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// Copyright 2012 The Chromium Authors
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "sql/error_delegate_util.h"
#include <ostream> // Needed to compile NOTREACHED() with operator <<.
#include <string>
#include "base/files/file_path.h"
#include "base/notreached.h"
#include "third_party/sqlite/sqlite3.h"
namespace sql {
bool IsErrorCatastrophic(int sqlite_error_code) {
// SQLite result codes are documented at https://www.sqlite.org/rescode.html
int primary_error_code = sqlite_error_code & 0xff;
// Within each group, error codes are sorted by their numerical values. This
// matches the order used by the SQLite documentation describing them.
switch (primary_error_code) {
// Group of error codes that should never be returned by SQLite.
//
// If we do get these, our database schema / query pattern / data managed to
// trigger a bug in SQLite. In development, we DCHECK to flag this SQLite
// bug. In production, we [[fallback]] to corruption handling, because the
// bug may be persistent, and corruption recovery will get the user unstuck.
case SQLITE_INTERNAL: // Bug in SQLite.
case SQLITE_EMPTY: // Marked for SQLite internal use.
case SQLITE_FORMAT: // Not currently used, according to SQLite docs.
case SQLITE_NOTICE: // Only used as an argument to sqlite3_log().
case SQLITE_WARNING: // Only used as an argument to sqlite3_log().
NOTREACHED() << "SQLite returned result code marked for internal use: "
<< sqlite_error_code;
[[fallthrough]];
// Group of error codes that may only be returned by SQLite (given Chrome's
// usage patterns) if a database is corrupted. DCHECK would not be
// appropriate, since these can occur in production. Silently [[fallback]]
// to corruption handling.
case SQLITE_ERROR:
// Generic/fallback error code.
//
// In production, database corruption leads our SQL statements being
// flagged as invalid. For example, a SQL statement may reference a table
// or column whose name got corrupted.
//
// In development, this error code shows up most often when passing
// invalid SQL statements to SQLite. We have DCHECKs in sql::Statement and
// sql::Database::Execute() that catch obvious SQL syntax errors. We can't
// DCHECK when a SQL statement uses incorrect table/index/row names,
// because that can legitimately happen in production, due to corruption.
//
// In 2022 we considered these errors as non-catastrophic, and we didn't
// find ANY invalid SQL statements, and only found failed transactions
// and schemas that didn't match the reported schema version, which both
// suggest corruption. See https://crbug.com/1321483 for context.
[[fallthrough]];
case SQLITE_PERM:
// Failed to get the requested access mode for a newly created database.
// The database was just created, so error recovery will not cause data
// loss. Error recovery steps, such as re-creating database files, may
// fix the permission problems.
[[fallthrough]];
case SQLITE_CORRUPT:
// Some form of database corruption was detected. The sql::Recovery code
// may be able to recover some of the data.
[[fallthrough]];
case SQLITE_CANTOPEN:
// Failed to open the database, for a variety of reasons. All the reasons
// come down to some form of corruption. Here are some known reasons:
// * One of the file names (database, journal, WAL, etc.) points to a
// directory, not a file. This indicates filesystem corruption. Most
// likely, some app messed with the user's Chrome file. It's also
// possible that the inode was corrupted and the is_dir bit flipped.
// * One of the file names is a symlink, and SQLite was instructed not to
// follow symlinks. This should not occur in Chrome, we let SQLite use
// its default symlink handling.
// * The WAL file has a format version that SQLite can't understand. This
// should not occur in Chrome, as we don't use WAL yet.
[[fallthrough]];
case SQLITE_MISMATCH:
// SQLite was forced to perform an operation that involves incompatible
// data types. An example is attempting to store a non-integer value in a
// ROWID primary key.
//
// In production, database corruption can lead to this. For example, it's
// possible that a schema is corrupted in such a way that the ROWID
// primary key column's name is swapped with another column's name.
[[fallthrough]];
case SQLITE_NOLFS:
// The database failed to grow past the filesystem size limit. This is
// unlikely to happen in Chrome, but it is theoretically possible.
[[fallthrough]];
case SQLITE_NOTADB:
// The database header is corrupted. The sql::Recovery code will not be
// able to recovery any data, as SQLite will refuse to open the database.
return true;
// Group of result codes that are not error codes. These should never make
// it to error handling code. In development, we DCHECK to flag this Chrome
// bug. In production, we hope this is a transient error, such as a race
// condition.
case SQLITE_OK: // Most used success code.
case SQLITE_ROW: // The statement produced a row of output.
case SQLITE_DONE: // A step has completed in a multi-step operation.
NOTREACHED() << "Called with non-error result code " << sqlite_error_code;
[[fallthrough]];
// Group of error codes that should not be returned by SQLite given Chrome's
// usage patterns, even if the database gets corrupted. In development, we
// DCHECK to flag this Chrome bug. In production, we hope the errors have
// transient causes, such as race conditions.
case SQLITE_LOCKED:
// Conflict between two concurrently executing statements in the same
// database connection.
//
// In theory, SQLITE_LOCKED could also signal a conflict between different
// connections (in the same process) sharing a page cache, but Chrome only
// uses private page caches.
NOTREACHED() << "Conflict between concurrently executing SQL statements";
[[fallthrough]];
case SQLITE_NOMEM:
// Out of memory. This is most likely a transient error.
//
// There's a small chance that the error is caused by trying to exchange
// too much data with SQLite. Most such errors result in SQLITE_TOOBIG.
NOTREACHED() << "SQLite reported out-of-memory: " << sqlite_error_code;
[[fallthrough]];
case SQLITE_INTERRUPT:
// Chrome features don't use sqlite3_interrupt().
NOTREACHED() << "SQLite returned INTERRUPT code: " << sqlite_error_code;
[[fallthrough]];
case SQLITE_NOTFOUND:
// Unknown opcode in sqlite3_file_control(). Chrome's features only use a
// few built-in opcodes.
NOTREACHED() << "SQLite returned NOTFOUND code: " << sqlite_error_code;
[[fallthrough]];
case SQLITE_MISUSE:
// SQLite API misuse, such as trying to use a prepared statement after it
// was finalized. In development, we DCHECK to flag this Chrome bug. In
// production, we hope this is a race condition, and therefore transient.
NOTREACHED() << "SQLite returned MISUSE code: " << sqlite_error_code;
[[fallthrough]];
case SQLITE_AUTH:
// Chrome features don't install an authorizer callback. Only WebSQL does.
NOTREACHED() << "SQLite returned AUTH code: " << sqlite_error_code;
[[fallthrough]];
case SQLITE_RANGE:
// Chrome uses DCHECKs to ensure the validity of column indexes passed to
// sqlite3_bind() and sqlite3_column().
NOTREACHED() << "SQLite returned RANGE code: " << sqlite_error_code;
[[fallthrough]];
// Group of error codes that should may be returned by SQLite given Chrome's
// usage patterns, even without database corruption. In development, we
// DCHECK to flag this Chrome bug. In production, we hope the errors have
// transient causes, such as race conditions.
case SQLITE_ABORT:
// SQLITE_ABORT may be returned when a ROLLBACK statement is executed
// concurrently with a pending read or write, and Chrome features are
// allowed to execute concurrent statements in the same transaction, under
// some conditions.
//
// It may be worth noting that Chrome features don't use callback routines
// that may abort SQL statements, such as passing a callback to
// sqlite3_exec().
[[fallthrough]];
case SQLITE_BUSY:
// Failed to grab a lock on the database. Another database connection
// (most likely in another process) is holding the database lock. This
// should not be a problem for exclusive databases, which are strongly
// recommended for Chrome features.
[[fallthrough]];
case SQLITE_READONLY:
// SQLite either failed to write to the database file or its associated
// files (journal, WAL, etc.), or considers it unsafe to do so.
//
// Most error codes (SQLITE_READONLY_DIRECTORY, SQLITE_READONLY_RECOVERY,
// SQLITE_READONLY_ROLLBACK, SQLITE_READONLY_CANTLOCK) mean that SQLite
// failed to write to some file, or to create a file (which entails
// writing to the directory containing the database).
//
// SQLITE_READONLY_CANTLOCK should never happen in Chrome, because we will
// only allow enabling WAL on databases that use exclusive locking.
//
// Unlike all other codes, SQLITE_READONLY_DBMOVED signals that a file was
// deleted or renamed. It is returned when SQLite realizes that the
// database file was moved or unlinked from the filesystem after it was
// opened, so the associated files (journal, WAL, etc.) would not be found
// by another SQLite instance in the event of a crash. This was observed
// on the iOS try bots.
[[fallthrough]];
case SQLITE_IOERR:
// Catch-all for many errors reported by the VFS. Some of the errors
// indicate media failure (SQLITE_IOERR_READ), while others indicate
// transient problems (SQLITE_IOERR_LOCK). In the future, we may invest in
// distinguishing between them. For now, since all the codes are bundled
// up, we must assume that the error is transient.
[[fallthrough]];
case SQLITE_FULL:
// The disk is full. This is definitely a transient error, and does not
// indicate any database corruption. While it's true that the user will be
// stuck in this state until some action is taken, we're unlikely to help
// the user if we run our recovery code or delete our databases.
[[fallthrough]];
case SQLITE_PROTOCOL:
// Gave up while attempting to grab a lock on a WAL database at the
// beginning of a transaction. In theory, this should not be a problem in
// Chrome, because we'll only allow enabling WAL on databases with
// exclusive locking. However, other software on the user's system may
// lock our databases in a way that triggers this error.
[[fallthrough]];
case SQLITE_SCHEMA:
// The database schema was changed between the time when a prepared
// statement was compiled, and when it was executing.
//
// This can happen in production. Databases that don't use exclusive
// locking (recommended but not yet required for Chrome features) may be
// changed from another process via legitimate use of SQLite APIs.
// Databases that do use exclusive locks may still be mutated on-disk, on
// operating systems where exclusive locks are only enforced via advisory
// locking.
//
// When we mandate exclusive locks for all features in Chrome, we may
// classify this error as database corruption, because it is an indicator
// that another process is interfering with Chrome's schemas.
[[fallthrough]];
case SQLITE_TOOBIG:
// SQLite encountered a string or blob whose length exceeds
// SQLITE_MAX_LENGTH, or it was asked to execute a SQL statement whose
// length exceeds SQLITE_MAX_SQL_LENGTH or SQLITE_LIMIT_SQL_LENGTH.
//
// A corrupted database could cause this in the following ways:
// * SQLite could encounter an overly large string or blob because its
// size field got corrupted.
// * SQLite could attempt to execute an overly large SQL statement while
// operating on a corrupted schema. (Some of SQLite's DDL statements
// involve executing SQL that includes schema content.)
//
// However, this could also occur due to a Chrome bug where we ask SQLite
// to bind an overly large string or blob. So, we currently don't classify
// this as definitely induced by corruption.
[[fallthrough]];
case SQLITE_CONSTRAINT:
// This can happen in production, when executing SQL statements with the
// semantics of "create a record if it doesn't exist, otherwise do
// nothing".
return false;
}
NOTREACHED() << "SQLite returned unknown result code: " << sqlite_error_code;
return false;
}
std::string GetCorruptFileDiagnosticsInfo(
const base::FilePath& corrupted_file_path) {
std::string corrupted_file_info("Corrupted file: ");
corrupted_file_info +=
corrupted_file_path.DirName().BaseName().AsUTF8Unsafe() + "/" +
corrupted_file_path.BaseName().AsUTF8Unsafe() + "\n";
return corrupted_file_info;
}
} // namespace sql