Annotation of kernel/vm/vm_kern.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) 1991,1990,1989,1988,1987 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:   vm/vm_kern.c
                     52:  *     Author: Avadis Tevanian, Jr., Michael Wayne Young
                     53:  *     Date:   1985
                     54:  *
                     55:  *     Kernel memory management.
                     56:  */
                     57: 
                     58: #include <mach/kern_return.h>
                     59: #include <mach/vm_param.h>
                     60: #include <kern/assert.h>
                     61: #include <kern/lock.h>
                     62: #include <kern/thread.h>
                     63: #include <vm/vm_fault.h>
                     64: #include <vm/vm_kern.h>
                     65: #include <vm/vm_map.h>
                     66: #include <vm/vm_object.h>
                     67: #include <vm/vm_page.h>
                     68: #include <vm/vm_pageout.h>
                     69: 
                     70: vm_map_t       kernel_map;
                     71: 
                     72: static boolean_t kmem_alloc_pages(
                     73:                        vm_object_t     object,
                     74:                        vm_offset_t     offset,
                     75:                        vm_offset_t     start,
                     76:                        vm_offset_t     end,
                     77:                        boolean_t       canblock);
                     78: void kmem_remap_pages(
                     79:                        vm_object_t     object,
                     80:                        vm_offset_t     offset,
                     81:                        vm_offset_t     start,
                     82:                        vm_offset_t     end);
                     83: 
                     84: /*
                     85:  *     Allocate wired-down memory in the kernel's address map
                     86:  *     or a submap.
                     87:  */
                     88: static
                     89: kern_return_t
                     90: kmem_alloc_prim(
                     91:        vm_map_t                map,
                     92:        vm_offset_t             *addrp,
                     93:        vm_size_t               size,
                     94:        vm_object_t             object,
                     95:        boolean_t               canblock
                     96: )
                     97: {
                     98:        kern_return_t           result;
                     99:        vm_offset_t             addr, offset = 0;
                    100:        vm_map_entry_t          entry;
                    101: 
                    102:        size = round_page(size);
                    103:        vm_map_lock(map);
                    104:        if (result = vm_map_find_entry(map, &addr, size, (vm_offset_t) 0,
                    105:                                (object != kernel_object)?
                    106:                                        VM_OBJECT_NULL : object, &entry)
                    107:                                                != KERN_SUCCESS) {
                    108:                vm_map_unlock(map);
                    109:                if (object != kernel_object)
                    110:                        vm_object_deallocate(object);
                    111:                return (result);
                    112:        }
                    113: 
                    114:        if (object == kernel_object)
                    115:                offset = addr - VM_MIN_KERNEL_ADDRESS;
                    116: 
                    117:        if (entry->object.vm_object == VM_OBJECT_NULL) {
                    118:                if (object == kernel_object)
                    119:                        vm_object_reference(kernel_object);
                    120: 
                    121:                entry->object.vm_object = object;
                    122:                entry->offset = offset;
                    123:        }
                    124: 
                    125:        /*
                    126:         *      Since we have not given out this address yet,
                    127:         *      it is safe to unlock the map.
                    128:         */
                    129:        vm_map_unlock(map);
                    130: 
                    131:        if (!kmem_alloc_pages(object, offset, addr, addr + size, canblock)) {
                    132:                vm_map_remove(map, addr, addr + size);
                    133: 
                    134:                return (KERN_RESOURCE_SHORTAGE);
                    135:        }
                    136: 
                    137:        *addrp = addr;
                    138: 
                    139:        return (KERN_SUCCESS);
                    140: }
                    141: 
                    142: kern_return_t
                    143: kmem_alloc(
                    144:        vm_map_t        map,
                    145:        vm_offset_t     *addrp,
                    146:        vm_size_t       size)
                    147: {
                    148:        vm_object_t     object = vm_object_allocate(size);
                    149: 
                    150:        return kmem_alloc_prim(map, addrp, size, object, TRUE);
                    151: }
                    152: 
                    153: /*
                    154:  *     kmem_realloc:
                    155:  *
                    156:  *     Reallocate wired-down memory in the kernel's address map
                    157:  *     or a submap.
                    158:  *     This can only be used on regions allocated with kmem_alloc.
                    159:  *
                    160:  *     If successful, the pages in the old region are mapped twice.
                    161:  *     The old region is unchanged.  Use kmem_free to get rid of it.
                    162:  */
                    163: kern_return_t kmem_realloc(
                    164:        vm_map_t        map,
                    165:        vm_offset_t     oldaddr,
                    166:        vm_size_t       oldsize,
                    167:        vm_offset_t     *newaddrp,
                    168:        vm_size_t       newsize)
                    169: {
                    170:        vm_offset_t oldmin, oldmax;
                    171:        vm_offset_t newaddr;
                    172:        vm_object_t object;
                    173:        vm_map_entry_t oldentry, newentry;
                    174:        kern_return_t kr;
                    175: 
                    176:        oldmin = trunc_page(oldaddr);
                    177:        oldmax = round_page(oldaddr + oldsize);
                    178:        oldsize = oldmax - oldmin;
                    179:        newsize = round_page(newsize);
                    180: 
                    181:        /*
                    182:         *      Find space for the new region.
                    183:         */
                    184: 
                    185:        vm_map_lock(map);
                    186:        kr = vm_map_find_entry(map, &newaddr, newsize, (vm_offset_t) 0,
                    187:                                VM_OBJECT_NULL, &newentry);
                    188:        if (kr != KERN_SUCCESS) {
                    189:                vm_map_unlock(map);
                    190:                return kr;
                    191:        }
                    192: 
                    193:        /*
                    194:         *      Find the VM object backing the old region.
                    195:         */
                    196: 
                    197:        if (!vm_map_lookup_entry(map, oldmin, &oldentry))
                    198:                panic("kmem_realloc");
                    199:        object = oldentry->object.vm_object;
                    200: 
                    201:        /*
                    202:         *      Increase the size of the object and
                    203:         *      fill in the new region.
                    204:         */
                    205: 
                    206:        vm_object_reference(object);
                    207:        vm_object_lock(object);
                    208:        if (object->size != oldsize)
                    209:                panic("kmem_realloc");
                    210:        object->size = newsize;
                    211:        vm_object_unlock(object);
                    212: 
                    213:        newentry->object.vm_object = object;
                    214:        newentry->offset = 0;
                    215: 
                    216:        /*
                    217:         *      Since we have not given out this address yet,
                    218:         *      it is safe to unlock the map.  We are trusting
                    219:         *      that nobody will play with either region.
                    220:         */
                    221: 
                    222:        vm_map_unlock(map);
                    223: 
                    224:        /*
                    225:         *      Remap the pages in the old region and
                    226:         *      allocate more pages for the new region.
                    227:         */
                    228: 
                    229:        kmem_remap_pages(object, 0,
                    230:                         newaddr, newaddr + oldsize);
                    231:        (void) kmem_alloc_pages(object, oldsize,
                    232:                                newaddr + oldsize, newaddr + newsize, TRUE);
                    233: 
                    234:        *newaddrp = newaddr;
                    235:        return KERN_SUCCESS;
                    236: }
                    237: 
                    238: kern_return_t
                    239: kmem_alloc_wired(
                    240:        vm_map_t        map,
                    241:        vm_offset_t     *addrp,
                    242:        vm_size_t       size)
                    243: {
                    244:        return kmem_alloc_prim(map, addrp, size, kernel_object, TRUE);
                    245: }
                    246: 
                    247: 
                    248: /*
                    249:  *     kmem_alloc_pageable:
                    250:  *
                    251:  *     Allocate pageable memory to the kernel's address map.
                    252:  *     map must be "kernel_map" below.
                    253:  */
                    254: 
                    255: kern_return_t
                    256: kmem_alloc_pageable(
                    257:        vm_map_t        map,
                    258:        vm_offset_t     *addrp,
                    259:        vm_size_t       size)
                    260: {
                    261:        vm_offset_t addr;
                    262:        kern_return_t kr;
                    263: 
                    264:        addr = vm_map_min(map);
                    265:        kr = vm_map_find(map, VM_OBJECT_NULL, (vm_offset_t) 0,
                    266:                                &addr, round_page(size), TRUE);
                    267:        if (kr != KERN_SUCCESS)
                    268:                return kr;
                    269:                
                    270:        *addrp = addr;
                    271:        return KERN_SUCCESS;
                    272: }
                    273: 
                    274: /*
                    275:  *     kmem_free:
                    276:  *
                    277:  *     Release a region of kernel virtual memory allocated
                    278:  *     with kmem_alloc, and return the physical pages
                    279:  *     associated with that region.
                    280:  */
                    281: void
                    282: kmem_free(
                    283:        vm_map_t        map,
                    284:        vm_offset_t     addr,
                    285:        vm_size_t       size)
                    286: {
                    287:        (void) vm_map_remove(map, trunc_page(addr), round_page(addr + size));
                    288: }
                    289: 
                    290: /*
                    291:  *     Allocate new wired pages in an object.
                    292:  *     The object is assumed to be mapped into the kernel map or
                    293:  *     a submap.
                    294:  */
                    295: static
                    296: boolean_t
                    297: kmem_alloc_pages(
                    298:        vm_object_t             object,
                    299:        vm_offset_t             offset,
                    300:        vm_offset_t             start,
                    301:        vm_offset_t             end,
                    302:        boolean_t               canblock)
                    303: {
                    304:        /*
                    305:         *      Mark the pmap region as not pageable.
                    306:         */
                    307:        pmap_pageable(kernel_pmap, start, end, FALSE);
                    308: 
                    309:        while (start < end) {
                    310:            register vm_page_t  mem;
                    311: 
                    312:            vm_object_lock(object);
                    313: 
                    314:            /*
                    315:             *  Allocate a page
                    316:             */
                    317:            while ((mem = vm_page_alloc(object, offset)) == VM_PAGE_NULL) {
                    318:                vm_object_unlock(object);
                    319:                if (!canblock)
                    320:                        return FALSE;
                    321:                VM_WAIT;
                    322:                vm_object_lock(object);
                    323:            }
                    324: 
                    325:            /*
                    326:             *  Wire it down
                    327:             */
                    328:            vm_page_lock_queues();
                    329:            vm_page_wire(mem);
                    330:            vm_page_unlock_queues();
                    331:            vm_object_unlock(object);
                    332: 
                    333:            vm_page_zero_fill(mem);
                    334: 
                    335:            /*
                    336:             *  Enter it in the kernel pmap
                    337:             */
                    338:            PMAP_ENTER(kernel_pmap, start, mem,
                    339:                       VM_PROT_DEFAULT, TRUE);
                    340: 
                    341:            vm_object_lock(object);
                    342:            PAGE_WAKEUP(mem);
                    343:            vm_object_unlock(object);
                    344: 
                    345:            start += PAGE_SIZE;
                    346:            offset += PAGE_SIZE;
                    347:        }
                    348: 
                    349:        return TRUE;
                    350: }
                    351: 
                    352: /*
                    353:  *     Remap wired pages in an object into a new region.
                    354:  *     The object is assumed to be mapped into the kernel map or
                    355:  *     a submap.
                    356:  */
                    357: void
                    358: kmem_remap_pages(
                    359:        vm_object_t     object,
                    360:        vm_offset_t     offset,
                    361:        vm_offset_t     start,
                    362:        vm_offset_t     end)
                    363: {
                    364:        /*
                    365:         *      Mark the pmap region as not pageable.
                    366:         */
                    367:        pmap_pageable(kernel_pmap, start, end, FALSE);
                    368: 
                    369:        while (start < end) {
                    370:            register vm_page_t  mem;
                    371: 
                    372:            vm_object_lock(object);
                    373: 
                    374:            /*
                    375:             *  Find a page
                    376:             */
                    377:            if ((mem = vm_page_lookup(object, offset)) == VM_PAGE_NULL)
                    378:                panic("kmem_remap_pages");
                    379: 
                    380:            /*
                    381:             *  Wire it down (again)
                    382:             */
                    383:            vm_page_lock_queues();
                    384:            vm_page_wire(mem);
                    385:            vm_page_unlock_queues();
                    386:            vm_object_unlock(object);
                    387: 
                    388:            /*
                    389:             *  Enter it in the kernel pmap.  The page isn't busy,
                    390:             *  but this shouldn't be a problem because it is wired.
                    391:             */
                    392:            PMAP_ENTER(kernel_pmap, start, mem,
                    393:                       VM_PROT_DEFAULT, TRUE);
                    394: 
                    395:            start += PAGE_SIZE;
                    396:            offset += PAGE_SIZE;
                    397:        }
                    398: }
                    399: 
                    400: /*
                    401:  *     kmem_suballoc:
                    402:  *
                    403:  *     Allocates a map to manage a subrange
                    404:  *     of the kernel virtual address space.
                    405:  *
                    406:  *     Arguments are as follows:
                    407:  *
                    408:  *     parent          Map to take range from
                    409:  *     size            Size of range to find
                    410:  *     min, max        Returned endpoints of map
                    411:  *     pageable        Can the region be paged
                    412:  */
                    413: vm_map_t
                    414: kmem_suballoc(
                    415:        vm_map_t        parent,
                    416:        vm_offset_t     *min,
                    417:        vm_offset_t     *max,
                    418:        vm_size_t       size,
                    419:        boolean_t       pageable)
                    420: {
                    421:        vm_map_t map;
                    422:        vm_offset_t addr;
                    423:        kern_return_t kr;
                    424: 
                    425:        size = round_page(size);
                    426: 
                    427:        /*
                    428:         *      Need reference on submap object because it is internal
                    429:         *      to the vm_system.  vm_object_enter will never be called
                    430:         *      on it (usual source of reference for vm_map_enter).
                    431:         */
                    432:        vm_object_reference(vm_submap_object);
                    433: 
                    434:        addr = (vm_offset_t) vm_map_min(parent);
                    435:        kr = vm_map_find(parent, vm_submap_object, (vm_offset_t) 0,
                    436:                                &addr, size, TRUE);
                    437:        if (kr != KERN_SUCCESS)
                    438:                panic("kmem_suballoc 1");
                    439: 
                    440:        pmap_reference(vm_map_pmap(parent));
                    441:        map = vm_map_create(vm_map_pmap(parent), addr, addr + size, pageable);
                    442:        if (map == VM_MAP_NULL)
                    443:                panic("kmem_suballoc 2");
                    444: 
                    445:        kr = vm_map_submap(parent, addr, addr + size, map);
                    446:        if (kr != KERN_SUCCESS)
                    447:                panic("kmem_suballoc 3");
                    448: 
                    449:        *min = addr;
                    450:        *max = addr + size;
                    451:        return map;
                    452: }
                    453: 
                    454: /*
                    455:  *     kmem_init:
                    456:  *
                    457:  *     Initialize the kernel's virtual memory map, taking
                    458:  *     into account all memory allocated up to this time.
                    459:  */
                    460: void kmem_init(
                    461:        vm_offset_t     start,
                    462:        vm_offset_t     end)
                    463: {
                    464:        kernel_map = vm_map_create(pmap_kernel(),
                    465:                                VM_MIN_KERNEL_ADDRESS, end,
                    466:                                FALSE);
                    467: 
                    468:        /*
                    469:         *      Reserve virtual memory allocated up to this time.
                    470:         */
                    471: 
                    472:        if (start != VM_MIN_KERNEL_ADDRESS) {
                    473:                vm_offset_t addr = VM_MIN_KERNEL_ADDRESS;
                    474:                (void) vm_map_find(kernel_map, VM_OBJECT_NULL, (vm_offset_t) 0,
                    475:                                   &addr, (start - VM_MIN_KERNEL_ADDRESS),
                    476:                                   FALSE);
                    477:        }
                    478: }
                    479: 
                    480: /*
                    481:  *     Routine:        copyinmap
                    482:  *     Purpose:
                    483:  *             Like copyin, except that fromaddr is an address
                    484:  *             in the specified VM map.  This implementation
                    485:  *             is incomplete; it handles the current user map
                    486:  *             and the kernel map/submaps.
                    487:  */
                    488: 
                    489: int copyinmap(map, fromaddr, toaddr, length)
                    490:        vm_map_t map;
                    491:        char *fromaddr, *toaddr;
                    492:        int length;
                    493: {
                    494:        if (vm_map_pmap(map) == kernel_pmap) {
                    495:                /* assume a correct copy */
                    496:                bcopy(fromaddr, toaddr, length);
                    497:                return 0;
                    498:        }
                    499: 
                    500:        if (current_map() == map)
                    501:                return copyin( fromaddr, toaddr, length);
                    502: 
                    503:        return 1;
                    504: }
                    505: 
                    506: /*
                    507:  *     Routine:        copyoutmap
                    508:  *     Purpose:
                    509:  *             Like copyout, except that toaddr is an address
                    510:  *             in the specified VM map.  This implementation
                    511:  *             is incomplete; it handles the current user map
                    512:  *             and the kernel map/submaps.
                    513:  */
                    514: 
                    515: int copyoutmap(map, fromaddr, toaddr, length)
                    516:        vm_map_t map;
                    517:        char *fromaddr, *toaddr;
                    518:        int length;
                    519: {
                    520:        if (vm_map_pmap(map) == kernel_pmap) {
                    521:                /* assume a correct copy */
                    522:                bcopy(fromaddr, toaddr, length);
                    523:                return 0;
                    524:        }
                    525: 
                    526:        if (current_map() == map)
                    527:                return copyout(fromaddr, toaddr, length);
                    528: 
                    529:        return 1;
                    530: }
                    531: 
                    532: /*
                    533:  *     Allocate wired-down memory in the kernel's address map
                    534:  *     or a submap.
                    535:  */
                    536: kern_return_t
                    537: kmem_alloc_zone(map, addrp, size, canblock)
                    538:        vm_map_t                map;
                    539:        vm_offset_t             *addrp;
                    540:        register vm_size_t      size;
                    541:        boolean_t               canblock;
                    542: {
                    543:        return kmem_alloc_prim(map, addrp, size, kernel_object, canblock);
                    544: }
                    545: 
                    546: /*
                    547:  *     Special hack for allocation in mb_map.  Can never wait for pages
                    548:  *     (or anything else) in mb_map.
                    549:  */
                    550: vm_offset_t kmem_mb_alloc(map, size)
                    551:        register vm_map_t       map;
                    552:        vm_size_t               size;
                    553: {
                    554:        vm_object_t             object;
                    555:        register vm_map_entry_t entry;
                    556:        vm_offset_t             addr;
                    557:        register int            npgs;
                    558:        register vm_page_t      m;
                    559:        register vm_offset_t    vaddr, offset, cur_off;
                    560: 
                    561:        /*
                    562:         *      Only do this on the mb_map.
                    563:         */
                    564:        if (map != mb_map)
                    565:                panic("You fool!");
                    566: 
                    567:        size = round_page(size);
                    568: 
                    569:        vm_map_lock(map);
                    570:        entry = vm_map_first_entry(map);
                    571:        if (entry == vm_map_to_entry(map)) {
                    572:                /*
                    573:                 *      Map is empty.  Do things normally the first time...
                    574:                 *      this will allocate the entry and the object to use.
                    575:                 */
                    576:                vm_map_unlock(map);
                    577:                addr = vm_map_min(map);
                    578:                if (vm_map_find(map, VM_OBJECT_NULL, (vm_offset_t) 0,
                    579:                        &addr, size, TRUE) != KERN_SUCCESS)
                    580:                        return (0);
                    581:                (void) vm_map_pageable(map, addr, addr + size, FALSE);
                    582: 
                    583:                return(addr);
                    584:        }
                    585:        /*
                    586:         *      Map already has an entry.  We must be extending it.
                    587:         */
                    588:        if (!(entry == vm_map_last_entry(map) &&
                    589:              entry->is_a_map == FALSE &&
                    590:              entry->vme_start == vm_map_min(map) &&
                    591:              entry->max_protection == VM_PROT_ALL &&
                    592:              entry->protection == VM_PROT_DEFAULT &&
                    593:              entry->inheritance == VM_INHERIT_DEFAULT &&
                    594:              entry->wired_count != 0)) {
                    595:                /*
                    596:                 *      Someone's not playing by the rules...
                    597:                 */
                    598:                panic("mb_map abused even more than usual");
                    599:        }
                    600: 
                    601:        /*
                    602:         *      Make sure there's enough room in map to extend entry.
                    603:         */
                    604: 
                    605:        if (vm_map_max(map) - size < entry->vme_end) {
                    606:                vm_map_unlock(map);
                    607:                return(0);
                    608:        }
                    609: 
                    610:        /*
                    611:         *      extend the entry
                    612:         */
                    613:        object = entry->object.vm_object;
                    614:        offset = (entry->vme_end - entry->vme_start) + entry->offset;
                    615:        addr   = entry->vme_end;
                    616:        entry->vme_end += size;
                    617: 
                    618:        /*
                    619:         *      Since we may not have enough memory, and we may not
                    620:         *      block, we first allocate all the memory up front, pulling
                    621:         *      it off the active queue to prevent pageout.  We then can
                    622:         *      either enter the pages, or free whatever we tried to get.
                    623:         */
                    624: 
                    625:        vm_object_lock(object);
                    626:        cur_off = offset;
                    627:        npgs = atop(size);
                    628:        while (npgs) {
                    629:                m = vm_page_alloc_sequential(object, cur_off, FALSE);
                    630:                if (m == VM_PAGE_NULL) {
                    631:                        /*
                    632:                         *      Not enough pages, and we can't
                    633:                         *      wait, so free everything up.
                    634:                         */
                    635:                        while (cur_off > offset) {
                    636:                                cur_off -= PAGE_SIZE;
                    637:                                m = vm_page_lookup(object, cur_off);
                    638:                                /*
                    639:                                 *      Don't have to lock the queues here
                    640:                                 *      because we know that the pages are
                    641:                                 *      not on any queues.
                    642:                                 */
                    643:                                vm_page_free(m);
                    644:                        }
                    645:                        vm_object_unlock(object);
                    646: 
                    647:                        /*
                    648:                         *      Shrink the map entry back to its old size.
                    649:                         */
                    650:                        entry->vme_end -= size;
                    651:                        vm_map_unlock(map);
                    652:                        return(0);
                    653:                }
                    654: 
                    655:                /*
                    656:                 *      We want zero-filled memory
                    657:                 */
                    658: 
                    659:                vm_page_zero_fill(m);
                    660: 
                    661:                /*
                    662:                 *      Since no other process can see these pages, we don't
                    663:                 *      have to bother with the busy bit.
                    664:                 */
                    665: 
                    666:                m->busy = FALSE;
                    667: 
                    668:                npgs--;
                    669:                cur_off += PAGE_SIZE;
                    670:        }
                    671: 
                    672:        vm_object_unlock(object);
                    673: 
                    674:        /*
                    675:         *      Map entry is already marked non-pageable.
                    676:         *      Loop thru pages, entering them in the pmap.
                    677:         *      (We can't add them to the wired count without
                    678:         *      wrapping the vm_page_queue_lock in splimp...)
                    679:         */
                    680:        vaddr = addr;
                    681:        cur_off = offset;
                    682:        while (vaddr < entry->vme_end) {
                    683:                vm_object_lock(object);
                    684:                m = vm_page_lookup(object, cur_off);
                    685:                vm_page_wire(m);
                    686:                vm_object_unlock(object);
                    687:                pmap_enter(map->pmap, vaddr, VM_PAGE_TO_PHYS(m),
                    688:                        entry->protection, TRUE);
                    689:                vaddr += PAGE_SIZE;
                    690:                cur_off += PAGE_SIZE;
                    691:        }
                    692:        vm_map_unlock(map);
                    693: 
                    694:        return(addr);
                    695: }
                    696: 
                    697: /*
                    698:  *     kmem_alloc_wait
                    699:  *
                    700:  *     Allocates pageable memory from a sub-map of the kernel.  If the submap
                    701:  *     has no room, the caller sleeps waiting for more memory in the submap.
                    702:  *
                    703:  */
                    704: vm_offset_t kmem_alloc_wait(map, size)
                    705:        vm_map_t        map;
                    706:        vm_size_t       size;
                    707: {
                    708:        vm_offset_t     addr;
                    709:        kern_return_t   result;
                    710: 
                    711:        size = round_page(size);
                    712: 
                    713:        do {
                    714:                /*
                    715:                 *      To make this work for more than one map,
                    716:                 *      use the map's lock to lock out sleepers/wakers.
                    717:                 *      Unfortunately, vm_map_find also grabs the map lock.
                    718:                 */
                    719:                vm_map_lock(map);
                    720:                lock_set_recursive(&map->lock);
                    721: 
                    722:                addr = vm_map_min(map);
                    723:                result = vm_map_find(map, VM_OBJECT_NULL, (vm_offset_t) 0,
                    724:                                &addr, size, TRUE);
                    725: 
                    726:                lock_clear_recursive(&map->lock);
                    727:                if (result != KERN_SUCCESS) {
                    728: 
                    729:                        if ( (vm_map_max(map) - vm_map_min(map)) < size ) {
                    730:                                vm_map_unlock(map);
                    731:                                return(0);
                    732:                        }
                    733: 
                    734:                        assert_wait(map, TRUE);
                    735:                        vm_map_unlock(map);
                    736:                        thread_block();
                    737:                }
                    738:                else {
                    739:                        vm_map_unlock(map);
                    740:                }
                    741: 
                    742:        } while (result != KERN_SUCCESS);
                    743: 
                    744:        return(addr);
                    745: }
                    746: 
                    747: /*
                    748:  *     kmem_free_wakeup
                    749:  *
                    750:  *     Returns memory to a submap of the kernel, and wakes up any threads
                    751:  *     waiting for memory in that map.
                    752:  */
                    753: void   kmem_free_wakeup(map, addr, size)
                    754:        vm_map_t        map;
                    755:        vm_offset_t     addr;
                    756:        vm_size_t       size;
                    757: {
                    758:        vm_map_lock(map);
                    759:        (void) vm_map_delete(map, trunc_page(addr), round_page(addr + size));
                    760:        thread_wakeup(map);
                    761:        vm_map_unlock(map);
                    762: }

unix.superglobalmegacorp.com

This archive runs on limited infrastructure. Preserving old code on modern bandwidth. Automated agents are requested to crawl responsibly.