Switch to SpeakEasy.net DSL

The Modular Manual Browser

Home Page
Manual: (SunOS-4.1.3)
Apropos / Subsearch:
optional field

MON_CREATE(3L)                                                  MON_CREATE(3L)

       mon_create,  mon_destroy, mon_enter, mon_exit, mon_enumerate, mon_wait-
       ers, mon_cond_enter, mon_break, MONITOR, SAMEMON - LWP routines to man-
       age critical sections

       #include <&lt;lwp/lwp.h>&gt;

       int mon_create(mid)
       mon_t *mid;

       int mon_destroy(mid)
       mon_t mid;

       int mon_enter(mid)
       mon_t mid;

       int mon_exit(mid)
       mon_t mid;

       int mon_enumerate(vec, maxsize)
       mon_t vec[];   /* list of all monitors */
       int maxsize;   /* max size of vec */

       int mon_waiters(mid, owner, vec, maxsize)
       mon_t mid;          /* monitor in question */
       thread_t *owner;    /* which thread owns the monitor */
       thread_t vec[];          /* list of blocked threads */
       int maxsize;        /* max size of vec */

       int mon_cond_enter(mid)
       mon_t mid;

       int mon_break(mid)
       mon_t mid;

       void MONITOR(mid)
       mon_t mid;

       int SAMEMON(m1, m2)
       mon_t m1;
       mon_t m2;

       Monitors  are used to synchronize access to common resources.  Although
       it is possible (on a uniprocessor) to use knowledge of  how  scheduling
       priorities work to serialize access to a resource, monitors (and condi-
       tion variables) provide a general tool to provide  the  necessary  syn-

       mon_create()  creates  a  new  monitor and returns its identity in mid.
       mon_destroy() destroys a monitor, as well as any conditions bound to it
       (see  cv_create(3L)).   Because the lifetime of a monitor can transcend
       the lifetime of the LWP that created it,  monitor  destruction  is  not
       automatic upon LWP destruction.

       mon_enter()  blocks the calling thread (if the monitor is in use) until
       the monitor becomes free by being exited or by waiting on  a  condition
       (see cv_create(3L)).  Threads unable to gain entry into the monitor are
       queued for monitor service by the priority  of  the  thread  requesting
       monitor  access,  FCFS within a priority.  Monitor calls may nest.  If,
       while holding monitor M1 a request for monitor M2 is made, M1  will  be
       held until M2 can be acquired.

       mon_cond_enter()  will  enter  the  monitor  only if the monitor is not
       busy.  Otherwise, an error is returned.

       mon_enter() and mon_cond_enter() will allow a thread which already  has
       the monitor to reenter the monitor.  In this case, the nesting level of
       monitor entries is  returned.   Thus,  the  first  time  a  monitor  is
       entered,  mon_enter() returns 0.  The next time the monitor is entered,
       mon_enter() returns 1.  mon_exit() frees the current monitor and allows
       the  next  thread blocked on the monitor (if any) to enter the monitor.
       However, if a monitor is entered more than once, mon_exit() returns the
       previous  monitor  nesting  level  without freeing the monitor to other
       threads.  Thus, if the monitor was not reentered, mon_exit() returns 0.

       mon_enumerate() lists all the monitors in the system.  The vector  sup-
       plied  is  filled in with the ID's of the monitors.  maxsize is used to
       avoid exceeding the capacity of the list.  If the number of monitors is
       greater than maxsize, only maxsize monitor ID's are filled in vec.

       mon_waiters()  puts the thread that currently owns the monitor in owner
       and all threads blocked on the monitor in vec (subject to  the  maxsize
       limitation), and returns the number of waiting threads.

       mon_break()  forces  the release of a monitor lock not necessarily held
       by the invoking thread.  This enables the next thread  blocked  on  the
       monitor to enter it.

       MONITOR  is  a  macro  that  can be used at the start of a procedure to
       indicate that the procedure is a monitor.  It uses the  exception  han-
       dling mechanism to ensure that the monitor is exited automatically when
       the procedure exits.  Ordinarily, this  single  macro  replaces  paired
       mon_enter()- mon_exit() calls in a monitor procedure.

       The  SAMEMON  macro is a convenient predicate used to compare two moni-
       tors for equality.

       Monitor locks are released automatically  when  the  LWP  holding  them
       dies.   This  may  have  implications  for  the validity of the monitor
       invariant (a condition that is always true outside of the monitor) if a
       thread unexpectedly terminates.

       mon_create() returns the ID of a new monitor.

       mon_destroy() returns:

       0      on success.

       -1     on failure.

       mon_enter() returns the nesting level of the monitor.

       mon_exit()  returns the previous nesting level on success.  On failure,
       it returns -1.

       mon_enumerate() returns the total number of monitors.

       mon_waiters() returns the number of threads waiting for the monitor.

       mon_cond_enter() returns the nesting level of the monitor if the  moni-
       tor is not busy.  If the monitor is busy, it returns -1.

       mon_break() returns:

       0      on success.

       -1     on failure.

       The  macro  SAMEMON()  returns 1 if the monitors specified by m1 and m2
       are equal.  It returns 0 otherwise.

       mon_break() will fail if one or more of the following are true:

       LE_NONEXIST         Attempt to break lock on non-existent monitor.

       LE_NOTOWNED         Attempt to break a monitor lock that is not set.

       mon_cond_enter() will fail if one or more of the following are true:

       LE_INUSE            The requested monitor  is  being  used  by  another

       LE_NONEXIST         Attempt to destroy non-existent monitor.

       mon_destroy() will fail if one or more of the following are true:

       LE_INUSE            Attempt  to  destroy  a  monitor  that  has threads
                           blocked on it.

       LE_NONEXIST         Attempt to destroy non-existent monitor.

       mon_exit() will fail if one or more of the following are true:

       LE_INVALIDARG       Attempt to exit a monitor that the thread does  not

       LE_NONEXIST         Attempt to exit non-existent monitor.


       There should be language support to enforce the monitor enter-exit dis-

                                21 January 1990                 MON_CREATE(3L)