) return JS_FALSE; *vp = JSVAL_VOID; if (prop) { if (pobj->isNative()) { sprop = (JSScopeProperty *) prop; if (sprop->hasGetterValue()) *vp = sprop->getterValue(); } pobj->dropProperty(cx, prop); } return JS_TRUE; } static JSBool obj_lookupSetter(JSContext *cx, uintN argc, jsval *vp) { jsid id; JSObject *obj, *pobj; JSProperty *prop; JSScopeProperty *sprop; if (!JS_ValueToId(cx, argc != 0 ? vp[2] : JSVAL_VOID, &id)) return JS_FALSE; obj = JS_THIS_OBJECT(cx, vp); if (!obj || !obj->lookupProperty(cx, id, &pobj, &prop)) return JS_FALSE; *vp = JSVAL_VOID; if (prop) { if (pobj->isNative()) { sprop = (JSScopeProperty *) prop; if (sprop->hasSetterValue()) *vp = sprop->setterValue(); } pobj->dropProperty(cx, prop); } return JS_TRUE; } #endif /* OLD_GETTER_SETTER_METHODS */ JSBool obj_getPrototypeOf(JSContext *cx, uintN argc, jsval *vp) { JSObject *obj; uintN attrs; if (argc == 0) { js_ReportMissingArg(cx, vp, 0); return JS_FALSE; } if (JSVAL_IS_PRIMITIVE(vp[2])) { char *bytes = js_DecompileValueGenerator(cx, 0 - argc, vp[2], NULL); if (!bytes) return JS_FALSE; JS_ReportErrorNumber(cx, js_GetErrorMessage, NULL, JSMSG_UNEXPECTED_TYPE, bytes, "not an object"); JS_free(cx, bytes); return JS_FALSE; } obj = JSVAL_TO_OBJECT(vp[2]); return obj->checkAccess(cx, ATOM_TO_JSID(cx->runtime->atomState.protoAtom), JSACC_PROTO, vp, &attrs); } JSBool js_GetOwnPropertyDescriptor(JSContext *cx, JSObject *obj, jsid id, jsval *vp) { JSObject *pobj; JSProperty *prop; if (!js_HasOwnProperty(cx, obj->map->ops->lookupProperty, obj, id, &pobj, &prop)) return false; if (!prop) { *vp = JSVAL_VOID; return true; } uintN attrs; if (!pobj->getAttributes(cx, id, prop, &attrs)) { pobj->dropProperty(cx, prop); return false; } jsval roots[] = { JSVAL_VOID, JSVAL_VOID }; AutoArrayRooter tvr(cx, JS_ARRAY_LENGTH(roots), roots); if (attrs & (JSPROP_GETTER | JSPROP_SETTER)) { if (obj->isNative()) { JSScopeProperty *sprop = reinterpret_cast(prop); if (attrs & JSPROP_GETTER) roots[0] = sprop->getterValue(); if (attrs & JSPROP_SETTER) roots[1] = sprop->setterValue(); } pobj->dropProperty(cx, prop); } else { pobj->dropProperty(cx, prop); if (!obj->getProperty(cx, id, &roots[0])) return false; } /* We have our own property, so start creating the descriptor. */ JSObject *desc = NewObject(cx, &js_ObjectClass, NULL, NULL); if (!desc) return false; *vp = OBJECT_TO_JSVAL(desc); /* Root and return. */ const JSAtomState &atomState = cx->runtime->atomState; if (attrs & (JSPROP_GETTER | JSPROP_SETTER)) { if (!desc->defineProperty(cx, ATOM_TO_JSID(atomState.getAtom), roots[0], JS_PropertyStub, JS_PropertyStub, JSPROP_ENUMERATE) || !desc->defineProperty(cx, ATOM_TO_JSID(atomState.setAtom), roots[1], JS_PropertyStub, JS_PropertyStub, JSPROP_ENUMERATE)) { return false; } } else { if (!desc->defineProperty(cx, ATOM_TO_JSID(atomState.valueAtom), roots[0], JS_PropertyStub, JS_PropertyStub, JSPROP_ENUMERATE) || !desc->defineProperty(cx, ATOM_TO_JSID(atomState.writableAtom), BOOLEAN_TO_JSVAL((attrs & JSPROP_READONLY) == 0), JS_PropertyStub, JS_PropertyStub, JSPROP_ENUMERATE)) { return false; } } return desc->defineProperty(cx, ATOM_TO_JSID(atomState.enumerableAtom), BOOLEAN_TO_JSVAL((attrs & JSPROP_ENUMERATE) != 0), JS_PropertyStub, JS_PropertyStub, JSPROP_ENUMERATE) && desc->defineProperty(cx, ATOM_TO_JSID(atomState.configurableAtom), BOOLEAN_TO_JSVAL((attrs & JSPROP_PERMANENT) == 0), JS_PropertyStub, JS_PropertyStub, JSPROP_ENUMERATE); } static JSBool obj_getOwnPropertyDescriptor(JSContext *cx, uintN argc, jsval *vp) { if (argc == 0 || JSVAL_IS_PRIMITIVE(vp[2])) { JS_ReportErrorNumber(cx, js_GetErrorMessage, NULL, JSMSG_NOT_NONNULL_OBJECT); return false; } JSObject *obj = JSVAL_TO_OBJECT(vp[2]); AutoIdRooter nameidr(cx); if (!JS_ValueToId(cx, argc >= 2 ? vp[3] : JSVAL_VOID, nameidr.addr())) return JS_FALSE; return js_GetOwnPropertyDescriptor(cx, obj, nameidr.id(), vp); } static JSBool obj_keys(JSContext *cx, uintN argc, jsval *vp) { jsval v = argc == 0 ? JSVAL_VOID : vp[2]; if (JSVAL_IS_PRIMITIVE(v)) { JS_ReportErrorNumber(cx, js_GetErrorMessage, NULL, JSMSG_NOT_NONNULL_OBJECT); return JS_FALSE; } JSObject *obj = JSVAL_TO_OBJECT(v); AutoIdArray ida(cx, JS_Enumerate(cx, obj)); if (!ida) return JS_FALSE; JSObject *proto; if (!js_GetClassPrototype(cx, NULL, JSProto_Array, &proto)) return JS_FALSE; vp[1] = OBJECT_TO_JSVAL(proto); JS_ASSERT(ida.length() <= UINT32_MAX); JSObject *aobj = js_NewArrayWithSlots(cx, proto, uint32(ida.length())); if (!aobj) return JS_FALSE; *vp = OBJECT_TO_JSVAL(aobj); jsval *slots = aobj->dslots; size_t len = ida.length(); JS_ASSERT(js_DenseArrayCapacity(aobj) >= len); for (size_t i = 0; i < len; i++) { jsid id = ida[i]; if (JSID_IS_INT(id)) { if (!js_ValueToStringId(cx, INT_JSID_TO_JSVAL(id), &slots[i])) return JS_FALSE; } else { /* * Object-valued ids are a possibility admitted by SpiderMonkey for * the purposes of E4X. It's unclear whether they could ever be * detected here -- the "obvious" possibility, a property referred * to by a QName, actually appears as a string jsid -- but in the * interests of fidelity we pass object jsids through unchanged. */ slots[i] = ID_TO_VALUE(id); } } JS_ASSERT(len <= UINT32_MAX); aobj->setArrayCount(len); return JS_TRUE; } static JSBool HasProperty(JSContext* cx, JSObject* obj, jsid id, jsval* vp, JSBool* answerp) { if (!JS_HasPropertyById(cx, obj, id, answerp)) return JS_FALSE; if (!*answerp) { *vp = JSVAL_VOID; return JS_TRUE; } return JS_GetPropertyById(cx, obj, id, vp); } PropertyDescriptor::PropertyDescriptor() : id(INT_JSVAL_TO_JSID(JSVAL_ZERO)), value(JSVAL_VOID), get(JSVAL_VOID), set(JSVAL_VOID), attrs(0), hasGet(false), hasSet(false), hasValue(false), hasWritable(false), hasEnumerable(false), hasConfigurable(false) { } bool PropertyDescriptor::initialize(JSContext* cx, jsid id, jsval v) { this->id = id; /* 8.10.5 step 1 */ if (JSVAL_IS_PRIMITIVE(v)) { JS_ReportErrorNumber(cx, js_GetErrorMessage, NULL, JSMSG_NOT_NONNULL_OBJECT); return false; } JSObject* desc = JSVAL_TO_OBJECT(v); /* Start with the proper defaults. */ attrs = JSPROP_PERMANENT | JSPROP_READONLY; JSBool hasProperty; /* 8.10.5 step 3 */ if (!HasProperty(cx, desc, ATOM_TO_JSID(cx->runtime->atomState.enumerableAtom), &v, &hasProperty)) { return false; } if (hasProperty) { hasEnumerable = JS_TRUE; if (js_ValueToBoolean(v)) attrs |= JSPROP_ENUMERATE; } /* 8.10.5 step 4 */ if (!HasProperty(cx, desc, ATOM_TO_JSID(cx->runtime->atomState.configurableAtom), &v, &hasProperty)) { return false; } if (hasProperty) { hasConfigurable = JS_TRUE; if (js_ValueToBoolean(v)) attrs &= ~JSPROP_PERMANENT; } /* 8.10.5 step 5 */ if (!HasProperty(cx, desc, ATOM_TO_JSID(cx->runtime->atomState.valueAtom), &v, &hasProperty)) return false; if (hasProperty) { hasValue = true; value = v; } /* 8.10.6 step 6 */ if (!HasProperty(cx, desc, ATOM_TO_JSID(cx->runtime->atomState.writableAtom), &v, &hasProperty)) return false; if (hasProperty) { hasWritable = JS_TRUE; if (js_ValueToBoolean(v)) attrs &= ~JSPROP_READONLY; } /* 8.10.7 step 7 */ if (!HasProperty(cx, desc, ATOM_TO_JSID(cx->runtime->atomState.getAtom), &v, &hasProperty)) return false; if (hasProperty) { if ((JSVAL_IS_PRIMITIVE(v) || !js_IsCallable(v)) && v != JSVAL_VOID) { JS_ReportErrorNumber(cx, js_GetErrorMessage, NULL, JSMSG_BAD_GET_SET_FIELD, js_getter_str); return false; } hasGet = true; get = v; attrs |= JSPROP_GETTER | JSPROP_SHARED; } /* 8.10.7 step 8 */ if (!HasProperty(cx, desc, ATOM_TO_JSID(cx->runtime->atomState.setAtom), &v, &hasProperty)) return false; if (hasProperty) { if ((JSVAL_IS_PRIMITIVE(v) || !js_IsCallable(v)) && v != JSVAL_VOID) { JS_ReportErrorNumber(cx, js_GetErrorMessage, NULL, JSMSG_BAD_GET_SET_FIELD, js_setter_str); return false; } hasSet = true; set = v; attrs |= JSPROP_SETTER | JSPROP_SHARED; } /* 8.10.7 step 9 */ if ((hasGet || hasSet) && (hasValue || hasWritable)) { JS_ReportErrorNumber(cx, js_GetErrorMessage, NULL, JSMSG_INVALID_DESCRIPTOR); return false; } return true; } static JSBool Reject(JSContext *cx, uintN errorNumber, bool throwError, jsid id, bool *rval) { if (throwError) { jsid idstr; if (!js_ValueToStringId(cx, ID_TO_VALUE(id), &idstr)) return JS_FALSE; JS_ReportErrorNumber(cx, js_GetErrorMessage, NULL, errorNumber, JS_GetStringBytes(JSVAL_TO_STRING(ID_TO_VALUE(idstr)))); return JS_FALSE; } *rval = false; return JS_TRUE; } static JSBool Reject(JSContext *cx, uintN errorNumber, bool throwError, bool *rval) { if (throwError) { JS_ReportErrorNumber(cx, js_GetErrorMessage, NULL, errorNumber); return JS_FALSE; } *rval = false; return JS_TRUE; } static JSBool Reject(JSContext *cx, JSObject *obj, JSProperty *prop, uintN errorNumber, bool throwError, jsid id, bool *rval) { obj->dropProperty(cx, prop); return Reject(cx, errorNumber, throwError, id, rval); } static JSBool DefinePropertyObject(JSContext *cx, JSObject *obj, const PropertyDescriptor &desc, bool throwError, bool *rval) { /* 8.12.9 step 1. */ JSProperty *current; JSObject *obj2; JS_ASSERT(obj->map->ops->lookupProperty == js_LookupProperty); if (!js_HasOwnProperty(cx, js_LookupProperty, obj, desc.id, &obj2, ¤t)) return JS_FALSE; JS_ASSERT(obj->map->ops->defineProperty == js_DefineProperty); /* 8.12.9 steps 2-4. */ JSScope *scope = obj->scope(); if (!current) { if (scope->sealed()) return Reject(cx, JSMSG_OBJECT_NOT_EXTENSIBLE, throwError, rval); *rval = true; if (desc.isGenericDescriptor() || desc.isDataDescriptor()) { JS_ASSERT(obj->map->ops->defineProperty == js_DefineProperty); return js_DefineProperty(cx, obj, desc.id, desc.value, JS_PropertyStub, JS_PropertyStub, desc.attrs); } JS_ASSERT(desc.isAccessorDescriptor()); /* * Getters and setters are just like watchpoints from an access * control point of view. */ jsval dummy; uintN dummyAttrs; JS_ASSERT(obj->map->ops->checkAccess == js_CheckAccess); if (!js_CheckAccess(cx, obj, desc.id, JSACC_WATCH, &dummy, &dummyAttrs)) return JS_FALSE; return js_DefineProperty(cx, obj, desc.id, JSVAL_VOID, desc.getterObject() ? desc.getter() : JS_PropertyStub, desc.setterObject() ? desc.setter() : JS_PropertyStub, desc.attrs); } /* 8.12.9 steps 5-6 (note 5 is merely a special case of 6). */ jsval v = JSVAL_VOID; /* * In the special case of shared permanent properties, the "own" property * can be found on a different object. In that case the returned property * might not be native, except: the shared permanent property optimization * is not applied if the objects have different classes (bug 320854), as * must be enforced by js_HasOwnProperty for the JSScopeProperty cast below * to be safe. */ JS_ASSERT(obj->getClass() == obj2->getClass()); JSScopeProperty *sprop = reinterpret_cast(current); do { if (desc.isAccessorDescriptor()) { if (!sprop->isAccessorDescriptor()) break; if (desc.hasGet && !js_SameValue(desc.getterValue(), sprop->hasGetterValue() ? sprop->getterValue() : JSVAL_VOID, cx)) { break; } if (desc.hasSet && !js_SameValue(desc.setterValue(), sprop->hasSetterValue() ? sprop->setterValue() : JSVAL_VOID, cx)) { break; } } else { /* * Determine the current value of the property once, if the current * value might actually need to be used or preserved later. NB: we * guard on whether the current property is a data descriptor to * avoid calling a getter; we won't need the value if it's not a * data descriptor. */ if (sprop->isDataDescriptor()) { /* * Non-standard: if the property is non-configurable and is * represented by a native getter or setter, don't permit * redefinition. We expose properties with native getter/setter * as though they were data properties, for the most part, but * in this particular case we must worry about integrity * concerns for JSAPI users who expected that * permanent+getter/setter means precisely controlled behavior. * If we permitted such redefinitions, such a property could be * "fixed" to some specific previous value, no longer varying * according to the intent of the native getter/setter for the * property. * * Other engines expose properties of this nature using ECMA * getter/setter pairs, but we can't because we use them even * for properties which ECMA specifies as being true data * descriptors ([].length, Function.length, /regex/.lastIndex, * &c.). Longer-term perhaps we should convert such properties * to use data descriptors (at which point representing a * descriptor with native getter/setter as an accessor * descriptor would be fine) and take a small memory hit, but * for now we'll simply forbid their redefinition. */ if (!sprop->configurable() && (!sprop->hasDefaultGetter() || !sprop->hasDefaultSetter())) { return Reject(cx, obj2, current, JSMSG_CANT_REDEFINE_UNCONFIGURABLE_PROP, throwError, desc.id, rval); } if (!js_NativeGet(cx, obj, obj2, sprop, JSGET_NO_METHOD_BARRIER, &v)) { /* current was dropped when the failure occurred. */ return JS_FALSE; } } if (desc.isDataDescriptor()) { if (!sprop->isDataDescriptor()) break; if (desc.hasValue && !js_SameValue(desc.value, v, cx)) break; if (desc.hasWritable && desc.writable() != sprop->writable()) break; } else { /* The only fields in desc will be handled below. */ JS_ASSERT(desc.isGenericDescriptor()); } } if (desc.hasConfigurable && desc.configurable() != sprop->configurable()) break; if (desc.hasEnumerable && desc.enumerable() != sprop->enumerable()) break; /* The conditions imposed by step 5 or step 6 apply. */ obj2->dropProperty(cx, current); *rval = true; return JS_TRUE; } while (0); /* 8.12.9 step 7. */ if (!sprop->configurable()) { /* * Since [[Configurable]] defaults to false, we don't need to check * whether it was specified. We can't do likewise for [[Enumerable]] * because its putative value is used in a comparison -- a comparison * whose result must always be false per spec if the [[Enumerable]] * field is not present. Perfectly pellucid logic, eh? */ JS_ASSERT_IF(!desc.hasConfigurable, !desc.configurable()); if (desc.configurable() || (desc.hasEnumerable && desc.enumerable() != sprop->enumerable())) { return Reject(cx, obj2, current, JSMSG_CANT_REDEFINE_UNCONFIGURABLE_PROP, throwError, desc.id, rval); } } if (desc.isGenericDescriptor()) { /* 8.12.9 step 8, no validation required */ } else if (desc.isDataDescriptor() != sprop->isDataDescriptor()) { /* 8.12.9 step 9. */ if (!sprop->configurable()) { return Reject(cx, obj2, current, JSMSG_CANT_REDEFINE_UNCONFIGURABLE_PROP, throwError, desc.id, rval); } } else if (desc.isDataDescriptor() && sprop->isDataDescriptor()) { /* 8.12.9 step 10. */ if (!sprop->configurable() && !sprop->writable()) { if ((desc.hasWritable && desc.writable()) || (desc.hasValue && !js_SameValue(desc.value, v, cx))) { return Reject(cx, obj2, current, JSMSG_CANT_REDEFINE_UNCONFIGURABLE_PROP, throwError, desc.id, rval); } } } else { /* 8.12.9 step 11. */ JS_ASSERT(desc.isAccessorDescriptor() && sprop->isAccessorDescriptor()); if (!sprop->configurable()) { if ((desc.hasSet && !js_SameValue(desc.setterValue(), sprop->hasSetterValue() ? sprop->setterValue() : JSVAL_VOID, cx)) || (desc.hasGet && !js_SameValue(desc.getterValue(), sprop->hasGetterValue() ? sprop->getterValue() : JSVAL_VOID, cx))) { return Reject(cx, obj2, current, JSMSG_CANT_REDEFINE_UNCONFIGURABLE_PROP, throwError, desc.id, rval); } } } /* 8.12.9 step 12. */ uintN attrs; JSPropertyOp getter, setter; if (desc.isGenericDescriptor()) { uintN changed = 0; if (desc.hasConfigurable) changed |= JSPROP_PERMANENT; if (desc.hasEnumerable) changed |= JSPROP_ENUMERATE; attrs = (sprop->attributes() & ~changed) | (desc.attrs & changed); getter = sprop->getter(); setter = sprop->setter(); } else if (desc.isDataDescriptor()) { uintN unchanged = 0; if (!desc.hasConfigurable) unchanged |= JSPROP_PERMANENT; if (!desc.hasEnumerable) unchanged |= JSPROP_ENUMERATE; if (!desc.hasWritable) unchanged |= JSPROP_READONLY; if (desc.hasValue) v = desc.value; attrs = (desc.attrs & ~unchanged) | (sprop->attributes() & unchanged); getter = setter = JS_PropertyStub; } else { JS_ASSERT(desc.isAccessorDescriptor()); /* * Getters and setters are just like watchpoints from an access * control point of view. */ jsval dummy; JS_ASSERT(obj2->map->ops->checkAccess == js_CheckAccess); if (!js_CheckAccess(cx, obj2, desc.id, JSACC_WATCH, &dummy, &attrs)) { obj2->dropProperty(cx, current); return JS_FALSE; } /* 8.12.9 step 12. */ uintN changed = 0; if (desc.hasConfigurable) changed |= JSPROP_PERMANENT; if (desc.hasEnumerable) changed |= JSPROP_ENUMERATE; if (desc.hasGet) changed |= JSPROP_GETTER | JSPROP_SHARED; if (desc.hasSet) changed |= JSPROP_SETTER | JSPROP_SHARED; attrs = (desc.attrs & changed) | (sprop->attributes() & ~changed); if (desc.hasGet) getter = desc.getterObject() ? desc.getter() : JS_PropertyStub; else getter = sprop->getter(); if (desc.hasSet) setter = desc.setterObject() ? desc.setter() : JS_PropertyStub; else setter = sprop->setter(); } *rval = true; obj2->dropProperty(cx, current); return js_DefineProperty(cx, obj, desc.id, v, getter, setter, attrs); } static JSBool DefinePropertyArray(JSContext *cx, JSObject *obj, const PropertyDescriptor &desc, bool throwError, bool *rval) { /* * We probably should optimize dense array property definitions where * the descriptor describes a traditional array property (enumerable, * configurable, writable, numeric index or length without altering its * attributes). Such definitions are probably unlikely, so we don't bother * for now. */ if (obj->isDenseArray() && !js_MakeArraySlow(cx, obj)) return JS_FALSE; jsuint oldLen = obj->getArrayLength(); if (desc.id == ATOM_TO_JSID(cx->runtime->atomState.lengthAtom)) { /* * Our optimization of storage of the length property of arrays makes * it very difficult to properly implement defining the property. For * now simply throw an exception (NB: not merely Reject) on any attempt * to define the "length" property, rather than attempting to implement * some difficult-for-authors-to-grasp subset of that functionality. */ JS_ReportErrorNumber(cx, js_GetErrorMessage, NULL, JSMSG_DEFINE_ARRAY_LENGTH_UNSUPPORTED); return JS_FALSE; } uint32 index; if (js_IdIsIndex(desc.id, &index)) { /* // Disabled until we support defining "length": if (index >= oldLen && lengthPropertyNotWritable()) return ThrowTypeError(cx, JSMSG_CANT_APPEND_PROPERTIES_TO_UNWRITABLE_LENGTH_ARRAY); */ if (!DefinePropertyObject(cx, obj, desc, false, rval)) return JS_FALSE; if (!*rval) return Reject(cx, JSMSG_CANT_DEFINE_ARRAY_INDEX, throwError, rval); if (index >= oldLen) { JS_ASSERT(index != UINT32_MAX); obj->setArrayLength(index + 1); } *rval = true; return JS_TRUE; } return DefinePropertyObject(cx, obj, desc, throwError, rval); } static JSBool DefineProperty(JSContext *cx, JSObject *obj, const PropertyDescriptor &desc, bool throwError, bool *rval) { if (obj->isArray()) return DefinePropertyArray(cx, obj, desc, throwError, rval); if (!obj->isNative()) return Reject(cx, JSMSG_OBJECT_NOT_EXTENSIBLE, throwError, rval); return DefinePropertyObject(cx, obj, desc, throwError, rval); } JSBool js_DefineOwnProperty(JSContext *cx, JSObject *obj, jsid id, jsval descriptor, JSBool *bp) { AutoDescriptorArray descs(cx); PropertyDescriptor *desc = descs.append(); if (!desc || !desc->initialize(cx, id, descriptor)) return false; bool rval; if (!DefineProperty(cx, obj, *desc, true, &rval)) return false; *bp = !!rval; return true; } /* ES5 15.2.3.6: Object.defineProperty(O, P, Attributes) */ static JSBool obj_defineProperty(JSContext* cx, uintN argc, jsval* vp) { /* 15.2.3.6 steps 1 and 5. */ jsval v = (argc == 0) ? JSVAL_VOID : vp[2]; if (JSVAL_IS_PRIMITIVE(v)) { JS_ReportErrorNumber(cx, js_GetErrorMessage, NULL, JSMSG_NOT_NONNULL_OBJECT); return JS_FALSE; } *vp = vp[2]; JSObject* obj = JSVAL_TO_OBJECT(*vp); /* 15.2.3.6 step 2. */ AutoIdRooter nameidr(cx); if (!JS_ValueToId(cx, argc >= 2 ? vp[3] : JSVAL_VOID, nameidr.addr())) return JS_FALSE; /* 15.2.3.6 step 3. */ jsval descval = argc >= 3 ? vp[4] : JSVAL_VOID; /* 15.2.3.6 step 4 */ JSBool junk; return js_DefineOwnProperty(cx, obj, nameidr.id(), descval, &junk); } /* ES5 15.2.3.7: Object.defineProperties(O, Properties) */ static JSBool obj_defineProperties(JSContext* cx, uintN argc, jsval* vp) { /* 15.2.3.6 steps 1 and 5. */ if (argc < 2) { JS_ReportErrorNumber(cx, js_GetErrorMessage, NULL, JSMSG_MORE_ARGS_NEEDED, "Object.defineProperties", "0", "s"); return JS_FALSE; } *vp = vp[2]; if (JSVAL_IS_PRIMITIVE(vp[2])) { JS_ReportErrorNumber(cx, js_GetErrorMessage, NULL, JSMSG_NOT_NONNULL_OBJECT); return JS_FALSE; } JSObject* props = js_ValueToNonNullObject(cx, vp[3]); if (!props) return JS_FALSE; vp[3] = OBJECT_TO_JSVAL(props); AutoIdArray ida(cx, JS_Enumerate(cx, props)); if (!ida) return JS_FALSE; AutoDescriptorArray descs(cx); size_t len = ida.length(); for (size_t i = 0; i < len; i++) { jsid id = ida[i]; PropertyDescriptor* desc = descs.append(); if (!desc || !JS_GetPropertyById(cx, props, id, &vp[1]) || !desc->initialize(cx, id, vp[1])) { return JS_FALSE; } } JSObject *obj = JSVAL_TO_OBJECT(*vp); bool dummy; for (size_t i = 0; i < len; i++) { if (!DefineProperty(cx, obj, descs[i], true, &dummy)) return JS_FALSE; } return JS_TRUE; } /* ES5 15.2.3.5: Object.create(O [, Properties]) */ static JSBool obj_create(JSContext *cx, uintN argc, jsval *vp) { if (argc == 0) { JS_ReportErrorNumber(cx, js_GetErrorMessage, NULL, JSMSG_MORE_ARGS_NEEDED, "Object.create", "0", "s"); return JS_FALSE; } jsval v = vp[2]; if (!JSVAL_IS_OBJECT(vp[2])) { char *bytes = js_DecompileValueGenerator(cx, JSDVG_SEARCH_STACK, v, NULL); if (!bytes) return JS_FALSE; JS_ReportErrorNumber(cx, js_GetErrorMessage, NULL, JSMSG_UNEXPECTED_TYPE, bytes, "not an object or null"); JS_free(cx, bytes); return JS_FALSE; } /* * It's plausible that it's safe to just use the context's global object, * but since we're not completely sure, better safe than sorry. */ JSObject *obj = NewObjectWithGivenProto(cx, &js_ObjectClass, JSVAL_TO_OBJECT(v), JS_GetScopeChain(cx)); if (!obj) return JS_FALSE; *vp = OBJECT_TO_JSVAL(obj); /* Root and prepare for eventual return. */ /* 15.2.3.5 step 4. */ if (argc > 1 && vp[3] != JSVAL_VOID) { if (JSVAL_IS_PRIMITIVE(vp[3])) { JS_ReportErrorNumber(cx, js_GetErrorMessage, NULL, JSMSG_NOT_NONNULL_OBJECT); return JS_FALSE; } JSObject *props = JSVAL_TO_OBJECT(vp[3]); AutoIdArray ida(cx, JS_Enumerate(cx, props)); if (!ida) return JS_FALSE; AutoDescriptorArray descs(cx); size_t len = ida.length(); for (size_t i = 0; i < len; i++) { jsid id = ida[i]; PropertyDescriptor *desc = descs.append(); if (!desc || !JS_GetPropertyById(cx, props, id, &vp[1]) || !desc->initialize(cx, id, vp[1])) { return JS_FALSE; } } bool dummy; for (size_t i = 0; i < len; i++) { if (!DefineProperty(cx, obj, descs[i], true, &dummy)) return JS_FALSE; } } /* 5. Return obj. */ return JS_TRUE; } #if JS_HAS_OBJ_WATCHPOINT const char js_watch_str[] = "watch"; const char js_unwatch_str[] = "unwatch"; #endif const char js_hasOwnProperty_str[] = "hasOwnProperty"; const char js_isPrototypeOf_str[] = "isPrototypeOf"; const char js_propertyIsEnumerable_str[] = "propertyIsEnumerable"; JS_DEFINE_TRCINFO_1(obj_valueOf, (3, (static, JSVAL, Object_p_valueOf, CONTEXT, THIS, STRING, 0, nanojit::ACC_STORE_ANY))) JS_DEFINE_TRCINFO_1(obj_hasOwnProperty, (3, (static, BOOL_FAIL, Object_p_hasOwnProperty, CONTEXT, THIS, STRING, 0, nanojit::ACC_STORE_ANY))) JS_DEFINE_TRCINFO_1(obj_propertyIsEnumerable, (3, (static, BOOL_FAIL, Object_p_propertyIsEnumerable, CONTEXT, THIS, STRING, 0, nanojit::ACC_STORE_ANY))) static JSFunctionSpec object_methods[] = { #if JS_HAS_TOSOURCE JS_FN(js_toSource_str, obj_toSource, 0,0), #endif JS_FN(js_toString_str, obj_toString, 0,0), JS_FN(js_toLocaleString_str, obj_toLocaleString, 0,0), JS_TN(js_valueOf_str, obj_valueOf, 0,0, &obj_valueOf_trcinfo), #if JS_HAS_OBJ_WATCHPOINT JS_FN(js_watch_str, obj_watch, 2,0), JS_FN(js_unwatch_str, obj_unwatch, 1,0), #endif JS_TN(js_hasOwnProperty_str, obj_hasOwnProperty, 1,0, &obj_hasOwnProperty_trcinfo), JS_FN(js_isPrototypeOf_str, obj_isPrototypeOf, 1,0), JS_TN(js_propertyIsEnumerable_str, obj_propertyIsEnumerable, 1,0, &obj_propertyIsEnumerable_trcinfo), #if OLD_GETTER_SETTER_METHODS JS_FN(js_defineGetter_str, js_obj_defineGetter, 2,0), JS_FN(js_defineSetter_str, js_obj_defineSetter, 2,0), JS_FN(js_lookupGetter_str, obj_lookupGetter, 1,0), JS_FN(js_lookupSetter_str, obj_lookupSetter, 1,0), #endif JS_FS_END }; static JSFunctionSpec object_static_methods[] = { JS_FN("getPrototypeOf", obj_getPrototypeOf, 1,0), JS_FN("getOwnPropertyDescriptor", obj_getOwnPropertyDescriptor,2,0), JS_FN("keys", obj_keys, 1,0), JS_FN("defineProperty", obj_defineProperty, 3,0), JS_FN("defineProperties", obj_defineProperties, 2,0), JS_FN("create", obj_create, 2,0), JS_FS_END }; JSBool js_Object(JSContext *cx, JSObject *obj, uintN argc, jsval *argv, jsval *rval) { if (argc == 0) { /* Trigger logic below to construct a blank object. */ obj = NULL; } else { /* If argv[0] is null or undefined, obj comes back null. */ if (!js_ValueToObject(cx, argv[0], &obj)) return JS_FALSE; } if (!obj) { JS_ASSERT(!argc || JSVAL_IS_NULL(argv[0]) || JSVAL_IS_VOID(argv[0])); if (JS_IsConstructing(cx)) return JS_TRUE; obj = NewObject(cx, &js_ObjectClass, NULL, NULL); if (!obj) return JS_FALSE; } *rval = OBJECT_TO_JSVAL(obj); return JS_TRUE; } #ifdef JS_TRACER JSObject* js_NewObjectWithClassProto(JSContext *cx, JSClass *clasp, JSObject *proto, jsval privateSlotValue) { JS_ASSERT(!clasp->getObjectOps); JS_ASSERT(proto->map->ops == &js_ObjectOps); JSObject* obj = js_NewGCObject(cx); if (!obj) return NULL; obj->initSharingEmptyScope(clasp, proto, proto->getParent(), privateSlotValue); return obj; } JSObject* FASTCALL js_Object_tn(JSContext* cx, JSObject* proto) { JS_ASSERT(!(js_ObjectClass.flags & JSCLASS_HAS_PRIVATE)); return js_NewObjectWithClassProto(cx, &js_ObjectClass, proto, JSVAL_VOID); } JS_DEFINE_TRCINFO_1(js_Object, (2, (extern, CONSTRUCTOR_RETRY, js_Object_tn, CONTEXT, CALLEE_PROTOTYPE, 0, nanojit::ACC_STORE_ANY))) JSObject* FASTCALL js_NonEmptyObject(JSContext* cx, JSObject* proto) { JS_ASSERT(!(js_ObjectClass.flags & JSCLASS_HAS_PRIVATE)); JSObject *obj = js_NewObjectWithClassProto(cx, &js_ObjectClass, proto, JSVAL_VOID); if (!obj) return NULL; JS_LOCK_OBJ(cx, obj); JSScope *scope = js_GetMutableScope(cx, obj); if (!scope) { JS_UNLOCK_OBJ(cx, obj); return NULL; } /* * See comments in the JSOP_NEWINIT case of jsops.cpp why we cannot * assume that cx owns the scope and skip the unlock call. */ JS_UNLOCK_SCOPE(cx, scope); return obj; } JS_DEFINE_CALLINFO_2(extern, CONSTRUCTOR_RETRY, js_NonEmptyObject, CONTEXT, CALLEE_PROTOTYPE, 0, nanojit::ACC_STORE_ANY) static inline JSObject* NewNativeObject(JSContext* cx, JSClass* clasp, JSObject* proto, JSObject *parent, jsval privateSlotValue) { JS_ASSERT(JS_ON_TRACE(cx)); JSObject* obj = js_NewGCObject(cx); if (!obj) return NULL; obj->init(clasp, proto, parent, privateSlotValue); return InitScopeForObject(cx, obj, clasp, proto, &js_ObjectOps) ? obj : NULL; } JSObject* FASTCALL js_NewInstance(JSContext *cx, JSClass *clasp, JSObject *ctor) { JS_ASSERT(ctor->isFunction()); JSAtom *atom = cx->runtime->atomState.classPrototypeAtom; JSScope *scope = ctor->scope(); #ifdef JS_THREADSAFE if (scope->title.ownercx != cx) return NULL; #endif if (scope->isSharedEmpty()) { scope = js_GetMutableScope(cx, ctor); if (!scope) return NULL; } JSScopeProperty *sprop = scope->lookup(ATOM_TO_JSID(atom)); jsval pval = sprop ? ctor->getSlot(sprop->slot) : JSVAL_HOLE; JSObject *proto; if (!JSVAL_IS_PRIMITIVE(pval)) { /* An object in ctor.prototype, let's use it as the new instance's proto. */ proto = JSVAL_TO_OBJECT(pval); } else if (pval == JSVAL_HOLE) { /* No ctor.prototype yet, inline and optimize fun_resolve's prototype code. */ proto = NewObject(cx, clasp, NULL, ctor->getParent()); if (!proto) return NULL; if (!js_SetClassPrototype(cx, ctor, proto, JSPROP_ENUMERATE | JSPROP_PERMANENT)) return NULL; } else { /* Primitive value in .prototype means we use Object.prototype for proto. */ if (!js_GetClassPrototype(cx, JSVAL_TO_OBJECT(ctor->fslots[JSSLOT_PARENT]), JSProto_Object, &proto)) { return NULL; } } return NewNativeObject(cx, clasp, proto, ctor->getParent(), JSObject::defaultPrivate(clasp)); } JS_DEFINE_CALLINFO_3(extern, CONSTRUCTOR_RETRY, js_NewInstance, CONTEXT, CLASS, OBJECT, 0, nanojit::ACC_STORE_ANY) #else /* !JS_TRACER */ # define js_Object_trcinfo NULL #endif /* !JS_TRACER */ /* * Given pc pointing after a property accessing bytecode, return true if the * access is "object-detecting" in the sense used by web scripts, e.g., when * checking whether document.all is defined. */ JS_REQUIRES_STACK JSBool Detecting(JSContext *cx, jsbytecode *pc) { JSScript *script; jsbytecode *endpc; JSOp op; JSAtom *atom; script = cx->fp->script; endpc = script->code + script->length; for (;; pc += js_CodeSpec[op].length) { JS_ASSERT_IF(!cx->fp->imacpc, script->code <= pc && pc < endpc); /* General case: a branch or equality op follows the access. */ op = js_GetOpcode(cx, script, pc); if (js_CodeSpec[op].format & JOF_DETECTING) return JS_TRUE; switch (op) { case JSOP_NULL: /* * Special case #1: handle (document.all == null). Don't sweat * about JS1.2's revision of the equality operators here. */ if (++pc < endpc) { op = js_GetOpcode(cx, script, pc); return *pc == JSOP_EQ || *pc == JSOP_NE; } return JS_FALSE; case JSOP_NAME: /* * Special case #2: handle (document.all == undefined). Don't * worry about someone redefining undefined, which was added by * Edition 3, so is read/write for backward compatibility. */ GET_ATOM_FROM_BYTECODE(script, pc, 0, atom); if (atom == cx->runtime->atomState.typeAtoms[JSTYPE_VOID] && (pc += js_CodeSpec[op].length) < endpc) { op = js_GetOpcode(cx, script, pc); return op == JSOP_EQ || op == JSOP_NE || op == JSOP_STRICTEQ || op == JSOP_STRICTNE; } return JS_FALSE; default: /* * At this point, anything but an extended atom index prefix means * we're not detecting. */ if (!(js_CodeSpec[op].format & JOF_INDEXBASE)) return JS_FALSE; break; } } } /* * Infer lookup flags from the currently executing bytecode. This does * not attempt to infer JSRESOLVE_WITH, because the current bytecode * does not indicate whether we are in a with statement. Return defaultFlags * if a currently executing bytecode cannot be determined. */ uintN js_InferFlags(JSContext *cx, uintN defaultFlags) { #ifdef JS_TRACER if (JS_ON_TRACE(cx)) return cx->bailExit->lookupFlags; #endif JS_ASSERT_NOT_ON_TRACE(cx); JSStackFrame *fp; jsbytecode *pc; const JSCodeSpec *cs; uint32 format; uintN flags = 0; fp = js_GetTopStackFrame(cx); if (!fp || !fp->regs) return defaultFlags; pc = fp->regs->pc; cs = &js_CodeSpec[js_GetOpcode(cx, fp->script, pc)]; format = cs->format; if (JOF_MODE(format) != JOF_NAME) flags |= JSRESOLVE_QUALIFIED; if ((format & (JOF_SET | JOF_FOR)) || (fp->flags & JSFRAME_ASSIGNING)) { flags |= JSRESOLVE_ASSIGNING; } else if (cs->length >= 0) { pc += cs->length; if (pc < cx->fp->script->code + cx->fp->script->length && Detecting(cx, pc)) flags |= JSRESOLVE_DETECTING; } if (format & JOF_DECLARING) flags |= JSRESOLVE_DECLARING; return flags; } /* * ObjectOps and Class for with-statement stack objects. */ static JSBool with_LookupProperty(JSContext *cx, JSObject *obj, jsid id, JSObject **objp, JSProperty **propp) { /* Fixes bug 463997 */ uintN flags = cx->resolveFlags; if (flags == JSRESOLVE_INFER) flags = js_InferFlags(cx, flags); flags |= JSRESOLVE_WITH; JSAutoResolveFlags rf(cx, flags); JSObject *proto = obj->getProto(); if (!proto) return js_LookupProperty(cx, obj, id, objp, propp); return proto->lookupProperty(cx, id, objp, propp); } static JSBool with_GetProperty(JSContext *cx, JSObject *obj, jsid id, jsval *vp) { JSObject *proto = obj->getProto(); if (!proto) return js_GetProperty(cx, obj, id, vp); return proto->getProperty(cx, id, vp); } static JSBool with_SetProperty(JSContext *cx, JSObject *obj, jsid id, jsval *vp) { JSObject *proto = obj->getProto(); if (!proto) return js_SetProperty(cx, obj, id, vp); return proto->setProperty(cx, id, vp); } static JSBool with_GetAttributes(JSContext *cx, JSObject *obj, jsid id, JSProperty *prop, uintN *attrsp) { JSObject *proto = obj->getProto(); if (!proto) return js_GetAttributes(cx, obj, id, prop, attrsp); return proto->getAttributes(cx, id, prop, attrsp); } static JSBool with_SetAttributes(JSContext *cx, JSObject *obj, jsid id, JSProperty *prop, uintN *attrsp) { JSObject *proto = obj->getProto(); if (!proto) return js_SetAttributes(cx, obj, id, prop, attrsp); return proto->setAttributes(cx, id, prop, attrsp); } static JSBool with_DeleteProperty(JSContext *cx, JSObject *obj, jsid id, jsval *rval) { JSObject *proto = obj->getProto(); if (!proto) return js_DeleteProperty(cx, obj, id, rval); return proto->deleteProperty(cx, id, rval); } static JSBool with_DefaultValue(JSContext *cx, JSObject *obj, JSType hint, jsval *vp) { JSObject *proto = obj->getProto(); if (!proto) return js_DefaultValue(cx, obj, hint, vp); return proto->defaultValue(cx, hint, vp); } static JSBool with_Enumerate(JSContext *cx, JSObject *obj, JSIterateOp enum_op, jsval *statep, jsid *idp) { JSObject *proto = obj->getProto(); if (!proto) return js_Enumerate(cx, obj, enum_op, statep, idp); return proto->enumerate(cx, enum_op, statep, idp); } static JSBool with_CheckAccess(JSContext *cx, JSObject *obj, jsid id, JSAccessMode mode, jsval *vp, uintN *attrsp) { JSObject *proto = obj->getProto(); if (!proto) return js_CheckAccess(cx, obj, id, mode, vp, attrsp); return proto->checkAccess(cx, id, mode, vp, attrsp); } static JSType with_TypeOf(JSContext *cx, JSObject *obj) { return JSTYPE_OBJECT; } static JSObject * with_ThisObject(JSContext *cx, JSObject *obj) { JSObject *proto = obj->getProto(); if (!proto) return obj; return proto->thisObject(cx); } JS_FRIEND_DATA(JSObjectOps) js_WithObjectOps = { NULL, with_LookupProperty, js_DefineProperty, with_GetProperty, with_SetProperty, with_GetAttributes, with_SetAttributes, with_DeleteProperty, with_DefaultValue, with_Enumerate, with_CheckAccess, with_TypeOf, js_TraceObject, with_ThisObject, NATIVE_DROP_PROPERTY, NULL, NULL, NULL, js_Clear }; static JSObjectOps * with_getObjectOps(JSContext *cx, JSClass *clasp) { return &js_WithObjectOps; } JSClass js_WithClass = { "With", JSCLASS_HAS_PRIVATE | JSCLASS_HAS_RESERVED_SLOTS(1) | JSCLASS_IS_ANONYMOUS, JS_PropertyStub, JS_PropertyStub, JS_PropertyStub, JS_PropertyStub, JS_EnumerateStub, JS_ResolveStub, JS_ConvertStub, NULL, with_getObjectOps, 0,0,0,0,0,0,0 }; JS_REQUIRES_STACK JSObject * js_NewWithObject(JSContext *cx, JSObject *proto, JSObject *parent, jsint depth) { JSObject *obj; obj = NewObject(cx, &js_WithClass, proto, parent); if (!obj) return NULL; obj->setPrivate(cx->fp); OBJ_SET_BLOCK_DEPTH(cx, obj, depth); return obj; } JSObject * js_NewBlockObject(JSContext *cx) { /* * Null obj's proto slot so that Object.prototype.* does not pollute block * scopes and to give the block object its own scope. */ JSObject *blockObj = NewObjectWithGivenProto(cx, &js_BlockClass, NULL, NULL); JS_ASSERT_IF(blockObj, !OBJ_IS_CLONED_BLOCK(blockObj)); return blockObj; } JSObject * js_CloneBlockObject(JSContext *cx, JSObject *proto, JSStackFrame *fp) { JS_ASSERT(!OBJ_IS_CLONED_BLOCK(proto)); JS_ASSERT(proto->getClass() == &js_BlockClass); JSObject *clone = js_NewGCObject(cx); if (!clone) return NULL; /* The caller sets parent on its own. */ clone->init(&js_BlockClass, proto, NULL, reinterpret_cast(fp)); clone->fslots[JSSLOT_BLOCK_DEPTH] = proto->fslots[JSSLOT_BLOCK_DEPTH]; JS_ASSERT(cx->runtime->emptyBlockScope->freeslot == JSSLOT_BLOCK_DEPTH + 1); clone->map = cx->runtime->emptyBlockScope; cx->runtime->emptyBlockScope->hold(); JS_ASSERT(OBJ_IS_CLONED_BLOCK(clone)); return clone; } JS_REQUIRES_STACK JSBool js_PutBlockObject(JSContext *cx, JSBool normalUnwind) { JSStackFrame *fp; JSObject *obj; uintN depth, count; /* Blocks have one fixed slot available for the first local.*/ JS_STATIC_ASSERT(JS_INITIAL_NSLOTS == JSSLOT_BLOCK_DEPTH + 2); fp = cx->fp; obj = fp->scopeChain; JS_ASSERT(obj->getClass() == &js_BlockClass); JS_ASSERT(obj->getPrivate() == cx->fp); JS_ASSERT(OBJ_IS_CLONED_BLOCK(obj)); /* * Block objects should never be exposed to scripts. Thus the clone should * not own the property map and rather always share it with the prototype * object. This allows us to skip updating obj->scope()->freeslot after * we copy the stack slots into reserved slots. */ JS_ASSERT(obj->scope()->object != obj); /* Block objects should not have reserved slots before they are put. */ JS_ASSERT(obj->numSlots() == JS_INITIAL_NSLOTS); /* The block and its locals must be on the current stack for GC safety. */ depth = OBJ_BLOCK_DEPTH(cx, obj); count = OBJ_BLOCK_COUNT(cx, obj); JS_ASSERT(depth <= (size_t) (fp->regs->sp - StackBase(fp))); JS_ASSERT(count <= (size_t) (fp->regs->sp - StackBase(fp) - depth)); /* See comments in CheckDestructuring from jsparse.cpp. */ JS_ASSERT(count >= 1); depth += fp->script->nfixed; obj->fslots[JSSLOT_BLOCK_DEPTH + 1] = fp->slots[depth]; if (normalUnwind && count > 1) { --count; JS_LOCK_OBJ(cx, obj); if (!js_AllocSlots(cx, obj, JS_INITIAL_NSLOTS + count)) normalUnwind = JS_FALSE; else memcpy(obj->dslots, fp->slots + depth + 1, count * sizeof(jsval)); JS_UNLOCK_OBJ(cx, obj); } /* We must clear the private slot even with errors. */ obj->setPrivate(NULL); fp->scopeChain = obj->getParent(); return normalUnwind; } static JSBool block_getProperty(JSContext *cx, JSObject *obj, jsval id, jsval *vp) { /* * Block objects are never exposed to script, and the engine handles them * with care. So unlike other getters, this one can assert (rather than * check) certain invariants about obj. */ JS_ASSERT(obj->getClass() == &js_BlockClass); JS_ASSERT(OBJ_IS_CLONED_BLOCK(obj)); uintN index = (uintN) JSVAL_TO_INT(id); JS_ASSERT(index < OBJ_BLOCK_COUNT(cx, obj)); JSStackFrame *fp = (JSStackFrame *) obj->getPrivate(); if (fp) { index += fp->script->nfixed + OBJ_BLOCK_DEPTH(cx, obj); JS_ASSERT(index < fp->script->nslots); *vp = fp->slots[index]; return true; } /* Values are in reserved slots immediately following DEPTH. */ uint32 slot = JSSLOT_BLOCK_DEPTH + 1 + index; JS_LOCK_OBJ(cx, obj); JS_ASSERT(slot < obj->numSlots()); *vp = obj->getSlot(slot); JS_UNLOCK_OBJ(cx, obj); return true; } static JSBool block_setProperty(JSContext *cx, JSObject *obj, jsval id, jsval *vp) { JS_ASSERT(obj->getClass() == &js_BlockClass); JS_ASSERT(OBJ_IS_CLONED_BLOCK(obj)); uintN index = (uintN) JSVAL_TO_INT(id); JS_ASSERT(index < OBJ_BLOCK_COUNT(cx, obj)); JSStackFrame *fp = (JSStackFrame *) obj->getPrivate(); if (fp) { index += fp->script->nfixed + OBJ_BLOCK_DEPTH(cx, obj); JS_ASSERT(index < fp->script->nslots); fp->slots[index] = *vp; return true; } /* Values are in reserved slots immediately following DEPTH. */ uint32 slot = JSSLOT_BLOCK_DEPTH + 1 + index; JS_LOCK_OBJ(cx, obj); JS_ASSERT(slot < obj->numSlots()); obj->setSlot(slot, *vp); JS_UNLOCK_OBJ(cx, obj); return true; } JSBool js_DefineBlockVariable(JSContext *cx, JSObject *obj, jsid id, intN index) { JS_ASSERT(obj->getClass() == &js_BlockClass); JS_ASSERT(!OBJ_IS_CLONED_BLOCK(obj)); /* Use JSPROP_ENUMERATE to aid the disassembler. */ return js_DefineNativeProperty(cx, obj, id, JSVAL_VOID, block_getProperty, block_setProperty, JSPROP_ENUMERATE | JSPROP_PERMANENT | JSPROP_SHARED, JSScopeProperty::HAS_SHORTID, index, NULL); } #if JS_HAS_XDR #define NO_PARENT_INDEX ((uint32)-1) uint32 FindObjectIndex(JSObjectArray *array, JSObject *obj) { size_t i; if (array) { i = array->length; do { if (array->vector[--i] == obj) return i; } while (i != 0); } return NO_PARENT_INDEX; } JSBool js_XDRBlockObject(JSXDRState *xdr, JSObject **objp) { JSContext *cx; uint32 parentId; JSObject *obj, *parent; uint16 depth, count, i; uint32 tmp; JSScopeProperty *sprop; jsid propid; JSAtom *atom; int16 shortid; JSBool ok; cx = xdr->cx; #ifdef __GNUC__ obj = NULL; /* quell GCC overwarning */ #endif if (xdr->mode == JSXDR_ENCODE) { obj = *objp; parent = obj->getParent(); parentId = (xdr->script->objectsOffset == 0) ? NO_PARENT_INDEX : FindObjectIndex(xdr->script->objects(), parent); depth = (uint16)OBJ_BLOCK_DEPTH(cx, obj); count = (uint16)OBJ_BLOCK_COUNT(cx, obj); tmp = (uint32)(depth << 16) | count; } #ifdef __GNUC__ /* suppress bogus gcc warnings */ else count = 0; #endif /* First, XDR the parent atomid. */ if (!JS_XDRUint32(xdr, &parentId)) return JS_FALSE; if (xdr->mode == JSXDR_DECODE) { obj = js_NewBlockObject(cx); if (!obj) return JS_FALSE; *objp = obj; /* * If there's a parent id, then get the parent out of our script's * object array. We know that we XDR block object in outer-to-inner * order, which means that getting the parent now will work. */ if (parentId == NO_PARENT_INDEX) parent = NULL; else parent = xdr->script->getObject(parentId); obj->setParent(parent); } AutoValueRooter tvr(cx, obj); if (!JS_XDRUint32(xdr, &tmp)) return false; if (xdr->mode == JSXDR_DECODE) { depth = (uint16)(tmp >> 16); count = (uint16)tmp; obj->setSlot(JSSLOT_BLOCK_DEPTH, INT_TO_JSVAL(depth)); } /* * XDR the block object's properties. We know that there are 'count' * properties to XDR, stored as id/shortid pairs. We do not XDR any * non-native properties, only those that the compiler created. */ sprop = NULL; ok = JS_TRUE; for (i = 0; i < count; i++) { if (xdr->mode == JSXDR_ENCODE) { /* Find a property to XDR. */ do { /* If sprop is NULL, this is the first property. */ sprop = sprop ? sprop->parent : obj->scope()->lastProperty(); } while (!sprop->hasShortID()); JS_ASSERT(sprop->getter() == block_getProperty); propid = sprop->id; JS_ASSERT(JSID_IS_ATOM(propid)); atom = JSID_TO_ATOM(propid); shortid = sprop->shortid; JS_ASSERT(shortid >= 0); } /* XDR the real id, then the shortid. */ if (!js_XDRStringAtom(xdr, &atom) || !JS_XDRUint16(xdr, (uint16 *)&shortid)) { return false; } if (xdr->mode == JSXDR_DECODE) { if (!js_DefineBlockVariable(cx, obj, ATOM_TO_JSID(atom), shortid)) return false; } } return true; } #endif static uint32 block_reserveSlots(JSContext *cx, JSObject *obj) { return OBJ_IS_CLONED_BLOCK(obj) ? OBJ_BLOCK_COUNT(cx, obj) : 0; } JSClass js_BlockClass = { "Block", JSCLASS_HAS_PRIVATE | JSCLASS_HAS_RESERVED_SLOTS(1) | JSCLASS_IS_ANONYMOUS, JS_PropertyStub, JS_PropertyStub, JS_PropertyStub, JS_PropertyStub, JS_EnumerateStub, JS_ResolveStub, JS_ConvertStub, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, block_reserveSlots }; JSObject * js_InitEval(JSContext *cx, JSObject *obj) { /* ECMA (15.1.2.1) says 'eval' is a property of the global object. */ if (!js_DefineFunction(cx, obj, cx->runtime->atomState.evalAtom, (JSNative)obj_eval, 1, JSFUN_FAST_NATIVE | JSFUN_STUB_GSOPS)) { return NULL; } return obj; } JSObject * js_InitObjectClass(JSContext *cx, JSObject *obj) { return js_InitClass(cx, obj, NULL, &js_ObjectClass, js_Object, 1, object_props, object_methods, NULL, object_static_methods); } JSObject * js_InitClass(JSContext *cx, JSObject *obj, JSObject *parent_proto, JSClass *clasp, JSNative constructor, uintN nargs, JSPropertySpec *ps, JSFunctionSpec *fs, JSPropertySpec *static_ps, JSFunctionSpec *static_fs) { JSAtom *atom; JSProtoKey key; JSObject *proto, *ctor; jsval cval, rval; JSBool named; JSFunction *fun; atom = js_Atomize(cx, clasp->name, strlen(clasp->name), 0); if (!atom) return NULL; /* * When initializing a standard class, if no parent_proto (grand-proto of * instances of the class, parent-proto of the class's prototype object) * is given, we must use Object.prototype if it is available. Otherwise, * we could look up the wrong binding for a class name in obj. Example: * * String = Array; * print("hi there".join); * * should print undefined, not Array.prototype.join. This is required by * ECMA-262, alas. It might have been better to make String readonly and * permanent in the global object, instead -- but that's too big a change * to swallow at this point. */ key = JSCLASS_CACHED_PROTO_KEY(clasp); if (key != JSProto_Null && !parent_proto && !js_GetClassPrototype(cx, obj, JSProto_Object, &parent_proto)) { return NULL; } /* Create a prototype object for this class. */ proto = NewObject(cx, clasp, parent_proto, obj); if (!proto) return NULL; /* After this point, control must exit via label bad or out. */ AutoValueRooter tvr(cx, proto); if (!constructor) { /* * Lacking a constructor, name the prototype (e.g., Math) unless this * class (a) is anonymous, i.e. for internal use only; (b) the class * of obj (the global object) is has a reserved slot indexed by key; * and (c) key is not the null key. */ if ((clasp->flags & JSCLASS_IS_ANONYMOUS) && (obj->getClass()->flags & JSCLASS_IS_GLOBAL) && key != JSProto_Null) { named = JS_FALSE; } else { named = obj->defineProperty(cx, ATOM_TO_JSID(atom), OBJECT_TO_JSVAL(proto), JS_PropertyStub, JS_PropertyStub, (clasp->flags & JSCLASS_IS_ANONYMOUS) ? JSPROP_READONLY | JSPROP_PERMANENT : 0); if (!named) goto bad; } ctor = proto; } else { /* Define the constructor function in obj's scope. */ fun = js_DefineFunction(cx, obj, atom, constructor, nargs, JSFUN_STUB_GSOPS); named = (fun != NULL); if (!fun) goto bad; /* * Remember the class this function is a constructor for so that * we know to create an object of this class when we call the * constructor. */ FUN_CLASP(fun) = clasp; /* * Optionally construct the prototype object, before the class has * been fully initialized. Allow the ctor to replace proto with a * different object, as is done for operator new -- and as at least * XML support requires. */ ctor = FUN_OBJECT(fun); if (clasp->flags & JSCLASS_CONSTRUCT_PROTOTYPE) { cval = OBJECT_TO_JSVAL(ctor); if (!js_InternalConstruct(cx, proto, cval, 0, NULL, &rval)) goto bad; if (!JSVAL_IS_PRIMITIVE(rval) && JSVAL_TO_OBJECT(rval) != proto) proto = JSVAL_TO_OBJECT(rval); } /* Connect constructor and prototype by named properties. */ if (!js_SetClassPrototype(cx, ctor, proto, JSPROP_READONLY | JSPROP_PERMANENT)) { goto bad; } /* Bootstrap Function.prototype (see also JS_InitStandardClasses). */ if (ctor->getClass() == clasp) ctor->setProto(proto); } /* Add properties and methods to the prototype and the constructor. */ if ((ps && !JS_DefineProperties(cx, proto, ps)) || (fs && !JS_DefineFunctions(cx, proto, fs)) || (static_ps && !JS_DefineProperties(cx, ctor, static_ps)) || (static_fs && !JS_DefineFunctions(cx, ctor, static_fs))) { goto bad; } /* * Make sure proto's scope's emptyScope is available to be shared by * objects of this class. JSScope::emptyScope is a one-slot cache. If we * omit this, some other class could snap it up. (The risk is particularly * great for Object.prototype.) * * All callers of JSObject::initSharingEmptyScope depend on this. */ if (!proto->scope()->ensureEmptyScope(cx, clasp)) goto bad; /* If this is a standard class, cache its prototype. */ if (key != JSProto_Null && !js_SetClassObject(cx, obj, key, ctor)) goto bad; out: return proto; bad: if (named) (void) obj->deleteProperty(cx, ATOM_TO_JSID(atom), &rval); proto = NULL; goto out; } #define SLOTS_TO_DYNAMIC_WORDS(nslots) \ (JS_ASSERT((nslots) > JS_INITIAL_NSLOTS), (nslots) + 1 - JS_INITIAL_NSLOTS) #define DYNAMIC_WORDS_TO_SLOTS(words) \ (JS_ASSERT((words) > 1), (words) - 1 + JS_INITIAL_NSLOTS) bool js_AllocSlots(JSContext *cx, JSObject *obj, size_t nslots) { JS_ASSERT(!obj->dslots); JS_ASSERT(nslots > JS_INITIAL_NSLOTS); jsval* slots; slots = (jsval*) cx->malloc(SLOTS_TO_DYNAMIC_WORDS(nslots) * sizeof(jsval)); if (!slots) return true; *slots++ = nslots; /* clear the newly allocated cells. */ for (jsuint n = JS_INITIAL_NSLOTS; n < nslots; ++n) slots[n - JS_INITIAL_NSLOTS] = JSVAL_VOID; obj->dslots = slots; return true; } bool js_GrowSlots(JSContext *cx, JSObject *obj, size_t nslots) { /* * Minimal number of dynamic slots to allocate. */ const size_t MIN_DYNAMIC_WORDS = 4; /* * The limit to switch to linear allocation strategy from the power of 2 * growth no to waste too much memory. */ const size_t LINEAR_GROWTH_STEP = JS_BIT(16); /* If we are allocating fslots, there is nothing to do. */ if (nslots <= JS_INITIAL_NSLOTS) return JS_TRUE; size_t nwords = SLOTS_TO_DYNAMIC_WORDS(nslots); /* * Round up nslots so the number of bytes in dslots array is power * of 2 to ensure exponential grouth. */ uintN log; if (nwords <= MIN_DYNAMIC_WORDS) { nwords = MIN_DYNAMIC_WORDS; } else if (nwords < LINEAR_GROWTH_STEP) { JS_CEILING_LOG2(log, nwords); nwords = JS_BIT(log); } else { nwords = JS_ROUNDUP(nwords, LINEAR_GROWTH_STEP); } nslots = DYNAMIC_WORDS_TO_SLOTS(nwords); /* * If nothing was allocated yet, treat it as initial allocation (but with * the exponential growth algorithm applied). */ jsval* slots = obj->dslots; if (!slots) return js_AllocSlots(cx, obj, nslots); size_t oslots = size_t(slots[-1]); slots = (jsval*) cx->realloc(slots - 1, nwords * sizeof(jsval)); *slots++ = nslots; obj->dslots = slots; /* Initialize the additional slots we added. */ JS_ASSERT(nslots > oslots); for (size_t i = oslots; i < nslots; i++) slots[i - JS_INITIAL_NSLOTS] = JSVAL_VOID; return true; } void js_ShrinkSlots(JSContext *cx, JSObject *obj, size_t nslots) { jsval* slots = obj->dslots; /* Nothing to shrink? */ if (!slots) return; JS_ASSERT(size_t(slots[-1]) > JS_INITIAL_NSLOTS); JS_ASSERT(nslots <= size_t(slots[-1])); if (nslots <= JS_INITIAL_NSLOTS) { obj->freeSlotsArray(cx); obj->dslots = NULL; } else { size_t nwords = SLOTS_TO_DYNAMIC_WORDS(nslots); slots = (jsval*) cx->realloc(slots - 1, nwords * sizeof(jsval)); *slots++ = nslots; obj->dslots = slots; } } bool js_EnsureReservedSlots(JSContext *cx, JSObject *obj, size_t nreserved) { JS_ASSERT(obj->isNative()); JS_ASSERT(!obj->dslots); uintN nslots = JSSLOT_FREE(obj->getClass()) + nreserved; if (nslots > obj->numSlots() && !js_AllocSlots(cx, obj, nslots)) return false; JSScope *scope = obj->scope(); if (!scope->isSharedEmpty()) { #ifdef JS_THREADSAFE JS_ASSERT(scope->title.ownercx->thread == cx->thread); #endif JS_ASSERT(scope->freeslot == JSSLOT_FREE(obj->getClass())); if (scope->freeslot < nslots) scope->freeslot = nslots; } return true; } JS_BEGIN_EXTERN_C static JSObject * js_InitNullClass(JSContext *cx, JSObject *obj) { JS_ASSERT(0); return NULL; } #define JS_PROTO(name,code,init) extern JSObject *init(JSContext *, JSObject *); #include "jsproto.tbl" #undef JS_PROTO static JSObjectOp lazy_prototype_init[JSProto_LIMIT] = { #define JS_PROTO(name,code,init) init, #include "jsproto.tbl" #undef JS_PROTO }; JS_END_EXTERN_C JSBool js_GetClassObject(JSContext *cx, JSObject *obj, JSProtoKey key, JSObject **objp) { JSBool ok; JSObject *tmp, *cobj; JSResolvingKey rkey; JSResolvingEntry *rentry; uint32 generation; JSObjectOp init; jsval v; while ((tmp = obj->getParent()) != NULL) obj = tmp; if (!(obj->getClass()->flags & JSCLASS_IS_GLOBAL)) { *objp = NULL; return JS_TRUE; } ok = JS_GetReservedSlot(cx, obj, key, &v); if (!ok) return JS_FALSE; if (!JSVAL_IS_PRIMITIVE(v)) { *objp = JSVAL_TO_OBJECT(v); return JS_TRUE; } rkey.obj = obj; rkey.id = ATOM_TO_JSID(cx->runtime->atomState.classAtoms[key]); if (!js_StartResolving(cx, &rkey, JSRESFLAG_LOOKUP, &rentry)) return JS_FALSE; if (!rentry) { /* Already caching key in obj -- suppress recursion. */ *objp = NULL; return JS_TRUE; } generation = cx->resolvingTable->generation; cobj = NULL; init = lazy_prototype_init[key]; if (init) { if (!init(cx, obj)) { ok = JS_FALSE; } else { ok = JS_GetReservedSlot(cx, obj, key, &v); if (ok && !JSVAL_IS_PRIMITIVE(v)) cobj = JSVAL_TO_OBJECT(v); } } js_StopResolving(cx, &rkey, JSRESFLAG_LOOKUP, rentry, generation); *objp = cobj; return ok; } JSBool js_SetClassObject(JSContext *cx, JSObject *obj, JSProtoKey key, JSObject *cobj) { JS_ASSERT(!obj->getParent()); if (!(obj->getClass()->flags & JSCLASS_IS_GLOBAL)) return JS_TRUE; return JS_SetReservedSlot(cx, obj, key, OBJECT_TO_JSVAL(cobj)); } JSBool js_FindClassObject(JSContext *cx, JSObject *start, JSProtoKey protoKey, jsval *vp, JSClass *clasp) { JSStackFrame *fp; JSObject *obj, *cobj, *pobj; jsid id; JSProperty *prop; jsval v; JSScopeProperty *sprop; /* * Find the global object. Use cx->fp directly to avoid falling off * trace; all JIT-elided stack frames have the same global object as * cx->fp. */ VOUCH_DOES_NOT_REQUIRE_STACK(); if (!start && (fp = cx->fp) != NULL) start = fp->scopeChain; if (start) { /* Find the topmost object in the scope chain. */ do { obj = start; start = obj->getParent(); } while (start); } else { obj = cx->globalObject; if (!obj) { *vp = JSVAL_VOID; return JS_TRUE; } } OBJ_TO_INNER_OBJECT(cx, obj); if (!obj) return JS_FALSE; if (protoKey != JSProto_Null) { JS_ASSERT(JSProto_Null < protoKey); JS_ASSERT(protoKey < JSProto_LIMIT); if (!js_GetClassObject(cx, obj, protoKey, &cobj)) return JS_FALSE; if (cobj) { *vp = OBJECT_TO_JSVAL(cobj); return JS_TRUE; } id = ATOM_TO_JSID(cx->runtime->atomState.classAtoms[protoKey]); } else { JSAtom *atom = js_Atomize(cx, clasp->name, strlen(clasp->name), 0); if (!atom) return false; id = ATOM_TO_JSID(atom); } JS_ASSERT(obj->isNative()); if (js_LookupPropertyWithFlags(cx, obj, id, JSRESOLVE_CLASSNAME, &pobj, &prop) < 0) { return JS_FALSE; } v = JSVAL_VOID; if (prop) { if (pobj->isNative()) { sprop = (JSScopeProperty *) prop; if (SPROP_HAS_VALID_SLOT(sprop, pobj->scope())) { v = pobj->lockedGetSlot(sprop->slot); if (JSVAL_IS_PRIMITIVE(v)) v = JSVAL_VOID; } } pobj->dropProperty(cx, prop); } *vp = v; return JS_TRUE; } JSObject * js_ConstructObject(JSContext *cx, JSClass *clasp, JSObject *proto, JSObject *parent, uintN argc, jsval *argv) { jsval cval, rval; JSObject *obj, *ctor; AutoArrayRooter argtvr(cx, argc, argv); JSProtoKey protoKey = GetClassProtoKey(clasp); if (!js_FindClassObject(cx, parent, protoKey, &cval, clasp)) return NULL; if (JSVAL_IS_PRIMITIVE(cval)) { js_ReportIsNotFunction(cx, &cval, JSV2F_CONSTRUCT | JSV2F_SEARCH_STACK); return NULL; } /* Protect cval in case a crazy getter for .prototype uproots it. */ AutoValueRooter tvr(cx, cval); /* * If proto or parent are NULL, set them to Constructor.prototype and/or * Constructor.__parent__, just like JSOP_NEW does. */ ctor = JSVAL_TO_OBJECT(cval); if (!parent) parent = ctor->getParent(); if (!proto) { if (!ctor->getProperty(cx, ATOM_TO_JSID(cx->runtime->atomState.classPrototypeAtom), &rval)) { return NULL; } if (JSVAL_IS_OBJECT(rval)) proto = JSVAL_TO_OBJECT(rval); } obj = NewObject(cx, clasp, proto, parent); if (!obj) return NULL; if (!js_InternalConstruct(cx, obj, cval, argc, argv, &rval)) return NULL; if (JSVAL_IS_PRIMITIVE(rval)) return obj; /* * If the instance's class differs from what was requested, throw a type * error. If the given class has both the JSCLASS_HAS_PRIVATE and the * JSCLASS_CONSTRUCT_PROTOTYPE flags, and the instance does not have its * private data set at this point, then the constructor was replaced and * we should throw a type error. */ obj = JSVAL_TO_OBJECT(rval); if (obj->getClass() != clasp || (!(~clasp->flags & (JSCLASS_HAS_PRIVATE | JSCLASS_CONSTRUCT_PROTOTYPE)) && !obj->getPrivate())) { JS_ReportErrorNumber(cx, js_GetErrorMessage, NULL, JSMSG_WRONG_CONSTRUCTOR, clasp->name); return NULL; } return obj; } /* * FIXME bug 535629: If one adds props, deletes earlier props, adds more, the * last added won't recycle the deleted props' slots. */ JSBool js_AllocSlot(JSContext *cx, JSObject *obj, uint32 *slotp) { JSScope *scope = obj->scope(); JS_ASSERT(scope->object == obj); JSClass *clasp = obj->getClass(); if (scope->freeslot == JSSLOT_FREE(clasp) && clasp->reserveSlots) { /* Adjust scope->freeslot to include computed reserved slots, if any. */ scope->freeslot += clasp->reserveSlots(cx, obj); } if (scope->freeslot >= obj->numSlots() && !js_GrowSlots(cx, obj, scope->freeslot + 1)) { return JS_FALSE; } /* js_ReallocSlots or js_FreeSlot should set the free slots to void. */ JS_ASSERT(JSVAL_IS_VOID(obj->getSlot(scope->freeslot))); *slotp = scope->freeslot++; return JS_TRUE; } void js_FreeSlot(JSContext *cx, JSObject *obj, uint32 slot) { JSScope *scope = obj->scope(); JS_ASSERT(scope->object == obj); obj->lockedSetSlot(slot, JSVAL_VOID); if (scope->freeslot == slot + 1) scope->freeslot = slot; } /* JSVAL_INT_MAX as a string */ #define JSVAL_INT_MAX_STRING "1073741823" /* * Convert string indexes that convert to int jsvals as ints to save memory. * Care must be taken to use this macro every time a property name is used, or * else double-sets, incorrect property cache misses, or other mistakes could * occur. */ jsid js_CheckForStringIndex(jsid id) { if (!JSID_IS_ATOM(id)) return id; JSAtom *atom = JSID_TO_ATOM(id); JSString *str = ATOM_TO_STRING(atom); const jschar *s = str->flatChars(); jschar ch = *s; JSBool negative = (ch == '-'); if (negative) ch = *++s; if (!JS7_ISDEC(ch)) return id; size_t n = str->flatLength() - negative; if (n > sizeof(JSVAL_INT_MAX_STRING) - 1) return id; const jschar *cp = s; const jschar *end = s + n; jsuint index = JS7_UNDEC(*cp++); jsuint oldIndex = 0; jsuint c = 0; if (index != 0) { while (JS7_ISDEC(*cp)) { oldIndex = index; c = JS7_UNDEC(*cp); index = 10 * index + c; cp++; } } /* * Non-integer indexes can't be represented as integers. Also, distinguish * index "-0" from "0", because JSVAL_INT cannot. */ if (cp != end || (negative && index == 0)) return id; if (oldIndex < JSVAL_INT_MAX / 10 || (oldIndex == JSVAL_INT_MAX / 10 && c <= (JSVAL_INT_MAX % 10))) { if (negative) index = 0 - index; id = INT_TO_JSID((jsint)index); } return id; } static JSBool PurgeProtoChain(JSContext *cx, JSObject *obj, jsid id) { JSScope *scope; JSScopeProperty *sprop; while (obj) { if (!obj->isNative()) { obj = obj->getProto(); continue; } JS_LOCK_OBJ(cx, obj); scope = obj->scope(); sprop = scope->lookup(id); if (sprop) { PCMETER(JS_PROPERTY_CACHE(cx).pcpurges++); scope->shadowingShapeChange(cx, sprop); JS_UNLOCK_SCOPE(cx, scope); if (!obj->getParent()) { /* * All scope chains end in a global object, so this will change * the global shape. jstracer.cpp assumes that the global shape * never changes on trace, so we must deep-bail here. */ LeaveTrace(cx); } return JS_TRUE; } obj = obj->getProto(); JS_UNLOCK_SCOPE(cx, scope); } return JS_FALSE; } void js_PurgeScopeChainHelper(JSContext *cx, JSObject *obj, jsid id) { JS_ASSERT(obj->isDelegate()); PurgeProtoChain(cx, obj->getProto(), id); /* * We must purge the scope chain only for Call objects as they are the only * kind of cacheable non-global object that can gain properties after outer * properties with the same names have been cached or traced. Call objects * may gain such properties via eval introducing new vars; see bug 490364. */ if (obj->getClass() == &js_CallClass) { while ((obj = obj->getParent()) != NULL) { if (PurgeProtoChain(cx, obj, id)) break; } } } JSScopeProperty * js_AddNativeProperty(JSContext *cx, JSObject *obj, jsid id, JSPropertyOp getter, JSPropertyOp setter, uint32 slot, uintN attrs, uintN flags, intN shortid) { JSScope *scope; JSScopeProperty *sprop; JS_ASSERT(!(flags & JSScopeProperty::METHOD)); /* * Purge the property cache of now-shadowed id in obj's scope chain. Do * this optimistically (assuming no failure below) before locking obj, so * we can lock the shadowed scope. */ js_PurgeScopeChain(cx, obj, id); JS_LOCK_OBJ(cx, obj); scope = js_GetMutableScope(cx, obj); if (!scope) { sprop = NULL; } else { /* Convert string indices to integers if appropriate. */ id = js_CheckForStringIndex(id); sprop = scope->putProperty(cx, id, getter, setter, slot, attrs, flags, shortid); } JS_UNLOCK_OBJ(cx, obj); return sprop; } JSScopeProperty * js_ChangeNativePropertyAttrs(JSContext *cx, JSObject *obj, JSScopeProperty *sprop, uintN attrs, uintN mask, JSPropertyOp getter, JSPropertyOp setter) { JSScope *scope; JS_LOCK_OBJ(cx, obj); scope = js_GetMutableScope(cx, obj); if (!scope) { sprop = NULL; } else { sprop = scope->changeProperty(cx, sprop, attrs, mask, getter, setter); } JS_UNLOCK_OBJ(cx, obj); return sprop; } JSBool js_DefineProperty(JSContext *cx, JSObject *obj, jsid id, jsval value, JSPropertyOp getter, JSPropertyOp setter, uintN attrs) { return js_DefineNativeProperty(cx, obj, id, value, getter, setter, attrs, 0, 0, NULL); } /* * Backward compatibility requires allowing addProperty hooks to mutate the * nominal initial value of a slot-full property, while GC safety wants that * value to be stored before the call-out through the hook. Optimize to do * both while saving cycles for classes that stub their addProperty hook. */ static inline bool AddPropertyHelper(JSContext *cx, JSClass *clasp, JSObject *obj, JSScope *scope, JSScopeProperty *sprop, jsval *vp) { if (clasp->addProperty != JS_PropertyStub) { jsval nominal = *vp; if (!clasp->addProperty(cx, obj, SPROP_USERID(sprop), vp)) return false; if (*vp != nominal) { if (SPROP_HAS_VALID_SLOT(sprop, scope)) obj->lockedSetSlot(sprop->slot, *vp); } } return true; } JSBool js_DefineNativeProperty(JSContext *cx, JSObject *obj, jsid id, jsval value, JSPropertyOp getter, JSPropertyOp setter, uintN attrs, uintN flags, intN shortid, JSProperty **propp, uintN defineHow /* = 0 */) { JSClass *clasp; JSScope *scope; JSScopeProperty *sprop; JSBool added; JS_ASSERT((defineHow & ~(JSDNP_CACHE_RESULT | JSDNP_DONT_PURGE | JSDNP_SET_METHOD)) == 0); LeaveTraceIfGlobalObject(cx, obj); /* Convert string indices to integers if appropriate. */ id = js_CheckForStringIndex(id); /* * If defining a getter or setter, we must check for its counterpart and * update the attributes and property ops. A getter or setter is really * only half of a property. */ sprop = NULL; if (attrs & (JSPROP_GETTER | JSPROP_SETTER)) { JSObject *pobj; JSProperty *prop; /* * If JS_THREADSAFE and id is found, js_LookupProperty returns with * sprop non-null and pobj locked. If pobj == obj, the property is * already in obj and obj has its own (mutable) scope. So if we are * defining a getter whose setter was already defined, or vice versa, * finish the job via js_ChangeScopePropertyAttributes, and refresh * the property cache line for (obj, id) to map sprop. */ if (!js_LookupProperty(cx, obj, id, &pobj, &prop)) return JS_FALSE; sprop = (JSScopeProperty *) prop; if (sprop && pobj == obj && sprop->isAccessorDescriptor()) { sprop = obj->scope()->changeProperty(cx, sprop, attrs, JSPROP_GETTER | JSPROP_SETTER, (attrs & JSPROP_GETTER) ? getter : sprop->getter(), (attrs & JSPROP_SETTER) ? setter : sprop->setter()); /* NB: obj == pobj, so we can share unlock code at the bottom. */ if (!sprop) goto error; } else if (prop) { /* NB: call JSObject::dropProperty, as pobj might not be native. */ pobj->dropProperty(cx, prop); prop = NULL; sprop = NULL; } } /* * Purge the property cache of any properties named by id that are about * to be shadowed in obj's scope chain unless it is known a priori that it * is not possible. We do this before locking obj to avoid nesting locks. */ if (!(defineHow & JSDNP_DONT_PURGE)) js_PurgeScopeChain(cx, obj, id); /* * Check whether a readonly property or setter is being defined on a known * prototype object. See the comment in jscntxt.h before protoHazardShape's * member declaration. */ if (obj->isDelegate() && (attrs & (JSPROP_READONLY | JSPROP_SETTER))) cx->runtime->protoHazardShape = js_GenerateShape(cx, false); /* Lock if object locking is required by this implementation. */ JS_LOCK_OBJ(cx, obj); /* Use the object's class getter and setter by default. */ clasp = obj->getClass(); if (!(defineHow & JSDNP_SET_METHOD)) { if (!getter) getter = clasp->getProperty; if (!setter) setter = clasp->setProperty; } /* Get obj's own scope if it has one, or create a new one for obj. */ scope = js_GetMutableScope(cx, obj); if (!scope) goto error; added = false; if (!sprop) { /* Add a new property, or replace an existing one of the same id. */ if (clasp->flags & JSCLASS_SHARE_ALL_PROPERTIES) attrs |= JSPROP_SHARED; if (defineHow & JSDNP_SET_METHOD) { JS_ASSERT(clasp == &js_ObjectClass); JS_ASSERT(VALUE_IS_FUNCTION(cx, value)); JS_ASSERT(!(attrs & (JSPROP_GETTER | JSPROP_SETTER))); JS_ASSERT(!getter && !setter); JSObject *funobj = JSVAL_TO_OBJECT(value); if (FUN_OBJECT(GET_FUNCTION_PRIVATE(cx, funobj)) == funobj) { flags |= JSScopeProperty::METHOD; getter = js_CastAsPropertyOp(funobj); } } added = !scope->hasProperty(id); sprop = scope->putProperty(cx, id, getter, setter, SPROP_INVALID_SLOT, attrs, flags, shortid); if (!sprop) goto error; } /* Store value before calling addProperty, in case the latter GC's. */ if (SPROP_HAS_VALID_SLOT(sprop, scope)) obj->lockedSetSlot(sprop->slot, value); /* XXXbe called with lock held */ if (!AddPropertyHelper(cx, clasp, obj, scope, sprop, &value)) { scope->removeProperty(cx, id); goto error; } if (defineHow & JSDNP_CACHE_RESULT) { JS_ASSERT_NOT_ON_TRACE(cx); PropertyCacheEntry *entry = JS_PROPERTY_CACHE(cx).fill(cx, obj, 0, 0, obj, sprop, added); TRACE_2(SetPropHit, entry, sprop); } if (propp) *propp = (JSProperty *) sprop; else JS_UNLOCK_OBJ(cx, obj); return JS_TRUE; error: // TRACE_2 jumps here on error, as well. JS_UNLOCK_OBJ(cx, obj); return JS_FALSE; } JS_FRIEND_API(JSBool) js_LookupProperty(JSContext *cx, JSObject *obj, jsid id, JSObject **objp, JSProperty **propp) { return js_LookupPropertyWithFlags(cx, obj, id, cx->resolveFlags, objp, propp) >= 0; } #define SCOPE_DEPTH_ACCUM(bs,val) \ JS_SCOPE_DEPTH_METERING(JS_BASIC_STATS_ACCUM(bs, val)) int js_LookupPropertyWithFlags(JSContext *cx, JSObject *obj, jsid id, uintN flags, JSObject **objp, JSProperty **propp) { JSObject *start, *obj2, *proto; int protoIndex; JSScope *scope; JSScopeProperty *sprop; JSClass *clasp; JSResolveOp resolve; JSResolvingKey key; JSResolvingEntry *entry; uint32 generation; JSNewResolveOp newresolve; JSBool ok; /* Convert string indices to integers if appropriate. */ id = js_CheckForStringIndex(id); /* Search scopes starting with obj and following the prototype link. */ start = obj; for (protoIndex = 0; ; protoIndex++) { JS_LOCK_OBJ(cx, obj); scope = obj->scope(); sprop = scope->lookup(id); /* Try obj's class resolve hook if id was not found in obj's scope. */ if (!sprop) { clasp = obj->getClass(); resolve = clasp->resolve; if (resolve != JS_ResolveStub) { /* Avoid recursion on (obj, id) already being resolved on cx. */ key.obj = obj; key.id = id; /* * Once we have successfully added an entry for (obj, key) to * cx->resolvingTable, control must go through cleanup: before * returning. But note that JS_DHASH_ADD may find an existing * entry, in which case we bail to suppress runaway recursion. */ if (!js_StartResolving(cx, &key, JSRESFLAG_LOOKUP, &entry)) { JS_UNLOCK_OBJ(cx, obj); return -1; } if (!entry) { /* Already resolving id in obj -- suppress recursion. */ JS_UNLOCK_OBJ(cx, obj); goto out; } generation = cx->resolvingTable->generation; /* Null *propp here so we can test it at cleanup: safely. */ *propp = NULL; if (clasp->flags & JSCLASS_NEW_RESOLVE) { newresolve = (JSNewResolveOp)resolve; if (flags == JSRESOLVE_INFER) flags = js_InferFlags(cx, flags); obj2 = (clasp->flags & JSCLASS_NEW_RESOLVE_GETS_START) ? start : NULL; JS_UNLOCK_OBJ(cx, obj); { /* Protect id and all atoms from a GC nested in resolve. */ AutoKeepAtoms keep(cx->runtime); ok = newresolve(cx, obj, ID_TO_VALUE(id), flags, &obj2); } if (!ok) goto cleanup; JS_LOCK_OBJ(cx, obj); if (obj2) { /* Resolved: juggle locks and lookup id again. */ if (obj2 != obj) { JS_UNLOCK_OBJ(cx, obj); if (obj2->isNative()) JS_LOCK_OBJ(cx, obj2); } protoIndex = 0; for (proto = start; proto && proto != obj2; proto = proto->getProto()) { protoIndex++; } if (!obj2->isNative()) { /* Whoops, newresolve handed back a foreign obj2. */ JS_ASSERT(obj2 != obj); ok = obj2->lookupProperty(cx, id, objp, propp); if (!ok || *propp) goto cleanup; JS_LOCK_OBJ(cx, obj2); } else { /* * Require that obj2 have its own scope now, as we * do for old-style resolve. If it doesn't, then * id was not truly resolved, and we'll find it in * the proto chain, or miss it if obj2's proto is * not on obj's proto chain. That last case is a * "too bad!" case. */ scope = obj2->scope(); if (!scope->isSharedEmpty()) sprop = scope->lookup(id); } if (sprop) { JS_ASSERT(scope == obj2->scope()); JS_ASSERT(!scope->isSharedEmpty()); obj = obj2; } else if (obj2 != obj) { if (obj2->isNative()) JS_UNLOCK_OBJ(cx, obj2); JS_LOCK_OBJ(cx, obj); } } } else { /* * Old resolve always requires id re-lookup if obj owns * its scope after resolve returns. */ JS_UNLOCK_OBJ(cx, obj); ok = resolve(cx, obj, ID_TO_VALUE(id)); if (!ok) goto cleanup; JS_LOCK_OBJ(cx, obj); JS_ASSERT(obj->isNative()); scope = obj->scope(); if (!scope->isSharedEmpty()) sprop = scope->lookup(id); } cleanup: js_StopResolving(cx, &key, JSRESFLAG_LOOKUP, entry, generation); if (!ok) return -1; if (*propp) return protoIndex; } } if (sprop) { SCOPE_DEPTH_ACCUM(&cx->runtime->protoLookupDepthStats, protoIndex); JS_ASSERT(obj->scope() == scope); *objp = obj; *propp = (JSProperty *) sprop; return protoIndex; } proto = obj->getProto(); JS_UNLOCK_OBJ(cx, obj); if (!proto) break; if (!proto->isNative()) { if (!proto->lookupProperty(cx, id, objp, propp)) return -1; return protoIndex + 1; } /* * Correctness elsewhere (the property cache and JIT), not here in * particular, depends on all the objects on the prototype chain having * different scopes. This is just a convenient place to check. * * Cloned Block objects do in fact share their prototype's scope -- but * that is really just a memory-saving hack, safe because Blocks cannot * be on the prototype chain of other objects. */ JS_ASSERT_IF(obj->getClass() != &js_BlockClass, obj->scope() != proto->scope()); obj = proto; } out: *objp = NULL; *propp = NULL; return protoIndex; } PropertyCacheEntry * js_FindPropertyHelper(JSContext *cx, jsid id, JSBool cacheResult, JSObject **objp, JSObject **pobjp, JSProperty **propp) { JSObject *scopeChain, *obj, *parent, *pobj; PropertyCacheEntry *entry; int scopeIndex, protoIndex; JSProperty *prop; JS_ASSERT_IF(cacheResult, !JS_ON_TRACE(cx)); scopeChain = js_GetTopStackFrame(cx)->scopeChain; /* Scan entries on the scope chain that we can cache across. */ entry = JS_NO_PROP_CACHE_FILL; obj = scopeChain; parent = obj->getParent(); for (scopeIndex = 0; parent ? js_IsCacheableNonGlobalScope(obj) : obj->map->ops->lookupProperty == js_LookupProperty; ++scopeIndex) { protoIndex = js_LookupPropertyWithFlags(cx, obj, id, cx->resolveFlags, &pobj, &prop); if (protoIndex < 0) return NULL; if (prop) { #ifdef DEBUG if (parent) { JSClass *clasp = obj->getClass(); JS_ASSERT(pobj->isNative()); JS_ASSERT(pobj->getClass() == clasp); if (clasp == &js_BlockClass) { /* * A block instance on the scope chain is immutable and * the compile-time prototype provides all its properties. */ JS_ASSERT(pobj == obj->getProto()); JS_ASSERT(protoIndex == 1); } else { /* Call and DeclEnvClass objects have no prototypes. */ JS_ASSERT(!obj->getProto()); JS_ASSERT(protoIndex == 0); } } #endif if (cacheResult) { entry = JS_PROPERTY_CACHE(cx).fill(cx, scopeChain, scopeIndex, protoIndex, pobj, (JSScopeProperty *) prop); } SCOPE_DEPTH_ACCUM(&cx->runtime->scopeSearchDepthStats, scopeIndex); goto out; } if (!parent) { pobj = NULL; goto out; } obj = parent; parent = obj->getParent(); } for (;;) { if (!obj->lookupProperty(cx, id, &pobj, &prop)) return NULL; if (prop) { PCMETER(JS_PROPERTY_CACHE(cx).nofills++); goto out; } /* * We conservatively assume that a resolve hook could mutate the scope * chain during JSObject::lookupProperty. So we read parent here again. */ parent = obj->getParent(); if (!parent) { pobj = NULL; break; } obj = parent; } out: JS_ASSERT(!!pobj == !!prop); *objp = obj; *pobjp = pobj; *propp = prop; return entry; } JS_FRIEND_API(JSBool) js_FindProperty(JSContext *cx, jsid id, JSObject **objp, JSObject **pobjp, JSProperty **propp) { return !!js_FindPropertyHelper(cx, id, false, objp, pobjp, propp); } JSObject * js_FindIdentifierBase(JSContext *cx, JSObject *scopeChain, jsid id) { /* * This function should not be called for a global object or from the * trace and should have a valid cache entry for native scopeChain. */ JS_ASSERT(scopeChain->getParent()); JS_ASSERT(!JS_ON_TRACE(cx)); JSObject *obj = scopeChain; /* * Loop over cacheable objects on the scope chain until we find a * property. We also stop when we reach the global object skipping any * farther checks or lookups. For details see the JSOP_BINDNAME case of * js_Interpret. */ for (int scopeIndex = 0; js_IsCacheableNonGlobalScope(obj); scopeIndex++) { JSObject *pobj; JSProperty *prop; int protoIndex = js_LookupPropertyWithFlags(cx, obj, id, cx->resolveFlags, &pobj, &prop); if (protoIndex < 0) return NULL; if (prop) { JS_ASSERT(pobj->isNative()); JS_ASSERT(pobj->getClass() == obj->getClass()); #ifdef DEBUG PropertyCacheEntry *entry = #endif JS_PROPERTY_CACHE(cx).fill(cx, scopeChain, scopeIndex, protoIndex, pobj, (JSScopeProperty *) prop); JS_ASSERT(entry); JS_UNLOCK_OBJ(cx, pobj); return obj; } /* Call and other cacheable objects always have a parent. */ obj = obj->getParent(); if (!obj->getParent()) return obj; } /* Loop until we find a property or reach the global object. */ do { JSObject *pobj; JSProperty *prop; if (!obj->lookupProperty(cx, id, &pobj, &prop)) return NULL; if (prop) { pobj->dropProperty(cx, prop); break; } /* * We conservatively assume that a resolve hook could mutate the scope * chain during JSObject::lookupProperty. So we must check if parent is * not null here even if it wasn't before the lookup. */ JSObject *parent = obj->getParent(); if (!parent) break; obj = parent; } while (obj->getParent()); return obj; } JSBool js_NativeGet(JSContext *cx, JSObject *obj, JSObject *pobj, JSScopeProperty *sprop, uintN getHow, jsval *vp) { LeaveTraceIfGlobalObject(cx, pobj); JSScope *scope; uint32 slot; int32 sample; JS_ASSERT(pobj->isNative()); JS_ASSERT(JS_IS_OBJ_LOCKED(cx, pobj)); scope = pobj->scope(); slot = sprop->slot; *vp = (slot != SPROP_INVALID_SLOT) ? pobj->lockedGetSlot(slot) : JSVAL_VOID; if (sprop->hasDefaultGetter()) return true; if (JS_UNLIKELY(sprop->isMethod()) && (getHow & JSGET_NO_METHOD_BARRIER)) { JS_ASSERT(sprop->methodValue() == *vp); return true; } sample = cx->runtime->propertyRemovals; JS_UNLOCK_SCOPE(cx, scope); { AutoScopePropertyRooter tvr(cx, sprop); AutoValueRooter tvr2(cx, pobj); if (!sprop->get(cx, obj, pobj, vp)) return false; } JS_LOCK_SCOPE(cx, scope); if (SLOT_IN_SCOPE(slot, scope) && (JS_LIKELY(cx->runtime->propertyRemovals == sample) || scope->hasProperty(sprop))) { jsval v = *vp; if (!scope->methodWriteBarrier(cx, sprop, v)) { JS_UNLOCK_SCOPE(cx, scope); return false; } pobj->lockedSetSlot(slot, v); } return true; } JSBool js_NativeSet(JSContext *cx, JSObject *obj, JSScopeProperty *sprop, bool added, jsval *vp) { LeaveTraceIfGlobalObject(cx, obj); JSScope *scope; uint32 slot; int32 sample; JS_ASSERT(obj->isNative()); JS_ASSERT(JS_IS_OBJ_LOCKED(cx, obj)); scope = obj->scope(); slot = sprop->slot; if (slot != SPROP_INVALID_SLOT) { OBJ_CHECK_SLOT(obj, slot); /* If sprop has a stub setter, keep scope locked and just store *vp. */ if (sprop->hasDefaultSetter()) { if (!added && !scope->methodWriteBarrier(cx, sprop, *vp)) { JS_UNLOCK_SCOPE(cx, scope); return false; } obj->lockedSetSlot(slot, *vp); return true; } } else { /* * Allow API consumers to create shared properties with stub setters. * Such properties effectively function as data descriptors which are * not writable, so attempting to set such a property should do nothing * or throw if we're in strict mode. */ if (!sprop->hasGetterValue() && sprop->hasDefaultSetter()) return js_ReportGetterOnlyAssignment(cx); } sample = cx->runtime->propertyRemovals; JS_UNLOCK_SCOPE(cx, scope); { AutoScopePropertyRooter tvr(cx, sprop); if (!sprop->set(cx, obj, vp)) return false; } JS_LOCK_SCOPE(cx, scope); if (SLOT_IN_SCOPE(slot, scope) && (JS_LIKELY(cx->runtime->propertyRemovals == sample) || scope->hasProperty(sprop))) { jsval v = *vp; if (!added && !scope->methodWriteBarrier(cx, sprop, v)) { JS_UNLOCK_SCOPE(cx, scope); return false; } obj->lockedSetSlot(slot, v); } return true; } JSBool js_GetPropertyHelper(JSContext *cx, JSObject *obj, jsid id, uintN getHow, jsval *vp) { JSObject *aobj, *obj2; int protoIndex; JSProperty *prop; JSScopeProperty *sprop; JS_ASSERT_IF(getHow & JSGET_CACHE_RESULT, !JS_ON_TRACE(cx)); /* Convert string indices to integers if appropriate. */ id = js_CheckForStringIndex(id); aobj = js_GetProtoIfDenseArray(obj); protoIndex = js_LookupPropertyWithFlags(cx, aobj, id, cx->resolveFlags, &obj2, &prop); if (protoIndex < 0) return JS_FALSE; if (!prop) { *vp = JSVAL_VOID; if (!obj->getClass()->getProperty(cx, obj, ID_TO_VALUE(id), vp)) return JS_FALSE; PCMETER(getHow & JSGET_CACHE_RESULT && JS_PROPERTY_CACHE(cx).nofills++); /* * Give a strict warning if foo.bar is evaluated by a script for an * object foo with no property named 'bar'. */ jsbytecode *pc; if (JSVAL_IS_VOID(*vp) && ((pc = js_GetCurrentBytecodePC(cx)) != NULL)) { JSOp op; uintN flags; op = (JSOp) *pc; if (op == JSOP_TRAP) { JS_ASSERT_NOT_ON_TRACE(cx); op = JS_GetTrapOpcode(cx, cx->fp->script, pc); } if (op == JSOP_GETXPROP) { flags = JSREPORT_ERROR; } else { if (!JS_HAS_STRICT_OPTION(cx) || (op != JSOP_GETPROP && op != JSOP_GETELEM) || js_CurrentPCIsInImacro(cx)) { return JS_TRUE; } /* * XXX do not warn about missing __iterator__ as the function * may be called from JS_GetMethodById. See bug 355145. */ if (id == ATOM_TO_JSID(cx->runtime->atomState.iteratorAtom)) return JS_TRUE; /* Do not warn about tests like (obj[prop] == undefined). */ if (cx->resolveFlags == JSRESOLVE_INFER) { LeaveTrace(cx); pc += js_CodeSpec[op].length; if (Detecting(cx, pc)) return JS_TRUE; } else if (cx->resolveFlags & JSRESOLVE_DETECTING) { return JS_TRUE; } flags = JSREPORT_WARNING | JSREPORT_STRICT; } /* Ok, bad undefined property reference: whine about it. */ if (!js_ReportValueErrorFlags(cx, flags, JSMSG_UNDEFINED_PROP, JSDVG_IGNORE_STACK, ID_TO_VALUE(id), NULL, NULL, NULL)) { return JS_FALSE; } } return JS_TRUE; } if (!obj2->isNative()) { obj2->dropProperty(cx, prop); return obj2->getProperty(cx, id, vp); } sprop = (JSScopeProperty *) prop; if (getHow & JSGET_CACHE_RESULT) { JS_ASSERT_NOT_ON_TRACE(cx); JS_PROPERTY_CACHE(cx).fill(cx, aobj, 0, protoIndex, obj2, sprop); } if (!js_NativeGet(cx, obj, obj2, sprop, getHow, vp)) return JS_FALSE; JS_UNLOCK_OBJ(cx, obj2); return JS_TRUE; } JSBool js_GetProperty(JSContext *cx, JSObject *obj, jsid id, jsval *vp) { return js_GetPropertyHelper(cx, obj, id, JSGET_METHOD_BARRIER, vp); } JSBool js_GetMethod(JSContext *cx, JSObject *obj, jsid id, uintN getHow, jsval *vp) { JSAutoResolveFlags rf(cx, JSRESOLVE_QUALIFIED); if (obj->map->ops == &js_ObjectOps || obj->map->ops->getProperty == js_GetProperty) { return js_GetPropertyHelper(cx, obj, id, getHow, vp); } JS_ASSERT_IF(getHow & JSGET_CACHE_RESULT, obj->isDenseArray()); #if JS_HAS_XML_SUPPORT if (OBJECT_IS_XML(cx, obj)) return js_GetXMLMethod(cx, obj, id, vp); #endif return obj->getProperty(cx, id, vp); } JS_FRIEND_API(bool) js_CheckUndeclaredVarAssignment(JSContext *cx) { JSStackFrame *fp = js_GetTopStackFrame(cx); if (!fp) return true; /* If neither cx nor the code is strict, then no check is needed. */ if (!(fp->script && fp->script->strictModeCode) && !JS_HAS_STRICT_OPTION(cx)) { return true; } /* This check is only appropriate when executing JSOP_SETNAME. */ if (!fp->regs || js_GetOpcode(cx, fp->script, fp->regs->pc) != JSOP_SETNAME) { return true; } JSAtom *atom; GET_ATOM_FROM_BYTECODE(fp->script, fp->regs->pc, 0, atom); const char *bytes = js_AtomToPrintableString(cx, atom); return bytes && JS_ReportErrorFlagsAndNumber(cx, (JSREPORT_WARNING | JSREPORT_STRICT | JSREPORT_STRICT_MODE_ERROR), js_GetErrorMessage, NULL, JSMSG_UNDECLARED_VAR, bytes); } namespace js { JSBool ReportReadOnly(JSContext* cx, jsid id, uintN flags) { return js_ReportValueErrorFlags(cx, flags, JSMSG_READ_ONLY, JSDVG_IGNORE_STACK, ID_TO_VALUE(id), NULL, NULL, NULL); } } /* * Note: all non-error exits in this function must notify the tracer using * SetPropHit when called from the interpreter, which is detected by testing * (defineHow & JSDNP_CACHE_RESULT). */ JSBool js_SetPropertyHelper(JSContext *cx, JSObject *obj, jsid id, uintN defineHow, jsval *vp) { int protoIndex; JSObject *pobj; JSProperty *prop; JSScopeProperty *sprop; JSScope *scope; uintN attrs, flags; intN shortid; JSClass *clasp; JSPropertyOp getter, setter; bool added; JS_ASSERT((defineHow & ~(JSDNP_CACHE_RESULT | JSDNP_SET_METHOD)) == 0); if (defineHow & JSDNP_CACHE_RESULT) JS_ASSERT_NOT_ON_TRACE(cx); /* Convert string indices to integers if appropriate. */ id = js_CheckForStringIndex(id); /* * We peek at obj->scope() without locking obj. Any race means a failure * to seal before sharing, which is inherently ambiguous. */ if (obj->scope()->sealed() && obj->scope()->object == obj) return ReportReadOnly(cx, id, JSREPORT_ERROR); protoIndex = js_LookupPropertyWithFlags(cx, obj, id, cx->resolveFlags, &pobj, &prop); if (protoIndex < 0) return JS_FALSE; if (prop) { if (!pobj->isNative()) { pobj->dropProperty(cx, prop); prop = NULL; } } else { /* We should never add properties to lexical blocks. */ JS_ASSERT(obj->getClass() != &js_BlockClass); if (!obj->getParent() && !js_CheckUndeclaredVarAssignment(cx)) return JS_FALSE; } sprop = (JSScopeProperty *) prop; /* * Now either sprop is null, meaning id was not found in obj or one of its * prototypes; or sprop is non-null, meaning id was found in pobj's scope. * If JS_THREADSAFE and sprop is non-null, then scope is locked, and sprop * is held: we must JSObject::dropProperty or JS_UNLOCK_SCOPE before we * return (the two are equivalent for native objects, but we use * JS_UNLOCK_SCOPE because it is cheaper). */ attrs = JSPROP_ENUMERATE; flags = 0; shortid = 0; clasp = obj->getClass(); getter = clasp->getProperty; setter = clasp->setProperty; if (sprop) { /* * Set scope for use below. It was locked by js_LookupProperty, and * we know pobj owns it (i.e., scope->object == pobj). Therefore we * optimize JS_UNLOCK_OBJ(cx, pobj) into JS_UNLOCK_SCOPE(cx, scope). */ scope = pobj->scope(); /* ES5 8.12.4 [[Put]] step 2. */ if (sprop->isAccessorDescriptor()) { if (sprop->hasDefaultSetter()) { JS_UNLOCK_SCOPE(cx, scope); if (defineHow & JSDNP_CACHE_RESULT) TRACE_2(SetPropHit, JS_NO_PROP_CACHE_FILL, sprop); return js_ReportGetterOnlyAssignment(cx); } } else { JS_ASSERT(sprop->isDataDescriptor()); if (!sprop->writable()) { JS_UNLOCK_SCOPE(cx, scope); /* Strict mode: report a read-only strict warning. */ if (JS_HAS_STRICT_OPTION(cx)) return ReportReadOnly(cx, id, JSREPORT_STRICT | JSREPORT_WARNING); /* Just return true per ECMA if not in strict mode. */ PCMETER((defineHow & JSDNP_CACHE_RESULT) && JS_PROPERTY_CACHE(cx).rofills++); if (defineHow & JSDNP_CACHE_RESULT) { JS_ASSERT_NOT_ON_TRACE(cx); TRACE_2(SetPropHit, JS_NO_PROP_CACHE_FILL, sprop); } return JS_TRUE; #ifdef JS_TRACER error: // TRACE_2 jumps here in case of error. return JS_FALSE; #endif } } if (scope->sealed() && !sprop->hasSlot()) { JS_UNLOCK_SCOPE(cx, scope); return ReportReadOnly(cx, id, JSREPORT_ERROR); } attrs = sprop->attributes(); if (pobj != obj) { /* * We found id in a prototype object: prepare to share or shadow. * * NB: Thanks to the immutable, garbage-collected property tree * maintained by jsscope.c in cx->runtime, we needn't worry about * sprop going away behind our back after we've unlocked scope. */ JS_UNLOCK_SCOPE(cx, scope); /* Don't clone a prototype property that doesn't have a slot. */ if (!sprop->hasSlot()) { if (defineHow & JSDNP_CACHE_RESULT) { JS_ASSERT_NOT_ON_TRACE(cx); PropertyCacheEntry *entry = JS_PROPERTY_CACHE(cx).fill(cx, obj, 0, protoIndex, pobj, sprop); TRACE_2(SetPropHit, entry, sprop); } if (sprop->hasDefaultSetter() && !sprop->hasGetterValue()) return JS_TRUE; return sprop->set(cx, obj, vp); } /* Restore attrs to the ECMA default for new properties. */ attrs = JSPROP_ENUMERATE; /* * Preserve the shortid, getter, and setter when shadowing any * property that has a shortid. An old API convention requires * that the property's getter and setter functions receive the * shortid, not id, when they are called on the shadow we are * about to create in obj's scope. */ if (sprop->hasShortID()) { flags = JSScopeProperty::HAS_SHORTID; shortid = sprop->shortid; getter = sprop->getter(); setter = sprop->setter(); } /* * Forget we found the proto-property now that we've copied any * needed member values. */ sprop = NULL; } #ifdef __GNUC__ /* suppress bogus gcc warnings */ } else { scope = NULL; #endif } added = false; if (!sprop) { /* * Purge the property cache of now-shadowed id in obj's scope chain. * Do this early, before locking obj to avoid nesting locks. */ js_PurgeScopeChain(cx, obj, id); /* Find or make a property descriptor with the right heritage. */ JS_LOCK_OBJ(cx, obj); scope = js_GetMutableScope(cx, obj); if (!scope) { JS_UNLOCK_OBJ(cx, obj); return JS_FALSE; } if (clasp->flags & JSCLASS_SHARE_ALL_PROPERTIES) attrs |= JSPROP_SHARED; /* * Check for Object class here to avoid defining a method on a class * with magic resolve, addProperty, getProperty, etc. hooks. */ if ((defineHow & JSDNP_SET_METHOD) && obj->getClass() == &js_ObjectClass) { JS_ASSERT(VALUE_IS_FUNCTION(cx, *vp)); JS_ASSERT(!(attrs & (JSPROP_GETTER | JSPROP_SETTER))); JSObject *funobj = JSVAL_TO_OBJECT(*vp); if (FUN_OBJECT(GET_FUNCTION_PRIVATE(cx, funobj)) == funobj) { flags |= JSScopeProperty::METHOD; getter = js_CastAsPropertyOp(funobj); } } sprop = scope->putProperty(cx, id, getter, setter, SPROP_INVALID_SLOT, attrs, flags, shortid); if (!sprop) { JS_UNLOCK_SCOPE(cx, scope); return JS_FALSE; } /* * Initialize the new property value (passed to setter) to undefined. * Note that we store before calling addProperty, to match the order * in js_DefineNativeProperty. */ if (SPROP_HAS_VALID_SLOT(sprop, scope)) obj->lockedSetSlot(sprop->slot, JSVAL_VOID); /* XXXbe called with obj locked */ if (!AddPropertyHelper(cx, clasp, obj, scope, sprop, vp)) { scope->removeProperty(cx, id); JS_UNLOCK_SCOPE(cx, scope); return JS_FALSE; } added = true; } if (defineHow & JSDNP_CACHE_RESULT) { JS_ASSERT_NOT_ON_TRACE(cx); PropertyCacheEntry *entry = JS_PROPERTY_CACHE(cx).fill(cx, obj, 0, 0, obj, sprop, added); TRACE_2(SetPropHit, entry, sprop); } if (!js_NativeSet(cx, obj, sprop, added, vp)) return NULL; JS_UNLOCK_SCOPE(cx, scope); return JS_TRUE; } JSBool js_SetProperty(JSContext *cx, JSObject *obj, jsid id, jsval *vp) { return js_SetPropertyHelper(cx, obj, id, false, vp); } JSBool js_GetAttributes(JSContext *cx, JSObject *obj, jsid id, JSProperty *prop, uintN *attrsp) { JSBool noprop, ok; JSScopeProperty *sprop; noprop = !prop; if (noprop) { if (!js_LookupProperty(cx, obj, id, &obj, &prop)) return JS_FALSE; if (!prop) { *attrsp = 0; return JS_TRUE; } if (!obj->isNative()) { ok = obj->getAttributes(cx, id, prop, attrsp); obj->dropProperty(cx, prop); return ok; } } sprop = (JSScopeProperty *)prop; *attrsp = sprop->attributes(); if (noprop) obj->dropProperty(cx, prop); return JS_TRUE; } JSBool js_SetAttributes(JSContext *cx, JSObject *obj, jsid id, JSProperty *prop, uintN *attrsp) { JSBool noprop, ok; JSScopeProperty *sprop; noprop = !prop; if (noprop) { if (!js_LookupProperty(cx, obj, id, &obj, &prop)) return JS_FALSE; if (!prop) return JS_TRUE; if (!obj->isNative()) { ok = obj->setAttributes(cx, id, prop, attrsp); obj->dropProperty(cx, prop); return ok; } } sprop = (JSScopeProperty *)prop; sprop = js_ChangeNativePropertyAttrs(cx, obj, sprop, *attrsp, 0, sprop->getter(), sprop->setter()); if (noprop) obj->dropProperty(cx, prop); return (sprop != NULL); } JSBool js_DeleteProperty(JSContext *cx, JSObject *obj, jsid id, jsval *rval) { JSObject *proto; JSProperty *prop; JSScopeProperty *sprop; JSScope *scope; JSBool ok; *rval = JSVAL_TRUE; /* Convert string indices to integers if appropriate. */ id = js_CheckForStringIndex(id); if (!js_LookupProperty(cx, obj, id, &proto, &prop)) return JS_FALSE; if (!prop || proto != obj) { /* * If the property was found in a native prototype, check whether it's * shared and permanent. Such a property stands for direct properties * in all delegating objects, matching ECMA semantics without bloating * each delegating object. */ if (prop) { if (proto->isNative()) { sprop = (JSScopeProperty *)prop; if (sprop->isSharedPermanent()) *rval = JSVAL_FALSE; } proto->dropProperty(cx, prop); if (*rval == JSVAL_FALSE) return JS_TRUE; } /* * If no property, or the property comes unshared or impermanent from * a prototype, call the class's delProperty hook, passing rval as the * result parameter. */ return obj->getClass()->delProperty(cx, obj, ID_TO_VALUE(id), rval); } sprop = (JSScopeProperty *)prop; if (!sprop->configurable()) { obj->dropProperty(cx, prop); *rval = JSVAL_FALSE; return JS_TRUE; } /* XXXbe called with obj locked */ if (!obj->getClass()->delProperty(cx, obj, SPROP_USERID(sprop), rval)) { obj->dropProperty(cx, prop); return JS_FALSE; } scope = obj->scope(); if (SPROP_HAS_VALID_SLOT(sprop, scope)) GC_POKE(cx, obj->lockedGetSlot(sprop->slot)); ok = scope->removeProperty(cx, id); obj->dropProperty(cx, prop); return ok; } JSBool js_DefaultValue(JSContext *cx, JSObject *obj, JSType hint, jsval *vp) { jsval v, save; JSString *str; JS_ASSERT(hint != JSTYPE_OBJECT && hint != JSTYPE_FUNCTION); v = save = OBJECT_TO_JSVAL(obj); switch (hint) { case JSTYPE_STRING: /* * Optimize for String objects with standard toString methods. Support * new String(...) instances whether mutated to have their own scope or * not, as well as direct String.prototype references. */ if (obj->getClass() == &js_StringClass) { jsid toStringId = ATOM_TO_JSID(cx->runtime->atomState.toStringAtom); JS_LOCK_OBJ(cx, obj); JSScope *scope = obj->scope(); JSScopeProperty *sprop = scope->lookup(toStringId); JSObject *pobj = obj; if (!sprop) { pobj = obj->getProto(); if (pobj && pobj->getClass() == &js_StringClass) { JS_UNLOCK_SCOPE(cx, scope); JS_LOCK_OBJ(cx, pobj); scope = pobj->scope(); sprop = scope->lookup(toStringId); } } if (sprop && sprop->hasDefaultGetter() && SPROP_HAS_VALID_SLOT(sprop, scope)) { jsval fval = pobj->lockedGetSlot(sprop->slot); if (VALUE_IS_FUNCTION(cx, fval)) { JSObject *funobj = JSVAL_TO_OBJECT(fval); JSFunction *fun = GET_FUNCTION_PRIVATE(cx, funobj); if (FUN_FAST_NATIVE(fun) == js_str_toString) { JS_UNLOCK_SCOPE(cx, scope); *vp = obj->getPrimitiveThis(); return JS_TRUE; } } } JS_UNLOCK_SCOPE(cx, scope); } /* * Propagate the exception if js_TryMethod finds an appropriate * method, and calling that method returned failure. */ if (!js_TryMethod(cx, obj, cx->runtime->atomState.toStringAtom, 0, NULL, &v)) { return JS_FALSE; } if (!JSVAL_IS_PRIMITIVE(v)) { if (!obj->getClass()->convert(cx, obj, hint, &v)) return JS_FALSE; } break; default: if (!obj->getClass()->convert(cx, obj, hint, &v)) return JS_FALSE; if (!JSVAL_IS_PRIMITIVE(v)) { JS_ASSERT(hint != JS_TypeOfValue(cx, v)); if (!js_TryMethod(cx, obj, cx->runtime->atomState.toStringAtom, 0, NULL, &v)) return JS_FALSE; } break; } if (!JSVAL_IS_PRIMITIVE(v)) { /* Avoid recursive death when decompiling in js_ReportValueError. */ if (hint == JSTYPE_STRING) { str = JS_InternString(cx, obj->getClass()->name); if (!str) return JS_FALSE; } else { str = NULL; } *vp = OBJECT_TO_JSVAL(obj); js_ReportValueError2(cx, JSMSG_CANT_CONVERT_TO, JSDVG_SEARCH_STACK, save, str, (hint == JSTYPE_VOID) ? "primitive type" : JS_TYPE_STR(hint)); return JS_FALSE; } *vp = v; return JS_TRUE; } /* * Private type used to enumerate properties of a native JS object. It is * allocated as necessary from JSENUMERATE_INIT and is freed when running the * GC. The structure is not allocated when there are no enumerable properties * in the object. Instead for the empty enumerator the code uses JSVAL_ZERO as * the enumeration state. * * JSThreadData.nativeEnumCache caches the enumerators using scope's shape to * avoid repeated scanning of scopes for enumerable properties. The cache * entry is either JSNativeEnumerator* or, for the empty enumerator, the shape * value itself. The latter is stored as (shape << 1) | 1 to ensure that it is * always different from JSNativeEnumerator* values. * * We cache the enumerators in the JSENUMERATE_INIT case of js_Enumerate, not * during JSENUMERATE_DESTROY. The GC can invoke the latter case during the * finalization when JSNativeEnumerator contains finalized ids and the * enumerator must be freed. */ struct JSNativeEnumerator { /* * The index into the ids array. It runs from the length down to 1 when * the enumerator is running. It is 0 when the enumerator is finished and * can be reused on a cache hit. */ uint32 cursor; uint32 length; /* length of ids array */ uint32 shape; /* "shape" number -- see jsscope.h */ jsid ids[1]; /* enumeration id array */ static inline size_t size(uint32 length) { JS_ASSERT(length != 0); return offsetof(JSNativeEnumerator, ids) + (size_t) length * sizeof(jsid); } bool isFinished() const { return cursor == 0; } void mark(JSTracer *trc) { JS_ASSERT(length >= 1); jsid *cursor = ids; jsid *end = ids + length; do { js_TraceId(trc, *cursor); } while (++cursor != end); } }; /* The tagging of shape values requires one bit. */ JS_STATIC_ASSERT((jsuword) SHAPE_OVERFLOW_BIT <= ((jsuword) 1 << (JS_BITS_PER_WORD - 1))); static void SetEnumeratorCache(JSContext *cx, jsuword *cachep, jsuword newcache) { jsuword old = *cachep; *cachep = newcache; if (!(old & jsuword(1)) && old) { /* Free the cached enumerator unless it is running. */ JSNativeEnumerator *ne = reinterpret_cast(old); if (ne->isFinished()) cx->free(ne); } } JSBool js_Enumerate(JSContext *cx, JSObject *obj, JSIterateOp enum_op, jsval *statep, jsid *idp) { /* Here cx is JSTracer when enum_op is JSENUMERATE_MARK. */ JSClass *clasp = obj->getClass(); JSEnumerateOp enumerate = clasp->enumerate; if (clasp->flags & JSCLASS_NEW_ENUMERATE) { JS_ASSERT(enumerate != JS_EnumerateStub); return ((JSNewEnumerateOp) enumerate)(cx, obj, enum_op, statep, idp); } switch (enum_op) { case JSENUMERATE_INIT: { if (!enumerate(cx, obj)) return false; /* * The set of all property ids is pre-computed when the iterator is * initialized to avoid problems caused by properties being deleted * during the iteration. * * Use a do-while(0) loop to avoid too many nested ifs. If ne is null * after the loop, it indicates an empty enumerator. */ JSNativeEnumerator *ne; uint32 length; do { uint32 shape = obj->shape(); ENUM_CACHE_METER(nativeEnumProbes); jsuword *cachep = &JS_THREAD_DATA(cx)-> nativeEnumCache[NATIVE_ENUM_CACHE_HASH(shape)]; jsuword oldcache = *cachep; if (oldcache & (jsuword) 1) { if (uint32(oldcache >> 1) == shape) { /* scope has a shape with no enumerable properties. */ ne = NULL; length = 0; break; } } else if (oldcache != jsuword(0)) { ne = reinterpret_cast(oldcache); JS_ASSERT(ne->length >= 1); if (ne->shape == shape && ne->isFinished()) { /* Mark ne as active. */ ne->cursor = ne->length; length = ne->length; JS_ASSERT(!ne->isFinished()); break; } } ENUM_CACHE_METER(nativeEnumMisses); JS_LOCK_OBJ(cx, obj); /* Count all enumerable properties in object's scope. */ JSScope *scope = obj->scope(); length = 0; for (JSScopeProperty *sprop = scope->lastProperty(); sprop; sprop = sprop->parent) { if (sprop->enumerable() && !sprop->isAlias()) length++; } if (length == 0) { /* * Cache the scope without enumerable properties unless its * shape overflows, see bug 440834. */ JS_UNLOCK_SCOPE(cx, scope); if (shape < SHAPE_OVERFLOW_BIT) { SetEnumeratorCache(cx, cachep, (jsuword(shape) << 1) | jsuword(1)); } ne = NULL; break; } ne = (JSNativeEnumerator *) cx->mallocNoReport(JSNativeEnumerator::size(length)); if (!ne) { /* Report the OOM error outside the lock. */ JS_UNLOCK_SCOPE(cx, scope); JS_ReportOutOfMemory(cx); return false; } ne->cursor = length; ne->length = length; ne->shape = shape; jsid *ids = ne->ids; for (JSScopeProperty *sprop = scope->lastProperty(); sprop; sprop = sprop->parent) { if (sprop->enumerable() && !sprop->isAlias()) { JS_ASSERT(ids < ne->ids + length); *ids++ = sprop->id; } } JS_ASSERT(ids == ne->ids + length); JS_UNLOCK_SCOPE(cx, scope); /* * Do not cache enumerators for objects with with a shape * that had overflowed, see bug 440834. */ if (shape < SHAPE_OVERFLOW_BIT) SetEnumeratorCache(cx, cachep, reinterpret_cast(ne)); } while (0); if (!ne) { JS_ASSERT(length == 0); *statep = JSVAL_ZERO; } else { JS_ASSERT(length != 0); JS_ASSERT(ne->cursor == length); JS_ASSERT(!(reinterpret_cast(ne) & jsuword(1))); *statep = PRIVATE_TO_JSVAL(ne); } if (idp) *idp = INT_TO_JSVAL(length); break; } case JSENUMERATE_NEXT: case JSENUMERATE_DESTROY: { if (*statep == JSVAL_ZERO) { *statep = JSVAL_NULL; break; } JSNativeEnumerator *ne = (JSNativeEnumerator *) JSVAL_TO_PRIVATE(*statep); JS_ASSERT(ne->length >= 1); JS_ASSERT(ne->cursor >= 1); if (enum_op == JSENUMERATE_NEXT) { uint32 newcursor = ne->cursor - 1; *idp = ne->ids[newcursor]; if (newcursor != 0) { ne->cursor = newcursor; break; } } else { /* The enumerator has not iterated over all ids. */ JS_ASSERT(enum_op == JSENUMERATE_DESTROY); } *statep = JSVAL_ZERO; jsuword *cachep = &JS_THREAD_DATA(cx)-> nativeEnumCache[NATIVE_ENUM_CACHE_HASH(ne->shape)]; if (reinterpret_cast(ne) == *cachep) { /* Mark the cached iterator as available. */ ne->cursor = 0; } else { cx->free(ne); } break; } } return true; } void js_MarkEnumeratorState(JSTracer *trc, JSObject *obj, jsval state) { if (JSVAL_IS_TRACEABLE(state)) { JS_CALL_TRACER(trc, JSVAL_TO_TRACEABLE(state), JSVAL_TRACE_KIND(state), "enumerator_value"); } else if (obj->map->ops->enumerate == js_Enumerate && !(obj->getClass()->flags & JSCLASS_NEW_ENUMERATE)) { /* Check if state stores JSNativeEnumerator. */ JS_ASSERT(JSVAL_IS_INT(state) || JSVAL_IS_NULL(state) || JSVAL_IS_VOID(state)); if (JSVAL_IS_INT(state) && state != JSVAL_ZERO) ((JSNativeEnumerator *) JSVAL_TO_PRIVATE(state))->mark(trc); } } void js_PurgeCachedNativeEnumerators(JSContext *cx, JSThreadData *data) { jsuword *cachep = &data->nativeEnumCache[0]; jsuword *end = cachep + JS_ARRAY_LENGTH(data->nativeEnumCache); for (; cachep != end; ++cachep) SetEnumeratorCache(cx, cachep, jsuword(0)); #ifdef JS_DUMP_ENUM_CACHE_STATS printf("nativeEnumCache hit rate %g%%\n", 100.0 * (cx->runtime->nativeEnumProbes - cx->runtime->nativeEnumMisses) / cx->runtime->nativeEnumProbes); #endif } JSBool js_CheckAccess(JSContext *cx, JSObject *obj, jsid id, JSAccessMode mode, jsval *vp, uintN *attrsp) { JSBool writing; JSObject *pobj; JSProperty *prop; JSClass *clasp; JSScopeProperty *sprop; JSSecurityCallbacks *callbacks; JSCheckAccessOp check; writing = (mode & JSACC_WRITE) != 0; switch (mode & JSACC_TYPEMASK) { case JSACC_PROTO: pobj = obj; if (!writing) *vp = OBJECT_TO_JSVAL(obj->getProto()); *attrsp = JSPROP_PERMANENT; break; case JSACC_PARENT: JS_ASSERT(!writing); pobj = obj; *vp = OBJECT_TO_JSVAL(obj->getParent()); *attrsp = JSPROP_READONLY | JSPROP_PERMANENT; break; default: if (!obj->lookupProperty(cx, id, &pobj, &prop)) return JS_FALSE; if (!prop) { if (!writing) *vp = JSVAL_VOID; *attrsp = 0; pobj = obj; break; } if (!pobj->isNative()) { pobj->dropProperty(cx, prop); /* Avoid diverging for non-natives that reuse js_CheckAccess. */ if (pobj->map->ops->checkAccess == js_CheckAccess) { if (!writing) { *vp = JSVAL_VOID; *attrsp = 0; } break; } return pobj->checkAccess(cx, id, mode, vp, attrsp); } sprop = (JSScopeProperty *)prop; *attrsp = sprop->attributes(); if (!writing) { *vp = (SPROP_HAS_VALID_SLOT(sprop, pobj->scope())) ? pobj->lockedGetSlot(sprop->slot) : JSVAL_VOID; } pobj->dropProperty(cx, prop); } /* * If obj's class has a stub (null) checkAccess hook, use the per-runtime * checkObjectAccess callback, if configured. * * We don't want to require all classes to supply a checkAccess hook; we * need that hook only for certain classes used when precompiling scripts * and functions ("brutal sharing"). But for general safety of built-in * magic properties such as __proto__ and __parent__, we route all access * checks, even for classes that stub out checkAccess, through the global * checkObjectAccess hook. This covers precompilation-based sharing and * (possibly unintended) runtime sharing across trust boundaries. */ clasp = pobj->getClass(); check = clasp->checkAccess; if (!check) { callbacks = JS_GetSecurityCallbacks(cx); check = callbacks ? callbacks->checkObjectAccess : NULL; } return !check || check(cx, pobj, ID_TO_VALUE(id), mode, vp); } JSType js_TypeOf(JSContext *cx, JSObject *obj) { /* * Unfortunately we have wrappers that are native objects and thus don't * overwrite js_TypeOf (i.e. XPCCrossOriginWrapper), so we have to * unwrap here. */ obj = js_GetWrappedObject(cx, obj); /* * ECMA 262, 11.4.3 says that any native object that implements * [[Call]] should be of type "function". However, RegExp is of * type "object", not "function", for Web compatibility. */ if (obj->isCallable()) { return (obj->getClass() != &js_RegExpClass) ? JSTYPE_FUNCTION : JSTYPE_OBJECT; } #ifdef NARCISSUS JSAutoResolveFlags rf(cx, JSRESOLVE_QUALIFIED); jsval v; if (!obj->getProperty(cx, ATOM_TO_JSID(cx->runtime->atomState.__call__Atom), &v)) { JS_ClearPendingException(cx); } else { if (VALUE_IS_FUNCTION(cx, v)) return JSTYPE_FUNCTION; } #endif return JSTYPE_OBJECT; } #ifdef JS_THREADSAFE void js_DropProperty(JSContext *cx, JSObject *obj, JSProperty *prop) { JS_UNLOCK_OBJ(cx, obj); } #endif #ifdef NARCISSUS static JSBool GetCurrentExecutionContext(JSContext *cx, JSObject *obj, jsval *rval) { JSObject *tmp; jsval xcval; while ((tmp = obj->getParent()) != NULL) obj = tmp; if (!obj->getProperty(cx, ATOM_TO_JSID(cx->runtime->atomState.ExecutionContextAtom), &xcval)) return JS_FALSE; if (JSVAL_IS_PRIMITIVE(xcval)) { JS_ReportError(cx, "invalid ExecutionContext in global object"); return JS_FALSE; } if (!JSVAL_TO_OBJECT(xcval)->getProperty(cx, ATOM_TO_JSID(cx->runtime->atomState.currentAtom), rval)) { return JS_FALSE; } return JS_TRUE; } #endif JSBool js_Call(JSContext *cx, JSObject *obj, uintN argc, jsval *argv, jsval *rval) { JSClass *clasp; clasp = JSVAL_TO_OBJECT(argv[-2])->getClass(); if (!clasp->call) { #ifdef NARCISSUS JSObject *callee, *args; jsval fval, nargv[3]; JSBool ok; callee = JSVAL_TO_OBJECT(argv[-2]); if (!callee->getProperty(cx, ATOM_TO_JSID(cx->runtime->atomState.__call__Atom), &fval)) return JS_FALSE; if (VALUE_IS_FUNCTION(cx, fval)) { if (!GetCurrentExecutionContext(cx, obj, &nargv[2])) return JS_FALSE; args = js_GetArgsObject(cx, js_GetTopStackFrame(cx)); if (!args) return JS_FALSE; nargv[0] = OBJECT_TO_JSVAL(obj); nargv[1] = OBJECT_TO_JSVAL(args); return js_InternalCall(cx, callee, fval, 3, nargv, rval); } if (JSVAL_IS_OBJECT(fval) && JSVAL_TO_OBJECT(fval) != callee) { argv[-2] = fval; ok = js_Call(cx, obj, argc, argv, rval); argv[-2] = OBJECT_TO_JSVAL(callee); return ok; } #endif js_ReportIsNotFunction(cx, &argv[-2], js_GetTopStackFrame(cx)->flags & JSFRAME_ITERATOR); return JS_FALSE; } return clasp->call(cx, obj, argc, argv, rval); } JSBool js_Construct(JSContext *cx, JSObject *obj, uintN argc, jsval *argv, jsval *rval) { JSClass *clasp; clasp = JSVAL_TO_OBJECT(argv[-2])->getClass(); if (!clasp->construct) { #ifdef NARCISSUS JSObject *callee, *args; jsval cval, nargv[2]; JSBool ok; callee = JSVAL_TO_OBJECT(argv[-2]); if (!callee->getProperty(cx, ATOM_TO_JSID(cx->runtime->atomState.__construct__Atom), &cval)) { return JS_FALSE; } if (VALUE_IS_FUNCTION(cx, cval)) { if (!GetCurrentExecutionContext(cx, obj, &nargv[1])) return JS_FALSE; args = js_GetArgsObject(cx, js_GetTopStackFrame(cx)); if (!args) return JS_FALSE; nargv[0] = OBJECT_TO_JSVAL(args); return js_InternalCall(cx, callee, cval, 2, nargv, rval); } if (JSVAL_IS_OBJECT(cval) && JSVAL_TO_OBJECT(cval) != callee) { argv[-2] = cval; ok = js_Call(cx, obj, argc, argv, rval); argv[-2] = OBJECT_TO_JSVAL(callee); return ok; } #endif js_ReportIsNotFunction(cx, &argv[-2], JSV2F_CONSTRUCT); return JS_FALSE; } return clasp->construct(cx, obj, argc, argv, rval); } JSBool js_HasInstance(JSContext *cx, JSObject *obj, jsval v, JSBool *bp) { JSClass *clasp; clasp = obj->getClass(); if (clasp->hasInstance) return clasp->hasInstance(cx, obj, v, bp); #ifdef NARCISSUS { jsval fval, rval; if (!obj->getProperty(cx, ATOM_TO_JSID(cx->runtime->atomState.__hasInstance__Atom), &fval)) return JS_FALSE; if (VALUE_IS_FUNCTION(cx, fval)) { if (!js_InternalCall(cx, obj, fval, 1, &v, &rval)) return JS_FALSE; *bp = js_ValueToBoolean(rval); return JS_TRUE; } } #endif js_ReportValueError(cx, JSMSG_BAD_INSTANCEOF_RHS, JSDVG_SEARCH_STACK, OBJECT_TO_JSVAL(obj), NULL); return JS_FALSE; } JSBool js_IsDelegate(JSContext *cx, JSObject *obj, jsval v, JSBool *bp) { JSObject *obj2; *bp = JS_FALSE; if (JSVAL_IS_PRIMITIVE(v)) return JS_TRUE; obj2 = js_GetWrappedObject(cx, JSVAL_TO_OBJECT(v)); while ((obj2 = obj2->getProto()) != NULL) { if (obj2 == obj) { *bp = JS_TRUE; break; } } return JS_TRUE; } JSBool js_GetClassPrototype(JSContext *cx, JSObject *scope, JSProtoKey protoKey, JSObject **protop, JSClass *clasp) { VOUCH_DOES_NOT_REQUIRE_STACK(); JS_ASSERT(JSProto_Null <= protoKey); JS_ASSERT(protoKey < JSProto_LIMIT); /* Query cache. */ JSClassProtoCache::GlobalAndProto *cacheEntry = NULL; if (protoKey != JSProto_Null) { if (!scope) { if (cx->fp) scope = cx->fp->scopeChain; if (!scope) { scope = cx->globalObject; if (!scope) { *protop = NULL; return true; } } } while (JSObject *tmp = scope->getParent()) scope = tmp; JS_STATIC_ASSERT(JSProto_Null == 0); JS_STATIC_ASSERT(JSProto_Object == 1); cacheEntry = &cx->classProtoCache.entries[protoKey - JSProto_Object]; PROTO_CACHE_METER(cx, probe); if (cacheEntry->global == scope) { JS_ASSERT(cacheEntry->proto); PROTO_CACHE_METER(cx, hit); *protop = cacheEntry->proto; return true; } } jsval v; if (!js_FindClassObject(cx, scope, protoKey, &v, clasp)) return JS_FALSE; if (VALUE_IS_FUNCTION(cx, v)) { JSObject *ctor = JSVAL_TO_OBJECT(v); if (!ctor->getProperty(cx, ATOM_TO_JSID(cx->runtime->atomState.classPrototypeAtom), &v)) return JS_FALSE; if (!JSVAL_IS_PRIMITIVE(v)) { /* * Set the newborn root in case v is otherwise unreferenced. * It's ok to overwrite newborn roots here, since the getter * called just above could have. Unlike the common GC rooting * model, our callers do not have to protect protop thanks to * this newborn root, since they all immediately create a new * instance that delegates to this object, or just query the * prototype for its class. */ cx->weakRoots.finalizableNewborns[FINALIZE_OBJECT] = JSVAL_TO_OBJECT(v); if (cacheEntry) { cacheEntry->global = scope; cacheEntry->proto = JSVAL_TO_OBJECT(v); } } } *protop = JSVAL_IS_OBJECT(v) ? JSVAL_TO_OBJECT(v) : NULL; return JS_TRUE; } /* * For shared precompilation of function objects, we support cloning on entry * to an execution context in which the function declaration or expression * should be processed as if it were not precompiled, where the precompiled * function's scope chain does not match the execution context's. The cloned * function object carries its execution-context scope in its parent slot; it * links to the precompiled function (the "clone-parent") via its proto slot. * * Note that this prototype-based delegation leaves an unchecked access path * from the clone to the clone-parent's 'constructor' property. If the clone * lives in a less privileged or shared scope than the clone-parent, this is * a security hole, a sharing hazard, or both. Therefore we check all such * accesses with the following getter/setter pair, which we use when defining * 'constructor' in f.prototype for all function objects f. */ static JSBool CheckCtorGetAccess(JSContext *cx, JSObject *obj, jsval id, jsval *vp) { JSAtom *atom; uintN attrs; atom = cx->runtime->atomState.constructorAtom; JS_ASSERT(id == ATOM_TO_JSID(atom)); return obj->checkAccess(cx, ATOM_TO_JSID(atom), JSACC_READ, vp, &attrs); } static JSBool CheckCtorSetAccess(JSContext *cx, JSObject *obj, jsval id, jsval *vp) { JSAtom *atom; uintN attrs; atom = cx->runtime->atomState.constructorAtom; JS_ASSERT(id == ATOM_TO_JSID(atom)); return obj->checkAccess(cx, ATOM_TO_JSID(atom), JSACC_WRITE, vp, &attrs); } JSBool js_SetClassPrototype(JSContext *cx, JSObject *ctor, JSObject *proto, uintN attrs) { /* * Use the given attributes for the prototype property of the constructor, * as user-defined constructors have a DontDelete prototype (which may be * reset), while native or "system" constructors have DontEnum | ReadOnly | * DontDelete. */ if (!ctor->defineProperty(cx, ATOM_TO_JSID(cx->runtime->atomState.classPrototypeAtom), OBJECT_TO_JSVAL(proto), JS_PropertyStub, JS_PropertyStub, attrs)) { return JS_FALSE; } /* * ECMA says that Object.prototype.constructor, or f.prototype.constructor * for a user-defined function f, is DontEnum. */ return proto->defineProperty(cx, ATOM_TO_JSID(cx->runtime->atomState.constructorAtom), OBJECT_TO_JSVAL(ctor), CheckCtorGetAccess, CheckCtorSetAccess, 0); } JSBool js_PrimitiveToObject(JSContext *cx, jsval *vp) { JSClass *clasp; JSObject *obj; /* Table to map primitive value's tag into the corresponding class. */ JS_STATIC_ASSERT(JSVAL_INT == 1); JS_STATIC_ASSERT(JSVAL_DOUBLE == 2); JS_STATIC_ASSERT(JSVAL_STRING == 4); JS_STATIC_ASSERT(JSVAL_SPECIAL == 6); static JSClass *const PrimitiveClasses[] = { &js_NumberClass, /* INT */ &js_NumberClass, /* DOUBLE */ &js_NumberClass, /* INT */ &js_StringClass, /* STRING */ &js_NumberClass, /* INT */ &js_BooleanClass, /* BOOLEAN */ &js_NumberClass /* INT */ }; JS_ASSERT(!JSVAL_IS_OBJECT(*vp)); JS_ASSERT(!JSVAL_IS_VOID(*vp)); clasp = PrimitiveClasses[JSVAL_TAG(*vp) - 1]; obj = NewObject(cx, clasp, NULL, NULL); if (!obj) return JS_FALSE; obj->setPrimitiveThis(*vp); *vp = OBJECT_TO_JSVAL(obj); return JS_TRUE; } JSBool js_ValueToObject(JSContext *cx, jsval v, JSObject **objp) { JSObject *obj; if (JSVAL_IS_OBJECT(v)) { obj = JSVAL_TO_OBJECT(v); } else if (JSVAL_IS_VOID(v)) { obj = NULL; } else { if (!js_PrimitiveToObject(cx, &v)) return JS_FALSE; obj = JSVAL_TO_OBJECT(v); } *objp = obj; return JS_TRUE; } JSObject * js_ValueToNonNullObject(JSContext *cx, jsval v) { JSObject *obj; if (!js_ValueToObject(cx, v, &obj)) return NULL; if (!obj) js_ReportIsNullOrUndefined(cx, JSDVG_SEARCH_STACK, v, NULL); return obj; } JSBool js_TryValueOf(JSContext *cx, JSObject *obj, JSType type, jsval *rval) { jsval argv[1]; argv[0] = ATOM_KEY(cx->runtime->atomState.typeAtoms[type]); return js_TryMethod(cx, obj, cx->runtime->atomState.valueOfAtom, 1, argv, rval); } JSBool js_TryMethod(JSContext *cx, JSObject *obj, JSAtom *atom, uintN argc, jsval *argv, jsval *rval) { JSErrorReporter older; jsid id; jsval fval; JSBool ok; JS_CHECK_RECURSION(cx, return JS_FALSE); /* * Report failure only if an appropriate method was found, and calling it * returned failure. We propagate failure in this case to make exceptions * behave properly. */ older = JS_SetErrorReporter(cx, NULL); id = ATOM_TO_JSID(atom); fval = JSVAL_VOID; ok = js_GetMethod(cx, obj, id, JSGET_NO_METHOD_BARRIER, &fval); JS_SetErrorReporter(cx, older); if (!ok) return false; if (JSVAL_IS_PRIMITIVE(fval)) return JS_TRUE; return js_InternalCall(cx, obj, fval, argc, argv, rval); } #if JS_HAS_XDR JSBool js_XDRObject(JSXDRState *xdr, JSObject **objp) { JSContext *cx; JSAtom *atom; JSClass *clasp; uint32 classId, classDef; JSProtoKey protoKey; JSObject *proto; cx = xdr->cx; atom = NULL; if (xdr->mode == JSXDR_ENCODE) { clasp = (*objp)->getClass(); classId = JS_XDRFindClassIdByName(xdr, clasp->name); classDef = !classId; if (classDef) { if (!JS_XDRRegisterClass(xdr, clasp, &classId)) return JS_FALSE; protoKey = JSCLASS_CACHED_PROTO_KEY(clasp); if (protoKey != JSProto_Null) { classDef |= (protoKey << 1); } else { atom = js_Atomize(cx, clasp->name, strlen(clasp->name), 0); if (!atom) return JS_FALSE; } } } else { clasp = NULL; /* quell GCC overwarning */ classDef = 0; } /* * XDR a flag word, which could be 0 for a class use, in which case no * name follows, only the id in xdr's class registry; 1 for a class def, * in which case the flag word is followed by the class name transferred * from or to atom; or a value greater than 1, an odd number that when * divided by two yields the JSProtoKey for class. In the last case, as * in the 0 classDef case, no name is transferred via atom. */ if (!JS_XDRUint32(xdr, &classDef)) return JS_FALSE; if (classDef == 1 && !js_XDRStringAtom(xdr, &atom)) return JS_FALSE; if (!JS_XDRUint32(xdr, &classId)) return JS_FALSE; if (xdr->mode == JSXDR_DECODE) { if (classDef) { /* NB: we know that JSProto_Null is 0 here, for backward compat. */ protoKey = (JSProtoKey) (classDef >> 1); if (!js_GetClassPrototype(cx, NULL, protoKey, &proto, clasp)) return JS_FALSE; clasp = proto->getClass(); if (!JS_XDRRegisterClass(xdr, clasp, &classId)) return JS_FALSE; } else { clasp = JS_XDRFindClassById(xdr, classId); if (!clasp) { char numBuf[12]; JS_snprintf(numBuf, sizeof numBuf, "%ld", (long)classId); JS_ReportErrorNumber(cx, js_GetErrorMessage, NULL, JSMSG_CANT_FIND_CLASS, numBuf); return JS_FALSE; } } } if (!clasp->xdrObject) { JS_ReportErrorNumber(cx, js_GetErrorMessage, NULL, JSMSG_CANT_XDR_CLASS, clasp->name); return JS_FALSE; } return clasp->xdrObject(xdr, objp); } #endif /* JS_HAS_XDR */ #ifdef JS_DUMP_SCOPE_METERS #include JSBasicStats js_entry_count_bs = JS_INIT_STATIC_BASIC_STATS; static void MeterEntryCount(uintN count) { JS_BASIC_STATS_ACCUM(&js_entry_count_bs, count); } void js_DumpScopeMeters(JSRuntime *rt) { static FILE *logfp; if (!logfp) logfp = fopen("/tmp/scope.stats", "a"); { double mean, sigma; mean = JS_MeanAndStdDevBS(&js_entry_count_bs, &sigma); fprintf(logfp, "scopes %u entries %g mean %g sigma %g max %u", js_entry_count_bs.num, js_entry_count_bs.sum, mean, sigma, js_entry_count_bs.max); } JS_DumpHistogram(&js_entry_count_bs, logfp); JS_BASIC_STATS_INIT(&js_entry_count_bs); fflush(logfp); } #endif #ifdef DEBUG void js_PrintObjectSlotName(JSTracer *trc, char *buf, size_t bufsize) { JS_ASSERT(trc->debugPrinter == js_PrintObjectSlotName); JSObject *obj = (JSObject *)trc->debugPrintArg; uint32 slot = (uint32)trc->debugPrintIndex; JS_ASSERT(slot >= JSSLOT_START(obj->getClass())); JSScopeProperty *sprop; if (obj->isNative()) { JSScope *scope = obj->scope(); sprop = scope->lastProperty(); while (sprop && sprop->slot != slot) sprop = sprop->parent; } else { sprop = NULL; } if (!sprop) { const char *slotname = NULL; JSClass *clasp = obj->getClass(); if (clasp->flags & JSCLASS_IS_GLOBAL) { uint32 key = slot - JSSLOT_START(clasp); #define JS_PROTO(name,code,init) \ if ((code) == key) { slotname = js_##name##_str; goto found; } #include "jsproto.tbl" #undef JS_PROTO } found: if (slotname) JS_snprintf(buf, bufsize, "CLASS_OBJECT(%s)", slotname); else JS_snprintf(buf, bufsize, "**UNKNOWN SLOT %ld**", (long)slot); } else { jsval nval = ID_TO_VALUE(sprop->id); if (JSVAL_IS_INT(nval)) { JS_snprintf(buf, bufsize, "%ld", (long)JSVAL_TO_INT(nval)); } else if (JSVAL_IS_STRING(nval)) { js_PutEscapedString(buf, bufsize, JSVAL_TO_STRING(nval), 0); } else { JS_snprintf(buf, bufsize, "**FINALIZED ATOM KEY**"); } } } #endif void js_TraceObject(JSTracer *trc, JSObject *obj) { JS_ASSERT(obj->isNative()); JSContext *cx = trc->context; JSScope *scope = obj->scope(); if (!scope->isSharedEmpty() && IS_GC_MARKING_TRACER(trc)) { /* * Check whether we should shrink the object's slots. Skip this check * if the scope is shared, since for Block objects and flat closures * that share their scope, scope->freeslot can be an underestimate. */ size_t slots = scope->freeslot; if (obj->numSlots() != slots) js_ShrinkSlots(cx, obj, slots); } #ifdef JS_DUMP_SCOPE_METERS MeterEntryCount(scope->entryCount); #endif scope->trace(trc); if (!JS_CLIST_IS_EMPTY(&cx->runtime->watchPointList)) js_TraceWatchPoints(trc, obj); /* No one runs while the GC is running, so we can use LOCKED_... here. */ JSClass *clasp = obj->getClass(); if (clasp->mark) { if (clasp->flags & JSCLASS_MARK_IS_TRACE) ((JSTraceOp) clasp->mark)(trc, obj); else if (IS_GC_MARKING_TRACER(trc)) (void) clasp->mark(cx, obj, trc); } obj->traceProtoAndParent(trc); /* * An unmutated object that shares a prototype object's scope. We can't * tell how many slots are in use in obj by looking at its scope, so we * use obj->numSlots(). * * NB: In case clasp->mark mutates something, leave this code here -- * don't move it up and unify it with the |if (!traceScope)| section * above. */ uint32 nslots = obj->numSlots(); if (!scope->isSharedEmpty() && scope->freeslot < nslots) nslots = scope->freeslot; JS_ASSERT(nslots >= JSSLOT_START(clasp)); for (uint32 i = JSSLOT_START(clasp); i != nslots; ++i) { jsval v = obj->getSlot(i); if (JSVAL_IS_TRACEABLE(v)) { JS_SET_TRACING_DETAILS(trc, js_PrintObjectSlotName, obj, i); js_CallGCMarker(trc, JSVAL_TO_TRACEABLE(v), JSVAL_TRACE_KIND(v)); } } } void js_Clear(JSContext *cx, JSObject *obj) { JSScope *scope; uint32 i, n; /* * Clear our scope and the property cache of all obj's properties only if * obj owns the scope (i.e., not if obj is sharing another object's scope). * NB: we do not clear any reserved slots lying below JSSLOT_FREE(clasp). */ JS_LOCK_OBJ(cx, obj); scope = obj->scope(); if (!scope->isSharedEmpty()) { /* Now that we're done using scope->lastProp/table, clear scope. */ scope->clear(cx); /* Clear slot values and reset freeslot so we're consistent. */ i = obj->numSlots(); n = JSSLOT_FREE(obj->getClass()); while (--i >= n) obj->setSlot(i, JSVAL_VOID); scope->freeslot = n; } JS_UNLOCK_OBJ(cx, obj); } /* On failure the function unlocks the object. */ static bool ReservedSlotIndexOK(JSContext *cx, JSObject *obj, JSClass *clasp, uint32 index, uint32 limit) { JS_ASSERT(JS_IS_OBJ_LOCKED(cx, obj)); /* Check the computed, possibly per-instance, upper bound. */ if (clasp->reserveSlots) limit += clasp->reserveSlots(cx, obj); if (index >= limit) { JS_UNLOCK_OBJ(cx, obj); JS_ReportErrorNumber(cx, js_GetErrorMessage, NULL, JSMSG_RESERVED_SLOT_RANGE); return false; } return true; } bool js_GetReservedSlot(JSContext *cx, JSObject *obj, uint32 index, jsval *vp) { if (!obj->isNative()) { *vp = JSVAL_VOID; return true; } JSClass *clasp = obj->getClass(); uint32 limit = JSCLASS_RESERVED_SLOTS(clasp); JS_LOCK_OBJ(cx, obj); if (index >= limit && !ReservedSlotIndexOK(cx, obj, clasp, index, limit)) return false; uint32 slot = JSSLOT_START(clasp) + index; *vp = (slot < obj->numSlots()) ? obj->getSlot(slot) : JSVAL_VOID; JS_UNLOCK_OBJ(cx, obj); return true; } bool js_SetReservedSlot(JSContext *cx, JSObject *obj, uint32 index, jsval v) { if (!obj->isNative()) return true; JSClass *clasp = obj->getClass(); uint32 limit = JSCLASS_RESERVED_SLOTS(clasp); JS_LOCK_OBJ(cx, obj); if (index >= limit && !ReservedSlotIndexOK(cx, obj, clasp, index, limit)) return false; uint32 slot = JSSLOT_START(clasp) + index; if (slot >= JS_INITIAL_NSLOTS && !obj->dslots) { /* * At this point, obj may or may not own scope, and we may or may not * need to allocate dslots. If scope is shared, scope->freeslot may not * be accurate for obj (see comment below). */ uint32 nslots = JSSLOT_FREE(clasp); if (clasp->reserveSlots) nslots += clasp->reserveSlots(cx, obj); JS_ASSERT(slot < nslots); if (!js_AllocSlots(cx, obj, nslots)) { JS_UNLOCK_OBJ(cx, obj); return false; } } /* * Whether or not we grew nslots, we may need to advance freeslot. * * If scope is shared, do not modify scope->freeslot. It is OK for freeslot * to be an underestimate in objects with shared scopes, as they will get * their own scopes before mutating, and elsewhere (e.g. js_TraceObject) we * use obj->numSlots() rather than rely on freeslot. */ JSScope *scope = obj->scope(); if (!scope->isSharedEmpty() && slot >= scope->freeslot) scope->freeslot = slot + 1; obj->setSlot(slot, v); GC_POKE(cx, JS_NULL); JS_UNLOCK_SCOPE(cx, scope); return true; } JSObject * js_GetWrappedObject(JSContext *cx, JSObject *obj) { JSClass *clasp; clasp = obj->getClass(); if (clasp->flags & JSCLASS_IS_EXTENDED) { JSExtendedClass *xclasp; JSObject *obj2; xclasp = (JSExtendedClass *)clasp; if (xclasp->wrappedObject && (obj2 = xclasp->wrappedObject(cx, obj))) return obj2; } return obj; } JSObject * JSObject::getGlobal() { JSObject *obj = this; while (JSObject *parent = obj->getParent()) obj = parent; return obj; } bool JSObject::isCallable() { if (isNative()) return isFunction() || getClass()->call; return !!map->ops->call; } JSBool js_ReportGetterOnlyAssignment(JSContext *cx) { return JS_ReportErrorFlagsAndNumber(cx, JSREPORT_WARNING | JSREPORT_STRICT | JSREPORT_STRICT_MODE_ERROR, js_GetErrorMessage, NULL, JSMSG_GETTER_ONLY); } JS_FRIEND_API(JSBool) js_GetterOnlyPropertyStub(JSContext *cx, JSObject *obj, jsval id, jsval *vp) { JS_ReportErrorNumber(cx, js_GetErrorMessage, NULL, JSMSG_GETTER_ONLY); return JS_FALSE; } #ifdef DEBUG /* * Routines to print out values during debugging. These are FRIEND_API to help * the debugger find them and to support temporarily hacking js_Dump* calls * into other code. */ void dumpChars(const jschar *s, size_t n) { size_t i; if (n == (size_t) -1) { while (s[++n]) ; } fputc('"', stderr); for (i = 0; i < n; i++) { if (s[i] == '\n') fprintf(stderr, "\\n"); else if (s[i] == '\t') fprintf(stderr, "\\t"); else if (s[i] >= 32 && s[i] < 127) fputc(s[i], stderr); else if (s[i] <= 255) fprintf(stderr, "\\x%02x", (unsigned int) s[i]); else fprintf(stderr, "\\u%04x", (unsigned int) s[i]); } fputc('"', stderr); } JS_FRIEND_API(void) js_DumpChars(const jschar *s, size_t n) { fprintf(stderr, "jschar * (%p) = ", (void *) s); dumpChars(s, n); fputc('\n', stderr); } void dumpString(JSString *str) { dumpChars(str->chars(), str->length()); } JS_FRIEND_API(void) js_DumpString(JSString *str) { fprintf(stderr, "JSString* (%p) = jschar * (%p) = ", (void *) str, (void *) str->chars()); dumpString(str); fputc('\n', stderr); } JS_FRIEND_API(void) js_DumpAtom(JSAtom *atom) { fprintf(stderr, "JSAtom* (%p) = ", (void *) atom); js_DumpValue(ATOM_KEY(atom)); } void dumpValue(jsval val) { if (JSVAL_IS_NULL(val)) { fprintf(stderr, "null"); } else if (JSVAL_IS_VOID(val)) { fprintf(stderr, "undefined"); } else if (JSVAL_IS_OBJECT(val) && JSVAL_TO_OBJECT(val)->isFunction()) { JSObject *funobj = JSVAL_TO_OBJECT(val); JSFunction *fun = GET_FUNCTION_PRIVATE(cx, funobj); fprintf(stderr, "<%s %s at %p (JSFunction at %p)>", fun->atom ? "function" : "unnamed", fun->atom ? JS_GetStringBytes(ATOM_TO_STRING(fun->atom)) : "function", (void *) funobj, (void *) fun); } else if (JSVAL_IS_OBJECT(val)) { JSObject *obj = JSVAL_TO_OBJECT(val); JSClass *cls = obj->getClass(); fprintf(stderr, "<%s%s at %p>", cls->name, cls == &js_ObjectClass ? "" : " object", (void *) obj); } else if (JSVAL_IS_INT(val)) { fprintf(stderr, "%d", JSVAL_TO_INT(val)); } else if (JSVAL_IS_STRING(val)) { dumpString(JSVAL_TO_STRING(val)); } else if (JSVAL_IS_DOUBLE(val)) { fprintf(stderr, "%g", *JSVAL_TO_DOUBLE(val)); } else if (val == JSVAL_TRUE) { fprintf(stderr, "true"); } else if (val == JSVAL_FALSE) { fprintf(stderr, "false"); } else if (val == JSVAL_HOLE) { fprintf(stderr, "hole"); } else { /* jsvals are pointer-sized, and %p is portable */ fprintf(stderr, "unrecognized jsval %p", (void *) val); } } JS_FRIEND_API(void) js_DumpValue(jsval val) { fprintf(stderr, "jsval %p = ", (void *) val); dumpValue(val); fputc('\n', stderr); } JS_FRIEND_API(void) js_DumpId(jsid id) { fprintf(stderr, "jsid %p = ", (void *) id); dumpValue(ID_TO_VALUE(id)); fputc('\n', stderr); } static void dumpScopeProp(JSScopeProperty *sprop) { jsid id = sprop->id; uint8 attrs = sprop->attributes(); fprintf(stderr, " "); if (attrs & JSPROP_ENUMERATE) fprintf(stderr, "enumerate "); if (attrs & JSPROP_READONLY) fprintf(stderr, "readonly "); if (attrs & JSPROP_PERMANENT) fprintf(stderr, "permanent "); if (attrs & JSPROP_GETTER) fprintf(stderr, "getter "); if (attrs & JSPROP_SETTER) fprintf(stderr, "setter "); if (attrs & JSPROP_SHARED) fprintf(stderr, "shared "); if (sprop->isAlias()) fprintf(stderr, "alias "); if (JSID_IS_ATOM(id)) dumpString(JSVAL_TO_STRING(ID_TO_VALUE(id))); else if (JSID_IS_INT(id)) fprintf(stderr, "%d", (int) JSID_TO_INT(id)); else fprintf(stderr, "unknown jsid %p", (void *) id); fprintf(stderr, ": slot %d", sprop->slot); fprintf(stderr, "\n"); } JS_FRIEND_API(void) js_DumpObject(JSObject *obj) { uint32 i, slots; JSClass *clasp; jsuint reservedEnd; fprintf(stderr, "object %p\n", (void *) obj); clasp = obj->getClass(); fprintf(stderr, "class %p %s\n", (void *)clasp, clasp->name); if (obj->isDenseArray()) { slots = JS_MIN(obj->getArrayLength(), js_DenseArrayCapacity(obj)); fprintf(stderr, "elements\n"); for (i = 0; i < slots; i++) { fprintf(stderr, " %3d: ", i); dumpValue(obj->dslots[i]); fprintf(stderr, "\n"); fflush(stderr); } return; } if (obj->isNative()) { JSScope *scope = obj->scope(); if (scope->sealed()) fprintf(stderr, "sealed\n"); fprintf(stderr, "properties:\n"); for (JSScopeProperty *sprop = scope->lastProperty(); sprop; sprop = sprop->parent) { dumpScopeProp(sprop); } } else { if (!obj->isNative()) fprintf(stderr, "not native\n"); } fprintf(stderr, "proto "); dumpValue(OBJECT_TO_JSVAL(obj->getProto())); fputc('\n', stderr); fprintf(stderr, "parent "); dumpValue(OBJECT_TO_JSVAL(obj->getParent())); fputc('\n', stderr); i = JSSLOT_PRIVATE; if (clasp->flags & JSCLASS_HAS_PRIVATE) { i = JSSLOT_PRIVATE + 1; fprintf(stderr, "private %p\n", obj->getPrivate()); } fprintf(stderr, "slots:\n"); reservedEnd = i + JSCLASS_RESERVED_SLOTS(clasp); slots = (obj->isNative() && !obj->scope()->isSharedEmpty()) ? obj->scope()->freeslot : obj->numSlots(); for (; i < slots; i++) { fprintf(stderr, " %3d ", i); if (i < reservedEnd) fprintf(stderr, "(reserved) "); fprintf(stderr, "= "); dumpValue(obj->getSlot(i)); fputc('\n', stderr); } fputc('\n', stderr); } static void MaybeDumpObject(const char *name, JSObject *obj) { if (obj) { fprintf(stderr, " %s: ", name); dumpValue(OBJECT_TO_JSVAL(obj)); fputc('\n', stderr); } } static void MaybeDumpValue(const char *name, jsval v) { if (!JSVAL_IS_NULL(v)) { fprintf(stderr, " %s: ", name); dumpValue(v); fputc('\n', stderr); } } JS_FRIEND_API(void) js_DumpStackFrame(JSStackFrame *fp) { jsval *sp = NULL; for (; fp; fp = fp->down) { fprintf(stderr, "JSStackFrame at %p\n", (void *) fp); if (fp->argv) dumpValue(fp->argv[-2]); else fprintf(stderr, "global frame, no callee"); fputc('\n', stderr); if (fp->script) fprintf(stderr, "file %s line %u\n", fp->script->filename, (unsigned) fp->script->lineno); if (fp->regs) { if (!fp->regs->pc) { fprintf(stderr, "*** regs && !regs->pc, skipping frame\n\n"); continue; } if (!fp->script) { fprintf(stderr, "*** regs && !script, skipping frame\n\n"); continue; } jsbytecode *pc = fp->regs->pc; sp = fp->regs->sp; if (fp->imacpc) { fprintf(stderr, " pc in imacro at %p\n called from ", pc); pc = fp->imacpc; } else { fprintf(stderr, " "); } fprintf(stderr, "pc = %p\n", pc); fprintf(stderr, " current op: %s\n", js_CodeName[*pc]); } if (sp && fp->slots) { fprintf(stderr, " slots: %p\n", (void *) fp->slots); fprintf(stderr, " sp: %p = slots + %u\n", (void *) sp, (unsigned) (sp - fp->slots)); if (sp - fp->slots < 10000) { // sanity for (jsval *p = fp->slots; p < sp; p++) { fprintf(stderr, " %p: ", (void *) p); dumpValue(*p); fputc('\n', stderr); } } } else { fprintf(stderr, " sp: %p\n", (void *) sp); fprintf(stderr, " slots: %p\n", (void *) fp->slots); } fprintf(stderr, " argv: %p (argc: %u)\n", (void *) fp->argv, (unsigned) fp->argc); MaybeDumpObject("callobj", fp->callobj); MaybeDumpObject("argsobj", JSVAL_TO_OBJECT(fp->argsobj)); MaybeDumpValue("this", fp->thisv); fprintf(stderr, " rval: "); dumpValue(fp->rval); fputc('\n', stderr); fprintf(stderr, " flags:"); if (fp->flags == 0) fprintf(stderr, " none"); if (fp->flags & JSFRAME_CONSTRUCTING) fprintf(stderr, " constructing"); if (fp->flags & JSFRAME_COMPUTED_THIS) fprintf(stderr, " computed_this"); if (fp->flags & JSFRAME_ASSIGNING) fprintf(stderr, " assigning"); if (fp->flags & JSFRAME_DEBUGGER) fprintf(stderr, " debugger"); if (fp->flags & JSFRAME_EVAL) fprintf(stderr, " eval"); if (fp->flags & JSFRAME_ROOTED_ARGV) fprintf(stderr, " rooted_argv"); if (fp->flags & JSFRAME_YIELDING) fprintf(stderr, " yielding"); if (fp->flags & JSFRAME_ITERATOR) fprintf(stderr, " iterator"); if (fp->flags & JSFRAME_GENERATOR) fprintf(stderr, " generator"); if (fp->flags & JSFRAME_OVERRIDE_ARGS) fprintf(stderr, " overridden_args"); fputc('\n', stderr); if (fp->scopeChain) fprintf(stderr, " scopeChain: (JSObject *) %p\n", (void *) fp->scopeChain); if (fp->blockChain) fprintf(stderr, " blockChain: (JSObject *) %p\n", (void *) fp->blockChain); if (fp->displaySave) fprintf(stderr, " displaySave: (JSStackFrame *) %p\n", (void *) fp->displaySave); fputc('\n', stderr); } } #endif