182 lines
4.1 KiB
C
182 lines
4.1 KiB
C
#include <assert.h>
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#include "smp.h"
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#include "interrupt.h"
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#include "clock.h"
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unsigned ncpus;
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unsigned ht_per_core;
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unsigned bsp_cpu_id;
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PUBLIC struct cpu cpus[CONFIG_MAX_CPUS];
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/* info passed to another cpu along with a sched ipi */
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struct sched_ipi_data {
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volatile u32_t flags;
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volatile u32_t data;
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};
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PRIVATE struct sched_ipi_data sched_ipi_data[CONFIG_MAX_CPUS];
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#define SCHED_IPI_STOP_PROC 1
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#define SCHED_IPI_VM_INHIBIT 2
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#define SCHED_IPI_SAVE_CTX 4
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static volatile unsigned ap_cpus_booted;
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SPINLOCK_DEFINE(big_kernel_lock)
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SPINLOCK_DEFINE(boot_lock)
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PUBLIC void wait_for_APs_to_finish_booting(void)
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{
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unsigned n = 0;
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int i;
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/* check how many cpus are actually alive */
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for (i = 0 ; i < ncpus ; i++) {
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if (cpu_test_flag(i, CPU_IS_READY))
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n++;
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}
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if (n != ncpus)
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printf("WARNING only %d out of %d cpus booted\n", n, ncpus);
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/* we must let the other CPUs to run in kernel mode first */
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BKL_UNLOCK();
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while (ap_cpus_booted != (n - 1))
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arch_pause();
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/* now we have to take the lock again as we continu execution */
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BKL_LOCK();
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}
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PUBLIC void ap_boot_finished(unsigned cpu)
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{
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ap_cpus_booted++;
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}
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PUBLIC void smp_ipi_halt_handler(void)
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{
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ipi_ack();
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stop_local_timer();
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arch_smp_halt_cpu();
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}
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PUBLIC void smp_schedule(unsigned cpu)
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{
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/*
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* check if the cpu is processing some other ipi already. If yes, no
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* need to wake it up
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*/
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if ((volatile unsigned)sched_ipi_data[cpu].flags != 0)
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return;
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arch_send_smp_schedule_ipi(cpu);
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}
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/*
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* tell another cpu about a task to do and return only after the cpu acks that
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* the task is finished. Also wait before it finishes task sent by another cpu
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* to the same one.
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*/
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PRIVATE void smp_schedule_sync(struct proc * p, unsigned task)
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{
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unsigned cpu = p->p_cpu;
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/*
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* if some other cpu made a request to the same cpu, wait until it is
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* done before proceeding
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*/
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if ((volatile unsigned)sched_ipi_data[cpu].flags != 0) {
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BKL_UNLOCK();
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while ((volatile unsigned)sched_ipi_data[cpu].flags != 0);
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BKL_LOCK();
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}
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sched_ipi_data[cpu].flags |= task;
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sched_ipi_data[cpu].data = (u32_t) p;
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arch_send_smp_schedule_ipi(cpu);
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/* wait until the destination cpu finishes its job */
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BKL_UNLOCK();
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while ((volatile unsigned)sched_ipi_data[cpu].flags != 0);
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BKL_LOCK();
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}
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PUBLIC void smp_schedule_stop_proc(struct proc * p)
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{
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if (proc_is_runnable(p))
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smp_schedule_sync(p, SCHED_IPI_STOP_PROC);
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else
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RTS_SET(p, RTS_PROC_STOP);
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assert(RTS_ISSET(p, RTS_PROC_STOP));
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}
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PUBLIC void smp_schedule_vminhibit(struct proc * p)
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{
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if (proc_is_runnable(p))
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smp_schedule_sync(p, SCHED_IPI_VM_INHIBIT);
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else
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RTS_SET(p, RTS_VMINHIBIT);
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assert(RTS_ISSET(p, RTS_VMINHIBIT));
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}
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PUBLIC void smp_schedule_stop_proc_save_ctx(struct proc * p)
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{
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/*
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* stop the processes and force the complete context of the process to
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* be saved (i.e. including FPU state and such)
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*/
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smp_schedule_sync(p, SCHED_IPI_STOP_PROC | SCHED_IPI_SAVE_CTX);
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assert(RTS_ISSET(p, RTS_PROC_STOP));
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}
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PUBLIC void smp_schedule_migrate_proc(struct proc * p, unsigned dest_cpu)
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{
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/*
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* stop the processes and force the complete context of the process to
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* be saved (i.e. including FPU state and such)
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*/
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smp_schedule_sync(p, SCHED_IPI_STOP_PROC | SCHED_IPI_SAVE_CTX);
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assert(RTS_ISSET(p, RTS_PROC_STOP));
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/* assign the new cpu and let the process run again */
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p->p_cpu = dest_cpu;
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RTS_UNSET(p, RTS_PROC_STOP);
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}
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PUBLIC void smp_ipi_sched_handler(void)
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{
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struct proc * curr;
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unsigned mycpu = cpuid;
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unsigned flgs;
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ipi_ack();
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curr = get_cpu_var(mycpu, proc_ptr);
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flgs = sched_ipi_data[mycpu].flags;
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if (flgs) {
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struct proc * p;
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p = (struct proc *)sched_ipi_data[mycpu].data;
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if (flgs & SCHED_IPI_STOP_PROC) {
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RTS_SET(p, RTS_PROC_STOP);
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}
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if (flgs & SCHED_IPI_SAVE_CTX) {
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/* all context have been save already, FPU remains */
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if (proc_used_fpu(p) &&
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get_cpulocal_var(fpu_owner) == p) {
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disable_fpu_exception();
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save_local_fpu(p);
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/* we re preparing to migrate somewhere else */
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release_fpu(p);
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}
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}
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if (flgs & SCHED_IPI_VM_INHIBIT) {
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RTS_SET(p, RTS_VMINHIBIT);
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}
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}
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else if (curr->p_endpoint != IDLE) {
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RTS_SET(curr, RTS_PREEMPTED);
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}
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sched_ipi_data[cpuid].flags = 0;
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}
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