We started redesigning GpuMemoryBuffer interface to handle multiple buffers [0].
[chromium-blink-merge.git] / sql / recovery_unittest.cc
blob78a147815f9eeb4f65bffbb05043cb54a1768019
1 // Copyright 2013 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include <string>
7 #include "base/bind.h"
8 #include "base/files/file_path.h"
9 #include "base/files/file_util.h"
10 #include "base/files/scoped_temp_dir.h"
11 #include "base/path_service.h"
12 #include "base/strings/string_number_conversions.h"
13 #include "sql/connection.h"
14 #include "sql/meta_table.h"
15 #include "sql/recovery.h"
16 #include "sql/statement.h"
17 #include "sql/test/paths.h"
18 #include "sql/test/scoped_error_ignorer.h"
19 #include "sql/test/test_helpers.h"
20 #include "testing/gtest/include/gtest/gtest.h"
21 #include "third_party/sqlite/sqlite3.h"
23 namespace {
25 // Execute |sql|, and stringify the results with |column_sep| between
26 // columns and |row_sep| between rows.
27 // TODO(shess): Promote this to a central testing helper.
28 std::string ExecuteWithResults(sql::Connection* db,
29 const char* sql,
30 const char* column_sep,
31 const char* row_sep) {
32 sql::Statement s(db->GetUniqueStatement(sql));
33 std::string ret;
34 while (s.Step()) {
35 if (!ret.empty())
36 ret += row_sep;
37 for (int i = 0; i < s.ColumnCount(); ++i) {
38 if (i > 0)
39 ret += column_sep;
40 if (s.ColumnType(i) == sql::COLUMN_TYPE_NULL) {
41 ret += "<null>";
42 } else if (s.ColumnType(i) == sql::COLUMN_TYPE_BLOB) {
43 ret += "<x'";
44 ret += base::HexEncode(s.ColumnBlob(i), s.ColumnByteLength(i));
45 ret += "'>";
46 } else {
47 ret += s.ColumnString(i);
51 return ret;
54 // Dump consistent human-readable representation of the database
55 // schema. For tables or indices, this will contain the sql command
56 // to create the table or index. For certain automatic SQLite
57 // structures with no sql, the name is used.
58 std::string GetSchema(sql::Connection* db) {
59 const char kSql[] =
60 "SELECT COALESCE(sql, name) FROM sqlite_master ORDER BY 1";
61 return ExecuteWithResults(db, kSql, "|", "\n");
64 class SQLRecoveryTest : public testing::Test {
65 public:
66 SQLRecoveryTest() {}
68 void SetUp() override {
69 ASSERT_TRUE(temp_dir_.CreateUniqueTempDir());
70 ASSERT_TRUE(db_.Open(db_path()));
73 void TearDown() override { db_.Close(); }
75 sql::Connection& db() { return db_; }
77 base::FilePath db_path() {
78 return temp_dir_.path().AppendASCII("SQLRecoveryTest.db");
81 bool Reopen() {
82 db_.Close();
83 return db_.Open(db_path());
86 private:
87 base::ScopedTempDir temp_dir_;
88 sql::Connection db_;
91 TEST_F(SQLRecoveryTest, RecoverBasic) {
92 const char kCreateSql[] = "CREATE TABLE x (t TEXT)";
93 const char kInsertSql[] = "INSERT INTO x VALUES ('This is a test')";
94 ASSERT_TRUE(db().Execute(kCreateSql));
95 ASSERT_TRUE(db().Execute(kInsertSql));
96 ASSERT_EQ("CREATE TABLE x (t TEXT)", GetSchema(&db()));
98 // If the Recovery handle goes out of scope without being
99 // Recovered(), the database is razed.
101 scoped_ptr<sql::Recovery> recovery = sql::Recovery::Begin(&db(), db_path());
102 ASSERT_TRUE(recovery.get());
104 EXPECT_FALSE(db().is_open());
105 ASSERT_TRUE(Reopen());
106 EXPECT_TRUE(db().is_open());
107 ASSERT_EQ("", GetSchema(&db()));
109 // Recreate the database.
110 ASSERT_TRUE(db().Execute(kCreateSql));
111 ASSERT_TRUE(db().Execute(kInsertSql));
112 ASSERT_EQ("CREATE TABLE x (t TEXT)", GetSchema(&db()));
114 // Unrecoverable() also razes.
116 scoped_ptr<sql::Recovery> recovery = sql::Recovery::Begin(&db(), db_path());
117 ASSERT_TRUE(recovery.get());
118 sql::Recovery::Unrecoverable(recovery.Pass());
120 // TODO(shess): Test that calls to recover.db() start failing.
122 EXPECT_FALSE(db().is_open());
123 ASSERT_TRUE(Reopen());
124 EXPECT_TRUE(db().is_open());
125 ASSERT_EQ("", GetSchema(&db()));
127 // Recreate the database.
128 ASSERT_TRUE(db().Execute(kCreateSql));
129 ASSERT_TRUE(db().Execute(kInsertSql));
130 ASSERT_EQ("CREATE TABLE x (t TEXT)", GetSchema(&db()));
132 // Recovered() replaces the original with the "recovered" version.
134 scoped_ptr<sql::Recovery> recovery = sql::Recovery::Begin(&db(), db_path());
135 ASSERT_TRUE(recovery.get());
137 // Create the new version of the table.
138 ASSERT_TRUE(recovery->db()->Execute(kCreateSql));
140 // Insert different data to distinguish from original database.
141 const char kAltInsertSql[] = "INSERT INTO x VALUES ('That was a test')";
142 ASSERT_TRUE(recovery->db()->Execute(kAltInsertSql));
144 // Successfully recovered.
145 ASSERT_TRUE(sql::Recovery::Recovered(recovery.Pass()));
147 EXPECT_FALSE(db().is_open());
148 ASSERT_TRUE(Reopen());
149 EXPECT_TRUE(db().is_open());
150 ASSERT_EQ("CREATE TABLE x (t TEXT)", GetSchema(&db()));
152 const char* kXSql = "SELECT * FROM x ORDER BY 1";
153 ASSERT_EQ("That was a test",
154 ExecuteWithResults(&db(), kXSql, "|", "\n"));
157 // The recovery virtual table is only supported for Chromium's SQLite.
158 #if !defined(USE_SYSTEM_SQLITE)
160 // Run recovery through its paces on a valid database.
161 TEST_F(SQLRecoveryTest, VirtualTable) {
162 const char kCreateSql[] = "CREATE TABLE x (t TEXT)";
163 ASSERT_TRUE(db().Execute(kCreateSql));
164 ASSERT_TRUE(db().Execute("INSERT INTO x VALUES ('This is a test')"));
165 ASSERT_TRUE(db().Execute("INSERT INTO x VALUES ('That was a test')"));
167 // Successfully recover the database.
169 scoped_ptr<sql::Recovery> recovery = sql::Recovery::Begin(&db(), db_path());
171 // Tables to recover original DB, now at [corrupt].
172 const char kRecoveryCreateSql[] =
173 "CREATE VIRTUAL TABLE temp.recover_x using recover("
174 " corrupt.x,"
175 " t TEXT STRICT"
176 ")";
177 ASSERT_TRUE(recovery->db()->Execute(kRecoveryCreateSql));
179 // Re-create the original schema.
180 ASSERT_TRUE(recovery->db()->Execute(kCreateSql));
182 // Copy the data from the recovery tables to the new database.
183 const char kRecoveryCopySql[] =
184 "INSERT INTO x SELECT t FROM recover_x";
185 ASSERT_TRUE(recovery->db()->Execute(kRecoveryCopySql));
187 // Successfully recovered.
188 ASSERT_TRUE(sql::Recovery::Recovered(recovery.Pass()));
191 // Since the database was not corrupt, the entire schema and all
192 // data should be recovered.
193 ASSERT_TRUE(Reopen());
194 ASSERT_EQ("CREATE TABLE x (t TEXT)", GetSchema(&db()));
196 const char* kXSql = "SELECT * FROM x ORDER BY 1";
197 ASSERT_EQ("That was a test\nThis is a test",
198 ExecuteWithResults(&db(), kXSql, "|", "\n"));
201 void RecoveryCallback(sql::Connection* db, const base::FilePath& db_path,
202 int* record_error, int error, sql::Statement* stmt) {
203 *record_error = error;
205 // Clear the error callback to prevent reentrancy.
206 db->reset_error_callback();
208 scoped_ptr<sql::Recovery> recovery = sql::Recovery::Begin(db, db_path);
209 ASSERT_TRUE(recovery.get());
211 const char kRecoveryCreateSql[] =
212 "CREATE VIRTUAL TABLE temp.recover_x using recover("
213 " corrupt.x,"
214 " id INTEGER STRICT,"
215 " v INTEGER STRICT"
216 ")";
217 const char kCreateTable[] = "CREATE TABLE x (id INTEGER, v INTEGER)";
218 const char kCreateIndex[] = "CREATE UNIQUE INDEX x_id ON x (id)";
220 // Replicate data over.
221 const char kRecoveryCopySql[] =
222 "INSERT OR REPLACE INTO x SELECT id, v FROM recover_x";
224 ASSERT_TRUE(recovery->db()->Execute(kRecoveryCreateSql));
225 ASSERT_TRUE(recovery->db()->Execute(kCreateTable));
226 ASSERT_TRUE(recovery->db()->Execute(kCreateIndex));
227 ASSERT_TRUE(recovery->db()->Execute(kRecoveryCopySql));
229 ASSERT_TRUE(sql::Recovery::Recovered(recovery.Pass()));
232 // Build a database, corrupt it by making an index reference to
233 // deleted row, then recover when a query selects that row.
234 TEST_F(SQLRecoveryTest, RecoverCorruptIndex) {
235 const char kCreateTable[] = "CREATE TABLE x (id INTEGER, v INTEGER)";
236 const char kCreateIndex[] = "CREATE UNIQUE INDEX x_id ON x (id)";
237 ASSERT_TRUE(db().Execute(kCreateTable));
238 ASSERT_TRUE(db().Execute(kCreateIndex));
240 // Insert a bit of data.
242 ASSERT_TRUE(db().BeginTransaction());
244 const char kInsertSql[] = "INSERT INTO x (id, v) VALUES (?, ?)";
245 sql::Statement s(db().GetUniqueStatement(kInsertSql));
246 for (int i = 0; i < 10; ++i) {
247 s.Reset(true);
248 s.BindInt(0, i);
249 s.BindInt(1, i);
250 EXPECT_FALSE(s.Step());
251 EXPECT_TRUE(s.Succeeded());
254 ASSERT_TRUE(db().CommitTransaction());
256 db().Close();
258 // Delete a row from the table, while leaving the index entry which
259 // references it.
260 const char kDeleteSql[] = "DELETE FROM x WHERE id = 0";
261 ASSERT_TRUE(sql::test::CorruptTableOrIndex(db_path(), "x_id", kDeleteSql));
263 ASSERT_TRUE(Reopen());
265 int error = SQLITE_OK;
266 db().set_error_callback(base::Bind(&RecoveryCallback,
267 &db(), db_path(), &error));
269 // This works before the callback is called.
270 const char kTrivialSql[] = "SELECT COUNT(*) FROM sqlite_master";
271 EXPECT_TRUE(db().IsSQLValid(kTrivialSql));
273 // TODO(shess): Could this be delete? Anything which fails should work.
274 const char kSelectSql[] = "SELECT v FROM x WHERE id = 0";
275 ASSERT_FALSE(db().Execute(kSelectSql));
276 EXPECT_EQ(SQLITE_CORRUPT, error);
278 // Database handle has been poisoned.
279 EXPECT_FALSE(db().IsSQLValid(kTrivialSql));
281 ASSERT_TRUE(Reopen());
283 // The recovered table should reflect the deletion.
284 const char kSelectAllSql[] = "SELECT v FROM x ORDER BY id";
285 EXPECT_EQ("1,2,3,4,5,6,7,8,9",
286 ExecuteWithResults(&db(), kSelectAllSql, "|", ","));
288 // The failing statement should now succeed, with no results.
289 EXPECT_EQ("", ExecuteWithResults(&db(), kSelectSql, "|", ","));
292 // Build a database, corrupt it by making a table contain a row not
293 // referenced by the index, then recover the database.
294 TEST_F(SQLRecoveryTest, RecoverCorruptTable) {
295 const char kCreateTable[] = "CREATE TABLE x (id INTEGER, v INTEGER)";
296 const char kCreateIndex[] = "CREATE UNIQUE INDEX x_id ON x (id)";
297 ASSERT_TRUE(db().Execute(kCreateTable));
298 ASSERT_TRUE(db().Execute(kCreateIndex));
300 // Insert a bit of data.
302 ASSERT_TRUE(db().BeginTransaction());
304 const char kInsertSql[] = "INSERT INTO x (id, v) VALUES (?, ?)";
305 sql::Statement s(db().GetUniqueStatement(kInsertSql));
306 for (int i = 0; i < 10; ++i) {
307 s.Reset(true);
308 s.BindInt(0, i);
309 s.BindInt(1, i);
310 EXPECT_FALSE(s.Step());
311 EXPECT_TRUE(s.Succeeded());
314 ASSERT_TRUE(db().CommitTransaction());
316 db().Close();
318 // Delete a row from the index while leaving a table entry.
319 const char kDeleteSql[] = "DELETE FROM x WHERE id = 0";
320 ASSERT_TRUE(sql::test::CorruptTableOrIndex(db_path(), "x", kDeleteSql));
322 // TODO(shess): Figure out a query which causes SQLite to notice
323 // this organically. Meanwhile, just handle it manually.
325 ASSERT_TRUE(Reopen());
327 // Index shows one less than originally inserted.
328 const char kCountSql[] = "SELECT COUNT (*) FROM x";
329 EXPECT_EQ("9", ExecuteWithResults(&db(), kCountSql, "|", ","));
331 // A full table scan shows all of the original data. Using column [v] to
332 // force use of the table rather than the index.
333 const char kDistinctSql[] = "SELECT DISTINCT COUNT (v) FROM x";
334 EXPECT_EQ("10", ExecuteWithResults(&db(), kDistinctSql, "|", ","));
336 // Insert id 0 again. Since it is not in the index, the insert
337 // succeeds, but results in a duplicate value in the table.
338 const char kInsertSql[] = "INSERT INTO x (id, v) VALUES (0, 100)";
339 ASSERT_TRUE(db().Execute(kInsertSql));
341 // Duplication is visible.
342 EXPECT_EQ("10", ExecuteWithResults(&db(), kCountSql, "|", ","));
343 EXPECT_EQ("11", ExecuteWithResults(&db(), kDistinctSql, "|", ","));
345 // This works before the callback is called.
346 const char kTrivialSql[] = "SELECT COUNT(*) FROM sqlite_master";
347 EXPECT_TRUE(db().IsSQLValid(kTrivialSql));
349 // Call the recovery callback manually.
350 int error = SQLITE_OK;
351 RecoveryCallback(&db(), db_path(), &error, SQLITE_CORRUPT, NULL);
352 EXPECT_EQ(SQLITE_CORRUPT, error);
354 // Database handle has been poisoned.
355 EXPECT_FALSE(db().IsSQLValid(kTrivialSql));
357 ASSERT_TRUE(Reopen());
359 // The recovered table has consistency between the index and the table.
360 EXPECT_EQ("10", ExecuteWithResults(&db(), kCountSql, "|", ","));
361 EXPECT_EQ("10", ExecuteWithResults(&db(), kDistinctSql, "|", ","));
363 // The expected value was retained.
364 const char kSelectSql[] = "SELECT v FROM x WHERE id = 0";
365 EXPECT_EQ("100", ExecuteWithResults(&db(), kSelectSql, "|", ","));
368 TEST_F(SQLRecoveryTest, Meta) {
369 const int kVersion = 3;
370 const int kCompatibleVersion = 2;
373 sql::MetaTable meta;
374 EXPECT_TRUE(meta.Init(&db(), kVersion, kCompatibleVersion));
375 EXPECT_EQ(kVersion, meta.GetVersionNumber());
378 // Test expected case where everything works.
380 scoped_ptr<sql::Recovery> recovery = sql::Recovery::Begin(&db(), db_path());
381 EXPECT_TRUE(recovery->SetupMeta());
382 int version = 0;
383 EXPECT_TRUE(recovery->GetMetaVersionNumber(&version));
384 EXPECT_EQ(kVersion, version);
386 sql::Recovery::Rollback(recovery.Pass());
388 ASSERT_TRUE(Reopen()); // Handle was poisoned.
390 // Test version row missing.
391 EXPECT_TRUE(db().Execute("DELETE FROM meta WHERE key = 'version'"));
393 scoped_ptr<sql::Recovery> recovery = sql::Recovery::Begin(&db(), db_path());
394 EXPECT_TRUE(recovery->SetupMeta());
395 int version = 0;
396 EXPECT_FALSE(recovery->GetMetaVersionNumber(&version));
397 EXPECT_EQ(0, version);
399 sql::Recovery::Rollback(recovery.Pass());
401 ASSERT_TRUE(Reopen()); // Handle was poisoned.
403 // Test meta table missing.
404 EXPECT_TRUE(db().Execute("DROP TABLE meta"));
406 sql::ScopedErrorIgnorer ignore_errors;
407 ignore_errors.IgnoreError(SQLITE_CORRUPT); // From virtual table.
408 scoped_ptr<sql::Recovery> recovery = sql::Recovery::Begin(&db(), db_path());
409 EXPECT_FALSE(recovery->SetupMeta());
410 ASSERT_TRUE(ignore_errors.CheckIgnoredErrors());
414 // Baseline AutoRecoverTable() test.
415 TEST_F(SQLRecoveryTest, AutoRecoverTable) {
416 // BIGINT and VARCHAR to test type affinity.
417 const char kCreateSql[] = "CREATE TABLE x (id BIGINT, t TEXT, v VARCHAR)";
418 ASSERT_TRUE(db().Execute(kCreateSql));
419 ASSERT_TRUE(db().Execute("INSERT INTO x VALUES (11, 'This is', 'a test')"));
420 ASSERT_TRUE(db().Execute("INSERT INTO x VALUES (5, 'That was', 'a test')"));
422 // Save aside a copy of the original schema and data.
423 const std::string orig_schema(GetSchema(&db()));
424 const char kXSql[] = "SELECT * FROM x ORDER BY 1";
425 const std::string orig_data(ExecuteWithResults(&db(), kXSql, "|", "\n"));
427 // Create a lame-duck table which will not be propagated by recovery to
428 // detect that the recovery code actually ran.
429 ASSERT_TRUE(db().Execute("CREATE TABLE y (c TEXT)"));
430 ASSERT_NE(orig_schema, GetSchema(&db()));
433 scoped_ptr<sql::Recovery> recovery = sql::Recovery::Begin(&db(), db_path());
434 ASSERT_TRUE(recovery->db()->Execute(kCreateSql));
436 // Save a copy of the temp db's schema before recovering the table.
437 const char kTempSchemaSql[] = "SELECT name, sql FROM sqlite_temp_master";
438 const std::string temp_schema(
439 ExecuteWithResults(recovery->db(), kTempSchemaSql, "|", "\n"));
441 size_t rows = 0;
442 EXPECT_TRUE(recovery->AutoRecoverTable("x", 0, &rows));
443 EXPECT_EQ(2u, rows);
445 // Test that any additional temp tables were cleaned up.
446 EXPECT_EQ(temp_schema,
447 ExecuteWithResults(recovery->db(), kTempSchemaSql, "|", "\n"));
449 ASSERT_TRUE(sql::Recovery::Recovered(recovery.Pass()));
452 // Since the database was not corrupt, the entire schema and all
453 // data should be recovered.
454 ASSERT_TRUE(Reopen());
455 ASSERT_EQ(orig_schema, GetSchema(&db()));
456 ASSERT_EQ(orig_data, ExecuteWithResults(&db(), kXSql, "|", "\n"));
458 // Recovery fails if the target table doesn't exist.
460 scoped_ptr<sql::Recovery> recovery = sql::Recovery::Begin(&db(), db_path());
461 ASSERT_TRUE(recovery->db()->Execute(kCreateSql));
463 // TODO(shess): Should this failure implicitly lead to Raze()?
464 size_t rows = 0;
465 EXPECT_FALSE(recovery->AutoRecoverTable("y", 0, &rows));
467 sql::Recovery::Unrecoverable(recovery.Pass());
471 // Test that default values correctly replace nulls. The recovery
472 // virtual table reads directly from the database, so DEFAULT is not
473 // interpretted at that level.
474 TEST_F(SQLRecoveryTest, AutoRecoverTableWithDefault) {
475 ASSERT_TRUE(db().Execute("CREATE TABLE x (id INTEGER)"));
476 ASSERT_TRUE(db().Execute("INSERT INTO x VALUES (5)"));
477 ASSERT_TRUE(db().Execute("INSERT INTO x VALUES (15)"));
479 // ALTER effectively leaves the new columns NULL in the first two
480 // rows. The row with 17 will get the default injected at insert
481 // time, while the row with 42 will get the actual value provided.
482 // Embedded "'" to make sure default-handling continues to be quoted
483 // correctly.
484 ASSERT_TRUE(db().Execute("ALTER TABLE x ADD COLUMN t TEXT DEFAULT 'a''a'"));
485 ASSERT_TRUE(db().Execute("ALTER TABLE x ADD COLUMN b BLOB DEFAULT x'AA55'"));
486 ASSERT_TRUE(db().Execute("ALTER TABLE x ADD COLUMN i INT DEFAULT 93"));
487 ASSERT_TRUE(db().Execute("INSERT INTO x (id) VALUES (17)"));
488 ASSERT_TRUE(db().Execute("INSERT INTO x VALUES (42, 'b', x'1234', 12)"));
490 // Save aside a copy of the original schema and data.
491 const std::string orig_schema(GetSchema(&db()));
492 const char kXSql[] = "SELECT * FROM x ORDER BY 1";
493 const std::string orig_data(ExecuteWithResults(&db(), kXSql, "|", "\n"));
495 // Create a lame-duck table which will not be propagated by recovery to
496 // detect that the recovery code actually ran.
497 ASSERT_TRUE(db().Execute("CREATE TABLE y (c TEXT)"));
498 ASSERT_NE(orig_schema, GetSchema(&db()));
500 // Mechanically adjust the stored schema and data to allow detecting
501 // where the default value is coming from. The target table is just
502 // like the original with the default for [t] changed, to signal
503 // defaults coming from the recovery system. The two %5 rows should
504 // get the target-table default for [t], while the others should get
505 // the source-table default.
506 std::string final_schema(orig_schema);
507 std::string final_data(orig_data);
508 size_t pos;
509 while ((pos = final_schema.find("'a''a'")) != std::string::npos) {
510 final_schema.replace(pos, 6, "'c''c'");
512 while ((pos = final_data.find("5|a'a")) != std::string::npos) {
513 final_data.replace(pos, 5, "5|c'c");
517 scoped_ptr<sql::Recovery> recovery = sql::Recovery::Begin(&db(), db_path());
518 // Different default to detect which table provides the default.
519 ASSERT_TRUE(recovery->db()->Execute(final_schema.c_str()));
521 size_t rows = 0;
522 EXPECT_TRUE(recovery->AutoRecoverTable("x", 0, &rows));
523 EXPECT_EQ(4u, rows);
525 ASSERT_TRUE(sql::Recovery::Recovered(recovery.Pass()));
528 // Since the database was not corrupt, the entire schema and all
529 // data should be recovered.
530 ASSERT_TRUE(Reopen());
531 ASSERT_EQ(final_schema, GetSchema(&db()));
532 ASSERT_EQ(final_data, ExecuteWithResults(&db(), kXSql, "|", "\n"));
535 // Test that rows with NULL in a NOT NULL column are filtered
536 // correctly. In the wild, this would probably happen due to
537 // corruption, but here it is simulated by recovering a table which
538 // allowed nulls into a table which does not.
539 TEST_F(SQLRecoveryTest, AutoRecoverTableNullFilter) {
540 const char kOrigSchema[] = "CREATE TABLE x (id INTEGER, t TEXT)";
541 const char kFinalSchema[] = "CREATE TABLE x (id INTEGER, t TEXT NOT NULL)";
543 ASSERT_TRUE(db().Execute(kOrigSchema));
544 ASSERT_TRUE(db().Execute("INSERT INTO x VALUES (5, null)"));
545 ASSERT_TRUE(db().Execute("INSERT INTO x VALUES (15, 'this is a test')"));
547 // Create a lame-duck table which will not be propagated by recovery to
548 // detect that the recovery code actually ran.
549 ASSERT_EQ(kOrigSchema, GetSchema(&db()));
550 ASSERT_TRUE(db().Execute("CREATE TABLE y (c TEXT)"));
551 ASSERT_NE(kOrigSchema, GetSchema(&db()));
554 scoped_ptr<sql::Recovery> recovery = sql::Recovery::Begin(&db(), db_path());
555 ASSERT_TRUE(recovery->db()->Execute(kFinalSchema));
557 size_t rows = 0;
558 EXPECT_TRUE(recovery->AutoRecoverTable("x", 0, &rows));
559 EXPECT_EQ(1u, rows);
561 ASSERT_TRUE(sql::Recovery::Recovered(recovery.Pass()));
564 // The schema should be the same, but only one row of data should
565 // have been recovered.
566 ASSERT_TRUE(Reopen());
567 ASSERT_EQ(kFinalSchema, GetSchema(&db()));
568 const char kXSql[] = "SELECT * FROM x ORDER BY 1";
569 ASSERT_EQ("15|this is a test", ExecuteWithResults(&db(), kXSql, "|", "\n"));
572 // Test AutoRecoverTable with a ROWID alias.
573 TEST_F(SQLRecoveryTest, AutoRecoverTableWithRowid) {
574 // The rowid alias is almost always the first column, intentionally
575 // put it later.
576 const char kCreateSql[] =
577 "CREATE TABLE x (t TEXT, id INTEGER PRIMARY KEY NOT NULL)";
578 ASSERT_TRUE(db().Execute(kCreateSql));
579 ASSERT_TRUE(db().Execute("INSERT INTO x VALUES ('This is a test', null)"));
580 ASSERT_TRUE(db().Execute("INSERT INTO x VALUES ('That was a test', null)"));
582 // Save aside a copy of the original schema and data.
583 const std::string orig_schema(GetSchema(&db()));
584 const char kXSql[] = "SELECT * FROM x ORDER BY 1";
585 const std::string orig_data(ExecuteWithResults(&db(), kXSql, "|", "\n"));
587 // Create a lame-duck table which will not be propagated by recovery to
588 // detect that the recovery code actually ran.
589 ASSERT_TRUE(db().Execute("CREATE TABLE y (c TEXT)"));
590 ASSERT_NE(orig_schema, GetSchema(&db()));
593 scoped_ptr<sql::Recovery> recovery = sql::Recovery::Begin(&db(), db_path());
594 ASSERT_TRUE(recovery->db()->Execute(kCreateSql));
596 size_t rows = 0;
597 EXPECT_TRUE(recovery->AutoRecoverTable("x", 0, &rows));
598 EXPECT_EQ(2u, rows);
600 ASSERT_TRUE(sql::Recovery::Recovered(recovery.Pass()));
603 // Since the database was not corrupt, the entire schema and all
604 // data should be recovered.
605 ASSERT_TRUE(Reopen());
606 ASSERT_EQ(orig_schema, GetSchema(&db()));
607 ASSERT_EQ(orig_data, ExecuteWithResults(&db(), kXSql, "|", "\n"));
610 // Test that a compound primary key doesn't fire the ROWID code.
611 TEST_F(SQLRecoveryTest, AutoRecoverTableWithCompoundKey) {
612 const char kCreateSql[] =
613 "CREATE TABLE x ("
614 "id INTEGER NOT NULL,"
615 "id2 TEXT NOT NULL,"
616 "t TEXT,"
617 "PRIMARY KEY (id, id2)"
618 ")";
619 ASSERT_TRUE(db().Execute(kCreateSql));
621 // NOTE(shess): Do not accidentally use [id] 1, 2, 3, as those will
622 // be the ROWID values.
623 ASSERT_TRUE(db().Execute("INSERT INTO x VALUES (1, 'a', 'This is a test')"));
624 ASSERT_TRUE(db().Execute("INSERT INTO x VALUES (1, 'b', 'That was a test')"));
625 ASSERT_TRUE(db().Execute("INSERT INTO x VALUES (2, 'a', 'Another test')"));
627 // Save aside a copy of the original schema and data.
628 const std::string orig_schema(GetSchema(&db()));
629 const char kXSql[] = "SELECT * FROM x ORDER BY 1";
630 const std::string orig_data(ExecuteWithResults(&db(), kXSql, "|", "\n"));
632 // Create a lame-duck table which will not be propagated by recovery to
633 // detect that the recovery code actually ran.
634 ASSERT_TRUE(db().Execute("CREATE TABLE y (c TEXT)"));
635 ASSERT_NE(orig_schema, GetSchema(&db()));
638 scoped_ptr<sql::Recovery> recovery = sql::Recovery::Begin(&db(), db_path());
639 ASSERT_TRUE(recovery->db()->Execute(kCreateSql));
641 size_t rows = 0;
642 EXPECT_TRUE(recovery->AutoRecoverTable("x", 0, &rows));
643 EXPECT_EQ(3u, rows);
645 ASSERT_TRUE(sql::Recovery::Recovered(recovery.Pass()));
648 // Since the database was not corrupt, the entire schema and all
649 // data should be recovered.
650 ASSERT_TRUE(Reopen());
651 ASSERT_EQ(orig_schema, GetSchema(&db()));
652 ASSERT_EQ(orig_data, ExecuteWithResults(&db(), kXSql, "|", "\n"));
655 // Test |extend_columns| support.
656 TEST_F(SQLRecoveryTest, AutoRecoverTableExtendColumns) {
657 const char kCreateSql[] = "CREATE TABLE x (id INTEGER PRIMARY KEY, t0 TEXT)";
658 ASSERT_TRUE(db().Execute(kCreateSql));
659 ASSERT_TRUE(db().Execute("INSERT INTO x VALUES (1, 'This is')"));
660 ASSERT_TRUE(db().Execute("INSERT INTO x VALUES (2, 'That was')"));
662 // Save aside a copy of the original schema and data.
663 const std::string orig_schema(GetSchema(&db()));
664 const char kXSql[] = "SELECT * FROM x ORDER BY 1";
665 const std::string orig_data(ExecuteWithResults(&db(), kXSql, "|", "\n"));
667 // Modify the table to add a column, and add data to that column.
668 ASSERT_TRUE(db().Execute("ALTER TABLE x ADD COLUMN t1 TEXT"));
669 ASSERT_TRUE(db().Execute("UPDATE x SET t1 = 'a test'"));
670 ASSERT_NE(orig_schema, GetSchema(&db()));
671 ASSERT_NE(orig_data, ExecuteWithResults(&db(), kXSql, "|", "\n"));
674 scoped_ptr<sql::Recovery> recovery = sql::Recovery::Begin(&db(), db_path());
675 ASSERT_TRUE(recovery->db()->Execute(kCreateSql));
676 size_t rows = 0;
677 EXPECT_TRUE(recovery->AutoRecoverTable("x", 1, &rows));
678 EXPECT_EQ(2u, rows);
679 ASSERT_TRUE(sql::Recovery::Recovered(recovery.Pass()));
682 // Since the database was not corrupt, the entire schema and all
683 // data should be recovered.
684 ASSERT_TRUE(Reopen());
685 ASSERT_EQ(orig_schema, GetSchema(&db()));
686 ASSERT_EQ(orig_data, ExecuteWithResults(&db(), kXSql, "|", "\n"));
689 // Recover a golden file where an interior page has been manually modified so
690 // that the number of cells is greater than will fit on a single page. This
691 // case happened in <http://crbug.com/387868>.
692 TEST_F(SQLRecoveryTest, Bug387868) {
693 base::FilePath golden_path;
694 ASSERT_TRUE(PathService::Get(sql::test::DIR_TEST_DATA, &golden_path));
695 golden_path = golden_path.AppendASCII("recovery_387868");
696 db().Close();
697 ASSERT_TRUE(base::CopyFile(golden_path, db_path()));
698 ASSERT_TRUE(Reopen());
701 scoped_ptr<sql::Recovery> recovery = sql::Recovery::Begin(&db(), db_path());
702 ASSERT_TRUE(recovery.get());
704 // Create the new version of the table.
705 const char kCreateSql[] =
706 "CREATE TABLE x (id INTEGER PRIMARY KEY, t0 TEXT)";
707 ASSERT_TRUE(recovery->db()->Execute(kCreateSql));
709 size_t rows = 0;
710 EXPECT_TRUE(recovery->AutoRecoverTable("x", 0, &rows));
711 EXPECT_EQ(43u, rows);
713 // Successfully recovered.
714 EXPECT_TRUE(sql::Recovery::Recovered(recovery.Pass()));
717 #endif // !defined(USE_SYSTEM_SQLITE)
719 } // namespace