Home | History | Annotate | Line # | Download | only in arm32
pmap.c revision 1.164.12.10
      1  1.164.12.10      matt /*	pmap.c,v 1.164.12.9 2008/01/09 01:45:12 matt Exp	*/
      2         1.12     chris 
      3         1.12     chris /*
      4        1.134   thorpej  * Copyright 2003 Wasabi Systems, Inc.
      5        1.134   thorpej  * All rights reserved.
      6        1.134   thorpej  *
      7        1.134   thorpej  * Written by Steve C. Woodford for Wasabi Systems, Inc.
      8        1.134   thorpej  *
      9        1.134   thorpej  * Redistribution and use in source and binary forms, with or without
     10        1.134   thorpej  * modification, are permitted provided that the following conditions
     11        1.134   thorpej  * are met:
     12        1.134   thorpej  * 1. Redistributions of source code must retain the above copyright
     13        1.134   thorpej  *    notice, this list of conditions and the following disclaimer.
     14        1.134   thorpej  * 2. Redistributions in binary form must reproduce the above copyright
     15        1.134   thorpej  *    notice, this list of conditions and the following disclaimer in the
     16        1.134   thorpej  *    documentation and/or other materials provided with the distribution.
     17        1.134   thorpej  * 3. All advertising materials mentioning features or use of this software
     18        1.134   thorpej  *    must display the following acknowledgement:
     19        1.134   thorpej  *      This product includes software developed for the NetBSD Project by
     20        1.134   thorpej  *      Wasabi Systems, Inc.
     21        1.134   thorpej  * 4. The name of Wasabi Systems, Inc. may not be used to endorse
     22        1.134   thorpej  *    or promote products derived from this software without specific prior
     23        1.134   thorpej  *    written permission.
     24        1.134   thorpej  *
     25        1.134   thorpej  * THIS SOFTWARE IS PROVIDED BY WASABI SYSTEMS, INC. ``AS IS'' AND
     26        1.134   thorpej  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
     27        1.134   thorpej  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
     28        1.134   thorpej  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL WASABI SYSTEMS, INC
     29        1.134   thorpej  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
     30        1.134   thorpej  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
     31        1.134   thorpej  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
     32        1.134   thorpej  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
     33        1.134   thorpej  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
     34        1.134   thorpej  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
     35        1.134   thorpej  * POSSIBILITY OF SUCH DAMAGE.
     36        1.134   thorpej  */
     37        1.134   thorpej 
     38        1.134   thorpej /*
     39        1.134   thorpej  * Copyright (c) 2002-2003 Wasabi Systems, Inc.
     40         1.12     chris  * Copyright (c) 2001 Richard Earnshaw
     41        1.119     chris  * Copyright (c) 2001-2002 Christopher Gilbert
     42         1.12     chris  * All rights reserved.
     43         1.12     chris  *
     44         1.12     chris  * 1. Redistributions of source code must retain the above copyright
     45         1.12     chris  *    notice, this list of conditions and the following disclaimer.
     46         1.12     chris  * 2. Redistributions in binary form must reproduce the above copyright
     47         1.12     chris  *    notice, this list of conditions and the following disclaimer in the
     48         1.12     chris  *    documentation and/or other materials provided with the distribution.
     49         1.12     chris  * 3. The name of the company nor the name of the author may be used to
     50         1.12     chris  *    endorse or promote products derived from this software without specific
     51         1.12     chris  *    prior written permission.
     52         1.12     chris  *
     53         1.12     chris  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED
     54         1.12     chris  * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
     55         1.12     chris  * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
     56         1.12     chris  * IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT,
     57         1.12     chris  * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
     58         1.12     chris  * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
     59         1.12     chris  * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
     60         1.12     chris  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
     61         1.12     chris  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
     62         1.12     chris  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
     63         1.12     chris  * SUCH DAMAGE.
     64         1.12     chris  */
     65          1.1      matt 
     66          1.1      matt /*-
     67          1.1      matt  * Copyright (c) 1999 The NetBSD Foundation, Inc.
     68          1.1      matt  * All rights reserved.
     69          1.1      matt  *
     70          1.1      matt  * This code is derived from software contributed to The NetBSD Foundation
     71          1.1      matt  * by Charles M. Hannum.
     72          1.1      matt  *
     73          1.1      matt  * Redistribution and use in source and binary forms, with or without
     74          1.1      matt  * modification, are permitted provided that the following conditions
     75          1.1      matt  * are met:
     76          1.1      matt  * 1. Redistributions of source code must retain the above copyright
     77          1.1      matt  *    notice, this list of conditions and the following disclaimer.
     78          1.1      matt  * 2. Redistributions in binary form must reproduce the above copyright
     79          1.1      matt  *    notice, this list of conditions and the following disclaimer in the
     80          1.1      matt  *    documentation and/or other materials provided with the distribution.
     81          1.1      matt  * 3. All advertising materials mentioning features or use of this software
     82          1.1      matt  *    must display the following acknowledgement:
     83          1.1      matt  *        This product includes software developed by the NetBSD
     84          1.1      matt  *        Foundation, Inc. and its contributors.
     85          1.1      matt  * 4. Neither the name of The NetBSD Foundation nor the names of its
     86          1.1      matt  *    contributors may be used to endorse or promote products derived
     87          1.1      matt  *    from this software without specific prior written permission.
     88          1.1      matt  *
     89          1.1      matt  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
     90          1.1      matt  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
     91          1.1      matt  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
     92          1.1      matt  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
     93          1.1      matt  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
     94          1.1      matt  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
     95          1.1      matt  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
     96          1.1      matt  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
     97          1.1      matt  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
     98          1.1      matt  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
     99          1.1      matt  * POSSIBILITY OF SUCH DAMAGE.
    100          1.1      matt  */
    101          1.1      matt 
    102          1.1      matt /*
    103          1.1      matt  * Copyright (c) 1994-1998 Mark Brinicombe.
    104          1.1      matt  * Copyright (c) 1994 Brini.
    105          1.1      matt  * All rights reserved.
    106          1.1      matt  *
    107          1.1      matt  * This code is derived from software written for Brini by Mark Brinicombe
    108          1.1      matt  *
    109          1.1      matt  * Redistribution and use in source and binary forms, with or without
    110          1.1      matt  * modification, are permitted provided that the following conditions
    111          1.1      matt  * are met:
    112          1.1      matt  * 1. Redistributions of source code must retain the above copyright
    113          1.1      matt  *    notice, this list of conditions and the following disclaimer.
    114          1.1      matt  * 2. Redistributions in binary form must reproduce the above copyright
    115          1.1      matt  *    notice, this list of conditions and the following disclaimer in the
    116          1.1      matt  *    documentation and/or other materials provided with the distribution.
    117          1.1      matt  * 3. All advertising materials mentioning features or use of this software
    118          1.1      matt  *    must display the following acknowledgement:
    119          1.1      matt  *	This product includes software developed by Mark Brinicombe.
    120          1.1      matt  * 4. The name of the author may not be used to endorse or promote products
    121          1.1      matt  *    derived from this software without specific prior written permission.
    122          1.1      matt  *
    123          1.1      matt  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
    124          1.1      matt  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
    125          1.1      matt  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
    126          1.1      matt  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
    127          1.1      matt  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
    128          1.1      matt  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
    129          1.1      matt  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
    130          1.1      matt  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
    131          1.1      matt  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
    132          1.1      matt  *
    133          1.1      matt  * RiscBSD kernel project
    134          1.1      matt  *
    135          1.1      matt  * pmap.c
    136          1.1      matt  *
    137          1.1      matt  * Machine dependant vm stuff
    138          1.1      matt  *
    139          1.1      matt  * Created      : 20/09/94
    140          1.1      matt  */
    141          1.1      matt 
    142          1.1      matt /*
    143   1.164.12.2      matt  * armv6 and VIPT cache support by 3am Software Foundry,
    144   1.164.12.2      matt  * Copyright (c) 2007 Danger Inc
    145   1.164.12.2      matt  */
    146   1.164.12.2      matt 
    147   1.164.12.2      matt /*
    148          1.1      matt  * Performance improvements, UVM changes, overhauls and part-rewrites
    149          1.1      matt  * were contributed by Neil A. Carson <neil (at) causality.com>.
    150          1.1      matt  */
    151          1.1      matt 
    152          1.1      matt /*
    153        1.134   thorpej  * Overhauled again to speedup the pmap, use MMU Domains so that L1 tables
    154        1.134   thorpej  * can be shared, and re-work the KVM layout, by Steve Woodford of Wasabi
    155        1.134   thorpej  * Systems, Inc.
    156        1.134   thorpej  *
    157        1.134   thorpej  * There are still a few things outstanding at this time:
    158        1.134   thorpej  *
    159        1.134   thorpej  *   - There are some unresolved issues for MP systems:
    160        1.134   thorpej  *
    161        1.134   thorpej  *     o The L1 metadata needs a lock, or more specifically, some places
    162        1.134   thorpej  *       need to acquire an exclusive lock when modifying L1 translation
    163        1.134   thorpej  *       table entries.
    164        1.134   thorpej  *
    165        1.134   thorpej  *     o When one cpu modifies an L1 entry, and that L1 table is also
    166        1.134   thorpej  *       being used by another cpu, then the latter will need to be told
    167        1.134   thorpej  *       that a tlb invalidation may be necessary. (But only if the old
    168        1.134   thorpej  *       domain number in the L1 entry being over-written is currently
    169        1.134   thorpej  *       the active domain on that cpu). I guess there are lots more tlb
    170        1.134   thorpej  *       shootdown issues too...
    171        1.134   thorpej  *
    172        1.134   thorpej  *     o If the vector_page is at 0x00000000 instead of 0xffff0000, then
    173        1.134   thorpej  *       MP systems will lose big-time because of the MMU domain hack.
    174        1.134   thorpej  *       The only way this can be solved (apart from moving the vector
    175        1.134   thorpej  *       page to 0xffff0000) is to reserve the first 1MB of user address
    176        1.134   thorpej  *       space for kernel use only. This would require re-linking all
    177        1.134   thorpej  *       applications so that the text section starts above this 1MB
    178        1.134   thorpej  *       boundary.
    179        1.134   thorpej  *
    180        1.134   thorpej  *     o Tracking which VM space is resident in the cache/tlb has not yet
    181        1.134   thorpej  *       been implemented for MP systems.
    182        1.134   thorpej  *
    183        1.134   thorpej  *     o Finally, there is a pathological condition where two cpus running
    184        1.134   thorpej  *       two separate processes (not lwps) which happen to share an L1
    185        1.134   thorpej  *       can get into a fight over one or more L1 entries. This will result
    186        1.134   thorpej  *       in a significant slow-down if both processes are in tight loops.
    187          1.1      matt  */
    188          1.1      matt 
    189          1.1      matt /*
    190          1.1      matt  * Special compilation symbols
    191          1.1      matt  * PMAP_DEBUG		- Build in pmap_debug_level code
    192          1.1      matt  */
    193        1.134   thorpej 
    194          1.1      matt /* Include header files */
    195          1.1      matt 
    196        1.134   thorpej #include "opt_cpuoptions.h"
    197          1.1      matt #include "opt_pmap_debug.h"
    198          1.1      matt #include "opt_ddb.h"
    199        1.137    martin #include "opt_lockdebug.h"
    200        1.137    martin #include "opt_multiprocessor.h"
    201          1.1      matt 
    202          1.1      matt #include <sys/param.h>
    203   1.164.12.9      matt #include <sys/types.h>
    204          1.1      matt #include <sys/kernel.h>
    205          1.1      matt #include <sys/systm.h>
    206          1.1      matt #include <sys/proc.h>
    207          1.1      matt #include <sys/malloc.h>
    208          1.1      matt #include <sys/user.h>
    209         1.10     chris #include <sys/pool.h>
    210         1.16     chris #include <sys/cdefs.h>
    211   1.164.12.9      matt #include <sys/cpu.h>
    212         1.16     chris 
    213          1.1      matt #include <uvm/uvm.h>
    214          1.1      matt 
    215          1.1      matt #include <machine/bus.h>
    216          1.1      matt #include <machine/pmap.h>
    217          1.1      matt #include <machine/pcb.h>
    218          1.1      matt #include <machine/param.h>
    219         1.32   thorpej #include <arm/arm32/katelib.h>
    220         1.16     chris 
    221  1.164.12.10      matt __KERNEL_RCSID(0, "pmap.c,v 1.164.12.9 2008/01/09 01:45:12 matt Exp");
    222        1.116  jdolecek 
    223          1.1      matt #ifdef PMAP_DEBUG
    224        1.140      matt 
    225        1.140      matt /* XXX need to get rid of all refs to this */
    226        1.134   thorpej int pmap_debug_level = 0;
    227         1.17     chris 
    228         1.17     chris /*
    229         1.17     chris  * for switching to potentially finer grained debugging
    230         1.17     chris  */
    231         1.17     chris #define	PDB_FOLLOW	0x0001
    232         1.17     chris #define	PDB_INIT	0x0002
    233         1.17     chris #define	PDB_ENTER	0x0004
    234         1.17     chris #define	PDB_REMOVE	0x0008
    235         1.17     chris #define	PDB_CREATE	0x0010
    236         1.17     chris #define	PDB_PTPAGE	0x0020
    237         1.48     chris #define	PDB_GROWKERN	0x0040
    238         1.17     chris #define	PDB_BITS	0x0080
    239         1.17     chris #define	PDB_COLLECT	0x0100
    240         1.17     chris #define	PDB_PROTECT	0x0200
    241         1.48     chris #define	PDB_MAP_L1	0x0400
    242         1.17     chris #define	PDB_BOOTSTRAP	0x1000
    243         1.17     chris #define	PDB_PARANOIA	0x2000
    244         1.17     chris #define	PDB_WIRING	0x4000
    245         1.17     chris #define	PDB_PVDUMP	0x8000
    246        1.134   thorpej #define	PDB_VAC		0x10000
    247        1.134   thorpej #define	PDB_KENTER	0x20000
    248        1.134   thorpej #define	PDB_KREMOVE	0x40000
    249   1.164.12.2      matt #define	PDB_EXEC	0x80000
    250         1.17     chris 
    251        1.134   thorpej int debugmap = 1;
    252        1.134   thorpej int pmapdebug = 0;
    253         1.17     chris #define	NPDEBUG(_lev_,_stat_) \
    254         1.17     chris 	if (pmapdebug & (_lev_)) \
    255         1.17     chris         	((_stat_))
    256         1.17     chris 
    257          1.1      matt #else	/* PMAP_DEBUG */
    258         1.48     chris #define NPDEBUG(_lev_,_stat_) /* Nothing */
    259          1.1      matt #endif	/* PMAP_DEBUG */
    260          1.1      matt 
    261        1.134   thorpej /*
    262        1.134   thorpej  * pmap_kernel() points here
    263        1.134   thorpej  */
    264          1.1      matt struct pmap     kernel_pmap_store;
    265          1.1      matt 
    266         1.10     chris /*
    267        1.134   thorpej  * Which pmap is currently 'live' in the cache
    268        1.134   thorpej  *
    269        1.134   thorpej  * XXXSCW: Fix for SMP ...
    270         1.48     chris  */
    271   1.164.12.3      matt static pmap_t pmap_recent_user;
    272         1.48     chris 
    273        1.134   thorpej /*
    274        1.134   thorpej  * Pool and cache that pmap structures are allocated from.
    275        1.134   thorpej  * We use a cache to avoid clearing the pm_l2[] array (1KB)
    276        1.134   thorpej  * in pmap_create().
    277        1.134   thorpej  */
    278   1.164.12.5      matt static struct pool_cache pmap_cache;
    279        1.134   thorpej static LIST_HEAD(, pmap) pmap_pmaps;
    280         1.48     chris 
    281         1.48     chris /*
    282        1.134   thorpej  * Pool of PV structures
    283         1.10     chris  */
    284        1.134   thorpej static struct pool pmap_pv_pool;
    285        1.134   thorpej static void *pmap_bootstrap_pv_page_alloc(struct pool *, int);
    286        1.134   thorpej static void pmap_bootstrap_pv_page_free(struct pool *, void *);
    287        1.134   thorpej static struct pool_allocator pmap_bootstrap_pv_allocator = {
    288        1.134   thorpej 	pmap_bootstrap_pv_page_alloc, pmap_bootstrap_pv_page_free
    289        1.134   thorpej };
    290         1.10     chris 
    291        1.134   thorpej /*
    292        1.134   thorpej  * Pool and cache of l2_dtable structures.
    293        1.134   thorpej  * We use a cache to avoid clearing the structures when they're
    294        1.134   thorpej  * allocated. (196 bytes)
    295        1.134   thorpej  */
    296        1.134   thorpej static struct pool_cache pmap_l2dtable_cache;
    297        1.134   thorpej static vaddr_t pmap_kernel_l2dtable_kva;
    298         1.10     chris 
    299        1.111   thorpej /*
    300        1.134   thorpej  * Pool and cache of L2 page descriptors.
    301        1.134   thorpej  * We use a cache to avoid clearing the descriptor table
    302        1.134   thorpej  * when they're allocated. (1KB)
    303        1.111   thorpej  */
    304        1.134   thorpej static struct pool_cache pmap_l2ptp_cache;
    305        1.134   thorpej static vaddr_t pmap_kernel_l2ptp_kva;
    306        1.134   thorpej static paddr_t pmap_kernel_l2ptp_phys;
    307        1.111   thorpej 
    308   1.164.12.2      matt #ifdef PMAPCOUNT
    309   1.164.12.2      matt #define	PMAP_EVCNT_INITIALIZER(name) \
    310   1.164.12.2      matt 	EVCNT_INITIALIZER(EVCNT_TYPE_MISC, NULL, "pmap", name)
    311   1.164.12.2      matt 
    312   1.164.12.2      matt #ifdef PMAP_CACHE_VIPT
    313   1.164.12.2      matt static struct evcnt pmap_ev_vac_color_new =
    314   1.164.12.2      matt    PMAP_EVCNT_INITIALIZER("new page color");
    315   1.164.12.2      matt static struct evcnt pmap_ev_vac_color_reuse =
    316   1.164.12.2      matt    PMAP_EVCNT_INITIALIZER("ok first page color");
    317   1.164.12.2      matt static struct evcnt pmap_ev_vac_color_ok =
    318   1.164.12.2      matt    PMAP_EVCNT_INITIALIZER("ok page color");
    319   1.164.12.2      matt static struct evcnt pmap_ev_vac_color_change =
    320   1.164.12.2      matt    PMAP_EVCNT_INITIALIZER("change page color");
    321   1.164.12.2      matt static struct evcnt pmap_ev_vac_color_erase =
    322   1.164.12.2      matt    PMAP_EVCNT_INITIALIZER("erase page color");
    323   1.164.12.2      matt static struct evcnt pmap_ev_vac_color_none =
    324   1.164.12.2      matt    PMAP_EVCNT_INITIALIZER("no page color");
    325   1.164.12.2      matt static struct evcnt pmap_ev_vac_color_restore =
    326   1.164.12.2      matt    PMAP_EVCNT_INITIALIZER("restore page color");
    327   1.164.12.2      matt 
    328   1.164.12.2      matt EVCNT_ATTACH_STATIC(pmap_ev_vac_color_new);
    329   1.164.12.2      matt EVCNT_ATTACH_STATIC(pmap_ev_vac_color_reuse);
    330   1.164.12.2      matt EVCNT_ATTACH_STATIC(pmap_ev_vac_color_ok);
    331   1.164.12.2      matt EVCNT_ATTACH_STATIC(pmap_ev_vac_color_change);
    332   1.164.12.2      matt EVCNT_ATTACH_STATIC(pmap_ev_vac_color_erase);
    333   1.164.12.2      matt EVCNT_ATTACH_STATIC(pmap_ev_vac_color_none);
    334   1.164.12.2      matt EVCNT_ATTACH_STATIC(pmap_ev_vac_color_restore);
    335   1.164.12.2      matt #endif
    336   1.164.12.2      matt 
    337   1.164.12.2      matt static struct evcnt pmap_ev_mappings =
    338   1.164.12.2      matt    PMAP_EVCNT_INITIALIZER("pages mapped");
    339   1.164.12.2      matt static struct evcnt pmap_ev_unmappings =
    340   1.164.12.2      matt    PMAP_EVCNT_INITIALIZER("pages unmapped");
    341   1.164.12.2      matt static struct evcnt pmap_ev_remappings =
    342   1.164.12.2      matt    PMAP_EVCNT_INITIALIZER("pages remapped");
    343   1.164.12.2      matt 
    344   1.164.12.2      matt EVCNT_ATTACH_STATIC(pmap_ev_mappings);
    345   1.164.12.2      matt EVCNT_ATTACH_STATIC(pmap_ev_unmappings);
    346   1.164.12.2      matt EVCNT_ATTACH_STATIC(pmap_ev_remappings);
    347   1.164.12.2      matt 
    348   1.164.12.2      matt static struct evcnt pmap_ev_kernel_mappings =
    349   1.164.12.2      matt    PMAP_EVCNT_INITIALIZER("kernel pages mapped");
    350   1.164.12.2      matt static struct evcnt pmap_ev_kernel_unmappings =
    351   1.164.12.2      matt    PMAP_EVCNT_INITIALIZER("kernel pages unmapped");
    352   1.164.12.2      matt static struct evcnt pmap_ev_kernel_remappings =
    353   1.164.12.2      matt    PMAP_EVCNT_INITIALIZER("kernel pages remapped");
    354   1.164.12.2      matt 
    355   1.164.12.2      matt EVCNT_ATTACH_STATIC(pmap_ev_kernel_mappings);
    356   1.164.12.2      matt EVCNT_ATTACH_STATIC(pmap_ev_kernel_unmappings);
    357   1.164.12.2      matt EVCNT_ATTACH_STATIC(pmap_ev_kernel_remappings);
    358   1.164.12.2      matt 
    359   1.164.12.2      matt static struct evcnt pmap_ev_kenter_mappings =
    360   1.164.12.2      matt    PMAP_EVCNT_INITIALIZER("kenter pages mapped");
    361   1.164.12.2      matt static struct evcnt pmap_ev_kenter_unmappings =
    362   1.164.12.2      matt    PMAP_EVCNT_INITIALIZER("kenter pages unmapped");
    363   1.164.12.2      matt static struct evcnt pmap_ev_kenter_remappings =
    364   1.164.12.2      matt    PMAP_EVCNT_INITIALIZER("kenter pages remapped");
    365   1.164.12.2      matt static struct evcnt pmap_ev_pt_mappings =
    366   1.164.12.2      matt    PMAP_EVCNT_INITIALIZER("page table pages mapped");
    367   1.164.12.2      matt 
    368   1.164.12.2      matt EVCNT_ATTACH_STATIC(pmap_ev_kenter_mappings);
    369   1.164.12.2      matt EVCNT_ATTACH_STATIC(pmap_ev_kenter_unmappings);
    370   1.164.12.2      matt EVCNT_ATTACH_STATIC(pmap_ev_kenter_remappings);
    371   1.164.12.2      matt EVCNT_ATTACH_STATIC(pmap_ev_pt_mappings);
    372   1.164.12.2      matt 
    373   1.164.12.2      matt #ifdef PMAP_CACHE_VIPT
    374   1.164.12.2      matt static struct evcnt pmap_ev_exec_mappings =
    375   1.164.12.2      matt    PMAP_EVCNT_INITIALIZER("exec pages mapped");
    376   1.164.12.2      matt static struct evcnt pmap_ev_exec_cached =
    377   1.164.12.2      matt    PMAP_EVCNT_INITIALIZER("exec pages cached");
    378   1.164.12.2      matt 
    379   1.164.12.2      matt EVCNT_ATTACH_STATIC(pmap_ev_exec_mappings);
    380   1.164.12.2      matt EVCNT_ATTACH_STATIC(pmap_ev_exec_cached);
    381   1.164.12.2      matt 
    382   1.164.12.2      matt static struct evcnt pmap_ev_exec_synced =
    383   1.164.12.2      matt    PMAP_EVCNT_INITIALIZER("exec pages synced");
    384   1.164.12.2      matt static struct evcnt pmap_ev_exec_synced_map =
    385   1.164.12.2      matt    PMAP_EVCNT_INITIALIZER("exec pages synced (MP)");
    386   1.164.12.2      matt static struct evcnt pmap_ev_exec_synced_unmap =
    387   1.164.12.2      matt    PMAP_EVCNT_INITIALIZER("exec pages synced (UM)");
    388   1.164.12.2      matt static struct evcnt pmap_ev_exec_synced_remap =
    389   1.164.12.2      matt    PMAP_EVCNT_INITIALIZER("exec pages synced (RM)");
    390   1.164.12.2      matt static struct evcnt pmap_ev_exec_synced_clearbit =
    391   1.164.12.2      matt    PMAP_EVCNT_INITIALIZER("exec pages synced (DG)");
    392   1.164.12.2      matt static struct evcnt pmap_ev_exec_synced_kremove =
    393   1.164.12.2      matt    PMAP_EVCNT_INITIALIZER("exec pages synced (KU)");
    394   1.164.12.2      matt 
    395   1.164.12.2      matt EVCNT_ATTACH_STATIC(pmap_ev_exec_synced);
    396   1.164.12.2      matt EVCNT_ATTACH_STATIC(pmap_ev_exec_synced_map);
    397   1.164.12.2      matt EVCNT_ATTACH_STATIC(pmap_ev_exec_synced_unmap);
    398   1.164.12.2      matt EVCNT_ATTACH_STATIC(pmap_ev_exec_synced_remap);
    399   1.164.12.2      matt EVCNT_ATTACH_STATIC(pmap_ev_exec_synced_clearbit);
    400   1.164.12.2      matt EVCNT_ATTACH_STATIC(pmap_ev_exec_synced_kremove);
    401   1.164.12.2      matt 
    402   1.164.12.2      matt static struct evcnt pmap_ev_exec_discarded_unmap =
    403   1.164.12.2      matt    PMAP_EVCNT_INITIALIZER("exec pages discarded (UM)");
    404   1.164.12.2      matt static struct evcnt pmap_ev_exec_discarded_zero =
    405   1.164.12.2      matt    PMAP_EVCNT_INITIALIZER("exec pages discarded (ZP)");
    406   1.164.12.2      matt static struct evcnt pmap_ev_exec_discarded_copy =
    407   1.164.12.2      matt    PMAP_EVCNT_INITIALIZER("exec pages discarded (CP)");
    408   1.164.12.2      matt static struct evcnt pmap_ev_exec_discarded_page_protect =
    409   1.164.12.2      matt    PMAP_EVCNT_INITIALIZER("exec pages discarded (PP)");
    410   1.164.12.2      matt static struct evcnt pmap_ev_exec_discarded_clearbit =
    411   1.164.12.2      matt    PMAP_EVCNT_INITIALIZER("exec pages discarded (DG)");
    412   1.164.12.2      matt static struct evcnt pmap_ev_exec_discarded_kremove =
    413   1.164.12.2      matt    PMAP_EVCNT_INITIALIZER("exec pages discarded (KU)");
    414   1.164.12.2      matt 
    415   1.164.12.2      matt EVCNT_ATTACH_STATIC(pmap_ev_exec_discarded_unmap);
    416   1.164.12.2      matt EVCNT_ATTACH_STATIC(pmap_ev_exec_discarded_zero);
    417   1.164.12.2      matt EVCNT_ATTACH_STATIC(pmap_ev_exec_discarded_copy);
    418   1.164.12.2      matt EVCNT_ATTACH_STATIC(pmap_ev_exec_discarded_page_protect);
    419   1.164.12.2      matt EVCNT_ATTACH_STATIC(pmap_ev_exec_discarded_clearbit);
    420   1.164.12.2      matt EVCNT_ATTACH_STATIC(pmap_ev_exec_discarded_kremove);
    421   1.164.12.2      matt #endif /* PMAP_CACHE_VIPT */
    422   1.164.12.2      matt 
    423   1.164.12.2      matt static struct evcnt pmap_ev_updates = PMAP_EVCNT_INITIALIZER("updates");
    424   1.164.12.2      matt static struct evcnt pmap_ev_collects = PMAP_EVCNT_INITIALIZER("collects");
    425   1.164.12.2      matt static struct evcnt pmap_ev_activations = PMAP_EVCNT_INITIALIZER("activations");
    426   1.164.12.2      matt 
    427   1.164.12.2      matt EVCNT_ATTACH_STATIC(pmap_ev_updates);
    428   1.164.12.2      matt EVCNT_ATTACH_STATIC(pmap_ev_collects);
    429   1.164.12.2      matt EVCNT_ATTACH_STATIC(pmap_ev_activations);
    430   1.164.12.2      matt 
    431   1.164.12.2      matt #define	PMAPCOUNT(x)	((void)(pmap_ev_##x.ev_count++))
    432   1.164.12.2      matt #else
    433   1.164.12.2      matt #define	PMAPCOUNT(x)	((void)0)
    434   1.164.12.2      matt #endif
    435   1.164.12.2      matt 
    436        1.134   thorpej /*
    437        1.134   thorpej  * pmap copy/zero page, and mem(5) hook point
    438        1.134   thorpej  */
    439         1.54   thorpej static pt_entry_t *csrc_pte, *cdst_pte;
    440         1.54   thorpej static vaddr_t csrcp, cdstp;
    441   1.164.12.9      matt vaddr_t memhook;
    442        1.161  christos extern void *msgbufaddr;
    443          1.1      matt 
    444         1.17     chris /*
    445        1.134   thorpej  * Flag to indicate if pmap_init() has done its thing
    446        1.134   thorpej  */
    447        1.159   thorpej bool pmap_initialized;
    448        1.134   thorpej 
    449        1.134   thorpej /*
    450        1.134   thorpej  * Misc. locking data structures
    451         1.17     chris  */
    452          1.1      matt 
    453   1.164.12.3      matt #if 0 /* defined(MULTIPROCESSOR) || defined(LOCKDEBUG) */
    454         1.17     chris static struct lock pmap_main_lock;
    455        1.134   thorpej 
    456         1.17     chris #define PMAP_MAP_TO_HEAD_LOCK() \
    457         1.17     chris      (void) spinlockmgr(&pmap_main_lock, LK_SHARED, NULL)
    458         1.17     chris #define PMAP_MAP_TO_HEAD_UNLOCK() \
    459         1.17     chris      (void) spinlockmgr(&pmap_main_lock, LK_RELEASE, NULL)
    460         1.17     chris #define PMAP_HEAD_TO_MAP_LOCK() \
    461         1.17     chris      (void) spinlockmgr(&pmap_main_lock, LK_EXCLUSIVE, NULL)
    462         1.17     chris #define PMAP_HEAD_TO_MAP_UNLOCK() \
    463        1.134   thorpej      spinlockmgr(&pmap_main_lock, LK_RELEASE, (void *) 0)
    464         1.17     chris #else
    465        1.134   thorpej #define PMAP_MAP_TO_HEAD_LOCK()		/* null */
    466        1.134   thorpej #define PMAP_MAP_TO_HEAD_UNLOCK()	/* null */
    467        1.134   thorpej #define PMAP_HEAD_TO_MAP_LOCK()		/* null */
    468        1.134   thorpej #define PMAP_HEAD_TO_MAP_UNLOCK()	/* null */
    469        1.134   thorpej #endif
    470        1.134   thorpej 
    471        1.134   thorpej #define	pmap_acquire_pmap_lock(pm)			\
    472        1.134   thorpej 	do {						\
    473        1.134   thorpej 		if ((pm) != pmap_kernel())		\
    474        1.134   thorpej 			simple_lock(&(pm)->pm_lock);	\
    475        1.134   thorpej 	} while (/*CONSTCOND*/0)
    476        1.134   thorpej 
    477        1.134   thorpej #define	pmap_release_pmap_lock(pm)			\
    478        1.134   thorpej 	do {						\
    479        1.134   thorpej 		if ((pm) != pmap_kernel())		\
    480        1.134   thorpej 			simple_unlock(&(pm)->pm_lock);	\
    481        1.134   thorpej 	} while (/*CONSTCOND*/0)
    482          1.1      matt 
    483         1.33     chris 
    484         1.69   thorpej /*
    485        1.134   thorpej  * Metadata for L1 translation tables.
    486         1.69   thorpej  */
    487        1.134   thorpej struct l1_ttable {
    488        1.134   thorpej 	/* Entry on the L1 Table list */
    489        1.134   thorpej 	SLIST_ENTRY(l1_ttable) l1_link;
    490          1.1      matt 
    491        1.134   thorpej 	/* Entry on the L1 Least Recently Used list */
    492        1.134   thorpej 	TAILQ_ENTRY(l1_ttable) l1_lru;
    493          1.1      matt 
    494        1.134   thorpej 	/* Track how many domains are allocated from this L1 */
    495        1.134   thorpej 	volatile u_int l1_domain_use_count;
    496          1.1      matt 
    497        1.134   thorpej 	/*
    498        1.134   thorpej 	 * A free-list of domain numbers for this L1.
    499        1.134   thorpej 	 * We avoid using ffs() and a bitmap to track domains since ffs()
    500        1.134   thorpej 	 * is slow on ARM.
    501        1.134   thorpej 	 */
    502        1.134   thorpej 	u_int8_t l1_domain_first;
    503        1.134   thorpej 	u_int8_t l1_domain_free[PMAP_DOMAINS];
    504          1.1      matt 
    505        1.134   thorpej 	/* Physical address of this L1 page table */
    506        1.134   thorpej 	paddr_t l1_physaddr;
    507          1.1      matt 
    508        1.134   thorpej 	/* KVA of this L1 page table */
    509        1.134   thorpej 	pd_entry_t *l1_kva;
    510        1.134   thorpej };
    511          1.1      matt 
    512        1.134   thorpej /*
    513        1.134   thorpej  * Convert a virtual address into its L1 table index. That is, the
    514        1.134   thorpej  * index used to locate the L2 descriptor table pointer in an L1 table.
    515        1.134   thorpej  * This is basically used to index l1->l1_kva[].
    516        1.134   thorpej  *
    517        1.134   thorpej  * Each L2 descriptor table represents 1MB of VA space.
    518        1.134   thorpej  */
    519        1.134   thorpej #define	L1_IDX(va)		(((vaddr_t)(va)) >> L1_S_SHIFT)
    520         1.11     chris 
    521         1.17     chris /*
    522        1.134   thorpej  * L1 Page Tables are tracked using a Least Recently Used list.
    523        1.134   thorpej  *  - New L1s are allocated from the HEAD.
    524        1.134   thorpej  *  - Freed L1s are added to the TAIl.
    525        1.134   thorpej  *  - Recently accessed L1s (where an 'access' is some change to one of
    526        1.134   thorpej  *    the userland pmaps which owns this L1) are moved to the TAIL.
    527         1.17     chris  */
    528        1.134   thorpej static TAILQ_HEAD(, l1_ttable) l1_lru_list;
    529        1.134   thorpej static struct simplelock l1_lru_lock;
    530         1.17     chris 
    531        1.134   thorpej /*
    532        1.134   thorpej  * A list of all L1 tables
    533        1.134   thorpej  */
    534        1.134   thorpej static SLIST_HEAD(, l1_ttable) l1_list;
    535         1.17     chris 
    536         1.17     chris /*
    537        1.134   thorpej  * The l2_dtable tracks L2_BUCKET_SIZE worth of L1 slots.
    538        1.134   thorpej  *
    539        1.134   thorpej  * This is normally 16MB worth L2 page descriptors for any given pmap.
    540        1.134   thorpej  * Reference counts are maintained for L2 descriptors so they can be
    541        1.134   thorpej  * freed when empty.
    542         1.17     chris  */
    543        1.134   thorpej struct l2_dtable {
    544        1.134   thorpej 	/* The number of L2 page descriptors allocated to this l2_dtable */
    545        1.134   thorpej 	u_int l2_occupancy;
    546         1.17     chris 
    547        1.134   thorpej 	/* List of L2 page descriptors */
    548        1.134   thorpej 	struct l2_bucket {
    549        1.134   thorpej 		pt_entry_t *l2b_kva;	/* KVA of L2 Descriptor Table */
    550        1.134   thorpej 		paddr_t l2b_phys;	/* Physical address of same */
    551        1.134   thorpej 		u_short l2b_l1idx;	/* This L2 table's L1 index */
    552        1.134   thorpej 		u_short l2b_occupancy;	/* How many active descriptors */
    553        1.134   thorpej 	} l2_bucket[L2_BUCKET_SIZE];
    554         1.17     chris };
    555         1.17     chris 
    556         1.17     chris /*
    557        1.134   thorpej  * Given an L1 table index, calculate the corresponding l2_dtable index
    558        1.134   thorpej  * and bucket index within the l2_dtable.
    559         1.17     chris  */
    560        1.134   thorpej #define	L2_IDX(l1idx)		(((l1idx) >> L2_BUCKET_LOG2) & \
    561        1.134   thorpej 				 (L2_SIZE - 1))
    562        1.134   thorpej #define	L2_BUCKET(l1idx)	((l1idx) & (L2_BUCKET_SIZE - 1))
    563         1.17     chris 
    564        1.134   thorpej /*
    565        1.134   thorpej  * Given a virtual address, this macro returns the
    566        1.134   thorpej  * virtual address required to drop into the next L2 bucket.
    567        1.134   thorpej  */
    568        1.134   thorpej #define	L2_NEXT_BUCKET(va)	(((va) & L1_S_FRAME) + L1_S_SIZE)
    569         1.17     chris 
    570         1.17     chris /*
    571        1.134   thorpej  * L2 allocation.
    572         1.17     chris  */
    573        1.134   thorpej #define	pmap_alloc_l2_dtable()		\
    574        1.134   thorpej 	    pool_cache_get(&pmap_l2dtable_cache, PR_NOWAIT)
    575        1.134   thorpej #define	pmap_free_l2_dtable(l2)		\
    576        1.134   thorpej 	    pool_cache_put(&pmap_l2dtable_cache, (l2))
    577        1.134   thorpej #define pmap_alloc_l2_ptp(pap)		\
    578        1.134   thorpej 	    ((pt_entry_t *)pool_cache_get_paddr(&pmap_l2ptp_cache,\
    579        1.134   thorpej 	    PR_NOWAIT, (pap)))
    580          1.1      matt 
    581          1.1      matt /*
    582        1.134   thorpej  * We try to map the page tables write-through, if possible.  However, not
    583        1.134   thorpej  * all CPUs have a write-through cache mode, so on those we have to sync
    584        1.134   thorpej  * the cache when we frob page tables.
    585        1.113   thorpej  *
    586        1.134   thorpej  * We try to evaluate this at compile time, if possible.  However, it's
    587        1.134   thorpej  * not always possible to do that, hence this run-time var.
    588        1.134   thorpej  */
    589        1.134   thorpej int	pmap_needs_pte_sync;
    590        1.113   thorpej 
    591        1.113   thorpej /*
    592        1.134   thorpej  * Real definition of pv_entry.
    593        1.113   thorpej  */
    594        1.134   thorpej struct pv_entry {
    595        1.134   thorpej 	struct pv_entry *pv_next;       /* next pv_entry */
    596        1.134   thorpej 	pmap_t		pv_pmap;        /* pmap where mapping lies */
    597        1.134   thorpej 	vaddr_t		pv_va;          /* virtual address for mapping */
    598        1.134   thorpej 	u_int		pv_flags;       /* flags */
    599        1.134   thorpej };
    600        1.113   thorpej 
    601        1.113   thorpej /*
    602        1.134   thorpej  * Macro to determine if a mapping might be resident in the
    603        1.134   thorpej  * instruction cache and/or TLB
    604         1.17     chris  */
    605        1.134   thorpej #define	PV_BEEN_EXECD(f)  (((f) & (PVF_REF | PVF_EXEC)) == (PVF_REF | PVF_EXEC))
    606   1.164.12.2      matt #define	PV_IS_EXEC_P(f)   (((f) & PVF_EXEC) != 0)
    607         1.17     chris 
    608         1.17     chris /*
    609        1.134   thorpej  * Macro to determine if a mapping might be resident in the
    610        1.134   thorpej  * data cache and/or TLB
    611          1.1      matt  */
    612        1.134   thorpej #define	PV_BEEN_REFD(f)   (((f) & PVF_REF) != 0)
    613          1.1      matt 
    614          1.1      matt /*
    615        1.134   thorpej  * Local prototypes
    616          1.1      matt  */
    617        1.134   thorpej static int		pmap_set_pt_cache_mode(pd_entry_t *, vaddr_t);
    618        1.134   thorpej static void		pmap_alloc_specials(vaddr_t *, int, vaddr_t *,
    619        1.134   thorpej 			    pt_entry_t **);
    620        1.159   thorpej static bool		pmap_is_current(pmap_t);
    621        1.159   thorpej static bool		pmap_is_cached(pmap_t);
    622        1.134   thorpej static void		pmap_enter_pv(struct vm_page *, struct pv_entry *,
    623        1.134   thorpej 			    pmap_t, vaddr_t, u_int);
    624        1.134   thorpej static struct pv_entry *pmap_find_pv(struct vm_page *, pmap_t, vaddr_t);
    625        1.156       scw static struct pv_entry *pmap_remove_pv(struct vm_page *, pmap_t, vaddr_t, int);
    626        1.134   thorpej static u_int		pmap_modify_pv(struct vm_page *, pmap_t, vaddr_t,
    627        1.134   thorpej 			    u_int, u_int);
    628         1.17     chris 
    629        1.134   thorpej static void		pmap_pinit(pmap_t);
    630        1.134   thorpej static int		pmap_pmap_ctor(void *, void *, int);
    631         1.17     chris 
    632        1.134   thorpej static void		pmap_alloc_l1(pmap_t);
    633        1.134   thorpej static void		pmap_free_l1(pmap_t);
    634        1.134   thorpej static void		pmap_use_l1(pmap_t);
    635         1.17     chris 
    636        1.134   thorpej static struct l2_bucket *pmap_get_l2_bucket(pmap_t, vaddr_t);
    637        1.134   thorpej static struct l2_bucket *pmap_alloc_l2_bucket(pmap_t, vaddr_t);
    638        1.134   thorpej static void		pmap_free_l2_bucket(pmap_t, struct l2_bucket *, u_int);
    639        1.134   thorpej static int		pmap_l2ptp_ctor(void *, void *, int);
    640        1.134   thorpej static int		pmap_l2dtable_ctor(void *, void *, int);
    641         1.51     chris 
    642        1.134   thorpej static void		pmap_vac_me_harder(struct vm_page *, pmap_t, vaddr_t);
    643   1.164.12.2      matt #ifdef PMAP_CACHE_VIVT
    644        1.134   thorpej static void		pmap_vac_me_kpmap(struct vm_page *, pmap_t, vaddr_t);
    645        1.134   thorpej static void		pmap_vac_me_user(struct vm_page *, pmap_t, vaddr_t);
    646   1.164.12.2      matt #endif
    647         1.17     chris 
    648        1.134   thorpej static void		pmap_clearbit(struct vm_page *, u_int);
    649   1.164.12.2      matt #ifdef PMAP_CACHE_VIVT
    650        1.159   thorpej static int		pmap_clean_page(struct pv_entry *, bool);
    651   1.164.12.2      matt #endif
    652   1.164.12.2      matt #ifdef PMAP_CACHE_VIPT
    653   1.164.12.2      matt static void		pmap_syncicache_page(struct vm_page *);
    654   1.164.12.2      matt static void		pmap_flush_page(struct vm_page *);
    655   1.164.12.2      matt #endif
    656        1.134   thorpej static void		pmap_page_remove(struct vm_page *);
    657         1.17     chris 
    658        1.134   thorpej static void		pmap_init_l1(struct l1_ttable *, pd_entry_t *);
    659        1.134   thorpej static vaddr_t		kernel_pt_lookup(paddr_t);
    660         1.17     chris 
    661   1.164.12.3      matt void pmap_switch(struct lwp *, struct lwp *);
    662   1.164.12.3      matt 
    663         1.17     chris 
    664         1.17     chris /*
    665        1.134   thorpej  * External function prototypes
    666         1.17     chris  */
    667        1.134   thorpej extern void bzero_page(vaddr_t);
    668        1.134   thorpej extern void bcopy_page(vaddr_t, vaddr_t);
    669         1.17     chris 
    670        1.134   thorpej /*
    671        1.134   thorpej  * Misc variables
    672        1.134   thorpej  */
    673        1.134   thorpej vaddr_t virtual_avail;
    674        1.134   thorpej vaddr_t virtual_end;
    675        1.134   thorpej vaddr_t pmap_curmaxkvaddr;
    676         1.17     chris 
    677        1.134   thorpej vaddr_t avail_start;
    678        1.134   thorpej vaddr_t avail_end;
    679         1.17     chris 
    680   1.164.12.2      matt pv_addrqh_t pmap_boot_freeq = SLIST_HEAD_INITIALIZER(&pmap_boot_freeq);
    681   1.164.12.2      matt pv_addr_t kernelpages;
    682   1.164.12.2      matt pv_addr_t kernel_l1pt;
    683   1.164.12.2      matt pv_addr_t systempage;
    684         1.17     chris 
    685        1.134   thorpej /* Function to set the debug level of the pmap code */
    686         1.17     chris 
    687        1.134   thorpej #ifdef PMAP_DEBUG
    688        1.134   thorpej void
    689        1.134   thorpej pmap_debug(int level)
    690        1.134   thorpej {
    691        1.134   thorpej 	pmap_debug_level = level;
    692        1.134   thorpej 	printf("pmap_debug: level=%d\n", pmap_debug_level);
    693          1.1      matt }
    694        1.134   thorpej #endif	/* PMAP_DEBUG */
    695          1.1      matt 
    696          1.1      matt /*
    697        1.134   thorpej  * A bunch of routines to conditionally flush the caches/TLB depending
    698        1.134   thorpej  * on whether the specified pmap actually needs to be flushed at any
    699        1.134   thorpej  * given time.
    700          1.1      matt  */
    701        1.157     perry static inline void
    702        1.134   thorpej pmap_tlb_flushID_SE(pmap_t pm, vaddr_t va)
    703        1.134   thorpej {
    704        1.134   thorpej 
    705        1.134   thorpej 	if (pm->pm_cstate.cs_tlb_id)
    706        1.134   thorpej 		cpu_tlb_flushID_SE(va);
    707        1.134   thorpej }
    708          1.1      matt 
    709        1.157     perry static inline void
    710        1.134   thorpej pmap_tlb_flushD_SE(pmap_t pm, vaddr_t va)
    711          1.1      matt {
    712          1.1      matt 
    713        1.134   thorpej 	if (pm->pm_cstate.cs_tlb_d)
    714        1.134   thorpej 		cpu_tlb_flushD_SE(va);
    715          1.1      matt }
    716          1.1      matt 
    717        1.157     perry static inline void
    718        1.134   thorpej pmap_tlb_flushID(pmap_t pm)
    719          1.1      matt {
    720          1.1      matt 
    721        1.134   thorpej 	if (pm->pm_cstate.cs_tlb_id) {
    722        1.134   thorpej 		cpu_tlb_flushID();
    723        1.134   thorpej 		pm->pm_cstate.cs_tlb = 0;
    724          1.1      matt 	}
    725        1.134   thorpej }
    726          1.1      matt 
    727        1.157     perry static inline void
    728        1.134   thorpej pmap_tlb_flushD(pmap_t pm)
    729        1.134   thorpej {
    730          1.1      matt 
    731        1.134   thorpej 	if (pm->pm_cstate.cs_tlb_d) {
    732        1.134   thorpej 		cpu_tlb_flushD();
    733        1.134   thorpej 		pm->pm_cstate.cs_tlb_d = 0;
    734          1.1      matt 	}
    735          1.1      matt }
    736          1.1      matt 
    737   1.164.12.2      matt #ifdef PMAP_CACHE_VIVT
    738        1.157     perry static inline void
    739        1.134   thorpej pmap_idcache_wbinv_range(pmap_t pm, vaddr_t va, vsize_t len)
    740          1.1      matt {
    741   1.164.12.2      matt 	if (pm->pm_cstate.cs_cache_id) {
    742        1.134   thorpej 		cpu_idcache_wbinv_range(va, len);
    743   1.164.12.2      matt 	}
    744         1.17     chris }
    745          1.1      matt 
    746        1.157     perry static inline void
    747        1.134   thorpej pmap_dcache_wb_range(pmap_t pm, vaddr_t va, vsize_t len,
    748        1.159   thorpej     bool do_inv, bool rd_only)
    749         1.17     chris {
    750          1.1      matt 
    751        1.134   thorpej 	if (pm->pm_cstate.cs_cache_d) {
    752        1.134   thorpej 		if (do_inv) {
    753        1.134   thorpej 			if (rd_only)
    754        1.134   thorpej 				cpu_dcache_inv_range(va, len);
    755        1.134   thorpej 			else
    756        1.134   thorpej 				cpu_dcache_wbinv_range(va, len);
    757        1.134   thorpej 		} else
    758        1.134   thorpej 		if (!rd_only)
    759        1.134   thorpej 			cpu_dcache_wb_range(va, len);
    760          1.1      matt 	}
    761        1.134   thorpej }
    762          1.1      matt 
    763        1.157     perry static inline void
    764        1.134   thorpej pmap_idcache_wbinv_all(pmap_t pm)
    765        1.134   thorpej {
    766        1.134   thorpej 	if (pm->pm_cstate.cs_cache_id) {
    767        1.134   thorpej 		cpu_idcache_wbinv_all();
    768        1.134   thorpej 		pm->pm_cstate.cs_cache = 0;
    769        1.134   thorpej 	}
    770          1.1      matt }
    771          1.1      matt 
    772        1.157     perry static inline void
    773        1.134   thorpej pmap_dcache_wbinv_all(pmap_t pm)
    774        1.134   thorpej {
    775        1.134   thorpej 	if (pm->pm_cstate.cs_cache_d) {
    776        1.134   thorpej 		cpu_dcache_wbinv_all();
    777        1.134   thorpej 		pm->pm_cstate.cs_cache_d = 0;
    778        1.134   thorpej 	}
    779        1.134   thorpej }
    780   1.164.12.2      matt #endif /* PMAP_CACHE_VIVT */
    781          1.1      matt 
    782        1.159   thorpej static inline bool
    783        1.134   thorpej pmap_is_current(pmap_t pm)
    784          1.1      matt {
    785         1.17     chris 
    786        1.134   thorpej 	if (pm == pmap_kernel() ||
    787        1.134   thorpej 	    (curproc && curproc->p_vmspace->vm_map.pmap == pm))
    788   1.164.12.2      matt 		return true;
    789          1.1      matt 
    790   1.164.12.2      matt 	return false;
    791        1.134   thorpej }
    792          1.1      matt 
    793        1.159   thorpej static inline bool
    794        1.134   thorpej pmap_is_cached(pmap_t pm)
    795        1.134   thorpej {
    796         1.17     chris 
    797   1.164.12.3      matt 	if (pm == pmap_kernel() || pmap_recent_user == NULL ||
    798   1.164.12.3      matt 	    pmap_recent_user == pm)
    799   1.164.12.3      matt 		return (true);
    800         1.17     chris 
    801   1.164.12.2      matt 	return false;
    802        1.134   thorpej }
    803          1.1      matt 
    804        1.134   thorpej /*
    805        1.134   thorpej  * PTE_SYNC_CURRENT:
    806        1.134   thorpej  *
    807        1.134   thorpej  *     Make sure the pte is written out to RAM.
    808        1.134   thorpej  *     We need to do this for one of two cases:
    809        1.134   thorpej  *       - We're dealing with the kernel pmap
    810        1.134   thorpej  *       - There is no pmap active in the cache/tlb.
    811        1.134   thorpej  *       - The specified pmap is 'active' in the cache/tlb.
    812        1.134   thorpej  */
    813        1.134   thorpej #ifdef PMAP_INCLUDE_PTE_SYNC
    814        1.134   thorpej #define	PTE_SYNC_CURRENT(pm, ptep)	\
    815        1.134   thorpej do {					\
    816        1.134   thorpej 	if (PMAP_NEEDS_PTE_SYNC && 	\
    817        1.134   thorpej 	    pmap_is_cached(pm))		\
    818        1.134   thorpej 		PTE_SYNC(ptep);		\
    819        1.134   thorpej } while (/*CONSTCOND*/0)
    820        1.134   thorpej #else
    821        1.134   thorpej #define	PTE_SYNC_CURRENT(pm, ptep)	/* nothing */
    822        1.134   thorpej #endif
    823          1.1      matt 
    824          1.1      matt /*
    825         1.17     chris  * main pv_entry manipulation functions:
    826         1.49   thorpej  *   pmap_enter_pv: enter a mapping onto a vm_page list
    827         1.49   thorpej  *   pmap_remove_pv: remove a mappiing from a vm_page list
    828         1.17     chris  *
    829         1.17     chris  * NOTE: pmap_enter_pv expects to lock the pvh itself
    830         1.17     chris  *       pmap_remove_pv expects te caller to lock the pvh before calling
    831         1.17     chris  */
    832         1.17     chris 
    833         1.17     chris /*
    834         1.49   thorpej  * pmap_enter_pv: enter a mapping onto a vm_page lst
    835         1.17     chris  *
    836         1.17     chris  * => caller should hold the proper lock on pmap_main_lock
    837         1.17     chris  * => caller should have pmap locked
    838         1.49   thorpej  * => we will gain the lock on the vm_page and allocate the new pv_entry
    839         1.17     chris  * => caller should adjust ptp's wire_count before calling
    840         1.17     chris  * => caller should not adjust pmap's wire_count
    841         1.17     chris  */
    842        1.134   thorpej static void
    843        1.134   thorpej pmap_enter_pv(struct vm_page *pg, struct pv_entry *pve, pmap_t pm,
    844        1.134   thorpej     vaddr_t va, u_int flags)
    845        1.134   thorpej {
    846         1.17     chris 
    847        1.134   thorpej 	NPDEBUG(PDB_PVDUMP,
    848        1.134   thorpej 	    printf("pmap_enter_pv: pm %p, pg %p, flags 0x%x\n", pm, pg, flags));
    849        1.134   thorpej 
    850        1.134   thorpej 	pve->pv_pmap = pm;
    851         1.17     chris 	pve->pv_va = va;
    852         1.17     chris 	pve->pv_flags = flags;
    853        1.134   thorpej 
    854         1.49   thorpej 	simple_lock(&pg->mdpage.pvh_slock);	/* lock vm_page */
    855         1.49   thorpej 	pve->pv_next = pg->mdpage.pvh_list;	/* add to ... */
    856         1.49   thorpej 	pg->mdpage.pvh_list = pve;		/* ... locked list */
    857        1.134   thorpej 	pg->mdpage.pvh_attrs |= flags & (PVF_REF | PVF_MOD);
    858        1.134   thorpej 	if (pm == pmap_kernel()) {
    859   1.164.12.2      matt 		PMAPCOUNT(kernel_mappings);
    860        1.134   thorpej 		if (flags & PVF_WRITE)
    861        1.134   thorpej 			pg->mdpage.krw_mappings++;
    862        1.134   thorpej 		else
    863        1.134   thorpej 			pg->mdpage.kro_mappings++;
    864        1.134   thorpej 	} else
    865        1.134   thorpej 	if (flags & PVF_WRITE)
    866        1.134   thorpej 		pg->mdpage.urw_mappings++;
    867        1.134   thorpej 	else
    868        1.134   thorpej 		pg->mdpage.uro_mappings++;
    869   1.164.12.2      matt 
    870   1.164.12.2      matt #ifdef PMAP_CACHE_VIPT
    871   1.164.12.2      matt 	/*
    872   1.164.12.2      matt 	 * If this is an exec mapping and its the first exec mapping
    873   1.164.12.2      matt 	 * for this page, make sure to sync the I-cache.
    874   1.164.12.2      matt 	 */
    875   1.164.12.2      matt 	if (PV_IS_EXEC_P(flags)) {
    876   1.164.12.2      matt 		if (!PV_IS_EXEC_P(pg->mdpage.pvh_attrs)) {
    877   1.164.12.2      matt 			pmap_syncicache_page(pg);
    878   1.164.12.2      matt 			PMAPCOUNT(exec_synced_map);
    879   1.164.12.2      matt 		}
    880   1.164.12.2      matt 		PMAPCOUNT(exec_mappings);
    881   1.164.12.2      matt 	}
    882   1.164.12.2      matt #endif
    883   1.164.12.2      matt 
    884   1.164.12.2      matt 	PMAPCOUNT(mappings);
    885         1.49   thorpej 	simple_unlock(&pg->mdpage.pvh_slock);	/* unlock, done! */
    886        1.134   thorpej 
    887         1.78   thorpej 	if (pve->pv_flags & PVF_WIRED)
    888        1.134   thorpej 		++pm->pm_stats.wired_count;
    889         1.17     chris }
    890         1.17     chris 
    891         1.17     chris /*
    892        1.134   thorpej  *
    893        1.134   thorpej  * pmap_find_pv: Find a pv entry
    894        1.134   thorpej  *
    895        1.134   thorpej  * => caller should hold lock on vm_page
    896        1.134   thorpej  */
    897        1.157     perry static inline struct pv_entry *
    898        1.134   thorpej pmap_find_pv(struct vm_page *pg, pmap_t pm, vaddr_t va)
    899        1.134   thorpej {
    900        1.134   thorpej 	struct pv_entry *pv;
    901        1.134   thorpej 
    902        1.134   thorpej 	for (pv = pg->mdpage.pvh_list; pv; pv = pv->pv_next) {
    903        1.134   thorpej 		if (pm == pv->pv_pmap && va == pv->pv_va)
    904        1.134   thorpej 			break;
    905        1.134   thorpej 	}
    906        1.134   thorpej 
    907        1.134   thorpej 	return (pv);
    908        1.134   thorpej }
    909        1.134   thorpej 
    910        1.134   thorpej /*
    911        1.134   thorpej  * pmap_remove_pv: try to remove a mapping from a pv_list
    912         1.17     chris  *
    913         1.17     chris  * => caller should hold proper lock on pmap_main_lock
    914         1.17     chris  * => pmap should be locked
    915         1.49   thorpej  * => caller should hold lock on vm_page [so that attrs can be adjusted]
    916         1.17     chris  * => caller should adjust ptp's wire_count and free PTP if needed
    917         1.17     chris  * => caller should NOT adjust pmap's wire_count
    918         1.17     chris  * => we return the removed pve
    919         1.17     chris  */
    920        1.134   thorpej static struct pv_entry *
    921        1.156       scw pmap_remove_pv(struct vm_page *pg, pmap_t pm, vaddr_t va, int skip_wired)
    922         1.17     chris {
    923         1.17     chris 	struct pv_entry *pve, **prevptr;
    924         1.17     chris 
    925        1.134   thorpej 	NPDEBUG(PDB_PVDUMP,
    926        1.134   thorpej 	    printf("pmap_remove_pv: pm %p, pg %p, va 0x%08lx\n", pm, pg, va));
    927        1.134   thorpej 
    928         1.49   thorpej 	prevptr = &pg->mdpage.pvh_list;		/* previous pv_entry pointer */
    929         1.17     chris 	pve = *prevptr;
    930        1.134   thorpej 
    931         1.17     chris 	while (pve) {
    932        1.134   thorpej 		if (pve->pv_pmap == pm && pve->pv_va == va) {	/* match? */
    933        1.156       scw 			NPDEBUG(PDB_PVDUMP, printf("pmap_remove_pv: pm %p, pg "
    934        1.156       scw 			    "%p, flags 0x%x\n", pm, pg, pve->pv_flags));
    935        1.156       scw 			if (pve->pv_flags & PVF_WIRED) {
    936        1.156       scw 				if (skip_wired)
    937        1.156       scw 					return (NULL);
    938        1.156       scw 				--pm->pm_stats.wired_count;
    939        1.156       scw 			}
    940         1.17     chris 			*prevptr = pve->pv_next;		/* remove it! */
    941        1.134   thorpej 			if (pm == pmap_kernel()) {
    942   1.164.12.2      matt 				PMAPCOUNT(kernel_unmappings);
    943        1.134   thorpej 				if (pve->pv_flags & PVF_WRITE)
    944        1.134   thorpej 					pg->mdpage.krw_mappings--;
    945        1.134   thorpej 				else
    946        1.134   thorpej 					pg->mdpage.kro_mappings--;
    947        1.134   thorpej 			} else
    948        1.134   thorpej 			if (pve->pv_flags & PVF_WRITE)
    949        1.134   thorpej 				pg->mdpage.urw_mappings--;
    950        1.134   thorpej 			else
    951        1.134   thorpej 				pg->mdpage.uro_mappings--;
    952   1.164.12.2      matt 
    953   1.164.12.2      matt 			PMAPCOUNT(unmappings);
    954   1.164.12.2      matt #ifdef PMAP_CACHE_VIPT
    955   1.164.12.2      matt 			if (!(pve->pv_flags & PVF_WRITE))
    956   1.164.12.2      matt 				break;
    957   1.164.12.2      matt 			/*
    958   1.164.12.2      matt 			 * If this page has had an exec mapping, then if
    959   1.164.12.2      matt 			 * this was the last mapping, discard the contents,
    960   1.164.12.2      matt 			 * otherwise sync the i-cache for this page.
    961   1.164.12.2      matt 			 */
    962   1.164.12.2      matt 			if (PV_IS_EXEC_P(pg->mdpage.pvh_attrs)) {
    963   1.164.12.2      matt 				if (pg->mdpage.pvh_list == NULL) {
    964   1.164.12.2      matt 					pg->mdpage.pvh_attrs &= ~PVF_EXEC;
    965   1.164.12.2      matt 					PMAPCOUNT(exec_discarded_unmap);
    966   1.164.12.2      matt 				} else {
    967   1.164.12.2      matt 					pmap_syncicache_page(pg);
    968   1.164.12.2      matt 					PMAPCOUNT(exec_synced_unmap);
    969   1.164.12.2      matt 				}
    970   1.164.12.2      matt 			}
    971   1.164.12.2      matt #endif /* PMAP_CACHE_VIPT */
    972         1.17     chris 			break;
    973         1.17     chris 		}
    974         1.17     chris 		prevptr = &pve->pv_next;		/* previous pointer */
    975         1.17     chris 		pve = pve->pv_next;			/* advance */
    976         1.17     chris 	}
    977        1.134   thorpej 
    978         1.17     chris 	return(pve);				/* return removed pve */
    979         1.17     chris }
    980         1.17     chris 
    981         1.17     chris /*
    982         1.17     chris  *
    983         1.17     chris  * pmap_modify_pv: Update pv flags
    984         1.17     chris  *
    985         1.49   thorpej  * => caller should hold lock on vm_page [so that attrs can be adjusted]
    986         1.17     chris  * => caller should NOT adjust pmap's wire_count
    987         1.29  rearnsha  * => caller must call pmap_vac_me_harder() if writable status of a page
    988         1.29  rearnsha  *    may have changed.
    989         1.17     chris  * => we return the old flags
    990         1.17     chris  *
    991          1.1      matt  * Modify a physical-virtual mapping in the pv table
    992          1.1      matt  */
    993        1.134   thorpej static u_int
    994        1.134   thorpej pmap_modify_pv(struct vm_page *pg, pmap_t pm, vaddr_t va,
    995        1.134   thorpej     u_int clr_mask, u_int set_mask)
    996          1.1      matt {
    997          1.1      matt 	struct pv_entry *npv;
    998          1.1      matt 	u_int flags, oflags;
    999          1.1      matt 
   1000        1.134   thorpej 	if ((npv = pmap_find_pv(pg, pm, va)) == NULL)
   1001        1.134   thorpej 		return (0);
   1002        1.134   thorpej 
   1003        1.134   thorpej 	NPDEBUG(PDB_PVDUMP,
   1004        1.134   thorpej 	    printf("pmap_modify_pv: pm %p, pg %p, clr 0x%x, set 0x%x, flags 0x%x\n", pm, pg, clr_mask, set_mask, npv->pv_flags));
   1005        1.134   thorpej 
   1006          1.1      matt 	/*
   1007          1.1      matt 	 * There is at least one VA mapping this page.
   1008          1.1      matt 	 */
   1009          1.1      matt 
   1010        1.134   thorpej 	if (clr_mask & (PVF_REF | PVF_MOD))
   1011        1.134   thorpej 		pg->mdpage.pvh_attrs |= set_mask & (PVF_REF | PVF_MOD);
   1012        1.134   thorpej 
   1013        1.134   thorpej 	oflags = npv->pv_flags;
   1014        1.134   thorpej 	npv->pv_flags = flags = (oflags & ~clr_mask) | set_mask;
   1015        1.134   thorpej 
   1016        1.134   thorpej 	if ((flags ^ oflags) & PVF_WIRED) {
   1017        1.134   thorpej 		if (flags & PVF_WIRED)
   1018        1.134   thorpej 			++pm->pm_stats.wired_count;
   1019        1.134   thorpej 		else
   1020        1.134   thorpej 			--pm->pm_stats.wired_count;
   1021        1.134   thorpej 	}
   1022        1.134   thorpej 
   1023        1.134   thorpej 	if ((flags ^ oflags) & PVF_WRITE) {
   1024        1.134   thorpej 		if (pm == pmap_kernel()) {
   1025        1.134   thorpej 			if (flags & PVF_WRITE) {
   1026        1.134   thorpej 				pg->mdpage.krw_mappings++;
   1027        1.134   thorpej 				pg->mdpage.kro_mappings--;
   1028        1.134   thorpej 			} else {
   1029        1.134   thorpej 				pg->mdpage.kro_mappings++;
   1030        1.134   thorpej 				pg->mdpage.krw_mappings--;
   1031          1.1      matt 			}
   1032        1.134   thorpej 		} else
   1033        1.134   thorpej 		if (flags & PVF_WRITE) {
   1034        1.134   thorpej 			pg->mdpage.urw_mappings++;
   1035        1.134   thorpej 			pg->mdpage.uro_mappings--;
   1036        1.134   thorpej 		} else {
   1037        1.134   thorpej 			pg->mdpage.uro_mappings++;
   1038        1.134   thorpej 			pg->mdpage.urw_mappings--;
   1039          1.1      matt 		}
   1040          1.1      matt 	}
   1041   1.164.12.2      matt #ifdef PMAP_CACHE_VIPT
   1042   1.164.12.2      matt 	/*
   1043   1.164.12.2      matt 	 * We have two cases here: the first is from enter_pv (new exec
   1044   1.164.12.2      matt 	 * page), the second is a combined pmap_remove_pv/pmap_enter_pv.
   1045   1.164.12.2      matt 	 * Since in latter, pmap_enter_pv won't do anything, we just have
   1046   1.164.12.2      matt 	 * to do what pmap_remove_pv would do.
   1047   1.164.12.2      matt 	 */
   1048   1.164.12.2      matt 	if ((PV_IS_EXEC_P(flags) && !PV_IS_EXEC_P(pg->mdpage.pvh_attrs))
   1049   1.164.12.2      matt 	    || (PV_IS_EXEC_P(pg->mdpage.pvh_attrs)
   1050   1.164.12.2      matt 		|| (!(flags & PVF_WRITE) && (oflags & PVF_WRITE)))) {
   1051   1.164.12.2      matt 		pmap_syncicache_page(pg);
   1052   1.164.12.2      matt 		PMAPCOUNT(exec_synced_remap);
   1053   1.164.12.2      matt 	}
   1054   1.164.12.2      matt #endif
   1055   1.164.12.2      matt 
   1056   1.164.12.2      matt 	PMAPCOUNT(remappings);
   1057        1.134   thorpej 
   1058        1.134   thorpej 	return (oflags);
   1059          1.1      matt }
   1060          1.1      matt 
   1061        1.134   thorpej /*
   1062        1.134   thorpej  * Allocate an L1 translation table for the specified pmap.
   1063        1.134   thorpej  * This is called at pmap creation time.
   1064        1.134   thorpej  */
   1065        1.134   thorpej static void
   1066        1.134   thorpej pmap_alloc_l1(pmap_t pm)
   1067          1.1      matt {
   1068        1.134   thorpej 	struct l1_ttable *l1;
   1069        1.134   thorpej 	u_int8_t domain;
   1070        1.134   thorpej 
   1071        1.134   thorpej 	/*
   1072        1.134   thorpej 	 * Remove the L1 at the head of the LRU list
   1073        1.134   thorpej 	 */
   1074        1.134   thorpej 	simple_lock(&l1_lru_lock);
   1075        1.134   thorpej 	l1 = TAILQ_FIRST(&l1_lru_list);
   1076        1.134   thorpej 	KDASSERT(l1 != NULL);
   1077        1.134   thorpej 	TAILQ_REMOVE(&l1_lru_list, l1, l1_lru);
   1078          1.1      matt 
   1079        1.134   thorpej 	/*
   1080        1.134   thorpej 	 * Pick the first available domain number, and update
   1081        1.134   thorpej 	 * the link to the next number.
   1082        1.134   thorpej 	 */
   1083        1.134   thorpej 	domain = l1->l1_domain_first;
   1084        1.134   thorpej 	l1->l1_domain_first = l1->l1_domain_free[domain];
   1085        1.115   thorpej 
   1086        1.134   thorpej 	/*
   1087        1.134   thorpej 	 * If there are still free domain numbers in this L1,
   1088        1.134   thorpej 	 * put it back on the TAIL of the LRU list.
   1089        1.134   thorpej 	 */
   1090        1.134   thorpej 	if (++l1->l1_domain_use_count < PMAP_DOMAINS)
   1091        1.134   thorpej 		TAILQ_INSERT_TAIL(&l1_lru_list, l1, l1_lru);
   1092          1.1      matt 
   1093        1.134   thorpej 	simple_unlock(&l1_lru_lock);
   1094          1.1      matt 
   1095        1.134   thorpej 	/*
   1096        1.134   thorpej 	 * Fix up the relevant bits in the pmap structure
   1097        1.134   thorpej 	 */
   1098        1.134   thorpej 	pm->pm_l1 = l1;
   1099        1.134   thorpej 	pm->pm_domain = domain;
   1100          1.1      matt }
   1101          1.1      matt 
   1102          1.1      matt /*
   1103        1.134   thorpej  * Free an L1 translation table.
   1104        1.134   thorpej  * This is called at pmap destruction time.
   1105          1.1      matt  */
   1106        1.134   thorpej static void
   1107        1.134   thorpej pmap_free_l1(pmap_t pm)
   1108          1.1      matt {
   1109        1.134   thorpej 	struct l1_ttable *l1 = pm->pm_l1;
   1110          1.1      matt 
   1111        1.134   thorpej 	simple_lock(&l1_lru_lock);
   1112          1.1      matt 
   1113        1.134   thorpej 	/*
   1114        1.134   thorpej 	 * If this L1 is currently on the LRU list, remove it.
   1115        1.134   thorpej 	 */
   1116        1.134   thorpej 	if (l1->l1_domain_use_count < PMAP_DOMAINS)
   1117        1.134   thorpej 		TAILQ_REMOVE(&l1_lru_list, l1, l1_lru);
   1118          1.1      matt 
   1119          1.1      matt 	/*
   1120        1.134   thorpej 	 * Free up the domain number which was allocated to the pmap
   1121          1.1      matt 	 */
   1122        1.134   thorpej 	l1->l1_domain_free[pm->pm_domain] = l1->l1_domain_first;
   1123        1.134   thorpej 	l1->l1_domain_first = pm->pm_domain;
   1124        1.134   thorpej 	l1->l1_domain_use_count--;
   1125          1.1      matt 
   1126        1.134   thorpej 	/*
   1127        1.134   thorpej 	 * The L1 now must have at least 1 free domain, so add
   1128        1.134   thorpej 	 * it back to the LRU list. If the use count is zero,
   1129        1.134   thorpej 	 * put it at the head of the list, otherwise it goes
   1130        1.134   thorpej 	 * to the tail.
   1131        1.134   thorpej 	 */
   1132        1.134   thorpej 	if (l1->l1_domain_use_count == 0)
   1133        1.134   thorpej 		TAILQ_INSERT_HEAD(&l1_lru_list, l1, l1_lru);
   1134        1.134   thorpej 	else
   1135        1.134   thorpej 		TAILQ_INSERT_TAIL(&l1_lru_list, l1, l1_lru);
   1136         1.54   thorpej 
   1137        1.134   thorpej 	simple_unlock(&l1_lru_lock);
   1138        1.134   thorpej }
   1139         1.54   thorpej 
   1140        1.157     perry static inline void
   1141        1.134   thorpej pmap_use_l1(pmap_t pm)
   1142        1.134   thorpej {
   1143        1.134   thorpej 	struct l1_ttable *l1;
   1144         1.54   thorpej 
   1145        1.134   thorpej 	/*
   1146        1.134   thorpej 	 * Do nothing if we're in interrupt context.
   1147        1.134   thorpej 	 * Access to an L1 by the kernel pmap must not affect
   1148        1.134   thorpej 	 * the LRU list.
   1149        1.134   thorpej 	 */
   1150   1.164.12.9      matt 	if (cpu_intr_p() || pm == pmap_kernel())
   1151        1.134   thorpej 		return;
   1152         1.54   thorpej 
   1153        1.134   thorpej 	l1 = pm->pm_l1;
   1154          1.1      matt 
   1155         1.17     chris 	/*
   1156        1.134   thorpej 	 * If the L1 is not currently on the LRU list, just return
   1157         1.17     chris 	 */
   1158        1.134   thorpej 	if (l1->l1_domain_use_count == PMAP_DOMAINS)
   1159        1.134   thorpej 		return;
   1160        1.134   thorpej 
   1161        1.134   thorpej 	simple_lock(&l1_lru_lock);
   1162          1.1      matt 
   1163         1.10     chris 	/*
   1164        1.134   thorpej 	 * Check the use count again, now that we've acquired the lock
   1165         1.10     chris 	 */
   1166        1.134   thorpej 	if (l1->l1_domain_use_count == PMAP_DOMAINS) {
   1167        1.134   thorpej 		simple_unlock(&l1_lru_lock);
   1168        1.134   thorpej 		return;
   1169        1.134   thorpej 	}
   1170        1.111   thorpej 
   1171        1.111   thorpej 	/*
   1172        1.134   thorpej 	 * Move the L1 to the back of the LRU list
   1173        1.111   thorpej 	 */
   1174        1.134   thorpej 	TAILQ_REMOVE(&l1_lru_list, l1, l1_lru);
   1175        1.134   thorpej 	TAILQ_INSERT_TAIL(&l1_lru_list, l1, l1_lru);
   1176        1.111   thorpej 
   1177        1.134   thorpej 	simple_unlock(&l1_lru_lock);
   1178          1.1      matt }
   1179          1.1      matt 
   1180          1.1      matt /*
   1181        1.134   thorpej  * void pmap_free_l2_ptp(pt_entry_t *, paddr_t *)
   1182          1.1      matt  *
   1183        1.134   thorpej  * Free an L2 descriptor table.
   1184          1.1      matt  */
   1185        1.157     perry static inline void
   1186        1.134   thorpej #ifndef PMAP_INCLUDE_PTE_SYNC
   1187        1.134   thorpej pmap_free_l2_ptp(pt_entry_t *l2, paddr_t pa)
   1188        1.134   thorpej #else
   1189        1.159   thorpej pmap_free_l2_ptp(bool need_sync, pt_entry_t *l2, paddr_t pa)
   1190        1.134   thorpej #endif
   1191          1.1      matt {
   1192        1.134   thorpej #ifdef PMAP_INCLUDE_PTE_SYNC
   1193   1.164.12.2      matt #ifdef PMAP_CACHE_VIVT
   1194          1.1      matt 	/*
   1195        1.134   thorpej 	 * Note: With a write-back cache, we may need to sync this
   1196        1.134   thorpej 	 * L2 table before re-using it.
   1197        1.134   thorpej 	 * This is because it may have belonged to a non-current
   1198        1.134   thorpej 	 * pmap, in which case the cache syncs would have been
   1199   1.164.12.2      matt 	 * skipped for the pages that were being unmapped. If the
   1200        1.134   thorpej 	 * L2 table were then to be immediately re-allocated to
   1201        1.134   thorpej 	 * the *current* pmap, it may well contain stale mappings
   1202        1.134   thorpej 	 * which have not yet been cleared by a cache write-back
   1203        1.134   thorpej 	 * and so would still be visible to the mmu.
   1204          1.1      matt 	 */
   1205        1.134   thorpej 	if (need_sync)
   1206        1.134   thorpej 		PTE_SYNC_RANGE(l2, L2_TABLE_SIZE_REAL / sizeof(pt_entry_t));
   1207   1.164.12.2      matt #endif /* PMAP_CACHE_VIVT */
   1208   1.164.12.2      matt #endif /* PMAP_INCLUDE_PTE_SYNC */
   1209        1.134   thorpej 	pool_cache_put_paddr(&pmap_l2ptp_cache, (void *)l2, pa);
   1210          1.1      matt }
   1211          1.1      matt 
   1212          1.1      matt /*
   1213        1.134   thorpej  * Returns a pointer to the L2 bucket associated with the specified pmap
   1214        1.134   thorpej  * and VA, or NULL if no L2 bucket exists for the address.
   1215          1.1      matt  */
   1216        1.157     perry static inline struct l2_bucket *
   1217        1.134   thorpej pmap_get_l2_bucket(pmap_t pm, vaddr_t va)
   1218        1.134   thorpej {
   1219        1.134   thorpej 	struct l2_dtable *l2;
   1220        1.134   thorpej 	struct l2_bucket *l2b;
   1221        1.134   thorpej 	u_short l1idx;
   1222          1.1      matt 
   1223        1.134   thorpej 	l1idx = L1_IDX(va);
   1224          1.1      matt 
   1225        1.134   thorpej 	if ((l2 = pm->pm_l2[L2_IDX(l1idx)]) == NULL ||
   1226        1.134   thorpej 	    (l2b = &l2->l2_bucket[L2_BUCKET(l1idx)])->l2b_kva == NULL)
   1227        1.134   thorpej 		return (NULL);
   1228          1.1      matt 
   1229        1.134   thorpej 	return (l2b);
   1230          1.1      matt }
   1231          1.1      matt 
   1232          1.1      matt /*
   1233        1.134   thorpej  * Returns a pointer to the L2 bucket associated with the specified pmap
   1234        1.134   thorpej  * and VA.
   1235          1.1      matt  *
   1236        1.134   thorpej  * If no L2 bucket exists, perform the necessary allocations to put an L2
   1237        1.134   thorpej  * bucket/page table in place.
   1238          1.1      matt  *
   1239        1.134   thorpej  * Note that if a new L2 bucket/page was allocated, the caller *must*
   1240        1.134   thorpej  * increment the bucket occupancy counter appropriately *before*
   1241        1.134   thorpej  * releasing the pmap's lock to ensure no other thread or cpu deallocates
   1242        1.134   thorpej  * the bucket/page in the meantime.
   1243          1.1      matt  */
   1244        1.134   thorpej static struct l2_bucket *
   1245        1.134   thorpej pmap_alloc_l2_bucket(pmap_t pm, vaddr_t va)
   1246        1.134   thorpej {
   1247        1.134   thorpej 	struct l2_dtable *l2;
   1248        1.134   thorpej 	struct l2_bucket *l2b;
   1249        1.134   thorpej 	u_short l1idx;
   1250        1.134   thorpej 
   1251        1.134   thorpej 	l1idx = L1_IDX(va);
   1252        1.134   thorpej 
   1253        1.134   thorpej 	if ((l2 = pm->pm_l2[L2_IDX(l1idx)]) == NULL) {
   1254        1.134   thorpej 		/*
   1255        1.134   thorpej 		 * No mapping at this address, as there is
   1256        1.134   thorpej 		 * no entry in the L1 table.
   1257        1.134   thorpej 		 * Need to allocate a new l2_dtable.
   1258        1.134   thorpej 		 */
   1259        1.134   thorpej 		if ((l2 = pmap_alloc_l2_dtable()) == NULL)
   1260        1.134   thorpej 			return (NULL);
   1261        1.134   thorpej 
   1262        1.134   thorpej 		/*
   1263        1.134   thorpej 		 * Link it into the parent pmap
   1264        1.134   thorpej 		 */
   1265        1.134   thorpej 		pm->pm_l2[L2_IDX(l1idx)] = l2;
   1266        1.134   thorpej 	}
   1267          1.1      matt 
   1268        1.134   thorpej 	l2b = &l2->l2_bucket[L2_BUCKET(l1idx)];
   1269          1.1      matt 
   1270         1.10     chris 	/*
   1271        1.134   thorpej 	 * Fetch pointer to the L2 page table associated with the address.
   1272         1.10     chris 	 */
   1273        1.134   thorpej 	if (l2b->l2b_kva == NULL) {
   1274        1.134   thorpej 		pt_entry_t *ptep;
   1275        1.134   thorpej 
   1276        1.134   thorpej 		/*
   1277        1.134   thorpej 		 * No L2 page table has been allocated. Chances are, this
   1278        1.134   thorpej 		 * is because we just allocated the l2_dtable, above.
   1279        1.134   thorpej 		 */
   1280        1.134   thorpej 		if ((ptep = pmap_alloc_l2_ptp(&l2b->l2b_phys)) == NULL) {
   1281        1.134   thorpej 			/*
   1282        1.134   thorpej 			 * Oops, no more L2 page tables available at this
   1283        1.134   thorpej 			 * time. We may need to deallocate the l2_dtable
   1284        1.134   thorpej 			 * if we allocated a new one above.
   1285        1.134   thorpej 			 */
   1286        1.134   thorpej 			if (l2->l2_occupancy == 0) {
   1287        1.134   thorpej 				pm->pm_l2[L2_IDX(l1idx)] = NULL;
   1288        1.134   thorpej 				pmap_free_l2_dtable(l2);
   1289        1.134   thorpej 			}
   1290        1.134   thorpej 			return (NULL);
   1291        1.134   thorpej 		}
   1292          1.1      matt 
   1293        1.134   thorpej 		l2->l2_occupancy++;
   1294        1.134   thorpej 		l2b->l2b_kva = ptep;
   1295        1.134   thorpej 		l2b->l2b_l1idx = l1idx;
   1296        1.134   thorpej 	}
   1297         1.16     chris 
   1298        1.134   thorpej 	return (l2b);
   1299          1.1      matt }
   1300          1.1      matt 
   1301          1.1      matt /*
   1302        1.134   thorpej  * One or more mappings in the specified L2 descriptor table have just been
   1303        1.134   thorpej  * invalidated.
   1304          1.1      matt  *
   1305        1.134   thorpej  * Garbage collect the metadata and descriptor table itself if necessary.
   1306          1.1      matt  *
   1307        1.134   thorpej  * The pmap lock must be acquired when this is called (not necessary
   1308        1.134   thorpej  * for the kernel pmap).
   1309          1.1      matt  */
   1310        1.134   thorpej static void
   1311        1.134   thorpej pmap_free_l2_bucket(pmap_t pm, struct l2_bucket *l2b, u_int count)
   1312          1.1      matt {
   1313        1.134   thorpej 	struct l2_dtable *l2;
   1314        1.134   thorpej 	pd_entry_t *pl1pd, l1pd;
   1315        1.134   thorpej 	pt_entry_t *ptep;
   1316        1.134   thorpej 	u_short l1idx;
   1317          1.1      matt 
   1318        1.134   thorpej 	KDASSERT(count <= l2b->l2b_occupancy);
   1319          1.1      matt 
   1320        1.134   thorpej 	/*
   1321        1.134   thorpej 	 * Update the bucket's reference count according to how many
   1322        1.134   thorpej 	 * PTEs the caller has just invalidated.
   1323        1.134   thorpej 	 */
   1324        1.134   thorpej 	l2b->l2b_occupancy -= count;
   1325          1.1      matt 
   1326          1.1      matt 	/*
   1327        1.134   thorpej 	 * Note:
   1328        1.134   thorpej 	 *
   1329        1.134   thorpej 	 * Level 2 page tables allocated to the kernel pmap are never freed
   1330        1.134   thorpej 	 * as that would require checking all Level 1 page tables and
   1331        1.134   thorpej 	 * removing any references to the Level 2 page table. See also the
   1332        1.134   thorpej 	 * comment elsewhere about never freeing bootstrap L2 descriptors.
   1333        1.134   thorpej 	 *
   1334        1.134   thorpej 	 * We make do with just invalidating the mapping in the L2 table.
   1335        1.134   thorpej 	 *
   1336        1.134   thorpej 	 * This isn't really a big deal in practice and, in fact, leads
   1337        1.134   thorpej 	 * to a performance win over time as we don't need to continually
   1338        1.134   thorpej 	 * alloc/free.
   1339          1.1      matt 	 */
   1340        1.134   thorpej 	if (l2b->l2b_occupancy > 0 || pm == pmap_kernel())
   1341        1.134   thorpej 		return;
   1342          1.1      matt 
   1343        1.134   thorpej 	/*
   1344        1.134   thorpej 	 * There are no more valid mappings in this level 2 page table.
   1345        1.134   thorpej 	 * Go ahead and NULL-out the pointer in the bucket, then
   1346        1.134   thorpej 	 * free the page table.
   1347        1.134   thorpej 	 */
   1348        1.134   thorpej 	l1idx = l2b->l2b_l1idx;
   1349        1.134   thorpej 	ptep = l2b->l2b_kva;
   1350        1.134   thorpej 	l2b->l2b_kva = NULL;
   1351          1.1      matt 
   1352        1.134   thorpej 	pl1pd = &pm->pm_l1->l1_kva[l1idx];
   1353          1.1      matt 
   1354        1.134   thorpej 	/*
   1355        1.134   thorpej 	 * If the L1 slot matches the pmap's domain
   1356        1.134   thorpej 	 * number, then invalidate it.
   1357        1.134   thorpej 	 */
   1358        1.134   thorpej 	l1pd = *pl1pd & (L1_TYPE_MASK | L1_C_DOM_MASK);
   1359        1.134   thorpej 	if (l1pd == (L1_C_DOM(pm->pm_domain) | L1_TYPE_C)) {
   1360        1.134   thorpej 		*pl1pd = 0;
   1361        1.134   thorpej 		PTE_SYNC(pl1pd);
   1362          1.1      matt 	}
   1363          1.1      matt 
   1364        1.134   thorpej 	/*
   1365        1.134   thorpej 	 * Release the L2 descriptor table back to the pool cache.
   1366        1.134   thorpej 	 */
   1367        1.134   thorpej #ifndef PMAP_INCLUDE_PTE_SYNC
   1368        1.134   thorpej 	pmap_free_l2_ptp(ptep, l2b->l2b_phys);
   1369        1.134   thorpej #else
   1370        1.134   thorpej 	pmap_free_l2_ptp(!pmap_is_cached(pm), ptep, l2b->l2b_phys);
   1371        1.134   thorpej #endif
   1372        1.134   thorpej 
   1373        1.134   thorpej 	/*
   1374        1.134   thorpej 	 * Update the reference count in the associated l2_dtable
   1375        1.134   thorpej 	 */
   1376        1.134   thorpej 	l2 = pm->pm_l2[L2_IDX(l1idx)];
   1377        1.134   thorpej 	if (--l2->l2_occupancy > 0)
   1378        1.134   thorpej 		return;
   1379          1.1      matt 
   1380        1.134   thorpej 	/*
   1381        1.134   thorpej 	 * There are no more valid mappings in any of the Level 1
   1382        1.134   thorpej 	 * slots managed by this l2_dtable. Go ahead and NULL-out
   1383        1.134   thorpej 	 * the pointer in the parent pmap and free the l2_dtable.
   1384        1.134   thorpej 	 */
   1385        1.134   thorpej 	pm->pm_l2[L2_IDX(l1idx)] = NULL;
   1386        1.134   thorpej 	pmap_free_l2_dtable(l2);
   1387          1.1      matt }
   1388          1.1      matt 
   1389          1.1      matt /*
   1390        1.134   thorpej  * Pool cache constructors for L2 descriptor tables, metadata and pmap
   1391        1.134   thorpej  * structures.
   1392          1.1      matt  */
   1393        1.134   thorpej static int
   1394        1.134   thorpej pmap_l2ptp_ctor(void *arg, void *v, int flags)
   1395          1.1      matt {
   1396        1.134   thorpej #ifndef PMAP_INCLUDE_PTE_SYNC
   1397        1.134   thorpej 	struct l2_bucket *l2b;
   1398        1.134   thorpej 	pt_entry_t *ptep, pte;
   1399        1.134   thorpej 	vaddr_t va = (vaddr_t)v & ~PGOFSET;
   1400        1.134   thorpej 
   1401        1.134   thorpej 	/*
   1402        1.134   thorpej 	 * The mappings for these page tables were initially made using
   1403        1.134   thorpej 	 * pmap_kenter_pa() by the pool subsystem. Therefore, the cache-
   1404        1.134   thorpej 	 * mode will not be right for page table mappings. To avoid
   1405        1.134   thorpej 	 * polluting the pmap_kenter_pa() code with a special case for
   1406        1.134   thorpej 	 * page tables, we simply fix up the cache-mode here if it's not
   1407        1.134   thorpej 	 * correct.
   1408        1.134   thorpej 	 */
   1409        1.134   thorpej 	l2b = pmap_get_l2_bucket(pmap_kernel(), va);
   1410        1.134   thorpej 	KDASSERT(l2b != NULL);
   1411        1.134   thorpej 	ptep = &l2b->l2b_kva[l2pte_index(va)];
   1412        1.134   thorpej 	pte = *ptep;
   1413          1.1      matt 
   1414        1.134   thorpej 	if ((pte & L2_S_CACHE_MASK) != pte_l2_s_cache_mode_pt) {
   1415        1.134   thorpej 		/*
   1416        1.134   thorpej 		 * Page tables must have the cache-mode set to Write-Thru.
   1417        1.134   thorpej 		 */
   1418        1.134   thorpej 		*ptep = (pte & ~L2_S_CACHE_MASK) | pte_l2_s_cache_mode_pt;
   1419        1.134   thorpej 		PTE_SYNC(ptep);
   1420        1.134   thorpej 		cpu_tlb_flushD_SE(va);
   1421        1.134   thorpej 		cpu_cpwait();
   1422        1.134   thorpej 	}
   1423        1.134   thorpej #endif
   1424          1.1      matt 
   1425        1.134   thorpej 	memset(v, 0, L2_TABLE_SIZE_REAL);
   1426        1.134   thorpej 	PTE_SYNC_RANGE(v, L2_TABLE_SIZE_REAL / sizeof(pt_entry_t));
   1427        1.134   thorpej 	return (0);
   1428          1.1      matt }
   1429          1.1      matt 
   1430        1.134   thorpej static int
   1431        1.134   thorpej pmap_l2dtable_ctor(void *arg, void *v, int flags)
   1432         1.93   thorpej {
   1433         1.93   thorpej 
   1434        1.134   thorpej 	memset(v, 0, sizeof(struct l2_dtable));
   1435        1.134   thorpej 	return (0);
   1436        1.134   thorpej }
   1437         1.93   thorpej 
   1438        1.134   thorpej static int
   1439        1.134   thorpej pmap_pmap_ctor(void *arg, void *v, int flags)
   1440        1.134   thorpej {
   1441         1.93   thorpej 
   1442        1.134   thorpej 	memset(v, 0, sizeof(struct pmap));
   1443        1.134   thorpej 	return (0);
   1444         1.93   thorpej }
   1445         1.93   thorpej 
   1446   1.164.12.3      matt static void
   1447   1.164.12.3      matt pmap_pinit(pmap_t pm)
   1448   1.164.12.3      matt {
   1449   1.164.12.3      matt 	struct l2_bucket *l2b;
   1450   1.164.12.3      matt 
   1451   1.164.12.3      matt 	if (vector_page < KERNEL_BASE) {
   1452   1.164.12.3      matt 		/*
   1453   1.164.12.3      matt 		 * Map the vector page.
   1454   1.164.12.3      matt 		 */
   1455   1.164.12.3      matt 		pmap_enter(pm, vector_page, systempage.pv_pa,
   1456   1.164.12.3      matt 		    VM_PROT_READ, VM_PROT_READ | PMAP_WIRED);
   1457   1.164.12.3      matt 		pmap_update(pm);
   1458   1.164.12.3      matt 
   1459   1.164.12.3      matt 		pm->pm_pl1vec = &pm->pm_l1->l1_kva[L1_IDX(vector_page)];
   1460   1.164.12.3      matt 		l2b = pmap_get_l2_bucket(pm, vector_page);
   1461   1.164.12.3      matt 		pm->pm_l1vec = l2b->l2b_phys | L1_C_PROTO |
   1462   1.164.12.3      matt 		    L1_C_DOM(pm->pm_domain);
   1463   1.164.12.3      matt 	} else
   1464   1.164.12.3      matt 		pm->pm_pl1vec = NULL;
   1465   1.164.12.3      matt }
   1466   1.164.12.3      matt 
   1467   1.164.12.2      matt #ifdef PMAP_CACHE_VIVT
   1468         1.93   thorpej /*
   1469        1.134   thorpej  * Since we have a virtually indexed cache, we may need to inhibit caching if
   1470        1.134   thorpej  * there is more than one mapping and at least one of them is writable.
   1471        1.134   thorpej  * Since we purge the cache on every context switch, we only need to check for
   1472        1.134   thorpej  * other mappings within the same pmap, or kernel_pmap.
   1473        1.134   thorpej  * This function is also called when a page is unmapped, to possibly reenable
   1474        1.134   thorpej  * caching on any remaining mappings.
   1475        1.134   thorpej  *
   1476        1.134   thorpej  * The code implements the following logic, where:
   1477        1.134   thorpej  *
   1478        1.134   thorpej  * KW = # of kernel read/write pages
   1479        1.134   thorpej  * KR = # of kernel read only pages
   1480        1.134   thorpej  * UW = # of user read/write pages
   1481        1.134   thorpej  * UR = # of user read only pages
   1482        1.134   thorpej  *
   1483        1.134   thorpej  * KC = kernel mapping is cacheable
   1484        1.134   thorpej  * UC = user mapping is cacheable
   1485         1.93   thorpej  *
   1486        1.134   thorpej  *               KW=0,KR=0  KW=0,KR>0  KW=1,KR=0  KW>1,KR>=0
   1487        1.134   thorpej  *             +---------------------------------------------
   1488        1.134   thorpej  * UW=0,UR=0   | ---        KC=1       KC=1       KC=0
   1489        1.134   thorpej  * UW=0,UR>0   | UC=1       KC=1,UC=1  KC=0,UC=0  KC=0,UC=0
   1490        1.134   thorpej  * UW=1,UR=0   | UC=1       KC=0,UC=0  KC=0,UC=0  KC=0,UC=0
   1491        1.134   thorpej  * UW>1,UR>=0  | UC=0       KC=0,UC=0  KC=0,UC=0  KC=0,UC=0
   1492         1.93   thorpej  */
   1493        1.111   thorpej 
   1494        1.134   thorpej static const int pmap_vac_flags[4][4] = {
   1495        1.134   thorpej 	{-1,		0,		0,		PVF_KNC},
   1496        1.134   thorpej 	{0,		0,		PVF_NC,		PVF_NC},
   1497        1.134   thorpej 	{0,		PVF_NC,		PVF_NC,		PVF_NC},
   1498        1.134   thorpej 	{PVF_UNC,	PVF_NC,		PVF_NC,		PVF_NC}
   1499        1.134   thorpej };
   1500         1.93   thorpej 
   1501        1.157     perry static inline int
   1502        1.134   thorpej pmap_get_vac_flags(const struct vm_page *pg)
   1503        1.134   thorpej {
   1504        1.134   thorpej 	int kidx, uidx;
   1505         1.93   thorpej 
   1506        1.134   thorpej 	kidx = 0;
   1507        1.134   thorpej 	if (pg->mdpage.kro_mappings || pg->mdpage.krw_mappings > 1)
   1508        1.134   thorpej 		kidx |= 1;
   1509        1.134   thorpej 	if (pg->mdpage.krw_mappings)
   1510        1.134   thorpej 		kidx |= 2;
   1511        1.134   thorpej 
   1512        1.134   thorpej 	uidx = 0;
   1513        1.134   thorpej 	if (pg->mdpage.uro_mappings || pg->mdpage.urw_mappings > 1)
   1514        1.134   thorpej 		uidx |= 1;
   1515        1.134   thorpej 	if (pg->mdpage.urw_mappings)
   1516        1.134   thorpej 		uidx |= 2;
   1517        1.111   thorpej 
   1518        1.134   thorpej 	return (pmap_vac_flags[uidx][kidx]);
   1519        1.111   thorpej }
   1520        1.111   thorpej 
   1521        1.157     perry static inline void
   1522        1.134   thorpej pmap_vac_me_harder(struct vm_page *pg, pmap_t pm, vaddr_t va)
   1523        1.111   thorpej {
   1524        1.134   thorpej 	int nattr;
   1525        1.134   thorpej 
   1526        1.134   thorpej 	nattr = pmap_get_vac_flags(pg);
   1527        1.111   thorpej 
   1528        1.134   thorpej 	if (nattr < 0) {
   1529        1.134   thorpej 		pg->mdpage.pvh_attrs &= ~PVF_NC;
   1530        1.134   thorpej 		return;
   1531        1.134   thorpej 	}
   1532         1.93   thorpej 
   1533        1.134   thorpej 	if (nattr == 0 && (pg->mdpage.pvh_attrs & PVF_NC) == 0)
   1534        1.134   thorpej 		return;
   1535        1.111   thorpej 
   1536        1.134   thorpej 	if (pm == pmap_kernel())
   1537        1.134   thorpej 		pmap_vac_me_kpmap(pg, pm, va);
   1538        1.134   thorpej 	else
   1539        1.134   thorpej 		pmap_vac_me_user(pg, pm, va);
   1540        1.134   thorpej 
   1541        1.134   thorpej 	pg->mdpage.pvh_attrs = (pg->mdpage.pvh_attrs & ~PVF_NC) | nattr;
   1542         1.93   thorpej }
   1543         1.93   thorpej 
   1544        1.134   thorpej static void
   1545        1.134   thorpej pmap_vac_me_kpmap(struct vm_page *pg, pmap_t pm, vaddr_t va)
   1546          1.1      matt {
   1547        1.134   thorpej 	u_int u_cacheable, u_entries;
   1548        1.134   thorpej 	struct pv_entry *pv;
   1549        1.134   thorpej 	pmap_t last_pmap = pm;
   1550        1.134   thorpej 
   1551        1.134   thorpej 	/*
   1552        1.134   thorpej 	 * Pass one, see if there are both kernel and user pmaps for
   1553        1.134   thorpej 	 * this page.  Calculate whether there are user-writable or
   1554        1.134   thorpej 	 * kernel-writable pages.
   1555        1.134   thorpej 	 */
   1556        1.134   thorpej 	u_cacheable = 0;
   1557        1.134   thorpej 	for (pv = pg->mdpage.pvh_list; pv; pv = pv->pv_next) {
   1558        1.134   thorpej 		if (pv->pv_pmap != pm && (pv->pv_flags & PVF_NC) == 0)
   1559        1.134   thorpej 			u_cacheable++;
   1560          1.1      matt 	}
   1561          1.1      matt 
   1562        1.134   thorpej 	u_entries = pg->mdpage.urw_mappings + pg->mdpage.uro_mappings;
   1563          1.1      matt 
   1564        1.134   thorpej 	/*
   1565        1.134   thorpej 	 * We know we have just been updating a kernel entry, so if
   1566        1.134   thorpej 	 * all user pages are already cacheable, then there is nothing
   1567        1.134   thorpej 	 * further to do.
   1568        1.134   thorpej 	 */
   1569        1.134   thorpej 	if (pg->mdpage.k_mappings == 0 && u_cacheable == u_entries)
   1570        1.134   thorpej 		return;
   1571          1.1      matt 
   1572        1.134   thorpej 	if (u_entries) {
   1573        1.134   thorpej 		/*
   1574        1.134   thorpej 		 * Scan over the list again, for each entry, if it
   1575        1.134   thorpej 		 * might not be set correctly, call pmap_vac_me_user
   1576        1.134   thorpej 		 * to recalculate the settings.
   1577        1.134   thorpej 		 */
   1578        1.134   thorpej 		for (pv = pg->mdpage.pvh_list; pv; pv = pv->pv_next) {
   1579        1.134   thorpej 			/*
   1580        1.134   thorpej 			 * We know kernel mappings will get set
   1581        1.134   thorpej 			 * correctly in other calls.  We also know
   1582        1.134   thorpej 			 * that if the pmap is the same as last_pmap
   1583        1.134   thorpej 			 * then we've just handled this entry.
   1584        1.134   thorpej 			 */
   1585        1.134   thorpej 			if (pv->pv_pmap == pm || pv->pv_pmap == last_pmap)
   1586        1.134   thorpej 				continue;
   1587          1.1      matt 
   1588        1.134   thorpej 			/*
   1589        1.134   thorpej 			 * If there are kernel entries and this page
   1590        1.134   thorpej 			 * is writable but non-cacheable, then we can
   1591        1.134   thorpej 			 * skip this entry also.
   1592        1.134   thorpej 			 */
   1593        1.134   thorpej 			if (pg->mdpage.k_mappings &&
   1594        1.134   thorpej 			    (pv->pv_flags & (PVF_NC | PVF_WRITE)) ==
   1595        1.134   thorpej 			    (PVF_NC | PVF_WRITE))
   1596        1.134   thorpej 				continue;
   1597        1.111   thorpej 
   1598        1.134   thorpej 			/*
   1599        1.134   thorpej 			 * Similarly if there are no kernel-writable
   1600        1.134   thorpej 			 * entries and the page is already
   1601        1.134   thorpej 			 * read-only/cacheable.
   1602        1.134   thorpej 			 */
   1603        1.134   thorpej 			if (pg->mdpage.krw_mappings == 0 &&
   1604        1.134   thorpej 			    (pv->pv_flags & (PVF_NC | PVF_WRITE)) == 0)
   1605        1.134   thorpej 				continue;
   1606          1.5    toshii 
   1607        1.134   thorpej 			/*
   1608        1.134   thorpej 			 * For some of the remaining cases, we know
   1609        1.134   thorpej 			 * that we must recalculate, but for others we
   1610        1.134   thorpej 			 * can't tell if they are correct or not, so
   1611        1.134   thorpej 			 * we recalculate anyway.
   1612        1.134   thorpej 			 */
   1613        1.134   thorpej 			pmap_vac_me_user(pg, (last_pmap = pv->pv_pmap), 0);
   1614        1.134   thorpej 		}
   1615         1.48     chris 
   1616        1.134   thorpej 		if (pg->mdpage.k_mappings == 0)
   1617        1.134   thorpej 			return;
   1618        1.111   thorpej 	}
   1619        1.111   thorpej 
   1620        1.134   thorpej 	pmap_vac_me_user(pg, pm, va);
   1621        1.134   thorpej }
   1622        1.111   thorpej 
   1623        1.134   thorpej static void
   1624        1.134   thorpej pmap_vac_me_user(struct vm_page *pg, pmap_t pm, vaddr_t va)
   1625        1.134   thorpej {
   1626        1.134   thorpej 	pmap_t kpmap = pmap_kernel();
   1627        1.134   thorpej 	struct pv_entry *pv, *npv;
   1628        1.134   thorpej 	struct l2_bucket *l2b;
   1629        1.134   thorpej 	pt_entry_t *ptep, pte;
   1630        1.134   thorpej 	u_int entries = 0;
   1631        1.134   thorpej 	u_int writable = 0;
   1632        1.134   thorpej 	u_int cacheable_entries = 0;
   1633        1.134   thorpej 	u_int kern_cacheable = 0;
   1634        1.134   thorpej 	u_int other_writable = 0;
   1635         1.48     chris 
   1636        1.134   thorpej 	/*
   1637        1.134   thorpej 	 * Count mappings and writable mappings in this pmap.
   1638        1.134   thorpej 	 * Include kernel mappings as part of our own.
   1639        1.134   thorpej 	 * Keep a pointer to the first one.
   1640        1.134   thorpej 	 */
   1641        1.134   thorpej 	for (pv = npv = pg->mdpage.pvh_list; pv; pv = pv->pv_next) {
   1642        1.134   thorpej 		/* Count mappings in the same pmap */
   1643        1.134   thorpej 		if (pm == pv->pv_pmap || kpmap == pv->pv_pmap) {
   1644        1.134   thorpej 			if (entries++ == 0)
   1645        1.134   thorpej 				npv = pv;
   1646          1.1      matt 
   1647        1.134   thorpej 			/* Cacheable mappings */
   1648        1.134   thorpej 			if ((pv->pv_flags & PVF_NC) == 0) {
   1649        1.134   thorpej 				cacheable_entries++;
   1650        1.134   thorpej 				if (kpmap == pv->pv_pmap)
   1651        1.134   thorpej 					kern_cacheable++;
   1652        1.134   thorpej 			}
   1653        1.110   thorpej 
   1654        1.134   thorpej 			/* Writable mappings */
   1655        1.134   thorpej 			if (pv->pv_flags & PVF_WRITE)
   1656        1.134   thorpej 				++writable;
   1657        1.134   thorpej 		} else
   1658        1.134   thorpej 		if (pv->pv_flags & PVF_WRITE)
   1659        1.134   thorpej 			other_writable = 1;
   1660        1.134   thorpej 	}
   1661          1.1      matt 
   1662        1.134   thorpej 	/*
   1663        1.134   thorpej 	 * Enable or disable caching as necessary.
   1664        1.134   thorpej 	 * Note: the first entry might be part of the kernel pmap,
   1665        1.134   thorpej 	 * so we can't assume this is indicative of the state of the
   1666        1.134   thorpej 	 * other (maybe non-kpmap) entries.
   1667        1.134   thorpej 	 */
   1668        1.134   thorpej 	if ((entries > 1 && writable) ||
   1669        1.134   thorpej 	    (entries > 0 && pm == kpmap && other_writable)) {
   1670        1.134   thorpej 		if (cacheable_entries == 0)
   1671        1.134   thorpej 			return;
   1672          1.1      matt 
   1673        1.134   thorpej 		for (pv = npv; pv; pv = pv->pv_next) {
   1674        1.134   thorpej 			if ((pm != pv->pv_pmap && kpmap != pv->pv_pmap) ||
   1675        1.134   thorpej 			    (pv->pv_flags & PVF_NC))
   1676        1.134   thorpej 				continue;
   1677          1.1      matt 
   1678        1.134   thorpej 			pv->pv_flags |= PVF_NC;
   1679         1.26  rearnsha 
   1680        1.134   thorpej 			l2b = pmap_get_l2_bucket(pv->pv_pmap, pv->pv_va);
   1681        1.134   thorpej 			ptep = &l2b->l2b_kva[l2pte_index(pv->pv_va)];
   1682        1.134   thorpej 			pte = *ptep & ~L2_S_CACHE_MASK;
   1683        1.134   thorpej 
   1684        1.134   thorpej 			if ((va != pv->pv_va || pm != pv->pv_pmap) &&
   1685        1.134   thorpej 			    l2pte_valid(pte)) {
   1686        1.134   thorpej 				if (PV_BEEN_EXECD(pv->pv_flags)) {
   1687   1.164.12.2      matt #ifdef PMAP_CACHE_VIVT
   1688        1.134   thorpej 					pmap_idcache_wbinv_range(pv->pv_pmap,
   1689        1.134   thorpej 					    pv->pv_va, PAGE_SIZE);
   1690   1.164.12.2      matt #endif
   1691        1.134   thorpej 					pmap_tlb_flushID_SE(pv->pv_pmap,
   1692        1.134   thorpej 					    pv->pv_va);
   1693        1.134   thorpej 				} else
   1694        1.134   thorpej 				if (PV_BEEN_REFD(pv->pv_flags)) {
   1695   1.164.12.2      matt #ifdef PMAP_CACHE_VIVT
   1696        1.134   thorpej 					pmap_dcache_wb_range(pv->pv_pmap,
   1697        1.160   thorpej 					    pv->pv_va, PAGE_SIZE, true,
   1698        1.134   thorpej 					    (pv->pv_flags & PVF_WRITE) == 0);
   1699   1.164.12.2      matt #endif
   1700        1.134   thorpej 					pmap_tlb_flushD_SE(pv->pv_pmap,
   1701        1.134   thorpej 					    pv->pv_va);
   1702        1.134   thorpej 				}
   1703        1.134   thorpej 			}
   1704          1.1      matt 
   1705        1.134   thorpej 			*ptep = pte;
   1706        1.134   thorpej 			PTE_SYNC_CURRENT(pv->pv_pmap, ptep);
   1707        1.134   thorpej 		}
   1708        1.134   thorpej 		cpu_cpwait();
   1709        1.134   thorpej 	} else
   1710        1.134   thorpej 	if (entries > cacheable_entries) {
   1711          1.1      matt 		/*
   1712        1.134   thorpej 		 * Turn cacheing back on for some pages.  If it is a kernel
   1713        1.134   thorpej 		 * page, only do so if there are no other writable pages.
   1714          1.1      matt 		 */
   1715        1.134   thorpej 		for (pv = npv; pv; pv = pv->pv_next) {
   1716        1.134   thorpej 			if (!(pv->pv_flags & PVF_NC) || (pm != pv->pv_pmap &&
   1717        1.134   thorpej 			    (kpmap != pv->pv_pmap || other_writable)))
   1718        1.134   thorpej 				continue;
   1719        1.134   thorpej 
   1720        1.134   thorpej 			pv->pv_flags &= ~PVF_NC;
   1721          1.1      matt 
   1722        1.134   thorpej 			l2b = pmap_get_l2_bucket(pv->pv_pmap, pv->pv_va);
   1723        1.134   thorpej 			ptep = &l2b->l2b_kva[l2pte_index(pv->pv_va)];
   1724        1.134   thorpej 			pte = (*ptep & ~L2_S_CACHE_MASK) | pte_l2_s_cache_mode;
   1725        1.134   thorpej 
   1726        1.134   thorpej 			if (l2pte_valid(pte)) {
   1727        1.134   thorpej 				if (PV_BEEN_EXECD(pv->pv_flags)) {
   1728        1.134   thorpej 					pmap_tlb_flushID_SE(pv->pv_pmap,
   1729        1.134   thorpej 					    pv->pv_va);
   1730        1.134   thorpej 				} else
   1731        1.134   thorpej 				if (PV_BEEN_REFD(pv->pv_flags)) {
   1732        1.134   thorpej 					pmap_tlb_flushD_SE(pv->pv_pmap,
   1733        1.134   thorpej 					    pv->pv_va);
   1734        1.134   thorpej 				}
   1735        1.134   thorpej 			}
   1736          1.1      matt 
   1737        1.134   thorpej 			*ptep = pte;
   1738        1.134   thorpej 			PTE_SYNC_CURRENT(pv->pv_pmap, ptep);
   1739        1.134   thorpej 		}
   1740        1.111   thorpej 	}
   1741          1.1      matt }
   1742   1.164.12.2      matt #endif
   1743   1.164.12.2      matt 
   1744   1.164.12.2      matt #ifdef PMAP_CACHE_VIPT
   1745   1.164.12.2      matt /*
   1746   1.164.12.2      matt  * For virtually indexed / physically tagged caches, what we have to worry
   1747   1.164.12.2      matt  * about is illegal cache aliases.  To prevent this, we must ensure that
   1748   1.164.12.2      matt  * virtual addresses that map the physical page use the same bits for those
   1749   1.164.12.2      matt  * bits masked by "arm_cache_prefer_mask" (bits 12+).  If there is a conflict,
   1750   1.164.12.2      matt  * all mappings of the page must be non-cached.
   1751   1.164.12.2      matt  */
   1752   1.164.12.2      matt #if 0
   1753   1.164.12.2      matt static inline vaddr_t
   1754   1.164.12.2      matt pmap_check_sets(paddr_t pa)
   1755   1.164.12.2      matt {
   1756   1.164.12.2      matt 	extern int arm_dcache_l2_nsets;
   1757   1.164.12.2      matt 	int set, way;
   1758   1.164.12.2      matt 	vaddr_t mask = 0;
   1759   1.164.12.2      matt 	int v;
   1760   1.164.12.2      matt 	pa |= 1;
   1761   1.164.12.2      matt 	for (set = 0; set < (1 << arm_dcache_l2_nsets); set++) {
   1762   1.164.12.2      matt 		for (way = 0; way < 4; way++) {
   1763   1.164.12.2      matt 			v = (way << 30) | (set << 5);
   1764   1.164.12.2      matt 			asm("mcr	p15, 3, %0, c15, c2, 0" :: "r"(v));
   1765   1.164.12.2      matt 			asm("mrc	p15, 3, %0, c15, c0, 0" : "=r"(v));
   1766   1.164.12.2      matt 
   1767   1.164.12.2      matt 			if ((v & (1 | ~(PAGE_SIZE-1))) == pa) {
   1768   1.164.12.2      matt 				mask |= 1 << (set >> 7);
   1769   1.164.12.2      matt 			}
   1770   1.164.12.2      matt 		}
   1771   1.164.12.2      matt 	}
   1772   1.164.12.2      matt 	return mask;
   1773   1.164.12.2      matt }
   1774   1.164.12.2      matt #endif
   1775   1.164.12.2      matt static void
   1776   1.164.12.2      matt pmap_vac_me_harder(struct vm_page *pg, pmap_t pm, vaddr_t va)
   1777   1.164.12.2      matt {
   1778   1.164.12.2      matt 	struct pv_entry *pv, pv0;
   1779   1.164.12.2      matt 	vaddr_t tst_mask;
   1780   1.164.12.2      matt 	bool bad_alias;
   1781   1.164.12.2      matt 	struct l2_bucket *l2b;
   1782   1.164.12.2      matt 	pt_entry_t *ptep, pte, opte;
   1783   1.164.12.2      matt 
   1784   1.164.12.2      matt 	/* do we need to do anything? */
   1785   1.164.12.2      matt 	if (arm_cache_prefer_mask == 0)
   1786   1.164.12.2      matt 		return;
   1787   1.164.12.2      matt 
   1788   1.164.12.2      matt 	NPDEBUG(PDB_VAC, printf("pmap_vac_me_harder: pg=%p, pmap=%p va=%08lx\n",
   1789   1.164.12.2      matt 	    pg, pm, va));
   1790   1.164.12.2      matt 
   1791   1.164.12.2      matt #define popc4(x) \
   1792   1.164.12.2      matt 	(((0x94 >> ((x & 3) << 1)) & 3) + ((0x94 >> ((x & 12) >> 1)) & 3))
   1793   1.164.12.2      matt #if 0
   1794   1.164.12.2      matt 	tst_mask = pmap_check_sets(pg->phys_addr);
   1795   1.164.12.2      matt 	KASSERT(popc4(tst_mask) < 2);
   1796   1.164.12.2      matt #endif
   1797   1.164.12.2      matt 
   1798   1.164.12.2      matt 	KASSERT(!va || pm || (pg->mdpage.pvh_attrs & PVF_KENTRY));
   1799   1.164.12.2      matt 
   1800   1.164.12.2      matt 	/* Already a conflict? */
   1801   1.164.12.2      matt 	if (__predict_false(pg->mdpage.pvh_attrs & PVF_NC)) {
   1802   1.164.12.2      matt 		/* just an add, things are already non-cached */
   1803   1.164.12.2      matt 		bad_alias = false;
   1804   1.164.12.2      matt 		if (va) {
   1805   1.164.12.2      matt 			PMAPCOUNT(vac_color_none);
   1806   1.164.12.2      matt 			bad_alias = true;
   1807   1.164.12.2      matt 			goto fixup;
   1808   1.164.12.2      matt 		}
   1809   1.164.12.2      matt 		pv = pg->mdpage.pvh_list;
   1810   1.164.12.2      matt 		/* the list can't be empty because it would be cachable */
   1811   1.164.12.2      matt 		if (pg->mdpage.pvh_attrs & PVF_KENTRY) {
   1812   1.164.12.2      matt 			tst_mask = pg->mdpage.pvh_attrs;
   1813   1.164.12.2      matt 		} else {
   1814   1.164.12.2      matt 			KASSERT(pv);
   1815   1.164.12.2      matt 			tst_mask = pv->pv_va;
   1816   1.164.12.2      matt 			pv = pv->pv_next;
   1817   1.164.12.2      matt 		}
   1818   1.164.12.2      matt 		tst_mask &= arm_cache_prefer_mask;
   1819   1.164.12.2      matt 		for (; pv && !bad_alias; pv = pv->pv_next) {
   1820   1.164.12.2      matt 			/* if there's a bad alias, stop checking. */
   1821   1.164.12.2      matt 			if (tst_mask != (pv->pv_va & arm_cache_prefer_mask))
   1822   1.164.12.2      matt 				bad_alias = true;
   1823   1.164.12.2      matt 		}
   1824   1.164.12.2      matt 		/* If no conflicting colors, set everything back to cached */
   1825   1.164.12.2      matt 		if (!bad_alias) {
   1826   1.164.12.2      matt 			PMAPCOUNT(vac_color_restore);
   1827   1.164.12.2      matt 			pg->mdpage.pvh_attrs |= PVF_COLORED;
   1828   1.164.12.2      matt 			if (!(pg->mdpage.pvh_attrs & PVF_KENTRY)) {
   1829   1.164.12.2      matt 				pg->mdpage.pvh_attrs &= PAGE_SIZE - 1;
   1830   1.164.12.2      matt 				pg->mdpage.pvh_attrs |= tst_mask;
   1831   1.164.12.2      matt 			}
   1832   1.164.12.2      matt 			pg->mdpage.pvh_attrs &= ~PVF_NC;
   1833   1.164.12.2      matt 		} else {
   1834   1.164.12.2      matt 			KASSERT(pg->mdpage.pvh_list != NULL);
   1835   1.164.12.2      matt 			KASSERT((pg->mdpage.pvh_attrs & PVF_KENTRY)
   1836   1.164.12.2      matt 			     || pg->mdpage.pvh_list->pv_next != NULL);
   1837   1.164.12.2      matt 		}
   1838   1.164.12.2      matt 	} else if (!va) {
   1839   1.164.12.2      matt 		KASSERT(pmap_is_page_colored_p(pg));
   1840   1.164.12.2      matt 		if (pm == NULL)
   1841   1.164.12.2      matt 			pg->mdpage.pvh_attrs &=
   1842   1.164.12.2      matt 			    (PAGE_SIZE - 1) | arm_cache_prefer_mask;
   1843   1.164.12.2      matt 		return;
   1844   1.164.12.2      matt 	} else if (!pmap_is_page_colored_p(pg)) {
   1845   1.164.12.2      matt 		/* not colored so we just use its color */
   1846   1.164.12.2      matt 		PMAPCOUNT(vac_color_new);
   1847   1.164.12.2      matt 		pg->mdpage.pvh_attrs &= PAGE_SIZE - 1;
   1848   1.164.12.2      matt 		if (pm == NULL)
   1849   1.164.12.2      matt 			pg->mdpage.pvh_attrs |= PVF_COLORED | va;
   1850   1.164.12.2      matt 		else
   1851   1.164.12.2      matt 			pg->mdpage.pvh_attrs |= PVF_COLORED
   1852   1.164.12.2      matt 			    | (va & arm_cache_prefer_mask);
   1853   1.164.12.2      matt 		return;
   1854   1.164.12.2      matt 	} else if (!((pg->mdpage.pvh_attrs ^ va) & arm_cache_prefer_mask)) {
   1855   1.164.12.2      matt 		if (pm == NULL) {
   1856   1.164.12.2      matt 			pg->mdpage.pvh_attrs &= PAGE_SIZE - 1;
   1857   1.164.12.2      matt 			pg->mdpage.pvh_attrs |= va;
   1858   1.164.12.2      matt 		}
   1859   1.164.12.2      matt 		if (pg->mdpage.pvh_list)
   1860   1.164.12.2      matt 			PMAPCOUNT(vac_color_reuse);
   1861   1.164.12.2      matt 		else
   1862   1.164.12.2      matt 			PMAPCOUNT(vac_color_ok);
   1863   1.164.12.2      matt 		/* matching color, just return */
   1864   1.164.12.2      matt 		return;
   1865   1.164.12.2      matt 	} else {
   1866   1.164.12.2      matt 		/* color conflict.  evict from cache. */
   1867   1.164.12.2      matt 		pmap_flush_page(pg);
   1868   1.164.12.2      matt 
   1869   1.164.12.2      matt 		/* the list can't be empty because this was a enter/modify */
   1870   1.164.12.2      matt 		pv = pg->mdpage.pvh_list;
   1871   1.164.12.2      matt 		KASSERT((pg->mdpage.pvh_attrs & PVF_KENTRY) || pv);
   1872   1.164.12.2      matt 
   1873   1.164.12.2      matt 		/*
   1874   1.164.12.2      matt 		 * If there's only one mapped page, change color to the
   1875   1.164.12.2      matt 		 * page's new color and return.
   1876   1.164.12.2      matt 		 */
   1877   1.164.12.2      matt 		if (((pg->mdpage.pvh_attrs & PVF_KENTRY)
   1878   1.164.12.2      matt 		    ? pv : pv->pv_next) == NULL) {
   1879   1.164.12.2      matt 			PMAPCOUNT(vac_color_change);
   1880   1.164.12.2      matt 			pg->mdpage.pvh_attrs &= PAGE_SIZE - 1;
   1881   1.164.12.2      matt 			if (pm == NULL)
   1882   1.164.12.2      matt 				pg->mdpage.pvh_attrs |= va;
   1883   1.164.12.2      matt 			else
   1884   1.164.12.2      matt 				pg->mdpage.pvh_attrs |=
   1885   1.164.12.2      matt 				    (va & arm_cache_prefer_mask);
   1886   1.164.12.2      matt 			return;
   1887   1.164.12.2      matt 		}
   1888   1.164.12.2      matt 		bad_alias = true;
   1889   1.164.12.2      matt 		pg->mdpage.pvh_attrs &= ~PVF_COLORED;
   1890   1.164.12.2      matt 		pg->mdpage.pvh_attrs |= PVF_NC;
   1891   1.164.12.2      matt 		PMAPCOUNT(vac_color_erase);
   1892   1.164.12.2      matt 	}
   1893   1.164.12.2      matt 
   1894   1.164.12.2      matt   fixup:
   1895   1.164.12.2      matt 	/*
   1896   1.164.12.2      matt 	 * If the pmap is NULL, then we got called from pmap_kenter_pa
   1897   1.164.12.2      matt 	 * and we must save the kenter'ed va.  And this changes the
   1898   1.164.12.2      matt 	 * color to match the kenter'ed page.  if this is a remove clear
   1899   1.164.12.2      matt 	 * saved va bits which retaining the color bits.
   1900   1.164.12.2      matt 	 */
   1901   1.164.12.2      matt 	if (pm == NULL) {
   1902   1.164.12.2      matt 		if (va) {
   1903   1.164.12.2      matt 			pg->mdpage.pvh_attrs &= (PAGE_SIZE - 1);
   1904   1.164.12.2      matt 			pg->mdpage.pvh_attrs |= va;
   1905   1.164.12.2      matt 		} else {
   1906   1.164.12.2      matt 			pg->mdpage.pvh_attrs &=
   1907   1.164.12.2      matt 			    ((PAGE_SIZE - 1) | arm_cache_prefer_mask);
   1908   1.164.12.2      matt 		}
   1909   1.164.12.2      matt 	}
   1910   1.164.12.2      matt 
   1911   1.164.12.2      matt 	pv = pg->mdpage.pvh_list;
   1912   1.164.12.2      matt 
   1913   1.164.12.2      matt 	/*
   1914   1.164.12.2      matt 	 * If this page has an kenter'ed mapping, fake up a pv entry.
   1915   1.164.12.2      matt 	 */
   1916   1.164.12.2      matt 	if (__predict_false(pg->mdpage.pvh_attrs & PVF_KENTRY)) {
   1917   1.164.12.2      matt 		pv0.pv_pmap = pmap_kernel();
   1918   1.164.12.2      matt 		pv0.pv_va = pg->mdpage.pvh_attrs & ~(PAGE_SIZE - 1);
   1919   1.164.12.2      matt 		pv0.pv_next = pv;
   1920   1.164.12.2      matt 		pv0.pv_flags = PVF_REF;
   1921   1.164.12.2      matt 		pv = &pv0;
   1922   1.164.12.2      matt 	}
   1923   1.164.12.2      matt 
   1924   1.164.12.2      matt 	/*
   1925   1.164.12.2      matt 	 * Turn cacheing on/off for all pages.
   1926   1.164.12.2      matt 	 */
   1927   1.164.12.2      matt 	for (; pv; pv = pv->pv_next) {
   1928   1.164.12.2      matt 		l2b = pmap_get_l2_bucket(pv->pv_pmap, pv->pv_va);
   1929   1.164.12.2      matt 		ptep = &l2b->l2b_kva[l2pte_index(pv->pv_va)];
   1930   1.164.12.2      matt 		opte = *ptep;
   1931   1.164.12.2      matt 		pte = opte & ~L2_S_CACHE_MASK;
   1932   1.164.12.2      matt 		if (bad_alias) {
   1933   1.164.12.2      matt 			pv->pv_flags |= PVF_NC;
   1934   1.164.12.2      matt 		} else {
   1935   1.164.12.2      matt 			pv->pv_flags &= ~PVF_NC;
   1936   1.164.12.2      matt 			pte |= pte_l2_s_cache_mode;
   1937   1.164.12.2      matt 		}
   1938   1.164.12.2      matt 		if (opte == pte)	/* only update is there's a change */
   1939   1.164.12.2      matt 			continue;
   1940   1.164.12.2      matt 
   1941   1.164.12.2      matt 		if (l2pte_valid(pte)) {
   1942   1.164.12.2      matt 			if (PV_BEEN_EXECD(pv->pv_flags)) {
   1943   1.164.12.2      matt 				pmap_tlb_flushID_SE(pv->pv_pmap, pv->pv_va);
   1944   1.164.12.2      matt 			} else if (PV_BEEN_REFD(pv->pv_flags)) {
   1945   1.164.12.2      matt 				pmap_tlb_flushD_SE(pv->pv_pmap, pv->pv_va);
   1946   1.164.12.2      matt 			}
   1947   1.164.12.2      matt 		}
   1948   1.164.12.2      matt 
   1949   1.164.12.2      matt 		*ptep = pte;
   1950   1.164.12.2      matt 		PTE_SYNC_CURRENT(pv->pv_pmap, ptep);
   1951   1.164.12.2      matt 	}
   1952   1.164.12.2      matt }
   1953   1.164.12.2      matt #endif	/* PMAP_CACHE_VIPT */
   1954   1.164.12.2      matt 
   1955          1.1      matt 
   1956          1.1      matt /*
   1957        1.134   thorpej  * Modify pte bits for all ptes corresponding to the given physical address.
   1958        1.134   thorpej  * We use `maskbits' rather than `clearbits' because we're always passing
   1959        1.134   thorpej  * constants and the latter would require an extra inversion at run-time.
   1960          1.1      matt  */
   1961        1.134   thorpej static void
   1962        1.134   thorpej pmap_clearbit(struct vm_page *pg, u_int maskbits)
   1963          1.1      matt {
   1964        1.134   thorpej 	struct l2_bucket *l2b;
   1965        1.134   thorpej 	struct pv_entry *pv;
   1966        1.134   thorpej 	pt_entry_t *ptep, npte, opte;
   1967        1.134   thorpej 	pmap_t pm;
   1968        1.134   thorpej 	vaddr_t va;
   1969        1.134   thorpej 	u_int oflags;
   1970   1.164.12.2      matt #ifdef PMAP_CACHE_VIPT
   1971   1.164.12.2      matt 	const bool want_syncicache = PV_IS_EXEC_P(pg->mdpage.pvh_attrs);
   1972   1.164.12.2      matt 	bool need_syncicache = false;
   1973   1.164.12.2      matt 	bool did_syncicache = false;
   1974   1.164.12.2      matt #endif
   1975          1.1      matt 
   1976        1.134   thorpej 	NPDEBUG(PDB_BITS,
   1977        1.134   thorpej 	    printf("pmap_clearbit: pg %p (0x%08lx) mask 0x%x\n",
   1978        1.155      yamt 	    pg, VM_PAGE_TO_PHYS(pg), maskbits));
   1979          1.1      matt 
   1980        1.134   thorpej 	PMAP_HEAD_TO_MAP_LOCK();
   1981        1.134   thorpej 	simple_lock(&pg->mdpage.pvh_slock);
   1982         1.17     chris 
   1983   1.164.12.2      matt #ifdef PMAP_CACHE_VIPT
   1984   1.164.12.2      matt 	/*
   1985   1.164.12.2      matt 	 * If we might want to sync the I-cache and we've modified it,
   1986   1.164.12.2      matt 	 * then we know we definitely need to sync or discard it.
   1987   1.164.12.2      matt 	 */
   1988   1.164.12.2      matt 	if (want_syncicache)
   1989   1.164.12.2      matt 		need_syncicache = pg->mdpage.pvh_attrs & PVF_MOD;
   1990   1.164.12.2      matt #endif
   1991         1.17     chris 	/*
   1992        1.134   thorpej 	 * Clear saved attributes (modify, reference)
   1993         1.17     chris 	 */
   1994        1.134   thorpej 	pg->mdpage.pvh_attrs &= ~(maskbits & (PVF_MOD | PVF_REF));
   1995        1.134   thorpej 
   1996        1.134   thorpej 	if (pg->mdpage.pvh_list == NULL) {
   1997   1.164.12.2      matt #ifdef PMAP_CACHE_VIPT
   1998   1.164.12.2      matt 		if (need_syncicache) {
   1999   1.164.12.2      matt 			/*
   2000   1.164.12.2      matt 			 * No one has it mapped, so just discard it.  The next
   2001   1.164.12.2      matt 			 * exec remapping will cause it to be synced.
   2002   1.164.12.2      matt 			 */
   2003   1.164.12.2      matt 			pg->mdpage.pvh_attrs &= ~PVF_EXEC;
   2004   1.164.12.2      matt 			PMAPCOUNT(exec_discarded_clearbit);
   2005   1.164.12.2      matt 		}
   2006   1.164.12.2      matt #endif
   2007        1.134   thorpej 		simple_unlock(&pg->mdpage.pvh_slock);
   2008        1.134   thorpej 		PMAP_HEAD_TO_MAP_UNLOCK();
   2009         1.17     chris 		return;
   2010          1.1      matt 	}
   2011          1.1      matt 
   2012         1.17     chris 	/*
   2013        1.134   thorpej 	 * Loop over all current mappings setting/clearing as appropos
   2014         1.17     chris 	 */
   2015        1.134   thorpej 	for (pv = pg->mdpage.pvh_list; pv; pv = pv->pv_next) {
   2016        1.134   thorpej 		va = pv->pv_va;
   2017        1.134   thorpej 		pm = pv->pv_pmap;
   2018        1.134   thorpej 		oflags = pv->pv_flags;
   2019        1.134   thorpej 		pv->pv_flags &= ~maskbits;
   2020         1.48     chris 
   2021        1.134   thorpej 		pmap_acquire_pmap_lock(pm);
   2022         1.48     chris 
   2023        1.134   thorpej 		l2b = pmap_get_l2_bucket(pm, va);
   2024        1.134   thorpej 		KDASSERT(l2b != NULL);
   2025          1.1      matt 
   2026        1.134   thorpej 		ptep = &l2b->l2b_kva[l2pte_index(va)];
   2027        1.134   thorpej 		npte = opte = *ptep;
   2028        1.114   thorpej 
   2029        1.134   thorpej 		NPDEBUG(PDB_BITS,
   2030        1.134   thorpej 		    printf(
   2031        1.134   thorpej 		    "pmap_clearbit: pv %p, pm %p, va 0x%08lx, flag 0x%x\n",
   2032        1.134   thorpej 		    pv, pv->pv_pmap, pv->pv_va, oflags));
   2033        1.114   thorpej 
   2034        1.134   thorpej 		if (maskbits & (PVF_WRITE|PVF_MOD)) {
   2035   1.164.12.2      matt #ifdef PMAP_CACHE_VIVT
   2036        1.134   thorpej 			if ((pv->pv_flags & PVF_NC)) {
   2037        1.134   thorpej 				/*
   2038        1.134   thorpej 				 * Entry is not cacheable:
   2039        1.134   thorpej 				 *
   2040        1.134   thorpej 				 * Don't turn caching on again if this is a
   2041        1.134   thorpej 				 * modified emulation. This would be
   2042        1.134   thorpej 				 * inconsitent with the settings created by
   2043        1.134   thorpej 				 * pmap_vac_me_harder(). Otherwise, it's safe
   2044        1.134   thorpej 				 * to re-enable cacheing.
   2045        1.134   thorpej 				 *
   2046        1.134   thorpej 				 * There's no need to call pmap_vac_me_harder()
   2047        1.134   thorpej 				 * here: all pages are losing their write
   2048        1.134   thorpej 				 * permission.
   2049        1.134   thorpej 				 */
   2050        1.134   thorpej 				if (maskbits & PVF_WRITE) {
   2051        1.134   thorpej 					npte |= pte_l2_s_cache_mode;
   2052        1.134   thorpej 					pv->pv_flags &= ~PVF_NC;
   2053        1.134   thorpej 				}
   2054        1.134   thorpej 			} else
   2055        1.134   thorpej 			if (opte & L2_S_PROT_W) {
   2056        1.134   thorpej 				/*
   2057        1.134   thorpej 				 * Entry is writable/cacheable: check if pmap
   2058        1.134   thorpej 				 * is current if it is flush it, otherwise it
   2059        1.134   thorpej 				 * won't be in the cache
   2060        1.134   thorpej 				 */
   2061        1.134   thorpej 				if (PV_BEEN_EXECD(oflags))
   2062        1.134   thorpej 					pmap_idcache_wbinv_range(pm, pv->pv_va,
   2063        1.134   thorpej 					    PAGE_SIZE);
   2064        1.134   thorpej 				else
   2065        1.134   thorpej 				if (PV_BEEN_REFD(oflags))
   2066        1.134   thorpej 					pmap_dcache_wb_range(pm, pv->pv_va,
   2067        1.134   thorpej 					    PAGE_SIZE,
   2068   1.164.12.2      matt 					    (maskbits & PVF_REF) != 0, false);
   2069        1.134   thorpej 			}
   2070   1.164.12.2      matt #endif
   2071        1.111   thorpej 
   2072        1.134   thorpej 			/* make the pte read only */
   2073        1.134   thorpej 			npte &= ~L2_S_PROT_W;
   2074        1.111   thorpej 
   2075   1.164.12.2      matt 			if (maskbits & oflags & PVF_WRITE) {
   2076        1.134   thorpej 				/*
   2077        1.134   thorpej 				 * Keep alias accounting up to date
   2078        1.134   thorpej 				 */
   2079        1.134   thorpej 				if (pv->pv_pmap == pmap_kernel()) {
   2080   1.164.12.2      matt 					pg->mdpage.krw_mappings--;
   2081   1.164.12.2      matt 					pg->mdpage.kro_mappings++;
   2082   1.164.12.2      matt 				} else {
   2083        1.134   thorpej 					pg->mdpage.urw_mappings--;
   2084        1.134   thorpej 					pg->mdpage.uro_mappings++;
   2085        1.134   thorpej 				}
   2086   1.164.12.2      matt #ifdef PMAP_CACHE_VIPT
   2087   1.164.12.2      matt 				if (want_syncicache)
   2088   1.164.12.2      matt 					need_syncicache = true;
   2089   1.164.12.2      matt #endif
   2090        1.134   thorpej 			}
   2091        1.134   thorpej 		}
   2092          1.1      matt 
   2093        1.134   thorpej 		if (maskbits & PVF_REF) {
   2094   1.164.12.2      matt #ifdef PMAP_CACHE_VIVT
   2095        1.134   thorpej 			if ((pv->pv_flags & PVF_NC) == 0 &&
   2096   1.164.12.2      matt 			    (maskbits & (PVF_WRITE|PVF_MOD)) == 0 &&
   2097   1.164.12.2      matt 			    l2pte_valid(npte)) {
   2098        1.134   thorpej 				/*
   2099        1.134   thorpej 				 * Check npte here; we may have already
   2100        1.134   thorpej 				 * done the wbinv above, and the validity
   2101        1.134   thorpej 				 * of the PTE is the same for opte and
   2102        1.134   thorpej 				 * npte.
   2103        1.134   thorpej 				 */
   2104   1.164.12.2      matt 				/* XXXJRT need idcache_inv_range */
   2105   1.164.12.2      matt 				if (PV_BEEN_EXECD(oflags))
   2106   1.164.12.2      matt 					pmap_idcache_wbinv_range(pm,
   2107   1.164.12.2      matt 					    pv->pv_va, PAGE_SIZE);
   2108   1.164.12.2      matt 				else
   2109   1.164.12.2      matt 				if (PV_BEEN_REFD(oflags))
   2110   1.164.12.2      matt 					pmap_dcache_wb_range(pm,
   2111   1.164.12.2      matt 					    pv->pv_va, PAGE_SIZE,
   2112   1.164.12.2      matt 					    true, true);
   2113        1.134   thorpej 			}
   2114   1.164.12.2      matt #endif
   2115          1.1      matt 
   2116        1.134   thorpej 			/*
   2117        1.134   thorpej 			 * Make the PTE invalid so that we will take a
   2118        1.134   thorpej 			 * page fault the next time the mapping is
   2119        1.134   thorpej 			 * referenced.
   2120        1.134   thorpej 			 */
   2121        1.134   thorpej 			npte &= ~L2_TYPE_MASK;
   2122        1.134   thorpej 			npte |= L2_TYPE_INV;
   2123        1.134   thorpej 		}
   2124          1.1      matt 
   2125        1.134   thorpej 		if (npte != opte) {
   2126        1.134   thorpej 			*ptep = npte;
   2127        1.134   thorpej 			PTE_SYNC(ptep);
   2128        1.134   thorpej 			/* Flush the TLB entry if a current pmap. */
   2129        1.134   thorpej 			if (PV_BEEN_EXECD(oflags))
   2130        1.134   thorpej 				pmap_tlb_flushID_SE(pm, pv->pv_va);
   2131        1.134   thorpej 			else
   2132        1.134   thorpej 			if (PV_BEEN_REFD(oflags))
   2133        1.134   thorpej 				pmap_tlb_flushD_SE(pm, pv->pv_va);
   2134        1.134   thorpej 		}
   2135          1.1      matt 
   2136        1.134   thorpej 		pmap_release_pmap_lock(pm);
   2137        1.133   thorpej 
   2138        1.134   thorpej 		NPDEBUG(PDB_BITS,
   2139        1.134   thorpej 		    printf("pmap_clearbit: pm %p va 0x%lx opte 0x%08x npte 0x%08x\n",
   2140        1.134   thorpej 		    pm, va, opte, npte));
   2141        1.134   thorpej 	}
   2142        1.133   thorpej 
   2143   1.164.12.2      matt #ifdef PMAP_CACHE_VIPT
   2144   1.164.12.2      matt 	/*
   2145   1.164.12.2      matt 	 * If we need to sync the I-cache and we haven't done it yet, do it.
   2146   1.164.12.2      matt 	 */
   2147   1.164.12.2      matt 	if (need_syncicache && !did_syncicache) {
   2148   1.164.12.2      matt 		pmap_syncicache_page(pg);
   2149   1.164.12.2      matt 		PMAPCOUNT(exec_synced_clearbit);
   2150   1.164.12.2      matt 	}
   2151   1.164.12.2      matt #endif
   2152   1.164.12.2      matt 
   2153        1.134   thorpej 	simple_unlock(&pg->mdpage.pvh_slock);
   2154        1.134   thorpej 	PMAP_HEAD_TO_MAP_UNLOCK();
   2155          1.1      matt }
   2156          1.1      matt 
   2157          1.1      matt /*
   2158        1.134   thorpej  * pmap_clean_page()
   2159        1.134   thorpej  *
   2160        1.134   thorpej  * This is a local function used to work out the best strategy to clean
   2161        1.134   thorpej  * a single page referenced by its entry in the PV table. It's used by
   2162        1.134   thorpej  * pmap_copy_page, pmap_zero page and maybe some others later on.
   2163        1.134   thorpej  *
   2164        1.134   thorpej  * Its policy is effectively:
   2165        1.134   thorpej  *  o If there are no mappings, we don't bother doing anything with the cache.
   2166        1.134   thorpej  *  o If there is one mapping, we clean just that page.
   2167        1.134   thorpej  *  o If there are multiple mappings, we clean the entire cache.
   2168        1.134   thorpej  *
   2169        1.134   thorpej  * So that some functions can be further optimised, it returns 0 if it didn't
   2170        1.134   thorpej  * clean the entire cache, or 1 if it did.
   2171        1.134   thorpej  *
   2172        1.134   thorpej  * XXX One bug in this routine is that if the pv_entry has a single page
   2173        1.134   thorpej  * mapped at 0x00000000 a whole cache clean will be performed rather than
   2174        1.134   thorpej  * just the 1 page. Since this should not occur in everyday use and if it does
   2175        1.134   thorpej  * it will just result in not the most efficient clean for the page.
   2176          1.1      matt  */
   2177   1.164.12.2      matt #ifdef PMAP_CACHE_VIVT
   2178        1.134   thorpej static int
   2179        1.159   thorpej pmap_clean_page(struct pv_entry *pv, bool is_src)
   2180          1.1      matt {
   2181        1.134   thorpej 	pmap_t pm, pm_to_clean = NULL;
   2182        1.134   thorpej 	struct pv_entry *npv;
   2183        1.134   thorpej 	u_int cache_needs_cleaning = 0;
   2184        1.134   thorpej 	u_int flags = 0;
   2185        1.134   thorpej 	vaddr_t page_to_clean = 0;
   2186          1.1      matt 
   2187        1.134   thorpej 	if (pv == NULL) {
   2188        1.134   thorpej 		/* nothing mapped in so nothing to flush */
   2189         1.17     chris 		return (0);
   2190        1.108   thorpej 	}
   2191         1.17     chris 
   2192        1.108   thorpej 	/*
   2193        1.134   thorpej 	 * Since we flush the cache each time we change to a different
   2194        1.134   thorpej 	 * user vmspace, we only need to flush the page if it is in the
   2195        1.134   thorpej 	 * current pmap.
   2196         1.17     chris 	 */
   2197         1.17     chris 	if (curproc)
   2198        1.134   thorpej 		pm = curproc->p_vmspace->vm_map.pmap;
   2199         1.17     chris 	else
   2200        1.134   thorpej 		pm = pmap_kernel();
   2201         1.17     chris 
   2202         1.17     chris 	for (npv = pv; npv; npv = npv->pv_next) {
   2203        1.134   thorpej 		if (npv->pv_pmap == pmap_kernel() || npv->pv_pmap == pm) {
   2204        1.134   thorpej 			flags |= npv->pv_flags;
   2205        1.108   thorpej 			/*
   2206        1.108   thorpej 			 * The page is mapped non-cacheable in
   2207         1.17     chris 			 * this map.  No need to flush the cache.
   2208         1.17     chris 			 */
   2209         1.78   thorpej 			if (npv->pv_flags & PVF_NC) {
   2210         1.17     chris #ifdef DIAGNOSTIC
   2211         1.17     chris 				if (cache_needs_cleaning)
   2212         1.17     chris 					panic("pmap_clean_page: "
   2213        1.108   thorpej 					    "cache inconsistency");
   2214         1.17     chris #endif
   2215         1.17     chris 				break;
   2216        1.108   thorpej 			} else if (is_src && (npv->pv_flags & PVF_WRITE) == 0)
   2217         1.17     chris 				continue;
   2218        1.108   thorpej 			if (cache_needs_cleaning) {
   2219         1.17     chris 				page_to_clean = 0;
   2220         1.17     chris 				break;
   2221        1.134   thorpej 			} else {
   2222         1.17     chris 				page_to_clean = npv->pv_va;
   2223        1.134   thorpej 				pm_to_clean = npv->pv_pmap;
   2224        1.134   thorpej 			}
   2225        1.134   thorpej 			cache_needs_cleaning = 1;
   2226         1.17     chris 		}
   2227          1.1      matt 	}
   2228          1.1      matt 
   2229        1.108   thorpej 	if (page_to_clean) {
   2230        1.134   thorpej 		if (PV_BEEN_EXECD(flags))
   2231        1.134   thorpej 			pmap_idcache_wbinv_range(pm_to_clean, page_to_clean,
   2232        1.134   thorpej 			    PAGE_SIZE);
   2233        1.134   thorpej 		else
   2234        1.134   thorpej 			pmap_dcache_wb_range(pm_to_clean, page_to_clean,
   2235        1.134   thorpej 			    PAGE_SIZE, !is_src, (flags & PVF_WRITE) == 0);
   2236        1.108   thorpej 	} else if (cache_needs_cleaning) {
   2237        1.134   thorpej 		if (PV_BEEN_EXECD(flags))
   2238        1.134   thorpej 			pmap_idcache_wbinv_all(pm);
   2239        1.134   thorpej 		else
   2240        1.134   thorpej 			pmap_dcache_wbinv_all(pm);
   2241          1.1      matt 		return (1);
   2242          1.1      matt 	}
   2243          1.1      matt 	return (0);
   2244          1.1      matt }
   2245   1.164.12.2      matt #endif
   2246   1.164.12.2      matt 
   2247   1.164.12.2      matt #ifdef PMAP_CACHE_VIPT
   2248   1.164.12.2      matt /*
   2249   1.164.12.2      matt  * Sync a page with the I-cache.  Since this is a VIPT, we must pick the
   2250   1.164.12.2      matt  * right cache alias to make sure we flush the right stuff.
   2251   1.164.12.2      matt  */
   2252   1.164.12.2      matt void
   2253   1.164.12.2      matt pmap_syncicache_page(struct vm_page *pg)
   2254   1.164.12.2      matt {
   2255   1.164.12.2      matt 	const vsize_t va_offset = pg->mdpage.pvh_attrs & arm_cache_prefer_mask;
   2256   1.164.12.2      matt 	pt_entry_t * const ptep = &cdst_pte[va_offset >> PGSHIFT];
   2257   1.164.12.2      matt 
   2258   1.164.12.2      matt 	NPDEBUG(PDB_EXEC, printf("pmap_syncicache_page: pg=%p (attrs=%#x)\n",
   2259   1.164.12.2      matt 	    pg, pg->mdpage.pvh_attrs));
   2260   1.164.12.2      matt 	/*
   2261   1.164.12.2      matt 	 * No need to clean the page if it's non-cached.
   2262   1.164.12.2      matt 	 */
   2263   1.164.12.2      matt 	if (pg->mdpage.pvh_attrs & PVF_NC)
   2264   1.164.12.2      matt 		return;
   2265   1.164.12.2      matt 	KASSERT(pg->mdpage.pvh_attrs & PVF_COLORED);
   2266   1.164.12.2      matt 
   2267   1.164.12.2      matt 	pmap_tlb_flushID_SE(pmap_kernel(), cdstp + va_offset);
   2268   1.164.12.2      matt 	/*
   2269   1.164.12.2      matt 	 * Set up a PTE with the right coloring to flush existing cache lines.
   2270   1.164.12.2      matt 	 */
   2271   1.164.12.2      matt 	*ptep = L2_S_PROTO |
   2272   1.164.12.2      matt 	    VM_PAGE_TO_PHYS(pg)
   2273   1.164.12.2      matt 	    | L2_S_PROT(PTE_KERNEL, VM_PROT_READ|VM_PROT_WRITE)
   2274   1.164.12.2      matt 	    | pte_l2_s_cache_mode;
   2275   1.164.12.2      matt 	PTE_SYNC(ptep);
   2276   1.164.12.2      matt 
   2277   1.164.12.2      matt 	/*
   2278   1.164.12.2      matt 	 * Flush it.
   2279   1.164.12.2      matt 	 */
   2280   1.164.12.2      matt 	cpu_icache_sync_range(cdstp + va_offset, PAGE_SIZE);
   2281   1.164.12.2      matt 	/*
   2282   1.164.12.2      matt 	 * Unmap the page.
   2283   1.164.12.2      matt 	 */
   2284   1.164.12.2      matt 	*ptep = 0;
   2285   1.164.12.2      matt 	PTE_SYNC(ptep);
   2286   1.164.12.2      matt 	pmap_tlb_flushID_SE(pmap_kernel(), cdstp + va_offset);
   2287   1.164.12.2      matt 
   2288   1.164.12.2      matt 	pg->mdpage.pvh_attrs |= PVF_EXEC;
   2289   1.164.12.2      matt 	PMAPCOUNT(exec_synced);
   2290   1.164.12.2      matt }
   2291   1.164.12.2      matt 
   2292   1.164.12.2      matt void
   2293   1.164.12.2      matt pmap_flush_page(struct vm_page *pg)
   2294   1.164.12.2      matt {
   2295   1.164.12.2      matt 	const vsize_t va_offset = pg->mdpage.pvh_attrs & arm_cache_prefer_mask;
   2296   1.164.12.2      matt 	const size_t pte_offset = va_offset >> PGSHIFT;
   2297   1.164.12.2      matt 	pt_entry_t * const ptep = &cdst_pte[pte_offset];
   2298  1.164.12.10      matt 	const pt_entry_t oldpte = *ptep;
   2299   1.164.12.2      matt #if 0
   2300   1.164.12.2      matt 	vaddr_t mask;
   2301   1.164.12.2      matt #endif
   2302   1.164.12.2      matt 
   2303   1.164.12.2      matt 	KASSERT(!(pg->mdpage.pvh_attrs & PVF_NC));
   2304   1.164.12.2      matt #if 0
   2305   1.164.12.2      matt 	mask = pmap_check_sets(pg->phys_addr);
   2306   1.164.12.2      matt 	KASSERT(popc4(mask) < 2);
   2307   1.164.12.2      matt #endif
   2308   1.164.12.2      matt 
   2309   1.164.12.2      matt 	NPDEBUG(PDB_VAC, printf("pmap_flush_page: pg=%p (attrs=%#x)\n",
   2310   1.164.12.2      matt 	    pg, pg->mdpage.pvh_attrs));
   2311   1.164.12.2      matt 	pmap_tlb_flushID_SE(pmap_kernel(), cdstp + va_offset);
   2312   1.164.12.2      matt 	/*
   2313   1.164.12.2      matt 	 * Set up a PTE with the right coloring to flush existing cache entries.
   2314   1.164.12.2      matt 	 */
   2315   1.164.12.2      matt 	*ptep = L2_S_PROTO
   2316   1.164.12.2      matt 	    | VM_PAGE_TO_PHYS(pg)
   2317   1.164.12.2      matt 	    | L2_S_PROT(PTE_KERNEL, VM_PROT_READ|VM_PROT_WRITE)
   2318   1.164.12.2      matt 	    | pte_l2_s_cache_mode;
   2319   1.164.12.2      matt 	PTE_SYNC(ptep);
   2320   1.164.12.2      matt 
   2321   1.164.12.2      matt 	/*
   2322   1.164.12.2      matt 	 * Flush it.
   2323   1.164.12.2      matt 	 */
   2324   1.164.12.2      matt 	cpu_idcache_wbinv_range(cdstp + va_offset, PAGE_SIZE);
   2325   1.164.12.2      matt 
   2326   1.164.12.2      matt 	/*
   2327  1.164.12.10      matt 	 * Restore the page table entry since we might have interrupted
   2328  1.164.12.10      matt 	 * pmap_zero_page or pmap_copy_page which was already using this pte.
   2329   1.164.12.2      matt 	 */
   2330  1.164.12.10      matt 	*ptep = oldpte;
   2331   1.164.12.2      matt 	PTE_SYNC(ptep);
   2332   1.164.12.2      matt 	pmap_tlb_flushID_SE(pmap_kernel(), cdstp + va_offset);
   2333   1.164.12.2      matt #if 0
   2334   1.164.12.2      matt 	mask = pmap_check_sets(pg->phys_addr);
   2335   1.164.12.2      matt 	KASSERT(mask == 0);
   2336   1.164.12.2      matt #endif
   2337   1.164.12.2      matt }
   2338   1.164.12.2      matt #endif /* PMAP_CACHE_VIPT */
   2339          1.1      matt 
   2340          1.1      matt /*
   2341        1.134   thorpej  * Routine:	pmap_page_remove
   2342        1.134   thorpej  * Function:
   2343        1.134   thorpej  *		Removes this physical page from
   2344        1.134   thorpej  *		all physical maps in which it resides.
   2345        1.134   thorpej  *		Reflects back modify bits to the pager.
   2346          1.1      matt  */
   2347        1.134   thorpej static void
   2348        1.134   thorpej pmap_page_remove(struct vm_page *pg)
   2349          1.1      matt {
   2350        1.134   thorpej 	struct l2_bucket *l2b;
   2351        1.134   thorpej 	struct pv_entry *pv, *npv;
   2352        1.134   thorpej 	pmap_t pm, curpm;
   2353        1.134   thorpej 	pt_entry_t *ptep, pte;
   2354        1.159   thorpej 	bool flush;
   2355        1.134   thorpej 	u_int flags;
   2356        1.134   thorpej 
   2357        1.134   thorpej 	NPDEBUG(PDB_FOLLOW,
   2358        1.155      yamt 	    printf("pmap_page_remove: pg %p (0x%08lx)\n", pg,
   2359        1.155      yamt 	    VM_PAGE_TO_PHYS(pg)));
   2360         1.71   thorpej 
   2361        1.134   thorpej 	PMAP_HEAD_TO_MAP_LOCK();
   2362        1.134   thorpej 	simple_lock(&pg->mdpage.pvh_slock);
   2363          1.1      matt 
   2364        1.134   thorpej 	pv = pg->mdpage.pvh_list;
   2365        1.134   thorpej 	if (pv == NULL) {
   2366   1.164.12.2      matt #ifdef PMAP_CACHE_VIPT
   2367   1.164.12.2      matt 		/*
   2368   1.164.12.2      matt 		 * We *know* the page contents are about to be replaced.
   2369   1.164.12.2      matt 		 * Discard the exec contents
   2370   1.164.12.2      matt 		 */
   2371   1.164.12.2      matt 		if (PV_IS_EXEC_P(pg->mdpage.pvh_attrs))
   2372   1.164.12.2      matt 			PMAPCOUNT(exec_discarded_page_protect);
   2373   1.164.12.2      matt 		pg->mdpage.pvh_attrs &= ~PVF_EXEC;
   2374   1.164.12.2      matt #endif
   2375        1.134   thorpej 		simple_unlock(&pg->mdpage.pvh_slock);
   2376        1.134   thorpej 		PMAP_HEAD_TO_MAP_UNLOCK();
   2377        1.134   thorpej 		return;
   2378        1.134   thorpej 	}
   2379   1.164.12.2      matt #ifdef PMAP_CACHE_VIPT
   2380   1.164.12.2      matt 	KASSERT(pmap_is_page_colored_p(pg));
   2381   1.164.12.2      matt #endif
   2382         1.79   thorpej 
   2383          1.1      matt 	/*
   2384        1.134   thorpej 	 * Clear alias counts
   2385          1.1      matt 	 */
   2386        1.134   thorpej 	pg->mdpage.k_mappings = 0;
   2387        1.134   thorpej 	pg->mdpage.urw_mappings = pg->mdpage.uro_mappings = 0;
   2388        1.134   thorpej 
   2389        1.160   thorpej 	flush = false;
   2390        1.134   thorpej 	flags = 0;
   2391        1.134   thorpej 	if (curproc)
   2392        1.134   thorpej 		curpm = curproc->p_vmspace->vm_map.pmap;
   2393        1.134   thorpej 	else
   2394        1.134   thorpej 		curpm = pmap_kernel();
   2395        1.134   thorpej 
   2396   1.164.12.2      matt #ifdef PMAP_CACHE_VIVT
   2397        1.160   thorpej 	pmap_clean_page(pv, false);
   2398   1.164.12.2      matt #endif
   2399        1.134   thorpej 
   2400        1.134   thorpej 	while (pv) {
   2401        1.134   thorpej 		pm = pv->pv_pmap;
   2402        1.160   thorpej 		if (flush == false && (pm == curpm || pm == pmap_kernel()))
   2403        1.160   thorpej 			flush = true;
   2404        1.134   thorpej 
   2405   1.164.12.2      matt 		if (pm == pmap_kernel())
   2406   1.164.12.2      matt 			PMAPCOUNT(kernel_unmappings);
   2407   1.164.12.2      matt 		PMAPCOUNT(unmappings);
   2408   1.164.12.2      matt 
   2409        1.134   thorpej 		pmap_acquire_pmap_lock(pm);
   2410        1.134   thorpej 
   2411        1.134   thorpej 		l2b = pmap_get_l2_bucket(pm, pv->pv_va);
   2412        1.134   thorpej 		KDASSERT(l2b != NULL);
   2413        1.134   thorpej 
   2414        1.134   thorpej 		ptep = &l2b->l2b_kva[l2pte_index(pv->pv_va)];
   2415        1.134   thorpej 		pte = *ptep;
   2416        1.134   thorpej 
   2417        1.134   thorpej 		/*
   2418        1.134   thorpej 		 * Update statistics
   2419        1.134   thorpej 		 */
   2420        1.134   thorpej 		--pm->pm_stats.resident_count;
   2421        1.134   thorpej 
   2422        1.134   thorpej 		/* Wired bit */
   2423        1.134   thorpej 		if (pv->pv_flags & PVF_WIRED)
   2424        1.134   thorpej 			--pm->pm_stats.wired_count;
   2425         1.88   thorpej 
   2426        1.134   thorpej 		flags |= pv->pv_flags;
   2427         1.88   thorpej 
   2428        1.134   thorpej 		/*
   2429        1.134   thorpej 		 * Invalidate the PTEs.
   2430        1.134   thorpej 		 */
   2431        1.134   thorpej 		*ptep = 0;
   2432        1.134   thorpej 		PTE_SYNC_CURRENT(pm, ptep);
   2433        1.134   thorpej 		pmap_free_l2_bucket(pm, l2b, 1);
   2434         1.88   thorpej 
   2435        1.134   thorpej 		npv = pv->pv_next;
   2436        1.134   thorpej 		pool_put(&pmap_pv_pool, pv);
   2437        1.134   thorpej 		pv = npv;
   2438   1.164.12.2      matt 		if (pv == NULL) {
   2439   1.164.12.2      matt 			pg->mdpage.pvh_list = NULL;
   2440   1.164.12.2      matt 			if (pg->mdpage.pvh_attrs & PVF_KENTRY)
   2441   1.164.12.2      matt 				pmap_vac_me_harder(pg, pm, 0);
   2442   1.164.12.2      matt 		}
   2443        1.134   thorpej 		pmap_release_pmap_lock(pm);
   2444        1.134   thorpej 	}
   2445   1.164.12.2      matt #ifdef PMAP_CACHE_VIPT
   2446   1.164.12.2      matt 	/*
   2447   1.164.12.2      matt 	 * Since there are now no mappings, there isn't reason to mark it
   2448   1.164.12.2      matt 	 * as uncached.  Its EXEC cache is also gone.
   2449   1.164.12.2      matt 	 */
   2450   1.164.12.2      matt 	if (PV_IS_EXEC_P(pg->mdpage.pvh_attrs))
   2451   1.164.12.2      matt 		PMAPCOUNT(exec_discarded_page_protect);
   2452   1.164.12.2      matt 	pg->mdpage.pvh_attrs &= ~(PVF_NC|PVF_EXEC);
   2453   1.164.12.2      matt #endif
   2454   1.164.12.2      matt #ifdef PMAP_CACHE_VIVT
   2455        1.134   thorpej 	pg->mdpage.pvh_list = NULL;
   2456   1.164.12.2      matt #endif
   2457        1.134   thorpej 	simple_unlock(&pg->mdpage.pvh_slock);
   2458        1.134   thorpej 	PMAP_HEAD_TO_MAP_UNLOCK();
   2459         1.88   thorpej 
   2460        1.134   thorpej 	if (flush) {
   2461        1.152       scw 		/*
   2462        1.152       scw 		 * Note: We can't use pmap_tlb_flush{I,}D() here since that
   2463        1.152       scw 		 * would need a subsequent call to pmap_update() to ensure
   2464        1.152       scw 		 * curpm->pm_cstate.cs_all is reset. Our callers are not
   2465        1.152       scw 		 * required to do that (see pmap(9)), so we can't modify
   2466        1.152       scw 		 * the current pmap's state.
   2467        1.152       scw 		 */
   2468        1.134   thorpej 		if (PV_BEEN_EXECD(flags))
   2469        1.152       scw 			cpu_tlb_flushID();
   2470        1.134   thorpej 		else
   2471        1.152       scw 			cpu_tlb_flushD();
   2472        1.134   thorpej 	}
   2473         1.88   thorpej 	cpu_cpwait();
   2474         1.88   thorpej }
   2475          1.1      matt 
   2476        1.134   thorpej /*
   2477        1.134   thorpej  * pmap_t pmap_create(void)
   2478        1.134   thorpej  *
   2479        1.134   thorpej  *      Create a new pmap structure from scratch.
   2480         1.17     chris  */
   2481        1.134   thorpej pmap_t
   2482        1.134   thorpej pmap_create(void)
   2483         1.17     chris {
   2484        1.134   thorpej 	pmap_t pm;
   2485        1.134   thorpej 
   2486   1.164.12.5      matt 	pm = pool_cache_get(&pmap_cache, PR_WAITOK);
   2487         1.79   thorpej 
   2488        1.134   thorpej 	simple_lock_init(&pm->pm_lock);
   2489        1.134   thorpej 	pm->pm_obj.pgops = NULL;	/* currently not a mappable object */
   2490        1.134   thorpej 	TAILQ_INIT(&pm->pm_obj.memq);
   2491        1.134   thorpej 	pm->pm_obj.uo_npages = 0;
   2492        1.134   thorpej 	pm->pm_obj.uo_refs = 1;
   2493        1.134   thorpej 	pm->pm_stats.wired_count = 0;
   2494        1.134   thorpej 	pm->pm_stats.resident_count = 1;
   2495        1.134   thorpej 	pm->pm_cstate.cs_all = 0;
   2496        1.134   thorpej 	pmap_alloc_l1(pm);
   2497         1.79   thorpej 
   2498         1.17     chris 	/*
   2499        1.134   thorpej 	 * Note: The pool cache ensures that the pm_l2[] array is already
   2500        1.134   thorpej 	 * initialised to zero.
   2501         1.17     chris 	 */
   2502         1.32   thorpej 
   2503        1.134   thorpej 	pmap_pinit(pm);
   2504        1.134   thorpej 
   2505        1.134   thorpej 	LIST_INSERT_HEAD(&pmap_pmaps, pm, pm_list);
   2506         1.17     chris 
   2507        1.134   thorpej 	return (pm);
   2508         1.17     chris }
   2509        1.134   thorpej 
   2510          1.1      matt /*
   2511        1.134   thorpej  * void pmap_enter(pmap_t pm, vaddr_t va, paddr_t pa, vm_prot_t prot,
   2512        1.134   thorpej  *     int flags)
   2513        1.134   thorpej  *
   2514        1.134   thorpej  *      Insert the given physical page (p) at
   2515        1.134   thorpej  *      the specified virtual address (v) in the
   2516        1.134   thorpej  *      target physical map with the protection requested.
   2517          1.1      matt  *
   2518        1.134   thorpej  *      NB:  This is the only routine which MAY NOT lazy-evaluate
   2519        1.134   thorpej  *      or lose information.  That is, this routine must actually
   2520        1.134   thorpej  *      insert this page into the given map NOW.
   2521          1.1      matt  */
   2522        1.134   thorpej int
   2523        1.134   thorpej pmap_enter(pmap_t pm, vaddr_t va, paddr_t pa, vm_prot_t prot, int flags)
   2524          1.1      matt {
   2525        1.134   thorpej 	struct l2_bucket *l2b;
   2526        1.134   thorpej 	struct vm_page *pg, *opg;
   2527        1.134   thorpej 	struct pv_entry *pve;
   2528        1.134   thorpej 	pt_entry_t *ptep, npte, opte;
   2529        1.134   thorpej 	u_int nflags;
   2530        1.134   thorpej 	u_int oflags;
   2531         1.71   thorpej 
   2532        1.134   thorpej 	NPDEBUG(PDB_ENTER, printf("pmap_enter: pm %p va 0x%lx pa 0x%lx prot %x flag %x\n", pm, va, pa, prot, flags));
   2533         1.71   thorpej 
   2534        1.134   thorpej 	KDASSERT((flags & PMAP_WIRED) == 0 || (flags & VM_PROT_ALL) != 0);
   2535        1.134   thorpej 	KDASSERT(((va | pa) & PGOFSET) == 0);
   2536         1.79   thorpej 
   2537         1.71   thorpej 	/*
   2538        1.134   thorpej 	 * Get a pointer to the page.  Later on in this function, we
   2539        1.134   thorpej 	 * test for a managed page by checking pg != NULL.
   2540         1.71   thorpej 	 */
   2541        1.134   thorpej 	pg = pmap_initialized ? PHYS_TO_VM_PAGE(pa) : NULL;
   2542        1.134   thorpej 
   2543        1.134   thorpej 	nflags = 0;
   2544        1.134   thorpej 	if (prot & VM_PROT_WRITE)
   2545        1.134   thorpej 		nflags |= PVF_WRITE;
   2546        1.134   thorpej 	if (prot & VM_PROT_EXECUTE)
   2547        1.134   thorpej 		nflags |= PVF_EXEC;
   2548        1.134   thorpej 	if (flags & PMAP_WIRED)
   2549        1.134   thorpej 		nflags |= PVF_WIRED;
   2550        1.134   thorpej 
   2551        1.134   thorpej 	PMAP_MAP_TO_HEAD_LOCK();
   2552        1.134   thorpej 	pmap_acquire_pmap_lock(pm);
   2553          1.1      matt 
   2554          1.1      matt 	/*
   2555        1.134   thorpej 	 * Fetch the L2 bucket which maps this page, allocating one if
   2556        1.134   thorpej 	 * necessary for user pmaps.
   2557          1.1      matt 	 */
   2558        1.134   thorpej 	if (pm == pmap_kernel())
   2559        1.134   thorpej 		l2b = pmap_get_l2_bucket(pm, va);
   2560        1.134   thorpej 	else
   2561        1.134   thorpej 		l2b = pmap_alloc_l2_bucket(pm, va);
   2562        1.134   thorpej 	if (l2b == NULL) {
   2563        1.134   thorpej 		if (flags & PMAP_CANFAIL) {
   2564        1.134   thorpej 			pmap_release_pmap_lock(pm);
   2565        1.134   thorpej 			PMAP_MAP_TO_HEAD_UNLOCK();
   2566        1.134   thorpej 			return (ENOMEM);
   2567        1.134   thorpej 		}
   2568        1.134   thorpej 		panic("pmap_enter: failed to allocate L2 bucket");
   2569        1.134   thorpej 	}
   2570        1.134   thorpej 	ptep = &l2b->l2b_kva[l2pte_index(va)];
   2571        1.134   thorpej 	opte = *ptep;
   2572        1.134   thorpej 	npte = pa;
   2573        1.134   thorpej 	oflags = 0;
   2574         1.88   thorpej 
   2575        1.134   thorpej 	if (opte) {
   2576        1.134   thorpej 		/*
   2577        1.134   thorpej 		 * There is already a mapping at this address.
   2578        1.134   thorpej 		 * If the physical address is different, lookup the
   2579        1.134   thorpej 		 * vm_page.
   2580        1.134   thorpej 		 */
   2581        1.134   thorpej 		if (l2pte_pa(opte) != pa)
   2582        1.134   thorpej 			opg = PHYS_TO_VM_PAGE(l2pte_pa(opte));
   2583        1.134   thorpej 		else
   2584        1.134   thorpej 			opg = pg;
   2585        1.134   thorpej 	} else
   2586        1.134   thorpej 		opg = NULL;
   2587         1.88   thorpej 
   2588        1.134   thorpej 	if (pg) {
   2589        1.134   thorpej 		/*
   2590        1.134   thorpej 		 * This is to be a managed mapping.
   2591        1.134   thorpej 		 */
   2592        1.134   thorpej 		if ((flags & VM_PROT_ALL) ||
   2593        1.134   thorpej 		    (pg->mdpage.pvh_attrs & PVF_REF)) {
   2594        1.134   thorpej 			/*
   2595        1.134   thorpej 			 * - The access type indicates that we don't need
   2596        1.134   thorpej 			 *   to do referenced emulation.
   2597        1.134   thorpej 			 * OR
   2598        1.134   thorpej 			 * - The physical page has already been referenced
   2599        1.134   thorpej 			 *   so no need to re-do referenced emulation here.
   2600        1.134   thorpej 			 */
   2601        1.134   thorpej 			npte |= L2_S_PROTO;
   2602         1.88   thorpej 
   2603        1.134   thorpej 			nflags |= PVF_REF;
   2604         1.88   thorpej 
   2605        1.134   thorpej 			if ((prot & VM_PROT_WRITE) != 0 &&
   2606        1.134   thorpej 			    ((flags & VM_PROT_WRITE) != 0 ||
   2607        1.134   thorpej 			     (pg->mdpage.pvh_attrs & PVF_MOD) != 0)) {
   2608        1.134   thorpej 				/*
   2609        1.134   thorpej 				 * This is a writable mapping, and the
   2610        1.134   thorpej 				 * page's mod state indicates it has
   2611        1.134   thorpej 				 * already been modified. Make it
   2612        1.134   thorpej 				 * writable from the outset.
   2613        1.134   thorpej 				 */
   2614        1.134   thorpej 				npte |= L2_S_PROT_W;
   2615        1.134   thorpej 				nflags |= PVF_MOD;
   2616        1.134   thorpej 			}
   2617        1.134   thorpej 		} else {
   2618        1.134   thorpej 			/*
   2619        1.134   thorpej 			 * Need to do page referenced emulation.
   2620        1.134   thorpej 			 */
   2621        1.134   thorpej 			npte |= L2_TYPE_INV;
   2622        1.134   thorpej 		}
   2623         1.88   thorpej 
   2624        1.134   thorpej 		npte |= pte_l2_s_cache_mode;
   2625          1.1      matt 
   2626        1.134   thorpej 		if (pg == opg) {
   2627        1.134   thorpej 			/*
   2628        1.134   thorpej 			 * We're changing the attrs of an existing mapping.
   2629        1.134   thorpej 			 */
   2630        1.134   thorpej 			simple_lock(&pg->mdpage.pvh_slock);
   2631        1.134   thorpej 			oflags = pmap_modify_pv(pg, pm, va,
   2632        1.134   thorpej 			    PVF_WRITE | PVF_EXEC | PVF_WIRED |
   2633        1.134   thorpej 			    PVF_MOD | PVF_REF, nflags);
   2634        1.134   thorpej 			simple_unlock(&pg->mdpage.pvh_slock);
   2635          1.1      matt 
   2636   1.164.12.2      matt #ifdef PMAP_CACHE_VIVT
   2637        1.134   thorpej 			/*
   2638        1.134   thorpej 			 * We may need to flush the cache if we're
   2639        1.134   thorpej 			 * doing rw-ro...
   2640        1.134   thorpej 			 */
   2641        1.134   thorpej 			if (pm->pm_cstate.cs_cache_d &&
   2642        1.134   thorpej 			    (oflags & PVF_NC) == 0 &&
   2643        1.134   thorpej 			    (opte & L2_S_PROT_W) != 0 &&
   2644        1.134   thorpej 			    (prot & VM_PROT_WRITE) == 0)
   2645        1.134   thorpej 				cpu_dcache_wb_range(va, PAGE_SIZE);
   2646   1.164.12.2      matt #endif
   2647        1.134   thorpej 		} else {
   2648        1.134   thorpej 			/*
   2649        1.134   thorpej 			 * New mapping, or changing the backing page
   2650        1.134   thorpej 			 * of an existing mapping.
   2651        1.134   thorpej 			 */
   2652        1.134   thorpej 			if (opg) {
   2653        1.134   thorpej 				/*
   2654        1.134   thorpej 				 * Replacing an existing mapping with a new one.
   2655        1.134   thorpej 				 * It is part of our managed memory so we
   2656        1.134   thorpej 				 * must remove it from the PV list
   2657        1.134   thorpej 				 */
   2658        1.134   thorpej 				simple_lock(&opg->mdpage.pvh_slock);
   2659        1.156       scw 				pve = pmap_remove_pv(opg, pm, va, 0);
   2660        1.134   thorpej 				pmap_vac_me_harder(opg, pm, 0);
   2661        1.134   thorpej 				simple_unlock(&opg->mdpage.pvh_slock);
   2662        1.134   thorpej 				oflags = pve->pv_flags;
   2663          1.1      matt 
   2664   1.164.12.2      matt #ifdef PMAP_CACHE_VIVT
   2665        1.134   thorpej 				/*
   2666        1.134   thorpej 				 * If the old mapping was valid (ref/mod
   2667        1.134   thorpej 				 * emulation creates 'invalid' mappings
   2668        1.134   thorpej 				 * initially) then make sure to frob
   2669        1.134   thorpej 				 * the cache.
   2670        1.134   thorpej 				 */
   2671        1.134   thorpej 				if ((oflags & PVF_NC) == 0 &&
   2672        1.134   thorpej 				    l2pte_valid(opte)) {
   2673        1.134   thorpej 					if (PV_BEEN_EXECD(oflags)) {
   2674        1.134   thorpej 						pmap_idcache_wbinv_range(pm, va,
   2675        1.134   thorpej 						    PAGE_SIZE);
   2676        1.134   thorpej 					} else
   2677        1.134   thorpej 					if (PV_BEEN_REFD(oflags)) {
   2678        1.134   thorpej 						pmap_dcache_wb_range(pm, va,
   2679        1.160   thorpej 						    PAGE_SIZE, true,
   2680        1.134   thorpej 						    (oflags & PVF_WRITE) == 0);
   2681        1.134   thorpej 					}
   2682        1.134   thorpej 				}
   2683   1.164.12.2      matt #endif
   2684        1.134   thorpej 			} else
   2685        1.134   thorpej 			if ((pve = pool_get(&pmap_pv_pool, PR_NOWAIT)) == NULL){
   2686        1.134   thorpej 				if ((flags & PMAP_CANFAIL) == 0)
   2687        1.134   thorpej 					panic("pmap_enter: no pv entries");
   2688        1.134   thorpej 
   2689        1.134   thorpej 				if (pm != pmap_kernel())
   2690        1.134   thorpej 					pmap_free_l2_bucket(pm, l2b, 0);
   2691        1.134   thorpej 				pmap_release_pmap_lock(pm);
   2692        1.134   thorpej 				PMAP_MAP_TO_HEAD_UNLOCK();
   2693        1.134   thorpej 				NPDEBUG(PDB_ENTER,
   2694        1.134   thorpej 				    printf("pmap_enter: ENOMEM\n"));
   2695        1.134   thorpej 				return (ENOMEM);
   2696        1.134   thorpej 			}
   2697         1.25  rearnsha 
   2698        1.134   thorpej 			pmap_enter_pv(pg, pve, pm, va, nflags);
   2699         1.25  rearnsha 		}
   2700        1.134   thorpej 	} else {
   2701        1.134   thorpej 		/*
   2702        1.134   thorpej 		 * We're mapping an unmanaged page.
   2703        1.134   thorpej 		 * These are always readable, and possibly writable, from
   2704        1.134   thorpej 		 * the get go as we don't need to track ref/mod status.
   2705        1.134   thorpej 		 */
   2706        1.134   thorpej 		npte |= L2_S_PROTO;
   2707        1.134   thorpej 		if (prot & VM_PROT_WRITE)
   2708        1.134   thorpej 			npte |= L2_S_PROT_W;
   2709         1.25  rearnsha 
   2710        1.134   thorpej 		/*
   2711        1.134   thorpej 		 * Make sure the vector table is mapped cacheable
   2712        1.134   thorpej 		 */
   2713        1.134   thorpej 		if (pm != pmap_kernel() && va == vector_page)
   2714        1.134   thorpej 			npte |= pte_l2_s_cache_mode;
   2715         1.25  rearnsha 
   2716        1.134   thorpej 		if (opg) {
   2717        1.134   thorpej 			/*
   2718        1.134   thorpej 			 * Looks like there's an existing 'managed' mapping
   2719        1.134   thorpej 			 * at this address.
   2720         1.25  rearnsha 			 */
   2721        1.134   thorpej 			simple_lock(&opg->mdpage.pvh_slock);
   2722        1.156       scw 			pve = pmap_remove_pv(opg, pm, va, 0);
   2723        1.134   thorpej 			pmap_vac_me_harder(opg, pm, 0);
   2724        1.134   thorpej 			simple_unlock(&opg->mdpage.pvh_slock);
   2725        1.134   thorpej 			oflags = pve->pv_flags;
   2726        1.134   thorpej 
   2727   1.164.12.2      matt #ifdef PMAP_CACHE_VIVT
   2728        1.134   thorpej 			if ((oflags & PVF_NC) == 0 && l2pte_valid(opte)) {
   2729        1.134   thorpej 				if (PV_BEEN_EXECD(oflags))
   2730        1.134   thorpej 					pmap_idcache_wbinv_range(pm, va,
   2731        1.134   thorpej 					    PAGE_SIZE);
   2732        1.134   thorpej 				else
   2733        1.134   thorpej 				if (PV_BEEN_REFD(oflags))
   2734        1.134   thorpej 					pmap_dcache_wb_range(pm, va, PAGE_SIZE,
   2735        1.160   thorpej 					    true, (oflags & PVF_WRITE) == 0);
   2736        1.134   thorpej 			}
   2737   1.164.12.2      matt #endif
   2738        1.134   thorpej 			pool_put(&pmap_pv_pool, pve);
   2739         1.25  rearnsha 		}
   2740         1.25  rearnsha 	}
   2741         1.25  rearnsha 
   2742        1.134   thorpej 	/*
   2743        1.134   thorpej 	 * Make sure userland mappings get the right permissions
   2744        1.134   thorpej 	 */
   2745        1.134   thorpej 	if (pm != pmap_kernel() && va != vector_page)
   2746        1.134   thorpej 		npte |= L2_S_PROT_U;
   2747         1.25  rearnsha 
   2748        1.134   thorpej 	/*
   2749        1.134   thorpej 	 * Keep the stats up to date
   2750        1.134   thorpej 	 */
   2751        1.134   thorpej 	if (opte == 0) {
   2752        1.134   thorpej 		l2b->l2b_occupancy++;
   2753        1.134   thorpej 		pm->pm_stats.resident_count++;
   2754        1.134   thorpej 	}
   2755          1.1      matt 
   2756        1.134   thorpej 	NPDEBUG(PDB_ENTER,
   2757        1.134   thorpej 	    printf("pmap_enter: opte 0x%08x npte 0x%08x\n", opte, npte));
   2758          1.1      matt 
   2759          1.1      matt 	/*
   2760        1.134   thorpej 	 * If this is just a wiring change, the two PTEs will be
   2761        1.134   thorpej 	 * identical, so there's no need to update the page table.
   2762          1.1      matt 	 */
   2763        1.134   thorpej 	if (npte != opte) {
   2764        1.159   thorpej 		bool is_cached = pmap_is_cached(pm);
   2765          1.1      matt 
   2766        1.134   thorpej 		*ptep = npte;
   2767        1.134   thorpej 		if (is_cached) {
   2768        1.134   thorpej 			/*
   2769        1.134   thorpej 			 * We only need to frob the cache/tlb if this pmap
   2770        1.134   thorpej 			 * is current
   2771        1.134   thorpej 			 */
   2772        1.134   thorpej 			PTE_SYNC(ptep);
   2773        1.134   thorpej 			if (va != vector_page && l2pte_valid(npte)) {
   2774         1.25  rearnsha 				/*
   2775        1.134   thorpej 				 * This mapping is likely to be accessed as
   2776        1.134   thorpej 				 * soon as we return to userland. Fix up the
   2777        1.134   thorpej 				 * L1 entry to avoid taking another
   2778        1.134   thorpej 				 * page/domain fault.
   2779         1.25  rearnsha 				 */
   2780        1.134   thorpej 				pd_entry_t *pl1pd, l1pd;
   2781        1.134   thorpej 
   2782        1.134   thorpej 				pl1pd = &pm->pm_l1->l1_kva[L1_IDX(va)];
   2783        1.134   thorpej 				l1pd = l2b->l2b_phys | L1_C_DOM(pm->pm_domain) |
   2784        1.134   thorpej 				    L1_C_PROTO;
   2785        1.134   thorpej 				if (*pl1pd != l1pd) {
   2786        1.134   thorpej 					*pl1pd = l1pd;
   2787        1.134   thorpej 					PTE_SYNC(pl1pd);
   2788         1.12     chris 				}
   2789          1.1      matt 			}
   2790          1.1      matt 		}
   2791        1.134   thorpej 
   2792        1.134   thorpej 		if (PV_BEEN_EXECD(oflags))
   2793        1.134   thorpej 			pmap_tlb_flushID_SE(pm, va);
   2794        1.134   thorpej 		else
   2795        1.134   thorpej 		if (PV_BEEN_REFD(oflags))
   2796        1.134   thorpej 			pmap_tlb_flushD_SE(pm, va);
   2797        1.134   thorpej 
   2798        1.134   thorpej 		NPDEBUG(PDB_ENTER,
   2799        1.134   thorpej 		    printf("pmap_enter: is_cached %d cs 0x%08x\n",
   2800        1.134   thorpej 		    is_cached, pm->pm_cstate.cs_all));
   2801        1.134   thorpej 
   2802        1.134   thorpej 		if (pg != NULL) {
   2803        1.134   thorpej 			simple_lock(&pg->mdpage.pvh_slock);
   2804        1.134   thorpej 			pmap_vac_me_harder(pg, pm, va);
   2805        1.134   thorpej 			simple_unlock(&pg->mdpage.pvh_slock);
   2806          1.1      matt 		}
   2807          1.1      matt 	}
   2808        1.134   thorpej 
   2809        1.134   thorpej 	pmap_release_pmap_lock(pm);
   2810        1.134   thorpej 	PMAP_MAP_TO_HEAD_UNLOCK();
   2811        1.134   thorpej 
   2812        1.134   thorpej 	return (0);
   2813          1.1      matt }
   2814          1.1      matt 
   2815          1.1      matt /*
   2816          1.1      matt  * pmap_remove()
   2817          1.1      matt  *
   2818          1.1      matt  * pmap_remove is responsible for nuking a number of mappings for a range
   2819          1.1      matt  * of virtual address space in the current pmap. To do this efficiently
   2820          1.1      matt  * is interesting, because in a number of cases a wide virtual address
   2821          1.1      matt  * range may be supplied that contains few actual mappings. So, the
   2822          1.1      matt  * optimisations are:
   2823        1.134   thorpej  *  1. Skip over hunks of address space for which no L1 or L2 entry exists.
   2824          1.1      matt  *  2. Build up a list of pages we've hit, up to a maximum, so we can
   2825          1.1      matt  *     maybe do just a partial cache clean. This path of execution is
   2826          1.1      matt  *     complicated by the fact that the cache must be flushed _before_
   2827          1.1      matt  *     the PTE is nuked, being a VAC :-)
   2828        1.134   thorpej  *  3. If we're called after UVM calls pmap_remove_all(), we can defer
   2829        1.134   thorpej  *     all invalidations until pmap_update(), since pmap_remove_all() has
   2830        1.134   thorpej  *     already flushed the cache.
   2831        1.134   thorpej  *  4. Maybe later fast-case a single page, but I don't think this is
   2832          1.1      matt  *     going to make _that_ much difference overall.
   2833          1.1      matt  */
   2834          1.1      matt 
   2835        1.134   thorpej #define	PMAP_REMOVE_CLEAN_LIST_SIZE	3
   2836          1.1      matt 
   2837          1.1      matt void
   2838        1.156       scw pmap_do_remove(pmap_t pm, vaddr_t sva, vaddr_t eva, int skip_wired)
   2839          1.1      matt {
   2840        1.134   thorpej 	struct l2_bucket *l2b;
   2841        1.134   thorpej 	vaddr_t next_bucket;
   2842        1.134   thorpej 	pt_entry_t *ptep;
   2843        1.134   thorpej 	u_int cleanlist_idx, total, cnt;
   2844        1.134   thorpej 	struct {
   2845          1.1      matt 		vaddr_t va;
   2846   1.164.12.2      matt 		pt_entry_t *ptep;
   2847          1.1      matt 	} cleanlist[PMAP_REMOVE_CLEAN_LIST_SIZE];
   2848        1.134   thorpej 	u_int mappings, is_exec, is_refd;
   2849          1.1      matt 
   2850        1.156       scw 	NPDEBUG(PDB_REMOVE, printf("pmap_do_remove: pmap=%p sva=%08lx "
   2851        1.156       scw 	    "eva=%08lx\n", pm, sva, eva));
   2852          1.1      matt 
   2853         1.17     chris 	/*
   2854        1.134   thorpej 	 * we lock in the pmap => pv_head direction
   2855         1.17     chris 	 */
   2856         1.17     chris 	PMAP_MAP_TO_HEAD_LOCK();
   2857        1.134   thorpej 	pmap_acquire_pmap_lock(pm);
   2858        1.134   thorpej 
   2859        1.134   thorpej 	if (pm->pm_remove_all || !pmap_is_cached(pm)) {
   2860        1.134   thorpej 		cleanlist_idx = PMAP_REMOVE_CLEAN_LIST_SIZE + 1;
   2861        1.134   thorpej 		if (pm->pm_cstate.cs_tlb == 0)
   2862        1.160   thorpej 			pm->pm_remove_all = true;
   2863        1.134   thorpej 	} else
   2864        1.134   thorpej 		cleanlist_idx = 0;
   2865        1.134   thorpej 
   2866        1.134   thorpej 	total = 0;
   2867        1.134   thorpej 
   2868          1.1      matt 	while (sva < eva) {
   2869        1.134   thorpej 		/*
   2870        1.134   thorpej 		 * Do one L2 bucket's worth at a time.
   2871        1.134   thorpej 		 */
   2872        1.134   thorpej 		next_bucket = L2_NEXT_BUCKET(sva);
   2873        1.134   thorpej 		if (next_bucket > eva)
   2874        1.134   thorpej 			next_bucket = eva;
   2875        1.134   thorpej 
   2876        1.134   thorpej 		l2b = pmap_get_l2_bucket(pm, sva);
   2877        1.134   thorpej 		if (l2b == NULL) {
   2878        1.134   thorpej 			sva = next_bucket;
   2879        1.134   thorpej 			continue;
   2880        1.134   thorpej 		}
   2881        1.134   thorpej 
   2882        1.134   thorpej 		ptep = &l2b->l2b_kva[l2pte_index(sva)];
   2883        1.134   thorpej 
   2884        1.156       scw 		for (mappings = 0; sva < next_bucket; sva += PAGE_SIZE, ptep++){
   2885        1.134   thorpej 			struct vm_page *pg;
   2886        1.134   thorpej 			pt_entry_t pte;
   2887        1.134   thorpej 			paddr_t pa;
   2888        1.134   thorpej 
   2889        1.134   thorpej 			pte = *ptep;
   2890          1.1      matt 
   2891        1.134   thorpej 			if (pte == 0) {
   2892        1.156       scw 				/* Nothing here, move along */
   2893          1.1      matt 				continue;
   2894          1.1      matt 			}
   2895          1.1      matt 
   2896        1.134   thorpej 			pa = l2pte_pa(pte);
   2897        1.134   thorpej 			is_exec = 0;
   2898        1.134   thorpej 			is_refd = 1;
   2899          1.1      matt 
   2900          1.1      matt 			/*
   2901        1.134   thorpej 			 * Update flags. In a number of circumstances,
   2902        1.134   thorpej 			 * we could cluster a lot of these and do a
   2903        1.134   thorpej 			 * number of sequential pages in one go.
   2904          1.1      matt 			 */
   2905        1.134   thorpej 			if ((pg = PHYS_TO_VM_PAGE(pa)) != NULL) {
   2906        1.134   thorpej 				struct pv_entry *pve;
   2907        1.134   thorpej 				simple_lock(&pg->mdpage.pvh_slock);
   2908        1.156       scw 				pve = pmap_remove_pv(pg, pm, sva, skip_wired);
   2909        1.134   thorpej 				pmap_vac_me_harder(pg, pm, 0);
   2910        1.134   thorpej 				simple_unlock(&pg->mdpage.pvh_slock);
   2911        1.134   thorpej 				if (pve != NULL) {
   2912        1.160   thorpej 					if (pm->pm_remove_all == false) {
   2913        1.134   thorpej 						is_exec =
   2914        1.134   thorpej 						   PV_BEEN_EXECD(pve->pv_flags);
   2915        1.134   thorpej 						is_refd =
   2916        1.134   thorpej 						   PV_BEEN_REFD(pve->pv_flags);
   2917        1.134   thorpej 					}
   2918        1.134   thorpej 					pool_put(&pmap_pv_pool, pve);
   2919        1.156       scw 				} else
   2920        1.156       scw 				if (skip_wired) {
   2921        1.156       scw 					/* The mapping is wired. Skip it */
   2922        1.156       scw 					continue;
   2923        1.134   thorpej 				}
   2924        1.156       scw 			} else
   2925        1.156       scw 			if (skip_wired) {
   2926        1.156       scw 				/* Unmanaged pages are always wired. */
   2927        1.156       scw 				continue;
   2928        1.134   thorpej 			}
   2929        1.134   thorpej 
   2930        1.156       scw 			mappings++;
   2931        1.156       scw 
   2932        1.134   thorpej 			if (!l2pte_valid(pte)) {
   2933        1.156       scw 				/*
   2934        1.156       scw 				 * Ref/Mod emulation is still active for this
   2935        1.156       scw 				 * mapping, therefore it is has not yet been
   2936        1.156       scw 				 * accessed. No need to frob the cache/tlb.
   2937        1.156       scw 				 */
   2938        1.134   thorpej 				*ptep = 0;
   2939        1.134   thorpej 				PTE_SYNC_CURRENT(pm, ptep);
   2940        1.134   thorpej 				continue;
   2941        1.134   thorpej 			}
   2942          1.1      matt 
   2943          1.1      matt 			if (cleanlist_idx < PMAP_REMOVE_CLEAN_LIST_SIZE) {
   2944          1.1      matt 				/* Add to the clean list. */
   2945   1.164.12.2      matt 				cleanlist[cleanlist_idx].ptep = ptep;
   2946        1.134   thorpej 				cleanlist[cleanlist_idx].va =
   2947        1.134   thorpej 				    sva | (is_exec & 1);
   2948          1.1      matt 				cleanlist_idx++;
   2949        1.134   thorpej 			} else
   2950        1.134   thorpej 			if (cleanlist_idx == PMAP_REMOVE_CLEAN_LIST_SIZE) {
   2951          1.1      matt 				/* Nuke everything if needed. */
   2952   1.164.12.2      matt #ifdef PMAP_CACHE_VIVT
   2953        1.134   thorpej 				pmap_idcache_wbinv_all(pm);
   2954   1.164.12.2      matt #endif
   2955        1.134   thorpej 				pmap_tlb_flushID(pm);
   2956          1.1      matt 
   2957          1.1      matt 				/*
   2958          1.1      matt 				 * Roll back the previous PTE list,
   2959          1.1      matt 				 * and zero out the current PTE.
   2960          1.1      matt 				 */
   2961        1.113   thorpej 				for (cnt = 0;
   2962        1.134   thorpej 				     cnt < PMAP_REMOVE_CLEAN_LIST_SIZE; cnt++) {
   2963   1.164.12.2      matt 					*cleanlist[cnt].ptep = 0;
   2964          1.1      matt 				}
   2965        1.134   thorpej 				*ptep = 0;
   2966        1.134   thorpej 				PTE_SYNC(ptep);
   2967          1.1      matt 				cleanlist_idx++;
   2968        1.160   thorpej 				pm->pm_remove_all = true;
   2969          1.1      matt 			} else {
   2970        1.134   thorpej 				*ptep = 0;
   2971        1.134   thorpej 				PTE_SYNC(ptep);
   2972        1.160   thorpej 				if (pm->pm_remove_all == false) {
   2973        1.134   thorpej 					if (is_exec)
   2974        1.134   thorpej 						pmap_tlb_flushID_SE(pm, sva);
   2975        1.134   thorpej 					else
   2976        1.134   thorpej 					if (is_refd)
   2977        1.134   thorpej 						pmap_tlb_flushD_SE(pm, sva);
   2978        1.134   thorpej 				}
   2979        1.134   thorpej 			}
   2980        1.134   thorpej 		}
   2981        1.134   thorpej 
   2982        1.134   thorpej 		/*
   2983        1.134   thorpej 		 * Deal with any left overs
   2984        1.134   thorpej 		 */
   2985        1.134   thorpej 		if (cleanlist_idx <= PMAP_REMOVE_CLEAN_LIST_SIZE) {
   2986        1.134   thorpej 			total += cleanlist_idx;
   2987        1.134   thorpej 			for (cnt = 0; cnt < cleanlist_idx; cnt++) {
   2988        1.134   thorpej 				if (pm->pm_cstate.cs_all != 0) {
   2989        1.134   thorpej 					vaddr_t clva = cleanlist[cnt].va & ~1;
   2990        1.134   thorpej 					if (cleanlist[cnt].va & 1) {
   2991   1.164.12.2      matt #ifdef PMAP_CACHE_VIVT
   2992        1.134   thorpej 						pmap_idcache_wbinv_range(pm,
   2993        1.134   thorpej 						    clva, PAGE_SIZE);
   2994   1.164.12.2      matt #endif
   2995        1.134   thorpej 						pmap_tlb_flushID_SE(pm, clva);
   2996        1.134   thorpej 					} else {
   2997   1.164.12.2      matt #ifdef PMAP_CACHE_VIVT
   2998        1.134   thorpej 						pmap_dcache_wb_range(pm,
   2999        1.160   thorpej 						    clva, PAGE_SIZE, true,
   3000        1.160   thorpej 						    false);
   3001   1.164.12.2      matt #endif
   3002        1.134   thorpej 						pmap_tlb_flushD_SE(pm, clva);
   3003        1.134   thorpej 					}
   3004        1.134   thorpej 				}
   3005   1.164.12.2      matt 				*cleanlist[cnt].ptep = 0;
   3006   1.164.12.2      matt 				PTE_SYNC_CURRENT(pm, cleanlist[cnt].ptep);
   3007          1.1      matt 			}
   3008          1.1      matt 
   3009          1.1      matt 			/*
   3010        1.134   thorpej 			 * If it looks like we're removing a whole bunch
   3011        1.134   thorpej 			 * of mappings, it's faster to just write-back
   3012        1.134   thorpej 			 * the whole cache now and defer TLB flushes until
   3013        1.134   thorpej 			 * pmap_update() is called.
   3014          1.1      matt 			 */
   3015        1.134   thorpej 			if (total <= PMAP_REMOVE_CLEAN_LIST_SIZE)
   3016        1.134   thorpej 				cleanlist_idx = 0;
   3017        1.134   thorpej 			else {
   3018        1.134   thorpej 				cleanlist_idx = PMAP_REMOVE_CLEAN_LIST_SIZE + 1;
   3019   1.164.12.2      matt #ifdef PMAP_CACHE_VIVT
   3020        1.134   thorpej 				pmap_idcache_wbinv_all(pm);
   3021   1.164.12.2      matt #endif
   3022        1.160   thorpej 				pm->pm_remove_all = true;
   3023        1.134   thorpej 			}
   3024        1.134   thorpej 		}
   3025        1.134   thorpej 
   3026        1.134   thorpej 		pmap_free_l2_bucket(pm, l2b, mappings);
   3027        1.156       scw 		pm->pm_stats.resident_count -= mappings;
   3028        1.134   thorpej 	}
   3029        1.134   thorpej 
   3030        1.134   thorpej 	pmap_release_pmap_lock(pm);
   3031        1.134   thorpej 	PMAP_MAP_TO_HEAD_UNLOCK();
   3032        1.134   thorpej }
   3033        1.134   thorpej 
   3034        1.134   thorpej /*
   3035        1.134   thorpej  * pmap_kenter_pa: enter an unmanaged, wired kernel mapping
   3036        1.134   thorpej  *
   3037        1.134   thorpej  * We assume there is already sufficient KVM space available
   3038        1.134   thorpej  * to do this, as we can't allocate L2 descriptor tables/metadata
   3039        1.134   thorpej  * from here.
   3040        1.134   thorpej  */
   3041        1.134   thorpej void
   3042        1.134   thorpej pmap_kenter_pa(vaddr_t va, paddr_t pa, vm_prot_t prot)
   3043        1.134   thorpej {
   3044        1.134   thorpej 	struct l2_bucket *l2b;
   3045        1.134   thorpej 	pt_entry_t *ptep, opte;
   3046   1.164.12.2      matt #ifdef PMAP_CACHE_VIPT
   3047   1.164.12.2      matt 	struct vm_page *pg = PHYS_TO_VM_PAGE(pa);
   3048   1.164.12.2      matt 	struct vm_page *opg;
   3049   1.164.12.2      matt #endif
   3050   1.164.12.2      matt 
   3051        1.134   thorpej 
   3052        1.134   thorpej 	NPDEBUG(PDB_KENTER,
   3053        1.134   thorpej 	    printf("pmap_kenter_pa: va 0x%08lx, pa 0x%08lx, prot 0x%x\n",
   3054        1.134   thorpej 	    va, pa, prot));
   3055        1.134   thorpej 
   3056        1.134   thorpej 	l2b = pmap_get_l2_bucket(pmap_kernel(), va);
   3057        1.134   thorpej 	KDASSERT(l2b != NULL);
   3058        1.134   thorpej 
   3059        1.134   thorpej 	ptep = &l2b->l2b_kva[l2pte_index(va)];
   3060        1.134   thorpej 	opte = *ptep;
   3061        1.134   thorpej 
   3062   1.164.12.2      matt 	if (opte == 0) {
   3063   1.164.12.2      matt 		PMAPCOUNT(kenter_mappings);
   3064        1.134   thorpej 		l2b->l2b_occupancy++;
   3065   1.164.12.2      matt 	} else {
   3066   1.164.12.2      matt 		PMAPCOUNT(kenter_remappings);
   3067   1.164.12.2      matt #ifdef PMAP_CACHE_VIPT
   3068   1.164.12.2      matt 		opg = PHYS_TO_VM_PAGE(l2pte_pa(opte));
   3069   1.164.12.2      matt 		if (opg) {
   3070   1.164.12.2      matt 			KASSERT(opg != pg);
   3071   1.164.12.2      matt 			simple_lock(&opg->mdpage.pvh_slock);
   3072   1.164.12.2      matt 			KASSERT(opg->mdpage.pvh_attrs & PVF_KENTRY);
   3073   1.164.12.2      matt 			if (PV_IS_EXEC_P(opg->mdpage.pvh_attrs)
   3074   1.164.12.2      matt 			    && !(opg->mdpage.pvh_attrs & PVF_NC)) {
   3075   1.164.12.2      matt 				if (opg->mdpage.pvh_list == NULL) {
   3076   1.164.12.2      matt 					opg->mdpage.pvh_attrs &= ~PVF_EXEC;
   3077   1.164.12.2      matt 					PMAPCOUNT(exec_discarded_kremove);
   3078   1.164.12.2      matt 				} else {
   3079   1.164.12.2      matt 					pmap_syncicache_page(opg);
   3080   1.164.12.2      matt 					PMAPCOUNT(exec_synced_kremove);
   3081   1.164.12.2      matt 				}
   3082   1.164.12.2      matt 			}
   3083   1.164.12.2      matt 			KASSERT(opg->mdpage.pvh_attrs | (PVF_COLORED|PVF_NC));
   3084   1.164.12.2      matt 			opg->mdpage.pvh_attrs &= ~PVF_KENTRY;
   3085   1.164.12.2      matt 			pmap_vac_me_harder(opg, NULL, 0);
   3086   1.164.12.2      matt 			simple_unlock(&opg->mdpage.pvh_slock);
   3087   1.164.12.2      matt 		}
   3088   1.164.12.2      matt #endif
   3089   1.164.12.2      matt 		if (l2pte_valid(opte)) {
   3090   1.164.12.2      matt #ifdef PMAP_CACHE_VIVT
   3091   1.164.12.2      matt 			cpu_dcache_wbinv_range(va, PAGE_SIZE);
   3092   1.164.12.2      matt #endif
   3093   1.164.12.2      matt 			cpu_tlb_flushD_SE(va);
   3094   1.164.12.2      matt 			cpu_cpwait();
   3095   1.164.12.2      matt 		}
   3096   1.164.12.2      matt 	}
   3097        1.134   thorpej 
   3098        1.134   thorpej 	*ptep = L2_S_PROTO | pa | L2_S_PROT(PTE_KERNEL, prot) |
   3099        1.134   thorpej 	    pte_l2_s_cache_mode;
   3100        1.134   thorpej 	PTE_SYNC(ptep);
   3101   1.164.12.2      matt 
   3102   1.164.12.2      matt #ifdef PMAP_CACHE_VIPT
   3103   1.164.12.2      matt 	if (pg) {
   3104   1.164.12.2      matt 		simple_lock(&pg->mdpage.pvh_slock);
   3105   1.164.12.2      matt 		KASSERT((pg->mdpage.pvh_attrs & PVF_KENTRY) == 0);
   3106   1.164.12.2      matt 		pg->mdpage.pvh_attrs |= PVF_KENTRY;
   3107   1.164.12.2      matt 		pmap_vac_me_harder(pg, NULL, va);
   3108   1.164.12.2      matt 		simple_unlock(&pg->mdpage.pvh_slock);
   3109   1.164.12.2      matt 	}
   3110   1.164.12.2      matt #endif
   3111        1.134   thorpej }
   3112        1.134   thorpej 
   3113        1.134   thorpej void
   3114        1.134   thorpej pmap_kremove(vaddr_t va, vsize_t len)
   3115        1.134   thorpej {
   3116        1.134   thorpej 	struct l2_bucket *l2b;
   3117        1.134   thorpej 	pt_entry_t *ptep, *sptep, opte;
   3118        1.134   thorpej 	vaddr_t next_bucket, eva;
   3119        1.134   thorpej 	u_int mappings;
   3120   1.164.12.2      matt #ifdef PMAP_CACHE_VIPT
   3121   1.164.12.2      matt 	struct vm_page *opg;
   3122   1.164.12.2      matt #endif
   3123   1.164.12.2      matt 
   3124   1.164.12.2      matt 	PMAPCOUNT(kenter_unmappings);
   3125        1.134   thorpej 
   3126        1.134   thorpej 	NPDEBUG(PDB_KREMOVE, printf("pmap_kremove: va 0x%08lx, len 0x%08lx\n",
   3127        1.134   thorpej 	    va, len));
   3128        1.134   thorpej 
   3129        1.134   thorpej 	eva = va + len;
   3130        1.134   thorpej 
   3131        1.134   thorpej 	while (va < eva) {
   3132        1.134   thorpej 		next_bucket = L2_NEXT_BUCKET(va);
   3133        1.134   thorpej 		if (next_bucket > eva)
   3134        1.134   thorpej 			next_bucket = eva;
   3135        1.134   thorpej 
   3136        1.134   thorpej 		l2b = pmap_get_l2_bucket(pmap_kernel(), va);
   3137        1.134   thorpej 		KDASSERT(l2b != NULL);
   3138        1.134   thorpej 
   3139        1.134   thorpej 		sptep = ptep = &l2b->l2b_kva[l2pte_index(va)];
   3140        1.134   thorpej 		mappings = 0;
   3141        1.134   thorpej 
   3142        1.134   thorpej 		while (va < next_bucket) {
   3143        1.134   thorpej 			opte = *ptep;
   3144   1.164.12.2      matt #ifdef PMAP_CACHE_VIPT
   3145   1.164.12.2      matt 			opg = PHYS_TO_VM_PAGE(l2pte_pa(opte));
   3146   1.164.12.2      matt 			if (opg) {
   3147   1.164.12.2      matt 				simple_lock(&opg->mdpage.pvh_slock);
   3148   1.164.12.2      matt 				KASSERT(opg->mdpage.pvh_attrs & PVF_KENTRY);
   3149   1.164.12.2      matt 				if (PV_IS_EXEC_P(opg->mdpage.pvh_attrs)
   3150   1.164.12.2      matt 				    && !(opg->mdpage.pvh_attrs & PVF_NC)) {
   3151   1.164.12.2      matt 					if (opg->mdpage.pvh_list == NULL) {
   3152   1.164.12.2      matt 						opg->mdpage.pvh_attrs &=
   3153   1.164.12.2      matt 						    ~PVF_EXEC;
   3154   1.164.12.2      matt 						PMAPCOUNT(exec_discarded_kremove);
   3155   1.164.12.2      matt 					} else {
   3156   1.164.12.2      matt 						pmap_syncicache_page(opg);
   3157   1.164.12.2      matt 						PMAPCOUNT(exec_synced_kremove);
   3158   1.164.12.2      matt 					}
   3159   1.164.12.2      matt 				}
   3160   1.164.12.2      matt 				KASSERT(opg->mdpage.pvh_attrs | (PVF_COLORED|PVF_NC));
   3161   1.164.12.2      matt 				opg->mdpage.pvh_attrs &= ~PVF_KENTRY;
   3162   1.164.12.2      matt 				pmap_vac_me_harder(opg, NULL, 0);
   3163   1.164.12.2      matt 				simple_unlock(&opg->mdpage.pvh_slock);
   3164   1.164.12.2      matt 			}
   3165   1.164.12.2      matt #endif
   3166        1.134   thorpej 			if (l2pte_valid(opte)) {
   3167   1.164.12.2      matt #ifdef PMAP_CACHE_VIVT
   3168        1.134   thorpej 				cpu_dcache_wbinv_range(va, PAGE_SIZE);
   3169   1.164.12.2      matt #endif
   3170        1.134   thorpej 				cpu_tlb_flushD_SE(va);
   3171        1.134   thorpej 			}
   3172        1.134   thorpej 			if (opte) {
   3173        1.134   thorpej 				*ptep = 0;
   3174        1.134   thorpej 				mappings++;
   3175        1.134   thorpej 			}
   3176        1.134   thorpej 			va += PAGE_SIZE;
   3177        1.134   thorpej 			ptep++;
   3178        1.134   thorpej 		}
   3179        1.134   thorpej 		KDASSERT(mappings <= l2b->l2b_occupancy);
   3180        1.134   thorpej 		l2b->l2b_occupancy -= mappings;
   3181        1.134   thorpej 		PTE_SYNC_RANGE(sptep, (u_int)(ptep - sptep));
   3182        1.134   thorpej 	}
   3183        1.134   thorpej 	cpu_cpwait();
   3184        1.134   thorpej }
   3185        1.134   thorpej 
   3186        1.159   thorpej bool
   3187        1.134   thorpej pmap_extract(pmap_t pm, vaddr_t va, paddr_t *pap)
   3188        1.134   thorpej {
   3189        1.134   thorpej 	struct l2_dtable *l2;
   3190        1.134   thorpej 	pd_entry_t *pl1pd, l1pd;
   3191        1.134   thorpej 	pt_entry_t *ptep, pte;
   3192        1.134   thorpej 	paddr_t pa;
   3193        1.134   thorpej 	u_int l1idx;
   3194        1.134   thorpej 
   3195        1.134   thorpej 	pmap_acquire_pmap_lock(pm);
   3196        1.134   thorpej 
   3197        1.134   thorpej 	l1idx = L1_IDX(va);
   3198        1.134   thorpej 	pl1pd = &pm->pm_l1->l1_kva[l1idx];
   3199        1.134   thorpej 	l1pd = *pl1pd;
   3200        1.134   thorpej 
   3201        1.134   thorpej 	if (l1pte_section_p(l1pd)) {
   3202        1.134   thorpej 		/*
   3203        1.134   thorpej 		 * These should only happen for pmap_kernel()
   3204        1.134   thorpej 		 */
   3205        1.134   thorpej 		KDASSERT(pm == pmap_kernel());
   3206        1.134   thorpej 		pmap_release_pmap_lock(pm);
   3207        1.134   thorpej 		pa = (l1pd & L1_S_FRAME) | (va & L1_S_OFFSET);
   3208        1.134   thorpej 	} else {
   3209        1.134   thorpej 		/*
   3210        1.134   thorpej 		 * Note that we can't rely on the validity of the L1
   3211        1.134   thorpej 		 * descriptor as an indication that a mapping exists.
   3212        1.134   thorpej 		 * We have to look it up in the L2 dtable.
   3213        1.134   thorpej 		 */
   3214        1.134   thorpej 		l2 = pm->pm_l2[L2_IDX(l1idx)];
   3215        1.134   thorpej 
   3216        1.134   thorpej 		if (l2 == NULL ||
   3217        1.134   thorpej 		    (ptep = l2->l2_bucket[L2_BUCKET(l1idx)].l2b_kva) == NULL) {
   3218        1.134   thorpej 			pmap_release_pmap_lock(pm);
   3219   1.164.12.2      matt 			return false;
   3220        1.134   thorpej 		}
   3221        1.134   thorpej 
   3222        1.134   thorpej 		ptep = &ptep[l2pte_index(va)];
   3223        1.134   thorpej 		pte = *ptep;
   3224        1.134   thorpej 		pmap_release_pmap_lock(pm);
   3225        1.134   thorpej 
   3226        1.134   thorpej 		if (pte == 0)
   3227   1.164.12.2      matt 			return false;
   3228        1.134   thorpej 
   3229        1.134   thorpej 		switch (pte & L2_TYPE_MASK) {
   3230        1.134   thorpej 		case L2_TYPE_L:
   3231        1.134   thorpej 			pa = (pte & L2_L_FRAME) | (va & L2_L_OFFSET);
   3232        1.134   thorpej 			break;
   3233        1.134   thorpej 
   3234        1.134   thorpej 		default:
   3235        1.134   thorpej 			pa = (pte & L2_S_FRAME) | (va & L2_S_OFFSET);
   3236        1.134   thorpej 			break;
   3237        1.134   thorpej 		}
   3238        1.134   thorpej 	}
   3239        1.134   thorpej 
   3240        1.134   thorpej 	if (pap != NULL)
   3241        1.134   thorpej 		*pap = pa;
   3242        1.134   thorpej 
   3243   1.164.12.2      matt 	return true;
   3244        1.134   thorpej }
   3245        1.134   thorpej 
   3246        1.134   thorpej void
   3247        1.134   thorpej pmap_protect(pmap_t pm, vaddr_t sva, vaddr_t eva, vm_prot_t prot)
   3248        1.134   thorpej {
   3249        1.134   thorpej 	struct l2_bucket *l2b;
   3250        1.134   thorpej 	pt_entry_t *ptep, pte;
   3251        1.134   thorpej 	vaddr_t next_bucket;
   3252        1.134   thorpej 	u_int flags;
   3253   1.164.12.2      matt 	u_int clr_mask;
   3254        1.134   thorpej 	int flush;
   3255        1.134   thorpej 
   3256        1.134   thorpej 	NPDEBUG(PDB_PROTECT,
   3257        1.134   thorpej 	    printf("pmap_protect: pm %p sva 0x%lx eva 0x%lx prot 0x%x\n",
   3258        1.134   thorpej 	    pm, sva, eva, prot));
   3259        1.134   thorpej 
   3260        1.134   thorpej 	if ((prot & VM_PROT_READ) == 0) {
   3261        1.134   thorpej 		pmap_remove(pm, sva, eva);
   3262        1.134   thorpej 		return;
   3263        1.134   thorpej 	}
   3264        1.134   thorpej 
   3265        1.134   thorpej 	if (prot & VM_PROT_WRITE) {
   3266        1.134   thorpej 		/*
   3267        1.134   thorpej 		 * If this is a read->write transition, just ignore it and let
   3268        1.134   thorpej 		 * uvm_fault() take care of it later.
   3269        1.134   thorpej 		 */
   3270        1.134   thorpej 		return;
   3271        1.134   thorpej 	}
   3272        1.134   thorpej 
   3273        1.134   thorpej 	PMAP_MAP_TO_HEAD_LOCK();
   3274        1.134   thorpej 	pmap_acquire_pmap_lock(pm);
   3275        1.134   thorpej 
   3276        1.134   thorpej 	flush = ((eva - sva) >= (PAGE_SIZE * 4)) ? 0 : -1;
   3277        1.134   thorpej 	flags = 0;
   3278   1.164.12.2      matt 	clr_mask = PVF_WRITE | ((prot & VM_PROT_EXECUTE) ? 0 : PVF_EXEC);
   3279        1.134   thorpej 
   3280        1.134   thorpej 	while (sva < eva) {
   3281        1.134   thorpej 		next_bucket = L2_NEXT_BUCKET(sva);
   3282        1.134   thorpej 		if (next_bucket > eva)
   3283        1.134   thorpej 			next_bucket = eva;
   3284        1.134   thorpej 
   3285        1.134   thorpej 		l2b = pmap_get_l2_bucket(pm, sva);
   3286        1.134   thorpej 		if (l2b == NULL) {
   3287        1.134   thorpej 			sva = next_bucket;
   3288        1.134   thorpej 			continue;
   3289        1.134   thorpej 		}
   3290        1.134   thorpej 
   3291        1.134   thorpej 		ptep = &l2b->l2b_kva[l2pte_index(sva)];
   3292        1.134   thorpej 
   3293        1.134   thorpej 		while (sva < next_bucket) {
   3294   1.164.12.2      matt 			pte = *ptep;
   3295   1.164.12.2      matt 			if (l2pte_valid(pte) != 0 && (pte & L2_S_PROT_W) != 0) {
   3296        1.134   thorpej 				struct vm_page *pg;
   3297        1.134   thorpej 				u_int f;
   3298        1.134   thorpej 
   3299   1.164.12.2      matt #ifdef PMAP_CACHE_VIVT
   3300   1.164.12.2      matt 				/*
   3301   1.164.12.2      matt 				 * OK, at this point, we know we're doing
   3302   1.164.12.2      matt 				 * write-protect operation.  If the pmap is
   3303   1.164.12.2      matt 				 * active, write-back the page.
   3304   1.164.12.2      matt 				 */
   3305   1.164.12.2      matt 				pmap_dcache_wb_range(pm, sva, PAGE_SIZE,
   3306   1.164.12.2      matt 				    false, false);
   3307   1.164.12.2      matt #endif
   3308   1.164.12.2      matt 
   3309        1.134   thorpej 				pg = PHYS_TO_VM_PAGE(l2pte_pa(pte));
   3310        1.134   thorpej 				pte &= ~L2_S_PROT_W;
   3311        1.134   thorpej 				*ptep = pte;
   3312        1.134   thorpej 				PTE_SYNC(ptep);
   3313        1.134   thorpej 
   3314        1.134   thorpej 				if (pg != NULL) {
   3315        1.134   thorpej 					simple_lock(&pg->mdpage.pvh_slock);
   3316        1.134   thorpej 					f = pmap_modify_pv(pg, pm, sva,
   3317   1.164.12.2      matt 					    clr_mask, 0);
   3318        1.134   thorpej 					pmap_vac_me_harder(pg, pm, sva);
   3319        1.134   thorpej 					simple_unlock(&pg->mdpage.pvh_slock);
   3320        1.134   thorpej 				} else
   3321        1.134   thorpej 					f = PVF_REF | PVF_EXEC;
   3322        1.134   thorpej 
   3323        1.134   thorpej 				if (flush >= 0) {
   3324        1.134   thorpej 					flush++;
   3325        1.134   thorpej 					flags |= f;
   3326        1.134   thorpej 				} else
   3327        1.134   thorpej 				if (PV_BEEN_EXECD(f))
   3328        1.134   thorpej 					pmap_tlb_flushID_SE(pm, sva);
   3329        1.134   thorpej 				else
   3330        1.134   thorpej 				if (PV_BEEN_REFD(f))
   3331        1.134   thorpej 					pmap_tlb_flushD_SE(pm, sva);
   3332          1.1      matt 			}
   3333        1.134   thorpej 
   3334        1.134   thorpej 			sva += PAGE_SIZE;
   3335        1.134   thorpej 			ptep++;
   3336        1.134   thorpej 		}
   3337          1.1      matt 	}
   3338          1.1      matt 
   3339        1.134   thorpej 	pmap_release_pmap_lock(pm);
   3340        1.134   thorpej 	PMAP_MAP_TO_HEAD_UNLOCK();
   3341        1.134   thorpej 
   3342        1.134   thorpej 	if (flush) {
   3343        1.134   thorpej 		if (PV_BEEN_EXECD(flags))
   3344        1.134   thorpej 			pmap_tlb_flushID(pm);
   3345        1.134   thorpej 		else
   3346        1.134   thorpej 		if (PV_BEEN_REFD(flags))
   3347        1.134   thorpej 			pmap_tlb_flushD(pm);
   3348        1.134   thorpej 	}
   3349        1.134   thorpej }
   3350        1.134   thorpej 
   3351        1.134   thorpej void
   3352   1.164.12.7      matt pmap_icache_sync_range(pmap_t pm, vaddr_t sva, vaddr_t eva)
   3353   1.164.12.7      matt {
   3354   1.164.12.7      matt 	struct l2_bucket *l2b;
   3355   1.164.12.7      matt 	pt_entry_t *ptep;
   3356   1.164.12.7      matt 	vaddr_t next_bucket;
   3357   1.164.12.8      matt 	vsize_t page_size = trunc_page(sva) + PAGE_SIZE - sva;
   3358   1.164.12.7      matt 
   3359   1.164.12.7      matt 	NPDEBUG(PDB_EXEC,
   3360   1.164.12.7      matt 	    printf("pmap_icache_sync_range: pm %p sva 0x%lx eva 0x%lx\n",
   3361   1.164.12.7      matt 	    pm, sva, eva));
   3362   1.164.12.7      matt 
   3363   1.164.12.7      matt 	PMAP_MAP_TO_HEAD_LOCK();
   3364   1.164.12.7      matt 	pmap_acquire_pmap_lock(pm);
   3365   1.164.12.7      matt 
   3366   1.164.12.7      matt 	while (sva < eva) {
   3367   1.164.12.7      matt 		next_bucket = L2_NEXT_BUCKET(sva);
   3368   1.164.12.7      matt 		if (next_bucket > eva)
   3369   1.164.12.7      matt 			next_bucket = eva;
   3370   1.164.12.7      matt 
   3371   1.164.12.7      matt 		l2b = pmap_get_l2_bucket(pm, sva);
   3372   1.164.12.7      matt 		if (l2b == NULL) {
   3373   1.164.12.7      matt 			sva = next_bucket;
   3374   1.164.12.7      matt 			continue;
   3375   1.164.12.7      matt 		}
   3376   1.164.12.7      matt 
   3377   1.164.12.7      matt 		for (ptep = &l2b->l2b_kva[l2pte_index(sva)];
   3378   1.164.12.7      matt 		     sva < next_bucket;
   3379   1.164.12.8      matt 		     sva += page_size, ptep++, page_size = PAGE_SIZE) {
   3380   1.164.12.8      matt 			if (l2pte_valid(*ptep)) {
   3381   1.164.12.8      matt 				cpu_icache_sync_range(sva,
   3382   1.164.12.8      matt 				    min(page_size, eva - sva));
   3383   1.164.12.8      matt 			}
   3384   1.164.12.7      matt 		}
   3385   1.164.12.7      matt 	}
   3386   1.164.12.7      matt 
   3387   1.164.12.7      matt 	pmap_release_pmap_lock(pm);
   3388   1.164.12.7      matt 	PMAP_MAP_TO_HEAD_UNLOCK();
   3389   1.164.12.7      matt }
   3390   1.164.12.7      matt 
   3391   1.164.12.7      matt void
   3392        1.134   thorpej pmap_page_protect(struct vm_page *pg, vm_prot_t prot)
   3393        1.134   thorpej {
   3394        1.134   thorpej 
   3395        1.134   thorpej 	NPDEBUG(PDB_PROTECT,
   3396        1.134   thorpej 	    printf("pmap_page_protect: pg %p (0x%08lx), prot 0x%x\n",
   3397        1.155      yamt 	    pg, VM_PAGE_TO_PHYS(pg), prot));
   3398        1.134   thorpej 
   3399        1.134   thorpej 	switch(prot) {
   3400        1.134   thorpej 		return;
   3401   1.164.12.2      matt 	case VM_PROT_READ|VM_PROT_WRITE:
   3402   1.164.12.2      matt #if defined(PMAP_CHECK_VIPT) && defined(PMAP_APX)
   3403   1.164.12.2      matt 		pmap_clearbit(pg, PVF_EXEC);
   3404   1.164.12.2      matt 		break;
   3405   1.164.12.2      matt #endif
   3406   1.164.12.2      matt 	case VM_PROT_READ|VM_PROT_WRITE|VM_PROT_EXECUTE:
   3407   1.164.12.2      matt 		break;
   3408        1.134   thorpej 
   3409        1.134   thorpej 	case VM_PROT_READ:
   3410   1.164.12.2      matt #if defined(PMAP_CHECK_VIPT) && defined(PMAP_APX)
   3411   1.164.12.2      matt 		pmap_clearbit(pg, PVF_WRITE|PVF_EXEC);
   3412   1.164.12.2      matt 		break;
   3413   1.164.12.2      matt #endif
   3414        1.134   thorpej 	case VM_PROT_READ|VM_PROT_EXECUTE:
   3415        1.134   thorpej 		pmap_clearbit(pg, PVF_WRITE);
   3416        1.134   thorpej 		break;
   3417        1.134   thorpej 
   3418        1.134   thorpej 	default:
   3419        1.134   thorpej 		pmap_page_remove(pg);
   3420        1.134   thorpej 		break;
   3421        1.134   thorpej 	}
   3422        1.134   thorpej }
   3423        1.134   thorpej 
   3424        1.134   thorpej /*
   3425        1.134   thorpej  * pmap_clear_modify:
   3426        1.134   thorpej  *
   3427        1.134   thorpej  *	Clear the "modified" attribute for a page.
   3428        1.134   thorpej  */
   3429        1.159   thorpej bool
   3430        1.134   thorpej pmap_clear_modify(struct vm_page *pg)
   3431        1.134   thorpej {
   3432        1.159   thorpej 	bool rv;
   3433        1.134   thorpej 
   3434        1.134   thorpej 	if (pg->mdpage.pvh_attrs & PVF_MOD) {
   3435        1.160   thorpej 		rv = true;
   3436        1.134   thorpej 		pmap_clearbit(pg, PVF_MOD);
   3437        1.134   thorpej 	} else
   3438        1.160   thorpej 		rv = false;
   3439        1.134   thorpej 
   3440        1.134   thorpej 	return (rv);
   3441        1.134   thorpej }
   3442        1.134   thorpej 
   3443        1.134   thorpej /*
   3444        1.134   thorpej  * pmap_clear_reference:
   3445        1.134   thorpej  *
   3446        1.134   thorpej  *	Clear the "referenced" attribute for a page.
   3447        1.134   thorpej  */
   3448        1.159   thorpej bool
   3449        1.134   thorpej pmap_clear_reference(struct vm_page *pg)
   3450        1.134   thorpej {
   3451        1.159   thorpej 	bool rv;
   3452        1.134   thorpej 
   3453        1.134   thorpej 	if (pg->mdpage.pvh_attrs & PVF_REF) {
   3454        1.160   thorpej 		rv = true;
   3455        1.134   thorpej 		pmap_clearbit(pg, PVF_REF);
   3456        1.134   thorpej 	} else
   3457        1.160   thorpej 		rv = false;
   3458        1.134   thorpej 
   3459        1.134   thorpej 	return (rv);
   3460        1.134   thorpej }
   3461        1.134   thorpej 
   3462        1.134   thorpej /*
   3463        1.134   thorpej  * pmap_is_modified:
   3464        1.134   thorpej  *
   3465        1.134   thorpej  *	Test if a page has the "modified" attribute.
   3466        1.134   thorpej  */
   3467        1.134   thorpej /* See <arm/arm32/pmap.h> */
   3468        1.134   thorpej 
   3469        1.134   thorpej /*
   3470        1.134   thorpej  * pmap_is_referenced:
   3471        1.134   thorpej  *
   3472        1.134   thorpej  *	Test if a page has the "referenced" attribute.
   3473        1.134   thorpej  */
   3474        1.134   thorpej /* See <arm/arm32/pmap.h> */
   3475        1.134   thorpej 
   3476        1.134   thorpej int
   3477        1.134   thorpej pmap_fault_fixup(pmap_t pm, vaddr_t va, vm_prot_t ftype, int user)
   3478        1.134   thorpej {
   3479        1.134   thorpej 	struct l2_dtable *l2;
   3480        1.134   thorpej 	struct l2_bucket *l2b;
   3481        1.134   thorpej 	pd_entry_t *pl1pd, l1pd;
   3482        1.134   thorpej 	pt_entry_t *ptep, pte;
   3483        1.134   thorpej 	paddr_t pa;
   3484        1.134   thorpej 	u_int l1idx;
   3485        1.134   thorpej 	int rv = 0;
   3486        1.134   thorpej 
   3487        1.134   thorpej 	PMAP_MAP_TO_HEAD_LOCK();
   3488        1.134   thorpej 	pmap_acquire_pmap_lock(pm);
   3489        1.134   thorpej 
   3490        1.134   thorpej 	l1idx = L1_IDX(va);
   3491        1.134   thorpej 
   3492        1.134   thorpej 	/*
   3493        1.134   thorpej 	 * If there is no l2_dtable for this address, then the process
   3494        1.134   thorpej 	 * has no business accessing it.
   3495        1.134   thorpej 	 *
   3496        1.134   thorpej 	 * Note: This will catch userland processes trying to access
   3497        1.134   thorpej 	 * kernel addresses.
   3498        1.134   thorpej 	 */
   3499        1.134   thorpej 	l2 = pm->pm_l2[L2_IDX(l1idx)];
   3500        1.134   thorpej 	if (l2 == NULL)
   3501        1.134   thorpej 		goto out;
   3502        1.134   thorpej 
   3503          1.1      matt 	/*
   3504        1.134   thorpej 	 * Likewise if there is no L2 descriptor table
   3505          1.1      matt 	 */
   3506        1.134   thorpej 	l2b = &l2->l2_bucket[L2_BUCKET(l1idx)];
   3507        1.134   thorpej 	if (l2b->l2b_kva == NULL)
   3508        1.134   thorpej 		goto out;
   3509        1.134   thorpej 
   3510        1.134   thorpej 	/*
   3511        1.134   thorpej 	 * Check the PTE itself.
   3512        1.134   thorpej 	 */
   3513        1.134   thorpej 	ptep = &l2b->l2b_kva[l2pte_index(va)];
   3514        1.134   thorpej 	pte = *ptep;
   3515        1.134   thorpej 	if (pte == 0)
   3516        1.134   thorpej 		goto out;
   3517        1.134   thorpej 
   3518        1.134   thorpej 	/*
   3519        1.134   thorpej 	 * Catch a userland access to the vector page mapped at 0x0
   3520        1.134   thorpej 	 */
   3521        1.134   thorpej 	if (user && (pte & L2_S_PROT_U) == 0)
   3522        1.134   thorpej 		goto out;
   3523        1.134   thorpej 
   3524        1.134   thorpej 	pa = l2pte_pa(pte);
   3525        1.134   thorpej 
   3526        1.134   thorpej 	if ((ftype & VM_PROT_WRITE) && (pte & L2_S_PROT_W) == 0) {
   3527        1.134   thorpej 		/*
   3528        1.134   thorpej 		 * This looks like a good candidate for "page modified"
   3529        1.134   thorpej 		 * emulation...
   3530        1.134   thorpej 		 */
   3531        1.134   thorpej 		struct pv_entry *pv;
   3532        1.134   thorpej 		struct vm_page *pg;
   3533        1.134   thorpej 
   3534        1.134   thorpej 		/* Extract the physical address of the page */
   3535        1.134   thorpej 		if ((pg = PHYS_TO_VM_PAGE(pa)) == NULL)
   3536        1.134   thorpej 			goto out;
   3537        1.134   thorpej 
   3538        1.134   thorpej 		/* Get the current flags for this page. */
   3539        1.134   thorpej 		simple_lock(&pg->mdpage.pvh_slock);
   3540        1.134   thorpej 
   3541        1.134   thorpej 		pv = pmap_find_pv(pg, pm, va);
   3542        1.134   thorpej 		if (pv == NULL) {
   3543        1.134   thorpej 	    		simple_unlock(&pg->mdpage.pvh_slock);
   3544        1.134   thorpej 			goto out;
   3545        1.134   thorpej 		}
   3546        1.134   thorpej 
   3547        1.134   thorpej 		/*
   3548        1.134   thorpej 		 * Do the flags say this page is writable? If not then it
   3549        1.134   thorpej 		 * is a genuine write fault. If yes then the write fault is
   3550        1.134   thorpej 		 * our fault as we did not reflect the write access in the
   3551        1.134   thorpej 		 * PTE. Now we know a write has occurred we can correct this
   3552        1.134   thorpej 		 * and also set the modified bit
   3553        1.134   thorpej 		 */
   3554        1.134   thorpej 		if ((pv->pv_flags & PVF_WRITE) == 0) {
   3555        1.134   thorpej 		    	simple_unlock(&pg->mdpage.pvh_slock);
   3556        1.134   thorpej 			goto out;
   3557        1.134   thorpej 		}
   3558        1.134   thorpej 
   3559        1.134   thorpej 		NPDEBUG(PDB_FOLLOW,
   3560        1.134   thorpej 		    printf("pmap_fault_fixup: mod emul. pm %p, va 0x%08lx, pa 0x%08lx\n",
   3561        1.155      yamt 		    pm, va, VM_PAGE_TO_PHYS(pg)));
   3562        1.134   thorpej 
   3563        1.134   thorpej 		pg->mdpage.pvh_attrs |= PVF_REF | PVF_MOD;
   3564        1.134   thorpej 		pv->pv_flags |= PVF_REF | PVF_MOD;
   3565        1.134   thorpej 		simple_unlock(&pg->mdpage.pvh_slock);
   3566        1.134   thorpej 
   3567        1.134   thorpej 		/*
   3568        1.134   thorpej 		 * Re-enable write permissions for the page.  No need to call
   3569        1.134   thorpej 		 * pmap_vac_me_harder(), since this is just a
   3570        1.134   thorpej 		 * modified-emulation fault, and the PVF_WRITE bit isn't
   3571        1.134   thorpej 		 * changing. We've already set the cacheable bits based on
   3572        1.134   thorpej 		 * the assumption that we can write to this page.
   3573        1.134   thorpej 		 */
   3574        1.134   thorpej 		*ptep = (pte & ~L2_TYPE_MASK) | L2_S_PROTO | L2_S_PROT_W;
   3575        1.134   thorpej 		PTE_SYNC(ptep);
   3576        1.134   thorpej 		rv = 1;
   3577        1.134   thorpej 	} else
   3578        1.134   thorpej 	if ((pte & L2_TYPE_MASK) == L2_TYPE_INV) {
   3579        1.134   thorpej 		/*
   3580        1.134   thorpej 		 * This looks like a good candidate for "page referenced"
   3581        1.134   thorpej 		 * emulation.
   3582        1.134   thorpej 		 */
   3583        1.134   thorpej 		struct pv_entry *pv;
   3584        1.134   thorpej 		struct vm_page *pg;
   3585        1.134   thorpej 
   3586        1.134   thorpej 		/* Extract the physical address of the page */
   3587        1.134   thorpej 		if ((pg = PHYS_TO_VM_PAGE(pa)) == NULL)
   3588        1.134   thorpej 			goto out;
   3589        1.134   thorpej 
   3590        1.134   thorpej 		/* Get the current flags for this page. */
   3591        1.134   thorpej 		simple_lock(&pg->mdpage.pvh_slock);
   3592        1.134   thorpej 
   3593        1.134   thorpej 		pv = pmap_find_pv(pg, pm, va);
   3594        1.134   thorpej 		if (pv == NULL) {
   3595        1.134   thorpej 	    		simple_unlock(&pg->mdpage.pvh_slock);
   3596        1.134   thorpej 			goto out;
   3597        1.134   thorpej 		}
   3598        1.134   thorpej 
   3599        1.134   thorpej 		pg->mdpage.pvh_attrs |= PVF_REF;
   3600        1.134   thorpej 		pv->pv_flags |= PVF_REF;
   3601        1.134   thorpej 		simple_unlock(&pg->mdpage.pvh_slock);
   3602          1.1      matt 
   3603        1.134   thorpej 		NPDEBUG(PDB_FOLLOW,
   3604        1.134   thorpej 		    printf("pmap_fault_fixup: ref emul. pm %p, va 0x%08lx, pa 0x%08lx\n",
   3605        1.155      yamt 		    pm, va, VM_PAGE_TO_PHYS(pg)));
   3606        1.134   thorpej 
   3607        1.134   thorpej 		*ptep = (pte & ~L2_TYPE_MASK) | L2_S_PROTO;
   3608        1.134   thorpej 		PTE_SYNC(ptep);
   3609        1.134   thorpej 		rv = 1;
   3610        1.134   thorpej 	}
   3611        1.134   thorpej 
   3612        1.134   thorpej 	/*
   3613        1.134   thorpej 	 * We know there is a valid mapping here, so simply
   3614        1.134   thorpej 	 * fix up the L1 if necessary.
   3615        1.134   thorpej 	 */
   3616        1.134   thorpej 	pl1pd = &pm->pm_l1->l1_kva[l1idx];
   3617        1.134   thorpej 	l1pd = l2b->l2b_phys | L1_C_DOM(pm->pm_domain) | L1_C_PROTO;
   3618        1.134   thorpej 	if (*pl1pd != l1pd) {
   3619        1.134   thorpej 		*pl1pd = l1pd;
   3620        1.134   thorpej 		PTE_SYNC(pl1pd);
   3621        1.134   thorpej 		rv = 1;
   3622        1.134   thorpej 	}
   3623        1.134   thorpej 
   3624        1.134   thorpej #ifdef CPU_SA110
   3625        1.134   thorpej 	/*
   3626        1.134   thorpej 	 * There are bugs in the rev K SA110.  This is a check for one
   3627        1.134   thorpej 	 * of them.
   3628        1.134   thorpej 	 */
   3629        1.134   thorpej 	if (rv == 0 && curcpu()->ci_arm_cputype == CPU_ID_SA110 &&
   3630        1.134   thorpej 	    curcpu()->ci_arm_cpurev < 3) {
   3631        1.134   thorpej 		/* Always current pmap */
   3632        1.134   thorpej 		if (l2pte_valid(pte)) {
   3633        1.134   thorpej 			extern int kernel_debug;
   3634        1.134   thorpej 			if (kernel_debug & 1) {
   3635        1.134   thorpej 				struct proc *p = curlwp->l_proc;
   3636        1.134   thorpej 				printf("prefetch_abort: page is already "
   3637        1.134   thorpej 				    "mapped - pte=%p *pte=%08x\n", ptep, pte);
   3638        1.134   thorpej 				printf("prefetch_abort: pc=%08lx proc=%p "
   3639        1.134   thorpej 				    "process=%s\n", va, p, p->p_comm);
   3640        1.134   thorpej 				printf("prefetch_abort: far=%08x fs=%x\n",
   3641        1.134   thorpej 				    cpu_faultaddress(), cpu_faultstatus());
   3642        1.113   thorpej 			}
   3643        1.134   thorpej #ifdef DDB
   3644        1.134   thorpej 			if (kernel_debug & 2)
   3645        1.134   thorpej 				Debugger();
   3646        1.134   thorpej #endif
   3647        1.134   thorpej 			rv = 1;
   3648          1.1      matt 		}
   3649          1.1      matt 	}
   3650        1.134   thorpej #endif /* CPU_SA110 */
   3651        1.104   thorpej 
   3652        1.134   thorpej #ifdef DEBUG
   3653        1.134   thorpej 	/*
   3654        1.134   thorpej 	 * If 'rv == 0' at this point, it generally indicates that there is a
   3655        1.134   thorpej 	 * stale TLB entry for the faulting address. This happens when two or
   3656        1.134   thorpej 	 * more processes are sharing an L1. Since we don't flush the TLB on
   3657        1.134   thorpej 	 * a context switch between such processes, we can take domain faults
   3658        1.134   thorpej 	 * for mappings which exist at the same VA in both processes. EVEN IF
   3659        1.134   thorpej 	 * WE'VE RECENTLY FIXED UP THE CORRESPONDING L1 in pmap_enter(), for
   3660        1.134   thorpej 	 * example.
   3661        1.134   thorpej 	 *
   3662        1.134   thorpej 	 * This is extremely likely to happen if pmap_enter() updated the L1
   3663        1.134   thorpej 	 * entry for a recently entered mapping. In this case, the TLB is
   3664        1.134   thorpej 	 * flushed for the new mapping, but there may still be TLB entries for
   3665        1.134   thorpej 	 * other mappings belonging to other processes in the 1MB range
   3666        1.134   thorpej 	 * covered by the L1 entry.
   3667        1.134   thorpej 	 *
   3668        1.134   thorpej 	 * Since 'rv == 0', we know that the L1 already contains the correct
   3669        1.134   thorpej 	 * value, so the fault must be due to a stale TLB entry.
   3670        1.134   thorpej 	 *
   3671        1.134   thorpej 	 * Since we always need to flush the TLB anyway in the case where we
   3672        1.134   thorpej 	 * fixed up the L1, or frobbed the L2 PTE, we effectively deal with
   3673        1.134   thorpej 	 * stale TLB entries dynamically.
   3674        1.134   thorpej 	 *
   3675        1.134   thorpej 	 * However, the above condition can ONLY happen if the current L1 is
   3676        1.134   thorpej 	 * being shared. If it happens when the L1 is unshared, it indicates
   3677        1.134   thorpej 	 * that other parts of the pmap are not doing their job WRT managing
   3678        1.134   thorpej 	 * the TLB.
   3679        1.134   thorpej 	 */
   3680        1.134   thorpej 	if (rv == 0 && pm->pm_l1->l1_domain_use_count == 1) {
   3681        1.134   thorpej 		extern int last_fault_code;
   3682        1.134   thorpej 		printf("fixup: pm %p, va 0x%lx, ftype %d - nothing to do!\n",
   3683        1.134   thorpej 		    pm, va, ftype);
   3684        1.134   thorpej 		printf("fixup: l2 %p, l2b %p, ptep %p, pl1pd %p\n",
   3685        1.134   thorpej 		    l2, l2b, ptep, pl1pd);
   3686        1.134   thorpej 		printf("fixup: pte 0x%x, l1pd 0x%x, last code 0x%x\n",
   3687        1.134   thorpej 		    pte, l1pd, last_fault_code);
   3688        1.134   thorpej #ifdef DDB
   3689        1.134   thorpej 		Debugger();
   3690        1.134   thorpej #endif
   3691        1.134   thorpej 	}
   3692        1.134   thorpej #endif
   3693        1.134   thorpej 
   3694        1.134   thorpej 	cpu_tlb_flushID_SE(va);
   3695        1.134   thorpej 	cpu_cpwait();
   3696        1.134   thorpej 
   3697        1.134   thorpej 	rv = 1;
   3698        1.104   thorpej 
   3699        1.134   thorpej out:
   3700        1.134   thorpej 	pmap_release_pmap_lock(pm);
   3701         1.17     chris 	PMAP_MAP_TO_HEAD_UNLOCK();
   3702        1.134   thorpej 
   3703        1.134   thorpej 	return (rv);
   3704        1.134   thorpej }
   3705        1.134   thorpej 
   3706        1.134   thorpej /*
   3707        1.134   thorpej  * pmap_collect: free resources held by a pmap
   3708        1.134   thorpej  *
   3709        1.134   thorpej  * => optional function.
   3710        1.134   thorpej  * => called when a process is swapped out to free memory.
   3711        1.134   thorpej  */
   3712        1.134   thorpej void
   3713        1.134   thorpej pmap_collect(pmap_t pm)
   3714        1.134   thorpej {
   3715        1.156       scw 
   3716   1.164.12.2      matt #ifdef PMAP_CACHE_VIVT
   3717        1.156       scw 	pmap_idcache_wbinv_all(pm);
   3718   1.164.12.2      matt #endif
   3719        1.160   thorpej 	pm->pm_remove_all = true;
   3720        1.156       scw 	pmap_do_remove(pm, VM_MIN_ADDRESS, VM_MAX_ADDRESS, 1);
   3721        1.156       scw 	pmap_update(pm);
   3722   1.164.12.2      matt 	PMAPCOUNT(collects);
   3723          1.1      matt }
   3724          1.1      matt 
   3725          1.1      matt /*
   3726        1.134   thorpej  * Routine:	pmap_procwr
   3727        1.134   thorpej  *
   3728          1.1      matt  * Function:
   3729        1.134   thorpej  *	Synchronize caches corresponding to [addr, addr+len) in p.
   3730        1.134   thorpej  *
   3731        1.134   thorpej  */
   3732        1.134   thorpej void
   3733        1.134   thorpej pmap_procwr(struct proc *p, vaddr_t va, int len)
   3734        1.134   thorpej {
   3735        1.134   thorpej 	/* We only need to do anything if it is the current process. */
   3736        1.134   thorpej 	if (p == curproc)
   3737        1.134   thorpej 		cpu_icache_sync_range(va, len);
   3738        1.134   thorpej }
   3739        1.134   thorpej 
   3740        1.134   thorpej /*
   3741        1.134   thorpej  * Routine:	pmap_unwire
   3742        1.134   thorpej  * Function:	Clear the wired attribute for a map/virtual-address pair.
   3743        1.134   thorpej  *
   3744        1.134   thorpej  * In/out conditions:
   3745        1.134   thorpej  *		The mapping must already exist in the pmap.
   3746          1.1      matt  */
   3747        1.134   thorpej void
   3748        1.134   thorpej pmap_unwire(pmap_t pm, vaddr_t va)
   3749        1.134   thorpej {
   3750        1.134   thorpej 	struct l2_bucket *l2b;
   3751        1.134   thorpej 	pt_entry_t *ptep, pte;
   3752        1.134   thorpej 	struct vm_page *pg;
   3753        1.134   thorpej 	paddr_t pa;
   3754        1.134   thorpej 
   3755        1.134   thorpej 	NPDEBUG(PDB_WIRING, printf("pmap_unwire: pm %p, va 0x%08lx\n", pm, va));
   3756        1.134   thorpej 
   3757        1.134   thorpej 	PMAP_MAP_TO_HEAD_LOCK();
   3758        1.134   thorpej 	pmap_acquire_pmap_lock(pm);
   3759        1.134   thorpej 
   3760        1.134   thorpej 	l2b = pmap_get_l2_bucket(pm, va);
   3761        1.134   thorpej 	KDASSERT(l2b != NULL);
   3762        1.134   thorpej 
   3763        1.134   thorpej 	ptep = &l2b->l2b_kva[l2pte_index(va)];
   3764        1.134   thorpej 	pte = *ptep;
   3765        1.134   thorpej 
   3766        1.134   thorpej 	/* Extract the physical address of the page */
   3767        1.134   thorpej 	pa = l2pte_pa(pte);
   3768          1.1      matt 
   3769        1.134   thorpej 	if ((pg = PHYS_TO_VM_PAGE(pa)) != NULL) {
   3770        1.134   thorpej 		/* Update the wired bit in the pv entry for this page. */
   3771        1.134   thorpej 		simple_lock(&pg->mdpage.pvh_slock);
   3772        1.134   thorpej 		(void) pmap_modify_pv(pg, pm, va, PVF_WIRED, 0);
   3773        1.134   thorpej 		simple_unlock(&pg->mdpage.pvh_slock);
   3774        1.134   thorpej 	}
   3775        1.134   thorpej 
   3776        1.134   thorpej 	pmap_release_pmap_lock(pm);
   3777        1.134   thorpej 	PMAP_MAP_TO_HEAD_UNLOCK();
   3778        1.134   thorpej }
   3779        1.134   thorpej 
   3780        1.134   thorpej void
   3781   1.164.12.3      matt pmap_switch(struct lwp *olwp, struct lwp *nlwp)
   3782          1.1      matt {
   3783   1.164.12.3      matt 	extern int block_userspace_access;
   3784   1.164.12.3      matt 	pmap_t opm, npm, rpm;
   3785   1.164.12.3      matt 	uint32_t odacr, ndacr;
   3786   1.164.12.3      matt 	int oldirqstate;
   3787        1.134   thorpej 
   3788   1.164.12.3      matt 	npm = nlwp->l_proc->p_vmspace->vm_map.pmap;
   3789   1.164.12.3      matt 	ndacr = (DOMAIN_CLIENT << (PMAP_DOMAIN_KERNEL * 2)) |
   3790   1.164.12.3      matt 	    (DOMAIN_CLIENT << (npm->pm_domain * 2));
   3791        1.134   thorpej 
   3792   1.164.12.3      matt 	/*
   3793   1.164.12.3      matt 	 * If TTB and DACR are unchanged, short-circuit all the
   3794   1.164.12.3      matt 	 * TLB/cache management stuff.
   3795   1.164.12.3      matt 	 */
   3796   1.164.12.3      matt 	if (olwp != NULL) {
   3797   1.164.12.3      matt 		opm = olwp->l_proc->p_vmspace->vm_map.pmap;
   3798   1.164.12.3      matt 		odacr = (DOMAIN_CLIENT << (PMAP_DOMAIN_KERNEL * 2)) |
   3799   1.164.12.3      matt 		    (DOMAIN_CLIENT << (opm->pm_domain * 2));
   3800        1.134   thorpej 
   3801   1.164.12.3      matt 		if (opm->pm_l1 == npm->pm_l1 && odacr == ndacr)
   3802   1.164.12.3      matt 			goto all_done;
   3803   1.164.12.3      matt 	} else
   3804   1.164.12.3      matt 		opm = NULL;
   3805   1.164.12.2      matt 
   3806   1.164.12.3      matt 	PMAPCOUNT(activations);
   3807   1.164.12.3      matt 	block_userspace_access = 1;
   3808        1.134   thorpej 
   3809   1.164.12.3      matt 	/*
   3810   1.164.12.3      matt 	 * If switching to a user vmspace which is different to the
   3811   1.164.12.3      matt 	 * most recent one, and the most recent one is potentially
   3812   1.164.12.3      matt 	 * live in the cache, we must write-back and invalidate the
   3813   1.164.12.3      matt 	 * entire cache.
   3814   1.164.12.3      matt 	 */
   3815   1.164.12.3      matt 	rpm = pmap_recent_user;
   3816   1.164.12.3      matt 	if (npm != pmap_kernel() && rpm && npm != rpm &&
   3817   1.164.12.3      matt 	    rpm->pm_cstate.cs_cache) {
   3818   1.164.12.3      matt 		rpm->pm_cstate.cs_cache = 0;
   3819   1.164.12.3      matt #ifdef PMAP_CACHE_VIVT
   3820   1.164.12.3      matt 		cpu_idcache_wbinv_all();
   3821   1.164.12.3      matt #endif
   3822   1.164.12.3      matt 	}
   3823        1.134   thorpej 
   3824   1.164.12.3      matt 	/* No interrupts while we frob the TTB/DACR */
   3825   1.164.12.3      matt 	oldirqstate = disable_interrupts(I32_bit | F32_bit);
   3826          1.1      matt 
   3827   1.164.12.3      matt 	/*
   3828   1.164.12.3      matt 	 * For ARM_VECTORS_LOW, we MUST, I repeat, MUST fix up the L1
   3829   1.164.12.3      matt 	 * entry corresponding to 'vector_page' in the incoming L1 table
   3830   1.164.12.3      matt 	 * before switching to it otherwise subsequent interrupts/exceptions
   3831   1.164.12.3      matt 	 * (including domain faults!) will jump into hyperspace.
   3832   1.164.12.3      matt 	 */
   3833   1.164.12.3      matt 	if (npm->pm_pl1vec != NULL) {
   3834   1.164.12.3      matt 		cpu_tlb_flushID_SE((u_int)vector_page);
   3835   1.164.12.3      matt 		cpu_cpwait();
   3836   1.164.12.3      matt 		*npm->pm_pl1vec = npm->pm_l1vec;
   3837   1.164.12.3      matt 		PTE_SYNC(npm->pm_pl1vec);
   3838   1.164.12.3      matt 	}
   3839          1.1      matt 
   3840   1.164.12.3      matt 	cpu_domains(ndacr);
   3841          1.1      matt 
   3842   1.164.12.3      matt 	if (npm == pmap_kernel() || npm == rpm) {
   3843        1.134   thorpej 		/*
   3844   1.164.12.3      matt 		 * Switching to a kernel thread, or back to the
   3845   1.164.12.3      matt 		 * same user vmspace as before... Simply update
   3846   1.164.12.3      matt 		 * the TTB (no TLB flush required)
   3847        1.134   thorpej 		 */
   3848   1.164.12.3      matt 		__asm volatile("mcr p15, 0, %0, c2, c0, 0" ::
   3849   1.164.12.3      matt 		    "r"(npm->pm_l1->l1_physaddr));
   3850   1.164.12.3      matt 		cpu_cpwait();
   3851   1.164.12.3      matt 	} else {
   3852   1.164.12.3      matt 		/*
   3853   1.164.12.3      matt 		 * Otherwise, update TTB and flush TLB
   3854   1.164.12.3      matt 		 */
   3855   1.164.12.3      matt 		cpu_context_switch(npm->pm_l1->l1_physaddr);
   3856   1.164.12.3      matt 		if (rpm != NULL)
   3857   1.164.12.3      matt 			rpm->pm_cstate.cs_tlb = 0;
   3858   1.164.12.3      matt 	}
   3859          1.1      matt 
   3860   1.164.12.3      matt 	restore_interrupts(oldirqstate);
   3861          1.1      matt 
   3862   1.164.12.3      matt 	block_userspace_access = 0;
   3863          1.1      matt 
   3864   1.164.12.3      matt  all_done:
   3865   1.164.12.3      matt 	/*
   3866   1.164.12.3      matt 	 * The new pmap is resident. Make sure it's marked
   3867   1.164.12.3      matt 	 * as resident in the cache/TLB.
   3868   1.164.12.3      matt 	 */
   3869   1.164.12.3      matt 	npm->pm_cstate.cs_all = PMAP_CACHE_STATE_ALL;
   3870   1.164.12.3      matt 	if (npm != pmap_kernel())
   3871   1.164.12.3      matt 		pmap_recent_user = npm;
   3872          1.1      matt 
   3873   1.164.12.3      matt 	/* The old pmap is not longer active */
   3874   1.164.12.3      matt 	if (opm != NULL)
   3875   1.164.12.3      matt 		opm->pm_activated = false;
   3876   1.164.12.3      matt 
   3877   1.164.12.3      matt 	/* But the new one is */
   3878   1.164.12.3      matt 	npm->pm_activated = true;
   3879   1.164.12.3      matt }
   3880   1.164.12.3      matt 
   3881   1.164.12.3      matt void
   3882   1.164.12.3      matt pmap_activate(struct lwp *l)
   3883   1.164.12.3      matt {
   3884   1.164.12.3      matt 
   3885   1.164.12.3      matt 	if (l == curlwp &&
   3886   1.164.12.3      matt 	    l->l_proc->p_vmspace->vm_map.pmap->pm_activated == false)
   3887   1.164.12.3      matt 		pmap_switch(NULL, l);
   3888        1.134   thorpej }
   3889          1.1      matt 
   3890        1.134   thorpej void
   3891        1.134   thorpej pmap_deactivate(struct lwp *l)
   3892        1.134   thorpej {
   3893   1.164.12.3      matt 
   3894   1.164.12.3      matt 	l->l_proc->p_vmspace->vm_map.pmap->pm_activated = false;
   3895          1.1      matt }
   3896          1.1      matt 
   3897          1.1      matt void
   3898        1.134   thorpej pmap_update(pmap_t pm)
   3899          1.1      matt {
   3900          1.1      matt 
   3901        1.134   thorpej 	if (pm->pm_remove_all) {
   3902        1.134   thorpej 		/*
   3903        1.134   thorpej 		 * Finish up the pmap_remove_all() optimisation by flushing
   3904        1.134   thorpej 		 * the TLB.
   3905        1.134   thorpej 		 */
   3906        1.134   thorpej 		pmap_tlb_flushID(pm);
   3907        1.160   thorpej 		pm->pm_remove_all = false;
   3908        1.134   thorpej 	}
   3909          1.1      matt 
   3910        1.134   thorpej 	if (pmap_is_current(pm)) {
   3911        1.107   thorpej 		/*
   3912        1.134   thorpej 		 * If we're dealing with a current userland pmap, move its L1
   3913        1.134   thorpej 		 * to the end of the LRU.
   3914        1.107   thorpej 		 */
   3915        1.134   thorpej 		if (pm != pmap_kernel())
   3916        1.134   thorpej 			pmap_use_l1(pm);
   3917        1.134   thorpej 
   3918          1.1      matt 		/*
   3919        1.134   thorpej 		 * We can assume we're done with frobbing the cache/tlb for
   3920        1.134   thorpej 		 * now. Make sure any future pmap ops don't skip cache/tlb
   3921        1.134   thorpej 		 * flushes.
   3922          1.1      matt 		 */
   3923        1.134   thorpej 		pm->pm_cstate.cs_all = PMAP_CACHE_STATE_ALL;
   3924          1.1      matt 	}
   3925          1.1      matt 
   3926   1.164.12.2      matt 	PMAPCOUNT(updates);
   3927   1.164.12.2      matt 
   3928         1.96   thorpej 	/*
   3929        1.134   thorpej 	 * make sure TLB/cache operations have completed.
   3930         1.96   thorpej 	 */
   3931        1.134   thorpej 	cpu_cpwait();
   3932        1.134   thorpej }
   3933        1.134   thorpej 
   3934        1.134   thorpej void
   3935        1.134   thorpej pmap_remove_all(pmap_t pm)
   3936        1.134   thorpej {
   3937         1.96   thorpej 
   3938          1.1      matt 	/*
   3939        1.134   thorpej 	 * The vmspace described by this pmap is about to be torn down.
   3940        1.134   thorpej 	 * Until pmap_update() is called, UVM will only make calls
   3941        1.134   thorpej 	 * to pmap_remove(). We can make life much simpler by flushing
   3942        1.134   thorpej 	 * the cache now, and deferring TLB invalidation to pmap_update().
   3943          1.1      matt 	 */
   3944   1.164.12.2      matt #ifdef PMAP_CACHE_VIVT
   3945        1.134   thorpej 	pmap_idcache_wbinv_all(pm);
   3946   1.164.12.2      matt #endif
   3947        1.160   thorpej 	pm->pm_remove_all = true;
   3948          1.1      matt }
   3949          1.1      matt 
   3950          1.1      matt /*
   3951        1.134   thorpej  * Retire the given physical map from service.
   3952        1.134   thorpej  * Should only be called if the map contains no valid mappings.
   3953          1.1      matt  */
   3954        1.134   thorpej void
   3955        1.134   thorpej pmap_destroy(pmap_t pm)
   3956          1.1      matt {
   3957        1.134   thorpej 	u_int count;
   3958          1.1      matt 
   3959        1.134   thorpej 	if (pm == NULL)
   3960        1.134   thorpej 		return;
   3961          1.1      matt 
   3962        1.134   thorpej 	if (pm->pm_remove_all) {
   3963        1.134   thorpej 		pmap_tlb_flushID(pm);
   3964        1.160   thorpej 		pm->pm_remove_all = false;
   3965          1.1      matt 	}
   3966         1.79   thorpej 
   3967         1.49   thorpej 	/*
   3968        1.134   thorpej 	 * Drop reference count
   3969         1.49   thorpej 	 */
   3970        1.134   thorpej 	simple_lock(&pm->pm_lock);
   3971        1.134   thorpej 	count = --pm->pm_obj.uo_refs;
   3972        1.134   thorpej 	simple_unlock(&pm->pm_lock);
   3973        1.134   thorpej 	if (count > 0) {
   3974        1.134   thorpej 		if (pmap_is_current(pm)) {
   3975        1.134   thorpej 			if (pm != pmap_kernel())
   3976        1.134   thorpej 				pmap_use_l1(pm);
   3977        1.134   thorpej 			pm->pm_cstate.cs_all = PMAP_CACHE_STATE_ALL;
   3978        1.134   thorpej 		}
   3979        1.134   thorpej 		return;
   3980        1.134   thorpej 	}
   3981         1.66   thorpej 
   3982          1.1      matt 	/*
   3983        1.134   thorpej 	 * reference count is zero, free pmap resources and then free pmap.
   3984          1.1      matt 	 */
   3985        1.134   thorpej 
   3986        1.134   thorpej 	if (vector_page < KERNEL_BASE) {
   3987   1.164.12.3      matt 		KDASSERT(!pmap_is_current(pm));
   3988        1.147       scw 
   3989        1.134   thorpej 		/* Remove the vector page mapping */
   3990        1.134   thorpej 		pmap_remove(pm, vector_page, vector_page + PAGE_SIZE);
   3991        1.134   thorpej 		pmap_update(pm);
   3992          1.1      matt 	}
   3993          1.1      matt 
   3994        1.134   thorpej 	LIST_REMOVE(pm, pm_list);
   3995        1.134   thorpej 
   3996        1.134   thorpej 	pmap_free_l1(pm);
   3997        1.134   thorpej 
   3998   1.164.12.3      matt 	if (pmap_recent_user == pm)
   3999   1.164.12.3      matt 		pmap_recent_user = NULL;
   4000   1.164.12.3      matt 
   4001        1.134   thorpej 	/* return the pmap to the pool */
   4002   1.164.12.5      matt 	pool_cache_put(&pmap_cache, pm);
   4003        1.134   thorpej }
   4004        1.134   thorpej 
   4005        1.134   thorpej 
   4006        1.134   thorpej /*
   4007        1.134   thorpej  * void pmap_reference(pmap_t pm)
   4008        1.134   thorpej  *
   4009        1.134   thorpej  * Add a reference to the specified pmap.
   4010        1.134   thorpej  */
   4011        1.134   thorpej void
   4012        1.134   thorpej pmap_reference(pmap_t pm)
   4013        1.134   thorpej {
   4014          1.1      matt 
   4015        1.134   thorpej 	if (pm == NULL)
   4016        1.134   thorpej 		return;
   4017          1.1      matt 
   4018        1.134   thorpej 	pmap_use_l1(pm);
   4019        1.104   thorpej 
   4020        1.134   thorpej 	simple_lock(&pm->pm_lock);
   4021        1.134   thorpej 	pm->pm_obj.uo_refs++;
   4022        1.134   thorpej 	simple_unlock(&pm->pm_lock);
   4023        1.134   thorpej }
   4024         1.49   thorpej 
   4025   1.164.12.2      matt #if ARM_MMU_V6 > 0
   4026   1.164.12.2      matt 
   4027   1.164.12.2      matt static struct evcnt pmap_prefer_nochange_ev =
   4028   1.164.12.2      matt     EVCNT_INITIALIZER(EVCNT_TYPE_MISC, NULL, "pmap prefer", "nochange");
   4029   1.164.12.2      matt static struct evcnt pmap_prefer_change_ev =
   4030   1.164.12.2      matt     EVCNT_INITIALIZER(EVCNT_TYPE_MISC, NULL, "pmap prefer", "change");
   4031   1.164.12.2      matt 
   4032   1.164.12.2      matt EVCNT_ATTACH_STATIC(pmap_prefer_change_ev);
   4033   1.164.12.2      matt EVCNT_ATTACH_STATIC(pmap_prefer_nochange_ev);
   4034   1.164.12.2      matt 
   4035   1.164.12.2      matt void
   4036   1.164.12.2      matt pmap_prefer(vaddr_t hint, vaddr_t *vap, int td)
   4037   1.164.12.2      matt {
   4038   1.164.12.2      matt 	vsize_t mask = arm_cache_prefer_mask | (PAGE_SIZE - 1);
   4039   1.164.12.2      matt 	vaddr_t va = *vap;
   4040   1.164.12.2      matt 	vaddr_t diff = (hint - va) & mask;
   4041   1.164.12.2      matt 	if (diff == 0) {
   4042   1.164.12.2      matt 		pmap_prefer_nochange_ev.ev_count++;
   4043   1.164.12.2      matt 	} else {
   4044   1.164.12.2      matt 		pmap_prefer_change_ev.ev_count++;
   4045   1.164.12.2      matt 		if (__predict_false(td))
   4046   1.164.12.2      matt 			va -= mask + 1;
   4047   1.164.12.2      matt 		*vap = va + diff;
   4048   1.164.12.2      matt 	}
   4049   1.164.12.2      matt }
   4050   1.164.12.2      matt #endif /* ARM_MMU_V6 */
   4051   1.164.12.2      matt 
   4052        1.134   thorpej /*
   4053        1.134   thorpej  * pmap_zero_page()
   4054        1.134   thorpej  *
   4055        1.134   thorpej  * Zero a given physical page by mapping it at a page hook point.
   4056        1.134   thorpej  * In doing the zero page op, the page we zero is mapped cachable, as with
   4057        1.134   thorpej  * StrongARM accesses to non-cached pages are non-burst making writing
   4058        1.134   thorpej  * _any_ bulk data very slow.
   4059        1.134   thorpej  */
   4060   1.164.12.2      matt #if (ARM_MMU_GENERIC + ARM_MMU_SA1 + ARM_MMU_V6) != 0
   4061        1.134   thorpej void
   4062        1.134   thorpej pmap_zero_page_generic(paddr_t phys)
   4063        1.134   thorpej {
   4064   1.164.12.2      matt #if defined(PMAP_CACHE_VIPT) || defined(DEBUG)
   4065        1.134   thorpej 	struct vm_page *pg = PHYS_TO_VM_PAGE(phys);
   4066   1.164.12.2      matt #endif
   4067   1.164.12.2      matt #ifdef PMAP_CACHE_VIPT
   4068   1.164.12.2      matt 	/* Choose the last page color it had, if any */
   4069   1.164.12.2      matt 	const vsize_t va_offset = pg->mdpage.pvh_attrs & arm_cache_prefer_mask;
   4070   1.164.12.2      matt #else
   4071   1.164.12.2      matt 	const vsize_t va_offset = 0;
   4072   1.164.12.2      matt #endif
   4073   1.164.12.2      matt 	pt_entry_t * const ptep = &cdst_pte[va_offset >> PGSHIFT];
   4074          1.1      matt 
   4075   1.164.12.2      matt #ifdef DEBUG
   4076        1.134   thorpej 	if (pg->mdpage.pvh_list != NULL)
   4077        1.134   thorpej 		panic("pmap_zero_page: page has mappings");
   4078        1.134   thorpej #endif
   4079          1.1      matt 
   4080        1.134   thorpej 	KDASSERT((phys & PGOFSET) == 0);
   4081        1.120     chris 
   4082        1.134   thorpej 	/*
   4083        1.134   thorpej 	 * Hook in the page, zero it, and purge the cache for that
   4084        1.134   thorpej 	 * zeroed page. Invalidate the TLB as needed.
   4085        1.134   thorpej 	 */
   4086   1.164.12.2      matt 	*ptep = L2_S_PROTO | phys |
   4087        1.134   thorpej 	    L2_S_PROT(PTE_KERNEL, VM_PROT_WRITE) | pte_l2_s_cache_mode;
   4088   1.164.12.2      matt 	PTE_SYNC(ptep);
   4089   1.164.12.2      matt 	cpu_tlb_flushD_SE(cdstp + va_offset);
   4090        1.134   thorpej 	cpu_cpwait();
   4091   1.164.12.2      matt 	bzero_page(cdstp + va_offset);
   4092   1.164.12.2      matt 	/*
   4093   1.164.12.2      matt 	 * Unmap the page.
   4094   1.164.12.2      matt 	 */
   4095   1.164.12.2      matt 	*ptep = 0;
   4096   1.164.12.2      matt 	PTE_SYNC(ptep);
   4097   1.164.12.2      matt 	cpu_tlb_flushD_SE(cdstp + va_offset);
   4098   1.164.12.2      matt #ifdef PMAP_CACHE_VIVT
   4099   1.164.12.2      matt 	cpu_dcache_wbinv_range(cdstp + va_offset, PAGE_SIZE);
   4100   1.164.12.2      matt #endif
   4101   1.164.12.2      matt #ifdef PMAP_CACHE_VIPT
   4102   1.164.12.2      matt 	/*
   4103   1.164.12.2      matt 	 * This page is now cache resident so it now has a page color.
   4104   1.164.12.2      matt 	 * Any contents have been obliterated so clear the EXEC flag.
   4105   1.164.12.2      matt 	 */
   4106   1.164.12.2      matt 	if (!pmap_is_page_colored_p(pg)) {
   4107   1.164.12.2      matt 		PMAPCOUNT(vac_color_new);
   4108   1.164.12.2      matt 		pg->mdpage.pvh_attrs |= PVF_COLORED;
   4109   1.164.12.2      matt 	}
   4110   1.164.12.2      matt 	if (PV_IS_EXEC_P(pg->mdpage.pvh_attrs)) {
   4111   1.164.12.2      matt 		pg->mdpage.pvh_attrs &= ~PVF_EXEC;
   4112   1.164.12.2      matt 		PMAPCOUNT(exec_discarded_zero);
   4113   1.164.12.2      matt 	}
   4114   1.164.12.2      matt #endif
   4115        1.134   thorpej }
   4116   1.164.12.2      matt #endif /* (ARM_MMU_GENERIC + ARM_MMU_SA1 + ARM_MMU_V6) != 0 */
   4117          1.1      matt 
   4118        1.134   thorpej #if ARM_MMU_XSCALE == 1
   4119        1.134   thorpej void
   4120        1.134   thorpej pmap_zero_page_xscale(paddr_t phys)
   4121        1.134   thorpej {
   4122        1.134   thorpej #ifdef DEBUG
   4123        1.134   thorpej 	struct vm_page *pg = PHYS_TO_VM_PAGE(phys);
   4124          1.1      matt 
   4125        1.134   thorpej 	if (pg->mdpage.pvh_list != NULL)
   4126        1.134   thorpej 		panic("pmap_zero_page: page has mappings");
   4127        1.134   thorpej #endif
   4128          1.1      matt 
   4129        1.134   thorpej 	KDASSERT((phys & PGOFSET) == 0);
   4130          1.1      matt 
   4131        1.134   thorpej 	/*
   4132        1.134   thorpej 	 * Hook in the page, zero it, and purge the cache for that
   4133        1.134   thorpej 	 * zeroed page. Invalidate the TLB as needed.
   4134        1.134   thorpej 	 */
   4135        1.134   thorpej 	*cdst_pte = L2_S_PROTO | phys |
   4136        1.134   thorpej 	    L2_S_PROT(PTE_KERNEL, VM_PROT_WRITE) |
   4137   1.164.12.6      matt 	    L2_C | L2_XS_T_TEX(TEX_XSCALE_X);	/* mini-data */
   4138        1.134   thorpej 	PTE_SYNC(cdst_pte);
   4139        1.134   thorpej 	cpu_tlb_flushD_SE(cdstp);
   4140        1.134   thorpej 	cpu_cpwait();
   4141        1.134   thorpej 	bzero_page(cdstp);
   4142        1.134   thorpej 	xscale_cache_clean_minidata();
   4143        1.134   thorpej }
   4144        1.134   thorpej #endif /* ARM_MMU_XSCALE == 1 */
   4145          1.1      matt 
   4146        1.134   thorpej /* pmap_pageidlezero()
   4147        1.134   thorpej  *
   4148        1.134   thorpej  * The same as above, except that we assume that the page is not
   4149        1.134   thorpej  * mapped.  This means we never have to flush the cache first.  Called
   4150        1.134   thorpej  * from the idle loop.
   4151        1.134   thorpej  */
   4152        1.159   thorpej bool
   4153        1.134   thorpej pmap_pageidlezero(paddr_t phys)
   4154        1.134   thorpej {
   4155        1.134   thorpej 	unsigned int i;
   4156        1.134   thorpej 	int *ptr;
   4157        1.160   thorpej 	bool rv = true;
   4158   1.164.12.2      matt #if defined(PMAP_CACHE_VIPT) || defined(DEBUG)
   4159   1.164.12.2      matt 	struct vm_page * const pg = PHYS_TO_VM_PAGE(phys);
   4160   1.164.12.2      matt #endif
   4161   1.164.12.2      matt #ifdef PMAP_CACHE_VIPT
   4162   1.164.12.2      matt 	/* Choose the last page color it had, if any */
   4163   1.164.12.2      matt 	const vsize_t va_offset = pg->mdpage.pvh_attrs & arm_cache_prefer_mask;
   4164   1.164.12.2      matt #else
   4165   1.164.12.2      matt 	const vsize_t va_offset = 0;
   4166   1.164.12.2      matt #endif
   4167   1.164.12.2      matt 	pt_entry_t * const ptep = &csrc_pte[va_offset >> PGSHIFT];
   4168   1.164.12.2      matt 
   4169   1.164.12.2      matt 
   4170        1.134   thorpej #ifdef DEBUG
   4171        1.134   thorpej 	if (pg->mdpage.pvh_list != NULL)
   4172        1.134   thorpej 		panic("pmap_pageidlezero: page has mappings");
   4173          1.1      matt #endif
   4174          1.1      matt 
   4175        1.134   thorpej 	KDASSERT((phys & PGOFSET) == 0);
   4176        1.134   thorpej 
   4177        1.109   thorpej 	/*
   4178        1.134   thorpej 	 * Hook in the page, zero it, and purge the cache for that
   4179        1.134   thorpej 	 * zeroed page. Invalidate the TLB as needed.
   4180        1.109   thorpej 	 */
   4181   1.164.12.2      matt 	*ptep = L2_S_PROTO | phys |
   4182        1.134   thorpej 	    L2_S_PROT(PTE_KERNEL, VM_PROT_WRITE) | pte_l2_s_cache_mode;
   4183   1.164.12.2      matt 	PTE_SYNC(ptep);
   4184   1.164.12.2      matt 	cpu_tlb_flushD_SE(cdstp + va_offset);
   4185        1.134   thorpej 	cpu_cpwait();
   4186          1.1      matt 
   4187   1.164.12.2      matt 	for (i = 0, ptr = (int *)(cdstp + va_offset);
   4188        1.134   thorpej 			i < (PAGE_SIZE / sizeof(int)); i++) {
   4189   1.164.12.2      matt 		if (sched_curcpu_runnable_p() != 0) {
   4190        1.134   thorpej 			/*
   4191        1.134   thorpej 			 * A process has become ready.  Abort now,
   4192        1.134   thorpej 			 * so we don't keep it waiting while we
   4193        1.134   thorpej 			 * do slow memory access to finish this
   4194        1.134   thorpej 			 * page.
   4195        1.134   thorpej 			 */
   4196        1.160   thorpej 			rv = false;
   4197        1.134   thorpej 			break;
   4198        1.134   thorpej 		}
   4199        1.134   thorpej 		*ptr++ = 0;
   4200         1.11     chris 	}
   4201          1.1      matt 
   4202   1.164.12.2      matt #ifdef PMAP_CACHE_VIVT
   4203        1.134   thorpej 	if (rv)
   4204        1.134   thorpej 		/*
   4205        1.134   thorpej 		 * if we aborted we'll rezero this page again later so don't
   4206        1.134   thorpej 		 * purge it unless we finished it
   4207        1.134   thorpej 		 */
   4208        1.134   thorpej 		cpu_dcache_wbinv_range(cdstp, PAGE_SIZE);
   4209   1.164.12.2      matt #elif defined(PMAP_CACHE_VIPT)
   4210   1.164.12.2      matt 	/*
   4211   1.164.12.2      matt 	 * This page is now cache resident so it now has a page color.
   4212   1.164.12.2      matt 	 * Any contents have been obliterated so clear the EXEC flag.
   4213   1.164.12.2      matt 	 */
   4214   1.164.12.2      matt 	if (!pmap_is_page_colored_p(pg)) {
   4215   1.164.12.2      matt 		PMAPCOUNT(vac_color_new);
   4216   1.164.12.2      matt 		pg->mdpage.pvh_attrs |= PVF_COLORED;
   4217   1.164.12.2      matt 	}
   4218   1.164.12.2      matt 	if (PV_IS_EXEC_P(pg->mdpage.pvh_attrs)) {
   4219   1.164.12.2      matt 		pg->mdpage.pvh_attrs &= ~PVF_EXEC;
   4220   1.164.12.2      matt 		PMAPCOUNT(exec_discarded_zero);
   4221   1.164.12.2      matt 	}
   4222   1.164.12.2      matt #endif
   4223   1.164.12.2      matt 	/*
   4224   1.164.12.2      matt 	 * Unmap the page.
   4225   1.164.12.2      matt 	 */
   4226   1.164.12.2      matt 	*ptep = 0;
   4227   1.164.12.2      matt 	PTE_SYNC(ptep);
   4228   1.164.12.2      matt 	cpu_tlb_flushD_SE(cdstp + va_offset);
   4229          1.1      matt 
   4230        1.134   thorpej 	return (rv);
   4231          1.1      matt }
   4232        1.134   thorpej 
   4233         1.48     chris /*
   4234        1.134   thorpej  * pmap_copy_page()
   4235         1.48     chris  *
   4236        1.134   thorpej  * Copy one physical page into another, by mapping the pages into
   4237        1.134   thorpej  * hook points. The same comment regarding cachability as in
   4238        1.134   thorpej  * pmap_zero_page also applies here.
   4239         1.48     chris  */
   4240   1.164.12.2      matt #if (ARM_MMU_GENERIC + ARM_MMU_SA1 + ARM_MMU_V6) != 0
   4241          1.1      matt void
   4242        1.134   thorpej pmap_copy_page_generic(paddr_t src, paddr_t dst)
   4243          1.1      matt {
   4244   1.164.12.2      matt 	struct vm_page * const src_pg = PHYS_TO_VM_PAGE(src);
   4245   1.164.12.2      matt #if defined(PMAP_CACHE_VIPT) || defined(DEBUG)
   4246   1.164.12.2      matt 	struct vm_page * const dst_pg = PHYS_TO_VM_PAGE(dst);
   4247   1.164.12.2      matt #endif
   4248   1.164.12.2      matt #ifdef PMAP_CACHE_VIPT
   4249   1.164.12.2      matt 	const vsize_t src_va_offset = src_pg->mdpage.pvh_attrs & arm_cache_prefer_mask;
   4250   1.164.12.2      matt 	const vsize_t dst_va_offset = dst_pg->mdpage.pvh_attrs & arm_cache_prefer_mask;
   4251   1.164.12.2      matt #else
   4252   1.164.12.2      matt 	const vsize_t src_va_offset = 0;
   4253   1.164.12.2      matt 	const vsize_t dst_va_offset = 0;
   4254   1.164.12.2      matt #endif
   4255   1.164.12.2      matt 	pt_entry_t * const src_ptep = &csrc_pte[src_va_offset >> PGSHIFT];
   4256   1.164.12.2      matt 	pt_entry_t * const dst_ptep = &cdst_pte[dst_va_offset >> PGSHIFT];
   4257        1.105   thorpej 
   4258   1.164.12.2      matt #ifdef DEBUG
   4259        1.134   thorpej 	if (dst_pg->mdpage.pvh_list != NULL)
   4260        1.134   thorpej 		panic("pmap_copy_page: dst page has mappings");
   4261        1.134   thorpej #endif
   4262         1.83   thorpej 
   4263   1.164.12.4      matt #ifdef PMAP_CACHE_VIPT
   4264   1.164.12.2      matt 	KASSERT(src_pg->mdpage.pvh_attrs & (PVF_COLORED|PVF_NC));
   4265   1.164.12.4      matt #endif
   4266        1.134   thorpej 	KDASSERT((src & PGOFSET) == 0);
   4267        1.134   thorpej 	KDASSERT((dst & PGOFSET) == 0);
   4268        1.105   thorpej 
   4269        1.134   thorpej 	/*
   4270        1.134   thorpej 	 * Clean the source page.  Hold the source page's lock for
   4271        1.134   thorpej 	 * the duration of the copy so that no other mappings can
   4272        1.134   thorpej 	 * be created while we have a potentially aliased mapping.
   4273        1.134   thorpej 	 */
   4274        1.134   thorpej 	simple_lock(&src_pg->mdpage.pvh_slock);
   4275   1.164.12.2      matt #ifdef PMAP_CACHE_VIVT
   4276        1.160   thorpej 	(void) pmap_clean_page(src_pg->mdpage.pvh_list, true);
   4277   1.164.12.2      matt #endif
   4278        1.105   thorpej 
   4279        1.134   thorpej 	/*
   4280        1.134   thorpej 	 * Map the pages into the page hook points, copy them, and purge
   4281        1.134   thorpej 	 * the cache for the appropriate page. Invalidate the TLB
   4282        1.134   thorpej 	 * as required.
   4283        1.134   thorpej 	 */
   4284   1.164.12.2      matt 	*src_ptep = L2_S_PROTO
   4285   1.164.12.2      matt 	    | src
   4286   1.164.12.2      matt #ifdef PMAP_CACHE_VIPT
   4287   1.164.12.2      matt 	    | ((src_pg->mdpage.pvh_attrs & PVF_NC) ? 0 : pte_l2_s_cache_mode)
   4288   1.164.12.2      matt #endif
   4289   1.164.12.2      matt #ifdef PMAP_CACHE_VIVT
   4290   1.164.12.2      matt 	    | pte_l2_s_cache_mode
   4291   1.164.12.2      matt #endif
   4292   1.164.12.2      matt 	    | L2_S_PROT(PTE_KERNEL, VM_PROT_READ);
   4293   1.164.12.2      matt 	*dst_ptep = L2_S_PROTO | dst |
   4294        1.134   thorpej 	    L2_S_PROT(PTE_KERNEL, VM_PROT_WRITE) | pte_l2_s_cache_mode;
   4295   1.164.12.2      matt 	PTE_SYNC(src_ptep);
   4296   1.164.12.2      matt 	PTE_SYNC(dst_ptep);
   4297   1.164.12.2      matt 	cpu_tlb_flushD_SE(csrcp + src_va_offset);
   4298   1.164.12.2      matt 	cpu_tlb_flushD_SE(cdstp + dst_va_offset);
   4299        1.134   thorpej 	cpu_cpwait();
   4300   1.164.12.2      matt 	bcopy_page(csrcp + src_va_offset, cdstp + dst_va_offset);
   4301   1.164.12.2      matt #ifdef PMAP_CACHE_VIVT
   4302   1.164.12.2      matt 	cpu_dcache_inv_range(csrcp + src_va_offset, PAGE_SIZE);
   4303   1.164.12.2      matt #endif
   4304        1.134   thorpej 	simple_unlock(&src_pg->mdpage.pvh_slock); /* cache is safe again */
   4305   1.164.12.2      matt #ifdef PMAP_CACHE_VIVT
   4306   1.164.12.2      matt 	cpu_dcache_wbinv_range(cdstp + dst_va_offset, PAGE_SIZE);
   4307   1.164.12.2      matt #endif
   4308   1.164.12.2      matt 	/*
   4309   1.164.12.2      matt 	 * Unmap the pages.
   4310   1.164.12.2      matt 	 */
   4311   1.164.12.2      matt 	*src_ptep = 0;
   4312   1.164.12.2      matt 	*dst_ptep = 0;
   4313   1.164.12.2      matt 	PTE_SYNC(src_ptep);
   4314   1.164.12.2      matt 	PTE_SYNC(dst_ptep);
   4315   1.164.12.2      matt 	cpu_tlb_flushD_SE(csrcp + src_va_offset);
   4316   1.164.12.2      matt 	cpu_tlb_flushD_SE(cdstp + dst_va_offset);
   4317   1.164.12.2      matt #ifdef PMAP_CACHE_VIPT
   4318   1.164.12.2      matt 	/*
   4319   1.164.12.2      matt 	 * Now that the destination page is in the cache, mark it as colored.
   4320   1.164.12.2      matt 	 * If this was an exec page, discard it.
   4321   1.164.12.2      matt 	 */
   4322   1.164.12.2      matt 	if (!pmap_is_page_colored_p(dst_pg)) {
   4323   1.164.12.2      matt 		PMAPCOUNT(vac_color_new);
   4324   1.164.12.2      matt 		dst_pg->mdpage.pvh_attrs |= PVF_COLORED;
   4325   1.164.12.2      matt 	}
   4326   1.164.12.2      matt 	if (PV_IS_EXEC_P(dst_pg->mdpage.pvh_attrs)) {
   4327   1.164.12.2      matt 		dst_pg->mdpage.pvh_attrs &= ~PVF_EXEC;
   4328   1.164.12.2      matt 		PMAPCOUNT(exec_discarded_copy);
   4329   1.164.12.2      matt 	}
   4330   1.164.12.2      matt #endif
   4331          1.1      matt }
   4332   1.164.12.2      matt #endif /* (ARM_MMU_GENERIC + ARM_MMU_SA1 + ARM_MMU_V6) != 0 */
   4333          1.1      matt 
   4334        1.134   thorpej #if ARM_MMU_XSCALE == 1
   4335          1.1      matt void
   4336        1.134   thorpej pmap_copy_page_xscale(paddr_t src, paddr_t dst)
   4337          1.1      matt {
   4338        1.134   thorpej 	struct vm_page *src_pg = PHYS_TO_VM_PAGE(src);
   4339        1.134   thorpej #ifdef DEBUG
   4340        1.134   thorpej 	struct vm_page *dst_pg = PHYS_TO_VM_PAGE(dst);
   4341         1.14       chs 
   4342        1.134   thorpej 	if (dst_pg->mdpage.pvh_list != NULL)
   4343        1.134   thorpej 		panic("pmap_copy_page: dst page has mappings");
   4344        1.134   thorpej #endif
   4345         1.13     chris 
   4346        1.134   thorpej 	KDASSERT((src & PGOFSET) == 0);
   4347        1.134   thorpej 	KDASSERT((dst & PGOFSET) == 0);
   4348         1.14       chs 
   4349        1.134   thorpej 	/*
   4350        1.134   thorpej 	 * Clean the source page.  Hold the source page's lock for
   4351        1.134   thorpej 	 * the duration of the copy so that no other mappings can
   4352        1.134   thorpej 	 * be created while we have a potentially aliased mapping.
   4353        1.134   thorpej 	 */
   4354        1.134   thorpej 	simple_lock(&src_pg->mdpage.pvh_slock);
   4355   1.164.12.2      matt #ifdef PMAP_CACHE_VIVT
   4356        1.160   thorpej 	(void) pmap_clean_page(src_pg->mdpage.pvh_list, true);
   4357   1.164.12.2      matt #endif
   4358        1.105   thorpej 
   4359        1.134   thorpej 	/*
   4360        1.134   thorpej 	 * Map the pages into the page hook points, copy them, and purge
   4361        1.134   thorpej 	 * the cache for the appropriate page. Invalidate the TLB
   4362        1.134   thorpej 	 * as required.
   4363        1.134   thorpej 	 */
   4364        1.134   thorpej 	*csrc_pte = L2_S_PROTO | src |
   4365        1.134   thorpej 	    L2_S_PROT(PTE_KERNEL, VM_PROT_READ) |
   4366   1.164.12.6      matt 	    L2_C | L2_XS_T_TEX(TEX_XSCALE_X);	/* mini-data */
   4367        1.134   thorpej 	PTE_SYNC(csrc_pte);
   4368        1.134   thorpej 	*cdst_pte = L2_S_PROTO | dst |
   4369        1.134   thorpej 	    L2_S_PROT(PTE_KERNEL, VM_PROT_WRITE) |
   4370   1.164.12.6      matt 	    L2_C | L2_XS_T_TEX(TEX_XSCALE_X);	/* mini-data */
   4371        1.134   thorpej 	PTE_SYNC(cdst_pte);
   4372        1.134   thorpej 	cpu_tlb_flushD_SE(csrcp);
   4373        1.134   thorpej 	cpu_tlb_flushD_SE(cdstp);
   4374        1.134   thorpej 	cpu_cpwait();
   4375        1.134   thorpej 	bcopy_page(csrcp, cdstp);
   4376        1.134   thorpej 	simple_unlock(&src_pg->mdpage.pvh_slock); /* cache is safe again */
   4377        1.134   thorpej 	xscale_cache_clean_minidata();
   4378          1.1      matt }
   4379        1.134   thorpej #endif /* ARM_MMU_XSCALE == 1 */
   4380          1.1      matt 
   4381          1.1      matt /*
   4382        1.134   thorpej  * void pmap_virtual_space(vaddr_t *start, vaddr_t *end)
   4383          1.1      matt  *
   4384        1.134   thorpej  * Return the start and end addresses of the kernel's virtual space.
   4385        1.134   thorpej  * These values are setup in pmap_bootstrap and are updated as pages
   4386        1.134   thorpej  * are allocated.
   4387          1.1      matt  */
   4388          1.1      matt void
   4389        1.134   thorpej pmap_virtual_space(vaddr_t *start, vaddr_t *end)
   4390          1.1      matt {
   4391        1.134   thorpej 	*start = virtual_avail;
   4392        1.134   thorpej 	*end = virtual_end;
   4393          1.1      matt }
   4394          1.1      matt 
   4395          1.1      matt /*
   4396        1.134   thorpej  * Helper function for pmap_grow_l2_bucket()
   4397          1.1      matt  */
   4398        1.157     perry static inline int
   4399        1.134   thorpej pmap_grow_map(vaddr_t va, pt_entry_t cache_mode, paddr_t *pap)
   4400          1.1      matt {
   4401        1.134   thorpej 	struct l2_bucket *l2b;
   4402        1.134   thorpej 	pt_entry_t *ptep;
   4403          1.2      matt 	paddr_t pa;
   4404          1.1      matt 
   4405        1.160   thorpej 	if (uvm.page_init_done == false) {
   4406   1.164.12.2      matt #ifdef PMAP_STEAL_MEMORY
   4407   1.164.12.2      matt 		pv_addr_t pv;
   4408   1.164.12.2      matt 		pmap_boot_pagealloc(PAGE_SIZE,
   4409   1.164.12.2      matt #ifdef PMAP_CACHE_VIPT
   4410   1.164.12.2      matt 		    arm_cache_prefer_mask,
   4411   1.164.12.2      matt 		    va & arm_cache_prefer_mask,
   4412   1.164.12.2      matt #else
   4413   1.164.12.2      matt 		    0, 0,
   4414   1.164.12.2      matt #endif
   4415   1.164.12.2      matt 		    &pv);
   4416   1.164.12.2      matt 		pa = pv.pv_pa;
   4417   1.164.12.2      matt #else
   4418        1.160   thorpej 		if (uvm_page_physget(&pa) == false)
   4419        1.134   thorpej 			return (1);
   4420   1.164.12.2      matt #endif	/* PMAP_STEAL_MEMORY */
   4421        1.134   thorpej 	} else {
   4422        1.134   thorpej 		struct vm_page *pg;
   4423        1.134   thorpej 		pg = uvm_pagealloc(NULL, 0, NULL, UVM_PGA_USERESERVE);
   4424        1.134   thorpej 		if (pg == NULL)
   4425        1.134   thorpej 			return (1);
   4426        1.134   thorpej 		pa = VM_PAGE_TO_PHYS(pg);
   4427   1.164.12.2      matt #ifdef PMAP_CACHE_VIPT
   4428   1.164.12.2      matt 		/*
   4429   1.164.12.2      matt 		 * This new page must not have any mappings.  However, it might
   4430   1.164.12.2      matt 		 * have previously used and therefore present in the cache.  If
   4431   1.164.12.2      matt 		 * it doesn't have the desired color, we have to flush it from
   4432   1.164.12.2      matt 		 * the cache.  And while we are at it, make sure to clear its
   4433   1.164.12.2      matt 		 * EXEC status.
   4434   1.164.12.2      matt 		 */
   4435   1.164.12.2      matt 		KASSERT(!(pg->mdpage.pvh_attrs & PVF_KENTRY));
   4436   1.164.12.2      matt 		KASSERT(pg->mdpage.pvh_list == NULL);
   4437   1.164.12.2      matt 		if (pmap_is_page_colored_p(pg)) {
   4438   1.164.12.2      matt 			if ((va ^ pg->mdpage.pvh_attrs) & arm_cache_prefer_mask) {
   4439   1.164.12.2      matt 				pmap_flush_page(pg);
   4440   1.164.12.2      matt 				PMAPCOUNT(vac_color_change);
   4441   1.164.12.2      matt 			} else {
   4442   1.164.12.2      matt 				PMAPCOUNT(vac_color_reuse);
   4443   1.164.12.2      matt 			}
   4444   1.164.12.2      matt 		} else {
   4445   1.164.12.2      matt 			PMAPCOUNT(vac_color_new);
   4446   1.164.12.2      matt 		}
   4447   1.164.12.2      matt 		if (PV_IS_EXEC_P(pg->mdpage.pvh_attrs))
   4448   1.164.12.2      matt 			PMAPCOUNT(exec_discarded_kremove);
   4449   1.164.12.2      matt 		/*
   4450   1.164.12.2      matt 		 * We'll pretend this page was entered by pmap_kenter_pa
   4451   1.164.12.2      matt 		 */
   4452   1.164.12.2      matt 		pg->mdpage.pvh_attrs &= (PAGE_SIZE - 1) & ~PVF_EXEC;
   4453   1.164.12.2      matt 		pg->mdpage.pvh_attrs |= va | PVF_KENTRY | PVF_COLORED | PVF_REF | PVF_MOD;
   4454   1.164.12.2      matt #endif
   4455        1.134   thorpej 	}
   4456          1.1      matt 
   4457        1.134   thorpej 	if (pap)
   4458        1.134   thorpej 		*pap = pa;
   4459          1.1      matt 
   4460   1.164.12.2      matt 	PMAPCOUNT(pt_mappings);
   4461        1.134   thorpej 	l2b = pmap_get_l2_bucket(pmap_kernel(), va);
   4462        1.134   thorpej 	KDASSERT(l2b != NULL);
   4463          1.1      matt 
   4464        1.134   thorpej 	ptep = &l2b->l2b_kva[l2pte_index(va)];
   4465        1.134   thorpej 	*ptep = L2_S_PROTO | pa | cache_mode |
   4466        1.134   thorpej 	    L2_S_PROT(PTE_KERNEL, VM_PROT_READ | VM_PROT_WRITE);
   4467        1.134   thorpej 	PTE_SYNC(ptep);
   4468        1.134   thorpej 	memset((void *)va, 0, PAGE_SIZE);
   4469        1.134   thorpej 	return (0);
   4470          1.1      matt }
   4471          1.1      matt 
   4472          1.1      matt /*
   4473        1.134   thorpej  * This is the same as pmap_alloc_l2_bucket(), except that it is only
   4474        1.134   thorpej  * used by pmap_growkernel().
   4475          1.1      matt  */
   4476        1.157     perry static inline struct l2_bucket *
   4477        1.134   thorpej pmap_grow_l2_bucket(pmap_t pm, vaddr_t va)
   4478          1.1      matt {
   4479        1.134   thorpej 	struct l2_dtable *l2;
   4480        1.134   thorpej 	struct l2_bucket *l2b;
   4481        1.134   thorpej 	u_short l1idx;
   4482        1.134   thorpej 	vaddr_t nva;
   4483        1.134   thorpej 
   4484        1.134   thorpej 	l1idx = L1_IDX(va);
   4485        1.134   thorpej 
   4486        1.134   thorpej 	if ((l2 = pm->pm_l2[L2_IDX(l1idx)]) == NULL) {
   4487        1.134   thorpej 		/*
   4488        1.134   thorpej 		 * No mapping at this address, as there is
   4489        1.134   thorpej 		 * no entry in the L1 table.
   4490        1.134   thorpej 		 * Need to allocate a new l2_dtable.
   4491        1.134   thorpej 		 */
   4492        1.134   thorpej 		nva = pmap_kernel_l2dtable_kva;
   4493        1.134   thorpej 		if ((nva & PGOFSET) == 0) {
   4494        1.134   thorpej 			/*
   4495        1.134   thorpej 			 * Need to allocate a backing page
   4496        1.134   thorpej 			 */
   4497        1.134   thorpej 			if (pmap_grow_map(nva, pte_l2_s_cache_mode, NULL))
   4498        1.134   thorpej 				return (NULL);
   4499        1.134   thorpej 		}
   4500          1.1      matt 
   4501        1.134   thorpej 		l2 = (struct l2_dtable *)nva;
   4502        1.134   thorpej 		nva += sizeof(struct l2_dtable);
   4503         1.82   thorpej 
   4504        1.134   thorpej 		if ((nva & PGOFSET) < (pmap_kernel_l2dtable_kva & PGOFSET)) {
   4505        1.134   thorpej 			/*
   4506        1.134   thorpej 			 * The new l2_dtable straddles a page boundary.
   4507        1.134   thorpej 			 * Map in another page to cover it.
   4508        1.134   thorpej 			 */
   4509        1.134   thorpej 			if (pmap_grow_map(nva, pte_l2_s_cache_mode, NULL))
   4510        1.134   thorpej 				return (NULL);
   4511        1.134   thorpej 		}
   4512          1.1      matt 
   4513        1.134   thorpej 		pmap_kernel_l2dtable_kva = nva;
   4514          1.1      matt 
   4515        1.134   thorpej 		/*
   4516        1.134   thorpej 		 * Link it into the parent pmap
   4517        1.134   thorpej 		 */
   4518        1.134   thorpej 		pm->pm_l2[L2_IDX(l1idx)] = l2;
   4519         1.82   thorpej 	}
   4520         1.75   reinoud 
   4521        1.134   thorpej 	l2b = &l2->l2_bucket[L2_BUCKET(l1idx)];
   4522        1.134   thorpej 
   4523        1.134   thorpej 	/*
   4524        1.134   thorpej 	 * Fetch pointer to the L2 page table associated with the address.
   4525        1.134   thorpej 	 */
   4526        1.134   thorpej 	if (l2b->l2b_kva == NULL) {
   4527        1.134   thorpej 		pt_entry_t *ptep;
   4528        1.134   thorpej 
   4529        1.134   thorpej 		/*
   4530        1.134   thorpej 		 * No L2 page table has been allocated. Chances are, this
   4531        1.134   thorpej 		 * is because we just allocated the l2_dtable, above.
   4532        1.134   thorpej 		 */
   4533        1.134   thorpej 		nva = pmap_kernel_l2ptp_kva;
   4534        1.134   thorpej 		ptep = (pt_entry_t *)nva;
   4535        1.134   thorpej 		if ((nva & PGOFSET) == 0) {
   4536        1.134   thorpej 			/*
   4537        1.134   thorpej 			 * Need to allocate a backing page
   4538        1.134   thorpej 			 */
   4539        1.134   thorpej 			if (pmap_grow_map(nva, pte_l2_s_cache_mode_pt,
   4540        1.134   thorpej 			    &pmap_kernel_l2ptp_phys))
   4541        1.134   thorpej 				return (NULL);
   4542        1.134   thorpej 			PTE_SYNC_RANGE(ptep, PAGE_SIZE / sizeof(pt_entry_t));
   4543        1.134   thorpej 		}
   4544        1.134   thorpej 
   4545        1.134   thorpej 		l2->l2_occupancy++;
   4546        1.134   thorpej 		l2b->l2b_kva = ptep;
   4547        1.134   thorpej 		l2b->l2b_l1idx = l1idx;
   4548        1.134   thorpej 		l2b->l2b_phys = pmap_kernel_l2ptp_phys;
   4549        1.134   thorpej 
   4550        1.134   thorpej 		pmap_kernel_l2ptp_kva += L2_TABLE_SIZE_REAL;
   4551        1.134   thorpej 		pmap_kernel_l2ptp_phys += L2_TABLE_SIZE_REAL;
   4552         1.82   thorpej 	}
   4553          1.1      matt 
   4554        1.134   thorpej 	return (l2b);
   4555        1.134   thorpej }
   4556        1.134   thorpej 
   4557        1.134   thorpej vaddr_t
   4558        1.134   thorpej pmap_growkernel(vaddr_t maxkvaddr)
   4559        1.134   thorpej {
   4560        1.134   thorpej 	pmap_t kpm = pmap_kernel();
   4561        1.134   thorpej 	struct l1_ttable *l1;
   4562        1.134   thorpej 	struct l2_bucket *l2b;
   4563        1.134   thorpej 	pd_entry_t *pl1pd;
   4564        1.134   thorpej 	int s;
   4565        1.134   thorpej 
   4566        1.134   thorpej 	if (maxkvaddr <= pmap_curmaxkvaddr)
   4567        1.134   thorpej 		goto out;		/* we are OK */
   4568          1.1      matt 
   4569        1.134   thorpej 	NPDEBUG(PDB_GROWKERN,
   4570        1.134   thorpej 	    printf("pmap_growkernel: growing kernel from 0x%lx to 0x%lx\n",
   4571        1.134   thorpej 	    pmap_curmaxkvaddr, maxkvaddr));
   4572          1.1      matt 
   4573        1.134   thorpej 	KDASSERT(maxkvaddr <= virtual_end);
   4574         1.34   thorpej 
   4575        1.134   thorpej 	/*
   4576        1.134   thorpej 	 * whoops!   we need to add kernel PTPs
   4577        1.134   thorpej 	 */
   4578          1.1      matt 
   4579        1.134   thorpej 	s = splhigh();	/* to be safe */
   4580        1.134   thorpej 	simple_lock(&kpm->pm_lock);
   4581          1.1      matt 
   4582        1.134   thorpej 	/* Map 1MB at a time */
   4583        1.134   thorpej 	for (; pmap_curmaxkvaddr < maxkvaddr; pmap_curmaxkvaddr += L1_S_SIZE) {
   4584          1.1      matt 
   4585        1.134   thorpej 		l2b = pmap_grow_l2_bucket(kpm, pmap_curmaxkvaddr);
   4586        1.134   thorpej 		KDASSERT(l2b != NULL);
   4587          1.1      matt 
   4588        1.134   thorpej 		/* Distribute new L1 entry to all other L1s */
   4589        1.134   thorpej 		SLIST_FOREACH(l1, &l1_list, l1_link) {
   4590        1.134   thorpej 			pl1pd = &l1->l1_kva[L1_IDX(pmap_curmaxkvaddr)];
   4591        1.134   thorpej 			*pl1pd = l2b->l2b_phys | L1_C_DOM(PMAP_DOMAIN_KERNEL) |
   4592        1.134   thorpej 			    L1_C_PROTO;
   4593        1.134   thorpej 			PTE_SYNC(pl1pd);
   4594        1.134   thorpej 		}
   4595          1.1      matt 	}
   4596          1.1      matt 
   4597        1.134   thorpej 	/*
   4598        1.134   thorpej 	 * flush out the cache, expensive but growkernel will happen so
   4599        1.134   thorpej 	 * rarely
   4600        1.134   thorpej 	 */
   4601        1.134   thorpej 	cpu_dcache_wbinv_all();
   4602        1.134   thorpej 	cpu_tlb_flushD();
   4603        1.134   thorpej 	cpu_cpwait();
   4604        1.134   thorpej 
   4605        1.134   thorpej 	simple_unlock(&kpm->pm_lock);
   4606        1.134   thorpej 	splx(s);
   4607          1.1      matt 
   4608        1.134   thorpej out:
   4609        1.134   thorpej 	return (pmap_curmaxkvaddr);
   4610          1.1      matt }
   4611          1.1      matt 
   4612        1.134   thorpej /************************ Utility routines ****************************/
   4613          1.1      matt 
   4614        1.134   thorpej /*
   4615        1.134   thorpej  * vector_page_setprot:
   4616        1.134   thorpej  *
   4617        1.134   thorpej  *	Manipulate the protection of the vector page.
   4618        1.134   thorpej  */
   4619        1.134   thorpej void
   4620        1.134   thorpej vector_page_setprot(int prot)
   4621         1.11     chris {
   4622        1.134   thorpej 	struct l2_bucket *l2b;
   4623        1.134   thorpej 	pt_entry_t *ptep;
   4624        1.134   thorpej 
   4625        1.134   thorpej 	l2b = pmap_get_l2_bucket(pmap_kernel(), vector_page);
   4626        1.134   thorpej 	KDASSERT(l2b != NULL);
   4627         1.17     chris 
   4628        1.134   thorpej 	ptep = &l2b->l2b_kva[l2pte_index(vector_page)];
   4629         1.72   thorpej 
   4630        1.134   thorpej 	*ptep = (*ptep & ~L1_S_PROT_MASK) | L2_S_PROT(PTE_KERNEL, prot);
   4631        1.134   thorpej 	PTE_SYNC(ptep);
   4632        1.134   thorpej 	cpu_tlb_flushD_SE(vector_page);
   4633         1.32   thorpej 	cpu_cpwait();
   4634         1.17     chris }
   4635         1.17     chris 
   4636         1.17     chris /*
   4637        1.134   thorpej  * Fetch pointers to the PDE/PTE for the given pmap/VA pair.
   4638        1.160   thorpej  * Returns true if the mapping exists, else false.
   4639        1.134   thorpej  *
   4640        1.134   thorpej  * NOTE: This function is only used by a couple of arm-specific modules.
   4641        1.134   thorpej  * It is not safe to take any pmap locks here, since we could be right
   4642        1.134   thorpej  * in the middle of debugging the pmap anyway...
   4643        1.134   thorpej  *
   4644        1.160   thorpej  * It is possible for this routine to return false even though a valid
   4645        1.134   thorpej  * mapping does exist. This is because we don't lock, so the metadata
   4646        1.134   thorpej  * state may be inconsistent.
   4647        1.134   thorpej  *
   4648        1.134   thorpej  * NOTE: We can return a NULL *ptp in the case where the L1 pde is
   4649        1.134   thorpej  * a "section" mapping.
   4650          1.1      matt  */
   4651        1.159   thorpej bool
   4652        1.134   thorpej pmap_get_pde_pte(pmap_t pm, vaddr_t va, pd_entry_t **pdp, pt_entry_t **ptp)
   4653          1.1      matt {
   4654        1.134   thorpej 	struct l2_dtable *l2;
   4655        1.134   thorpej 	pd_entry_t *pl1pd, l1pd;
   4656        1.134   thorpej 	pt_entry_t *ptep;
   4657        1.134   thorpej 	u_short l1idx;
   4658        1.134   thorpej 
   4659        1.134   thorpej 	if (pm->pm_l1 == NULL)
   4660   1.164.12.2      matt 		return false;
   4661        1.134   thorpej 
   4662        1.134   thorpej 	l1idx = L1_IDX(va);
   4663        1.134   thorpej 	*pdp = pl1pd = &pm->pm_l1->l1_kva[l1idx];
   4664        1.134   thorpej 	l1pd = *pl1pd;
   4665          1.1      matt 
   4666        1.134   thorpej 	if (l1pte_section_p(l1pd)) {
   4667        1.134   thorpej 		*ptp = NULL;
   4668   1.164.12.2      matt 		return true;
   4669          1.1      matt 	}
   4670          1.1      matt 
   4671        1.134   thorpej 	if (pm->pm_l2 == NULL)
   4672   1.164.12.2      matt 		return false;
   4673         1.21     chris 
   4674        1.134   thorpej 	l2 = pm->pm_l2[L2_IDX(l1idx)];
   4675        1.104   thorpej 
   4676        1.134   thorpej 	if (l2 == NULL ||
   4677        1.134   thorpej 	    (ptep = l2->l2_bucket[L2_BUCKET(l1idx)].l2b_kva) == NULL) {
   4678   1.164.12.2      matt 		return false;
   4679         1.29  rearnsha 	}
   4680         1.21     chris 
   4681        1.134   thorpej 	*ptp = &ptep[l2pte_index(va)];
   4682   1.164.12.2      matt 	return true;
   4683          1.1      matt }
   4684          1.1      matt 
   4685        1.159   thorpej bool
   4686        1.134   thorpej pmap_get_pde(pmap_t pm, vaddr_t va, pd_entry_t **pdp)
   4687          1.1      matt {
   4688        1.134   thorpej 	u_short l1idx;
   4689          1.1      matt 
   4690        1.134   thorpej 	if (pm->pm_l1 == NULL)
   4691   1.164.12.2      matt 		return false;
   4692         1.50   thorpej 
   4693        1.134   thorpej 	l1idx = L1_IDX(va);
   4694        1.134   thorpej 	*pdp = &pm->pm_l1->l1_kva[l1idx];
   4695         1.50   thorpej 
   4696   1.164.12.2      matt 	return true;
   4697          1.1      matt }
   4698          1.1      matt 
   4699        1.134   thorpej /************************ Bootstrapping routines ****************************/
   4700        1.134   thorpej 
   4701        1.134   thorpej static void
   4702        1.134   thorpej pmap_init_l1(struct l1_ttable *l1, pd_entry_t *l1pt)
   4703          1.1      matt {
   4704        1.134   thorpej 	int i;
   4705        1.134   thorpej 
   4706        1.134   thorpej 	l1->l1_kva = l1pt;
   4707        1.134   thorpej 	l1->l1_domain_use_count = 0;
   4708        1.134   thorpej 	l1->l1_domain_first = 0;
   4709        1.134   thorpej 
   4710        1.134   thorpej 	for (i = 0; i < PMAP_DOMAINS; i++)
   4711        1.134   thorpej 		l1->l1_domain_free[i] = i + 1;
   4712          1.1      matt 
   4713        1.134   thorpej 	/*
   4714        1.134   thorpej 	 * Copy the kernel's L1 entries to each new L1.
   4715        1.134   thorpej 	 */
   4716        1.134   thorpej 	if (pmap_initialized)
   4717        1.134   thorpej 		memcpy(l1pt, pmap_kernel()->pm_l1->l1_kva, L1_TABLE_SIZE);
   4718         1.50   thorpej 
   4719        1.134   thorpej 	if (pmap_extract(pmap_kernel(), (vaddr_t)l1pt,
   4720        1.160   thorpej 	    &l1->l1_physaddr) == false)
   4721        1.134   thorpej 		panic("pmap_init_l1: can't get PA of L1 at %p", l1pt);
   4722         1.50   thorpej 
   4723        1.134   thorpej 	SLIST_INSERT_HEAD(&l1_list, l1, l1_link);
   4724        1.134   thorpej 	TAILQ_INSERT_TAIL(&l1_lru_list, l1, l1_lru);
   4725          1.1      matt }
   4726          1.1      matt 
   4727         1.50   thorpej /*
   4728        1.134   thorpej  * pmap_bootstrap() is called from the board-specific initarm() routine
   4729        1.134   thorpej  * once the kernel L1/L2 descriptors tables have been set up.
   4730        1.134   thorpej  *
   4731        1.134   thorpej  * This is a somewhat convoluted process since pmap bootstrap is, effectively,
   4732        1.134   thorpej  * spread over a number of disparate files/functions.
   4733         1.50   thorpej  *
   4734        1.134   thorpej  * We are passed the following parameters
   4735        1.134   thorpej  *  - kernel_l1pt
   4736        1.134   thorpej  *    This is a pointer to the base of the kernel's L1 translation table.
   4737        1.134   thorpej  *  - vstart
   4738        1.134   thorpej  *    1MB-aligned start of managed kernel virtual memory.
   4739        1.134   thorpej  *  - vend
   4740        1.134   thorpej  *    1MB-aligned end of managed kernel virtual memory.
   4741         1.50   thorpej  *
   4742        1.134   thorpej  * We use the first parameter to build the metadata (struct l1_ttable and
   4743        1.134   thorpej  * struct l2_dtable) necessary to track kernel mappings.
   4744         1.50   thorpej  */
   4745        1.134   thorpej #define	PMAP_STATIC_L2_SIZE 16
   4746        1.134   thorpej void
   4747   1.164.12.2      matt pmap_bootstrap(vaddr_t vstart, vaddr_t vend)
   4748          1.1      matt {
   4749        1.134   thorpej 	static struct l1_ttable static_l1;
   4750        1.134   thorpej 	static struct l2_dtable static_l2[PMAP_STATIC_L2_SIZE];
   4751        1.134   thorpej 	struct l1_ttable *l1 = &static_l1;
   4752        1.134   thorpej 	struct l2_dtable *l2;
   4753        1.134   thorpej 	struct l2_bucket *l2b;
   4754   1.164.12.2      matt 	pd_entry_t *l1pt = (pd_entry_t *) kernel_l1pt.pv_va;
   4755        1.134   thorpej 	pmap_t pm = pmap_kernel();
   4756        1.134   thorpej 	pd_entry_t pde;
   4757        1.134   thorpej 	pt_entry_t *ptep;
   4758          1.2      matt 	paddr_t pa;
   4759        1.134   thorpej 	vaddr_t va;
   4760        1.134   thorpej 	vsize_t size;
   4761   1.164.12.2      matt 	int nptes, l1idx, l2idx, l2next = 0;
   4762        1.134   thorpej 
   4763        1.134   thorpej 	/*
   4764        1.134   thorpej 	 * Initialise the kernel pmap object
   4765        1.134   thorpej 	 */
   4766        1.134   thorpej 	pm->pm_l1 = l1;
   4767        1.134   thorpej 	pm->pm_domain = PMAP_DOMAIN_KERNEL;
   4768   1.164.12.3      matt 	pm->pm_activated = true;
   4769        1.134   thorpej 	pm->pm_cstate.cs_all = PMAP_CACHE_STATE_ALL;
   4770        1.134   thorpej 	simple_lock_init(&pm->pm_lock);
   4771        1.134   thorpej 	pm->pm_obj.pgops = NULL;
   4772        1.134   thorpej 	TAILQ_INIT(&pm->pm_obj.memq);
   4773        1.134   thorpej 	pm->pm_obj.uo_npages = 0;
   4774        1.134   thorpej 	pm->pm_obj.uo_refs = 1;
   4775        1.134   thorpej 
   4776        1.134   thorpej 	/*
   4777        1.134   thorpej 	 * Scan the L1 translation table created by initarm() and create
   4778        1.134   thorpej 	 * the required metadata for all valid mappings found in it.
   4779        1.134   thorpej 	 */
   4780        1.134   thorpej 	for (l1idx = 0; l1idx < (L1_TABLE_SIZE / sizeof(pd_entry_t)); l1idx++) {
   4781   1.164.12.2      matt 		pde = l1pt[l1idx];
   4782        1.134   thorpej 
   4783        1.134   thorpej 		/*
   4784        1.134   thorpej 		 * We're only interested in Coarse mappings.
   4785        1.134   thorpej 		 * pmap_extract() can deal with section mappings without
   4786        1.134   thorpej 		 * recourse to checking L2 metadata.
   4787        1.134   thorpej 		 */
   4788        1.134   thorpej 		if ((pde & L1_TYPE_MASK) != L1_TYPE_C)
   4789        1.134   thorpej 			continue;
   4790        1.134   thorpej 
   4791        1.134   thorpej 		/*
   4792        1.134   thorpej 		 * Lookup the KVA of this L2 descriptor table
   4793        1.134   thorpej 		 */
   4794        1.134   thorpej 		pa = (paddr_t)(pde & L1_C_ADDR_MASK);
   4795        1.134   thorpej 		ptep = (pt_entry_t *)kernel_pt_lookup(pa);
   4796        1.134   thorpej 		if (ptep == NULL) {
   4797        1.134   thorpej 			panic("pmap_bootstrap: No L2 for va 0x%x, pa 0x%lx",
   4798        1.134   thorpej 			    (u_int)l1idx << L1_S_SHIFT, pa);
   4799        1.134   thorpej 		}
   4800        1.134   thorpej 
   4801        1.134   thorpej 		/*
   4802        1.134   thorpej 		 * Fetch the associated L2 metadata structure.
   4803        1.134   thorpej 		 * Allocate a new one if necessary.
   4804        1.134   thorpej 		 */
   4805        1.134   thorpej 		if ((l2 = pm->pm_l2[L2_IDX(l1idx)]) == NULL) {
   4806        1.134   thorpej 			if (l2next == PMAP_STATIC_L2_SIZE)
   4807        1.134   thorpej 				panic("pmap_bootstrap: out of static L2s");
   4808        1.134   thorpej 			pm->pm_l2[L2_IDX(l1idx)] = l2 = &static_l2[l2next++];
   4809        1.134   thorpej 		}
   4810        1.134   thorpej 
   4811        1.134   thorpej 		/*
   4812        1.134   thorpej 		 * One more L1 slot tracked...
   4813        1.134   thorpej 		 */
   4814        1.134   thorpej 		l2->l2_occupancy++;
   4815        1.134   thorpej 
   4816        1.134   thorpej 		/*
   4817        1.134   thorpej 		 * Fill in the details of the L2 descriptor in the
   4818        1.134   thorpej 		 * appropriate bucket.
   4819        1.134   thorpej 		 */
   4820        1.134   thorpej 		l2b = &l2->l2_bucket[L2_BUCKET(l1idx)];
   4821        1.134   thorpej 		l2b->l2b_kva = ptep;
   4822        1.134   thorpej 		l2b->l2b_phys = pa;
   4823        1.134   thorpej 		l2b->l2b_l1idx = l1idx;
   4824          1.1      matt 
   4825        1.134   thorpej 		/*
   4826        1.134   thorpej 		 * Establish an initial occupancy count for this descriptor
   4827        1.134   thorpej 		 */
   4828        1.134   thorpej 		for (l2idx = 0;
   4829        1.134   thorpej 		    l2idx < (L2_TABLE_SIZE_REAL / sizeof(pt_entry_t));
   4830        1.134   thorpej 		    l2idx++) {
   4831        1.134   thorpej 			if ((ptep[l2idx] & L2_TYPE_MASK) != L2_TYPE_INV) {
   4832        1.134   thorpej 				l2b->l2b_occupancy++;
   4833        1.134   thorpej 			}
   4834        1.134   thorpej 		}
   4835          1.1      matt 
   4836        1.134   thorpej 		/*
   4837        1.134   thorpej 		 * Make sure the descriptor itself has the correct cache mode.
   4838        1.146  jdolecek 		 * If not, fix it, but whine about the problem. Port-meisters
   4839        1.134   thorpej 		 * should consider this a clue to fix up their initarm()
   4840        1.134   thorpej 		 * function. :)
   4841        1.134   thorpej 		 */
   4842   1.164.12.2      matt 		if (pmap_set_pt_cache_mode(l1pt, (vaddr_t)ptep)) {
   4843        1.134   thorpej 			printf("pmap_bootstrap: WARNING! wrong cache mode for "
   4844        1.134   thorpej 			    "L2 pte @ %p\n", ptep);
   4845        1.134   thorpej 		}
   4846        1.134   thorpej 	}
   4847         1.61   thorpej 
   4848        1.134   thorpej 	/*
   4849        1.134   thorpej 	 * Ensure the primary (kernel) L1 has the correct cache mode for
   4850        1.134   thorpej 	 * a page table. Bitch if it is not correctly set.
   4851        1.134   thorpej 	 */
   4852   1.164.12.2      matt 	for (va = (vaddr_t)l1pt;
   4853   1.164.12.2      matt 	    va < ((vaddr_t)l1pt + L1_TABLE_SIZE); va += PAGE_SIZE) {
   4854   1.164.12.2      matt 		if (pmap_set_pt_cache_mode(l1pt, va))
   4855        1.134   thorpej 			printf("pmap_bootstrap: WARNING! wrong cache mode for "
   4856        1.134   thorpej 			    "primary L1 @ 0x%lx\n", va);
   4857          1.1      matt 	}
   4858          1.1      matt 
   4859        1.134   thorpej 	cpu_dcache_wbinv_all();
   4860        1.134   thorpej 	cpu_tlb_flushID();
   4861        1.134   thorpej 	cpu_cpwait();
   4862          1.1      matt 
   4863        1.113   thorpej 	/*
   4864        1.134   thorpej 	 * now we allocate the "special" VAs which are used for tmp mappings
   4865        1.134   thorpej 	 * by the pmap (and other modules).  we allocate the VAs by advancing
   4866        1.134   thorpej 	 * virtual_avail (note that there are no pages mapped at these VAs).
   4867        1.134   thorpej 	 *
   4868        1.134   thorpej 	 * Managed KVM space start from wherever initarm() tells us.
   4869        1.113   thorpej 	 */
   4870        1.134   thorpej 	virtual_avail = vstart;
   4871        1.134   thorpej 	virtual_end = vend;
   4872        1.113   thorpej 
   4873   1.164.12.2      matt #ifdef PMAP_CACHE_VIPT
   4874   1.164.12.2      matt 	/*
   4875   1.164.12.2      matt 	 * If we have a VIPT cache, we need one page/pte per possible alias
   4876   1.164.12.2      matt 	 * page so we won't violate cache aliasing rules.
   4877   1.164.12.2      matt 	 */
   4878   1.164.12.2      matt 	virtual_avail = (virtual_avail + arm_cache_prefer_mask) & ~arm_cache_prefer_mask;
   4879   1.164.12.2      matt 	nptes = (arm_cache_prefer_mask >> PGSHIFT) + 1;
   4880   1.164.12.2      matt #else
   4881   1.164.12.2      matt 	nptes = 1;
   4882   1.164.12.2      matt #endif
   4883   1.164.12.2      matt 	pmap_alloc_specials(&virtual_avail, nptes, &csrcp, &csrc_pte);
   4884   1.164.12.2      matt 	pmap_set_pt_cache_mode(l1pt, (vaddr_t)csrc_pte);
   4885   1.164.12.2      matt 	pmap_alloc_specials(&virtual_avail, nptes, &cdstp, &cdst_pte);
   4886   1.164.12.2      matt 	pmap_set_pt_cache_mode(l1pt, (vaddr_t)cdst_pte);
   4887        1.139      matt 	pmap_alloc_specials(&virtual_avail, 1, (void *)&memhook, NULL);
   4888        1.134   thorpej 	pmap_alloc_specials(&virtual_avail, round_page(MSGBUFSIZE) / PAGE_SIZE,
   4889        1.139      matt 	    (void *)&msgbufaddr, NULL);
   4890        1.134   thorpej 
   4891        1.134   thorpej 	/*
   4892        1.134   thorpej 	 * Allocate a range of kernel virtual address space to be used
   4893        1.134   thorpej 	 * for L2 descriptor tables and metadata allocation in
   4894        1.134   thorpej 	 * pmap_growkernel().
   4895        1.134   thorpej 	 */
   4896        1.134   thorpej 	size = ((virtual_end - pmap_curmaxkvaddr) + L1_S_OFFSET) / L1_S_SIZE;
   4897        1.134   thorpej 	pmap_alloc_specials(&virtual_avail,
   4898        1.134   thorpej 	    round_page(size * L2_TABLE_SIZE_REAL) / PAGE_SIZE,
   4899        1.134   thorpej 	    &pmap_kernel_l2ptp_kva, NULL);
   4900          1.1      matt 
   4901        1.134   thorpej 	size = (size + (L2_BUCKET_SIZE - 1)) / L2_BUCKET_SIZE;
   4902        1.134   thorpej 	pmap_alloc_specials(&virtual_avail,
   4903        1.134   thorpej 	    round_page(size * sizeof(struct l2_dtable)) / PAGE_SIZE,
   4904        1.134   thorpej 	    &pmap_kernel_l2dtable_kva, NULL);
   4905          1.1      matt 
   4906        1.134   thorpej 	/*
   4907        1.134   thorpej 	 * init the static-global locks and global pmap list.
   4908        1.134   thorpej 	 */
   4909   1.164.12.3      matt 	/* spinlockinit(&pmap_main_lock, "pmaplk", 0); */
   4910          1.1      matt 
   4911        1.134   thorpej 	/*
   4912        1.134   thorpej 	 * We can now initialise the first L1's metadata.
   4913        1.134   thorpej 	 */
   4914        1.134   thorpej 	SLIST_INIT(&l1_list);
   4915        1.134   thorpej 	TAILQ_INIT(&l1_lru_list);
   4916        1.134   thorpej 	simple_lock_init(&l1_lru_lock);
   4917   1.164.12.2      matt 	pmap_init_l1(l1, l1pt);
   4918          1.1      matt 
   4919   1.164.12.3      matt 	/* Set up vector page L1 details, if necessary */
   4920   1.164.12.3      matt 	if (vector_page < KERNEL_BASE) {
   4921   1.164.12.3      matt 		pm->pm_pl1vec = &pm->pm_l1->l1_kva[L1_IDX(vector_page)];
   4922   1.164.12.3      matt 		l2b = pmap_get_l2_bucket(pm, vector_page);
   4923   1.164.12.3      matt 		pm->pm_l1vec = l2b->l2b_phys | L1_C_PROTO |
   4924   1.164.12.3      matt 		    L1_C_DOM(pm->pm_domain);
   4925   1.164.12.3      matt 	} else
   4926   1.164.12.3      matt 		pm->pm_pl1vec = NULL;
   4927   1.164.12.3      matt 
   4928          1.1      matt 	/*
   4929   1.164.12.5      matt 	 * Initialize the pmap cache
   4930          1.1      matt 	 */
   4931   1.164.12.5      matt 	pool_cache_bootstrap(&pmap_cache, sizeof(struct pmap), 0, 0, 0,
   4932   1.164.12.5      matt 	    "pmappl", NULL, IPL_NONE, pmap_pmap_ctor, NULL, NULL);
   4933        1.134   thorpej 	LIST_INIT(&pmap_pmaps);
   4934        1.134   thorpej 	LIST_INSERT_HEAD(&pmap_pmaps, pm, pm_list);
   4935          1.1      matt 
   4936        1.134   thorpej 	/*
   4937        1.134   thorpej 	 * Initialize the pv pool.
   4938        1.134   thorpej 	 */
   4939        1.134   thorpej 	pool_init(&pmap_pv_pool, sizeof(struct pv_entry), 0, 0, 0, "pvepl",
   4940        1.162        ad 	    &pmap_bootstrap_pv_allocator, IPL_NONE);
   4941         1.29  rearnsha 
   4942        1.134   thorpej 	/*
   4943        1.134   thorpej 	 * Initialize the L2 dtable pool and cache.
   4944        1.134   thorpej 	 */
   4945   1.164.12.5      matt 	pool_cache_bootstrap(&pmap_l2dtable_cache, sizeof(struct l2_dtable), 0,
   4946   1.164.12.5      matt 	    0, 0, "l2dtblpl", NULL, IPL_NONE, pmap_l2dtable_ctor, NULL, NULL);
   4947          1.1      matt 
   4948        1.134   thorpej 	/*
   4949        1.134   thorpej 	 * Initialise the L2 descriptor table pool and cache
   4950        1.134   thorpej 	 */
   4951   1.164.12.5      matt 	pool_cache_bootstrap(&pmap_l2ptp_cache, L2_TABLE_SIZE_REAL, 0,
   4952   1.164.12.5      matt 	    L2_TABLE_SIZE_REAL, 0, "l2ptppl", NULL, IPL_NONE,
   4953        1.134   thorpej 	    pmap_l2ptp_ctor, NULL, NULL);
   4954         1.61   thorpej 
   4955        1.134   thorpej 	cpu_dcache_wbinv_all();
   4956          1.1      matt }
   4957          1.1      matt 
   4958        1.134   thorpej static int
   4959        1.134   thorpej pmap_set_pt_cache_mode(pd_entry_t *kl1, vaddr_t va)
   4960          1.1      matt {
   4961        1.134   thorpej 	pd_entry_t *pdep, pde;
   4962        1.134   thorpej 	pt_entry_t *ptep, pte;
   4963        1.134   thorpej 	vaddr_t pa;
   4964        1.134   thorpej 	int rv = 0;
   4965        1.134   thorpej 
   4966        1.134   thorpej 	/*
   4967        1.134   thorpej 	 * Make sure the descriptor itself has the correct cache mode
   4968        1.134   thorpej 	 */
   4969        1.134   thorpej 	pdep = &kl1[L1_IDX(va)];
   4970        1.134   thorpej 	pde = *pdep;
   4971        1.134   thorpej 
   4972        1.134   thorpej 	if (l1pte_section_p(pde)) {
   4973        1.134   thorpej 		if ((pde & L1_S_CACHE_MASK) != pte_l1_s_cache_mode_pt) {
   4974        1.134   thorpej 			*pdep = (pde & ~L1_S_CACHE_MASK) |
   4975        1.134   thorpej 			    pte_l1_s_cache_mode_pt;
   4976        1.134   thorpej 			PTE_SYNC(pdep);
   4977        1.134   thorpej 			cpu_dcache_wbinv_range((vaddr_t)pdep, sizeof(*pdep));
   4978        1.134   thorpej 			rv = 1;
   4979        1.134   thorpej 		}
   4980        1.134   thorpej 	} else {
   4981        1.134   thorpej 		pa = (paddr_t)(pde & L1_C_ADDR_MASK);
   4982        1.134   thorpej 		ptep = (pt_entry_t *)kernel_pt_lookup(pa);
   4983        1.134   thorpej 		if (ptep == NULL)
   4984        1.134   thorpej 			panic("pmap_bootstrap: No L2 for L2 @ va %p\n", ptep);
   4985        1.134   thorpej 
   4986        1.134   thorpej 		ptep = &ptep[l2pte_index(va)];
   4987        1.134   thorpej 		pte = *ptep;
   4988        1.134   thorpej 		if ((pte & L2_S_CACHE_MASK) != pte_l2_s_cache_mode_pt) {
   4989        1.134   thorpej 			*ptep = (pte & ~L2_S_CACHE_MASK) |
   4990        1.134   thorpej 			    pte_l2_s_cache_mode_pt;
   4991        1.134   thorpej 			PTE_SYNC(ptep);
   4992        1.134   thorpej 			cpu_dcache_wbinv_range((vaddr_t)ptep, sizeof(*ptep));
   4993        1.134   thorpej 			rv = 1;
   4994        1.134   thorpej 		}
   4995        1.134   thorpej 	}
   4996        1.134   thorpej 
   4997        1.134   thorpej 	return (rv);
   4998        1.134   thorpej }
   4999          1.1      matt 
   5000        1.134   thorpej static void
   5001        1.134   thorpej pmap_alloc_specials(vaddr_t *availp, int pages, vaddr_t *vap, pt_entry_t **ptep)
   5002        1.134   thorpej {
   5003        1.134   thorpej 	vaddr_t va = *availp;
   5004        1.134   thorpej 	struct l2_bucket *l2b;
   5005          1.1      matt 
   5006        1.134   thorpej 	if (ptep) {
   5007        1.134   thorpej 		l2b = pmap_get_l2_bucket(pmap_kernel(), va);
   5008        1.134   thorpej 		if (l2b == NULL)
   5009        1.134   thorpej 			panic("pmap_alloc_specials: no l2b for 0x%lx", va);
   5010         1.62   thorpej 
   5011        1.134   thorpej 		if (ptep)
   5012        1.134   thorpej 			*ptep = &l2b->l2b_kva[l2pte_index(va)];
   5013          1.1      matt 	}
   5014          1.1      matt 
   5015        1.134   thorpej 	*vap = va;
   5016        1.134   thorpej 	*availp = va + (PAGE_SIZE * pages);
   5017        1.134   thorpej }
   5018        1.134   thorpej 
   5019        1.134   thorpej void
   5020        1.134   thorpej pmap_init(void)
   5021        1.134   thorpej {
   5022        1.134   thorpej 	extern int physmem;
   5023          1.1      matt 
   5024        1.113   thorpej 	/*
   5025        1.134   thorpej 	 * Set the available memory vars - These do not map to real memory
   5026        1.134   thorpej 	 * addresses and cannot as the physical memory is fragmented.
   5027        1.134   thorpej 	 * They are used by ps for %mem calculations.
   5028        1.134   thorpej 	 * One could argue whether this should be the entire memory or just
   5029        1.134   thorpej 	 * the memory that is useable in a user process.
   5030        1.113   thorpej 	 */
   5031        1.134   thorpej 	avail_start = 0;
   5032        1.134   thorpej 	avail_end = physmem * PAGE_SIZE;
   5033         1.63   thorpej 
   5034          1.1      matt 	/*
   5035        1.134   thorpej 	 * Now we need to free enough pv_entry structures to allow us to get
   5036        1.134   thorpej 	 * the kmem_map/kmem_object allocated and inited (done after this
   5037        1.134   thorpej 	 * function is finished).  to do this we allocate one bootstrap page out
   5038        1.134   thorpej 	 * of kernel_map and use it to provide an initial pool of pv_entry
   5039        1.134   thorpej 	 * structures.   we never free this page.
   5040          1.1      matt 	 */
   5041        1.134   thorpej 	pool_setlowat(&pmap_pv_pool,
   5042        1.134   thorpej 	    (PAGE_SIZE / sizeof(struct pv_entry)) * 2);
   5043         1.62   thorpej 
   5044        1.160   thorpej 	pmap_initialized = true;
   5045          1.1      matt }
   5046         1.17     chris 
   5047        1.134   thorpej static vaddr_t last_bootstrap_page = 0;
   5048        1.134   thorpej static void *free_bootstrap_pages = NULL;
   5049          1.1      matt 
   5050        1.134   thorpej static void *
   5051        1.134   thorpej pmap_bootstrap_pv_page_alloc(struct pool *pp, int flags)
   5052          1.1      matt {
   5053        1.134   thorpej 	extern void *pool_page_alloc(struct pool *, int);
   5054        1.134   thorpej 	vaddr_t new_page;
   5055        1.134   thorpej 	void *rv;
   5056        1.134   thorpej 
   5057        1.134   thorpej 	if (pmap_initialized)
   5058        1.134   thorpej 		return (pool_page_alloc(pp, flags));
   5059        1.134   thorpej 
   5060        1.134   thorpej 	if (free_bootstrap_pages) {
   5061        1.134   thorpej 		rv = free_bootstrap_pages;
   5062        1.134   thorpej 		free_bootstrap_pages = *((void **)rv);
   5063        1.134   thorpej 		return (rv);
   5064        1.134   thorpej 	}
   5065        1.134   thorpej 
   5066        1.151      yamt 	new_page = uvm_km_alloc(kernel_map, PAGE_SIZE, 0,
   5067        1.151      yamt 	    UVM_KMF_WIRED | ((flags & PR_WAITOK) ? 0 : UVM_KMF_NOWAIT));
   5068          1.1      matt 
   5069        1.134   thorpej 	KASSERT(new_page > last_bootstrap_page);
   5070        1.134   thorpej 	last_bootstrap_page = new_page;
   5071        1.134   thorpej 	return ((void *)new_page);
   5072         1.17     chris }
   5073         1.17     chris 
   5074        1.134   thorpej static void
   5075        1.134   thorpej pmap_bootstrap_pv_page_free(struct pool *pp, void *v)
   5076         1.17     chris {
   5077        1.134   thorpej 	extern void pool_page_free(struct pool *, void *);
   5078         1.17     chris 
   5079        1.150      joff 	if ((vaddr_t)v <= last_bootstrap_page) {
   5080        1.150      joff 		*((void **)v) = free_bootstrap_pages;
   5081        1.150      joff 		free_bootstrap_pages = v;
   5082        1.134   thorpej 		return;
   5083        1.134   thorpej 	}
   5084        1.114   thorpej 
   5085        1.150      joff 	if (pmap_initialized) {
   5086        1.150      joff 		pool_page_free(pp, v);
   5087        1.134   thorpej 		return;
   5088         1.57   thorpej 	}
   5089         1.17     chris }
   5090         1.17     chris 
   5091         1.17     chris /*
   5092        1.134   thorpej  * pmap_postinit()
   5093         1.17     chris  *
   5094        1.134   thorpej  * This routine is called after the vm and kmem subsystems have been
   5095        1.134   thorpej  * initialised. This allows the pmap code to perform any initialisation
   5096        1.134   thorpej  * that can only be done one the memory allocation is in place.
   5097         1.17     chris  */
   5098        1.134   thorpej void
   5099        1.134   thorpej pmap_postinit(void)
   5100         1.17     chris {
   5101        1.134   thorpej 	extern paddr_t physical_start, physical_end;
   5102        1.134   thorpej 	struct l2_bucket *l2b;
   5103        1.134   thorpej 	struct l1_ttable *l1;
   5104        1.134   thorpej 	struct pglist plist;
   5105        1.134   thorpej 	struct vm_page *m;
   5106        1.134   thorpej 	pd_entry_t *pl1pt;
   5107        1.134   thorpej 	pt_entry_t *ptep, pte;
   5108        1.134   thorpej 	vaddr_t va, eva;
   5109        1.134   thorpej 	u_int loop, needed;
   5110        1.134   thorpej 	int error;
   5111        1.114   thorpej 
   5112   1.164.12.5      matt 	pool_cache_setlowat(&pmap_l2ptp_cache,
   5113        1.134   thorpej 	    (PAGE_SIZE / L2_TABLE_SIZE_REAL) * 4);
   5114   1.164.12.5      matt 	pool_cache_setlowat(&pmap_l2dtable_cache,
   5115        1.134   thorpej 	    (PAGE_SIZE / sizeof(struct l2_dtable)) * 2);
   5116         1.17     chris 
   5117        1.134   thorpej 	needed = (maxproc / PMAP_DOMAINS) + ((maxproc % PMAP_DOMAINS) ? 1 : 0);
   5118        1.134   thorpej 	needed -= 1;
   5119         1.48     chris 
   5120        1.134   thorpej 	l1 = malloc(sizeof(*l1) * needed, M_VMPMAP, M_WAITOK);
   5121         1.48     chris 
   5122        1.134   thorpej 	for (loop = 0; loop < needed; loop++, l1++) {
   5123        1.134   thorpej 		/* Allocate a L1 page table */
   5124        1.151      yamt 		va = uvm_km_alloc(kernel_map, L1_TABLE_SIZE, 0, UVM_KMF_VAONLY);
   5125        1.134   thorpej 		if (va == 0)
   5126        1.134   thorpej 			panic("Cannot allocate L1 KVM");
   5127        1.134   thorpej 
   5128        1.134   thorpej 		error = uvm_pglistalloc(L1_TABLE_SIZE, physical_start,
   5129        1.134   thorpej 		    physical_end, L1_TABLE_SIZE, 0, &plist, 1, M_WAITOK);
   5130        1.134   thorpej 		if (error)
   5131        1.134   thorpej 			panic("Cannot allocate L1 physical pages");
   5132        1.134   thorpej 
   5133        1.134   thorpej 		m = TAILQ_FIRST(&plist);
   5134        1.134   thorpej 		eva = va + L1_TABLE_SIZE;
   5135        1.134   thorpej 		pl1pt = (pd_entry_t *)va;
   5136         1.48     chris 
   5137        1.134   thorpej 		while (m && va < eva) {
   5138        1.134   thorpej 			paddr_t pa = VM_PAGE_TO_PHYS(m);
   5139         1.48     chris 
   5140        1.134   thorpej 			pmap_kenter_pa(va, pa, VM_PROT_READ | VM_PROT_WRITE);
   5141         1.48     chris 
   5142         1.48     chris 			/*
   5143        1.134   thorpej 			 * Make sure the L1 descriptor table is mapped
   5144        1.134   thorpej 			 * with the cache-mode set to write-through.
   5145         1.48     chris 			 */
   5146        1.134   thorpej 			l2b = pmap_get_l2_bucket(pmap_kernel(), va);
   5147        1.134   thorpej 			ptep = &l2b->l2b_kva[l2pte_index(va)];
   5148        1.134   thorpej 			pte = *ptep;
   5149        1.134   thorpej 			pte = (pte & ~L2_S_CACHE_MASK) | pte_l2_s_cache_mode_pt;
   5150        1.134   thorpej 			*ptep = pte;
   5151        1.134   thorpej 			PTE_SYNC(ptep);
   5152        1.134   thorpej 			cpu_tlb_flushD_SE(va);
   5153         1.48     chris 
   5154        1.134   thorpej 			va += PAGE_SIZE;
   5155        1.149     chris 			m = TAILQ_NEXT(m, pageq);
   5156         1.48     chris 		}
   5157         1.48     chris 
   5158        1.134   thorpej #ifdef DIAGNOSTIC
   5159        1.134   thorpej 		if (m)
   5160        1.134   thorpej 			panic("pmap_alloc_l1pt: pglist not empty");
   5161        1.134   thorpej #endif	/* DIAGNOSTIC */
   5162         1.48     chris 
   5163        1.134   thorpej 		pmap_init_l1(l1, pl1pt);
   5164         1.48     chris 	}
   5165         1.48     chris 
   5166        1.134   thorpej #ifdef DEBUG
   5167        1.134   thorpej 	printf("pmap_postinit: Allocated %d static L1 descriptor tables\n",
   5168        1.134   thorpej 	    needed);
   5169        1.134   thorpej #endif
   5170         1.48     chris }
   5171         1.48     chris 
   5172         1.76   thorpej /*
   5173        1.134   thorpej  * Note that the following routines are used by board-specific initialisation
   5174        1.134   thorpej  * code to configure the initial kernel page tables.
   5175        1.134   thorpej  *
   5176        1.134   thorpej  * If ARM32_NEW_VM_LAYOUT is *not* defined, they operate on the assumption that
   5177        1.134   thorpej  * L2 page-table pages are 4KB in size and use 4 L1 slots. This mimics the
   5178        1.134   thorpej  * behaviour of the old pmap, and provides an easy migration path for
   5179        1.134   thorpej  * initial bring-up of the new pmap on existing ports. Fortunately,
   5180        1.134   thorpej  * pmap_bootstrap() compensates for this hackery. This is only a stop-gap and
   5181        1.134   thorpej  * will be deprecated.
   5182         1.76   thorpej  *
   5183        1.134   thorpej  * If ARM32_NEW_VM_LAYOUT *is* defined, these functions deal with 1KB L2 page
   5184        1.134   thorpej  * tables.
   5185         1.76   thorpej  */
   5186         1.40   thorpej 
   5187         1.40   thorpej /*
   5188         1.46   thorpej  * This list exists for the benefit of pmap_map_chunk().  It keeps track
   5189         1.46   thorpej  * of the kernel L2 tables during bootstrap, so that pmap_map_chunk() can
   5190         1.46   thorpej  * find them as necessary.
   5191         1.46   thorpej  *
   5192        1.134   thorpej  * Note that the data on this list MUST remain valid after initarm() returns,
   5193        1.134   thorpej  * as pmap_bootstrap() uses it to contruct L2 table metadata.
   5194         1.46   thorpej  */
   5195         1.46   thorpej SLIST_HEAD(, pv_addr) kernel_pt_list = SLIST_HEAD_INITIALIZER(kernel_pt_list);
   5196         1.46   thorpej 
   5197         1.46   thorpej static vaddr_t
   5198         1.46   thorpej kernel_pt_lookup(paddr_t pa)
   5199         1.46   thorpej {
   5200         1.46   thorpej 	pv_addr_t *pv;
   5201         1.46   thorpej 
   5202         1.46   thorpej 	SLIST_FOREACH(pv, &kernel_pt_list, pv_list) {
   5203        1.134   thorpej #ifndef ARM32_NEW_VM_LAYOUT
   5204        1.134   thorpej 		if (pv->pv_pa == (pa & ~PGOFSET))
   5205        1.134   thorpej 			return (pv->pv_va | (pa & PGOFSET));
   5206        1.134   thorpej #else
   5207         1.46   thorpej 		if (pv->pv_pa == pa)
   5208         1.46   thorpej 			return (pv->pv_va);
   5209        1.134   thorpej #endif
   5210         1.46   thorpej 	}
   5211         1.46   thorpej 	return (0);
   5212         1.46   thorpej }
   5213         1.46   thorpej 
   5214         1.46   thorpej /*
   5215         1.40   thorpej  * pmap_map_section:
   5216         1.40   thorpej  *
   5217         1.40   thorpej  *	Create a single section mapping.
   5218         1.40   thorpej  */
   5219         1.40   thorpej void
   5220         1.40   thorpej pmap_map_section(vaddr_t l1pt, vaddr_t va, paddr_t pa, int prot, int cache)
   5221         1.40   thorpej {
   5222         1.40   thorpej 	pd_entry_t *pde = (pd_entry_t *) l1pt;
   5223        1.134   thorpej 	pd_entry_t fl;
   5224         1.40   thorpej 
   5225         1.81   thorpej 	KASSERT(((va | pa) & L1_S_OFFSET) == 0);
   5226         1.40   thorpej 
   5227        1.134   thorpej 	switch (cache) {
   5228        1.134   thorpej 	case PTE_NOCACHE:
   5229        1.134   thorpej 	default:
   5230        1.134   thorpej 		fl = 0;
   5231        1.134   thorpej 		break;
   5232        1.134   thorpej 
   5233        1.134   thorpej 	case PTE_CACHE:
   5234        1.134   thorpej 		fl = pte_l1_s_cache_mode;
   5235        1.134   thorpej 		break;
   5236        1.134   thorpej 
   5237        1.134   thorpej 	case PTE_PAGETABLE:
   5238        1.134   thorpej 		fl = pte_l1_s_cache_mode_pt;
   5239        1.134   thorpej 		break;
   5240        1.134   thorpej 	}
   5241        1.134   thorpej 
   5242         1.83   thorpej 	pde[va >> L1_S_SHIFT] = L1_S_PROTO | pa |
   5243        1.134   thorpej 	    L1_S_PROT(PTE_KERNEL, prot) | fl | L1_S_DOM(PMAP_DOMAIN_KERNEL);
   5244        1.134   thorpej 	PTE_SYNC(&pde[va >> L1_S_SHIFT]);
   5245         1.41   thorpej }
   5246         1.41   thorpej 
   5247         1.41   thorpej /*
   5248         1.41   thorpej  * pmap_map_entry:
   5249         1.41   thorpej  *
   5250         1.41   thorpej  *	Create a single page mapping.
   5251         1.41   thorpej  */
   5252         1.41   thorpej void
   5253         1.47   thorpej pmap_map_entry(vaddr_t l1pt, vaddr_t va, paddr_t pa, int prot, int cache)
   5254         1.41   thorpej {
   5255         1.47   thorpej 	pd_entry_t *pde = (pd_entry_t *) l1pt;
   5256        1.134   thorpej 	pt_entry_t fl;
   5257         1.47   thorpej 	pt_entry_t *pte;
   5258         1.41   thorpej 
   5259         1.41   thorpej 	KASSERT(((va | pa) & PGOFSET) == 0);
   5260         1.41   thorpej 
   5261        1.134   thorpej 	switch (cache) {
   5262        1.134   thorpej 	case PTE_NOCACHE:
   5263        1.134   thorpej 	default:
   5264        1.134   thorpej 		fl = 0;
   5265        1.134   thorpej 		break;
   5266        1.134   thorpej 
   5267        1.134   thorpej 	case PTE_CACHE:
   5268        1.134   thorpej 		fl = pte_l2_s_cache_mode;
   5269        1.134   thorpej 		break;
   5270        1.134   thorpej 
   5271        1.134   thorpej 	case PTE_PAGETABLE:
   5272        1.134   thorpej 		fl = pte_l2_s_cache_mode_pt;
   5273        1.134   thorpej 		break;
   5274        1.134   thorpej 	}
   5275        1.134   thorpej 
   5276         1.81   thorpej 	if ((pde[va >> L1_S_SHIFT] & L1_TYPE_MASK) != L1_TYPE_C)
   5277         1.47   thorpej 		panic("pmap_map_entry: no L2 table for VA 0x%08lx", va);
   5278         1.47   thorpej 
   5279        1.134   thorpej #ifndef ARM32_NEW_VM_LAYOUT
   5280         1.47   thorpej 	pte = (pt_entry_t *)
   5281         1.81   thorpej 	    kernel_pt_lookup(pde[va >> L1_S_SHIFT] & L2_S_FRAME);
   5282        1.134   thorpej #else
   5283        1.134   thorpej 	pte = (pt_entry_t *) kernel_pt_lookup(pde[L1_IDX(va)] & L1_C_ADDR_MASK);
   5284        1.134   thorpej #endif
   5285         1.47   thorpej 	if (pte == NULL)
   5286         1.47   thorpej 		panic("pmap_map_entry: can't find L2 table for VA 0x%08lx", va);
   5287         1.47   thorpej 
   5288   1.164.12.2      matt 	fl |= L2_S_PROTO | pa | L2_S_PROT(PTE_KERNEL, prot);
   5289        1.134   thorpej #ifndef ARM32_NEW_VM_LAYOUT
   5290   1.164.12.2      matt 	pte += (va >> PGSHIFT) & 0x3ff;
   5291        1.134   thorpej #else
   5292   1.164.12.2      matt 	pte += l2pte_index(va);
   5293        1.134   thorpej 	    L2_S_PROTO | pa | L2_S_PROT(PTE_KERNEL, prot) | fl;
   5294        1.134   thorpej #endif
   5295   1.164.12.2      matt 	*pte = fl;
   5296   1.164.12.2      matt 	PTE_SYNC(pte);
   5297         1.42   thorpej }
   5298         1.42   thorpej 
   5299         1.42   thorpej /*
   5300         1.42   thorpej  * pmap_link_l2pt:
   5301         1.42   thorpej  *
   5302        1.134   thorpej  *	Link the L2 page table specified by "l2pv" into the L1
   5303         1.42   thorpej  *	page table at the slot for "va".
   5304         1.42   thorpej  */
   5305         1.42   thorpej void
   5306         1.46   thorpej pmap_link_l2pt(vaddr_t l1pt, vaddr_t va, pv_addr_t *l2pv)
   5307         1.42   thorpej {
   5308        1.134   thorpej 	pd_entry_t *pde = (pd_entry_t *) l1pt, proto;
   5309         1.81   thorpej 	u_int slot = va >> L1_S_SHIFT;
   5310         1.42   thorpej 
   5311        1.134   thorpej #ifndef ARM32_NEW_VM_LAYOUT
   5312        1.134   thorpej 	KASSERT((va & ((L1_S_SIZE * 4) - 1)) == 0);
   5313         1.46   thorpej 	KASSERT((l2pv->pv_pa & PGOFSET) == 0);
   5314        1.134   thorpej #endif
   5315         1.46   thorpej 
   5316        1.134   thorpej 	proto = L1_S_DOM(PMAP_DOMAIN_KERNEL) | L1_C_PROTO;
   5317        1.134   thorpej 
   5318        1.134   thorpej 	pde[slot + 0] = proto | (l2pv->pv_pa + 0x000);
   5319        1.134   thorpej #ifdef ARM32_NEW_VM_LAYOUT
   5320        1.134   thorpej 	PTE_SYNC(&pde[slot]);
   5321        1.134   thorpej #else
   5322        1.134   thorpej 	pde[slot + 1] = proto | (l2pv->pv_pa + 0x400);
   5323        1.134   thorpej 	pde[slot + 2] = proto | (l2pv->pv_pa + 0x800);
   5324        1.134   thorpej 	pde[slot + 3] = proto | (l2pv->pv_pa + 0xc00);
   5325        1.134   thorpej 	PTE_SYNC_RANGE(&pde[slot + 0], 4);
   5326        1.134   thorpej #endif
   5327         1.42   thorpej 
   5328         1.46   thorpej 	SLIST_INSERT_HEAD(&kernel_pt_list, l2pv, pv_list);
   5329         1.43   thorpej }
   5330         1.43   thorpej 
   5331         1.43   thorpej /*
   5332         1.43   thorpej  * pmap_map_chunk:
   5333         1.43   thorpej  *
   5334         1.43   thorpej  *	Map a chunk of memory using the most efficient mappings
   5335         1.43   thorpej  *	possible (section, large page, small page) into the
   5336         1.43   thorpej  *	provided L1 and L2 tables at the specified virtual address.
   5337         1.43   thorpej  */
   5338         1.43   thorpej vsize_t
   5339         1.46   thorpej pmap_map_chunk(vaddr_t l1pt, vaddr_t va, paddr_t pa, vsize_t size,
   5340         1.46   thorpej     int prot, int cache)
   5341         1.43   thorpej {
   5342         1.43   thorpej 	pd_entry_t *pde = (pd_entry_t *) l1pt;
   5343        1.134   thorpej 	pt_entry_t *pte, f1, f2s, f2l;
   5344         1.43   thorpej 	vsize_t resid;
   5345        1.134   thorpej 	int i;
   5346         1.43   thorpej 
   5347        1.130   thorpej 	resid = (size + (PAGE_SIZE - 1)) & ~(PAGE_SIZE - 1);
   5348         1.43   thorpej 
   5349         1.44   thorpej 	if (l1pt == 0)
   5350         1.44   thorpej 		panic("pmap_map_chunk: no L1 table provided");
   5351         1.44   thorpej 
   5352         1.43   thorpej #ifdef VERBOSE_INIT_ARM
   5353         1.43   thorpej 	printf("pmap_map_chunk: pa=0x%lx va=0x%lx size=0x%lx resid=0x%lx "
   5354         1.43   thorpej 	    "prot=0x%x cache=%d\n", pa, va, size, resid, prot, cache);
   5355         1.43   thorpej #endif
   5356         1.43   thorpej 
   5357        1.134   thorpej 	switch (cache) {
   5358        1.134   thorpej 	case PTE_NOCACHE:
   5359        1.134   thorpej 	default:
   5360        1.134   thorpej 		f1 = 0;
   5361        1.134   thorpej 		f2l = 0;
   5362        1.134   thorpej 		f2s = 0;
   5363        1.134   thorpej 		break;
   5364        1.134   thorpej 
   5365        1.134   thorpej 	case PTE_CACHE:
   5366        1.134   thorpej 		f1 = pte_l1_s_cache_mode;
   5367        1.134   thorpej 		f2l = pte_l2_l_cache_mode;
   5368        1.134   thorpej 		f2s = pte_l2_s_cache_mode;
   5369        1.134   thorpej 		break;
   5370        1.134   thorpej 
   5371        1.134   thorpej 	case PTE_PAGETABLE:
   5372        1.134   thorpej 		f1 = pte_l1_s_cache_mode_pt;
   5373        1.134   thorpej 		f2l = pte_l2_l_cache_mode_pt;
   5374        1.134   thorpej 		f2s = pte_l2_s_cache_mode_pt;
   5375        1.134   thorpej 		break;
   5376        1.134   thorpej 	}
   5377        1.134   thorpej 
   5378         1.43   thorpej 	size = resid;
   5379         1.43   thorpej 
   5380         1.43   thorpej 	while (resid > 0) {
   5381         1.43   thorpej 		/* See if we can use a section mapping. */
   5382        1.134   thorpej 		if (L1_S_MAPPABLE_P(va, pa, resid)) {
   5383         1.43   thorpej #ifdef VERBOSE_INIT_ARM
   5384         1.43   thorpej 			printf("S");
   5385         1.43   thorpej #endif
   5386         1.83   thorpej 			pde[va >> L1_S_SHIFT] = L1_S_PROTO | pa |
   5387        1.134   thorpej 			    L1_S_PROT(PTE_KERNEL, prot) | f1 |
   5388        1.134   thorpej 			    L1_S_DOM(PMAP_DOMAIN_KERNEL);
   5389        1.134   thorpej 			PTE_SYNC(&pde[va >> L1_S_SHIFT]);
   5390         1.81   thorpej 			va += L1_S_SIZE;
   5391         1.81   thorpej 			pa += L1_S_SIZE;
   5392         1.81   thorpej 			resid -= L1_S_SIZE;
   5393         1.43   thorpej 			continue;
   5394         1.43   thorpej 		}
   5395         1.45   thorpej 
   5396         1.45   thorpej 		/*
   5397         1.45   thorpej 		 * Ok, we're going to use an L2 table.  Make sure
   5398         1.45   thorpej 		 * one is actually in the corresponding L1 slot
   5399         1.45   thorpej 		 * for the current VA.
   5400         1.45   thorpej 		 */
   5401         1.81   thorpej 		if ((pde[va >> L1_S_SHIFT] & L1_TYPE_MASK) != L1_TYPE_C)
   5402         1.46   thorpej 			panic("pmap_map_chunk: no L2 table for VA 0x%08lx", va);
   5403         1.46   thorpej 
   5404        1.134   thorpej #ifndef ARM32_NEW_VM_LAYOUT
   5405         1.46   thorpej 		pte = (pt_entry_t *)
   5406         1.81   thorpej 		    kernel_pt_lookup(pde[va >> L1_S_SHIFT] & L2_S_FRAME);
   5407        1.134   thorpej #else
   5408        1.134   thorpej 		pte = (pt_entry_t *) kernel_pt_lookup(
   5409        1.134   thorpej 		    pde[L1_IDX(va)] & L1_C_ADDR_MASK);
   5410        1.134   thorpej #endif
   5411         1.46   thorpej 		if (pte == NULL)
   5412         1.46   thorpej 			panic("pmap_map_chunk: can't find L2 table for VA"
   5413         1.46   thorpej 			    "0x%08lx", va);
   5414         1.43   thorpej 
   5415         1.43   thorpej 		/* See if we can use a L2 large page mapping. */
   5416        1.134   thorpej 		if (L2_L_MAPPABLE_P(va, pa, resid)) {
   5417         1.43   thorpej #ifdef VERBOSE_INIT_ARM
   5418         1.43   thorpej 			printf("L");
   5419         1.43   thorpej #endif
   5420         1.43   thorpej 			for (i = 0; i < 16; i++) {
   5421        1.134   thorpej #ifndef ARM32_NEW_VM_LAYOUT
   5422         1.43   thorpej 				pte[((va >> PGSHIFT) & 0x3f0) + i] =
   5423         1.83   thorpej 				    L2_L_PROTO | pa |
   5424        1.134   thorpej 				    L2_L_PROT(PTE_KERNEL, prot) | f2l;
   5425        1.134   thorpej 				PTE_SYNC(&pte[((va >> PGSHIFT) & 0x3f0) + i]);
   5426        1.134   thorpej #else
   5427        1.134   thorpej 				pte[l2pte_index(va) + i] =
   5428        1.134   thorpej 				    L2_L_PROTO | pa |
   5429        1.134   thorpej 				    L2_L_PROT(PTE_KERNEL, prot) | f2l;
   5430        1.134   thorpej 				PTE_SYNC(&pte[l2pte_index(va) + i]);
   5431        1.134   thorpej #endif
   5432         1.43   thorpej 			}
   5433         1.81   thorpej 			va += L2_L_SIZE;
   5434         1.81   thorpej 			pa += L2_L_SIZE;
   5435         1.81   thorpej 			resid -= L2_L_SIZE;
   5436         1.43   thorpej 			continue;
   5437         1.43   thorpej 		}
   5438         1.43   thorpej 
   5439         1.43   thorpej 		/* Use a small page mapping. */
   5440         1.43   thorpej #ifdef VERBOSE_INIT_ARM
   5441         1.43   thorpej 		printf("P");
   5442         1.43   thorpej #endif
   5443        1.134   thorpej #ifndef ARM32_NEW_VM_LAYOUT
   5444        1.134   thorpej 		pte[(va >> PGSHIFT) & 0x3ff] =
   5445        1.134   thorpej 		    L2_S_PROTO | pa | L2_S_PROT(PTE_KERNEL, prot) | f2s;
   5446        1.134   thorpej 		PTE_SYNC(&pte[(va >> PGSHIFT) & 0x3ff]);
   5447        1.134   thorpej #else
   5448        1.134   thorpej 		pte[l2pte_index(va)] =
   5449        1.134   thorpej 		    L2_S_PROTO | pa | L2_S_PROT(PTE_KERNEL, prot) | f2s;
   5450        1.134   thorpej 		PTE_SYNC(&pte[l2pte_index(va)]);
   5451        1.134   thorpej #endif
   5452        1.130   thorpej 		va += PAGE_SIZE;
   5453        1.130   thorpej 		pa += PAGE_SIZE;
   5454        1.130   thorpej 		resid -= PAGE_SIZE;
   5455         1.43   thorpej 	}
   5456         1.43   thorpej #ifdef VERBOSE_INIT_ARM
   5457         1.43   thorpej 	printf("\n");
   5458         1.43   thorpej #endif
   5459         1.43   thorpej 	return (size);
   5460        1.135   thorpej }
   5461        1.135   thorpej 
   5462        1.135   thorpej /********************** Static device map routines ***************************/
   5463        1.135   thorpej 
   5464        1.135   thorpej static const struct pmap_devmap *pmap_devmap_table;
   5465        1.135   thorpej 
   5466        1.135   thorpej /*
   5467        1.136   thorpej  * Register the devmap table.  This is provided in case early console
   5468        1.136   thorpej  * initialization needs to register mappings created by bootstrap code
   5469        1.136   thorpej  * before pmap_devmap_bootstrap() is called.
   5470        1.136   thorpej  */
   5471        1.136   thorpej void
   5472        1.136   thorpej pmap_devmap_register(const struct pmap_devmap *table)
   5473        1.136   thorpej {
   5474        1.136   thorpej 
   5475        1.136   thorpej 	pmap_devmap_table = table;
   5476        1.136   thorpej }
   5477        1.136   thorpej 
   5478        1.136   thorpej /*
   5479        1.135   thorpej  * Map all of the static regions in the devmap table, and remember
   5480        1.135   thorpej  * the devmap table so other parts of the kernel can look up entries
   5481        1.135   thorpej  * later.
   5482        1.135   thorpej  */
   5483        1.135   thorpej void
   5484        1.135   thorpej pmap_devmap_bootstrap(vaddr_t l1pt, const struct pmap_devmap *table)
   5485        1.135   thorpej {
   5486        1.135   thorpej 	int i;
   5487        1.135   thorpej 
   5488        1.135   thorpej 	pmap_devmap_table = table;
   5489        1.135   thorpej 
   5490        1.135   thorpej 	for (i = 0; pmap_devmap_table[i].pd_size != 0; i++) {
   5491        1.135   thorpej #ifdef VERBOSE_INIT_ARM
   5492        1.135   thorpej 		printf("devmap: %08lx -> %08lx @ %08lx\n",
   5493        1.135   thorpej 		    pmap_devmap_table[i].pd_pa,
   5494        1.135   thorpej 		    pmap_devmap_table[i].pd_pa +
   5495        1.135   thorpej 			pmap_devmap_table[i].pd_size - 1,
   5496        1.135   thorpej 		    pmap_devmap_table[i].pd_va);
   5497        1.135   thorpej #endif
   5498        1.135   thorpej 		pmap_map_chunk(l1pt, pmap_devmap_table[i].pd_va,
   5499        1.135   thorpej 		    pmap_devmap_table[i].pd_pa,
   5500        1.135   thorpej 		    pmap_devmap_table[i].pd_size,
   5501        1.135   thorpej 		    pmap_devmap_table[i].pd_prot,
   5502        1.135   thorpej 		    pmap_devmap_table[i].pd_cache);
   5503        1.135   thorpej 	}
   5504        1.135   thorpej }
   5505        1.135   thorpej 
   5506        1.135   thorpej const struct pmap_devmap *
   5507        1.135   thorpej pmap_devmap_find_pa(paddr_t pa, psize_t size)
   5508        1.135   thorpej {
   5509        1.153       scw 	uint64_t endpa;
   5510        1.135   thorpej 	int i;
   5511        1.135   thorpej 
   5512        1.135   thorpej 	if (pmap_devmap_table == NULL)
   5513        1.135   thorpej 		return (NULL);
   5514        1.135   thorpej 
   5515        1.158  christos 	endpa = (uint64_t)pa + (uint64_t)(size - 1);
   5516        1.153       scw 
   5517        1.135   thorpej 	for (i = 0; pmap_devmap_table[i].pd_size != 0; i++) {
   5518        1.135   thorpej 		if (pa >= pmap_devmap_table[i].pd_pa &&
   5519        1.153       scw 		    endpa <= (uint64_t)pmap_devmap_table[i].pd_pa +
   5520        1.158  christos 			     (uint64_t)(pmap_devmap_table[i].pd_size - 1))
   5521        1.135   thorpej 			return (&pmap_devmap_table[i]);
   5522        1.135   thorpej 	}
   5523        1.135   thorpej 
   5524        1.135   thorpej 	return (NULL);
   5525        1.135   thorpej }
   5526        1.135   thorpej 
   5527        1.135   thorpej const struct pmap_devmap *
   5528        1.135   thorpej pmap_devmap_find_va(vaddr_t va, vsize_t size)
   5529        1.135   thorpej {
   5530        1.135   thorpej 	int i;
   5531        1.135   thorpej 
   5532        1.135   thorpej 	if (pmap_devmap_table == NULL)
   5533        1.135   thorpej 		return (NULL);
   5534        1.135   thorpej 
   5535        1.135   thorpej 	for (i = 0; pmap_devmap_table[i].pd_size != 0; i++) {
   5536        1.135   thorpej 		if (va >= pmap_devmap_table[i].pd_va &&
   5537        1.158  christos 		    va + size - 1 <= pmap_devmap_table[i].pd_va +
   5538        1.158  christos 				     pmap_devmap_table[i].pd_size - 1)
   5539        1.135   thorpej 			return (&pmap_devmap_table[i]);
   5540        1.135   thorpej 	}
   5541        1.135   thorpej 
   5542        1.135   thorpej 	return (NULL);
   5543         1.40   thorpej }
   5544         1.85   thorpej 
   5545         1.85   thorpej /********************** PTE initialization routines **************************/
   5546         1.85   thorpej 
   5547         1.85   thorpej /*
   5548         1.85   thorpej  * These routines are called when the CPU type is identified to set up
   5549         1.85   thorpej  * the PTE prototypes, cache modes, etc.
   5550         1.85   thorpej  *
   5551         1.85   thorpej  * The variables are always here, just in case LKMs need to reference
   5552         1.85   thorpej  * them (though, they shouldn't).
   5553         1.85   thorpej  */
   5554         1.85   thorpej 
   5555         1.86   thorpej pt_entry_t	pte_l1_s_cache_mode;
   5556        1.134   thorpej pt_entry_t	pte_l1_s_cache_mode_pt;
   5557         1.86   thorpej pt_entry_t	pte_l1_s_cache_mask;
   5558         1.86   thorpej 
   5559         1.86   thorpej pt_entry_t	pte_l2_l_cache_mode;
   5560        1.134   thorpej pt_entry_t	pte_l2_l_cache_mode_pt;
   5561         1.86   thorpej pt_entry_t	pte_l2_l_cache_mask;
   5562         1.86   thorpej 
   5563         1.86   thorpej pt_entry_t	pte_l2_s_cache_mode;
   5564        1.134   thorpej pt_entry_t	pte_l2_s_cache_mode_pt;
   5565         1.86   thorpej pt_entry_t	pte_l2_s_cache_mask;
   5566         1.85   thorpej 
   5567         1.85   thorpej pt_entry_t	pte_l2_s_prot_u;
   5568         1.85   thorpej pt_entry_t	pte_l2_s_prot_w;
   5569         1.85   thorpej pt_entry_t	pte_l2_s_prot_mask;
   5570         1.85   thorpej 
   5571         1.85   thorpej pt_entry_t	pte_l1_s_proto;
   5572         1.85   thorpej pt_entry_t	pte_l1_c_proto;
   5573         1.85   thorpej pt_entry_t	pte_l2_s_proto;
   5574         1.85   thorpej 
   5575         1.88   thorpej void		(*pmap_copy_page_func)(paddr_t, paddr_t);
   5576         1.88   thorpej void		(*pmap_zero_page_func)(paddr_t);
   5577         1.88   thorpej 
   5578   1.164.12.2      matt #if (ARM_MMU_GENERIC + ARM_MMU_SA1 + ARM_MMU_V6) != 0
   5579         1.85   thorpej void
   5580         1.85   thorpej pmap_pte_init_generic(void)
   5581         1.85   thorpej {
   5582         1.85   thorpej 
   5583         1.86   thorpej 	pte_l1_s_cache_mode = L1_S_B|L1_S_C;
   5584         1.86   thorpej 	pte_l1_s_cache_mask = L1_S_CACHE_MASK_generic;
   5585         1.86   thorpej 
   5586         1.86   thorpej 	pte_l2_l_cache_mode = L2_B|L2_C;
   5587         1.86   thorpej 	pte_l2_l_cache_mask = L2_L_CACHE_MASK_generic;
   5588         1.86   thorpej 
   5589         1.86   thorpej 	pte_l2_s_cache_mode = L2_B|L2_C;
   5590         1.86   thorpej 	pte_l2_s_cache_mask = L2_S_CACHE_MASK_generic;
   5591         1.85   thorpej 
   5592        1.134   thorpej 	/*
   5593        1.134   thorpej 	 * If we have a write-through cache, set B and C.  If
   5594        1.134   thorpej 	 * we have a write-back cache, then we assume setting
   5595        1.134   thorpej 	 * only C will make those pages write-through.
   5596        1.134   thorpej 	 */
   5597        1.134   thorpej 	if (cpufuncs.cf_dcache_wb_range == (void *) cpufunc_nullop) {
   5598        1.134   thorpej 		pte_l1_s_cache_mode_pt = L1_S_B|L1_S_C;
   5599        1.134   thorpej 		pte_l2_l_cache_mode_pt = L2_B|L2_C;
   5600        1.134   thorpej 		pte_l2_s_cache_mode_pt = L2_B|L2_C;
   5601        1.134   thorpej 	} else {
   5602   1.164.12.2      matt #if ARM_MMU_V6 > 1
   5603   1.164.12.2      matt 		pte_l1_s_cache_mode_pt = L1_S_B|L1_S_C; /* arm116 errata 399234 */
   5604   1.164.12.2      matt 		pte_l2_l_cache_mode_pt = L2_B|L2_C; /* arm116 errata 399234 */
   5605   1.164.12.2      matt 		pte_l2_s_cache_mode_pt = L2_B|L2_C; /* arm116 errata 399234 */
   5606   1.164.12.2      matt #else
   5607        1.134   thorpej 		pte_l1_s_cache_mode_pt = L1_S_C;
   5608        1.134   thorpej 		pte_l2_l_cache_mode_pt = L2_C;
   5609        1.134   thorpej 		pte_l2_s_cache_mode_pt = L2_C;
   5610   1.164.12.2      matt #endif
   5611        1.134   thorpej 	}
   5612        1.134   thorpej 
   5613         1.85   thorpej 	pte_l2_s_prot_u = L2_S_PROT_U_generic;
   5614         1.85   thorpej 	pte_l2_s_prot_w = L2_S_PROT_W_generic;
   5615         1.85   thorpej 	pte_l2_s_prot_mask = L2_S_PROT_MASK_generic;
   5616         1.85   thorpej 
   5617         1.85   thorpej 	pte_l1_s_proto = L1_S_PROTO_generic;
   5618         1.85   thorpej 	pte_l1_c_proto = L1_C_PROTO_generic;
   5619         1.85   thorpej 	pte_l2_s_proto = L2_S_PROTO_generic;
   5620         1.88   thorpej 
   5621         1.88   thorpej 	pmap_copy_page_func = pmap_copy_page_generic;
   5622         1.88   thorpej 	pmap_zero_page_func = pmap_zero_page_generic;
   5623         1.85   thorpej }
   5624         1.85   thorpej 
   5625        1.131   thorpej #if defined(CPU_ARM8)
   5626        1.131   thorpej void
   5627        1.131   thorpej pmap_pte_init_arm8(void)
   5628        1.131   thorpej {
   5629        1.131   thorpej 
   5630        1.134   thorpej 	/*
   5631        1.134   thorpej 	 * ARM8 is compatible with generic, but we need to use
   5632        1.134   thorpej 	 * the page tables uncached.
   5633        1.134   thorpej 	 */
   5634        1.131   thorpej 	pmap_pte_init_generic();
   5635        1.134   thorpej 
   5636        1.134   thorpej 	pte_l1_s_cache_mode_pt = 0;
   5637        1.134   thorpej 	pte_l2_l_cache_mode_pt = 0;
   5638        1.134   thorpej 	pte_l2_s_cache_mode_pt = 0;
   5639        1.131   thorpej }
   5640        1.131   thorpej #endif /* CPU_ARM8 */
   5641        1.131   thorpej 
   5642        1.148       bsh #if defined(CPU_ARM9) && defined(ARM9_CACHE_WRITE_THROUGH)
   5643         1.85   thorpej void
   5644         1.85   thorpej pmap_pte_init_arm9(void)
   5645         1.85   thorpej {
   5646         1.85   thorpej 
   5647         1.85   thorpej 	/*
   5648         1.85   thorpej 	 * ARM9 is compatible with generic, but we want to use
   5649         1.85   thorpej 	 * write-through caching for now.
   5650         1.85   thorpej 	 */
   5651         1.85   thorpej 	pmap_pte_init_generic();
   5652         1.86   thorpej 
   5653         1.86   thorpej 	pte_l1_s_cache_mode = L1_S_C;
   5654         1.86   thorpej 	pte_l2_l_cache_mode = L2_C;
   5655         1.86   thorpej 	pte_l2_s_cache_mode = L2_C;
   5656        1.134   thorpej 
   5657        1.134   thorpej 	pte_l1_s_cache_mode_pt = L1_S_C;
   5658        1.134   thorpej 	pte_l2_l_cache_mode_pt = L2_C;
   5659        1.134   thorpej 	pte_l2_s_cache_mode_pt = L2_C;
   5660         1.85   thorpej }
   5661         1.85   thorpej #endif /* CPU_ARM9 */
   5662   1.164.12.2      matt #endif /* (ARM_MMU_GENERIC + ARM_MMU_SA1 + ARM_MMU_V6) != 0 */
   5663        1.138  rearnsha 
   5664        1.138  rearnsha #if defined(CPU_ARM10)
   5665        1.138  rearnsha void
   5666        1.138  rearnsha pmap_pte_init_arm10(void)
   5667        1.138  rearnsha {
   5668        1.138  rearnsha 
   5669        1.138  rearnsha 	/*
   5670        1.138  rearnsha 	 * ARM10 is compatible with generic, but we want to use
   5671        1.138  rearnsha 	 * write-through caching for now.
   5672        1.138  rearnsha 	 */
   5673        1.138  rearnsha 	pmap_pte_init_generic();
   5674        1.138  rearnsha 
   5675        1.138  rearnsha 	pte_l1_s_cache_mode = L1_S_B | L1_S_C;
   5676        1.138  rearnsha 	pte_l2_l_cache_mode = L2_B | L2_C;
   5677        1.138  rearnsha 	pte_l2_s_cache_mode = L2_B | L2_C;
   5678        1.138  rearnsha 
   5679        1.138  rearnsha 	pte_l1_s_cache_mode_pt = L1_S_C;
   5680        1.138  rearnsha 	pte_l2_l_cache_mode_pt = L2_C;
   5681        1.138  rearnsha 	pte_l2_s_cache_mode_pt = L2_C;
   5682        1.138  rearnsha 
   5683        1.138  rearnsha }
   5684        1.138  rearnsha #endif /* CPU_ARM10 */
   5685        1.131   thorpej 
   5686        1.131   thorpej #if ARM_MMU_SA1 == 1
   5687        1.131   thorpej void
   5688        1.131   thorpej pmap_pte_init_sa1(void)
   5689        1.131   thorpej {
   5690        1.131   thorpej 
   5691        1.134   thorpej 	/*
   5692        1.134   thorpej 	 * The StrongARM SA-1 cache does not have a write-through
   5693        1.134   thorpej 	 * mode.  So, do the generic initialization, then reset
   5694        1.134   thorpej 	 * the page table cache mode to B=1,C=1, and note that
   5695        1.134   thorpej 	 * the PTEs need to be sync'd.
   5696        1.134   thorpej 	 */
   5697        1.131   thorpej 	pmap_pte_init_generic();
   5698        1.134   thorpej 
   5699        1.134   thorpej 	pte_l1_s_cache_mode_pt = L1_S_B|L1_S_C;
   5700        1.134   thorpej 	pte_l2_l_cache_mode_pt = L2_B|L2_C;
   5701        1.134   thorpej 	pte_l2_s_cache_mode_pt = L2_B|L2_C;
   5702        1.134   thorpej 
   5703        1.134   thorpej 	pmap_needs_pte_sync = 1;
   5704        1.131   thorpej }
   5705        1.134   thorpej #endif /* ARM_MMU_SA1 == 1*/
   5706         1.85   thorpej 
   5707         1.85   thorpej #if ARM_MMU_XSCALE == 1
   5708        1.141       scw #if (ARM_NMMUS > 1)
   5709        1.141       scw static u_int xscale_use_minidata;
   5710        1.141       scw #endif
   5711        1.141       scw 
   5712         1.85   thorpej void
   5713         1.85   thorpej pmap_pte_init_xscale(void)
   5714         1.85   thorpej {
   5715         1.96   thorpej 	uint32_t auxctl;
   5716        1.134   thorpej 	int write_through = 0;
   5717         1.85   thorpej 
   5718         1.96   thorpej 	pte_l1_s_cache_mode = L1_S_B|L1_S_C;
   5719         1.86   thorpej 	pte_l1_s_cache_mask = L1_S_CACHE_MASK_xscale;
   5720         1.86   thorpej 
   5721         1.96   thorpej 	pte_l2_l_cache_mode = L2_B|L2_C;
   5722         1.86   thorpej 	pte_l2_l_cache_mask = L2_L_CACHE_MASK_xscale;
   5723         1.86   thorpej 
   5724         1.96   thorpej 	pte_l2_s_cache_mode = L2_B|L2_C;
   5725         1.86   thorpej 	pte_l2_s_cache_mask = L2_S_CACHE_MASK_xscale;
   5726        1.106   thorpej 
   5727        1.134   thorpej 	pte_l1_s_cache_mode_pt = L1_S_C;
   5728        1.134   thorpej 	pte_l2_l_cache_mode_pt = L2_C;
   5729        1.134   thorpej 	pte_l2_s_cache_mode_pt = L2_C;
   5730        1.134   thorpej 
   5731        1.106   thorpej #ifdef XSCALE_CACHE_READ_WRITE_ALLOCATE
   5732        1.106   thorpej 	/*
   5733        1.106   thorpej 	 * The XScale core has an enhanced mode where writes that
   5734        1.106   thorpej 	 * miss the cache cause a cache line to be allocated.  This
   5735        1.106   thorpej 	 * is significantly faster than the traditional, write-through
   5736        1.106   thorpej 	 * behavior of this case.
   5737        1.106   thorpej 	 */
   5738   1.164.12.6      matt 	pte_l1_s_cache_mode |= L1_S_XS_TEX(TEX_XSCALE_X);
   5739   1.164.12.6      matt 	pte_l2_l_cache_mode |= L2_XS_L_TEX(TEX_XSCALE_X);
   5740   1.164.12.6      matt 	pte_l2_s_cache_mode |= L2_XS_T_TEX(TEX_XSCALE_X);
   5741        1.106   thorpej #endif /* XSCALE_CACHE_READ_WRITE_ALLOCATE */
   5742         1.85   thorpej 
   5743         1.95   thorpej #ifdef XSCALE_CACHE_WRITE_THROUGH
   5744         1.95   thorpej 	/*
   5745         1.95   thorpej 	 * Some versions of the XScale core have various bugs in
   5746         1.95   thorpej 	 * their cache units, the work-around for which is to run
   5747         1.95   thorpej 	 * the cache in write-through mode.  Unfortunately, this
   5748         1.95   thorpej 	 * has a major (negative) impact on performance.  So, we
   5749         1.95   thorpej 	 * go ahead and run fast-and-loose, in the hopes that we
   5750         1.95   thorpej 	 * don't line up the planets in a way that will trip the
   5751         1.95   thorpej 	 * bugs.
   5752         1.95   thorpej 	 *
   5753         1.95   thorpej 	 * However, we give you the option to be slow-but-correct.
   5754         1.95   thorpej 	 */
   5755        1.129       bsh 	write_through = 1;
   5756        1.129       bsh #elif defined(XSCALE_CACHE_WRITE_BACK)
   5757        1.134   thorpej 	/* force write back cache mode */
   5758        1.129       bsh 	write_through = 0;
   5759        1.154       bsh #elif defined(CPU_XSCALE_PXA250) || defined(CPU_XSCALE_PXA270)
   5760        1.129       bsh 	/*
   5761        1.129       bsh 	 * Intel PXA2[15]0 processors are known to have a bug in
   5762        1.129       bsh 	 * write-back cache on revision 4 and earlier (stepping
   5763        1.129       bsh 	 * A[01] and B[012]).  Fixed for C0 and later.
   5764        1.129       bsh 	 */
   5765        1.129       bsh 	{
   5766        1.134   thorpej 		uint32_t id, type;
   5767        1.129       bsh 
   5768        1.129       bsh 		id = cpufunc_id();
   5769        1.129       bsh 		type = id & ~(CPU_ID_XSCALE_COREREV_MASK|CPU_ID_REVISION_MASK);
   5770        1.129       bsh 
   5771        1.129       bsh 		if (type == CPU_ID_PXA250 || type == CPU_ID_PXA210) {
   5772        1.129       bsh 			if ((id & CPU_ID_REVISION_MASK) < 5) {
   5773        1.129       bsh 				/* write through for stepping A0-1 and B0-2 */
   5774        1.129       bsh 				write_through = 1;
   5775        1.129       bsh 			}
   5776        1.129       bsh 		}
   5777        1.129       bsh 	}
   5778         1.95   thorpej #endif /* XSCALE_CACHE_WRITE_THROUGH */
   5779        1.129       bsh 
   5780        1.129       bsh 	if (write_through) {
   5781        1.129       bsh 		pte_l1_s_cache_mode = L1_S_C;
   5782        1.129       bsh 		pte_l2_l_cache_mode = L2_C;
   5783        1.129       bsh 		pte_l2_s_cache_mode = L2_C;
   5784        1.129       bsh 	}
   5785         1.95   thorpej 
   5786        1.141       scw #if (ARM_NMMUS > 1)
   5787        1.141       scw 	xscale_use_minidata = 1;
   5788        1.141       scw #endif
   5789        1.141       scw 
   5790         1.85   thorpej 	pte_l2_s_prot_u = L2_S_PROT_U_xscale;
   5791         1.85   thorpej 	pte_l2_s_prot_w = L2_S_PROT_W_xscale;
   5792         1.85   thorpej 	pte_l2_s_prot_mask = L2_S_PROT_MASK_xscale;
   5793         1.85   thorpej 
   5794         1.85   thorpej 	pte_l1_s_proto = L1_S_PROTO_xscale;
   5795         1.85   thorpej 	pte_l1_c_proto = L1_C_PROTO_xscale;
   5796         1.85   thorpej 	pte_l2_s_proto = L2_S_PROTO_xscale;
   5797         1.88   thorpej 
   5798         1.88   thorpej 	pmap_copy_page_func = pmap_copy_page_xscale;
   5799         1.88   thorpej 	pmap_zero_page_func = pmap_zero_page_xscale;
   5800         1.96   thorpej 
   5801         1.96   thorpej 	/*
   5802         1.96   thorpej 	 * Disable ECC protection of page table access, for now.
   5803         1.96   thorpej 	 */
   5804        1.157     perry 	__asm volatile("mrc p15, 0, %0, c1, c0, 1" : "=r" (auxctl));
   5805         1.96   thorpej 	auxctl &= ~XSCALE_AUXCTL_P;
   5806        1.157     perry 	__asm volatile("mcr p15, 0, %0, c1, c0, 1" : : "r" (auxctl));
   5807         1.85   thorpej }
   5808         1.87   thorpej 
   5809         1.87   thorpej /*
   5810         1.87   thorpej  * xscale_setup_minidata:
   5811         1.87   thorpej  *
   5812         1.87   thorpej  *	Set up the mini-data cache clean area.  We require the
   5813         1.87   thorpej  *	caller to allocate the right amount of physically and
   5814         1.87   thorpej  *	virtually contiguous space.
   5815         1.87   thorpej  */
   5816         1.87   thorpej void
   5817         1.87   thorpej xscale_setup_minidata(vaddr_t l1pt, vaddr_t va, paddr_t pa)
   5818         1.87   thorpej {
   5819         1.87   thorpej 	extern vaddr_t xscale_minidata_clean_addr;
   5820         1.87   thorpej 	extern vsize_t xscale_minidata_clean_size; /* already initialized */
   5821         1.87   thorpej 	pd_entry_t *pde = (pd_entry_t *) l1pt;
   5822         1.87   thorpej 	pt_entry_t *pte;
   5823         1.87   thorpej 	vsize_t size;
   5824         1.96   thorpej 	uint32_t auxctl;
   5825         1.87   thorpej 
   5826         1.87   thorpej 	xscale_minidata_clean_addr = va;
   5827         1.87   thorpej 
   5828         1.87   thorpej 	/* Round it to page size. */
   5829         1.87   thorpej 	size = (xscale_minidata_clean_size + L2_S_OFFSET) & L2_S_FRAME;
   5830         1.87   thorpej 
   5831         1.87   thorpej 	for (; size != 0;
   5832         1.87   thorpej 	     va += L2_S_SIZE, pa += L2_S_SIZE, size -= L2_S_SIZE) {
   5833        1.134   thorpej #ifndef ARM32_NEW_VM_LAYOUT
   5834         1.87   thorpej 		pte = (pt_entry_t *)
   5835         1.87   thorpej 		    kernel_pt_lookup(pde[va >> L1_S_SHIFT] & L2_S_FRAME);
   5836        1.134   thorpej #else
   5837        1.134   thorpej 		pte = (pt_entry_t *) kernel_pt_lookup(
   5838        1.134   thorpej 		    pde[L1_IDX(va)] & L1_C_ADDR_MASK);
   5839        1.134   thorpej #endif
   5840         1.87   thorpej 		if (pte == NULL)
   5841         1.87   thorpej 			panic("xscale_setup_minidata: can't find L2 table for "
   5842         1.87   thorpej 			    "VA 0x%08lx", va);
   5843        1.134   thorpej #ifndef ARM32_NEW_VM_LAYOUT
   5844        1.134   thorpej 		pte[(va >> PGSHIFT) & 0x3ff] =
   5845        1.134   thorpej #else
   5846        1.134   thorpej 		pte[l2pte_index(va)] =
   5847        1.134   thorpej #endif
   5848        1.134   thorpej 		    L2_S_PROTO | pa | L2_S_PROT(PTE_KERNEL, VM_PROT_READ) |
   5849   1.164.12.6      matt 		    L2_C | L2_XS_T_TEX(TEX_XSCALE_X);
   5850         1.87   thorpej 	}
   5851         1.96   thorpej 
   5852         1.96   thorpej 	/*
   5853         1.96   thorpej 	 * Configure the mini-data cache for write-back with
   5854         1.96   thorpej 	 * read/write-allocate.
   5855         1.96   thorpej 	 *
   5856         1.96   thorpej 	 * NOTE: In order to reconfigure the mini-data cache, we must
   5857         1.96   thorpej 	 * make sure it contains no valid data!  In order to do that,
   5858         1.96   thorpej 	 * we must issue a global data cache invalidate command!
   5859         1.96   thorpej 	 *
   5860         1.96   thorpej 	 * WE ASSUME WE ARE RUNNING UN-CACHED WHEN THIS ROUTINE IS CALLED!
   5861         1.96   thorpej 	 * THIS IS VERY IMPORTANT!
   5862         1.96   thorpej 	 */
   5863        1.134   thorpej 
   5864         1.96   thorpej 	/* Invalidate data and mini-data. */
   5865        1.157     perry 	__asm volatile("mcr p15, 0, %0, c7, c6, 0" : : "r" (0));
   5866        1.157     perry 	__asm volatile("mrc p15, 0, %0, c1, c0, 1" : "=r" (auxctl));
   5867         1.96   thorpej 	auxctl = (auxctl & ~XSCALE_AUXCTL_MD_MASK) | XSCALE_AUXCTL_MD_WB_RWA;
   5868        1.157     perry 	__asm volatile("mcr p15, 0, %0, c1, c0, 1" : : "r" (auxctl));
   5869         1.87   thorpej }
   5870        1.141       scw 
   5871        1.141       scw /*
   5872        1.141       scw  * Change the PTEs for the specified kernel mappings such that they
   5873        1.141       scw  * will use the mini data cache instead of the main data cache.
   5874        1.141       scw  */
   5875        1.141       scw void
   5876        1.141       scw pmap_uarea(vaddr_t va)
   5877        1.141       scw {
   5878        1.141       scw 	struct l2_bucket *l2b;
   5879        1.141       scw 	pt_entry_t *ptep, *sptep, pte;
   5880        1.141       scw 	vaddr_t next_bucket, eva;
   5881        1.141       scw 
   5882        1.141       scw #if (ARM_NMMUS > 1)
   5883        1.141       scw 	if (xscale_use_minidata == 0)
   5884        1.141       scw 		return;
   5885        1.141       scw #endif
   5886        1.141       scw 
   5887        1.141       scw 	eva = va + USPACE;
   5888        1.141       scw 
   5889        1.141       scw 	while (va < eva) {
   5890        1.141       scw 		next_bucket = L2_NEXT_BUCKET(va);
   5891        1.141       scw 		if (next_bucket > eva)
   5892        1.141       scw 			next_bucket = eva;
   5893        1.141       scw 
   5894        1.141       scw 		l2b = pmap_get_l2_bucket(pmap_kernel(), va);
   5895        1.141       scw 		KDASSERT(l2b != NULL);
   5896        1.141       scw 
   5897        1.141       scw 		sptep = ptep = &l2b->l2b_kva[l2pte_index(va)];
   5898        1.141       scw 
   5899        1.141       scw 		while (va < next_bucket) {
   5900        1.141       scw 			pte = *ptep;
   5901        1.141       scw 			if (!l2pte_minidata(pte)) {
   5902        1.141       scw 				cpu_dcache_wbinv_range(va, PAGE_SIZE);
   5903        1.141       scw 				cpu_tlb_flushD_SE(va);
   5904        1.141       scw 				*ptep = pte & ~L2_B;
   5905        1.141       scw 			}
   5906        1.141       scw 			ptep++;
   5907        1.141       scw 			va += PAGE_SIZE;
   5908        1.141       scw 		}
   5909        1.141       scw 		PTE_SYNC_RANGE(sptep, (u_int)(ptep - sptep));
   5910        1.141       scw 	}
   5911        1.141       scw 	cpu_cpwait();
   5912        1.141       scw }
   5913         1.85   thorpej #endif /* ARM_MMU_XSCALE == 1 */
   5914        1.134   thorpej 
   5915   1.164.12.9      matt /*
   5916   1.164.12.9      matt  * return the PA of the current L1 table, for use when handling a crash dump
   5917   1.164.12.9      matt  */
   5918   1.164.12.9      matt uint32_t pmap_kernel_L1_addr()
   5919   1.164.12.9      matt {
   5920   1.164.12.9      matt 	return pmap_kernel()->pm_l1->l1_physaddr;
   5921   1.164.12.9      matt }
   5922   1.164.12.9      matt 
   5923        1.134   thorpej #if defined(DDB)
   5924        1.134   thorpej /*
   5925        1.134   thorpej  * A couple of ddb-callable functions for dumping pmaps
   5926        1.134   thorpej  */
   5927        1.134   thorpej void pmap_dump_all(void);
   5928        1.134   thorpej void pmap_dump(pmap_t);
   5929        1.134   thorpej 
   5930        1.134   thorpej void
   5931        1.134   thorpej pmap_dump_all(void)
   5932        1.134   thorpej {
   5933        1.134   thorpej 	pmap_t pm;
   5934        1.134   thorpej 
   5935        1.134   thorpej 	LIST_FOREACH(pm, &pmap_pmaps, pm_list) {
   5936        1.134   thorpej 		if (pm == pmap_kernel())
   5937        1.134   thorpej 			continue;
   5938        1.134   thorpej 		pmap_dump(pm);
   5939        1.134   thorpej 		printf("\n");
   5940        1.134   thorpej 	}
   5941        1.134   thorpej }
   5942        1.134   thorpej 
   5943        1.134   thorpej static pt_entry_t ncptes[64];
   5944        1.134   thorpej static void pmap_dump_ncpg(pmap_t);
   5945        1.134   thorpej 
   5946        1.134   thorpej void
   5947        1.134   thorpej pmap_dump(pmap_t pm)
   5948        1.134   thorpej {
   5949        1.134   thorpej 	struct l2_dtable *l2;
   5950        1.134   thorpej 	struct l2_bucket *l2b;
   5951        1.134   thorpej 	pt_entry_t *ptep, pte;
   5952        1.134   thorpej 	vaddr_t l2_va, l2b_va, va;
   5953        1.134   thorpej 	int i, j, k, occ, rows = 0;
   5954        1.134   thorpej 
   5955        1.134   thorpej 	if (pm == pmap_kernel())
   5956        1.134   thorpej 		printf("pmap_kernel (%p): ", pm);
   5957        1.134   thorpej 	else
   5958        1.134   thorpej 		printf("user pmap (%p): ", pm);
   5959        1.134   thorpej 
   5960        1.134   thorpej 	printf("domain %d, l1 at %p\n", pm->pm_domain, pm->pm_l1->l1_kva);
   5961        1.134   thorpej 
   5962        1.134   thorpej 	l2_va = 0;
   5963        1.134   thorpej 	for (i = 0; i < L2_SIZE; i++, l2_va += 0x01000000) {
   5964        1.134   thorpej 		l2 = pm->pm_l2[i];
   5965        1.134   thorpej 
   5966        1.134   thorpej 		if (l2 == NULL || l2->l2_occupancy == 0)
   5967        1.134   thorpej 			continue;
   5968        1.134   thorpej 
   5969        1.134   thorpej 		l2b_va = l2_va;
   5970        1.134   thorpej 		for (j = 0; j < L2_BUCKET_SIZE; j++, l2b_va += 0x00100000) {
   5971        1.134   thorpej 			l2b = &l2->l2_bucket[j];
   5972        1.134   thorpej 
   5973        1.134   thorpej 			if (l2b->l2b_occupancy == 0 || l2b->l2b_kva == NULL)
   5974        1.134   thorpej 				continue;
   5975        1.134   thorpej 
   5976        1.134   thorpej 			ptep = l2b->l2b_kva;
   5977        1.134   thorpej 
   5978        1.134   thorpej 			for (k = 0; k < 256 && ptep[k] == 0; k++)
   5979        1.134   thorpej 				;
   5980        1.134   thorpej 
   5981        1.134   thorpej 			k &= ~63;
   5982        1.134   thorpej 			occ = l2b->l2b_occupancy;
   5983        1.134   thorpej 			va = l2b_va + (k * 4096);
   5984        1.134   thorpej 			for (; k < 256; k++, va += 0x1000) {
   5985        1.142     chris 				char ch = ' ';
   5986        1.134   thorpej 				if ((k % 64) == 0) {
   5987        1.134   thorpej 					if ((rows % 8) == 0) {
   5988        1.134   thorpej 						printf(
   5989        1.134   thorpej "          |0000   |8000   |10000  |18000  |20000  |28000  |30000  |38000\n");
   5990        1.134   thorpej 					}
   5991        1.134   thorpej 					printf("%08lx: ", va);
   5992        1.134   thorpej 				}
   5993        1.134   thorpej 
   5994        1.134   thorpej 				ncptes[k & 63] = 0;
   5995        1.134   thorpej 				pte = ptep[k];
   5996        1.134   thorpej 				if (pte == 0) {
   5997        1.134   thorpej 					ch = '.';
   5998        1.134   thorpej 				} else {
   5999        1.134   thorpej 					occ--;
   6000        1.134   thorpej 					switch (pte & 0x0c) {
   6001        1.134   thorpej 					case 0x00:
   6002        1.134   thorpej 						ch = 'D'; /* No cache No buff */
   6003        1.134   thorpej 						break;
   6004        1.134   thorpej 					case 0x04:
   6005        1.134   thorpej 						ch = 'B'; /* No cache buff */
   6006        1.134   thorpej 						break;
   6007        1.134   thorpej 					case 0x08:
   6008        1.141       scw 						if (pte & 0x40)
   6009        1.141       scw 							ch = 'm';
   6010        1.141       scw 						else
   6011        1.141       scw 						   ch = 'C'; /* Cache No buff */
   6012        1.134   thorpej 						break;
   6013        1.134   thorpej 					case 0x0c:
   6014        1.134   thorpej 						ch = 'F'; /* Cache Buff */
   6015        1.134   thorpej 						break;
   6016        1.134   thorpej 					}
   6017        1.134   thorpej 
   6018        1.134   thorpej 					if ((pte & L2_S_PROT_U) == L2_S_PROT_U)
   6019        1.134   thorpej 						ch += 0x20;
   6020        1.134   thorpej 
   6021        1.134   thorpej 					if ((pte & 0xc) == 0)
   6022        1.134   thorpej 						ncptes[k & 63] = pte;
   6023        1.134   thorpej 				}
   6024        1.134   thorpej 
   6025        1.134   thorpej 				if ((k % 64) == 63) {
   6026        1.134   thorpej 					rows++;
   6027        1.134   thorpej 					printf("%c\n", ch);
   6028        1.134   thorpej 					pmap_dump_ncpg(pm);
   6029        1.134   thorpej 					if (occ == 0)
   6030        1.134   thorpej 						break;
   6031        1.134   thorpej 				} else
   6032        1.134   thorpej 					printf("%c", ch);
   6033        1.134   thorpej 			}
   6034        1.134   thorpej 		}
   6035        1.134   thorpej 	}
   6036        1.134   thorpej }
   6037        1.134   thorpej 
   6038        1.134   thorpej static void
   6039        1.134   thorpej pmap_dump_ncpg(pmap_t pm)
   6040        1.134   thorpej {
   6041        1.134   thorpej 	struct vm_page *pg;
   6042        1.134   thorpej 	struct pv_entry *pv;
   6043        1.134   thorpej 	int i;
   6044        1.134   thorpej 
   6045        1.134   thorpej 	for (i = 0; i < 63; i++) {
   6046        1.134   thorpej 		if (ncptes[i] == 0)
   6047        1.134   thorpej 			continue;
   6048        1.134   thorpej 
   6049        1.134   thorpej 		pg = PHYS_TO_VM_PAGE(l2pte_pa(ncptes[i]));
   6050        1.134   thorpej 		if (pg == NULL)
   6051        1.134   thorpej 			continue;
   6052        1.134   thorpej 
   6053        1.134   thorpej 		printf(" pa 0x%08lx: krw %d kro %d urw %d uro %d\n",
   6054        1.155      yamt 		    VM_PAGE_TO_PHYS(pg),
   6055        1.134   thorpej 		    pg->mdpage.krw_mappings, pg->mdpage.kro_mappings,
   6056        1.134   thorpej 		    pg->mdpage.urw_mappings, pg->mdpage.uro_mappings);
   6057        1.134   thorpej 
   6058        1.134   thorpej 		for (pv = pg->mdpage.pvh_list; pv; pv = pv->pv_next) {
   6059        1.134   thorpej 			printf("   %c va 0x%08lx, flags 0x%x\n",
   6060        1.134   thorpej 			    (pm == pv->pv_pmap) ? '*' : ' ',
   6061        1.134   thorpej 			    pv->pv_va, pv->pv_flags);
   6062        1.134   thorpej 		}
   6063        1.134   thorpej 	}
   6064        1.134   thorpej }
   6065        1.134   thorpej #endif
   6066   1.164.12.2      matt 
   6067   1.164.12.2      matt #ifdef PMAP_STEAL_MEMORY
   6068   1.164.12.2      matt void
   6069   1.164.12.2      matt pmap_boot_pageadd(pv_addr_t *newpv)
   6070   1.164.12.2      matt {
   6071   1.164.12.2      matt 	pv_addr_t *pv, *npv;
   6072   1.164.12.2      matt 
   6073   1.164.12.2      matt 	if ((pv = SLIST_FIRST(&pmap_boot_freeq)) != NULL) {
   6074   1.164.12.2      matt 		if (newpv->pv_pa < pv->pv_va) {
   6075   1.164.12.2      matt 			KASSERT(newpv->pv_pa + newpv->pv_size <= pv->pv_pa);
   6076   1.164.12.2      matt 			if (newpv->pv_pa + newpv->pv_size == pv->pv_pa) {
   6077   1.164.12.2      matt 				newpv->pv_size += pv->pv_size;
   6078   1.164.12.2      matt 				SLIST_REMOVE_HEAD(&pmap_boot_freeq, pv_list);
   6079   1.164.12.2      matt 			}
   6080   1.164.12.2      matt 			pv = NULL;
   6081   1.164.12.2      matt 		} else {
   6082   1.164.12.2      matt 			for (; (npv = SLIST_NEXT(pv, pv_list)) != NULL;
   6083   1.164.12.2      matt 			     pv = npv) {
   6084   1.164.12.2      matt 				KASSERT(pv->pv_pa + pv->pv_size < npv->pv_pa);
   6085   1.164.12.2      matt 				KASSERT(pv->pv_pa < newpv->pv_pa);
   6086   1.164.12.2      matt 				if (newpv->pv_pa > npv->pv_pa)
   6087   1.164.12.2      matt 					continue;
   6088   1.164.12.2      matt 				if (pv->pv_pa + pv->pv_size == newpv->pv_pa) {
   6089   1.164.12.2      matt 					pv->pv_size += newpv->pv_size;
   6090   1.164.12.2      matt 					return;
   6091   1.164.12.2      matt 				}
   6092   1.164.12.2      matt 				if (newpv->pv_pa + newpv->pv_size < npv->pv_pa)
   6093   1.164.12.2      matt 					break;
   6094   1.164.12.2      matt 				newpv->pv_size += npv->pv_size;
   6095   1.164.12.2      matt 				SLIST_INSERT_AFTER(pv, newpv, pv_list);
   6096   1.164.12.2      matt 				SLIST_REMOVE_AFTER(newpv, pv_list);
   6097   1.164.12.2      matt 				return;
   6098   1.164.12.2      matt 			}
   6099   1.164.12.2      matt 		}
   6100   1.164.12.2      matt 	}
   6101   1.164.12.2      matt 
   6102   1.164.12.2      matt 	if (pv) {
   6103   1.164.12.2      matt 		SLIST_INSERT_AFTER(pv, newpv, pv_list);
   6104   1.164.12.2      matt 	} else {
   6105   1.164.12.2      matt 		SLIST_INSERT_HEAD(&pmap_boot_freeq, newpv, pv_list);
   6106   1.164.12.2      matt 	}
   6107   1.164.12.2      matt }
   6108   1.164.12.2      matt 
   6109   1.164.12.2      matt void
   6110   1.164.12.2      matt pmap_boot_pagealloc(psize_t amount, psize_t mask, psize_t match,
   6111   1.164.12.2      matt 	pv_addr_t *rpv)
   6112   1.164.12.2      matt {
   6113   1.164.12.2      matt 	pv_addr_t *pv, **pvp;
   6114   1.164.12.2      matt 	struct vm_physseg *ps;
   6115   1.164.12.2      matt 	size_t i;
   6116   1.164.12.2      matt 
   6117   1.164.12.2      matt 	KASSERT(amount & PGOFSET);
   6118   1.164.12.2      matt 	KASSERT((mask & PGOFSET) == 0);
   6119   1.164.12.2      matt 	KASSERT((match & PGOFSET) == 0);
   6120   1.164.12.2      matt 	KASSERT(amount != 0);
   6121   1.164.12.2      matt 
   6122   1.164.12.2      matt 	for (pvp = &SLIST_FIRST(&pmap_boot_freeq);
   6123   1.164.12.2      matt 	     (pv = *pvp) != NULL;
   6124   1.164.12.2      matt 	     pvp = &SLIST_NEXT(pv, pv_list)) {
   6125   1.164.12.2      matt 		pv_addr_t *newpv;
   6126   1.164.12.2      matt 		psize_t off;
   6127   1.164.12.2      matt 		/*
   6128   1.164.12.2      matt 		 * If this entry is too small to satify the request...
   6129   1.164.12.2      matt 		 */
   6130   1.164.12.2      matt 		KASSERT(pv->pv_size > 0);
   6131   1.164.12.2      matt 		if (pv->pv_size < amount)
   6132   1.164.12.2      matt 			continue;
   6133   1.164.12.2      matt 
   6134   1.164.12.2      matt 		for (off = 0; off <= mask; off += PAGE_SIZE) {
   6135   1.164.12.2      matt 			if (((pv->pv_pa + off) & mask) == match
   6136   1.164.12.2      matt 			    && off + amount <= pv->pv_size)
   6137   1.164.12.2      matt 				break;
   6138   1.164.12.2      matt 		}
   6139   1.164.12.2      matt 		if (off > mask)
   6140   1.164.12.2      matt 			continue;
   6141   1.164.12.2      matt 
   6142   1.164.12.2      matt 		rpv->pv_va = pv->pv_va + off;
   6143   1.164.12.2      matt 		rpv->pv_pa = pv->pv_pa + off;
   6144   1.164.12.2      matt 		rpv->pv_size = amount;
   6145   1.164.12.2      matt 		pv->pv_size -= amount;
   6146   1.164.12.2      matt 		if (pv->pv_size == 0) {
   6147   1.164.12.2      matt 			KASSERT(off == 0);
   6148   1.164.12.2      matt 			KASSERT((vaddr_t) pv == rpv->pv_va);
   6149   1.164.12.2      matt 			*pvp = SLIST_NEXT(pv, pv_list);
   6150   1.164.12.2      matt 		} else if (off == 0) {
   6151   1.164.12.2      matt 			KASSERT((vaddr_t) pv == rpv->pv_va);
   6152   1.164.12.2      matt 			newpv = (pv_addr_t *) (rpv->pv_va + amount);
   6153   1.164.12.2      matt 			*newpv = *pv;
   6154   1.164.12.2      matt 			newpv->pv_pa += amount;
   6155   1.164.12.2      matt 			newpv->pv_va += amount;
   6156   1.164.12.2      matt 			*pvp = newpv;
   6157   1.164.12.2      matt 		} else if (off < pv->pv_size) {
   6158   1.164.12.2      matt 			newpv = (pv_addr_t *) (rpv->pv_va + amount);
   6159   1.164.12.2      matt 			*newpv = *pv;
   6160   1.164.12.2      matt 			newpv->pv_size -= off;
   6161   1.164.12.2      matt 			newpv->pv_pa += off + amount;
   6162   1.164.12.2      matt 			newpv->pv_va += off + amount;
   6163   1.164.12.2      matt 
   6164   1.164.12.2      matt 			SLIST_NEXT(pv, pv_list) = newpv;
   6165   1.164.12.2      matt 			pv->pv_size = off;
   6166   1.164.12.2      matt 		} else {
   6167   1.164.12.2      matt 			KASSERT((vaddr_t) pv != rpv->pv_va);
   6168   1.164.12.2      matt 		}
   6169   1.164.12.2      matt 		memset((void *)rpv->pv_va, 0, amount);
   6170   1.164.12.2      matt 		return;
   6171   1.164.12.2      matt 	}
   6172   1.164.12.2      matt 
   6173   1.164.12.2      matt 	if (vm_nphysseg == 0)
   6174   1.164.12.2      matt 		panic("pmap_boot_pagealloc: couldn't allocate memory");
   6175   1.164.12.2      matt 
   6176   1.164.12.2      matt 	for (pvp = &SLIST_FIRST(&pmap_boot_freeq);
   6177   1.164.12.2      matt 	     (pv = *pvp) != NULL;
   6178   1.164.12.2      matt 	     pvp = &SLIST_NEXT(pv, pv_list)) {
   6179   1.164.12.2      matt 		if (SLIST_NEXT(pv, pv_list) == NULL)
   6180   1.164.12.2      matt 			break;
   6181   1.164.12.2      matt 	}
   6182   1.164.12.2      matt 	KASSERT(mask == 0);
   6183   1.164.12.2      matt 	for (ps = vm_physmem, i = 0; i < vm_nphysseg; ps++, i++) {
   6184   1.164.12.2      matt 		if (ps->avail_start == atop(pv->pv_pa + pv->pv_size)
   6185   1.164.12.2      matt 		    && pv->pv_va + pv->pv_size <= ptoa(ps->avail_end)) {
   6186   1.164.12.2      matt 			rpv->pv_va = pv->pv_va;
   6187   1.164.12.2      matt 			rpv->pv_pa = pv->pv_pa;
   6188   1.164.12.2      matt 			rpv->pv_size = amount;
   6189   1.164.12.2      matt 			*pvp = NULL;
   6190   1.164.12.2      matt 			pmap_map_chunk(kernel_l1pt.pv_va,
   6191   1.164.12.2      matt 			     ptoa(ps->avail_start) + (pv->pv_va - pv->pv_pa),
   6192   1.164.12.2      matt 			     ptoa(ps->avail_start),
   6193   1.164.12.2      matt 			     amount - pv->pv_size,
   6194   1.164.12.2      matt 			     VM_PROT_READ|VM_PROT_WRITE,
   6195   1.164.12.2      matt 			     PTE_CACHE);
   6196   1.164.12.2      matt 			ps->avail_start += atop(amount - pv->pv_size);
   6197   1.164.12.2      matt 			/*
   6198   1.164.12.2      matt 			 * If we consumed the entire physseg, remove it.
   6199   1.164.12.2      matt 			 */
   6200   1.164.12.2      matt 			if (ps->avail_start == ps->avail_end) {
   6201   1.164.12.2      matt 				for (--vm_nphysseg; i < vm_nphysseg; i++, ps++)
   6202   1.164.12.2      matt 					ps[0] = ps[1];
   6203   1.164.12.2      matt 			}
   6204   1.164.12.2      matt 			memset((void *)rpv->pv_va, 0, rpv->pv_size);
   6205   1.164.12.2      matt 			return;
   6206   1.164.12.2      matt 		}
   6207   1.164.12.2      matt 	}
   6208   1.164.12.2      matt 
   6209   1.164.12.2      matt 	panic("pmap_boot_pagealloc: couldn't allocate memory");
   6210   1.164.12.2      matt }
   6211   1.164.12.2      matt 
   6212   1.164.12.2      matt vaddr_t
   6213   1.164.12.2      matt pmap_steal_memory(vsize_t size, vaddr_t *vstartp, vaddr_t *vendp)
   6214   1.164.12.2      matt {
   6215   1.164.12.2      matt 	pv_addr_t pv;
   6216   1.164.12.2      matt 
   6217   1.164.12.2      matt 	pmap_boot_pagealloc(size, 0, 0, &pv);
   6218   1.164.12.2      matt 
   6219   1.164.12.2      matt 	return pv.pv_va;
   6220   1.164.12.2      matt }
   6221   1.164.12.2      matt #endif /* PMAP_STEAL_MEMORY */
   6222