1f8a47341SAlan Cox /*- 2f8a47341SAlan Cox * Copyright (c) 2002-2006 Rice University 344aab2c3SAlan Cox * Copyright (c) 2007-2008 Alan L. Cox <alc@cs.rice.edu> 4f8a47341SAlan Cox * All rights reserved. 5f8a47341SAlan Cox * 6f8a47341SAlan Cox * This software was developed for the FreeBSD Project by Alan L. Cox, 7f8a47341SAlan Cox * Olivier Crameri, Peter Druschel, Sitaram Iyer, and Juan Navarro. 8f8a47341SAlan Cox * 9f8a47341SAlan Cox * Redistribution and use in source and binary forms, with or without 10f8a47341SAlan Cox * modification, are permitted provided that the following conditions 11f8a47341SAlan Cox * are met: 12f8a47341SAlan Cox * 1. Redistributions of source code must retain the above copyright 13f8a47341SAlan Cox * notice, this list of conditions and the following disclaimer. 14f8a47341SAlan Cox * 2. Redistributions in binary form must reproduce the above copyright 15f8a47341SAlan Cox * notice, this list of conditions and the following disclaimer in the 16f8a47341SAlan Cox * documentation and/or other materials provided with the distribution. 17f8a47341SAlan Cox * 18f8a47341SAlan Cox * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 19f8a47341SAlan Cox * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 20f8a47341SAlan Cox * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR 21f8a47341SAlan Cox * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT 22f8a47341SAlan Cox * HOLDERS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, 23f8a47341SAlan Cox * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, 24f8a47341SAlan Cox * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS 25f8a47341SAlan Cox * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED 26f8a47341SAlan Cox * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 27f8a47341SAlan Cox * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY 28f8a47341SAlan Cox * WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 29f8a47341SAlan Cox * POSSIBILITY OF SUCH DAMAGE. 30f8a47341SAlan Cox */ 31f8a47341SAlan Cox 32f8a47341SAlan Cox /* 33f8a47341SAlan Cox * Superpage reservation management module 34f8a47341SAlan Cox */ 35f8a47341SAlan Cox 36f8a47341SAlan Cox #include <sys/cdefs.h> 37f8a47341SAlan Cox __FBSDID("$FreeBSD$"); 38f8a47341SAlan Cox 39f8a47341SAlan Cox #include "opt_vm.h" 40f8a47341SAlan Cox 41f8a47341SAlan Cox #include <sys/param.h> 42f8a47341SAlan Cox #include <sys/kernel.h> 43f8a47341SAlan Cox #include <sys/lock.h> 44f8a47341SAlan Cox #include <sys/malloc.h> 45f8a47341SAlan Cox #include <sys/mutex.h> 46f8a47341SAlan Cox #include <sys/queue.h> 47f8a47341SAlan Cox #include <sys/sbuf.h> 48f8a47341SAlan Cox #include <sys/sysctl.h> 49f8a47341SAlan Cox #include <sys/systm.h> 50f8a47341SAlan Cox 51f8a47341SAlan Cox #include <vm/vm.h> 52f8a47341SAlan Cox #include <vm/vm_param.h> 53f8a47341SAlan Cox #include <vm/vm_object.h> 54f8a47341SAlan Cox #include <vm/vm_page.h> 55f8a47341SAlan Cox #include <vm/vm_phys.h> 56f8a47341SAlan Cox #include <vm/vm_reserv.h> 57f8a47341SAlan Cox 58f8a47341SAlan Cox /* 59f8a47341SAlan Cox * The reservation system supports the speculative allocation of large physical 60f8a47341SAlan Cox * pages ("superpages"). Speculative allocation enables the fully-automatic 61f8a47341SAlan Cox * utilization of superpages by the virtual memory system. In other words, no 62f8a47341SAlan Cox * programmatic directives are required to use superpages. 63f8a47341SAlan Cox */ 64f8a47341SAlan Cox 65f8a47341SAlan Cox #if VM_NRESERVLEVEL > 0 66f8a47341SAlan Cox 67f8a47341SAlan Cox /* 68f8a47341SAlan Cox * The number of small pages that are contained in a level 0 reservation 69f8a47341SAlan Cox */ 70f8a47341SAlan Cox #define VM_LEVEL_0_NPAGES (1 << VM_LEVEL_0_ORDER) 71f8a47341SAlan Cox 72f8a47341SAlan Cox /* 73f8a47341SAlan Cox * The number of bits by which a physical address is shifted to obtain the 74f8a47341SAlan Cox * reservation number 75f8a47341SAlan Cox */ 76f8a47341SAlan Cox #define VM_LEVEL_0_SHIFT (VM_LEVEL_0_ORDER + PAGE_SHIFT) 77f8a47341SAlan Cox 78f8a47341SAlan Cox /* 79f8a47341SAlan Cox * The size of a level 0 reservation in bytes 80f8a47341SAlan Cox */ 81f8a47341SAlan Cox #define VM_LEVEL_0_SIZE (1 << VM_LEVEL_0_SHIFT) 82f8a47341SAlan Cox 83f8a47341SAlan Cox /* 84f8a47341SAlan Cox * Computes the index of the small page underlying the given (object, pindex) 85f8a47341SAlan Cox * within the reservation's array of small pages. 86f8a47341SAlan Cox */ 87f8a47341SAlan Cox #define VM_RESERV_INDEX(object, pindex) \ 88f8a47341SAlan Cox (((object)->pg_color + (pindex)) & (VM_LEVEL_0_NPAGES - 1)) 89f8a47341SAlan Cox 90f8a47341SAlan Cox /* 91f8a47341SAlan Cox * The reservation structure 92f8a47341SAlan Cox * 93f8a47341SAlan Cox * A reservation structure is constructed whenever a large physical page is 94f8a47341SAlan Cox * speculatively allocated to an object. The reservation provides the small 95f8a47341SAlan Cox * physical pages for the range [pindex, pindex + VM_LEVEL_0_NPAGES) of offsets 96f8a47341SAlan Cox * within that object. The reservation's "popcnt" tracks the number of these 97f8a47341SAlan Cox * small physical pages that are in use at any given time. When and if the 98f8a47341SAlan Cox * reservation is not fully utilized, it appears in the queue of partially- 99f8a47341SAlan Cox * populated reservations. The reservation always appears on the containing 100f8a47341SAlan Cox * object's list of reservations. 101f8a47341SAlan Cox * 102f8a47341SAlan Cox * A partially-populated reservation can be broken and reclaimed at any time. 103f8a47341SAlan Cox */ 104f8a47341SAlan Cox struct vm_reserv { 105f8a47341SAlan Cox TAILQ_ENTRY(vm_reserv) partpopq; 106f8a47341SAlan Cox LIST_ENTRY(vm_reserv) objq; 107f8a47341SAlan Cox vm_object_t object; /* containing object */ 108f8a47341SAlan Cox vm_pindex_t pindex; /* offset within object */ 109f8a47341SAlan Cox vm_page_t pages; /* first page of a superpage */ 110f8a47341SAlan Cox int popcnt; /* # of pages in use */ 111f8a47341SAlan Cox char inpartpopq; 112f8a47341SAlan Cox }; 113f8a47341SAlan Cox 114f8a47341SAlan Cox /* 115f8a47341SAlan Cox * The reservation array 116f8a47341SAlan Cox * 117f8a47341SAlan Cox * This array is analoguous in function to vm_page_array. It differs in the 118f8a47341SAlan Cox * respect that it may contain a greater number of useful reservation 119f8a47341SAlan Cox * structures than there are (physical) superpages. These "invalid" 120f8a47341SAlan Cox * reservation structures exist to trade-off space for time in the 121f8a47341SAlan Cox * implementation of vm_reserv_from_page(). Invalid reservation structures are 122f8a47341SAlan Cox * distinguishable from "valid" reservation structures by inspecting the 123f8a47341SAlan Cox * reservation's "pages" field. Invalid reservation structures have a NULL 124f8a47341SAlan Cox * "pages" field. 125f8a47341SAlan Cox * 126f8a47341SAlan Cox * vm_reserv_from_page() maps a small (physical) page to an element of this 127f8a47341SAlan Cox * array by computing a physical reservation number from the page's physical 128f8a47341SAlan Cox * address. The physical reservation number is used as the array index. 129f8a47341SAlan Cox * 130f8a47341SAlan Cox * An "active" reservation is a valid reservation structure that has a non-NULL 131f8a47341SAlan Cox * "object" field and a non-zero "popcnt" field. In other words, every active 132f8a47341SAlan Cox * reservation belongs to a particular object. Moreover, every active 133f8a47341SAlan Cox * reservation has an entry in the containing object's list of reservations. 134f8a47341SAlan Cox */ 135f8a47341SAlan Cox static vm_reserv_t vm_reserv_array; 136f8a47341SAlan Cox 137f8a47341SAlan Cox /* 138f8a47341SAlan Cox * The partially-populated reservation queue 139f8a47341SAlan Cox * 140f8a47341SAlan Cox * This queue enables the fast recovery of an unused cached or free small page 141f8a47341SAlan Cox * from a partially-populated reservation. The head of this queue is either 142f8a47341SAlan Cox * the least-recently-populated or most-recently-depopulated reservation. 143f8a47341SAlan Cox * 144f8a47341SAlan Cox * Access to this queue is synchronized by the free page queue lock. 145f8a47341SAlan Cox */ 146f8a47341SAlan Cox static TAILQ_HEAD(, vm_reserv) vm_rvq_partpop = 147f8a47341SAlan Cox TAILQ_HEAD_INITIALIZER(vm_rvq_partpop); 148f8a47341SAlan Cox 149f8a47341SAlan Cox static SYSCTL_NODE(_vm, OID_AUTO, reserv, CTLFLAG_RD, 0, "Reservation Info"); 150f8a47341SAlan Cox 151f8a47341SAlan Cox static long vm_reserv_broken; 152f8a47341SAlan Cox SYSCTL_LONG(_vm_reserv, OID_AUTO, broken, CTLFLAG_RD, 153f8a47341SAlan Cox &vm_reserv_broken, 0, "Cumulative number of broken reservations"); 154f8a47341SAlan Cox 155f8a47341SAlan Cox static long vm_reserv_freed; 156f8a47341SAlan Cox SYSCTL_LONG(_vm_reserv, OID_AUTO, freed, CTLFLAG_RD, 157f8a47341SAlan Cox &vm_reserv_freed, 0, "Cumulative number of freed reservations"); 158f8a47341SAlan Cox 159f8a47341SAlan Cox static int sysctl_vm_reserv_partpopq(SYSCTL_HANDLER_ARGS); 160f8a47341SAlan Cox 161f8a47341SAlan Cox SYSCTL_OID(_vm_reserv, OID_AUTO, partpopq, CTLTYPE_STRING | CTLFLAG_RD, NULL, 0, 162f8a47341SAlan Cox sysctl_vm_reserv_partpopq, "A", "Partially-populated reservation queues"); 163f8a47341SAlan Cox 164f8a47341SAlan Cox static long vm_reserv_reclaimed; 165f8a47341SAlan Cox SYSCTL_LONG(_vm_reserv, OID_AUTO, reclaimed, CTLFLAG_RD, 166f8a47341SAlan Cox &vm_reserv_reclaimed, 0, "Cumulative number of reclaimed reservations"); 167f8a47341SAlan Cox 168f8a47341SAlan Cox static void vm_reserv_depopulate(vm_reserv_t rv); 169f8a47341SAlan Cox static vm_reserv_t vm_reserv_from_page(vm_page_t m); 170f8a47341SAlan Cox static boolean_t vm_reserv_has_pindex(vm_reserv_t rv, 171f8a47341SAlan Cox vm_pindex_t pindex); 172f8a47341SAlan Cox static void vm_reserv_populate(vm_reserv_t rv); 17344aab2c3SAlan Cox static void vm_reserv_reclaim(vm_reserv_t rv); 174f8a47341SAlan Cox 175f8a47341SAlan Cox /* 176f8a47341SAlan Cox * Describes the current state of the partially-populated reservation queue. 177f8a47341SAlan Cox */ 178f8a47341SAlan Cox static int 179f8a47341SAlan Cox sysctl_vm_reserv_partpopq(SYSCTL_HANDLER_ARGS) 180f8a47341SAlan Cox { 181f8a47341SAlan Cox struct sbuf sbuf; 182f8a47341SAlan Cox vm_reserv_t rv; 183f8a47341SAlan Cox char *cbuf; 184f8a47341SAlan Cox const int cbufsize = (VM_NRESERVLEVEL + 1) * 81; 185f8a47341SAlan Cox int counter, error, level, unused_pages; 186f8a47341SAlan Cox 187f8a47341SAlan Cox cbuf = malloc(cbufsize, M_TEMP, M_WAITOK | M_ZERO); 188f8a47341SAlan Cox sbuf_new(&sbuf, cbuf, cbufsize, SBUF_FIXEDLEN); 189f8a47341SAlan Cox sbuf_printf(&sbuf, "\nLEVEL SIZE NUMBER\n\n"); 190f8a47341SAlan Cox for (level = -1; level <= VM_NRESERVLEVEL - 2; level++) { 191f8a47341SAlan Cox counter = 0; 192f8a47341SAlan Cox unused_pages = 0; 193f8a47341SAlan Cox mtx_lock(&vm_page_queue_free_mtx); 194f8a47341SAlan Cox TAILQ_FOREACH(rv, &vm_rvq_partpop/*[level]*/, partpopq) { 195f8a47341SAlan Cox counter++; 196f8a47341SAlan Cox unused_pages += VM_LEVEL_0_NPAGES - rv->popcnt; 197f8a47341SAlan Cox } 198f8a47341SAlan Cox mtx_unlock(&vm_page_queue_free_mtx); 199f8a47341SAlan Cox sbuf_printf(&sbuf, "%5.5d: %6.6dK, %6.6d\n", level, 200f8a47341SAlan Cox unused_pages * (PAGE_SIZE / 1024), counter); 201f8a47341SAlan Cox } 202f8a47341SAlan Cox sbuf_finish(&sbuf); 203f8a47341SAlan Cox error = SYSCTL_OUT(req, sbuf_data(&sbuf), sbuf_len(&sbuf)); 204f8a47341SAlan Cox sbuf_delete(&sbuf); 205f8a47341SAlan Cox free(cbuf, M_TEMP); 206f8a47341SAlan Cox return (error); 207f8a47341SAlan Cox } 208f8a47341SAlan Cox 209f8a47341SAlan Cox /* 210f8a47341SAlan Cox * Reduces the given reservation's population count. If the population count 211f8a47341SAlan Cox * becomes zero, the reservation is destroyed. Additionally, moves the 212f8a47341SAlan Cox * reservation to the head of the partially-populated reservations queue if the 213f8a47341SAlan Cox * population count is non-zero. 214f8a47341SAlan Cox * 215f8a47341SAlan Cox * The free page queue lock must be held. 216f8a47341SAlan Cox */ 217f8a47341SAlan Cox static void 218f8a47341SAlan Cox vm_reserv_depopulate(vm_reserv_t rv) 219f8a47341SAlan Cox { 220f8a47341SAlan Cox 221f8a47341SAlan Cox mtx_assert(&vm_page_queue_free_mtx, MA_OWNED); 222f8a47341SAlan Cox KASSERT(rv->object != NULL, 223f8a47341SAlan Cox ("vm_reserv_depopulate: reserv %p is free", rv)); 224f8a47341SAlan Cox KASSERT(rv->popcnt > 0, 225f8a47341SAlan Cox ("vm_reserv_depopulate: reserv %p's popcnt is corrupted", rv)); 226f8a47341SAlan Cox if (rv->inpartpopq) { 227f8a47341SAlan Cox TAILQ_REMOVE(&vm_rvq_partpop, rv, partpopq); 228f8a47341SAlan Cox rv->inpartpopq = FALSE; 229f8a47341SAlan Cox } 230f8a47341SAlan Cox rv->popcnt--; 231f8a47341SAlan Cox if (rv->popcnt == 0) { 232f8a47341SAlan Cox LIST_REMOVE(rv, objq); 233f8a47341SAlan Cox rv->object = NULL; 234f8a47341SAlan Cox vm_phys_free_pages(rv->pages, VM_LEVEL_0_ORDER); 235f8a47341SAlan Cox vm_reserv_freed++; 236f8a47341SAlan Cox } else { 237f8a47341SAlan Cox rv->inpartpopq = TRUE; 238f8a47341SAlan Cox TAILQ_INSERT_HEAD(&vm_rvq_partpop, rv, partpopq); 239f8a47341SAlan Cox } 240f8a47341SAlan Cox } 241f8a47341SAlan Cox 242f8a47341SAlan Cox /* 243f8a47341SAlan Cox * Returns the reservation to which the given page might belong. 244f8a47341SAlan Cox */ 245f8a47341SAlan Cox static __inline vm_reserv_t 246f8a47341SAlan Cox vm_reserv_from_page(vm_page_t m) 247f8a47341SAlan Cox { 248f8a47341SAlan Cox 249f8a47341SAlan Cox return (&vm_reserv_array[VM_PAGE_TO_PHYS(m) >> VM_LEVEL_0_SHIFT]); 250f8a47341SAlan Cox } 251f8a47341SAlan Cox 252f8a47341SAlan Cox /* 253f8a47341SAlan Cox * Returns TRUE if the given reservation contains the given page index and 254f8a47341SAlan Cox * FALSE otherwise. 255f8a47341SAlan Cox */ 256f8a47341SAlan Cox static __inline boolean_t 257f8a47341SAlan Cox vm_reserv_has_pindex(vm_reserv_t rv, vm_pindex_t pindex) 258f8a47341SAlan Cox { 259f8a47341SAlan Cox 260f8a47341SAlan Cox return (((pindex - rv->pindex) & ~(VM_LEVEL_0_NPAGES - 1)) == 0); 261f8a47341SAlan Cox } 262f8a47341SAlan Cox 263f8a47341SAlan Cox /* 264f8a47341SAlan Cox * Increases the given reservation's population count. Moves the reservation 265f8a47341SAlan Cox * to the tail of the partially-populated reservation queue. 266f8a47341SAlan Cox * 267f8a47341SAlan Cox * The free page queue must be locked. 268f8a47341SAlan Cox */ 269f8a47341SAlan Cox static void 270f8a47341SAlan Cox vm_reserv_populate(vm_reserv_t rv) 271f8a47341SAlan Cox { 272f8a47341SAlan Cox 273f8a47341SAlan Cox mtx_assert(&vm_page_queue_free_mtx, MA_OWNED); 274f8a47341SAlan Cox KASSERT(rv->object != NULL, 275f8a47341SAlan Cox ("vm_reserv_populate: reserv %p is free", rv)); 276f8a47341SAlan Cox KASSERT(rv->popcnt < VM_LEVEL_0_NPAGES, 277f8a47341SAlan Cox ("vm_reserv_populate: reserv %p is already full", rv)); 278f8a47341SAlan Cox if (rv->inpartpopq) { 279f8a47341SAlan Cox TAILQ_REMOVE(&vm_rvq_partpop, rv, partpopq); 280f8a47341SAlan Cox rv->inpartpopq = FALSE; 281f8a47341SAlan Cox } 282f8a47341SAlan Cox rv->popcnt++; 283f8a47341SAlan Cox if (rv->popcnt < VM_LEVEL_0_NPAGES) { 284f8a47341SAlan Cox rv->inpartpopq = TRUE; 285f8a47341SAlan Cox TAILQ_INSERT_TAIL(&vm_rvq_partpop, rv, partpopq); 286f8a47341SAlan Cox } 287f8a47341SAlan Cox } 288f8a47341SAlan Cox 289f8a47341SAlan Cox /* 290f8a47341SAlan Cox * Allocates a page from an existing or newly-created reservation. 291f8a47341SAlan Cox * 292f8a47341SAlan Cox * The object and free page queue must be locked. 293f8a47341SAlan Cox */ 294f8a47341SAlan Cox vm_page_t 295f8a47341SAlan Cox vm_reserv_alloc_page(vm_object_t object, vm_pindex_t pindex) 296f8a47341SAlan Cox { 297f8a47341SAlan Cox vm_page_t m, mpred, msucc; 298f8a47341SAlan Cox vm_pindex_t first, leftcap, rightcap; 299f8a47341SAlan Cox vm_reserv_t rv; 300f8a47341SAlan Cox 301f8a47341SAlan Cox mtx_assert(&vm_page_queue_free_mtx, MA_OWNED); 302f8a47341SAlan Cox 303f8a47341SAlan Cox /* 304f8a47341SAlan Cox * Is a reservation fundamentally not possible? 305f8a47341SAlan Cox */ 306f8a47341SAlan Cox VM_OBJECT_LOCK_ASSERT(object, MA_OWNED); 307f8a47341SAlan Cox if (pindex < VM_RESERV_INDEX(object, pindex) || 308f8a47341SAlan Cox pindex >= object->size) 309f8a47341SAlan Cox return (NULL); 310f8a47341SAlan Cox 311f8a47341SAlan Cox /* 312f8a47341SAlan Cox * Look for an existing reservation. 313f8a47341SAlan Cox */ 314f8a47341SAlan Cox msucc = NULL; 315f8a47341SAlan Cox mpred = object->root; 316f8a47341SAlan Cox while (mpred != NULL) { 317f8a47341SAlan Cox KASSERT(mpred->pindex != pindex, 318f8a47341SAlan Cox ("vm_reserv_alloc_page: pindex already allocated")); 319f8a47341SAlan Cox rv = vm_reserv_from_page(mpred); 320f8a47341SAlan Cox if (rv->object == object && vm_reserv_has_pindex(rv, pindex)) { 321f8a47341SAlan Cox m = &rv->pages[VM_RESERV_INDEX(object, pindex)]; 322f8a47341SAlan Cox /* Handle vm_page_rename(m, new_object, ...). */ 323f8a47341SAlan Cox if ((m->flags & (PG_CACHED | PG_FREE)) == 0) 324f8a47341SAlan Cox return (NULL); 325f8a47341SAlan Cox vm_reserv_populate(rv); 326f8a47341SAlan Cox return (m); 327f8a47341SAlan Cox } else if (mpred->pindex < pindex) { 328f8a47341SAlan Cox if (msucc != NULL || 329f8a47341SAlan Cox (msucc = TAILQ_NEXT(mpred, listq)) == NULL) 330f8a47341SAlan Cox break; 331f8a47341SAlan Cox KASSERT(msucc->pindex != pindex, 332f8a47341SAlan Cox ("vm_reserv_alloc_page: pindex already allocated")); 333f8a47341SAlan Cox rv = vm_reserv_from_page(msucc); 334f8a47341SAlan Cox if (rv->object == object && 335f8a47341SAlan Cox vm_reserv_has_pindex(rv, pindex)) { 336f8a47341SAlan Cox m = &rv->pages[VM_RESERV_INDEX(object, pindex)]; 337f8a47341SAlan Cox /* Handle vm_page_rename(m, new_object, ...). */ 338f8a47341SAlan Cox if ((m->flags & (PG_CACHED | PG_FREE)) == 0) 339f8a47341SAlan Cox return (NULL); 340f8a47341SAlan Cox vm_reserv_populate(rv); 341f8a47341SAlan Cox return (m); 342f8a47341SAlan Cox } else if (pindex < msucc->pindex) 343f8a47341SAlan Cox break; 344f8a47341SAlan Cox } else if (msucc == NULL) { 345f8a47341SAlan Cox msucc = mpred; 346f8a47341SAlan Cox mpred = TAILQ_PREV(msucc, pglist, listq); 347f8a47341SAlan Cox continue; 348f8a47341SAlan Cox } 349f8a47341SAlan Cox msucc = NULL; 350f8a47341SAlan Cox mpred = object->root = vm_page_splay(pindex, object->root); 351f8a47341SAlan Cox } 352f8a47341SAlan Cox 353f8a47341SAlan Cox /* 354f8a47341SAlan Cox * Determine the first index to the left that can be used. 355f8a47341SAlan Cox */ 356f8a47341SAlan Cox if (mpred == NULL) 357f8a47341SAlan Cox leftcap = 0; 358f8a47341SAlan Cox else if ((rv = vm_reserv_from_page(mpred))->object != object) 359f8a47341SAlan Cox leftcap = mpred->pindex + 1; 360f8a47341SAlan Cox else 361f8a47341SAlan Cox leftcap = rv->pindex + VM_LEVEL_0_NPAGES; 362f8a47341SAlan Cox 363f8a47341SAlan Cox /* 364f8a47341SAlan Cox * Determine the first index to the right that cannot be used. 365f8a47341SAlan Cox */ 366f8a47341SAlan Cox if (msucc == NULL) 367f8a47341SAlan Cox rightcap = pindex + VM_LEVEL_0_NPAGES; 368f8a47341SAlan Cox else if ((rv = vm_reserv_from_page(msucc))->object != object) 369f8a47341SAlan Cox rightcap = msucc->pindex; 370f8a47341SAlan Cox else 371f8a47341SAlan Cox rightcap = rv->pindex; 372f8a47341SAlan Cox 373f8a47341SAlan Cox /* 374f8a47341SAlan Cox * Determine if a reservation fits between the first index to 375f8a47341SAlan Cox * the left that can be used and the first index to the right 376f8a47341SAlan Cox * that cannot be used. 377f8a47341SAlan Cox */ 378f8a47341SAlan Cox first = pindex - VM_RESERV_INDEX(object, pindex); 379f8a47341SAlan Cox if (first < leftcap || first + VM_LEVEL_0_NPAGES > rightcap) 380f8a47341SAlan Cox return (NULL); 381f8a47341SAlan Cox 382f8a47341SAlan Cox /* 383f8a47341SAlan Cox * Would a new reservation extend past the end of the given object? 384f8a47341SAlan Cox */ 385f8a47341SAlan Cox if (object->size < first + VM_LEVEL_0_NPAGES) { 386f8a47341SAlan Cox /* 387f8a47341SAlan Cox * Don't allocate a new reservation if the object is a vnode or 388f8a47341SAlan Cox * backed by another object that is a vnode. 389f8a47341SAlan Cox */ 390f8a47341SAlan Cox if (object->type == OBJT_VNODE || 391f8a47341SAlan Cox (object->backing_object != NULL && 392f8a47341SAlan Cox object->backing_object->type == OBJT_VNODE)) 393f8a47341SAlan Cox return (NULL); 394f8a47341SAlan Cox /* Speculate that the object may grow. */ 395f8a47341SAlan Cox } 396f8a47341SAlan Cox 397f8a47341SAlan Cox /* 398f8a47341SAlan Cox * Allocate a new reservation. 399f8a47341SAlan Cox */ 400f8a47341SAlan Cox m = vm_phys_alloc_pages(VM_FREEPOOL_DEFAULT, VM_LEVEL_0_ORDER); 401f8a47341SAlan Cox if (m != NULL) { 402f8a47341SAlan Cox rv = vm_reserv_from_page(m); 403f8a47341SAlan Cox KASSERT(rv->pages == m, 404f8a47341SAlan Cox ("vm_reserv_alloc_page: reserv %p's pages is corrupted", 405f8a47341SAlan Cox rv)); 406f8a47341SAlan Cox KASSERT(rv->object == NULL, 407f8a47341SAlan Cox ("vm_reserv_alloc_page: reserv %p isn't free", rv)); 408f8a47341SAlan Cox LIST_INSERT_HEAD(&object->rvq, rv, objq); 409f8a47341SAlan Cox rv->object = object; 410f8a47341SAlan Cox rv->pindex = first; 411f8a47341SAlan Cox KASSERT(rv->popcnt == 0, 412f8a47341SAlan Cox ("vm_reserv_alloc_page: reserv %p's popcnt is corrupted", 413f8a47341SAlan Cox rv)); 414f8a47341SAlan Cox KASSERT(!rv->inpartpopq, 415f8a47341SAlan Cox ("vm_reserv_alloc_page: reserv %p's inpartpopq is TRUE", 416f8a47341SAlan Cox rv)); 417f8a47341SAlan Cox vm_reserv_populate(rv); 418f8a47341SAlan Cox m = &rv->pages[VM_RESERV_INDEX(object, pindex)]; 419f8a47341SAlan Cox } 420f8a47341SAlan Cox return (m); 421f8a47341SAlan Cox } 422f8a47341SAlan Cox 423f8a47341SAlan Cox /* 424f8a47341SAlan Cox * Breaks all reservations belonging to the given object. 425f8a47341SAlan Cox */ 426f8a47341SAlan Cox void 427f8a47341SAlan Cox vm_reserv_break_all(vm_object_t object) 428f8a47341SAlan Cox { 429f8a47341SAlan Cox vm_reserv_t rv; 430f8a47341SAlan Cox int i; 431f8a47341SAlan Cox 432f8a47341SAlan Cox mtx_lock(&vm_page_queue_free_mtx); 433f8a47341SAlan Cox while ((rv = LIST_FIRST(&object->rvq)) != NULL) { 434f8a47341SAlan Cox KASSERT(rv->object == object, 435f8a47341SAlan Cox ("vm_reserv_break_all: reserv %p is corrupted", rv)); 436f8a47341SAlan Cox if (rv->inpartpopq) { 437f8a47341SAlan Cox TAILQ_REMOVE(&vm_rvq_partpop, rv, partpopq); 438f8a47341SAlan Cox rv->inpartpopq = FALSE; 439f8a47341SAlan Cox } 440f8a47341SAlan Cox LIST_REMOVE(rv, objq); 441f8a47341SAlan Cox rv->object = NULL; 442f8a47341SAlan Cox for (i = 0; i < VM_LEVEL_0_NPAGES; i++) { 443f8a47341SAlan Cox if ((rv->pages[i].flags & (PG_CACHED | PG_FREE)) != 0) 444f8a47341SAlan Cox vm_phys_free_pages(&rv->pages[i], 0); 445f8a47341SAlan Cox else 446f8a47341SAlan Cox rv->popcnt--; 447f8a47341SAlan Cox } 448f8a47341SAlan Cox KASSERT(rv->popcnt == 0, 449f8a47341SAlan Cox ("vm_reserv_break_all: reserv %p's popcnt is corrupted", 450f8a47341SAlan Cox rv)); 451f8a47341SAlan Cox vm_reserv_broken++; 452f8a47341SAlan Cox } 453f8a47341SAlan Cox mtx_unlock(&vm_page_queue_free_mtx); 454f8a47341SAlan Cox } 455f8a47341SAlan Cox 456f8a47341SAlan Cox /* 457f8a47341SAlan Cox * Frees the given page if it belongs to a reservation. Returns TRUE if the 458f8a47341SAlan Cox * page is freed and FALSE otherwise. 459f8a47341SAlan Cox * 460f8a47341SAlan Cox * The free page queue lock must be held. 461f8a47341SAlan Cox */ 462f8a47341SAlan Cox boolean_t 463f8a47341SAlan Cox vm_reserv_free_page(vm_page_t m) 464f8a47341SAlan Cox { 465f8a47341SAlan Cox vm_reserv_t rv; 466f8a47341SAlan Cox 467f8a47341SAlan Cox mtx_assert(&vm_page_queue_free_mtx, MA_OWNED); 468f8a47341SAlan Cox rv = vm_reserv_from_page(m); 469f8a47341SAlan Cox if (rv->object != NULL) { 470f8a47341SAlan Cox vm_reserv_depopulate(rv); 471f8a47341SAlan Cox return (TRUE); 472f8a47341SAlan Cox } 473f8a47341SAlan Cox return (FALSE); 474f8a47341SAlan Cox } 475f8a47341SAlan Cox 476f8a47341SAlan Cox /* 477f8a47341SAlan Cox * Initializes the reservation management system. Specifically, initializes 478f8a47341SAlan Cox * the reservation array. 479f8a47341SAlan Cox * 480f8a47341SAlan Cox * Requires that vm_page_array and first_page are initialized! 481f8a47341SAlan Cox */ 482f8a47341SAlan Cox void 483f8a47341SAlan Cox vm_reserv_init(void) 484f8a47341SAlan Cox { 485f8a47341SAlan Cox vm_paddr_t paddr; 486f8a47341SAlan Cox int i; 487f8a47341SAlan Cox 488f8a47341SAlan Cox /* 489f8a47341SAlan Cox * Initialize the reservation array. Specifically, initialize the 490f8a47341SAlan Cox * "pages" field for every element that has an underlying superpage. 491f8a47341SAlan Cox */ 492f8a47341SAlan Cox for (i = 0; phys_avail[i + 1] != 0; i += 2) { 493f8a47341SAlan Cox paddr = roundup2(phys_avail[i], VM_LEVEL_0_SIZE); 494f8a47341SAlan Cox while (paddr + VM_LEVEL_0_SIZE <= phys_avail[i + 1]) { 495f8a47341SAlan Cox vm_reserv_array[paddr >> VM_LEVEL_0_SHIFT].pages = 496f8a47341SAlan Cox PHYS_TO_VM_PAGE(paddr); 497f8a47341SAlan Cox paddr += VM_LEVEL_0_SIZE; 498f8a47341SAlan Cox } 499f8a47341SAlan Cox } 500f8a47341SAlan Cox } 501f8a47341SAlan Cox 502f8a47341SAlan Cox /* 503f8a47341SAlan Cox * Returns a reservation level if the given page belongs to a fully-populated 504f8a47341SAlan Cox * reservation and -1 otherwise. 505f8a47341SAlan Cox */ 506f8a47341SAlan Cox int 507f8a47341SAlan Cox vm_reserv_level_iffullpop(vm_page_t m) 508f8a47341SAlan Cox { 509f8a47341SAlan Cox vm_reserv_t rv; 510f8a47341SAlan Cox 511f8a47341SAlan Cox rv = vm_reserv_from_page(m); 512f8a47341SAlan Cox return (rv->popcnt == VM_LEVEL_0_NPAGES ? 0 : -1); 513f8a47341SAlan Cox } 514f8a47341SAlan Cox 515f8a47341SAlan Cox /* 516f8a47341SAlan Cox * Prepare for the reactivation of a cached page. 517f8a47341SAlan Cox * 518f8a47341SAlan Cox * First, suppose that the given page "m" was allocated individually, i.e., not 519f8a47341SAlan Cox * as part of a reservation, and cached. Then, suppose a reservation 520f8a47341SAlan Cox * containing "m" is allocated by the same object. Although "m" and the 521f8a47341SAlan Cox * reservation belong to the same object, "m"'s pindex may not match the 522f8a47341SAlan Cox * reservation's. 523f8a47341SAlan Cox * 524f8a47341SAlan Cox * The free page queue must be locked. 525f8a47341SAlan Cox */ 526f8a47341SAlan Cox boolean_t 527f8a47341SAlan Cox vm_reserv_reactivate_page(vm_page_t m) 528f8a47341SAlan Cox { 529f8a47341SAlan Cox vm_reserv_t rv; 530f8a47341SAlan Cox int i, m_index; 531f8a47341SAlan Cox 532f8a47341SAlan Cox mtx_assert(&vm_page_queue_free_mtx, MA_OWNED); 533f8a47341SAlan Cox rv = vm_reserv_from_page(m); 534f8a47341SAlan Cox if (rv->object == NULL) 535f8a47341SAlan Cox return (FALSE); 536f8a47341SAlan Cox KASSERT((m->flags & PG_CACHED) != 0, 537f8a47341SAlan Cox ("vm_reserv_uncache_page: page %p is not cached", m)); 538f8a47341SAlan Cox if (m->object == rv->object && 539f8a47341SAlan Cox m->pindex - rv->pindex == VM_RESERV_INDEX(m->object, m->pindex)) 540f8a47341SAlan Cox vm_reserv_populate(rv); 541f8a47341SAlan Cox else { 542f8a47341SAlan Cox KASSERT(rv->inpartpopq, 543f8a47341SAlan Cox ("vm_reserv_uncache_page: reserv %p's inpartpopq is FALSE", 544f8a47341SAlan Cox rv)); 545f8a47341SAlan Cox TAILQ_REMOVE(&vm_rvq_partpop, rv, partpopq); 546f8a47341SAlan Cox rv->inpartpopq = FALSE; 547f8a47341SAlan Cox LIST_REMOVE(rv, objq); 548f8a47341SAlan Cox rv->object = NULL; 549f8a47341SAlan Cox /* Don't vm_phys_free_pages(m, 0). */ 550f8a47341SAlan Cox m_index = m - rv->pages; 551f8a47341SAlan Cox for (i = 0; i < m_index; i++) { 552f8a47341SAlan Cox if ((rv->pages[i].flags & (PG_CACHED | PG_FREE)) != 0) 553f8a47341SAlan Cox vm_phys_free_pages(&rv->pages[i], 0); 554f8a47341SAlan Cox else 555f8a47341SAlan Cox rv->popcnt--; 556f8a47341SAlan Cox } 557f8a47341SAlan Cox for (i++; i < VM_LEVEL_0_NPAGES; i++) { 558f8a47341SAlan Cox if ((rv->pages[i].flags & (PG_CACHED | PG_FREE)) != 0) 559f8a47341SAlan Cox vm_phys_free_pages(&rv->pages[i], 0); 560f8a47341SAlan Cox else 561f8a47341SAlan Cox rv->popcnt--; 562f8a47341SAlan Cox } 563f8a47341SAlan Cox KASSERT(rv->popcnt == 0, 564f8a47341SAlan Cox ("vm_reserv_uncache_page: reserv %p's popcnt is corrupted", 565f8a47341SAlan Cox rv)); 566f8a47341SAlan Cox vm_reserv_broken++; 567f8a47341SAlan Cox } 568f8a47341SAlan Cox return (TRUE); 569f8a47341SAlan Cox } 570f8a47341SAlan Cox 571f8a47341SAlan Cox /* 57244aab2c3SAlan Cox * Breaks the given partially-populated reservation, releasing its cached and 57344aab2c3SAlan Cox * free pages to the physical memory allocator. 574f8a47341SAlan Cox * 575f8a47341SAlan Cox * The free page queue lock must be held. 576f8a47341SAlan Cox */ 57744aab2c3SAlan Cox static void 57844aab2c3SAlan Cox vm_reserv_reclaim(vm_reserv_t rv) 579f8a47341SAlan Cox { 580f8a47341SAlan Cox int i; 581f8a47341SAlan Cox 582f8a47341SAlan Cox mtx_assert(&vm_page_queue_free_mtx, MA_OWNED); 583f8a47341SAlan Cox KASSERT(rv->inpartpopq, 58444aab2c3SAlan Cox ("vm_reserv_reclaim: reserv %p's inpartpopq is corrupted", rv)); 585f8a47341SAlan Cox TAILQ_REMOVE(&vm_rvq_partpop, rv, partpopq); 586f8a47341SAlan Cox rv->inpartpopq = FALSE; 587f8a47341SAlan Cox KASSERT(rv->object != NULL, 588f8a47341SAlan Cox ("vm_reserv_reclaim: reserv %p is free", rv)); 589f8a47341SAlan Cox LIST_REMOVE(rv, objq); 590f8a47341SAlan Cox rv->object = NULL; 591f8a47341SAlan Cox for (i = 0; i < VM_LEVEL_0_NPAGES; i++) { 592f8a47341SAlan Cox if ((rv->pages[i].flags & (PG_CACHED | PG_FREE)) != 0) 593f8a47341SAlan Cox vm_phys_free_pages(&rv->pages[i], 0); 594f8a47341SAlan Cox else 595f8a47341SAlan Cox rv->popcnt--; 596f8a47341SAlan Cox } 597f8a47341SAlan Cox KASSERT(rv->popcnt == 0, 59844aab2c3SAlan Cox ("vm_reserv_reclaim: reserv %p's popcnt is corrupted", rv)); 599f8a47341SAlan Cox vm_reserv_reclaimed++; 60044aab2c3SAlan Cox } 60144aab2c3SAlan Cox 60244aab2c3SAlan Cox /* 60344aab2c3SAlan Cox * Breaks the reservation at the head of the partially-populated reservation 60444aab2c3SAlan Cox * queue, releasing its cached and free pages to the physical memory 60544aab2c3SAlan Cox * allocator. Returns TRUE if a reservation is broken and FALSE otherwise. 60644aab2c3SAlan Cox * 60744aab2c3SAlan Cox * The free page queue lock must be held. 60844aab2c3SAlan Cox */ 60944aab2c3SAlan Cox boolean_t 61044aab2c3SAlan Cox vm_reserv_reclaim_inactive(void) 61144aab2c3SAlan Cox { 61244aab2c3SAlan Cox vm_reserv_t rv; 61344aab2c3SAlan Cox 61444aab2c3SAlan Cox mtx_assert(&vm_page_queue_free_mtx, MA_OWNED); 61544aab2c3SAlan Cox if ((rv = TAILQ_FIRST(&vm_rvq_partpop)) != NULL) { 61644aab2c3SAlan Cox vm_reserv_reclaim(rv); 617f8a47341SAlan Cox return (TRUE); 618f8a47341SAlan Cox } 619f8a47341SAlan Cox return (FALSE); 620f8a47341SAlan Cox } 621f8a47341SAlan Cox 622f8a47341SAlan Cox /* 62344aab2c3SAlan Cox * Searches the partially-populated reservation queue for the least recently 62444aab2c3SAlan Cox * active reservation with unused pages, i.e., cached or free, that satisfy the 62544aab2c3SAlan Cox * given request for contiguous physical memory. If a satisfactory reservation 62644aab2c3SAlan Cox * is found, it is broken. Returns TRUE if a reservation is broken and FALSE 62744aab2c3SAlan Cox * otherwise. 62844aab2c3SAlan Cox * 62944aab2c3SAlan Cox * The free page queue lock must be held. 63044aab2c3SAlan Cox */ 63144aab2c3SAlan Cox boolean_t 63244aab2c3SAlan Cox vm_reserv_reclaim_contig(vm_paddr_t size, vm_paddr_t low, vm_paddr_t high, 63344aab2c3SAlan Cox unsigned long alignment, unsigned long boundary) 63444aab2c3SAlan Cox { 63544aab2c3SAlan Cox vm_paddr_t pa, pa_length; 63644aab2c3SAlan Cox vm_reserv_t rv; 63744aab2c3SAlan Cox int i; 63844aab2c3SAlan Cox 63944aab2c3SAlan Cox mtx_assert(&vm_page_queue_free_mtx, MA_OWNED); 64044aab2c3SAlan Cox if (size > VM_LEVEL_0_SIZE - PAGE_SIZE) 64144aab2c3SAlan Cox return (FALSE); 64244aab2c3SAlan Cox TAILQ_FOREACH(rv, &vm_rvq_partpop, partpopq) { 64344aab2c3SAlan Cox pa = VM_PAGE_TO_PHYS(&rv->pages[VM_LEVEL_0_NPAGES - 1]); 64444aab2c3SAlan Cox if (pa + PAGE_SIZE - size < low) { 64544aab2c3SAlan Cox /* this entire reservation is too low; go to next */ 64644aab2c3SAlan Cox continue; 64744aab2c3SAlan Cox } 64844aab2c3SAlan Cox pa_length = 0; 64944aab2c3SAlan Cox for (i = 0; i < VM_LEVEL_0_NPAGES; i++) 65044aab2c3SAlan Cox if ((rv->pages[i].flags & (PG_CACHED | PG_FREE)) != 0) { 65144aab2c3SAlan Cox pa_length += PAGE_SIZE; 65244aab2c3SAlan Cox if (pa_length == PAGE_SIZE) { 65344aab2c3SAlan Cox pa = VM_PAGE_TO_PHYS(&rv->pages[i]); 65444aab2c3SAlan Cox if (pa + size > high) { 65544aab2c3SAlan Cox /* skip to next reservation */ 65644aab2c3SAlan Cox break; 65744aab2c3SAlan Cox } else if (pa < low || 65844aab2c3SAlan Cox (pa & (alignment - 1)) != 0 || 65944aab2c3SAlan Cox ((pa ^ (pa + size - 1)) & 66044aab2c3SAlan Cox ~(boundary - 1)) != 0) 66144aab2c3SAlan Cox pa_length = 0; 66244aab2c3SAlan Cox } else if (pa_length >= size) { 66344aab2c3SAlan Cox vm_reserv_reclaim(rv); 66444aab2c3SAlan Cox return (TRUE); 66544aab2c3SAlan Cox } 66644aab2c3SAlan Cox } else 66744aab2c3SAlan Cox pa_length = 0; 66844aab2c3SAlan Cox } 66944aab2c3SAlan Cox return (FALSE); 67044aab2c3SAlan Cox } 67144aab2c3SAlan Cox 67244aab2c3SAlan Cox /* 673f8a47341SAlan Cox * Transfers the reservation underlying the given page to a new object. 674f8a47341SAlan Cox * 675f8a47341SAlan Cox * The object must be locked. 676f8a47341SAlan Cox */ 677f8a47341SAlan Cox void 678f8a47341SAlan Cox vm_reserv_rename(vm_page_t m, vm_object_t new_object, vm_object_t old_object, 679f8a47341SAlan Cox vm_pindex_t old_object_offset) 680f8a47341SAlan Cox { 681f8a47341SAlan Cox vm_reserv_t rv; 682f8a47341SAlan Cox 683f8a47341SAlan Cox VM_OBJECT_LOCK_ASSERT(new_object, MA_OWNED); 684f8a47341SAlan Cox rv = vm_reserv_from_page(m); 685f8a47341SAlan Cox if (rv->object == old_object) { 686f8a47341SAlan Cox mtx_lock(&vm_page_queue_free_mtx); 687f8a47341SAlan Cox if (rv->object == old_object) { 688f8a47341SAlan Cox LIST_REMOVE(rv, objq); 689f8a47341SAlan Cox LIST_INSERT_HEAD(&new_object->rvq, rv, objq); 690f8a47341SAlan Cox rv->object = new_object; 691f8a47341SAlan Cox rv->pindex -= old_object_offset; 692f8a47341SAlan Cox } 693f8a47341SAlan Cox mtx_unlock(&vm_page_queue_free_mtx); 694f8a47341SAlan Cox } 695f8a47341SAlan Cox } 696f8a47341SAlan Cox 697f8a47341SAlan Cox /* 698f8a47341SAlan Cox * Allocates the virtual and physical memory required by the reservation 699f8a47341SAlan Cox * management system's data structures, in particular, the reservation array. 700f8a47341SAlan Cox */ 701f8a47341SAlan Cox vm_paddr_t 702f8a47341SAlan Cox vm_reserv_startup(vm_offset_t *vaddr, vm_paddr_t end, vm_paddr_t high_water) 703f8a47341SAlan Cox { 704f8a47341SAlan Cox vm_paddr_t new_end; 705f8a47341SAlan Cox size_t size; 706f8a47341SAlan Cox 707f8a47341SAlan Cox /* 708f8a47341SAlan Cox * Calculate the size (in bytes) of the reservation array. Round up 709f8a47341SAlan Cox * from "high_water" because every small page is mapped to an element 710f8a47341SAlan Cox * in the reservation array based on its physical address. Thus, the 711f8a47341SAlan Cox * number of elements in the reservation array can be greater than the 712f8a47341SAlan Cox * number of superpages. 713f8a47341SAlan Cox */ 714f8a47341SAlan Cox size = howmany(high_water, VM_LEVEL_0_SIZE) * sizeof(struct vm_reserv); 715f8a47341SAlan Cox 716f8a47341SAlan Cox /* 717f8a47341SAlan Cox * Allocate and map the physical memory for the reservation array. The 718f8a47341SAlan Cox * next available virtual address is returned by reference. 719f8a47341SAlan Cox */ 720f8a47341SAlan Cox new_end = end - round_page(size); 721f8a47341SAlan Cox vm_reserv_array = (void *)(uintptr_t)pmap_map(vaddr, new_end, end, 722f8a47341SAlan Cox VM_PROT_READ | VM_PROT_WRITE); 723f8a47341SAlan Cox bzero(vm_reserv_array, size); 724f8a47341SAlan Cox 725f8a47341SAlan Cox /* 726f8a47341SAlan Cox * Return the next available physical address. 727f8a47341SAlan Cox */ 728f8a47341SAlan Cox return (new_end); 729f8a47341SAlan Cox } 730f8a47341SAlan Cox 731f8a47341SAlan Cox #endif /* VM_NRESERVLEVEL > 0 */ 732