Optimistic locking
Implementing optimistic locking to handle access concurrently to the same database records.
This section describes how to implement optimistic locking in applications. Optimistic locking is a portable solution to control simultaneous modification of the same record by multiple users.
Traditional IBM® Informix® applications use a cursor declared with SELECT FOR UPDATE
to set a
lock on the row to be edited by the user. This is called pessimistic locking. The
SELECT FOR UPDATE
cursor is executed before the interactive part of the code, as
described in here:
- When the end user chooses to modify a record, the program declares
and opens a cursor with a
SELECT FOR UPDATE
. At this point, an SQL error might be raised if the record is already locked by another process. Otherwise, the lock is acquired and user can modify the record. - The user edits the current record in the input form.
- The user validates the dialog.
- The
UPDATE
SQL instruction is executed. - The transaction is committed or the
SELECT FOR UPDATE
cursor is closed. The lock is released.
If the IBM Informix database was created
with transaction logging, you must either start a transaction
or define the SELECT FOR UPDATE
cursor WITH
HOLD
option.
Unfortunately, this is not a portable solution. The lock wait mode
should preferably be WAIT
for portability
reasons. Pessimistic locking is based on a NOT
WAIT
mode to return control to the program if a record is
already locked by another process. Therefore, following the
portable concurrency model, the pessimistic locking mechanisms
must be replaced by the optimistic locking technique.
Basically, instead of locking the row before the user starts to modify the record data, the optimistic locking technique makes a copy of the current values (i.e. before modification values (BVM)), allows the user to edit the record, and when it's time to write data into the database, checks if the BMVs still correspond to the current values in the database:
- A
SELECT
is executed to fill the record variable used by the interactive instruction for modifications. - The record variable is copied into a backup record to keep Before Modification Values.
- The user enters modifications in the input form; this updates the values in the modification record.
- The user validates the dialog.
- A transaction is started with
BEGIN WORK
. - Declare a cursor with a
SELECT FOR UPDATE
, to select the row to be updated. - Open the
SELECT FOR UPDATE
cursor and fetch the row into the temporary record. - If the SQL status is
NOTFOUND
, the row has been deleted by another process, and the transaction can stop withROLLBACK WORK
. - If the row was found, the program compares the temporary record
values with the backup record values with the
(rec1.*==rec2.*)
notation. - If these values have changed, the row has been modified by another
process, and the transaction can stop with
ROLLBACK WORK
. - If the values in the database have not changed, the
UPDATE
statement is executed to apply the last changes of the user. - The transaction is committed with a
COMMIT WORK
.
To compare 2 records (with NULL
checking), simply
write:
IF new_record.* != bmv_record.* THEN
LET values_have_changed = TRUE
END IF
The optimistic locking technique can be implemented with a unique SQL instruction: an
UPDATE
can compare the column values to the BMVs directly
(UPDATE ... WHERE kcol = kvar AND col1 = bmv.var1 AND ...
). But,
this is not possible when BMVs can be NULL
. The database engine always
evaluates conditional expressions such as "col=NULL
" to
FALSE
. Therefore, you must use "col IS NULL
" when
the BMV is NULL
. This means dynamic SQL statement generation based on
the DMV values. Additionally, to use the same number of SQL parameters (? markers), you
would have to use "col=?
" when the BMV is not null and "col IS
NULL and ? IS NULL
" when the BMV is null. Unfortunately, the expression
" ? IS [NOT] NULL
" is not supported by all database servers (DB2® raises error SQL0418N).
If you are designing a new database application from scratch, you can also use the row versioning
method. Each table of the database must have a column that identifies the current
version of the row. The column can be a simple INTEGER
(to hold a row
version number) or it can be a timestamp (DATETIME YEAR TO FRACTION(5)
for example). To guaranty that the version or timestamp column is updated each time the
row is updated, it is recommended that you implement a trigger to increment the version or set the
timestamp when an UPDATE
statement is issued. If this is in place, you
just need to check that the row version or timestamp has not changed since the user
modifications started, instead of testing all field of the BMV record. If you are only
using one specific database type, you may check if the server supports a versioning
column natively. For example, IBM
Informix IDS 11.50.xC1 introduced the
ALTER TABLE ... ADD VERCOLS
option to get a version + checksum
column to a table, you can then query the table with the
ifx_insert_checksum
and ifx_row_version
columns.