/* * Copyright (C) 2020 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "src/trace_processor/sqlite/sqlite_utils.h" #include #include #include #include #include #include #include "perfetto/base/logging.h" #include "perfetto/trace_processor/basic_types.h" #include "src/base/test/status_matchers.h" #include "src/trace_processor/sqlite/scoped_db.h" #include "test/gtest_and_gmock.h" namespace perfetto::trace_processor::sqlite::utils { namespace { using base::gtest_matchers::IsError; class GetColumnsForTableTest : public ::testing::Test { public: GetColumnsForTableTest() { sqlite3* db = nullptr; PERFETTO_CHECK(sqlite3_initialize() == SQLITE_OK); PERFETTO_CHECK(sqlite3_open(":memory:", &db) == SQLITE_OK); db_.reset(db); } void PrepareValidStatement(const std::string& sql) { int size = static_cast(sql.size()); sqlite3_stmt* stmt; ASSERT_EQ(sqlite3_prepare_v2(*db_, sql.c_str(), size, &stmt, nullptr), SQLITE_OK); stmt_.reset(stmt); } void RunStatement(const std::string& sql) { PrepareValidStatement(sql); ASSERT_EQ(sqlite3_step(stmt_.get()), SQLITE_DONE); } protected: ScopedDb db_; ScopedStmt stmt_; }; TEST_F(GetColumnsForTableTest, ValidInput) { RunStatement("CREATE TABLE foo (name STRING, ts INT, dur INT);"); std::vector> columns; ASSERT_OK(sqlite::utils::GetColumnsForTable(*db_, "foo", columns)); } TEST_F(GetColumnsForTableTest, UnknownType) { // Currently GetColumnsForTable does not work with tables containing types it // doesn't recognise. This just ensures that the query fails rather than // crashing. RunStatement("CREATE TABLE foo (name NUM, ts INT, dur INT);"); std::vector> columns; ASSERT_THAT(sqlite::utils::GetColumnsForTable(*db_, "foo", columns), IsError()); } TEST_F(GetColumnsForTableTest, UnknownTableName) { std::vector> columns; ASSERT_THAT(sqlite::utils::GetColumnsForTable(*db_, "unknowntable", columns), IsError()); } TEST(SqliteUtilsTest, ExtractFromSqlValueInt32) { std::optional int32; static constexpr int64_t kMin = std::numeric_limits::min(); static constexpr int64_t kMax = std::numeric_limits::max(); ASSERT_TRUE(ExtractFromSqlValue(SqlValue::Long(1234), int32).ok()); ASSERT_EQ(*int32, 1234); ASSERT_TRUE(ExtractFromSqlValue(SqlValue::Long(kMin), int32).ok()); ASSERT_EQ(*int32, kMin); ASSERT_TRUE(ExtractFromSqlValue(SqlValue::Long(kMax), int32).ok()); ASSERT_EQ(*int32, kMax); ASSERT_TRUE(ExtractFromSqlValue(SqlValue(), int32).ok()); ASSERT_FALSE(int32.has_value()); ASSERT_FALSE(ExtractFromSqlValue(SqlValue::Long(kMax + 1), int32).ok()); ASSERT_FALSE(ExtractFromSqlValue(SqlValue::Double(1.0), int32).ok()); ASSERT_FALSE(ExtractFromSqlValue(SqlValue::String("foo"), int32).ok()); } TEST(SqliteUtilsTest, ExtractFromSqlValueUint32) { std::optional uint32; static constexpr int64_t kMin = std::numeric_limits::min(); static constexpr int64_t kMax = std::numeric_limits::max(); ASSERT_TRUE(ExtractFromSqlValue(SqlValue::Long(1234), uint32).ok()); ASSERT_EQ(*uint32, 1234u); ASSERT_TRUE(ExtractFromSqlValue(SqlValue::Long(kMin), uint32).ok()); ASSERT_EQ(*uint32, kMin); ASSERT_TRUE(ExtractFromSqlValue(SqlValue::Long(kMax), uint32).ok()); ASSERT_EQ(*uint32, kMax); ASSERT_TRUE(ExtractFromSqlValue(SqlValue(), uint32).ok()); ASSERT_FALSE(uint32.has_value()); ASSERT_FALSE(ExtractFromSqlValue(SqlValue::Long(kMax + 1), uint32).ok()); ASSERT_FALSE(ExtractFromSqlValue(SqlValue::Double(1.0), uint32).ok()); ASSERT_FALSE(ExtractFromSqlValue(SqlValue::String("foo"), uint32).ok()); } TEST(SqliteUtilsTest, ExtractFromSqlValueInt64) { std::optional int64; static constexpr int64_t kMin = std::numeric_limits::min(); static constexpr int64_t kMax = std::numeric_limits::max(); ASSERT_TRUE(ExtractFromSqlValue(SqlValue::Long(1234), int64).ok()); ASSERT_EQ(*int64, 1234); ASSERT_TRUE(ExtractFromSqlValue(SqlValue::Long(kMin), int64).ok()); ASSERT_EQ(*int64, kMin); ASSERT_TRUE(ExtractFromSqlValue(SqlValue::Long(kMax), int64).ok()); ASSERT_EQ(*int64, kMax); ASSERT_TRUE(ExtractFromSqlValue(SqlValue(), int64).ok()); ASSERT_FALSE(int64.has_value()); ASSERT_FALSE(ExtractFromSqlValue(SqlValue::Double(1.0), int64).ok()); ASSERT_FALSE(ExtractFromSqlValue(SqlValue::String("foo"), int64).ok()); } TEST(SqliteUtilsTest, ExtractFromSqlValueDouble) { std::optional doub; static constexpr double kMin = std::numeric_limits::min(); static constexpr double kMax = std::numeric_limits::max(); ASSERT_TRUE(ExtractFromSqlValue(SqlValue::Double(1234.1), doub).ok()); ASSERT_EQ(*doub, 1234.1); ASSERT_TRUE(ExtractFromSqlValue(SqlValue::Double(kMin), doub).ok()); ASSERT_EQ(*doub, kMin); ASSERT_TRUE(ExtractFromSqlValue(SqlValue::Double(kMax), doub).ok()); ASSERT_EQ(*doub, kMax); ASSERT_TRUE(ExtractFromSqlValue(SqlValue(), doub).ok()); ASSERT_FALSE(doub.has_value()); ASSERT_FALSE(ExtractFromSqlValue(SqlValue::Long(1234), doub).ok()); ASSERT_FALSE(ExtractFromSqlValue(SqlValue::String("foo"), doub).ok()); } TEST(SqliteUtilsTest, ExtractFromSqlValueString) { std::optional string; ASSERT_TRUE(ExtractFromSqlValue(SqlValue::String("foo"), string).ok()); ASSERT_STREQ(*string, "foo"); ASSERT_TRUE(ExtractFromSqlValue(SqlValue(), string).ok()); ASSERT_FALSE(string.has_value()); ASSERT_FALSE(ExtractFromSqlValue(SqlValue::Long(1234), string).ok()); ASSERT_FALSE(ExtractFromSqlValue(SqlValue::Double(123.1), string).ok()); } } // namespace } // namespace perfetto::trace_processor::sqlite::utils