/*
* 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
#include "uthash.h"
#include "ovni.h"
#include "ovni_trace.h"
#include "emu.h"
#include "prv.h"
#include "chan.h"
/* --------------------------- init ------------------------------- */
void
hook_init_nosv(struct ovni_emu *emu)
{
struct ovni_ethread *th;
struct ovni_cpu *cpu;
struct ovni_chan **uth, **ucpu;
size_t i;
int row;
FILE *prv_th, *prv_cpu;
int64_t *clock;
clock = &emu->delta_time;
prv_th = emu->prv_thread;
prv_cpu = emu->prv_cpu;
/* Init the channels in all threads */
for(i=0; itotal_nthreads; i++)
{
th = emu->global_thread[i];
row = th->gindex + 1;
uth = &emu->th_chan;
chan_th_init(th, uth, CHAN_NOSV_TASKID, CHAN_TRACK_TH_RUNNING, 0, 0, 1, row, prv_th, clock);
chan_th_init(th, uth, CHAN_NOSV_TYPEID, CHAN_TRACK_TH_RUNNING, 0, 0, 1, row, prv_th, clock);
chan_th_init(th, uth, CHAN_NOSV_APPID, CHAN_TRACK_TH_RUNNING, 0, 0, 1, row, prv_th, clock);
/* We allow threads to emit subsystem events in cooling and
* warming states as well, as they may be allocating memory.
* However, these information won't be presented in the CPU
* channel, as it only shows the thread in the running state */
chan_th_init(th, uth, CHAN_NOSV_SUBSYSTEM, CHAN_TRACK_TH_ACTIVE, 0, 0, 1, row, prv_th, clock);
}
/* Init the nosv channels in all cpus */
for(i=0; itotal_ncpus; i++)
{
cpu = emu->global_cpu[i];
row = cpu->gindex + 1;
ucpu = &emu->cpu_chan;
chan_cpu_init(cpu, ucpu, CHAN_NOSV_TASKID, CHAN_TRACK_TH_RUNNING, 0, 0, 1, row, prv_cpu, clock);
chan_cpu_init(cpu, ucpu, CHAN_NOSV_TYPEID, CHAN_TRACK_TH_RUNNING, 0, 0, 0, row, prv_cpu, clock);
chan_cpu_init(cpu, ucpu, CHAN_NOSV_APPID, CHAN_TRACK_TH_RUNNING, 0, 0, 0, row, prv_cpu, clock);
chan_cpu_init(cpu, ucpu, CHAN_NOSV_SUBSYSTEM, CHAN_TRACK_TH_RUNNING, 0, 0, 0, row, prv_cpu, clock);
}
}
/* --------------------------- pre ------------------------------- */
static void
pre_task_create(struct ovni_emu *emu)
{
struct nosv_task *task, *p = NULL;
task = calloc(1, sizeof(*task));
if(task == NULL)
{
perror("calloc");
abort();
}
task->id = emu->cur_ev->payload.i32[0];
task->type_id = emu->cur_ev->payload.i32[1];
task->state = TASK_ST_CREATED;
/* Ensure the task id is new */
HASH_FIND_INT(emu->cur_proc->tasks, &task->id, p);
if(p != NULL)
{
err("A task with id %d already exists\n", p->id);
abort();
}
/* Add the new task to the hash table */
HASH_ADD_INT(emu->cur_proc->tasks, id, task);
emu->cur_task = task;
dbg("new task created id=%d\n", task->id);
}
static void
pre_task_execute(struct ovni_emu *emu)
{
struct nosv_task *task;
int taskid;
taskid = emu->cur_ev->payload.i32[0];
HASH_FIND_INT(emu->cur_proc->tasks, &taskid, task);
assert(task != NULL);
assert(emu->cur_thread->state == TH_ST_RUNNING);
assert(emu->cur_thread->task == NULL);
task->state = TASK_ST_RUNNING;
task->thread = emu->cur_thread;
emu->cur_thread->task = task;
emu->cur_task = task;
dbg("task id=%d runs now\n", task->id);
}
static void
pre_task_pause(struct ovni_emu *emu)
{
struct nosv_task *task;
int taskid;
taskid = emu->cur_ev->payload.i32[0];
HASH_FIND_INT(emu->cur_proc->tasks, &taskid, task);
assert(task != NULL);
assert(task->state == TASK_ST_RUNNING);
assert(emu->cur_thread->state == TH_ST_RUNNING);
assert(emu->cur_thread->task == task);
assert(emu->cur_thread == task->thread);
task->state = TASK_ST_PAUSED;
emu->cur_task = task;
dbg("task id=%d pauses\n", task->id);
}
static void
pre_task_resume(struct ovni_emu *emu)
{
struct nosv_task *task;
int taskid;
taskid = emu->cur_ev->payload.i32[0];
HASH_FIND_INT(emu->cur_proc->tasks, &taskid, task);
assert(task != NULL);
assert(task->state == TASK_ST_PAUSED);
assert(emu->cur_thread->state == TH_ST_RUNNING);
assert(emu->cur_thread->task == task);
assert(emu->cur_thread == task->thread);
task->state = TASK_ST_RUNNING;
emu->cur_task = task;
dbg("task id=%d resumes\n", task->id);
}
static void
pre_task_end(struct ovni_emu *emu)
{
struct nosv_task *task;
int taskid;
taskid = emu->cur_ev->payload.i32[0];
HASH_FIND_INT(emu->cur_proc->tasks, &taskid, task);
assert(task != NULL);
assert(task->state == TASK_ST_RUNNING);
assert(emu->cur_thread->state == TH_ST_RUNNING);
assert(emu->cur_thread->task == task);
assert(emu->cur_thread == task->thread);
task->state = TASK_ST_DEAD;
task->thread = NULL;
emu->cur_thread->task = NULL;
emu->cur_task = task;
dbg("task id=%d ends\n", task->id);
}
static void
pre_task_running(struct ovni_emu *emu, struct nosv_task *task)
{
struct ovni_ethread *th;
struct ovni_eproc *proc;
th = emu->cur_thread;
proc = emu->cur_proc;
assert(task->id > 0);
assert(task->type_id > 0);
assert(proc->appid > 0);
chan_set(&th->chan[CHAN_NOSV_TASKID], task->id);
chan_set(&th->chan[CHAN_NOSV_TYPEID], task->type_id);
chan_set(&th->chan[CHAN_NOSV_APPID], proc->appid);
chan_push(&th->chan[CHAN_NOSV_SUBSYSTEM], ST_NOSV_TASK_RUNNING);
}
static void
pre_task_not_running(struct ovni_emu *emu)
{
struct ovni_ethread *th;
th = emu->cur_thread;
chan_set(&th->chan[CHAN_NOSV_TASKID], 0);
chan_set(&th->chan[CHAN_NOSV_TYPEID], 0);
chan_set(&th->chan[CHAN_NOSV_APPID], 0);
chan_pop(&th->chan[CHAN_NOSV_SUBSYSTEM], ST_NOSV_TASK_RUNNING);
}
static void
pre_task(struct ovni_emu *emu)
{
struct nosv_task *task;
task = emu->cur_task;
switch(emu->cur_ev->header.value)
{
case 'c': pre_task_create(emu); break;
case 'x': pre_task_execute(emu); break;
case 'e': pre_task_end(emu); break;
case 'p': pre_task_pause(emu); break;
case 'r': pre_task_resume(emu); break;
default:
abort();
}
switch(emu->cur_ev->header.value)
{
case 'x':
case 'r':
pre_task_running(emu, task);
break;
case 'p':
case 'e':
pre_task_not_running(emu);
break;
case 'c':
default:
break;
}
}
static void
pre_type_create(struct ovni_emu *emu)
{
struct nosv_task_type *type;
uint8_t *data;
uint32_t *typeid;
const char *label;
if((emu->cur_ev->header.flags & OVNI_EV_JUMBO) == 0)
{
err("expecting a jumbo event\n");
abort();
}
data = &emu->cur_ev->payload.jumbo.data[0];
typeid = (uint32_t *) data;
data += sizeof(*typeid);
label = (const char *) data;
/* Ensure the type id is new */
HASH_FIND_INT(emu->cur_proc->types, typeid, type);
if(type != NULL)
{
err("A task type with id %d already exists\n", *typeid);
abort();
}
type = calloc(1, sizeof(*type));
if(type == NULL)
{
perror("calloc");
abort();
}
type->id = *typeid;
type->label = label;
/* Add the new task type to the hash table */
HASH_ADD_INT(emu->cur_proc->types, id, type);
dbg("new task type created id=%d label=%s\n", type->id,
type->label);
}
static void
pre_type(struct ovni_emu *emu)
{
switch(emu->cur_ev->header.value)
{
case 'c': pre_type_create(emu); break;
default:
break;
}
}
static void
pre_sched(struct ovni_emu *emu)
{
struct ovni_ethread *th;
struct ovni_chan *chan_th;
th = emu->cur_thread;
chan_th = &th->chan[CHAN_NOSV_SUBSYSTEM];
switch(emu->cur_ev->header.value)
{
case 'h':
chan_push(chan_th, ST_NOSV_SCHED_HUNGRY);
break;
case 'f': /* Fill: no longer hungry */
chan_pop(chan_th, ST_NOSV_SCHED_HUNGRY);
break;
case '[': /* Server enter */
chan_push(chan_th, ST_NOSV_SCHED_SERVING);
break;
case ']': /* Server exit */
chan_pop(chan_th, ST_NOSV_SCHED_SERVING);
break;
case '@':
chan_ev(chan_th, EV_NOSV_SCHED_SELF);
break;
case 'r':
chan_ev(chan_th, EV_NOSV_SCHED_RECV);
break;
case 's':
chan_ev(chan_th, EV_NOSV_SCHED_SEND);
break;
default:
break;
}
}
static void
pre_api(struct ovni_emu *emu)
{
struct ovni_ethread *th;
struct ovni_chan *chan_th;
th = emu->cur_thread;
chan_th = &th->chan[CHAN_NOSV_SUBSYSTEM];
switch(emu->cur_ev->header.value)
{
case 's': chan_push(chan_th, ST_NOSV_API_SUBMIT); break;
case 'S': chan_pop (chan_th, ST_NOSV_API_SUBMIT); break;
case 'p': chan_push(chan_th, ST_NOSV_API_PAUSE); break;
case 'P': chan_pop (chan_th, ST_NOSV_API_PAUSE); break;
case 'y': chan_push(chan_th, ST_NOSV_API_YIELD); break;
case 'Y': chan_pop (chan_th, ST_NOSV_API_YIELD); break;
case 'w': chan_push(chan_th, ST_NOSV_API_WAITFOR); break;
case 'W': chan_pop (chan_th, ST_NOSV_API_WAITFOR); break;
case 'c': chan_push(chan_th, ST_NOSV_API_SCHEDPOINT); break;
case 'C': chan_pop (chan_th, ST_NOSV_API_SCHEDPOINT); break;
default: break;
}
}
static void
pre_mem(struct ovni_emu *emu)
{
struct ovni_ethread *th;
struct ovni_chan *chan_th;
th = emu->cur_thread;
chan_th = &th->chan[CHAN_NOSV_SUBSYSTEM];
switch(emu->cur_ev->header.value)
{
case 'a': chan_push(chan_th, ST_NOSV_MEM_ALLOCATING); break;
case 'A': chan_pop (chan_th, ST_NOSV_MEM_ALLOCATING); break;
case 'f': chan_push(chan_th, ST_NOSV_MEM_FREEING); break;
case 'F': chan_pop (chan_th, ST_NOSV_MEM_FREEING); break;
default: break;
}
}
static void
pre_thread_type(struct ovni_emu *emu)
{
struct ovni_ethread *th;
struct ovni_chan *chan_th;
th = emu->cur_thread;
chan_th = &th->chan[CHAN_NOSV_SUBSYSTEM];
switch(emu->cur_ev->header.value)
{
case 'a': chan_push(chan_th, ST_NOSV_ATTACH); break;
case 'A': chan_pop (chan_th, ST_NOSV_ATTACH); break;
case 'w': chan_push(chan_th, ST_NOSV_WORKER); break;
case 'W': chan_pop (chan_th, ST_NOSV_WORKER); break;
case 'd': chan_push(chan_th, ST_NOSV_DELEGATE); break;
case 'D': chan_pop (chan_th, ST_NOSV_DELEGATE); break;
default: break;
}
}
static void
pre_ss(struct ovni_emu *emu, int st)
{
struct ovni_ethread *th;
struct ovni_chan *chan_th;
th = emu->cur_thread;
chan_th = &th->chan[CHAN_NOSV_SUBSYSTEM];
assert(chan_th->id == CHAN_NOSV_SUBSYSTEM);
dbg("pre_ss chan id %d st=%d\n", chan_th->id, st);
switch(emu->cur_ev->header.value)
{
case '[':
chan_push(chan_th, st);
break;
case ']':
chan_pop(chan_th, st);
break;
default:
err("unexpected value '%c' (expecting '[' or ']')\n",
emu->cur_ev->header.value);
abort();
}
}
void
hook_pre_nosv(struct ovni_emu *emu)
{
assert(emu->cur_ev->header.model == 'V');
/* Ensure the thread is active */
assert(emu->cur_thread->is_active);
switch(emu->cur_ev->header.category)
{
case 'T': pre_task(emu); break;
case 'Y': pre_type(emu); break;
case 'S': pre_sched(emu); break;
case 'U': pre_ss(emu, ST_NOSV_SCHED_SUBMITTING); break;
case 'M': pre_mem(emu); break;
case 'H': pre_thread_type(emu); break;
case 'A': pre_api(emu); break;
default:
break;
}
}