1f8a47341SAlan Cox /*- 2fe267a55SPedro F. Giffuni * SPDX-License-Identifier: BSD-2-Clause-FreeBSD 3fe267a55SPedro F. Giffuni * 4f8a47341SAlan Cox * Copyright (c) 2002-2006 Rice University 5ec179322SAlan Cox * Copyright (c) 2007-2011 Alan L. Cox <alc@cs.rice.edu> 6f8a47341SAlan Cox * All rights reserved. 7f8a47341SAlan Cox * 8f8a47341SAlan Cox * This software was developed for the FreeBSD Project by Alan L. Cox, 9f8a47341SAlan Cox * Olivier Crameri, Peter Druschel, Sitaram Iyer, and Juan Navarro. 10f8a47341SAlan Cox * 11f8a47341SAlan Cox * Redistribution and use in source and binary forms, with or without 12f8a47341SAlan Cox * modification, are permitted provided that the following conditions 13f8a47341SAlan Cox * are met: 14f8a47341SAlan Cox * 1. Redistributions of source code must retain the above copyright 15f8a47341SAlan Cox * notice, this list of conditions and the following disclaimer. 16f8a47341SAlan Cox * 2. Redistributions in binary form must reproduce the above copyright 17f8a47341SAlan Cox * notice, this list of conditions and the following disclaimer in the 18f8a47341SAlan Cox * documentation and/or other materials provided with the distribution. 19f8a47341SAlan Cox * 20f8a47341SAlan Cox * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 21f8a47341SAlan Cox * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 22f8a47341SAlan Cox * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR 23f8a47341SAlan Cox * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT 24f8a47341SAlan Cox * HOLDERS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, 25f8a47341SAlan Cox * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, 26f8a47341SAlan Cox * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS 27f8a47341SAlan Cox * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED 28f8a47341SAlan Cox * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 29f8a47341SAlan Cox * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY 30f8a47341SAlan Cox * WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 31f8a47341SAlan Cox * POSSIBILITY OF SUCH DAMAGE. 32f8a47341SAlan Cox */ 33f8a47341SAlan Cox 34f8a47341SAlan Cox /* 35f8a47341SAlan Cox * Superpage reservation management module 36c68c3537SAlan Cox * 37c68c3537SAlan Cox * Any external functions defined by this module are only to be used by the 38c68c3537SAlan Cox * virtual memory system. 39f8a47341SAlan Cox */ 40f8a47341SAlan Cox 41f8a47341SAlan Cox #include <sys/cdefs.h> 42f8a47341SAlan Cox __FBSDID("$FreeBSD$"); 43f8a47341SAlan Cox 44f8a47341SAlan Cox #include "opt_vm.h" 45f8a47341SAlan Cox 46f8a47341SAlan Cox #include <sys/param.h> 47f8a47341SAlan Cox #include <sys/kernel.h> 48f8a47341SAlan Cox #include <sys/lock.h> 49f8a47341SAlan Cox #include <sys/malloc.h> 50f8a47341SAlan Cox #include <sys/mutex.h> 51f8a47341SAlan Cox #include <sys/queue.h> 5289f6b863SAttilio Rao #include <sys/rwlock.h> 53f8a47341SAlan Cox #include <sys/sbuf.h> 54f8a47341SAlan Cox #include <sys/sysctl.h> 55f8a47341SAlan Cox #include <sys/systm.h> 569ed01c32SGleb Smirnoff #include <sys/vmmeter.h> 57f8a47341SAlan Cox 58f8a47341SAlan Cox #include <vm/vm.h> 59f8a47341SAlan Cox #include <vm/vm_param.h> 60f8a47341SAlan Cox #include <vm/vm_object.h> 61f8a47341SAlan Cox #include <vm/vm_page.h> 62*e2068d0bSJeff Roberson #include <vm/vm_pageout.h> 63f8a47341SAlan Cox #include <vm/vm_phys.h> 64*e2068d0bSJeff Roberson #include <vm/vm_pagequeue.h> 65774d251dSAttilio Rao #include <vm/vm_radix.h> 66f8a47341SAlan Cox #include <vm/vm_reserv.h> 67f8a47341SAlan Cox 68f8a47341SAlan Cox /* 69f8a47341SAlan Cox * The reservation system supports the speculative allocation of large physical 703453bca8SAlan Cox * pages ("superpages"). Speculative allocation enables the fully automatic 71f8a47341SAlan Cox * utilization of superpages by the virtual memory system. In other words, no 72f8a47341SAlan Cox * programmatic directives are required to use superpages. 73f8a47341SAlan Cox */ 74f8a47341SAlan Cox 75f8a47341SAlan Cox #if VM_NRESERVLEVEL > 0 76f8a47341SAlan Cox 77f8a47341SAlan Cox /* 78f8a47341SAlan Cox * The number of small pages that are contained in a level 0 reservation 79f8a47341SAlan Cox */ 80f8a47341SAlan Cox #define VM_LEVEL_0_NPAGES (1 << VM_LEVEL_0_ORDER) 81f8a47341SAlan Cox 82f8a47341SAlan Cox /* 83f8a47341SAlan Cox * The number of bits by which a physical address is shifted to obtain the 84f8a47341SAlan Cox * reservation number 85f8a47341SAlan Cox */ 86f8a47341SAlan Cox #define VM_LEVEL_0_SHIFT (VM_LEVEL_0_ORDER + PAGE_SHIFT) 87f8a47341SAlan Cox 88f8a47341SAlan Cox /* 89f8a47341SAlan Cox * The size of a level 0 reservation in bytes 90f8a47341SAlan Cox */ 91f8a47341SAlan Cox #define VM_LEVEL_0_SIZE (1 << VM_LEVEL_0_SHIFT) 92f8a47341SAlan Cox 93f8a47341SAlan Cox /* 94f8a47341SAlan Cox * Computes the index of the small page underlying the given (object, pindex) 95f8a47341SAlan Cox * within the reservation's array of small pages. 96f8a47341SAlan Cox */ 97f8a47341SAlan Cox #define VM_RESERV_INDEX(object, pindex) \ 98f8a47341SAlan Cox (((object)->pg_color + (pindex)) & (VM_LEVEL_0_NPAGES - 1)) 99f8a47341SAlan Cox 100f8a47341SAlan Cox /* 101ec179322SAlan Cox * The size of a population map entry 102ec179322SAlan Cox */ 103ec179322SAlan Cox typedef u_long popmap_t; 104ec179322SAlan Cox 105ec179322SAlan Cox /* 106ec179322SAlan Cox * The number of bits in a population map entry 107ec179322SAlan Cox */ 108ec179322SAlan Cox #define NBPOPMAP (NBBY * sizeof(popmap_t)) 109ec179322SAlan Cox 110ec179322SAlan Cox /* 111ec179322SAlan Cox * The number of population map entries in a reservation 112ec179322SAlan Cox */ 113ec179322SAlan Cox #define NPOPMAP howmany(VM_LEVEL_0_NPAGES, NBPOPMAP) 114ec179322SAlan Cox 115ec179322SAlan Cox /* 1163180f757SAlan Cox * Clear a bit in the population map. 1173180f757SAlan Cox */ 1183180f757SAlan Cox static __inline void 1193180f757SAlan Cox popmap_clear(popmap_t popmap[], int i) 1203180f757SAlan Cox { 1213180f757SAlan Cox 1223180f757SAlan Cox popmap[i / NBPOPMAP] &= ~(1UL << (i % NBPOPMAP)); 1233180f757SAlan Cox } 1243180f757SAlan Cox 1253180f757SAlan Cox /* 1263180f757SAlan Cox * Set a bit in the population map. 1273180f757SAlan Cox */ 1283180f757SAlan Cox static __inline void 1293180f757SAlan Cox popmap_set(popmap_t popmap[], int i) 1303180f757SAlan Cox { 1313180f757SAlan Cox 1323180f757SAlan Cox popmap[i / NBPOPMAP] |= 1UL << (i % NBPOPMAP); 1333180f757SAlan Cox } 1343180f757SAlan Cox 1353180f757SAlan Cox /* 1363180f757SAlan Cox * Is a bit in the population map clear? 1373180f757SAlan Cox */ 1383180f757SAlan Cox static __inline boolean_t 1393180f757SAlan Cox popmap_is_clear(popmap_t popmap[], int i) 1403180f757SAlan Cox { 1413180f757SAlan Cox 1423180f757SAlan Cox return ((popmap[i / NBPOPMAP] & (1UL << (i % NBPOPMAP))) == 0); 1433180f757SAlan Cox } 1443180f757SAlan Cox 1453180f757SAlan Cox /* 1463180f757SAlan Cox * Is a bit in the population map set? 1473180f757SAlan Cox */ 1483180f757SAlan Cox static __inline boolean_t 1493180f757SAlan Cox popmap_is_set(popmap_t popmap[], int i) 1503180f757SAlan Cox { 1513180f757SAlan Cox 1523180f757SAlan Cox return ((popmap[i / NBPOPMAP] & (1UL << (i % NBPOPMAP))) != 0); 1533180f757SAlan Cox } 1543180f757SAlan Cox 1553180f757SAlan Cox /* 156f8a47341SAlan Cox * The reservation structure 157f8a47341SAlan Cox * 158f8a47341SAlan Cox * A reservation structure is constructed whenever a large physical page is 159f8a47341SAlan Cox * speculatively allocated to an object. The reservation provides the small 160f8a47341SAlan Cox * physical pages for the range [pindex, pindex + VM_LEVEL_0_NPAGES) of offsets 161f8a47341SAlan Cox * within that object. The reservation's "popcnt" tracks the number of these 162f8a47341SAlan Cox * small physical pages that are in use at any given time. When and if the 1633453bca8SAlan Cox * reservation is not fully utilized, it appears in the queue of partially 164f8a47341SAlan Cox * populated reservations. The reservation always appears on the containing 165f8a47341SAlan Cox * object's list of reservations. 166f8a47341SAlan Cox * 1673453bca8SAlan Cox * A partially populated reservation can be broken and reclaimed at any time. 168*e2068d0bSJeff Roberson * 169*e2068d0bSJeff Roberson * f - vm_domain_free_lock 170*e2068d0bSJeff Roberson * o - vm_reserv_object_lock 171*e2068d0bSJeff Roberson * c - constant after boot 172f8a47341SAlan Cox */ 173f8a47341SAlan Cox struct vm_reserv { 174*e2068d0bSJeff Roberson TAILQ_ENTRY(vm_reserv) partpopq; /* (f) per-domain queue. */ 175*e2068d0bSJeff Roberson LIST_ENTRY(vm_reserv) objq; /* (o, f) object queue */ 176*e2068d0bSJeff Roberson vm_object_t object; /* (o, f) containing object */ 177*e2068d0bSJeff Roberson vm_pindex_t pindex; /* (o, f) offset in object */ 178*e2068d0bSJeff Roberson vm_page_t pages; /* (c) first page */ 179*e2068d0bSJeff Roberson int domain; /* (c) NUMA domain. */ 180*e2068d0bSJeff Roberson int popcnt; /* (f) # of pages in use */ 181*e2068d0bSJeff Roberson char inpartpopq; /* (f) */ 182*e2068d0bSJeff Roberson popmap_t popmap[NPOPMAP]; /* (f) bit vector, used pages */ 183f8a47341SAlan Cox }; 184f8a47341SAlan Cox 185f8a47341SAlan Cox /* 186f8a47341SAlan Cox * The reservation array 187f8a47341SAlan Cox * 188f8a47341SAlan Cox * This array is analoguous in function to vm_page_array. It differs in the 189f8a47341SAlan Cox * respect that it may contain a greater number of useful reservation 190f8a47341SAlan Cox * structures than there are (physical) superpages. These "invalid" 191f8a47341SAlan Cox * reservation structures exist to trade-off space for time in the 192f8a47341SAlan Cox * implementation of vm_reserv_from_page(). Invalid reservation structures are 193f8a47341SAlan Cox * distinguishable from "valid" reservation structures by inspecting the 194f8a47341SAlan Cox * reservation's "pages" field. Invalid reservation structures have a NULL 195f8a47341SAlan Cox * "pages" field. 196f8a47341SAlan Cox * 197f8a47341SAlan Cox * vm_reserv_from_page() maps a small (physical) page to an element of this 198f8a47341SAlan Cox * array by computing a physical reservation number from the page's physical 199f8a47341SAlan Cox * address. The physical reservation number is used as the array index. 200f8a47341SAlan Cox * 201f8a47341SAlan Cox * An "active" reservation is a valid reservation structure that has a non-NULL 202f8a47341SAlan Cox * "object" field and a non-zero "popcnt" field. In other words, every active 203f8a47341SAlan Cox * reservation belongs to a particular object. Moreover, every active 204f8a47341SAlan Cox * reservation has an entry in the containing object's list of reservations. 205f8a47341SAlan Cox */ 206f8a47341SAlan Cox static vm_reserv_t vm_reserv_array; 207f8a47341SAlan Cox 208f8a47341SAlan Cox /* 2093453bca8SAlan Cox * The partially populated reservation queue 210f8a47341SAlan Cox * 2113453bca8SAlan Cox * This queue enables the fast recovery of an unused free small page from a 2123453bca8SAlan Cox * partially populated reservation. The reservation at the head of this queue 2133453bca8SAlan Cox * is the least recently changed, partially populated reservation. 214f8a47341SAlan Cox * 215f8a47341SAlan Cox * Access to this queue is synchronized by the free page queue lock. 216f8a47341SAlan Cox */ 217ef435ae7SJeff Roberson static TAILQ_HEAD(, vm_reserv) vm_rvq_partpop[MAXMEMDOM]; 218f8a47341SAlan Cox 219f8a47341SAlan Cox static SYSCTL_NODE(_vm, OID_AUTO, reserv, CTLFLAG_RD, 0, "Reservation Info"); 220f8a47341SAlan Cox 221f8a47341SAlan Cox static long vm_reserv_broken; 222f8a47341SAlan Cox SYSCTL_LONG(_vm_reserv, OID_AUTO, broken, CTLFLAG_RD, 223f8a47341SAlan Cox &vm_reserv_broken, 0, "Cumulative number of broken reservations"); 224f8a47341SAlan Cox 225f8a47341SAlan Cox static long vm_reserv_freed; 226f8a47341SAlan Cox SYSCTL_LONG(_vm_reserv, OID_AUTO, freed, CTLFLAG_RD, 227f8a47341SAlan Cox &vm_reserv_freed, 0, "Cumulative number of freed reservations"); 228f8a47341SAlan Cox 229e0a63baaSAlan Cox static int sysctl_vm_reserv_fullpop(SYSCTL_HANDLER_ARGS); 230e0a63baaSAlan Cox 231e0a63baaSAlan Cox SYSCTL_PROC(_vm_reserv, OID_AUTO, fullpop, CTLTYPE_INT | CTLFLAG_RD, NULL, 0, 232e0a63baaSAlan Cox sysctl_vm_reserv_fullpop, "I", "Current number of full reservations"); 233e0a63baaSAlan Cox 234f8a47341SAlan Cox static int sysctl_vm_reserv_partpopq(SYSCTL_HANDLER_ARGS); 235f8a47341SAlan Cox 236f8a47341SAlan Cox SYSCTL_OID(_vm_reserv, OID_AUTO, partpopq, CTLTYPE_STRING | CTLFLAG_RD, NULL, 0, 2373453bca8SAlan Cox sysctl_vm_reserv_partpopq, "A", "Partially populated reservation queues"); 238f8a47341SAlan Cox 239f8a47341SAlan Cox static long vm_reserv_reclaimed; 240f8a47341SAlan Cox SYSCTL_LONG(_vm_reserv, OID_AUTO, reclaimed, CTLFLAG_RD, 241f8a47341SAlan Cox &vm_reserv_reclaimed, 0, "Cumulative number of reclaimed reservations"); 242f8a47341SAlan Cox 243*e2068d0bSJeff Roberson /* 244*e2068d0bSJeff Roberson * The object lock pool is used to synchronize the rvq. We can not use a 245*e2068d0bSJeff Roberson * pool mutex because it is required before malloc works. 246*e2068d0bSJeff Roberson * 247*e2068d0bSJeff Roberson * The "hash" function could be made faster without divide and modulo. 248*e2068d0bSJeff Roberson */ 249*e2068d0bSJeff Roberson #define VM_RESERV_OBJ_LOCK_COUNT MAXCPU 250*e2068d0bSJeff Roberson 251*e2068d0bSJeff Roberson struct mtx_padalign vm_reserv_object_mtx[VM_RESERV_OBJ_LOCK_COUNT]; 252*e2068d0bSJeff Roberson 253*e2068d0bSJeff Roberson #define vm_reserv_object_lock_idx(object) \ 254*e2068d0bSJeff Roberson (((uintptr_t)object / sizeof(*object)) % VM_RESERV_OBJ_LOCK_COUNT) 255*e2068d0bSJeff Roberson #define vm_reserv_object_lock_ptr(object) \ 256*e2068d0bSJeff Roberson &vm_reserv_object_mtx[vm_reserv_object_lock_idx((object))] 257*e2068d0bSJeff Roberson #define vm_reserv_object_lock(object) \ 258*e2068d0bSJeff Roberson mtx_lock(vm_reserv_object_lock_ptr((object))) 259*e2068d0bSJeff Roberson #define vm_reserv_object_unlock(object) \ 260*e2068d0bSJeff Roberson mtx_unlock(vm_reserv_object_lock_ptr((object))) 261*e2068d0bSJeff Roberson 262ec179322SAlan Cox static void vm_reserv_break(vm_reserv_t rv, vm_page_t m); 263ec179322SAlan Cox static void vm_reserv_depopulate(vm_reserv_t rv, int index); 264f8a47341SAlan Cox static vm_reserv_t vm_reserv_from_page(vm_page_t m); 265f8a47341SAlan Cox static boolean_t vm_reserv_has_pindex(vm_reserv_t rv, 266f8a47341SAlan Cox vm_pindex_t pindex); 267ec179322SAlan Cox static void vm_reserv_populate(vm_reserv_t rv, int index); 26844aab2c3SAlan Cox static void vm_reserv_reclaim(vm_reserv_t rv); 269f8a47341SAlan Cox 270f8a47341SAlan Cox /* 271e0a63baaSAlan Cox * Returns the current number of full reservations. 272e0a63baaSAlan Cox * 273e0a63baaSAlan Cox * Since the number of full reservations is computed without acquiring the 274e0a63baaSAlan Cox * free page queue lock, the returned value may be inexact. 275e0a63baaSAlan Cox */ 276e0a63baaSAlan Cox static int 277e0a63baaSAlan Cox sysctl_vm_reserv_fullpop(SYSCTL_HANDLER_ARGS) 278e0a63baaSAlan Cox { 279e0a63baaSAlan Cox vm_paddr_t paddr; 280e0a63baaSAlan Cox struct vm_phys_seg *seg; 281e0a63baaSAlan Cox vm_reserv_t rv; 282e0a63baaSAlan Cox int fullpop, segind; 283e0a63baaSAlan Cox 284e0a63baaSAlan Cox fullpop = 0; 285e0a63baaSAlan Cox for (segind = 0; segind < vm_phys_nsegs; segind++) { 286e0a63baaSAlan Cox seg = &vm_phys_segs[segind]; 287e0a63baaSAlan Cox paddr = roundup2(seg->start, VM_LEVEL_0_SIZE); 288e0a63baaSAlan Cox while (paddr + VM_LEVEL_0_SIZE <= seg->end) { 289e0a63baaSAlan Cox rv = &vm_reserv_array[paddr >> VM_LEVEL_0_SHIFT]; 290e0a63baaSAlan Cox fullpop += rv->popcnt == VM_LEVEL_0_NPAGES; 291e0a63baaSAlan Cox paddr += VM_LEVEL_0_SIZE; 292e0a63baaSAlan Cox } 293e0a63baaSAlan Cox } 294e0a63baaSAlan Cox return (sysctl_handle_int(oidp, &fullpop, 0, req)); 295e0a63baaSAlan Cox } 296e0a63baaSAlan Cox 297e0a63baaSAlan Cox /* 2983453bca8SAlan Cox * Describes the current state of the partially populated reservation queue. 299f8a47341SAlan Cox */ 300f8a47341SAlan Cox static int 301f8a47341SAlan Cox sysctl_vm_reserv_partpopq(SYSCTL_HANDLER_ARGS) 302f8a47341SAlan Cox { 303f8a47341SAlan Cox struct sbuf sbuf; 304f8a47341SAlan Cox vm_reserv_t rv; 305ef435ae7SJeff Roberson int counter, error, domain, level, unused_pages; 306f8a47341SAlan Cox 30700f0e671SMatthew D Fleming error = sysctl_wire_old_buffer(req, 0); 30800f0e671SMatthew D Fleming if (error != 0) 30900f0e671SMatthew D Fleming return (error); 3104e657159SMatthew D Fleming sbuf_new_for_sysctl(&sbuf, NULL, 128, req); 311ef435ae7SJeff Roberson sbuf_printf(&sbuf, "\nDOMAIN LEVEL SIZE NUMBER\n\n"); 312ef435ae7SJeff Roberson for (domain = 0; domain < vm_ndomains; domain++) { 313f8a47341SAlan Cox for (level = -1; level <= VM_NRESERVLEVEL - 2; level++) { 314f8a47341SAlan Cox counter = 0; 315f8a47341SAlan Cox unused_pages = 0; 316*e2068d0bSJeff Roberson vm_domain_free_lock(VM_DOMAIN(domain)); 317ef435ae7SJeff Roberson TAILQ_FOREACH(rv, &vm_rvq_partpop[domain], partpopq) { 318f8a47341SAlan Cox counter++; 319f8a47341SAlan Cox unused_pages += VM_LEVEL_0_NPAGES - rv->popcnt; 320f8a47341SAlan Cox } 321*e2068d0bSJeff Roberson vm_domain_free_unlock(VM_DOMAIN(domain)); 322ef435ae7SJeff Roberson sbuf_printf(&sbuf, "%6d, %7d, %6dK, %6d\n", 323ef435ae7SJeff Roberson domain, level, 3242cf36c8fSAlan Cox unused_pages * ((int)PAGE_SIZE / 1024), counter); 325f8a47341SAlan Cox } 326ef435ae7SJeff Roberson } 3274e657159SMatthew D Fleming error = sbuf_finish(&sbuf); 328f8a47341SAlan Cox sbuf_delete(&sbuf); 329f8a47341SAlan Cox return (error); 330f8a47341SAlan Cox } 331f8a47341SAlan Cox 332f8a47341SAlan Cox /* 333*e2068d0bSJeff Roberson * Remove a reservation from the object's objq. 334*e2068d0bSJeff Roberson */ 335*e2068d0bSJeff Roberson static void 336*e2068d0bSJeff Roberson vm_reserv_remove(vm_reserv_t rv) 337*e2068d0bSJeff Roberson { 338*e2068d0bSJeff Roberson vm_object_t object; 339*e2068d0bSJeff Roberson 340*e2068d0bSJeff Roberson KASSERT(rv->object != NULL, 341*e2068d0bSJeff Roberson ("vm_reserv_remove: reserv %p is free", rv)); 342*e2068d0bSJeff Roberson KASSERT(!rv->inpartpopq, 343*e2068d0bSJeff Roberson ("vm_reserv_remove: reserv %p's inpartpopq is TRUE", rv)); 344*e2068d0bSJeff Roberson object = rv->object; 345*e2068d0bSJeff Roberson vm_reserv_object_lock(object); 346*e2068d0bSJeff Roberson LIST_REMOVE(rv, objq); 347*e2068d0bSJeff Roberson rv->object = NULL; 348*e2068d0bSJeff Roberson vm_reserv_object_unlock(object); 349*e2068d0bSJeff Roberson } 350*e2068d0bSJeff Roberson 351*e2068d0bSJeff Roberson /* 352*e2068d0bSJeff Roberson * Insert a new reservation into the object's objq. 353*e2068d0bSJeff Roberson */ 354*e2068d0bSJeff Roberson static void 355*e2068d0bSJeff Roberson vm_reserv_insert(vm_reserv_t rv, vm_object_t object, vm_pindex_t pindex) 356*e2068d0bSJeff Roberson { 357*e2068d0bSJeff Roberson int i; 358*e2068d0bSJeff Roberson 359*e2068d0bSJeff Roberson KASSERT(rv->object == NULL, 360*e2068d0bSJeff Roberson ("vm_reserv_insert: reserv %p isn't free", rv)); 361*e2068d0bSJeff Roberson KASSERT(rv->popcnt == 0, 362*e2068d0bSJeff Roberson ("vm_reserv_insert: reserv %p's popcnt is corrupted", rv)); 363*e2068d0bSJeff Roberson KASSERT(!rv->inpartpopq, 364*e2068d0bSJeff Roberson ("vm_reserv_insert: reserv %p's inpartpopq is TRUE", rv)); 365*e2068d0bSJeff Roberson for (i = 0; i < NPOPMAP; i++) 366*e2068d0bSJeff Roberson KASSERT(rv->popmap[i] == 0, 367*e2068d0bSJeff Roberson ("vm_reserv_insert: reserv %p's popmap is corrupted", rv)); 368*e2068d0bSJeff Roberson vm_reserv_object_lock(object); 369*e2068d0bSJeff Roberson rv->pindex = pindex; 370*e2068d0bSJeff Roberson rv->object = object; 371*e2068d0bSJeff Roberson LIST_INSERT_HEAD(&object->rvq, rv, objq); 372*e2068d0bSJeff Roberson vm_reserv_object_unlock(object); 373*e2068d0bSJeff Roberson } 374*e2068d0bSJeff Roberson 375*e2068d0bSJeff Roberson /* 376f8a47341SAlan Cox * Reduces the given reservation's population count. If the population count 377f8a47341SAlan Cox * becomes zero, the reservation is destroyed. Additionally, moves the 3783453bca8SAlan Cox * reservation to the tail of the partially populated reservation queue if the 379f8a47341SAlan Cox * population count is non-zero. 380f8a47341SAlan Cox * 381f8a47341SAlan Cox * The free page queue lock must be held. 382f8a47341SAlan Cox */ 383f8a47341SAlan Cox static void 384ec179322SAlan Cox vm_reserv_depopulate(vm_reserv_t rv, int index) 385f8a47341SAlan Cox { 386f8a47341SAlan Cox 387*e2068d0bSJeff Roberson vm_domain_free_assert_locked(VM_DOMAIN(rv->domain)); 388f8a47341SAlan Cox KASSERT(rv->object != NULL, 389f8a47341SAlan Cox ("vm_reserv_depopulate: reserv %p is free", rv)); 3903180f757SAlan Cox KASSERT(popmap_is_set(rv->popmap, index), 391a08c1515SAlan Cox ("vm_reserv_depopulate: reserv %p's popmap[%d] is clear", rv, 392a08c1515SAlan Cox index)); 393f8a47341SAlan Cox KASSERT(rv->popcnt > 0, 394f8a47341SAlan Cox ("vm_reserv_depopulate: reserv %p's popcnt is corrupted", rv)); 395ef435ae7SJeff Roberson KASSERT(rv->domain >= 0 && rv->domain < vm_ndomains, 396ef435ae7SJeff Roberson ("vm_reserv_depopulate: reserv %p's domain is corrupted %d", 397ef435ae7SJeff Roberson rv, rv->domain)); 398f8a47341SAlan Cox if (rv->inpartpopq) { 399ef435ae7SJeff Roberson TAILQ_REMOVE(&vm_rvq_partpop[rv->domain], rv, partpopq); 400f8a47341SAlan Cox rv->inpartpopq = FALSE; 401dd05fa19SAlan Cox } else { 402dd05fa19SAlan Cox KASSERT(rv->pages->psind == 1, 403dd05fa19SAlan Cox ("vm_reserv_depopulate: reserv %p is already demoted", 404dd05fa19SAlan Cox rv)); 405dd05fa19SAlan Cox rv->pages->psind = 0; 406f8a47341SAlan Cox } 4073180f757SAlan Cox popmap_clear(rv->popmap, index); 408f8a47341SAlan Cox rv->popcnt--; 409f8a47341SAlan Cox if (rv->popcnt == 0) { 410*e2068d0bSJeff Roberson vm_reserv_remove(rv); 411f8a47341SAlan Cox vm_phys_free_pages(rv->pages, VM_LEVEL_0_ORDER); 412f8a47341SAlan Cox vm_reserv_freed++; 413f8a47341SAlan Cox } else { 414f8a47341SAlan Cox rv->inpartpopq = TRUE; 415ef435ae7SJeff Roberson TAILQ_INSERT_TAIL(&vm_rvq_partpop[rv->domain], rv, partpopq); 416f8a47341SAlan Cox } 417f8a47341SAlan Cox } 418f8a47341SAlan Cox 419f8a47341SAlan Cox /* 420f8a47341SAlan Cox * Returns the reservation to which the given page might belong. 421f8a47341SAlan Cox */ 422f8a47341SAlan Cox static __inline vm_reserv_t 423f8a47341SAlan Cox vm_reserv_from_page(vm_page_t m) 424f8a47341SAlan Cox { 425f8a47341SAlan Cox 426f8a47341SAlan Cox return (&vm_reserv_array[VM_PAGE_TO_PHYS(m) >> VM_LEVEL_0_SHIFT]); 427f8a47341SAlan Cox } 428f8a47341SAlan Cox 429f8a47341SAlan Cox /* 430*e2068d0bSJeff Roberson * Returns an existing reservation or NULL and initialized successor pointer. 431*e2068d0bSJeff Roberson */ 432*e2068d0bSJeff Roberson static vm_reserv_t 433*e2068d0bSJeff Roberson vm_reserv_from_object(vm_object_t object, vm_pindex_t pindex, 434*e2068d0bSJeff Roberson vm_page_t mpred, vm_page_t *msuccp) 435*e2068d0bSJeff Roberson { 436*e2068d0bSJeff Roberson vm_reserv_t rv; 437*e2068d0bSJeff Roberson vm_page_t msucc; 438*e2068d0bSJeff Roberson 439*e2068d0bSJeff Roberson msucc = NULL; 440*e2068d0bSJeff Roberson if (mpred != NULL) { 441*e2068d0bSJeff Roberson KASSERT(mpred->object == object, 442*e2068d0bSJeff Roberson ("vm_reserv_from_object: object doesn't contain mpred")); 443*e2068d0bSJeff Roberson KASSERT(mpred->pindex < pindex, 444*e2068d0bSJeff Roberson ("vm_reserv_from_object: mpred doesn't precede pindex")); 445*e2068d0bSJeff Roberson rv = vm_reserv_from_page(mpred); 446*e2068d0bSJeff Roberson if (rv->object == object && vm_reserv_has_pindex(rv, pindex)) 447*e2068d0bSJeff Roberson goto found; 448*e2068d0bSJeff Roberson msucc = TAILQ_NEXT(mpred, listq); 449*e2068d0bSJeff Roberson } else 450*e2068d0bSJeff Roberson msucc = TAILQ_FIRST(&object->memq); 451*e2068d0bSJeff Roberson if (msucc != NULL) { 452*e2068d0bSJeff Roberson KASSERT(msucc->pindex > pindex, 453*e2068d0bSJeff Roberson ("vm_reserv_from_object: msucc doesn't succeed pindex")); 454*e2068d0bSJeff Roberson rv = vm_reserv_from_page(msucc); 455*e2068d0bSJeff Roberson if (rv->object == object && vm_reserv_has_pindex(rv, pindex)) 456*e2068d0bSJeff Roberson goto found; 457*e2068d0bSJeff Roberson } 458*e2068d0bSJeff Roberson rv = NULL; 459*e2068d0bSJeff Roberson 460*e2068d0bSJeff Roberson found: 461*e2068d0bSJeff Roberson *msuccp = msucc; 462*e2068d0bSJeff Roberson 463*e2068d0bSJeff Roberson return (rv); 464*e2068d0bSJeff Roberson } 465*e2068d0bSJeff Roberson 466*e2068d0bSJeff Roberson /* 467f8a47341SAlan Cox * Returns TRUE if the given reservation contains the given page index and 468f8a47341SAlan Cox * FALSE otherwise. 469f8a47341SAlan Cox */ 470f8a47341SAlan Cox static __inline boolean_t 471f8a47341SAlan Cox vm_reserv_has_pindex(vm_reserv_t rv, vm_pindex_t pindex) 472f8a47341SAlan Cox { 473f8a47341SAlan Cox 474f8a47341SAlan Cox return (((pindex - rv->pindex) & ~(VM_LEVEL_0_NPAGES - 1)) == 0); 475f8a47341SAlan Cox } 476f8a47341SAlan Cox 477f8a47341SAlan Cox /* 478f8a47341SAlan Cox * Increases the given reservation's population count. Moves the reservation 4793453bca8SAlan Cox * to the tail of the partially populated reservation queue. 480f8a47341SAlan Cox * 481f8a47341SAlan Cox * The free page queue must be locked. 482f8a47341SAlan Cox */ 483f8a47341SAlan Cox static void 484ec179322SAlan Cox vm_reserv_populate(vm_reserv_t rv, int index) 485f8a47341SAlan Cox { 486f8a47341SAlan Cox 487*e2068d0bSJeff Roberson vm_domain_free_assert_locked(VM_DOMAIN(rv->domain)); 488f8a47341SAlan Cox KASSERT(rv->object != NULL, 489f8a47341SAlan Cox ("vm_reserv_populate: reserv %p is free", rv)); 4903180f757SAlan Cox KASSERT(popmap_is_clear(rv->popmap, index), 491a08c1515SAlan Cox ("vm_reserv_populate: reserv %p's popmap[%d] is set", rv, 492a08c1515SAlan Cox index)); 493f8a47341SAlan Cox KASSERT(rv->popcnt < VM_LEVEL_0_NPAGES, 494f8a47341SAlan Cox ("vm_reserv_populate: reserv %p is already full", rv)); 495dd05fa19SAlan Cox KASSERT(rv->pages->psind == 0, 496dd05fa19SAlan Cox ("vm_reserv_populate: reserv %p is already promoted", rv)); 497ef435ae7SJeff Roberson KASSERT(rv->domain >= 0 && rv->domain < vm_ndomains, 498ef435ae7SJeff Roberson ("vm_reserv_populate: reserv %p's domain is corrupted %d", 499ef435ae7SJeff Roberson rv, rv->domain)); 500f8a47341SAlan Cox if (rv->inpartpopq) { 501ef435ae7SJeff Roberson TAILQ_REMOVE(&vm_rvq_partpop[rv->domain], rv, partpopq); 502f8a47341SAlan Cox rv->inpartpopq = FALSE; 503f8a47341SAlan Cox } 5043180f757SAlan Cox popmap_set(rv->popmap, index); 505f8a47341SAlan Cox rv->popcnt++; 506f8a47341SAlan Cox if (rv->popcnt < VM_LEVEL_0_NPAGES) { 507f8a47341SAlan Cox rv->inpartpopq = TRUE; 508ef435ae7SJeff Roberson TAILQ_INSERT_TAIL(&vm_rvq_partpop[rv->domain], rv, partpopq); 509dd05fa19SAlan Cox } else 510dd05fa19SAlan Cox rv->pages->psind = 1; 511f8a47341SAlan Cox } 512f8a47341SAlan Cox 513f8a47341SAlan Cox /* 514c68c3537SAlan Cox * Allocates a contiguous set of physical pages of the given size "npages" 51564f096eeSAlan Cox * from existing or newly created reservations. All of the physical pages 516c68c3537SAlan Cox * must be at or above the given physical address "low" and below the given 517c68c3537SAlan Cox * physical address "high". The given value "alignment" determines the 518c68c3537SAlan Cox * alignment of the first physical page in the set. If the given value 519c68c3537SAlan Cox * "boundary" is non-zero, then the set of physical pages cannot cross any 520c68c3537SAlan Cox * physical address boundary that is a multiple of that value. Both 521c68c3537SAlan Cox * "alignment" and "boundary" must be a power of two. 522c68c3537SAlan Cox * 523920da7e4SAlan Cox * The page "mpred" must immediately precede the offset "pindex" within the 524920da7e4SAlan Cox * specified object. 525920da7e4SAlan Cox * 526c68c3537SAlan Cox * The object and free page queue must be locked. 527c68c3537SAlan Cox */ 528c68c3537SAlan Cox vm_page_t 529*e2068d0bSJeff Roberson vm_reserv_extend_contig(int req, vm_object_t object, vm_pindex_t pindex, 530*e2068d0bSJeff Roberson int domain, u_long npages, vm_paddr_t low, vm_paddr_t high, 531*e2068d0bSJeff Roberson u_long alignment, vm_paddr_t boundary, vm_page_t mpred) 532*e2068d0bSJeff Roberson { 533*e2068d0bSJeff Roberson struct vm_domain *vmd; 534*e2068d0bSJeff Roberson vm_paddr_t pa, size; 535*e2068d0bSJeff Roberson vm_page_t m, msucc; 536*e2068d0bSJeff Roberson vm_reserv_t rv; 537*e2068d0bSJeff Roberson int i, index; 538*e2068d0bSJeff Roberson 539*e2068d0bSJeff Roberson VM_OBJECT_ASSERT_WLOCKED(object); 540*e2068d0bSJeff Roberson KASSERT(npages != 0, ("vm_reserv_alloc_contig: npages is 0")); 541*e2068d0bSJeff Roberson 542*e2068d0bSJeff Roberson /* 543*e2068d0bSJeff Roberson * Is a reservation fundamentally impossible? 544*e2068d0bSJeff Roberson */ 545*e2068d0bSJeff Roberson if (pindex < VM_RESERV_INDEX(object, pindex) || 546*e2068d0bSJeff Roberson pindex + npages > object->size || object->resident_page_count == 0) 547*e2068d0bSJeff Roberson return (NULL); 548*e2068d0bSJeff Roberson 549*e2068d0bSJeff Roberson /* 550*e2068d0bSJeff Roberson * All reservations of a particular size have the same alignment. 551*e2068d0bSJeff Roberson * Assuming that the first page is allocated from a reservation, the 552*e2068d0bSJeff Roberson * least significant bits of its physical address can be determined 553*e2068d0bSJeff Roberson * from its offset from the beginning of the reservation and the size 554*e2068d0bSJeff Roberson * of the reservation. 555*e2068d0bSJeff Roberson * 556*e2068d0bSJeff Roberson * Could the specified index within a reservation of the smallest 557*e2068d0bSJeff Roberson * possible size satisfy the alignment and boundary requirements? 558*e2068d0bSJeff Roberson */ 559*e2068d0bSJeff Roberson pa = VM_RESERV_INDEX(object, pindex) << PAGE_SHIFT; 560*e2068d0bSJeff Roberson if ((pa & (alignment - 1)) != 0) 561*e2068d0bSJeff Roberson return (NULL); 562*e2068d0bSJeff Roberson size = npages << PAGE_SHIFT; 563*e2068d0bSJeff Roberson if (((pa ^ (pa + size - 1)) & ~(boundary - 1)) != 0) 564*e2068d0bSJeff Roberson return (NULL); 565*e2068d0bSJeff Roberson 566*e2068d0bSJeff Roberson /* 567*e2068d0bSJeff Roberson * Look for an existing reservation. 568*e2068d0bSJeff Roberson */ 569*e2068d0bSJeff Roberson rv = vm_reserv_from_object(object, pindex, mpred, &msucc); 570*e2068d0bSJeff Roberson if (rv == NULL) 571*e2068d0bSJeff Roberson return (NULL); 572*e2068d0bSJeff Roberson KASSERT(object != kernel_object || rv->domain == domain, 573*e2068d0bSJeff Roberson ("vm_reserv_extend_contig: Domain mismatch from reservation.")); 574*e2068d0bSJeff Roberson index = VM_RESERV_INDEX(object, pindex); 575*e2068d0bSJeff Roberson /* Does the allocation fit within the reservation? */ 576*e2068d0bSJeff Roberson if (index + npages > VM_LEVEL_0_NPAGES) 577*e2068d0bSJeff Roberson return (NULL); 578*e2068d0bSJeff Roberson domain = rv->domain; 579*e2068d0bSJeff Roberson vmd = VM_DOMAIN(domain); 580*e2068d0bSJeff Roberson vm_domain_free_lock(vmd); 581*e2068d0bSJeff Roberson if (rv->object != object || !vm_domain_available(vmd, req, npages)) { 582*e2068d0bSJeff Roberson m = NULL; 583*e2068d0bSJeff Roberson goto out; 584*e2068d0bSJeff Roberson } 585*e2068d0bSJeff Roberson m = &rv->pages[index]; 586*e2068d0bSJeff Roberson pa = VM_PAGE_TO_PHYS(m); 587*e2068d0bSJeff Roberson if (pa < low || pa + size > high || (pa & (alignment - 1)) != 0 || 588*e2068d0bSJeff Roberson ((pa ^ (pa + size - 1)) & ~(boundary - 1)) != 0) { 589*e2068d0bSJeff Roberson m = NULL; 590*e2068d0bSJeff Roberson goto out; 591*e2068d0bSJeff Roberson } 592*e2068d0bSJeff Roberson /* Handle vm_page_rename(m, new_object, ...). */ 593*e2068d0bSJeff Roberson for (i = 0; i < npages; i++) { 594*e2068d0bSJeff Roberson if (popmap_is_set(rv->popmap, index + i)) { 595*e2068d0bSJeff Roberson m = NULL; 596*e2068d0bSJeff Roberson goto out; 597*e2068d0bSJeff Roberson } 598*e2068d0bSJeff Roberson } 599*e2068d0bSJeff Roberson for (i = 0; i < npages; i++) 600*e2068d0bSJeff Roberson vm_reserv_populate(rv, index + i); 601*e2068d0bSJeff Roberson vm_domain_freecnt_adj(vmd, -npages); 602*e2068d0bSJeff Roberson out: 603*e2068d0bSJeff Roberson vm_domain_free_unlock(vmd); 604*e2068d0bSJeff Roberson return (m); 605*e2068d0bSJeff Roberson } 606*e2068d0bSJeff Roberson 607*e2068d0bSJeff Roberson /* 608*e2068d0bSJeff Roberson * Allocates a contiguous set of physical pages of the given size "npages" 609*e2068d0bSJeff Roberson * from existing or newly created reservations. All of the physical pages 610*e2068d0bSJeff Roberson * must be at or above the given physical address "low" and below the given 611*e2068d0bSJeff Roberson * physical address "high". The given value "alignment" determines the 612*e2068d0bSJeff Roberson * alignment of the first physical page in the set. If the given value 613*e2068d0bSJeff Roberson * "boundary" is non-zero, then the set of physical pages cannot cross any 614*e2068d0bSJeff Roberson * physical address boundary that is a multiple of that value. Both 615*e2068d0bSJeff Roberson * "alignment" and "boundary" must be a power of two. 616*e2068d0bSJeff Roberson * 617*e2068d0bSJeff Roberson * The page "mpred" must immediately precede the offset "pindex" within the 618*e2068d0bSJeff Roberson * specified object. 619*e2068d0bSJeff Roberson * 620*e2068d0bSJeff Roberson * The object and free page queue must be locked. 621*e2068d0bSJeff Roberson */ 622*e2068d0bSJeff Roberson vm_page_t 623ef435ae7SJeff Roberson vm_reserv_alloc_contig(vm_object_t object, vm_pindex_t pindex, int domain, 624ef435ae7SJeff Roberson u_long npages, vm_paddr_t low, vm_paddr_t high, u_long alignment, 625ef435ae7SJeff Roberson vm_paddr_t boundary, vm_page_t mpred) 626c68c3537SAlan Cox { 627c68c3537SAlan Cox vm_paddr_t pa, size; 628920da7e4SAlan Cox vm_page_t m, m_ret, msucc; 629c68c3537SAlan Cox vm_pindex_t first, leftcap, rightcap; 630c68c3537SAlan Cox vm_reserv_t rv; 631c68c3537SAlan Cox u_long allocpages, maxpages, minpages; 632c68c3537SAlan Cox int i, index, n; 633c68c3537SAlan Cox 634*e2068d0bSJeff Roberson vm_domain_free_assert_locked(VM_DOMAIN(domain)); 63589f6b863SAttilio Rao VM_OBJECT_ASSERT_WLOCKED(object); 636c68c3537SAlan Cox KASSERT(npages != 0, ("vm_reserv_alloc_contig: npages is 0")); 637c68c3537SAlan Cox 638c68c3537SAlan Cox /* 639c68c3537SAlan Cox * Is a reservation fundamentally impossible? 640c68c3537SAlan Cox */ 641c68c3537SAlan Cox if (pindex < VM_RESERV_INDEX(object, pindex) || 642c68c3537SAlan Cox pindex + npages > object->size) 643c68c3537SAlan Cox return (NULL); 644c68c3537SAlan Cox 645c68c3537SAlan Cox /* 646c68c3537SAlan Cox * All reservations of a particular size have the same alignment. 647c68c3537SAlan Cox * Assuming that the first page is allocated from a reservation, the 648c68c3537SAlan Cox * least significant bits of its physical address can be determined 649c68c3537SAlan Cox * from its offset from the beginning of the reservation and the size 650c68c3537SAlan Cox * of the reservation. 651c68c3537SAlan Cox * 652c68c3537SAlan Cox * Could the specified index within a reservation of the smallest 653c68c3537SAlan Cox * possible size satisfy the alignment and boundary requirements? 654c68c3537SAlan Cox */ 655c68c3537SAlan Cox pa = VM_RESERV_INDEX(object, pindex) << PAGE_SHIFT; 656c68c3537SAlan Cox if ((pa & (alignment - 1)) != 0) 657c68c3537SAlan Cox return (NULL); 658c68c3537SAlan Cox size = npages << PAGE_SHIFT; 659c68c3537SAlan Cox if (((pa ^ (pa + size - 1)) & ~(boundary - 1)) != 0) 660c68c3537SAlan Cox return (NULL); 661c68c3537SAlan Cox 662c68c3537SAlan Cox /* 663*e2068d0bSJeff Roberson * Callers should've extended an existing reservation prior to 664*e2068d0bSJeff Roberson * calling this function. If a reservation exists it is 665*e2068d0bSJeff Roberson * incompatible with the allocation. 666c68c3537SAlan Cox */ 667*e2068d0bSJeff Roberson rv = vm_reserv_from_object(object, pindex, mpred, &msucc); 668*e2068d0bSJeff Roberson if (rv != NULL) 669*e2068d0bSJeff Roberson return (NULL); 670c68c3537SAlan Cox 671c68c3537SAlan Cox /* 672c68c3537SAlan Cox * Could at least one reservation fit between the first index to the 67364f096eeSAlan Cox * left that can be used ("leftcap") and the first index to the right 67464f096eeSAlan Cox * that cannot be used ("rightcap")? 675*e2068d0bSJeff Roberson * 676*e2068d0bSJeff Roberson * We must synchronize with the reserv object lock to protect the 677*e2068d0bSJeff Roberson * pindex/object of the resulting reservations against rename while 678*e2068d0bSJeff Roberson * we are inspecting. 679c68c3537SAlan Cox */ 680c68c3537SAlan Cox first = pindex - VM_RESERV_INDEX(object, pindex); 681*e2068d0bSJeff Roberson minpages = VM_RESERV_INDEX(object, pindex) + npages; 682*e2068d0bSJeff Roberson maxpages = roundup2(minpages, VM_LEVEL_0_NPAGES); 683*e2068d0bSJeff Roberson allocpages = maxpages; 684*e2068d0bSJeff Roberson vm_reserv_object_lock(object); 685c68c3537SAlan Cox if (mpred != NULL) { 686c68c3537SAlan Cox if ((rv = vm_reserv_from_page(mpred))->object != object) 687c68c3537SAlan Cox leftcap = mpred->pindex + 1; 688c68c3537SAlan Cox else 689c68c3537SAlan Cox leftcap = rv->pindex + VM_LEVEL_0_NPAGES; 690*e2068d0bSJeff Roberson if (leftcap > first) { 691*e2068d0bSJeff Roberson vm_reserv_object_unlock(object); 692c68c3537SAlan Cox return (NULL); 693c68c3537SAlan Cox } 694*e2068d0bSJeff Roberson } 695c68c3537SAlan Cox if (msucc != NULL) { 696c68c3537SAlan Cox if ((rv = vm_reserv_from_page(msucc))->object != object) 697c68c3537SAlan Cox rightcap = msucc->pindex; 698c68c3537SAlan Cox else 699c68c3537SAlan Cox rightcap = rv->pindex; 700c68c3537SAlan Cox if (first + maxpages > rightcap) { 701*e2068d0bSJeff Roberson if (maxpages == VM_LEVEL_0_NPAGES) { 702*e2068d0bSJeff Roberson vm_reserv_object_unlock(object); 703c68c3537SAlan Cox return (NULL); 704*e2068d0bSJeff Roberson } 70564f096eeSAlan Cox 70664f096eeSAlan Cox /* 70764f096eeSAlan Cox * At least one reservation will fit between "leftcap" 70864f096eeSAlan Cox * and "rightcap". However, a reservation for the 70964f096eeSAlan Cox * last of the requested pages will not fit. Reduce 71064f096eeSAlan Cox * the size of the upcoming allocation accordingly. 71164f096eeSAlan Cox */ 712c68c3537SAlan Cox allocpages = minpages; 713c68c3537SAlan Cox } 714c68c3537SAlan Cox } 715*e2068d0bSJeff Roberson vm_reserv_object_unlock(object); 716c68c3537SAlan Cox 717c68c3537SAlan Cox /* 718c68c3537SAlan Cox * Would the last new reservation extend past the end of the object? 719c68c3537SAlan Cox */ 720c68c3537SAlan Cox if (first + maxpages > object->size) { 721c68c3537SAlan Cox /* 722c68c3537SAlan Cox * Don't allocate the last new reservation if the object is a 723c68c3537SAlan Cox * vnode or backed by another object that is a vnode. 724c68c3537SAlan Cox */ 725c68c3537SAlan Cox if (object->type == OBJT_VNODE || 726c68c3537SAlan Cox (object->backing_object != NULL && 727c68c3537SAlan Cox object->backing_object->type == OBJT_VNODE)) { 728c68c3537SAlan Cox if (maxpages == VM_LEVEL_0_NPAGES) 729c68c3537SAlan Cox return (NULL); 730c68c3537SAlan Cox allocpages = minpages; 731c68c3537SAlan Cox } 732c68c3537SAlan Cox /* Speculate that the object may grow. */ 733c68c3537SAlan Cox } 734c68c3537SAlan Cox 735c68c3537SAlan Cox /* 73664f096eeSAlan Cox * Allocate the physical pages. The alignment and boundary specified 73764f096eeSAlan Cox * for this allocation may be different from the alignment and 73864f096eeSAlan Cox * boundary specified for the requested pages. For instance, the 73964f096eeSAlan Cox * specified index may not be the first page within the first new 74064f096eeSAlan Cox * reservation. 741c68c3537SAlan Cox */ 742ef435ae7SJeff Roberson m = vm_phys_alloc_contig(domain, allocpages, low, high, ulmax(alignment, 743c68c3537SAlan Cox VM_LEVEL_0_SIZE), boundary > VM_LEVEL_0_SIZE ? boundary : 0); 744c68c3537SAlan Cox if (m == NULL) 745c68c3537SAlan Cox return (NULL); 746*e2068d0bSJeff Roberson KASSERT(vm_phys_domain(m) == domain, 7477a469c8eSJeff Roberson ("vm_reserv_alloc_contig: Page domain does not match requested.")); 74864f096eeSAlan Cox 74964f096eeSAlan Cox /* 75064f096eeSAlan Cox * The allocated physical pages always begin at a reservation 75164f096eeSAlan Cox * boundary, but they do not always end at a reservation boundary. 75264f096eeSAlan Cox * Initialize every reservation that is completely covered by the 75364f096eeSAlan Cox * allocated physical pages. 75464f096eeSAlan Cox */ 755c68c3537SAlan Cox m_ret = NULL; 756c68c3537SAlan Cox index = VM_RESERV_INDEX(object, pindex); 757c68c3537SAlan Cox do { 758c68c3537SAlan Cox rv = vm_reserv_from_page(m); 759c68c3537SAlan Cox KASSERT(rv->pages == m, 760c68c3537SAlan Cox ("vm_reserv_alloc_contig: reserv %p's pages is corrupted", 761c68c3537SAlan Cox rv)); 762*e2068d0bSJeff Roberson vm_reserv_insert(rv, object, first); 763c68c3537SAlan Cox n = ulmin(VM_LEVEL_0_NPAGES - index, npages); 764c68c3537SAlan Cox for (i = 0; i < n; i++) 765ec179322SAlan Cox vm_reserv_populate(rv, index + i); 766c68c3537SAlan Cox npages -= n; 767c68c3537SAlan Cox if (m_ret == NULL) { 768c68c3537SAlan Cox m_ret = &rv->pages[index]; 769c68c3537SAlan Cox index = 0; 770c68c3537SAlan Cox } 771c68c3537SAlan Cox m += VM_LEVEL_0_NPAGES; 772c68c3537SAlan Cox first += VM_LEVEL_0_NPAGES; 773c68c3537SAlan Cox allocpages -= VM_LEVEL_0_NPAGES; 77464f096eeSAlan Cox } while (allocpages >= VM_LEVEL_0_NPAGES); 775c68c3537SAlan Cox return (m_ret); 776*e2068d0bSJeff Roberson } 777c68c3537SAlan Cox 778c68c3537SAlan Cox /* 779*e2068d0bSJeff Roberson * Attempts to extend an existing reservation and allocate the page to the 780*e2068d0bSJeff Roberson * object. 781*e2068d0bSJeff Roberson * 782*e2068d0bSJeff Roberson * The page "mpred" must immediately precede the offset "pindex" within the 783*e2068d0bSJeff Roberson * specified object. 784*e2068d0bSJeff Roberson * 785*e2068d0bSJeff Roberson * The object must be locked. 786c68c3537SAlan Cox */ 787*e2068d0bSJeff Roberson vm_page_t 788*e2068d0bSJeff Roberson vm_reserv_extend(int req, vm_object_t object, vm_pindex_t pindex, int domain, 789*e2068d0bSJeff Roberson vm_page_t mpred) 790*e2068d0bSJeff Roberson { 791*e2068d0bSJeff Roberson struct vm_domain *vmd; 792*e2068d0bSJeff Roberson vm_page_t m, msucc; 793*e2068d0bSJeff Roberson vm_reserv_t rv; 794*e2068d0bSJeff Roberson int index, free_count; 795*e2068d0bSJeff Roberson 796*e2068d0bSJeff Roberson VM_OBJECT_ASSERT_WLOCKED(object); 797*e2068d0bSJeff Roberson 798*e2068d0bSJeff Roberson /* 799*e2068d0bSJeff Roberson * Could a reservation currently exist? 800*e2068d0bSJeff Roberson */ 801*e2068d0bSJeff Roberson if (pindex < VM_RESERV_INDEX(object, pindex) || 802*e2068d0bSJeff Roberson pindex >= object->size || object->resident_page_count == 0) 803*e2068d0bSJeff Roberson return (NULL); 804*e2068d0bSJeff Roberson 805*e2068d0bSJeff Roberson /* 806*e2068d0bSJeff Roberson * Look for an existing reservation. 807*e2068d0bSJeff Roberson */ 808*e2068d0bSJeff Roberson rv = vm_reserv_from_object(object, pindex, mpred, &msucc); 809*e2068d0bSJeff Roberson if (rv == NULL) 810*e2068d0bSJeff Roberson return (NULL); 811*e2068d0bSJeff Roberson 812*e2068d0bSJeff Roberson KASSERT(object != kernel_object || rv->domain == domain, 813*e2068d0bSJeff Roberson ("vm_reserv_extend: Domain mismatch from reservation.")); 814*e2068d0bSJeff Roberson domain = rv->domain; 815*e2068d0bSJeff Roberson vmd = VM_DOMAIN(domain); 816c68c3537SAlan Cox index = VM_RESERV_INDEX(object, pindex); 817c68c3537SAlan Cox m = &rv->pages[index]; 818*e2068d0bSJeff Roberson vm_domain_free_lock(vmd); 819*e2068d0bSJeff Roberson if (vm_domain_available(vmd, req, 1) == 0 || 820*e2068d0bSJeff Roberson /* Handle reclaim race. */ 821*e2068d0bSJeff Roberson rv->object != object || 822c68c3537SAlan Cox /* Handle vm_page_rename(m, new_object, ...). */ 823*e2068d0bSJeff Roberson popmap_is_set(rv->popmap, index)) 824*e2068d0bSJeff Roberson m = NULL; 825*e2068d0bSJeff Roberson if (m != NULL) { 826*e2068d0bSJeff Roberson vm_reserv_populate(rv, index); 827*e2068d0bSJeff Roberson free_count = vm_domain_freecnt_adj(vmd, -1); 828*e2068d0bSJeff Roberson } else 829*e2068d0bSJeff Roberson free_count = vmd->vmd_free_count; 830*e2068d0bSJeff Roberson vm_domain_free_unlock(vmd); 831*e2068d0bSJeff Roberson 832*e2068d0bSJeff Roberson if (vm_paging_needed(vmd, free_count)) 833*e2068d0bSJeff Roberson pagedaemon_wakeup(domain); 834*e2068d0bSJeff Roberson 835c68c3537SAlan Cox return (m); 836c68c3537SAlan Cox } 837c68c3537SAlan Cox 838c68c3537SAlan Cox /* 839*e2068d0bSJeff Roberson * Allocates a page from an existing reservation. 840f8a47341SAlan Cox * 841404eb1b3SAlan Cox * The page "mpred" must immediately precede the offset "pindex" within the 842404eb1b3SAlan Cox * specified object. 843404eb1b3SAlan Cox * 844f8a47341SAlan Cox * The object and free page queue must be locked. 845f8a47341SAlan Cox */ 846f8a47341SAlan Cox vm_page_t 847ef435ae7SJeff Roberson vm_reserv_alloc_page(vm_object_t object, vm_pindex_t pindex, int domain, 848ef435ae7SJeff Roberson vm_page_t mpred) 849f8a47341SAlan Cox { 850404eb1b3SAlan Cox vm_page_t m, msucc; 851f8a47341SAlan Cox vm_pindex_t first, leftcap, rightcap; 852f8a47341SAlan Cox vm_reserv_t rv; 853*e2068d0bSJeff Roberson int index; 854f8a47341SAlan Cox 855*e2068d0bSJeff Roberson vm_domain_free_assert_locked(VM_DOMAIN(domain)); 85689f6b863SAttilio Rao VM_OBJECT_ASSERT_WLOCKED(object); 857f8a47341SAlan Cox 858f8a47341SAlan Cox /* 859c68c3537SAlan Cox * Is a reservation fundamentally impossible? 860f8a47341SAlan Cox */ 861f8a47341SAlan Cox if (pindex < VM_RESERV_INDEX(object, pindex) || 862f8a47341SAlan Cox pindex >= object->size) 863f8a47341SAlan Cox return (NULL); 864f8a47341SAlan Cox 865f8a47341SAlan Cox /* 866*e2068d0bSJeff Roberson * Callers should've extended an existing reservation prior to 867*e2068d0bSJeff Roberson * calling this function. If a reservation exists it is 868*e2068d0bSJeff Roberson * incompatible with the allocation. 869f8a47341SAlan Cox */ 870*e2068d0bSJeff Roberson rv = vm_reserv_from_object(object, pindex, mpred, &msucc); 871*e2068d0bSJeff Roberson if (rv != NULL) 872*e2068d0bSJeff Roberson return (NULL); 873f8a47341SAlan Cox 874f8a47341SAlan Cox /* 875c68c3537SAlan Cox * Could a reservation fit between the first index to the left that 876c68c3537SAlan Cox * can be used and the first index to the right that cannot be used? 877*e2068d0bSJeff Roberson * 878*e2068d0bSJeff Roberson * We must synchronize with the reserv object lock to protect the 879*e2068d0bSJeff Roberson * pindex/object of the resulting reservations against rename while 880*e2068d0bSJeff Roberson * we are inspecting. 881f8a47341SAlan Cox */ 882c68c3537SAlan Cox first = pindex - VM_RESERV_INDEX(object, pindex); 883*e2068d0bSJeff Roberson vm_reserv_object_lock(object); 884c68c3537SAlan Cox if (mpred != NULL) { 885c68c3537SAlan Cox if ((rv = vm_reserv_from_page(mpred))->object != object) 886f8a47341SAlan Cox leftcap = mpred->pindex + 1; 887f8a47341SAlan Cox else 888f8a47341SAlan Cox leftcap = rv->pindex + VM_LEVEL_0_NPAGES; 889*e2068d0bSJeff Roberson if (leftcap > first) { 890*e2068d0bSJeff Roberson vm_reserv_object_unlock(object); 891c68c3537SAlan Cox return (NULL); 892c68c3537SAlan Cox } 893*e2068d0bSJeff Roberson } 894c68c3537SAlan Cox if (msucc != NULL) { 895c68c3537SAlan Cox if ((rv = vm_reserv_from_page(msucc))->object != object) 896f8a47341SAlan Cox rightcap = msucc->pindex; 897f8a47341SAlan Cox else 898f8a47341SAlan Cox rightcap = rv->pindex; 899*e2068d0bSJeff Roberson if (first + VM_LEVEL_0_NPAGES > rightcap) { 900*e2068d0bSJeff Roberson vm_reserv_object_unlock(object); 901f8a47341SAlan Cox return (NULL); 902c68c3537SAlan Cox } 903*e2068d0bSJeff Roberson } 904*e2068d0bSJeff Roberson vm_reserv_object_unlock(object); 905f8a47341SAlan Cox 906f8a47341SAlan Cox /* 907c68c3537SAlan Cox * Would a new reservation extend past the end of the object? 908f8a47341SAlan Cox */ 909c68c3537SAlan Cox if (first + VM_LEVEL_0_NPAGES > object->size) { 910f8a47341SAlan Cox /* 911f8a47341SAlan Cox * Don't allocate a new reservation if the object is a vnode or 912f8a47341SAlan Cox * backed by another object that is a vnode. 913f8a47341SAlan Cox */ 914f8a47341SAlan Cox if (object->type == OBJT_VNODE || 915f8a47341SAlan Cox (object->backing_object != NULL && 916f8a47341SAlan Cox object->backing_object->type == OBJT_VNODE)) 917f8a47341SAlan Cox return (NULL); 918f8a47341SAlan Cox /* Speculate that the object may grow. */ 919f8a47341SAlan Cox } 920f8a47341SAlan Cox 921f8a47341SAlan Cox /* 922c68c3537SAlan Cox * Allocate and populate the new reservation. 923f8a47341SAlan Cox */ 924ef435ae7SJeff Roberson m = vm_phys_alloc_pages(domain, VM_FREEPOOL_DEFAULT, VM_LEVEL_0_ORDER); 925c68c3537SAlan Cox if (m == NULL) 926c68c3537SAlan Cox return (NULL); 927f8a47341SAlan Cox rv = vm_reserv_from_page(m); 928f8a47341SAlan Cox KASSERT(rv->pages == m, 929c68c3537SAlan Cox ("vm_reserv_alloc_page: reserv %p's pages is corrupted", rv)); 930*e2068d0bSJeff Roberson vm_reserv_insert(rv, object, first); 931ec179322SAlan Cox index = VM_RESERV_INDEX(object, pindex); 932ec179322SAlan Cox vm_reserv_populate(rv, index); 933ec179322SAlan Cox return (&rv->pages[index]); 934f8a47341SAlan Cox } 935f8a47341SAlan Cox 936f8a47341SAlan Cox /* 9373453bca8SAlan Cox * Breaks the given reservation. Except for the specified free page, all free 9383453bca8SAlan Cox * pages in the reservation are returned to the physical memory allocator. 9393453bca8SAlan Cox * The reservation's population count and map are reset to their initial 9403453bca8SAlan Cox * state. 941ec179322SAlan Cox * 9423453bca8SAlan Cox * The given reservation must not be in the partially populated reservation 943ec179322SAlan Cox * queue. The free page queue lock must be held. 944ec179322SAlan Cox */ 945ec179322SAlan Cox static void 946ec179322SAlan Cox vm_reserv_break(vm_reserv_t rv, vm_page_t m) 947ec179322SAlan Cox { 948ec179322SAlan Cox int begin_zeroes, hi, i, lo; 949ec179322SAlan Cox 950*e2068d0bSJeff Roberson vm_domain_free_assert_locked(VM_DOMAIN(rv->domain)); 951*e2068d0bSJeff Roberson vm_reserv_remove(rv); 952ec179322SAlan Cox if (m != NULL) { 953ec179322SAlan Cox /* 954ec179322SAlan Cox * Since the reservation is being broken, there is no harm in 955ec179322SAlan Cox * abusing the population map to stop "m" from being returned 956ec179322SAlan Cox * to the physical memory allocator. 957ec179322SAlan Cox */ 958ec179322SAlan Cox i = m - rv->pages; 9593180f757SAlan Cox KASSERT(popmap_is_clear(rv->popmap, i), 960ec179322SAlan Cox ("vm_reserv_break: reserv %p's popmap is corrupted", rv)); 9613180f757SAlan Cox popmap_set(rv->popmap, i); 962ec179322SAlan Cox rv->popcnt++; 963ec179322SAlan Cox } 964ec179322SAlan Cox i = hi = 0; 965ec179322SAlan Cox do { 966ec179322SAlan Cox /* Find the next 0 bit. Any previous 0 bits are < "hi". */ 967ec179322SAlan Cox lo = ffsl(~(((1UL << hi) - 1) | rv->popmap[i])); 968ec179322SAlan Cox if (lo == 0) { 969ec179322SAlan Cox /* Redundantly clears bits < "hi". */ 970ec179322SAlan Cox rv->popmap[i] = 0; 971ec179322SAlan Cox rv->popcnt -= NBPOPMAP - hi; 972ec179322SAlan Cox while (++i < NPOPMAP) { 973ec179322SAlan Cox lo = ffsl(~rv->popmap[i]); 974ec179322SAlan Cox if (lo == 0) { 975ec179322SAlan Cox rv->popmap[i] = 0; 976ec179322SAlan Cox rv->popcnt -= NBPOPMAP; 977ec179322SAlan Cox } else 978ec179322SAlan Cox break; 979ec179322SAlan Cox } 980ec179322SAlan Cox if (i == NPOPMAP) 981ec179322SAlan Cox break; 982ec179322SAlan Cox hi = 0; 983ec179322SAlan Cox } 984ec179322SAlan Cox KASSERT(lo > 0, ("vm_reserv_break: lo is %d", lo)); 985ec179322SAlan Cox /* Convert from ffsl() to ordinary bit numbering. */ 986ec179322SAlan Cox lo--; 987ec179322SAlan Cox if (lo > 0) { 988ec179322SAlan Cox /* Redundantly clears bits < "hi". */ 989ec179322SAlan Cox rv->popmap[i] &= ~((1UL << lo) - 1); 990ec179322SAlan Cox rv->popcnt -= lo - hi; 991ec179322SAlan Cox } 992ec179322SAlan Cox begin_zeroes = NBPOPMAP * i + lo; 993ec179322SAlan Cox /* Find the next 1 bit. */ 994ec179322SAlan Cox do 995ec179322SAlan Cox hi = ffsl(rv->popmap[i]); 996ec179322SAlan Cox while (hi == 0 && ++i < NPOPMAP); 997ec179322SAlan Cox if (i != NPOPMAP) 998ec179322SAlan Cox /* Convert from ffsl() to ordinary bit numbering. */ 999ec179322SAlan Cox hi--; 1000ec179322SAlan Cox vm_phys_free_contig(&rv->pages[begin_zeroes], NBPOPMAP * i + 1001ec179322SAlan Cox hi - begin_zeroes); 1002ec179322SAlan Cox } while (i < NPOPMAP); 1003ec179322SAlan Cox KASSERT(rv->popcnt == 0, 1004ec179322SAlan Cox ("vm_reserv_break: reserv %p's popcnt is corrupted", rv)); 1005ec179322SAlan Cox vm_reserv_broken++; 1006ec179322SAlan Cox } 1007ec179322SAlan Cox 1008ec179322SAlan Cox /* 1009f8a47341SAlan Cox * Breaks all reservations belonging to the given object. 1010f8a47341SAlan Cox */ 1011f8a47341SAlan Cox void 1012f8a47341SAlan Cox vm_reserv_break_all(vm_object_t object) 1013f8a47341SAlan Cox { 1014f8a47341SAlan Cox vm_reserv_t rv; 1015*e2068d0bSJeff Roberson struct vm_domain *vmd; 1016f8a47341SAlan Cox 1017*e2068d0bSJeff Roberson /* 1018*e2068d0bSJeff Roberson * This access of object->rvq is unsynchronized so that the 1019*e2068d0bSJeff Roberson * object rvq lock can nest after the domain_free lock. We 1020*e2068d0bSJeff Roberson * must check for races in the results. However, the object 1021*e2068d0bSJeff Roberson * lock prevents new additions, so we are guaranteed that when 1022*e2068d0bSJeff Roberson * it returns NULL the object is properly empty. 1023*e2068d0bSJeff Roberson */ 1024*e2068d0bSJeff Roberson vmd = NULL; 1025f8a47341SAlan Cox while ((rv = LIST_FIRST(&object->rvq)) != NULL) { 1026*e2068d0bSJeff Roberson if (vmd != VM_DOMAIN(rv->domain)) { 1027*e2068d0bSJeff Roberson if (vmd != NULL) 1028*e2068d0bSJeff Roberson vm_domain_free_unlock(vmd); 1029*e2068d0bSJeff Roberson vmd = VM_DOMAIN(rv->domain); 1030*e2068d0bSJeff Roberson vm_domain_free_lock(vmd); 1031*e2068d0bSJeff Roberson } 1032*e2068d0bSJeff Roberson /* Reclaim race. */ 1033*e2068d0bSJeff Roberson if (rv->object != object) 1034*e2068d0bSJeff Roberson continue; 1035f8a47341SAlan Cox KASSERT(rv->object == object, 1036f8a47341SAlan Cox ("vm_reserv_break_all: reserv %p is corrupted", rv)); 1037f8a47341SAlan Cox if (rv->inpartpopq) { 1038ef435ae7SJeff Roberson TAILQ_REMOVE(&vm_rvq_partpop[rv->domain], rv, partpopq); 1039f8a47341SAlan Cox rv->inpartpopq = FALSE; 1040f8a47341SAlan Cox } 1041ec179322SAlan Cox vm_reserv_break(rv, NULL); 1042f8a47341SAlan Cox } 1043*e2068d0bSJeff Roberson if (vmd != NULL) 1044*e2068d0bSJeff Roberson vm_domain_free_unlock(vmd); 1045f8a47341SAlan Cox } 1046f8a47341SAlan Cox 1047f8a47341SAlan Cox /* 1048f8a47341SAlan Cox * Frees the given page if it belongs to a reservation. Returns TRUE if the 1049f8a47341SAlan Cox * page is freed and FALSE otherwise. 1050f8a47341SAlan Cox * 1051f8a47341SAlan Cox * The free page queue lock must be held. 1052f8a47341SAlan Cox */ 1053f8a47341SAlan Cox boolean_t 1054f8a47341SAlan Cox vm_reserv_free_page(vm_page_t m) 1055f8a47341SAlan Cox { 1056f8a47341SAlan Cox vm_reserv_t rv; 1057f8a47341SAlan Cox 1058f8a47341SAlan Cox rv = vm_reserv_from_page(m); 1059*e2068d0bSJeff Roberson vm_domain_free_assert_locked(VM_DOMAIN(rv->domain)); 1060908e3da1SAlan Cox if (rv->object == NULL) 1061908e3da1SAlan Cox return (FALSE); 1062ec179322SAlan Cox vm_reserv_depopulate(rv, m - rv->pages); 1063f8a47341SAlan Cox return (TRUE); 1064f8a47341SAlan Cox } 1065f8a47341SAlan Cox 1066f8a47341SAlan Cox /* 1067f8a47341SAlan Cox * Initializes the reservation management system. Specifically, initializes 1068f8a47341SAlan Cox * the reservation array. 1069f8a47341SAlan Cox * 1070f8a47341SAlan Cox * Requires that vm_page_array and first_page are initialized! 1071f8a47341SAlan Cox */ 1072f8a47341SAlan Cox void 1073f8a47341SAlan Cox vm_reserv_init(void) 1074f8a47341SAlan Cox { 1075f8a47341SAlan Cox vm_paddr_t paddr; 107609e5f3c4SAlan Cox struct vm_phys_seg *seg; 1077ef435ae7SJeff Roberson int i, segind; 1078f8a47341SAlan Cox 1079f8a47341SAlan Cox /* 1080f8a47341SAlan Cox * Initialize the reservation array. Specifically, initialize the 1081f8a47341SAlan Cox * "pages" field for every element that has an underlying superpage. 1082f8a47341SAlan Cox */ 108309e5f3c4SAlan Cox for (segind = 0; segind < vm_phys_nsegs; segind++) { 108409e5f3c4SAlan Cox seg = &vm_phys_segs[segind]; 108509e5f3c4SAlan Cox paddr = roundup2(seg->start, VM_LEVEL_0_SIZE); 108609e5f3c4SAlan Cox while (paddr + VM_LEVEL_0_SIZE <= seg->end) { 1087f8a47341SAlan Cox vm_reserv_array[paddr >> VM_LEVEL_0_SHIFT].pages = 1088f8a47341SAlan Cox PHYS_TO_VM_PAGE(paddr); 1089*e2068d0bSJeff Roberson vm_reserv_array[paddr >> VM_LEVEL_0_SHIFT].domain = 1090*e2068d0bSJeff Roberson seg->domain; 1091f8a47341SAlan Cox paddr += VM_LEVEL_0_SIZE; 1092f8a47341SAlan Cox } 1093f8a47341SAlan Cox } 1094ef435ae7SJeff Roberson for (i = 0; i < MAXMEMDOM; i++) 1095ef435ae7SJeff Roberson TAILQ_INIT(&vm_rvq_partpop[i]); 1096f8a47341SAlan Cox } 1097f8a47341SAlan Cox 1098f8a47341SAlan Cox /* 1099c869e672SAlan Cox * Returns true if the given page belongs to a reservation and that page is 1100c869e672SAlan Cox * free. Otherwise, returns false. 1101c869e672SAlan Cox */ 1102c869e672SAlan Cox bool 1103c869e672SAlan Cox vm_reserv_is_page_free(vm_page_t m) 1104c869e672SAlan Cox { 1105c869e672SAlan Cox vm_reserv_t rv; 1106c869e672SAlan Cox 1107c869e672SAlan Cox rv = vm_reserv_from_page(m); 1108*e2068d0bSJeff Roberson vm_domain_free_assert_locked(VM_DOMAIN(rv->domain)); 1109c869e672SAlan Cox if (rv->object == NULL) 1110c869e672SAlan Cox return (false); 1111c869e672SAlan Cox return (popmap_is_clear(rv->popmap, m - rv->pages)); 1112c869e672SAlan Cox } 1113c869e672SAlan Cox 1114c869e672SAlan Cox /* 1115c869e672SAlan Cox * If the given page belongs to a reservation, returns the level of that 1116c869e672SAlan Cox * reservation. Otherwise, returns -1. 1117c869e672SAlan Cox */ 1118c869e672SAlan Cox int 1119c869e672SAlan Cox vm_reserv_level(vm_page_t m) 1120c869e672SAlan Cox { 1121c869e672SAlan Cox vm_reserv_t rv; 1122c869e672SAlan Cox 1123c869e672SAlan Cox rv = vm_reserv_from_page(m); 1124c869e672SAlan Cox return (rv->object != NULL ? 0 : -1); 1125c869e672SAlan Cox } 1126c869e672SAlan Cox 1127c869e672SAlan Cox /* 11283453bca8SAlan Cox * Returns a reservation level if the given page belongs to a fully populated 1129f8a47341SAlan Cox * reservation and -1 otherwise. 1130f8a47341SAlan Cox */ 1131f8a47341SAlan Cox int 1132f8a47341SAlan Cox vm_reserv_level_iffullpop(vm_page_t m) 1133f8a47341SAlan Cox { 1134f8a47341SAlan Cox vm_reserv_t rv; 1135f8a47341SAlan Cox 1136f8a47341SAlan Cox rv = vm_reserv_from_page(m); 1137f8a47341SAlan Cox return (rv->popcnt == VM_LEVEL_0_NPAGES ? 0 : -1); 1138f8a47341SAlan Cox } 1139f8a47341SAlan Cox 1140f8a47341SAlan Cox /* 11413453bca8SAlan Cox * Breaks the given partially populated reservation, releasing its free pages 11423453bca8SAlan Cox * to the physical memory allocator. 1143f8a47341SAlan Cox * 1144f8a47341SAlan Cox * The free page queue lock must be held. 1145f8a47341SAlan Cox */ 114644aab2c3SAlan Cox static void 114744aab2c3SAlan Cox vm_reserv_reclaim(vm_reserv_t rv) 1148f8a47341SAlan Cox { 1149f8a47341SAlan Cox 1150*e2068d0bSJeff Roberson vm_domain_free_assert_locked(VM_DOMAIN(rv->domain)); 1151f8a47341SAlan Cox KASSERT(rv->inpartpopq, 1152ec179322SAlan Cox ("vm_reserv_reclaim: reserv %p's inpartpopq is FALSE", rv)); 1153ef435ae7SJeff Roberson KASSERT(rv->domain >= 0 && rv->domain < vm_ndomains, 1154ef435ae7SJeff Roberson ("vm_reserv_reclaim: reserv %p's domain is corrupted %d", 1155ef435ae7SJeff Roberson rv, rv->domain)); 1156ef435ae7SJeff Roberson TAILQ_REMOVE(&vm_rvq_partpop[rv->domain], rv, partpopq); 1157f8a47341SAlan Cox rv->inpartpopq = FALSE; 1158ec179322SAlan Cox vm_reserv_break(rv, NULL); 1159f8a47341SAlan Cox vm_reserv_reclaimed++; 116044aab2c3SAlan Cox } 116144aab2c3SAlan Cox 116244aab2c3SAlan Cox /* 11633453bca8SAlan Cox * Breaks the reservation at the head of the partially populated reservation 11643453bca8SAlan Cox * queue, releasing its free pages to the physical memory allocator. Returns 11653453bca8SAlan Cox * TRUE if a reservation is broken and FALSE otherwise. 116644aab2c3SAlan Cox * 116744aab2c3SAlan Cox * The free page queue lock must be held. 116844aab2c3SAlan Cox */ 116944aab2c3SAlan Cox boolean_t 1170ef435ae7SJeff Roberson vm_reserv_reclaim_inactive(int domain) 117144aab2c3SAlan Cox { 117244aab2c3SAlan Cox vm_reserv_t rv; 117344aab2c3SAlan Cox 1174*e2068d0bSJeff Roberson vm_domain_free_assert_locked(VM_DOMAIN(domain)); 1175ef435ae7SJeff Roberson if ((rv = TAILQ_FIRST(&vm_rvq_partpop[domain])) != NULL) { 117644aab2c3SAlan Cox vm_reserv_reclaim(rv); 1177f8a47341SAlan Cox return (TRUE); 1178f8a47341SAlan Cox } 1179f8a47341SAlan Cox return (FALSE); 1180f8a47341SAlan Cox } 1181f8a47341SAlan Cox 1182f8a47341SAlan Cox /* 11833453bca8SAlan Cox * Searches the partially populated reservation queue for the least recently 11843453bca8SAlan Cox * changed reservation with free pages that satisfy the given request for 11853453bca8SAlan Cox * contiguous physical memory. If a satisfactory reservation is found, it is 11863453bca8SAlan Cox * broken. Returns TRUE if a reservation is broken and FALSE otherwise. 118744aab2c3SAlan Cox * 118844aab2c3SAlan Cox * The free page queue lock must be held. 118944aab2c3SAlan Cox */ 119044aab2c3SAlan Cox boolean_t 1191ef435ae7SJeff Roberson vm_reserv_reclaim_contig(int domain, u_long npages, vm_paddr_t low, 1192ef435ae7SJeff Roberson vm_paddr_t high, u_long alignment, vm_paddr_t boundary) 119344aab2c3SAlan Cox { 1194ec179322SAlan Cox vm_paddr_t pa, size; 119544aab2c3SAlan Cox vm_reserv_t rv; 119667b7e434SAlan Cox int hi, i, lo, low_index, next_free; 119744aab2c3SAlan Cox 1198*e2068d0bSJeff Roberson vm_domain_free_assert_locked(VM_DOMAIN(domain)); 1199c68c3537SAlan Cox if (npages > VM_LEVEL_0_NPAGES - 1) 120044aab2c3SAlan Cox return (FALSE); 1201c68c3537SAlan Cox size = npages << PAGE_SHIFT; 1202ef435ae7SJeff Roberson TAILQ_FOREACH(rv, &vm_rvq_partpop[domain], partpopq) { 120344aab2c3SAlan Cox pa = VM_PAGE_TO_PHYS(&rv->pages[VM_LEVEL_0_NPAGES - 1]); 120444aab2c3SAlan Cox if (pa + PAGE_SIZE - size < low) { 1205ec179322SAlan Cox /* This entire reservation is too low; go to next. */ 120644aab2c3SAlan Cox continue; 120744aab2c3SAlan Cox } 1208ec179322SAlan Cox pa = VM_PAGE_TO_PHYS(&rv->pages[0]); 120944aab2c3SAlan Cox if (pa + size > high) { 1210ec179322SAlan Cox /* This entire reservation is too high; go to next. */ 1211ec179322SAlan Cox continue; 121285f2a0c9SMax Laier } 1213ec179322SAlan Cox if (pa < low) { 1214ec179322SAlan Cox /* Start the search for free pages at "low". */ 121567b7e434SAlan Cox low_index = (low + PAGE_MASK - pa) >> PAGE_SHIFT; 121667b7e434SAlan Cox i = low_index / NBPOPMAP; 121767b7e434SAlan Cox hi = low_index % NBPOPMAP; 1218ec179322SAlan Cox } else 1219ec179322SAlan Cox i = hi = 0; 1220ec179322SAlan Cox do { 1221ec179322SAlan Cox /* Find the next free page. */ 1222ec179322SAlan Cox lo = ffsl(~(((1UL << hi) - 1) | rv->popmap[i])); 1223ec179322SAlan Cox while (lo == 0 && ++i < NPOPMAP) 1224ec179322SAlan Cox lo = ffsl(~rv->popmap[i]); 1225ec179322SAlan Cox if (i == NPOPMAP) 1226ec179322SAlan Cox break; 1227ec179322SAlan Cox /* Convert from ffsl() to ordinary bit numbering. */ 1228ec179322SAlan Cox lo--; 1229ec179322SAlan Cox next_free = NBPOPMAP * i + lo; 1230ec179322SAlan Cox pa = VM_PAGE_TO_PHYS(&rv->pages[next_free]); 1231ec179322SAlan Cox KASSERT(pa >= low, 1232ec179322SAlan Cox ("vm_reserv_reclaim_contig: pa is too low")); 1233ec179322SAlan Cox if (pa + size > high) { 1234ec179322SAlan Cox /* The rest of this reservation is too high. */ 1235ec179322SAlan Cox break; 1236ec179322SAlan Cox } else if ((pa & (alignment - 1)) != 0 || 1237ec179322SAlan Cox ((pa ^ (pa + size - 1)) & ~(boundary - 1)) != 0) { 12386a93e36bSAlan Cox /* 12396a93e36bSAlan Cox * The current page doesn't meet the alignment 12406a93e36bSAlan Cox * and/or boundary requirements. Continue 12416a93e36bSAlan Cox * searching this reservation until the rest 12426a93e36bSAlan Cox * of its free pages are either excluded or 12436a93e36bSAlan Cox * exhausted. 12446a93e36bSAlan Cox */ 12456a93e36bSAlan Cox hi = lo + 1; 12466a93e36bSAlan Cox if (hi >= NBPOPMAP) { 12476a93e36bSAlan Cox hi = 0; 12486a93e36bSAlan Cox i++; 12496a93e36bSAlan Cox } 1250ec179322SAlan Cox continue; 1251ec179322SAlan Cox } 1252ec179322SAlan Cox /* Find the next used page. */ 1253ec179322SAlan Cox hi = ffsl(rv->popmap[i] & ~((1UL << lo) - 1)); 1254ec179322SAlan Cox while (hi == 0 && ++i < NPOPMAP) { 1255ec179322SAlan Cox if ((NBPOPMAP * i - next_free) * PAGE_SIZE >= 1256ec179322SAlan Cox size) { 125744aab2c3SAlan Cox vm_reserv_reclaim(rv); 125844aab2c3SAlan Cox return (TRUE); 125944aab2c3SAlan Cox } 1260ec179322SAlan Cox hi = ffsl(rv->popmap[i]); 1261ec179322SAlan Cox } 1262ec179322SAlan Cox /* Convert from ffsl() to ordinary bit numbering. */ 1263ec179322SAlan Cox if (i != NPOPMAP) 1264ec179322SAlan Cox hi--; 1265ec179322SAlan Cox if ((NBPOPMAP * i + hi - next_free) * PAGE_SIZE >= 1266ec179322SAlan Cox size) { 1267ec179322SAlan Cox vm_reserv_reclaim(rv); 1268ec179322SAlan Cox return (TRUE); 1269ec179322SAlan Cox } 1270ec179322SAlan Cox } while (i < NPOPMAP); 127144aab2c3SAlan Cox } 127244aab2c3SAlan Cox return (FALSE); 127344aab2c3SAlan Cox } 127444aab2c3SAlan Cox 127544aab2c3SAlan Cox /* 1276f8a47341SAlan Cox * Transfers the reservation underlying the given page to a new object. 1277f8a47341SAlan Cox * 1278f8a47341SAlan Cox * The object must be locked. 1279f8a47341SAlan Cox */ 1280f8a47341SAlan Cox void 1281f8a47341SAlan Cox vm_reserv_rename(vm_page_t m, vm_object_t new_object, vm_object_t old_object, 1282f8a47341SAlan Cox vm_pindex_t old_object_offset) 1283f8a47341SAlan Cox { 1284f8a47341SAlan Cox vm_reserv_t rv; 1285f8a47341SAlan Cox 128689f6b863SAttilio Rao VM_OBJECT_ASSERT_WLOCKED(new_object); 1287f8a47341SAlan Cox rv = vm_reserv_from_page(m); 1288f8a47341SAlan Cox if (rv->object == old_object) { 1289*e2068d0bSJeff Roberson vm_domain_free_lock(VM_DOMAIN(rv->domain)); 1290f8a47341SAlan Cox if (rv->object == old_object) { 1291*e2068d0bSJeff Roberson vm_reserv_object_lock(old_object); 1292*e2068d0bSJeff Roberson rv->object = NULL; 1293f8a47341SAlan Cox LIST_REMOVE(rv, objq); 1294*e2068d0bSJeff Roberson vm_reserv_object_unlock(old_object); 1295*e2068d0bSJeff Roberson vm_reserv_object_lock(new_object); 1296f8a47341SAlan Cox rv->object = new_object; 1297f8a47341SAlan Cox rv->pindex -= old_object_offset; 1298*e2068d0bSJeff Roberson LIST_INSERT_HEAD(&new_object->rvq, rv, objq); 1299*e2068d0bSJeff Roberson vm_reserv_object_unlock(new_object); 1300f8a47341SAlan Cox } 1301*e2068d0bSJeff Roberson vm_domain_free_unlock(VM_DOMAIN(rv->domain)); 1302f8a47341SAlan Cox } 1303f8a47341SAlan Cox } 1304f8a47341SAlan Cox 1305f8a47341SAlan Cox /* 1306c869e672SAlan Cox * Returns the size (in bytes) of a reservation of the specified level. 1307c869e672SAlan Cox */ 1308c869e672SAlan Cox int 1309c869e672SAlan Cox vm_reserv_size(int level) 1310c869e672SAlan Cox { 1311c869e672SAlan Cox 1312c869e672SAlan Cox switch (level) { 1313c869e672SAlan Cox case 0: 1314c869e672SAlan Cox return (VM_LEVEL_0_SIZE); 1315c869e672SAlan Cox case -1: 1316c869e672SAlan Cox return (PAGE_SIZE); 1317c869e672SAlan Cox default: 1318c869e672SAlan Cox return (0); 1319c869e672SAlan Cox } 1320c869e672SAlan Cox } 1321c869e672SAlan Cox 1322c869e672SAlan Cox /* 1323f8a47341SAlan Cox * Allocates the virtual and physical memory required by the reservation 1324f8a47341SAlan Cox * management system's data structures, in particular, the reservation array. 1325f8a47341SAlan Cox */ 1326f8a47341SAlan Cox vm_paddr_t 1327f8a47341SAlan Cox vm_reserv_startup(vm_offset_t *vaddr, vm_paddr_t end, vm_paddr_t high_water) 1328f8a47341SAlan Cox { 1329f8a47341SAlan Cox vm_paddr_t new_end; 1330f8a47341SAlan Cox size_t size; 1331*e2068d0bSJeff Roberson int i; 1332f8a47341SAlan Cox 1333f8a47341SAlan Cox /* 1334f8a47341SAlan Cox * Calculate the size (in bytes) of the reservation array. Round up 1335f8a47341SAlan Cox * from "high_water" because every small page is mapped to an element 1336f8a47341SAlan Cox * in the reservation array based on its physical address. Thus, the 1337f8a47341SAlan Cox * number of elements in the reservation array can be greater than the 1338f8a47341SAlan Cox * number of superpages. 1339f8a47341SAlan Cox */ 1340f8a47341SAlan Cox size = howmany(high_water, VM_LEVEL_0_SIZE) * sizeof(struct vm_reserv); 1341f8a47341SAlan Cox 1342f8a47341SAlan Cox /* 1343f8a47341SAlan Cox * Allocate and map the physical memory for the reservation array. The 1344f8a47341SAlan Cox * next available virtual address is returned by reference. 1345f8a47341SAlan Cox */ 1346f8a47341SAlan Cox new_end = end - round_page(size); 1347f8a47341SAlan Cox vm_reserv_array = (void *)(uintptr_t)pmap_map(vaddr, new_end, end, 1348f8a47341SAlan Cox VM_PROT_READ | VM_PROT_WRITE); 1349f8a47341SAlan Cox bzero(vm_reserv_array, size); 1350f8a47341SAlan Cox 1351*e2068d0bSJeff Roberson for (i = 0; i < VM_RESERV_OBJ_LOCK_COUNT; i++) 1352*e2068d0bSJeff Roberson mtx_init(&vm_reserv_object_mtx[i], "resv obj lock", NULL, 1353*e2068d0bSJeff Roberson MTX_DEF); 1354*e2068d0bSJeff Roberson 1355f8a47341SAlan Cox /* 1356f8a47341SAlan Cox * Return the next available physical address. 1357f8a47341SAlan Cox */ 1358f8a47341SAlan Cox return (new_end); 1359f8a47341SAlan Cox } 1360f8a47341SAlan Cox 13618b5e1472SAlan Cox /* 13628b5e1472SAlan Cox * Returns the superpage containing the given page. 13638b5e1472SAlan Cox */ 13648b5e1472SAlan Cox vm_page_t 13658b5e1472SAlan Cox vm_reserv_to_superpage(vm_page_t m) 13668b5e1472SAlan Cox { 13678b5e1472SAlan Cox vm_reserv_t rv; 13688b5e1472SAlan Cox 13698b5e1472SAlan Cox VM_OBJECT_ASSERT_LOCKED(m->object); 13708b5e1472SAlan Cox rv = vm_reserv_from_page(m); 13718b5e1472SAlan Cox return (rv->object == m->object && rv->popcnt == VM_LEVEL_0_NPAGES ? 13728b5e1472SAlan Cox rv->pages : NULL); 13738b5e1472SAlan Cox } 13748b5e1472SAlan Cox 1375f8a47341SAlan Cox #endif /* VM_NRESERVLEVEL > 0 */ 1376