160727d8bSWarner Losh /*- 25244eac9SBenno Rice * Copyright (c) 2001 The NetBSD Foundation, Inc. 35244eac9SBenno Rice * All rights reserved. 45244eac9SBenno Rice * 55244eac9SBenno Rice * This code is derived from software contributed to The NetBSD Foundation 65244eac9SBenno Rice * by Matt Thomas <matt@3am-software.com> of Allegro Networks, Inc. 75244eac9SBenno Rice * 85244eac9SBenno Rice * Redistribution and use in source and binary forms, with or without 95244eac9SBenno Rice * modification, are permitted provided that the following conditions 105244eac9SBenno Rice * are met: 115244eac9SBenno Rice * 1. Redistributions of source code must retain the above copyright 125244eac9SBenno Rice * notice, this list of conditions and the following disclaimer. 135244eac9SBenno Rice * 2. Redistributions in binary form must reproduce the above copyright 145244eac9SBenno Rice * notice, this list of conditions and the following disclaimer in the 155244eac9SBenno Rice * documentation and/or other materials provided with the distribution. 165244eac9SBenno Rice * 3. All advertising materials mentioning features or use of this software 175244eac9SBenno Rice * must display the following acknowledgement: 185244eac9SBenno Rice * This product includes software developed by the NetBSD 195244eac9SBenno Rice * Foundation, Inc. and its contributors. 205244eac9SBenno Rice * 4. Neither the name of The NetBSD Foundation nor the names of its 215244eac9SBenno Rice * contributors may be used to endorse or promote products derived 225244eac9SBenno Rice * from this software without specific prior written permission. 235244eac9SBenno Rice * 245244eac9SBenno Rice * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 255244eac9SBenno Rice * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 265244eac9SBenno Rice * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 275244eac9SBenno Rice * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 285244eac9SBenno Rice * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 295244eac9SBenno Rice * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 305244eac9SBenno Rice * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 315244eac9SBenno Rice * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 325244eac9SBenno Rice * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 335244eac9SBenno Rice * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 345244eac9SBenno Rice * POSSIBILITY OF SUCH DAMAGE. 355244eac9SBenno Rice */ 3660727d8bSWarner Losh /*- 37f9bac91bSBenno Rice * Copyright (C) 1995, 1996 Wolfgang Solfrank. 38f9bac91bSBenno Rice * Copyright (C) 1995, 1996 TooLs GmbH. 39f9bac91bSBenno Rice * All rights reserved. 40f9bac91bSBenno Rice * 41f9bac91bSBenno Rice * Redistribution and use in source and binary forms, with or without 42f9bac91bSBenno Rice * modification, are permitted provided that the following conditions 43f9bac91bSBenno Rice * are met: 44f9bac91bSBenno Rice * 1. Redistributions of source code must retain the above copyright 45f9bac91bSBenno Rice * notice, this list of conditions and the following disclaimer. 46f9bac91bSBenno Rice * 2. Redistributions in binary form must reproduce the above copyright 47f9bac91bSBenno Rice * notice, this list of conditions and the following disclaimer in the 48f9bac91bSBenno Rice * documentation and/or other materials provided with the distribution. 49f9bac91bSBenno Rice * 3. All advertising materials mentioning features or use of this software 50f9bac91bSBenno Rice * must display the following acknowledgement: 51f9bac91bSBenno Rice * This product includes software developed by TooLs GmbH. 52f9bac91bSBenno Rice * 4. The name of TooLs GmbH may not be used to endorse or promote products 53f9bac91bSBenno Rice * derived from this software without specific prior written permission. 54f9bac91bSBenno Rice * 55f9bac91bSBenno Rice * THIS SOFTWARE IS PROVIDED BY TOOLS GMBH ``AS IS'' AND ANY EXPRESS OR 56f9bac91bSBenno Rice * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 57f9bac91bSBenno Rice * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 58f9bac91bSBenno Rice * IN NO EVENT SHALL TOOLS GMBH BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, 59f9bac91bSBenno Rice * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, 60f9bac91bSBenno Rice * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; 61f9bac91bSBenno Rice * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, 62f9bac91bSBenno Rice * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR 63f9bac91bSBenno Rice * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF 64f9bac91bSBenno Rice * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 65f9bac91bSBenno Rice * 66111c77dcSBenno Rice * $NetBSD: pmap.c,v 1.28 2000/03/26 20:42:36 kleink Exp $ 67f9bac91bSBenno Rice */ 6860727d8bSWarner Losh /*- 69f9bac91bSBenno Rice * Copyright (C) 2001 Benno Rice. 70f9bac91bSBenno Rice * All rights reserved. 71f9bac91bSBenno Rice * 72f9bac91bSBenno Rice * Redistribution and use in source and binary forms, with or without 73f9bac91bSBenno Rice * modification, are permitted provided that the following conditions 74f9bac91bSBenno Rice * are met: 75f9bac91bSBenno Rice * 1. Redistributions of source code must retain the above copyright 76f9bac91bSBenno Rice * notice, this list of conditions and the following disclaimer. 77f9bac91bSBenno Rice * 2. Redistributions in binary form must reproduce the above copyright 78f9bac91bSBenno Rice * notice, this list of conditions and the following disclaimer in the 79f9bac91bSBenno Rice * documentation and/or other materials provided with the distribution. 80f9bac91bSBenno Rice * 81f9bac91bSBenno Rice * THIS SOFTWARE IS PROVIDED BY Benno Rice ``AS IS'' AND ANY EXPRESS OR 82f9bac91bSBenno Rice * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 83f9bac91bSBenno Rice * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 84f9bac91bSBenno Rice * IN NO EVENT SHALL TOOLS GMBH BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, 85f9bac91bSBenno Rice * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, 86f9bac91bSBenno Rice * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; 87f9bac91bSBenno Rice * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, 88f9bac91bSBenno Rice * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR 89f9bac91bSBenno Rice * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF 90f9bac91bSBenno Rice * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 91f9bac91bSBenno Rice */ 92f9bac91bSBenno Rice 938368cf8fSDavid E. O'Brien #include <sys/cdefs.h> 948368cf8fSDavid E. O'Brien __FBSDID("$FreeBSD$"); 95f9bac91bSBenno Rice 965244eac9SBenno Rice /* 975244eac9SBenno Rice * Manages physical address maps. 985244eac9SBenno Rice * 995244eac9SBenno Rice * In addition to hardware address maps, this module is called upon to 1005244eac9SBenno Rice * provide software-use-only maps which may or may not be stored in the 1015244eac9SBenno Rice * same form as hardware maps. These pseudo-maps are used to store 1025244eac9SBenno Rice * intermediate results from copy operations to and from address spaces. 1035244eac9SBenno Rice * 1045244eac9SBenno Rice * Since the information managed by this module is also stored by the 1055244eac9SBenno Rice * logical address mapping module, this module may throw away valid virtual 1065244eac9SBenno Rice * to physical mappings at almost any time. However, invalidations of 1075244eac9SBenno Rice * mappings must be done as requested. 1085244eac9SBenno Rice * 1095244eac9SBenno Rice * In order to cope with hardware architectures which make virtual to 1105244eac9SBenno Rice * physical map invalidates expensive, this module may delay invalidate 1115244eac9SBenno Rice * reduced protection operations until such time as they are actually 1125244eac9SBenno Rice * necessary. This module is given full information as to which processors 1135244eac9SBenno Rice * are currently using which maps, and to when physical maps must be made 1145244eac9SBenno Rice * correct. 1155244eac9SBenno Rice */ 1165244eac9SBenno Rice 117ad7a226fSPeter Wemm #include "opt_kstack_pages.h" 118ad7a226fSPeter Wemm 119f9bac91bSBenno Rice #include <sys/param.h> 1200b27d710SPeter Wemm #include <sys/kernel.h> 1215244eac9SBenno Rice #include <sys/ktr.h> 12294e0b85eSMark Peek #include <sys/lock.h> 1235244eac9SBenno Rice #include <sys/msgbuf.h> 124f9bac91bSBenno Rice #include <sys/mutex.h> 1255244eac9SBenno Rice #include <sys/proc.h> 1265244eac9SBenno Rice #include <sys/sysctl.h> 1275244eac9SBenno Rice #include <sys/systm.h> 1285244eac9SBenno Rice #include <sys/vmmeter.h> 1295244eac9SBenno Rice 1305244eac9SBenno Rice #include <dev/ofw/openfirm.h> 131f9bac91bSBenno Rice 132f9bac91bSBenno Rice #include <vm/vm.h> 133f9bac91bSBenno Rice #include <vm/vm_param.h> 134f9bac91bSBenno Rice #include <vm/vm_kern.h> 135f9bac91bSBenno Rice #include <vm/vm_page.h> 136f9bac91bSBenno Rice #include <vm/vm_map.h> 137f9bac91bSBenno Rice #include <vm/vm_object.h> 138f9bac91bSBenno Rice #include <vm/vm_extern.h> 139f9bac91bSBenno Rice #include <vm/vm_pageout.h> 140f9bac91bSBenno Rice #include <vm/vm_pager.h> 141378862a7SJeff Roberson #include <vm/uma.h> 142f9bac91bSBenno Rice 1437c277971SPeter Grehan #include <machine/cpu.h> 14431c82d03SBenno Rice #include <machine/powerpc.h> 145d699b539SMark Peek #include <machine/bat.h> 1465244eac9SBenno Rice #include <machine/frame.h> 1475244eac9SBenno Rice #include <machine/md_var.h> 1485244eac9SBenno Rice #include <machine/psl.h> 149f9bac91bSBenno Rice #include <machine/pte.h> 1505244eac9SBenno Rice #include <machine/sr.h> 15159276937SPeter Grehan #include <machine/mmuvar.h> 152f9bac91bSBenno Rice 15359276937SPeter Grehan #include "mmu_if.h" 15459276937SPeter Grehan 15559276937SPeter Grehan #define MOEA_DEBUG 156f9bac91bSBenno Rice 1575244eac9SBenno Rice #define TODO panic("%s: not implemented", __func__); 158f9bac91bSBenno Rice 1595244eac9SBenno Rice #define TLBIE(va) __asm __volatile("tlbie %0" :: "r"(va)) 1605244eac9SBenno Rice #define TLBSYNC() __asm __volatile("tlbsync"); 1615244eac9SBenno Rice #define SYNC() __asm __volatile("sync"); 1625244eac9SBenno Rice #define EIEIO() __asm __volatile("eieio"); 1635244eac9SBenno Rice 1645244eac9SBenno Rice #define VSID_MAKE(sr, hash) ((sr) | (((hash) & 0xfffff) << 4)) 1655244eac9SBenno Rice #define VSID_TO_SR(vsid) ((vsid) & 0xf) 1665244eac9SBenno Rice #define VSID_TO_HASH(vsid) (((vsid) >> 4) & 0xfffff) 1675244eac9SBenno Rice 1684dba5df1SPeter Grehan #define PVO_PTEGIDX_MASK 0x007 /* which PTEG slot */ 1694dba5df1SPeter Grehan #define PVO_PTEGIDX_VALID 0x008 /* slot is valid */ 1704dba5df1SPeter Grehan #define PVO_WIRED 0x010 /* PVO entry is wired */ 1714dba5df1SPeter Grehan #define PVO_MANAGED 0x020 /* PVO entry is managed */ 1724dba5df1SPeter Grehan #define PVO_EXECUTABLE 0x040 /* PVO entry is executable */ 1734dba5df1SPeter Grehan #define PVO_BOOTSTRAP 0x080 /* PVO entry allocated during 17449f8f727SBenno Rice bootstrap */ 1754dba5df1SPeter Grehan #define PVO_FAKE 0x100 /* fictitious phys page */ 1765244eac9SBenno Rice #define PVO_VADDR(pvo) ((pvo)->pvo_vaddr & ~ADDR_POFF) 1775244eac9SBenno Rice #define PVO_ISEXECUTABLE(pvo) ((pvo)->pvo_vaddr & PVO_EXECUTABLE) 1784dba5df1SPeter Grehan #define PVO_ISFAKE(pvo) ((pvo)->pvo_vaddr & PVO_FAKE) 1795244eac9SBenno Rice #define PVO_PTEGIDX_GET(pvo) ((pvo)->pvo_vaddr & PVO_PTEGIDX_MASK) 1805244eac9SBenno Rice #define PVO_PTEGIDX_ISSET(pvo) ((pvo)->pvo_vaddr & PVO_PTEGIDX_VALID) 1815244eac9SBenno Rice #define PVO_PTEGIDX_CLR(pvo) \ 1825244eac9SBenno Rice ((void)((pvo)->pvo_vaddr &= ~(PVO_PTEGIDX_VALID|PVO_PTEGIDX_MASK))) 1835244eac9SBenno Rice #define PVO_PTEGIDX_SET(pvo, i) \ 1845244eac9SBenno Rice ((void)((pvo)->pvo_vaddr |= (i)|PVO_PTEGIDX_VALID)) 1855244eac9SBenno Rice 18659276937SPeter Grehan #define MOEA_PVO_CHECK(pvo) 1875244eac9SBenno Rice 1885244eac9SBenno Rice struct ofw_map { 1895244eac9SBenno Rice vm_offset_t om_va; 1905244eac9SBenno Rice vm_size_t om_len; 1915244eac9SBenno Rice vm_offset_t om_pa; 1925244eac9SBenno Rice u_int om_mode; 1935244eac9SBenno Rice }; 194f9bac91bSBenno Rice 1955244eac9SBenno Rice /* 1965244eac9SBenno Rice * Map of physical memory regions. 1975244eac9SBenno Rice */ 19831c82d03SBenno Rice static struct mem_region *regions; 19931c82d03SBenno Rice static struct mem_region *pregions; 20059276937SPeter Grehan u_int phys_avail_count; 20131c82d03SBenno Rice int regions_sz, pregions_sz; 202aa39961eSBenno Rice static struct ofw_map *translations; 2035244eac9SBenno Rice 2045244eac9SBenno Rice extern struct pmap ofw_pmap; 205f9bac91bSBenno Rice 20659276937SPeter Grehan 20759276937SPeter Grehan 208f9bac91bSBenno Rice /* 209f489bf21SAlan Cox * Lock for the pteg and pvo tables. 210f489bf21SAlan Cox */ 21159276937SPeter Grehan struct mtx moea_table_mutex; 212f489bf21SAlan Cox 213f489bf21SAlan Cox /* 2145244eac9SBenno Rice * PTEG data. 215f9bac91bSBenno Rice */ 21659276937SPeter Grehan static struct pteg *moea_pteg_table; 21759276937SPeter Grehan u_int moea_pteg_count; 21859276937SPeter Grehan u_int moea_pteg_mask; 2195244eac9SBenno Rice 2205244eac9SBenno Rice /* 2215244eac9SBenno Rice * PVO data. 2225244eac9SBenno Rice */ 22359276937SPeter Grehan struct pvo_head *moea_pvo_table; /* pvo entries by pteg index */ 22459276937SPeter Grehan struct pvo_head moea_pvo_kunmanaged = 22559276937SPeter Grehan LIST_HEAD_INITIALIZER(moea_pvo_kunmanaged); /* list of unmanaged pages */ 22659276937SPeter Grehan struct pvo_head moea_pvo_unmanaged = 22759276937SPeter Grehan LIST_HEAD_INITIALIZER(moea_pvo_unmanaged); /* list of unmanaged pages */ 2285244eac9SBenno Rice 22959276937SPeter Grehan uma_zone_t moea_upvo_zone; /* zone for pvo entries for unmanaged pages */ 23059276937SPeter Grehan uma_zone_t moea_mpvo_zone; /* zone for pvo entries for managed pages */ 2315244eac9SBenno Rice 2320d290675SBenno Rice #define BPVO_POOL_SIZE 32768 23359276937SPeter Grehan static struct pvo_entry *moea_bpvo_pool; 23459276937SPeter Grehan static int moea_bpvo_pool_index = 0; 2355244eac9SBenno Rice 2365244eac9SBenno Rice #define VSID_NBPW (sizeof(u_int32_t) * 8) 23759276937SPeter Grehan static u_int moea_vsid_bitmap[NPMAPS / VSID_NBPW]; 2385244eac9SBenno Rice 23959276937SPeter Grehan static boolean_t moea_initialized = FALSE; 2405244eac9SBenno Rice 2415244eac9SBenno Rice /* 2425244eac9SBenno Rice * Statistics. 2435244eac9SBenno Rice */ 24459276937SPeter Grehan u_int moea_pte_valid = 0; 24559276937SPeter Grehan u_int moea_pte_overflow = 0; 24659276937SPeter Grehan u_int moea_pte_replacements = 0; 24759276937SPeter Grehan u_int moea_pvo_entries = 0; 24859276937SPeter Grehan u_int moea_pvo_enter_calls = 0; 24959276937SPeter Grehan u_int moea_pvo_remove_calls = 0; 25059276937SPeter Grehan u_int moea_pte_spills = 0; 25159276937SPeter Grehan SYSCTL_INT(_machdep, OID_AUTO, moea_pte_valid, CTLFLAG_RD, &moea_pte_valid, 2525244eac9SBenno Rice 0, ""); 25359276937SPeter Grehan SYSCTL_INT(_machdep, OID_AUTO, moea_pte_overflow, CTLFLAG_RD, 25459276937SPeter Grehan &moea_pte_overflow, 0, ""); 25559276937SPeter Grehan SYSCTL_INT(_machdep, OID_AUTO, moea_pte_replacements, CTLFLAG_RD, 25659276937SPeter Grehan &moea_pte_replacements, 0, ""); 25759276937SPeter Grehan SYSCTL_INT(_machdep, OID_AUTO, moea_pvo_entries, CTLFLAG_RD, &moea_pvo_entries, 2585244eac9SBenno Rice 0, ""); 25959276937SPeter Grehan SYSCTL_INT(_machdep, OID_AUTO, moea_pvo_enter_calls, CTLFLAG_RD, 26059276937SPeter Grehan &moea_pvo_enter_calls, 0, ""); 26159276937SPeter Grehan SYSCTL_INT(_machdep, OID_AUTO, moea_pvo_remove_calls, CTLFLAG_RD, 26259276937SPeter Grehan &moea_pvo_remove_calls, 0, ""); 26359276937SPeter Grehan SYSCTL_INT(_machdep, OID_AUTO, moea_pte_spills, CTLFLAG_RD, 26459276937SPeter Grehan &moea_pte_spills, 0, ""); 2655244eac9SBenno Rice 26659276937SPeter Grehan struct pvo_entry *moea_pvo_zeropage; 2672d96c2b1SAlan Cox struct mtx moea_pvo_zeropage_mtx; 2685244eac9SBenno Rice 26959276937SPeter Grehan vm_offset_t moea_rkva_start = VM_MIN_KERNEL_ADDRESS; 27059276937SPeter Grehan u_int moea_rkva_count = 4; 2715244eac9SBenno Rice 2725244eac9SBenno Rice /* 27359276937SPeter Grehan * Allocate physical memory for use in moea_bootstrap. 2745244eac9SBenno Rice */ 27559276937SPeter Grehan static vm_offset_t moea_bootstrap_alloc(vm_size_t, u_int); 2765244eac9SBenno Rice 2775244eac9SBenno Rice /* 2785244eac9SBenno Rice * PTE calls. 2795244eac9SBenno Rice */ 28059276937SPeter Grehan static int moea_pte_insert(u_int, struct pte *); 2815244eac9SBenno Rice 2825244eac9SBenno Rice /* 2835244eac9SBenno Rice * PVO calls. 2845244eac9SBenno Rice */ 28559276937SPeter Grehan static int moea_pvo_enter(pmap_t, uma_zone_t, struct pvo_head *, 2865244eac9SBenno Rice vm_offset_t, vm_offset_t, u_int, int); 28759276937SPeter Grehan static void moea_pvo_remove(struct pvo_entry *, int); 28859276937SPeter Grehan static struct pvo_entry *moea_pvo_find_va(pmap_t, vm_offset_t, int *); 28959276937SPeter Grehan static struct pte *moea_pvo_to_pte(const struct pvo_entry *, int); 2905244eac9SBenno Rice 2915244eac9SBenno Rice /* 2925244eac9SBenno Rice * Utility routines. 2935244eac9SBenno Rice */ 294ce142d9eSAlan Cox static void moea_enter_locked(pmap_t, vm_offset_t, vm_page_t, 295ce142d9eSAlan Cox vm_prot_t, boolean_t); 29659276937SPeter Grehan static struct pvo_entry *moea_rkva_alloc(mmu_t); 29759276937SPeter Grehan static void moea_pa_map(struct pvo_entry *, vm_offset_t, 2985244eac9SBenno Rice struct pte *, int *); 29959276937SPeter Grehan static void moea_pa_unmap(struct pvo_entry *, struct pte *, int *); 30059276937SPeter Grehan static void moea_syncicache(vm_offset_t, vm_size_t); 30159276937SPeter Grehan static boolean_t moea_query_bit(vm_page_t, int); 30259276937SPeter Grehan static u_int moea_clear_bit(vm_page_t, int, int *); 30359276937SPeter Grehan static void moea_kremove(mmu_t, vm_offset_t); 3045244eac9SBenno Rice static void tlbia(void); 30559276937SPeter Grehan int moea_pte_spill(vm_offset_t); 30659276937SPeter Grehan 30759276937SPeter Grehan /* 30859276937SPeter Grehan * Kernel MMU interface 30959276937SPeter Grehan */ 31059276937SPeter Grehan void moea_change_wiring(mmu_t, pmap_t, vm_offset_t, boolean_t); 31159276937SPeter Grehan void moea_clear_modify(mmu_t, vm_page_t); 31259276937SPeter Grehan void moea_clear_reference(mmu_t, vm_page_t); 31359276937SPeter Grehan void moea_copy_page(mmu_t, vm_page_t, vm_page_t); 31459276937SPeter Grehan void moea_enter(mmu_t, pmap_t, vm_offset_t, vm_page_t, vm_prot_t, boolean_t); 315ce142d9eSAlan Cox void moea_enter_object(mmu_t, pmap_t, vm_offset_t, vm_offset_t, vm_page_t, 316ce142d9eSAlan Cox vm_prot_t); 3172053c127SStephan Uphoff void moea_enter_quick(mmu_t, pmap_t, vm_offset_t, vm_page_t, vm_prot_t); 31859276937SPeter Grehan vm_paddr_t moea_extract(mmu_t, pmap_t, vm_offset_t); 31959276937SPeter Grehan vm_page_t moea_extract_and_hold(mmu_t, pmap_t, vm_offset_t, vm_prot_t); 32059276937SPeter Grehan void moea_init(mmu_t); 32159276937SPeter Grehan boolean_t moea_is_modified(mmu_t, vm_page_t); 32259276937SPeter Grehan boolean_t moea_ts_referenced(mmu_t, vm_page_t); 32359276937SPeter Grehan vm_offset_t moea_map(mmu_t, vm_offset_t *, vm_offset_t, vm_offset_t, int); 32459276937SPeter Grehan boolean_t moea_page_exists_quick(mmu_t, pmap_t, vm_page_t); 32559276937SPeter Grehan void moea_pinit(mmu_t, pmap_t); 32659276937SPeter Grehan void moea_pinit0(mmu_t, pmap_t); 32759276937SPeter Grehan void moea_protect(mmu_t, pmap_t, vm_offset_t, vm_offset_t, vm_prot_t); 32859276937SPeter Grehan void moea_qenter(mmu_t, vm_offset_t, vm_page_t *, int); 32959276937SPeter Grehan void moea_qremove(mmu_t, vm_offset_t, int); 33059276937SPeter Grehan void moea_release(mmu_t, pmap_t); 33159276937SPeter Grehan void moea_remove(mmu_t, pmap_t, vm_offset_t, vm_offset_t); 33259276937SPeter Grehan void moea_remove_all(mmu_t, vm_page_t); 33378985e42SAlan Cox void moea_remove_write(mmu_t, vm_page_t); 33459276937SPeter Grehan void moea_zero_page(mmu_t, vm_page_t); 33559276937SPeter Grehan void moea_zero_page_area(mmu_t, vm_page_t, int, int); 33659276937SPeter Grehan void moea_zero_page_idle(mmu_t, vm_page_t); 33759276937SPeter Grehan void moea_activate(mmu_t, struct thread *); 33859276937SPeter Grehan void moea_deactivate(mmu_t, struct thread *); 33959276937SPeter Grehan void moea_bootstrap(mmu_t, vm_offset_t, vm_offset_t); 34059276937SPeter Grehan void *moea_mapdev(mmu_t, vm_offset_t, vm_size_t); 34159276937SPeter Grehan void moea_unmapdev(mmu_t, vm_offset_t, vm_size_t); 34259276937SPeter Grehan vm_offset_t moea_kextract(mmu_t, vm_offset_t); 34359276937SPeter Grehan void moea_kenter(mmu_t, vm_offset_t, vm_offset_t); 34459276937SPeter Grehan boolean_t moea_dev_direct_mapped(mmu_t, vm_offset_t, vm_size_t); 34559276937SPeter Grehan 34659276937SPeter Grehan static mmu_method_t moea_methods[] = { 34759276937SPeter Grehan MMUMETHOD(mmu_change_wiring, moea_change_wiring), 34859276937SPeter Grehan MMUMETHOD(mmu_clear_modify, moea_clear_modify), 34959276937SPeter Grehan MMUMETHOD(mmu_clear_reference, moea_clear_reference), 35059276937SPeter Grehan MMUMETHOD(mmu_copy_page, moea_copy_page), 35159276937SPeter Grehan MMUMETHOD(mmu_enter, moea_enter), 352ce142d9eSAlan Cox MMUMETHOD(mmu_enter_object, moea_enter_object), 35359276937SPeter Grehan MMUMETHOD(mmu_enter_quick, moea_enter_quick), 35459276937SPeter Grehan MMUMETHOD(mmu_extract, moea_extract), 35559276937SPeter Grehan MMUMETHOD(mmu_extract_and_hold, moea_extract_and_hold), 35659276937SPeter Grehan MMUMETHOD(mmu_init, moea_init), 35759276937SPeter Grehan MMUMETHOD(mmu_is_modified, moea_is_modified), 35859276937SPeter Grehan MMUMETHOD(mmu_ts_referenced, moea_ts_referenced), 35959276937SPeter Grehan MMUMETHOD(mmu_map, moea_map), 36059276937SPeter Grehan MMUMETHOD(mmu_page_exists_quick,moea_page_exists_quick), 36159276937SPeter Grehan MMUMETHOD(mmu_pinit, moea_pinit), 36259276937SPeter Grehan MMUMETHOD(mmu_pinit0, moea_pinit0), 36359276937SPeter Grehan MMUMETHOD(mmu_protect, moea_protect), 36459276937SPeter Grehan MMUMETHOD(mmu_qenter, moea_qenter), 36559276937SPeter Grehan MMUMETHOD(mmu_qremove, moea_qremove), 36659276937SPeter Grehan MMUMETHOD(mmu_release, moea_release), 36759276937SPeter Grehan MMUMETHOD(mmu_remove, moea_remove), 36859276937SPeter Grehan MMUMETHOD(mmu_remove_all, moea_remove_all), 36978985e42SAlan Cox MMUMETHOD(mmu_remove_write, moea_remove_write), 37059276937SPeter Grehan MMUMETHOD(mmu_zero_page, moea_zero_page), 37159276937SPeter Grehan MMUMETHOD(mmu_zero_page_area, moea_zero_page_area), 37259276937SPeter Grehan MMUMETHOD(mmu_zero_page_idle, moea_zero_page_idle), 37359276937SPeter Grehan MMUMETHOD(mmu_activate, moea_activate), 37459276937SPeter Grehan MMUMETHOD(mmu_deactivate, moea_deactivate), 37559276937SPeter Grehan 37659276937SPeter Grehan /* Internal interfaces */ 37759276937SPeter Grehan MMUMETHOD(mmu_bootstrap, moea_bootstrap), 37859276937SPeter Grehan MMUMETHOD(mmu_mapdev, moea_mapdev), 37959276937SPeter Grehan MMUMETHOD(mmu_unmapdev, moea_unmapdev), 38059276937SPeter Grehan MMUMETHOD(mmu_kextract, moea_kextract), 38159276937SPeter Grehan MMUMETHOD(mmu_kenter, moea_kenter), 38259276937SPeter Grehan MMUMETHOD(mmu_dev_direct_mapped,moea_dev_direct_mapped), 38359276937SPeter Grehan 38459276937SPeter Grehan { 0, 0 } 38559276937SPeter Grehan }; 38659276937SPeter Grehan 38759276937SPeter Grehan static mmu_def_t oea_mmu = { 38859276937SPeter Grehan MMU_TYPE_OEA, 38959276937SPeter Grehan moea_methods, 39059276937SPeter Grehan 0 39159276937SPeter Grehan }; 39259276937SPeter Grehan MMU_DEF(oea_mmu); 39359276937SPeter Grehan 3945244eac9SBenno Rice 3955244eac9SBenno Rice static __inline int 3965244eac9SBenno Rice va_to_sr(u_int *sr, vm_offset_t va) 3975244eac9SBenno Rice { 3985244eac9SBenno Rice return (sr[(uintptr_t)va >> ADDR_SR_SHFT]); 3995244eac9SBenno Rice } 4005244eac9SBenno Rice 4015244eac9SBenno Rice static __inline u_int 4025244eac9SBenno Rice va_to_pteg(u_int sr, vm_offset_t addr) 4035244eac9SBenno Rice { 4045244eac9SBenno Rice u_int hash; 4055244eac9SBenno Rice 4065244eac9SBenno Rice hash = (sr & SR_VSID_MASK) ^ (((u_int)addr & ADDR_PIDX) >> 4075244eac9SBenno Rice ADDR_PIDX_SHFT); 40859276937SPeter Grehan return (hash & moea_pteg_mask); 4095244eac9SBenno Rice } 4105244eac9SBenno Rice 4115244eac9SBenno Rice static __inline struct pvo_head * 4128207b362SBenno Rice pa_to_pvoh(vm_offset_t pa, vm_page_t *pg_p) 4135244eac9SBenno Rice { 4145244eac9SBenno Rice struct vm_page *pg; 4155244eac9SBenno Rice 4165244eac9SBenno Rice pg = PHYS_TO_VM_PAGE(pa); 4175244eac9SBenno Rice 4188207b362SBenno Rice if (pg_p != NULL) 4198207b362SBenno Rice *pg_p = pg; 4208207b362SBenno Rice 4215244eac9SBenno Rice if (pg == NULL) 42259276937SPeter Grehan return (&moea_pvo_unmanaged); 4235244eac9SBenno Rice 4245244eac9SBenno Rice return (&pg->md.mdpg_pvoh); 4255244eac9SBenno Rice } 4265244eac9SBenno Rice 4275244eac9SBenno Rice static __inline struct pvo_head * 4285244eac9SBenno Rice vm_page_to_pvoh(vm_page_t m) 429f9bac91bSBenno Rice { 430f9bac91bSBenno Rice 4315244eac9SBenno Rice return (&m->md.mdpg_pvoh); 432f9bac91bSBenno Rice } 433f9bac91bSBenno Rice 434f9bac91bSBenno Rice static __inline void 43559276937SPeter Grehan moea_attr_clear(vm_page_t m, int ptebit) 436f9bac91bSBenno Rice { 437f9bac91bSBenno Rice 438d644a0b7SAlan Cox mtx_assert(&vm_page_queue_mtx, MA_OWNED); 4395244eac9SBenno Rice m->md.mdpg_attrs &= ~ptebit; 4405244eac9SBenno Rice } 4415244eac9SBenno Rice 4425244eac9SBenno Rice static __inline int 44359276937SPeter Grehan moea_attr_fetch(vm_page_t m) 4445244eac9SBenno Rice { 4455244eac9SBenno Rice 4465244eac9SBenno Rice return (m->md.mdpg_attrs); 447f9bac91bSBenno Rice } 448f9bac91bSBenno Rice 449f9bac91bSBenno Rice static __inline void 45059276937SPeter Grehan moea_attr_save(vm_page_t m, int ptebit) 451f9bac91bSBenno Rice { 452f9bac91bSBenno Rice 453d644a0b7SAlan Cox mtx_assert(&vm_page_queue_mtx, MA_OWNED); 4545244eac9SBenno Rice m->md.mdpg_attrs |= ptebit; 455f9bac91bSBenno Rice } 456f9bac91bSBenno Rice 457f9bac91bSBenno Rice static __inline int 45859276937SPeter Grehan moea_pte_compare(const struct pte *pt, const struct pte *pvo_pt) 459f9bac91bSBenno Rice { 4605244eac9SBenno Rice if (pt->pte_hi == pvo_pt->pte_hi) 4615244eac9SBenno Rice return (1); 462f9bac91bSBenno Rice 4635244eac9SBenno Rice return (0); 464f9bac91bSBenno Rice } 465f9bac91bSBenno Rice 466f9bac91bSBenno Rice static __inline int 46759276937SPeter Grehan moea_pte_match(struct pte *pt, u_int sr, vm_offset_t va, int which) 468f9bac91bSBenno Rice { 4695244eac9SBenno Rice return (pt->pte_hi & ~PTE_VALID) == 4705244eac9SBenno Rice (((sr & SR_VSID_MASK) << PTE_VSID_SHFT) | 4715244eac9SBenno Rice ((va >> ADDR_API_SHFT) & PTE_API) | which); 472f9bac91bSBenno Rice } 473f9bac91bSBenno Rice 4745244eac9SBenno Rice static __inline void 47559276937SPeter Grehan moea_pte_create(struct pte *pt, u_int sr, vm_offset_t va, u_int pte_lo) 476f9bac91bSBenno Rice { 477d644a0b7SAlan Cox 478d644a0b7SAlan Cox mtx_assert(&moea_table_mutex, MA_OWNED); 479d644a0b7SAlan Cox 480f9bac91bSBenno Rice /* 4815244eac9SBenno Rice * Construct a PTE. Default to IMB initially. Valid bit only gets 4825244eac9SBenno Rice * set when the real pte is set in memory. 483f9bac91bSBenno Rice * 484f9bac91bSBenno Rice * Note: Don't set the valid bit for correct operation of tlb update. 485f9bac91bSBenno Rice */ 4865244eac9SBenno Rice pt->pte_hi = ((sr & SR_VSID_MASK) << PTE_VSID_SHFT) | 4875244eac9SBenno Rice (((va & ADDR_PIDX) >> ADDR_API_SHFT) & PTE_API); 4885244eac9SBenno Rice pt->pte_lo = pte_lo; 489f9bac91bSBenno Rice } 490f9bac91bSBenno Rice 4915244eac9SBenno Rice static __inline void 49259276937SPeter Grehan moea_pte_synch(struct pte *pt, struct pte *pvo_pt) 493f9bac91bSBenno Rice { 494f9bac91bSBenno Rice 495d644a0b7SAlan Cox mtx_assert(&moea_table_mutex, MA_OWNED); 4965244eac9SBenno Rice pvo_pt->pte_lo |= pt->pte_lo & (PTE_REF | PTE_CHG); 497f9bac91bSBenno Rice } 498f9bac91bSBenno Rice 4995244eac9SBenno Rice static __inline void 50059276937SPeter Grehan moea_pte_clear(struct pte *pt, vm_offset_t va, int ptebit) 501f9bac91bSBenno Rice { 5025244eac9SBenno Rice 503d644a0b7SAlan Cox mtx_assert(&moea_table_mutex, MA_OWNED); 504d644a0b7SAlan Cox 5055244eac9SBenno Rice /* 5065244eac9SBenno Rice * As shown in Section 7.6.3.2.3 5075244eac9SBenno Rice */ 5085244eac9SBenno Rice pt->pte_lo &= ~ptebit; 5095244eac9SBenno Rice TLBIE(va); 5105244eac9SBenno Rice EIEIO(); 5115244eac9SBenno Rice TLBSYNC(); 5125244eac9SBenno Rice SYNC(); 5135244eac9SBenno Rice } 5145244eac9SBenno Rice 5155244eac9SBenno Rice static __inline void 51659276937SPeter Grehan moea_pte_set(struct pte *pt, struct pte *pvo_pt) 5175244eac9SBenno Rice { 5185244eac9SBenno Rice 519d644a0b7SAlan Cox mtx_assert(&moea_table_mutex, MA_OWNED); 5205244eac9SBenno Rice pvo_pt->pte_hi |= PTE_VALID; 5215244eac9SBenno Rice 5225244eac9SBenno Rice /* 5235244eac9SBenno Rice * Update the PTE as defined in section 7.6.3.1. 5245244eac9SBenno Rice * Note that the REF/CHG bits are from pvo_pt and thus should havce 5255244eac9SBenno Rice * been saved so this routine can restore them (if desired). 5265244eac9SBenno Rice */ 5275244eac9SBenno Rice pt->pte_lo = pvo_pt->pte_lo; 5285244eac9SBenno Rice EIEIO(); 5295244eac9SBenno Rice pt->pte_hi = pvo_pt->pte_hi; 5305244eac9SBenno Rice SYNC(); 53159276937SPeter Grehan moea_pte_valid++; 5325244eac9SBenno Rice } 5335244eac9SBenno Rice 5345244eac9SBenno Rice static __inline void 53559276937SPeter Grehan moea_pte_unset(struct pte *pt, struct pte *pvo_pt, vm_offset_t va) 5365244eac9SBenno Rice { 5375244eac9SBenno Rice 538d644a0b7SAlan Cox mtx_assert(&moea_table_mutex, MA_OWNED); 5395244eac9SBenno Rice pvo_pt->pte_hi &= ~PTE_VALID; 5405244eac9SBenno Rice 5415244eac9SBenno Rice /* 5425244eac9SBenno Rice * Force the reg & chg bits back into the PTEs. 5435244eac9SBenno Rice */ 5445244eac9SBenno Rice SYNC(); 5455244eac9SBenno Rice 5465244eac9SBenno Rice /* 5475244eac9SBenno Rice * Invalidate the pte. 5485244eac9SBenno Rice */ 5495244eac9SBenno Rice pt->pte_hi &= ~PTE_VALID; 5505244eac9SBenno Rice 5515244eac9SBenno Rice SYNC(); 5525244eac9SBenno Rice TLBIE(va); 5535244eac9SBenno Rice EIEIO(); 5545244eac9SBenno Rice TLBSYNC(); 5555244eac9SBenno Rice SYNC(); 5565244eac9SBenno Rice 5575244eac9SBenno Rice /* 5585244eac9SBenno Rice * Save the reg & chg bits. 5595244eac9SBenno Rice */ 56059276937SPeter Grehan moea_pte_synch(pt, pvo_pt); 56159276937SPeter Grehan moea_pte_valid--; 5625244eac9SBenno Rice } 5635244eac9SBenno Rice 5645244eac9SBenno Rice static __inline void 56559276937SPeter Grehan moea_pte_change(struct pte *pt, struct pte *pvo_pt, vm_offset_t va) 5665244eac9SBenno Rice { 5675244eac9SBenno Rice 5685244eac9SBenno Rice /* 5695244eac9SBenno Rice * Invalidate the PTE 5705244eac9SBenno Rice */ 57159276937SPeter Grehan moea_pte_unset(pt, pvo_pt, va); 57259276937SPeter Grehan moea_pte_set(pt, pvo_pt); 573f9bac91bSBenno Rice } 574f9bac91bSBenno Rice 575f9bac91bSBenno Rice /* 5765244eac9SBenno Rice * Quick sort callout for comparing memory regions. 577f9bac91bSBenno Rice */ 5785244eac9SBenno Rice static int mr_cmp(const void *a, const void *b); 5795244eac9SBenno Rice static int om_cmp(const void *a, const void *b); 5805244eac9SBenno Rice 5815244eac9SBenno Rice static int 5825244eac9SBenno Rice mr_cmp(const void *a, const void *b) 583f9bac91bSBenno Rice { 5845244eac9SBenno Rice const struct mem_region *regiona; 5855244eac9SBenno Rice const struct mem_region *regionb; 586f9bac91bSBenno Rice 5875244eac9SBenno Rice regiona = a; 5885244eac9SBenno Rice regionb = b; 5895244eac9SBenno Rice if (regiona->mr_start < regionb->mr_start) 5905244eac9SBenno Rice return (-1); 5915244eac9SBenno Rice else if (regiona->mr_start > regionb->mr_start) 5925244eac9SBenno Rice return (1); 5935244eac9SBenno Rice else 594f9bac91bSBenno Rice return (0); 595f9bac91bSBenno Rice } 5965244eac9SBenno Rice 5975244eac9SBenno Rice static int 5985244eac9SBenno Rice om_cmp(const void *a, const void *b) 5995244eac9SBenno Rice { 6005244eac9SBenno Rice const struct ofw_map *mapa; 6015244eac9SBenno Rice const struct ofw_map *mapb; 6025244eac9SBenno Rice 6035244eac9SBenno Rice mapa = a; 6045244eac9SBenno Rice mapb = b; 6055244eac9SBenno Rice if (mapa->om_pa < mapb->om_pa) 6065244eac9SBenno Rice return (-1); 6075244eac9SBenno Rice else if (mapa->om_pa > mapb->om_pa) 6085244eac9SBenno Rice return (1); 6095244eac9SBenno Rice else 6105244eac9SBenno Rice return (0); 611f9bac91bSBenno Rice } 612f9bac91bSBenno Rice 613f9bac91bSBenno Rice void 61459276937SPeter Grehan moea_bootstrap(mmu_t mmup, vm_offset_t kernelstart, vm_offset_t kernelend) 615f9bac91bSBenno Rice { 61631c82d03SBenno Rice ihandle_t mmui; 6175244eac9SBenno Rice phandle_t chosen, mmu; 6185244eac9SBenno Rice int sz; 6195244eac9SBenno Rice int i, j; 62032bc7846SPeter Grehan int ofw_mappings; 621e2f6d6e2SPeter Grehan vm_size_t size, physsz, hwphyssz; 6225244eac9SBenno Rice vm_offset_t pa, va, off; 6235244eac9SBenno Rice u_int batl, batu; 624f9bac91bSBenno Rice 625f9bac91bSBenno Rice /* 62632bc7846SPeter Grehan * Set up BAT0 to map the lowest 256 MB area 6270d290675SBenno Rice */ 6280d290675SBenno Rice battable[0x0].batl = BATL(0x00000000, BAT_M, BAT_PP_RW); 6290d290675SBenno Rice battable[0x0].batu = BATU(0x00000000, BAT_BL_256M, BAT_Vs); 6300d290675SBenno Rice 6310d290675SBenno Rice /* 6320d290675SBenno Rice * Map PCI memory space. 6330d290675SBenno Rice */ 6340d290675SBenno Rice battable[0x8].batl = BATL(0x80000000, BAT_I|BAT_G, BAT_PP_RW); 6350d290675SBenno Rice battable[0x8].batu = BATU(0x80000000, BAT_BL_256M, BAT_Vs); 6360d290675SBenno Rice 6370d290675SBenno Rice battable[0x9].batl = BATL(0x90000000, BAT_I|BAT_G, BAT_PP_RW); 6380d290675SBenno Rice battable[0x9].batu = BATU(0x90000000, BAT_BL_256M, BAT_Vs); 6390d290675SBenno Rice 6400d290675SBenno Rice battable[0xa].batl = BATL(0xa0000000, BAT_I|BAT_G, BAT_PP_RW); 6410d290675SBenno Rice battable[0xa].batu = BATU(0xa0000000, BAT_BL_256M, BAT_Vs); 6420d290675SBenno Rice 6430d290675SBenno Rice battable[0xb].batl = BATL(0xb0000000, BAT_I|BAT_G, BAT_PP_RW); 6440d290675SBenno Rice battable[0xb].batu = BATU(0xb0000000, BAT_BL_256M, BAT_Vs); 6450d290675SBenno Rice 6460d290675SBenno Rice /* 6470d290675SBenno Rice * Map obio devices. 6480d290675SBenno Rice */ 6490d290675SBenno Rice battable[0xf].batl = BATL(0xf0000000, BAT_I|BAT_G, BAT_PP_RW); 6500d290675SBenno Rice battable[0xf].batu = BATU(0xf0000000, BAT_BL_256M, BAT_Vs); 6510d290675SBenno Rice 6520d290675SBenno Rice /* 6535244eac9SBenno Rice * Use an IBAT and a DBAT to map the bottom segment of memory 6545244eac9SBenno Rice * where we are. 655f9bac91bSBenno Rice */ 6565244eac9SBenno Rice batu = BATU(0x00000000, BAT_BL_256M, BAT_Vs); 6575244eac9SBenno Rice batl = BATL(0x00000000, BAT_M, BAT_PP_RW); 65859276937SPeter Grehan __asm (".balign 32; \n" 65972ed3108SPeter Grehan "mtibatu 0,%0; mtibatl 0,%1; isync; \n" 6605d64cf91SPeter Grehan "mtdbatu 0,%0; mtdbatl 0,%1; isync" 6615244eac9SBenno Rice :: "r"(batu), "r"(batl)); 6620d290675SBenno Rice 6635244eac9SBenno Rice #if 0 6640d290675SBenno Rice /* map frame buffer */ 6650d290675SBenno Rice batu = BATU(0x90000000, BAT_BL_256M, BAT_Vs); 6660d290675SBenno Rice batl = BATL(0x90000000, BAT_I|BAT_G, BAT_PP_RW); 6675d64cf91SPeter Grehan __asm ("mtdbatu 1,%0; mtdbatl 1,%1; isync" 6680d290675SBenno Rice :: "r"(batu), "r"(batl)); 6690d290675SBenno Rice #endif 6700d290675SBenno Rice 6710d290675SBenno Rice #if 1 6720d290675SBenno Rice /* map pci space */ 6735244eac9SBenno Rice batu = BATU(0x80000000, BAT_BL_256M, BAT_Vs); 6740d290675SBenno Rice batl = BATL(0x80000000, BAT_I|BAT_G, BAT_PP_RW); 6755d64cf91SPeter Grehan __asm ("mtdbatu 1,%0; mtdbatl 1,%1; isync" 6765244eac9SBenno Rice :: "r"(batu), "r"(batl)); 6775244eac9SBenno Rice #endif 678f9bac91bSBenno Rice 679f9bac91bSBenno Rice /* 6805244eac9SBenno Rice * Set the start and end of kva. 681f9bac91bSBenno Rice */ 6825244eac9SBenno Rice virtual_avail = VM_MIN_KERNEL_ADDRESS; 6835244eac9SBenno Rice virtual_end = VM_MAX_KERNEL_ADDRESS; 684f9bac91bSBenno Rice 68531c82d03SBenno Rice mem_regions(&pregions, &pregions_sz, ®ions, ®ions_sz); 68659276937SPeter Grehan CTR0(KTR_PMAP, "moea_bootstrap: physical memory"); 68731c82d03SBenno Rice 68831c82d03SBenno Rice qsort(pregions, pregions_sz, sizeof(*pregions), mr_cmp); 68931c82d03SBenno Rice for (i = 0; i < pregions_sz; i++) { 69032bc7846SPeter Grehan vm_offset_t pa; 69132bc7846SPeter Grehan vm_offset_t end; 69232bc7846SPeter Grehan 69331c82d03SBenno Rice CTR3(KTR_PMAP, "physregion: %#x - %#x (%#x)", 69431c82d03SBenno Rice pregions[i].mr_start, 69531c82d03SBenno Rice pregions[i].mr_start + pregions[i].mr_size, 69631c82d03SBenno Rice pregions[i].mr_size); 69732bc7846SPeter Grehan /* 69832bc7846SPeter Grehan * Install entries into the BAT table to allow all 69932bc7846SPeter Grehan * of physmem to be convered by on-demand BAT entries. 70032bc7846SPeter Grehan * The loop will sometimes set the same battable element 70132bc7846SPeter Grehan * twice, but that's fine since they won't be used for 70232bc7846SPeter Grehan * a while yet. 70332bc7846SPeter Grehan */ 70432bc7846SPeter Grehan pa = pregions[i].mr_start & 0xf0000000; 70532bc7846SPeter Grehan end = pregions[i].mr_start + pregions[i].mr_size; 70632bc7846SPeter Grehan do { 70732bc7846SPeter Grehan u_int n = pa >> ADDR_SR_SHFT; 70832bc7846SPeter Grehan 70932bc7846SPeter Grehan battable[n].batl = BATL(pa, BAT_M, BAT_PP_RW); 71032bc7846SPeter Grehan battable[n].batu = BATU(pa, BAT_BL_256M, BAT_Vs); 71132bc7846SPeter Grehan pa += SEGMENT_LENGTH; 71232bc7846SPeter Grehan } while (pa < end); 71331c82d03SBenno Rice } 71431c82d03SBenno Rice 71531c82d03SBenno Rice if (sizeof(phys_avail)/sizeof(phys_avail[0]) < regions_sz) 71659276937SPeter Grehan panic("moea_bootstrap: phys_avail too small"); 71731c82d03SBenno Rice qsort(regions, regions_sz, sizeof(*regions), mr_cmp); 7185244eac9SBenno Rice phys_avail_count = 0; 719d2c1f576SBenno Rice physsz = 0; 720b0c21309SPeter Grehan hwphyssz = 0; 721b0c21309SPeter Grehan TUNABLE_ULONG_FETCH("hw.physmem", (u_long *) &hwphyssz); 72231c82d03SBenno Rice for (i = 0, j = 0; i < regions_sz; i++, j += 2) { 7235244eac9SBenno Rice CTR3(KTR_PMAP, "region: %#x - %#x (%#x)", regions[i].mr_start, 7245244eac9SBenno Rice regions[i].mr_start + regions[i].mr_size, 7255244eac9SBenno Rice regions[i].mr_size); 726e2f6d6e2SPeter Grehan if (hwphyssz != 0 && 727e2f6d6e2SPeter Grehan (physsz + regions[i].mr_size) >= hwphyssz) { 728e2f6d6e2SPeter Grehan if (physsz < hwphyssz) { 729e2f6d6e2SPeter Grehan phys_avail[j] = regions[i].mr_start; 730e2f6d6e2SPeter Grehan phys_avail[j + 1] = regions[i].mr_start + 731e2f6d6e2SPeter Grehan hwphyssz - physsz; 732e2f6d6e2SPeter Grehan physsz = hwphyssz; 733e2f6d6e2SPeter Grehan phys_avail_count++; 734e2f6d6e2SPeter Grehan } 735e2f6d6e2SPeter Grehan break; 736e2f6d6e2SPeter Grehan } 7375244eac9SBenno Rice phys_avail[j] = regions[i].mr_start; 7385244eac9SBenno Rice phys_avail[j + 1] = regions[i].mr_start + regions[i].mr_size; 7395244eac9SBenno Rice phys_avail_count++; 740d2c1f576SBenno Rice physsz += regions[i].mr_size; 741f9bac91bSBenno Rice } 742d2c1f576SBenno Rice physmem = btoc(physsz); 743f9bac91bSBenno Rice 744f9bac91bSBenno Rice /* 7455244eac9SBenno Rice * Allocate PTEG table. 746f9bac91bSBenno Rice */ 7475244eac9SBenno Rice #ifdef PTEGCOUNT 74859276937SPeter Grehan moea_pteg_count = PTEGCOUNT; 7495244eac9SBenno Rice #else 75059276937SPeter Grehan moea_pteg_count = 0x1000; 751f9bac91bSBenno Rice 75259276937SPeter Grehan while (moea_pteg_count < physmem) 75359276937SPeter Grehan moea_pteg_count <<= 1; 754f9bac91bSBenno Rice 75559276937SPeter Grehan moea_pteg_count >>= 1; 7565244eac9SBenno Rice #endif /* PTEGCOUNT */ 757f9bac91bSBenno Rice 75859276937SPeter Grehan size = moea_pteg_count * sizeof(struct pteg); 75959276937SPeter Grehan CTR2(KTR_PMAP, "moea_bootstrap: %d PTEGs, %d bytes", moea_pteg_count, 7605244eac9SBenno Rice size); 76159276937SPeter Grehan moea_pteg_table = (struct pteg *)moea_bootstrap_alloc(size, size); 76259276937SPeter Grehan CTR1(KTR_PMAP, "moea_bootstrap: PTEG table at %p", moea_pteg_table); 76359276937SPeter Grehan bzero((void *)moea_pteg_table, moea_pteg_count * sizeof(struct pteg)); 76459276937SPeter Grehan moea_pteg_mask = moea_pteg_count - 1; 765f9bac91bSBenno Rice 7665244eac9SBenno Rice /* 767864bc520SBenno Rice * Allocate pv/overflow lists. 7685244eac9SBenno Rice */ 76959276937SPeter Grehan size = sizeof(struct pvo_head) * moea_pteg_count; 77059276937SPeter Grehan moea_pvo_table = (struct pvo_head *)moea_bootstrap_alloc(size, 7715244eac9SBenno Rice PAGE_SIZE); 77259276937SPeter Grehan CTR1(KTR_PMAP, "moea_bootstrap: PVO table at %p", moea_pvo_table); 77359276937SPeter Grehan for (i = 0; i < moea_pteg_count; i++) 77459276937SPeter Grehan LIST_INIT(&moea_pvo_table[i]); 7755244eac9SBenno Rice 7765244eac9SBenno Rice /* 777f489bf21SAlan Cox * Initialize the lock that synchronizes access to the pteg and pvo 778f489bf21SAlan Cox * tables. 779f489bf21SAlan Cox */ 780d644a0b7SAlan Cox mtx_init(&moea_table_mutex, "pmap table", NULL, MTX_DEF | 781d644a0b7SAlan Cox MTX_RECURSE); 782f489bf21SAlan Cox 783f489bf21SAlan Cox /* 7845244eac9SBenno Rice * Allocate the message buffer. 7855244eac9SBenno Rice */ 78659276937SPeter Grehan msgbuf_phys = moea_bootstrap_alloc(MSGBUF_SIZE, 0); 7875244eac9SBenno Rice 7885244eac9SBenno Rice /* 7895244eac9SBenno Rice * Initialise the unmanaged pvo pool. 7905244eac9SBenno Rice */ 79159276937SPeter Grehan moea_bpvo_pool = (struct pvo_entry *)moea_bootstrap_alloc( 7920d290675SBenno Rice BPVO_POOL_SIZE*sizeof(struct pvo_entry), 0); 79359276937SPeter Grehan moea_bpvo_pool_index = 0; 7945244eac9SBenno Rice 7955244eac9SBenno Rice /* 7965244eac9SBenno Rice * Make sure kernel vsid is allocated as well as VSID 0. 7975244eac9SBenno Rice */ 79859276937SPeter Grehan moea_vsid_bitmap[(KERNEL_VSIDBITS & (NPMAPS - 1)) / VSID_NBPW] 7995244eac9SBenno Rice |= 1 << (KERNEL_VSIDBITS % VSID_NBPW); 80059276937SPeter Grehan moea_vsid_bitmap[0] |= 1; 8015244eac9SBenno Rice 8025244eac9SBenno Rice /* 8035244eac9SBenno Rice * Set up the Open Firmware pmap and add it's mappings. 8045244eac9SBenno Rice */ 80559276937SPeter Grehan moea_pinit(mmup, &ofw_pmap); 8065244eac9SBenno Rice ofw_pmap.pm_sr[KERNEL_SR] = KERNEL_SEGMENT; 8074daf20b2SPeter Grehan ofw_pmap.pm_sr[KERNEL2_SR] = KERNEL2_SEGMENT; 8085244eac9SBenno Rice if ((chosen = OF_finddevice("/chosen")) == -1) 80959276937SPeter Grehan panic("moea_bootstrap: can't find /chosen"); 8105244eac9SBenno Rice OF_getprop(chosen, "mmu", &mmui, 4); 8115244eac9SBenno Rice if ((mmu = OF_instance_to_package(mmui)) == -1) 81259276937SPeter Grehan panic("moea_bootstrap: can't get mmu package"); 8135244eac9SBenno Rice if ((sz = OF_getproplen(mmu, "translations")) == -1) 81459276937SPeter Grehan panic("moea_bootstrap: can't get ofw translation count"); 815aa39961eSBenno Rice translations = NULL; 8166cc1cdf4SPeter Grehan for (i = 0; phys_avail[i] != 0; i += 2) { 8176cc1cdf4SPeter Grehan if (phys_avail[i + 1] >= sz) { 818aa39961eSBenno Rice translations = (struct ofw_map *)phys_avail[i]; 8196cc1cdf4SPeter Grehan break; 8206cc1cdf4SPeter Grehan } 821aa39961eSBenno Rice } 822aa39961eSBenno Rice if (translations == NULL) 82359276937SPeter Grehan panic("moea_bootstrap: no space to copy translations"); 8245244eac9SBenno Rice bzero(translations, sz); 8255244eac9SBenno Rice if (OF_getprop(mmu, "translations", translations, sz) == -1) 82659276937SPeter Grehan panic("moea_bootstrap: can't get ofw translations"); 82759276937SPeter Grehan CTR0(KTR_PMAP, "moea_bootstrap: translations"); 82831c82d03SBenno Rice sz /= sizeof(*translations); 8295244eac9SBenno Rice qsort(translations, sz, sizeof (*translations), om_cmp); 83032bc7846SPeter Grehan for (i = 0, ofw_mappings = 0; i < sz; i++) { 8315244eac9SBenno Rice CTR3(KTR_PMAP, "translation: pa=%#x va=%#x len=%#x", 8325244eac9SBenno Rice translations[i].om_pa, translations[i].om_va, 8335244eac9SBenno Rice translations[i].om_len); 8345244eac9SBenno Rice 83532bc7846SPeter Grehan /* 83632bc7846SPeter Grehan * If the mapping is 1:1, let the RAM and device on-demand 83732bc7846SPeter Grehan * BAT tables take care of the translation. 83832bc7846SPeter Grehan */ 83932bc7846SPeter Grehan if (translations[i].om_va == translations[i].om_pa) 84032bc7846SPeter Grehan continue; 8415244eac9SBenno Rice 84232bc7846SPeter Grehan /* Enter the pages */ 8435244eac9SBenno Rice for (off = 0; off < translations[i].om_len; off += PAGE_SIZE) { 8445244eac9SBenno Rice struct vm_page m; 8455244eac9SBenno Rice 8465244eac9SBenno Rice m.phys_addr = translations[i].om_pa + off; 8475ce609a3SRink Springer PMAP_LOCK(&ofw_pmap); 848ce142d9eSAlan Cox moea_enter_locked(&ofw_pmap, 84959276937SPeter Grehan translations[i].om_va + off, &m, 8505244eac9SBenno Rice VM_PROT_ALL, 1); 8515ce609a3SRink Springer PMAP_UNLOCK(&ofw_pmap); 85232bc7846SPeter Grehan ofw_mappings++; 853f9bac91bSBenno Rice } 854f9bac91bSBenno Rice } 8555244eac9SBenno Rice #ifdef SMP 8565244eac9SBenno Rice TLBSYNC(); 8575244eac9SBenno Rice #endif 8585244eac9SBenno Rice 8595244eac9SBenno Rice /* 8605244eac9SBenno Rice * Initialize the kernel pmap (which is statically allocated). 8615244eac9SBenno Rice */ 86248d0b1a0SAlan Cox PMAP_LOCK_INIT(kernel_pmap); 8635244eac9SBenno Rice for (i = 0; i < 16; i++) { 8645244eac9SBenno Rice kernel_pmap->pm_sr[i] = EMPTY_SEGMENT; 865f9bac91bSBenno Rice } 8665244eac9SBenno Rice kernel_pmap->pm_sr[KERNEL_SR] = KERNEL_SEGMENT; 86722f2fe59SPeter Grehan kernel_pmap->pm_sr[KERNEL2_SR] = KERNEL2_SEGMENT; 8685244eac9SBenno Rice kernel_pmap->pm_active = ~0; 8695244eac9SBenno Rice 8705244eac9SBenno Rice /* 8715244eac9SBenno Rice * Allocate a kernel stack with a guard page for thread0 and map it 8725244eac9SBenno Rice * into the kernel page map. 8735244eac9SBenno Rice */ 87459276937SPeter Grehan pa = moea_bootstrap_alloc(KSTACK_PAGES * PAGE_SIZE, 0); 8755244eac9SBenno Rice kstack0_phys = pa; 8765244eac9SBenno Rice kstack0 = virtual_avail + (KSTACK_GUARD_PAGES * PAGE_SIZE); 87759276937SPeter Grehan CTR2(KTR_PMAP, "moea_bootstrap: kstack0 at %#x (%#x)", kstack0_phys, 8785244eac9SBenno Rice kstack0); 8795244eac9SBenno Rice virtual_avail += (KSTACK_PAGES + KSTACK_GUARD_PAGES) * PAGE_SIZE; 8805244eac9SBenno Rice for (i = 0; i < KSTACK_PAGES; i++) { 8815244eac9SBenno Rice pa = kstack0_phys + i * PAGE_SIZE; 8825244eac9SBenno Rice va = kstack0 + i * PAGE_SIZE; 88359276937SPeter Grehan moea_kenter(mmup, va, pa); 8845244eac9SBenno Rice TLBIE(va); 885f9bac91bSBenno Rice } 886f9bac91bSBenno Rice 887f9bac91bSBenno Rice /* 888c8607538SAlan Cox * Calculate the last available physical address. 8895244eac9SBenno Rice */ 8905244eac9SBenno Rice for (i = 0; phys_avail[i + 2] != 0; i += 2) 8915244eac9SBenno Rice ; 8921f51408aSAlan Cox Maxmem = powerpc_btop(phys_avail[i + 1]); 8935244eac9SBenno Rice 8945244eac9SBenno Rice /* 8955244eac9SBenno Rice * Allocate virtual address space for the message buffer. 8965244eac9SBenno Rice */ 8975244eac9SBenno Rice msgbufp = (struct msgbuf *)virtual_avail; 8985244eac9SBenno Rice virtual_avail += round_page(MSGBUF_SIZE); 8995244eac9SBenno Rice 9005244eac9SBenno Rice /* 9015244eac9SBenno Rice * Initialize hardware. 9025244eac9SBenno Rice */ 9035244eac9SBenno Rice for (i = 0; i < 16; i++) { 904d080d5fdSBenno Rice mtsrin(i << ADDR_SR_SHFT, EMPTY_SEGMENT); 9055244eac9SBenno Rice } 9065244eac9SBenno Rice __asm __volatile ("mtsr %0,%1" 9075244eac9SBenno Rice :: "n"(KERNEL_SR), "r"(KERNEL_SEGMENT)); 90822f2fe59SPeter Grehan __asm __volatile ("mtsr %0,%1" 90922f2fe59SPeter Grehan :: "n"(KERNEL2_SR), "r"(KERNEL2_SEGMENT)); 9105244eac9SBenno Rice __asm __volatile ("sync; mtsdr1 %0; isync" 91159276937SPeter Grehan :: "r"((u_int)moea_pteg_table | (moea_pteg_mask >> 10))); 9125244eac9SBenno Rice tlbia(); 9135244eac9SBenno Rice 9145244eac9SBenno Rice pmap_bootstrapped++; 9155244eac9SBenno Rice } 9165244eac9SBenno Rice 9175244eac9SBenno Rice /* 9185244eac9SBenno Rice * Activate a user pmap. The pmap must be activated before it's address 9195244eac9SBenno Rice * space can be accessed in any way. 920f9bac91bSBenno Rice */ 921f9bac91bSBenno Rice void 92259276937SPeter Grehan moea_activate(mmu_t mmu, struct thread *td) 923f9bac91bSBenno Rice { 9248207b362SBenno Rice pmap_t pm, pmr; 925f9bac91bSBenno Rice 926f9bac91bSBenno Rice /* 92732bc7846SPeter Grehan * Load all the data we need up front to encourage the compiler to 9285244eac9SBenno Rice * not issue any loads while we have interrupts disabled below. 929f9bac91bSBenno Rice */ 9305244eac9SBenno Rice pm = &td->td_proc->p_vmspace->vm_pmap; 931f9bac91bSBenno Rice 93259276937SPeter Grehan if ((pmr = (pmap_t)moea_kextract(mmu, (vm_offset_t)pm)) == NULL) 9338207b362SBenno Rice pmr = pm; 9348207b362SBenno Rice 9355244eac9SBenno Rice pm->pm_active |= PCPU_GET(cpumask); 9368207b362SBenno Rice PCPU_SET(curpmap, pmr); 937ac6ba8bdSBenno Rice } 938ac6ba8bdSBenno Rice 939ac6ba8bdSBenno Rice void 94059276937SPeter Grehan moea_deactivate(mmu_t mmu, struct thread *td) 941ac6ba8bdSBenno Rice { 942ac6ba8bdSBenno Rice pmap_t pm; 943ac6ba8bdSBenno Rice 944ac6ba8bdSBenno Rice pm = &td->td_proc->p_vmspace->vm_pmap; 945ac6ba8bdSBenno Rice pm->pm_active &= ~(PCPU_GET(cpumask)); 9468207b362SBenno Rice PCPU_SET(curpmap, NULL); 947f9bac91bSBenno Rice } 948f9bac91bSBenno Rice 949f9bac91bSBenno Rice void 95059276937SPeter Grehan moea_change_wiring(mmu_t mmu, pmap_t pm, vm_offset_t va, boolean_t wired) 951f9bac91bSBenno Rice { 9520f92104cSBenno Rice struct pvo_entry *pvo; 9530f92104cSBenno Rice 95448d0b1a0SAlan Cox PMAP_LOCK(pm); 95559276937SPeter Grehan pvo = moea_pvo_find_va(pm, va & ~ADDR_POFF, NULL); 9560f92104cSBenno Rice 9570f92104cSBenno Rice if (pvo != NULL) { 9580f92104cSBenno Rice if (wired) { 9590f92104cSBenno Rice if ((pvo->pvo_vaddr & PVO_WIRED) == 0) 9600f92104cSBenno Rice pm->pm_stats.wired_count++; 9610f92104cSBenno Rice pvo->pvo_vaddr |= PVO_WIRED; 9620f92104cSBenno Rice } else { 9630f92104cSBenno Rice if ((pvo->pvo_vaddr & PVO_WIRED) != 0) 9640f92104cSBenno Rice pm->pm_stats.wired_count--; 9650f92104cSBenno Rice pvo->pvo_vaddr &= ~PVO_WIRED; 9660f92104cSBenno Rice } 9670f92104cSBenno Rice } 96848d0b1a0SAlan Cox PMAP_UNLOCK(pm); 969f9bac91bSBenno Rice } 970f9bac91bSBenno Rice 971f9bac91bSBenno Rice void 97259276937SPeter Grehan moea_copy_page(mmu_t mmu, vm_page_t msrc, vm_page_t mdst) 973f9bac91bSBenno Rice { 97425e2288dSBenno Rice vm_offset_t dst; 97525e2288dSBenno Rice vm_offset_t src; 97625e2288dSBenno Rice 97725e2288dSBenno Rice dst = VM_PAGE_TO_PHYS(mdst); 97825e2288dSBenno Rice src = VM_PAGE_TO_PHYS(msrc); 97925e2288dSBenno Rice 98025e2288dSBenno Rice kcopy((void *)src, (void *)dst, PAGE_SIZE); 981f9bac91bSBenno Rice } 982111c77dcSBenno Rice 983111c77dcSBenno Rice /* 9845244eac9SBenno Rice * Zero a page of physical memory by temporarily mapping it into the tlb. 9855244eac9SBenno Rice */ 9865244eac9SBenno Rice void 98759276937SPeter Grehan moea_zero_page(mmu_t mmu, vm_page_t m) 9885244eac9SBenno Rice { 9891a87a0daSPeter Wemm vm_offset_t pa = VM_PAGE_TO_PHYS(m); 9905244eac9SBenno Rice caddr_t va; 9915244eac9SBenno Rice 9925244eac9SBenno Rice if (pa < SEGMENT_LENGTH) { 9935244eac9SBenno Rice va = (caddr_t) pa; 99459276937SPeter Grehan } else if (moea_initialized) { 9952d96c2b1SAlan Cox if (moea_pvo_zeropage == NULL) { 99659276937SPeter Grehan moea_pvo_zeropage = moea_rkva_alloc(mmu); 9972d96c2b1SAlan Cox mtx_init(&moea_pvo_zeropage_mtx, "pvo zero page", 9982d96c2b1SAlan Cox NULL, MTX_DEF); 9992d96c2b1SAlan Cox } 10002d96c2b1SAlan Cox mtx_lock(&moea_pvo_zeropage_mtx); 100159276937SPeter Grehan moea_pa_map(moea_pvo_zeropage, pa, NULL, NULL); 100259276937SPeter Grehan va = (caddr_t)PVO_VADDR(moea_pvo_zeropage); 10035244eac9SBenno Rice } else { 100459276937SPeter Grehan panic("moea_zero_page: can't zero pa %#x", pa); 10055244eac9SBenno Rice } 10065244eac9SBenno Rice 10075244eac9SBenno Rice bzero(va, PAGE_SIZE); 10085244eac9SBenno Rice 10092d96c2b1SAlan Cox if (pa >= SEGMENT_LENGTH) { 101059276937SPeter Grehan moea_pa_unmap(moea_pvo_zeropage, NULL, NULL); 10112d96c2b1SAlan Cox mtx_unlock(&moea_pvo_zeropage_mtx); 10122d96c2b1SAlan Cox } 10135244eac9SBenno Rice } 10145244eac9SBenno Rice 10155244eac9SBenno Rice void 101659276937SPeter Grehan moea_zero_page_area(mmu_t mmu, vm_page_t m, int off, int size) 10175244eac9SBenno Rice { 10183495845eSBenno Rice vm_offset_t pa = VM_PAGE_TO_PHYS(m); 10193495845eSBenno Rice caddr_t va; 10203495845eSBenno Rice 10213495845eSBenno Rice if (pa < SEGMENT_LENGTH) { 10223495845eSBenno Rice va = (caddr_t) pa; 102359276937SPeter Grehan } else if (moea_initialized) { 10242d96c2b1SAlan Cox if (moea_pvo_zeropage == NULL) { 102559276937SPeter Grehan moea_pvo_zeropage = moea_rkva_alloc(mmu); 10262d96c2b1SAlan Cox mtx_init(&moea_pvo_zeropage_mtx, "pvo zero page", 10272d96c2b1SAlan Cox NULL, MTX_DEF); 10282d96c2b1SAlan Cox } 10292d96c2b1SAlan Cox mtx_lock(&moea_pvo_zeropage_mtx); 103059276937SPeter Grehan moea_pa_map(moea_pvo_zeropage, pa, NULL, NULL); 103159276937SPeter Grehan va = (caddr_t)PVO_VADDR(moea_pvo_zeropage); 10323495845eSBenno Rice } else { 103359276937SPeter Grehan panic("moea_zero_page: can't zero pa %#x", pa); 10343495845eSBenno Rice } 10353495845eSBenno Rice 103632bc7846SPeter Grehan bzero(va + off, size); 10373495845eSBenno Rice 10382d96c2b1SAlan Cox if (pa >= SEGMENT_LENGTH) { 103959276937SPeter Grehan moea_pa_unmap(moea_pvo_zeropage, NULL, NULL); 10402d96c2b1SAlan Cox mtx_unlock(&moea_pvo_zeropage_mtx); 10412d96c2b1SAlan Cox } 10425244eac9SBenno Rice } 10435244eac9SBenno Rice 1044a58b3a68SPeter Wemm void 104559276937SPeter Grehan moea_zero_page_idle(mmu_t mmu, vm_page_t m) 1046a58b3a68SPeter Wemm { 1047a58b3a68SPeter Wemm 104859276937SPeter Grehan moea_zero_page(mmu, m); 1049a58b3a68SPeter Wemm } 1050a58b3a68SPeter Wemm 10515244eac9SBenno Rice /* 10525244eac9SBenno Rice * Map the given physical page at the specified virtual address in the 10535244eac9SBenno Rice * target pmap with the protection requested. If specified the page 10545244eac9SBenno Rice * will be wired down. 10555244eac9SBenno Rice */ 10565244eac9SBenno Rice void 105759276937SPeter Grehan moea_enter(mmu_t mmu, pmap_t pmap, vm_offset_t va, vm_page_t m, vm_prot_t prot, 10585244eac9SBenno Rice boolean_t wired) 10595244eac9SBenno Rice { 1060ce142d9eSAlan Cox 1061ce142d9eSAlan Cox vm_page_lock_queues(); 1062ce142d9eSAlan Cox PMAP_LOCK(pmap); 106367c867eeSAlan Cox moea_enter_locked(pmap, va, m, prot, wired); 1064ce142d9eSAlan Cox vm_page_unlock_queues(); 1065ce142d9eSAlan Cox PMAP_UNLOCK(pmap); 1066ce142d9eSAlan Cox } 1067ce142d9eSAlan Cox 1068ce142d9eSAlan Cox /* 1069ce142d9eSAlan Cox * Map the given physical page at the specified virtual address in the 1070ce142d9eSAlan Cox * target pmap with the protection requested. If specified the page 1071ce142d9eSAlan Cox * will be wired down. 1072ce142d9eSAlan Cox * 1073ce142d9eSAlan Cox * The page queues and pmap must be locked. 1074ce142d9eSAlan Cox */ 1075ce142d9eSAlan Cox static void 1076ce142d9eSAlan Cox moea_enter_locked(pmap_t pmap, vm_offset_t va, vm_page_t m, vm_prot_t prot, 1077ce142d9eSAlan Cox boolean_t wired) 1078ce142d9eSAlan Cox { 10795244eac9SBenno Rice struct pvo_head *pvo_head; 1080378862a7SJeff Roberson uma_zone_t zone; 10818207b362SBenno Rice vm_page_t pg; 10828207b362SBenno Rice u_int pte_lo, pvo_flags, was_exec, i; 10835244eac9SBenno Rice int error; 10845244eac9SBenno Rice 108559276937SPeter Grehan if (!moea_initialized) { 108659276937SPeter Grehan pvo_head = &moea_pvo_kunmanaged; 108759276937SPeter Grehan zone = moea_upvo_zone; 10885244eac9SBenno Rice pvo_flags = 0; 10898207b362SBenno Rice pg = NULL; 10908207b362SBenno Rice was_exec = PTE_EXEC; 10915244eac9SBenno Rice } else { 109203b6e025SPeter Grehan pvo_head = vm_page_to_pvoh(m); 109303b6e025SPeter Grehan pg = m; 109459276937SPeter Grehan zone = moea_mpvo_zone; 10955244eac9SBenno Rice pvo_flags = PVO_MANAGED; 10968207b362SBenno Rice was_exec = 0; 10975244eac9SBenno Rice } 1098f489bf21SAlan Cox if (pmap_bootstrapped) 1099ce142d9eSAlan Cox mtx_assert(&vm_page_queue_mtx, MA_OWNED); 1100ce142d9eSAlan Cox PMAP_LOCK_ASSERT(pmap, MA_OWNED); 11015244eac9SBenno Rice 11024dba5df1SPeter Grehan /* XXX change the pvo head for fake pages */ 11034dba5df1SPeter Grehan if ((m->flags & PG_FICTITIOUS) == PG_FICTITIOUS) 110459276937SPeter Grehan pvo_head = &moea_pvo_kunmanaged; 11054dba5df1SPeter Grehan 11068207b362SBenno Rice /* 11078207b362SBenno Rice * If this is a managed page, and it's the first reference to the page, 11088207b362SBenno Rice * clear the execness of the page. Otherwise fetch the execness. 11098207b362SBenno Rice */ 11104dba5df1SPeter Grehan if ((pg != NULL) && ((m->flags & PG_FICTITIOUS) == 0)) { 11118207b362SBenno Rice if (LIST_EMPTY(pvo_head)) { 111259276937SPeter Grehan moea_attr_clear(pg, PTE_EXEC); 11138207b362SBenno Rice } else { 111459276937SPeter Grehan was_exec = moea_attr_fetch(pg) & PTE_EXEC; 11158207b362SBenno Rice } 11168207b362SBenno Rice } 11178207b362SBenno Rice 11188207b362SBenno Rice /* 11198207b362SBenno Rice * Assume the page is cache inhibited and access is guarded unless 11208207b362SBenno Rice * it's in our available memory array. 11218207b362SBenno Rice */ 11225244eac9SBenno Rice pte_lo = PTE_I | PTE_G; 112331c82d03SBenno Rice for (i = 0; i < pregions_sz; i++) { 112431c82d03SBenno Rice if ((VM_PAGE_TO_PHYS(m) >= pregions[i].mr_start) && 112531c82d03SBenno Rice (VM_PAGE_TO_PHYS(m) < 112631c82d03SBenno Rice (pregions[i].mr_start + pregions[i].mr_size))) { 11278207b362SBenno Rice pte_lo &= ~(PTE_I | PTE_G); 11288207b362SBenno Rice break; 11298207b362SBenno Rice } 11308207b362SBenno Rice } 11315244eac9SBenno Rice 11325244eac9SBenno Rice if (prot & VM_PROT_WRITE) 11335244eac9SBenno Rice pte_lo |= PTE_BW; 11345244eac9SBenno Rice else 11355244eac9SBenno Rice pte_lo |= PTE_BR; 11365244eac9SBenno Rice 11374dba5df1SPeter Grehan if (prot & VM_PROT_EXECUTE) 11384dba5df1SPeter Grehan pvo_flags |= PVO_EXECUTABLE; 11395244eac9SBenno Rice 11405244eac9SBenno Rice if (wired) 11415244eac9SBenno Rice pvo_flags |= PVO_WIRED; 11425244eac9SBenno Rice 11434dba5df1SPeter Grehan if ((m->flags & PG_FICTITIOUS) != 0) 11444dba5df1SPeter Grehan pvo_flags |= PVO_FAKE; 11454dba5df1SPeter Grehan 114659276937SPeter Grehan error = moea_pvo_enter(pmap, zone, pvo_head, va, VM_PAGE_TO_PHYS(m), 11478207b362SBenno Rice pte_lo, pvo_flags); 11485244eac9SBenno Rice 11498207b362SBenno Rice /* 11508207b362SBenno Rice * Flush the real page from the instruction cache if this page is 11518207b362SBenno Rice * mapped executable and cacheable and was not previously mapped (or 11528207b362SBenno Rice * was not mapped executable). 11538207b362SBenno Rice */ 11548207b362SBenno Rice if (error == 0 && (pvo_flags & PVO_EXECUTABLE) && 11558207b362SBenno Rice (pte_lo & PTE_I) == 0 && was_exec == 0) { 11565244eac9SBenno Rice /* 11575244eac9SBenno Rice * Flush the real memory from the cache. 11585244eac9SBenno Rice */ 115959276937SPeter Grehan moea_syncicache(VM_PAGE_TO_PHYS(m), PAGE_SIZE); 11608207b362SBenno Rice if (pg != NULL) 116159276937SPeter Grehan moea_attr_save(pg, PTE_EXEC); 11625244eac9SBenno Rice } 116332bc7846SPeter Grehan 116432bc7846SPeter Grehan /* XXX syncicache always until problems are sorted */ 116559276937SPeter Grehan moea_syncicache(VM_PAGE_TO_PHYS(m), PAGE_SIZE); 1166ce142d9eSAlan Cox } 1167ce142d9eSAlan Cox 1168ce142d9eSAlan Cox /* 1169ce142d9eSAlan Cox * Maps a sequence of resident pages belonging to the same object. 1170ce142d9eSAlan Cox * The sequence begins with the given page m_start. This page is 1171ce142d9eSAlan Cox * mapped at the given virtual address start. Each subsequent page is 1172ce142d9eSAlan Cox * mapped at a virtual address that is offset from start by the same 1173ce142d9eSAlan Cox * amount as the page is offset from m_start within the object. The 1174ce142d9eSAlan Cox * last page in the sequence is the page with the largest offset from 1175ce142d9eSAlan Cox * m_start that can be mapped at a virtual address less than the given 1176ce142d9eSAlan Cox * virtual address end. Not every virtual page between start and end 1177ce142d9eSAlan Cox * is mapped; only those for which a resident page exists with the 1178ce142d9eSAlan Cox * corresponding offset from m_start are mapped. 1179ce142d9eSAlan Cox */ 1180ce142d9eSAlan Cox void 1181ce142d9eSAlan Cox moea_enter_object(mmu_t mmu, pmap_t pm, vm_offset_t start, vm_offset_t end, 1182ce142d9eSAlan Cox vm_page_t m_start, vm_prot_t prot) 1183ce142d9eSAlan Cox { 1184ce142d9eSAlan Cox vm_page_t m; 1185ce142d9eSAlan Cox vm_pindex_t diff, psize; 1186ce142d9eSAlan Cox 1187ce142d9eSAlan Cox psize = atop(end - start); 1188ce142d9eSAlan Cox m = m_start; 1189ce142d9eSAlan Cox PMAP_LOCK(pm); 1190ce142d9eSAlan Cox while (m != NULL && (diff = m->pindex - m_start->pindex) < psize) { 1191ce142d9eSAlan Cox moea_enter_locked(pm, start + ptoa(diff), m, prot & 1192ce142d9eSAlan Cox (VM_PROT_READ | VM_PROT_EXECUTE), FALSE); 1193ce142d9eSAlan Cox m = TAILQ_NEXT(m, listq); 1194ce142d9eSAlan Cox } 1195ce142d9eSAlan Cox PMAP_UNLOCK(pm); 11965244eac9SBenno Rice } 11975244eac9SBenno Rice 11982053c127SStephan Uphoff void 119959276937SPeter Grehan moea_enter_quick(mmu_t mmu, pmap_t pm, vm_offset_t va, vm_page_t m, 12002053c127SStephan Uphoff vm_prot_t prot) 1201dca96f1aSAlan Cox { 1202dca96f1aSAlan Cox 1203ce142d9eSAlan Cox PMAP_LOCK(pm); 1204ce142d9eSAlan Cox moea_enter_locked(pm, va, m, prot & (VM_PROT_READ | VM_PROT_EXECUTE), 120559276937SPeter Grehan FALSE); 1206ce142d9eSAlan Cox PMAP_UNLOCK(pm); 12072053c127SStephan Uphoff 1208dca96f1aSAlan Cox } 1209dca96f1aSAlan Cox 121056b09388SAlan Cox vm_paddr_t 121159276937SPeter Grehan moea_extract(mmu_t mmu, pmap_t pm, vm_offset_t va) 12125244eac9SBenno Rice { 12130f92104cSBenno Rice struct pvo_entry *pvo; 121448d0b1a0SAlan Cox vm_paddr_t pa; 12150f92104cSBenno Rice 121648d0b1a0SAlan Cox PMAP_LOCK(pm); 121759276937SPeter Grehan pvo = moea_pvo_find_va(pm, va & ~ADDR_POFF, NULL); 121848d0b1a0SAlan Cox if (pvo == NULL) 121948d0b1a0SAlan Cox pa = 0; 122048d0b1a0SAlan Cox else 122148d0b1a0SAlan Cox pa = (pvo->pvo_pte.pte_lo & PTE_RPGN) | (va & ADDR_POFF); 122248d0b1a0SAlan Cox PMAP_UNLOCK(pm); 122348d0b1a0SAlan Cox return (pa); 12245244eac9SBenno Rice } 12255244eac9SBenno Rice 12265244eac9SBenno Rice /* 122784792e72SPeter Grehan * Atomically extract and hold the physical page with the given 122884792e72SPeter Grehan * pmap and virtual address pair if that mapping permits the given 122984792e72SPeter Grehan * protection. 123084792e72SPeter Grehan */ 123184792e72SPeter Grehan vm_page_t 123259276937SPeter Grehan moea_extract_and_hold(mmu_t mmu, pmap_t pmap, vm_offset_t va, vm_prot_t prot) 123384792e72SPeter Grehan { 1234ab50a262SAlan Cox struct pvo_entry *pvo; 123584792e72SPeter Grehan vm_page_t m; 123684792e72SPeter Grehan 123784792e72SPeter Grehan m = NULL; 123848d0b1a0SAlan Cox vm_page_lock_queues(); 123948d0b1a0SAlan Cox PMAP_LOCK(pmap); 124059276937SPeter Grehan pvo = moea_pvo_find_va(pmap, va & ~ADDR_POFF, NULL); 1241ab50a262SAlan Cox if (pvo != NULL && (pvo->pvo_pte.pte_hi & PTE_VALID) && 1242ab50a262SAlan Cox ((pvo->pvo_pte.pte_lo & PTE_PP) == PTE_RW || 1243ab50a262SAlan Cox (prot & VM_PROT_WRITE) == 0)) { 1244ab50a262SAlan Cox m = PHYS_TO_VM_PAGE(pvo->pvo_pte.pte_lo & PTE_RPGN); 124584792e72SPeter Grehan vm_page_hold(m); 124684792e72SPeter Grehan } 124748d0b1a0SAlan Cox vm_page_unlock_queues(); 124848d0b1a0SAlan Cox PMAP_UNLOCK(pmap); 124984792e72SPeter Grehan return (m); 125084792e72SPeter Grehan } 125184792e72SPeter Grehan 12525244eac9SBenno Rice void 125359276937SPeter Grehan moea_init(mmu_t mmu) 12545244eac9SBenno Rice { 12555244eac9SBenno Rice 125659276937SPeter Grehan CTR0(KTR_PMAP, "moea_init"); 12570d290675SBenno Rice 125859276937SPeter Grehan moea_upvo_zone = uma_zcreate("UPVO entry", sizeof (struct pvo_entry), 12590ee6dbd7SPeter Grehan NULL, NULL, NULL, NULL, UMA_ALIGN_PTR, 12600ee6dbd7SPeter Grehan UMA_ZONE_VM | UMA_ZONE_NOFREE); 126159276937SPeter Grehan moea_mpvo_zone = uma_zcreate("MPVO entry", sizeof(struct pvo_entry), 12620ee6dbd7SPeter Grehan NULL, NULL, NULL, NULL, UMA_ALIGN_PTR, 12630ee6dbd7SPeter Grehan UMA_ZONE_VM | UMA_ZONE_NOFREE); 126459276937SPeter Grehan moea_initialized = TRUE; 12655244eac9SBenno Rice } 12665244eac9SBenno Rice 12675244eac9SBenno Rice boolean_t 126859276937SPeter Grehan moea_is_modified(mmu_t mmu, vm_page_t m) 12695244eac9SBenno Rice { 12700f92104cSBenno Rice 127103b6e025SPeter Grehan if ((m->flags & (PG_FICTITIOUS |PG_UNMANAGED)) != 0) 12720f92104cSBenno Rice return (FALSE); 12730f92104cSBenno Rice 127459276937SPeter Grehan return (moea_query_bit(m, PTE_CHG)); 1275566526a9SAlan Cox } 1276566526a9SAlan Cox 12775244eac9SBenno Rice void 127859276937SPeter Grehan moea_clear_reference(mmu_t mmu, vm_page_t m) 12795244eac9SBenno Rice { 128003b6e025SPeter Grehan 128103b6e025SPeter Grehan if ((m->flags & (PG_FICTITIOUS | PG_UNMANAGED)) != 0) 128203b6e025SPeter Grehan return; 128359276937SPeter Grehan moea_clear_bit(m, PTE_REF, NULL); 128403b6e025SPeter Grehan } 128503b6e025SPeter Grehan 128603b6e025SPeter Grehan void 128759276937SPeter Grehan moea_clear_modify(mmu_t mmu, vm_page_t m) 128803b6e025SPeter Grehan { 128903b6e025SPeter Grehan 129003b6e025SPeter Grehan if ((m->flags & (PG_FICTITIOUS | PG_UNMANAGED)) != 0) 129103b6e025SPeter Grehan return; 129259276937SPeter Grehan moea_clear_bit(m, PTE_CHG, NULL); 12935244eac9SBenno Rice } 12945244eac9SBenno Rice 12957f3a4093SMike Silbersack /* 129678985e42SAlan Cox * Clear the write and modified bits in each of the given page's mappings. 129778985e42SAlan Cox */ 129878985e42SAlan Cox void 129978985e42SAlan Cox moea_remove_write(mmu_t mmu, vm_page_t m) 130078985e42SAlan Cox { 130178985e42SAlan Cox struct pvo_entry *pvo; 130278985e42SAlan Cox struct pte *pt; 130378985e42SAlan Cox pmap_t pmap; 130478985e42SAlan Cox u_int lo; 130578985e42SAlan Cox 130678985e42SAlan Cox mtx_assert(&vm_page_queue_mtx, MA_OWNED); 130778985e42SAlan Cox if ((m->flags & (PG_FICTITIOUS | PG_UNMANAGED)) != 0 || 130878985e42SAlan Cox (m->flags & PG_WRITEABLE) == 0) 130978985e42SAlan Cox return; 131078985e42SAlan Cox lo = moea_attr_fetch(m); 131178985e42SAlan Cox SYNC(); 131278985e42SAlan Cox LIST_FOREACH(pvo, vm_page_to_pvoh(m), pvo_vlink) { 131378985e42SAlan Cox pmap = pvo->pvo_pmap; 131478985e42SAlan Cox PMAP_LOCK(pmap); 131578985e42SAlan Cox if ((pvo->pvo_pte.pte_lo & PTE_PP) != PTE_BR) { 131678985e42SAlan Cox pt = moea_pvo_to_pte(pvo, -1); 131778985e42SAlan Cox pvo->pvo_pte.pte_lo &= ~PTE_PP; 131878985e42SAlan Cox pvo->pvo_pte.pte_lo |= PTE_BR; 131978985e42SAlan Cox if (pt != NULL) { 132078985e42SAlan Cox moea_pte_synch(pt, &pvo->pvo_pte); 132178985e42SAlan Cox lo |= pvo->pvo_pte.pte_lo; 132278985e42SAlan Cox pvo->pvo_pte.pte_lo &= ~PTE_CHG; 132378985e42SAlan Cox moea_pte_change(pt, &pvo->pvo_pte, 132478985e42SAlan Cox pvo->pvo_vaddr); 132578985e42SAlan Cox mtx_unlock(&moea_table_mutex); 132678985e42SAlan Cox } 132778985e42SAlan Cox } 132878985e42SAlan Cox PMAP_UNLOCK(pmap); 132978985e42SAlan Cox } 133078985e42SAlan Cox if ((lo & PTE_CHG) != 0) { 133178985e42SAlan Cox moea_attr_clear(m, PTE_CHG); 133278985e42SAlan Cox vm_page_dirty(m); 133378985e42SAlan Cox } 133478985e42SAlan Cox vm_page_flag_clear(m, PG_WRITEABLE); 133578985e42SAlan Cox } 133678985e42SAlan Cox 133778985e42SAlan Cox /* 133859276937SPeter Grehan * moea_ts_referenced: 13397f3a4093SMike Silbersack * 13407f3a4093SMike Silbersack * Return a count of reference bits for a page, clearing those bits. 13417f3a4093SMike Silbersack * It is not necessary for every reference bit to be cleared, but it 13427f3a4093SMike Silbersack * is necessary that 0 only be returned when there are truly no 13437f3a4093SMike Silbersack * reference bits set. 13447f3a4093SMike Silbersack * 13457f3a4093SMike Silbersack * XXX: The exact number of bits to check and clear is a matter that 13467f3a4093SMike Silbersack * should be tested and standardized at some point in the future for 13477f3a4093SMike Silbersack * optimal aging of shared pages. 13487f3a4093SMike Silbersack */ 134959276937SPeter Grehan boolean_t 135059276937SPeter Grehan moea_ts_referenced(mmu_t mmu, vm_page_t m) 13515244eac9SBenno Rice { 135203b6e025SPeter Grehan int count; 135303b6e025SPeter Grehan 135403b6e025SPeter Grehan if ((m->flags & (PG_FICTITIOUS | PG_UNMANAGED)) != 0) 13555244eac9SBenno Rice return (0); 135603b6e025SPeter Grehan 135759276937SPeter Grehan count = moea_clear_bit(m, PTE_REF, NULL); 135803b6e025SPeter Grehan 135903b6e025SPeter Grehan return (count); 13605244eac9SBenno Rice } 13615244eac9SBenno Rice 13625244eac9SBenno Rice /* 13635244eac9SBenno Rice * Map a wired page into kernel virtual address space. 13645244eac9SBenno Rice */ 13655244eac9SBenno Rice void 136659276937SPeter Grehan moea_kenter(mmu_t mmu, vm_offset_t va, vm_offset_t pa) 13675244eac9SBenno Rice { 13685244eac9SBenno Rice u_int pte_lo; 13695244eac9SBenno Rice int error; 13705244eac9SBenno Rice int i; 13715244eac9SBenno Rice 13725244eac9SBenno Rice #if 0 13735244eac9SBenno Rice if (va < VM_MIN_KERNEL_ADDRESS) 137459276937SPeter Grehan panic("moea_kenter: attempt to enter non-kernel address %#x", 13755244eac9SBenno Rice va); 13765244eac9SBenno Rice #endif 13775244eac9SBenno Rice 137832bc7846SPeter Grehan pte_lo = PTE_I | PTE_G; 137932bc7846SPeter Grehan for (i = 0; i < pregions_sz; i++) { 138032bc7846SPeter Grehan if ((pa >= pregions[i].mr_start) && 138132bc7846SPeter Grehan (pa < (pregions[i].mr_start + pregions[i].mr_size))) { 13825244eac9SBenno Rice pte_lo &= ~(PTE_I | PTE_G); 13835244eac9SBenno Rice break; 13845244eac9SBenno Rice } 13855244eac9SBenno Rice } 13865244eac9SBenno Rice 13874711f8d7SAlan Cox PMAP_LOCK(kernel_pmap); 138859276937SPeter Grehan error = moea_pvo_enter(kernel_pmap, moea_upvo_zone, 138959276937SPeter Grehan &moea_pvo_kunmanaged, va, pa, pte_lo, PVO_WIRED); 13905244eac9SBenno Rice 13915244eac9SBenno Rice if (error != 0 && error != ENOENT) 139259276937SPeter Grehan panic("moea_kenter: failed to enter va %#x pa %#x: %d", va, 13935244eac9SBenno Rice pa, error); 13945244eac9SBenno Rice 13955244eac9SBenno Rice /* 13965244eac9SBenno Rice * Flush the real memory from the instruction cache. 13975244eac9SBenno Rice */ 13985244eac9SBenno Rice if ((pte_lo & (PTE_I | PTE_G)) == 0) { 139959276937SPeter Grehan moea_syncicache(pa, PAGE_SIZE); 14005244eac9SBenno Rice } 14014711f8d7SAlan Cox PMAP_UNLOCK(kernel_pmap); 14025244eac9SBenno Rice } 14035244eac9SBenno Rice 1404e79f59e8SBenno Rice /* 1405e79f59e8SBenno Rice * Extract the physical page address associated with the given kernel virtual 1406e79f59e8SBenno Rice * address. 1407e79f59e8SBenno Rice */ 14085244eac9SBenno Rice vm_offset_t 140959276937SPeter Grehan moea_kextract(mmu_t mmu, vm_offset_t va) 14105244eac9SBenno Rice { 1411e79f59e8SBenno Rice struct pvo_entry *pvo; 141248d0b1a0SAlan Cox vm_paddr_t pa; 1413e79f59e8SBenno Rice 14140efd0097SPeter Grehan #ifdef UMA_MD_SMALL_ALLOC 14150efd0097SPeter Grehan /* 14160efd0097SPeter Grehan * Allow direct mappings 14170efd0097SPeter Grehan */ 14180efd0097SPeter Grehan if (va < VM_MIN_KERNEL_ADDRESS) { 14190efd0097SPeter Grehan return (va); 14200efd0097SPeter Grehan } 14210efd0097SPeter Grehan #endif 14220efd0097SPeter Grehan 142348d0b1a0SAlan Cox PMAP_LOCK(kernel_pmap); 142459276937SPeter Grehan pvo = moea_pvo_find_va(kernel_pmap, va & ~ADDR_POFF, NULL); 142559276937SPeter Grehan KASSERT(pvo != NULL, ("moea_kextract: no addr found")); 142648d0b1a0SAlan Cox pa = (pvo->pvo_pte.pte_lo & PTE_RPGN) | (va & ADDR_POFF); 142748d0b1a0SAlan Cox PMAP_UNLOCK(kernel_pmap); 142848d0b1a0SAlan Cox return (pa); 1429e79f59e8SBenno Rice } 1430e79f59e8SBenno Rice 143188afb2a3SBenno Rice /* 143288afb2a3SBenno Rice * Remove a wired page from kernel virtual address space. 143388afb2a3SBenno Rice */ 14345244eac9SBenno Rice void 143559276937SPeter Grehan moea_kremove(mmu_t mmu, vm_offset_t va) 14365244eac9SBenno Rice { 143788afb2a3SBenno Rice 143859276937SPeter Grehan moea_remove(mmu, kernel_pmap, va, va + PAGE_SIZE); 14395244eac9SBenno Rice } 14405244eac9SBenno Rice 14415244eac9SBenno Rice /* 14425244eac9SBenno Rice * Map a range of physical addresses into kernel virtual address space. 14435244eac9SBenno Rice * 14445244eac9SBenno Rice * The value passed in *virt is a suggested virtual address for the mapping. 14455244eac9SBenno Rice * Architectures which can support a direct-mapped physical to virtual region 14465244eac9SBenno Rice * can return the appropriate address within that region, leaving '*virt' 14475244eac9SBenno Rice * unchanged. We cannot and therefore do not; *virt is updated with the 14485244eac9SBenno Rice * first usable address after the mapped region. 14495244eac9SBenno Rice */ 14505244eac9SBenno Rice vm_offset_t 145159276937SPeter Grehan moea_map(mmu_t mmu, vm_offset_t *virt, vm_offset_t pa_start, 145259276937SPeter Grehan vm_offset_t pa_end, int prot) 14535244eac9SBenno Rice { 14545244eac9SBenno Rice vm_offset_t sva, va; 14555244eac9SBenno Rice 14565244eac9SBenno Rice sva = *virt; 14575244eac9SBenno Rice va = sva; 14585244eac9SBenno Rice for (; pa_start < pa_end; pa_start += PAGE_SIZE, va += PAGE_SIZE) 145959276937SPeter Grehan moea_kenter(mmu, va, pa_start); 14605244eac9SBenno Rice *virt = va; 14615244eac9SBenno Rice return (sva); 14625244eac9SBenno Rice } 14635244eac9SBenno Rice 14645244eac9SBenno Rice /* 14657f3a4093SMike Silbersack * Returns true if the pmap's pv is one of the first 14667f3a4093SMike Silbersack * 16 pvs linked to from this page. This count may 14677f3a4093SMike Silbersack * be changed upwards or downwards in the future; it 14687f3a4093SMike Silbersack * is only necessary that true be returned for a small 14697f3a4093SMike Silbersack * subset of pmaps for proper page aging. 14707f3a4093SMike Silbersack */ 14715244eac9SBenno Rice boolean_t 147259276937SPeter Grehan moea_page_exists_quick(mmu_t mmu, pmap_t pmap, vm_page_t m) 14735244eac9SBenno Rice { 147403b6e025SPeter Grehan int loops; 147503b6e025SPeter Grehan struct pvo_entry *pvo; 147603b6e025SPeter Grehan 147759276937SPeter Grehan if (!moea_initialized || (m->flags & PG_FICTITIOUS)) 147803b6e025SPeter Grehan return FALSE; 147903b6e025SPeter Grehan 148003b6e025SPeter Grehan loops = 0; 148103b6e025SPeter Grehan LIST_FOREACH(pvo, vm_page_to_pvoh(m), pvo_vlink) { 148203b6e025SPeter Grehan if (pvo->pvo_pmap == pmap) 148303b6e025SPeter Grehan return (TRUE); 148403b6e025SPeter Grehan if (++loops >= 16) 148503b6e025SPeter Grehan break; 148603b6e025SPeter Grehan } 148703b6e025SPeter Grehan 148803b6e025SPeter Grehan return (FALSE); 14895244eac9SBenno Rice } 14905244eac9SBenno Rice 149159276937SPeter Grehan static u_int moea_vsidcontext; 14925244eac9SBenno Rice 14935244eac9SBenno Rice void 149459276937SPeter Grehan moea_pinit(mmu_t mmu, pmap_t pmap) 14955244eac9SBenno Rice { 14965244eac9SBenno Rice int i, mask; 14975244eac9SBenno Rice u_int entropy; 14985244eac9SBenno Rice 149959276937SPeter Grehan KASSERT((int)pmap < VM_MIN_KERNEL_ADDRESS, ("moea_pinit: virt pmap")); 150048d0b1a0SAlan Cox PMAP_LOCK_INIT(pmap); 15014daf20b2SPeter Grehan 15025244eac9SBenno Rice entropy = 0; 15035244eac9SBenno Rice __asm __volatile("mftb %0" : "=r"(entropy)); 15045244eac9SBenno Rice 15055244eac9SBenno Rice /* 15065244eac9SBenno Rice * Allocate some segment registers for this pmap. 15075244eac9SBenno Rice */ 15085244eac9SBenno Rice for (i = 0; i < NPMAPS; i += VSID_NBPW) { 15095244eac9SBenno Rice u_int hash, n; 15105244eac9SBenno Rice 15115244eac9SBenno Rice /* 15125244eac9SBenno Rice * Create a new value by mutiplying by a prime and adding in 15135244eac9SBenno Rice * entropy from the timebase register. This is to make the 15145244eac9SBenno Rice * VSID more random so that the PT hash function collides 15155244eac9SBenno Rice * less often. (Note that the prime casues gcc to do shifts 15165244eac9SBenno Rice * instead of a multiply.) 15175244eac9SBenno Rice */ 151859276937SPeter Grehan moea_vsidcontext = (moea_vsidcontext * 0x1105) + entropy; 151959276937SPeter Grehan hash = moea_vsidcontext & (NPMAPS - 1); 15205244eac9SBenno Rice if (hash == 0) /* 0 is special, avoid it */ 15215244eac9SBenno Rice continue; 15225244eac9SBenno Rice n = hash >> 5; 15235244eac9SBenno Rice mask = 1 << (hash & (VSID_NBPW - 1)); 152459276937SPeter Grehan hash = (moea_vsidcontext & 0xfffff); 152559276937SPeter Grehan if (moea_vsid_bitmap[n] & mask) { /* collision? */ 15265244eac9SBenno Rice /* anything free in this bucket? */ 152759276937SPeter Grehan if (moea_vsid_bitmap[n] == 0xffffffff) { 152859276937SPeter Grehan entropy = (moea_vsidcontext >> 20); 15295244eac9SBenno Rice continue; 15305244eac9SBenno Rice } 153159276937SPeter Grehan i = ffs(~moea_vsid_bitmap[i]) - 1; 15325244eac9SBenno Rice mask = 1 << i; 15335244eac9SBenno Rice hash &= 0xfffff & ~(VSID_NBPW - 1); 15345244eac9SBenno Rice hash |= i; 15355244eac9SBenno Rice } 153659276937SPeter Grehan moea_vsid_bitmap[n] |= mask; 15375244eac9SBenno Rice for (i = 0; i < 16; i++) 15385244eac9SBenno Rice pmap->pm_sr[i] = VSID_MAKE(i, hash); 15395244eac9SBenno Rice return; 15405244eac9SBenno Rice } 15415244eac9SBenno Rice 154259276937SPeter Grehan panic("moea_pinit: out of segments"); 15435244eac9SBenno Rice } 15445244eac9SBenno Rice 15455244eac9SBenno Rice /* 15465244eac9SBenno Rice * Initialize the pmap associated with process 0. 15475244eac9SBenno Rice */ 15485244eac9SBenno Rice void 154959276937SPeter Grehan moea_pinit0(mmu_t mmu, pmap_t pm) 15505244eac9SBenno Rice { 15515244eac9SBenno Rice 155259276937SPeter Grehan moea_pinit(mmu, pm); 15535244eac9SBenno Rice bzero(&pm->pm_stats, sizeof(pm->pm_stats)); 15545244eac9SBenno Rice } 15555244eac9SBenno Rice 1556e79f59e8SBenno Rice /* 1557e79f59e8SBenno Rice * Set the physical protection on the specified range of this map as requested. 1558e79f59e8SBenno Rice */ 15595244eac9SBenno Rice void 156059276937SPeter Grehan moea_protect(mmu_t mmu, pmap_t pm, vm_offset_t sva, vm_offset_t eva, 156159276937SPeter Grehan vm_prot_t prot) 15625244eac9SBenno Rice { 1563e79f59e8SBenno Rice struct pvo_entry *pvo; 1564e79f59e8SBenno Rice struct pte *pt; 1565e79f59e8SBenno Rice int pteidx; 1566e79f59e8SBenno Rice 156759276937SPeter Grehan CTR4(KTR_PMAP, "moea_protect: pm=%p sva=%#x eva=%#x prot=%#x", pm, sva, 1568e79f59e8SBenno Rice eva, prot); 1569e79f59e8SBenno Rice 1570e79f59e8SBenno Rice 1571e79f59e8SBenno Rice KASSERT(pm == &curproc->p_vmspace->vm_pmap || pm == kernel_pmap, 157259276937SPeter Grehan ("moea_protect: non current pmap")); 1573e79f59e8SBenno Rice 1574e79f59e8SBenno Rice if ((prot & VM_PROT_READ) == VM_PROT_NONE) { 157559276937SPeter Grehan moea_remove(mmu, pm, sva, eva); 1576e79f59e8SBenno Rice return; 1577e79f59e8SBenno Rice } 1578e79f59e8SBenno Rice 15793d2e54c3SAlan Cox vm_page_lock_queues(); 158048d0b1a0SAlan Cox PMAP_LOCK(pm); 1581e79f59e8SBenno Rice for (; sva < eva; sva += PAGE_SIZE) { 158259276937SPeter Grehan pvo = moea_pvo_find_va(pm, sva, &pteidx); 1583e79f59e8SBenno Rice if (pvo == NULL) 1584e79f59e8SBenno Rice continue; 1585e79f59e8SBenno Rice 1586e79f59e8SBenno Rice if ((prot & VM_PROT_EXECUTE) == 0) 1587e79f59e8SBenno Rice pvo->pvo_vaddr &= ~PVO_EXECUTABLE; 1588e79f59e8SBenno Rice 1589e79f59e8SBenno Rice /* 1590e79f59e8SBenno Rice * Grab the PTE pointer before we diddle with the cached PTE 1591e79f59e8SBenno Rice * copy. 1592e79f59e8SBenno Rice */ 159359276937SPeter Grehan pt = moea_pvo_to_pte(pvo, pteidx); 1594e79f59e8SBenno Rice /* 1595e79f59e8SBenno Rice * Change the protection of the page. 1596e79f59e8SBenno Rice */ 1597e79f59e8SBenno Rice pvo->pvo_pte.pte_lo &= ~PTE_PP; 1598e79f59e8SBenno Rice pvo->pvo_pte.pte_lo |= PTE_BR; 1599e79f59e8SBenno Rice 1600e79f59e8SBenno Rice /* 1601e79f59e8SBenno Rice * If the PVO is in the page table, update that pte as well. 1602e79f59e8SBenno Rice */ 1603d644a0b7SAlan Cox if (pt != NULL) { 160459276937SPeter Grehan moea_pte_change(pt, &pvo->pvo_pte, pvo->pvo_vaddr); 1605d644a0b7SAlan Cox mtx_unlock(&moea_table_mutex); 1606d644a0b7SAlan Cox } 1607e79f59e8SBenno Rice } 16083d2e54c3SAlan Cox vm_page_unlock_queues(); 160948d0b1a0SAlan Cox PMAP_UNLOCK(pm); 16105244eac9SBenno Rice } 16115244eac9SBenno Rice 161288afb2a3SBenno Rice /* 161388afb2a3SBenno Rice * Map a list of wired pages into kernel virtual address space. This is 161488afb2a3SBenno Rice * intended for temporary mappings which do not need page modification or 161588afb2a3SBenno Rice * references recorded. Existing mappings in the region are overwritten. 161688afb2a3SBenno Rice */ 16175244eac9SBenno Rice void 161859276937SPeter Grehan moea_qenter(mmu_t mmu, vm_offset_t sva, vm_page_t *m, int count) 16195244eac9SBenno Rice { 162003b6e025SPeter Grehan vm_offset_t va; 16215244eac9SBenno Rice 162203b6e025SPeter Grehan va = sva; 162303b6e025SPeter Grehan while (count-- > 0) { 162459276937SPeter Grehan moea_kenter(mmu, va, VM_PAGE_TO_PHYS(*m)); 162503b6e025SPeter Grehan va += PAGE_SIZE; 162603b6e025SPeter Grehan m++; 162703b6e025SPeter Grehan } 16285244eac9SBenno Rice } 16295244eac9SBenno Rice 163088afb2a3SBenno Rice /* 163188afb2a3SBenno Rice * Remove page mappings from kernel virtual address space. Intended for 163259276937SPeter Grehan * temporary mappings entered by moea_qenter. 163388afb2a3SBenno Rice */ 16345244eac9SBenno Rice void 163559276937SPeter Grehan moea_qremove(mmu_t mmu, vm_offset_t sva, int count) 16365244eac9SBenno Rice { 163703b6e025SPeter Grehan vm_offset_t va; 163888afb2a3SBenno Rice 163903b6e025SPeter Grehan va = sva; 164003b6e025SPeter Grehan while (count-- > 0) { 164159276937SPeter Grehan moea_kremove(mmu, va); 164203b6e025SPeter Grehan va += PAGE_SIZE; 164303b6e025SPeter Grehan } 16445244eac9SBenno Rice } 16455244eac9SBenno Rice 16465244eac9SBenno Rice void 164759276937SPeter Grehan moea_release(mmu_t mmu, pmap_t pmap) 16485244eac9SBenno Rice { 164932bc7846SPeter Grehan int idx, mask; 165032bc7846SPeter Grehan 165132bc7846SPeter Grehan /* 165232bc7846SPeter Grehan * Free segment register's VSID 165332bc7846SPeter Grehan */ 165432bc7846SPeter Grehan if (pmap->pm_sr[0] == 0) 165559276937SPeter Grehan panic("moea_release"); 165632bc7846SPeter Grehan 165732bc7846SPeter Grehan idx = VSID_TO_HASH(pmap->pm_sr[0]) & (NPMAPS-1); 165832bc7846SPeter Grehan mask = 1 << (idx % VSID_NBPW); 165932bc7846SPeter Grehan idx /= VSID_NBPW; 166059276937SPeter Grehan moea_vsid_bitmap[idx] &= ~mask; 166148d0b1a0SAlan Cox PMAP_LOCK_DESTROY(pmap); 16625244eac9SBenno Rice } 16635244eac9SBenno Rice 166488afb2a3SBenno Rice /* 166588afb2a3SBenno Rice * Remove the given range of addresses from the specified map. 166688afb2a3SBenno Rice */ 16675244eac9SBenno Rice void 166859276937SPeter Grehan moea_remove(mmu_t mmu, pmap_t pm, vm_offset_t sva, vm_offset_t eva) 16695244eac9SBenno Rice { 167088afb2a3SBenno Rice struct pvo_entry *pvo; 167188afb2a3SBenno Rice int pteidx; 167288afb2a3SBenno Rice 16733d2e54c3SAlan Cox vm_page_lock_queues(); 167448d0b1a0SAlan Cox PMAP_LOCK(pm); 167588afb2a3SBenno Rice for (; sva < eva; sva += PAGE_SIZE) { 167659276937SPeter Grehan pvo = moea_pvo_find_va(pm, sva, &pteidx); 167788afb2a3SBenno Rice if (pvo != NULL) { 167859276937SPeter Grehan moea_pvo_remove(pvo, pteidx); 167988afb2a3SBenno Rice } 168088afb2a3SBenno Rice } 168148d0b1a0SAlan Cox PMAP_UNLOCK(pm); 168294aa7aecSPeter Grehan vm_page_unlock_queues(); 16835244eac9SBenno Rice } 16845244eac9SBenno Rice 1685e79f59e8SBenno Rice /* 168659276937SPeter Grehan * Remove physical page from all pmaps in which it resides. moea_pvo_remove() 168703b6e025SPeter Grehan * will reflect changes in pte's back to the vm_page. 168803b6e025SPeter Grehan */ 168903b6e025SPeter Grehan void 169059276937SPeter Grehan moea_remove_all(mmu_t mmu, vm_page_t m) 169103b6e025SPeter Grehan { 169203b6e025SPeter Grehan struct pvo_head *pvo_head; 169303b6e025SPeter Grehan struct pvo_entry *pvo, *next_pvo; 169448d0b1a0SAlan Cox pmap_t pmap; 169503b6e025SPeter Grehan 169684792e72SPeter Grehan mtx_assert(&vm_page_queue_mtx, MA_OWNED); 169703b6e025SPeter Grehan 169803b6e025SPeter Grehan pvo_head = vm_page_to_pvoh(m); 169903b6e025SPeter Grehan for (pvo = LIST_FIRST(pvo_head); pvo != NULL; pvo = next_pvo) { 170003b6e025SPeter Grehan next_pvo = LIST_NEXT(pvo, pvo_vlink); 170103b6e025SPeter Grehan 170259276937SPeter Grehan MOEA_PVO_CHECK(pvo); /* sanity check */ 170348d0b1a0SAlan Cox pmap = pvo->pvo_pmap; 170448d0b1a0SAlan Cox PMAP_LOCK(pmap); 170559276937SPeter Grehan moea_pvo_remove(pvo, -1); 170648d0b1a0SAlan Cox PMAP_UNLOCK(pmap); 170703b6e025SPeter Grehan } 170803b6e025SPeter Grehan vm_page_flag_clear(m, PG_WRITEABLE); 170903b6e025SPeter Grehan } 171003b6e025SPeter Grehan 171103b6e025SPeter Grehan /* 17125244eac9SBenno Rice * Allocate a physical page of memory directly from the phys_avail map. 171359276937SPeter Grehan * Can only be called from moea_bootstrap before avail start and end are 17145244eac9SBenno Rice * calculated. 17155244eac9SBenno Rice */ 17165244eac9SBenno Rice static vm_offset_t 171759276937SPeter Grehan moea_bootstrap_alloc(vm_size_t size, u_int align) 17185244eac9SBenno Rice { 17195244eac9SBenno Rice vm_offset_t s, e; 17205244eac9SBenno Rice int i, j; 17215244eac9SBenno Rice 17225244eac9SBenno Rice size = round_page(size); 17235244eac9SBenno Rice for (i = 0; phys_avail[i + 1] != 0; i += 2) { 17245244eac9SBenno Rice if (align != 0) 17255244eac9SBenno Rice s = (phys_avail[i] + align - 1) & ~(align - 1); 17265244eac9SBenno Rice else 17275244eac9SBenno Rice s = phys_avail[i]; 17285244eac9SBenno Rice e = s + size; 17295244eac9SBenno Rice 17305244eac9SBenno Rice if (s < phys_avail[i] || e > phys_avail[i + 1]) 17315244eac9SBenno Rice continue; 17325244eac9SBenno Rice 17335244eac9SBenno Rice if (s == phys_avail[i]) { 17345244eac9SBenno Rice phys_avail[i] += size; 17355244eac9SBenno Rice } else if (e == phys_avail[i + 1]) { 17365244eac9SBenno Rice phys_avail[i + 1] -= size; 17375244eac9SBenno Rice } else { 17385244eac9SBenno Rice for (j = phys_avail_count * 2; j > i; j -= 2) { 17395244eac9SBenno Rice phys_avail[j] = phys_avail[j - 2]; 17405244eac9SBenno Rice phys_avail[j + 1] = phys_avail[j - 1]; 17415244eac9SBenno Rice } 17425244eac9SBenno Rice 17435244eac9SBenno Rice phys_avail[i + 3] = phys_avail[i + 1]; 17445244eac9SBenno Rice phys_avail[i + 1] = s; 17455244eac9SBenno Rice phys_avail[i + 2] = e; 17465244eac9SBenno Rice phys_avail_count++; 17475244eac9SBenno Rice } 17485244eac9SBenno Rice 17495244eac9SBenno Rice return (s); 17505244eac9SBenno Rice } 175159276937SPeter Grehan panic("moea_bootstrap_alloc: could not allocate memory"); 17525244eac9SBenno Rice } 17535244eac9SBenno Rice 17545244eac9SBenno Rice /* 17555244eac9SBenno Rice * Return an unmapped pvo for a kernel virtual address. 17565244eac9SBenno Rice * Used by pmap functions that operate on physical pages. 17575244eac9SBenno Rice */ 17585244eac9SBenno Rice static struct pvo_entry * 175959276937SPeter Grehan moea_rkva_alloc(mmu_t mmu) 17605244eac9SBenno Rice { 17615244eac9SBenno Rice struct pvo_entry *pvo; 17625244eac9SBenno Rice struct pte *pt; 17635244eac9SBenno Rice vm_offset_t kva; 17645244eac9SBenno Rice int pteidx; 17655244eac9SBenno Rice 176659276937SPeter Grehan if (moea_rkva_count == 0) 176759276937SPeter Grehan panic("moea_rkva_alloc: no more reserved KVAs"); 17685244eac9SBenno Rice 176959276937SPeter Grehan kva = moea_rkva_start + (PAGE_SIZE * --moea_rkva_count); 177059276937SPeter Grehan moea_kenter(mmu, kva, 0); 17715244eac9SBenno Rice 177259276937SPeter Grehan pvo = moea_pvo_find_va(kernel_pmap, kva, &pteidx); 17735244eac9SBenno Rice 17745244eac9SBenno Rice if (pvo == NULL) 177559276937SPeter Grehan panic("moea_kva_alloc: moea_pvo_find_va failed"); 17765244eac9SBenno Rice 177759276937SPeter Grehan pt = moea_pvo_to_pte(pvo, pteidx); 17785244eac9SBenno Rice 17795244eac9SBenno Rice if (pt == NULL) 178059276937SPeter Grehan panic("moea_kva_alloc: moea_pvo_to_pte failed"); 17815244eac9SBenno Rice 178259276937SPeter Grehan moea_pte_unset(pt, &pvo->pvo_pte, pvo->pvo_vaddr); 1783d644a0b7SAlan Cox mtx_unlock(&moea_table_mutex); 17845244eac9SBenno Rice PVO_PTEGIDX_CLR(pvo); 17855244eac9SBenno Rice 178659276937SPeter Grehan moea_pte_overflow++; 17875244eac9SBenno Rice 17885244eac9SBenno Rice return (pvo); 17895244eac9SBenno Rice } 17905244eac9SBenno Rice 17915244eac9SBenno Rice static void 179259276937SPeter Grehan moea_pa_map(struct pvo_entry *pvo, vm_offset_t pa, struct pte *saved_pt, 17935244eac9SBenno Rice int *depth_p) 17945244eac9SBenno Rice { 17955244eac9SBenno Rice struct pte *pt; 17965244eac9SBenno Rice 17975244eac9SBenno Rice /* 17985244eac9SBenno Rice * If this pvo already has a valid pte, we need to save it so it can 17995244eac9SBenno Rice * be restored later. We then just reload the new PTE over the old 18005244eac9SBenno Rice * slot. 18015244eac9SBenno Rice */ 18025244eac9SBenno Rice if (saved_pt != NULL) { 180359276937SPeter Grehan pt = moea_pvo_to_pte(pvo, -1); 18045244eac9SBenno Rice 18055244eac9SBenno Rice if (pt != NULL) { 180659276937SPeter Grehan moea_pte_unset(pt, &pvo->pvo_pte, pvo->pvo_vaddr); 1807d644a0b7SAlan Cox mtx_unlock(&moea_table_mutex); 18085244eac9SBenno Rice PVO_PTEGIDX_CLR(pvo); 180959276937SPeter Grehan moea_pte_overflow++; 18105244eac9SBenno Rice } 18115244eac9SBenno Rice 18125244eac9SBenno Rice *saved_pt = pvo->pvo_pte; 18135244eac9SBenno Rice 18145244eac9SBenno Rice pvo->pvo_pte.pte_lo &= ~PTE_RPGN; 18155244eac9SBenno Rice } 18165244eac9SBenno Rice 18175244eac9SBenno Rice pvo->pvo_pte.pte_lo |= pa; 18185244eac9SBenno Rice 181959276937SPeter Grehan if (!moea_pte_spill(pvo->pvo_vaddr)) 182059276937SPeter Grehan panic("moea_pa_map: could not spill pvo %p", pvo); 18215244eac9SBenno Rice 18225244eac9SBenno Rice if (depth_p != NULL) 18235244eac9SBenno Rice (*depth_p)++; 18245244eac9SBenno Rice } 18255244eac9SBenno Rice 18265244eac9SBenno Rice static void 182759276937SPeter Grehan moea_pa_unmap(struct pvo_entry *pvo, struct pte *saved_pt, int *depth_p) 18285244eac9SBenno Rice { 18295244eac9SBenno Rice struct pte *pt; 18305244eac9SBenno Rice 183159276937SPeter Grehan pt = moea_pvo_to_pte(pvo, -1); 18325244eac9SBenno Rice 18335244eac9SBenno Rice if (pt != NULL) { 183459276937SPeter Grehan moea_pte_unset(pt, &pvo->pvo_pte, pvo->pvo_vaddr); 1835d644a0b7SAlan Cox mtx_unlock(&moea_table_mutex); 18365244eac9SBenno Rice PVO_PTEGIDX_CLR(pvo); 183759276937SPeter Grehan moea_pte_overflow++; 18385244eac9SBenno Rice } 18395244eac9SBenno Rice 18405244eac9SBenno Rice pvo->pvo_pte.pte_lo &= ~PTE_RPGN; 18415244eac9SBenno Rice 18425244eac9SBenno Rice /* 18435244eac9SBenno Rice * If there is a saved PTE and it's valid, restore it and return. 18445244eac9SBenno Rice */ 18455244eac9SBenno Rice if (saved_pt != NULL && (saved_pt->pte_lo & PTE_RPGN) != 0) { 18465244eac9SBenno Rice if (depth_p != NULL && --(*depth_p) == 0) 184759276937SPeter Grehan panic("moea_pa_unmap: restoring but depth == 0"); 18485244eac9SBenno Rice 18495244eac9SBenno Rice pvo->pvo_pte = *saved_pt; 18505244eac9SBenno Rice 185159276937SPeter Grehan if (!moea_pte_spill(pvo->pvo_vaddr)) 185259276937SPeter Grehan panic("moea_pa_unmap: could not spill pvo %p", pvo); 18535244eac9SBenno Rice } 18545244eac9SBenno Rice } 18555244eac9SBenno Rice 18565244eac9SBenno Rice static void 185759276937SPeter Grehan moea_syncicache(vm_offset_t pa, vm_size_t len) 18585244eac9SBenno Rice { 18595244eac9SBenno Rice __syncicache((void *)pa, len); 18605244eac9SBenno Rice } 18615244eac9SBenno Rice 18625244eac9SBenno Rice static void 18635244eac9SBenno Rice tlbia(void) 18645244eac9SBenno Rice { 18655244eac9SBenno Rice caddr_t i; 18665244eac9SBenno Rice 18675244eac9SBenno Rice SYNC(); 18685244eac9SBenno Rice for (i = 0; i < (caddr_t)0x00040000; i += 0x00001000) { 18695244eac9SBenno Rice TLBIE(i); 18705244eac9SBenno Rice EIEIO(); 18715244eac9SBenno Rice } 18725244eac9SBenno Rice TLBSYNC(); 18735244eac9SBenno Rice SYNC(); 18745244eac9SBenno Rice } 18755244eac9SBenno Rice 18765244eac9SBenno Rice static int 187759276937SPeter Grehan moea_pvo_enter(pmap_t pm, uma_zone_t zone, struct pvo_head *pvo_head, 18785244eac9SBenno Rice vm_offset_t va, vm_offset_t pa, u_int pte_lo, int flags) 18795244eac9SBenno Rice { 18805244eac9SBenno Rice struct pvo_entry *pvo; 18815244eac9SBenno Rice u_int sr; 18825244eac9SBenno Rice int first; 18835244eac9SBenno Rice u_int ptegidx; 18845244eac9SBenno Rice int i; 188532bc7846SPeter Grehan int bootstrap; 18865244eac9SBenno Rice 188759276937SPeter Grehan moea_pvo_enter_calls++; 18888207b362SBenno Rice first = 0; 188932bc7846SPeter Grehan bootstrap = 0; 189032bc7846SPeter Grehan 18915244eac9SBenno Rice /* 18925244eac9SBenno Rice * Compute the PTE Group index. 18935244eac9SBenno Rice */ 18945244eac9SBenno Rice va &= ~ADDR_POFF; 18955244eac9SBenno Rice sr = va_to_sr(pm->pm_sr, va); 18965244eac9SBenno Rice ptegidx = va_to_pteg(sr, va); 18975244eac9SBenno Rice 18985244eac9SBenno Rice /* 18995244eac9SBenno Rice * Remove any existing mapping for this page. Reuse the pvo entry if 19005244eac9SBenno Rice * there is a mapping. 19015244eac9SBenno Rice */ 190259276937SPeter Grehan mtx_lock(&moea_table_mutex); 190359276937SPeter Grehan LIST_FOREACH(pvo, &moea_pvo_table[ptegidx], pvo_olink) { 19045244eac9SBenno Rice if (pvo->pvo_pmap == pm && PVO_VADDR(pvo) == va) { 1905fafc7362SBenno Rice if ((pvo->pvo_pte.pte_lo & PTE_RPGN) == pa && 1906fafc7362SBenno Rice (pvo->pvo_pte.pte_lo & PTE_PP) == 1907fafc7362SBenno Rice (pte_lo & PTE_PP)) { 190859276937SPeter Grehan mtx_unlock(&moea_table_mutex); 190949f8f727SBenno Rice return (0); 1910fafc7362SBenno Rice } 191159276937SPeter Grehan moea_pvo_remove(pvo, -1); 19125244eac9SBenno Rice break; 19135244eac9SBenno Rice } 19145244eac9SBenno Rice } 19155244eac9SBenno Rice 19165244eac9SBenno Rice /* 19175244eac9SBenno Rice * If we aren't overwriting a mapping, try to allocate. 19185244eac9SBenno Rice */ 191959276937SPeter Grehan if (moea_initialized) { 1920378862a7SJeff Roberson pvo = uma_zalloc(zone, M_NOWAIT); 192149f8f727SBenno Rice } else { 192259276937SPeter Grehan if (moea_bpvo_pool_index >= BPVO_POOL_SIZE) { 192359276937SPeter Grehan panic("moea_enter: bpvo pool exhausted, %d, %d, %d", 192459276937SPeter Grehan moea_bpvo_pool_index, BPVO_POOL_SIZE, 19250d290675SBenno Rice BPVO_POOL_SIZE * sizeof(struct pvo_entry)); 192649f8f727SBenno Rice } 192759276937SPeter Grehan pvo = &moea_bpvo_pool[moea_bpvo_pool_index]; 192859276937SPeter Grehan moea_bpvo_pool_index++; 192932bc7846SPeter Grehan bootstrap = 1; 193049f8f727SBenno Rice } 19315244eac9SBenno Rice 19325244eac9SBenno Rice if (pvo == NULL) { 193359276937SPeter Grehan mtx_unlock(&moea_table_mutex); 19345244eac9SBenno Rice return (ENOMEM); 19355244eac9SBenno Rice } 19365244eac9SBenno Rice 193759276937SPeter Grehan moea_pvo_entries++; 19385244eac9SBenno Rice pvo->pvo_vaddr = va; 19395244eac9SBenno Rice pvo->pvo_pmap = pm; 194059276937SPeter Grehan LIST_INSERT_HEAD(&moea_pvo_table[ptegidx], pvo, pvo_olink); 19415244eac9SBenno Rice pvo->pvo_vaddr &= ~ADDR_POFF; 19425244eac9SBenno Rice if (flags & VM_PROT_EXECUTE) 19435244eac9SBenno Rice pvo->pvo_vaddr |= PVO_EXECUTABLE; 19445244eac9SBenno Rice if (flags & PVO_WIRED) 19455244eac9SBenno Rice pvo->pvo_vaddr |= PVO_WIRED; 194659276937SPeter Grehan if (pvo_head != &moea_pvo_kunmanaged) 19475244eac9SBenno Rice pvo->pvo_vaddr |= PVO_MANAGED; 194832bc7846SPeter Grehan if (bootstrap) 194932bc7846SPeter Grehan pvo->pvo_vaddr |= PVO_BOOTSTRAP; 19504dba5df1SPeter Grehan if (flags & PVO_FAKE) 19514dba5df1SPeter Grehan pvo->pvo_vaddr |= PVO_FAKE; 19524dba5df1SPeter Grehan 195359276937SPeter Grehan moea_pte_create(&pvo->pvo_pte, sr, va, pa | pte_lo); 19545244eac9SBenno Rice 19555244eac9SBenno Rice /* 19565244eac9SBenno Rice * Remember if the list was empty and therefore will be the first 19575244eac9SBenno Rice * item. 19585244eac9SBenno Rice */ 19598207b362SBenno Rice if (LIST_FIRST(pvo_head) == NULL) 19608207b362SBenno Rice first = 1; 19615244eac9SBenno Rice LIST_INSERT_HEAD(pvo_head, pvo, pvo_vlink); 19624dba5df1SPeter Grehan 19635244eac9SBenno Rice if (pvo->pvo_pte.pte_lo & PVO_WIRED) 1964c3d11d22SAlan Cox pm->pm_stats.wired_count++; 1965c3d11d22SAlan Cox pm->pm_stats.resident_count++; 19665244eac9SBenno Rice 19675244eac9SBenno Rice /* 19685244eac9SBenno Rice * We hope this succeeds but it isn't required. 19695244eac9SBenno Rice */ 197059276937SPeter Grehan i = moea_pte_insert(ptegidx, &pvo->pvo_pte); 19715244eac9SBenno Rice if (i >= 0) { 19725244eac9SBenno Rice PVO_PTEGIDX_SET(pvo, i); 19735244eac9SBenno Rice } else { 197459276937SPeter Grehan panic("moea_pvo_enter: overflow"); 197559276937SPeter Grehan moea_pte_overflow++; 19765244eac9SBenno Rice } 197759276937SPeter Grehan mtx_unlock(&moea_table_mutex); 19784dba5df1SPeter Grehan 19795244eac9SBenno Rice return (first ? ENOENT : 0); 19805244eac9SBenno Rice } 19815244eac9SBenno Rice 19825244eac9SBenno Rice static void 198359276937SPeter Grehan moea_pvo_remove(struct pvo_entry *pvo, int pteidx) 19845244eac9SBenno Rice { 19855244eac9SBenno Rice struct pte *pt; 19865244eac9SBenno Rice 19875244eac9SBenno Rice /* 19885244eac9SBenno Rice * If there is an active pte entry, we need to deactivate it (and 19895244eac9SBenno Rice * save the ref & cfg bits). 19905244eac9SBenno Rice */ 199159276937SPeter Grehan pt = moea_pvo_to_pte(pvo, pteidx); 19925244eac9SBenno Rice if (pt != NULL) { 199359276937SPeter Grehan moea_pte_unset(pt, &pvo->pvo_pte, pvo->pvo_vaddr); 1994d644a0b7SAlan Cox mtx_unlock(&moea_table_mutex); 19955244eac9SBenno Rice PVO_PTEGIDX_CLR(pvo); 19965244eac9SBenno Rice } else { 199759276937SPeter Grehan moea_pte_overflow--; 19985244eac9SBenno Rice } 19995244eac9SBenno Rice 20005244eac9SBenno Rice /* 20015244eac9SBenno Rice * Update our statistics. 20025244eac9SBenno Rice */ 20035244eac9SBenno Rice pvo->pvo_pmap->pm_stats.resident_count--; 20045244eac9SBenno Rice if (pvo->pvo_pte.pte_lo & PVO_WIRED) 20055244eac9SBenno Rice pvo->pvo_pmap->pm_stats.wired_count--; 20065244eac9SBenno Rice 20075244eac9SBenno Rice /* 20085244eac9SBenno Rice * Save the REF/CHG bits into their cache if the page is managed. 20095244eac9SBenno Rice */ 20104dba5df1SPeter Grehan if ((pvo->pvo_vaddr & (PVO_MANAGED|PVO_FAKE)) == PVO_MANAGED) { 20115244eac9SBenno Rice struct vm_page *pg; 20125244eac9SBenno Rice 20138862232dSBenno Rice pg = PHYS_TO_VM_PAGE(pvo->pvo_pte.pte_lo & PTE_RPGN); 20145244eac9SBenno Rice if (pg != NULL) { 201559276937SPeter Grehan moea_attr_save(pg, pvo->pvo_pte.pte_lo & 20165244eac9SBenno Rice (PTE_REF | PTE_CHG)); 20175244eac9SBenno Rice } 20185244eac9SBenno Rice } 20195244eac9SBenno Rice 20205244eac9SBenno Rice /* 20215244eac9SBenno Rice * Remove this PVO from the PV list. 20225244eac9SBenno Rice */ 20235244eac9SBenno Rice LIST_REMOVE(pvo, pvo_vlink); 20245244eac9SBenno Rice 20255244eac9SBenno Rice /* 20265244eac9SBenno Rice * Remove this from the overflow list and return it to the pool 20275244eac9SBenno Rice * if we aren't going to reuse it. 20285244eac9SBenno Rice */ 20295244eac9SBenno Rice LIST_REMOVE(pvo, pvo_olink); 203049f8f727SBenno Rice if (!(pvo->pvo_vaddr & PVO_BOOTSTRAP)) 203159276937SPeter Grehan uma_zfree(pvo->pvo_vaddr & PVO_MANAGED ? moea_mpvo_zone : 203259276937SPeter Grehan moea_upvo_zone, pvo); 203359276937SPeter Grehan moea_pvo_entries--; 203459276937SPeter Grehan moea_pvo_remove_calls++; 20355244eac9SBenno Rice } 20365244eac9SBenno Rice 20375244eac9SBenno Rice static __inline int 203859276937SPeter Grehan moea_pvo_pte_index(const struct pvo_entry *pvo, int ptegidx) 20395244eac9SBenno Rice { 20405244eac9SBenno Rice int pteidx; 20415244eac9SBenno Rice 20425244eac9SBenno Rice /* 20435244eac9SBenno Rice * We can find the actual pte entry without searching by grabbing 20445244eac9SBenno Rice * the PTEG index from 3 unused bits in pte_lo[11:9] and by 20455244eac9SBenno Rice * noticing the HID bit. 20465244eac9SBenno Rice */ 20475244eac9SBenno Rice pteidx = ptegidx * 8 + PVO_PTEGIDX_GET(pvo); 20485244eac9SBenno Rice if (pvo->pvo_pte.pte_hi & PTE_HID) 204959276937SPeter Grehan pteidx ^= moea_pteg_mask * 8; 20505244eac9SBenno Rice 20515244eac9SBenno Rice return (pteidx); 20525244eac9SBenno Rice } 20535244eac9SBenno Rice 20545244eac9SBenno Rice static struct pvo_entry * 205559276937SPeter Grehan moea_pvo_find_va(pmap_t pm, vm_offset_t va, int *pteidx_p) 20565244eac9SBenno Rice { 20575244eac9SBenno Rice struct pvo_entry *pvo; 20585244eac9SBenno Rice int ptegidx; 20595244eac9SBenno Rice u_int sr; 20605244eac9SBenno Rice 20615244eac9SBenno Rice va &= ~ADDR_POFF; 20625244eac9SBenno Rice sr = va_to_sr(pm->pm_sr, va); 20635244eac9SBenno Rice ptegidx = va_to_pteg(sr, va); 20645244eac9SBenno Rice 206559276937SPeter Grehan mtx_lock(&moea_table_mutex); 206659276937SPeter Grehan LIST_FOREACH(pvo, &moea_pvo_table[ptegidx], pvo_olink) { 20675244eac9SBenno Rice if (pvo->pvo_pmap == pm && PVO_VADDR(pvo) == va) { 20685244eac9SBenno Rice if (pteidx_p) 206959276937SPeter Grehan *pteidx_p = moea_pvo_pte_index(pvo, ptegidx); 2070f489bf21SAlan Cox break; 20715244eac9SBenno Rice } 20725244eac9SBenno Rice } 207359276937SPeter Grehan mtx_unlock(&moea_table_mutex); 20745244eac9SBenno Rice 2075f489bf21SAlan Cox return (pvo); 20765244eac9SBenno Rice } 20775244eac9SBenno Rice 20785244eac9SBenno Rice static struct pte * 207959276937SPeter Grehan moea_pvo_to_pte(const struct pvo_entry *pvo, int pteidx) 20805244eac9SBenno Rice { 20815244eac9SBenno Rice struct pte *pt; 20825244eac9SBenno Rice 20835244eac9SBenno Rice /* 20845244eac9SBenno Rice * If we haven't been supplied the ptegidx, calculate it. 20855244eac9SBenno Rice */ 20865244eac9SBenno Rice if (pteidx == -1) { 20875244eac9SBenno Rice int ptegidx; 20885244eac9SBenno Rice u_int sr; 20895244eac9SBenno Rice 20905244eac9SBenno Rice sr = va_to_sr(pvo->pvo_pmap->pm_sr, pvo->pvo_vaddr); 20915244eac9SBenno Rice ptegidx = va_to_pteg(sr, pvo->pvo_vaddr); 209259276937SPeter Grehan pteidx = moea_pvo_pte_index(pvo, ptegidx); 20935244eac9SBenno Rice } 20945244eac9SBenno Rice 209559276937SPeter Grehan pt = &moea_pteg_table[pteidx >> 3].pt[pteidx & 7]; 2096d644a0b7SAlan Cox mtx_lock(&moea_table_mutex); 20975244eac9SBenno Rice 20985244eac9SBenno Rice if ((pvo->pvo_pte.pte_hi & PTE_VALID) && !PVO_PTEGIDX_ISSET(pvo)) { 209959276937SPeter Grehan panic("moea_pvo_to_pte: pvo %p has valid pte in pvo but no " 21005244eac9SBenno Rice "valid pte index", pvo); 21015244eac9SBenno Rice } 21025244eac9SBenno Rice 21035244eac9SBenno Rice if ((pvo->pvo_pte.pte_hi & PTE_VALID) == 0 && PVO_PTEGIDX_ISSET(pvo)) { 210459276937SPeter Grehan panic("moea_pvo_to_pte: pvo %p has valid pte index in pvo " 21055244eac9SBenno Rice "pvo but no valid pte", pvo); 21065244eac9SBenno Rice } 21075244eac9SBenno Rice 21085244eac9SBenno Rice if ((pt->pte_hi ^ (pvo->pvo_pte.pte_hi & ~PTE_VALID)) == PTE_VALID) { 21095244eac9SBenno Rice if ((pvo->pvo_pte.pte_hi & PTE_VALID) == 0) { 211059276937SPeter Grehan panic("moea_pvo_to_pte: pvo %p has valid pte in " 211159276937SPeter Grehan "moea_pteg_table %p but invalid in pvo", pvo, pt); 21125244eac9SBenno Rice } 21135244eac9SBenno Rice 21145244eac9SBenno Rice if (((pt->pte_lo ^ pvo->pvo_pte.pte_lo) & ~(PTE_CHG|PTE_REF)) 21155244eac9SBenno Rice != 0) { 211659276937SPeter Grehan panic("moea_pvo_to_pte: pvo %p pte does not match " 211759276937SPeter Grehan "pte %p in moea_pteg_table", pvo, pt); 21185244eac9SBenno Rice } 21195244eac9SBenno Rice 2120d644a0b7SAlan Cox mtx_assert(&moea_table_mutex, MA_OWNED); 21215244eac9SBenno Rice return (pt); 21225244eac9SBenno Rice } 21235244eac9SBenno Rice 21245244eac9SBenno Rice if (pvo->pvo_pte.pte_hi & PTE_VALID) { 212559276937SPeter Grehan panic("moea_pvo_to_pte: pvo %p has invalid pte %p in " 212659276937SPeter Grehan "moea_pteg_table but valid in pvo", pvo, pt); 21275244eac9SBenno Rice } 21285244eac9SBenno Rice 2129d644a0b7SAlan Cox mtx_unlock(&moea_table_mutex); 21305244eac9SBenno Rice return (NULL); 21315244eac9SBenno Rice } 21325244eac9SBenno Rice 21335244eac9SBenno Rice /* 21345244eac9SBenno Rice * XXX: THIS STUFF SHOULD BE IN pte.c? 21355244eac9SBenno Rice */ 21365244eac9SBenno Rice int 213759276937SPeter Grehan moea_pte_spill(vm_offset_t addr) 21385244eac9SBenno Rice { 21395244eac9SBenno Rice struct pvo_entry *source_pvo, *victim_pvo; 21405244eac9SBenno Rice struct pvo_entry *pvo; 21415244eac9SBenno Rice int ptegidx, i, j; 21425244eac9SBenno Rice u_int sr; 21435244eac9SBenno Rice struct pteg *pteg; 21445244eac9SBenno Rice struct pte *pt; 21455244eac9SBenno Rice 214659276937SPeter Grehan moea_pte_spills++; 21475244eac9SBenno Rice 2148d080d5fdSBenno Rice sr = mfsrin(addr); 21495244eac9SBenno Rice ptegidx = va_to_pteg(sr, addr); 21505244eac9SBenno Rice 21515244eac9SBenno Rice /* 21525244eac9SBenno Rice * Have to substitute some entry. Use the primary hash for this. 21535244eac9SBenno Rice * Use low bits of timebase as random generator. 21545244eac9SBenno Rice */ 215559276937SPeter Grehan pteg = &moea_pteg_table[ptegidx]; 215659276937SPeter Grehan mtx_lock(&moea_table_mutex); 21575244eac9SBenno Rice __asm __volatile("mftb %0" : "=r"(i)); 21585244eac9SBenno Rice i &= 7; 21595244eac9SBenno Rice pt = &pteg->pt[i]; 21605244eac9SBenno Rice 21615244eac9SBenno Rice source_pvo = NULL; 21625244eac9SBenno Rice victim_pvo = NULL; 216359276937SPeter Grehan LIST_FOREACH(pvo, &moea_pvo_table[ptegidx], pvo_olink) { 21645244eac9SBenno Rice /* 21655244eac9SBenno Rice * We need to find a pvo entry for this address. 21665244eac9SBenno Rice */ 216759276937SPeter Grehan MOEA_PVO_CHECK(pvo); 21685244eac9SBenno Rice if (source_pvo == NULL && 216959276937SPeter Grehan moea_pte_match(&pvo->pvo_pte, sr, addr, 21705244eac9SBenno Rice pvo->pvo_pte.pte_hi & PTE_HID)) { 21715244eac9SBenno Rice /* 21725244eac9SBenno Rice * Now found an entry to be spilled into the pteg. 21735244eac9SBenno Rice * The PTE is now valid, so we know it's active. 21745244eac9SBenno Rice */ 217559276937SPeter Grehan j = moea_pte_insert(ptegidx, &pvo->pvo_pte); 21765244eac9SBenno Rice 21775244eac9SBenno Rice if (j >= 0) { 21785244eac9SBenno Rice PVO_PTEGIDX_SET(pvo, j); 217959276937SPeter Grehan moea_pte_overflow--; 218059276937SPeter Grehan MOEA_PVO_CHECK(pvo); 218159276937SPeter Grehan mtx_unlock(&moea_table_mutex); 21825244eac9SBenno Rice return (1); 21835244eac9SBenno Rice } 21845244eac9SBenno Rice 21855244eac9SBenno Rice source_pvo = pvo; 21865244eac9SBenno Rice 21875244eac9SBenno Rice if (victim_pvo != NULL) 21885244eac9SBenno Rice break; 21895244eac9SBenno Rice } 21905244eac9SBenno Rice 21915244eac9SBenno Rice /* 21925244eac9SBenno Rice * We also need the pvo entry of the victim we are replacing 21935244eac9SBenno Rice * so save the R & C bits of the PTE. 21945244eac9SBenno Rice */ 21955244eac9SBenno Rice if ((pt->pte_hi & PTE_HID) == 0 && victim_pvo == NULL && 219659276937SPeter Grehan moea_pte_compare(pt, &pvo->pvo_pte)) { 21975244eac9SBenno Rice victim_pvo = pvo; 21985244eac9SBenno Rice if (source_pvo != NULL) 21995244eac9SBenno Rice break; 22005244eac9SBenno Rice } 22015244eac9SBenno Rice } 22025244eac9SBenno Rice 2203f489bf21SAlan Cox if (source_pvo == NULL) { 220459276937SPeter Grehan mtx_unlock(&moea_table_mutex); 22055244eac9SBenno Rice return (0); 2206f489bf21SAlan Cox } 22075244eac9SBenno Rice 22085244eac9SBenno Rice if (victim_pvo == NULL) { 22095244eac9SBenno Rice if ((pt->pte_hi & PTE_HID) == 0) 221059276937SPeter Grehan panic("moea_pte_spill: victim p-pte (%p) has no pvo" 22115244eac9SBenno Rice "entry", pt); 22125244eac9SBenno Rice 22135244eac9SBenno Rice /* 22145244eac9SBenno Rice * If this is a secondary PTE, we need to search it's primary 22155244eac9SBenno Rice * pvo bucket for the matching PVO. 22165244eac9SBenno Rice */ 221759276937SPeter Grehan LIST_FOREACH(pvo, &moea_pvo_table[ptegidx ^ moea_pteg_mask], 22185244eac9SBenno Rice pvo_olink) { 221959276937SPeter Grehan MOEA_PVO_CHECK(pvo); 22205244eac9SBenno Rice /* 22215244eac9SBenno Rice * We also need the pvo entry of the victim we are 22225244eac9SBenno Rice * replacing so save the R & C bits of the PTE. 22235244eac9SBenno Rice */ 222459276937SPeter Grehan if (moea_pte_compare(pt, &pvo->pvo_pte)) { 22255244eac9SBenno Rice victim_pvo = pvo; 22265244eac9SBenno Rice break; 22275244eac9SBenno Rice } 22285244eac9SBenno Rice } 22295244eac9SBenno Rice 22305244eac9SBenno Rice if (victim_pvo == NULL) 223159276937SPeter Grehan panic("moea_pte_spill: victim s-pte (%p) has no pvo" 22325244eac9SBenno Rice "entry", pt); 22335244eac9SBenno Rice } 22345244eac9SBenno Rice 22355244eac9SBenno Rice /* 22365244eac9SBenno Rice * We are invalidating the TLB entry for the EA we are replacing even 22375244eac9SBenno Rice * though it's valid. If we don't, we lose any ref/chg bit changes 22385244eac9SBenno Rice * contained in the TLB entry. 22395244eac9SBenno Rice */ 22405244eac9SBenno Rice source_pvo->pvo_pte.pte_hi &= ~PTE_HID; 22415244eac9SBenno Rice 224259276937SPeter Grehan moea_pte_unset(pt, &victim_pvo->pvo_pte, victim_pvo->pvo_vaddr); 224359276937SPeter Grehan moea_pte_set(pt, &source_pvo->pvo_pte); 22445244eac9SBenno Rice 22455244eac9SBenno Rice PVO_PTEGIDX_CLR(victim_pvo); 22465244eac9SBenno Rice PVO_PTEGIDX_SET(source_pvo, i); 224759276937SPeter Grehan moea_pte_replacements++; 22485244eac9SBenno Rice 224959276937SPeter Grehan MOEA_PVO_CHECK(victim_pvo); 225059276937SPeter Grehan MOEA_PVO_CHECK(source_pvo); 22515244eac9SBenno Rice 225259276937SPeter Grehan mtx_unlock(&moea_table_mutex); 22535244eac9SBenno Rice return (1); 22545244eac9SBenno Rice } 22555244eac9SBenno Rice 22565244eac9SBenno Rice static int 225759276937SPeter Grehan moea_pte_insert(u_int ptegidx, struct pte *pvo_pt) 22585244eac9SBenno Rice { 22595244eac9SBenno Rice struct pte *pt; 22605244eac9SBenno Rice int i; 22615244eac9SBenno Rice 2262d644a0b7SAlan Cox mtx_assert(&moea_table_mutex, MA_OWNED); 2263d644a0b7SAlan Cox 22645244eac9SBenno Rice /* 22655244eac9SBenno Rice * First try primary hash. 22665244eac9SBenno Rice */ 226759276937SPeter Grehan for (pt = moea_pteg_table[ptegidx].pt, i = 0; i < 8; i++, pt++) { 22685244eac9SBenno Rice if ((pt->pte_hi & PTE_VALID) == 0) { 22695244eac9SBenno Rice pvo_pt->pte_hi &= ~PTE_HID; 227059276937SPeter Grehan moea_pte_set(pt, pvo_pt); 22715244eac9SBenno Rice return (i); 22725244eac9SBenno Rice } 22735244eac9SBenno Rice } 22745244eac9SBenno Rice 22755244eac9SBenno Rice /* 22765244eac9SBenno Rice * Now try secondary hash. 22775244eac9SBenno Rice */ 227859276937SPeter Grehan ptegidx ^= moea_pteg_mask; 22795244eac9SBenno Rice ptegidx++; 228059276937SPeter Grehan for (pt = moea_pteg_table[ptegidx].pt, i = 0; i < 8; i++, pt++) { 22815244eac9SBenno Rice if ((pt->pte_hi & PTE_VALID) == 0) { 22825244eac9SBenno Rice pvo_pt->pte_hi |= PTE_HID; 228359276937SPeter Grehan moea_pte_set(pt, pvo_pt); 22845244eac9SBenno Rice return (i); 22855244eac9SBenno Rice } 22865244eac9SBenno Rice } 22875244eac9SBenno Rice 228859276937SPeter Grehan panic("moea_pte_insert: overflow"); 22895244eac9SBenno Rice return (-1); 22905244eac9SBenno Rice } 22915244eac9SBenno Rice 22925244eac9SBenno Rice static boolean_t 229359276937SPeter Grehan moea_query_bit(vm_page_t m, int ptebit) 22945244eac9SBenno Rice { 22955244eac9SBenno Rice struct pvo_entry *pvo; 22965244eac9SBenno Rice struct pte *pt; 22975244eac9SBenno Rice 22987b33c6efSPeter Grehan #if 0 229959276937SPeter Grehan if (moea_attr_fetch(m) & ptebit) 23005244eac9SBenno Rice return (TRUE); 23017b33c6efSPeter Grehan #endif 23025244eac9SBenno Rice 23035244eac9SBenno Rice LIST_FOREACH(pvo, vm_page_to_pvoh(m), pvo_vlink) { 230459276937SPeter Grehan MOEA_PVO_CHECK(pvo); /* sanity check */ 23055244eac9SBenno Rice 23065244eac9SBenno Rice /* 23075244eac9SBenno Rice * See if we saved the bit off. If so, cache it and return 23085244eac9SBenno Rice * success. 23095244eac9SBenno Rice */ 23105244eac9SBenno Rice if (pvo->pvo_pte.pte_lo & ptebit) { 231159276937SPeter Grehan moea_attr_save(m, ptebit); 231259276937SPeter Grehan MOEA_PVO_CHECK(pvo); /* sanity check */ 23135244eac9SBenno Rice return (TRUE); 23145244eac9SBenno Rice } 23155244eac9SBenno Rice } 23165244eac9SBenno Rice 23175244eac9SBenno Rice /* 23185244eac9SBenno Rice * No luck, now go through the hard part of looking at the PTEs 23195244eac9SBenno Rice * themselves. Sync so that any pending REF/CHG bits are flushed to 23205244eac9SBenno Rice * the PTEs. 23215244eac9SBenno Rice */ 23225244eac9SBenno Rice SYNC(); 23235244eac9SBenno Rice LIST_FOREACH(pvo, vm_page_to_pvoh(m), pvo_vlink) { 232459276937SPeter Grehan MOEA_PVO_CHECK(pvo); /* sanity check */ 23255244eac9SBenno Rice 23265244eac9SBenno Rice /* 23275244eac9SBenno Rice * See if this pvo has a valid PTE. if so, fetch the 23285244eac9SBenno Rice * REF/CHG bits from the valid PTE. If the appropriate 23295244eac9SBenno Rice * ptebit is set, cache it and return success. 23305244eac9SBenno Rice */ 233159276937SPeter Grehan pt = moea_pvo_to_pte(pvo, -1); 23325244eac9SBenno Rice if (pt != NULL) { 233359276937SPeter Grehan moea_pte_synch(pt, &pvo->pvo_pte); 2334d644a0b7SAlan Cox mtx_unlock(&moea_table_mutex); 23355244eac9SBenno Rice if (pvo->pvo_pte.pte_lo & ptebit) { 233659276937SPeter Grehan moea_attr_save(m, ptebit); 233759276937SPeter Grehan MOEA_PVO_CHECK(pvo); /* sanity check */ 23385244eac9SBenno Rice return (TRUE); 23395244eac9SBenno Rice } 23405244eac9SBenno Rice } 23415244eac9SBenno Rice } 23425244eac9SBenno Rice 23434f7daed0SAndrew Gallatin return (FALSE); 23445244eac9SBenno Rice } 23455244eac9SBenno Rice 234603b6e025SPeter Grehan static u_int 234759276937SPeter Grehan moea_clear_bit(vm_page_t m, int ptebit, int *origbit) 23485244eac9SBenno Rice { 234903b6e025SPeter Grehan u_int count; 23505244eac9SBenno Rice struct pvo_entry *pvo; 23515244eac9SBenno Rice struct pte *pt; 23525244eac9SBenno Rice int rv; 23535244eac9SBenno Rice 23545244eac9SBenno Rice /* 23555244eac9SBenno Rice * Clear the cached value. 23565244eac9SBenno Rice */ 235759276937SPeter Grehan rv = moea_attr_fetch(m); 235859276937SPeter Grehan moea_attr_clear(m, ptebit); 23595244eac9SBenno Rice 23605244eac9SBenno Rice /* 23615244eac9SBenno Rice * Sync so that any pending REF/CHG bits are flushed to the PTEs (so 23625244eac9SBenno Rice * we can reset the right ones). note that since the pvo entries and 23635244eac9SBenno Rice * list heads are accessed via BAT0 and are never placed in the page 23645244eac9SBenno Rice * table, we don't have to worry about further accesses setting the 23655244eac9SBenno Rice * REF/CHG bits. 23665244eac9SBenno Rice */ 23675244eac9SBenno Rice SYNC(); 23685244eac9SBenno Rice 23695244eac9SBenno Rice /* 23705244eac9SBenno Rice * For each pvo entry, clear the pvo's ptebit. If this pvo has a 23715244eac9SBenno Rice * valid pte clear the ptebit from the valid pte. 23725244eac9SBenno Rice */ 237303b6e025SPeter Grehan count = 0; 23745244eac9SBenno Rice LIST_FOREACH(pvo, vm_page_to_pvoh(m), pvo_vlink) { 237559276937SPeter Grehan MOEA_PVO_CHECK(pvo); /* sanity check */ 237659276937SPeter Grehan pt = moea_pvo_to_pte(pvo, -1); 23775244eac9SBenno Rice if (pt != NULL) { 237859276937SPeter Grehan moea_pte_synch(pt, &pvo->pvo_pte); 237903b6e025SPeter Grehan if (pvo->pvo_pte.pte_lo & ptebit) { 238003b6e025SPeter Grehan count++; 238159276937SPeter Grehan moea_pte_clear(pt, PVO_VADDR(pvo), ptebit); 23825244eac9SBenno Rice } 2383d644a0b7SAlan Cox mtx_unlock(&moea_table_mutex); 238403b6e025SPeter Grehan } 23855244eac9SBenno Rice rv |= pvo->pvo_pte.pte_lo; 23865244eac9SBenno Rice pvo->pvo_pte.pte_lo &= ~ptebit; 238759276937SPeter Grehan MOEA_PVO_CHECK(pvo); /* sanity check */ 23885244eac9SBenno Rice } 23895244eac9SBenno Rice 239003b6e025SPeter Grehan if (origbit != NULL) { 239103b6e025SPeter Grehan *origbit = rv; 239203b6e025SPeter Grehan } 239303b6e025SPeter Grehan 239403b6e025SPeter Grehan return (count); 2395bdf71f56SBenno Rice } 23968bbfa33aSBenno Rice 23978bbfa33aSBenno Rice /* 239832bc7846SPeter Grehan * Return true if the physical range is encompassed by the battable[idx] 239932bc7846SPeter Grehan */ 240032bc7846SPeter Grehan static int 240159276937SPeter Grehan moea_bat_mapped(int idx, vm_offset_t pa, vm_size_t size) 240232bc7846SPeter Grehan { 240332bc7846SPeter Grehan u_int prot; 240432bc7846SPeter Grehan u_int32_t start; 240532bc7846SPeter Grehan u_int32_t end; 240632bc7846SPeter Grehan u_int32_t bat_ble; 240732bc7846SPeter Grehan 240832bc7846SPeter Grehan /* 240932bc7846SPeter Grehan * Return immediately if not a valid mapping 241032bc7846SPeter Grehan */ 241132bc7846SPeter Grehan if (!battable[idx].batu & BAT_Vs) 241232bc7846SPeter Grehan return (EINVAL); 241332bc7846SPeter Grehan 241432bc7846SPeter Grehan /* 241532bc7846SPeter Grehan * The BAT entry must be cache-inhibited, guarded, and r/w 241632bc7846SPeter Grehan * so it can function as an i/o page 241732bc7846SPeter Grehan */ 241832bc7846SPeter Grehan prot = battable[idx].batl & (BAT_I|BAT_G|BAT_PP_RW); 241932bc7846SPeter Grehan if (prot != (BAT_I|BAT_G|BAT_PP_RW)) 242032bc7846SPeter Grehan return (EPERM); 242132bc7846SPeter Grehan 242232bc7846SPeter Grehan /* 242332bc7846SPeter Grehan * The address should be within the BAT range. Assume that the 242432bc7846SPeter Grehan * start address in the BAT has the correct alignment (thus 242532bc7846SPeter Grehan * not requiring masking) 242632bc7846SPeter Grehan */ 242732bc7846SPeter Grehan start = battable[idx].batl & BAT_PBS; 242832bc7846SPeter Grehan bat_ble = (battable[idx].batu & ~(BAT_EBS)) | 0x03; 242932bc7846SPeter Grehan end = start | (bat_ble << 15) | 0x7fff; 243032bc7846SPeter Grehan 243132bc7846SPeter Grehan if ((pa < start) || ((pa + size) > end)) 243232bc7846SPeter Grehan return (ERANGE); 243332bc7846SPeter Grehan 243432bc7846SPeter Grehan return (0); 243532bc7846SPeter Grehan } 243632bc7846SPeter Grehan 243759276937SPeter Grehan boolean_t 243859276937SPeter Grehan moea_dev_direct_mapped(mmu_t mmu, vm_offset_t pa, vm_size_t size) 2439c0763d37SSuleiman Souhlal { 2440c0763d37SSuleiman Souhlal int i; 2441c0763d37SSuleiman Souhlal 2442c0763d37SSuleiman Souhlal /* 2443c0763d37SSuleiman Souhlal * This currently does not work for entries that 2444c0763d37SSuleiman Souhlal * overlap 256M BAT segments. 2445c0763d37SSuleiman Souhlal */ 2446c0763d37SSuleiman Souhlal 2447c0763d37SSuleiman Souhlal for(i = 0; i < 16; i++) 244859276937SPeter Grehan if (moea_bat_mapped(i, pa, size) == 0) 2449c0763d37SSuleiman Souhlal return (0); 2450c0763d37SSuleiman Souhlal 2451c0763d37SSuleiman Souhlal return (EFAULT); 2452c0763d37SSuleiman Souhlal } 245332bc7846SPeter Grehan 245432bc7846SPeter Grehan /* 24558bbfa33aSBenno Rice * Map a set of physical memory pages into the kernel virtual 24568bbfa33aSBenno Rice * address space. Return a pointer to where it is mapped. This 24578bbfa33aSBenno Rice * routine is intended to be used for mapping device memory, 24588bbfa33aSBenno Rice * NOT real memory. 24598bbfa33aSBenno Rice */ 24608bbfa33aSBenno Rice void * 246159276937SPeter Grehan moea_mapdev(mmu_t mmu, vm_offset_t pa, vm_size_t size) 24628bbfa33aSBenno Rice { 246332bc7846SPeter Grehan vm_offset_t va, tmpva, ppa, offset; 246432bc7846SPeter Grehan int i; 24658bbfa33aSBenno Rice 246632bc7846SPeter Grehan ppa = trunc_page(pa); 24678bbfa33aSBenno Rice offset = pa & PAGE_MASK; 24688bbfa33aSBenno Rice size = roundup(offset + size, PAGE_SIZE); 24698bbfa33aSBenno Rice 24708bbfa33aSBenno Rice GIANT_REQUIRED; 24718bbfa33aSBenno Rice 247232bc7846SPeter Grehan /* 247332bc7846SPeter Grehan * If the physical address lies within a valid BAT table entry, 247432bc7846SPeter Grehan * return the 1:1 mapping. This currently doesn't work 247532bc7846SPeter Grehan * for regions that overlap 256M BAT segments. 247632bc7846SPeter Grehan */ 247732bc7846SPeter Grehan for (i = 0; i < 16; i++) { 247859276937SPeter Grehan if (moea_bat_mapped(i, pa, size) == 0) 247932bc7846SPeter Grehan return ((void *) pa); 248032bc7846SPeter Grehan } 248132bc7846SPeter Grehan 2482e53f32acSAlan Cox va = kmem_alloc_nofault(kernel_map, size); 24838bbfa33aSBenno Rice if (!va) 248459276937SPeter Grehan panic("moea_mapdev: Couldn't alloc kernel virtual memory"); 24858bbfa33aSBenno Rice 24868bbfa33aSBenno Rice for (tmpva = va; size > 0;) { 248759276937SPeter Grehan moea_kenter(mmu, tmpva, ppa); 24888bbfa33aSBenno Rice TLBIE(tmpva); /* XXX or should it be invalidate-all ? */ 24898bbfa33aSBenno Rice size -= PAGE_SIZE; 24908bbfa33aSBenno Rice tmpva += PAGE_SIZE; 249132bc7846SPeter Grehan ppa += PAGE_SIZE; 24928bbfa33aSBenno Rice } 24938bbfa33aSBenno Rice 24948bbfa33aSBenno Rice return ((void *)(va + offset)); 24958bbfa33aSBenno Rice } 24968bbfa33aSBenno Rice 24978bbfa33aSBenno Rice void 249859276937SPeter Grehan moea_unmapdev(mmu_t mmu, vm_offset_t va, vm_size_t size) 24998bbfa33aSBenno Rice { 25008bbfa33aSBenno Rice vm_offset_t base, offset; 25018bbfa33aSBenno Rice 250232bc7846SPeter Grehan /* 250332bc7846SPeter Grehan * If this is outside kernel virtual space, then it's a 250432bc7846SPeter Grehan * battable entry and doesn't require unmapping 250532bc7846SPeter Grehan */ 250632bc7846SPeter Grehan if ((va >= VM_MIN_KERNEL_ADDRESS) && (va <= VM_MAX_KERNEL_ADDRESS)) { 25078bbfa33aSBenno Rice base = trunc_page(va); 25088bbfa33aSBenno Rice offset = va & PAGE_MASK; 25098bbfa33aSBenno Rice size = roundup(offset + size, PAGE_SIZE); 25108bbfa33aSBenno Rice kmem_free(kernel_map, base, size); 25118bbfa33aSBenno Rice } 251232bc7846SPeter Grehan } 2513