// Copyright (c) 2012 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/internal_api/public/base_node.h" #include #include "base/strings/string_number_conversions.h" #include "base/strings/utf_string_conversions.h" #include "sync/internal_api/public/base_transaction.h" #include "sync/internal_api/syncapi_internal.h" #include "sync/protocol/app_specifics.pb.h" #include "sync/protocol/autofill_specifics.pb.h" #include "sync/protocol/bookmark_specifics.pb.h" #include "sync/protocol/extension_specifics.pb.h" #include "sync/protocol/nigori_specifics.pb.h" #include "sync/protocol/password_specifics.pb.h" #include "sync/protocol/session_specifics.pb.h" #include "sync/protocol/theme_specifics.pb.h" #include "sync/protocol/typed_url_specifics.pb.h" #include "sync/syncable/directory.h" #include "sync/syncable/entry.h" #include "sync/syncable/syncable_id.h" #include "sync/util/time.h" using sync_pb::AutofillProfileSpecifics; namespace syncer { using syncable::SPECIFICS; // Helper function to look up the int64 metahandle of an object given the ID // string. static int64 IdToMetahandle(syncable::BaseTransaction* trans, const syncable::Id& id) { syncable::Entry entry(trans, syncable::GET_BY_ID, id); if (!entry.good()) return kInvalidId; return entry.GetMetahandle(); } static bool EndsWithSpace(const std::string& string) { return !string.empty() && *string.rbegin() == ' '; } // In the reverse direction, if a server name matches the pattern of a // server-illegal name followed by one or more spaces, remove the trailing // space. static void ServerNameToSyncAPIName(const std::string& server_name, std::string* out) { CHECK(out); int length_to_copy = server_name.length(); if (IsNameServerIllegalAfterTrimming(server_name) && EndsWithSpace(server_name)) { --length_to_copy; } *out = std::string(server_name.c_str(), length_to_copy); } BaseNode::BaseNode() : password_data_(new sync_pb::PasswordSpecificsData) {} BaseNode::~BaseNode() {} bool BaseNode::DecryptIfNecessary() { if (!GetEntry()->GetUniqueServerTag().empty()) return true; // Ignore unique folders. const sync_pb::EntitySpecifics& specifics = GetEntry()->GetSpecifics(); if (specifics.has_password()) { // Passwords have their own legacy encryption structure. scoped_ptr data(DecryptPasswordSpecifics( specifics, GetTransaction()->GetCryptographer())); if (!data) { LOG(ERROR) << "Failed to decrypt password specifics."; return false; } password_data_.swap(data); return true; } // We assume any node with the encrypted field set has encrypted data and if // not we have no work to do, with the exception of bookmarks. For bookmarks // we must make sure the bookmarks data has the title field supplied. If not, // we fill the unencrypted_data_ with a copy of the bookmark specifics that // follows the new bookmarks format. if (!specifics.has_encrypted()) { if (GetModelType() == BOOKMARKS && !specifics.bookmark().has_title() && !GetTitle().empty()) { // Last check ensures this isn't a new node. // We need to fill in the title. std::string title = GetTitle(); std::string server_legal_title; SyncAPINameToServerName(title, &server_legal_title); DVLOG(1) << "Reading from legacy bookmark, manually returning title " << title; unencrypted_data_.CopyFrom(specifics); unencrypted_data_.mutable_bookmark()->set_title( server_legal_title); } return true; } const sync_pb::EncryptedData& encrypted = specifics.encrypted(); std::string plaintext_data = GetTransaction()->GetCryptographer()-> DecryptToString(encrypted); if (plaintext_data.length() == 0) { LOG(ERROR) << "Failed to decrypt encrypted node of type " << ModelTypeToString(GetModelType()) << "."; // Debugging for crbug.com/123223. We failed to decrypt the data, which // means we applied an update without having the key or lost the key at a // later point. CHECK(false); return false; } else if (!unencrypted_data_.ParseFromString(plaintext_data)) { // Debugging for crbug.com/123223. We should never succeed in decrypting // but fail to parse into a protobuf. CHECK(false); return false; } DVLOG(2) << "Decrypted specifics of type " << ModelTypeToString(GetModelType()) << " with content: " << plaintext_data; return true; } const sync_pb::EntitySpecifics& BaseNode::GetUnencryptedSpecifics( const syncable::Entry* entry) const { const sync_pb::EntitySpecifics& specifics = entry->GetSpecifics(); if (specifics.has_encrypted()) { DCHECK_NE(GetModelTypeFromSpecifics(unencrypted_data_), UNSPECIFIED); return unencrypted_data_; } else { // Due to the change in bookmarks format, we need to check to see if this is // a legacy bookmarks (and has no title field in the proto). If it is, we // return the unencrypted_data_, which was filled in with the title by // DecryptIfNecessary(). if (GetModelType() == BOOKMARKS) { const sync_pb::BookmarkSpecifics& bookmark_specifics = specifics.bookmark(); if (bookmark_specifics.has_title() || GetTitle().empty() || // For the empty node case !GetEntry()->GetUniqueServerTag().empty()) { // It's possible we previously had to convert and set // |unencrypted_data_| but then wrote our own data, so we allow // |unencrypted_data_| to be non-empty. return specifics; } else { DCHECK_EQ(GetModelTypeFromSpecifics(unencrypted_data_), BOOKMARKS); return unencrypted_data_; } } else { DCHECK_EQ(GetModelTypeFromSpecifics(unencrypted_data_), UNSPECIFIED); return specifics; } } } int64 BaseNode::GetParentId() const { return IdToMetahandle(GetTransaction()->GetWrappedTrans(), GetEntry()->GetParentId()); } int64 BaseNode::GetId() const { return GetEntry()->GetMetahandle(); } base::Time BaseNode::GetModificationTime() const { return GetEntry()->GetMtime(); } bool BaseNode::GetIsFolder() const { return GetEntry()->GetIsDir(); } std::string BaseNode::GetTitle() const { std::string result; // TODO(zea): refactor bookmarks to not need this functionality. if (BOOKMARKS == GetModelType() && GetEntry()->GetSpecifics().has_encrypted()) { // Special case for legacy bookmarks dealing with encryption. ServerNameToSyncAPIName(GetBookmarkSpecifics().title(), &result); } else { ServerNameToSyncAPIName(GetEntry()->GetNonUniqueName(), &result); } return result; } bool BaseNode::HasChildren() const { syncable::Directory* dir = GetTransaction()->GetDirectory(); syncable::BaseTransaction* trans = GetTransaction()->GetWrappedTrans(); return dir->HasChildren(trans, GetEntry()->GetId()); } int64 BaseNode::GetPredecessorId() const { syncable::Id id_string = GetEntry()->GetPredecessorId(); if (id_string.IsRoot()) return kInvalidId; return IdToMetahandle(GetTransaction()->GetWrappedTrans(), id_string); } int64 BaseNode::GetSuccessorId() const { syncable::Id id_string = GetEntry()->GetSuccessorId(); if (id_string.IsRoot()) return kInvalidId; return IdToMetahandle(GetTransaction()->GetWrappedTrans(), id_string); } int64 BaseNode::GetFirstChildId() const { syncable::Id id_string = GetEntry()->GetFirstChildId(); if (id_string.IsRoot()) return kInvalidId; return IdToMetahandle(GetTransaction()->GetWrappedTrans(), id_string); } void BaseNode::GetChildIds(std::vector* result) const { GetEntry()->GetChildHandles(result); } int BaseNode::GetTotalNodeCount() const { return GetEntry()->GetTotalNodeCount(); } int BaseNode::GetPositionIndex() const { return GetEntry()->GetPositionIndex(); } base::DictionaryValue* BaseNode::ToValue() const { return GetEntry()->ToValue(GetTransaction()->GetCryptographer()); } int64 BaseNode::GetExternalId() const { return GetEntry()->GetLocalExternalId(); } const sync_pb::AppSpecifics& BaseNode::GetAppSpecifics() const { DCHECK_EQ(GetModelType(), APPS); return GetEntitySpecifics().app(); } const sync_pb::AutofillSpecifics& BaseNode::GetAutofillSpecifics() const { DCHECK_EQ(GetModelType(), AUTOFILL); return GetEntitySpecifics().autofill(); } const AutofillProfileSpecifics& BaseNode::GetAutofillProfileSpecifics() const { DCHECK_EQ(GetModelType(), AUTOFILL_PROFILE); return GetEntitySpecifics().autofill_profile(); } const sync_pb::BookmarkSpecifics& BaseNode::GetBookmarkSpecifics() const { DCHECK_EQ(GetModelType(), BOOKMARKS); return GetEntitySpecifics().bookmark(); } const sync_pb::NigoriSpecifics& BaseNode::GetNigoriSpecifics() const { DCHECK_EQ(GetModelType(), NIGORI); return GetEntitySpecifics().nigori(); } const sync_pb::PasswordSpecificsData& BaseNode::GetPasswordSpecifics() const { DCHECK_EQ(GetModelType(), PASSWORDS); return *password_data_; } const sync_pb::ThemeSpecifics& BaseNode::GetThemeSpecifics() const { DCHECK_EQ(GetModelType(), THEMES); return GetEntitySpecifics().theme(); } const sync_pb::TypedUrlSpecifics& BaseNode::GetTypedUrlSpecifics() const { DCHECK_EQ(GetModelType(), TYPED_URLS); return GetEntitySpecifics().typed_url(); } const sync_pb::ExtensionSpecifics& BaseNode::GetExtensionSpecifics() const { DCHECK_EQ(GetModelType(), EXTENSIONS); return GetEntitySpecifics().extension(); } const sync_pb::SessionSpecifics& BaseNode::GetSessionSpecifics() const { DCHECK_EQ(GetModelType(), SESSIONS); return GetEntitySpecifics().session(); } const sync_pb::DeviceInfoSpecifics& BaseNode::GetDeviceInfoSpecifics() const { DCHECK_EQ(GetModelType(), DEVICE_INFO); return GetEntitySpecifics().device_info(); } const sync_pb::ExperimentsSpecifics& BaseNode::GetExperimentsSpecifics() const { DCHECK_EQ(GetModelType(), EXPERIMENTS); return GetEntitySpecifics().experiments(); } const sync_pb::PriorityPreferenceSpecifics& BaseNode::GetPriorityPreferenceSpecifics() const { DCHECK_EQ(GetModelType(), PRIORITY_PREFERENCES); return GetEntitySpecifics().priority_preference(); } const sync_pb::EntitySpecifics& BaseNode::GetEntitySpecifics() const { return GetUnencryptedSpecifics(GetEntry()); } ModelType BaseNode::GetModelType() const { return GetEntry()->GetModelType(); } void BaseNode::SetUnencryptedSpecifics( const sync_pb::EntitySpecifics& specifics) { ModelType type = GetModelTypeFromSpecifics(specifics); DCHECK_NE(UNSPECIFIED, type); if (GetModelType() != UNSPECIFIED) { DCHECK_EQ(GetModelType(), type); } unencrypted_data_.CopyFrom(specifics); } } // namespace syncer