WiredTiger operations return a value of 0 on success and a non-zero value on error. Error codes may be either positive or negative: positive error codes are standard error codes as described for POSIX-like systems (for example, EINVAL
or EBUSY
), negative error codes are WiredTiger-specific (for example, WT_ROLLBACK
).
WiredTiger-specific error codes always appear in the -31,800 to -31,999 range, inclusive.
WiredTiger returns EBUSY
for operations requiring exclusive access, when an object is not available for exclusive access. For example, the WT_SESSION::drop or WT_SESSION::verify methods will fail if the object has open cursors. Note that internal WiredTiger threads may temporarily open cursors on objects (for example, threads performing operations like statistics logging), and operations may temporarily fail and return EBUSY
when there are no application cursors open on the object.
The following is a complete list of the WiredTiger-specific return values:
- WT_ROLLBACK
- This error is generated when an operation cannot be completed due to a conflict with concurrent operations. The operation may be retried; if a transaction is in progress, it should be rolled back and the operation retried in a new transaction.
- WT_DUPLICATE_KEY
- This error is generated when the application attempts to insert a record with the same key as an existing record without the 'overwrite' configuration to WT_SESSION::open_cursor.
- WT_ERROR
- This error is returned when an error is not covered by a specific error return.
- WT_NOTFOUND
- This error indicates an operation did not find a value to return. This includes cursor search and other operations where no record matched the cursor's search key such as WT_CURSOR::update or WT_CURSOR::remove.
- WT_PANIC
- This error indicates an underlying problem that requires a database restart. The application may exit immediately, no further WiredTiger calls are required (and further calls will themselves immediately fail).
- WT_RUN_RECOVERY
- This error is generated when wiredtiger_open is configured to return an error if recovery is required to use the database.
- WT_CACHE_FULL
- This error is only generated when wiredtiger_open is configured to run in-memory, and an insert or update operation requires more than the configured cache size to complete. The operation may be retried; if a transaction is in progress, it should be rolled back and the operation retried in a new transaction.
- WT_PREPARE_CONFLICT
- This error is generated when the application attempts to update an already updated record which is in prepared state. An updated record will be in prepared state, when the transaction that performed the update is in prepared state.
- WT_TRY_SALVAGE
- This error is generated when corruption is detected in an on-disk file. During normal operations, this may occur in rare circumstances as a result of a system crash. The application may choose to salvage the file or retry wiredtiger_open with the 'salvage=true' configuration setting.
Translating errors
The WT_SESSION::strerror and wiredtiger_strerror functions return the standard text message associated with any WiredTiger, ISO C, or POSIX standard API.
const char *key = "non-existent key";
cursor->set_key(cursor, key);
if ((ret = cursor->remove(cursor)) != 0) {
fprintf(stderr, "cursor.remove: %s\n", cursor->session->strerror(cursor->session, ret));
return (ret);
}
const char *key = "non-existent key";
cursor->set_key(cursor, key);
if ((ret = cursor->remove(cursor)) != 0) {
return (ret);
}
Note that wiredtiger_strerror is not thread-safe.
Message handling using the WT_EVENT_HANDLER
Specific error and other message handling can be configured by passing an implementation of WT_EVENT_HANDLER to wiredtiger_open or WT_CONNECTION::open_session.
For example, both informational and error messages might be passed to an application-specific logging function that added a timestamp and logged the message to a file, and error messages might additionally be output to the stderr
file stream.
Additionally, applications will normally handle WT_PANIC
as a special case. WiredTiger will always call the error handler callback with WT_PANIC
in the case of a fatal error requiring database restart, however, WiredTiger cannot guarantee applications will see an application thread return WT_PANIC
from a WiredTiger API call. For this reason, a correctly-written WiredTiger application will likely specify at least an error handler which will immediately exit or otherwise handle fatal errors. Note that no further WiredTiger calls are required after an error handler is called with WT_PANIC
(and further calls will themselves immediately fail).
typedef struct {
const char *app_id;
} CUSTOM_EVENT_HANDLER;
int
handle_wiredtiger_error(
{
CUSTOM_EVENT_HANDLER *custom_handler;
custom_handler = (CUSTOM_EVENT_HANDLER *)handler;
fprintf(stderr, "app_id %s, thread context %p, error %d, message %s\n", custom_handler->app_id,
(void *)session, error, message);
exit(1);
return (0);
}
int
{
printf("app id %s, thread context %p, message %s\n", ((CUSTOM_EVENT_HANDLER *)handler)->app_id,
(void *)session, message);
return (0);
}
CUSTOM_EVENT_HANDLER event_handler;
event_handler.h.handle_error = handle_wiredtiger_error;
event_handler.h.handle_message = handle_wiredtiger_message;
event_handler.h.handle_progress = NULL;
event_handler.h.handle_close = NULL;
event_handler.app_id = "example_event_handler";