/* $NetBSD: uvm_pglist.c,v 1.62 2011/09/27 01:02:39 jym Exp $ */ /*- * Copyright (c) 1997 The NetBSD Foundation, Inc. * All rights reserved. * * This code is derived from software contributed to The NetBSD Foundation * by Jason R. Thorpe of the Numerical Aerospace Simulation Facility, * NASA Ames Research Center. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ /* * uvm_pglist.c: pglist functions */ #include __KERNEL_RCSID(0, "$NetBSD: uvm_pglist.c,v 1.62 2011/09/27 01:02:39 jym Exp $"); #include #include #include #include #ifdef VM_PAGE_ALLOC_MEMORY_STATS #define STAT_INCR(v) (v)++ #define STAT_DECR(v) do { \ if ((v) == 0) \ printf("%s:%d -- Already 0!\n", __FILE__, __LINE__); \ else \ (v)--; \ } while (/*CONSTCOND*/ 0) u_long uvm_pglistalloc_npages; #else #define STAT_INCR(v) #define STAT_DECR(v) #endif /* * uvm_pglistalloc: allocate a list of pages * * => allocated pages are placed onto an rlist. rlist is * initialized by uvm_pglistalloc. * => returns 0 on success or errno on failure * => implementation allocates a single segment if any constraints are * imposed by call arguments. * => doesn't take into account clean non-busy pages on inactive list * that could be used(?) * => params: * size the size of the allocation, rounded to page size. * low the low address of the allowed allocation range. * high the high address of the allowed allocation range. * alignment memory must be aligned to this power-of-two boundary. * boundary no segment in the allocation may cross this * power-of-two boundary (relative to zero). */ static void uvm_pglist_add(struct vm_page *pg, struct pglist *rlist) { int free_list, color, pgflidx; KASSERT(mutex_owned(&uvm_fpageqlock)); #if PGFL_NQUEUES != 2 #error uvm_pglistalloc needs to be updated #endif free_list = uvm_page_lookup_freelist(pg); color = VM_PGCOLOR_BUCKET(pg); pgflidx = (pg->flags & PG_ZERO) ? PGFL_ZEROS : PGFL_UNKNOWN; #ifdef NOT_DEBUG struct vm_page *tp; LIST_FOREACH(tp, &uvm.page_free[free_list].pgfl_buckets[color].pgfl_queues[pgflidx], pageq.list) { if (tp == pg) break; } if (tp == NULL) panic("uvm_pglistalloc: page not on freelist"); #endif LIST_REMOVE(pg, pageq.list); /* global */ LIST_REMOVE(pg, listq.list); /* cpu */ uvmexp.free--; if (pg->flags & PG_ZERO) uvmexp.zeropages--; VM_FREE_PAGE_TO_CPU(pg)->pages[pgflidx]--; pg->flags = PG_CLEAN; pg->pqflags = 0; pg->uobject = NULL; pg->uanon = NULL; TAILQ_INSERT_TAIL(rlist, pg, pageq.queue); STAT_INCR(uvm_pglistalloc_npages); } static int uvm_pglistalloc_c_ps(struct vm_physseg *ps, int num, paddr_t low, paddr_t high, paddr_t alignment, paddr_t boundary, struct pglist *rlist) { signed int try, limit, tryidx, end, idx, skip; struct vm_page *pgs; int pagemask; bool second_pass; #ifdef DEBUG paddr_t idxpa, lastidxpa; int cidx = 0; /* XXX: GCC */ #endif #ifdef PGALLOC_VERBOSE printf("pgalloc: contig %d pgs from psi %zd\n", num, ps - vm_physmem); #endif KASSERT(mutex_owned(&uvm_fpageqlock)); low = atop(low); high = atop(high); alignment = atop(alignment); /* * Make sure that physseg falls within with range to be allocated from. */ if (high <= ps->avail_start || low >= ps->avail_end) return 0; /* * We start our search at the just after where the last allocation * succeeded. */ try = roundup2(max(low, ps->avail_start + ps->start_hint), alignment); limit = min(high, ps->avail_end); pagemask = ~((boundary >> PAGE_SHIFT) - 1); skip = 0; second_pass = false; pgs = ps->pgs; for (;;) { bool ok = true; signed int cnt; if (try + num > limit) { if (ps->start_hint == 0 || second_pass) { /* * We've run past the allowable range. */ return 0; /* FAIL = 0 pages*/ } /* * We've wrapped around the end of this segment * so restart at the beginning but now our limit * is were we started. */ second_pass = true; try = roundup2(max(low, ps->avail_start), alignment); limit = min(limit, ps->avail_start + ps->start_hint); skip = 0; continue; } if (boundary != 0 && ((try ^ (try + num - 1)) & pagemask) != 0) { /* * Region crosses boundary. Jump to the boundary * just crossed and ensure alignment. */ try = (try + num - 1) & pagemask; try = roundup2(try, alignment); skip = 0; continue; } #ifdef DEBUG /* * Make sure this is a managed physical page. */ if (vm_physseg_find(try, &cidx) != ps - vm_physmem) panic("pgalloc contig: botch1"); if (cidx != try - ps->start) panic("pgalloc contig: botch2"); if (vm_physseg_find(try + num - 1, &cidx) != ps - vm_physmem) panic("pgalloc contig: botch3"); if (cidx != try - ps->start + num - 1) panic("pgalloc contig: botch4"); #endif tryidx = try - ps->start; end = tryidx + num; /* * Found a suitable starting page. See if the range is free. */ #ifdef PGALLOC_VERBOSE printf("%s: ps=%p try=%#x end=%#x skip=%#x, align=%#"PRIxPADDR, __func__, ps, tryidx, end, skip, alignment); #endif /* * We start at the end and work backwards since if we find a * non-free page, it makes no sense to continue. * * But on the plus size we have "vetted" some number of free * pages. If this iteration fails, we may be able to skip * testing most of those pages again in the next pass. */ for (idx = end - 1; idx >= tryidx + skip; idx--) { if (VM_PAGE_IS_FREE(&pgs[idx]) == 0) { ok = false; break; } #ifdef DEBUG if (idx > tryidx) { idxpa = VM_PAGE_TO_PHYS(&pgs[idx]); lastidxpa = VM_PAGE_TO_PHYS(&pgs[idx - 1]); if ((lastidxpa + PAGE_SIZE) != idxpa) { /* * Region not contiguous. */ panic("pgalloc contig: botch5"); } if (boundary != 0 && ((lastidxpa ^ idxpa) & ~(boundary - 1)) != 0) { /* * Region crosses boundary. */ panic("pgalloc contig: botch6"); } } #endif } if (ok) { while (skip-- > 0) { KDASSERT(VM_PAGE_IS_FREE(&pgs[tryidx + skip])); } #ifdef PGALLOC_VERBOSE printf(": ok\n"); #endif break; } #ifdef PGALLOC_VERBOSE printf(": non-free at %#x\n", idx - tryidx); #endif /* * count the number of pages we can advance * since we know they aren't all free. */ cnt = idx + 1 - tryidx; /* * now round up that to the needed alignment. */ cnt = roundup2(cnt, alignment); /* * The number of pages we can skip checking * (might be 0 if cnt > num). */ skip = max(num - cnt, 0); try += cnt; } /* * we have a chunk of memory that conforms to the requested constraints. */ for (idx = tryidx, pgs += idx; idx < end; idx++, pgs++) uvm_pglist_add(pgs, rlist); /* * the next time we need to search this segment, start after this * chunk of pages we just allocated. */ ps->start_hint = try + num - ps->avail_start; KASSERTMSG(ps->start_hint <= ps->avail_end - ps->avail_start, "%x %u (%#x) <= %#"PRIxPADDR" - %#"PRIxPADDR" (%#"PRIxPADDR")", try + num, ps->start_hint, ps->start_hint, ps->avail_end, ps->avail_start, ps->avail_end - ps->avail_start); #ifdef PGALLOC_VERBOSE printf("got %d pgs\n", num); #endif return num; /* number of pages allocated */ } static int uvm_pglistalloc_contig(int num, paddr_t low, paddr_t high, paddr_t alignment, paddr_t boundary, struct pglist *rlist) { int fl, psi; struct vm_physseg *ps; int error; /* Default to "lose". */ error = ENOMEM; /* * Block all memory allocation and lock the free list. */ mutex_spin_enter(&uvm_fpageqlock); /* Are there even any free pages? */ if (uvmexp.free <= (uvmexp.reserve_pagedaemon + uvmexp.reserve_kernel)) goto out; for (fl = 0; fl < VM_NFREELIST; fl++) { #if (VM_PHYSSEG_STRAT == VM_PSTRAT_BIGFIRST) for (psi = vm_nphysseg - 1 ; psi >= 0 ; psi--) #else for (psi = 0 ; psi < vm_nphysseg ; psi++) #endif { ps = &vm_physmem[psi]; if (ps->free_list != fl) continue; num -= uvm_pglistalloc_c_ps(ps, num, low, high, alignment, boundary, rlist); if (num == 0) { #ifdef PGALLOC_VERBOSE printf("pgalloc: %"PRIxMAX"-%"PRIxMAX"\n", (uintmax_t) VM_PAGE_TO_PHYS(TAILQ_FIRST(rlist)), (uintmax_t) VM_PAGE_TO_PHYS(TAILQ_LAST(rlist, pglist))); #endif error = 0; goto out; } } } out: /* * check to see if we need to generate some free pages waking * the pagedaemon. */ uvm_kick_pdaemon(); mutex_spin_exit(&uvm_fpageqlock); return (error); } static int uvm_pglistalloc_s_ps(struct vm_physseg *ps, int num, paddr_t low, paddr_t high, struct pglist *rlist) { int todo, limit, try; struct vm_page *pg; bool second_pass; #ifdef PGALLOC_VERBOSE printf("pgalloc: simple %d pgs from psi %zd\n", num, ps - vm_physmem); #endif KASSERT(mutex_owned(&uvm_fpageqlock)); KASSERT(ps->start <= ps->avail_start); KASSERT(ps->start <= ps->avail_end); KASSERT(ps->avail_start <= ps->end); KASSERT(ps->avail_end <= ps->end); low = atop(low); high = atop(high); todo = num; try = max(low, ps->avail_start + ps->start_hint); limit = min(high, ps->avail_end); pg = &ps->pgs[try - ps->start]; second_pass = false; /* * Make sure that physseg falls within with range to be allocated from. */ if (high <= ps->avail_start || low >= ps->avail_end) return 0; again: for (;; try++, pg++) { if (try >= limit) { if (ps->start_hint == 0 || second_pass) { try = limit - 1; break; } second_pass = true; try = max(low, ps->avail_start); limit = min(limit, ps->avail_start + ps->start_hint); pg = &ps->pgs[try - ps->start]; goto again; } #if defined(DEBUG) { int cidx = 0; const int bank = vm_physseg_find(try, &cidx); KDASSERTMSG(bank == ps - vm_physmem, "vm_physseg_find(%#x) (%d) != ps %zd", try, bank, ps - vm_physmem); KDASSERTMSG(cidx == try - ps->start, "vm_physseg_find(%#x): %#x != off %"PRIxPADDR, try, cidx, try - ps->start); } #endif if (VM_PAGE_IS_FREE(pg) == 0) continue; uvm_pglist_add(pg, rlist); if (--todo == 0) { break; } } /* * The next time we need to search this segment, * start just after the pages we just allocated. */ ps->start_hint = try + 1 - ps->avail_start; KASSERTMSG(ps->start_hint <= ps->avail_end - ps->avail_start, "%#x %u (%#x) <= %#"PRIxPADDR" - %#"PRIxPADDR" (%#"PRIxPADDR")", try + 1, ps->start_hint, ps->start_hint, ps->avail_end, ps->avail_start, ps->avail_end - ps->avail_start); #ifdef PGALLOC_VERBOSE printf("got %d pgs\n", num - todo); #endif return (num - todo); /* number of pages allocated */ } static int uvm_pglistalloc_simple(int num, paddr_t low, paddr_t high, struct pglist *rlist, int waitok) { int fl, psi, error; struct vm_physseg *ps; /* Default to "lose". */ error = ENOMEM; again: /* * Block all memory allocation and lock the free list. */ mutex_spin_enter(&uvm_fpageqlock); /* Are there even any free pages? */ if (uvmexp.free <= (uvmexp.reserve_pagedaemon + uvmexp.reserve_kernel)) goto out; for (fl = 0; fl < VM_NFREELIST; fl++) { #if (VM_PHYSSEG_STRAT == VM_PSTRAT_BIGFIRST) for (psi = vm_nphysseg - 1 ; psi >= 0 ; psi--) #else for (psi = 0 ; psi < vm_nphysseg ; psi++) #endif { ps = &vm_physmem[psi]; if (ps->free_list != fl) continue; num -= uvm_pglistalloc_s_ps(ps, num, low, high, rlist); if (num == 0) { error = 0; goto out; } } } out: /* * check to see if we need to generate some free pages waking * the pagedaemon. */ uvm_kick_pdaemon(); mutex_spin_exit(&uvm_fpageqlock); if (error) { if (waitok) { /* XXX perhaps some time limitation? */ #ifdef DEBUG printf("pglistalloc waiting\n"); #endif uvm_wait("pglalloc"); goto again; } else uvm_pglistfree(rlist); } #ifdef PGALLOC_VERBOSE if (!error) printf("pgalloc: %"PRIxMAX"..%"PRIxMAX"\n", (uintmax_t) VM_PAGE_TO_PHYS(TAILQ_FIRST(rlist)), (uintmax_t) VM_PAGE_TO_PHYS(TAILQ_LAST(rlist, pglist))); #endif return (error); } int uvm_pglistalloc(psize_t size, paddr_t low, paddr_t high, paddr_t alignment, paddr_t boundary, struct pglist *rlist, int nsegs, int waitok) { int num, res; KASSERT((alignment & (alignment - 1)) == 0); KASSERT((boundary & (boundary - 1)) == 0); /* * Our allocations are always page granularity, so our alignment * must be, too. */ if (alignment < PAGE_SIZE) alignment = PAGE_SIZE; if (boundary != 0 && boundary < size) return (EINVAL); num = atop(round_page(size)); low = roundup2(low, alignment); TAILQ_INIT(rlist); if ((nsegs < size >> PAGE_SHIFT) || (alignment != PAGE_SIZE) || (boundary != 0)) res = uvm_pglistalloc_contig(num, low, high, alignment, boundary, rlist); else res = uvm_pglistalloc_simple(num, low, high, rlist, waitok); return (res); } /* * uvm_pglistfree: free a list of pages * * => pages should already be unmapped */ void uvm_pglistfree(struct pglist *list) { struct uvm_cpu *ucpu; struct vm_page *pg; int index, color, queue; bool iszero; /* * Lock the free list and free each page. */ mutex_spin_enter(&uvm_fpageqlock); ucpu = curcpu()->ci_data.cpu_uvm; while ((pg = TAILQ_FIRST(list)) != NULL) { KASSERT(!uvmpdpol_pageisqueued_p(pg)); TAILQ_REMOVE(list, pg, pageq.queue); iszero = (pg->flags & PG_ZERO); pg->pqflags = PQ_FREE; #ifdef DEBUG pg->uobject = (void *)0xdeadbeef; pg->uanon = (void *)0xdeadbeef; #endif /* DEBUG */ #ifdef DEBUG if (iszero) uvm_pagezerocheck(pg); #endif /* DEBUG */ index = uvm_page_lookup_freelist(pg); color = VM_PGCOLOR_BUCKET(pg); queue = iszero ? PGFL_ZEROS : PGFL_UNKNOWN; pg->offset = (uintptr_t)ucpu; LIST_INSERT_HEAD(&uvm.page_free[index].pgfl_buckets[color]. pgfl_queues[queue], pg, pageq.list); LIST_INSERT_HEAD(&ucpu->page_free[index].pgfl_buckets[color]. pgfl_queues[queue], pg, listq.list); uvmexp.free++; if (iszero) uvmexp.zeropages++; ucpu->pages[queue]++; STAT_DECR(uvm_pglistalloc_npages); } if (ucpu->pages[PGFL_ZEROS] < ucpu->pages[PGFL_UNKNOWN]) ucpu->page_idle_zero = vm_page_zero_enable; mutex_spin_exit(&uvm_fpageqlock); }