// Copyright 2013 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "sync/syncable/model_neutral_mutable_entry.h" #include #include "sync/internal_api/public/base/unique_position.h" #include "sync/syncable/directory.h" #include "sync/syncable/scoped_kernel_lock.h" #include "sync/syncable/syncable_changes_version.h" #include "sync/syncable/syncable_util.h" #include "sync/syncable/syncable_write_transaction.h" using std::string; namespace syncer { namespace syncable { ModelNeutralMutableEntry::ModelNeutralMutableEntry(BaseWriteTransaction* trans, CreateNewUpdateItem, const Id& id) : Entry(trans), base_write_transaction_(trans) { Entry same_id(trans, GET_BY_ID, id); kernel_ = NULL; if (same_id.good()) { return; // already have an item with this ID. } scoped_ptr kernel(new EntryKernel()); kernel->put(ID, id); kernel->put(META_HANDLE, trans->directory()->NextMetahandle()); kernel->mark_dirty(&trans->directory()->kernel_->dirty_metahandles); kernel->put(IS_DEL, true); // We match the database defaults here kernel->put(BASE_VERSION, CHANGES_VERSION); if (!trans->directory()->InsertEntry(trans, kernel.get())) { return; // Failed inserting. } trans->TrackChangesTo(kernel.get()); kernel_ = kernel.release(); } ModelNeutralMutableEntry::ModelNeutralMutableEntry( BaseWriteTransaction* trans, GetById, const Id& id) : Entry(trans, GET_BY_ID, id), base_write_transaction_(trans) { } ModelNeutralMutableEntry::ModelNeutralMutableEntry( BaseWriteTransaction* trans, GetByHandle, int64 metahandle) : Entry(trans, GET_BY_HANDLE, metahandle), base_write_transaction_(trans) { } ModelNeutralMutableEntry::ModelNeutralMutableEntry( BaseWriteTransaction* trans, GetByClientTag, const std::string& tag) : Entry(trans, GET_BY_CLIENT_TAG, tag), base_write_transaction_(trans) { } ModelNeutralMutableEntry::ModelNeutralMutableEntry( BaseWriteTransaction* trans, GetByServerTag, const string& tag) : Entry(trans, GET_BY_SERVER_TAG, tag), base_write_transaction_(trans) { } void ModelNeutralMutableEntry::PutBaseVersion(int64 value) { DCHECK(kernel_); base_write_transaction_->TrackChangesTo(kernel_); if (kernel_->ref(BASE_VERSION) != value) { kernel_->put(BASE_VERSION, value); kernel_->mark_dirty(&dir()->kernel_->dirty_metahandles); } } void ModelNeutralMutableEntry::PutServerVersion(int64 value) { DCHECK(kernel_); base_write_transaction_->TrackChangesTo(kernel_); if (kernel_->ref(SERVER_VERSION) != value) { ScopedKernelLock lock(dir()); kernel_->put(SERVER_VERSION, value); kernel_->mark_dirty(&dir()->kernel_->dirty_metahandles); } } void ModelNeutralMutableEntry::PutServerMtime(base::Time value) { DCHECK(kernel_); base_write_transaction_->TrackChangesTo(kernel_); if (kernel_->ref(SERVER_MTIME) != value) { kernel_->put(SERVER_MTIME, value); kernel_->mark_dirty(&dir()->kernel_->dirty_metahandles); } } void ModelNeutralMutableEntry::PutServerCtime(base::Time value) { DCHECK(kernel_); base_write_transaction_->TrackChangesTo(kernel_); if (kernel_->ref(SERVER_CTIME) != value) { kernel_->put(SERVER_CTIME, value); kernel_->mark_dirty(&dir()->kernel_->dirty_metahandles); } } bool ModelNeutralMutableEntry::PutId(const Id& value) { DCHECK(kernel_); base_write_transaction_->TrackChangesTo(kernel_); if (kernel_->ref(ID) != value) { if (!dir()->ReindexId(base_write_transaction(), kernel_, value)) return false; kernel_->mark_dirty(&dir()->kernel_->dirty_metahandles); } return true; } void ModelNeutralMutableEntry::PutServerParentId(const Id& value) { DCHECK(kernel_); base_write_transaction_->TrackChangesTo(kernel_); if (kernel_->ref(SERVER_PARENT_ID) != value) { kernel_->put(SERVER_PARENT_ID, value); kernel_->mark_dirty(&dir()->kernel_->dirty_metahandles); } } bool ModelNeutralMutableEntry::PutIsUnsynced(bool value) { DCHECK(kernel_); base_write_transaction_->TrackChangesTo(kernel_); if (kernel_->ref(IS_UNSYNCED) != value) { MetahandleSet* index = &dir()->kernel_->unsynced_metahandles; ScopedKernelLock lock(dir()); if (value) { if (!SyncAssert(index->insert(kernel_->ref(META_HANDLE)).second, FROM_HERE, "Could not insert", base_write_transaction())) { return false; } } else { if (!SyncAssert(1U == index->erase(kernel_->ref(META_HANDLE)), FROM_HERE, "Entry Not succesfully erased", base_write_transaction())) { return false; } } kernel_->put(IS_UNSYNCED, value); kernel_->mark_dirty(&dir()->kernel_->dirty_metahandles); } return true; } bool ModelNeutralMutableEntry::PutIsUnappliedUpdate(bool value) { DCHECK(kernel_); base_write_transaction_->TrackChangesTo(kernel_); if (kernel_->ref(IS_UNAPPLIED_UPDATE) != value) { // Use kernel_->GetServerModelType() instead of // GetServerModelType() as we may trigger some DCHECKs in the // latter. MetahandleSet* index = &dir()->kernel_->unapplied_update_metahandles[ kernel_->GetServerModelType()]; ScopedKernelLock lock(dir()); if (value) { if (!SyncAssert(index->insert(kernel_->ref(META_HANDLE)).second, FROM_HERE, "Could not insert", base_write_transaction())) { return false; } } else { if (!SyncAssert(1U == index->erase(kernel_->ref(META_HANDLE)), FROM_HERE, "Entry Not succesfully erased", base_write_transaction())) { return false; } } kernel_->put(IS_UNAPPLIED_UPDATE, value); kernel_->mark_dirty(&dir()->kernel_->dirty_metahandles); } return true; } void ModelNeutralMutableEntry::PutServerIsDir(bool value) { DCHECK(kernel_); base_write_transaction_->TrackChangesTo(kernel_); bool old_value = kernel_->ref(SERVER_IS_DIR); if (old_value != value) { kernel_->put(SERVER_IS_DIR, value); kernel_->mark_dirty(GetDirtyIndexHelper()); } } void ModelNeutralMutableEntry::PutServerIsDel(bool value) { DCHECK(kernel_); base_write_transaction_->TrackChangesTo(kernel_); bool old_value = kernel_->ref(SERVER_IS_DEL); if (old_value != value) { kernel_->put(SERVER_IS_DEL, value); kernel_->mark_dirty(GetDirtyIndexHelper()); } // Update delete journal for existence status change on server side here // instead of in PutIsDel() because IS_DEL may not be updated due to // early returns when processing updates. And because // UpdateDeleteJournalForServerDelete() checks for SERVER_IS_DEL, it has // to be called on sync thread. dir()->delete_journal()->UpdateDeleteJournalForServerDelete( base_write_transaction(), old_value, *kernel_); } void ModelNeutralMutableEntry::PutServerNonUniqueName( const std::string& value) { DCHECK(kernel_); base_write_transaction_->TrackChangesTo(kernel_); if (kernel_->ref(SERVER_NON_UNIQUE_NAME) != value) { kernel_->put(SERVER_NON_UNIQUE_NAME, value); kernel_->mark_dirty(&dir()->kernel_->dirty_metahandles); } } bool ModelNeutralMutableEntry::PutUniqueServerTag(const string& new_tag) { if (new_tag == kernel_->ref(UNIQUE_SERVER_TAG)) { return true; } base_write_transaction_->TrackChangesTo(kernel_); ScopedKernelLock lock(dir()); // Make sure your new value is not in there already. if (dir()->kernel_->server_tags_map.find(new_tag) != dir()->kernel_->server_tags_map.end()) { DVLOG(1) << "Detected duplicate server tag"; return false; } dir()->kernel_->server_tags_map.erase( kernel_->ref(UNIQUE_SERVER_TAG)); kernel_->put(UNIQUE_SERVER_TAG, new_tag); kernel_->mark_dirty(&dir()->kernel_->dirty_metahandles); if (!new_tag.empty()) { dir()->kernel_->server_tags_map[new_tag] = kernel_; } return true; } bool ModelNeutralMutableEntry::PutUniqueClientTag(const string& new_tag) { if (new_tag == kernel_->ref(UNIQUE_CLIENT_TAG)) { return true; } base_write_transaction_->TrackChangesTo(kernel_); ScopedKernelLock lock(dir()); // Make sure your new value is not in there already. if (dir()->kernel_->client_tags_map.find(new_tag) != dir()->kernel_->client_tags_map.end()) { DVLOG(1) << "Detected duplicate client tag"; return false; } dir()->kernel_->client_tags_map.erase( kernel_->ref(UNIQUE_CLIENT_TAG)); kernel_->put(UNIQUE_CLIENT_TAG, new_tag); kernel_->mark_dirty(&dir()->kernel_->dirty_metahandles); if (!new_tag.empty()) { dir()->kernel_->client_tags_map[new_tag] = kernel_; } return true; } void ModelNeutralMutableEntry::PutUniqueBookmarkTag(const std::string& tag) { // This unique tag will eventually be used as the unique suffix when adjusting // this bookmark's position. Let's make sure it's a valid suffix. if (!UniquePosition::IsValidSuffix(tag)) { NOTREACHED(); return; } if (!kernel_->ref(UNIQUE_BOOKMARK_TAG).empty() && tag != kernel_->ref(UNIQUE_BOOKMARK_TAG)) { // There is only one scenario where our tag is expected to change. That // scenario occurs when our current tag is a non-correct tag assigned during // the UniquePosition migration. std::string migration_generated_tag = GenerateSyncableBookmarkHash(std::string(), kernel_->ref(ID).GetServerId()); DCHECK_EQ(migration_generated_tag, kernel_->ref(UNIQUE_BOOKMARK_TAG)); } kernel_->put(UNIQUE_BOOKMARK_TAG, tag); kernel_->mark_dirty(&dir()->kernel_->dirty_metahandles); } void ModelNeutralMutableEntry::PutServerSpecifics( const sync_pb::EntitySpecifics& value) { DCHECK(kernel_); CHECK(!value.password().has_client_only_encrypted_data()); base_write_transaction_->TrackChangesTo(kernel_); // TODO(ncarter): This is unfortunately heavyweight. Can we do // better? if (kernel_->ref(SERVER_SPECIFICS).SerializeAsString() != value.SerializeAsString()) { if (kernel_->ref(IS_UNAPPLIED_UPDATE)) { // Remove ourselves from unapplied_update_metahandles with our // old server type. const ModelType old_server_type = kernel_->GetServerModelType(); const int64 metahandle = kernel_->ref(META_HANDLE); size_t erase_count = dir()->kernel_->unapplied_update_metahandles[old_server_type] .erase(metahandle); DCHECK_EQ(erase_count, 1u); } kernel_->put(SERVER_SPECIFICS, value); kernel_->mark_dirty(&dir()->kernel_->dirty_metahandles); if (kernel_->ref(IS_UNAPPLIED_UPDATE)) { // Add ourselves back into unapplied_update_metahandles with our // new server type. const ModelType new_server_type = kernel_->GetServerModelType(); const int64 metahandle = kernel_->ref(META_HANDLE); dir()->kernel_->unapplied_update_metahandles[new_server_type] .insert(metahandle); } } } void ModelNeutralMutableEntry::PutBaseServerSpecifics( const sync_pb::EntitySpecifics& value) { DCHECK(kernel_); CHECK(!value.password().has_client_only_encrypted_data()); base_write_transaction_->TrackChangesTo(kernel_); // TODO(ncarter): This is unfortunately heavyweight. Can we do // better? if (kernel_->ref(BASE_SERVER_SPECIFICS).SerializeAsString() != value.SerializeAsString()) { kernel_->put(BASE_SERVER_SPECIFICS, value); kernel_->mark_dirty(&dir()->kernel_->dirty_metahandles); } } void ModelNeutralMutableEntry::PutServerUniquePosition( const UniquePosition& value) { DCHECK(kernel_); base_write_transaction_->TrackChangesTo(kernel_); if(!kernel_->ref(SERVER_UNIQUE_POSITION).Equals(value)) { // We should never overwrite a valid position with an invalid one. DCHECK(value.IsValid()); ScopedKernelLock lock(dir()); kernel_->put(SERVER_UNIQUE_POSITION, value); kernel_->mark_dirty(&dir()->kernel_->dirty_metahandles); } } void ModelNeutralMutableEntry::PutSyncing(bool value) { kernel_->put(SYNCING, value); } void ModelNeutralMutableEntry::PutParentIdPropertyOnly(const Id& parent_id) { base_write_transaction_->TrackChangesTo(kernel_); dir()->ReindexParentId(base_write_transaction(), kernel_, parent_id); kernel_->mark_dirty(&dir()->kernel_->dirty_metahandles); } void ModelNeutralMutableEntry::UpdateTransactionVersion(int64 value) { ScopedKernelLock lock(dir()); kernel_->put(TRANSACTION_VERSION, value); kernel_->mark_dirty(&(dir()->kernel_->dirty_metahandles)); } ModelNeutralMutableEntry::ModelNeutralMutableEntry(BaseWriteTransaction* trans) : Entry(trans), base_write_transaction_(trans) {} MetahandleSet* ModelNeutralMutableEntry::GetDirtyIndexHelper() { return &dir()->kernel_->dirty_metahandles; } } // namespace syncable } // namespace syncer