// 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 #include "base/bind.h" #include "base/files/file_util.h" #include "base/files/scoped_temp_dir.h" #include "base/strings/string_piece_forward.h" #include "sql/database.h" #include "sql/statement.h" #include "sql/test/error_callback_support.h" #include "sql/test/scoped_error_expecter.h" #include "testing/gtest/include/gtest/gtest.h" #include "third_party/sqlite/sqlite3.h" namespace sql { namespace { class SQLStatementTest : public testing::Test { public: ~SQLStatementTest() override = default; void SetUp() override { ASSERT_TRUE(temp_dir_.CreateUniqueTempDir()); ASSERT_TRUE( db_.Open(temp_dir_.GetPath().AppendASCII("statement_test.sqlite"))); } protected: base::ScopedTempDir temp_dir_; Database db_; }; TEST_F(SQLStatementTest, Assign) { Statement s; EXPECT_FALSE(s.is_valid()); s.Assign(db_.GetUniqueStatement("CREATE TABLE foo (a, b)")); EXPECT_TRUE(s.is_valid()); } TEST_F(SQLStatementTest, Run) { ASSERT_TRUE(db_.Execute("CREATE TABLE foo (a, b)")); ASSERT_TRUE(db_.Execute("INSERT INTO foo (a, b) VALUES (3, 12)")); Statement s(db_.GetUniqueStatement("SELECT b FROM foo WHERE a=?")); EXPECT_FALSE(s.Succeeded()); // Stepping it won't work since we haven't bound the value. EXPECT_FALSE(s.Step()); // Run should fail since this produces output, and we should use Step(). This // gets a bit wonky since sqlite says this is OK so succeeded is set. s.Reset(true); s.BindInt(0, 3); EXPECT_FALSE(s.Run()); EXPECT_EQ(SQLITE_ROW, db_.GetErrorCode()); EXPECT_TRUE(s.Succeeded()); // Resetting it should put it back to the previous state (not runnable). s.Reset(true); EXPECT_FALSE(s.Succeeded()); // Binding and stepping should produce one row. s.BindInt(0, 3); EXPECT_TRUE(s.Step()); EXPECT_TRUE(s.Succeeded()); EXPECT_EQ(12, s.ColumnInt(0)); EXPECT_FALSE(s.Step()); EXPECT_TRUE(s.Succeeded()); } // Error callback called for error running a statement. TEST_F(SQLStatementTest, ErrorCallback) { ASSERT_TRUE(db_.Execute("CREATE TABLE foo (a INTEGER PRIMARY KEY, b)")); int error = SQLITE_OK; ScopedErrorCallback sec(&db_, base::BindRepeating(&CaptureErrorCallback, &error)); // Insert in the foo table the primary key. It is an error to insert // something other than an number. This error causes the error callback // handler to be called with SQLITE_MISMATCH as error code. Statement s(db_.GetUniqueStatement("INSERT INTO foo (a) VALUES (?)")); EXPECT_TRUE(s.is_valid()); s.BindCString(0, "bad bad"); EXPECT_FALSE(s.Run()); EXPECT_EQ(SQLITE_MISMATCH, error); } // Error expecter works for error running a statement. TEST_F(SQLStatementTest, ScopedIgnoreError) { ASSERT_TRUE(db_.Execute("CREATE TABLE foo (a INTEGER PRIMARY KEY, b)")); Statement s(db_.GetUniqueStatement("INSERT INTO foo (a) VALUES (?)")); EXPECT_TRUE(s.is_valid()); { sql::test::ScopedErrorExpecter expecter; expecter.ExpectError(SQLITE_MISMATCH); s.BindCString(0, "bad bad"); ASSERT_FALSE(s.Run()); ASSERT_TRUE(expecter.SawExpectedErrors()); } } TEST_F(SQLStatementTest, Reset) { ASSERT_TRUE(db_.Execute("CREATE TABLE foo (a, b)")); ASSERT_TRUE(db_.Execute("INSERT INTO foo (a, b) VALUES (3, 12)")); ASSERT_TRUE(db_.Execute("INSERT INTO foo (a, b) VALUES (4, 13)")); Statement s(db_.GetUniqueStatement("SELECT b FROM foo WHERE a = ? ")); s.BindInt(0, 3); ASSERT_TRUE(s.Step()); EXPECT_EQ(12, s.ColumnInt(0)); ASSERT_FALSE(s.Step()); s.Reset(false); // Verify that we can get all rows again. ASSERT_TRUE(s.Step()); EXPECT_EQ(12, s.ColumnInt(0)); EXPECT_FALSE(s.Step()); s.Reset(true); ASSERT_FALSE(s.Step()); } TEST_F(SQLStatementTest, BindBlob) { ASSERT_TRUE(db_.Execute("CREATE TABLE blobs (b BLOB NOT NULL)")); const std::vector> values = { {}, {0x01}, {0x41, 0x42, 0x43, 0x44}, }; Statement insert(db_.GetUniqueStatement("INSERT INTO blobs VALUES(?)")); for (const std::vector& value : values) { insert.BindBlob(0, value); ASSERT_TRUE(insert.Run()); insert.Reset(/* clear_bound_vars= */ true); } Statement select(db_.GetUniqueStatement("SELECT b FROM blobs")); for (const std::vector& value : values) { ASSERT_TRUE(select.Step()); std::vector column_value; EXPECT_TRUE(select.ColumnBlobAsVector(0, &column_value)); EXPECT_EQ(value, column_value); } EXPECT_FALSE(select.Step()); } TEST_F(SQLStatementTest, BindString) { ASSERT_TRUE(db_.Execute("CREATE TABLE strings (s TEXT NOT NULL)")); const std::vector values = { "", "a", "\x01", std::string("\x00", 1), "abcd", "\x01\x02\x03\x04", std::string("\x01Test", 5), std::string("\x00Test", 5), }; Statement insert(db_.GetUniqueStatement("INSERT INTO strings VALUES(?)")); for (const std::string& value : values) { insert.BindString(0, value); ASSERT_TRUE(insert.Run()); insert.Reset(/* clear_bound_vars= */ true); } Statement select(db_.GetUniqueStatement("SELECT s FROM strings")); for (const std::string& value : values) { ASSERT_TRUE(select.Step()); EXPECT_EQ(value, select.ColumnString(0)); } EXPECT_FALSE(select.Step()); } TEST_F(SQLStatementTest, BindString_NullData) { ASSERT_TRUE(db_.Execute("CREATE TABLE strings (s TEXT NOT NULL)")); Statement insert(db_.GetUniqueStatement("INSERT INTO strings VALUES(?)")); insert.BindString(0, base::StringPiece(nullptr, 0)); ASSERT_TRUE(insert.Run()); Statement select(db_.GetUniqueStatement("SELECT s FROM strings")); ASSERT_TRUE(select.Step()); EXPECT_EQ(std::string(), select.ColumnString(0)); EXPECT_FALSE(select.Step()); } } // namespace } // namespace sql