.. currentmodule:: apsw .. _exceptions: Exceptions and Errors ********************* Python uses :class:`exceptions ` to indicate an error has happened. The SQLite library uses `integer error codes `__. APSW maps between the two systems as needed. Exceptions raised in Python code called by SQLite will have that exception present when control returns to Python, and SQLite will understand that an error occurred. Chaining -------- When an error is reported to SQLite, it may take further actions. For example errors in :doc:`VFS ` can result in error recovery attempts, while an error in a window function step method will result in the final method being called to do clean up. Your code implementing those could also have additional exceptions. When multiple exceptions occur in the same SQLite control flow then they will be :pep:`chained <3134>`. Python's traceback printing code will show `all the exceptions `__. .. _unraisable: Unraisable ---------- There are a few places where it is not possible for a Python exception to be reported to SQLite as an error, and Python C code does not allow destructors to report exceptions. These exceptions are reported via `sys.unraisablehook `__, and if that is not present then `sys.excepthook `__. `sqlite3_log `__ is also called so that you will have the context of when the exception happened relative to the errors SQLite is logging. Exception Classes ----------------- .. exception:: Error This is the base for APSW exceptions. .. attribute:: Error.result For exceptions corresponding to `SQLite error codes `_ codes this attribute is the numeric error code. .. attribute:: Error.extendedresult APSW runs with `extended result codes `_ turned on. This attribute includes the detailed code. As an example, if SQLite issued a read request and the system returned less data than expected then :attr:`~Error.result` would have the value *SQLITE_IOERR* while :attr:`~Error.extendedresult` would have the value *SQLITE_IOERR_SHORT_READ*. .. attribute:: Error.error_offset The location of the error in the SQL when encoded in UTF-8. The value is from `sqlite3_error_offset `__, and will be `-1` when a specific token in the input is not the cause. APSW specific exceptions ======================== The following exceptions happen when APSW detects various problems. .. exception:: ThreadingViolationError You have used an object concurrently in two threads. For example you may try to use the same cursor in two different threads at the same time, or tried to close the same connection in two threads at the same time. You can also get this exception by using a cursor as an argument to itself (eg as the input data for :meth:`Cursor.executemany`). Cursors can only be used for one thing at a time. .. exception:: ForkingViolationError See :meth:`apsw.fork_checker`. .. exception:: IncompleteExecutionError You have tried to start a new SQL execute call before executing all the previous ones. See the :ref:`execution model ` for more details. .. exception:: ConnectionNotClosedError This exception is no longer generated. It was required in earlier releases due to constraints in threading usage with SQLite. .. exception:: ConnectionClosedError You have called :meth:`Connection.close` and then continued to use the :class:`Connection` or associated :class:`cursors `. .. exception:: CursorClosedError You have called :meth:`Cursor.close` and then tried to use the cursor. .. exception:: BindingsError There are several causes for this exception. When using tuples, an incorrect number of bindings where supplied:: cursor.execute("select ?,?,?", (1,2)) # too few bindings cursor.execute("select ?,?,?", (1,2,3,4)) # too many bindings You are using named bindings, but not all bindings are named. You should either use entirely the named style or entirely numeric (unnamed) style:: cursor.execute("select * from foo where x=:name and y=?") .. exception:: ExecutionCompleteError Execution of the statements is complete and cannot be run further. .. exception:: ExecTraceAbort The :ref:`execution tracer ` returned False so execution was aborted. .. exception:: ExtensionLoadingError An error happened loading an `extension `_. .. exception:: VFSNotImplementedError A call cannot be made to an inherited :ref:`VFS` method as the VFS does not implement the method. .. exception:: VFSFileClosedError The VFS file is closed so the operation cannot be performed. SQLite Exceptions ================= The following lists which Exception classes correspond to which `SQLite error codes `_. General Errors ^^^^^^^^^^^^^^ .. exception:: SQLError `SQLITE_ERROR `__. The standard error code, unless a more specific one is applicable. .. exception:: MismatchError `SQLITE_MISMATCH `__. Data type mismatch. For example a rowid or integer primary key must be an integer. .. exception:: NotFoundError `SQLITE_NOTFOUND `__. Returned when various internal items were not found such as requests for non-existent system calls or file controls. Internal Errors ^^^^^^^^^^^^^^^ .. exception:: InternalError `SQLITE_INTERNAL `__. (No longer used) Internal logic error in SQLite. .. exception:: ProtocolError `SQLITE_PROTOCOL `__. (No longer used) Database lock protocol error. .. exception:: MisuseError `SQLITE_MISUSE `__. SQLite library used incorrectly - typically similar to *ValueError* in Python. Examples include not having enough flags when opening a connection (eg not including a READ or WRITE flag), or out of spec such as registering a function with more than 127 parameters. .. exception:: RangeError `SQLITE_RANGE `__. (Cannot be generated using APSW). 2nd parameter to `sqlite3_bind `_ out of range Permissions Etc ^^^^^^^^^^^^^^^ .. exception:: PermissionsError `SQLITE_PERM `__. Access permission denied by the operating system. .. exception:: ReadOnlyError `SQLITE_READONLY `__. Attempt to write to a readonly database. .. exception:: CantOpenError `SQLITE_CANTOPEN `__. Unable to open the database file. .. exception:: AuthError `SQLITE_AUTH `__. :attr:`Authorization ` denied. Abort/Busy Etc ^^^^^^^^^^^^^^ .. exception:: AbortError `SQLITE_ABORT `__. Callback routine requested an abort. .. exception:: BusyError `SQLITE_BUSY `__. The database file is locked. Use :meth:`Connection.set_busy_timeout` to change how long SQLite waits for the database to be unlocked or :meth:`Connection.set_busy_handler` to use your own handler. .. exception:: LockedError `SQLITE_LOCKED `__. Shared cache lock. .. exception:: InterruptError SQLITE_INTERRUPT `__. Operation terminated by `sqlite3_interrupt `_ - use :meth:`Connection.interrupt`. .. exception:: SchemaChangeError `SQLITE_SCHEMA `__. The database schema changed. A :meth:`prepared statement ` becomes invalid if the database schema was changed. Behind the scenes SQLite reprepares the statement. Another or the same :class:`Connection` may change the schema again before the statement runs. SQLite will retry before giving up and returning this error. .. exception:: ConstraintError `SQLITE_CONSTRAINT `__. Abort due to `constraint `_ violation. Memory/Disk ^^^^^^^^^^^ .. exception:: NoMemError `SQLITE_NOMEM `__. A memory allocation failed. .. exception:: IOError `SQLITE_IOERR `__. A disk I/O error occurred. The :ref:`extended error code ` will give more detail. .. exception:: CorruptError `SQLITE_CORRUPT `__. The database disk image appears to be a SQLite database but the values inside are inconsistent. .. exception:: FullError `SQLITE_FULL `__. The disk appears to be full. .. exception:: TooBigError `SQLITE_TOOBIG `__. String or BLOB exceeds size limit. You can change the limits using :meth:`Connection.limit`. .. exception:: NoLFSError `SQLITE_NOLFS `__. SQLite has attempted to use a feature not supported by the operating system such as `large file support `_. .. exception:: EmptyError `SQLITE_EMPTY `__. Not currently used. .. exception:: FormatError `SQLITE_FORMAT `__. (No longer used) `Auxiliary database `_ format error. .. exception:: NotADBError `SQLITE_NOTADB `__. File opened that is not a database file. SQLite has a header on database files to verify they are indeed SQLite databases. .. _augmentedstacktraces: Augmented stack traces ====================== When an exception occurs, Python does not include frames from non-Python code (ie the C code called from Python). This can make it more difficult to work out what was going on when an exception occurred for example when there are callbacks to collations, functions or virtual tables, triggers firing etc. This is an example showing the difference between the tracebacks you would have got with earlier versions of apsw and the augmented traceback:: import apsw def myfunc(x): 1/0 con=apsw.Connection(":memory:") con.create_scalar_function("foo", myfunc) con.create_scalar_function("fam", myfunc) cursor=con.cursor() cursor.execute("create table bar(x,y,z);insert into bar values(1,2,3)") cursor.execute("select foo(1) from bar") +-----------------------------------------------------------+ | Original Traceback | +===========================================================+ | :: | | | | Traceback (most recent call last): | | File "t.py", line 11, in | | cursor.execute("select foo(1) from bar") | | File "t.py", line 4, in myfunc | | 1/0 | | ZeroDivisionError: integer division or modulo by zero | | | | | +-----------------------------------------------------------+ +----------------------------------------------------------+ | Augmented Traceback | +==========================================================+ | :: | | | | Traceback (most recent call last): | | File "t.py", line 11, in | | cursor.execute("select foo(1) from bar") | | File "apsw.c", line 3412, in resetcursor | | File "apsw.c", line 1597, in user-defined-scalar-foo | | File "t.py", line 4, in myfunc | | 1/0 | | ZeroDivisionError: integer division or modulo by zero | +----------------------------------------------------------+ In the original traceback you can't even see that code in apsw was involved. The augmented traceback shows that there were indeed two function calls within apsw and gives you line numbers should you need to examine the code. Also note how you are told that the call was in `user-defined-scalar-foo` (ie you can tell which function was called.) *But wait, there is more!!!* In order to further aid troubleshooting, the augmented stack traces make additional information available. Each frame in the traceback has local variables defined with more information. You can use :meth:`apsw.ext.print_augmented_traceback` to print an exception with the local variables. Here is a far more complex example from some :ref:`virtual tables ` code I was writing. The BestIndex method in my code had returned an incorrect value. The augmented traceback includes local variables. I can see what was passed in to my method, what I returned and which item was erroneous. The original traceback is almost completely useless! Original traceback:: Traceback (most recent call last): File "tests.py", line 1387, in testVtables cursor.execute(allconstraints) TypeError: Bad constraint (#2) - it should be one of None, an integer or a tuple of an integer and a boolean Augmented traceback with local variables:: Traceback (most recent call last): File "tests.py", line 1387, in testVtables cursor.execute(allconstraints) VTable = __main__.VTable cur = i = 10 self = testVtables (__main__.APSW) allconstraints = select rowid,* from foo where rowid>-1000 .... File "apsw.c", line 4050, in Cursor_execute.sqlite3_prepare Connection = statement = select rowid,* from foo where rowid>-1000 .... File "apsw.c", line 2681, in VirtualTable.xBestIndex self = <__main__.VTable instance at 0x98d8c0> args = (((-1, 4), (0, 32), (1, 8), (2, 4), (3, 64)), ((2, False),)) result = ([4, (3,), [2, False], [1], [0]], 997, u'\xea', False) File "apsw.c", line 2559, in VirtualTable.xBestIndex.result_constraint indices = [4, (3,), [2, False], [1], [0]] self = <__main__.VTable instance at 0x98d8c0> result = ([4, (3,), [2, False], [1], [0]], 997, u'\xea', False) constraint = (3,) TypeError: Bad constraint (#2) - it should be one of None, an integer or a tuple of an integer and a boolean