2b75cca8d2
single CPU machines. git-svn-id: file:///srv/svn/repos/haiku/trunk/current@7122 a95241bf-73f2-0310-859d-f6bbb57e9c96
618 lines
14 KiB
C
618 lines
14 KiB
C
/* Functionality for symetrical multi-processors */
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/*
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** Copyright 2001-2002, Travis Geiselbrecht. All rights reserved.
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** Distributed under the terms of the NewOS License.
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*/
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#include <kernel.h>
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#include <thread.h>
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#include <console.h>
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#include <debug.h>
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#include <int.h>
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#include <arch/int.h>
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#include <smp.h>
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#include <malloc.h>
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#include <Errors.h>
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#include <cpu.h>
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#include <arch/cpu.h>
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#include <arch/smp.h>
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#include <string.h>
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#define DEBUG_SPINLOCKS 1
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#define TRACE_SMP 0
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#if TRACE_SMP
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# define TRACE(x) dprintf x
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#else
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# define TRACE(x) ;
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#endif
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#if __INTEL__
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#define PAUSE() asm volatile ("rep; nop;")
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#else
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#define PAUSE()
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#endif
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#define MSG_POOL_SIZE (SMP_MAX_CPUS * 4)
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struct smp_msg {
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struct smp_msg *next;
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int message;
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unsigned long data;
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unsigned long data2;
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unsigned long data3;
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void *data_ptr;
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int flags;
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int32 ref_count;
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volatile bool done;
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unsigned int proc_bitmap;
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int lock;
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};
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#define MAILBOX_LOCAL 1
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#define MAILBOX_BCAST 2
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static spinlock boot_cpu_spin[SMP_MAX_CPUS] = { 0, };
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static struct smp_msg *free_msgs = NULL;
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static volatile int free_msg_count = 0;
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static spinlock free_msg_spinlock = 0;
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static struct smp_msg *smp_msgs[SMP_MAX_CPUS] = { NULL, };
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static spinlock cpu_msg_spinlock[SMP_MAX_CPUS] = { 0, };
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static struct smp_msg *smp_broadcast_msgs = NULL;
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static spinlock broadcast_msg_spinlock = 0;
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static bool ici_enabled = false;
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static int smp_num_cpus = 1;
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static int smp_process_pending_ici(int curr_cpu);
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void
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acquire_spinlock(spinlock *lock)
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{
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if (smp_num_cpus > 1) {
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int curr_cpu = smp_get_current_cpu();
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if (are_interrupts_enabled())
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panic("acquire_spinlock: attempt to acquire lock %p with interrupts enabled\n", lock);
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while (1) {
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while (*lock != 0) {
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smp_process_pending_ici(curr_cpu);
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PAUSE();
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}
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if (atomic_set((int32 *)lock, 1) == 0)
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break;
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}
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} else {
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#if DEBUG_SPINLOCKS
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if (are_interrupts_enabled())
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panic("acquire_spinlock: attempt to acquire lock %p with interrupts enabled\n", lock);
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if (atomic_set((int32 *)lock, 1) != 0)
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panic("acquire_spinlock: attempt to acquire lock %p twice on non-SMP system\n", lock);
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#endif
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}
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}
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static void
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acquire_spinlock_nocheck(spinlock *lock)
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{
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if (smp_num_cpus > 1) {
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#if DEBUG_SPINLOCKS
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if (are_interrupts_enabled())
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panic("acquire_spinlock_nocheck: attempt to acquire lock %p with interrupts enabled\n", lock);
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#endif
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while (1) {
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while(*lock != 0)
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PAUSE();
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if (atomic_set((int32 *)lock, 1) == 0)
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break;
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}
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} else {
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#if DEBUG_SPINLOCKS
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if (are_interrupts_enabled())
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panic("acquire_spinlock_nocheck: attempt to acquire lock %p with interrupts enabled\n", lock);
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if (atomic_set((int32 *)lock, 1) != 0)
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panic("acquire_spinlock_nocheck: attempt to acquire lock %p twice on non-SMP system\n", lock);
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#endif
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}
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}
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void
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release_spinlock(spinlock *lock)
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{
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if (smp_num_cpus > 1) {
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if (are_interrupts_enabled())
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panic("release_spinlock: attempt to release lock %p with interrupts enabled\n", lock);
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if (atomic_set((int32 *)lock, 0) != 1)
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panic("release_spinlock: lock %p was already released\n", lock);
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} else {
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#if DEBUG_SPINLOCKS
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if (are_interrupts_enabled())
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panic("release_spinlock: attempt to release lock %p with interrupts enabled\n", lock);
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if (atomic_set((int32 *)lock, 0) != 1)
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panic("release_spinlock: lock %p was already released\n", lock);
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#endif
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}
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}
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// finds a free message and gets it
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// NOTE: has side effect of disabling interrupts
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// return value is interrupt state
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static int
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find_free_message(struct smp_msg **msg)
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{
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int state;
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TRACE(("find_free_message: entry\n"));
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retry:
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while (free_msg_count <= 0)
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PAUSE();
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state = disable_interrupts();
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acquire_spinlock(&free_msg_spinlock);
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if (free_msg_count <= 0) {
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// someone grabbed one while we were getting the lock,
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// go back to waiting for it
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release_spinlock(&free_msg_spinlock);
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restore_interrupts(state);
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goto retry;
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}
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*msg = free_msgs;
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free_msgs = (*msg)->next;
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free_msg_count--;
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release_spinlock(&free_msg_spinlock);
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TRACE(("find_free_message: returning msg %p\n", *msg));
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return state;
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}
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static void
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return_free_message(struct smp_msg *msg)
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{
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TRACE(("return_free_message: returning msg %p\n", msg));
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acquire_spinlock_nocheck(&free_msg_spinlock);
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msg->next = free_msgs;
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free_msgs = msg;
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free_msg_count++;
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release_spinlock(&free_msg_spinlock);
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}
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static struct smp_msg *
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smp_check_for_message(int curr_cpu, int *source_mailbox)
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{
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struct smp_msg *msg;
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acquire_spinlock_nocheck(&cpu_msg_spinlock[curr_cpu]);
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msg = smp_msgs[curr_cpu];
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if (msg != NULL) {
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smp_msgs[curr_cpu] = msg->next;
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release_spinlock(&cpu_msg_spinlock[curr_cpu]);
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TRACE((" found msg %p in cpu mailbox\n", msg));
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*source_mailbox = MAILBOX_LOCAL;
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} else {
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// try getting one from the broadcast mailbox
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release_spinlock(&cpu_msg_spinlock[curr_cpu]);
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acquire_spinlock_nocheck(&broadcast_msg_spinlock);
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msg = smp_broadcast_msgs;
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while (msg != NULL) {
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if (CHECK_BIT(msg->proc_bitmap, curr_cpu) != 0) {
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// we have handled this one already
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msg = msg->next;
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continue;
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}
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// mark it so we wont try to process this one again
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msg->proc_bitmap = SET_BIT(msg->proc_bitmap, curr_cpu);
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*source_mailbox = MAILBOX_BCAST;
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break;
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}
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release_spinlock(&broadcast_msg_spinlock);
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TRACE((" found msg %p in broadcast mailbox\n", msg));
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}
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return msg;
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}
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static void
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smp_finish_message_processing(int curr_cpu, struct smp_msg *msg, int source_mailbox)
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{
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int old_refcount;
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old_refcount = atomic_add(&msg->ref_count, -1);
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if (old_refcount == 1) {
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// we were the last one to decrement the ref_count
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// it's our job to remove it from the list & possibly clean it up
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struct smp_msg **mbox = NULL;
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spinlock *spinlock = NULL;
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// clean up the message from one of the mailboxes
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switch (source_mailbox) {
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case MAILBOX_BCAST:
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mbox = &smp_broadcast_msgs;
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spinlock = &broadcast_msg_spinlock;
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break;
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case MAILBOX_LOCAL:
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mbox = &smp_msgs[curr_cpu];
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spinlock = &cpu_msg_spinlock[curr_cpu];
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break;
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}
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acquire_spinlock_nocheck(spinlock);
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TRACE(("cleaning up message %p\n", msg));
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if (msg == *mbox) {
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(*mbox) = msg->next;
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} else {
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// we need to walk to find the message in the list.
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// we can't use any data found when previously walking through
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// the list, since the list may have changed. But, we are guaranteed
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// to at least have msg in it.
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struct smp_msg *last = NULL;
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struct smp_msg *msg1;
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msg1 = *mbox;
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while (msg1 != NULL && msg1 != msg) {
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last = msg1;
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msg1 = msg1->next;
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}
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// by definition, last must be something
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if (msg1 == msg && last != NULL)
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last->next = msg->next;
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else
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dprintf("last == NULL or msg != msg1!!!\n");
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}
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release_spinlock(spinlock);
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if (msg->data_ptr != NULL)
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free(msg->data_ptr);
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if (msg->flags == SMP_MSG_FLAG_SYNC) {
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msg->done = true;
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// the caller cpu should now free the message
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} else {
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// in the !SYNC case, we get to free the message
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return_free_message(msg);
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}
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}
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}
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static int
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smp_process_pending_ici(int curr_cpu)
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{
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struct smp_msg *msg;
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bool halt = false;
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int source_mailbox = 0;
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int retval = B_HANDLED_INTERRUPT;
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msg = smp_check_for_message(curr_cpu, &source_mailbox);
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if (msg == NULL)
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return retval;
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TRACE((" message = %d\n", msg->message));
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switch (msg->message) {
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case SMP_MSG_INVL_PAGE_RANGE:
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arch_cpu_invalidate_TLB_range((addr)msg->data, (addr)msg->data2);
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break;
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case SMP_MSG_INVL_PAGE_LIST:
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arch_cpu_invalidate_TLB_list((addr *)msg->data, (int)msg->data2);
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break;
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case SMP_MSG_GLOBAL_INVL_PAGE:
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arch_cpu_global_TLB_invalidate();
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break;
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case SMP_MSG_RESCHEDULE:
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retval = B_INVOKE_SCHEDULER;
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break;
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case SMP_MSG_CPU_HALT:
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halt = true;
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dprintf("cpu %d halted!\n", curr_cpu);
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break;
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case SMP_MSG_1:
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default:
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dprintf("smp_intercpu_int_handler: got unknown message %d\n", msg->message);
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}
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// finish dealing with this message, possibly removing it from the list
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smp_finish_message_processing(curr_cpu, msg, source_mailbox);
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// special case for the halt message
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// we otherwise wouldn't have gotten the opportunity to clean up
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if (halt) {
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disable_interrupts();
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for(;;);
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}
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return retval;
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}
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int
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smp_intercpu_int_handler(void)
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{
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int retval;
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int curr_cpu = smp_get_current_cpu();
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TRACE(("smp_intercpu_int_handler: entry on cpu %d\n", curr_cpu));
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retval = smp_process_pending_ici(curr_cpu);
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TRACE(("smp_intercpu_int_handler: done\n"));
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return retval;
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}
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void
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smp_send_ici(int target_cpu, int message, uint32 data, uint32 data2, uint32 data3, void *data_ptr, int flags)
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{
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struct smp_msg *msg;
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TRACE(("smp_send_ici: target 0x%x, mess 0x%x, data 0x%lx, data2 0x%lx, data3 0x%lx, ptr %p, flags 0x%x\n",
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target_cpu, message, data, data2, data3, data_ptr, flags));
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if (ici_enabled) {
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int state;
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int curr_cpu;
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// find_free_message leaves interrupts disabled
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state = find_free_message(&msg);
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curr_cpu = smp_get_current_cpu();
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if (target_cpu == curr_cpu) {
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return_free_message(msg);
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restore_interrupts(state);
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return; // nope, cant do that
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}
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// set up the message
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msg->message = message;
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msg->data = data;
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msg->data2 = data2;
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msg->data3 = data3;
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msg->data_ptr = data_ptr;
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msg->ref_count = 1;
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msg->flags = flags;
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msg->done = false;
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// stick it in the appropriate cpu's mailbox
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acquire_spinlock_nocheck(&cpu_msg_spinlock[target_cpu]);
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msg->next = smp_msgs[target_cpu];
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smp_msgs[target_cpu] = msg;
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release_spinlock(&cpu_msg_spinlock[target_cpu]);
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arch_smp_send_ici(target_cpu);
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if (flags == SMP_MSG_FLAG_SYNC) {
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// wait for the other cpu to finish processing it
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// the interrupt handler will ref count it to <0
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// if the message is sync after it has removed it from the mailbox
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while (msg->done == false) {
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smp_process_pending_ici(curr_cpu);
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PAUSE();
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}
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// for SYNC messages, it's our responsibility to put it
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// back into the free list
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return_free_message(msg);
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}
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restore_interrupts(state);
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}
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}
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void
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smp_send_broadcast_ici(int message, uint32 data, uint32 data2, uint32 data3, void *data_ptr, int flags)
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{
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struct smp_msg *msg;
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TRACE(("smp_send_broadcast_ici: cpu %d mess 0x%x, data 0x%lx, data2 0x%lx, data3 0x%lx, ptr %p, flags 0x%x\n",
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smp_get_current_cpu(), message, data, data2, data3, data_ptr, flags));
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if (ici_enabled) {
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int state;
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int curr_cpu;
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// find_free_message leaves interrupts disabled
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state = find_free_message(&msg);
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curr_cpu = smp_get_current_cpu();
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msg->message = message;
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msg->data = data;
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msg->data2 = data2;
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msg->data3 = data3;
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msg->data_ptr = data_ptr;
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msg->ref_count = smp_num_cpus - 1;
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msg->flags = flags;
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msg->proc_bitmap = SET_BIT(0, curr_cpu);
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msg->done = false;
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TRACE(("smp_send_broadcast_ici%d: inserting msg %p into broadcast mbox\n",
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smp_get_current_cpu(), msg));
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// stick it in the appropriate cpu's mailbox
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acquire_spinlock_nocheck(&broadcast_msg_spinlock);
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msg->next = smp_broadcast_msgs;
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smp_broadcast_msgs = msg;
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release_spinlock(&broadcast_msg_spinlock);
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arch_smp_send_broadcast_ici();
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TRACE(("smp_send_broadcast_ici: sent interrupt\n"));
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if (flags == SMP_MSG_FLAG_SYNC) {
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// wait for the other cpus to finish processing it
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// the interrupt handler will ref count it to <0
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// if the message is sync after it has removed it from the mailbox
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TRACE(("smp_send_broadcast_ici: waiting for ack\n"));
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while (msg->done == false) {
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smp_process_pending_ici(curr_cpu);
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PAUSE();
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}
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TRACE(("smp_send_broadcast_ici: returning message to free list\n"));
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// for SYNC messages, it's our responsibility to put it
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// back into the free list
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return_free_message(msg);
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}
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restore_interrupts(state);
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}
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TRACE(("smp_send_broadcast_ici: done\n"));
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}
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int
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smp_trap_non_boot_cpus(kernel_args *ka, int cpu)
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{
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if (cpu > 0) {
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boot_cpu_spin[cpu] = 1;
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acquire_spinlock(&boot_cpu_spin[cpu]);
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return 1;
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}
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return 0;
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}
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void
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smp_wake_up_all_non_boot_cpus()
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{
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int i;
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for (i = 1; i < smp_num_cpus; i++) {
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release_spinlock(&boot_cpu_spin[i]);
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}
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}
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void
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smp_wait_for_ap_cpus(kernel_args *ka)
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{
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unsigned int i;
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int retry;
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do {
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retry = 0;
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for (i = 1; i < ka->num_cpus; i++) {
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if (boot_cpu_spin[i] != 1)
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retry = 1;
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}
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} while (retry == 1);
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}
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status_t
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smp_init(kernel_args *ka)
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{
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struct smp_msg *msg;
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int i;
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TRACE(("smp_init: entry\n"));
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if (ka->num_cpus > 1) {
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free_msgs = NULL;
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free_msg_count = 0;
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for (i = 0; i < MSG_POOL_SIZE; i++) {
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msg = (struct smp_msg *)malloc(sizeof(struct smp_msg));
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if (msg == NULL) {
|
|
panic("error creating smp mailboxes\n");
|
|
return B_ERROR;
|
|
}
|
|
memset(msg, 0, sizeof(struct smp_msg));
|
|
msg->next = free_msgs;
|
|
free_msgs = msg;
|
|
free_msg_count++;
|
|
}
|
|
smp_num_cpus = ka->num_cpus;
|
|
}
|
|
TRACE(("smp_init: calling arch_smp_init\n"));
|
|
|
|
return arch_smp_init(ka);
|
|
}
|
|
|
|
|
|
status_t
|
|
smp_per_cpu_init(kernel_args *args, int32 cpu)
|
|
{
|
|
return arch_smp_per_cpu_init(args, cpu);
|
|
}
|
|
|
|
|
|
void
|
|
smp_set_num_cpus(int num_cpus)
|
|
{
|
|
smp_num_cpus = num_cpus;
|
|
}
|
|
|
|
|
|
int
|
|
smp_get_num_cpus()
|
|
{
|
|
return smp_num_cpus;
|
|
}
|
|
|
|
|
|
int
|
|
smp_get_current_cpu(void)
|
|
{
|
|
struct thread *t = thread_get_current_thread();
|
|
if (t)
|
|
return t->cpu->info.cpu_num;
|
|
|
|
return 0;
|
|
}
|
|
|
|
|
|
int
|
|
smp_enable_ici()
|
|
{
|
|
if (smp_num_cpus > 1) // dont actually do it if we only have one cpu
|
|
ici_enabled = true;
|
|
|
|
return B_NO_ERROR;
|
|
}
|
|
|
|
|
|
int
|
|
smp_disable_ici()
|
|
{
|
|
ici_enabled = false;
|
|
return B_NO_ERROR;
|
|
}
|
|
|
|
|
|
// #pragma mark -
|
|
// public exported functions
|
|
|
|
|
|
void
|
|
call_all_cpus(void (*f)(void *, int), void *cookie)
|
|
{
|
|
// ToDo: this is a dummy, but at least it works for single CPU machines
|
|
f(cookie, smp_get_current_cpu());
|
|
}
|
|
|