2005-10-14 10:58:59 +02:00
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/* The kernel call implemented in this file:
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2005-07-19 16:03:21 +02:00
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* m_type: SYS_NICE
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2005-07-14 17:12:12 +02:00
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*
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2005-10-14 10:58:59 +02:00
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* The parameters for this kernel call are:
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'proc number' is process slot, 'endpoint' are generation-aware process
instance numbers, encoded and decoded using macros in <minix/endpoint.h>.
proc number -> endpoint migration
. proc_nr in the interrupt hook is now an endpoint, proc_nr_e.
. m_source for messages and notifies is now an endpoint, instead of
proc number.
. isokendpt() converts an endpoint to a process number, returns
success (but fails if the process number is out of range, the
process slot is not a living process, or the given endpoint
number does not match the endpoint number in the process slot,
indicating an old process).
. okendpt() is the same as isokendpt(), but panic()s if the conversion
fails. This is mainly used for decoding message.m_source endpoints,
and other endpoint numbers in kernel data structures, which should
always be correct.
. if DEBUG_ENABLE_IPC_WARNINGS is enabled, isokendpt() and okendpt()
get passed the __FILE__ and __LINE__ of the calling lines, and
print messages about what is wrong with the endpoint number
(out of range proc, empty proc, or inconsistent endpoint number),
with the caller, making finding where the conversion failed easy
without having to include code for every call to print where things
went wrong. Sometimes this is harmless (wrong arg to a kernel call),
sometimes it's a fatal internal inconsistency (bogus m_source).
. some process table fields have been appended an _e to indicate it's
become and endpoint.
. process endpoint is stored in p_endpoint, without generation number.
it turns out the kernel never needs the generation number, except
when fork()ing, so it's decoded then.
. kernel calls all take endpoints as arguments, not proc numbers.
the one exception is sys_fork(), which needs to know in which slot
to put the child.
2006-03-03 11:00:02 +01:00
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* m1_i1: PR_ENDPT process number to change priority
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2005-07-14 17:12:12 +02:00
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* m1_i2: PR_PRIORITY the new priority
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*/
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#include "../system.h"
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#include <minix/type.h>
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#include <sys/resource.h>
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2005-07-19 16:03:21 +02:00
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#if USE_NICE
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2005-07-14 17:12:12 +02:00
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/*===========================================================================*
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2005-07-19 16:03:21 +02:00
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* do_nice *
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2005-07-14 17:12:12 +02:00
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*===========================================================================*/
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2005-07-19 16:03:21 +02:00
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PUBLIC int do_nice(message *m_ptr)
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2005-07-14 17:12:12 +02:00
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{
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2006-03-10 17:10:05 +01:00
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/* Change process priority or stop the process. */
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2005-07-14 17:12:12 +02:00
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int proc_nr, pri, new_q ;
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register struct proc *rp;
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/* Extract the message parameters and do sanity checking. */
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'proc number' is process slot, 'endpoint' are generation-aware process
instance numbers, encoded and decoded using macros in <minix/endpoint.h>.
proc number -> endpoint migration
. proc_nr in the interrupt hook is now an endpoint, proc_nr_e.
. m_source for messages and notifies is now an endpoint, instead of
proc number.
. isokendpt() converts an endpoint to a process number, returns
success (but fails if the process number is out of range, the
process slot is not a living process, or the given endpoint
number does not match the endpoint number in the process slot,
indicating an old process).
. okendpt() is the same as isokendpt(), but panic()s if the conversion
fails. This is mainly used for decoding message.m_source endpoints,
and other endpoint numbers in kernel data structures, which should
always be correct.
. if DEBUG_ENABLE_IPC_WARNINGS is enabled, isokendpt() and okendpt()
get passed the __FILE__ and __LINE__ of the calling lines, and
print messages about what is wrong with the endpoint number
(out of range proc, empty proc, or inconsistent endpoint number),
with the caller, making finding where the conversion failed easy
without having to include code for every call to print where things
went wrong. Sometimes this is harmless (wrong arg to a kernel call),
sometimes it's a fatal internal inconsistency (bogus m_source).
. some process table fields have been appended an _e to indicate it's
become and endpoint.
. process endpoint is stored in p_endpoint, without generation number.
it turns out the kernel never needs the generation number, except
when fork()ing, so it's decoded then.
. kernel calls all take endpoints as arguments, not proc numbers.
the one exception is sys_fork(), which needs to know in which slot
to put the child.
2006-03-03 11:00:02 +01:00
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if(!isokendpt(m_ptr->PR_ENDPT, &proc_nr)) return EINVAL;
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2005-07-29 17:26:23 +02:00
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if (iskerneln(proc_nr)) return(EPERM);
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2005-07-14 17:12:12 +02:00
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pri = m_ptr->PR_PRIORITY;
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rp = proc_addr(proc_nr);
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2006-03-10 17:10:05 +01:00
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if (pri == PRIO_STOP) {
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/* Take process off the scheduling queues. */
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lock_dequeue(rp);
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rp->p_rts_flags |= NO_PRIORITY;
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return(OK);
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}
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else if (pri >= PRIO_MIN && pri <= PRIO_MAX) {
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/* The value passed in is currently between PRIO_MIN and PRIO_MAX.
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* We have to scale this between MIN_USER_Q and MAX_USER_Q to match
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* the kernel's scheduling queues.
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*/
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new_q = MAX_USER_Q + (pri-PRIO_MIN) * (MIN_USER_Q-MAX_USER_Q+1) /
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(PRIO_MAX-PRIO_MIN+1);
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if (new_q < MAX_USER_Q) new_q = MAX_USER_Q; /* shouldn't happen */
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if (new_q > MIN_USER_Q) new_q = MIN_USER_Q; /* shouldn't happen */
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/* Make sure the process is not running while changing its priority.
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* Put the process back in its new queue if it is runnable.
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*/
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lock_dequeue(rp);
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2006-05-11 16:49:46 +02:00
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rp->p_rts_flags &= ~NO_PRIORITY;
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2006-03-10 17:10:05 +01:00
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rp->p_max_priority = rp->p_priority = new_q;
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if (! rp->p_rts_flags) lock_enqueue(rp);
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return(OK);
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}
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return(EINVAL);
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2005-07-14 17:12:12 +02:00
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}
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2005-07-19 16:03:21 +02:00
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#endif /* USE_NICE */
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2005-07-14 17:12:12 +02:00
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