/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2007 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include extern const fs_operation_def_t swap_vnodeops_template[]; /* * swapfs_minfree is the amount of physical memory (actually remaining * availrmem) that we want to keep free for the rest of the system. This * means that swapfs can only grow to availrmem - swapfs_minfree. This * can be set as just constant value or a certain percentage of installed * physical memory. It is set in swapinit(). * * Users who want to change the amount of memory that can be used as swap * space should do so by setting swapfs_desfree at boot time, * not swapfs_minfree. */ pgcnt_t swapfs_desfree = 0; pgcnt_t swapfs_minfree = 0; pgcnt_t swapfs_reserve = 0; #ifdef SWAPFS_DEBUG int swapfs_debug; #endif /* SWAPFS_DEBUG */ static int swapfs_vpcount; static kmutex_t swapfs_lock; static struct async_reqs *sw_ar, *sw_pendlist, *sw_freelist; static struct vnode **swap_vnodes; /* ptr's to swap vnodes */ static void swap_init_mem_config(void); static pgcnt_t initial_swapfs_desfree; static pgcnt_t initial_swapfs_minfree; static pgcnt_t initial_swapfs_reserve; static int swap_sync(struct vfs *vfsp, short flag, struct cred *cr); static void swapfs_recalc_save_initial(void) { initial_swapfs_desfree = swapfs_desfree; initial_swapfs_minfree = swapfs_minfree; initial_swapfs_reserve = swapfs_reserve; } static int swapfs_recalc(pgcnt_t pgs) { pgcnt_t new_swapfs_desfree; pgcnt_t new_swapfs_minfree; pgcnt_t new_swapfs_reserve; new_swapfs_desfree = initial_swapfs_desfree; new_swapfs_minfree = initial_swapfs_minfree; new_swapfs_reserve = initial_swapfs_reserve; if (new_swapfs_desfree == 0) new_swapfs_desfree = btopr(7 * 512 * 1024); /* 3-1/2Mb */; if (new_swapfs_minfree == 0) { /* * We set this lower than we'd like here, 2Mb, because we * always boot on swapfs. It's up to a safer value, * swapfs_desfree, when/if we add physical swap devices * in swapadd(). Users who want to change the amount of * memory that can be used as swap space should do so by * setting swapfs_desfree at boot time, not swapfs_minfree. * However, swapfs_minfree is tunable by install as a * workaround for bugid 1147463. */ new_swapfs_minfree = MAX(btopr(2 * 1024 * 1024), pgs >> 3); } /* * priv processes can reserve memory as swap as long as availrmem * remains greater than swapfs_minfree; in the case of non-priv * processes, memory can be reserved as swap only if availrmem * doesn't fall below (swapfs_minfree + swapfs_reserve). Thus, * swapfs_reserve amount of memswap is not available to non-priv * processes. This protects daemons such as automounter dying * as a result of application processes eating away almost entire * membased swap. This safeguard becomes useless if apps are run * with root access. * * set swapfs_reserve to a minimum of 4Mb or 1/128 of physmem whichever * is greater up to the limit of 128 MB. */ if (new_swapfs_reserve == 0) new_swapfs_reserve = MIN(btopr(128 * 1024 * 1024), MAX(btopr(4 * 1024 * 1024), pgs >> 7)); /* Test basic numeric viability. */ if (new_swapfs_minfree > pgs) return (0); /* Equivalent test to anon_resvmem() check. */ if (availrmem < new_swapfs_minfree) { /* * If ism pages are being used, then there must be agreement * between these two policies. */ if ((availrmem > segspt_minfree) && (segspt_minfree > 0)) { new_swapfs_minfree = segspt_minfree; } else { return (0); } } swapfs_desfree = new_swapfs_desfree; swapfs_minfree = new_swapfs_minfree; swapfs_reserve = new_swapfs_reserve; return (1); } /*ARGSUSED1*/ int swapinit(int fstype, char *name) { /* reserve for mp */ ssize_t sw_freelist_size = klustsize / PAGESIZE * 2; int i, error; static const fs_operation_def_t swap_vfsops[] = { VFSNAME_SYNC, { .vfs_sync = swap_sync }, NULL, NULL }; SWAPFS_PRINT(SWAP_SUBR, "swapinit\n", 0, 0, 0, 0, 0); mutex_init(&swapfs_lock, NULL, MUTEX_DEFAULT, NULL); swap_vnodes = kmem_zalloc(MAX_SWAP_VNODES * sizeof (struct vnode *), KM_SLEEP); swapfs_recalc_save_initial(); if (!swapfs_recalc(physmem)) cmn_err(CE_PANIC, "swapfs_minfree(%lu) > physmem(%lu)", swapfs_minfree, physmem); /* * Arrange for a callback on memory size change. */ swap_init_mem_config(); sw_ar = (struct async_reqs *) kmem_zalloc(sw_freelist_size*sizeof (struct async_reqs), KM_SLEEP); error = vfs_setfsops(fstype, swap_vfsops, NULL); if (error != 0) { cmn_err(CE_WARN, "swapinit: bad vfs ops template"); return (error); } error = vn_make_ops(name, swap_vnodeops_template, &swap_vnodeops); if (error != 0) { (void) vfs_freevfsops_by_type(fstype); cmn_err(CE_WARN, "swapinit: bad vnode ops template"); return (error); } sw_freelist = sw_ar; for (i = 0; i < sw_freelist_size - 1; i++) sw_ar[i].a_next = &sw_ar[i + 1]; return (0); } /* * Get a swapfs vnode corresponding to the specified identifier. */ struct vnode * swapfs_getvp(ulong_t vidx) { struct vnode *vp; vp = swap_vnodes[vidx]; if (vp) { return (vp); } mutex_enter(&swapfs_lock); vp = swap_vnodes[vidx]; if (vp == NULL) { vp = vn_alloc(KM_SLEEP); vn_setops(vp, swap_vnodeops); vp->v_type = VREG; vp->v_flag |= (VISSWAP|VISSWAPFS); swap_vnodes[vidx] = vp; swapfs_vpcount++; } mutex_exit(&swapfs_lock); return (vp); } int swap_lo; /*ARGSUSED*/ static int swap_sync(struct vfs *vfsp, short flag, struct cred *cr) { struct vnode *vp; int i; if (!(flag & SYNC_ALL)) return (1); /* * assumes that we are the only one left to access this so that * no need to use swapfs_lock (since it's staticly defined) */ for (i = 0; i < MAX_SWAP_VNODES; i++) { vp = swap_vnodes[i]; if (vp) { VN_HOLD(vp); (void) VOP_PUTPAGE(vp, (offset_t)0, 0, (B_ASYNC | B_FREE), kcred); VN_RELE(vp); } } return (0); } extern int sw_pending_size; /* * Take an async request off the pending queue */ struct async_reqs * sw_getreq() { struct async_reqs *arg; mutex_enter(&swapfs_lock); arg = sw_pendlist; if (arg) { sw_pendlist = arg->a_next; arg->a_next = NULL; sw_pending_size -= PAGESIZE; } ASSERT(sw_pending_size >= 0); mutex_exit(&swapfs_lock); return (arg); } /* * Put an async request on the pending queue */ void sw_putreq(struct async_reqs *arg) { /* Hold onto it */ VN_HOLD(arg->a_vp); mutex_enter(&swapfs_lock); arg->a_next = sw_pendlist; sw_pendlist = arg; sw_pending_size += PAGESIZE; mutex_exit(&swapfs_lock); } /* * Put an async request back on the pending queue */ void sw_putbackreq(struct async_reqs *arg) { mutex_enter(&swapfs_lock); arg->a_next = sw_pendlist; sw_pendlist = arg; sw_pending_size += PAGESIZE; mutex_exit(&swapfs_lock); } /* * Take an async request structure off the free list */ struct async_reqs * sw_getfree() { struct async_reqs *arg; mutex_enter(&swapfs_lock); arg = sw_freelist; if (arg) { sw_freelist = arg->a_next; arg->a_next = NULL; } mutex_exit(&swapfs_lock); return (arg); } /* * Put an async request structure on the free list */ void sw_putfree(struct async_reqs *arg) { /* Release our hold - should have locked the page by now */ VN_RELE(arg->a_vp); mutex_enter(&swapfs_lock); arg->a_next = sw_freelist; sw_freelist = arg; mutex_exit(&swapfs_lock); } static pgcnt_t swapfs_pending_delete; /*ARGSUSED*/ static void swap_mem_config_post_add( void *arg, pgcnt_t delta_swaps) { (void) swapfs_recalc(physmem - swapfs_pending_delete); } /*ARGSUSED*/ static int swap_mem_config_pre_del( void *arg, pgcnt_t delta_swaps) { pgcnt_t nv; nv = atomic_add_long_nv(&swapfs_pending_delete, (spgcnt_t)delta_swaps); if (!swapfs_recalc(physmem - nv)) { /* * Tidy-up is done by the call to post_del which * is always made. */ return (EBUSY); } return (0); } /*ARGSUSED*/ static void swap_mem_config_post_del( void *arg, pgcnt_t delta_swaps, int cancelled) { pgcnt_t nv; nv = atomic_add_long_nv(&swapfs_pending_delete, -(spgcnt_t)delta_swaps); (void) swapfs_recalc(physmem - nv); } static kphysm_setup_vector_t swap_mem_config_vec = { KPHYSM_SETUP_VECTOR_VERSION, swap_mem_config_post_add, swap_mem_config_pre_del, swap_mem_config_post_del, }; static void swap_init_mem_config(void) { int ret; ret = kphysm_setup_func_register(&swap_mem_config_vec, (void *)NULL); ASSERT(ret == 0); }