A lock state identifies the use of the object and whether it is
shared.
Objects are allocated on the basis of their intended use (read
or update) and whether they can be shared (used by more than one job). The
file and member are always allocated *SHRRD and the file data is allocated
with the level of lock specified with the lock state. The five lock states
are (parameter values given in parentheses):
- Exclusive (*EXCL). The object is reserved for the exclusive use of the
requesting job; no other jobs can use the object. However, if the object
is already allocated to another job, your job cannot get exclusive use of
the object. This lock state is appropriate when a user does not want any
other user to have access to the object until the function being performed
is complete.
- Exclusive allow read (*EXCLRD). The object is allocated to the job that
requested it, but other jobs can read the object. This lock is appropriate
when a user wants to prevent other users from performing any operation other
than a read.
- Shared for update (*SHRUPD). The object can be shared either for update
or read with another job. That is, another user can request either a shared-for-read
lock state or a shared-for-update lock state for the same object. This lock
state is appropriate when a user intends to change an object but wants to
allow other users to read or change the same object.
- Shared no update (*SHRNUP). The object can be shared with another job
if the job requests either a shared-no-update lock state, or a shared-for-read
lock state. This lock state is appropriate when a user does not intend to
change an object but wants to ensure that no other user changes the object.
- Shared for read (*SHRRD). The object can be shared with another job if
the user does not request exclusive use of the object. That is, another user
can request an exclusive-allow-read, shared-for-update, shared-for-read, or
shared-no-update lock state.
Note: The allocation of a library does not restrict the operations that
can be performed on the objects within the library. That is, if one job places
an exclusive-allow-read or shared-for-update lock state on a library, other
jobs can no longer place objects in or remove objects from the library; however,
the other jobs can still update objects within the library.
The following
table shows the valid lock state combinations for an object:
Table 1. Valid Lock State Combinations| If One Job Obtains This Lock State: |
Another Job Can Obtain This Lock State: |
|---|
| *EXCL |
None |
| *EXCLRD |
*SHRRD |
| *SHRUPD |
*SHRUPD or *SHRRD |
| *SHRNUP |
*SHRNUP or *SHRRD |
| *SHRRD |
*EXCLRD, *SHRUPD, *SHRNUP, or *SHRRD |
You can specify all five lock states (*EXCL, *EXCLRD, SHRUPD, SHRNUP,
and SHRRD) for most object types. this does not apply to all object
types. Object types that cannot have all five lock states specified
are listed in the following table with valid lock states for the object type:
Table 2. Valid Lock States for Specific Object Types| Object Type |
*EXCL |
*EXCLRD |
*SHRUPD |
*SHRNUP |
*SHRRD |
|---|
| Device description |
|
x |
|
|
|
| Library |
|
x |
x |
x |
x |
| Message queue |
x |
|
|
|
x |
| Panel group |
x |
x |
|
|
|
| Program |
x |
x |
|
|
x |
| Subsystem description |
x |
|
|
|
|
It is not an error if the DLCOBJ command is issued against an
object where you do not have a lock or do not have the specific lock state
requested to be allocated.
You can change the lock state of an object,
as the following example shows:
PGM
ALCOBJ OBJ((FILEX *FILE *EXCL)) WAIT(0)
CALL PGMA
ALCOBJ OBJ((FILEX *FILE *EXCLRD))
DLCOBJ OBJ((FILEX *FILE *EXCL))
CALL PGMB
DLCOBJ OBJ((FILEX *FILE *EXCLRD))
ENDPGM
File FILEX is allocated exclusively for PGMA, but FILEX is
allocated as exclusive-allow-read for PGMB.
You can use record locks
to allocate data records within a file. You can also use the WAITFILE parameter
on a Create File (CRTF) command to specify
how long your program is to wait for that file before a time-out occurs.