// 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 "sql/meta_table.h" #include #include "base/logging.h" #include "base/metrics/histogram_macros.h" #include "base/strings/string_util.h" #include "sql/database.h" #include "sql/statement.h" #include "sql/transaction.h" namespace { // Keys understood directly by sql:MetaTable. const char kVersionKey[] = "version"; const char kCompatibleVersionKey[] = "last_compatible_version"; const char kMmapStatusKey[] = "mmap_status"; // Used to track success/failure of deprecation checks. enum DeprecationEventType { // Database has info, but no meta table. This is probably bad. DEPRECATION_DATABASE_NOT_EMPTY = 0, // No meta, unable to query sqlite_master. This is probably bad. DEPRECATION_DATABASE_UNKNOWN, // Failure querying meta table, corruption or similar problem likely. DEPRECATION_FAILED_VERSION, // Version key not found in meta table. Some sort of update error likely. DEPRECATION_NO_VERSION, // Version was out-dated, database successfully razed. Should only // happen once per long-idle user, low volume expected. DEPRECATION_RAZED, // Version was out-dated, database raze failed. This user's // database will be stuck. DEPRECATION_RAZE_FAILED, // Always keep this at the end. DEPRECATION_EVENT_MAX, }; void RecordDeprecationEvent(DeprecationEventType deprecation_event) { UMA_HISTOGRAM_ENUMERATION("Sqlite.DeprecationVersionResult", deprecation_event, DEPRECATION_EVENT_MAX); } } // namespace namespace sql { MetaTable::MetaTable() : db_(nullptr) {} MetaTable::~MetaTable() = default; // static constexpr int64_t MetaTable::kMmapFailure; constexpr int64_t MetaTable::kMmapSuccess; // static bool MetaTable::DoesTableExist(sql::Database* db) { DCHECK(db); return db->DoesTableExist("meta"); } // static bool MetaTable::GetMmapStatus(Database* db, int64_t* status) { const char* kMmapStatusSql = "SELECT value FROM meta WHERE key = ?"; Statement s(db->GetUniqueStatement(kMmapStatusSql)); if (!s.is_valid()) return false; // It is fine for the status to be missing entirely, but any error prevents // memory-mapping. s.BindString(0, kMmapStatusKey); *status = s.Step() ? s.ColumnInt64(0) : 0; return s.Succeeded(); } // static bool MetaTable::SetMmapStatus(Database* db, int64_t status) { DCHECK(status == kMmapFailure || status == kMmapSuccess || status >= 0); const char* kMmapUpdateStatusSql = "REPLACE INTO meta VALUES (?, ?)"; Statement s(db->GetUniqueStatement(kMmapUpdateStatusSql)); s.BindString(0, kMmapStatusKey); s.BindInt64(1, status); return s.Run(); } // static void MetaTable::RazeIfDeprecated(Database* db, int deprecated_version) { DCHECK_GT(deprecated_version, 0); DCHECK_EQ(0, db->transaction_nesting()); if (!DoesTableExist(db)) { sql::Statement s(db->GetUniqueStatement( "SELECT COUNT(*) FROM sqlite_master")); if (s.Step()) { if (s.ColumnInt(0) != 0) { RecordDeprecationEvent(DEPRECATION_DATABASE_NOT_EMPTY); } // NOTE(shess): Empty database at first run is expected, so // don't histogram that case. } else { RecordDeprecationEvent(DEPRECATION_DATABASE_UNKNOWN); } return; } // TODO(shess): Share sql with PrepareGetStatement(). sql::Statement s(db->GetUniqueStatement( "SELECT value FROM meta WHERE key=?")); s.BindCString(0, kVersionKey); if (!s.Step()) { if (!s.Succeeded()) { RecordDeprecationEvent(DEPRECATION_FAILED_VERSION); } else { RecordDeprecationEvent(DEPRECATION_NO_VERSION); } return; } int version = s.ColumnInt(0); s.Clear(); // Clear potential automatic transaction for Raze(). if (version <= deprecated_version) { if (db->Raze()) { RecordDeprecationEvent(DEPRECATION_RAZED); } else { RecordDeprecationEvent(DEPRECATION_RAZE_FAILED); } return; } // NOTE(shess): Successfully getting a version which is not // deprecated is expected, so don't histogram that case. } bool MetaTable::Init(Database* db, int version, int compatible_version) { DCHECK(!db_ && db); db_ = db; // If values stored are nullptr or missing entirely, 0 will be reported. // Require new clients to start with a greater initial version. DCHECK_GT(version, 0); DCHECK_GT(compatible_version, 0); // Make sure the table is created an populated atomically. sql::Transaction transaction(db_); if (!transaction.Begin()) return false; if (!DoesTableExist(db)) { if (!db_->Execute("CREATE TABLE meta" "(key LONGVARCHAR NOT NULL UNIQUE PRIMARY KEY, value LONGVARCHAR)")) return false; // Newly-created databases start out with mmap'ed I/O, but have no place to // store the setting. Set here so that later opens don't need to validate. SetMmapStatus(db_, kMmapSuccess); // Note: there is no index over the meta table. We currently only have a // couple of keys, so it doesn't matter. If we start storing more stuff in // there, we should create an index. SetVersionNumber(version); SetCompatibleVersionNumber(compatible_version); } else { db_->AddTaggedHistogram("Sqlite.Version", GetVersionNumber()); } return transaction.Commit(); } void MetaTable::Reset() { db_ = nullptr; } void MetaTable::SetVersionNumber(int version) { DCHECK_GT(version, 0); SetValue(kVersionKey, version); } int MetaTable::GetVersionNumber() { int version = 0; return GetValue(kVersionKey, &version) ? version : 0; } void MetaTable::SetCompatibleVersionNumber(int version) { DCHECK_GT(version, 0); SetValue(kCompatibleVersionKey, version); } int MetaTable::GetCompatibleVersionNumber() { int version = 0; return GetValue(kCompatibleVersionKey, &version) ? version : 0; } bool MetaTable::SetValue(const char* key, const std::string& value) { Statement s; PrepareSetStatement(&s, key); s.BindString(1, value); return s.Run(); } bool MetaTable::SetValue(const char* key, int value) { Statement s; PrepareSetStatement(&s, key); s.BindInt(1, value); return s.Run(); } bool MetaTable::SetValue(const char* key, int64_t value) { Statement s; PrepareSetStatement(&s, key); s.BindInt64(1, value); return s.Run(); } bool MetaTable::GetValue(const char* key, std::string* value) { Statement s; if (!PrepareGetStatement(&s, key)) return false; *value = s.ColumnString(0); return true; } bool MetaTable::GetValue(const char* key, int* value) { Statement s; if (!PrepareGetStatement(&s, key)) return false; *value = s.ColumnInt(0); return true; } bool MetaTable::GetValue(const char* key, int64_t* value) { Statement s; if (!PrepareGetStatement(&s, key)) return false; *value = s.ColumnInt64(0); return true; } bool MetaTable::DeleteKey(const char* key) { DCHECK(db_); Statement s(db_->GetUniqueStatement("DELETE FROM meta WHERE key=?")); s.BindCString(0, key); return s.Run(); } void MetaTable::PrepareSetStatement(Statement* statement, const char* key) { DCHECK(db_ && statement); statement->Assign(db_->GetCachedStatement(SQL_FROM_HERE, "INSERT OR REPLACE INTO meta (key,value) VALUES (?,?)")); statement->BindCString(0, key); } bool MetaTable::PrepareGetStatement(Statement* statement, const char* key) { DCHECK(db_ && statement); statement->Assign(db_->GetCachedStatement(SQL_FROM_HERE, "SELECT value FROM meta WHERE key=?")); statement->BindCString(0, key); return statement->Step(); } } // namespace sql