/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*- * vim: set ts=8 sw=4 et tw=78: * * ***** BEGIN LICENSE BLOCK ***** * Version: MPL 1.1/GPL 2.0/LGPL 2.1 * * The contents of this file are subject to the Mozilla Public License Version * 1.1 (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * http://www.mozilla.org/MPL/ * * Software distributed under the License is distributed on an "AS IS" basis, * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License * for the specific language governing rights and limitations under the * License. * * The Original Code is Mozilla Communicator client code, released * March 31, 1998. * * The Initial Developer of the Original Code is * Netscape Communications Corporation. * Portions created by the Initial Developer are Copyright (C) 1998 * the Initial Developer. All Rights Reserved. * * Contributor(s): * * Alternatively, the contents of this file may be used under the terms of * either of the GNU General Public License Version 2 or later (the "GPL"), * or the GNU Lesser General Public License Version 2.1 or later (the "LGPL"), * in which case the provisions of the GPL or the LGPL are applicable instead * of those above. If you wish to allow use of your version of this file only * under the terms of either the GPL or the LGPL, and not to allow others to * use your version of this file under the terms of the MPL, indicate your * decision by deleting the provisions above and replace them with the notice * and other provisions required by the GPL or the LGPL. If you do not delete * the provisions above, a recipient may use your version of this file under * the terms of any one of the MPL, the GPL or the LGPL. * * ***** END LICENSE BLOCK ***** */ /* * JS symbol tables. */ #include #include #include #include "jstypes.h" #include "jsstdint.h" #include "jsarena.h" #include "jsbit.h" #include "jsclist.h" #include "jsdhash.h" #include "jsutil.h" /* Added by JSIFY */ #include "jsapi.h" #include "jsatom.h" #include "jscntxt.h" #include "jsdbgapi.h" #include "jsfun.h" /* for JS_ARGS_LENGTH_MAX */ #include "jslock.h" #include "jsnum.h" #include "jsobj.h" #include "jsscope.h" #include "jsstr.h" #include "jstracer.h" #include "jsobjinlines.h" #include "jsscopeinlines.h" using namespace js; uint32 js_GenerateShape(JSContext *cx, bool gcLocked) { JSRuntime *rt; uint32 shape; rt = cx->runtime; shape = JS_ATOMIC_INCREMENT(&rt->shapeGen); JS_ASSERT(shape != 0); if (shape >= SHAPE_OVERFLOW_BIT) { /* * FIXME bug 440834: The shape id space has overflowed. Currently we * cope badly with this and schedule the GC on the every call. But * first we make sure that increments from other threads would not * have a chance to wrap around shapeGen to zero. */ rt->shapeGen = SHAPE_OVERFLOW_BIT; shape = SHAPE_OVERFLOW_BIT; js_TriggerGC(cx, gcLocked); } return shape; } JSScope * js_GetMutableScope(JSContext *cx, JSObject *obj) { JSScope *scope = obj->scope(); JS_ASSERT(JS_IS_SCOPE_LOCKED(cx, scope)); if (!scope->isSharedEmpty()) return scope; JSScope *newscope = JSScope::create(cx, obj->getClass(), obj, scope->shape); if (!newscope) return NULL; /* The newly allocated scope is single-threaded and, as such, is locked. */ JS_ASSERT(CX_OWNS_SCOPE_TITLE(cx, newscope)); JS_ASSERT(JS_IS_SCOPE_LOCKED(cx, newscope)); obj->map = newscope; /* * Subtle dependency on objects that call js_EnsureReservedSlots either: * (a) never escaping anywhere an ad-hoc property could be set on them; * (b) having at least JSSLOT_FREE(obj->getClass()) >= JS_INITIAL_NSLOTS. * Note that (b) depends on fine-tuning of JS_INITIAL_NSLOTS (5). * * Block objects fall into (a); Argument, Call, and Function objects (flat * closures only) fall into (b). All of this goes away soon (FIXME 558451). */ JS_ASSERT(newscope->freeslot >= JSSLOT_START(obj->getClass()) && newscope->freeslot <= JSSLOT_FREE(obj->getClass())); newscope->freeslot = JSSLOT_FREE(obj->getClass()); uint32 nslots = obj->numSlots(); if (newscope->freeslot > nslots && !obj->allocSlots(cx, newscope->freeslot)) { newscope->destroy(cx); obj->map = scope; return NULL; } if (nslots > JS_INITIAL_NSLOTS && nslots > newscope->freeslot) newscope->freeslot = nslots; #ifdef DEBUG if (newscope->freeslot < nslots) obj->setSlot(newscope->freeslot, UndefinedValue()); #endif JS_DROP_ALL_EMPTY_SCOPE_LOCKS(cx, scope); static_cast(scope)->drop(cx); return newscope; } /* * JSScope uses multiplicative hashing, _a la_ jsdhash.[ch], but specialized * to minimize footprint. But if a scope has fewer than SCOPE_HASH_THRESHOLD * entries, we use linear search and avoid allocating scope->table. */ #define SCOPE_HASH_THRESHOLD 6 #define MIN_SCOPE_SIZE_LOG2 4 #define MIN_SCOPE_SIZE JS_BIT(MIN_SCOPE_SIZE_LOG2) #define SCOPE_TABLE_NBYTES(n) ((n) * sizeof(JSScopeProperty *)) void JSScope::initMinimal(JSContext *cx, uint32 newShape) { shape = newShape; emptyScope = NULL; hashShift = JS_DHASH_BITS - MIN_SCOPE_SIZE_LOG2; entryCount = removedCount = 0; table = NULL; lastProp = NULL; } #ifdef DEBUG JS_FRIEND_DATA(JSScopeStats) js_scope_stats = {0}; # define METER(x) JS_ATOMIC_INCREMENT(&js_scope_stats.x) #else # define METER(x) /* nothing */ #endif bool JSScope::createTable(JSContext *cx, bool report) { int sizeLog2; JSScopeProperty *sprop, **spp; JS_ASSERT(!table); JS_ASSERT(lastProp); if (entryCount > SCOPE_HASH_THRESHOLD) { /* * Either we're creating a table for a large scope that was populated * via property cache hit logic under JSOP_INITPROP, JSOP_SETNAME, or * JSOP_SETPROP; or else calloc failed at least once already. In any * event, let's try to grow, overallocating to hold at least twice the * current population. */ sizeLog2 = JS_CeilingLog2(2 * entryCount); hashShift = JS_DHASH_BITS - sizeLog2; } else { JS_ASSERT(hashShift == JS_DHASH_BITS - MIN_SCOPE_SIZE_LOG2); sizeLog2 = MIN_SCOPE_SIZE_LOG2; } table = (JSScopeProperty **) js_calloc(JS_BIT(sizeLog2) * sizeof(JSScopeProperty *)); if (!table) { if (report) JS_ReportOutOfMemory(cx); METER(tableAllocFails); return false; } cx->updateMallocCounter(JS_BIT(sizeLog2) * sizeof(JSScopeProperty *)); hashShift = JS_DHASH_BITS - sizeLog2; for (sprop = lastProp; sprop; sprop = sprop->parent) { spp = search(sprop->id, true); SPROP_STORE_PRESERVING_COLLISION(spp, sprop); } return true; } JSScope * JSScope::create(JSContext *cx, Class *clasp, JSObject *obj, uint32 shape) { JS_ASSERT(obj); JSScope *scope = cx->create(obj); if (!scope) return NULL; scope->freeslot = JSSLOT_START(clasp); scope->flags = cx->runtime->gcRegenShapesScopeFlag; scope->initMinimal(cx, shape); #ifdef JS_THREADSAFE js_InitTitle(cx, &scope->title); #endif JS_RUNTIME_METER(cx->runtime, liveScopes); JS_RUNTIME_METER(cx->runtime, totalScopes); return scope; } JSEmptyScope::JSEmptyScope(JSContext *cx, Class *clasp) : JSScope(NULL), clasp(clasp) { /* * This scope holds a reference to the new empty scope. Our only caller, * getEmptyScope, also promises to incref on behalf of its caller. */ nrefs = 2; freeslot = JSSLOT_START(clasp); flags = OWN_SHAPE | cx->runtime->gcRegenShapesScopeFlag; initMinimal(cx, js_GenerateShape(cx, false)); #ifdef JS_THREADSAFE js_InitTitle(cx, &title); #endif JS_RUNTIME_METER(cx->runtime, liveScopes); JS_RUNTIME_METER(cx->runtime, totalScopes); } #ifdef DEBUG # include "jsprf.h" # define LIVE_SCOPE_METER(cx,expr) JS_LOCK_RUNTIME_VOID(cx->runtime,expr) #else # define LIVE_SCOPE_METER(cx,expr) /* nothing */ #endif void JSScope::destroy(JSContext *cx) { #ifdef JS_THREADSAFE js_FinishTitle(cx, &title); #endif if (table) cx->free(table); /* * The scopes containing empty scopes are only destroyed from the GC * thread. */ if (emptyScope) emptyScope->dropFromGC(cx); LIVE_SCOPE_METER(cx, cx->runtime->liveScopeProps -= entryCount); JS_RUNTIME_UNMETER(cx->runtime, liveScopes); cx->free(this); } /* static */ bool JSScope::initRuntimeState(JSContext *cx) { JSRuntime *rt = cx->runtime; #define SCOPE(Name) rt->empty##Name##Scope #define CLASP(Name) &js_##Name##Class #define INIT_EMPTY_SCOPE(Name,NAME) \ INIT_EMPTY_SCOPE_WITH_CLASS(Name, NAME, CLASP(Name)) #define INIT_EMPTY_SCOPE_WITH_CLASS(Name,NAME,clasp) \ INIT_EMPTY_SCOPE_WITH_FREESLOT(Name, NAME, clasp, JSSLOT_FREE(clasp)) #define INIT_EMPTY_SCOPE_WITH_FREESLOT(Name,NAME,clasp,slot) \ SCOPE(Name) = cx->create(cx, clasp); \ if (!SCOPE(Name)) \ return false; \ JS_ASSERT(SCOPE(Name)->shape == JSScope::EMPTY_##NAME##_SHAPE); \ JS_ASSERT(SCOPE(Name)->nrefs == 2); \ SCOPE(Name)->nrefs = 1; \ SCOPE(Name)->freeslot = slot /* * NewArguments allocates dslots to have enough room for the argc of the * particular arguments object being created. * * Thus we fake freeslot in the shared empty scope for the many unmutated * arguments objects so that, until and unless a scope property is defined * on a particular arguments object, it can share the runtime-wide empty * scope with other arguments objects, whatever their initial argc values. * * This allows assertions that the arg slot being got or set by a fast path * is less than freeslot to succeed. As the shared emptyArgumentsScope is * never mutated, it's safe to pretend to have all the slots possible. * * Note how the fast paths in jsinterp.cpp for JSOP_LENGTH and JSOP_GETELEM * bypass resolution of scope properties for length and element indices on * arguments objects. This helps ensure that any arguments object needing * its own mutable scope (with unique shape) is a rare event. */ INIT_EMPTY_SCOPE_WITH_FREESLOT(Arguments, ARGUMENTS, CLASP(Arguments), JS_INITIAL_NSLOTS + JS_ARGS_LENGTH_MAX); INIT_EMPTY_SCOPE(Block, BLOCK); /* * Initialize the shared scope for all empty Call objects so gets for args * and vars do not force the creation of a mutable scope for the particular * call object being accessed. * * See comment above for rt->emptyArgumentsScope->freeslot initialization. */ INIT_EMPTY_SCOPE_WITH_FREESLOT(Call, CALL, CLASP(Call), JS_INITIAL_NSLOTS + JSFunction::MAX_ARGS_AND_VARS); /* A DeclEnv object holds the name binding for a named function expression. */ INIT_EMPTY_SCOPE(DeclEnv, DECL_ENV); /* Non-escaping native enumerator objects share this empty scope. */ INIT_EMPTY_SCOPE_WITH_CLASS(Enumerator, ENUMERATOR, &js_IteratorClass); /* Same drill for With objects. */ INIT_EMPTY_SCOPE_WITH_CLASS(With, WITH, &js_WithClass); #undef SCOPE #undef CLASP #undef INIT_EMPTY_SCOPE #undef INIT_EMPTY_SCOPE_WITH_CLASS #undef INIT_EMPTY_SCOPE_WITH_FREESLOT return true; } /* static */ void JSScope::finishRuntimeState(JSContext *cx) { JSRuntime *rt = cx->runtime; #define FINISH_EMPTY_SCOPE(Name) \ if (rt->empty##Name##Scope) { \ rt->empty##Name##Scope->drop(cx); \ rt->empty##Name##Scope = NULL; \ } /* Mnemonic: ABCDEW */ FINISH_EMPTY_SCOPE(Arguments); FINISH_EMPTY_SCOPE(Block); FINISH_EMPTY_SCOPE(Call); FINISH_EMPTY_SCOPE(DeclEnv); FINISH_EMPTY_SCOPE(Enumerator); FINISH_EMPTY_SCOPE(With); #undef FINISH_EMPTY_SCOPE } JS_STATIC_ASSERT(sizeof(JSHashNumber) == 4); JS_STATIC_ASSERT(sizeof(jsid) == JS_BYTES_PER_WORD); #if JS_BYTES_PER_WORD == 4 # define HASH_ID(id) ((JSHashNumber)(JSID_BITS(id))) #elif JS_BYTES_PER_WORD == 8 # define HASH_ID(id) ((JSHashNumber)(JSID_BITS(id)) ^ (JSHashNumber)((JSID_BITS(id)) >> 32)) #else # error "Unsupported configuration" #endif /* * Double hashing needs the second hash code to be relatively prime to table * size, so we simply make hash2 odd. The inputs to multiplicative hash are * the golden ratio, expressed as a fixed-point 32 bit fraction, and the id * itself. */ #define SCOPE_HASH0(id) (HASH_ID(id) * JS_GOLDEN_RATIO) #define SCOPE_HASH1(hash0,shift) ((hash0) >> (shift)) #define SCOPE_HASH2(hash0,log2,shift) ((((hash0) << (log2)) >> (shift)) | 1) JSScopeProperty ** JSScope::searchTable(jsid id, bool adding) { JSHashNumber hash0, hash1, hash2; int sizeLog2; JSScopeProperty *stored, *sprop, **spp, **firstRemoved; uint32 sizeMask; JS_ASSERT(table); JS_ASSERT(!JSID_IS_VOID(id)); /* Compute the primary hash address. */ METER(hashes); hash0 = SCOPE_HASH0(id); hash1 = SCOPE_HASH1(hash0, hashShift); spp = table + hash1; /* Miss: return space for a new entry. */ stored = *spp; if (SPROP_IS_FREE(stored)) { METER(misses); return spp; } /* Hit: return entry. */ sprop = SPROP_CLEAR_COLLISION(stored); if (sprop && sprop->id == id) { METER(hits); return spp; } /* Collision: double hash. */ sizeLog2 = JS_DHASH_BITS - hashShift; hash2 = SCOPE_HASH2(hash0, sizeLog2, hashShift); sizeMask = JS_BITMASK(sizeLog2); #ifdef DEBUG jsuword collision_flag = SPROP_COLLISION; #endif /* Save the first removed entry pointer so we can recycle it if adding. */ if (SPROP_IS_REMOVED(stored)) { firstRemoved = spp; } else { firstRemoved = NULL; if (adding && !SPROP_HAD_COLLISION(stored)) SPROP_FLAG_COLLISION(spp, sprop); #ifdef DEBUG collision_flag &= jsuword(*spp) & SPROP_COLLISION; #endif } for (;;) { METER(steps); hash1 -= hash2; hash1 &= sizeMask; spp = table + hash1; stored = *spp; if (SPROP_IS_FREE(stored)) { METER(stepMisses); return (adding && firstRemoved) ? firstRemoved : spp; } sprop = SPROP_CLEAR_COLLISION(stored); if (sprop && sprop->id == id) { METER(stepHits); JS_ASSERT(collision_flag); return spp; } if (SPROP_IS_REMOVED(stored)) { if (!firstRemoved) firstRemoved = spp; } else { if (adding && !SPROP_HAD_COLLISION(stored)) SPROP_FLAG_COLLISION(spp, sprop); #ifdef DEBUG collision_flag &= jsuword(*spp) & SPROP_COLLISION; #endif } } /* NOTREACHED */ return NULL; } bool JSScope::changeTable(JSContext *cx, int change) { int oldlog2, newlog2; uint32 oldsize, newsize, nbytes; JSScopeProperty **newtable, **oldtable, **spp, **oldspp, *sprop; if (!table) return createTable(cx, true); /* Grow, shrink, or compress by changing this->table. */ oldlog2 = JS_DHASH_BITS - hashShift; newlog2 = oldlog2 + change; oldsize = JS_BIT(oldlog2); newsize = JS_BIT(newlog2); nbytes = SCOPE_TABLE_NBYTES(newsize); newtable = (JSScopeProperty **) cx->calloc(nbytes); if (!newtable) { METER(tableAllocFails); return false; } /* Now that we have newtable allocated, update members. */ hashShift = JS_DHASH_BITS - newlog2; removedCount = 0; oldtable = table; table = newtable; /* Treat the above calloc as a JS_malloc, to match CreateScopeTable. */ cx->updateMallocCounter(nbytes); /* Copy only live entries, leaving removed and free ones behind. */ for (oldspp = oldtable; oldsize != 0; oldspp++) { sprop = SPROP_FETCH(oldspp); if (sprop) { spp = search(sprop->id, true); JS_ASSERT(SPROP_IS_FREE(*spp)); *spp = sprop; } oldsize--; } /* Finally, free the old table storage. */ cx->free(oldtable); return true; } /* * Get or create a property-tree or dictionary child property of parent, which * must be lastProp if inDictionaryMode(), else parent must be one of lastProp * or lastProp->parent. */ JSScopeProperty * JSScope::getChildProperty(JSContext *cx, JSScopeProperty *parent, JSScopeProperty &child) { JS_ASSERT(!JSID_IS_VOID(child.id)); JS_ASSERT(!child.inDictionary()); /* * Aliases share another property's slot, passed in the |slot| parameter. * Shared properties have no slot. Unshared properties that do not alias * another property's slot allocate a slot here, but may lose it due to a * JS_ClearScope call. */ if (!child.isAlias()) { if (child.attrs & JSPROP_SHARED) { child.slot = SPROP_INVALID_SLOT; } else { /* * We may have set slot from a nearly-matching sprop, above. * If so, we're overwriting that nearly-matching sprop, so we * can reuse its slot -- we don't need to allocate a new one. * Similarly, we use a specific slot if provided by the caller. */ if (child.slot == SPROP_INVALID_SLOT && !js_AllocSlot(cx, object, &child.slot)) { return NULL; } } } if (inDictionaryMode()) { JS_ASSERT(parent == lastProp); if (newDictionaryProperty(cx, child, &lastProp)) { updateShape(cx); return lastProp; } return NULL; } JSScopeProperty *sprop = JS_PROPERTY_TREE(cx).getChild(cx, parent, shape, child); if (sprop) { JS_ASSERT(sprop->parent == parent); if (parent == lastProp) { extend(cx, sprop); } else { JS_ASSERT(parent == lastProp->parent); setLastProperty(sprop); updateShape(cx); } } return sprop; } #ifdef DEBUG_notbrendan #define CHECK_ANCESTOR_LINE(scope, sparse) \ JS_BEGIN_MACRO \ if ((scope)->table) CheckAncestorLine(scope); \ JS_END_MACRO static void CheckAncestorLine(JSScope *scope) { uint32 size; JSScopeProperty **spp, **start, **end, *ancestorLine, *sprop, *aprop; uint32 entryCount, ancestorCount; ancestorLine = scope->lastProperty(); if (ancestorLine) JS_ASSERT(scope->hasProperty(ancestorLine)); entryCount = 0; size = SCOPE_CAPACITY(scope); start = scope->table; for (spp = start, end = start + size; spp < end; spp++) { sprop = SPROP_FETCH(spp); if (sprop) { ++entryCount; for (aprop = ancestorLine; aprop; aprop = aprop->parent) { if (aprop == sprop) break; } JS_ASSERT(aprop); } } JS_ASSERT(entryCount == scope->entryCount); ancestorCount = 0; for (sprop = ancestorLine; sprop; sprop = sprop->parent) ancestorCount++; JS_ASSERT(ancestorCount == scope->entryCount); } #else #define CHECK_ANCESTOR_LINE(scope, sparse) /* nothing */ #endif void JSScope::reportReadOnlyScope(JSContext *cx) { JSString *str; const char *bytes; str = js_ValueToString(cx, ObjectOrNullValue(object)); if (!str) return; bytes = js_GetStringBytes(cx, str); if (!bytes) return; JS_ReportErrorNumber(cx, js_GetErrorMessage, NULL, JSMSG_READ_ONLY, bytes); } void JSScope::generateOwnShape(JSContext *cx) { #ifdef JS_TRACER if (object) { LeaveTraceIfGlobalObject(cx, object); /* * The JIT must have arranged to re-guard after any unpredictable shape * change, so if we are on trace here, we should already be prepared to * bail off trace. */ JS_ASSERT_IF(JS_ON_TRACE(cx), cx->bailExit); /* * If we are recording, here is where we forget already-guarded shapes. * Any subsequent property operation upon object on the trace currently * being recorded will re-guard (and re-memoize). */ TraceMonitor *tm = &JS_TRACE_MONITOR(cx); if (TraceRecorder *tr = tm->recorder) tr->forgetGuardedShapesForObject(object); } #endif shape = js_GenerateShape(cx, false); setOwnShape(); } JSScopeProperty * JSScope::newDictionaryProperty(JSContext *cx, const JSScopeProperty &child, JSScopeProperty **childp) { JSScopeProperty *dprop = JS_PROPERTY_TREE(cx).newScopeProperty(cx); if (!dprop) return NULL; new (dprop) JSScopeProperty(child.id, child.rawGetter, child.rawSetter, child.slot, child.attrs, child.flags | JSScopeProperty::IN_DICTIONARY, child.shortid); dprop->shape = js_GenerateShape(cx, false); dprop->childp = NULL; insertDictionaryProperty(dprop, childp); updateFlags(dprop); return dprop; } bool JSScope::toDictionaryMode(JSContext *cx, JSScopeProperty *&aprop) { JS_ASSERT(!inDictionaryMode()); JSScopeProperty **oldTable = table; uint32 saveRemovedCount = removedCount; if (oldTable) { int sizeLog2 = JS_DHASH_BITS - hashShift; JSScopeProperty **newTable = (JSScopeProperty **) js_calloc(JS_BIT(sizeLog2) * sizeof(JSScopeProperty *)); if (!newTable) { JS_ReportOutOfMemory(cx); METER(toDictFails); return false; } table = newTable; removedCount = 0; } /* * We are committed from here on. If we fail due to OOM in the loop below, * we'll restore saveEntryCount, oldTable, oldLastProp. */ JSScopeProperty *oldLastProp = lastProp; lastProp = NULL; /* * Clear entryCount because JSScope::insertDictionaryProperty called from * JSScope::newDictionaryProperty bumps it. */ uint32 saveEntryCount = entryCount; entryCount = 0; for (JSScopeProperty *sprop = oldLastProp, **childp = &lastProp; sprop; sprop = sprop->parent) { JSScopeProperty *dprop = newDictionaryProperty(cx, *sprop, childp); if (!dprop) { entryCount = saveEntryCount; removedCount = saveRemovedCount; if (table) js_free(table); table = oldTable; lastProp = oldLastProp; METER(toDictFails); return false; } if (table) { JSScopeProperty **spp = search(dprop->id, true); JS_ASSERT(!SPROP_FETCH(spp)); SPROP_STORE_PRESERVING_COLLISION(spp, dprop); } if (aprop == sprop) aprop = dprop; childp = &dprop->parent; } if (oldTable) js_free(oldTable); setDictionaryMode(); clearOwnShape(); if (lastProp) { /* * This scope may get OWN_SHAPE set again, but for now its shape must * be the shape of its lastProp. If it is empty, its initial shape is * still valid. See JSScope::updateShape's definition in jsscope.h. */ shape = lastProp->shape; } return true; } JSScopeProperty * JSScope::addProperty(JSContext *cx, jsid id, PropertyOp getter, PropertyOp setter, uint32 slot, uintN attrs, uintN flags, intN shortid) { JS_ASSERT(JS_IS_SCOPE_LOCKED(cx, this)); CHECK_ANCESTOR_LINE(this, true); JS_ASSERT(!JSID_IS_VOID(id)); JS_ASSERT_IF(!cx->runtime->gcRegenShapes, hasRegenFlag(cx->runtime->gcRegenShapesScopeFlag)); /* * You can't add properties to a sealed scope. But note well that you can * change property attributes in a sealed scope, even though that replaces * a JSScopeProperty * in the scope's hash table -- but no id is added, so * the scope remains sealed. */ if (sealed()) { reportReadOnlyScope(cx); return NULL; } /* Search for id with adding = true in order to claim its entry. */ JSScopeProperty **spp = search(id, true); JS_ASSERT(!SPROP_FETCH(spp)); return addPropertyHelper(cx, id, getter, setter, slot, attrs, flags, shortid, spp); } /* * Normalize stub getter and setter values for faster is-stub testing in the * SPROP_CALL_[GS]ETTER macros. */ static inline bool NormalizeGetterAndSetter(JSContext *cx, JSScope *scope, jsid id, uintN attrs, uintN flags, PropertyOp &getter, PropertyOp &setter) { if (setter == PropertyStub) { JS_ASSERT(!(attrs & JSPROP_SETTER)); setter = NULL; } if (flags & JSScopeProperty::METHOD) { /* Here, getter is the method, a function object reference. */ JS_ASSERT(getter); JS_ASSERT(!setter || setter == js_watch_set); JS_ASSERT(!(attrs & (JSPROP_GETTER | JSPROP_SETTER))); } else { if (getter == PropertyStub) { JS_ASSERT(!(attrs & JSPROP_GETTER)); getter = NULL; } } /* * Check for a watchpoint on a deleted property; if one exists, change * setter to js_watch_set or js_watch_set_wrapper. * XXXbe this could get expensive with lots of watchpoints... */ if (!JS_CLIST_IS_EMPTY(&cx->runtime->watchPointList) && js_FindWatchPoint(cx->runtime, scope, id)) { setter = js_WrapWatchedSetter(cx, id, attrs, setter); if (!setter) { METER(wrapWatchFails); return false; } } return true; } JSScopeProperty * JSScope::addPropertyHelper(JSContext *cx, jsid id, PropertyOp getter, PropertyOp setter, uint32 slot, uintN attrs, uintN flags, intN shortid, JSScopeProperty **spp) { NormalizeGetterAndSetter(cx, this, id, attrs, flags, getter, setter); /* Check whether we need to grow, if the load factor is >= .75. */ uint32 size = SCOPE_CAPACITY(this); if (entryCount + removedCount >= size - (size >> 2)) { int change = removedCount < size >> 2; if (!change) METER(compresses); else METER(grows); if (!changeTable(cx, change) && entryCount + removedCount == size - 1) return NULL; spp = search(id, true); JS_ASSERT(!SPROP_FETCH(spp)); } /* Find or create a property tree node labeled by our arguments. */ JSScopeProperty *sprop; { JSScopeProperty child(id, getter, setter, slot, attrs, flags, shortid); sprop = getChildProperty(cx, lastProp, child); } if (sprop) { /* Store the tree node pointer in the table entry for id. */ if (table) SPROP_STORE_PRESERVING_COLLISION(spp, sprop); CHECK_ANCESTOR_LINE(this, false); #ifdef DEBUG LIVE_SCOPE_METER(cx, ++cx->runtime->liveScopeProps); JS_RUNTIME_METER(cx->runtime, totalScopeProps); #endif /* * If we reach the hashing threshold, try to allocate this->table. * If we can't (a rare event, preceded by swapping to death on most * modern OSes), stick with linear search rather than whining about * this little set-back. Therefore we must test !this->table and * this->entryCount >= SCOPE_HASH_THRESHOLD, not merely whether the * entry count just reached the threshold. */ if (!table && entryCount >= SCOPE_HASH_THRESHOLD) (void) createTable(cx, false); METER(adds); return sprop; } METER(addFails); return NULL; } JSScopeProperty * JSScope::putProperty(JSContext *cx, jsid id, PropertyOp getter, PropertyOp setter, uint32 slot, uintN attrs, uintN flags, intN shortid) { JSScopeProperty **spp, *sprop, *overwriting; JS_ASSERT(JS_IS_SCOPE_LOCKED(cx, this)); CHECK_ANCESTOR_LINE(this, true); JS_ASSERT(!JSID_IS_VOID(id)); JS_ASSERT_IF(!cx->runtime->gcRegenShapes, hasRegenFlag(cx->runtime->gcRegenShapesScopeFlag)); if (sealed()) { reportReadOnlyScope(cx); return NULL; } /* Search for id in order to claim its entry if table has been allocated. */ spp = search(id, true); sprop = SPROP_FETCH(spp); if (!sprop) return addPropertyHelper(cx, id, getter, setter, slot, attrs, flags, shortid, spp); /* Property exists: JSScope::search must have returned a valid *spp. */ JS_ASSERT(!SPROP_IS_REMOVED(*spp)); overwriting = sprop; NormalizeGetterAndSetter(cx, this, id, attrs, flags, getter, setter); /* * If all property members match, this is a redundant add and we can * return early. If the caller wants to allocate a slot, but doesn't * care which slot, copy sprop->slot into slot so we can match sprop, * if all other members match. */ if (!(attrs & JSPROP_SHARED) && slot == SPROP_INVALID_SLOT && SPROP_HAS_VALID_SLOT(sprop, this)) { slot = sprop->slot; } if (sprop->matchesParamsAfterId(getter, setter, slot, attrs, flags, shortid)) { METER(redundantPuts); return sprop; } /* * If we are clearing sprop to force the existing property that it * describes to be overwritten, then we have to unlink sprop from the * ancestor line at this->lastProp. * * If sprop is not lastProp and this scope is not in dictionary mode, * we must switch to dictionary mode so we can unlink the non-terminal * sprop without breaking anyone sharing the property lineage via the * runtime's property tree. */ if (sprop == lastProp && !inDictionaryMode()) { removeLastProperty(); } else { if (!inDictionaryMode()) { if (!toDictionaryMode(cx, sprop)) return NULL; spp = search(id, false); } removeDictionaryProperty(sprop); } /* * If we fail later on trying to find or create a new sprop, we will * restore *spp from |overwriting|. Note that we don't bother to keep * this->removedCount in sync, because we will fix up both *spp and * this->entryCount shortly. */ if (table) SPROP_STORE_PRESERVING_COLLISION(spp, NULL); CHECK_ANCESTOR_LINE(this, true); { /* Find or create a property tree node labeled by our arguments. */ JSScopeProperty child(id, getter, setter, slot, attrs, flags, shortid); sprop = getChildProperty(cx, lastProp, child); } if (sprop) { CHECK_ANCESTOR_LINE(this, false); if (table) { /* Store the tree node pointer in the table entry for id. */ SPROP_STORE_PRESERVING_COLLISION(spp, sprop); } else if (entryCount >= SCOPE_HASH_THRESHOLD) { /* See comment in JSScope::addPropertyHelper about ignoring OOM here. */ (void) createTable(cx, false); } METER(puts); return sprop; } if (table) SPROP_STORE_PRESERVING_COLLISION(spp, overwriting); ++entryCount; CHECK_ANCESTOR_LINE(this, true); METER(putFails); return NULL; } JSScopeProperty * JSScope::changeProperty(JSContext *cx, JSScopeProperty *sprop, uintN attrs, uintN mask, PropertyOp getter, PropertyOp setter) { JSScopeProperty *newsprop; JS_ASSERT(JS_IS_SCOPE_LOCKED(cx, this)); CHECK_ANCESTOR_LINE(this, true); JS_ASSERT(!JSID_IS_VOID(sprop->id)); JS_ASSERT(hasProperty(sprop)); attrs |= sprop->attrs & mask; /* Allow only shared (slot-less) => unshared (slot-full) transition. */ JS_ASSERT(!((attrs ^ sprop->attrs) & JSPROP_SHARED) || !(attrs & JSPROP_SHARED)); /* Don't allow method properties to be changed to have a getter. */ JS_ASSERT_IF(getter != sprop->rawGetter, !sprop->isMethod()); if (getter == PropertyStub) getter = NULL; if (setter == PropertyStub) setter = NULL; if (sprop->attrs == attrs && sprop->getter() == getter && sprop->setter() == setter) return sprop; JSScopeProperty child(sprop->id, getter, setter, sprop->slot, attrs, sprop->flags, sprop->shortid); if (inDictionaryMode()) { removeDictionaryProperty(sprop); newsprop = newDictionaryProperty(cx, child, &lastProp); if (newsprop) { if (table) { JSScopeProperty **spp = search(sprop->id, false); SPROP_STORE_PRESERVING_COLLISION(spp, newsprop); } updateShape(cx); } } else if (sprop == lastProp) { newsprop = getChildProperty(cx, sprop->parent, child); if (newsprop) { if (table) { JSScopeProperty **spp = search(sprop->id, false); JS_ASSERT(SPROP_FETCH(spp) == sprop); SPROP_STORE_PRESERVING_COLLISION(spp, newsprop); } CHECK_ANCESTOR_LINE(this, true); } } else { /* * Let JSScope::putProperty handle this |overwriting| case, including * the conservation of sprop->slot (if it's valid). We must not call * JSScope::removeProperty because it will free a valid sprop->slot and * JSScope::putProperty won't re-allocate it. */ newsprop = putProperty(cx, child.id, child.rawGetter, child.rawSetter, child.slot, child.attrs, child.flags, child.shortid); } #ifdef DEBUG if (newsprop) METER(changes); else METER(changeFails); #endif return newsprop; } bool JSScope::removeProperty(JSContext *cx, jsid id) { JSScopeProperty **spp, *sprop; uint32 size; JS_ASSERT(JS_IS_SCOPE_LOCKED(cx, this)); CHECK_ANCESTOR_LINE(this, true); if (sealed()) { reportReadOnlyScope(cx); return false; } spp = search(id, false); sprop = SPROP_CLEAR_COLLISION(*spp); if (!sprop) { METER(uselessRemoves); return true; } /* If sprop is not the last property added, switch to dictionary mode. */ if (sprop != lastProp) { if (!inDictionaryMode()) { if (!toDictionaryMode(cx, sprop)) return false; spp = search(id, false); } JS_ASSERT(SPROP_FETCH(spp) == sprop); } /* First, if sprop is unshared and not cleared, free its slot number. */ if (SPROP_HAS_VALID_SLOT(sprop, this)) { js_FreeSlot(cx, object, sprop->slot); JS_ATOMIC_INCREMENT(&cx->runtime->propertyRemovals); } /* Next, remove id by setting its entry to a removed or free sentinel. */ if (SPROP_HAD_COLLISION(*spp)) { JS_ASSERT(table); *spp = SPROP_REMOVED; ++removedCount; } else { METER(removeFrees); if (table) { *spp = NULL; #ifdef DEBUG /* * Check the consistency of the table but limit the number of * checks not to alter significantly the complexity of the delete * in debug builds, see bug 534493. */ JSScopeProperty *aprop = lastProp; for (unsigned n = 50; aprop && n != 0; aprop = aprop->parent, --n) JS_ASSERT_IF(aprop != sprop, hasProperty(aprop)); #endif } } LIVE_SCOPE_METER(cx, --cx->runtime->liveScopeProps); if (inDictionaryMode()) { /* * Remove sprop from its scope-owned doubly linked list, setting this * scope's OWN_SHAPE flag first if sprop is lastProp so updateShape(cx) * after this if-else will generate a fresh shape for this scope. */ if (sprop != lastProp) setOwnShape(); removeDictionaryProperty(sprop); } else { JS_ASSERT(sprop == lastProp); removeLastProperty(); } updateShape(cx); CHECK_ANCESTOR_LINE(this, true); /* Last, consider shrinking this->table if its load factor is <= .25. */ size = SCOPE_CAPACITY(this); if (size > MIN_SCOPE_SIZE && entryCount <= size >> 2) { METER(shrinks); (void) changeTable(cx, -1); } METER(removes); return true; } void JSScope::clear(JSContext *cx) { CHECK_ANCESTOR_LINE(this, true); LIVE_SCOPE_METER(cx, cx->runtime->liveScopeProps -= entryCount); if (table) js_free(table); clearDictionaryMode(); clearOwnShape(); LeaveTraceIfGlobalObject(cx, object); Class *clasp = object->getClass(); JSObject *proto = object->getProto(); JSEmptyScope *emptyScope; uint32 newShape; if (proto && proto->isNative() && (emptyScope = proto->scope()->emptyScope) && emptyScope->clasp == clasp) { newShape = emptyScope->shape; } else { newShape = js_GenerateShape(cx, false); } initMinimal(cx, newShape); JS_ATOMIC_INCREMENT(&cx->runtime->propertyRemovals); } void JSScope::deletingShapeChange(JSContext *cx, JSScopeProperty *sprop) { JS_ASSERT(!JSID_IS_VOID(sprop->id)); generateOwnShape(cx); } bool JSScope::methodShapeChange(JSContext *cx, JSScopeProperty *sprop) { JS_ASSERT(!JSID_IS_VOID(sprop->id)); if (sprop->isMethod()) { #ifdef DEBUG const Value &prev = object->lockedGetSlot(sprop->slot); JS_ASSERT(&sprop->methodObject() == &prev.toObject()); JS_ASSERT(hasMethodBarrier()); JS_ASSERT(object->canHaveMethodBarrier()); JS_ASSERT(!sprop->rawSetter || sprop->rawSetter == js_watch_set); #endif /* * Pass null to make a stub getter, but pass along sprop->setter to * preserve watchpoints. Clear JSScopeProperty::METHOD from flags as we * are despecializing from a method memoized in the property tree to a * plain old function-valued property. */ sprop = putProperty(cx, sprop->id, NULL, sprop->rawSetter, sprop->slot, sprop->attrs, sprop->getFlags() & ~JSScopeProperty::METHOD, sprop->shortid); if (!sprop) return false; } generateOwnShape(cx); return true; } bool JSScope::methodShapeChange(JSContext *cx, uint32 slot) { if (!hasMethodBarrier()) { generateOwnShape(cx); } else { for (JSScopeProperty *sprop = lastProp; sprop; sprop = sprop->parent) { JS_ASSERT(!JSID_IS_VOID(sprop->id)); if (sprop->slot == slot) return methodShapeChange(cx, sprop); } } return true; } void JSScope::protoShapeChange(JSContext *cx) { generateOwnShape(cx); } void JSScope::shadowingShapeChange(JSContext *cx, JSScopeProperty *sprop) { JS_ASSERT(!JSID_IS_VOID(sprop->id)); generateOwnShape(cx); } bool JSScope::globalObjectOwnShapeChange(JSContext *cx) { generateOwnShape(cx); return !js_IsPropertyCacheDisabled(cx); } #ifdef DEBUG static void PrintPropertyGetterOrSetter(JSTracer *trc, char *buf, size_t bufsize) { JSScopeProperty *sprop; jsid id; size_t n; const char *name; JS_ASSERT(trc->debugPrinter == PrintPropertyGetterOrSetter); sprop = (JSScopeProperty *)trc->debugPrintArg; id = sprop->id; JS_ASSERT(!JSID_IS_VOID(id)); name = trc->debugPrintIndex ? js_setter_str : js_getter_str; if (JSID_IS_ATOM(id)) { n = js_PutEscapedString(buf, bufsize - 1, JSID_TO_STRING(id), 0); if (n < bufsize - 1) JS_snprintf(buf + n, bufsize - n, " %s", name); } else if (JSID_IS_INT(sprop->id)) { JS_snprintf(buf, bufsize, "%d %s", JSID_TO_INT(id), name); } else { JS_snprintf(buf, bufsize, " %s", name); } } static void PrintPropertyMethod(JSTracer *trc, char *buf, size_t bufsize) { JSScopeProperty *sprop; jsid id; size_t n; JS_ASSERT(trc->debugPrinter == PrintPropertyMethod); sprop = (JSScopeProperty *)trc->debugPrintArg; id = sprop->id; JS_ASSERT(!JSID_IS_VOID(id)); JS_ASSERT(JSID_IS_ATOM(id)); n = js_PutEscapedString(buf, bufsize - 1, JSID_TO_STRING(id), 0); if (n < bufsize - 1) JS_snprintf(buf + n, bufsize - n, " method"); } #endif void JSScopeProperty::trace(JSTracer *trc) { if (IS_GC_MARKING_TRACER(trc)) mark(); MarkId(trc, id, "id"); if (attrs & (JSPROP_GETTER | JSPROP_SETTER)) { if ((attrs & JSPROP_GETTER) && rawGetter) { JS_SET_TRACING_DETAILS(trc, PrintPropertyGetterOrSetter, this, 0); Mark(trc, getterObject(), JSTRACE_OBJECT); } if ((attrs & JSPROP_SETTER) && rawSetter) { JS_SET_TRACING_DETAILS(trc, PrintPropertyGetterOrSetter, this, 1); Mark(trc, setterObject(), JSTRACE_OBJECT); } } if (isMethod()) { JS_SET_TRACING_DETAILS(trc, PrintPropertyMethod, this, 0); Mark(trc, &methodObject(), JSTRACE_OBJECT); } }