gecko-dev/dom/storage/LocalStorageCache.cpp

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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 "LocalStorageCache.h"
#include "Storage.h"
#include "StorageDBThread.h"
#include "StorageIPC.h"
#include "StorageUtils.h"
#include "LocalStorageManager.h"
#include "nsAutoPtr.h"
#include "nsDOMString.h"
#include "nsXULAppAPI.h"
#include "mozilla/Unused.h"
#include "nsProxyRelease.h"
#include "nsThreadUtils.h"
namespace mozilla {
namespace dom {
#define DOM_STORAGE_CACHE_KEEP_ALIVE_TIME_MS 20000
namespace {
const uint32_t kDefaultSet = 0;
const uint32_t kPrivateSet = 1;
const uint32_t kSessionSet = 2;
inline uint32_t
GetDataSetIndex(bool aPrivate, bool aSessionOnly)
{
if (aPrivate) {
return kPrivateSet;
}
if (aSessionOnly) {
return kSessionSet;
}
return kDefaultSet;
}
inline uint32_t
GetDataSetIndex(const LocalStorage* aStorage)
{
return GetDataSetIndex(aStorage->IsPrivate(), aStorage->IsSessionOnly());
}
} // namespace
// LocalStorageCacheBridge
NS_IMPL_ADDREF(LocalStorageCacheBridge)
// Since there is no consumer of return value of Release, we can turn this
// method to void to make implementation of asynchronous
// LocalStorageCache::Release much simpler.
NS_IMETHODIMP_(void) LocalStorageCacheBridge::Release(void)
{
MOZ_ASSERT(int32_t(mRefCnt) > 0, "dup release");
nsrefcnt count = --mRefCnt;
NS_LOG_RELEASE(this, count, "LocalStorageCacheBridge");
if (0 == count) {
mRefCnt = 1; /* stabilize */
/* enable this to find non-threadsafe destructors: */
/* NS_ASSERT_OWNINGTHREAD(_class); */
delete (this);
}
}
// LocalStorageCache
LocalStorageCache::LocalStorageCache(const nsACString* aOriginNoSuffix)
: mOriginNoSuffix(*aOriginNoSuffix)
, mMonitor("LocalStorageCache")
, mLoaded(false)
, mLoadResult(NS_OK)
, mInitialized(false)
, mPersistent(false)
, mSessionOnlyDataSetActive(false)
, mPreloadTelemetryRecorded(false)
{
MOZ_COUNT_CTOR(LocalStorageCache);
}
LocalStorageCache::~LocalStorageCache()
{
if (mManager) {
mManager->DropCache(this);
}
MOZ_COUNT_DTOR(LocalStorageCache);
}
NS_IMETHODIMP_(void)
LocalStorageCache::Release(void)
{
// We must actually release on the main thread since the cache removes it
// self from the manager's hash table. And we don't want to lock access to
// that hash table.
if (NS_IsMainThread()) {
LocalStorageCacheBridge::Release();
return;
}
RefPtr<nsRunnableMethod<LocalStorageCacheBridge, void, false>> event =
NewNonOwningRunnableMethod("dom::LocalStorageCacheBridge::Release",
static_cast<LocalStorageCacheBridge*>(this),
&LocalStorageCacheBridge::Release);
nsresult rv = NS_DispatchToMainThread(event);
if (NS_FAILED(rv)) {
NS_WARNING("LocalStorageCache::Release() on a non-main thread");
LocalStorageCacheBridge::Release();
}
}
void
LocalStorageCache::Init(LocalStorageManager* aManager,
bool aPersistent,
nsIPrincipal* aPrincipal,
const nsACString& aQuotaOriginScope)
{
if (mInitialized) {
return;
}
mInitialized = true;
aPrincipal->OriginAttributesRef().CreateSuffix(mOriginSuffix);
mPersistent = aPersistent;
if (aQuotaOriginScope.IsEmpty()) {
mQuotaOriginScope = Origin();
} else {
mQuotaOriginScope = aQuotaOriginScope;
}
if (mPersistent) {
mManager = aManager;
Preload();
}
// Check the quota string has (or has not) the identical origin suffix as
// this storage cache is bound to.
MOZ_ASSERT(StringBeginsWith(mQuotaOriginScope, mOriginSuffix));
MOZ_ASSERT(mOriginSuffix.IsEmpty() != StringBeginsWith(mQuotaOriginScope,
NS_LITERAL_CSTRING("^")));
mUsage = aManager->GetOriginUsage(mQuotaOriginScope);
}
inline bool
LocalStorageCache::Persist(const LocalStorage* aStorage) const
{
return mPersistent &&
!aStorage->IsSessionOnly() &&
!aStorage->IsPrivate();
}
const nsCString
LocalStorageCache::Origin() const
{
return LocalStorageManager::CreateOrigin(mOriginSuffix, mOriginNoSuffix);
}
LocalStorageCache::Data&
LocalStorageCache::DataSet(const LocalStorage* aStorage)
{
uint32_t index = GetDataSetIndex(aStorage);
if (index == kSessionSet && !mSessionOnlyDataSetActive) {
// Session only data set is demanded but not filled with
// current data set, copy to session only set now.
WaitForPreload(Telemetry::LOCALDOMSTORAGE_SESSIONONLY_PRELOAD_BLOCKING_MS);
Data& defaultSet = mData[kDefaultSet];
Data& sessionSet = mData[kSessionSet];
for (auto iter = defaultSet.mKeys.Iter(); !iter.Done(); iter.Next()) {
sessionSet.mKeys.Put(iter.Key(), iter.UserData());
}
mSessionOnlyDataSetActive = true;
// This updates sessionSet.mOriginQuotaUsage and also updates global usage
// for all session only data
ProcessUsageDelta(kSessionSet, defaultSet.mOriginQuotaUsage);
}
return mData[index];
}
bool
LocalStorageCache::ProcessUsageDelta(const LocalStorage* aStorage,
int64_t aDelta,
const MutationSource aSource)
{
return ProcessUsageDelta(GetDataSetIndex(aStorage), aDelta, aSource);
}
bool
LocalStorageCache::ProcessUsageDelta(uint32_t aGetDataSetIndex,
const int64_t aDelta,
const MutationSource aSource)
{
// Check if we are in a low disk space situation
if (aSource == ContentMutation &&
aDelta > 0 && mManager && mManager->IsLowDiskSpace()) {
return false;
}
// Check limit per this origin
Data& data = mData[aGetDataSetIndex];
uint64_t newOriginUsage = data.mOriginQuotaUsage + aDelta;
if (aSource == ContentMutation &&
aDelta > 0 && newOriginUsage > LocalStorageManager::GetQuota()) {
return false;
}
// Now check eTLD+1 limit
if (mUsage &&
!mUsage->CheckAndSetETLD1UsageDelta(aGetDataSetIndex, aDelta, aSource)) {
return false;
}
// Update size in our data set
data.mOriginQuotaUsage = newOriginUsage;
return true;
}
void
LocalStorageCache::Preload()
{
if (mLoaded || !mPersistent) {
return;
}
StorageDBChild* storageChild = StorageDBChild::GetOrCreate();
if (!storageChild) {
mLoaded = true;
mLoadResult = NS_ERROR_FAILURE;
return;
}
storageChild->AsyncPreload(this);
}
namespace {
// The AutoTimer provided by telemetry headers is only using static,
// i.e. compile time known ID, but here we know the ID only at run time.
// Hence a new class.
class TelemetryAutoTimer
{
public:
explicit TelemetryAutoTimer(Telemetry::HistogramID aId)
: id(aId), start(TimeStamp::Now())
{}
~TelemetryAutoTimer()
{
Telemetry::AccumulateDelta_impl<Telemetry::Millisecond>::compute(id, start);
}
private:
Telemetry::HistogramID id;
const TimeStamp start;
};
} // namespace
void
LocalStorageCache::WaitForPreload(Telemetry::HistogramID aTelemetryID)
{
if (!mPersistent) {
return;
}
bool loaded = mLoaded;
// Telemetry of rates of pending preloads
if (!mPreloadTelemetryRecorded) {
mPreloadTelemetryRecorded = true;
Telemetry::Accumulate(
Telemetry::LOCALDOMSTORAGE_PRELOAD_PENDING_ON_FIRST_ACCESS,
!loaded);
}
if (loaded) {
return;
}
// Measure which operation blocks and for how long
TelemetryAutoTimer timer(aTelemetryID);
// If preload already started (i.e. we got some first data, but not all)
// SyncPreload will just wait for it to finish rather then synchronously
// read from the database. It seems to me more optimal.
// TODO place for A/B testing (force main thread load vs. let preload finish)
// No need to check sDatabase for being non-null since preload is either
// done before we've shut the DB down or when the DB could not start,
// preload has not even be started.
StorageDBChild::Get()->SyncPreload(this);
}
nsresult
LocalStorageCache::GetLength(const LocalStorage* aStorage, uint32_t* aRetval)
{
if (Persist(aStorage)) {
WaitForPreload(Telemetry::LOCALDOMSTORAGE_GETLENGTH_BLOCKING_MS);
if (NS_FAILED(mLoadResult)) {
return mLoadResult;
}
}
*aRetval = DataSet(aStorage).mKeys.Count();
return NS_OK;
}
nsresult
LocalStorageCache::GetKey(const LocalStorage* aStorage, uint32_t aIndex,
nsAString& aRetval)
{
// XXX: This does a linear search for the key at index, which would
// suck if there's a large numer of indexes. Do we care? If so,
// maybe we need to have a lazily populated key array here or
// something?
if (Persist(aStorage)) {
WaitForPreload(Telemetry::LOCALDOMSTORAGE_GETKEY_BLOCKING_MS);
if (NS_FAILED(mLoadResult)) {
return mLoadResult;
}
}
aRetval.SetIsVoid(true);
for (auto iter = DataSet(aStorage).mKeys.Iter(); !iter.Done(); iter.Next()) {
if (aIndex == 0) {
aRetval = iter.Key();
break;
}
aIndex--;
}
return NS_OK;
}
void
LocalStorageCache::GetKeys(const LocalStorage* aStorage,
nsTArray<nsString>& aKeys)
{
if (Persist(aStorage)) {
WaitForPreload(Telemetry::LOCALDOMSTORAGE_GETALLKEYS_BLOCKING_MS);
}
if (NS_FAILED(mLoadResult)) {
return;
}
for (auto iter = DataSet(aStorage).mKeys.Iter(); !iter.Done(); iter.Next()) {
aKeys.AppendElement(iter.Key());
}
}
nsresult
LocalStorageCache::GetItem(const LocalStorage* aStorage, const nsAString& aKey,
nsAString& aRetval)
{
if (Persist(aStorage)) {
WaitForPreload(Telemetry::LOCALDOMSTORAGE_GETVALUE_BLOCKING_MS);
if (NS_FAILED(mLoadResult)) {
return mLoadResult;
}
}
// not using AutoString since we don't want to copy buffer to result
nsString value;
if (!DataSet(aStorage).mKeys.Get(aKey, &value)) {
SetDOMStringToNull(value);
}
aRetval = value;
return NS_OK;
}
nsresult
LocalStorageCache::SetItem(const LocalStorage* aStorage, const nsAString& aKey,
const nsString& aValue, nsString& aOld,
const MutationSource aSource)
{
// Size of the cache that will change after this action.
int64_t delta = 0;
if (Persist(aStorage)) {
WaitForPreload(Telemetry::LOCALDOMSTORAGE_SETVALUE_BLOCKING_MS);
if (NS_FAILED(mLoadResult)) {
return mLoadResult;
}
}
Data& data = DataSet(aStorage);
if (!data.mKeys.Get(aKey, &aOld)) {
SetDOMStringToNull(aOld);
// We only consider key size if the key doesn't exist before.
delta += static_cast<int64_t>(aKey.Length());
}
delta += static_cast<int64_t>(aValue.Length()) -
static_cast<int64_t>(aOld.Length());
if (!ProcessUsageDelta(aStorage, delta, aSource)) {
return NS_ERROR_DOM_QUOTA_REACHED;
}
if (aValue == aOld && DOMStringIsNull(aValue) == DOMStringIsNull(aOld)) {
return NS_SUCCESS_DOM_NO_OPERATION;
}
data.mKeys.Put(aKey, aValue);
if (aSource == ContentMutation && Persist(aStorage)) {
StorageDBChild* storageChild = StorageDBChild::Get();
if (!storageChild) {
NS_ERROR("Writing to localStorage after the database has been shut down"
", data lose!");
return NS_ERROR_NOT_INITIALIZED;
}
if (DOMStringIsNull(aOld)) {
return storageChild->AsyncAddItem(this, aKey, aValue);
}
return storageChild->AsyncUpdateItem(this, aKey, aValue);
}
return NS_OK;
}
nsresult
LocalStorageCache::RemoveItem(const LocalStorage* aStorage,
const nsAString& aKey,
nsString& aOld, const MutationSource aSource)
{
if (Persist(aStorage)) {
WaitForPreload(Telemetry::LOCALDOMSTORAGE_REMOVEKEY_BLOCKING_MS);
if (NS_FAILED(mLoadResult)) {
return mLoadResult;
}
}
Data& data = DataSet(aStorage);
if (!data.mKeys.Get(aKey, &aOld)) {
SetDOMStringToNull(aOld);
return NS_SUCCESS_DOM_NO_OPERATION;
}
// Recalculate the cached data size
const int64_t delta = -(static_cast<int64_t>(aOld.Length()) +
static_cast<int64_t>(aKey.Length()));
Unused << ProcessUsageDelta(aStorage, delta, aSource);
data.mKeys.Remove(aKey);
if (aSource == ContentMutation && Persist(aStorage)) {
StorageDBChild* storageChild = StorageDBChild::Get();
if (!storageChild) {
NS_ERROR("Writing to localStorage after the database has been shut down"
", data lose!");
return NS_ERROR_NOT_INITIALIZED;
}
return storageChild->AsyncRemoveItem(this, aKey);
}
return NS_OK;
}
nsresult
LocalStorageCache::Clear(const LocalStorage* aStorage,
const MutationSource aSource)
{
bool refresh = false;
if (Persist(aStorage)) {
// We need to preload all data (know the size) before we can proceeed
// to correctly decrease cached usage number.
// XXX as in case of unload, this is not technically needed now, but
// after super-scope quota introduction we have to do this. Get telemetry
// right now.
WaitForPreload(Telemetry::LOCALDOMSTORAGE_CLEAR_BLOCKING_MS);
if (NS_FAILED(mLoadResult)) {
// When we failed to load data from the database, force delete of the
// scope data and make use of the storage possible again.
refresh = true;
mLoadResult = NS_OK;
}
}
Data& data = DataSet(aStorage);
bool hadData = !!data.mKeys.Count();
if (hadData) {
Unused << ProcessUsageDelta(aStorage, -data.mOriginQuotaUsage, aSource);
data.mKeys.Clear();
}
if (aSource == ContentMutation && Persist(aStorage) && (refresh || hadData)) {
StorageDBChild* storageChild = StorageDBChild::Get();
if (!storageChild) {
NS_ERROR("Writing to localStorage after the database has been shut down"
", data lose!");
return NS_ERROR_NOT_INITIALIZED;
}
return storageChild->AsyncClear(this);
}
return hadData ? NS_OK : NS_SUCCESS_DOM_NO_OPERATION;
}
int64_t
LocalStorageCache::GetOriginQuotaUsage(const LocalStorage* aStorage) const
{
return mData[GetDataSetIndex(aStorage)].mOriginQuotaUsage;
}
void
LocalStorageCache::UnloadItems(uint32_t aUnloadFlags)
{
if (aUnloadFlags & kUnloadDefault) {
// Must wait for preload to pass correct usage to ProcessUsageDelta
// XXX this is not technically needed right now since there is just
// per-origin isolated quota handling, but when we introduce super-
// -scope quotas, we have to do this. Better to start getting
// telemetry right now.
WaitForPreload(Telemetry::LOCALDOMSTORAGE_UNLOAD_BLOCKING_MS);
mData[kDefaultSet].mKeys.Clear();
ProcessUsageDelta(kDefaultSet, -mData[kDefaultSet].mOriginQuotaUsage);
}
if (aUnloadFlags & kUnloadPrivate) {
mData[kPrivateSet].mKeys.Clear();
ProcessUsageDelta(kPrivateSet, -mData[kPrivateSet].mOriginQuotaUsage);
}
if (aUnloadFlags & kUnloadSession) {
mData[kSessionSet].mKeys.Clear();
ProcessUsageDelta(kSessionSet, -mData[kSessionSet].mOriginQuotaUsage);
mSessionOnlyDataSetActive = false;
}
#ifdef DOM_STORAGE_TESTS
if (aUnloadFlags & kTestReload) {
WaitForPreload(Telemetry::LOCALDOMSTORAGE_UNLOAD_BLOCKING_MS);
mData[kDefaultSet].mKeys.Clear();
mLoaded = false; // This is only used in testing code
Preload();
}
#endif
}
// LocalStorageCacheBridge
uint32_t
LocalStorageCache::LoadedCount()
{
MonitorAutoLock monitor(mMonitor);
Data& data = mData[kDefaultSet];
return data.mKeys.Count();
}
bool
LocalStorageCache::LoadItem(const nsAString& aKey, const nsString& aValue)
{
MonitorAutoLock monitor(mMonitor);
if (mLoaded) {
return false;
}
Data& data = mData[kDefaultSet];
if (data.mKeys.Get(aKey, nullptr)) {
return true; // don't stop, just don't override
}
data.mKeys.Put(aKey, aValue);
data.mOriginQuotaUsage += aKey.Length() + aValue.Length();
return true;
}
void
LocalStorageCache::LoadDone(nsresult aRv)
{
MonitorAutoLock monitor(mMonitor);
mLoadResult = aRv;
mLoaded = true;
monitor.Notify();
}
void
LocalStorageCache::LoadWait()
{
MonitorAutoLock monitor(mMonitor);
while (!mLoaded) {
monitor.Wait();
}
}
// StorageUsage
StorageUsage::StorageUsage(const nsACString& aOriginScope)
: mOriginScope(aOriginScope)
{
mUsage[kDefaultSet] = mUsage[kPrivateSet] = mUsage[kSessionSet] = 0LL;
}
namespace {
class LoadUsageRunnable : public Runnable
{
public:
LoadUsageRunnable(int64_t* aUsage, const int64_t aDelta)
: Runnable("dom::LoadUsageRunnable")
, mTarget(aUsage)
, mDelta(aDelta)
{}
private:
int64_t* mTarget;
int64_t mDelta;
NS_IMETHOD Run() override { *mTarget = mDelta; return NS_OK; }
};
} // namespace
void
StorageUsage::LoadUsage(const int64_t aUsage)
{
// Using kDefaultSet index since it is the index for the persitent data
// stored in the database we have just loaded usage for.
if (!NS_IsMainThread()) {
// In single process scenario we get this call from the DB thread
RefPtr<LoadUsageRunnable> r =
new LoadUsageRunnable(mUsage + kDefaultSet, aUsage);
NS_DispatchToMainThread(r);
} else {
// On a child process we get this on the main thread already
mUsage[kDefaultSet] += aUsage;
}
}
bool
StorageUsage::CheckAndSetETLD1UsageDelta(uint32_t aDataSetIndex,
const int64_t aDelta, const LocalStorageCache::MutationSource aSource)
{
MOZ_ASSERT(NS_IsMainThread());
int64_t newUsage = mUsage[aDataSetIndex] + aDelta;
if (aSource == LocalStorageCache::ContentMutation &&
aDelta > 0 && newUsage > LocalStorageManager::GetQuota()) {
return false;
}
mUsage[aDataSetIndex] = newUsage;
return true;
}
} // namespace dom
} // namespace mozilla