// Copyright (c) 2006-2008 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 "chrome/browser/sync/engine/syncer_util.h"
#include <set>
#include <string>
#include <vector>
#include "chrome/browser/sync/engine/conflict_resolver.h"
#include "chrome/browser/sync/engine/syncer_proto_util.h"
#include "chrome/browser/sync/engine/syncer_types.h"
#include "chrome/browser/sync/engine/syncproto.h"
#include "chrome/browser/sync/protocol/bookmark_specifics.pb.h"
#include "chrome/browser/sync/syncable/directory_manager.h"
#include "chrome/browser/sync/syncable/model_type.h"
#include "chrome/browser/sync/syncable/syncable.h"
#include "chrome/browser/sync/syncable/syncable_changes_version.h"
#include "chrome/browser/sync/util/sync_types.h"
using syncable::BASE_VERSION;
using syncable::Blob;
using syncable::CHANGES_VERSION;
using syncable::CREATE;
using syncable::CREATE_NEW_UPDATE_ITEM;
using syncable::CTIME;
using syncable::ComparePathNames;
using syncable::Directory;
using syncable::Entry;
using syncable::ExtendedAttributeKey;
using syncable::GET_BY_HANDLE;
using syncable::GET_BY_ID;
using syncable::ID;
using syncable::IS_DEL;
using syncable::IS_DIR;
using syncable::IS_UNAPPLIED_UPDATE;
using syncable::IS_UNSYNCED;
using syncable::Id;
using syncable::META_HANDLE;
using syncable::MTIME;
using syncable::MutableEntry;
using syncable::MutableExtendedAttribute;
using syncable::NEXT_ID;
using syncable::NON_UNIQUE_NAME;
using syncable::PARENT_ID;
using syncable::PREV_ID;
using syncable::ReadTransaction;
using syncable::SERVER_CTIME;
using syncable::SERVER_IS_DEL;
using syncable::SERVER_IS_DIR;
using syncable::SERVER_MTIME;
using syncable::SERVER_NON_UNIQUE_NAME;
using syncable::SERVER_PARENT_ID;
using syncable::SERVER_POSITION_IN_PARENT;
using syncable::SERVER_SPECIFICS;
using syncable::SERVER_VERSION;
using syncable::SINGLETON_TAG;
using syncable::SPECIFICS;
using syncable::SYNCER;
using syncable::WriteTransaction;
namespace browser_sync {
using std::string;
using std::vector;
// Returns the number of unsynced entries.
// static
int SyncerUtil::GetUnsyncedEntries(syncable::BaseTransaction* trans,
vector<int64> *handles) {
trans->directory()->GetUnsyncedMetaHandles(trans, handles);
LOG_IF(INFO, handles->size() > 0)
<< "Have " << handles->size() << " unsynced items.";
return handles->size();
}
// static
void SyncerUtil::ChangeEntryIDAndUpdateChildren(
syncable::WriteTransaction* trans,
syncable::MutableEntry* entry,
const syncable::Id& new_id,
syncable::Directory::ChildHandles* children) {
syncable::Id old_id = entry->Get(ID);
if (!entry->Put(ID, new_id)) {
Entry old_entry(trans, GET_BY_ID, new_id);
CHECK(old_entry.good());
LOG(FATAL) << "Attempt to change ID to " << new_id
<< " conflicts with existing entry.\n\n"
<< *entry << "\n\n" << old_entry;
}
if (entry->Get(IS_DIR)) {
// Get all child entries of the old id.
trans->directory()->GetChildHandles(trans, old_id, children);
Directory::ChildHandles::iterator i = children->begin();
while (i != children->end()) {
MutableEntry child_entry(trans, GET_BY_HANDLE, *i++);
CHECK(child_entry.good());
CHECK(child_entry.Put(PARENT_ID, new_id));
}
}
// Update Id references on the previous and next nodes in the sibling
// order. Do this by reinserting into the linked list; the first
// step in PutPredecessor is to Unlink from the existing order, which
// will overwrite the stale Id value from the adjacent nodes.
if (entry->Get(PREV_ID) == entry->Get(NEXT_ID) &&
entry->Get(PREV_ID) == old_id) {
// We just need a shallow update to |entry|'s fields since it is already
// self looped.
entry->Put(NEXT_ID, new_id);
entry->Put(PREV_ID, new_id);
} else {
entry->PutPredecessor(entry->Get(PREV_ID));
}
}
// static
void SyncerUtil::ChangeEntryIDAndUpdateChildren(
syncable::WriteTransaction* trans,
syncable::MutableEntry* entry,
const syncable::Id& new_id) {
syncable::Directory::ChildHandles children;
ChangeEntryIDAndUpdateChildren(trans, entry, new_id, &children);
}
// static
void SyncerUtil::AttemptReuniteLostCommitResponses(
syncable::WriteTransaction* trans,
const SyncEntity& server_entry,
const string& client_id) {
// If a commit succeeds, but the response does not come back fast enough
// then the syncer might assume that it was never committed.
// The server will track the client that sent up the original commit and
// return this in a get updates response. When this matches a local
// uncommitted item, we must mutate our local item and version to pick up
// the committed version of the same item whose commit response was lost.
// There is however still a race condition if the server has not
// completed the commit by the time the syncer tries to get updates
// again. To mitigate this, we need to have the server time out in
// a reasonable span, our commit batches have to be small enough
// to process within our HTTP response "assumed alive" time.
// We need to check if we have a that didn't get its server
// id updated correctly. The server sends down a client ID
// and a local (negative) id. If we have a entry by that
// description, we should update the ID and version to the
// server side ones to avoid multiple commits to the same name.
if (server_entry.has_originator_cache_guid() &&
server_entry.originator_cache_guid() == client_id) {
syncable::Id server_id = syncable::Id::CreateFromClientString(
server_entry.originator_client_item_id());
CHECK(!server_id.ServerKnows());
syncable::MutableEntry local_entry(trans, GET_BY_ID, server_id);
// If it exists, then our local client lost a commit response.
if (local_entry.good() && !local_entry.Get(IS_DEL)) {
int64 old_version = local_entry.Get(BASE_VERSION);
int64 new_version = server_entry.version();
CHECK(old_version <= 0);
CHECK(new_version > 0);
// Otherwise setting the base version could cause a consistency failure.
// An entry should never be version 0 and SYNCED.
CHECK(local_entry.Get(IS_UNSYNCED));
// Just a quick sanity check.
CHECK(!local_entry.Get(ID).ServerKnows());
LOG(INFO) << "Reuniting lost commit response IDs" <<
" server id: " << server_entry.id() << " local id: " <<
local_entry.Get(ID) << " new version: " << new_version;
local_entry.Put(BASE_VERSION, new_version);
ChangeEntryIDAndUpdateChildren(trans, &local_entry, server_entry.id());
// We need to continue normal processing on this update after we
// reunited its ID.
}
// !local_entry.Good() means we don't have a left behind entry for this
// ID. We successfully committed before. In the future we should get rid
// of this system and just have client side generated IDs as a whole.
}
}
// static
UpdateAttemptResponse SyncerUtil::AttemptToUpdateEntry(
syncable::WriteTransaction* const trans,
syncable::MutableEntry* const entry,
ConflictResolver* resolver) {
CHECK(entry->good());
if (!entry->Get(IS_UNAPPLIED_UPDATE))
return SUCCESS; // No work to do.
syncable::Id id = entry->Get(ID);
if (entry->Get(IS_UNSYNCED)) {
LOG(INFO) << "Skipping update, returning conflict for: " << id
<< " ; it's unsynced.";
return CONFLICT;
}
if (!entry->Get(SERVER_IS_DEL)) {
syncable::Id new_parent = entry->Get(SERVER_PARENT_ID);
Entry parent(trans, GET_BY_ID, new_parent);
// A note on non-directory parents:
// We catch most unfixable tree invariant errors at update receipt time,
// however we deal with this case here because we may receive the child
// first then the illegal parent. Instead of dealing with it twice in
// different ways we deal with it once here to reduce the amount of code and
// potential errors.
if (!parent.good() || parent.Get(IS_DEL) || !parent.Get(IS_DIR)) {
return CONFLICT;
}
if (entry->Get(PARENT_ID) != new_parent) {
if (!entry->Get(IS_DEL) && !IsLegalNewParent(trans, id, new_parent)) {
LOG(INFO) << "Not updating item " << id << ", illegal new parent "
"(would cause loop).";
return CONFLICT;
}
}
} else if (entry->Get(IS_DIR)) {
Directory::ChildHandles handles;
trans->directory()->GetChildHandles(trans, id, &handles);
if (!handles.empty()) {
// If we have still-existing children, then we need to deal with
// them before we can process this change.
LOG(INFO) << "Not deleting directory; it's not empty " << *entry;
return CONFLICT;
}
}
SyncerUtil::UpdateLocalDataFromServerData(trans, entry);
return SUCCESS;
}
namespace {
// Helper to synthesize a new-style sync_pb::EntitySpecifics for use locally,
// when the server speaks only the old sync_pb::SyncEntity_BookmarkData-based
// protocol.
void UpdateBookmarkSpecifics(const string& singleton_tag,
const string& url,
const string& favicon_bytes,
MutableEntry* local_entry) {
// In the new-style protocol, the server no longer sends bookmark info for
// the "google_chrome" folder. Mimic that here.
if (singleton_tag == "google_chrome")
return;
sync_pb::EntitySpecifics pb;
sync_pb::BookmarkSpecifics* bookmark = pb.MutableExtension(sync_pb::bookmark);
if (!url.empty())
bookmark->set_url(url);
if (!favicon_bytes.empty())
bookmark->set_favicon(favicon_bytes);
local_entry->Put(SERVER_SPECIFICS, pb);
}
} // namespace
// Pass in name and checksum because of UTF8 conversion.
// static
void SyncerUtil::UpdateServerFieldsFromUpdate(
MutableEntry* local_entry,
const SyncEntity& server_entry,
const string& name) {
if (server_entry.deleted()) {
// The server returns very lightweight replies for deletions, so we don't
// clobber a bunch of fields on delete.
local_entry->Put(SERVER_IS_DEL, true);
local_entry->Put(SERVER_VERSION,
std::max(local_entry->Get(SERVER_VERSION),
local_entry->Get(BASE_VERSION)) + 1L);
local_entry->Put(IS_UNAPPLIED_UPDATE, true);
return;
}
CHECK(local_entry->Get(ID) == server_entry.id())
<< "ID Changing not supported here";
local_entry->Put(SERVER_PARENT_ID, server_entry.parent_id());
local_entry->Put(SERVER_NON_UNIQUE_NAME, name);
local_entry->Put(SERVER_VERSION, server_entry.version());
local_entry->Put(SERVER_CTIME,
ServerTimeToClientTime(server_entry.ctime()));
local_entry->Put(SERVER_MTIME,
ServerTimeToClientTime(server_entry.mtime()));
local_entry->Put(SERVER_IS_DIR, server_entry.IsFolder());
if (server_entry.has_singleton_tag()) {
const string& tag = server_entry.singleton_tag();
local_entry->Put(SINGLETON_TAG, tag);
}
// Store the datatype-specific part as a protobuf.
if (server_entry.has_specifics()) {
DCHECK(server_entry.GetModelType() != syncable::UNSPECIFIED)
<< "Storing unrecognized datatype in sync database.";
local_entry->Put(SERVER_SPECIFICS, server_entry.specifics());
} else if (server_entry.has_bookmarkdata()) {
// Legacy protocol response for bookmark data.
const SyncEntity::BookmarkData& bookmark = server_entry.bookmarkdata();
UpdateBookmarkSpecifics(server_entry.singleton_tag(),
bookmark.bookmark_url(),
bookmark.bookmark_favicon(),
local_entry);
}
if (server_entry.has_position_in_parent()) {
local_entry->Put(SERVER_POSITION_IN_PARENT,
server_entry.position_in_parent());
}
local_entry->Put(SERVER_IS_DEL, server_entry.deleted());
// We only mark the entry as unapplied if its version is greater than the
// local data. If we're processing the update that corresponds to one of our
// commit we don't apply it as time differences may occur.
if (server_entry.version() > local_entry->Get(BASE_VERSION)) {
local_entry->Put(IS_UNAPPLIED_UPDATE, true);
}
ApplyExtendedAttributes(local_entry, server_entry);
}
// static
void SyncerUtil::ApplyExtendedAttributes(
syncable::MutableEntry* local_entry,
const SyncEntity& server_entry) {
local_entry->DeleteAllExtendedAttributes(local_entry->write_transaction());
if (server_entry.has_extended_attributes()) {
const sync_pb::ExtendedAttributes & extended_attributes =
server_entry.extended_attributes();
for (int i = 0; i < extended_attributes.extendedattribute_size(); i++) {
const string& string_key =
extended_attributes.extendedattribute(i).key();
ExtendedAttributeKey key(local_entry->Get(META_HANDLE), string_key);
MutableExtendedAttribute local_attribute(local_entry->write_transaction(),
CREATE, key);
SyncerProtoUtil::CopyProtoBytesIntoBlob(
extended_attributes.extendedattribute(i).value(),
local_attribute.mutable_value());
}
}
}
// Creates a new Entry iff no Entry exists with the given id.
// static
void SyncerUtil::CreateNewEntry(syncable::WriteTransaction *trans,
const syncable::Id& id) {
syncable::MutableEntry entry(trans, syncable::GET_BY_ID, id);
if (!entry.good()) {
syncable::MutableEntry new_entry(trans, syncable::CREATE_NEW_UPDATE_ITEM,
id);
}
}
// static
bool SyncerUtil::ServerAndLocalOrdersMatch(syncable::Entry* entry) {
// Find the closest up-to-date local sibling by walking the linked list.
syncable::Id local_up_to_date_predecessor = entry->Get(PREV_ID);
while (!local_up_to_date_predecessor.IsRoot()) {
Entry local_prev(entry->trans(), GET_BY_ID, local_up_to_date_predecessor);
if (!local_prev.good() || local_prev.Get(IS_DEL))
return false;
if (!local_prev.Get(IS_UNAPPLIED_UPDATE) && !local_prev.Get(IS_UNSYNCED))
break;
local_up_to_date_predecessor = local_prev.Get(PREV_ID);
}
// Now find the closest up-to-date sibling in the server order.
syncable::Id server_up_to_date_predecessor =
ComputePrevIdFromServerPosition(entry->trans(), entry,
entry->Get(SERVER_PARENT_ID));
return server_up_to_date_predecessor == local_up_to_date_predecessor;
}
// static
bool SyncerUtil::ServerAndLocalEntriesMatch(syncable::Entry* entry) {
if (!ClientAndServerTimeMatch(
entry->Get(CTIME), ClientTimeToServerTime(entry->Get(SERVER_CTIME)))) {
LOG(WARNING) << "Client and server time mismatch";
return false;
}
if (entry->Get(IS_DEL) && entry->Get(SERVER_IS_DEL))
return true;
// Name should exactly match here.
if (!(entry->Get(NON_UNIQUE_NAME) == entry->Get(SERVER_NON_UNIQUE_NAME))) {
LOG(WARNING) << "Unsanitized name mismatch";
return false;
}
if (entry->Get(PARENT_ID) != entry->Get(SERVER_PARENT_ID) ||
entry->Get(IS_DIR) != entry->Get(SERVER_IS_DIR) ||
entry->Get(IS_DEL) != entry->Get(SERVER_IS_DEL)) {
LOG(WARNING) << "Metabit mismatch";
return false;
}
if (!ServerAndLocalOrdersMatch(entry)) {
LOG(WARNING) << "Server/local ordering mismatch";
return false;
}
// TODO(ncarter): This is unfortunately heavyweight. Can we do better?
if (entry->Get(SPECIFICS).SerializeAsString() !=
entry->Get(SERVER_SPECIFICS).SerializeAsString()) {
LOG(WARNING) << "Specifics mismatch";
return false;
}
if (entry->Get(IS_DIR))
return true;
// For historical reasons, a folder's MTIME changes when its contents change.
// TODO(ncarter): Remove the special casing of MTIME.
bool time_match = ClientAndServerTimeMatch(entry->Get(MTIME),
ClientTimeToServerTime(entry->Get(SERVER_MTIME)));
if (!time_match) {
LOG(WARNING) << "Time mismatch";
}
return time_match;
}
// static
void SyncerUtil::SplitServerInformationIntoNewEntry(
syncable::WriteTransaction* trans,
syncable::MutableEntry* entry) {
syncable::Id id = entry->Get(ID);
ChangeEntryIDAndUpdateChildren(trans, entry, trans->directory()->NextId());
entry->Put(BASE_VERSION, 0);
MutableEntry new_entry(trans, CREATE_NEW_UPDATE_ITEM, id);
CopyServerFields(entry, &new_entry);
ClearServerData(entry);
LOG(INFO) << "Splitting server information, local entry: " << *entry <<
" server entry: " << new_entry;
}
// This function is called on an entry when we can update the user-facing data
// from the server data.
// static
void SyncerUtil::UpdateLocalDataFromServerData(
syncable::WriteTransaction* trans,
syncable::MutableEntry* entry) {
CHECK(!entry->Get(IS_UNSYNCED));
CHECK(entry->Get(IS_UNAPPLIED_UPDATE));
LOG(INFO) << "Updating entry : " << *entry;
// Start by setting the properties that determine the model_type.
entry->Put(SPECIFICS, entry->Get(SERVER_SPECIFICS));
entry->Put(IS_DIR, entry->Get(SERVER_IS_DIR));
// This strange dance around the IS_DEL flag avoids problems when setting
// the name.
// TODO(chron): Is this still an issue? Unit test this codepath.
if (entry->Get(SERVER_IS_DEL)) {
entry->Put(IS_DEL, true);
} else {
entry->Put(NON_UNIQUE_NAME, entry->Get(SERVER_NON_UNIQUE_NAME));
entry->Put(PARENT_ID, entry->Get(SERVER_PARENT_ID));
CHECK(entry->Put(IS_DEL, false));
Id new_predecessor = ComputePrevIdFromServerPosition(trans, entry,
entry->Get(SERVER_PARENT_ID));
CHECK(entry->PutPredecessor(new_predecessor))
<< " Illegal predecessor after converting from server position.";
}
entry->Put(CTIME, entry->Get(SERVER_CTIME));
entry->Put(MTIME, entry->Get(SERVER_MTIME));
entry->Put(BASE_VERSION, entry->Get(SERVER_VERSION));
entry->Put(IS_DEL, entry->Get(SERVER_IS_DEL));
entry->Put(IS_UNAPPLIED_UPDATE, false);
}
// static
VerifyCommitResult SyncerUtil::ValidateCommitEntry(
syncable::MutableEntry* entry) {
syncable::Id id = entry->Get(ID);
if (id == entry->Get(PARENT_ID)) {
CHECK(id.IsRoot()) << "Non-root item is self parenting." << *entry;
// If the root becomes unsynced it can cause us problems.
LOG(ERROR) << "Root item became unsynced " << *entry;
return VERIFY_UNSYNCABLE;
}
if (entry->IsRoot()) {
LOG(ERROR) << "Permanent item became unsynced " << *entry;
return VERIFY_UNSYNCABLE;
}
if (entry->Get(IS_DEL) && !entry->Get(ID).ServerKnows()) {
// Drop deleted uncommitted entries.
return VERIFY_UNSYNCABLE;
}
return VERIFY_OK;
}
// static
bool SyncerUtil::AddItemThenPredecessors(
syncable::BaseTransaction* trans,
syncable::Entry* item,
syncable::IndexedBitField inclusion_filter,
syncable::MetahandleSet* inserted_items,
vector<syncable::Id>* commit_ids) {
if (!inserted_items->insert(item->Get(META_HANDLE)).second)
return false;
commit_ids->push_back(item->Get(ID));
if (item->Get(IS_DEL))
return true; // Deleted items have no predecessors.
Id prev_id = item->Get(PREV_ID);
while (!prev_id.IsRoot()) {
Entry prev(trans, GET_BY_ID, prev_id);
CHECK(prev.good()) << "Bad id when walking predecessors.";
if (!prev.Get(inclusion_filter))
break;
if (!inserted_items->insert(prev.Get(META_HANDLE)).second)
break;
commit_ids->push_back(prev_id);
prev_id = prev.Get(PREV_ID);
}
return true;
}
// static
void SyncerUtil::AddPredecessorsThenItem(
syncable::BaseTransaction* trans,
syncable::Entry* item,
syncable::IndexedBitField inclusion_filter,
syncable::MetahandleSet* inserted_items,
vector<syncable::Id>* commit_ids) {
vector<syncable::Id>::size_type initial_size = commit_ids->size();
if (!AddItemThenPredecessors(trans, item, inclusion_filter, inserted_items,
commit_ids))
return;
// Reverse what we added to get the correct order.
std::reverse(commit_ids->begin() + initial_size, commit_ids->end());
}
// TODO(ncarter): This is redundant to some code in GetCommitIdsCommand. Unify
// them.
// static
void SyncerUtil::AddUncommittedParentsAndTheirPredecessors(
syncable::BaseTransaction* trans,
syncable::MetahandleSet* inserted_items,
vector<syncable::Id>* commit_ids,
syncable::Id parent_id) {
vector<syncable::Id>::size_type intial_commit_ids_size = commit_ids->size();
// Climb the tree adding entries leaf -> root.
while (!parent_id.ServerKnows()) {
Entry parent(trans, GET_BY_ID, parent_id);
CHECK(parent.good()) << "Bad user-only parent in item path.";
if (!AddItemThenPredecessors(trans, &parent, IS_UNSYNCED, inserted_items,
commit_ids))
break; // Parent was already present in |inserted_items|.
parent_id = parent.Get(PARENT_ID);
}
// Reverse what we added to get the correct order.
std::reverse(commit_ids->begin() + intial_commit_ids_size, commit_ids->end());
}
// static
void SyncerUtil::MarkDeletedChildrenSynced(
const syncable::ScopedDirLookup &dir,
std::set<syncable::Id>* deleted_folders) {
// There's two options here.
// 1. Scan deleted unsynced entries looking up their pre-delete tree for any
// of the deleted folders.
// 2. Take each folder and do a tree walk of all entries underneath it.
// #2 has a lower big O cost, but writing code to limit the time spent inside
// the transaction during each step is simpler with 1. Changing this decision
// may be sensible if this code shows up in profiling.
if (deleted_folders->empty())
return;
Directory::UnsyncedMetaHandles handles;
{
ReadTransaction trans(dir, __FILE__, __LINE__);
dir->GetUnsyncedMetaHandles(&trans, &handles);
}
if (handles.empty())
return;
Directory::UnsyncedMetaHandles::iterator it;
for (it = handles.begin() ; it != handles.end() ; ++it) {
// Single transaction / entry we deal with.
WriteTransaction trans(dir, SYNCER, __FILE__, __LINE__);
MutableEntry entry(&trans, GET_BY_HANDLE, *it);
if (!entry.Get(IS_UNSYNCED) || !entry.Get(IS_DEL))
continue;
syncable::Id id = entry.Get(PARENT_ID);
while (id != trans.root_id()) {
if (deleted_folders->find(id) != deleted_folders->end()) {
// We've synced the deletion of this deleted entries parent.
entry.Put(IS_UNSYNCED, false);
break;
}
Entry parent(&trans, GET_BY_ID, id);
if (!parent.good() || !parent.Get(IS_DEL))
break;
id = parent.Get(PARENT_ID);
}
}
}
// static
VerifyResult SyncerUtil::VerifyNewEntry(
const SyncEntity& entry,
syncable::MutableEntry* same_id,
const bool deleted) {
if (same_id->good()) {
// Not a new entry.
return VERIFY_UNDECIDED;
}
if (deleted) {
// Deletion of an item we've never seen can be ignored.
return VERIFY_SKIP;
}
return VERIFY_SUCCESS;
}
// Assumes we have an existing entry; check here for updates that break
// consistency rules.
// static
VerifyResult SyncerUtil::VerifyUpdateConsistency(
syncable::WriteTransaction* trans,
const SyncEntity& entry,
syncable::MutableEntry* same_id,
const bool deleted,
const bool is_directory,
syncable::ModelType model_type) {
CHECK(same_id->good());
// If the entry is a delete, we don't really need to worry at this stage.
if (deleted)
return VERIFY_SUCCESS;
if (model_type == syncable::UNSPECIFIED) {
// This update is to an item of a datatype we don't recognize. The server
// shouldn't have sent it to us. Throw it on the ground.
return VERIFY_SKIP;
}
if (same_id->Get(SERVER_VERSION) > 0) {
// Then we've had an update for this entry before.
if (is_directory != same_id->Get(SERVER_IS_DIR) ||
model_type != same_id->GetServerModelType()) {
if (same_id->Get(IS_DEL)) { // If we've deleted the item, we don't care.
return VERIFY_SKIP;
} else {
LOG(ERROR) << "Server update doesn't agree with previous updates. ";
LOG(ERROR) << " Entry: " << *same_id;
LOG(ERROR) << " Update: " << SyncEntityDebugString(entry);
return VERIFY_FAIL;
}
}
if (!deleted &&
(same_id->Get(SERVER_IS_DEL) ||
(!same_id->Get(IS_UNSYNCED) && same_id->Get(IS_DEL) &&
same_id->Get(BASE_VERSION) > 0))) {
// An undelete. The latter case in the above condition is for
// when the server does not give us an update following the
// commit of a delete, before undeleting. Undeletion is possible
// in the server's storage backend, so it's possible on the client,
// though not expected to be something that is commonly possible.
VerifyResult result =
SyncerUtil::VerifyUndelete(trans, entry, same_id);
if (VERIFY_UNDECIDED != result)
return result;
}
}
if (same_id->Get(BASE_VERSION) > 0) {
// We've committed this entry in the past.
if (is_directory != same_id->Get(IS_DIR) ||
model_type != same_id->GetModelType()) {
LOG(ERROR) << "Server update doesn't agree with committed item. ";
LOG(ERROR) << " Entry: " << *same_id;
LOG(ERROR) << " Update: " << SyncEntityDebugString(entry);
return VERIFY_FAIL;
}
if (same_id->Get(BASE_VERSION) == entry.version() &&
!same_id->Get(IS_UNSYNCED) &&
!SyncerProtoUtil::Compare(*same_id, entry)) {
// TODO(sync): This constraint needs to be relaxed. For now it's OK to
// fail the verification and deal with it when we ApplyUpdates.
LOG(ERROR) << "Server update doesn't match local data with same "
"version. A bug should be filed. Entry: " << *same_id <<
"Update: " << SyncEntityDebugString(entry);
return VERIFY_FAIL;
}
if (same_id->Get(SERVER_VERSION) > entry.version()) {
LOG(WARNING) << "We've already seen a more recent update from the server";
LOG(WARNING) << " Entry: " << *same_id;
LOG(WARNING) << " Update: " << SyncEntityDebugString(entry);
return VERIFY_SKIP;
}
}
return VERIFY_SUCCESS;
}
// Assumes we have an existing entry; verify an update that seems to be
// expressing an 'undelete'
// static
VerifyResult SyncerUtil::VerifyUndelete(syncable::WriteTransaction* trans,
const SyncEntity& entry,
syncable::MutableEntry* same_id) {
CHECK(same_id->good());
LOG(INFO) << "Server update is attempting undelete. " << *same_id
<< "Update:" << SyncEntityDebugString(entry);
// Move the old one aside and start over. It's too tricky to get the old one
// back into a state that would pass CheckTreeInvariants().
if (same_id->Get(IS_DEL)) {
same_id->Put(ID, trans->directory()->NextId());
same_id->Put(BASE_VERSION, CHANGES_VERSION);
same_id->Put(SERVER_VERSION, 0);
return VERIFY_SUCCESS;
}
if (entry.version() < same_id->Get(SERVER_VERSION)) {
LOG(WARNING) << "Update older than current server version for" <<
*same_id << "Update:" << SyncEntityDebugString(entry);
return VERIFY_SUCCESS; // Expected in new sync protocol.
}
return VERIFY_UNDECIDED;
}
// static
syncable::Id SyncerUtil::ComputePrevIdFromServerPosition(
syncable::BaseTransaction* trans,
syncable::Entry* update_item,
const syncable::Id& parent_id) {
const int64 position_in_parent = update_item->Get(SERVER_POSITION_IN_PARENT);
// TODO(ncarter): This computation is linear in the number of children, but
// we could make it logarithmic if we kept an index on server position.
syncable::Id closest_sibling;
syncable::Id next_id = trans->directory()->GetFirstChildId(trans, parent_id);
while (!next_id.IsRoot()) {
syncable::Entry candidate(trans, GET_BY_ID, next_id);
if (!candidate.good()) {
LOG(WARNING) << "Should not happen";
return closest_sibling;
}
next_id = candidate.Get(NEXT_ID);
// Defensively prevent self-comparison.
if (candidate.Get(META_HANDLE) == update_item->Get(META_HANDLE)) {
continue;
}
// Ignore unapplied updates -- they might not even be server-siblings.
if (candidate.Get(IS_UNAPPLIED_UPDATE)) {
continue;
}
// Unsynced items don't have a valid server position.
if (!candidate.Get(IS_UNSYNCED)) {
// If |candidate| is after |update_entry| according to the server
// ordering, then we're done. ID is the tiebreaker.
if ((candidate.Get(SERVER_POSITION_IN_PARENT) > position_in_parent) ||
((candidate.Get(SERVER_POSITION_IN_PARENT) == position_in_parent) &&
(candidate.Get(ID) > update_item->Get(ID)))) {
return closest_sibling;
}
}
// We can't trust the SERVER_ fields of unsynced items, but they are
// potentially legitimate local predecessors. In the case where
// |update_item| and an unsynced item wind up in the same insertion
// position, we need to choose how to order them. The following check puts
// the unapplied update first; removing it would put the unsynced item(s)
// first.
if (candidate.Get(IS_UNSYNCED)) {
continue;
}
// |update_entry| is considered to be somewhere after |candidate|, so store
// it as the upper bound.
closest_sibling = candidate.Get(ID);
}
return closest_sibling;
}
syncable::ModelType SyncerUtil::GetModelType(
const SyncEntity& entry) {
const bool is_bookmark =
(entry.has_specifics() &&
entry.specifics().HasExtension(sync_pb::bookmark)) ||
entry.has_bookmarkdata();
if (is_bookmark) {
return syncable::BOOKMARKS;
}
return syncable::UNSPECIFIED;
}
} // namespace browser_sync