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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: static.c,v 1.1.1.1 2002-09-02 09:37:48 pj Exp $
File: $File$
Revision: $Revision: 1.1.1.1 $
Last update: $Date: 2002-09-02 09:37:48 $
------------
**/
/*
* Copyright (C) 2001 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 "static.h"
#include <ll/stdio.h>
#include <ll/string.h>
#include <kernel/model.h>
#include <kernel/descr.h>
#include <kernel/var.h>
#include <kernel/func.h>
#include <kernel/trace.h>
#define STATIC_printf kern_printf
//#define STATIC_printf printk
/*+ Status used in the level +*/
#define STATIC_READY MODULE_STATUS_BASE /*+ - Ready status +*/
#define STATIC_IDLE MODULE_STATUS_BASE+4 /*+ to wait the deadline +*/
/*+ flags +*/
#define STATIC_FLAG_NORAISEEXC 2
/*+ the level redefinition for the Earliest Deadline First level +*/
typedef struct {
level_des l
; /*+ the standard level descriptor +*/
QUEUE mytable
;
PID currenttask
;
struct timespec hp
;
struct timespec ref
;
} STATIC_level_des
;
static void STATIC_offset_activate
(void *par
)
{
PID p
= (PID
) par
;
STATIC_level_des
*lev
;
lev
= (STATIC_level_des
*)level_table
[proc_table
[p
].
task_level];
lev
->currenttask
= p
;
event_need_reschedule
();
STATIC_printf
("(o p%d t%d)", p
, (int)proc_table
[p
].
timespec_priority.
tv_sec);
}
static void STATIC_activateall
(STATIC_level_des
*lev
)
{
PID my_table_index
;
struct timespec x
;
STATIC_printf
("(A ");
for (my_table_index
= (PID
)lev
->mytable
;
my_table_index
!= NIL
;
my_table_index
= proc_table
[my_table_index
].
next) {
ADDTIMESPEC
(&lev
->ref
,&proc_table
[my_table_index
].
timespec_priority,&x
);
kern_event_post
(&x
, STATIC_offset_activate
,(void *)my_table_index
);
STATIC_printf
("|p%d t%d ",
my_table_index
,
(int)proc_table
[my_table_index
].
timespec_priority.
tv_sec);
}
STATIC_printf
(")");
}
static void STATIC_hyperperiod
(void *par
)
{
STATIC_level_des
*lev
;
struct timespec x
;
lev
= (STATIC_level_des
*)level_table
[(LEVEL
)par
];
STATIC_printf
("(hp %d)", (int)lev
->ref.
tv_sec);
STATIC_activateall
(lev
);
ADDTIMESPEC
(&lev
->ref
, &lev
->hp
, &x
);
lev
->ref
= x
;
kern_event_post
(&x
, STATIC_hyperperiod
, par
);
}
static int STATIC_level_accept_task_model
(LEVEL l
, TASK_MODEL
*m
)
{
if (m
->pclass
== STATIC_PCLASS
|| m
->pclass
== (STATIC_PCLASS
| l
))
return 0;
return -1;
}
static int STATIC_level_accept_guest_model
(LEVEL l
, TASK_MODEL
*m
)
{
return -1;
}
static void STATIC_level_status
(LEVEL l
)
{ kern_raise
(XUNVALID_TASK
,exec_shadow
); }
/* The scheduler only gets the first task in the queue */
static PID STATIC_level_scheduler
(LEVEL l
)
{
STATIC_level_des
*lev
= (STATIC_level_des
*)(level_table
[l
]);
return lev
->currenttask
;
}
/* The on-line guarantee is enabled only if the appropriate flag is set... */
static int STATIC_level_guarantee
(LEVEL l
, bandwidth_t
*freebandwidth
)
{
return 1;
}
static int STATIC_task_create
(LEVEL l
, PID p
, TASK_MODEL
*m
)
{
STATIC_level_des
*lev
= (STATIC_level_des
*)(level_table
[l
]);
/* if the STATIC_task_create is called, then the pclass must be a
valid pclass. */
STATIC_TASK_MODEL
*h
= (STATIC_TASK_MODEL
*)m
;
proc_table
[p
].
timespec_priority.
tv_sec = h
->offset.
tv_sec;
proc_table
[p
].
timespec_priority.
tv_nsec = h
->offset.
tv_nsec;
q_timespec_insert
(p
,&lev
->mytable
);
return 0; /* OK, also if the task cannot be guaranteed... */
}
static void STATIC_task_detach
(LEVEL l
, PID p
)
{
}
static int STATIC_task_eligible
(LEVEL l
, PID p
)
{
return 0; /* if the task p is chosen, it is always eligible */
}
static void STATIC_task_dispatch
(LEVEL l
, PID p
, int nostop
)
{
}
static void STATIC_task_epilogue
(LEVEL l
, PID p
)
{
}
static void STATIC_task_activate
(LEVEL l
, PID p
)
{
}
static void STATIC_task_insert
(LEVEL l
, PID p
)
{
}
static void STATIC_task_extract
(LEVEL l
, PID p
)
{
}
static void STATIC_task_endcycle
(LEVEL l
, PID p
)
{
STATIC_level_des
*lev
= (STATIC_level_des
*)(level_table
[l
]);
lev
->currenttask
= NIL
;
}
static void STATIC_task_end
(LEVEL l
, PID p
)
{
STATIC_level_des
*lev
= (STATIC_level_des
*)(level_table
[l
]);
lev
->currenttask
= NIL
;
q_extract
(p
,&lev
->mytable
);
/* we finally put the task in the ready queue */
proc_table
[p
].
status = FREE
;
q_insertfirst
(p
,&freedesc
);
}
static void STATIC_task_sleep
(LEVEL l
, PID p
)
{ kern_raise
(XUNVALID_TASK
,exec_shadow
); }
static void STATIC_task_delay
(LEVEL l
, PID p
, TIME usdelay
)
{ kern_raise
(XUNVALID_TASK
,exec_shadow
); }
/* Guest Functions
These functions manages a JOB_TASK_MODEL, that is used to put
a guest task in the STATIC ready queue. */
static int STATIC_guest_create
(LEVEL l
, PID p
, TASK_MODEL
*m
)
{ kern_raise
(XUNVALID_GUEST
,exec_shadow
); return 0; }
static void STATIC_guest_detach
(LEVEL l
, PID p
)
{ kern_raise
(XUNVALID_GUEST
,exec_shadow
); }
static void STATIC_guest_dispatch
(LEVEL l
, PID p
, int nostop
)
{ kern_raise
(XUNVALID_GUEST
,exec_shadow
); }
static void STATIC_guest_epilogue
(LEVEL l
, PID p
)
{ kern_raise
(XUNVALID_GUEST
,exec_shadow
); }
static void STATIC_guest_activate
(LEVEL l
, PID p
)
{ kern_raise
(XUNVALID_GUEST
,exec_shadow
); }
static void STATIC_guest_insert
(LEVEL l
, PID p
)
{ kern_raise
(XUNVALID_GUEST
,exec_shadow
); }
static void STATIC_guest_extract
(LEVEL l
, PID p
)
{ kern_raise
(XUNVALID_GUEST
,exec_shadow
); }
static void STATIC_guest_endcycle
(LEVEL l
, PID p
)
{ kern_raise
(XUNVALID_GUEST
,exec_shadow
); }
static void STATIC_guest_end
(LEVEL l
, PID p
)
{ kern_raise
(XUNVALID_GUEST
,exec_shadow
); }
static void STATIC_guest_sleep
(LEVEL l
, PID p
)
{ kern_raise
(XUNVALID_GUEST
,exec_shadow
); }
static void STATIC_guest_delay
(LEVEL l
, PID p
, TIME usdelay
)
{ kern_raise
(XUNVALID_GUEST
,exec_shadow
); }
/* Registration functions */
/*+ Registration function:
int flags the init flags ... see STATIC.h +*/
void STATIC_register_level
()
{
LEVEL l
; /* the level that we register */
STATIC_level_des
*lev
; /* for readableness only */
printk
("STATIC_register_level\n");
/* request an entry in the level_table */
l
= level_alloc_descriptor
();
printk
(" alloco descrittore %d %d\n",l
,(int)sizeof(STATIC_level_des
));
/* alloc the space needed for the STATIC_level_des */
lev
= (STATIC_level_des
*)kern_alloc
(sizeof(STATIC_level_des
));
printk
(" lev=%d\n",(int)lev
);
/* update the level_table with the new entry */
level_table
[l
] = (level_des
*)lev
;
/* fill the standard descriptor */
strncpy(lev
->l.
level_name, STATIC_LEVELNAME
, MAX_LEVELNAME
);
lev
->l.
level_code = STATIC_LEVEL_CODE
;
lev
->l.
level_version = STATIC_LEVEL_VERSION
;
lev
->l.
level_accept_task_model = STATIC_level_accept_task_model
;
lev
->l.
level_accept_guest_model = STATIC_level_accept_guest_model
;
lev
->l.
level_status = STATIC_level_status
;
lev
->l.
level_scheduler = STATIC_level_scheduler
;
lev
->l.
level_guarantee = NULL
;
lev
->l.
task_create = STATIC_task_create
;
lev
->l.
task_detach = STATIC_task_detach
;
lev
->l.
task_eligible = STATIC_task_eligible
;
lev
->l.
task_dispatch = STATIC_task_dispatch
;
lev
->l.
task_epilogue = STATIC_task_epilogue
;
lev
->l.
task_activate = STATIC_task_activate
;
lev
->l.
task_insert = STATIC_task_insert
;
lev
->l.
task_extract = STATIC_task_extract
;
lev
->l.
task_endcycle = STATIC_task_endcycle
;
lev
->l.
task_end = STATIC_task_end
;
lev
->l.
task_sleep = STATIC_task_sleep
;
lev
->l.
task_delay = STATIC_task_delay
;
lev
->l.
guest_create = STATIC_guest_create
;
lev
->l.
guest_detach = STATIC_guest_detach
;
lev
->l.
guest_dispatch = STATIC_guest_dispatch
;
lev
->l.
guest_epilogue = STATIC_guest_epilogue
;
lev
->l.
guest_activate = STATIC_guest_activate
;
lev
->l.
guest_insert = STATIC_guest_insert
;
lev
->l.
guest_extract = STATIC_guest_extract
;
lev
->l.
guest_endcycle = STATIC_guest_endcycle
;
lev
->l.
guest_end = STATIC_guest_end
;
lev
->l.
guest_sleep = STATIC_guest_sleep
;
lev
->l.
guest_delay = STATIC_guest_delay
;
/* fill the STATIC descriptor part */
lev
->mytable
= NIL
;
lev
->currenttask
= NIL
;
NULL_TIMESPEC
(&lev
->hp
);
NULL_TIMESPEC
(&lev
->ref
);
}
void STATIC_start
(LEVEL l
, struct timespec
*h
, struct timespec
*o
)
{
STATIC_level_des
*lev
= (STATIC_level_des
*)(level_table
[l
]);
struct timespec x
;
kern_cli
();
ll_gettime
(TIME_EXACT
, &x
);
lev
->hp
= *h
;
ADDTIMESPEC
(&x
,o
,&lev
->ref
);
STATIC_printf
("(ST: ref:%d.%d x:%d.%d)\n",
(int)lev
->ref.
tv_sec, (int)lev
->ref.
tv_nsec,
(int)x.
tv_sec, (int)x.
tv_nsec);
kern_event_post
(&x
, STATIC_hyperperiod
,(void *)l
);
kern_sti
();
}