pmap.c revision 222531
1176771Sraj/*- 2192532Sraj * Copyright (C) 2007-2009 Semihalf, Rafal Jaworowski <raj@semihalf.com> 3176771Sraj * Copyright (C) 2006 Semihalf, Marian Balakowicz <m8@semihalf.com> 4176771Sraj * All rights reserved. 5176771Sraj * 6176771Sraj * Redistribution and use in source and binary forms, with or without 7176771Sraj * modification, are permitted provided that the following conditions 8176771Sraj * are met: 9176771Sraj * 1. Redistributions of source code must retain the above copyright 10176771Sraj * notice, this list of conditions and the following disclaimer. 11176771Sraj * 2. Redistributions in binary form must reproduce the above copyright 12176771Sraj * notice, this list of conditions and the following disclaimer in the 13176771Sraj * documentation and/or other materials provided with the distribution. 14176771Sraj * 15176771Sraj * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 16176771Sraj * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 17176771Sraj * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN 18176771Sraj * NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, 19176771Sraj * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED 20176771Sraj * TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR 21176771Sraj * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF 22176771Sraj * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING 23176771Sraj * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS 24176771Sraj * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 25176771Sraj * 26176771Sraj * Some hw specific parts of this pmap were derived or influenced 27176771Sraj * by NetBSD's ibm4xx pmap module. More generic code is shared with 28176771Sraj * a few other pmap modules from the FreeBSD tree. 29176771Sraj */ 30176771Sraj 31176771Sraj /* 32176771Sraj * VM layout notes: 33176771Sraj * 34176771Sraj * Kernel and user threads run within one common virtual address space 35176771Sraj * defined by AS=0. 36176771Sraj * 37176771Sraj * Virtual address space layout: 38176771Sraj * ----------------------------- 39187151Sraj * 0x0000_0000 - 0xafff_ffff : user process 40187151Sraj * 0xb000_0000 - 0xbfff_ffff : pmap_mapdev()-ed area (PCI/PCIE etc.) 41187151Sraj * 0xc000_0000 - 0xc0ff_ffff : kernel reserved 42190701Smarcel * 0xc000_0000 - data_end : kernel code+data, env, metadata etc. 43187151Sraj * 0xc100_0000 - 0xfeef_ffff : KVA 44187151Sraj * 0xc100_0000 - 0xc100_3fff : reserved for page zero/copy 45187151Sraj * 0xc100_4000 - 0xc200_3fff : reserved for ptbl bufs 46187151Sraj * 0xc200_4000 - 0xc200_8fff : guard page + kstack0 47187151Sraj * 0xc200_9000 - 0xfeef_ffff : actual free KVA space 48187151Sraj * 0xfef0_0000 - 0xffff_ffff : I/O devices region 49176771Sraj */ 50176771Sraj 51176771Sraj#include <sys/cdefs.h> 52176771Sraj__FBSDID("$FreeBSD: head/sys/powerpc/booke/pmap.c 222531 2011-05-31 15:11:43Z nwhitehorn $"); 53176771Sraj 54176771Sraj#include <sys/types.h> 55176771Sraj#include <sys/param.h> 56176771Sraj#include <sys/malloc.h> 57187149Sraj#include <sys/ktr.h> 58176771Sraj#include <sys/proc.h> 59176771Sraj#include <sys/user.h> 60176771Sraj#include <sys/queue.h> 61176771Sraj#include <sys/systm.h> 62176771Sraj#include <sys/kernel.h> 63176771Sraj#include <sys/msgbuf.h> 64176771Sraj#include <sys/lock.h> 65176771Sraj#include <sys/mutex.h> 66192532Sraj#include <sys/smp.h> 67176771Sraj#include <sys/vmmeter.h> 68176771Sraj 69176771Sraj#include <vm/vm.h> 70176771Sraj#include <vm/vm_page.h> 71176771Sraj#include <vm/vm_kern.h> 72176771Sraj#include <vm/vm_pageout.h> 73176771Sraj#include <vm/vm_extern.h> 74176771Sraj#include <vm/vm_object.h> 75176771Sraj#include <vm/vm_param.h> 76176771Sraj#include <vm/vm_map.h> 77176771Sraj#include <vm/vm_pager.h> 78176771Sraj#include <vm/uma.h> 79176771Sraj 80176771Sraj#include <machine/cpu.h> 81176771Sraj#include <machine/pcb.h> 82192067Snwhitehorn#include <machine/platform.h> 83176771Sraj 84176771Sraj#include <machine/tlb.h> 85176771Sraj#include <machine/spr.h> 86176771Sraj#include <machine/vmparam.h> 87176771Sraj#include <machine/md_var.h> 88176771Sraj#include <machine/mmuvar.h> 89176771Sraj#include <machine/pmap.h> 90176771Sraj#include <machine/pte.h> 91176771Sraj 92176771Sraj#include "mmu_if.h" 93176771Sraj 94176771Sraj#ifdef DEBUG 95176771Sraj#define debugf(fmt, args...) printf(fmt, ##args) 96176771Sraj#else 97176771Sraj#define debugf(fmt, args...) 98176771Sraj#endif 99176771Sraj 100176771Sraj#define TODO panic("%s: not implemented", __func__); 101176771Sraj 102176771Sraj#include "opt_sched.h" 103176771Sraj#ifndef SCHED_4BSD 104176771Sraj#error "e500 only works with SCHED_4BSD which uses a global scheduler lock." 105176771Sraj#endif 106176771Srajextern struct mtx sched_lock; 107176771Sraj 108190701Smarcelextern int dumpsys_minidump; 109190701Smarcel 110190701Smarcelextern unsigned char _etext[]; 111190701Smarcelextern unsigned char _end[]; 112190701Smarcel 113176771Sraj/* Kernel physical load address. */ 114176771Srajextern uint32_t kernload; 115190701Smarcelvm_offset_t kernstart; 116190701Smarcelvm_size_t kernsize; 117176771Sraj 118190701Smarcel/* Message buffer and tables. */ 119190701Smarcelstatic vm_offset_t data_start; 120190701Smarcelstatic vm_size_t data_end; 121190701Smarcel 122192067Snwhitehorn/* Phys/avail memory regions. */ 123192067Snwhitehornstatic struct mem_region *availmem_regions; 124192067Snwhitehornstatic int availmem_regions_sz; 125192067Snwhitehornstatic struct mem_region *physmem_regions; 126192067Snwhitehornstatic int physmem_regions_sz; 127176771Sraj 128176771Sraj/* Reserved KVA space and mutex for mmu_booke_zero_page. */ 129176771Srajstatic vm_offset_t zero_page_va; 130176771Srajstatic struct mtx zero_page_mutex; 131176771Sraj 132187149Srajstatic struct mtx tlbivax_mutex; 133187149Sraj 134176771Sraj/* 135176771Sraj * Reserved KVA space for mmu_booke_zero_page_idle. This is used 136176771Sraj * by idle thred only, no lock required. 137176771Sraj */ 138176771Srajstatic vm_offset_t zero_page_idle_va; 139176771Sraj 140176771Sraj/* Reserved KVA space and mutex for mmu_booke_copy_page. */ 141176771Srajstatic vm_offset_t copy_page_src_va; 142176771Srajstatic vm_offset_t copy_page_dst_va; 143176771Srajstatic struct mtx copy_page_mutex; 144176771Sraj 145176771Sraj/**************************************************************************/ 146176771Sraj/* PMAP */ 147176771Sraj/**************************************************************************/ 148176771Sraj 149176771Srajstatic void mmu_booke_enter_locked(mmu_t, pmap_t, vm_offset_t, vm_page_t, 150176771Sraj vm_prot_t, boolean_t); 151176771Sraj 152176771Srajunsigned int kptbl_min; /* Index of the first kernel ptbl. */ 153176771Srajunsigned int kernel_ptbls; /* Number of KVA ptbls. */ 154176771Sraj 155176771Sraj/* 156176771Sraj * If user pmap is processed with mmu_booke_remove and the resident count 157176771Sraj * drops to 0, there are no more pages to remove, so we need not continue. 158176771Sraj */ 159176771Sraj#define PMAP_REMOVE_DONE(pmap) \ 160176771Sraj ((pmap) != kernel_pmap && (pmap)->pm_stats.resident_count == 0) 161176771Sraj 162187149Srajextern void tid_flush(tlbtid_t); 163176771Sraj 164176771Sraj/**************************************************************************/ 165176771Sraj/* TLB and TID handling */ 166176771Sraj/**************************************************************************/ 167176771Sraj 168176771Sraj/* Translation ID busy table */ 169187149Srajstatic volatile pmap_t tidbusy[MAXCPU][TID_MAX + 1]; 170176771Sraj 171176771Sraj/* 172187149Sraj * TLB0 capabilities (entry, way numbers etc.). These can vary between e500 173187149Sraj * core revisions and should be read from h/w registers during early config. 174176771Sraj */ 175187149Srajuint32_t tlb0_entries; 176187149Srajuint32_t tlb0_ways; 177187149Srajuint32_t tlb0_entries_per_way; 178176771Sraj 179187149Sraj#define TLB0_ENTRIES (tlb0_entries) 180187149Sraj#define TLB0_WAYS (tlb0_ways) 181187149Sraj#define TLB0_ENTRIES_PER_WAY (tlb0_entries_per_way) 182176771Sraj 183187149Sraj#define TLB1_ENTRIES 16 184176771Sraj 185176771Sraj/* In-ram copy of the TLB1 */ 186187149Srajstatic tlb_entry_t tlb1[TLB1_ENTRIES]; 187176771Sraj 188176771Sraj/* Next free entry in the TLB1 */ 189176771Srajstatic unsigned int tlb1_idx; 190176771Sraj 191176771Srajstatic tlbtid_t tid_alloc(struct pmap *); 192176771Sraj 193187149Srajstatic void tlb_print_entry(int, uint32_t, uint32_t, uint32_t, uint32_t); 194176771Sraj 195187149Srajstatic int tlb1_set_entry(vm_offset_t, vm_offset_t, vm_size_t, uint32_t); 196176771Srajstatic void tlb1_write_entry(unsigned int); 197176771Srajstatic int tlb1_iomapped(int, vm_paddr_t, vm_size_t, vm_offset_t *); 198176771Srajstatic vm_size_t tlb1_mapin_region(vm_offset_t, vm_offset_t, vm_size_t); 199176771Sraj 200176771Srajstatic vm_size_t tsize2size(unsigned int); 201176771Srajstatic unsigned int size2tsize(vm_size_t); 202176771Srajstatic unsigned int ilog2(unsigned int); 203176771Sraj 204176771Srajstatic void set_mas4_defaults(void); 205176771Sraj 206187149Srajstatic inline void tlb0_flush_entry(vm_offset_t); 207176771Srajstatic inline unsigned int tlb0_tableidx(vm_offset_t, unsigned int); 208176771Sraj 209176771Sraj/**************************************************************************/ 210176771Sraj/* Page table management */ 211176771Sraj/**************************************************************************/ 212176771Sraj 213176771Sraj/* Data for the pv entry allocation mechanism */ 214176771Srajstatic uma_zone_t pvzone; 215176771Srajstatic struct vm_object pvzone_obj; 216176771Srajstatic int pv_entry_count = 0, pv_entry_max = 0, pv_entry_high_water = 0; 217176771Sraj 218176771Sraj#define PV_ENTRY_ZONE_MIN 2048 /* min pv entries in uma zone */ 219176771Sraj 220176771Sraj#ifndef PMAP_SHPGPERPROC 221176771Sraj#define PMAP_SHPGPERPROC 200 222176771Sraj#endif 223176771Sraj 224176771Srajstatic void ptbl_init(void); 225176771Srajstatic struct ptbl_buf *ptbl_buf_alloc(void); 226176771Srajstatic void ptbl_buf_free(struct ptbl_buf *); 227176771Srajstatic void ptbl_free_pmap_ptbl(pmap_t, pte_t *); 228176771Sraj 229187149Srajstatic pte_t *ptbl_alloc(mmu_t, pmap_t, unsigned int); 230176771Srajstatic void ptbl_free(mmu_t, pmap_t, unsigned int); 231176771Srajstatic void ptbl_hold(mmu_t, pmap_t, unsigned int); 232176771Srajstatic int ptbl_unhold(mmu_t, pmap_t, unsigned int); 233176771Sraj 234176771Srajstatic vm_paddr_t pte_vatopa(mmu_t, pmap_t, vm_offset_t); 235176771Srajstatic pte_t *pte_find(mmu_t, pmap_t, vm_offset_t); 236187149Srajstatic void pte_enter(mmu_t, pmap_t, vm_page_t, vm_offset_t, uint32_t); 237187149Srajstatic int pte_remove(mmu_t, pmap_t, vm_offset_t, uint8_t); 238176771Sraj 239187149Srajstatic pv_entry_t pv_alloc(void); 240176771Srajstatic void pv_free(pv_entry_t); 241176771Srajstatic void pv_insert(pmap_t, vm_offset_t, vm_page_t); 242176771Srajstatic void pv_remove(pmap_t, vm_offset_t, vm_page_t); 243176771Sraj 244176771Sraj/* Number of kva ptbl buffers, each covering one ptbl (PTBL_PAGES). */ 245176771Sraj#define PTBL_BUFS (128 * 16) 246176771Sraj 247176771Srajstruct ptbl_buf { 248176771Sraj TAILQ_ENTRY(ptbl_buf) link; /* list link */ 249176771Sraj vm_offset_t kva; /* va of mapping */ 250176771Sraj}; 251176771Sraj 252176771Sraj/* ptbl free list and a lock used for access synchronization. */ 253176771Srajstatic TAILQ_HEAD(, ptbl_buf) ptbl_buf_freelist; 254176771Srajstatic struct mtx ptbl_buf_freelist_lock; 255176771Sraj 256176771Sraj/* Base address of kva space allocated fot ptbl bufs. */ 257176771Srajstatic vm_offset_t ptbl_buf_pool_vabase; 258176771Sraj 259176771Sraj/* Pointer to ptbl_buf structures. */ 260176771Srajstatic struct ptbl_buf *ptbl_bufs; 261176771Sraj 262192532Srajvoid pmap_bootstrap_ap(volatile uint32_t *); 263192532Sraj 264176771Sraj/* 265176771Sraj * Kernel MMU interface 266176771Sraj */ 267176771Srajstatic void mmu_booke_change_wiring(mmu_t, pmap_t, vm_offset_t, boolean_t); 268176771Srajstatic void mmu_booke_clear_modify(mmu_t, vm_page_t); 269176771Srajstatic void mmu_booke_clear_reference(mmu_t, vm_page_t); 270194101Srajstatic void mmu_booke_copy(mmu_t, pmap_t, pmap_t, vm_offset_t, 271194101Sraj vm_size_t, vm_offset_t); 272176771Srajstatic void mmu_booke_copy_page(mmu_t, vm_page_t, vm_page_t); 273176771Srajstatic void mmu_booke_enter(mmu_t, pmap_t, vm_offset_t, vm_page_t, 274176771Sraj vm_prot_t, boolean_t); 275176771Srajstatic void mmu_booke_enter_object(mmu_t, pmap_t, vm_offset_t, vm_offset_t, 276176771Sraj vm_page_t, vm_prot_t); 277176771Srajstatic void mmu_booke_enter_quick(mmu_t, pmap_t, vm_offset_t, vm_page_t, 278176771Sraj vm_prot_t); 279176771Srajstatic vm_paddr_t mmu_booke_extract(mmu_t, pmap_t, vm_offset_t); 280176771Srajstatic vm_page_t mmu_booke_extract_and_hold(mmu_t, pmap_t, vm_offset_t, 281176771Sraj vm_prot_t); 282176771Srajstatic void mmu_booke_init(mmu_t); 283176771Srajstatic boolean_t mmu_booke_is_modified(mmu_t, vm_page_t); 284176771Srajstatic boolean_t mmu_booke_is_prefaultable(mmu_t, pmap_t, vm_offset_t); 285207155Salcstatic boolean_t mmu_booke_is_referenced(mmu_t, vm_page_t); 286176771Srajstatic boolean_t mmu_booke_ts_referenced(mmu_t, vm_page_t); 287176771Srajstatic vm_offset_t mmu_booke_map(mmu_t, vm_offset_t *, vm_offset_t, vm_offset_t, 288176771Sraj int); 289208504Salcstatic int mmu_booke_mincore(mmu_t, pmap_t, vm_offset_t, 290208504Salc vm_paddr_t *); 291176771Srajstatic void mmu_booke_object_init_pt(mmu_t, pmap_t, vm_offset_t, 292176771Sraj vm_object_t, vm_pindex_t, vm_size_t); 293176771Srajstatic boolean_t mmu_booke_page_exists_quick(mmu_t, pmap_t, vm_page_t); 294176771Srajstatic void mmu_booke_page_init(mmu_t, vm_page_t); 295176771Srajstatic int mmu_booke_page_wired_mappings(mmu_t, vm_page_t); 296176771Srajstatic void mmu_booke_pinit(mmu_t, pmap_t); 297176771Srajstatic void mmu_booke_pinit0(mmu_t, pmap_t); 298176771Srajstatic void mmu_booke_protect(mmu_t, pmap_t, vm_offset_t, vm_offset_t, 299176771Sraj vm_prot_t); 300176771Srajstatic void mmu_booke_qenter(mmu_t, vm_offset_t, vm_page_t *, int); 301176771Srajstatic void mmu_booke_qremove(mmu_t, vm_offset_t, int); 302176771Srajstatic void mmu_booke_release(mmu_t, pmap_t); 303176771Srajstatic void mmu_booke_remove(mmu_t, pmap_t, vm_offset_t, vm_offset_t); 304176771Srajstatic void mmu_booke_remove_all(mmu_t, vm_page_t); 305176771Srajstatic void mmu_booke_remove_write(mmu_t, vm_page_t); 306176771Srajstatic void mmu_booke_zero_page(mmu_t, vm_page_t); 307176771Srajstatic void mmu_booke_zero_page_area(mmu_t, vm_page_t, int, int); 308176771Srajstatic void mmu_booke_zero_page_idle(mmu_t, vm_page_t); 309176771Srajstatic void mmu_booke_activate(mmu_t, struct thread *); 310176771Srajstatic void mmu_booke_deactivate(mmu_t, struct thread *); 311176771Srajstatic void mmu_booke_bootstrap(mmu_t, vm_offset_t, vm_offset_t); 312176771Srajstatic void *mmu_booke_mapdev(mmu_t, vm_offset_t, vm_size_t); 313176771Srajstatic void mmu_booke_unmapdev(mmu_t, vm_offset_t, vm_size_t); 314176771Srajstatic vm_offset_t mmu_booke_kextract(mmu_t, vm_offset_t); 315176771Srajstatic void mmu_booke_kenter(mmu_t, vm_offset_t, vm_offset_t); 316176771Srajstatic void mmu_booke_kremove(mmu_t, vm_offset_t); 317176771Srajstatic boolean_t mmu_booke_dev_direct_mapped(mmu_t, vm_offset_t, vm_size_t); 318198341Smarcelstatic void mmu_booke_sync_icache(mmu_t, pmap_t, vm_offset_t, 319198341Smarcel vm_size_t); 320190701Smarcelstatic vm_offset_t mmu_booke_dumpsys_map(mmu_t, struct pmap_md *, 321190701Smarcel vm_size_t, vm_size_t *); 322190701Smarcelstatic void mmu_booke_dumpsys_unmap(mmu_t, struct pmap_md *, 323190701Smarcel vm_size_t, vm_offset_t); 324190701Smarcelstatic struct pmap_md *mmu_booke_scan_md(mmu_t, struct pmap_md *); 325176771Sraj 326176771Srajstatic mmu_method_t mmu_booke_methods[] = { 327176771Sraj /* pmap dispatcher interface */ 328176771Sraj MMUMETHOD(mmu_change_wiring, mmu_booke_change_wiring), 329176771Sraj MMUMETHOD(mmu_clear_modify, mmu_booke_clear_modify), 330176771Sraj MMUMETHOD(mmu_clear_reference, mmu_booke_clear_reference), 331176771Sraj MMUMETHOD(mmu_copy, mmu_booke_copy), 332176771Sraj MMUMETHOD(mmu_copy_page, mmu_booke_copy_page), 333176771Sraj MMUMETHOD(mmu_enter, mmu_booke_enter), 334176771Sraj MMUMETHOD(mmu_enter_object, mmu_booke_enter_object), 335176771Sraj MMUMETHOD(mmu_enter_quick, mmu_booke_enter_quick), 336176771Sraj MMUMETHOD(mmu_extract, mmu_booke_extract), 337176771Sraj MMUMETHOD(mmu_extract_and_hold, mmu_booke_extract_and_hold), 338176771Sraj MMUMETHOD(mmu_init, mmu_booke_init), 339176771Sraj MMUMETHOD(mmu_is_modified, mmu_booke_is_modified), 340176771Sraj MMUMETHOD(mmu_is_prefaultable, mmu_booke_is_prefaultable), 341207155Salc MMUMETHOD(mmu_is_referenced, mmu_booke_is_referenced), 342176771Sraj MMUMETHOD(mmu_ts_referenced, mmu_booke_ts_referenced), 343176771Sraj MMUMETHOD(mmu_map, mmu_booke_map), 344176771Sraj MMUMETHOD(mmu_mincore, mmu_booke_mincore), 345176771Sraj MMUMETHOD(mmu_object_init_pt, mmu_booke_object_init_pt), 346176771Sraj MMUMETHOD(mmu_page_exists_quick,mmu_booke_page_exists_quick), 347176771Sraj MMUMETHOD(mmu_page_init, mmu_booke_page_init), 348176771Sraj MMUMETHOD(mmu_page_wired_mappings, mmu_booke_page_wired_mappings), 349176771Sraj MMUMETHOD(mmu_pinit, mmu_booke_pinit), 350176771Sraj MMUMETHOD(mmu_pinit0, mmu_booke_pinit0), 351176771Sraj MMUMETHOD(mmu_protect, mmu_booke_protect), 352176771Sraj MMUMETHOD(mmu_qenter, mmu_booke_qenter), 353176771Sraj MMUMETHOD(mmu_qremove, mmu_booke_qremove), 354176771Sraj MMUMETHOD(mmu_release, mmu_booke_release), 355176771Sraj MMUMETHOD(mmu_remove, mmu_booke_remove), 356176771Sraj MMUMETHOD(mmu_remove_all, mmu_booke_remove_all), 357176771Sraj MMUMETHOD(mmu_remove_write, mmu_booke_remove_write), 358198341Smarcel MMUMETHOD(mmu_sync_icache, mmu_booke_sync_icache), 359176771Sraj MMUMETHOD(mmu_zero_page, mmu_booke_zero_page), 360176771Sraj MMUMETHOD(mmu_zero_page_area, mmu_booke_zero_page_area), 361176771Sraj MMUMETHOD(mmu_zero_page_idle, mmu_booke_zero_page_idle), 362176771Sraj MMUMETHOD(mmu_activate, mmu_booke_activate), 363176771Sraj MMUMETHOD(mmu_deactivate, mmu_booke_deactivate), 364176771Sraj 365176771Sraj /* Internal interfaces */ 366176771Sraj MMUMETHOD(mmu_bootstrap, mmu_booke_bootstrap), 367176771Sraj MMUMETHOD(mmu_dev_direct_mapped,mmu_booke_dev_direct_mapped), 368176771Sraj MMUMETHOD(mmu_mapdev, mmu_booke_mapdev), 369176771Sraj MMUMETHOD(mmu_kenter, mmu_booke_kenter), 370176771Sraj MMUMETHOD(mmu_kextract, mmu_booke_kextract), 371176771Sraj/* MMUMETHOD(mmu_kremove, mmu_booke_kremove), */ 372176771Sraj MMUMETHOD(mmu_unmapdev, mmu_booke_unmapdev), 373176771Sraj 374190701Smarcel /* dumpsys() support */ 375190701Smarcel MMUMETHOD(mmu_dumpsys_map, mmu_booke_dumpsys_map), 376190701Smarcel MMUMETHOD(mmu_dumpsys_unmap, mmu_booke_dumpsys_unmap), 377190701Smarcel MMUMETHOD(mmu_scan_md, mmu_booke_scan_md), 378190701Smarcel 379176771Sraj { 0, 0 } 380176771Sraj}; 381176771Sraj 382212627SgrehanMMU_DEF(booke_mmu, MMU_TYPE_BOOKE, mmu_booke_methods, 0); 383176771Sraj 384192532Srajstatic inline void 385192532Srajtlb_miss_lock(void) 386192532Sraj{ 387192532Sraj#ifdef SMP 388192532Sraj struct pcpu *pc; 389192532Sraj 390192532Sraj if (!smp_started) 391192532Sraj return; 392192532Sraj 393222531Snwhitehorn STAILQ_FOREACH(pc, &cpuhead, pc_allcpu) { 394192532Sraj if (pc != pcpup) { 395192532Sraj 396192532Sraj CTR3(KTR_PMAP, "%s: tlb miss LOCK of CPU=%d, " 397192532Sraj "tlb_lock=%p", __func__, pc->pc_cpuid, pc->pc_booke_tlb_lock); 398192532Sraj 399192532Sraj KASSERT((pc->pc_cpuid != PCPU_GET(cpuid)), 400192532Sraj ("tlb_miss_lock: tried to lock self")); 401192532Sraj 402192532Sraj tlb_lock(pc->pc_booke_tlb_lock); 403192532Sraj 404192532Sraj CTR1(KTR_PMAP, "%s: locked", __func__); 405192532Sraj } 406192532Sraj } 407192532Sraj#endif 408192532Sraj} 409192532Sraj 410192532Srajstatic inline void 411192532Srajtlb_miss_unlock(void) 412192532Sraj{ 413192532Sraj#ifdef SMP 414192532Sraj struct pcpu *pc; 415192532Sraj 416192532Sraj if (!smp_started) 417192532Sraj return; 418192532Sraj 419222531Snwhitehorn STAILQ_FOREACH(pc, &cpuhead, pc_allcpu) { 420192532Sraj if (pc != pcpup) { 421192532Sraj CTR2(KTR_PMAP, "%s: tlb miss UNLOCK of CPU=%d", 422192532Sraj __func__, pc->pc_cpuid); 423192532Sraj 424192532Sraj tlb_unlock(pc->pc_booke_tlb_lock); 425192532Sraj 426192532Sraj CTR1(KTR_PMAP, "%s: unlocked", __func__); 427192532Sraj } 428192532Sraj } 429192532Sraj#endif 430192532Sraj} 431192532Sraj 432176771Sraj/* Return number of entries in TLB0. */ 433176771Srajstatic __inline void 434176771Srajtlb0_get_tlbconf(void) 435176771Sraj{ 436176771Sraj uint32_t tlb0_cfg; 437176771Sraj 438176771Sraj tlb0_cfg = mfspr(SPR_TLB0CFG); 439187149Sraj tlb0_entries = tlb0_cfg & TLBCFG_NENTRY_MASK; 440187149Sraj tlb0_ways = (tlb0_cfg & TLBCFG_ASSOC_MASK) >> TLBCFG_ASSOC_SHIFT; 441187149Sraj tlb0_entries_per_way = tlb0_entries / tlb0_ways; 442176771Sraj} 443176771Sraj 444176771Sraj/* Initialize pool of kva ptbl buffers. */ 445176771Srajstatic void 446176771Srajptbl_init(void) 447176771Sraj{ 448176771Sraj int i; 449176771Sraj 450187151Sraj CTR3(KTR_PMAP, "%s: s (ptbl_bufs = 0x%08x size 0x%08x)", __func__, 451187151Sraj (uint32_t)ptbl_bufs, sizeof(struct ptbl_buf) * PTBL_BUFS); 452187151Sraj CTR3(KTR_PMAP, "%s: s (ptbl_buf_pool_vabase = 0x%08x size = 0x%08x)", 453187151Sraj __func__, ptbl_buf_pool_vabase, PTBL_BUFS * PTBL_PAGES * PAGE_SIZE); 454176771Sraj 455176771Sraj mtx_init(&ptbl_buf_freelist_lock, "ptbl bufs lock", NULL, MTX_DEF); 456176771Sraj TAILQ_INIT(&ptbl_buf_freelist); 457176771Sraj 458176771Sraj for (i = 0; i < PTBL_BUFS; i++) { 459176771Sraj ptbl_bufs[i].kva = ptbl_buf_pool_vabase + i * PTBL_PAGES * PAGE_SIZE; 460176771Sraj TAILQ_INSERT_TAIL(&ptbl_buf_freelist, &ptbl_bufs[i], link); 461176771Sraj } 462176771Sraj} 463176771Sraj 464182362Sraj/* Get a ptbl_buf from the freelist. */ 465176771Srajstatic struct ptbl_buf * 466176771Srajptbl_buf_alloc(void) 467176771Sraj{ 468176771Sraj struct ptbl_buf *buf; 469176771Sraj 470176771Sraj mtx_lock(&ptbl_buf_freelist_lock); 471176771Sraj buf = TAILQ_FIRST(&ptbl_buf_freelist); 472176771Sraj if (buf != NULL) 473176771Sraj TAILQ_REMOVE(&ptbl_buf_freelist, buf, link); 474176771Sraj mtx_unlock(&ptbl_buf_freelist_lock); 475176771Sraj 476187151Sraj CTR2(KTR_PMAP, "%s: buf = %p", __func__, buf); 477187151Sraj 478176771Sraj return (buf); 479176771Sraj} 480176771Sraj 481176771Sraj/* Return ptbl buff to free pool. */ 482176771Srajstatic void 483176771Srajptbl_buf_free(struct ptbl_buf *buf) 484176771Sraj{ 485176771Sraj 486187149Sraj CTR2(KTR_PMAP, "%s: buf = %p", __func__, buf); 487176771Sraj 488176771Sraj mtx_lock(&ptbl_buf_freelist_lock); 489176771Sraj TAILQ_INSERT_TAIL(&ptbl_buf_freelist, buf, link); 490176771Sraj mtx_unlock(&ptbl_buf_freelist_lock); 491176771Sraj} 492176771Sraj 493176771Sraj/* 494187149Sraj * Search the list of allocated ptbl bufs and find on list of allocated ptbls 495176771Sraj */ 496176771Srajstatic void 497176771Srajptbl_free_pmap_ptbl(pmap_t pmap, pte_t *ptbl) 498176771Sraj{ 499176771Sraj struct ptbl_buf *pbuf; 500176771Sraj 501187149Sraj CTR2(KTR_PMAP, "%s: ptbl = %p", __func__, ptbl); 502176771Sraj 503187149Sraj PMAP_LOCK_ASSERT(pmap, MA_OWNED); 504187149Sraj 505187149Sraj TAILQ_FOREACH(pbuf, &pmap->pm_ptbl_list, link) 506176771Sraj if (pbuf->kva == (vm_offset_t)ptbl) { 507176771Sraj /* Remove from pmap ptbl buf list. */ 508187149Sraj TAILQ_REMOVE(&pmap->pm_ptbl_list, pbuf, link); 509176771Sraj 510187149Sraj /* Free corresponding ptbl buf. */ 511176771Sraj ptbl_buf_free(pbuf); 512176771Sraj break; 513176771Sraj } 514176771Sraj} 515176771Sraj 516176771Sraj/* Allocate page table. */ 517187149Srajstatic pte_t * 518176771Srajptbl_alloc(mmu_t mmu, pmap_t pmap, unsigned int pdir_idx) 519176771Sraj{ 520176771Sraj vm_page_t mtbl[PTBL_PAGES]; 521176771Sraj vm_page_t m; 522176771Sraj struct ptbl_buf *pbuf; 523176771Sraj unsigned int pidx; 524187149Sraj pte_t *ptbl; 525176771Sraj int i; 526176771Sraj 527187149Sraj CTR4(KTR_PMAP, "%s: pmap = %p su = %d pdir_idx = %d", __func__, pmap, 528187149Sraj (pmap == kernel_pmap), pdir_idx); 529176771Sraj 530176771Sraj KASSERT((pdir_idx <= (VM_MAXUSER_ADDRESS / PDIR_SIZE)), 531176771Sraj ("ptbl_alloc: invalid pdir_idx")); 532176771Sraj KASSERT((pmap->pm_pdir[pdir_idx] == NULL), 533176771Sraj ("pte_alloc: valid ptbl entry exists!")); 534176771Sraj 535176771Sraj pbuf = ptbl_buf_alloc(); 536176771Sraj if (pbuf == NULL) 537176771Sraj panic("pte_alloc: couldn't alloc kernel virtual memory"); 538187149Sraj 539187149Sraj ptbl = (pte_t *)pbuf->kva; 540176771Sraj 541187149Sraj CTR2(KTR_PMAP, "%s: ptbl kva = %p", __func__, ptbl); 542187149Sraj 543176771Sraj /* Allocate ptbl pages, this will sleep! */ 544176771Sraj for (i = 0; i < PTBL_PAGES; i++) { 545176771Sraj pidx = (PTBL_PAGES * pdir_idx) + i; 546187149Sraj while ((m = vm_page_alloc(NULL, pidx, 547187149Sraj VM_ALLOC_NOOBJ | VM_ALLOC_WIRED)) == NULL) { 548187149Sraj 549176771Sraj PMAP_UNLOCK(pmap); 550176771Sraj vm_page_unlock_queues(); 551176771Sraj VM_WAIT; 552176771Sraj vm_page_lock_queues(); 553176771Sraj PMAP_LOCK(pmap); 554176771Sraj } 555176771Sraj mtbl[i] = m; 556176771Sraj } 557176771Sraj 558187149Sraj /* Map allocated pages into kernel_pmap. */ 559187149Sraj mmu_booke_qenter(mmu, (vm_offset_t)ptbl, mtbl, PTBL_PAGES); 560176771Sraj 561176771Sraj /* Zero whole ptbl. */ 562187149Sraj bzero((caddr_t)ptbl, PTBL_PAGES * PAGE_SIZE); 563176771Sraj 564176771Sraj /* Add pbuf to the pmap ptbl bufs list. */ 565187149Sraj TAILQ_INSERT_TAIL(&pmap->pm_ptbl_list, pbuf, link); 566176771Sraj 567187149Sraj return (ptbl); 568176771Sraj} 569176771Sraj 570176771Sraj/* Free ptbl pages and invalidate pdir entry. */ 571176771Srajstatic void 572176771Srajptbl_free(mmu_t mmu, pmap_t pmap, unsigned int pdir_idx) 573176771Sraj{ 574176771Sraj pte_t *ptbl; 575176771Sraj vm_paddr_t pa; 576176771Sraj vm_offset_t va; 577176771Sraj vm_page_t m; 578176771Sraj int i; 579176771Sraj 580187149Sraj CTR4(KTR_PMAP, "%s: pmap = %p su = %d pdir_idx = %d", __func__, pmap, 581187149Sraj (pmap == kernel_pmap), pdir_idx); 582176771Sraj 583176771Sraj KASSERT((pdir_idx <= (VM_MAXUSER_ADDRESS / PDIR_SIZE)), 584176771Sraj ("ptbl_free: invalid pdir_idx")); 585176771Sraj 586176771Sraj ptbl = pmap->pm_pdir[pdir_idx]; 587176771Sraj 588187149Sraj CTR2(KTR_PMAP, "%s: ptbl = %p", __func__, ptbl); 589187149Sraj 590176771Sraj KASSERT((ptbl != NULL), ("ptbl_free: null ptbl")); 591176771Sraj 592187149Sraj /* 593187149Sraj * Invalidate the pdir entry as soon as possible, so that other CPUs 594187149Sraj * don't attempt to look up the page tables we are releasing. 595187149Sraj */ 596187149Sraj mtx_lock_spin(&tlbivax_mutex); 597192532Sraj tlb_miss_lock(); 598187149Sraj 599187149Sraj pmap->pm_pdir[pdir_idx] = NULL; 600187149Sraj 601192532Sraj tlb_miss_unlock(); 602187149Sraj mtx_unlock_spin(&tlbivax_mutex); 603187149Sraj 604176771Sraj for (i = 0; i < PTBL_PAGES; i++) { 605176771Sraj va = ((vm_offset_t)ptbl + (i * PAGE_SIZE)); 606176771Sraj pa = pte_vatopa(mmu, kernel_pmap, va); 607176771Sraj m = PHYS_TO_VM_PAGE(pa); 608176771Sraj vm_page_free_zero(m); 609176771Sraj atomic_subtract_int(&cnt.v_wire_count, 1); 610176771Sraj mmu_booke_kremove(mmu, va); 611176771Sraj } 612176771Sraj 613176771Sraj ptbl_free_pmap_ptbl(pmap, ptbl); 614176771Sraj} 615176771Sraj 616176771Sraj/* 617176771Sraj * Decrement ptbl pages hold count and attempt to free ptbl pages. 618176771Sraj * Called when removing pte entry from ptbl. 619176771Sraj * 620176771Sraj * Return 1 if ptbl pages were freed. 621176771Sraj */ 622176771Srajstatic int 623176771Srajptbl_unhold(mmu_t mmu, pmap_t pmap, unsigned int pdir_idx) 624176771Sraj{ 625176771Sraj pte_t *ptbl; 626176771Sraj vm_paddr_t pa; 627176771Sraj vm_page_t m; 628176771Sraj int i; 629176771Sraj 630187151Sraj CTR4(KTR_PMAP, "%s: pmap = %p su = %d pdir_idx = %d", __func__, pmap, 631187151Sraj (pmap == kernel_pmap), pdir_idx); 632176771Sraj 633176771Sraj KASSERT((pdir_idx <= (VM_MAXUSER_ADDRESS / PDIR_SIZE)), 634176771Sraj ("ptbl_unhold: invalid pdir_idx")); 635176771Sraj KASSERT((pmap != kernel_pmap), 636176771Sraj ("ptbl_unhold: unholding kernel ptbl!")); 637176771Sraj 638176771Sraj ptbl = pmap->pm_pdir[pdir_idx]; 639176771Sraj 640176771Sraj //debugf("ptbl_unhold: ptbl = 0x%08x\n", (u_int32_t)ptbl); 641176771Sraj KASSERT(((vm_offset_t)ptbl >= VM_MIN_KERNEL_ADDRESS), 642176771Sraj ("ptbl_unhold: non kva ptbl")); 643176771Sraj 644176771Sraj /* decrement hold count */ 645176771Sraj for (i = 0; i < PTBL_PAGES; i++) { 646187151Sraj pa = pte_vatopa(mmu, kernel_pmap, 647187151Sraj (vm_offset_t)ptbl + (i * PAGE_SIZE)); 648176771Sraj m = PHYS_TO_VM_PAGE(pa); 649176771Sraj m->wire_count--; 650176771Sraj } 651176771Sraj 652176771Sraj /* 653176771Sraj * Free ptbl pages if there are no pte etries in this ptbl. 654187151Sraj * wire_count has the same value for all ptbl pages, so check the last 655187151Sraj * page. 656176771Sraj */ 657176771Sraj if (m->wire_count == 0) { 658176771Sraj ptbl_free(mmu, pmap, pdir_idx); 659176771Sraj 660176771Sraj //debugf("ptbl_unhold: e (freed ptbl)\n"); 661176771Sraj return (1); 662176771Sraj } 663176771Sraj 664176771Sraj return (0); 665176771Sraj} 666176771Sraj 667176771Sraj/* 668187151Sraj * Increment hold count for ptbl pages. This routine is used when a new pte 669187151Sraj * entry is being inserted into the ptbl. 670176771Sraj */ 671176771Srajstatic void 672176771Srajptbl_hold(mmu_t mmu, pmap_t pmap, unsigned int pdir_idx) 673176771Sraj{ 674176771Sraj vm_paddr_t pa; 675176771Sraj pte_t *ptbl; 676176771Sraj vm_page_t m; 677176771Sraj int i; 678176771Sraj 679187151Sraj CTR3(KTR_PMAP, "%s: pmap = %p pdir_idx = %d", __func__, pmap, 680187151Sraj pdir_idx); 681176771Sraj 682176771Sraj KASSERT((pdir_idx <= (VM_MAXUSER_ADDRESS / PDIR_SIZE)), 683176771Sraj ("ptbl_hold: invalid pdir_idx")); 684176771Sraj KASSERT((pmap != kernel_pmap), 685176771Sraj ("ptbl_hold: holding kernel ptbl!")); 686176771Sraj 687176771Sraj ptbl = pmap->pm_pdir[pdir_idx]; 688176771Sraj 689176771Sraj KASSERT((ptbl != NULL), ("ptbl_hold: null ptbl")); 690176771Sraj 691176771Sraj for (i = 0; i < PTBL_PAGES; i++) { 692187151Sraj pa = pte_vatopa(mmu, kernel_pmap, 693187151Sraj (vm_offset_t)ptbl + (i * PAGE_SIZE)); 694176771Sraj m = PHYS_TO_VM_PAGE(pa); 695176771Sraj m->wire_count++; 696176771Sraj } 697176771Sraj} 698176771Sraj 699176771Sraj/* Allocate pv_entry structure. */ 700176771Srajpv_entry_t 701176771Srajpv_alloc(void) 702176771Sraj{ 703176771Sraj pv_entry_t pv; 704176771Sraj 705176771Sraj pv_entry_count++; 706194123Salc if (pv_entry_count > pv_entry_high_water) 707194123Salc pagedaemon_wakeup(); 708176771Sraj pv = uma_zalloc(pvzone, M_NOWAIT); 709176771Sraj 710176771Sraj return (pv); 711176771Sraj} 712176771Sraj 713176771Sraj/* Free pv_entry structure. */ 714176771Srajstatic __inline void 715176771Srajpv_free(pv_entry_t pve) 716176771Sraj{ 717176771Sraj 718176771Sraj pv_entry_count--; 719176771Sraj uma_zfree(pvzone, pve); 720176771Sraj} 721176771Sraj 722176771Sraj 723176771Sraj/* Allocate and initialize pv_entry structure. */ 724176771Srajstatic void 725176771Srajpv_insert(pmap_t pmap, vm_offset_t va, vm_page_t m) 726176771Sraj{ 727176771Sraj pv_entry_t pve; 728176771Sraj 729176771Sraj //int su = (pmap == kernel_pmap); 730176771Sraj //debugf("pv_insert: s (su = %d pmap = 0x%08x va = 0x%08x m = 0x%08x)\n", su, 731176771Sraj // (u_int32_t)pmap, va, (u_int32_t)m); 732176771Sraj 733176771Sraj pve = pv_alloc(); 734176771Sraj if (pve == NULL) 735176771Sraj panic("pv_insert: no pv entries!"); 736176771Sraj 737176771Sraj pve->pv_pmap = pmap; 738176771Sraj pve->pv_va = va; 739176771Sraj 740176771Sraj /* add to pv_list */ 741176771Sraj PMAP_LOCK_ASSERT(pmap, MA_OWNED); 742176771Sraj mtx_assert(&vm_page_queue_mtx, MA_OWNED); 743176771Sraj 744176771Sraj TAILQ_INSERT_TAIL(&m->md.pv_list, pve, pv_link); 745176771Sraj 746176771Sraj //debugf("pv_insert: e\n"); 747176771Sraj} 748176771Sraj 749176771Sraj/* Destroy pv entry. */ 750176771Srajstatic void 751176771Srajpv_remove(pmap_t pmap, vm_offset_t va, vm_page_t m) 752176771Sraj{ 753176771Sraj pv_entry_t pve; 754176771Sraj 755176771Sraj //int su = (pmap == kernel_pmap); 756176771Sraj //debugf("pv_remove: s (su = %d pmap = 0x%08x va = 0x%08x)\n", su, (u_int32_t)pmap, va); 757176771Sraj 758176771Sraj PMAP_LOCK_ASSERT(pmap, MA_OWNED); 759176771Sraj mtx_assert(&vm_page_queue_mtx, MA_OWNED); 760176771Sraj 761176771Sraj /* find pv entry */ 762176771Sraj TAILQ_FOREACH(pve, &m->md.pv_list, pv_link) { 763176771Sraj if ((pmap == pve->pv_pmap) && (va == pve->pv_va)) { 764176771Sraj /* remove from pv_list */ 765176771Sraj TAILQ_REMOVE(&m->md.pv_list, pve, pv_link); 766176771Sraj if (TAILQ_EMPTY(&m->md.pv_list)) 767176771Sraj vm_page_flag_clear(m, PG_WRITEABLE); 768176771Sraj 769176771Sraj /* free pv entry struct */ 770176771Sraj pv_free(pve); 771176771Sraj break; 772176771Sraj } 773176771Sraj } 774176771Sraj 775176771Sraj //debugf("pv_remove: e\n"); 776176771Sraj} 777176771Sraj 778176771Sraj/* 779176771Sraj * Clean pte entry, try to free page table page if requested. 780176771Sraj * 781176771Sraj * Return 1 if ptbl pages were freed, otherwise return 0. 782176771Sraj */ 783176771Srajstatic int 784187151Srajpte_remove(mmu_t mmu, pmap_t pmap, vm_offset_t va, uint8_t flags) 785176771Sraj{ 786176771Sraj unsigned int pdir_idx = PDIR_IDX(va); 787176771Sraj unsigned int ptbl_idx = PTBL_IDX(va); 788176771Sraj vm_page_t m; 789176771Sraj pte_t *ptbl; 790176771Sraj pte_t *pte; 791176771Sraj 792176771Sraj //int su = (pmap == kernel_pmap); 793176771Sraj //debugf("pte_remove: s (su = %d pmap = 0x%08x va = 0x%08x flags = %d)\n", 794176771Sraj // su, (u_int32_t)pmap, va, flags); 795176771Sraj 796176771Sraj ptbl = pmap->pm_pdir[pdir_idx]; 797176771Sraj KASSERT(ptbl, ("pte_remove: null ptbl")); 798176771Sraj 799176771Sraj pte = &ptbl[ptbl_idx]; 800176771Sraj 801176771Sraj if (pte == NULL || !PTE_ISVALID(pte)) 802176771Sraj return (0); 803176771Sraj 804176771Sraj if (PTE_ISWIRED(pte)) 805176771Sraj pmap->pm_stats.wired_count--; 806176771Sraj 807191445Smarcel /* Handle managed entry. */ 808191445Smarcel if (PTE_ISMANAGED(pte)) { 809191445Smarcel /* Get vm_page_t for mapped pte. */ 810191445Smarcel m = PHYS_TO_VM_PAGE(PTE_PA(pte)); 811176771Sraj 812191445Smarcel if (PTE_ISMODIFIED(pte)) 813191445Smarcel vm_page_dirty(m); 814176771Sraj 815191445Smarcel if (PTE_ISREFERENCED(pte)) 816191445Smarcel vm_page_flag_set(m, PG_REFERENCED); 817176771Sraj 818191445Smarcel pv_remove(pmap, va, m); 819176771Sraj } 820176771Sraj 821187149Sraj mtx_lock_spin(&tlbivax_mutex); 822192532Sraj tlb_miss_lock(); 823187149Sraj 824187149Sraj tlb0_flush_entry(va); 825176771Sraj pte->flags = 0; 826176771Sraj pte->rpn = 0; 827187149Sraj 828192532Sraj tlb_miss_unlock(); 829187149Sraj mtx_unlock_spin(&tlbivax_mutex); 830187149Sraj 831176771Sraj pmap->pm_stats.resident_count--; 832176771Sraj 833176771Sraj if (flags & PTBL_UNHOLD) { 834176771Sraj //debugf("pte_remove: e (unhold)\n"); 835176771Sraj return (ptbl_unhold(mmu, pmap, pdir_idx)); 836176771Sraj } 837176771Sraj 838176771Sraj //debugf("pte_remove: e\n"); 839176771Sraj return (0); 840176771Sraj} 841176771Sraj 842176771Sraj/* 843176771Sraj * Insert PTE for a given page and virtual address. 844176771Sraj */ 845187149Srajstatic void 846187149Srajpte_enter(mmu_t mmu, pmap_t pmap, vm_page_t m, vm_offset_t va, uint32_t flags) 847176771Sraj{ 848176771Sraj unsigned int pdir_idx = PDIR_IDX(va); 849176771Sraj unsigned int ptbl_idx = PTBL_IDX(va); 850187149Sraj pte_t *ptbl, *pte; 851176771Sraj 852187149Sraj CTR4(KTR_PMAP, "%s: su = %d pmap = %p va = %p", __func__, 853187149Sraj pmap == kernel_pmap, pmap, va); 854176771Sraj 855176771Sraj /* Get the page table pointer. */ 856176771Sraj ptbl = pmap->pm_pdir[pdir_idx]; 857176771Sraj 858187149Sraj if (ptbl == NULL) { 859187149Sraj /* Allocate page table pages. */ 860187149Sraj ptbl = ptbl_alloc(mmu, pmap, pdir_idx); 861187149Sraj } else { 862176771Sraj /* 863176771Sraj * Check if there is valid mapping for requested 864176771Sraj * va, if there is, remove it. 865176771Sraj */ 866176771Sraj pte = &pmap->pm_pdir[pdir_idx][ptbl_idx]; 867176771Sraj if (PTE_ISVALID(pte)) { 868176771Sraj pte_remove(mmu, pmap, va, PTBL_HOLD); 869176771Sraj } else { 870176771Sraj /* 871176771Sraj * pte is not used, increment hold count 872176771Sraj * for ptbl pages. 873176771Sraj */ 874176771Sraj if (pmap != kernel_pmap) 875176771Sraj ptbl_hold(mmu, pmap, pdir_idx); 876176771Sraj } 877176771Sraj } 878176771Sraj 879176771Sraj /* 880187149Sraj * Insert pv_entry into pv_list for mapped page if part of managed 881187149Sraj * memory. 882176771Sraj */ 883176771Sraj if ((m->flags & PG_FICTITIOUS) == 0) { 884176771Sraj if ((m->flags & PG_UNMANAGED) == 0) { 885187149Sraj flags |= PTE_MANAGED; 886176771Sraj 887176771Sraj /* Create and insert pv entry. */ 888176771Sraj pv_insert(pmap, va, m); 889176771Sraj } 890176771Sraj } 891176771Sraj 892176771Sraj pmap->pm_stats.resident_count++; 893187149Sraj 894187149Sraj mtx_lock_spin(&tlbivax_mutex); 895192532Sraj tlb_miss_lock(); 896187149Sraj 897187149Sraj tlb0_flush_entry(va); 898187149Sraj if (pmap->pm_pdir[pdir_idx] == NULL) { 899187149Sraj /* 900187149Sraj * If we just allocated a new page table, hook it in 901187149Sraj * the pdir. 902187149Sraj */ 903187149Sraj pmap->pm_pdir[pdir_idx] = ptbl; 904187149Sraj } 905187149Sraj pte = &(pmap->pm_pdir[pdir_idx][ptbl_idx]); 906176771Sraj pte->rpn = VM_PAGE_TO_PHYS(m) & ~PTE_PA_MASK; 907176771Sraj pte->flags |= (PTE_VALID | flags); 908176771Sraj 909192532Sraj tlb_miss_unlock(); 910187149Sraj mtx_unlock_spin(&tlbivax_mutex); 911176771Sraj} 912176771Sraj 913176771Sraj/* Return the pa for the given pmap/va. */ 914176771Srajstatic vm_paddr_t 915176771Srajpte_vatopa(mmu_t mmu, pmap_t pmap, vm_offset_t va) 916176771Sraj{ 917176771Sraj vm_paddr_t pa = 0; 918176771Sraj pte_t *pte; 919176771Sraj 920176771Sraj pte = pte_find(mmu, pmap, va); 921176771Sraj if ((pte != NULL) && PTE_ISVALID(pte)) 922176771Sraj pa = (PTE_PA(pte) | (va & PTE_PA_MASK)); 923176771Sraj return (pa); 924176771Sraj} 925176771Sraj 926176771Sraj/* Get a pointer to a PTE in a page table. */ 927176771Srajstatic pte_t * 928176771Srajpte_find(mmu_t mmu, pmap_t pmap, vm_offset_t va) 929176771Sraj{ 930176771Sraj unsigned int pdir_idx = PDIR_IDX(va); 931176771Sraj unsigned int ptbl_idx = PTBL_IDX(va); 932176771Sraj 933176771Sraj KASSERT((pmap != NULL), ("pte_find: invalid pmap")); 934176771Sraj 935176771Sraj if (pmap->pm_pdir[pdir_idx]) 936176771Sraj return (&(pmap->pm_pdir[pdir_idx][ptbl_idx])); 937176771Sraj 938176771Sraj return (NULL); 939176771Sraj} 940176771Sraj 941176771Sraj/**************************************************************************/ 942176771Sraj/* PMAP related */ 943176771Sraj/**************************************************************************/ 944176771Sraj 945176771Sraj/* 946222400Smarcel * This is called during booke_init, before the system is really initialized. 947176771Sraj */ 948176771Srajstatic void 949190701Smarcelmmu_booke_bootstrap(mmu_t mmu, vm_offset_t start, vm_offset_t kernelend) 950176771Sraj{ 951176771Sraj vm_offset_t phys_kernelend; 952176771Sraj struct mem_region *mp, *mp1; 953176771Sraj int cnt, i, j; 954176771Sraj u_int s, e, sz; 955176771Sraj u_int phys_avail_count; 956182198Sraj vm_size_t physsz, hwphyssz, kstack0_sz; 957193489Sraj vm_offset_t kernel_pdir, kstack0, va; 958182198Sraj vm_paddr_t kstack0_phys; 959194784Sjeff void *dpcpu; 960193489Sraj pte_t *pte; 961176771Sraj 962176771Sraj debugf("mmu_booke_bootstrap: entered\n"); 963176771Sraj 964187149Sraj /* Initialize invalidation mutex */ 965187149Sraj mtx_init(&tlbivax_mutex, "tlbivax", NULL, MTX_SPIN); 966187149Sraj 967187149Sraj /* Read TLB0 size and associativity. */ 968187149Sraj tlb0_get_tlbconf(); 969187149Sraj 970176771Sraj /* Align kernel start and end address (kernel image). */ 971190701Smarcel kernstart = trunc_page(start); 972190701Smarcel data_start = round_page(kernelend); 973190701Smarcel kernsize = data_start - kernstart; 974176771Sraj 975190701Smarcel data_end = data_start; 976190701Smarcel 977176771Sraj /* Allocate space for the message buffer. */ 978190701Smarcel msgbufp = (struct msgbuf *)data_end; 979217688Spluknet data_end += msgbufsize; 980187149Sraj debugf(" msgbufp at 0x%08x end = 0x%08x\n", (uint32_t)msgbufp, 981190701Smarcel data_end); 982176771Sraj 983190701Smarcel data_end = round_page(data_end); 984176771Sraj 985194784Sjeff /* Allocate the dynamic per-cpu area. */ 986194784Sjeff dpcpu = (void *)data_end; 987194784Sjeff data_end += DPCPU_SIZE; 988194784Sjeff dpcpu_init(dpcpu, 0); 989194784Sjeff 990176771Sraj /* Allocate space for ptbl_bufs. */ 991190701Smarcel ptbl_bufs = (struct ptbl_buf *)data_end; 992190701Smarcel data_end += sizeof(struct ptbl_buf) * PTBL_BUFS; 993187149Sraj debugf(" ptbl_bufs at 0x%08x end = 0x%08x\n", (uint32_t)ptbl_bufs, 994190701Smarcel data_end); 995176771Sraj 996190701Smarcel data_end = round_page(data_end); 997176771Sraj 998176771Sraj /* Allocate PTE tables for kernel KVA. */ 999190701Smarcel kernel_pdir = data_end; 1000176771Sraj kernel_ptbls = (VM_MAX_KERNEL_ADDRESS - VM_MIN_KERNEL_ADDRESS + 1001176771Sraj PDIR_SIZE - 1) / PDIR_SIZE; 1002190701Smarcel data_end += kernel_ptbls * PTBL_PAGES * PAGE_SIZE; 1003176771Sraj debugf(" kernel ptbls: %d\n", kernel_ptbls); 1004190701Smarcel debugf(" kernel pdir at 0x%08x end = 0x%08x\n", kernel_pdir, data_end); 1005176771Sraj 1006190701Smarcel debugf(" data_end: 0x%08x\n", data_end); 1007190701Smarcel if (data_end - kernstart > 0x1000000) { 1008190701Smarcel data_end = (data_end + 0x3fffff) & ~0x3fffff; 1009190701Smarcel tlb1_mapin_region(kernstart + 0x1000000, 1010190701Smarcel kernload + 0x1000000, data_end - kernstart - 0x1000000); 1011176771Sraj } else 1012190701Smarcel data_end = (data_end + 0xffffff) & ~0xffffff; 1013176771Sraj 1014190701Smarcel debugf(" updated data_end: 0x%08x\n", data_end); 1015187149Sraj 1016190701Smarcel kernsize += data_end - data_start; 1017190701Smarcel 1018182362Sraj /* 1019182362Sraj * Clear the structures - note we can only do it safely after the 1020187149Sraj * possible additional TLB1 translations are in place (above) so that 1021190701Smarcel * all range up to the currently calculated 'data_end' is covered. 1022182362Sraj */ 1023182362Sraj memset((void *)ptbl_bufs, 0, sizeof(struct ptbl_buf) * PTBL_SIZE); 1024182362Sraj memset((void *)kernel_pdir, 0, kernel_ptbls * PTBL_PAGES * PAGE_SIZE); 1025182362Sraj 1026176771Sraj /*******************************************************/ 1027176771Sraj /* Set the start and end of kva. */ 1028176771Sraj /*******************************************************/ 1029190701Smarcel virtual_avail = round_page(data_end); 1030176771Sraj virtual_end = VM_MAX_KERNEL_ADDRESS; 1031176771Sraj 1032176771Sraj /* Allocate KVA space for page zero/copy operations. */ 1033176771Sraj zero_page_va = virtual_avail; 1034176771Sraj virtual_avail += PAGE_SIZE; 1035176771Sraj zero_page_idle_va = virtual_avail; 1036176771Sraj virtual_avail += PAGE_SIZE; 1037176771Sraj copy_page_src_va = virtual_avail; 1038176771Sraj virtual_avail += PAGE_SIZE; 1039176771Sraj copy_page_dst_va = virtual_avail; 1040176771Sraj virtual_avail += PAGE_SIZE; 1041187149Sraj debugf("zero_page_va = 0x%08x\n", zero_page_va); 1042187149Sraj debugf("zero_page_idle_va = 0x%08x\n", zero_page_idle_va); 1043187149Sraj debugf("copy_page_src_va = 0x%08x\n", copy_page_src_va); 1044187149Sraj debugf("copy_page_dst_va = 0x%08x\n", copy_page_dst_va); 1045176771Sraj 1046176771Sraj /* Initialize page zero/copy mutexes. */ 1047176771Sraj mtx_init(&zero_page_mutex, "mmu_booke_zero_page", NULL, MTX_DEF); 1048176771Sraj mtx_init(©_page_mutex, "mmu_booke_copy_page", NULL, MTX_DEF); 1049176771Sraj 1050176771Sraj /* Allocate KVA space for ptbl bufs. */ 1051176771Sraj ptbl_buf_pool_vabase = virtual_avail; 1052176771Sraj virtual_avail += PTBL_BUFS * PTBL_PAGES * PAGE_SIZE; 1053187149Sraj debugf("ptbl_buf_pool_vabase = 0x%08x end = 0x%08x\n", 1054187149Sraj ptbl_buf_pool_vabase, virtual_avail); 1055176771Sraj 1056176771Sraj /* Calculate corresponding physical addresses for the kernel region. */ 1057190701Smarcel phys_kernelend = kernload + kernsize; 1058176771Sraj debugf("kernel image and allocated data:\n"); 1059176771Sraj debugf(" kernload = 0x%08x\n", kernload); 1060190701Smarcel debugf(" kernstart = 0x%08x\n", kernstart); 1061190701Smarcel debugf(" kernsize = 0x%08x\n", kernsize); 1062176771Sraj 1063176771Sraj if (sizeof(phys_avail) / sizeof(phys_avail[0]) < availmem_regions_sz) 1064176771Sraj panic("mmu_booke_bootstrap: phys_avail too small"); 1065176771Sraj 1066176771Sraj /* 1067187151Sraj * Remove kernel physical address range from avail regions list. Page 1068187151Sraj * align all regions. Non-page aligned memory isn't very interesting 1069187151Sraj * to us. Also, sort the entries for ascending addresses. 1070176771Sraj */ 1071192067Snwhitehorn 1072192067Snwhitehorn /* Retrieve phys/avail mem regions */ 1073192067Snwhitehorn mem_regions(&physmem_regions, &physmem_regions_sz, 1074192067Snwhitehorn &availmem_regions, &availmem_regions_sz); 1075176771Sraj sz = 0; 1076176771Sraj cnt = availmem_regions_sz; 1077176771Sraj debugf("processing avail regions:\n"); 1078176771Sraj for (mp = availmem_regions; mp->mr_size; mp++) { 1079176771Sraj s = mp->mr_start; 1080176771Sraj e = mp->mr_start + mp->mr_size; 1081176771Sraj debugf(" %08x-%08x -> ", s, e); 1082176771Sraj /* Check whether this region holds all of the kernel. */ 1083176771Sraj if (s < kernload && e > phys_kernelend) { 1084176771Sraj availmem_regions[cnt].mr_start = phys_kernelend; 1085176771Sraj availmem_regions[cnt++].mr_size = e - phys_kernelend; 1086176771Sraj e = kernload; 1087176771Sraj } 1088176771Sraj /* Look whether this regions starts within the kernel. */ 1089176771Sraj if (s >= kernload && s < phys_kernelend) { 1090176771Sraj if (e <= phys_kernelend) 1091176771Sraj goto empty; 1092176771Sraj s = phys_kernelend; 1093176771Sraj } 1094176771Sraj /* Now look whether this region ends within the kernel. */ 1095176771Sraj if (e > kernload && e <= phys_kernelend) { 1096176771Sraj if (s >= kernload) 1097176771Sraj goto empty; 1098176771Sraj e = kernload; 1099176771Sraj } 1100176771Sraj /* Now page align the start and size of the region. */ 1101176771Sraj s = round_page(s); 1102176771Sraj e = trunc_page(e); 1103176771Sraj if (e < s) 1104176771Sraj e = s; 1105176771Sraj sz = e - s; 1106176771Sraj debugf("%08x-%08x = %x\n", s, e, sz); 1107176771Sraj 1108176771Sraj /* Check whether some memory is left here. */ 1109176771Sraj if (sz == 0) { 1110176771Sraj empty: 1111176771Sraj memmove(mp, mp + 1, 1112176771Sraj (cnt - (mp - availmem_regions)) * sizeof(*mp)); 1113176771Sraj cnt--; 1114176771Sraj mp--; 1115176771Sraj continue; 1116176771Sraj } 1117176771Sraj 1118176771Sraj /* Do an insertion sort. */ 1119176771Sraj for (mp1 = availmem_regions; mp1 < mp; mp1++) 1120176771Sraj if (s < mp1->mr_start) 1121176771Sraj break; 1122176771Sraj if (mp1 < mp) { 1123176771Sraj memmove(mp1 + 1, mp1, (char *)mp - (char *)mp1); 1124176771Sraj mp1->mr_start = s; 1125176771Sraj mp1->mr_size = sz; 1126176771Sraj } else { 1127176771Sraj mp->mr_start = s; 1128176771Sraj mp->mr_size = sz; 1129176771Sraj } 1130176771Sraj } 1131176771Sraj availmem_regions_sz = cnt; 1132176771Sraj 1133176771Sraj /*******************************************************/ 1134182198Sraj /* Steal physical memory for kernel stack from the end */ 1135182198Sraj /* of the first avail region */ 1136182198Sraj /*******************************************************/ 1137182198Sraj kstack0_sz = KSTACK_PAGES * PAGE_SIZE; 1138182198Sraj kstack0_phys = availmem_regions[0].mr_start + 1139182198Sraj availmem_regions[0].mr_size; 1140182198Sraj kstack0_phys -= kstack0_sz; 1141182198Sraj availmem_regions[0].mr_size -= kstack0_sz; 1142182198Sraj 1143182198Sraj /*******************************************************/ 1144176771Sraj /* Fill in phys_avail table, based on availmem_regions */ 1145176771Sraj /*******************************************************/ 1146176771Sraj phys_avail_count = 0; 1147176771Sraj physsz = 0; 1148176771Sraj hwphyssz = 0; 1149176771Sraj TUNABLE_ULONG_FETCH("hw.physmem", (u_long *) &hwphyssz); 1150176771Sraj 1151176771Sraj debugf("fill in phys_avail:\n"); 1152176771Sraj for (i = 0, j = 0; i < availmem_regions_sz; i++, j += 2) { 1153176771Sraj 1154176771Sraj debugf(" region: 0x%08x - 0x%08x (0x%08x)\n", 1155176771Sraj availmem_regions[i].mr_start, 1156187151Sraj availmem_regions[i].mr_start + 1157187151Sraj availmem_regions[i].mr_size, 1158176771Sraj availmem_regions[i].mr_size); 1159176771Sraj 1160182362Sraj if (hwphyssz != 0 && 1161182362Sraj (physsz + availmem_regions[i].mr_size) >= hwphyssz) { 1162176771Sraj debugf(" hw.physmem adjust\n"); 1163176771Sraj if (physsz < hwphyssz) { 1164176771Sraj phys_avail[j] = availmem_regions[i].mr_start; 1165182362Sraj phys_avail[j + 1] = 1166182362Sraj availmem_regions[i].mr_start + 1167176771Sraj hwphyssz - physsz; 1168176771Sraj physsz = hwphyssz; 1169176771Sraj phys_avail_count++; 1170176771Sraj } 1171176771Sraj break; 1172176771Sraj } 1173176771Sraj 1174176771Sraj phys_avail[j] = availmem_regions[i].mr_start; 1175176771Sraj phys_avail[j + 1] = availmem_regions[i].mr_start + 1176176771Sraj availmem_regions[i].mr_size; 1177176771Sraj phys_avail_count++; 1178176771Sraj physsz += availmem_regions[i].mr_size; 1179176771Sraj } 1180176771Sraj physmem = btoc(physsz); 1181176771Sraj 1182176771Sraj /* Calculate the last available physical address. */ 1183176771Sraj for (i = 0; phys_avail[i + 2] != 0; i += 2) 1184176771Sraj ; 1185176771Sraj Maxmem = powerpc_btop(phys_avail[i + 1]); 1186176771Sraj 1187176771Sraj debugf("Maxmem = 0x%08lx\n", Maxmem); 1188176771Sraj debugf("phys_avail_count = %d\n", phys_avail_count); 1189187151Sraj debugf("physsz = 0x%08x physmem = %ld (0x%08lx)\n", physsz, physmem, 1190187151Sraj physmem); 1191176771Sraj 1192176771Sraj /*******************************************************/ 1193176771Sraj /* Initialize (statically allocated) kernel pmap. */ 1194176771Sraj /*******************************************************/ 1195176771Sraj PMAP_LOCK_INIT(kernel_pmap); 1196176771Sraj kptbl_min = VM_MIN_KERNEL_ADDRESS / PDIR_SIZE; 1197176771Sraj 1198187149Sraj debugf("kernel_pmap = 0x%08x\n", (uint32_t)kernel_pmap); 1199187149Sraj debugf("kptbl_min = %d, kernel_ptbls = %d\n", kptbl_min, kernel_ptbls); 1200176771Sraj debugf("kernel pdir range: 0x%08x - 0x%08x\n", 1201176771Sraj kptbl_min * PDIR_SIZE, (kptbl_min + kernel_ptbls) * PDIR_SIZE - 1); 1202176771Sraj 1203176771Sraj /* Initialize kernel pdir */ 1204176771Sraj for (i = 0; i < kernel_ptbls; i++) 1205176771Sraj kernel_pmap->pm_pdir[kptbl_min + i] = 1206176771Sraj (pte_t *)(kernel_pdir + (i * PAGE_SIZE * PTBL_PAGES)); 1207176771Sraj 1208187149Sraj for (i = 0; i < MAXCPU; i++) { 1209187149Sraj kernel_pmap->pm_tid[i] = TID_KERNEL; 1210187149Sraj 1211187149Sraj /* Initialize each CPU's tidbusy entry 0 with kernel_pmap */ 1212187149Sraj tidbusy[i][0] = kernel_pmap; 1213187149Sraj } 1214193489Sraj 1215193489Sraj /* 1216193489Sraj * Fill in PTEs covering kernel code and data. They are not required 1217193489Sraj * for address translation, as this area is covered by static TLB1 1218193489Sraj * entries, but for pte_vatopa() to work correctly with kernel area 1219193489Sraj * addresses. 1220193489Sraj */ 1221193489Sraj for (va = KERNBASE; va < data_end; va += PAGE_SIZE) { 1222193489Sraj pte = &(kernel_pmap->pm_pdir[PDIR_IDX(va)][PTBL_IDX(va)]); 1223193489Sraj pte->rpn = kernload + (va - KERNBASE); 1224193489Sraj pte->flags = PTE_M | PTE_SR | PTE_SW | PTE_SX | PTE_WIRED | 1225193489Sraj PTE_VALID; 1226193489Sraj } 1227187149Sraj /* Mark kernel_pmap active on all CPUs */ 1228222070Sattilio kernel_pmap->pm_active = ~0; 1229176771Sraj 1230176771Sraj /*******************************************************/ 1231176771Sraj /* Final setup */ 1232176771Sraj /*******************************************************/ 1233187149Sraj 1234182198Sraj /* Enter kstack0 into kernel map, provide guard page */ 1235182198Sraj kstack0 = virtual_avail + KSTACK_GUARD_PAGES * PAGE_SIZE; 1236182198Sraj thread0.td_kstack = kstack0; 1237182198Sraj thread0.td_kstack_pages = KSTACK_PAGES; 1238182198Sraj 1239182198Sraj debugf("kstack_sz = 0x%08x\n", kstack0_sz); 1240182198Sraj debugf("kstack0_phys at 0x%08x - 0x%08x\n", 1241182198Sraj kstack0_phys, kstack0_phys + kstack0_sz); 1242182198Sraj debugf("kstack0 at 0x%08x - 0x%08x\n", kstack0, kstack0 + kstack0_sz); 1243182198Sraj 1244182198Sraj virtual_avail += KSTACK_GUARD_PAGES * PAGE_SIZE + kstack0_sz; 1245182198Sraj for (i = 0; i < KSTACK_PAGES; i++) { 1246182198Sraj mmu_booke_kenter(mmu, kstack0, kstack0_phys); 1247182198Sraj kstack0 += PAGE_SIZE; 1248182198Sraj kstack0_phys += PAGE_SIZE; 1249182198Sraj } 1250187149Sraj 1251187149Sraj debugf("virtual_avail = %08x\n", virtual_avail); 1252187149Sraj debugf("virtual_end = %08x\n", virtual_end); 1253182198Sraj 1254176771Sraj debugf("mmu_booke_bootstrap: exit\n"); 1255176771Sraj} 1256176771Sraj 1257192532Srajvoid 1258192532Srajpmap_bootstrap_ap(volatile uint32_t *trcp __unused) 1259192532Sraj{ 1260192532Sraj int i; 1261192532Sraj 1262192532Sraj /* 1263192532Sraj * Finish TLB1 configuration: the BSP already set up its TLB1 and we 1264192532Sraj * have the snapshot of its contents in the s/w tlb1[] table, so use 1265192532Sraj * these values directly to (re)program AP's TLB1 hardware. 1266192532Sraj */ 1267192532Sraj for (i = 0; i < tlb1_idx; i ++) { 1268192532Sraj /* Skip invalid entries */ 1269192532Sraj if (!(tlb1[i].mas1 & MAS1_VALID)) 1270192532Sraj continue; 1271192532Sraj 1272192532Sraj tlb1_write_entry(i); 1273192532Sraj } 1274192532Sraj 1275192532Sraj set_mas4_defaults(); 1276192532Sraj} 1277192532Sraj 1278176771Sraj/* 1279176771Sraj * Get the physical page address for the given pmap/virtual address. 1280176771Sraj */ 1281176771Srajstatic vm_paddr_t 1282176771Srajmmu_booke_extract(mmu_t mmu, pmap_t pmap, vm_offset_t va) 1283176771Sraj{ 1284176771Sraj vm_paddr_t pa; 1285176771Sraj 1286176771Sraj PMAP_LOCK(pmap); 1287176771Sraj pa = pte_vatopa(mmu, pmap, va); 1288176771Sraj PMAP_UNLOCK(pmap); 1289176771Sraj 1290176771Sraj return (pa); 1291176771Sraj} 1292176771Sraj 1293176771Sraj/* 1294176771Sraj * Extract the physical page address associated with the given 1295176771Sraj * kernel virtual address. 1296176771Sraj */ 1297176771Srajstatic vm_paddr_t 1298176771Srajmmu_booke_kextract(mmu_t mmu, vm_offset_t va) 1299176771Sraj{ 1300176771Sraj 1301176771Sraj return (pte_vatopa(mmu, kernel_pmap, va)); 1302176771Sraj} 1303176771Sraj 1304176771Sraj/* 1305176771Sraj * Initialize the pmap module. 1306176771Sraj * Called by vm_init, to initialize any structures that the pmap 1307176771Sraj * system needs to map virtual memory. 1308176771Sraj */ 1309176771Srajstatic void 1310176771Srajmmu_booke_init(mmu_t mmu) 1311176771Sraj{ 1312176771Sraj int shpgperproc = PMAP_SHPGPERPROC; 1313176771Sraj 1314176771Sraj /* 1315176771Sraj * Initialize the address space (zone) for the pv entries. Set a 1316176771Sraj * high water mark so that the system can recover from excessive 1317176771Sraj * numbers of pv entries. 1318176771Sraj */ 1319176771Sraj pvzone = uma_zcreate("PV ENTRY", sizeof(struct pv_entry), NULL, NULL, 1320176771Sraj NULL, NULL, UMA_ALIGN_PTR, UMA_ZONE_VM | UMA_ZONE_NOFREE); 1321176771Sraj 1322176771Sraj TUNABLE_INT_FETCH("vm.pmap.shpgperproc", &shpgperproc); 1323176771Sraj pv_entry_max = shpgperproc * maxproc + cnt.v_page_count; 1324176771Sraj 1325176771Sraj TUNABLE_INT_FETCH("vm.pmap.pv_entries", &pv_entry_max); 1326176771Sraj pv_entry_high_water = 9 * (pv_entry_max / 10); 1327176771Sraj 1328176771Sraj uma_zone_set_obj(pvzone, &pvzone_obj, pv_entry_max); 1329176771Sraj 1330176771Sraj /* Pre-fill pvzone with initial number of pv entries. */ 1331176771Sraj uma_prealloc(pvzone, PV_ENTRY_ZONE_MIN); 1332176771Sraj 1333176771Sraj /* Initialize ptbl allocation. */ 1334176771Sraj ptbl_init(); 1335176771Sraj} 1336176771Sraj 1337176771Sraj/* 1338176771Sraj * Map a list of wired pages into kernel virtual address space. This is 1339176771Sraj * intended for temporary mappings which do not need page modification or 1340176771Sraj * references recorded. Existing mappings in the region are overwritten. 1341176771Sraj */ 1342176771Srajstatic void 1343176771Srajmmu_booke_qenter(mmu_t mmu, vm_offset_t sva, vm_page_t *m, int count) 1344176771Sraj{ 1345176771Sraj vm_offset_t va; 1346176771Sraj 1347176771Sraj va = sva; 1348176771Sraj while (count-- > 0) { 1349176771Sraj mmu_booke_kenter(mmu, va, VM_PAGE_TO_PHYS(*m)); 1350176771Sraj va += PAGE_SIZE; 1351176771Sraj m++; 1352176771Sraj } 1353176771Sraj} 1354176771Sraj 1355176771Sraj/* 1356176771Sraj * Remove page mappings from kernel virtual address space. Intended for 1357176771Sraj * temporary mappings entered by mmu_booke_qenter. 1358176771Sraj */ 1359176771Srajstatic void 1360176771Srajmmu_booke_qremove(mmu_t mmu, vm_offset_t sva, int count) 1361176771Sraj{ 1362176771Sraj vm_offset_t va; 1363176771Sraj 1364176771Sraj va = sva; 1365176771Sraj while (count-- > 0) { 1366176771Sraj mmu_booke_kremove(mmu, va); 1367176771Sraj va += PAGE_SIZE; 1368176771Sraj } 1369176771Sraj} 1370176771Sraj 1371176771Sraj/* 1372176771Sraj * Map a wired page into kernel virtual address space. 1373176771Sraj */ 1374176771Srajstatic void 1375176771Srajmmu_booke_kenter(mmu_t mmu, vm_offset_t va, vm_offset_t pa) 1376176771Sraj{ 1377176771Sraj unsigned int pdir_idx = PDIR_IDX(va); 1378176771Sraj unsigned int ptbl_idx = PTBL_IDX(va); 1379187151Sraj uint32_t flags; 1380176771Sraj pte_t *pte; 1381176771Sraj 1382187151Sraj KASSERT(((va >= VM_MIN_KERNEL_ADDRESS) && 1383187151Sraj (va <= VM_MAX_KERNEL_ADDRESS)), ("mmu_booke_kenter: invalid va")); 1384176771Sraj 1385176771Sraj flags = 0; 1386176771Sraj flags |= (PTE_SR | PTE_SW | PTE_SX | PTE_WIRED | PTE_VALID); 1387187149Sraj flags |= PTE_M; 1388176771Sraj 1389176771Sraj pte = &(kernel_pmap->pm_pdir[pdir_idx][ptbl_idx]); 1390176771Sraj 1391187149Sraj mtx_lock_spin(&tlbivax_mutex); 1392192532Sraj tlb_miss_lock(); 1393187149Sraj 1394176771Sraj if (PTE_ISVALID(pte)) { 1395187149Sraj 1396187149Sraj CTR1(KTR_PMAP, "%s: replacing entry!", __func__); 1397176771Sraj 1398176771Sraj /* Flush entry from TLB0 */ 1399187149Sraj tlb0_flush_entry(va); 1400176771Sraj } 1401176771Sraj 1402176771Sraj pte->rpn = pa & ~PTE_PA_MASK; 1403176771Sraj pte->flags = flags; 1404176771Sraj 1405176771Sraj //debugf("mmu_booke_kenter: pdir_idx = %d ptbl_idx = %d va=0x%08x " 1406176771Sraj // "pa=0x%08x rpn=0x%08x flags=0x%08x\n", 1407176771Sraj // pdir_idx, ptbl_idx, va, pa, pte->rpn, pte->flags); 1408176771Sraj 1409176771Sraj /* Flush the real memory from the instruction cache. */ 1410176771Sraj if ((flags & (PTE_I | PTE_G)) == 0) { 1411176771Sraj __syncicache((void *)va, PAGE_SIZE); 1412176771Sraj } 1413176771Sraj 1414192532Sraj tlb_miss_unlock(); 1415187149Sraj mtx_unlock_spin(&tlbivax_mutex); 1416176771Sraj} 1417176771Sraj 1418176771Sraj/* 1419176771Sraj * Remove a page from kernel page table. 1420176771Sraj */ 1421176771Srajstatic void 1422176771Srajmmu_booke_kremove(mmu_t mmu, vm_offset_t va) 1423176771Sraj{ 1424176771Sraj unsigned int pdir_idx = PDIR_IDX(va); 1425176771Sraj unsigned int ptbl_idx = PTBL_IDX(va); 1426176771Sraj pte_t *pte; 1427176771Sraj 1428187149Sraj// CTR2(KTR_PMAP,("%s: s (va = 0x%08x)\n", __func__, va)); 1429176771Sraj 1430187149Sraj KASSERT(((va >= VM_MIN_KERNEL_ADDRESS) && 1431187149Sraj (va <= VM_MAX_KERNEL_ADDRESS)), 1432176771Sraj ("mmu_booke_kremove: invalid va")); 1433176771Sraj 1434176771Sraj pte = &(kernel_pmap->pm_pdir[pdir_idx][ptbl_idx]); 1435176771Sraj 1436176771Sraj if (!PTE_ISVALID(pte)) { 1437187149Sraj 1438187149Sraj CTR1(KTR_PMAP, "%s: invalid pte", __func__); 1439187149Sraj 1440176771Sraj return; 1441176771Sraj } 1442176771Sraj 1443187149Sraj mtx_lock_spin(&tlbivax_mutex); 1444192532Sraj tlb_miss_lock(); 1445176771Sraj 1446187149Sraj /* Invalidate entry in TLB0, update PTE. */ 1447187149Sraj tlb0_flush_entry(va); 1448176771Sraj pte->flags = 0; 1449176771Sraj pte->rpn = 0; 1450176771Sraj 1451192532Sraj tlb_miss_unlock(); 1452187149Sraj mtx_unlock_spin(&tlbivax_mutex); 1453176771Sraj} 1454176771Sraj 1455176771Sraj/* 1456176771Sraj * Initialize pmap associated with process 0. 1457176771Sraj */ 1458176771Srajstatic void 1459176771Srajmmu_booke_pinit0(mmu_t mmu, pmap_t pmap) 1460176771Sraj{ 1461187151Sraj 1462176771Sraj mmu_booke_pinit(mmu, pmap); 1463176771Sraj PCPU_SET(curpmap, pmap); 1464176771Sraj} 1465176771Sraj 1466176771Sraj/* 1467176771Sraj * Initialize a preallocated and zeroed pmap structure, 1468176771Sraj * such as one in a vmspace structure. 1469176771Sraj */ 1470176771Srajstatic void 1471176771Srajmmu_booke_pinit(mmu_t mmu, pmap_t pmap) 1472176771Sraj{ 1473187149Sraj int i; 1474176771Sraj 1475187149Sraj CTR4(KTR_PMAP, "%s: pmap = %p, proc %d '%s'", __func__, pmap, 1476187149Sraj curthread->td_proc->p_pid, curthread->td_proc->p_comm); 1477176771Sraj 1478187149Sraj KASSERT((pmap != kernel_pmap), ("pmap_pinit: initializing kernel_pmap")); 1479176771Sraj 1480176771Sraj PMAP_LOCK_INIT(pmap); 1481187149Sraj for (i = 0; i < MAXCPU; i++) 1482187149Sraj pmap->pm_tid[i] = TID_NONE; 1483222070Sattilio pmap->pm_active = 0; 1484176771Sraj bzero(&pmap->pm_stats, sizeof(pmap->pm_stats)); 1485176771Sraj bzero(&pmap->pm_pdir, sizeof(pte_t *) * PDIR_NENTRIES); 1486187149Sraj TAILQ_INIT(&pmap->pm_ptbl_list); 1487176771Sraj} 1488176771Sraj 1489176771Sraj/* 1490176771Sraj * Release any resources held by the given physical map. 1491176771Sraj * Called when a pmap initialized by mmu_booke_pinit is being released. 1492176771Sraj * Should only be called if the map contains no valid mappings. 1493176771Sraj */ 1494176771Srajstatic void 1495176771Srajmmu_booke_release(mmu_t mmu, pmap_t pmap) 1496176771Sraj{ 1497176771Sraj 1498187151Sraj KASSERT(pmap->pm_stats.resident_count == 0, 1499187151Sraj ("pmap_release: pmap resident count %ld != 0", 1500187151Sraj pmap->pm_stats.resident_count)); 1501187151Sraj 1502176771Sraj PMAP_LOCK_DESTROY(pmap); 1503176771Sraj} 1504176771Sraj 1505176771Sraj/* 1506176771Sraj * Insert the given physical page at the specified virtual address in the 1507176771Sraj * target physical map with the protection requested. If specified the page 1508176771Sraj * will be wired down. 1509176771Sraj */ 1510176771Srajstatic void 1511176771Srajmmu_booke_enter(mmu_t mmu, pmap_t pmap, vm_offset_t va, vm_page_t m, 1512176771Sraj vm_prot_t prot, boolean_t wired) 1513176771Sraj{ 1514187151Sraj 1515176771Sraj vm_page_lock_queues(); 1516176771Sraj PMAP_LOCK(pmap); 1517176771Sraj mmu_booke_enter_locked(mmu, pmap, va, m, prot, wired); 1518176771Sraj vm_page_unlock_queues(); 1519176771Sraj PMAP_UNLOCK(pmap); 1520176771Sraj} 1521176771Sraj 1522176771Srajstatic void 1523176771Srajmmu_booke_enter_locked(mmu_t mmu, pmap_t pmap, vm_offset_t va, vm_page_t m, 1524176771Sraj vm_prot_t prot, boolean_t wired) 1525176771Sraj{ 1526176771Sraj pte_t *pte; 1527176771Sraj vm_paddr_t pa; 1528187151Sraj uint32_t flags; 1529176771Sraj int su, sync; 1530176771Sraj 1531176771Sraj pa = VM_PAGE_TO_PHYS(m); 1532176771Sraj su = (pmap == kernel_pmap); 1533176771Sraj sync = 0; 1534176771Sraj 1535176771Sraj //debugf("mmu_booke_enter_locked: s (pmap=0x%08x su=%d tid=%d m=0x%08x va=0x%08x " 1536176771Sraj // "pa=0x%08x prot=0x%08x wired=%d)\n", 1537176771Sraj // (u_int32_t)pmap, su, pmap->pm_tid, 1538176771Sraj // (u_int32_t)m, va, pa, prot, wired); 1539176771Sraj 1540176771Sraj if (su) { 1541187151Sraj KASSERT(((va >= virtual_avail) && 1542187151Sraj (va <= VM_MAX_KERNEL_ADDRESS)), 1543187151Sraj ("mmu_booke_enter_locked: kernel pmap, non kernel va")); 1544176771Sraj } else { 1545176771Sraj KASSERT((va <= VM_MAXUSER_ADDRESS), 1546187151Sraj ("mmu_booke_enter_locked: user pmap, non user va")); 1547176771Sraj } 1548209048Salc KASSERT((m->flags & (PG_FICTITIOUS | PG_UNMANAGED)) != 0 || 1549209048Salc (m->oflags & VPO_BUSY) != 0 || VM_OBJECT_LOCKED(m->object), 1550208175Salc ("mmu_booke_enter_locked: page %p is not busy", m)); 1551176771Sraj 1552176771Sraj PMAP_LOCK_ASSERT(pmap, MA_OWNED); 1553176771Sraj 1554176771Sraj /* 1555176771Sraj * If there is an existing mapping, and the physical address has not 1556176771Sraj * changed, must be protection or wiring change. 1557176771Sraj */ 1558176771Sraj if (((pte = pte_find(mmu, pmap, va)) != NULL) && 1559176771Sraj (PTE_ISVALID(pte)) && (PTE_PA(pte) == pa)) { 1560187149Sraj 1561187149Sraj /* 1562187149Sraj * Before actually updating pte->flags we calculate and 1563187149Sraj * prepare its new value in a helper var. 1564187149Sraj */ 1565187149Sraj flags = pte->flags; 1566187149Sraj flags &= ~(PTE_UW | PTE_UX | PTE_SW | PTE_SX | PTE_MODIFIED); 1567176771Sraj 1568176771Sraj /* Wiring change, just update stats. */ 1569176771Sraj if (wired) { 1570176771Sraj if (!PTE_ISWIRED(pte)) { 1571187149Sraj flags |= PTE_WIRED; 1572176771Sraj pmap->pm_stats.wired_count++; 1573176771Sraj } 1574176771Sraj } else { 1575176771Sraj if (PTE_ISWIRED(pte)) { 1576187149Sraj flags &= ~PTE_WIRED; 1577176771Sraj pmap->pm_stats.wired_count--; 1578176771Sraj } 1579176771Sraj } 1580176771Sraj 1581176771Sraj if (prot & VM_PROT_WRITE) { 1582176771Sraj /* Add write permissions. */ 1583187149Sraj flags |= PTE_SW; 1584176771Sraj if (!su) 1585187149Sraj flags |= PTE_UW; 1586192795Sraj 1587208846Salc if ((flags & PTE_MANAGED) != 0) 1588208846Salc vm_page_flag_set(m, PG_WRITEABLE); 1589176771Sraj } else { 1590176771Sraj /* Handle modified pages, sense modify status. */ 1591187149Sraj 1592187149Sraj /* 1593187149Sraj * The PTE_MODIFIED flag could be set by underlying 1594187149Sraj * TLB misses since we last read it (above), possibly 1595187149Sraj * other CPUs could update it so we check in the PTE 1596187149Sraj * directly rather than rely on that saved local flags 1597187149Sraj * copy. 1598187149Sraj */ 1599178626Smarcel if (PTE_ISMODIFIED(pte)) 1600178626Smarcel vm_page_dirty(m); 1601176771Sraj } 1602176771Sraj 1603176771Sraj if (prot & VM_PROT_EXECUTE) { 1604187149Sraj flags |= PTE_SX; 1605176771Sraj if (!su) 1606187149Sraj flags |= PTE_UX; 1607176771Sraj 1608187149Sraj /* 1609187149Sraj * Check existing flags for execute permissions: if we 1610187149Sraj * are turning execute permissions on, icache should 1611187149Sraj * be flushed. 1612187149Sraj */ 1613208720Salc if ((pte->flags & (PTE_UX | PTE_SX)) == 0) 1614176771Sraj sync++; 1615176771Sraj } 1616176771Sraj 1617187149Sraj flags &= ~PTE_REFERENCED; 1618187149Sraj 1619187149Sraj /* 1620187149Sraj * The new flags value is all calculated -- only now actually 1621187149Sraj * update the PTE. 1622187149Sraj */ 1623187149Sraj mtx_lock_spin(&tlbivax_mutex); 1624192532Sraj tlb_miss_lock(); 1625187149Sraj 1626187149Sraj tlb0_flush_entry(va); 1627187149Sraj pte->flags = flags; 1628187149Sraj 1629192532Sraj tlb_miss_unlock(); 1630187149Sraj mtx_unlock_spin(&tlbivax_mutex); 1631187149Sraj 1632176771Sraj } else { 1633176771Sraj /* 1634187149Sraj * If there is an existing mapping, but it's for a different 1635176771Sraj * physical address, pte_enter() will delete the old mapping. 1636176771Sraj */ 1637176771Sraj //if ((pte != NULL) && PTE_ISVALID(pte)) 1638176771Sraj // debugf("mmu_booke_enter_locked: replace\n"); 1639176771Sraj //else 1640176771Sraj // debugf("mmu_booke_enter_locked: new\n"); 1641176771Sraj 1642176771Sraj /* Now set up the flags and install the new mapping. */ 1643176771Sraj flags = (PTE_SR | PTE_VALID); 1644187149Sraj flags |= PTE_M; 1645176771Sraj 1646176771Sraj if (!su) 1647176771Sraj flags |= PTE_UR; 1648176771Sraj 1649176771Sraj if (prot & VM_PROT_WRITE) { 1650176771Sraj flags |= PTE_SW; 1651176771Sraj if (!su) 1652176771Sraj flags |= PTE_UW; 1653192795Sraj 1654208846Salc if ((m->flags & (PG_FICTITIOUS | PG_UNMANAGED)) == 0) 1655208846Salc vm_page_flag_set(m, PG_WRITEABLE); 1656176771Sraj } 1657176771Sraj 1658176771Sraj if (prot & VM_PROT_EXECUTE) { 1659176771Sraj flags |= PTE_SX; 1660176771Sraj if (!su) 1661176771Sraj flags |= PTE_UX; 1662176771Sraj } 1663176771Sraj 1664176771Sraj /* If its wired update stats. */ 1665176771Sraj if (wired) { 1666176771Sraj pmap->pm_stats.wired_count++; 1667176771Sraj flags |= PTE_WIRED; 1668176771Sraj } 1669176771Sraj 1670176771Sraj pte_enter(mmu, pmap, m, va, flags); 1671176771Sraj 1672176771Sraj /* Flush the real memory from the instruction cache. */ 1673176771Sraj if (prot & VM_PROT_EXECUTE) 1674176771Sraj sync++; 1675176771Sraj } 1676176771Sraj 1677176771Sraj if (sync && (su || pmap == PCPU_GET(curpmap))) { 1678176771Sraj __syncicache((void *)va, PAGE_SIZE); 1679176771Sraj sync = 0; 1680176771Sraj } 1681176771Sraj} 1682176771Sraj 1683176771Sraj/* 1684176771Sraj * Maps a sequence of resident pages belonging to the same object. 1685176771Sraj * The sequence begins with the given page m_start. This page is 1686176771Sraj * mapped at the given virtual address start. Each subsequent page is 1687176771Sraj * mapped at a virtual address that is offset from start by the same 1688176771Sraj * amount as the page is offset from m_start within the object. The 1689176771Sraj * last page in the sequence is the page with the largest offset from 1690176771Sraj * m_start that can be mapped at a virtual address less than the given 1691176771Sraj * virtual address end. Not every virtual page between start and end 1692176771Sraj * is mapped; only those for which a resident page exists with the 1693176771Sraj * corresponding offset from m_start are mapped. 1694176771Sraj */ 1695176771Srajstatic void 1696176771Srajmmu_booke_enter_object(mmu_t mmu, pmap_t pmap, vm_offset_t start, 1697176771Sraj vm_offset_t end, vm_page_t m_start, vm_prot_t prot) 1698176771Sraj{ 1699176771Sraj vm_page_t m; 1700176771Sraj vm_pindex_t diff, psize; 1701176771Sraj 1702176771Sraj psize = atop(end - start); 1703176771Sraj m = m_start; 1704208574Salc vm_page_lock_queues(); 1705176771Sraj PMAP_LOCK(pmap); 1706176771Sraj while (m != NULL && (diff = m->pindex - m_start->pindex) < psize) { 1707187151Sraj mmu_booke_enter_locked(mmu, pmap, start + ptoa(diff), m, 1708187151Sraj prot & (VM_PROT_READ | VM_PROT_EXECUTE), FALSE); 1709176771Sraj m = TAILQ_NEXT(m, listq); 1710176771Sraj } 1711208574Salc vm_page_unlock_queues(); 1712176771Sraj PMAP_UNLOCK(pmap); 1713176771Sraj} 1714176771Sraj 1715176771Srajstatic void 1716176771Srajmmu_booke_enter_quick(mmu_t mmu, pmap_t pmap, vm_offset_t va, vm_page_t m, 1717176771Sraj vm_prot_t prot) 1718176771Sraj{ 1719176771Sraj 1720207796Salc vm_page_lock_queues(); 1721176771Sraj PMAP_LOCK(pmap); 1722176771Sraj mmu_booke_enter_locked(mmu, pmap, va, m, 1723176771Sraj prot & (VM_PROT_READ | VM_PROT_EXECUTE), FALSE); 1724207796Salc vm_page_unlock_queues(); 1725176771Sraj PMAP_UNLOCK(pmap); 1726176771Sraj} 1727176771Sraj 1728176771Sraj/* 1729176771Sraj * Remove the given range of addresses from the specified map. 1730176771Sraj * 1731176771Sraj * It is assumed that the start and end are properly rounded to the page size. 1732176771Sraj */ 1733176771Srajstatic void 1734176771Srajmmu_booke_remove(mmu_t mmu, pmap_t pmap, vm_offset_t va, vm_offset_t endva) 1735176771Sraj{ 1736176771Sraj pte_t *pte; 1737187151Sraj uint8_t hold_flag; 1738176771Sraj 1739176771Sraj int su = (pmap == kernel_pmap); 1740176771Sraj 1741176771Sraj //debugf("mmu_booke_remove: s (su = %d pmap=0x%08x tid=%d va=0x%08x endva=0x%08x)\n", 1742176771Sraj // su, (u_int32_t)pmap, pmap->pm_tid, va, endva); 1743176771Sraj 1744176771Sraj if (su) { 1745187151Sraj KASSERT(((va >= virtual_avail) && 1746187151Sraj (va <= VM_MAX_KERNEL_ADDRESS)), 1747187151Sraj ("mmu_booke_remove: kernel pmap, non kernel va")); 1748176771Sraj } else { 1749176771Sraj KASSERT((va <= VM_MAXUSER_ADDRESS), 1750187151Sraj ("mmu_booke_remove: user pmap, non user va")); 1751176771Sraj } 1752176771Sraj 1753176771Sraj if (PMAP_REMOVE_DONE(pmap)) { 1754176771Sraj //debugf("mmu_booke_remove: e (empty)\n"); 1755176771Sraj return; 1756176771Sraj } 1757176771Sraj 1758176771Sraj hold_flag = PTBL_HOLD_FLAG(pmap); 1759176771Sraj //debugf("mmu_booke_remove: hold_flag = %d\n", hold_flag); 1760176771Sraj 1761176771Sraj vm_page_lock_queues(); 1762176771Sraj PMAP_LOCK(pmap); 1763176771Sraj for (; va < endva; va += PAGE_SIZE) { 1764176771Sraj pte = pte_find(mmu, pmap, va); 1765187149Sraj if ((pte != NULL) && PTE_ISVALID(pte)) 1766176771Sraj pte_remove(mmu, pmap, va, hold_flag); 1767176771Sraj } 1768176771Sraj PMAP_UNLOCK(pmap); 1769176771Sraj vm_page_unlock_queues(); 1770176771Sraj 1771176771Sraj //debugf("mmu_booke_remove: e\n"); 1772176771Sraj} 1773176771Sraj 1774176771Sraj/* 1775176771Sraj * Remove physical page from all pmaps in which it resides. 1776176771Sraj */ 1777176771Srajstatic void 1778176771Srajmmu_booke_remove_all(mmu_t mmu, vm_page_t m) 1779176771Sraj{ 1780176771Sraj pv_entry_t pv, pvn; 1781187151Sraj uint8_t hold_flag; 1782176771Sraj 1783207796Salc vm_page_lock_queues(); 1784176771Sraj for (pv = TAILQ_FIRST(&m->md.pv_list); pv != NULL; pv = pvn) { 1785176771Sraj pvn = TAILQ_NEXT(pv, pv_link); 1786176771Sraj 1787176771Sraj PMAP_LOCK(pv->pv_pmap); 1788176771Sraj hold_flag = PTBL_HOLD_FLAG(pv->pv_pmap); 1789176771Sraj pte_remove(mmu, pv->pv_pmap, pv->pv_va, hold_flag); 1790176771Sraj PMAP_UNLOCK(pv->pv_pmap); 1791176771Sraj } 1792176771Sraj vm_page_flag_clear(m, PG_WRITEABLE); 1793207796Salc vm_page_unlock_queues(); 1794176771Sraj} 1795176771Sraj 1796176771Sraj/* 1797176771Sraj * Map a range of physical addresses into kernel virtual address space. 1798176771Sraj */ 1799176771Srajstatic vm_offset_t 1800176771Srajmmu_booke_map(mmu_t mmu, vm_offset_t *virt, vm_offset_t pa_start, 1801176771Sraj vm_offset_t pa_end, int prot) 1802176771Sraj{ 1803176771Sraj vm_offset_t sva = *virt; 1804176771Sraj vm_offset_t va = sva; 1805176771Sraj 1806176771Sraj //debugf("mmu_booke_map: s (sva = 0x%08x pa_start = 0x%08x pa_end = 0x%08x)\n", 1807176771Sraj // sva, pa_start, pa_end); 1808176771Sraj 1809176771Sraj while (pa_start < pa_end) { 1810176771Sraj mmu_booke_kenter(mmu, va, pa_start); 1811176771Sraj va += PAGE_SIZE; 1812176771Sraj pa_start += PAGE_SIZE; 1813176771Sraj } 1814176771Sraj *virt = va; 1815176771Sraj 1816176771Sraj //debugf("mmu_booke_map: e (va = 0x%08x)\n", va); 1817176771Sraj return (sva); 1818176771Sraj} 1819176771Sraj 1820176771Sraj/* 1821176771Sraj * The pmap must be activated before it's address space can be accessed in any 1822176771Sraj * way. 1823176771Sraj */ 1824176771Srajstatic void 1825176771Srajmmu_booke_activate(mmu_t mmu, struct thread *td) 1826176771Sraj{ 1827176771Sraj pmap_t pmap; 1828176771Sraj 1829176771Sraj pmap = &td->td_proc->p_vmspace->vm_pmap; 1830176771Sraj 1831187149Sraj CTR5(KTR_PMAP, "%s: s (td = %p, proc = '%s', id = %d, pmap = 0x%08x)", 1832187149Sraj __func__, td, td->td_proc->p_comm, td->td_proc->p_pid, pmap); 1833176771Sraj 1834176771Sraj KASSERT((pmap != kernel_pmap), ("mmu_booke_activate: kernel_pmap!")); 1835176771Sraj 1836176771Sraj mtx_lock_spin(&sched_lock); 1837176771Sraj 1838222070Sattilio atomic_set_int(&pmap->pm_active, PCPU_GET(cpumask)); 1839176771Sraj PCPU_SET(curpmap, pmap); 1840187149Sraj 1841187149Sraj if (pmap->pm_tid[PCPU_GET(cpuid)] == TID_NONE) 1842176771Sraj tid_alloc(pmap); 1843176771Sraj 1844176771Sraj /* Load PID0 register with pmap tid value. */ 1845187149Sraj mtspr(SPR_PID0, pmap->pm_tid[PCPU_GET(cpuid)]); 1846187149Sraj __asm __volatile("isync"); 1847176771Sraj 1848176771Sraj mtx_unlock_spin(&sched_lock); 1849176771Sraj 1850187149Sraj CTR3(KTR_PMAP, "%s: e (tid = %d for '%s')", __func__, 1851187149Sraj pmap->pm_tid[PCPU_GET(cpuid)], td->td_proc->p_comm); 1852176771Sraj} 1853176771Sraj 1854176771Sraj/* 1855176771Sraj * Deactivate the specified process's address space. 1856176771Sraj */ 1857176771Srajstatic void 1858176771Srajmmu_booke_deactivate(mmu_t mmu, struct thread *td) 1859176771Sraj{ 1860176771Sraj pmap_t pmap; 1861176771Sraj 1862176771Sraj pmap = &td->td_proc->p_vmspace->vm_pmap; 1863187149Sraj 1864187149Sraj CTR5(KTR_PMAP, "%s: td=%p, proc = '%s', id = %d, pmap = 0x%08x", 1865187149Sraj __func__, td, td->td_proc->p_comm, td->td_proc->p_pid, pmap); 1866187149Sraj 1867222070Sattilio atomic_clear_int(&pmap->pm_active, PCPU_GET(cpumask)); 1868176771Sraj PCPU_SET(curpmap, NULL); 1869176771Sraj} 1870176771Sraj 1871176771Sraj/* 1872176771Sraj * Copy the range specified by src_addr/len 1873176771Sraj * from the source map to the range dst_addr/len 1874176771Sraj * in the destination map. 1875176771Sraj * 1876176771Sraj * This routine is only advisory and need not do anything. 1877176771Sraj */ 1878176771Srajstatic void 1879194101Srajmmu_booke_copy(mmu_t mmu, pmap_t dst_pmap, pmap_t src_pmap, 1880194101Sraj vm_offset_t dst_addr, vm_size_t len, vm_offset_t src_addr) 1881176771Sraj{ 1882176771Sraj 1883176771Sraj} 1884176771Sraj 1885176771Sraj/* 1886176771Sraj * Set the physical protection on the specified range of this map as requested. 1887176771Sraj */ 1888176771Srajstatic void 1889176771Srajmmu_booke_protect(mmu_t mmu, pmap_t pmap, vm_offset_t sva, vm_offset_t eva, 1890176771Sraj vm_prot_t prot) 1891176771Sraj{ 1892176771Sraj vm_offset_t va; 1893176771Sraj vm_page_t m; 1894176771Sraj pte_t *pte; 1895176771Sraj 1896176771Sraj if ((prot & VM_PROT_READ) == VM_PROT_NONE) { 1897176771Sraj mmu_booke_remove(mmu, pmap, sva, eva); 1898176771Sraj return; 1899176771Sraj } 1900176771Sraj 1901176771Sraj if (prot & VM_PROT_WRITE) 1902176771Sraj return; 1903176771Sraj 1904176771Sraj vm_page_lock_queues(); 1905176771Sraj PMAP_LOCK(pmap); 1906176771Sraj for (va = sva; va < eva; va += PAGE_SIZE) { 1907176771Sraj if ((pte = pte_find(mmu, pmap, va)) != NULL) { 1908176771Sraj if (PTE_ISVALID(pte)) { 1909176771Sraj m = PHYS_TO_VM_PAGE(PTE_PA(pte)); 1910176771Sraj 1911187149Sraj mtx_lock_spin(&tlbivax_mutex); 1912192532Sraj tlb_miss_lock(); 1913187149Sraj 1914176771Sraj /* Handle modified pages. */ 1915207437Salc if (PTE_ISMODIFIED(pte) && PTE_ISMANAGED(pte)) 1916178626Smarcel vm_page_dirty(m); 1917176771Sraj 1918187149Sraj tlb0_flush_entry(va); 1919207437Salc pte->flags &= ~(PTE_UW | PTE_SW | PTE_MODIFIED); 1920187149Sraj 1921192532Sraj tlb_miss_unlock(); 1922187149Sraj mtx_unlock_spin(&tlbivax_mutex); 1923176771Sraj } 1924176771Sraj } 1925176771Sraj } 1926176771Sraj PMAP_UNLOCK(pmap); 1927176771Sraj vm_page_unlock_queues(); 1928176771Sraj} 1929176771Sraj 1930176771Sraj/* 1931176771Sraj * Clear the write and modified bits in each of the given page's mappings. 1932176771Sraj */ 1933176771Srajstatic void 1934176771Srajmmu_booke_remove_write(mmu_t mmu, vm_page_t m) 1935176771Sraj{ 1936176771Sraj pv_entry_t pv; 1937176771Sraj pte_t *pte; 1938176771Sraj 1939208175Salc KASSERT((m->flags & (PG_FICTITIOUS | PG_UNMANAGED)) == 0, 1940208175Salc ("mmu_booke_remove_write: page %p is not managed", m)); 1941208175Salc 1942208175Salc /* 1943208175Salc * If the page is not VPO_BUSY, then PG_WRITEABLE cannot be set by 1944208175Salc * another thread while the object is locked. Thus, if PG_WRITEABLE 1945208175Salc * is clear, no page table entries need updating. 1946208175Salc */ 1947208175Salc VM_OBJECT_LOCK_ASSERT(m->object, MA_OWNED); 1948208175Salc if ((m->oflags & VPO_BUSY) == 0 && 1949176771Sraj (m->flags & PG_WRITEABLE) == 0) 1950176771Sraj return; 1951207796Salc vm_page_lock_queues(); 1952176771Sraj TAILQ_FOREACH(pv, &m->md.pv_list, pv_link) { 1953176771Sraj PMAP_LOCK(pv->pv_pmap); 1954176771Sraj if ((pte = pte_find(mmu, pv->pv_pmap, pv->pv_va)) != NULL) { 1955176771Sraj if (PTE_ISVALID(pte)) { 1956176771Sraj m = PHYS_TO_VM_PAGE(PTE_PA(pte)); 1957176771Sraj 1958187149Sraj mtx_lock_spin(&tlbivax_mutex); 1959192532Sraj tlb_miss_lock(); 1960187149Sraj 1961176771Sraj /* Handle modified pages. */ 1962178626Smarcel if (PTE_ISMODIFIED(pte)) 1963178626Smarcel vm_page_dirty(m); 1964176771Sraj 1965176771Sraj /* Flush mapping from TLB0. */ 1966207437Salc pte->flags &= ~(PTE_UW | PTE_SW | PTE_MODIFIED); 1967187149Sraj 1968192532Sraj tlb_miss_unlock(); 1969187149Sraj mtx_unlock_spin(&tlbivax_mutex); 1970176771Sraj } 1971176771Sraj } 1972176771Sraj PMAP_UNLOCK(pv->pv_pmap); 1973176771Sraj } 1974176771Sraj vm_page_flag_clear(m, PG_WRITEABLE); 1975207796Salc vm_page_unlock_queues(); 1976176771Sraj} 1977176771Sraj 1978198341Smarcelstatic void 1979198341Smarcelmmu_booke_sync_icache(mmu_t mmu, pmap_t pm, vm_offset_t va, vm_size_t sz) 1980176771Sraj{ 1981176771Sraj pte_t *pte; 1982198341Smarcel pmap_t pmap; 1983198341Smarcel vm_page_t m; 1984198341Smarcel vm_offset_t addr; 1985198341Smarcel vm_paddr_t pa; 1986198341Smarcel int active, valid; 1987198341Smarcel 1988198341Smarcel va = trunc_page(va); 1989198341Smarcel sz = round_page(sz); 1990176771Sraj 1991198341Smarcel vm_page_lock_queues(); 1992198341Smarcel pmap = PCPU_GET(curpmap); 1993198341Smarcel active = (pm == kernel_pmap || pm == pmap) ? 1 : 0; 1994198341Smarcel while (sz > 0) { 1995198341Smarcel PMAP_LOCK(pm); 1996198341Smarcel pte = pte_find(mmu, pm, va); 1997198341Smarcel valid = (pte != NULL && PTE_ISVALID(pte)) ? 1 : 0; 1998198341Smarcel if (valid) 1999198341Smarcel pa = PTE_PA(pte); 2000198341Smarcel PMAP_UNLOCK(pm); 2001198341Smarcel if (valid) { 2002198341Smarcel if (!active) { 2003198341Smarcel /* Create a mapping in the active pmap. */ 2004198341Smarcel addr = 0; 2005198341Smarcel m = PHYS_TO_VM_PAGE(pa); 2006198341Smarcel PMAP_LOCK(pmap); 2007198341Smarcel pte_enter(mmu, pmap, m, addr, 2008198341Smarcel PTE_SR | PTE_VALID | PTE_UR); 2009198341Smarcel __syncicache((void *)addr, PAGE_SIZE); 2010198341Smarcel pte_remove(mmu, pmap, addr, PTBL_UNHOLD); 2011198341Smarcel PMAP_UNLOCK(pmap); 2012198341Smarcel } else 2013198341Smarcel __syncicache((void *)va, PAGE_SIZE); 2014198341Smarcel } 2015198341Smarcel va += PAGE_SIZE; 2016198341Smarcel sz -= PAGE_SIZE; 2017176771Sraj } 2018198341Smarcel vm_page_unlock_queues(); 2019176771Sraj} 2020176771Sraj 2021176771Sraj/* 2022176771Sraj * Atomically extract and hold the physical page with the given 2023176771Sraj * pmap and virtual address pair if that mapping permits the given 2024176771Sraj * protection. 2025176771Sraj */ 2026176771Srajstatic vm_page_t 2027176771Srajmmu_booke_extract_and_hold(mmu_t mmu, pmap_t pmap, vm_offset_t va, 2028176771Sraj vm_prot_t prot) 2029176771Sraj{ 2030176771Sraj pte_t *pte; 2031176771Sraj vm_page_t m; 2032187151Sraj uint32_t pte_wbit; 2033207410Skmacy vm_paddr_t pa; 2034207410Skmacy 2035176771Sraj m = NULL; 2036207410Skmacy pa = 0; 2037176771Sraj PMAP_LOCK(pmap); 2038207410Skmacyretry: 2039176771Sraj pte = pte_find(mmu, pmap, va); 2040176771Sraj if ((pte != NULL) && PTE_ISVALID(pte)) { 2041176771Sraj if (pmap == kernel_pmap) 2042176771Sraj pte_wbit = PTE_SW; 2043176771Sraj else 2044176771Sraj pte_wbit = PTE_UW; 2045176771Sraj 2046176771Sraj if ((pte->flags & pte_wbit) || ((prot & VM_PROT_WRITE) == 0)) { 2047207410Skmacy if (vm_page_pa_tryrelock(pmap, PTE_PA(pte), &pa)) 2048207410Skmacy goto retry; 2049176771Sraj m = PHYS_TO_VM_PAGE(PTE_PA(pte)); 2050176771Sraj vm_page_hold(m); 2051176771Sraj } 2052176771Sraj } 2053176771Sraj 2054207410Skmacy PA_UNLOCK_COND(pa); 2055176771Sraj PMAP_UNLOCK(pmap); 2056176771Sraj return (m); 2057176771Sraj} 2058176771Sraj 2059176771Sraj/* 2060176771Sraj * Initialize a vm_page's machine-dependent fields. 2061176771Sraj */ 2062176771Srajstatic void 2063176771Srajmmu_booke_page_init(mmu_t mmu, vm_page_t m) 2064176771Sraj{ 2065176771Sraj 2066176771Sraj TAILQ_INIT(&m->md.pv_list); 2067176771Sraj} 2068176771Sraj 2069176771Sraj/* 2070176771Sraj * mmu_booke_zero_page_area zeros the specified hardware page by 2071176771Sraj * mapping it into virtual memory and using bzero to clear 2072176771Sraj * its contents. 2073176771Sraj * 2074176771Sraj * off and size must reside within a single page. 2075176771Sraj */ 2076176771Srajstatic void 2077176771Srajmmu_booke_zero_page_area(mmu_t mmu, vm_page_t m, int off, int size) 2078176771Sraj{ 2079176771Sraj vm_offset_t va; 2080176771Sraj 2081187151Sraj /* XXX KASSERT off and size are within a single page? */ 2082176771Sraj 2083176771Sraj mtx_lock(&zero_page_mutex); 2084176771Sraj va = zero_page_va; 2085176771Sraj 2086176771Sraj mmu_booke_kenter(mmu, va, VM_PAGE_TO_PHYS(m)); 2087176771Sraj bzero((caddr_t)va + off, size); 2088176771Sraj mmu_booke_kremove(mmu, va); 2089176771Sraj 2090176771Sraj mtx_unlock(&zero_page_mutex); 2091176771Sraj} 2092176771Sraj 2093176771Sraj/* 2094176771Sraj * mmu_booke_zero_page zeros the specified hardware page. 2095176771Sraj */ 2096176771Srajstatic void 2097176771Srajmmu_booke_zero_page(mmu_t mmu, vm_page_t m) 2098176771Sraj{ 2099176771Sraj 2100176771Sraj mmu_booke_zero_page_area(mmu, m, 0, PAGE_SIZE); 2101176771Sraj} 2102176771Sraj 2103176771Sraj/* 2104176771Sraj * mmu_booke_copy_page copies the specified (machine independent) page by 2105176771Sraj * mapping the page into virtual memory and using memcopy to copy the page, 2106176771Sraj * one machine dependent page at a time. 2107176771Sraj */ 2108176771Srajstatic void 2109176771Srajmmu_booke_copy_page(mmu_t mmu, vm_page_t sm, vm_page_t dm) 2110176771Sraj{ 2111176771Sraj vm_offset_t sva, dva; 2112176771Sraj 2113176771Sraj sva = copy_page_src_va; 2114176771Sraj dva = copy_page_dst_va; 2115176771Sraj 2116187149Sraj mtx_lock(©_page_mutex); 2117176771Sraj mmu_booke_kenter(mmu, sva, VM_PAGE_TO_PHYS(sm)); 2118176771Sraj mmu_booke_kenter(mmu, dva, VM_PAGE_TO_PHYS(dm)); 2119176771Sraj memcpy((caddr_t)dva, (caddr_t)sva, PAGE_SIZE); 2120176771Sraj mmu_booke_kremove(mmu, dva); 2121176771Sraj mmu_booke_kremove(mmu, sva); 2122176771Sraj mtx_unlock(©_page_mutex); 2123176771Sraj} 2124176771Sraj 2125176771Sraj/* 2126176771Sraj * mmu_booke_zero_page_idle zeros the specified hardware page by mapping it 2127176771Sraj * into virtual memory and using bzero to clear its contents. This is intended 2128176771Sraj * to be called from the vm_pagezero process only and outside of Giant. No 2129176771Sraj * lock is required. 2130176771Sraj */ 2131176771Srajstatic void 2132176771Srajmmu_booke_zero_page_idle(mmu_t mmu, vm_page_t m) 2133176771Sraj{ 2134176771Sraj vm_offset_t va; 2135176771Sraj 2136176771Sraj va = zero_page_idle_va; 2137176771Sraj mmu_booke_kenter(mmu, va, VM_PAGE_TO_PHYS(m)); 2138176771Sraj bzero((caddr_t)va, PAGE_SIZE); 2139176771Sraj mmu_booke_kremove(mmu, va); 2140176771Sraj} 2141176771Sraj 2142176771Sraj/* 2143176771Sraj * Return whether or not the specified physical page was modified 2144176771Sraj * in any of physical maps. 2145176771Sraj */ 2146176771Srajstatic boolean_t 2147176771Srajmmu_booke_is_modified(mmu_t mmu, vm_page_t m) 2148176771Sraj{ 2149176771Sraj pte_t *pte; 2150176771Sraj pv_entry_t pv; 2151208504Salc boolean_t rv; 2152176771Sraj 2153208504Salc KASSERT((m->flags & (PG_FICTITIOUS | PG_UNMANAGED)) == 0, 2154208504Salc ("mmu_booke_is_modified: page %p is not managed", m)); 2155208504Salc rv = FALSE; 2156176771Sraj 2157208504Salc /* 2158208504Salc * If the page is not VPO_BUSY, then PG_WRITEABLE cannot be 2159208504Salc * concurrently set while the object is locked. Thus, if PG_WRITEABLE 2160208504Salc * is clear, no PTEs can be modified. 2161208504Salc */ 2162208504Salc VM_OBJECT_LOCK_ASSERT(m->object, MA_OWNED); 2163208504Salc if ((m->oflags & VPO_BUSY) == 0 && 2164208504Salc (m->flags & PG_WRITEABLE) == 0) 2165208504Salc return (rv); 2166208504Salc vm_page_lock_queues(); 2167176771Sraj TAILQ_FOREACH(pv, &m->md.pv_list, pv_link) { 2168176771Sraj PMAP_LOCK(pv->pv_pmap); 2169208504Salc if ((pte = pte_find(mmu, pv->pv_pmap, pv->pv_va)) != NULL && 2170208504Salc PTE_ISVALID(pte)) { 2171208504Salc if (PTE_ISMODIFIED(pte)) 2172208504Salc rv = TRUE; 2173176771Sraj } 2174176771Sraj PMAP_UNLOCK(pv->pv_pmap); 2175208504Salc if (rv) 2176208504Salc break; 2177176771Sraj } 2178208504Salc vm_page_unlock_queues(); 2179208504Salc return (rv); 2180176771Sraj} 2181176771Sraj 2182176771Sraj/* 2183187151Sraj * Return whether or not the specified virtual address is eligible 2184176771Sraj * for prefault. 2185176771Sraj */ 2186176771Srajstatic boolean_t 2187176771Srajmmu_booke_is_prefaultable(mmu_t mmu, pmap_t pmap, vm_offset_t addr) 2188176771Sraj{ 2189176771Sraj 2190176771Sraj return (FALSE); 2191176771Sraj} 2192176771Sraj 2193176771Sraj/* 2194207155Salc * Return whether or not the specified physical page was referenced 2195207155Salc * in any physical maps. 2196207155Salc */ 2197207155Salcstatic boolean_t 2198207155Salcmmu_booke_is_referenced(mmu_t mmu, vm_page_t m) 2199207155Salc{ 2200207155Salc pte_t *pte; 2201207155Salc pv_entry_t pv; 2202207155Salc boolean_t rv; 2203207155Salc 2204208574Salc KASSERT((m->flags & (PG_FICTITIOUS | PG_UNMANAGED)) == 0, 2205208574Salc ("mmu_booke_is_referenced: page %p is not managed", m)); 2206207155Salc rv = FALSE; 2207208574Salc vm_page_lock_queues(); 2208207155Salc TAILQ_FOREACH(pv, &m->md.pv_list, pv_link) { 2209207155Salc PMAP_LOCK(pv->pv_pmap); 2210207155Salc if ((pte = pte_find(mmu, pv->pv_pmap, pv->pv_va)) != NULL && 2211208574Salc PTE_ISVALID(pte)) { 2212208574Salc if (PTE_ISREFERENCED(pte)) 2213208574Salc rv = TRUE; 2214208574Salc } 2215207155Salc PMAP_UNLOCK(pv->pv_pmap); 2216207155Salc if (rv) 2217207155Salc break; 2218207155Salc } 2219208574Salc vm_page_unlock_queues(); 2220207155Salc return (rv); 2221207155Salc} 2222207155Salc 2223207155Salc/* 2224176771Sraj * Clear the modify bits on the specified physical page. 2225176771Sraj */ 2226176771Srajstatic void 2227176771Srajmmu_booke_clear_modify(mmu_t mmu, vm_page_t m) 2228176771Sraj{ 2229176771Sraj pte_t *pte; 2230176771Sraj pv_entry_t pv; 2231176771Sraj 2232208504Salc KASSERT((m->flags & (PG_FICTITIOUS | PG_UNMANAGED)) == 0, 2233208504Salc ("mmu_booke_clear_modify: page %p is not managed", m)); 2234208504Salc VM_OBJECT_LOCK_ASSERT(m->object, MA_OWNED); 2235208504Salc KASSERT((m->oflags & VPO_BUSY) == 0, 2236208504Salc ("mmu_booke_clear_modify: page %p is busy", m)); 2237208504Salc 2238208504Salc /* 2239208504Salc * If the page is not PG_WRITEABLE, then no PTEs can be modified. 2240208504Salc * If the object containing the page is locked and the page is not 2241208504Salc * VPO_BUSY, then PG_WRITEABLE cannot be concurrently set. 2242208504Salc */ 2243208504Salc if ((m->flags & PG_WRITEABLE) == 0) 2244176771Sraj return; 2245208504Salc vm_page_lock_queues(); 2246176771Sraj TAILQ_FOREACH(pv, &m->md.pv_list, pv_link) { 2247176771Sraj PMAP_LOCK(pv->pv_pmap); 2248208504Salc if ((pte = pte_find(mmu, pv->pv_pmap, pv->pv_va)) != NULL && 2249208504Salc PTE_ISVALID(pte)) { 2250187149Sraj mtx_lock_spin(&tlbivax_mutex); 2251192532Sraj tlb_miss_lock(); 2252187149Sraj 2253176771Sraj if (pte->flags & (PTE_SW | PTE_UW | PTE_MODIFIED)) { 2254187149Sraj tlb0_flush_entry(pv->pv_va); 2255176771Sraj pte->flags &= ~(PTE_SW | PTE_UW | PTE_MODIFIED | 2256176771Sraj PTE_REFERENCED); 2257176771Sraj } 2258187149Sraj 2259192532Sraj tlb_miss_unlock(); 2260187149Sraj mtx_unlock_spin(&tlbivax_mutex); 2261176771Sraj } 2262176771Sraj PMAP_UNLOCK(pv->pv_pmap); 2263176771Sraj } 2264208504Salc vm_page_unlock_queues(); 2265176771Sraj} 2266176771Sraj 2267176771Sraj/* 2268176771Sraj * Return a count of reference bits for a page, clearing those bits. 2269176771Sraj * It is not necessary for every reference bit to be cleared, but it 2270176771Sraj * is necessary that 0 only be returned when there are truly no 2271176771Sraj * reference bits set. 2272176771Sraj * 2273176771Sraj * XXX: The exact number of bits to check and clear is a matter that 2274176771Sraj * should be tested and standardized at some point in the future for 2275176771Sraj * optimal aging of shared pages. 2276176771Sraj */ 2277176771Srajstatic int 2278176771Srajmmu_booke_ts_referenced(mmu_t mmu, vm_page_t m) 2279176771Sraj{ 2280176771Sraj pte_t *pte; 2281176771Sraj pv_entry_t pv; 2282176771Sraj int count; 2283176771Sraj 2284208990Salc KASSERT((m->flags & (PG_FICTITIOUS | PG_UNMANAGED)) == 0, 2285208990Salc ("mmu_booke_ts_referenced: page %p is not managed", m)); 2286176771Sraj count = 0; 2287208990Salc vm_page_lock_queues(); 2288176771Sraj TAILQ_FOREACH(pv, &m->md.pv_list, pv_link) { 2289176771Sraj PMAP_LOCK(pv->pv_pmap); 2290208990Salc if ((pte = pte_find(mmu, pv->pv_pmap, pv->pv_va)) != NULL && 2291208990Salc PTE_ISVALID(pte)) { 2292176771Sraj if (PTE_ISREFERENCED(pte)) { 2293187149Sraj mtx_lock_spin(&tlbivax_mutex); 2294192532Sraj tlb_miss_lock(); 2295187149Sraj 2296187149Sraj tlb0_flush_entry(pv->pv_va); 2297176771Sraj pte->flags &= ~PTE_REFERENCED; 2298176771Sraj 2299192532Sraj tlb_miss_unlock(); 2300187149Sraj mtx_unlock_spin(&tlbivax_mutex); 2301187149Sraj 2302176771Sraj if (++count > 4) { 2303176771Sraj PMAP_UNLOCK(pv->pv_pmap); 2304176771Sraj break; 2305176771Sraj } 2306176771Sraj } 2307176771Sraj } 2308176771Sraj PMAP_UNLOCK(pv->pv_pmap); 2309176771Sraj } 2310208990Salc vm_page_unlock_queues(); 2311176771Sraj return (count); 2312176771Sraj} 2313176771Sraj 2314176771Sraj/* 2315176771Sraj * Clear the reference bit on the specified physical page. 2316176771Sraj */ 2317176771Srajstatic void 2318176771Srajmmu_booke_clear_reference(mmu_t mmu, vm_page_t m) 2319176771Sraj{ 2320176771Sraj pte_t *pte; 2321176771Sraj pv_entry_t pv; 2322176771Sraj 2323208504Salc KASSERT((m->flags & (PG_FICTITIOUS | PG_UNMANAGED)) == 0, 2324208504Salc ("mmu_booke_clear_reference: page %p is not managed", m)); 2325208504Salc vm_page_lock_queues(); 2326176771Sraj TAILQ_FOREACH(pv, &m->md.pv_list, pv_link) { 2327176771Sraj PMAP_LOCK(pv->pv_pmap); 2328208504Salc if ((pte = pte_find(mmu, pv->pv_pmap, pv->pv_va)) != NULL && 2329208504Salc PTE_ISVALID(pte)) { 2330176771Sraj if (PTE_ISREFERENCED(pte)) { 2331187149Sraj mtx_lock_spin(&tlbivax_mutex); 2332192532Sraj tlb_miss_lock(); 2333187149Sraj 2334187149Sraj tlb0_flush_entry(pv->pv_va); 2335176771Sraj pte->flags &= ~PTE_REFERENCED; 2336187149Sraj 2337192532Sraj tlb_miss_unlock(); 2338187149Sraj mtx_unlock_spin(&tlbivax_mutex); 2339176771Sraj } 2340176771Sraj } 2341176771Sraj PMAP_UNLOCK(pv->pv_pmap); 2342176771Sraj } 2343208504Salc vm_page_unlock_queues(); 2344176771Sraj} 2345176771Sraj 2346176771Sraj/* 2347176771Sraj * Change wiring attribute for a map/virtual-address pair. 2348176771Sraj */ 2349176771Srajstatic void 2350176771Srajmmu_booke_change_wiring(mmu_t mmu, pmap_t pmap, vm_offset_t va, boolean_t wired) 2351176771Sraj{ 2352201758Smbr pte_t *pte; 2353176771Sraj 2354176771Sraj PMAP_LOCK(pmap); 2355176771Sraj if ((pte = pte_find(mmu, pmap, va)) != NULL) { 2356176771Sraj if (wired) { 2357176771Sraj if (!PTE_ISWIRED(pte)) { 2358176771Sraj pte->flags |= PTE_WIRED; 2359176771Sraj pmap->pm_stats.wired_count++; 2360176771Sraj } 2361176771Sraj } else { 2362176771Sraj if (PTE_ISWIRED(pte)) { 2363176771Sraj pte->flags &= ~PTE_WIRED; 2364176771Sraj pmap->pm_stats.wired_count--; 2365176771Sraj } 2366176771Sraj } 2367176771Sraj } 2368176771Sraj PMAP_UNLOCK(pmap); 2369176771Sraj} 2370176771Sraj 2371176771Sraj/* 2372176771Sraj * Return true if the pmap's pv is one of the first 16 pvs linked to from this 2373176771Sraj * page. This count may be changed upwards or downwards in the future; it is 2374176771Sraj * only necessary that true be returned for a small subset of pmaps for proper 2375176771Sraj * page aging. 2376176771Sraj */ 2377176771Srajstatic boolean_t 2378176771Srajmmu_booke_page_exists_quick(mmu_t mmu, pmap_t pmap, vm_page_t m) 2379176771Sraj{ 2380176771Sraj pv_entry_t pv; 2381176771Sraj int loops; 2382208990Salc boolean_t rv; 2383176771Sraj 2384208990Salc KASSERT((m->flags & (PG_FICTITIOUS | PG_UNMANAGED)) == 0, 2385208990Salc ("mmu_booke_page_exists_quick: page %p is not managed", m)); 2386176771Sraj loops = 0; 2387208990Salc rv = FALSE; 2388208990Salc vm_page_lock_queues(); 2389176771Sraj TAILQ_FOREACH(pv, &m->md.pv_list, pv_link) { 2390208990Salc if (pv->pv_pmap == pmap) { 2391208990Salc rv = TRUE; 2392208990Salc break; 2393208990Salc } 2394176771Sraj if (++loops >= 16) 2395176771Sraj break; 2396176771Sraj } 2397208990Salc vm_page_unlock_queues(); 2398208990Salc return (rv); 2399176771Sraj} 2400176771Sraj 2401176771Sraj/* 2402176771Sraj * Return the number of managed mappings to the given physical page that are 2403176771Sraj * wired. 2404176771Sraj */ 2405176771Srajstatic int 2406176771Srajmmu_booke_page_wired_mappings(mmu_t mmu, vm_page_t m) 2407176771Sraj{ 2408176771Sraj pv_entry_t pv; 2409176771Sraj pte_t *pte; 2410176771Sraj int count = 0; 2411176771Sraj 2412176771Sraj if ((m->flags & PG_FICTITIOUS) != 0) 2413176771Sraj return (count); 2414207796Salc vm_page_lock_queues(); 2415176771Sraj TAILQ_FOREACH(pv, &m->md.pv_list, pv_link) { 2416176771Sraj PMAP_LOCK(pv->pv_pmap); 2417176771Sraj if ((pte = pte_find(mmu, pv->pv_pmap, pv->pv_va)) != NULL) 2418176771Sraj if (PTE_ISVALID(pte) && PTE_ISWIRED(pte)) 2419176771Sraj count++; 2420176771Sraj PMAP_UNLOCK(pv->pv_pmap); 2421176771Sraj } 2422207796Salc vm_page_unlock_queues(); 2423176771Sraj return (count); 2424176771Sraj} 2425176771Sraj 2426176771Srajstatic int 2427176771Srajmmu_booke_dev_direct_mapped(mmu_t mmu, vm_offset_t pa, vm_size_t size) 2428176771Sraj{ 2429176771Sraj int i; 2430176771Sraj vm_offset_t va; 2431176771Sraj 2432176771Sraj /* 2433176771Sraj * This currently does not work for entries that 2434176771Sraj * overlap TLB1 entries. 2435176771Sraj */ 2436176771Sraj for (i = 0; i < tlb1_idx; i ++) { 2437176771Sraj if (tlb1_iomapped(i, pa, size, &va) == 0) 2438176771Sraj return (0); 2439176771Sraj } 2440176771Sraj 2441176771Sraj return (EFAULT); 2442176771Sraj} 2443176771Sraj 2444190701Smarcelvm_offset_t 2445190701Smarcelmmu_booke_dumpsys_map(mmu_t mmu, struct pmap_md *md, vm_size_t ofs, 2446190701Smarcel vm_size_t *sz) 2447190701Smarcel{ 2448190701Smarcel vm_paddr_t pa, ppa; 2449190701Smarcel vm_offset_t va; 2450190701Smarcel vm_size_t gran; 2451190701Smarcel 2452190701Smarcel /* Raw physical memory dumps don't have a virtual address. */ 2453190701Smarcel if (md->md_vaddr == ~0UL) { 2454190701Smarcel /* We always map a 256MB page at 256M. */ 2455190701Smarcel gran = 256 * 1024 * 1024; 2456190701Smarcel pa = md->md_paddr + ofs; 2457190701Smarcel ppa = pa & ~(gran - 1); 2458190701Smarcel ofs = pa - ppa; 2459190701Smarcel va = gran; 2460190701Smarcel tlb1_set_entry(va, ppa, gran, _TLB_ENTRY_IO); 2461190701Smarcel if (*sz > (gran - ofs)) 2462190701Smarcel *sz = gran - ofs; 2463190701Smarcel return (va + ofs); 2464190701Smarcel } 2465190701Smarcel 2466190701Smarcel /* Minidumps are based on virtual memory addresses. */ 2467190701Smarcel va = md->md_vaddr + ofs; 2468190701Smarcel if (va >= kernstart + kernsize) { 2469190701Smarcel gran = PAGE_SIZE - (va & PAGE_MASK); 2470190701Smarcel if (*sz > gran) 2471190701Smarcel *sz = gran; 2472190701Smarcel } 2473190701Smarcel return (va); 2474190701Smarcel} 2475190701Smarcel 2476190701Smarcelvoid 2477190701Smarcelmmu_booke_dumpsys_unmap(mmu_t mmu, struct pmap_md *md, vm_size_t ofs, 2478190701Smarcel vm_offset_t va) 2479190701Smarcel{ 2480190701Smarcel 2481190701Smarcel /* Raw physical memory dumps don't have a virtual address. */ 2482190701Smarcel if (md->md_vaddr == ~0UL) { 2483190701Smarcel tlb1_idx--; 2484190701Smarcel tlb1[tlb1_idx].mas1 = 0; 2485190701Smarcel tlb1[tlb1_idx].mas2 = 0; 2486190701Smarcel tlb1[tlb1_idx].mas3 = 0; 2487190701Smarcel tlb1_write_entry(tlb1_idx); 2488190701Smarcel return; 2489190701Smarcel } 2490190701Smarcel 2491190701Smarcel /* Minidumps are based on virtual memory addresses. */ 2492190701Smarcel /* Nothing to do... */ 2493190701Smarcel} 2494190701Smarcel 2495190701Smarcelstruct pmap_md * 2496190701Smarcelmmu_booke_scan_md(mmu_t mmu, struct pmap_md *prev) 2497190701Smarcel{ 2498190701Smarcel static struct pmap_md md; 2499190701Smarcel pte_t *pte; 2500190701Smarcel vm_offset_t va; 2501190701Smarcel 2502190701Smarcel if (dumpsys_minidump) { 2503190701Smarcel md.md_paddr = ~0UL; /* Minidumps use virtual addresses. */ 2504190701Smarcel if (prev == NULL) { 2505190701Smarcel /* 1st: kernel .data and .bss. */ 2506190701Smarcel md.md_index = 1; 2507190701Smarcel md.md_vaddr = trunc_page((uintptr_t)_etext); 2508190701Smarcel md.md_size = round_page((uintptr_t)_end) - md.md_vaddr; 2509190701Smarcel return (&md); 2510190701Smarcel } 2511190701Smarcel switch (prev->md_index) { 2512190701Smarcel case 1: 2513190701Smarcel /* 2nd: msgbuf and tables (see pmap_bootstrap()). */ 2514190701Smarcel md.md_index = 2; 2515190701Smarcel md.md_vaddr = data_start; 2516190701Smarcel md.md_size = data_end - data_start; 2517190701Smarcel break; 2518190701Smarcel case 2: 2519190701Smarcel /* 3rd: kernel VM. */ 2520190701Smarcel va = prev->md_vaddr + prev->md_size; 2521190701Smarcel /* Find start of next chunk (from va). */ 2522190701Smarcel while (va < virtual_end) { 2523190701Smarcel /* Don't dump the buffer cache. */ 2524190701Smarcel if (va >= kmi.buffer_sva && 2525190701Smarcel va < kmi.buffer_eva) { 2526190701Smarcel va = kmi.buffer_eva; 2527190701Smarcel continue; 2528190701Smarcel } 2529190701Smarcel pte = pte_find(mmu, kernel_pmap, va); 2530190701Smarcel if (pte != NULL && PTE_ISVALID(pte)) 2531190701Smarcel break; 2532190701Smarcel va += PAGE_SIZE; 2533190701Smarcel } 2534190701Smarcel if (va < virtual_end) { 2535190701Smarcel md.md_vaddr = va; 2536190701Smarcel va += PAGE_SIZE; 2537190701Smarcel /* Find last page in chunk. */ 2538190701Smarcel while (va < virtual_end) { 2539190701Smarcel /* Don't run into the buffer cache. */ 2540190701Smarcel if (va == kmi.buffer_sva) 2541190701Smarcel break; 2542190701Smarcel pte = pte_find(mmu, kernel_pmap, va); 2543190701Smarcel if (pte == NULL || !PTE_ISVALID(pte)) 2544190701Smarcel break; 2545190701Smarcel va += PAGE_SIZE; 2546190701Smarcel } 2547190701Smarcel md.md_size = va - md.md_vaddr; 2548190701Smarcel break; 2549190701Smarcel } 2550190701Smarcel md.md_index = 3; 2551190701Smarcel /* FALLTHROUGH */ 2552190701Smarcel default: 2553190701Smarcel return (NULL); 2554190701Smarcel } 2555190701Smarcel } else { /* minidumps */ 2556209908Sraj mem_regions(&physmem_regions, &physmem_regions_sz, 2557209908Sraj &availmem_regions, &availmem_regions_sz); 2558209908Sraj 2559190701Smarcel if (prev == NULL) { 2560190701Smarcel /* first physical chunk. */ 2561209908Sraj md.md_paddr = physmem_regions[0].mr_start; 2562209908Sraj md.md_size = physmem_regions[0].mr_size; 2563190701Smarcel md.md_vaddr = ~0UL; 2564190701Smarcel md.md_index = 1; 2565209908Sraj } else if (md.md_index < physmem_regions_sz) { 2566209908Sraj md.md_paddr = physmem_regions[md.md_index].mr_start; 2567209908Sraj md.md_size = physmem_regions[md.md_index].mr_size; 2568190701Smarcel md.md_vaddr = ~0UL; 2569190701Smarcel md.md_index++; 2570190701Smarcel } else { 2571190701Smarcel /* There's no next physical chunk. */ 2572190701Smarcel return (NULL); 2573190701Smarcel } 2574190701Smarcel } 2575190701Smarcel 2576190701Smarcel return (&md); 2577190701Smarcel} 2578190701Smarcel 2579176771Sraj/* 2580176771Sraj * Map a set of physical memory pages into the kernel virtual address space. 2581176771Sraj * Return a pointer to where it is mapped. This routine is intended to be used 2582176771Sraj * for mapping device memory, NOT real memory. 2583176771Sraj */ 2584176771Srajstatic void * 2585176771Srajmmu_booke_mapdev(mmu_t mmu, vm_offset_t pa, vm_size_t size) 2586176771Sraj{ 2587184244Smarcel void *res; 2588176771Sraj uintptr_t va; 2589184244Smarcel vm_size_t sz; 2590176771Sraj 2591176771Sraj va = (pa >= 0x80000000) ? pa : (0xe2000000 + pa); 2592184244Smarcel res = (void *)va; 2593184244Smarcel 2594184244Smarcel do { 2595184244Smarcel sz = 1 << (ilog2(size) & ~1); 2596184244Smarcel if (bootverbose) 2597184244Smarcel printf("Wiring VA=%x to PA=%x (size=%x), " 2598184244Smarcel "using TLB1[%d]\n", va, pa, sz, tlb1_idx); 2599184244Smarcel tlb1_set_entry(va, pa, sz, _TLB_ENTRY_IO); 2600184244Smarcel size -= sz; 2601184244Smarcel pa += sz; 2602184244Smarcel va += sz; 2603184244Smarcel } while (size > 0); 2604184244Smarcel 2605184244Smarcel return (res); 2606176771Sraj} 2607176771Sraj 2608176771Sraj/* 2609176771Sraj * 'Unmap' a range mapped by mmu_booke_mapdev(). 2610176771Sraj */ 2611176771Srajstatic void 2612176771Srajmmu_booke_unmapdev(mmu_t mmu, vm_offset_t va, vm_size_t size) 2613176771Sraj{ 2614176771Sraj vm_offset_t base, offset; 2615176771Sraj 2616176771Sraj /* 2617176771Sraj * Unmap only if this is inside kernel virtual space. 2618176771Sraj */ 2619176771Sraj if ((va >= VM_MIN_KERNEL_ADDRESS) && (va <= VM_MAX_KERNEL_ADDRESS)) { 2620176771Sraj base = trunc_page(va); 2621176771Sraj offset = va & PAGE_MASK; 2622176771Sraj size = roundup(offset + size, PAGE_SIZE); 2623176771Sraj kmem_free(kernel_map, base, size); 2624176771Sraj } 2625176771Sraj} 2626176771Sraj 2627176771Sraj/* 2628187151Sraj * mmu_booke_object_init_pt preloads the ptes for a given object into the 2629187151Sraj * specified pmap. This eliminates the blast of soft faults on process startup 2630187151Sraj * and immediately after an mmap. 2631176771Sraj */ 2632176771Srajstatic void 2633176771Srajmmu_booke_object_init_pt(mmu_t mmu, pmap_t pmap, vm_offset_t addr, 2634176771Sraj vm_object_t object, vm_pindex_t pindex, vm_size_t size) 2635176771Sraj{ 2636187151Sraj 2637176771Sraj VM_OBJECT_LOCK_ASSERT(object, MA_OWNED); 2638195840Sjhb KASSERT(object->type == OBJT_DEVICE || object->type == OBJT_SG, 2639176771Sraj ("mmu_booke_object_init_pt: non-device object")); 2640176771Sraj} 2641176771Sraj 2642176771Sraj/* 2643176771Sraj * Perform the pmap work for mincore. 2644176771Sraj */ 2645176771Srajstatic int 2646208504Salcmmu_booke_mincore(mmu_t mmu, pmap_t pmap, vm_offset_t addr, 2647208504Salc vm_paddr_t *locked_pa) 2648176771Sraj{ 2649176771Sraj 2650176771Sraj TODO; 2651176771Sraj return (0); 2652176771Sraj} 2653176771Sraj 2654176771Sraj/**************************************************************************/ 2655176771Sraj/* TID handling */ 2656176771Sraj/**************************************************************************/ 2657176771Sraj 2658176771Sraj/* 2659176771Sraj * Allocate a TID. If necessary, steal one from someone else. 2660176771Sraj * The new TID is flushed from the TLB before returning. 2661176771Sraj */ 2662176771Srajstatic tlbtid_t 2663176771Srajtid_alloc(pmap_t pmap) 2664176771Sraj{ 2665176771Sraj tlbtid_t tid; 2666187149Sraj int thiscpu; 2667176771Sraj 2668187149Sraj KASSERT((pmap != kernel_pmap), ("tid_alloc: kernel pmap")); 2669176771Sraj 2670187149Sraj CTR2(KTR_PMAP, "%s: s (pmap = %p)", __func__, pmap); 2671176771Sraj 2672187149Sraj thiscpu = PCPU_GET(cpuid); 2673176771Sraj 2674187149Sraj tid = PCPU_GET(tid_next); 2675187149Sraj if (tid > TID_MAX) 2676187149Sraj tid = TID_MIN; 2677187149Sraj PCPU_SET(tid_next, tid + 1); 2678176771Sraj 2679187149Sraj /* If we are stealing TID then clear the relevant pmap's field */ 2680187149Sraj if (tidbusy[thiscpu][tid] != NULL) { 2681176771Sraj 2682187149Sraj CTR2(KTR_PMAP, "%s: warning: stealing tid %d", __func__, tid); 2683187149Sraj 2684187149Sraj tidbusy[thiscpu][tid]->pm_tid[thiscpu] = TID_NONE; 2685176771Sraj 2686187149Sraj /* Flush all entries from TLB0 matching this TID. */ 2687187149Sraj tid_flush(tid); 2688176771Sraj } 2689176771Sraj 2690187149Sraj tidbusy[thiscpu][tid] = pmap; 2691187149Sraj pmap->pm_tid[thiscpu] = tid; 2692187149Sraj __asm __volatile("msync; isync"); 2693176771Sraj 2694187149Sraj CTR3(KTR_PMAP, "%s: e (%02d next = %02d)", __func__, tid, 2695187149Sraj PCPU_GET(tid_next)); 2696176771Sraj 2697176771Sraj return (tid); 2698176771Sraj} 2699176771Sraj 2700176771Sraj/**************************************************************************/ 2701176771Sraj/* TLB0 handling */ 2702176771Sraj/**************************************************************************/ 2703176771Sraj 2704176771Srajstatic void 2705187149Srajtlb_print_entry(int i, uint32_t mas1, uint32_t mas2, uint32_t mas3, 2706187149Sraj uint32_t mas7) 2707176771Sraj{ 2708176771Sraj int as; 2709176771Sraj char desc[3]; 2710176771Sraj tlbtid_t tid; 2711176771Sraj vm_size_t size; 2712176771Sraj unsigned int tsize; 2713176771Sraj 2714176771Sraj desc[2] = '\0'; 2715176771Sraj if (mas1 & MAS1_VALID) 2716176771Sraj desc[0] = 'V'; 2717176771Sraj else 2718176771Sraj desc[0] = ' '; 2719176771Sraj 2720176771Sraj if (mas1 & MAS1_IPROT) 2721176771Sraj desc[1] = 'P'; 2722176771Sraj else 2723176771Sraj desc[1] = ' '; 2724176771Sraj 2725187149Sraj as = (mas1 & MAS1_TS_MASK) ? 1 : 0; 2726176771Sraj tid = MAS1_GETTID(mas1); 2727176771Sraj 2728176771Sraj tsize = (mas1 & MAS1_TSIZE_MASK) >> MAS1_TSIZE_SHIFT; 2729176771Sraj size = 0; 2730176771Sraj if (tsize) 2731176771Sraj size = tsize2size(tsize); 2732176771Sraj 2733176771Sraj debugf("%3d: (%s) [AS=%d] " 2734176771Sraj "sz = 0x%08x tsz = %d tid = %d mas1 = 0x%08x " 2735176771Sraj "mas2(va) = 0x%08x mas3(pa) = 0x%08x mas7 = 0x%08x\n", 2736176771Sraj i, desc, as, size, tsize, tid, mas1, mas2, mas3, mas7); 2737176771Sraj} 2738176771Sraj 2739176771Sraj/* Convert TLB0 va and way number to tlb0[] table index. */ 2740176771Srajstatic inline unsigned int 2741176771Srajtlb0_tableidx(vm_offset_t va, unsigned int way) 2742176771Sraj{ 2743176771Sraj unsigned int idx; 2744176771Sraj 2745176771Sraj idx = (way * TLB0_ENTRIES_PER_WAY); 2746176771Sraj idx += (va & MAS2_TLB0_ENTRY_IDX_MASK) >> MAS2_TLB0_ENTRY_IDX_SHIFT; 2747176771Sraj return (idx); 2748176771Sraj} 2749176771Sraj 2750176771Sraj/* 2751187149Sraj * Invalidate TLB0 entry. 2752176771Sraj */ 2753187149Srajstatic inline void 2754187149Srajtlb0_flush_entry(vm_offset_t va) 2755176771Sraj{ 2756176771Sraj 2757187149Sraj CTR2(KTR_PMAP, "%s: s va=0x%08x", __func__, va); 2758176771Sraj 2759187149Sraj mtx_assert(&tlbivax_mutex, MA_OWNED); 2760176771Sraj 2761187149Sraj __asm __volatile("tlbivax 0, %0" :: "r"(va & MAS2_EPN_MASK)); 2762187149Sraj __asm __volatile("isync; msync"); 2763187149Sraj __asm __volatile("tlbsync; msync"); 2764176771Sraj 2765187149Sraj CTR1(KTR_PMAP, "%s: e", __func__); 2766176771Sraj} 2767176771Sraj 2768176771Sraj/* Print out contents of the MAS registers for each TLB0 entry */ 2769187149Srajvoid 2770176771Srajtlb0_print_tlbentries(void) 2771176771Sraj{ 2772187149Sraj uint32_t mas0, mas1, mas2, mas3, mas7; 2773176771Sraj int entryidx, way, idx; 2774176771Sraj 2775176771Sraj debugf("TLB0 entries:\n"); 2776187149Sraj for (way = 0; way < TLB0_WAYS; way ++) 2777176771Sraj for (entryidx = 0; entryidx < TLB0_ENTRIES_PER_WAY; entryidx++) { 2778176771Sraj 2779176771Sraj mas0 = MAS0_TLBSEL(0) | MAS0_ESEL(way); 2780176771Sraj mtspr(SPR_MAS0, mas0); 2781187149Sraj __asm __volatile("isync"); 2782176771Sraj 2783176771Sraj mas2 = entryidx << MAS2_TLB0_ENTRY_IDX_SHIFT; 2784176771Sraj mtspr(SPR_MAS2, mas2); 2785176771Sraj 2786187149Sraj __asm __volatile("isync; tlbre"); 2787176771Sraj 2788176771Sraj mas1 = mfspr(SPR_MAS1); 2789176771Sraj mas2 = mfspr(SPR_MAS2); 2790176771Sraj mas3 = mfspr(SPR_MAS3); 2791176771Sraj mas7 = mfspr(SPR_MAS7); 2792176771Sraj 2793176771Sraj idx = tlb0_tableidx(mas2, way); 2794176771Sraj tlb_print_entry(idx, mas1, mas2, mas3, mas7); 2795176771Sraj } 2796176771Sraj} 2797176771Sraj 2798176771Sraj/**************************************************************************/ 2799176771Sraj/* TLB1 handling */ 2800176771Sraj/**************************************************************************/ 2801187149Sraj 2802176771Sraj/* 2803187149Sraj * TLB1 mapping notes: 2804187149Sraj * 2805187149Sraj * TLB1[0] CCSRBAR 2806187149Sraj * TLB1[1] Kernel text and data. 2807187149Sraj * TLB1[2-15] Additional kernel text and data mappings (if required), PCI 2808187149Sraj * windows, other devices mappings. 2809187149Sraj */ 2810187149Sraj 2811187149Sraj/* 2812176771Sraj * Write given entry to TLB1 hardware. 2813176771Sraj * Use 32 bit pa, clear 4 high-order bits of RPN (mas7). 2814176771Sraj */ 2815176771Srajstatic void 2816176771Srajtlb1_write_entry(unsigned int idx) 2817176771Sraj{ 2818187151Sraj uint32_t mas0, mas7; 2819176771Sraj 2820176771Sraj //debugf("tlb1_write_entry: s\n"); 2821176771Sraj 2822176771Sraj /* Clear high order RPN bits */ 2823176771Sraj mas7 = 0; 2824176771Sraj 2825176771Sraj /* Select entry */ 2826176771Sraj mas0 = MAS0_TLBSEL(1) | MAS0_ESEL(idx); 2827176771Sraj //debugf("tlb1_write_entry: mas0 = 0x%08x\n", mas0); 2828176771Sraj 2829176771Sraj mtspr(SPR_MAS0, mas0); 2830187151Sraj __asm __volatile("isync"); 2831176771Sraj mtspr(SPR_MAS1, tlb1[idx].mas1); 2832187151Sraj __asm __volatile("isync"); 2833176771Sraj mtspr(SPR_MAS2, tlb1[idx].mas2); 2834187151Sraj __asm __volatile("isync"); 2835176771Sraj mtspr(SPR_MAS3, tlb1[idx].mas3); 2836187151Sraj __asm __volatile("isync"); 2837176771Sraj mtspr(SPR_MAS7, mas7); 2838187151Sraj __asm __volatile("isync; tlbwe; isync; msync"); 2839176771Sraj 2840201758Smbr //debugf("tlb1_write_entry: e\n"); 2841176771Sraj} 2842176771Sraj 2843176771Sraj/* 2844176771Sraj * Return the largest uint value log such that 2^log <= num. 2845176771Sraj */ 2846176771Srajstatic unsigned int 2847176771Srajilog2(unsigned int num) 2848176771Sraj{ 2849176771Sraj int lz; 2850176771Sraj 2851176771Sraj __asm ("cntlzw %0, %1" : "=r" (lz) : "r" (num)); 2852176771Sraj return (31 - lz); 2853176771Sraj} 2854176771Sraj 2855176771Sraj/* 2856176771Sraj * Convert TLB TSIZE value to mapped region size. 2857176771Sraj */ 2858176771Srajstatic vm_size_t 2859176771Srajtsize2size(unsigned int tsize) 2860176771Sraj{ 2861176771Sraj 2862176771Sraj /* 2863176771Sraj * size = 4^tsize KB 2864176771Sraj * size = 4^tsize * 2^10 = 2^(2 * tsize - 10) 2865176771Sraj */ 2866176771Sraj 2867176771Sraj return ((1 << (2 * tsize)) * 1024); 2868176771Sraj} 2869176771Sraj 2870176771Sraj/* 2871176771Sraj * Convert region size (must be power of 4) to TLB TSIZE value. 2872176771Sraj */ 2873176771Srajstatic unsigned int 2874176771Srajsize2tsize(vm_size_t size) 2875176771Sraj{ 2876176771Sraj 2877176771Sraj return (ilog2(size) / 2 - 5); 2878176771Sraj} 2879176771Sraj 2880176771Sraj/* 2881187149Sraj * Register permanent kernel mapping in TLB1. 2882176771Sraj * 2883187149Sraj * Entries are created starting from index 0 (current free entry is 2884187149Sraj * kept in tlb1_idx) and are not supposed to be invalidated. 2885176771Sraj */ 2886187149Srajstatic int 2887187149Srajtlb1_set_entry(vm_offset_t va, vm_offset_t pa, vm_size_t size, 2888187149Sraj uint32_t flags) 2889176771Sraj{ 2890187149Sraj uint32_t ts, tid; 2891176771Sraj int tsize; 2892187149Sraj 2893187149Sraj if (tlb1_idx >= TLB1_ENTRIES) { 2894187149Sraj printf("tlb1_set_entry: TLB1 full!\n"); 2895187149Sraj return (-1); 2896187149Sraj } 2897176771Sraj 2898176771Sraj /* Convert size to TSIZE */ 2899176771Sraj tsize = size2tsize(size); 2900176771Sraj 2901187149Sraj tid = (TID_KERNEL << MAS1_TID_SHIFT) & MAS1_TID_MASK; 2902187149Sraj /* XXX TS is hard coded to 0 for now as we only use single address space */ 2903187149Sraj ts = (0 << MAS1_TS_SHIFT) & MAS1_TS_MASK; 2904176771Sraj 2905187149Sraj /* XXX LOCK tlb1[] */ 2906176771Sraj 2907187149Sraj tlb1[tlb1_idx].mas1 = MAS1_VALID | MAS1_IPROT | ts | tid; 2908187149Sraj tlb1[tlb1_idx].mas1 |= ((tsize << MAS1_TSIZE_SHIFT) & MAS1_TSIZE_MASK); 2909187149Sraj tlb1[tlb1_idx].mas2 = (va & MAS2_EPN_MASK) | flags; 2910176771Sraj 2911187149Sraj /* Set supervisor RWX permission bits */ 2912187149Sraj tlb1[tlb1_idx].mas3 = (pa & MAS3_RPN) | MAS3_SR | MAS3_SW | MAS3_SX; 2913176771Sraj 2914187149Sraj tlb1_write_entry(tlb1_idx++); 2915176771Sraj 2916187149Sraj /* XXX UNLOCK tlb1[] */ 2917176771Sraj 2918187149Sraj /* 2919187149Sraj * XXX in general TLB1 updates should be propagated between CPUs, 2920187149Sraj * since current design assumes to have the same TLB1 set-up on all 2921187149Sraj * cores. 2922187149Sraj */ 2923176771Sraj return (0); 2924176771Sraj} 2925176771Sraj 2926176771Srajstatic int 2927176771Srajtlb1_entry_size_cmp(const void *a, const void *b) 2928176771Sraj{ 2929176771Sraj const vm_size_t *sza; 2930176771Sraj const vm_size_t *szb; 2931176771Sraj 2932176771Sraj sza = a; 2933176771Sraj szb = b; 2934176771Sraj if (*sza > *szb) 2935176771Sraj return (-1); 2936176771Sraj else if (*sza < *szb) 2937176771Sraj return (1); 2938176771Sraj else 2939176771Sraj return (0); 2940176771Sraj} 2941176771Sraj 2942176771Sraj/* 2943187151Sraj * Map in contiguous RAM region into the TLB1 using maximum of 2944176771Sraj * KERNEL_REGION_MAX_TLB_ENTRIES entries. 2945176771Sraj * 2946187151Sraj * If necessary round up last entry size and return total size 2947176771Sraj * used by all allocated entries. 2948176771Sraj */ 2949176771Srajvm_size_t 2950176771Srajtlb1_mapin_region(vm_offset_t va, vm_offset_t pa, vm_size_t size) 2951176771Sraj{ 2952176771Sraj vm_size_t entry_size[KERNEL_REGION_MAX_TLB_ENTRIES]; 2953176771Sraj vm_size_t mapped_size, sz, esz; 2954176771Sraj unsigned int log; 2955176771Sraj int i; 2956176771Sraj 2957187151Sraj CTR4(KTR_PMAP, "%s: region size = 0x%08x va = 0x%08x pa = 0x%08x", 2958187151Sraj __func__, size, va, pa); 2959176771Sraj 2960176771Sraj mapped_size = 0; 2961176771Sraj sz = size; 2962176771Sraj memset(entry_size, 0, sizeof(entry_size)); 2963176771Sraj 2964176771Sraj /* Calculate entry sizes. */ 2965176771Sraj for (i = 0; i < KERNEL_REGION_MAX_TLB_ENTRIES && sz > 0; i++) { 2966176771Sraj 2967176771Sraj /* Largest region that is power of 4 and fits within size */ 2968187149Sraj log = ilog2(sz) / 2; 2969176771Sraj esz = 1 << (2 * log); 2970176771Sraj 2971176771Sraj /* If this is last entry cover remaining size. */ 2972176771Sraj if (i == KERNEL_REGION_MAX_TLB_ENTRIES - 1) { 2973176771Sraj while (esz < sz) 2974176771Sraj esz = esz << 2; 2975176771Sraj } 2976176771Sraj 2977176771Sraj entry_size[i] = esz; 2978176771Sraj mapped_size += esz; 2979176771Sraj if (esz < sz) 2980176771Sraj sz -= esz; 2981176771Sraj else 2982176771Sraj sz = 0; 2983176771Sraj } 2984176771Sraj 2985176771Sraj /* Sort entry sizes, required to get proper entry address alignment. */ 2986176771Sraj qsort(entry_size, KERNEL_REGION_MAX_TLB_ENTRIES, 2987176771Sraj sizeof(vm_size_t), tlb1_entry_size_cmp); 2988176771Sraj 2989176771Sraj /* Load TLB1 entries. */ 2990176771Sraj for (i = 0; i < KERNEL_REGION_MAX_TLB_ENTRIES; i++) { 2991176771Sraj esz = entry_size[i]; 2992176771Sraj if (!esz) 2993176771Sraj break; 2994187151Sraj 2995187151Sraj CTR5(KTR_PMAP, "%s: entry %d: sz = 0x%08x (va = 0x%08x " 2996187151Sraj "pa = 0x%08x)", __func__, tlb1_idx, esz, va, pa); 2997187151Sraj 2998176771Sraj tlb1_set_entry(va, pa, esz, _TLB_ENTRY_MEM); 2999176771Sraj 3000176771Sraj va += esz; 3001176771Sraj pa += esz; 3002176771Sraj } 3003176771Sraj 3004187151Sraj CTR3(KTR_PMAP, "%s: mapped size 0x%08x (wasted space 0x%08x)", 3005187151Sraj __func__, mapped_size, mapped_size - size); 3006176771Sraj 3007176771Sraj return (mapped_size); 3008176771Sraj} 3009176771Sraj 3010176771Sraj/* 3011176771Sraj * TLB1 initialization routine, to be called after the very first 3012176771Sraj * assembler level setup done in locore.S. 3013176771Sraj */ 3014176771Srajvoid 3015176771Srajtlb1_init(vm_offset_t ccsrbar) 3016176771Sraj{ 3017176771Sraj uint32_t mas0; 3018176771Sraj 3019222391Smarcel /* TLB1[0] is used to map the kernel. Save that entry. */ 3020222391Smarcel mas0 = MAS0_TLBSEL(1) | MAS0_ESEL(0); 3021176771Sraj mtspr(SPR_MAS0, mas0); 3022176771Sraj __asm __volatile("isync; tlbre"); 3023176771Sraj 3024222391Smarcel tlb1[0].mas1 = mfspr(SPR_MAS1); 3025222391Smarcel tlb1[0].mas2 = mfspr(SPR_MAS2); 3026222391Smarcel tlb1[0].mas3 = mfspr(SPR_MAS3); 3027176771Sraj 3028222391Smarcel /* Map in CCSRBAR in TLB1[1] */ 3029222391Smarcel tlb1_idx = 1; 3030187149Sraj tlb1_set_entry(CCSRBAR_VA, ccsrbar, CCSRBAR_SIZE, _TLB_ENTRY_IO); 3031176771Sraj 3032176771Sraj /* Setup TLB miss defaults */ 3033176771Sraj set_mas4_defaults(); 3034176771Sraj} 3035176771Sraj 3036176771Sraj/* 3037176771Sraj * Setup MAS4 defaults. 3038176771Sraj * These values are loaded to MAS0-2 on a TLB miss. 3039176771Sraj */ 3040176771Srajstatic void 3041176771Srajset_mas4_defaults(void) 3042176771Sraj{ 3043187151Sraj uint32_t mas4; 3044176771Sraj 3045176771Sraj /* Defaults: TLB0, PID0, TSIZED=4K */ 3046176771Sraj mas4 = MAS4_TLBSELD0; 3047176771Sraj mas4 |= (TLB_SIZE_4K << MAS4_TSIZED_SHIFT) & MAS4_TSIZED_MASK; 3048192532Sraj#ifdef SMP 3049192532Sraj mas4 |= MAS4_MD; 3050192532Sraj#endif 3051176771Sraj mtspr(SPR_MAS4, mas4); 3052187151Sraj __asm __volatile("isync"); 3053176771Sraj} 3054176771Sraj 3055176771Sraj/* 3056176771Sraj * Print out contents of the MAS registers for each TLB1 entry 3057176771Sraj */ 3058176771Srajvoid 3059176771Srajtlb1_print_tlbentries(void) 3060176771Sraj{ 3061187149Sraj uint32_t mas0, mas1, mas2, mas3, mas7; 3062176771Sraj int i; 3063176771Sraj 3064176771Sraj debugf("TLB1 entries:\n"); 3065187149Sraj for (i = 0; i < TLB1_ENTRIES; i++) { 3066176771Sraj 3067176771Sraj mas0 = MAS0_TLBSEL(1) | MAS0_ESEL(i); 3068176771Sraj mtspr(SPR_MAS0, mas0); 3069176771Sraj 3070187149Sraj __asm __volatile("isync; tlbre"); 3071176771Sraj 3072176771Sraj mas1 = mfspr(SPR_MAS1); 3073176771Sraj mas2 = mfspr(SPR_MAS2); 3074176771Sraj mas3 = mfspr(SPR_MAS3); 3075176771Sraj mas7 = mfspr(SPR_MAS7); 3076176771Sraj 3077176771Sraj tlb_print_entry(i, mas1, mas2, mas3, mas7); 3078176771Sraj } 3079176771Sraj} 3080176771Sraj 3081176771Sraj/* 3082176771Sraj * Print out contents of the in-ram tlb1 table. 3083176771Sraj */ 3084176771Srajvoid 3085176771Srajtlb1_print_entries(void) 3086176771Sraj{ 3087176771Sraj int i; 3088176771Sraj 3089176771Sraj debugf("tlb1[] table entries:\n"); 3090187149Sraj for (i = 0; i < TLB1_ENTRIES; i++) 3091176771Sraj tlb_print_entry(i, tlb1[i].mas1, tlb1[i].mas2, tlb1[i].mas3, 0); 3092176771Sraj} 3093176771Sraj 3094176771Sraj/* 3095176771Sraj * Return 0 if the physical IO range is encompassed by one of the 3096176771Sraj * the TLB1 entries, otherwise return related error code. 3097176771Sraj */ 3098176771Srajstatic int 3099176771Srajtlb1_iomapped(int i, vm_paddr_t pa, vm_size_t size, vm_offset_t *va) 3100176771Sraj{ 3101187151Sraj uint32_t prot; 3102176771Sraj vm_paddr_t pa_start; 3103176771Sraj vm_paddr_t pa_end; 3104176771Sraj unsigned int entry_tsize; 3105176771Sraj vm_size_t entry_size; 3106176771Sraj 3107176771Sraj *va = (vm_offset_t)NULL; 3108176771Sraj 3109176771Sraj /* Skip invalid entries */ 3110176771Sraj if (!(tlb1[i].mas1 & MAS1_VALID)) 3111176771Sraj return (EINVAL); 3112176771Sraj 3113176771Sraj /* 3114176771Sraj * The entry must be cache-inhibited, guarded, and r/w 3115176771Sraj * so it can function as an i/o page 3116176771Sraj */ 3117176771Sraj prot = tlb1[i].mas2 & (MAS2_I | MAS2_G); 3118176771Sraj if (prot != (MAS2_I | MAS2_G)) 3119176771Sraj return (EPERM); 3120176771Sraj 3121176771Sraj prot = tlb1[i].mas3 & (MAS3_SR | MAS3_SW); 3122176771Sraj if (prot != (MAS3_SR | MAS3_SW)) 3123176771Sraj return (EPERM); 3124176771Sraj 3125176771Sraj /* The address should be within the entry range. */ 3126176771Sraj entry_tsize = (tlb1[i].mas1 & MAS1_TSIZE_MASK) >> MAS1_TSIZE_SHIFT; 3127176771Sraj KASSERT((entry_tsize), ("tlb1_iomapped: invalid entry tsize")); 3128176771Sraj 3129176771Sraj entry_size = tsize2size(entry_tsize); 3130176771Sraj pa_start = tlb1[i].mas3 & MAS3_RPN; 3131176771Sraj pa_end = pa_start + entry_size - 1; 3132176771Sraj 3133176771Sraj if ((pa < pa_start) || ((pa + size) > pa_end)) 3134176771Sraj return (ERANGE); 3135176771Sraj 3136176771Sraj /* Return virtual address of this mapping. */ 3137187149Sraj *va = (tlb1[i].mas2 & MAS2_EPN_MASK) + (pa - pa_start); 3138176771Sraj return (0); 3139176771Sraj} 3140