Annotation of kernel/kern/machine.c, revision 1.1.1.1

1.1       root        1: /*
                      2:  * Copyright (c) 1999 Apple Computer, Inc. All rights reserved.
                      3:  *
                      4:  * @APPLE_LICENSE_HEADER_START@
                      5:  * 
                      6:  * Portions Copyright (c) 1999 Apple Computer, Inc.  All Rights
                      7:  * Reserved.  This file contains Original Code and/or Modifications of
                      8:  * Original Code as defined in and that are subject to the Apple Public
                      9:  * Source License Version 1.1 (the "License").  You may not use this file
                     10:  * except in compliance with the License.  Please obtain a copy of the
                     11:  * License at http://www.apple.com/publicsource and read it before using
                     12:  * this file.
                     13:  * 
                     14:  * The Original Code and all software distributed under the License are
                     15:  * distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, EITHER
                     16:  * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
                     17:  * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
                     18:  * FITNESS FOR A PARTICULAR PURPOSE OR NON-INFRINGEMENT.  Please see the
                     19:  * License for the specific language governing rights and limitations
                     20:  * under the License.
                     21:  * 
                     22:  * @APPLE_LICENSE_HEADER_END@
                     23:  */
                     24: 
                     25: /* 
                     26:  * Mach Operating System
                     27:  * Copyright (c) 1993-1987 Carnegie Mellon University
                     28:  * All Rights Reserved.
                     29:  * 
                     30:  * Permission to use, copy, modify and distribute this software and its
                     31:  * documentation is hereby granted, provided that both the copyright
                     32:  * notice and this permission notice appear in all copies of the
                     33:  * software, derivative works or modified versions, and any portions
                     34:  * thereof, and that both notices appear in supporting documentation.
                     35:  * 
                     36:  * CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS "AS IS"
                     37:  * CONDITION.  CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND FOR
                     38:  * ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE.
                     39:  * 
                     40:  * Carnegie Mellon requests users of this software to return to
                     41:  * 
                     42:  *  Software Distribution Coordinator  or  [email protected]
                     43:  *  School of Computer Science
                     44:  *  Carnegie Mellon University
                     45:  *  Pittsburgh PA 15213-3890
                     46:  * 
                     47:  * any improvements or extensions that they make and grant Carnegie Mellon
                     48:  * the rights to redistribute these changes.
                     49:  */
                     50: /*
                     51:  *     File:   kern/machine.c
                     52:  *     Author: Avadis Tevanian, Jr.
                     53:  *     Date:   1987
                     54:  *
                     55:  *     Support for machine independent machine abstraction.
                     56:  */
                     57: 
                     58: #include <norma_ether.h>
                     59: #include <cpus.h>
                     60: #include <mach_host.h>
                     61: 
                     62: #include <mach/boolean.h>
                     63: #include <mach/kern_return.h>
                     64: #include <mach/mach_types.h>
                     65: #include <mach/machine.h>
                     66: #include <mach/host_info.h>
                     67: #include <kern/counters.h>
                     68: #include <kern/ipc_host.h>
                     69: #include <kern/host.h>
                     70: #include <kern/lock.h>
                     71: #include <kern/processor.h>
                     72: #include <kern/queue.h>
                     73: #include <kern/sched.h>
                     74: #include <kern/task.h>
                     75: #include <kern/thread.h>
                     76: #include <machine/machspl.h>   /* for splsched */
                     77: #include <sys/reboot.h>
                     78: 
                     79: 
                     80: 
                     81: /*
                     82:  *     Exported variables:
                     83:  */
                     84: 
                     85: struct machine_info    machine_info;
                     86: struct machine_slot    machine_slot[NCPUS];
                     87: 
                     88: queue_head_t   action_queue;   /* assign/shutdown queue */
                     89: decl_simple_lock_data(,action_lock);
                     90: 
                     91: /*
                     92:  *     xxx_host_info:
                     93:  *
                     94:  *     Return the host_info structure.  This routine is exported to the
                     95:  *     user level.
                     96:  */
                     97: kern_return_t xxx_host_info(task, info)
                     98:        task_t          task;
                     99:        machine_info_t  info;
                    100: {
                    101: #ifdef lint
                    102:        task++;
                    103: #endif /* lint */
                    104:        *info = machine_info;
                    105:        return(KERN_SUCCESS);
                    106: }
                    107: 
                    108: /*
                    109:  *     xxx_slot_info:
                    110:  *
                    111:  *     Return the slot_info structure for the specified slot.  This routine
                    112:  *     is exported to the user level.
                    113:  */
                    114: kern_return_t xxx_slot_info(task, slot, info)
                    115:        task_t          task;
                    116:        int             slot;
                    117:        machine_slot_t  info;
                    118: {
                    119: #ifdef lint
                    120:        task++;
                    121: #endif /* lint */
                    122:        if ((slot < 0) || (slot >= NCPUS))
                    123:                return(KERN_INVALID_ARGUMENT);
                    124:        *info = machine_slot[slot];
                    125:        return(KERN_SUCCESS);
                    126: }
                    127: 
                    128: /*
                    129:  *     xxx_cpu_control:
                    130:  *
                    131:  *     Support for user control of cpus.  The user indicates which cpu
                    132:  *     he is interested in, and whether or not that cpu should be running.
                    133:  */
                    134: kern_return_t xxx_cpu_control(task, cpu, runnable)
                    135:        task_t          task;
                    136:        int             cpu;
                    137:        boolean_t       runnable;
                    138: {
                    139: #ifdef lint
                    140:        task++; cpu++; runnable++;
                    141: #endif /* lint */
                    142:        return(KERN_FAILURE);
                    143: }
                    144: 
                    145: /*
                    146:  *     cpu_up:
                    147:  *
                    148:  *     Flag specified cpu as up and running.  Called when a processor comes
                    149:  *     online.
                    150:  */
                    151: void cpu_up(cpu)
                    152:        int     cpu;
                    153: {
                    154:        register struct machine_slot    *ms;
                    155:        register processor_t    processor;
                    156:        register spl_t s;
                    157: 
                    158:        processor = cpu_to_processor(cpu);
                    159:        pset_lock(&default_pset);
                    160:        s = splsched();
                    161:        processor_lock(processor);
                    162: #if    NCPUS > 1
                    163:        init_ast_check(processor);
                    164: #endif /* NCPUS > 1 */
                    165:        ms = &machine_slot[cpu];
                    166:        ms->running = TRUE;
                    167:        machine_info.avail_cpus++;
                    168:        pset_add_processor(&default_pset, processor);
                    169:        processor->state = PROCESSOR_RUNNING;
                    170:        processor_unlock(processor);
                    171:        splx(s);
                    172:        pset_unlock(&default_pset);
                    173: }
                    174: 
                    175: /*
                    176:  *     cpu_down:
                    177:  *
                    178:  *     Flag specified cpu as down.  Called when a processor is about to
                    179:  *     go offline.
                    180:  */
                    181: void cpu_down(cpu)
                    182:        int     cpu;
                    183: {
                    184:        register struct machine_slot    *ms;
                    185:        register processor_t    processor;
                    186:        register spl_t  s;
                    187: 
                    188:        s = splsched();
                    189:        processor = cpu_to_processor(cpu);
                    190:        processor_lock(processor);
                    191:        ms = &machine_slot[cpu];
                    192:        ms->running = FALSE;
                    193:        machine_info.avail_cpus--;
                    194:        /*
                    195:         *      processor has already been removed from pset.
                    196:         */
                    197:        processor->processor_set_next = PROCESSOR_SET_NULL;
                    198:        processor->state = PROCESSOR_OFF_LINE;
                    199:        processor_unlock(processor);
                    200:        splx(s);
                    201: }
                    202: 
                    203: #if    NCPUS > 1
                    204: /*
                    205:  *     processor_request_action - common internals of processor_assign
                    206:  *             and processor_shutdown.  If new_pset is null, this is
                    207:  *             a shutdown, else it's an assign and caller must donate
                    208:  *             a reference.
                    209:  */
                    210: void
                    211: processor_request_action(processor, new_pset)
                    212: processor_t    processor;
                    213: processor_set_t        new_pset;
                    214: {
                    215:     register processor_set_t pset;
                    216: 
                    217:     /*
                    218:      * Processor must be in a processor set.  Must lock its idle lock to
                    219:      * get at processor state.
                    220:      */
                    221:     pset = processor->processor_set;
                    222:     simple_lock(&pset->idle_lock);
                    223: 
                    224:     /*
                    225:      * If the processor is dispatching, let it finish - it will set its
                    226:      * state to running very soon.
                    227:      */
                    228:     while (*(volatile int *)&processor->state == PROCESSOR_DISPATCHING)
                    229:        continue;
                    230: 
                    231:     /*
                    232:      * Now lock the action queue and do the dirty work.
                    233:      */
                    234:     simple_lock(&action_lock);
                    235: 
                    236:     switch (processor->state) {
                    237:        case PROCESSOR_IDLE:
                    238:            /*
                    239:             *  Remove from idle queue.
                    240:             */
                    241:            queue_remove(&pset->idle_queue, processor,  processor_t,
                    242:                processor_queue);
                    243:            pset->idle_count--;
                    244: 
                    245:            /* fall through ... */
                    246:        case PROCESSOR_RUNNING:
                    247:            /*
                    248:             *  Put it on the action queue.
                    249:             */
                    250:            queue_enter(&action_queue, processor, processor_t,
                    251:                processor_queue);
                    252: 
                    253:            /* fall through ... */
                    254:        case PROCESSOR_ASSIGN:
                    255:            /*
                    256:             * And ask the action_thread to do the work.
                    257:             */
                    258: 
                    259:            if (new_pset == PROCESSOR_SET_NULL) {
                    260:                processor->state = PROCESSOR_SHUTDOWN;
                    261:            }
                    262:            else {
                    263:                assert(processor->state != PROCESSOR_ASSIGN);
                    264:                processor->state = PROCESSOR_ASSIGN;
                    265:                processor->processor_set_next = new_pset;
                    266:            }
                    267:            break;
                    268: 
                    269:        default:
                    270:            printf("state: %d\n", processor->state);
                    271:            panic("processor_request_action: bad state");
                    272:     }
                    273:     simple_unlock(&action_lock);
                    274:     simple_unlock(&pset->idle_lock);
                    275: 
                    276:     thread_wakeup((event_t)&action_queue);
                    277: }
                    278: 
                    279: #if    MACH_HOST
                    280: /*
                    281:  *     processor_assign() changes the processor set that a processor is
                    282:  *     assigned to.  Any previous assignment in progress is overridden.
                    283:  *     Synchronizes with assignment completion if wait is TRUE.
                    284:  */
                    285: kern_return_t
                    286: processor_assign(processor, new_pset, wait)
                    287: processor_t    processor;
                    288: processor_set_t        new_pset;
                    289: boolean_t      wait;
                    290: {
                    291:     spl_t              s;
                    292: 
                    293:     /*
                    294:      * Check for null arguments.
                    295:      *  XXX Can't assign master processor.
                    296:      */
                    297:     if (processor == PROCESSOR_NULL || new_pset == PROCESSOR_SET_NULL ||
                    298:        processor == master_processor) {
                    299:            return(KERN_INVALID_ARGUMENT);
                    300:     }
                    301: 
                    302:     /*
                    303:      * Get pset reference to donate to processor_request_action.
                    304:      */
                    305:     pset_reference(new_pset);
                    306: 
                    307:     /*
                    308:      * Check processor status.
                    309:      * If shutdown or being shutdown, can`t reassign.
                    310:      * If being assigned, wait for assignment to finish.
                    311:      */
                    312: Retry:
                    313:     s = splsched();
                    314:     processor_lock(processor);
                    315:     if(processor->state == PROCESSOR_OFF_LINE ||
                    316:        processor->state == PROCESSOR_SHUTDOWN) {
                    317:            /*
                    318:             *  Already shutdown or being shutdown -- Can't reassign.
                    319:             */
                    320:            processor_unlock(processor);
                    321:            (void) splx(s);
                    322:            pset_deallocate(new_pset);
                    323:            return(KERN_FAILURE);
                    324:     }
                    325: 
                    326:     if (processor->state == PROCESSOR_ASSIGN) {
                    327:        assert_wait((event_t) processor, TRUE);
                    328:        processor_unlock(processor);
                    329:        splx(s);
                    330:        thread_block_continue((void(*)()) 0);
                    331:        goto Retry;
                    332:     }
                    333:         
                    334:     /*
                    335:      * Avoid work if processor is already in this processor set.
                    336:      */
                    337:     if (processor->processor_set == new_pset)  {
                    338:        processor_unlock(processor);
                    339:        (void) splx(s);
                    340:        /* clean up dangling ref */
                    341:        pset_deallocate(new_pset);
                    342:        return(KERN_SUCCESS);
                    343:     }
                    344: 
                    345:     /*
                    346:      * OK to start processor assignment.
                    347:      */
                    348:     processor_request_action(processor, new_pset);
                    349: 
                    350:     /*
                    351:      * Synchronization with completion.
                    352:      */
                    353:     if (wait) {
                    354:        while (processor->state == PROCESSOR_ASSIGN ||
                    355:            processor->state == PROCESSOR_SHUTDOWN) {
                    356:                assert_wait((event_t)processor, TRUE);
                    357:                processor_unlock(processor);
                    358:                splx(s);
                    359:                thread_block_continue((void (*)()) 0);
                    360:                s = splsched();
                    361:                processor_lock(processor);
                    362:        }
                    363:     }
                    364:     processor_unlock(processor);
                    365:     splx(s);
                    366:     
                    367:     return(KERN_SUCCESS);
                    368: }
                    369: 
                    370: #else  /* MACH_HOST */
                    371: 
                    372: kern_return_t
                    373: processor_assign(processor, new_pset, wait)
                    374: processor_t    processor;
                    375: processor_set_t        new_pset;
                    376: boolean_t      wait;
                    377: {
                    378: #ifdef lint
                    379:        processor++; new_pset++; wait++;
                    380: #endif
                    381:        return KERN_FAILURE;
                    382: }
                    383: 
                    384: #endif /* MACH_HOST */
                    385: 
                    386: /*
                    387:  *     processor_shutdown() queues a processor up for shutdown.
                    388:  *     Any assignment in progress is overriden.  It does not synchronize
                    389:  *     with the shutdown (can be called from interrupt level).
                    390:  */
                    391: kern_return_t
                    392: processor_shutdown(processor)
                    393: processor_t    processor;
                    394: {
                    395:     spl_t              s;
                    396: 
                    397:     if (processor == PROCESSOR_NULL)
                    398:        return KERN_INVALID_ARGUMENT;
                    399: 
                    400:     s = splsched();
                    401:     processor_lock(processor);
                    402:     if(processor->state == PROCESSOR_OFF_LINE ||
                    403:        processor->state == PROCESSOR_SHUTDOWN) {
                    404:            /*
                    405:             *  Already shutdown or being shutdown -- nothing to do.
                    406:             */
                    407:            processor_unlock(processor);
                    408:            splx(s);
                    409:            return(KERN_SUCCESS);
                    410:     }
                    411: 
                    412:     processor_request_action(processor, PROCESSOR_SET_NULL);
                    413:     processor_unlock(processor);
                    414:     splx(s);
                    415: 
                    416:     return(KERN_SUCCESS);
                    417: }
                    418: 
                    419: /*
                    420:  *     action_thread() shuts down processors or changes their assignment.
                    421:  */
                    422: void   processor_doaction();   /* forward */
                    423: 
                    424: void action_thread_continue()
                    425: {
                    426:        register processor_t    processor;
                    427:        register spl_t          s;
                    428: 
                    429:        while (TRUE) {
                    430:                s = splsched();
                    431:                simple_lock(&action_lock);
                    432:                while ( !queue_empty(&action_queue)) {
                    433:                        processor = (processor_t) queue_first(&action_queue);
                    434:                        queue_remove(&action_queue, processor, processor_t,
                    435:                                     processor_queue);
                    436:                        simple_unlock(&action_lock);
                    437:                        (void) splx(s);
                    438: 
                    439:                        processor_doaction(processor);
                    440: 
                    441:                        s = splsched();
                    442:                        simple_lock(&action_lock);
                    443:                }
                    444: 
                    445:                assert_wait((event_t) &action_queue, FALSE);
                    446:                simple_unlock(&action_lock);
                    447:                (void) splx(s);
                    448:                counter(c_action_thread_block++);
                    449:                thread_block_continue(action_thread_continue);
                    450:        }
                    451: }
                    452: 
                    453: void action_thread()
                    454: {
                    455:        action_thread_continue();
                    456:        /*NOTREACHED*/
                    457: }
                    458: 
                    459: /*
                    460:  *     processor_doaction actually does the shutdown.  The trick here
                    461:  *     is to schedule ourselves onto a cpu and then save our
                    462:  *     context back into the runqs before taking out the cpu.
                    463:  */
                    464: #ifdef __GNUC__
                    465: __volatile__
                    466: #endif
                    467: void   processor_doshutdown(); /* forward */
                    468: 
                    469: void processor_doaction(processor)
                    470: register processor_t   processor;
                    471: {
                    472:        thread_t                        this_thread;
                    473:        spl_t                           s;
                    474:        register processor_set_t        pset;
                    475: #if    MACH_HOST
                    476:        register processor_set_t        new_pset;
                    477:        register thread_t               thread;
                    478:        register thread_t               prev_thread = THREAD_NULL;
                    479:        boolean_t                       have_pset_ref = FALSE;
                    480: #endif /* MACH_HOST */
                    481: 
                    482:        /*
                    483:         *      Get onto the processor to shutdown
                    484:         */
                    485:        this_thread = current_thread();
                    486:        thread_bind(this_thread, processor);
                    487:        thread_block_continue((void (*)()) 0);
                    488: 
                    489:        pset = processor->processor_set;
                    490: #if    MACH_HOST
                    491:        /*
                    492:         *      If this is the last processor in the processor_set,
                    493:         *      stop all the threads first.
                    494:         */
                    495:        pset_lock(pset);
                    496:        if (pset->processor_count == 1) {
                    497:                /*
                    498:                 *      First suspend all of them.
                    499:                 */
                    500:                queue_iterate(&pset->threads, thread, thread_t, pset_threads) {
                    501:                        thread_hold(thread);
                    502:                }
                    503:                pset->empty = TRUE;
                    504:                /*
                    505:                 *      Now actually stop them.  Need a pset reference.
                    506:                 */
                    507:                pset->ref_count++;
                    508:                have_pset_ref = TRUE;
                    509: 
                    510: Restart_thread:
                    511:                prev_thread = THREAD_NULL;
                    512:                queue_iterate(&pset->threads, thread, thread_t, pset_threads) {
                    513:                        thread_reference(thread);
                    514:                        pset_unlock(pset);
                    515:                        if (prev_thread != THREAD_NULL)
                    516:                                thread_deallocate(prev_thread);
                    517: 
                    518:                        /*
                    519:                         *      Only wait for threads still in the pset.
                    520:                         */
                    521:                        thread_freeze(thread);
                    522:                        if (thread->processor_set != pset) {
                    523:                                /*
                    524:                                 *      It got away - start over.
                    525:                                 */
                    526:                                thread_unfreeze(thread);
                    527:                                thread_deallocate(thread);
                    528:                                pset_lock(pset);
                    529:                                goto Restart_thread;
                    530:                        }
                    531: 
                    532:                        (void) thread_dowait(thread, TRUE);
                    533:                        prev_thread = thread;
                    534:                        pset_lock(pset);
                    535:                        thread_unfreeze(prev_thread);
                    536:                }
                    537:        }
                    538:        pset_unlock(pset);
                    539: 
                    540:        /*
                    541:         *      At this point, it is ok to remove the processor from the pset.
                    542:         *      We can use processor->processor_set_next without locking the
                    543:         *      processor, since it cannot change while processor->state is
                    544:         *      PROCESSOR_ASSIGN or PROCESSOR_SHUTDOWN.
                    545:         */
                    546: 
                    547:        new_pset = processor->processor_set_next;
                    548: 
                    549: Restart_pset:
                    550:        if (new_pset) {
                    551:            /*
                    552:             *  Reassigning processor.
                    553:             */
                    554: 
                    555:            if ((integer_t) pset < (integer_t) new_pset) {
                    556:                pset_lock(pset);
                    557:                pset_lock(new_pset);
                    558:            }
                    559:            else {
                    560:                pset_lock(new_pset);
                    561:                pset_lock(pset);
                    562:            }
                    563:            if (!(new_pset->active)) {
                    564:                pset_unlock(new_pset);
                    565:                pset_unlock(pset);
                    566:                pset_deallocate(new_pset);
                    567:                new_pset = &default_pset;
                    568:                pset_reference(new_pset);
                    569:                goto Restart_pset;
                    570:            }
                    571: 
                    572:            /*
                    573:             *  Handle remove last / assign first race.
                    574:             *  Only happens if there is more than one action thread.
                    575:             */
                    576:            while (new_pset->empty && new_pset->processor_count > 0) {
                    577:                pset_unlock(new_pset);
                    578:                pset_unlock(pset);
                    579:                while (*(volatile boolean_t *)&new_pset->empty &&
                    580:                       *(volatile int *)&new_pset->processor_count > 0)
                    581:                        /* spin */;
                    582:                goto Restart_pset;
                    583:            }
                    584: 
                    585:            /*
                    586:             *  Lock the processor.  new_pset should not have changed.
                    587:             */
                    588:            s = splsched();
                    589:            processor_lock(processor);
                    590:            assert(processor->processor_set_next == new_pset);
                    591: 
                    592:            /*
                    593:             *  Shutdown may have been requested while this assignment
                    594:             *  was in progress.
                    595:             */
                    596:            if (processor->state == PROCESSOR_SHUTDOWN) {
                    597:                processor->processor_set_next = PROCESSOR_SET_NULL;
                    598:                pset_unlock(new_pset);
                    599:                goto shutdown;  /* releases pset reference */
                    600:            }
                    601: 
                    602:            /*
                    603:             *  Do assignment, then wakeup anyone waiting for it.
                    604:             */
                    605:            pset_remove_processor(pset, processor);
                    606:            pset_unlock(pset);
                    607: 
                    608:            pset_add_processor(new_pset, processor);
                    609:            if (new_pset->empty) {
                    610:                /*
                    611:                 *      Set all the threads loose.
                    612:                 *
                    613:                 *      NOTE: this appears to violate the locking
                    614:                 *      order, since the processor lock should
                    615:                 *      be taken AFTER a thread lock.  However,
                    616:                 *      thread_setrun (called by thread_release)
                    617:                 *      only takes the processor lock if the
                    618:                 *      processor is idle.  The processor is
                    619:                 *      not idle here.
                    620:                 */
                    621:                queue_iterate(&new_pset->threads, thread, thread_t,
                    622:                              pset_threads) {
                    623:                    thread_release(thread);
                    624:                }
                    625:                new_pset->empty = FALSE;
                    626:            }
                    627:            processor->processor_set_next = PROCESSOR_SET_NULL;
                    628:            processor->state = PROCESSOR_RUNNING;
                    629:            thread_wakeup((event_t)processor);
                    630:            processor_unlock(processor);
                    631:            splx(s);
                    632:            pset_unlock(new_pset);
                    633: 
                    634:            /*
                    635:             *  Clean up dangling references, and release our binding.
                    636:             */
                    637:            pset_deallocate(new_pset);
                    638:            if (have_pset_ref)
                    639:                pset_deallocate(pset);
                    640:            if (prev_thread != THREAD_NULL)
                    641:                thread_deallocate(prev_thread);
                    642:            thread_bind(this_thread, PROCESSOR_NULL);
                    643: 
                    644:            thread_block_continue((void (*)()) 0);
                    645:            return;
                    646:        }
                    647: 
                    648: #endif /* MACH_HOST */
                    649:        
                    650:        /*
                    651:         *      Do shutdown, make sure we live when processor dies.
                    652:         */
                    653:        if (processor->state != PROCESSOR_SHUTDOWN) {
                    654:                printf("state: %d\n", processor->state);
                    655:                panic("action_thread -- bad processor state");
                    656:        }
                    657: 
                    658:        s = splsched();
                    659:        processor_lock(processor);
                    660: 
                    661:     shutdown:
                    662:        pset_remove_processor(pset, processor);
                    663:        processor_unlock(processor);
                    664:        pset_unlock(pset);
                    665:        splx(s);
                    666: 
                    667:        /*
                    668:         *      Clean up dangling references, and release our binding.
                    669:         */
                    670: #if    MACH_HOST
                    671:        if (new_pset != PROCESSOR_SET_NULL)
                    672:                pset_deallocate(new_pset);
                    673:        if (have_pset_ref)
                    674:                pset_deallocate(pset);
                    675:        if (prev_thread != THREAD_NULL)
                    676:                thread_deallocate(prev_thread);
                    677: #endif /* MACH_HOST */
                    678: 
                    679:        thread_bind(this_thread, PROCESSOR_NULL);
                    680:        switch_to_shutdown_context(this_thread,
                    681:                                   processor_doshutdown,
                    682:                                   processor);
                    683: 
                    684: }
                    685: 
                    686: /*
                    687:  *     Actually do the processor shutdown.  This is called at splsched,
                    688:  *     running on the processor's shutdown stack.
                    689:  */
                    690: 
                    691: #ifdef __GNUC__
                    692: extern __volatile__ void halt_cpu();
                    693: #endif
                    694: 
                    695: #ifdef __GNUC__
                    696: __volatile__
                    697: #endif
                    698: void processor_doshutdown(processor)
                    699: register processor_t   processor;
                    700: {
                    701:        register int            cpu = processor->slot_num;
                    702: 
                    703:        timer_switch(&kernel_timer[cpu]);
                    704: 
                    705:        /*
                    706:         *      Ok, now exit this cpu.
                    707:         */
                    708:        PMAP_DEACTIVATE_KERNEL(cpu);
                    709:        active_threads[cpu] = THREAD_NULL;
                    710:        cpu_down(cpu);
                    711:        thread_wakeup((event_t)processor);
                    712:        halt_cpu();
                    713:        /*
                    714:         *      The action thread returns to life after the call to
                    715:         *      switch_to_shutdown_context above, on some other cpu.
                    716:         */
                    717: 
                    718:        /*NOTREACHED*/
                    719: }
                    720: #else  /* NCPUS > 1 */
                    721: 
                    722: kern_return_t
                    723: processor_assign(processor, new_pset, wait)
                    724: processor_t    processor;
                    725: processor_set_t        new_pset;
                    726: boolean_t      wait;
                    727: {
                    728: #ifdef lint
                    729:        processor++; new_pset++; wait++;
                    730: #endif lint
                    731:        return(KERN_FAILURE);
                    732: }
                    733: 
                    734: #endif /* NCPUS > 1 */

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