/*
* Copyright (c) 2021 Barcelona Supercomputing Center (BSC)
*
* 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 3 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, see .
*/
#include "chan.h"
#include
#include "emu.h"
#include "prv.h"
#include "utlist.h"
static void
chan_init(struct ovni_chan *chan, enum chan_track track, int row, int type, FILE *prv, int64_t *clock)
{
chan->n = 0;
chan->type = type;
chan->enabled = 0;
chan->badst = ST_NULL;
chan->ev = -1;
chan->prv = prv;
chan->clock = clock;
chan->t = *clock;
chan->row = row;
chan->dirty = 0;
chan->track = track;
chan->lastst = -1;
}
static void
mark_dirty(struct ovni_chan *chan, enum chan_dirty dirty)
{
assert(chan->dirty == CHAN_CLEAN);
assert(dirty != CHAN_CLEAN);
dbg("adding dirty chan %d to list\n", chan->id);
chan->dirty = dirty;
DL_APPEND(*chan->update_list, chan);
}
void
chan_th_init(struct ovni_ethread *th,
struct ovni_chan **update_list,
enum chan id,
enum chan_track track,
int init_st,
int enabled,
int dirty,
int row,
FILE *prv,
int64_t *clock)
{
struct ovni_chan *chan;
int prvth;
chan = &th->chan[id];
prvth = CHAN_PRV_TH(id);
chan_init(chan, track, row, prvth, prv, clock);
chan->id = id;
chan->thread = th;
chan->update_list = update_list;
chan->enabled = enabled;
chan->stack[chan->n++] = init_st;
if(dirty)
mark_dirty(chan, CHAN_DIRTY_ACTIVE);
}
void
chan_cpu_init(struct ovni_cpu *cpu,
struct ovni_chan **update_list,
enum chan id,
enum chan_track track,
int init_st,
int enabled,
int dirty,
int row,
FILE *prv,
int64_t *clock)
{
struct ovni_chan *chan;
int prvcpu;
chan = &cpu->chan[id];
prvcpu = CHAN_PRV_CPU(id);
chan_init(chan, track, row, prvcpu, prv, clock);
chan->id = id;
chan->cpu = cpu;
chan->update_list = update_list;
chan->enabled = enabled;
chan->stack[chan->n++] = init_st;
if(dirty)
mark_dirty(chan, CHAN_DIRTY_ACTIVE);
}
static void
chan_dump_update_list(struct ovni_chan *chan)
{
struct ovni_chan *c;
dbg("update list for chan %d at %p:\n",
chan->id, (void *) chan);
for(c = *chan->update_list; c; c = c->next)
{
dbg(" chan %d at %p\n", c->id, (void *) c);
}
}
void
chan_enable(struct ovni_chan *chan, int enabled)
{
/* Can be dirty */
dbg("chan_enable chan=%d enabled=%d\n", chan->id, enabled);
if(chan->enabled == enabled)
{
err("chan already in enabled=%d\n", enabled);
abort();
}
chan->enabled = enabled;
chan->t = *chan->clock;
/* Only append if not dirty */
if(!chan->dirty)
{
mark_dirty(chan, CHAN_DIRTY_ACTIVE);
}
else
{
dbg("already dirty chan %d: skip update list\n",
chan->id);
chan_dump_update_list(chan);
}
}
void
chan_disable(struct ovni_chan *chan)
{
chan_enable(chan, 0);
}
int
chan_is_enabled(struct ovni_chan *chan)
{
return chan->enabled;
}
void
chan_set(struct ovni_chan *chan, int st)
{
/* Can be dirty */
dbg("chan_set chan %d st=%d\n", chan->id, st);
assert(chan->enabled);
/* Only chan_set can set the 0 state */
if(st < 0)
{
err("chan_set: cannot set a negative state %d\n", st);
abort();
}
/* Don't enforce this check if we are dirty because the channel was
* just enabled; it may collide with a new state 0 set via chan_set()
* used by the tracking channels */
if(chan->dirty != CHAN_DIRTY_ACTIVE
&& chan->lastst >= 0
&& chan->lastst == st)
{
err("chan_set id=%d cannot emit the state %d twice\n",
chan->id, st);
abort();
}
if(chan->n == 0)
chan->n = 1;
chan->stack[chan->n - 1] = st;
chan->t = *chan->clock;
/* Only append if not dirty */
if(!chan->dirty)
{
mark_dirty(chan, CHAN_DIRTY_VALUE);
}
else
{
dbg("already dirty chan %d: skip update list\n",
chan->id);
chan_dump_update_list(chan);
}
}
void
chan_enable_and_set(struct ovni_chan *chan, int st)
{
chan_enable(chan, 1);
chan_set(chan, st);
}
void
chan_push(struct ovni_chan *chan, int st)
{
dbg("chan_push chan %d st=%d\n", chan->id, st);
assert(chan->enabled);
if(st <= 0)
{
err("chan_push: cannot push a non-positive state %d\n", st);
abort();
}
/* Cannot be dirty */
assert(chan->dirty == 0);
if(chan->lastst >= 0 && chan->lastst == st)
{
err("chan_push id=%d cannot emit the state %d twice\n",
chan->id, st);
abort();
}
if(chan->n >= MAX_CHAN_STACK)
{
err("channel stack full\n");
exit(EXIT_FAILURE);
}
chan->stack[chan->n++] = st;
chan->t = *chan->clock;
mark_dirty(chan, CHAN_DIRTY_VALUE);
}
int
chan_pop(struct ovni_chan *chan, int expected_st)
{
int st;
dbg("chan_pop chan %d expected_st=%d\n", chan->id, expected_st);
assert(chan->enabled);
/* Cannot be dirty */
assert(chan->dirty == 0);
if(chan->n <= 0)
{
err("channel empty\n");
exit(EXIT_FAILURE);
}
st = chan->stack[chan->n - 1];
if(expected_st >= 0 && st != expected_st)
{
err("unexpected channel state %d (expected %d)\n",
st, expected_st);
exit(EXIT_FAILURE);
}
chan->n--;
/* Take the current stack value */
st = chan_get_st(chan);
/* A st == 0 can be obtained when returning to the initial state */
if(st < 0)
{
err("chan_pop: obtained negative state %d from the stack\n", st);
abort();
}
if(chan->lastst >= 0 && chan->lastst == st)
{
err("chan_pop id=%d cannot emit the state %d twice\n",
chan->id, st);
abort();
}
chan->t = *chan->clock;
mark_dirty(chan, CHAN_DIRTY_VALUE);
return st;
}
void
chan_ev(struct ovni_chan *chan, int ev)
{
dbg("chan_ev chan %d ev=%d\n", chan->id, ev);
assert(chan->enabled);
/* Cannot be dirty */
assert(chan->dirty == 0);
if(ev <= 0)
{
err("chan_ev: cannot emit non-positive state %d\n", ev);
abort();
}
if(chan->lastst >= 0 && chan->lastst == ev)
{
err("chan_ev id=%d cannot emit the state %d twice\n",
chan->id, ev);
abort();
}
chan->ev = ev;
chan->t = *chan->clock;
mark_dirty(chan, CHAN_DIRTY_VALUE);
}
int
chan_get_st(struct ovni_chan *chan)
{
if(chan->enabled == 0)
return chan->badst;
if(chan->n == 0)
return 0;
assert(chan->n > 0);
return chan->stack[chan->n-1];
}
static void
emit(struct ovni_chan *chan, int64_t t, int state)
{
assert(chan->dirty != CHAN_CLEAN);
/* A channel can only emit the same state as lastst if is dirty because
* it has been enabled or disabled. Otherwise is a bug (ie. you have two
* consecutive ovni events?) */
if(chan->lastst != -1
&& chan->dirty == CHAN_DIRTY_VALUE
&& chan->lastst == state)
{
/* TODO: Print the raw clock of the offending event */
err("chan: id=%d cannot emit the same state %d twice\n",
chan->id, state);
abort();
}
if(chan->lastst != state)
{
prv_ev(chan->prv, chan->row, t, chan->type, state);
chan->lastst = state;
}
}
static void
emit_ev(struct ovni_chan *chan)
{
int new, last;
assert(chan->enabled);
assert(chan->ev != -1);
new = chan->ev;
last = chan_get_st(chan);
emit(chan, chan->t-1, new);
emit(chan, chan->t, last);
chan->ev = -1;
}
static void
emit_st(struct ovni_chan *chan)
{
int st;
st = chan_get_st(chan);
emit(chan, chan->t, st);
}
/* Emits either the current state or punctual event in the PRV file */
void
chan_emit(struct ovni_chan *chan)
{
if(likely(chan->dirty == 0))
return;
dbg("chan_emit chan %d\n", chan->id);
/* Emit badst if disabled */
if(chan->enabled == 0)
{
/* No punctual events allowed when disabled */
assert(chan->ev == -1);
emit_st(chan);
goto shower;
}
/* Otherwise, emit punctual event if any or the state */
if(chan->ev != -1)
emit_ev(chan);
else
emit_st(chan);
shower:
chan->dirty = 0;
}