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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*-
* vim: set ts=8 sts=2 et sw=2 tw=80:
*/
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#include "jsapi.h"
#include "js/RootingAPI.h"
#include "js/SliceBudget.h"
#include "jsapi-tests/tests.h"
#include "vm/Realm.h"
using namespace js;
static bool ConstructCCW(JSContext* cx, const JSClass* globalClasp,
JS::HandleObject global1,
JS::MutableHandleObject wrapper,
JS::MutableHandleObject global2,
JS::MutableHandleObject wrappee) {
if (!global1) {
fprintf(stderr, "null initial global");
return false;
}
// Define a second global in a different zone.
JS::RealmOptions options;
global2.set(JS_NewGlobalObject(cx, globalClasp, nullptr,
JS::FireOnNewGlobalHook, options));
if (!global2) {
fprintf(stderr, "failed to create second global");
return false;
}
// This should always be false, regardless.
if (global1->compartment() == global2->compartment()) {
fprintf(stderr, "second global claims to be in global1's compartment");
return false;
}
// This checks that the API obeys the implicit zone request.
if (global1->zone() == global2->zone()) {
fprintf(stderr, "global2 is in global1's zone");
return false;
}
// Define an object in compartment 2, that is wrapped by a CCW into
// compartment 1.
{
JSAutoRealm ar(cx, global2);
wrappee.set(JS_NewPlainObject(cx));
if (wrappee->compartment() != global2->compartment()) {
fprintf(stderr, "wrappee in wrong compartment");
return false;
}
}
wrapper.set(wrappee);
if (!JS_WrapObject(cx, wrapper)) {
fprintf(stderr, "failed to wrap");
return false;
}
if (wrappee == wrapper) {
fprintf(stderr, "expected wrapping");
return false;
}
if (wrapper->compartment() != global1->compartment()) {
fprintf(stderr, "wrapper in wrong compartment");
return false;
}
return true;
}
class CCWTestTracer final : public JS::CallbackTracer {
void onChild(const JS::GCCellPtr& thing) override {
numberOfThingsTraced++;
printf("*thingp = %p\n", thing.asCell());
printf("*expectedThingp = %p\n", *expectedThingp);
printf("kind = %d\n", static_cast<int>(thing.kind()));
printf("expectedKind = %d\n", static_cast<int>(expectedKind));
if (thing.asCell() != *expectedThingp || thing.kind() != expectedKind) {
okay = false;
}
}
public:
bool okay;
size_t numberOfThingsTraced;
void** expectedThingp;
JS::TraceKind expectedKind;
CCWTestTracer(JSContext* cx, void** expectedThingp,
JS::TraceKind expectedKind)
: JS::CallbackTracer(cx),
okay(true),
numberOfThingsTraced(0),
expectedThingp(expectedThingp),
expectedKind(expectedKind) {}
};
BEGIN_TEST(testTracingIncomingCCWs) {
#ifdef JS_GC_ZEAL
// Disable zeal modes because this test needs to control exactly when the GC
// happens.
JS_SetGCZeal(cx, 0, 100);
#endif
JS_GC(cx);
JS::RootedObject global1(cx, JS::CurrentGlobalOrNull(cx));
JS::RootedObject wrapper(cx, JS::CurrentGlobalOrNull(cx));
JS::RootedObject global2(cx, JS::CurrentGlobalOrNull(cx));
JS::RootedObject wrappee(cx, JS::CurrentGlobalOrNull(cx));
CHECK(ConstructCCW(cx, getGlobalClass(), global1, &wrapper, &global2,
&wrappee));
JS_GC(cx);
CHECK(!js::gc::IsInsideNursery(wrappee));
CHECK(!js::gc::IsInsideNursery(wrapper));
JS::RootedValue v(cx, JS::ObjectValue(*wrapper));
CHECK(JS_SetProperty(cx, global1, "ccw", v));
// Ensure that |TraceIncomingCCWs| finds the object wrapped by the CCW.
JS::CompartmentSet compartments;
CHECK(compartments.put(global2->compartment()));
void* thing = wrappee.get();
CCWTestTracer trc(cx, &thing, JS::TraceKind::Object);
js::gc::TraceIncomingCCWs(&trc, compartments);
CHECK(trc.numberOfThingsTraced == 1);
CHECK(trc.okay);
return true;
}
END_TEST(testTracingIncomingCCWs)
static size_t countObjectWrappers(JS::Compartment* comp) {
size_t count = 0;
for (JS::Compartment::ObjectWrapperEnum e(comp); !e.empty(); e.popFront()) {
++count;
}
return count;
}
BEGIN_TEST(testDeadNurseryCCW) {
#ifdef JS_GC_ZEAL
// Disable zeal modes because this test needs to control exactly when the GC
// happens.
JS_SetGCZeal(cx, 0, 100);
#endif
JS_GC(cx);
JS::RootedObject global1(cx, JS::CurrentGlobalOrNull(cx));
JS::RootedObject wrapper(cx, JS::CurrentGlobalOrNull(cx));
JS::RootedObject global2(cx, JS::CurrentGlobalOrNull(cx));
JS::RootedObject wrappee(cx, JS::CurrentGlobalOrNull(cx));
CHECK(ConstructCCW(cx, getGlobalClass(), global1, &wrapper, &global2,
&wrappee));
CHECK(js::gc::IsInsideNursery(wrappee));
CHECK(js::gc::IsInsideNursery(wrapper));
// Now let the obj and wrapper die.
wrappee = wrapper = nullptr;
// Now a GC should clear the CCW.
CHECK(countObjectWrappers(global1->compartment()) == 1);
cx->runtime()->gc.evictNursery();
CHECK(countObjectWrappers(global1->compartment()) == 0);
// Check for corruption of the CCW table by doing a full GC to force sweeping.
JS_GC(cx);
return true;
}
END_TEST(testDeadNurseryCCW)
BEGIN_TEST(testLiveNurseryCCW) {
#ifdef JS_GC_ZEAL
// Disable zeal modes because this test needs to control exactly when the GC
// happens.
JS_SetGCZeal(cx, 0, 100);
#endif
JS_GC(cx);
JS::RootedObject global1(cx, JS::CurrentGlobalOrNull(cx));
JS::RootedObject wrapper(cx, JS::CurrentGlobalOrNull(cx));
JS::RootedObject global2(cx, JS::CurrentGlobalOrNull(cx));
JS::RootedObject wrappee(cx, JS::CurrentGlobalOrNull(cx));
CHECK(ConstructCCW(cx, getGlobalClass(), global1, &wrapper, &global2,
&wrappee));
CHECK(js::gc::IsInsideNursery(wrappee));
CHECK(js::gc::IsInsideNursery(wrapper));
// Now a GC should not kill the CCW.
CHECK(countObjectWrappers(global1->compartment()) == 1);
cx->runtime()->gc.evictNursery();
CHECK(countObjectWrappers(global1->compartment()) == 1);
CHECK(!js::gc::IsInsideNursery(wrappee));
CHECK(!js::gc::IsInsideNursery(wrapper));
// Check for corruption of the CCW table by doing a full GC to force sweeping.
JS_GC(cx);
return true;
}
END_TEST(testLiveNurseryCCW)
BEGIN_TEST(testLiveNurseryWrapperCCW) {
#ifdef JS_GC_ZEAL
// Disable zeal modes because this test needs to control exactly when the GC
// happens.
JS_SetGCZeal(cx, 0, 100);
#endif
JS_GC(cx);
JS::RootedObject global1(cx, JS::CurrentGlobalOrNull(cx));
JS::RootedObject wrapper(cx, JS::CurrentGlobalOrNull(cx));
JS::RootedObject global2(cx, JS::CurrentGlobalOrNull(cx));
JS::RootedObject wrappee(cx, JS::CurrentGlobalOrNull(cx));
CHECK(ConstructCCW(cx, getGlobalClass(), global1, &wrapper, &global2,
&wrappee));
CHECK(js::gc::IsInsideNursery(wrappee));
CHECK(js::gc::IsInsideNursery(wrapper));
// The wrapper contains a strong reference to the wrappee, so just dropping
// the reference to the wrappee will not drop the CCW table entry as long
// as the wrapper is held strongly. Thus, the minor collection here must
// tenure both the wrapper and the wrappee and keep both in the table.
wrappee = nullptr;
// Now a GC should not kill the CCW.
CHECK(countObjectWrappers(global1->compartment()) == 1);
cx->runtime()->gc.evictNursery();
CHECK(countObjectWrappers(global1->compartment()) == 1);
CHECK(!js::gc::IsInsideNursery(wrapper));
// Check for corruption of the CCW table by doing a full GC to force sweeping.
JS_GC(cx);
return true;
}
END_TEST(testLiveNurseryWrapperCCW)
BEGIN_TEST(testLiveNurseryWrappeeCCW) {
#ifdef JS_GC_ZEAL
// Disable zeal modes because this test needs to control exactly when the GC
// happens.
JS_SetGCZeal(cx, 0, 100);
#endif
JS_GC(cx);
JS::RootedObject global1(cx, JS::CurrentGlobalOrNull(cx));
JS::RootedObject wrapper(cx, JS::CurrentGlobalOrNull(cx));
JS::RootedObject global2(cx, JS::CurrentGlobalOrNull(cx));
JS::RootedObject wrappee(cx, JS::CurrentGlobalOrNull(cx));
CHECK(ConstructCCW(cx, getGlobalClass(), global1, &wrapper, &global2,
&wrappee));
CHECK(js::gc::IsInsideNursery(wrappee));
CHECK(js::gc::IsInsideNursery(wrapper));
// Let the wrapper die. The wrapper should drop from the table when we GC,
// even though there are other non-cross-compartment edges to it.
wrapper = nullptr;
// Now a GC should not kill the CCW.
CHECK(countObjectWrappers(global1->compartment()) == 1);
cx->runtime()->gc.evictNursery();
CHECK(countObjectWrappers(global1->compartment()) == 0);
CHECK(!js::gc::IsInsideNursery(wrappee));
// Check for corruption of the CCW table by doing a full GC to force sweeping.
JS_GC(cx);
return true;
}
END_TEST(testLiveNurseryWrappeeCCW)
BEGIN_TEST(testIncrementalRoots) {
JSRuntime* rt = cx->runtime();
#ifdef JS_GC_ZEAL
// Disable zeal modes because this test needs to control exactly when the GC
// happens.
JS_SetGCZeal(cx, 0, 100);
#endif
// Construct a big object graph to mark. In JS, the resulting object graph
// is equivalent to:
//
// leaf = {};
// leaf2 = {};
// root = { 'obj': { 'obj': ... { 'obj': leaf, 'leaf2': leaf2 } ... } }
//
// with leafOwner the object that has the 'obj' and 'leaf2' properties.
JS::RootedObject obj(cx, JS_NewObject(cx, nullptr));
if (!obj) {
return false;
}
JS::RootedObject root(cx, obj);
JS::RootedObject leaf(cx);
JS::RootedObject leafOwner(cx);
for (size_t i = 0; i < 3000; i++) {
JS::RootedObject subobj(cx, JS_NewObject(cx, nullptr));
if (!subobj) {
return false;
}
if (!JS_DefineProperty(cx, obj, "obj", subobj, 0)) {
return false;
}
leafOwner = obj;
obj = subobj;
leaf = subobj;
}
// Give the leaf owner a second leaf.
{
JS::RootedObject leaf2(cx, JS_NewObject(cx, nullptr));
if (!leaf2) {
return false;
}
if (!JS_DefineProperty(cx, leafOwner, "leaf2", leaf2, 0)) {
return false;
}
}
// This is marked during markRuntime
JS::RootedObjectVector vec(cx);
if (!vec.append(root)) {
return false;
}
// Tenure everything so intentionally unrooted objects don't move before we
// can use them.
cx->runtime()->gc.minorGC(JS::GCReason::API);
// Release all roots except for the RootedObjectVector.
obj = root = nullptr;
// We need to manipulate interior nodes, but the JSAPI understandably wants
// to make it difficult to do that without rooting things on the stack (by
// requiring Handle parameters). We can do it anyway by using
// fromMarkedLocation. The hazard analysis is OK with this because the
// unrooted variables are not live after they've been pointed to via
// fromMarkedLocation; you're essentially lying to the analysis, saying
// that the unrooted variables are rooted.
//
// The analysis will report this lie in its listing of "unsafe references",
// but we do not break the build based on those as there are too many false
// positives.
JSObject* unrootedLeaf = leaf;
JS::Value unrootedLeafValue = JS::ObjectValue(*leaf);
JSObject* unrootedLeafOwner = leafOwner;
JS::HandleObject leafHandle =
JS::HandleObject::fromMarkedLocation(&unrootedLeaf);
JS::HandleValue leafValueHandle =
JS::HandleValue::fromMarkedLocation(&unrootedLeafValue);
JS::HandleObject leafOwnerHandle =
JS::HandleObject::fromMarkedLocation(&unrootedLeafOwner);
leaf = leafOwner = nullptr;
// Do the root marking slice. This should mark 'root' and a bunch of its
// descendants. It shouldn't make it all the way through (it gets a budget
// of 1000, and the graph is about 3000 objects deep).
js::SliceBudget budget(js::WorkBudget(1000));
JS_SetGCParameter(cx, JSGC_INCREMENTAL_GC_ENABLED, true);
rt->gc.startDebugGC(GC_NORMAL, budget);
while (rt->gc.state() != gc::State::Mark) {
rt->gc.debugGCSlice(budget);
}
// We'd better be between iGC slices now. There's always a risk that
// something will decide that we need to do a full GC (such as gczeal, but
// that is turned off.)
MOZ_ASSERT(JS::IsIncrementalGCInProgress(cx));
// And assert that the mark bits are as we expect them to be.
MOZ_ASSERT(vec[0]->asTenured().isMarkedBlack());
MOZ_ASSERT(!leafHandle->asTenured().isMarkedBlack());
MOZ_ASSERT(!leafOwnerHandle->asTenured().isMarkedBlack());
#ifdef DEBUG
// Remember the current GC number so we can assert that no GC occurs
// between operations.
auto currentGCNumber = rt->gc.gcNumber();
#endif
// Now do the incremental GC's worst nightmare: rip an unmarked object
// 'leaf' out of the graph and stick it into an already-marked region (hang
// it off the un-prebarriered root, in fact). The pre-barrier on the
// overwrite of the source location should cause this object to be marked.
if (!JS_SetProperty(cx, leafOwnerHandle, "obj", JS::UndefinedHandleValue)) {
return false;
}
MOZ_ASSERT(rt->gc.gcNumber() == currentGCNumber);
if (!JS_SetProperty(cx, vec[0], "newobj", leafValueHandle)) {
return false;
}
MOZ_ASSERT(rt->gc.gcNumber() == currentGCNumber);
MOZ_ASSERT(leafHandle->asTenured().isMarkedBlack());
// Also take an unmarked object 'leaf2' from the graph and add an
// additional edge from the root to it. This will not be marked by any
// pre-barrier, but it is still in the live graph so it will eventually get
// marked.
//
// Note that the root->leaf2 edge will *not* be marked through, since the
// root is already marked, but that only matters if doing a compacting GC
// and the compacting GC repeats the whole marking phase to update
// pointers.
{
JS::RootedValue leaf2(cx);
if (!JS_GetProperty(cx, leafOwnerHandle, "leaf2", &leaf2)) {
return false;
}
MOZ_ASSERT(rt->gc.gcNumber() == currentGCNumber);
MOZ_ASSERT(!leaf2.toObject().asTenured().isMarkedBlack());
if (!JS_SetProperty(cx, vec[0], "leafcopy", leaf2)) {
return false;
}
MOZ_ASSERT(rt->gc.gcNumber() == currentGCNumber);
MOZ_ASSERT(!leaf2.toObject().asTenured().isMarkedBlack());
}
// Finish the GC using an unlimited budget.
auto unlimited = js::SliceBudget::unlimited();
rt->gc.debugGCSlice(unlimited);
// Access the leaf object to try to trigger a crash if it is dead.
if (!JS_SetProperty(cx, leafHandle, "toes", JS::UndefinedHandleValue)) {
return false;
}
return true;
}
END_TEST(testIncrementalRoots)
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