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/*
* Project: S.Ha.R.K.
*
* Coordinators:
* Giorgio Buttazzo <giorgio@sssup.it>
* Paolo Gai <pj@gandalf.sssup.it>
*
* Authors :
* Paolo Gai <pj@gandalf.sssup.it>
* (see the web pages for full authors list)
*
* ReTiS Lab (Scuola Superiore S.Anna - Pisa - Italy)
*
* http://www.sssup.it
* http://retis.sssup.it
* http://shark.sssup.it
*/
/**
------------
CVS : $Id: join.c,v 1.1.1.1 2002-03-29 14:12:51 pj Exp $
File: $File$
Revision: $Revision: 1.1.1.1 $
Last update: $Date: 2002-03-29 14:12:51 $
------------
task join and related primitives
**/
/*
* Copyright (C) 2000 Paolo Gai
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*
*/
#include <stdarg.h>
#include <ll/ll.h>
#include <ll/stdlib.h>
#include <ll/stdio.h>
#include <ll/string.h>
#include <kernel/config.h>
#include <kernel/model.h>
#include <kernel/const.h>
#include <sys/types.h>
#include <kernel/types.h>
#include <kernel/descr.h>
#include <errno.h>
#include <kernel/var.h>
#include <kernel/func.h>
static int taskjoin_once = 1;
/* this is the test that is done when a task is being killed
and it is waiting on a sigwait */
static int taskjoin_cancellation_point(PID i, void *arg)
{
LEVEL l;
if (proc_table[i].status == WAIT_JOIN) {
/* the task that have to be killed is waiting on a task_join.
we reset the data structures set in task_join and then when the
task will exit from task_join it will fall into a task_testcancel */
proc_table[ proc_table[i].shadow ].waiting_for_me = NIL;
proc_table[i].shadow = i;
l = proc_table[i].task_level;
level_table[l]->task_insert(l,i);
return 1;
}
return 0;
}
/*+ this function suspends execution of the calling task until the target
task terminates, unless the target task has already terminated.
It works like the pthread_join +*/
int task_join(PID p, void **value)
{
PID x; /* used to follow the shadow chain */
int blocked = 0; /* a flag */
struct timespec ty;
TIME tx;
LEVEL l;
/* task_join is a cancellation point... if the task is suspended
the control on the status is done in task_kill */
task_testcancel();
/* some controls on the task p */
if (p<0 || p>=MAX_PROC) return ESRCH;
if (proc_table[p].status == FREE &&
!(proc_table[p].control & WAIT_FOR_JOIN)) return ESRCH;
if (!(proc_table[p].control & TASK_JOINABLE)) return EINVAL;
proc_table[exec_shadow].context = kern_context_save();
/* first, if it is the first time that the task_join is called,
register the cancellation point */
if (taskjoin_once) {
taskjoin_once = 0;
register_cancellation_point(taskjoin_cancellation_point, NULL);
}
if (proc_table[p].waiting_for_me != NIL) {
kern_context_load(proc_table[exec_shadow].context);
return EINVAL;
}
/* deadlock checks; we check the shadow chain to prevent cycles */
x = p;
do {
x = proc_table[x].shadow;
if (x == exec_shadow) {
kern_context_load(proc_table[exec_shadow].context);
return EDEADLK;
}
} while (x != proc_table[x].shadow);
/* we prepare all the stuffs for joining the target task... */
if (!(proc_table[p].control & WAIT_FOR_JOIN)) {
/* the target task is already running... so we block yhe current task
on it!!!
Note: It is not correct to set only the shadow and reschedule, as done
with the mutexes, because there is no inheritance with join...
Normally we have to call task_extract because blocking on join is
like blocking on a classic semaphore.
Althought, we set the shadow because:
- if the task call task_join when holding a mutex (AAARRRGGHHH!!!)
the system continue working...
- The deadlock detection strategy works on shadows...
Setting shadows means also that implementation of mutexes that
manage shadows in a strange way WILL NOT WORK with task_join
(for example, the srp.c module doesn't work with task_join) */
proc_table[p].waiting_for_me = exec_shadow;
proc_table[exec_shadow].shadow = p;
/* SAME AS SCHEDULER... manage the capacity event and the load_info */
ll_gettime(TIME_EXACT, &schedule_time);
SUBTIMESPEC(&schedule_time, &cap_lasttime, &ty);
tx = TIMESPEC2USEC(&ty);
proc_table[exec_shadow].avail_time -= tx;
jet_update_slice(tx);
if (cap_timer != NIL) {
event_delete(cap_timer);
cap_timer = NIL;
}
/* now, we block the current task, waiting the end of the target task */
l = proc_table[exec_shadow].task_level;
level_table[l]->task_extract(l,exec_shadow);
proc_table[exec_shadow].status = WAIT_JOIN;
exec = exec_shadow = -1;
scheduler();
/* note that we don't use kern_context_load because when rescheduled
we remain in kernel mode... */
ll_context_to(proc_table[exec_shadow].context);
blocked = 1;
}
/* task-join is a cancellation point; if the task is killed while it is
waiting on a join, the task-kill set the kill-request bit and wake up
the task, so it can die :-) */
task_testcancel();
/* the target task is terminated... we reset the WAIT_FOR_JOIN flag
so the descriptor can be reused by task_create; if the descriptor was
already discarded by the task_create, we reinsert it into the free
queue */
proc_table[p].control &= ~WAIT_FOR_JOIN;
if (proc_table[p].control & DESCRIPTOR_DISCARDED)
q_insertfirst(p, &freedesc);
if (value)
*value = proc_table[p].return_value;
if (blocked) {
/* the ll_context_to is already done... */
kern_deliver_pending_signals();
sti();
}
else
/* we did a kern_context_save before... */
kern_context_load(proc_table[exec_shadow].context);
return 0;
}
/*+ this function set the detach state of a task to joinable. This function
is not present in Posix standard...
returns ESRCH if p is non correct +*/
int task_joinable(PID p)
{
if (p<0 || p>=MAX_PROC) return ESRCH;
if (proc_table[p].status == FREE) return ESRCH;
kern_cli();
proc_table[p].control |= TASK_JOINABLE;
kern_sti();
return 0;
}
/*+ this function set the detach state of a task to detached. This function
works as the posix's pthread_detach
returns EINVAL if p can't be joined (or currently a task has done a
join on it (condition not provided in posix)
ESRCH if p is not correct +*/
int task_unjoinable(PID p)
{
if (p<0 || p>=MAX_PROC) return ESRCH;
if (proc_table[p].status == FREE) return ESRCH;
kern_cli();
if (!(proc_table[p].control & TASK_JOINABLE) ||
proc_table[p].waiting_for_me != NIL) {
kern_sti();
return EINVAL;
}
proc_table[p].control |= TASK_JOINABLE;
kern_sti();
return 0;
}