/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* 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 "DOMStorageIPC.h" #include "DOMStorageManager.h" #include "mozilla/dom/ContentChild.h" #include "mozilla/dom/ContentParent.h" #include "mozilla/unused.h" #include "nsIDiskSpaceWatcher.h" #include "nsThreadUtils.h" namespace mozilla { namespace dom { // ---------------------------------------------------------------------------- // Child // ---------------------------------------------------------------------------- NS_IMPL_ADDREF(DOMStorageDBChild) NS_IMETHODIMP_(MozExternalRefCountType) DOMStorageDBChild::Release(void) { NS_PRECONDITION(0 != mRefCnt, "dup release"); nsrefcnt count = --mRefCnt; NS_LOG_RELEASE(this, count, "DOMStorageDBChild"); if (count == 1 && mIPCOpen) { Send__delete__(this); return 0; } if (count == 0) { mRefCnt = 1; delete this; return 0; } return count; } void DOMStorageDBChild::AddIPDLReference() { MOZ_ASSERT(!mIPCOpen, "Attempting to retain multiple IPDL references"); mIPCOpen = true; AddRef(); } void DOMStorageDBChild::ReleaseIPDLReference() { MOZ_ASSERT(mIPCOpen, "Attempting to release non-existent IPDL reference"); mIPCOpen = false; Release(); } DOMStorageDBChild::DOMStorageDBChild(DOMLocalStorageManager* aManager) : mManager(aManager) , mStatus(NS_OK) , mIPCOpen(false) { } DOMStorageDBChild::~DOMStorageDBChild() { } nsTHashtable& DOMStorageDBChild::ScopesHavingData() { if (!mScopesHavingData) { mScopesHavingData = new nsTHashtable; } return *mScopesHavingData; } nsresult DOMStorageDBChild::Init() { ContentChild* child = ContentChild::GetSingleton(); AddIPDLReference(); child->SendPStorageConstructor(this); return NS_OK; } nsresult DOMStorageDBChild::Shutdown() { // There is nothing to do here, IPC will release automatically and // the actual thread running on the parent process will also stop // automatically in profile-before-change topic observer. return NS_OK; } void DOMStorageDBChild::AsyncPreload(DOMStorageCacheBridge* aCache, bool aPriority) { if (mIPCOpen) { // Adding ref to cache for the time of preload. This ensures a reference to // to the cache and that all keys will load into this cache object. mLoadingCaches.PutEntry(aCache); SendAsyncPreload(aCache->Scope(), aPriority); } else { // No IPC, no love. But the LoadDone call is expected. aCache->LoadDone(NS_ERROR_UNEXPECTED); } } void DOMStorageDBChild::AsyncGetUsage(DOMStorageUsageBridge* aUsage) { if (mIPCOpen) { SendAsyncGetUsage(aUsage->Scope()); } } void DOMStorageDBChild::SyncPreload(DOMStorageCacheBridge* aCache, bool aForceSync) { if (NS_FAILED(mStatus)) { aCache->LoadDone(mStatus); return; } if (!mIPCOpen) { aCache->LoadDone(NS_ERROR_UNEXPECTED); return; } // There is no way to put the child process to a wait state to receive all // incoming async responses from the parent, hence we have to do a sync preload // instead. We are smart though, we only demand keys that are left to load in // case the async preload has already loaded some keys. InfallibleTArray keys, values; nsresult rv; SendPreload(aCache->Scope(), aCache->LoadedCount(), &keys, &values, &rv); for (uint32_t i = 0; i < keys.Length(); ++i) { aCache->LoadItem(keys[i], values[i]); } aCache->LoadDone(rv); } nsresult DOMStorageDBChild::AsyncAddItem(DOMStorageCacheBridge* aCache, const nsAString& aKey, const nsAString& aValue) { if (NS_FAILED(mStatus) || !mIPCOpen) { return mStatus; } SendAsyncAddItem(aCache->Scope(), nsString(aKey), nsString(aValue)); ScopesHavingData().PutEntry(aCache->Scope()); return NS_OK; } nsresult DOMStorageDBChild::AsyncUpdateItem(DOMStorageCacheBridge* aCache, const nsAString& aKey, const nsAString& aValue) { if (NS_FAILED(mStatus) || !mIPCOpen) { return mStatus; } SendAsyncUpdateItem(aCache->Scope(), nsString(aKey), nsString(aValue)); ScopesHavingData().PutEntry(aCache->Scope()); return NS_OK; } nsresult DOMStorageDBChild::AsyncRemoveItem(DOMStorageCacheBridge* aCache, const nsAString& aKey) { if (NS_FAILED(mStatus) || !mIPCOpen) { return mStatus; } SendAsyncRemoveItem(aCache->Scope(), nsString(aKey)); return NS_OK; } nsresult DOMStorageDBChild::AsyncClear(DOMStorageCacheBridge* aCache) { if (NS_FAILED(mStatus) || !mIPCOpen) { return mStatus; } SendAsyncClear(aCache->Scope()); ScopesHavingData().RemoveEntry(aCache->Scope()); return NS_OK; } bool DOMStorageDBChild::ShouldPreloadScope(const nsACString& aScope) { // Return true if we didn't receive the aScope list yet. // I tend to rather preserve a bit of early-after-start performance // then a bit of memory here. return !mScopesHavingData || mScopesHavingData->Contains(aScope); } bool DOMStorageDBChild::RecvObserve(const nsCString& aTopic, const nsCString& aScopePrefix) { DOMStorageObserver::Self()->Notify(aTopic.get(), aScopePrefix); return true; } bool DOMStorageDBChild::RecvScopesHavingData(nsTArray&& aScopes) { for (uint32_t i = 0; i < aScopes.Length(); ++i) { ScopesHavingData().PutEntry(aScopes[i]); } return true; } bool DOMStorageDBChild::RecvLoadItem(const nsCString& aScope, const nsString& aKey, const nsString& aValue) { DOMStorageCache* aCache = mManager->GetCache(aScope); if (aCache) { aCache->LoadItem(aKey, aValue); } return true; } bool DOMStorageDBChild::RecvLoadDone(const nsCString& aScope, const nsresult& aRv) { DOMStorageCache* aCache = mManager->GetCache(aScope); if (aCache) { aCache->LoadDone(aRv); // Just drop reference to this cache now since the load is done. mLoadingCaches.RemoveEntry(static_cast(aCache)); } return true; } bool DOMStorageDBChild::RecvLoadUsage(const nsCString& aScope, const int64_t& aUsage) { nsRefPtr scopeUsage = mManager->GetScopeUsage(aScope); scopeUsage->LoadUsage(aUsage); return true; } bool DOMStorageDBChild::RecvError(const nsresult& aRv) { mStatus = aRv; return true; } // ---------------------------------------------------------------------------- // Parent // ---------------------------------------------------------------------------- NS_IMPL_ADDREF(DOMStorageDBParent) NS_IMPL_RELEASE(DOMStorageDBParent) void DOMStorageDBParent::AddIPDLReference() { MOZ_ASSERT(!mIPCOpen, "Attempting to retain multiple IPDL references"); mIPCOpen = true; AddRef(); } void DOMStorageDBParent::ReleaseIPDLReference() { MOZ_ASSERT(mIPCOpen, "Attempting to release non-existent IPDL reference"); mIPCOpen = false; Release(); } namespace { // anon class SendInitialChildDataRunnable : public nsRunnable { public: explicit SendInitialChildDataRunnable(DOMStorageDBParent* aParent) : mParent(aParent) {} private: NS_IMETHOD Run() { if (!mParent->IPCOpen()) { return NS_OK; } DOMStorageDBBridge* db = DOMStorageCache::GetDatabase(); if (db) { InfallibleTArray scopes; db->GetScopesHavingData(&scopes); mozilla::unused << mParent->SendScopesHavingData(scopes); } // We need to check if the device is in a low disk space situation, so // we can forbid in that case any write in localStorage. nsCOMPtr diskSpaceWatcher = do_GetService("@mozilla.org/toolkit/disk-space-watcher;1"); if (!diskSpaceWatcher) { NS_WARNING("Could not get disk information from DiskSpaceWatcher"); return NS_OK; } bool lowDiskSpace = false; diskSpaceWatcher->GetIsDiskFull(&lowDiskSpace); if (lowDiskSpace) { mozilla::unused << mParent->SendObserve( nsDependentCString("low-disk-space"), EmptyCString()); } return NS_OK; } nsRefPtr mParent; }; } // anon DOMStorageDBParent::DOMStorageDBParent() : mIPCOpen(false) { DOMStorageObserver* observer = DOMStorageObserver::Self(); if (observer) { observer->AddSink(this); } // We are always open by IPC only AddIPDLReference(); // Cannot send directly from here since the channel // is not completely built at this moment. nsRefPtr r = new SendInitialChildDataRunnable(this); NS_DispatchToCurrentThread(r); } DOMStorageDBParent::~DOMStorageDBParent() { DOMStorageObserver* observer = DOMStorageObserver::Self(); if (observer) { observer->RemoveSink(this); } } mozilla::ipc::IProtocol* DOMStorageDBParent::CloneProtocol(Channel* aChannel, mozilla::ipc::ProtocolCloneContext* aCtx) { ContentParent* contentParent = aCtx->GetContentParent(); nsAutoPtr actor(contentParent->AllocPStorageParent()); if (!actor || !contentParent->RecvPStorageConstructor(actor)) { return nullptr; } return actor.forget(); } DOMStorageDBParent::CacheParentBridge* DOMStorageDBParent::NewCache(const nsACString& aScope) { return new CacheParentBridge(this, aScope); } void DOMStorageDBParent::ActorDestroy(ActorDestroyReason aWhy) { // Implement me! Bug 1005169 } bool DOMStorageDBParent::RecvAsyncPreload(const nsCString& aScope, const bool& aPriority) { DOMStorageDBBridge* db = DOMStorageCache::StartDatabase(); if (!db) { return false; } db->AsyncPreload(NewCache(aScope), aPriority); return true; } bool DOMStorageDBParent::RecvAsyncGetUsage(const nsCString& aScope) { DOMStorageDBBridge* db = DOMStorageCache::StartDatabase(); if (!db) { return false; } // The object releases it self in LoadUsage method nsRefPtr usage = new UsageParentBridge(this, aScope); db->AsyncGetUsage(usage); return true; } namespace { // anon // We need another implementation of DOMStorageCacheBridge to do // synchronous IPC preload. This class just receives Load* notifications // and fills the returning arguments of RecvPreload with the database // values for us. class SyncLoadCacheHelper : public DOMStorageCacheBridge { public: SyncLoadCacheHelper(const nsCString& aScope, uint32_t aAlreadyLoadedCount, InfallibleTArray* aKeys, InfallibleTArray* aValues, nsresult* rv) : mMonitor("DOM Storage SyncLoad IPC") , mScope(aScope) , mKeys(aKeys) , mValues(aValues) , mRv(rv) , mLoaded(false) , mLoadedCount(aAlreadyLoadedCount) { // Precaution *mRv = NS_ERROR_UNEXPECTED; } virtual const nsCString& Scope() const { return mScope; } virtual bool Loaded() { return mLoaded; } virtual uint32_t LoadedCount() { return mLoadedCount; } virtual bool LoadItem(const nsAString& aKey, const nsString& aValue) { // Called on the aCache background thread if (mLoaded) { return false; } ++mLoadedCount; mKeys->AppendElement(aKey); mValues->AppendElement(aValue); return true; } virtual void LoadDone(nsresult aRv) { // Called on the aCache background thread MonitorAutoLock monitor(mMonitor); mLoaded = true; *mRv = aRv; monitor.Notify(); } virtual void LoadWait() { // Called on the main thread, exits after LoadDone() call MonitorAutoLock monitor(mMonitor); while (!mLoaded) { monitor.Wait(); } } private: Monitor mMonitor; nsCString mScope; InfallibleTArray* mKeys; InfallibleTArray* mValues; nsresult* mRv; bool mLoaded; uint32_t mLoadedCount; }; } // anon bool DOMStorageDBParent::RecvPreload(const nsCString& aScope, const uint32_t& aAlreadyLoadedCount, InfallibleTArray* aKeys, InfallibleTArray* aValues, nsresult* aRv) { DOMStorageDBBridge* db = DOMStorageCache::StartDatabase(); if (!db) { return false; } nsRefPtr cache( new SyncLoadCacheHelper(aScope, aAlreadyLoadedCount, aKeys, aValues, aRv)); db->SyncPreload(cache, true); return true; } bool DOMStorageDBParent::RecvAsyncAddItem(const nsCString& aScope, const nsString& aKey, const nsString& aValue) { DOMStorageDBBridge* db = DOMStorageCache::StartDatabase(); if (!db) { return false; } nsresult rv = db->AsyncAddItem(NewCache(aScope), aKey, aValue); if (NS_FAILED(rv) && mIPCOpen) { mozilla::unused << SendError(rv); } return true; } bool DOMStorageDBParent::RecvAsyncUpdateItem(const nsCString& aScope, const nsString& aKey, const nsString& aValue) { DOMStorageDBBridge* db = DOMStorageCache::StartDatabase(); if (!db) { return false; } nsresult rv = db->AsyncUpdateItem(NewCache(aScope), aKey, aValue); if (NS_FAILED(rv) && mIPCOpen) { mozilla::unused << SendError(rv); } return true; } bool DOMStorageDBParent::RecvAsyncRemoveItem(const nsCString& aScope, const nsString& aKey) { DOMStorageDBBridge* db = DOMStorageCache::StartDatabase(); if (!db) { return false; } nsresult rv = db->AsyncRemoveItem(NewCache(aScope), aKey); if (NS_FAILED(rv) && mIPCOpen) { mozilla::unused << SendError(rv); } return true; } bool DOMStorageDBParent::RecvAsyncClear(const nsCString& aScope) { DOMStorageDBBridge* db = DOMStorageCache::StartDatabase(); if (!db) { return false; } nsresult rv = db->AsyncClear(NewCache(aScope)); if (NS_FAILED(rv) && mIPCOpen) { mozilla::unused << SendError(rv); } return true; } bool DOMStorageDBParent::RecvAsyncFlush() { DOMStorageDBBridge* db = DOMStorageCache::GetDatabase(); if (!db) { return false; } db->AsyncFlush(); return true; } // DOMStorageObserverSink nsresult DOMStorageDBParent::Observe(const char* aTopic, const nsACString& aScopePrefix) { if (mIPCOpen) { #ifdef MOZ_NUWA_PROCESS if (!(static_cast(Manager())->IsNuwaProcess() && ContentParent::IsNuwaReady())) { #endif mozilla::unused << SendObserve(nsDependentCString(aTopic), nsCString(aScopePrefix)); #ifdef MOZ_NUWA_PROCESS } #endif } return NS_OK; } namespace { // anon // Results must be sent back on the main thread class LoadRunnable : public nsRunnable { public: enum TaskType { loadItem, loadDone }; LoadRunnable(DOMStorageDBParent* aParent, TaskType aType, const nsACString& aScope, const nsAString& aKey = EmptyString(), const nsAString& aValue = EmptyString()) : mParent(aParent) , mType(aType) , mScope(aScope) , mKey(aKey) , mValue(aValue) { } LoadRunnable(DOMStorageDBParent* aParent, TaskType aType, const nsACString& aScope, nsresult aRv) : mParent(aParent) , mType(aType) , mScope(aScope) , mRv(aRv) { } private: nsRefPtr mParent; TaskType mType; nsCString mScope; nsString mKey; nsString mValue; nsresult mRv; NS_IMETHOD Run() { if (!mParent->IPCOpen()) { return NS_OK; } switch (mType) { case loadItem: mozilla::unused << mParent->SendLoadItem(mScope, mKey, mValue); break; case loadDone: mozilla::unused << mParent->SendLoadDone(mScope, mRv); break; } return NS_OK; } }; } // anon // DOMStorageDBParent::CacheParentBridge bool DOMStorageDBParent::CacheParentBridge::LoadItem(const nsAString& aKey, const nsString& aValue) { if (mLoaded) { return false; } ++mLoadedCount; nsRefPtr r = new LoadRunnable(mParent, LoadRunnable::loadItem, mScope, aKey, aValue); NS_DispatchToMainThread(r); return true; } void DOMStorageDBParent::CacheParentBridge::LoadDone(nsresult aRv) { // Prevent send of duplicate LoadDone. if (mLoaded) { return; } mLoaded = true; nsRefPtr r = new LoadRunnable(mParent, LoadRunnable::loadDone, mScope, aRv); NS_DispatchToMainThread(r); } void DOMStorageDBParent::CacheParentBridge::LoadWait() { // Should never be called on this implementation MOZ_ASSERT(false); } // DOMStorageDBParent::UsageParentBridge namespace { // anon class UsageRunnable : public nsRunnable { public: UsageRunnable(DOMStorageDBParent* aParent, const nsACString& aScope, const int64_t& aUsage) : mParent(aParent) , mScope(aScope) , mUsage(aUsage) {} private: NS_IMETHOD Run() { if (!mParent->IPCOpen()) { return NS_OK; } mozilla::unused << mParent->SendLoadUsage(mScope, mUsage); return NS_OK; } nsRefPtr mParent; nsCString mScope; int64_t mUsage; }; } // anon void DOMStorageDBParent::UsageParentBridge::LoadUsage(const int64_t aUsage) { nsRefPtr r = new UsageRunnable(mParent, mScope, aUsage); NS_DispatchToMainThread(r); } } // ::dom } // ::mozilla