ovni/emu_ovni.c

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C
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2021-10-26 18:42:41 +02:00
/*
* 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 <https://www.gnu.org/licenses/>.
*/
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#include "ovni.h"
#include "emu.h"
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#include "prv.h"
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#include "chan.h"
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#include <assert.h>
/* The emulator ovni module provides the execution model by tracking the thread
* state and which threads run in each CPU */
/* --------------------------- init ------------------------------- */
void
hook_init_ovni(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 ovni channels in all threads */
for(i=0; i<emu->total_nthreads; i++)
{
th = emu->global_thread[i];
row = th->gindex + 1;
uth = &emu->th_chan;
chan_th_init(th, uth, CHAN_OVNI_TID, CHAN_TRACK_TH_RUNNING, th->tid, 0, 1, row, prv_th, clock);
chan_th_init(th, uth, CHAN_OVNI_PID, CHAN_TRACK_TH_RUNNING, th->proc->pid, 0, 1, row, prv_th, clock);
chan_th_init(th, uth, CHAN_OVNI_CPU, CHAN_TRACK_NONE, -1, 0, 1, row, prv_th, clock);
chan_th_init(th, uth, CHAN_OVNI_STATE, CHAN_TRACK_NONE, TH_ST_UNKNOWN, 1, 1, row, prv_th, clock);
chan_th_init(th, uth, CHAN_OVNI_FLUSH, CHAN_TRACK_NONE, ST_NULL, 1, 1, row, prv_th, clock);
}
/* Init the ovni channels in all cpus */
for(i=0; i<emu->total_ncpus; i++)
{
cpu = emu->global_cpu[i];
row = cpu->gindex + 1;
ucpu = &emu->cpu_chan;
chan_cpu_init(cpu, ucpu, CHAN_OVNI_TID, CHAN_TRACK_TH_RUNNING, 0, 1, 1, row, prv_cpu, clock);
chan_cpu_init(cpu, ucpu, CHAN_OVNI_PID, CHAN_TRACK_TH_RUNNING, 0, 1, 1, row, prv_cpu, clock);
chan_cpu_init(cpu, ucpu, CHAN_OVNI_NRTHREADS, CHAN_TRACK_NONE, 0, 1, 1, row, prv_cpu, clock);
chan_cpu_init(cpu, ucpu, CHAN_OVNI_FLUSH, CHAN_TRACK_TH_RUNNING, 0, 0, 0, row, prv_cpu, clock);
}
}
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/* --------------------------- pre ------------------------------- */
/* Update the tracking channel if needed */
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static void
chan_tracking_update(struct ovni_chan *chan, struct ovni_ethread *th)
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{
int enabled;
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assert(th);
switch (chan->track)
{
case CHAN_TRACK_TH_RUNNING:
enabled = th->is_running;
break;
case CHAN_TRACK_TH_ACTIVE:
enabled = th->is_active;
break;
default:
dbg("ignoring thread %d chan %d with track=%d\n",
th->tid, chan->id, chan->track);
return;
}
/* The channel is already in the proper state */
if(chan_is_enabled(chan) == enabled)
return;
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dbg("thread %d changes state to %d: chan %d enabled=%d\n",
th->tid, th->state, chan->id, enabled);
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chan_enable(chan, enabled);
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}
/* Sets the state of the thread and updates the thread tracking channels */
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static void
thread_set_state(struct ovni_ethread *th, enum ethread_state state)
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{
int i;
/* The state must be updated when a cpu is set */
assert(th->cpu);
dbg("thread_set_state: setting thread %d state %d\n",
th->tid, state);
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th->state = state;
th->is_running = (state == TH_ST_RUNNING) ? 1 : 0;
th->is_active = (state == TH_ST_RUNNING
|| state == TH_ST_COOLING
|| state == TH_ST_WARMING) ? 1 : 0;
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chan_set(&th->chan[CHAN_OVNI_STATE], th->state);
/* Enable or disable the thread channels that track the thread state */
for(i=0; i<CHAN_MAX; i++)
chan_tracking_update(&th->chan[i], th);
dbg("thread_set_state: done\n");
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}
static void
cpu_update_th_stats(struct ovni_cpu *cpu)
{
struct ovni_ethread *th, *th_running = NULL, *th_active = NULL;
size_t i;
int active = 0, running = 0;
for(i=0; i<cpu->nthreads; i++)
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{
th = cpu->thread[i];
if(th->state == TH_ST_RUNNING)
{
th_running = th;
running++;
th_active = th;
active++;
}
else if(th->state == TH_ST_COOLING || th->state == TH_ST_WARMING)
{
th_active = th;
active++;
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}
}
cpu->nrunning_threads = running;
cpu->nactive_threads = active;
cpu->th_running = th_running;
cpu->th_active = th_active;
}
static void
update_cpu(struct ovni_cpu *cpu)
{
int i;
dbg("updating cpu %s\n", cpu->name);
/* Update the running and active threads first */
cpu_update_th_stats(cpu);
/* From the CPU channels we only need to manually update the number of
* threads running in the CPU */
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if(chan_get_st(&cpu->chan[CHAN_OVNI_NRTHREADS]) != (int) cpu->nrunning_threads)
chan_set(&cpu->chan[CHAN_OVNI_NRTHREADS], (int) cpu->nrunning_threads);
/* Update all tracking channels */
for(i=0; i<CHAN_MAX; i++)
emu_cpu_update_chan(cpu, &cpu->chan[i]);
dbg("updating cpu %s complete!\n", cpu->name);
}
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struct ovni_cpu *
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emu_get_cpu(struct ovni_loom *loom, int cpuid)
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{
assert(cpuid < OVNI_MAX_CPU);
if(cpuid < 0)
{
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return &loom->vcpu;
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}
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return &loom->cpu[cpuid];
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}
static int
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emu_cpu_find_thread(struct ovni_cpu *cpu, struct ovni_ethread *thread)
{
size_t i;
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for(i=0; i<cpu->nthreads; i++)
if(cpu->thread[i] == thread)
break;
/* Not found */
if(i >= cpu->nthreads)
return -1;
return i;
}
/* Add the given thread to the list of threads assigned to the CPU */
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static void
cpu_add_thread(struct ovni_cpu *cpu, struct ovni_ethread *thread)
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{
/* Found, abort */
if(emu_cpu_find_thread(cpu, thread) >= 0)
{
err("The thread %d is already assigned to %s\n",
thread->tid, cpu->name);
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abort();
}
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/* Ensure that we have room for another thread */
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assert(cpu->nthreads < OVNI_MAX_THR);
cpu->thread[cpu->nthreads++] = thread;
update_cpu(cpu);
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}
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static void
cpu_remove_thread(struct ovni_cpu *cpu, struct ovni_ethread *thread)
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{
int i, j;
i = emu_cpu_find_thread(cpu, thread);
/* Not found, abort */
if(i < 0)
abort();
for(j=i; j+1 < (int)cpu->nthreads; j++)
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cpu->thread[i] = cpu->thread[j+1];
cpu->nthreads--;
update_cpu(cpu);
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}
static void
cpu_migrate_thread(struct ovni_cpu *cpu,
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struct ovni_ethread *thread,
struct ovni_cpu *newcpu)
{
cpu_remove_thread(cpu, thread);
cpu_add_thread(newcpu, thread);
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}
/* Sets the thread assigned CPU to the given one.
* Precondition: the thread CPU must be null */
static void
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thread_set_cpu(struct ovni_ethread *th, struct ovni_cpu *cpu)
{
assert(th->cpu == NULL);
dbg("thread_set_cpu: setting thread %d cpu to %s\n",
th->tid, cpu->name);
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th->cpu = cpu;
chan_enable(&th->chan[CHAN_OVNI_CPU], 1);
chan_set(&th->chan[CHAN_OVNI_CPU], cpu->gindex + 1);
}
/* Unsets the thread assigned CPU.
* Precondition: the thread CPU must be not null */
static void
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thread_unset_cpu(struct ovni_ethread *th)
{
assert(th->cpu != NULL);
th->cpu = NULL;
chan_enable(&th->chan[CHAN_OVNI_CPU], 0);
}
/* Migrates the thread assigned CPU to the given one.
* Precondition: the thread CPU must be not null */
static void
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thread_migrate_cpu(struct ovni_ethread *th, struct ovni_cpu *cpu)
{
assert(th->cpu != NULL);
th->cpu = cpu;
assert(chan_is_enabled(&th->chan[CHAN_OVNI_CPU]));
chan_set(&th->chan[CHAN_OVNI_CPU], cpu->gindex + 1);
}
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static void
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pre_thread_execute(struct ovni_emu *emu, struct ovni_ethread *th)
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{
struct ovni_cpu *cpu;
int cpuid;
/* The thread cannot be already running */
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assert(th->state != TH_ST_RUNNING);
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cpuid = emu->cur_ev->payload.i32[0];
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cpu = emu_get_cpu(emu->cur_loom, cpuid);
dbg("pre_thread_execute: thread %d runs in CPU %s\n", th->tid, cpu->name);
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/* First set the CPU in the thread */
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thread_set_cpu(th, cpu);
/* Then set the thread to running state */
thread_set_state(th, TH_ST_RUNNING);
/* And then add the thread to the CPU, so tracking channels see the
* updated thread state */
cpu_add_thread(cpu, th);
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}
static void
pre_thread_end(struct ovni_ethread *th)
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{
assert(th->state == TH_ST_RUNNING);
assert(th->cpu);
/* First update the thread state */
thread_set_state(th, TH_ST_DEAD);
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/* Then remove it from the cpu, so channels are properly updated */
cpu_remove_thread(th->cpu, th);
thread_unset_cpu(th);
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}
static void
pre_thread_pause(struct ovni_ethread *th)
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{
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assert(th->state == TH_ST_RUNNING || th->state == TH_ST_COOLING);
assert(th->cpu);
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thread_set_state(th, TH_ST_PAUSED);
update_cpu(th->cpu);
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}
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static void
pre_thread_resume(struct ovni_ethread *th)
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{
assert(th->state == TH_ST_PAUSED || th->state == TH_ST_WARMING);
assert(th->cpu);
thread_set_state(th, TH_ST_RUNNING);
update_cpu(th->cpu);
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}
static void
pre_thread_cool(struct ovni_ethread *th)
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{
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assert(th->state == TH_ST_RUNNING);
assert(th->cpu);
thread_set_state(th, TH_ST_COOLING);
update_cpu(th->cpu);
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}
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static void
pre_thread_warm(struct ovni_ethread *th)
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{
assert(th->state == TH_ST_PAUSED);
assert(th->cpu);
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thread_set_state(th, TH_ST_WARMING);
update_cpu(th->cpu);
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}
static void
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pre_thread(struct ovni_emu *emu)
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{
struct ovni_ev *ev;
struct ovni_ethread *th;
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//emu_emit(emu);
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th = emu->cur_thread;
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ev = emu->cur_ev;
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switch(ev->header.value)
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{
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case 'C': /* create */
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dbg("thread %d creates a new thread at cpu=%d with args=%x %x\n",
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th->tid,
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ev->payload.u32[0],
ev->payload.u32[1],
ev->payload.u32[2]);
break;
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case 'x': pre_thread_execute(emu, th); break;
case 'e': pre_thread_end(th); break;
case 'p': pre_thread_pause(th); break;
case 'r': pre_thread_resume(th); break;
case 'c': pre_thread_cool(th); break;
case 'w': pre_thread_warm(th); break;
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default:
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err("unknown thread event value %c\n",
ev->header.value);
exit(EXIT_FAILURE);
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}
}
static void
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pre_affinity_set(struct ovni_emu *emu)
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{
int cpuid;
struct ovni_cpu *newcpu;
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struct ovni_ethread *th;
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th = emu->cur_thread;
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cpuid = emu->cur_ev->payload.i32[0];
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assert(th->cpu);
assert(th->state == TH_ST_RUNNING
|| th->state == TH_ST_COOLING
|| th->state == TH_ST_WARMING);
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/* Migrate current cpu to the one at cpuid */
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newcpu = emu_get_cpu(emu->cur_loom, cpuid);
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/* The CPU is already properly set, return */
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if(th->cpu == newcpu)
return;
cpu_migrate_thread(th->cpu, th, newcpu);
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thread_migrate_cpu(th, newcpu);
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//dbg("cpu %d now runs %d\n", cpuid, th->tid);
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}
static void
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pre_affinity_remote(struct ovni_emu *emu)
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{
size_t i;
int32_t cpuid, tid;
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struct ovni_cpu *newcpu;
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struct ovni_ethread *remote_th;
struct ovni_loom *loom;
struct ovni_eproc *proc;
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cpuid = emu->cur_ev->payload.i32[0];
tid = emu->cur_ev->payload.i32[1];
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remote_th = emu_get_thread(emu->cur_proc, tid);
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if(remote_th == NULL)
{
/* Search the thread in other processes of the loom if
* not found in the current one */
loom = emu->cur_loom;
for(i=0; i<loom->nprocs; i++)
{
proc = &loom->proc[i];
/* Skip the current process */
if(proc == emu->cur_proc)
continue;
remote_th = emu_get_thread(proc, tid);
if(remote_th)
break;
}
if(remote_th == NULL)
{
err("thread tid %d not found: cannot set affinity remotely\n",
tid);
abort();
}
}
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/* The remote_th cannot be in states dead or unknown */
assert(remote_th->state != TH_ST_DEAD
&& remote_th->state != TH_ST_UNKNOWN);
/* It must have an assigned CPU */
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assert(remote_th->cpu);
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/* Migrate current cpu to the one at cpuid */
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newcpu = emu_get_cpu(emu->cur_loom, cpuid);
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cpu_migrate_thread(remote_th->cpu, remote_th, newcpu);
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thread_migrate_cpu(remote_th, newcpu);
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//dbg("remote_th %d switches to cpu %d by remote petition\n", tid,
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// cpuid);
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}
static void
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pre_affinity(struct ovni_emu *emu)
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{
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//emu_emit(emu);
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switch(emu->cur_ev->header.value)
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{
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case 's': pre_affinity_set(emu); break;
case 'r': pre_affinity_remote(emu); break;
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default:
dbg("unknown affinity event value %c\n",
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emu->cur_ev->header.value);
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break;
}
}
static void
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pre_burst(struct ovni_emu *emu)
{
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struct ovni_ethread *th;
int64_t dt = 0;
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UNUSED(dt);
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th = emu->cur_thread;
if(th->nbursts >= MAX_BURSTS)
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{
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err("too many bursts: ignored\n");
return;
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}
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th->burst_time[th->nbursts] = emu->delta_time;
if(th->nbursts > 0)
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{
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dt = th->burst_time[th->nbursts] -
th->burst_time[th->nbursts - 1];
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dbg("burst delta time %ld ns\n", dt);
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}
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th->nbursts++;
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}
static void
pre_flush(struct ovni_emu *emu)
{
struct ovni_ethread *th;
struct ovni_chan *chan_th;
th = emu->cur_thread;
chan_th = &th->chan[CHAN_OVNI_FLUSH];
switch(emu->cur_ev->header.value)
{
case '[':
chan_push(chan_th, ST_OVNI_FLUSHING);
break;
case ']':
chan_pop(chan_th, ST_OVNI_FLUSHING);
break;
default:
err("unexpected value '%c' (expecting '[' or ']')\n",
emu->cur_ev->header.value);
abort();
}
}
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void
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hook_pre_ovni(struct ovni_emu *emu)
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{
//emu_emit(emu);
if(emu->cur_ev->header.model != 'O')
return;
switch(emu->cur_ev->header.category)
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{
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case 'H': pre_thread(emu); break;
case 'A': pre_affinity(emu); break;
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case 'B': pre_burst(emu); break;
case 'F': pre_flush(emu); break;
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default:
dbg("unknown ovni event category %c\n",
emu->cur_ev->header.category);
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break;
}
}