// 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 "base/file_util.h" #include "base/scoped_temp_dir.h" #include "sql/connection.h" #include "sql/statement.h" #include "testing/gtest/include/gtest/gtest.h" #include "third_party/sqlite/sqlite3.h" class SQLConnectionTest : public testing::Test { public: SQLConnectionTest() {} void SetUp() { ASSERT_TRUE(temp_dir_.CreateUniqueTempDir()); ASSERT_TRUE(db_.Open(db_path())); } void TearDown() { db_.Close(); } sql::Connection& db() { return db_; } FilePath db_path() { return temp_dir_.path().AppendASCII("SQLConnectionTest.db"); } private: ScopedTempDir temp_dir_; sql::Connection db_; }; TEST_F(SQLConnectionTest, Execute) { // Valid statement should return true. ASSERT_TRUE(db().Execute("CREATE TABLE foo (a, b)")); EXPECT_EQ(SQLITE_OK, db().GetErrorCode()); // Invalid statement should fail. ASSERT_EQ(SQLITE_ERROR, db().ExecuteAndReturnErrorCode("CREATE TAB foo (a, b")); EXPECT_EQ(SQLITE_ERROR, db().GetErrorCode()); } TEST_F(SQLConnectionTest, ExecuteWithErrorCode) { ASSERT_EQ(SQLITE_OK, db().ExecuteAndReturnErrorCode("CREATE TABLE foo (a, b)")); ASSERT_EQ(SQLITE_ERROR, db().ExecuteAndReturnErrorCode("CREATE TABLE TABLE")); ASSERT_EQ(SQLITE_ERROR, db().ExecuteAndReturnErrorCode( "INSERT INTO foo(a, b) VALUES (1, 2, 3, 4)")); } TEST_F(SQLConnectionTest, CachedStatement) { sql::StatementID id1("foo", 12); ASSERT_TRUE(db().Execute("CREATE TABLE foo (a, b)")); ASSERT_TRUE(db().Execute("INSERT INTO foo(a, b) VALUES (12, 13)")); // Create a new cached statement. { sql::Statement s(db().GetCachedStatement(id1, "SELECT a FROM foo")); ASSERT_TRUE(s.is_valid()); ASSERT_TRUE(s.Step()); EXPECT_EQ(12, s.ColumnInt(0)); } // The statement should be cached still. EXPECT_TRUE(db().HasCachedStatement(id1)); { // Get the same statement using different SQL. This should ignore our // SQL and use the cached one (so it will be valid). sql::Statement s(db().GetCachedStatement(id1, "something invalid(")); ASSERT_TRUE(s.is_valid()); ASSERT_TRUE(s.Step()); EXPECT_EQ(12, s.ColumnInt(0)); } // Make sure other statements aren't marked as cached. EXPECT_FALSE(db().HasCachedStatement(SQL_FROM_HERE)); } TEST_F(SQLConnectionTest, IsSQLValidTest) { ASSERT_TRUE(db().Execute("CREATE TABLE foo (a, b)")); ASSERT_TRUE(db().IsSQLValid("SELECT a FROM foo")); ASSERT_FALSE(db().IsSQLValid("SELECT no_exist FROM foo")); } TEST_F(SQLConnectionTest, DoesStuffExist) { // Test DoesTableExist. EXPECT_FALSE(db().DoesTableExist("foo")); ASSERT_TRUE(db().Execute("CREATE TABLE foo (a, b)")); EXPECT_TRUE(db().DoesTableExist("foo")); // Should be case sensitive. EXPECT_FALSE(db().DoesTableExist("FOO")); // Test DoesColumnExist. EXPECT_FALSE(db().DoesColumnExist("foo", "bar")); EXPECT_TRUE(db().DoesColumnExist("foo", "a")); // Testing for a column on a nonexistent table. EXPECT_FALSE(db().DoesColumnExist("bar", "b")); } TEST_F(SQLConnectionTest, GetLastInsertRowId) { ASSERT_TRUE(db().Execute("CREATE TABLE foo (id INTEGER PRIMARY KEY, value)")); ASSERT_TRUE(db().Execute("INSERT INTO foo (value) VALUES (12)")); // Last insert row ID should be valid. int64 row = db().GetLastInsertRowId(); EXPECT_LT(0, row); // It should be the primary key of the row we just inserted. sql::Statement s(db().GetUniqueStatement("SELECT value FROM foo WHERE id=?")); s.BindInt64(0, row); ASSERT_TRUE(s.Step()); EXPECT_EQ(12, s.ColumnInt(0)); } TEST_F(SQLConnectionTest, Rollback) { ASSERT_TRUE(db().BeginTransaction()); ASSERT_TRUE(db().BeginTransaction()); EXPECT_EQ(2, db().transaction_nesting()); db().RollbackTransaction(); EXPECT_FALSE(db().CommitTransaction()); EXPECT_TRUE(db().BeginTransaction()); } // Test that sql::Connection::Raze() results in a database without the // tables from the original database. TEST_F(SQLConnectionTest, Raze) { const char* kCreateSql = "CREATE TABLE foo (id INTEGER PRIMARY KEY, value)"; ASSERT_TRUE(db().Execute(kCreateSql)); ASSERT_TRUE(db().Execute("INSERT INTO foo (value) VALUES (12)")); { sql::Statement s(db().GetUniqueStatement("PRAGMA page_count")); ASSERT_TRUE(s.Step()); EXPECT_EQ(2, s.ColumnInt(0)); } { sql::Statement s(db().GetUniqueStatement("SELECT * FROM sqlite_master")); ASSERT_TRUE(s.Step()); EXPECT_EQ("table", s.ColumnString(0)); EXPECT_EQ("foo", s.ColumnString(1)); EXPECT_EQ("foo", s.ColumnString(2)); EXPECT_EQ(2, s.ColumnInt(3)); EXPECT_EQ(kCreateSql, s.ColumnString(4)); } ASSERT_TRUE(db().Raze()); { sql::Statement s(db().GetUniqueStatement("PRAGMA page_count")); ASSERT_TRUE(s.Step()); EXPECT_EQ(1, s.ColumnInt(0)); } { sql::Statement s(db().GetUniqueStatement("SELECT * FROM sqlite_master")); ASSERT_FALSE(s.Step()); } } // Test that Raze() maintains page_size. TEST_F(SQLConnectionTest, RazePageSize) { const int kPageSize = 4096; // Make sure that the default size isn't already |kPageSize|. // Scoped to release statement before Close(). { sql::Statement s(db().GetUniqueStatement("PRAGMA page_size")); ASSERT_TRUE(s.Step()); ASSERT_NE(kPageSize, s.ColumnInt(0)); } // Re-open the database to allow setting the page size. db().Close(); db().set_page_size(kPageSize); ASSERT_TRUE(db().Open(db_path())); // page_size should match the indicated value. sql::Statement s(db().GetUniqueStatement("PRAGMA page_size")); ASSERT_TRUE(s.Step()); ASSERT_EQ(kPageSize, s.ColumnInt(0)); // After raze, page_size should still match the indicated value. ASSERT_TRUE(db().Raze()); s.Reset(true); ASSERT_TRUE(s.Step()); ASSERT_EQ(kPageSize, s.ColumnInt(0)); } // Test that Raze() results are seen in other connections. TEST_F(SQLConnectionTest, RazeMultiple) { const char* kCreateSql = "CREATE TABLE foo (id INTEGER PRIMARY KEY, value)"; ASSERT_TRUE(db().Execute(kCreateSql)); sql::Connection other_db; ASSERT_TRUE(other_db.Open(db_path())); // Check that the second connection sees the table. const char *kTablesQuery = "SELECT COUNT(*) FROM sqlite_master"; sql::Statement s(other_db.GetUniqueStatement(kTablesQuery)); ASSERT_TRUE(s.Step()); ASSERT_EQ(1, s.ColumnInt(0)); ASSERT_FALSE(s.Step()); // Releases the shared lock. ASSERT_TRUE(db().Raze()); // The second connection sees the updated database. s.Reset(true); ASSERT_TRUE(s.Step()); ASSERT_EQ(0, s.ColumnInt(0)); } TEST_F(SQLConnectionTest, RazeLocked) { const char* kCreateSql = "CREATE TABLE foo (id INTEGER PRIMARY KEY, value)"; ASSERT_TRUE(db().Execute(kCreateSql)); // Open a transaction and write some data in a second connection. // This will acquire a PENDING or EXCLUSIVE transaction, which will // cause the raze to fail. sql::Connection other_db; ASSERT_TRUE(other_db.Open(db_path())); ASSERT_TRUE(other_db.BeginTransaction()); const char* kInsertSql = "INSERT INTO foo VALUES (1, 'data')"; ASSERT_TRUE(other_db.Execute(kInsertSql)); ASSERT_FALSE(db().Raze()); // Works after COMMIT. ASSERT_TRUE(other_db.CommitTransaction()); ASSERT_TRUE(db().Raze()); // Re-create the database. ASSERT_TRUE(db().Execute(kCreateSql)); ASSERT_TRUE(db().Execute(kInsertSql)); // An unfinished read transaction in the other connection also // blocks raze. const char *kQuery = "SELECT COUNT(*) FROM foo"; sql::Statement s(other_db.GetUniqueStatement(kQuery)); ASSERT_TRUE(s.Step()); ASSERT_FALSE(db().Raze()); // Complete the statement unlocks the database. ASSERT_FALSE(s.Step()); ASSERT_TRUE(db().Raze()); } // TODO(shess): Spin up a background thread to hold other_db, to more // closely match real life. That would also allow testing // RazeWithTimeout().