// 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/memory_mapped_file.h" #include "base/files/scoped_temp_dir.h" #include "sql/connection.h" #include "sql/statement.h" #include "sql/test/sql_test_base.h" #include "sql/test/test_helpers.h" #include "testing/gtest/include/gtest/gtest.h" #include "third_party/sqlite/sqlite3.h" // Test that certain features are/are-not enabled in our SQLite. namespace { void CaptureErrorCallback(int* error_pointer, std::string* sql_text, int error, sql::Statement* stmt) { *error_pointer = error; const char* text = stmt ? stmt->GetSQLStatement() : NULL; *sql_text = text ? text : "no statement available"; } class SQLiteFeaturesTest : public sql::SQLTestBase { public: SQLiteFeaturesTest() : error_(SQLITE_OK) {} void SetUp() override { SQLTestBase::SetUp(); // The error delegate will set |error_| and |sql_text_| when any sqlite // statement operation returns an error code. db().set_error_callback( base::Bind(&CaptureErrorCallback, &error_, &sql_text_)); } void TearDown() override { // If any error happened the original sql statement can be found in // |sql_text_|. EXPECT_EQ(SQLITE_OK, error_) << sql_text_; SQLTestBase::TearDown(); } int error() { return error_; } private: // The error code of the most recent error. int error_; // Original statement which has caused the error. std::string sql_text_; }; // Do not include fts1 support, it is not useful, and nobody is // looking at it. TEST_F(SQLiteFeaturesTest, NoFTS1) { ASSERT_EQ(SQLITE_ERROR, db().ExecuteAndReturnErrorCode( "CREATE VIRTUAL TABLE foo USING fts1(x)")); } // Do not include fts2 support, it is not useful, and nobody is // looking at it. TEST_F(SQLiteFeaturesTest, NoFTS2) { ASSERT_EQ(SQLITE_ERROR, db().ExecuteAndReturnErrorCode( "CREATE VIRTUAL TABLE foo USING fts2(x)")); } // fts3 used to be used for history files, and may also be used by WebDatabase // clients. TEST_F(SQLiteFeaturesTest, FTS3) { ASSERT_TRUE(db().Execute("CREATE VIRTUAL TABLE foo USING fts3(x)")); } #if !defined(USE_SYSTEM_SQLITE) // Originally history used fts2, which Chromium patched to treat "foo*" as a // prefix search, though the icu tokenizer would return it as two tokens {"foo", // "*"}. Test that fts3 works correctly. TEST_F(SQLiteFeaturesTest, FTS3_Prefix) { const char kCreateSql[] = "CREATE VIRTUAL TABLE foo USING fts3(x, tokenize icu)"; ASSERT_TRUE(db().Execute(kCreateSql)); ASSERT_TRUE(db().Execute("INSERT INTO foo (x) VALUES ('test')")); sql::Statement s(db().GetUniqueStatement( "SELECT x FROM foo WHERE x MATCH 'te*'")); ASSERT_TRUE(s.Step()); EXPECT_EQ("test", s.ColumnString(0)); } #endif #if !defined(USE_SYSTEM_SQLITE) // Verify that Chromium's SQLite is compiled with HAVE_USLEEP defined. With // HAVE_USLEEP, SQLite uses usleep() with millisecond granularity. Otherwise it // uses sleep() with second granularity. TEST_F(SQLiteFeaturesTest, UsesUsleep) { base::TimeTicks before = base::TimeTicks::Now(); sqlite3_sleep(1); base::TimeDelta delta = base::TimeTicks::Now() - before; // It is not impossible for this to be over 1000 if things are compiled the // right way. But it is very unlikely, most platforms seem to be around // . LOG(ERROR) << "Milliseconds: " << delta.InMilliseconds(); EXPECT_LT(delta.InMilliseconds(), 1000); } #endif // Ensure that our SQLite version has working foreign key support with cascade // delete support. TEST_F(SQLiteFeaturesTest, ForeignKeySupport) { ASSERT_TRUE(db().Execute("PRAGMA foreign_keys=1")); ASSERT_TRUE(db().Execute("CREATE TABLE parents (id INTEGER PRIMARY KEY)")); ASSERT_TRUE(db().Execute( "CREATE TABLE children (" " id INTEGER PRIMARY KEY," " pid INTEGER NOT NULL REFERENCES parents(id) ON DELETE CASCADE)")); // Inserting without a matching parent should fail with constraint violation. // Mask off any extended error codes for USE_SYSTEM_SQLITE. int insertErr = db().ExecuteAndReturnErrorCode( "INSERT INTO children VALUES (10, 1)"); EXPECT_EQ(SQLITE_CONSTRAINT, (insertErr&0xff)); size_t rows; EXPECT_TRUE(sql::test::CountTableRows(&db(), "children", &rows)); EXPECT_EQ(0u, rows); // Inserting with a matching parent should work. ASSERT_TRUE(db().Execute("INSERT INTO parents VALUES (1)")); EXPECT_TRUE(db().Execute("INSERT INTO children VALUES (11, 1)")); EXPECT_TRUE(db().Execute("INSERT INTO children VALUES (12, 1)")); EXPECT_TRUE(sql::test::CountTableRows(&db(), "children", &rows)); EXPECT_EQ(2u, rows); // Deleting the parent should cascade, i.e., delete the children as well. ASSERT_TRUE(db().Execute("DELETE FROM parents")); EXPECT_TRUE(sql::test::CountTableRows(&db(), "children", &rows)); EXPECT_EQ(0u, rows); } #if defined(MOJO_APPTEST_IMPL) || defined(OS_IOS) // If the platform cannot support SQLite mmap'ed I/O, make sure SQLite isn't // offering to support it. TEST_F(SQLiteFeaturesTest, NoMmap) { // For recent versions of SQLite, SQLITE_MAX_MMAP_SIZE=0 can be used to // disable mmap support. Alternately, sqlite3_config() could be used. In // that case, the pragma will run successfully, but the size will always be 0. // // The SQLite embedded in older iOS releases predates the addition of mmap // support. In that case the pragma will run without error, but no results // are returned when querying the value. // // MojoVFS implements a no-op for xFileControl(). PRAGMA mmap_size is // implemented in terms of SQLITE_FCNTL_MMAP_SIZE. In that case, the pragma // will succeed but with no effect. ignore_result(db().Execute("PRAGMA mmap_size = 1048576")); sql::Statement s(db().GetUniqueStatement("PRAGMA mmap_size")); ASSERT_TRUE(!s.Step() || !s.ColumnInt64(0)); } #else // Verify that OS file writes are reflected in the memory mapping of a // memory-mapped file. Normally SQLite writes to memory-mapped files using // memcpy(), which should stay consistent. Our SQLite is slightly patched to // mmap read only, then write using OS file writes. If the memory-mapped // version doesn't reflect the OS file writes, SQLite's memory-mapped I/O should // be disabled on this platform using SQLITE_MAX_MMAP_SIZE=0. TEST_F(SQLiteFeaturesTest, Mmap) { // Try to turn on mmap'ed I/O. ignore_result(db().Execute("PRAGMA mmap_size = 1048576")); { sql::Statement s(db().GetUniqueStatement("PRAGMA mmap_size")); #if !defined(USE_SYSTEM_SQLITE) // With Chromium's version of SQLite, the setting should always be non-zero. ASSERT_TRUE(s.Step()); ASSERT_GT(s.ColumnInt64(0), 0); #else // With the system SQLite, don't verify underlying mmap functionality if the // SQLite is too old to support mmap, or if mmap is disabled (see NoMmap // test). USE_SYSTEM_SQLITE is not bundled into the NoMmap case because // whether mmap is enabled or not is outside of Chromium's control. if (!s.Step() || !s.ColumnInt64(0)) return; #endif } db().Close(); const uint32 kFlags = base::File::FLAG_OPEN|base::File::FLAG_READ|base::File::FLAG_WRITE; char buf[4096]; // Create a file with a block of '0', a block of '1', and a block of '2'. { base::File f(db_path(), kFlags); ASSERT_TRUE(f.IsValid()); memset(buf, '0', sizeof(buf)); ASSERT_EQ(f.Write(0*sizeof(buf), buf, sizeof(buf)), (int)sizeof(buf)); memset(buf, '1', sizeof(buf)); ASSERT_EQ(f.Write(1*sizeof(buf), buf, sizeof(buf)), (int)sizeof(buf)); memset(buf, '2', sizeof(buf)); ASSERT_EQ(f.Write(2*sizeof(buf), buf, sizeof(buf)), (int)sizeof(buf)); } // mmap the file and verify that everything looks right. { base::MemoryMappedFile m; ASSERT_TRUE(m.Initialize(db_path())); memset(buf, '0', sizeof(buf)); ASSERT_EQ(0, memcmp(buf, m.data() + 0*sizeof(buf), sizeof(buf))); memset(buf, '1', sizeof(buf)); ASSERT_EQ(0, memcmp(buf, m.data() + 1*sizeof(buf), sizeof(buf))); memset(buf, '2', sizeof(buf)); ASSERT_EQ(0, memcmp(buf, m.data() + 2*sizeof(buf), sizeof(buf))); // Scribble some '3' into the first page of the file, and verify that it // looks the same in the memory mapping. { base::File f(db_path(), kFlags); ASSERT_TRUE(f.IsValid()); memset(buf, '3', sizeof(buf)); ASSERT_EQ(f.Write(0*sizeof(buf), buf, sizeof(buf)), (int)sizeof(buf)); } ASSERT_EQ(0, memcmp(buf, m.data() + 0*sizeof(buf), sizeof(buf))); // Repeat with a single '4' in case page-sized blocks are different. const size_t kOffset = 1*sizeof(buf) + 123; ASSERT_NE('4', m.data()[kOffset]); { base::File f(db_path(), kFlags); ASSERT_TRUE(f.IsValid()); buf[0] = '4'; ASSERT_EQ(f.Write(kOffset, buf, 1), 1); } ASSERT_EQ('4', m.data()[kOffset]); } } #endif } // namespace