sys/kern/subr_vmem.c

1.24.4.5  yamt /*	$NetBSD: subr_vmem.c,v 1.24.4.5 2007/10/27 11:35:34 yamt Exp $	*/
1.24.4.2  yamt
1.24.4.2  yamt /*-
1.24.4.2  yamt  * Copyright (c)2006 YAMAMOTO Takashi,
1.24.4.2  yamt  * All rights reserved.
1.24.4.2  yamt  *
1.24.4.2  yamt  * Redistribution and use in source and binary forms, with or without
1.24.4.2  yamt  * modification, are permitted provided that the following conditions
1.24.4.2  yamt  * are met:
1.24.4.2  yamt  * 1. Redistributions of source code must retain the above copyright
1.24.4.2  yamt  *    notice, this list of conditions and the following disclaimer.
1.24.4.2  yamt  * 2. Redistributions in binary form must reproduce the above copyright
1.24.4.2  yamt  *    notice, this list of conditions and the following disclaimer in the
1.24.4.2  yamt  *    documentation and/or other materials provided with the distribution.
1.24.4.2  yamt  *
1.24.4.2  yamt  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
1.24.4.2  yamt  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
1.24.4.2  yamt  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
1.24.4.2  yamt  * ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
1.24.4.2  yamt  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
1.24.4.2  yamt  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
1.24.4.2  yamt  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
1.24.4.2  yamt  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
1.24.4.2  yamt  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
1.24.4.2  yamt  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
1.24.4.2  yamt  * SUCH DAMAGE.
1.24.4.2  yamt  */
1.24.4.2  yamt
1.24.4.2  yamt /*
1.24.4.2  yamt  * reference:
1.24.4.2  yamt  * -	Magazines and Vmem: Extending the Slab Allocator
1.24.4.2  yamt  *	to Many CPUs and Arbitrary Resources
1.24.4.2  yamt  *	http://www.usenix.org/event/usenix01/bonwick.html
1.24.4.2  yamt  *
1.24.4.2  yamt  * todo:
1.24.4.2  yamt  * -	decide how to import segments for vmem_xalloc.
1.24.4.2  yamt  * -	don't rely on malloc(9).
1.24.4.2  yamt  */
1.24.4.2  yamt
1.24.4.2  yamt #include <sys/cdefs.h>
1.24.4.5  yamt __KERNEL_RCSID(0, "$NetBSD: subr_vmem.c,v 1.24.4.5 2007/10/27 11:35:34 yamt Exp $");
1.24.4.2  yamt
1.24.4.2  yamt #define	VMEM_DEBUG
1.24.4.2  yamt #if defined(_KERNEL)
1.24.4.2  yamt #define	QCACHE
1.24.4.2  yamt #endif /* defined(_KERNEL) */
1.24.4.2  yamt
1.24.4.2  yamt #include <sys/param.h>
1.24.4.2  yamt #include <sys/hash.h>
1.24.4.2  yamt #include <sys/queue.h>
1.24.4.2  yamt
1.24.4.2  yamt #if defined(_KERNEL)
1.24.4.2  yamt #include <sys/systm.h>
1.24.4.4  yamt #include <sys/kernel.h>	/* hz */
1.24.4.4  yamt #include <sys/callout.h>
1.24.4.2  yamt #include <sys/lock.h>
1.24.4.2  yamt #include <sys/malloc.h>
1.24.4.2  yamt #include <sys/once.h>
1.24.4.2  yamt #include <sys/pool.h>
1.24.4.2  yamt #include <sys/proc.h>
1.24.4.2  yamt #include <sys/vmem.h>
1.24.4.4  yamt #include <sys/workqueue.h>
1.24.4.2  yamt #else /* defined(_KERNEL) */
1.24.4.2  yamt #include "../sys/vmem.h"
1.24.4.2  yamt #endif /* defined(_KERNEL) */
1.24.4.2  yamt
1.24.4.2  yamt #if defined(_KERNEL)
1.24.4.4  yamt #define	LOCK_DECL(name)		kmutex_t name
1.24.4.2  yamt #else /* defined(_KERNEL) */
1.24.4.2  yamt #include <errno.h>
1.24.4.2  yamt #include <assert.h>
1.24.4.2  yamt #include <stdlib.h>
1.24.4.2  yamt
1.24.4.2  yamt #define	KASSERT(a)		assert(a)
1.24.4.4  yamt #define	LOCK_DECL(name)		/* nothing */
1.24.4.4  yamt #define	mutex_init(a, b, c)	/* nothing */
1.24.4.4  yamt #define	mutex_destroy(a)	/* nothing */
1.24.4.4  yamt #define	mutex_enter(a)		/* nothing */
1.24.4.4  yamt #define	mutex_exit(a)		/* nothing */
1.24.4.4  yamt #define	mutex_owned(a)		/* nothing */
1.24.4.2  yamt #define	ASSERT_SLEEPABLE(lk, msg) /* nothing */
1.24.4.4  yamt #define	IPL_VM			0
1.24.4.2  yamt #endif /* defined(_KERNEL) */
1.24.4.2  yamt
1.24.4.2  yamt struct vmem;
1.24.4.2  yamt struct vmem_btag;
1.24.4.2  yamt
1.24.4.2  yamt #if defined(VMEM_DEBUG)
1.24.4.2  yamt void vmem_dump(const vmem_t *);
1.24.4.2  yamt #endif /* defined(VMEM_DEBUG) */
1.24.4.2  yamt
1.24.4.2  yamt #define	VMEM_MAXORDER		(sizeof(vmem_size_t) * CHAR_BIT)
1.24.4.4  yamt
1.24.4.4  yamt #define	VMEM_HASHSIZE_MIN	1	/* XXX */
1.24.4.4  yamt #define	VMEM_HASHSIZE_MAX	8192	/* XXX */
1.24.4.4  yamt #define	VMEM_HASHSIZE_INIT	VMEM_HASHSIZE_MIN
1.24.4.2  yamt
1.24.4.2  yamt #define	VM_FITMASK	(VM_BESTFIT | VM_INSTANTFIT)
1.24.4.2  yamt
1.24.4.2  yamt CIRCLEQ_HEAD(vmem_seglist, vmem_btag);
1.24.4.2  yamt LIST_HEAD(vmem_freelist, vmem_btag);
1.24.4.2  yamt LIST_HEAD(vmem_hashlist, vmem_btag);
1.24.4.2  yamt
1.24.4.2  yamt #if defined(QCACHE)
1.24.4.2  yamt #define	VMEM_QCACHE_IDX_MAX	32
1.24.4.2  yamt
1.24.4.2  yamt #define	QC_NAME_MAX	16
1.24.4.2  yamt
1.24.4.2  yamt struct qcache {
1.24.4.2  yamt 	struct pool qc_pool;
1.24.4.2  yamt 	struct pool_cache qc_cache;
1.24.4.2  yamt 	vmem_t *qc_vmem;
1.24.4.2  yamt 	char qc_name[QC_NAME_MAX];
1.24.4.2  yamt };
1.24.4.2  yamt typedef struct qcache qcache_t;
1.24.4.2  yamt #define	QC_POOL_TO_QCACHE(pool)	((qcache_t *)(pool))
1.24.4.2  yamt #endif /* defined(QCACHE) */
1.24.4.2  yamt
1.24.4.2  yamt /* vmem arena */
1.24.4.2  yamt struct vmem {
1.24.4.4  yamt 	LOCK_DECL(vm_lock);
1.24.4.2  yamt 	vmem_addr_t (*vm_allocfn)(vmem_t *, vmem_size_t, vmem_size_t *,
1.24.4.2  yamt 	    vm_flag_t);
1.24.4.2  yamt 	void (*vm_freefn)(vmem_t *, vmem_addr_t, vmem_size_t);
1.24.4.2  yamt 	vmem_t *vm_source;
1.24.4.2  yamt 	struct vmem_seglist vm_seglist;
1.24.4.2  yamt 	struct vmem_freelist vm_freelist[VMEM_MAXORDER];
1.24.4.2  yamt 	size_t vm_hashsize;
1.24.4.2  yamt 	size_t vm_nbusytag;
1.24.4.2  yamt 	struct vmem_hashlist *vm_hashlist;
1.24.4.2  yamt 	size_t vm_quantum_mask;
1.24.4.2  yamt 	int vm_quantum_shift;
1.24.4.2  yamt 	const char *vm_name;
1.24.4.4  yamt 	LIST_ENTRY(vmem) vm_alllist;
1.24.4.2  yamt
1.24.4.2  yamt #if defined(QCACHE)
1.24.4.2  yamt 	/* quantum cache */
1.24.4.2  yamt 	size_t vm_qcache_max;
1.24.4.2  yamt 	struct pool_allocator vm_qcache_allocator;
1.24.4.2  yamt 	qcache_t vm_qcache_store[VMEM_QCACHE_IDX_MAX];
1.24.4.2  yamt 	qcache_t *vm_qcache[VMEM_QCACHE_IDX_MAX];
1.24.4.2  yamt #endif /* defined(QCACHE) */
1.24.4.2  yamt };
1.24.4.2  yamt
1.24.4.4  yamt #define	VMEM_LOCK(vm)		mutex_enter(&vm->vm_lock)
1.24.4.4  yamt #define	VMEM_TRYLOCK(vm)	mutex_tryenter(&vm->vm_lock)
1.24.4.4  yamt #define	VMEM_UNLOCK(vm)		mutex_exit(&vm->vm_lock)
1.24.4.4  yamt #ifdef notyet /* XXX needs vmlocking branch changes */
1.24.4.4  yamt #define	VMEM_LOCK_INIT(vm, ipl)	mutex_init(&vm->vm_lock, MUTEX_DRIVER, ipl)
1.24.4.4  yamt #else
1.24.4.4  yamt #define	VMEM_LOCK_INIT(vm, ipl)	mutex_init(&vm->vm_lock, MUTEX_DRIVER, IPL_VM)
1.24.4.4  yamt #endif
1.24.4.4  yamt #define	VMEM_LOCK_DESTROY(vm)	mutex_destroy(&vm->vm_lock)
1.24.4.4  yamt #define	VMEM_ASSERT_LOCKED(vm)	KASSERT(mutex_owned(&vm->vm_lock))
1.24.4.2  yamt
1.24.4.2  yamt /* boundary tag */
1.24.4.2  yamt struct vmem_btag {
1.24.4.2  yamt 	CIRCLEQ_ENTRY(vmem_btag) bt_seglist;
1.24.4.2  yamt 	union {
1.24.4.2  yamt 		LIST_ENTRY(vmem_btag) u_freelist; /* BT_TYPE_FREE */
1.24.4.2  yamt 		LIST_ENTRY(vmem_btag) u_hashlist; /* BT_TYPE_BUSY */
1.24.4.2  yamt 	} bt_u;
1.24.4.2  yamt #define	bt_hashlist	bt_u.u_hashlist
1.24.4.2  yamt #define	bt_freelist	bt_u.u_freelist
1.24.4.2  yamt 	vmem_addr_t bt_start;
1.24.4.2  yamt 	vmem_size_t bt_size;
1.24.4.2  yamt 	int bt_type;
1.24.4.2  yamt };
1.24.4.2  yamt
1.24.4.2  yamt #define	BT_TYPE_SPAN		1
1.24.4.2  yamt #define	BT_TYPE_SPAN_STATIC	2
1.24.4.2  yamt #define	BT_TYPE_FREE		3
1.24.4.2  yamt #define	BT_TYPE_BUSY		4
1.24.4.2  yamt #define	BT_ISSPAN_P(bt)	((bt)->bt_type <= BT_TYPE_SPAN_STATIC)
1.24.4.2  yamt
1.24.4.2  yamt #define	BT_END(bt)	((bt)->bt_start + (bt)->bt_size)
1.24.4.2  yamt
1.24.4.2  yamt typedef struct vmem_btag bt_t;
1.24.4.2  yamt
1.24.4.2  yamt /* ---- misc */
1.24.4.2  yamt
1.24.4.2  yamt #define	VMEM_ALIGNUP(addr, align) \
1.24.4.2  yamt 	(-(-(addr) & -(align)))
1.24.4.2  yamt #define	VMEM_CROSS_P(addr1, addr2, boundary) \
1.24.4.2  yamt 	((((addr1) ^ (addr2)) & -(boundary)) != 0)
1.24.4.2  yamt
1.24.4.2  yamt #define	ORDER2SIZE(order)	((vmem_size_t)1 << (order))
1.24.4.2  yamt
1.24.4.2  yamt static int
1.24.4.2  yamt calc_order(vmem_size_t size)
1.24.4.2  yamt {
1.24.4.2  yamt 	vmem_size_t target;
1.24.4.2  yamt 	int i;
1.24.4.2  yamt
1.24.4.2  yamt 	KASSERT(size != 0);
1.24.4.2  yamt
1.24.4.2  yamt 	i = 0;
1.24.4.2  yamt 	target = size >> 1;
1.24.4.2  yamt 	while (ORDER2SIZE(i) <= target) {
1.24.4.2  yamt 		i++;
1.24.4.2  yamt 	}
1.24.4.2  yamt
1.24.4.2  yamt 	KASSERT(ORDER2SIZE(i) <= size);
1.24.4.2  yamt 	KASSERT(size < ORDER2SIZE(i + 1) || ORDER2SIZE(i + 1) < ORDER2SIZE(i));
1.24.4.2  yamt
1.24.4.2  yamt 	return i;
1.24.4.2  yamt }
1.24.4.2  yamt
1.24.4.2  yamt #if defined(_KERNEL)
1.24.4.2  yamt static MALLOC_DEFINE(M_VMEM, "vmem", "vmem");
1.24.4.2  yamt #endif /* defined(_KERNEL) */
1.24.4.2  yamt
1.24.4.2  yamt static void *
1.24.4.2  yamt xmalloc(size_t sz, vm_flag_t flags)
1.24.4.2  yamt {
1.24.4.2  yamt
1.24.4.2  yamt #if defined(_KERNEL)
1.24.4.2  yamt 	return malloc(sz, M_VMEM,
1.24.4.2  yamt 	    M_CANFAIL | ((flags & VM_SLEEP) ? M_WAITOK : M_NOWAIT));
1.24.4.2  yamt #else /* defined(_KERNEL) */
1.24.4.2  yamt 	return malloc(sz);
1.24.4.2  yamt #endif /* defined(_KERNEL) */
1.24.4.2  yamt }
1.24.4.2  yamt
1.24.4.2  yamt static void
1.24.4.2  yamt xfree(void *p)
1.24.4.2  yamt {
1.24.4.2  yamt
1.24.4.2  yamt #if defined(_KERNEL)
1.24.4.2  yamt 	return free(p, M_VMEM);
1.24.4.2  yamt #else /* defined(_KERNEL) */
1.24.4.2  yamt 	return free(p);
1.24.4.2  yamt #endif /* defined(_KERNEL) */
1.24.4.2  yamt }
1.24.4.2  yamt
1.24.4.2  yamt /* ---- boundary tag */
1.24.4.2  yamt
1.24.4.2  yamt #if defined(_KERNEL)
1.24.4.2  yamt static struct pool_cache bt_poolcache;
1.24.4.4  yamt static POOL_INIT(bt_pool, sizeof(bt_t), 0, 0, 0, "vmembtpl", NULL, IPL_VM);
1.24.4.2  yamt #endif /* defined(_KERNEL) */
1.24.4.2  yamt
1.24.4.2  yamt static bt_t *
1.24.4.2  yamt bt_alloc(vmem_t *vm, vm_flag_t flags)
1.24.4.2  yamt {
1.24.4.2  yamt 	bt_t *bt;
1.24.4.2  yamt
1.24.4.2  yamt #if defined(_KERNEL)
1.24.4.2  yamt 	int s;
1.24.4.2  yamt
1.24.4.2  yamt 	/* XXX bootstrap */
1.24.4.2  yamt 	s = splvm();
1.24.4.2  yamt 	bt = pool_cache_get(&bt_poolcache,
1.24.4.2  yamt 	    (flags & VM_SLEEP) != 0 ? PR_WAITOK : PR_NOWAIT);
1.24.4.2  yamt 	splx(s);
1.24.4.2  yamt #else /* defined(_KERNEL) */
1.24.4.2  yamt 	bt = malloc(sizeof *bt);
1.24.4.2  yamt #endif /* defined(_KERNEL) */
1.24.4.2  yamt
1.24.4.2  yamt 	return bt;
1.24.4.2  yamt }
1.24.4.2  yamt
1.24.4.2  yamt static void
1.24.4.2  yamt bt_free(vmem_t *vm, bt_t *bt)
1.24.4.2  yamt {
1.24.4.2  yamt
1.24.4.2  yamt #if defined(_KERNEL)
1.24.4.2  yamt 	int s;
1.24.4.2  yamt
1.24.4.2  yamt 	/* XXX bootstrap */
1.24.4.2  yamt 	s = splvm();
1.24.4.2  yamt 	pool_cache_put(&bt_poolcache, bt);
1.24.4.2  yamt 	splx(s);
1.24.4.2  yamt #else /* defined(_KERNEL) */
1.24.4.2  yamt 	free(bt);
1.24.4.2  yamt #endif /* defined(_KERNEL) */
1.24.4.2  yamt }
1.24.4.2  yamt
1.24.4.2  yamt /*
1.24.4.2  yamt  * freelist[0] ... [1, 1]
1.24.4.2  yamt  * freelist[1] ... [2, 3]
1.24.4.2  yamt  * freelist[2] ... [4, 7]
1.24.4.2  yamt  * freelist[3] ... [8, 15]
1.24.4.2  yamt  *  :
1.24.4.2  yamt  * freelist[n] ... [(1 << n), (1 << (n + 1)) - 1]
1.24.4.2  yamt  *  :
1.24.4.2  yamt  */
1.24.4.2  yamt
1.24.4.2  yamt static struct vmem_freelist *
1.24.4.2  yamt bt_freehead_tofree(vmem_t *vm, vmem_size_t size)
1.24.4.2  yamt {
1.24.4.2  yamt 	const vmem_size_t qsize = size >> vm->vm_quantum_shift;
1.24.4.2  yamt 	int idx;
1.24.4.2  yamt
1.24.4.2  yamt 	KASSERT((size & vm->vm_quantum_mask) == 0);
1.24.4.2  yamt 	KASSERT(size != 0);
1.24.4.2  yamt
1.24.4.2  yamt 	idx = calc_order(qsize);
1.24.4.2  yamt 	KASSERT(idx >= 0);
1.24.4.2  yamt 	KASSERT(idx < VMEM_MAXORDER);
1.24.4.2  yamt
1.24.4.2  yamt 	return &vm->vm_freelist[idx];
1.24.4.2  yamt }
1.24.4.2  yamt
1.24.4.2  yamt static struct vmem_freelist *
1.24.4.2  yamt bt_freehead_toalloc(vmem_t *vm, vmem_size_t size, vm_flag_t strat)
1.24.4.2  yamt {
1.24.4.2  yamt 	const vmem_size_t qsize = size >> vm->vm_quantum_shift;
1.24.4.2  yamt 	int idx;
1.24.4.2  yamt
1.24.4.2  yamt 	KASSERT((size & vm->vm_quantum_mask) == 0);
1.24.4.2  yamt 	KASSERT(size != 0);
1.24.4.2  yamt
1.24.4.2  yamt 	idx = calc_order(qsize);
1.24.4.2  yamt 	if (strat == VM_INSTANTFIT && ORDER2SIZE(idx) != qsize) {
1.24.4.2  yamt 		idx++;
1.24.4.2  yamt 		/* check too large request? */
1.24.4.2  yamt 	}
1.24.4.2  yamt 	KASSERT(idx >= 0);
1.24.4.2  yamt 	KASSERT(idx < VMEM_MAXORDER);
1.24.4.2  yamt
1.24.4.2  yamt 	return &vm->vm_freelist[idx];
1.24.4.2  yamt }
1.24.4.2  yamt
1.24.4.2  yamt /* ---- boundary tag hash */
1.24.4.2  yamt
1.24.4.2  yamt static struct vmem_hashlist *
1.24.4.2  yamt bt_hashhead(vmem_t *vm, vmem_addr_t addr)
1.24.4.2  yamt {
1.24.4.2  yamt 	struct vmem_hashlist *list;
1.24.4.2  yamt 	unsigned int hash;
1.24.4.2  yamt
1.24.4.2  yamt 	hash = hash32_buf(&addr, sizeof(addr), HASH32_BUF_INIT);
1.24.4.2  yamt 	list = &vm->vm_hashlist[hash % vm->vm_hashsize];
1.24.4.2  yamt
1.24.4.2  yamt 	return list;
1.24.4.2  yamt }
1.24.4.2  yamt
1.24.4.2  yamt static bt_t *
1.24.4.2  yamt bt_lookupbusy(vmem_t *vm, vmem_addr_t addr)
1.24.4.2  yamt {
1.24.4.2  yamt 	struct vmem_hashlist *list;
1.24.4.2  yamt 	bt_t *bt;
1.24.4.2  yamt
1.24.4.2  yamt 	list = bt_hashhead(vm, addr);
1.24.4.2  yamt 	LIST_FOREACH(bt, list, bt_hashlist) {
1.24.4.2  yamt 		if (bt->bt_start == addr) {
1.24.4.2  yamt 			break;
1.24.4.2  yamt 		}
1.24.4.2  yamt 	}
1.24.4.2  yamt
1.24.4.2  yamt 	return bt;
1.24.4.2  yamt }
1.24.4.2  yamt
1.24.4.2  yamt static void
1.24.4.2  yamt bt_rembusy(vmem_t *vm, bt_t *bt)
1.24.4.2  yamt {
1.24.4.2  yamt
1.24.4.2  yamt 	KASSERT(vm->vm_nbusytag > 0);
1.24.4.2  yamt 	vm->vm_nbusytag--;
1.24.4.2  yamt 	LIST_REMOVE(bt, bt_hashlist);
1.24.4.2  yamt }
1.24.4.2  yamt
1.24.4.2  yamt static void
1.24.4.2  yamt bt_insbusy(vmem_t *vm, bt_t *bt)
1.24.4.2  yamt {
1.24.4.2  yamt 	struct vmem_hashlist *list;
1.24.4.2  yamt
1.24.4.2  yamt 	KASSERT(bt->bt_type == BT_TYPE_BUSY);
1.24.4.2  yamt
1.24.4.2  yamt 	list = bt_hashhead(vm, bt->bt_start);
1.24.4.2  yamt 	LIST_INSERT_HEAD(list, bt, bt_hashlist);
1.24.4.2  yamt 	vm->vm_nbusytag++;
1.24.4.2  yamt }
1.24.4.2  yamt
1.24.4.2  yamt /* ---- boundary tag list */
1.24.4.2  yamt
1.24.4.2  yamt static void
1.24.4.2  yamt bt_remseg(vmem_t *vm, bt_t *bt)
1.24.4.2  yamt {
1.24.4.2  yamt
1.24.4.2  yamt 	CIRCLEQ_REMOVE(&vm->vm_seglist, bt, bt_seglist);
1.24.4.2  yamt }
1.24.4.2  yamt
1.24.4.2  yamt static void
1.24.4.2  yamt bt_insseg(vmem_t *vm, bt_t *bt, bt_t *prev)
1.24.4.2  yamt {
1.24.4.2  yamt
1.24.4.2  yamt 	CIRCLEQ_INSERT_AFTER(&vm->vm_seglist, prev, bt, bt_seglist);
1.24.4.2  yamt }
1.24.4.2  yamt
1.24.4.2  yamt static void
1.24.4.2  yamt bt_insseg_tail(vmem_t *vm, bt_t *bt)
1.24.4.2  yamt {
1.24.4.2  yamt
1.24.4.2  yamt 	CIRCLEQ_INSERT_TAIL(&vm->vm_seglist, bt, bt_seglist);
1.24.4.2  yamt }
1.24.4.2  yamt
1.24.4.2  yamt static void
1.24.4.2  yamt bt_remfree(vmem_t *vm, bt_t *bt)
1.24.4.2  yamt {
1.24.4.2  yamt
1.24.4.2  yamt 	KASSERT(bt->bt_type == BT_TYPE_FREE);
1.24.4.2  yamt
1.24.4.2  yamt 	LIST_REMOVE(bt, bt_freelist);
1.24.4.2  yamt }
1.24.4.2  yamt
1.24.4.2  yamt static void
1.24.4.2  yamt bt_insfree(vmem_t *vm, bt_t *bt)
1.24.4.2  yamt {
1.24.4.2  yamt 	struct vmem_freelist *list;
1.24.4.2  yamt
1.24.4.2  yamt 	list = bt_freehead_tofree(vm, bt->bt_size);
1.24.4.2  yamt 	LIST_INSERT_HEAD(list, bt, bt_freelist);
1.24.4.2  yamt }
1.24.4.2  yamt
1.24.4.2  yamt /* ---- vmem internal functions */
1.24.4.2  yamt
1.24.4.4  yamt #if defined(_KERNEL)
1.24.4.4  yamt static kmutex_t vmem_list_lock;
1.24.4.4  yamt static LIST_HEAD(, vmem) vmem_list = LIST_HEAD_INITIALIZER(vmem_list);
1.24.4.4  yamt #endif /* defined(_KERNEL) */
1.24.4.4  yamt
1.24.4.2  yamt #if defined(QCACHE)
1.24.4.2  yamt static inline vm_flag_t
1.24.4.2  yamt prf_to_vmf(int prflags)
1.24.4.2  yamt {
1.24.4.2  yamt 	vm_flag_t vmflags;
1.24.4.2  yamt
1.24.4.2  yamt 	KASSERT((prflags & ~(PR_LIMITFAIL | PR_WAITOK | PR_NOWAIT)) == 0);
1.24.4.2  yamt 	if ((prflags & PR_WAITOK) != 0) {
1.24.4.2  yamt 		vmflags = VM_SLEEP;
1.24.4.2  yamt 	} else {
1.24.4.2  yamt 		vmflags = VM_NOSLEEP;
1.24.4.2  yamt 	}
1.24.4.2  yamt 	return vmflags;
1.24.4.2  yamt }
1.24.4.2  yamt
1.24.4.2  yamt static inline int
1.24.4.2  yamt vmf_to_prf(vm_flag_t vmflags)
1.24.4.2  yamt {
1.24.4.2  yamt 	int prflags;
1.24.4.2  yamt
1.24.4.2  yamt 	if ((vmflags & VM_SLEEP) != 0) {
1.24.4.2  yamt 		prflags = PR_WAITOK;
1.24.4.2  yamt 	} else {
1.24.4.2  yamt 		prflags = PR_NOWAIT;
1.24.4.2  yamt 	}
1.24.4.2  yamt 	return prflags;
1.24.4.2  yamt }
1.24.4.2  yamt
1.24.4.2  yamt static size_t
1.24.4.2  yamt qc_poolpage_size(size_t qcache_max)
1.24.4.2  yamt {
1.24.4.2  yamt 	int i;
1.24.4.2  yamt
1.24.4.2  yamt 	for (i = 0; ORDER2SIZE(i) <= qcache_max * 3; i++) {
1.24.4.2  yamt 		/* nothing */
1.24.4.2  yamt 	}
1.24.4.2  yamt 	return ORDER2SIZE(i);
1.24.4.2  yamt }
1.24.4.2  yamt
1.24.4.2  yamt static void *
1.24.4.2  yamt qc_poolpage_alloc(struct pool *pool, int prflags)
1.24.4.2  yamt {
1.24.4.2  yamt 	qcache_t *qc = QC_POOL_TO_QCACHE(pool);
1.24.4.2  yamt 	vmem_t *vm = qc->qc_vmem;
1.24.4.2  yamt
1.24.4.2  yamt 	return (void *)vmem_alloc(vm, pool->pr_alloc->pa_pagesz,
1.24.4.2  yamt 	    prf_to_vmf(prflags) | VM_INSTANTFIT);
1.24.4.2  yamt }
1.24.4.2  yamt
1.24.4.2  yamt static void
1.24.4.2  yamt qc_poolpage_free(struct pool *pool, void *addr)
1.24.4.2  yamt {
1.24.4.2  yamt 	qcache_t *qc = QC_POOL_TO_QCACHE(pool);
1.24.4.2  yamt 	vmem_t *vm = qc->qc_vmem;
1.24.4.2  yamt
1.24.4.2  yamt 	vmem_free(vm, (vmem_addr_t)addr, pool->pr_alloc->pa_pagesz);
1.24.4.2  yamt }
1.24.4.2  yamt
1.24.4.2  yamt static void
1.24.4.4  yamt qc_init(vmem_t *vm, size_t qcache_max, int ipl)
1.24.4.2  yamt {
1.24.4.2  yamt 	qcache_t *prevqc;
1.24.4.2  yamt 	struct pool_allocator *pa;
1.24.4.2  yamt 	int qcache_idx_max;
1.24.4.2  yamt 	int i;
1.24.4.2  yamt
1.24.4.2  yamt 	KASSERT((qcache_max & vm->vm_quantum_mask) == 0);
1.24.4.2  yamt 	if (qcache_max > (VMEM_QCACHE_IDX_MAX << vm->vm_quantum_shift)) {
1.24.4.2  yamt 		qcache_max = VMEM_QCACHE_IDX_MAX << vm->vm_quantum_shift;
1.24.4.2  yamt 	}
1.24.4.2  yamt 	vm->vm_qcache_max = qcache_max;
1.24.4.2  yamt 	pa = &vm->vm_qcache_allocator;
1.24.4.2  yamt 	memset(pa, 0, sizeof(*pa));
1.24.4.2  yamt 	pa->pa_alloc = qc_poolpage_alloc;
1.24.4.2  yamt 	pa->pa_free = qc_poolpage_free;
1.24.4.2  yamt 	pa->pa_pagesz = qc_poolpage_size(qcache_max);
1.24.4.2  yamt
1.24.4.2  yamt 	qcache_idx_max = qcache_max >> vm->vm_quantum_shift;
1.24.4.2  yamt 	prevqc = NULL;
1.24.4.2  yamt 	for (i = qcache_idx_max; i > 0; i--) {
1.24.4.2  yamt 		qcache_t *qc = &vm->vm_qcache_store[i - 1];
1.24.4.2  yamt 		size_t size = i << vm->vm_quantum_shift;
1.24.4.2  yamt
1.24.4.2  yamt 		qc->qc_vmem = vm;
1.24.4.2  yamt 		snprintf(qc->qc_name, sizeof(qc->qc_name), "%s-%zu",
1.24.4.2  yamt 		    vm->vm_name, size);
1.24.4.2  yamt 		pool_init(&qc->qc_pool, size, ORDER2SIZE(vm->vm_quantum_shift),
1.24.4.4  yamt 		    0, PR_NOALIGN | PR_NOTOUCH /* XXX */, qc->qc_name, pa,
1.24.4.4  yamt 		    ipl);
1.24.4.2  yamt 		if (prevqc != NULL &&
1.24.4.2  yamt 		    qc->qc_pool.pr_itemsperpage ==
1.24.4.2  yamt 		    prevqc->qc_pool.pr_itemsperpage) {
1.24.4.2  yamt 			pool_destroy(&qc->qc_pool);
1.24.4.2  yamt 			vm->vm_qcache[i - 1] = prevqc;
1.24.4.4  yamt 			continue;
1.24.4.2  yamt 		}
1.24.4.2  yamt 		pool_cache_init(&qc->qc_cache, &qc->qc_pool, NULL, NULL, NULL);
1.24.4.2  yamt 		vm->vm_qcache[i - 1] = qc;
1.24.4.2  yamt 		prevqc = qc;
1.24.4.2  yamt 	}
1.24.4.2  yamt }
1.24.4.2  yamt
1.24.4.2  yamt static void
1.24.4.2  yamt qc_destroy(vmem_t *vm)
1.24.4.2  yamt {
1.24.4.2  yamt 	const qcache_t *prevqc;
1.24.4.2  yamt 	int i;
1.24.4.2  yamt 	int qcache_idx_max;
1.24.4.2  yamt
1.24.4.2  yamt 	qcache_idx_max = vm->vm_qcache_max >> vm->vm_quantum_shift;
1.24.4.2  yamt 	prevqc = NULL;
1.24.4.2  yamt 	for (i = 0; i < qcache_idx_max; i++) {
1.24.4.2  yamt 		qcache_t *qc = vm->vm_qcache[i];
1.24.4.2  yamt
1.24.4.2  yamt 		if (prevqc == qc) {
1.24.4.2  yamt 			continue;
1.24.4.2  yamt 		}
1.24.4.2  yamt 		pool_cache_destroy(&qc->qc_cache);
1.24.4.2  yamt 		pool_destroy(&qc->qc_pool);
1.24.4.2  yamt 		prevqc = qc;
1.24.4.2  yamt 	}
1.24.4.2  yamt }
1.24.4.2  yamt
1.24.4.3  yamt static bool
1.24.4.2  yamt qc_reap(vmem_t *vm)
1.24.4.2  yamt {
1.24.4.2  yamt 	const qcache_t *prevqc;
1.24.4.2  yamt 	int i;
1.24.4.2  yamt 	int qcache_idx_max;
1.24.4.3  yamt 	bool didsomething = false;
1.24.4.2  yamt
1.24.4.2  yamt 	qcache_idx_max = vm->vm_qcache_max >> vm->vm_quantum_shift;
1.24.4.2  yamt 	prevqc = NULL;
1.24.4.2  yamt 	for (i = 0; i < qcache_idx_max; i++) {
1.24.4.2  yamt 		qcache_t *qc = vm->vm_qcache[i];
1.24.4.2  yamt
1.24.4.2  yamt 		if (prevqc == qc) {
1.24.4.2  yamt 			continue;
1.24.4.2  yamt 		}
1.24.4.2  yamt 		if (pool_reclaim(&qc->qc_pool) != 0) {
1.24.4.3  yamt 			didsomething = true;
1.24.4.2  yamt 		}
1.24.4.2  yamt 		prevqc = qc;
1.24.4.2  yamt 	}
1.24.4.2  yamt
1.24.4.2  yamt 	return didsomething;
1.24.4.2  yamt }
1.24.4.2  yamt #endif /* defined(QCACHE) */
1.24.4.2  yamt
1.24.4.2  yamt #if defined(_KERNEL)
1.24.4.2  yamt static int
1.24.4.2  yamt vmem_init(void)
1.24.4.2  yamt {
1.24.4.2  yamt
1.24.4.4  yamt 	mutex_init(&vmem_list_lock, MUTEX_DEFAULT, IPL_NONE);
1.24.4.2  yamt 	pool_cache_init(&bt_poolcache, &bt_pool, NULL, NULL, NULL);
1.24.4.2  yamt 	return 0;
1.24.4.2  yamt }
1.24.4.2  yamt #endif /* defined(_KERNEL) */
1.24.4.2  yamt
1.24.4.2  yamt static vmem_addr_t
1.24.4.2  yamt vmem_add1(vmem_t *vm, vmem_addr_t addr, vmem_size_t size, vm_flag_t flags,
1.24.4.2  yamt     int spanbttype)
1.24.4.2  yamt {
1.24.4.2  yamt 	bt_t *btspan;
1.24.4.2  yamt 	bt_t *btfree;
1.24.4.2  yamt
1.24.4.2  yamt 	KASSERT((flags & (VM_SLEEP|VM_NOSLEEP)) != 0);
1.24.4.2  yamt 	KASSERT((~flags & (VM_SLEEP|VM_NOSLEEP)) != 0);
1.24.4.2  yamt
1.24.4.2  yamt 	btspan = bt_alloc(vm, flags);
1.24.4.2  yamt 	if (btspan == NULL) {
1.24.4.2  yamt 		return VMEM_ADDR_NULL;
1.24.4.2  yamt 	}
1.24.4.2  yamt 	btfree = bt_alloc(vm, flags);
1.24.4.2  yamt 	if (btfree == NULL) {
1.24.4.2  yamt 		bt_free(vm, btspan);
1.24.4.2  yamt 		return VMEM_ADDR_NULL;
1.24.4.2  yamt 	}
1.24.4.2  yamt
1.24.4.2  yamt 	btspan->bt_type = spanbttype;
1.24.4.2  yamt 	btspan->bt_start = addr;
1.24.4.2  yamt 	btspan->bt_size = size;
1.24.4.2  yamt
1.24.4.2  yamt 	btfree->bt_type = BT_TYPE_FREE;
1.24.4.2  yamt 	btfree->bt_start = addr;
1.24.4.2  yamt 	btfree->bt_size = size;
1.24.4.2  yamt
1.24.4.2  yamt 	VMEM_LOCK(vm);
1.24.4.2  yamt 	bt_insseg_tail(vm, btspan);
1.24.4.2  yamt 	bt_insseg(vm, btfree, btspan);
1.24.4.2  yamt 	bt_insfree(vm, btfree);
1.24.4.2  yamt 	VMEM_UNLOCK(vm);
1.24.4.2  yamt
1.24.4.2  yamt 	return addr;
1.24.4.2  yamt }
1.24.4.2  yamt
1.24.4.4  yamt static void
1.24.4.4  yamt vmem_destroy1(vmem_t *vm)
1.24.4.4  yamt {
1.24.4.4  yamt
1.24.4.4  yamt #if defined(QCACHE)
1.24.4.4  yamt 	qc_destroy(vm);
1.24.4.4  yamt #endif /* defined(QCACHE) */
1.24.4.4  yamt 	if (vm->vm_hashlist != NULL) {
1.24.4.4  yamt 		int i;
1.24.4.4  yamt
1.24.4.4  yamt 		for (i = 0; i < vm->vm_hashsize; i++) {
1.24.4.4  yamt 			bt_t *bt;
1.24.4.4  yamt
1.24.4.4  yamt 			while ((bt = LIST_FIRST(&vm->vm_hashlist[i])) != NULL) {
1.24.4.4  yamt 				KASSERT(bt->bt_type == BT_TYPE_SPAN_STATIC);
1.24.4.4  yamt 				bt_free(vm, bt);
1.24.4.4  yamt 			}
1.24.4.4  yamt 		}
1.24.4.4  yamt 		xfree(vm->vm_hashlist);
1.24.4.4  yamt 	}
1.24.4.4  yamt 	VMEM_LOCK_DESTROY(vm);
1.24.4.4  yamt 	xfree(vm);
1.24.4.4  yamt }
1.24.4.4  yamt
1.24.4.2  yamt static int
1.24.4.2  yamt vmem_import(vmem_t *vm, vmem_size_t size, vm_flag_t flags)
1.24.4.2  yamt {
1.24.4.2  yamt 	vmem_addr_t addr;
1.24.4.2  yamt
1.24.4.2  yamt 	if (vm->vm_allocfn == NULL) {
1.24.4.2  yamt 		return EINVAL;
1.24.4.2  yamt 	}
1.24.4.2  yamt
1.24.4.2  yamt 	addr = (*vm->vm_allocfn)(vm->vm_source, size, &size, flags);
1.24.4.2  yamt 	if (addr == VMEM_ADDR_NULL) {
1.24.4.2  yamt 		return ENOMEM;
1.24.4.2  yamt 	}
1.24.4.2  yamt
1.24.4.2  yamt 	if (vmem_add1(vm, addr, size, flags, BT_TYPE_SPAN) == VMEM_ADDR_NULL) {
1.24.4.2  yamt 		(*vm->vm_freefn)(vm->vm_source, addr, size);
1.24.4.2  yamt 		return ENOMEM;
1.24.4.2  yamt 	}
1.24.4.2  yamt
1.24.4.2  yamt 	return 0;
1.24.4.2  yamt }
1.24.4.2  yamt
1.24.4.2  yamt static int
1.24.4.2  yamt vmem_rehash(vmem_t *vm, size_t newhashsize, vm_flag_t flags)
1.24.4.2  yamt {
1.24.4.2  yamt 	bt_t *bt;
1.24.4.2  yamt 	int i;
1.24.4.2  yamt 	struct vmem_hashlist *newhashlist;
1.24.4.2  yamt 	struct vmem_hashlist *oldhashlist;
1.24.4.2  yamt 	size_t oldhashsize;
1.24.4.2  yamt
1.24.4.2  yamt 	KASSERT(newhashsize > 0);
1.24.4.2  yamt
1.24.4.2  yamt 	newhashlist =
1.24.4.2  yamt 	    xmalloc(sizeof(struct vmem_hashlist *) * newhashsize, flags);
1.24.4.2  yamt 	if (newhashlist == NULL) {
1.24.4.2  yamt 		return ENOMEM;
1.24.4.2  yamt 	}
1.24.4.2  yamt 	for (i = 0; i < newhashsize; i++) {
1.24.4.2  yamt 		LIST_INIT(&newhashlist[i]);
1.24.4.2  yamt 	}
1.24.4.2  yamt
1.24.4.4  yamt 	if (!VMEM_TRYLOCK(vm)) {
1.24.4.4  yamt 		xfree(newhashlist);
1.24.4.4  yamt 		return EBUSY;
1.24.4.4  yamt 	}
1.24.4.2  yamt 	oldhashlist = vm->vm_hashlist;
1.24.4.2  yamt 	oldhashsize = vm->vm_hashsize;
1.24.4.2  yamt 	vm->vm_hashlist = newhashlist;
1.24.4.2  yamt 	vm->vm_hashsize = newhashsize;
1.24.4.2  yamt 	if (oldhashlist == NULL) {
1.24.4.2  yamt 		VMEM_UNLOCK(vm);
1.24.4.2  yamt 		return 0;
1.24.4.2  yamt 	}
1.24.4.2  yamt 	for (i = 0; i < oldhashsize; i++) {
1.24.4.2  yamt 		while ((bt = LIST_FIRST(&oldhashlist[i])) != NULL) {
1.24.4.2  yamt 			bt_rembusy(vm, bt); /* XXX */
1.24.4.2  yamt 			bt_insbusy(vm, bt);
1.24.4.2  yamt 		}
1.24.4.2  yamt 	}
1.24.4.2  yamt 	VMEM_UNLOCK(vm);
1.24.4.2  yamt
1.24.4.2  yamt 	xfree(oldhashlist);
1.24.4.2  yamt
1.24.4.2  yamt 	return 0;
1.24.4.2  yamt }
1.24.4.2  yamt
1.24.4.2  yamt /*
1.24.4.2  yamt  * vmem_fit: check if a bt can satisfy the given restrictions.
1.24.4.2  yamt  */
1.24.4.2  yamt
1.24.4.2  yamt static vmem_addr_t
1.24.4.2  yamt vmem_fit(const bt_t *bt, vmem_size_t size, vmem_size_t align, vmem_size_t phase,
1.24.4.2  yamt     vmem_size_t nocross, vmem_addr_t minaddr, vmem_addr_t maxaddr)
1.24.4.2  yamt {
1.24.4.2  yamt 	vmem_addr_t start;
1.24.4.2  yamt 	vmem_addr_t end;
1.24.4.2  yamt
1.24.4.2  yamt 	KASSERT(bt->bt_size >= size);
1.24.4.2  yamt
1.24.4.2  yamt 	/*
1.24.4.2  yamt 	 * XXX assumption: vmem_addr_t and vmem_size_t are
1.24.4.2  yamt 	 * unsigned integer of the same size.
1.24.4.2  yamt 	 */
1.24.4.2  yamt
1.24.4.2  yamt 	start = bt->bt_start;
1.24.4.2  yamt 	if (start < minaddr) {
1.24.4.2  yamt 		start = minaddr;
1.24.4.2  yamt 	}
1.24.4.2  yamt 	end = BT_END(bt);
1.24.4.2  yamt 	if (end > maxaddr - 1) {
1.24.4.2  yamt 		end = maxaddr - 1;
1.24.4.2  yamt 	}
1.24.4.2  yamt 	if (start >= end) {
1.24.4.2  yamt 		return VMEM_ADDR_NULL;
1.24.4.2  yamt 	}
1.24.4.2  yamt
1.24.4.2  yamt 	start = VMEM_ALIGNUP(start - phase, align) + phase;
1.24.4.2  yamt 	if (start < bt->bt_start) {
1.24.4.2  yamt 		start += align;
1.24.4.2  yamt 	}
1.24.4.2  yamt 	if (VMEM_CROSS_P(start, start + size - 1, nocross)) {
1.24.4.2  yamt 		KASSERT(align < nocross);
1.24.4.2  yamt 		start = VMEM_ALIGNUP(start - phase, nocross) + phase;
1.24.4.2  yamt 	}
1.24.4.2  yamt 	if (start < end && end - start >= size) {
1.24.4.2  yamt 		KASSERT((start & (align - 1)) == phase);
1.24.4.2  yamt 		KASSERT(!VMEM_CROSS_P(start, start + size - 1, nocross));
1.24.4.2  yamt 		KASSERT(minaddr <= start);
1.24.4.2  yamt 		KASSERT(maxaddr == 0 || start + size <= maxaddr);
1.24.4.2  yamt 		KASSERT(bt->bt_start <= start);
1.24.4.2  yamt 		KASSERT(start + size <= BT_END(bt));
1.24.4.2  yamt 		return start;
1.24.4.2  yamt 	}
1.24.4.2  yamt 	return VMEM_ADDR_NULL;
1.24.4.2  yamt }
1.24.4.2  yamt
1.24.4.2  yamt /* ---- vmem API */
1.24.4.2  yamt
1.24.4.2  yamt /*
1.24.4.2  yamt  * vmem_create: create an arena.
1.24.4.2  yamt  *
1.24.4.2  yamt  * => must not be called from interrupt context.
1.24.4.2  yamt  */
1.24.4.2  yamt
1.24.4.2  yamt vmem_t *
1.24.4.2  yamt vmem_create(const char *name, vmem_addr_t base, vmem_size_t size,
1.24.4.2  yamt     vmem_size_t quantum,
1.24.4.2  yamt     vmem_addr_t (*allocfn)(vmem_t *, vmem_size_t, vmem_size_t *, vm_flag_t),
1.24.4.2  yamt     void (*freefn)(vmem_t *, vmem_addr_t, vmem_size_t),
1.24.4.4  yamt     vmem_t *source, vmem_size_t qcache_max, vm_flag_t flags,
1.24.4.4  yamt     int ipl)
1.24.4.2  yamt {
1.24.4.2  yamt 	vmem_t *vm;
1.24.4.2  yamt 	int i;
1.24.4.2  yamt #if defined(_KERNEL)
1.24.4.2  yamt 	static ONCE_DECL(control);
1.24.4.2  yamt #endif /* defined(_KERNEL) */
1.24.4.2  yamt
1.24.4.2  yamt 	KASSERT((flags & (VM_SLEEP|VM_NOSLEEP)) != 0);
1.24.4.2  yamt 	KASSERT((~flags & (VM_SLEEP|VM_NOSLEEP)) != 0);
1.24.4.2  yamt
1.24.4.2  yamt #if defined(_KERNEL)
1.24.4.2  yamt 	if (RUN_ONCE(&control, vmem_init)) {
1.24.4.2  yamt 		return NULL;
1.24.4.2  yamt 	}
1.24.4.2  yamt #endif /* defined(_KERNEL) */
1.24.4.2  yamt 	vm = xmalloc(sizeof(*vm), flags);
1.24.4.2  yamt 	if (vm == NULL) {
1.24.4.2  yamt 		return NULL;
1.24.4.2  yamt 	}
1.24.4.2  yamt
1.24.4.4  yamt 	VMEM_LOCK_INIT(vm, ipl);
1.24.4.2  yamt 	vm->vm_name = name;
1.24.4.2  yamt 	vm->vm_quantum_mask = quantum - 1;
1.24.4.2  yamt 	vm->vm_quantum_shift = calc_order(quantum);
1.24.4.2  yamt 	KASSERT(ORDER2SIZE(vm->vm_quantum_shift) == quantum);
1.24.4.2  yamt 	vm->vm_allocfn = allocfn;
1.24.4.2  yamt 	vm->vm_freefn = freefn;
1.24.4.2  yamt 	vm->vm_source = source;
1.24.4.2  yamt 	vm->vm_nbusytag = 0;
1.24.4.2  yamt #if defined(QCACHE)
1.24.4.4  yamt 	qc_init(vm, qcache_max, ipl);
1.24.4.2  yamt #endif /* defined(QCACHE) */
1.24.4.2  yamt
1.24.4.2  yamt 	CIRCLEQ_INIT(&vm->vm_seglist);
1.24.4.2  yamt 	for (i = 0; i < VMEM_MAXORDER; i++) {
1.24.4.2  yamt 		LIST_INIT(&vm->vm_freelist[i]);
1.24.4.2  yamt 	}
1.24.4.2  yamt 	vm->vm_hashlist = NULL;
1.24.4.2  yamt 	if (vmem_rehash(vm, VMEM_HASHSIZE_INIT, flags)) {
1.24.4.4  yamt 		vmem_destroy1(vm);
1.24.4.2  yamt 		return NULL;
1.24.4.2  yamt 	}
1.24.4.2  yamt
1.24.4.2  yamt 	if (size != 0) {
1.24.4.2  yamt 		if (vmem_add(vm, base, size, flags) == 0) {
1.24.4.4  yamt 			vmem_destroy1(vm);
1.24.4.2  yamt 			return NULL;
1.24.4.2  yamt 		}
1.24.4.2  yamt 	}
1.24.4.2  yamt
1.24.4.4  yamt #if defined(_KERNEL)
1.24.4.4  yamt 	mutex_enter(&vmem_list_lock);
1.24.4.4  yamt 	LIST_INSERT_HEAD(&vmem_list, vm, vm_alllist);
1.24.4.4  yamt 	mutex_exit(&vmem_list_lock);
1.24.4.4  yamt #endif /* defined(_KERNEL) */
1.24.4.4  yamt
1.24.4.2  yamt 	return vm;
1.24.4.2  yamt }
1.24.4.2  yamt
1.24.4.2  yamt void
1.24.4.2  yamt vmem_destroy(vmem_t *vm)
1.24.4.2  yamt {
1.24.4.2  yamt
1.24.4.4  yamt #if defined(_KERNEL)
1.24.4.4  yamt 	mutex_enter(&vmem_list_lock);
1.24.4.4  yamt 	LIST_REMOVE(vm, vm_alllist);
1.24.4.4  yamt 	mutex_exit(&vmem_list_lock);
1.24.4.4  yamt #endif /* defined(_KERNEL) */
1.24.4.2  yamt
1.24.4.4  yamt 	vmem_destroy1(vm);
1.24.4.2  yamt }
1.24.4.2  yamt
1.24.4.2  yamt vmem_size_t
1.24.4.2  yamt vmem_roundup_size(vmem_t *vm, vmem_size_t size)
1.24.4.2  yamt {
1.24.4.2  yamt
1.24.4.2  yamt 	return (size + vm->vm_quantum_mask) & ~vm->vm_quantum_mask;
1.24.4.2  yamt }
1.24.4.2  yamt
1.24.4.2  yamt /*
1.24.4.2  yamt  * vmem_alloc:
1.24.4.2  yamt  *
1.24.4.2  yamt  * => caller must ensure appropriate spl,
1.24.4.2  yamt  *    if the arena can be accessed from interrupt context.
1.24.4.2  yamt  */
1.24.4.2  yamt
1.24.4.2  yamt vmem_addr_t
1.24.4.2  yamt vmem_alloc(vmem_t *vm, vmem_size_t size0, vm_flag_t flags)
1.24.4.2  yamt {
1.24.4.2  yamt 	const vmem_size_t size __unused = vmem_roundup_size(vm, size0);
1.24.4.2  yamt 	const vm_flag_t strat __unused = flags & VM_FITMASK;
1.24.4.2  yamt
1.24.4.2  yamt 	KASSERT((flags & (VM_SLEEP|VM_NOSLEEP)) != 0);
1.24.4.2  yamt 	KASSERT((~flags & (VM_SLEEP|VM_NOSLEEP)) != 0);
1.24.4.2  yamt
1.24.4.2  yamt 	KASSERT(size0 > 0);
1.24.4.2  yamt 	KASSERT(size > 0);
1.24.4.2  yamt 	KASSERT(strat == VM_BESTFIT || strat == VM_INSTANTFIT);
1.24.4.2  yamt 	if ((flags & VM_SLEEP) != 0) {
1.24.4.2  yamt 		ASSERT_SLEEPABLE(NULL, __func__);
1.24.4.2  yamt 	}
1.24.4.2  yamt
1.24.4.2  yamt #if defined(QCACHE)
1.24.4.2  yamt 	if (size <= vm->vm_qcache_max) {
1.24.4.2  yamt 		int qidx = size >> vm->vm_quantum_shift;
1.24.4.2  yamt 		qcache_t *qc = vm->vm_qcache[qidx - 1];
1.24.4.2  yamt
1.24.4.2  yamt 		return (vmem_addr_t)pool_cache_get(&qc->qc_cache,
1.24.4.2  yamt 		    vmf_to_prf(flags));
1.24.4.2  yamt 	}
1.24.4.2  yamt #endif /* defined(QCACHE) */
1.24.4.2  yamt
1.24.4.2  yamt 	return vmem_xalloc(vm, size0, 0, 0, 0, 0, 0, flags);
1.24.4.2  yamt }
1.24.4.2  yamt
1.24.4.2  yamt vmem_addr_t
1.24.4.2  yamt vmem_xalloc(vmem_t *vm, vmem_size_t size0, vmem_size_t align, vmem_size_t phase,
1.24.4.2  yamt     vmem_size_t nocross, vmem_addr_t minaddr, vmem_addr_t maxaddr,
1.24.4.2  yamt     vm_flag_t flags)
1.24.4.2  yamt {
1.24.4.2  yamt 	struct vmem_freelist *list;
1.24.4.2  yamt 	struct vmem_freelist *first;
1.24.4.2  yamt 	struct vmem_freelist *end;
1.24.4.2  yamt 	bt_t *bt;
1.24.4.2  yamt 	bt_t *btnew;
1.24.4.2  yamt 	bt_t *btnew2;
1.24.4.2  yamt 	const vmem_size_t size = vmem_roundup_size(vm, size0);
1.24.4.2  yamt 	vm_flag_t strat = flags & VM_FITMASK;
1.24.4.2  yamt 	vmem_addr_t start;
1.24.4.2  yamt
1.24.4.2  yamt 	KASSERT(size0 > 0);
1.24.4.2  yamt 	KASSERT(size > 0);
1.24.4.2  yamt 	KASSERT(strat == VM_BESTFIT || strat == VM_INSTANTFIT);
1.24.4.2  yamt 	if ((flags & VM_SLEEP) != 0) {
1.24.4.2  yamt 		ASSERT_SLEEPABLE(NULL, __func__);
1.24.4.2  yamt 	}
1.24.4.2  yamt 	KASSERT((align & vm->vm_quantum_mask) == 0);
1.24.4.2  yamt 	KASSERT((align & (align - 1)) == 0);
1.24.4.2  yamt 	KASSERT((phase & vm->vm_quantum_mask) == 0);
1.24.4.2  yamt 	KASSERT((nocross & vm->vm_quantum_mask) == 0);
1.24.4.2  yamt 	KASSERT((nocross & (nocross - 1)) == 0);
1.24.4.2  yamt 	KASSERT((align == 0 && phase == 0) || phase < align);
1.24.4.2  yamt 	KASSERT(nocross == 0 || nocross >= size);
1.24.4.2  yamt 	KASSERT(maxaddr == 0 || minaddr < maxaddr);
1.24.4.2  yamt 	KASSERT(!VMEM_CROSS_P(phase, phase + size - 1, nocross));
1.24.4.2  yamt
1.24.4.2  yamt 	if (align == 0) {
1.24.4.2  yamt 		align = vm->vm_quantum_mask + 1;
1.24.4.2  yamt 	}
1.24.4.2  yamt 	btnew = bt_alloc(vm, flags);
1.24.4.2  yamt 	if (btnew == NULL) {
1.24.4.2  yamt 		return VMEM_ADDR_NULL;
1.24.4.2  yamt 	}
1.24.4.2  yamt 	btnew2 = bt_alloc(vm, flags); /* XXX not necessary if no restrictions */
1.24.4.2  yamt 	if (btnew2 == NULL) {
1.24.4.2  yamt 		bt_free(vm, btnew);
1.24.4.2  yamt 		return VMEM_ADDR_NULL;
1.24.4.2  yamt 	}
1.24.4.2  yamt
1.24.4.2  yamt retry_strat:
1.24.4.2  yamt 	first = bt_freehead_toalloc(vm, size, strat);
1.24.4.2  yamt 	end = &vm->vm_freelist[VMEM_MAXORDER];
1.24.4.2  yamt retry:
1.24.4.2  yamt 	bt = NULL;
1.24.4.2  yamt 	VMEM_LOCK(vm);
1.24.4.2  yamt 	if (strat == VM_INSTANTFIT) {
1.24.4.2  yamt 		for (list = first; list < end; list++) {
1.24.4.2  yamt 			bt = LIST_FIRST(list);
1.24.4.2  yamt 			if (bt != NULL) {
1.24.4.2  yamt 				start = vmem_fit(bt, size, align, phase,
1.24.4.2  yamt 				    nocross, minaddr, maxaddr);
1.24.4.2  yamt 				if (start != VMEM_ADDR_NULL) {
1.24.4.2  yamt 					goto gotit;
1.24.4.2  yamt 				}
1.24.4.2  yamt 			}
1.24.4.2  yamt 		}
1.24.4.2  yamt 	} else { /* VM_BESTFIT */
1.24.4.2  yamt 		for (list = first; list < end; list++) {
1.24.4.2  yamt 			LIST_FOREACH(bt, list, bt_freelist) {
1.24.4.2  yamt 				if (bt->bt_size >= size) {
1.24.4.2  yamt 					start = vmem_fit(bt, size, align, phase,
1.24.4.2  yamt 					    nocross, minaddr, maxaddr);
1.24.4.2  yamt 					if (start != VMEM_ADDR_NULL) {
1.24.4.2  yamt 						goto gotit;
1.24.4.2  yamt 					}
1.24.4.2  yamt 				}
1.24.4.2  yamt 			}
1.24.4.2  yamt 		}
1.24.4.2  yamt 	}
1.24.4.2  yamt 	VMEM_UNLOCK(vm);
1.24.4.2  yamt #if 1
1.24.4.2  yamt 	if (strat == VM_INSTANTFIT) {
1.24.4.2  yamt 		strat = VM_BESTFIT;
1.24.4.2  yamt 		goto retry_strat;
1.24.4.2  yamt 	}
1.24.4.2  yamt #endif
1.24.4.2  yamt 	if (align != vm->vm_quantum_mask + 1 || phase != 0 ||
1.24.4.2  yamt 	    nocross != 0 || minaddr != 0 || maxaddr != 0) {
1.24.4.2  yamt
1.24.4.2  yamt 		/*
1.24.4.2  yamt 		 * XXX should try to import a region large enough to
1.24.4.2  yamt 		 * satisfy restrictions?
1.24.4.2  yamt 		 */
1.24.4.2  yamt
1.24.4.2  yamt 		goto fail;
1.24.4.2  yamt 	}
1.24.4.2  yamt 	if (vmem_import(vm, size, flags) == 0) {
1.24.4.2  yamt 		goto retry;
1.24.4.2  yamt 	}
1.24.4.2  yamt 	/* XXX */
1.24.4.2  yamt fail:
1.24.4.2  yamt 	bt_free(vm, btnew);
1.24.4.2  yamt 	bt_free(vm, btnew2);
1.24.4.2  yamt 	return VMEM_ADDR_NULL;
1.24.4.2  yamt
1.24.4.2  yamt gotit:
1.24.4.2  yamt 	KASSERT(bt->bt_type == BT_TYPE_FREE);
1.24.4.2  yamt 	KASSERT(bt->bt_size >= size);
1.24.4.2  yamt 	bt_remfree(vm, bt);
1.24.4.2  yamt 	if (bt->bt_start != start) {
1.24.4.2  yamt 		btnew2->bt_type = BT_TYPE_FREE;
1.24.4.2  yamt 		btnew2->bt_start = bt->bt_start;
1.24.4.2  yamt 		btnew2->bt_size = start - bt->bt_start;
1.24.4.2  yamt 		bt->bt_start = start;
1.24.4.2  yamt 		bt->bt_size -= btnew2->bt_size;
1.24.4.2  yamt 		bt_insfree(vm, btnew2);
1.24.4.2  yamt 		bt_insseg(vm, btnew2, CIRCLEQ_PREV(bt, bt_seglist));
1.24.4.2  yamt 		btnew2 = NULL;
1.24.4.2  yamt 	}
1.24.4.2  yamt 	KASSERT(bt->bt_start == start);
1.24.4.2  yamt 	if (bt->bt_size != size && bt->bt_size - size > vm->vm_quantum_mask) {
1.24.4.2  yamt 		/* split */
1.24.4.2  yamt 		btnew->bt_type = BT_TYPE_BUSY;
1.24.4.2  yamt 		btnew->bt_start = bt->bt_start;
1.24.4.2  yamt 		btnew->bt_size = size;
1.24.4.2  yamt 		bt->bt_start = bt->bt_start + size;
1.24.4.2  yamt 		bt->bt_size -= size;
1.24.4.2  yamt 		bt_insfree(vm, bt);
1.24.4.2  yamt 		bt_insseg(vm, btnew, CIRCLEQ_PREV(bt, bt_seglist));
1.24.4.2  yamt 		bt_insbusy(vm, btnew);
1.24.4.2  yamt 		VMEM_UNLOCK(vm);
1.24.4.2  yamt 	} else {
1.24.4.2  yamt 		bt->bt_type = BT_TYPE_BUSY;
1.24.4.2  yamt 		bt_insbusy(vm, bt);
1.24.4.2  yamt 		VMEM_UNLOCK(vm);
1.24.4.2  yamt 		bt_free(vm, btnew);
1.24.4.2  yamt 		btnew = bt;
1.24.4.2  yamt 	}
1.24.4.2  yamt 	if (btnew2 != NULL) {
1.24.4.2  yamt 		bt_free(vm, btnew2);
1.24.4.2  yamt 	}
1.24.4.2  yamt 	KASSERT(btnew->bt_size >= size);
1.24.4.2  yamt 	btnew->bt_type = BT_TYPE_BUSY;
1.24.4.2  yamt
1.24.4.2  yamt 	return btnew->bt_start;
1.24.4.2  yamt }
1.24.4.2  yamt
1.24.4.2  yamt /*
1.24.4.2  yamt  * vmem_free:
1.24.4.2  yamt  *
1.24.4.2  yamt  * => caller must ensure appropriate spl,
1.24.4.2  yamt  *    if the arena can be accessed from interrupt context.
1.24.4.2  yamt  */
1.24.4.2  yamt
1.24.4.2  yamt void
1.24.4.2  yamt vmem_free(vmem_t *vm, vmem_addr_t addr, vmem_size_t size)
1.24.4.2  yamt {
1.24.4.2  yamt
1.24.4.2  yamt 	KASSERT(addr != VMEM_ADDR_NULL);
1.24.4.2  yamt 	KASSERT(size > 0);
1.24.4.2  yamt
1.24.4.2  yamt #if defined(QCACHE)
1.24.4.2  yamt 	if (size <= vm->vm_qcache_max) {
1.24.4.2  yamt 		int qidx = (size + vm->vm_quantum_mask) >> vm->vm_quantum_shift;
1.24.4.2  yamt 		qcache_t *qc = vm->vm_qcache[qidx - 1];
1.24.4.2  yamt
1.24.4.2  yamt 		return pool_cache_put(&qc->qc_cache, (void *)addr);
1.24.4.2  yamt 	}
1.24.4.2  yamt #endif /* defined(QCACHE) */
1.24.4.2  yamt
1.24.4.2  yamt 	vmem_xfree(vm, addr, size);
1.24.4.2  yamt }
1.24.4.2  yamt
1.24.4.2  yamt void
1.24.4.2  yamt vmem_xfree(vmem_t *vm, vmem_addr_t addr, vmem_size_t size)
1.24.4.2  yamt {
1.24.4.2  yamt 	bt_t *bt;
1.24.4.2  yamt 	bt_t *t;
1.24.4.2  yamt
1.24.4.2  yamt 	KASSERT(addr != VMEM_ADDR_NULL);
1.24.4.2  yamt 	KASSERT(size > 0);
1.24.4.2  yamt
1.24.4.2  yamt 	VMEM_LOCK(vm);
1.24.4.2  yamt
1.24.4.2  yamt 	bt = bt_lookupbusy(vm, addr);
1.24.4.2  yamt 	KASSERT(bt != NULL);
1.24.4.2  yamt 	KASSERT(bt->bt_start == addr);
1.24.4.2  yamt 	KASSERT(bt->bt_size == vmem_roundup_size(vm, size) ||
1.24.4.2  yamt 	    bt->bt_size - vmem_roundup_size(vm, size) <= vm->vm_quantum_mask);
1.24.4.2  yamt 	KASSERT(bt->bt_type == BT_TYPE_BUSY);
1.24.4.2  yamt 	bt_rembusy(vm, bt);
1.24.4.2  yamt 	bt->bt_type = BT_TYPE_FREE;
1.24.4.2  yamt
1.24.4.2  yamt 	/* coalesce */
1.24.4.2  yamt 	t = CIRCLEQ_NEXT(bt, bt_seglist);
1.24.4.2  yamt 	if (t != NULL && t->bt_type == BT_TYPE_FREE) {
1.24.4.2  yamt 		KASSERT(BT_END(bt) == t->bt_start);
1.24.4.2  yamt 		bt_remfree(vm, t);
1.24.4.2  yamt 		bt_remseg(vm, t);
1.24.4.2  yamt 		bt->bt_size += t->bt_size;
1.24.4.2  yamt 		bt_free(vm, t);
1.24.4.2  yamt 	}
1.24.4.2  yamt 	t = CIRCLEQ_PREV(bt, bt_seglist);
1.24.4.2  yamt 	if (t != NULL && t->bt_type == BT_TYPE_FREE) {
1.24.4.2  yamt 		KASSERT(BT_END(t) == bt->bt_start);
1.24.4.2  yamt 		bt_remfree(vm, t);
1.24.4.2  yamt 		bt_remseg(vm, t);
1.24.4.2  yamt 		bt->bt_size += t->bt_size;
1.24.4.2  yamt 		bt->bt_start = t->bt_start;
1.24.4.2  yamt 		bt_free(vm, t);
1.24.4.2  yamt 	}
1.24.4.2  yamt
1.24.4.2  yamt 	t = CIRCLEQ_PREV(bt, bt_seglist);
1.24.4.2  yamt 	KASSERT(t != NULL);
1.24.4.2  yamt 	KASSERT(BT_ISSPAN_P(t) || t->bt_type == BT_TYPE_BUSY);
1.24.4.2  yamt 	if (vm->vm_freefn != NULL && t->bt_type == BT_TYPE_SPAN &&
1.24.4.2  yamt 	    t->bt_size == bt->bt_size) {
1.24.4.2  yamt 		vmem_addr_t spanaddr;
1.24.4.2  yamt 		vmem_size_t spansize;
1.24.4.2  yamt
1.24.4.2  yamt 		KASSERT(t->bt_start == bt->bt_start);
1.24.4.2  yamt 		spanaddr = bt->bt_start;
1.24.4.2  yamt 		spansize = bt->bt_size;
1.24.4.2  yamt 		bt_remseg(vm, bt);
1.24.4.2  yamt 		bt_free(vm, bt);
1.24.4.2  yamt 		bt_remseg(vm, t);
1.24.4.2  yamt 		bt_free(vm, t);
1.24.4.2  yamt 		VMEM_UNLOCK(vm);
1.24.4.2  yamt 		(*vm->vm_freefn)(vm->vm_source, spanaddr, spansize);
1.24.4.2  yamt 	} else {
1.24.4.2  yamt 		bt_insfree(vm, bt);
1.24.4.2  yamt 		VMEM_UNLOCK(vm);
1.24.4.2  yamt 	}
1.24.4.2  yamt }
1.24.4.2  yamt
1.24.4.2  yamt /*
1.24.4.2  yamt  * vmem_add:
1.24.4.2  yamt  *
1.24.4.2  yamt  * => caller must ensure appropriate spl,
1.24.4.2  yamt  *    if the arena can be accessed from interrupt context.
1.24.4.2  yamt  */
1.24.4.2  yamt
1.24.4.2  yamt vmem_addr_t
1.24.4.2  yamt vmem_add(vmem_t *vm, vmem_addr_t addr, vmem_size_t size, vm_flag_t flags)
1.24.4.2  yamt {
1.24.4.2  yamt
1.24.4.2  yamt 	return vmem_add1(vm, addr, size, flags, BT_TYPE_SPAN_STATIC);
1.24.4.2  yamt }
1.24.4.2  yamt
1.24.4.2  yamt /*
1.24.4.2  yamt  * vmem_reap: reap unused resources.
1.24.4.2  yamt  *
1.24.4.3  yamt  * => return true if we successfully reaped something.
1.24.4.2  yamt  */
1.24.4.2  yamt
1.24.4.3  yamt bool
1.24.4.2  yamt vmem_reap(vmem_t *vm)
1.24.4.2  yamt {
1.24.4.3  yamt 	bool didsomething = false;
1.24.4.2  yamt
1.24.4.2  yamt #if defined(QCACHE)
1.24.4.2  yamt 	didsomething = qc_reap(vm);
1.24.4.2  yamt #endif /* defined(QCACHE) */
1.24.4.2  yamt 	return didsomething;
1.24.4.2  yamt }
1.24.4.2  yamt
1.24.4.4  yamt /* ---- rehash */
1.24.4.4  yamt
1.24.4.4  yamt #if defined(_KERNEL)
1.24.4.4  yamt static struct callout vmem_rehash_ch;
1.24.4.4  yamt static int vmem_rehash_interval;
1.24.4.4  yamt static struct workqueue *vmem_rehash_wq;
1.24.4.4  yamt static struct work vmem_rehash_wk;
1.24.4.4  yamt
1.24.4.4  yamt static void
1.24.4.4  yamt vmem_rehash_all(struct work *wk, void *dummy)
1.24.4.4  yamt {
1.24.4.4  yamt 	vmem_t *vm;
1.24.4.4  yamt
1.24.4.4  yamt 	KASSERT(wk == &vmem_rehash_wk);
1.24.4.4  yamt 	mutex_enter(&vmem_list_lock);
1.24.4.4  yamt 	LIST_FOREACH(vm, &vmem_list, vm_alllist) {
1.24.4.4  yamt 		size_t desired;
1.24.4.4  yamt 		size_t current;
1.24.4.4  yamt
1.24.4.4  yamt 		if (!VMEM_TRYLOCK(vm)) {
1.24.4.4  yamt 			continue;
1.24.4.4  yamt 		}
1.24.4.4  yamt 		desired = vm->vm_nbusytag;
1.24.4.4  yamt 		current = vm->vm_hashsize;
1.24.4.4  yamt 		VMEM_UNLOCK(vm);
1.24.4.4  yamt
1.24.4.4  yamt 		if (desired > VMEM_HASHSIZE_MAX) {
1.24.4.4  yamt 			desired = VMEM_HASHSIZE_MAX;
1.24.4.4  yamt 		} else if (desired < VMEM_HASHSIZE_MIN) {
1.24.4.4  yamt 			desired = VMEM_HASHSIZE_MIN;
1.24.4.4  yamt 		}
1.24.4.4  yamt 		if (desired > current * 2 || desired * 2 < current) {
1.24.4.4  yamt 			vmem_rehash(vm, desired, VM_NOSLEEP);
1.24.4.4  yamt 		}
1.24.4.4  yamt 	}
1.24.4.4  yamt 	mutex_exit(&vmem_list_lock);
1.24.4.4  yamt
1.24.4.4  yamt 	callout_schedule(&vmem_rehash_ch, vmem_rehash_interval);
1.24.4.4  yamt }
1.24.4.4  yamt
1.24.4.4  yamt static void
1.24.4.4  yamt vmem_rehash_all_kick(void *dummy)
1.24.4.4  yamt {
1.24.4.4  yamt
1.24.4.4  yamt 	workqueue_enqueue(vmem_rehash_wq, &vmem_rehash_wk, NULL);
1.24.4.4  yamt }
1.24.4.4  yamt
1.24.4.4  yamt void
1.24.4.4  yamt vmem_rehash_start(void)
1.24.4.4  yamt {
1.24.4.4  yamt 	int error;
1.24.4.4  yamt
1.24.4.4  yamt 	error = workqueue_create(&vmem_rehash_wq, "vmem_rehash",
1.24.4.4  yamt 	    vmem_rehash_all, NULL, PVM, IPL_SOFTCLOCK, 0);
1.24.4.4  yamt 	if (error) {
1.24.4.4  yamt 		panic("%s: workqueue_create %d\n", __func__, error);
1.24.4.4  yamt 	}
1.24.4.4  yamt 	callout_init(&vmem_rehash_ch, 0);
1.24.4.4  yamt 	callout_setfunc(&vmem_rehash_ch, vmem_rehash_all_kick, NULL);
1.24.4.4  yamt
1.24.4.4  yamt 	vmem_rehash_interval = hz * 10;
1.24.4.4  yamt 	callout_schedule(&vmem_rehash_ch, vmem_rehash_interval);
1.24.4.4  yamt }
1.24.4.4  yamt #endif /* defined(_KERNEL) */
1.24.4.4  yamt
1.24.4.2  yamt /* ---- debug */
1.24.4.2  yamt
1.24.4.2  yamt #if defined(VMEM_DEBUG)
1.24.4.2  yamt
1.24.4.2  yamt #if !defined(_KERNEL)
1.24.4.2  yamt #include <stdio.h>
1.24.4.2  yamt #endif /* !defined(_KERNEL) */
1.24.4.2  yamt
1.24.4.2  yamt void bt_dump(const bt_t *);
1.24.4.2  yamt
1.24.4.2  yamt void
1.24.4.2  yamt bt_dump(const bt_t *bt)
1.24.4.2  yamt {
1.24.4.2  yamt
1.24.4.2  yamt 	printf("\t%p: %" PRIu64 ", %" PRIu64 ", %d\n",
1.24.4.2  yamt 	    bt, (uint64_t)bt->bt_start, (uint64_t)bt->bt_size,
1.24.4.2  yamt 	    bt->bt_type);
1.24.4.2  yamt }
1.24.4.2  yamt
1.24.4.2  yamt void
1.24.4.2  yamt vmem_dump(const vmem_t *vm)
1.24.4.2  yamt {
1.24.4.2  yamt 	const bt_t *bt;
1.24.4.2  yamt 	int i;
1.24.4.2  yamt
1.24.4.2  yamt 	printf("vmem %p '%s'\n", vm, vm->vm_name);
1.24.4.2  yamt 	CIRCLEQ_FOREACH(bt, &vm->vm_seglist, bt_seglist) {
1.24.4.2  yamt 		bt_dump(bt);
1.24.4.2  yamt 	}
1.24.4.2  yamt
1.24.4.2  yamt 	for (i = 0; i < VMEM_MAXORDER; i++) {
1.24.4.2  yamt 		const struct vmem_freelist *fl = &vm->vm_freelist[i];
1.24.4.2  yamt
1.24.4.2  yamt 		if (LIST_EMPTY(fl)) {
1.24.4.2  yamt 			continue;
1.24.4.2  yamt 		}
1.24.4.2  yamt
1.24.4.2  yamt 		printf("freelist[%d]\n", i);
1.24.4.2  yamt 		LIST_FOREACH(bt, fl, bt_freelist) {
1.24.4.2  yamt 			bt_dump(bt);
1.24.4.2  yamt 			if (bt->bt_size) {
1.24.4.2  yamt 			}
1.24.4.2  yamt 		}
1.24.4.2  yamt 	}
1.24.4.2  yamt }
1.24.4.2  yamt
1.24.4.2  yamt #if !defined(_KERNEL)
1.24.4.2  yamt
1.24.4.2  yamt int
1.24.4.2  yamt main()
1.24.4.2  yamt {
1.24.4.2  yamt 	vmem_t *vm;
1.24.4.2  yamt 	vmem_addr_t p;
1.24.4.2  yamt 	struct reg {
1.24.4.2  yamt 		vmem_addr_t p;
1.24.4.2  yamt 		vmem_size_t sz;
1.24.4.3  yamt 		bool x;
1.24.4.2  yamt 	} *reg = NULL;
1.24.4.2  yamt 	int nreg = 0;
1.24.4.2  yamt 	int nalloc = 0;
1.24.4.2  yamt 	int nfree = 0;
1.24.4.2  yamt 	vmem_size_t total = 0;
1.24.4.2  yamt #if 1
1.24.4.2  yamt 	vm_flag_t strat = VM_INSTANTFIT;
1.24.4.2  yamt #else
1.24.4.2  yamt 	vm_flag_t strat = VM_BESTFIT;
1.24.4.2  yamt #endif
1.24.4.2  yamt
1.24.4.2  yamt 	vm = vmem_create("test", VMEM_ADDR_NULL, 0, 1,
1.24.4.4  yamt 	    NULL, NULL, NULL, 0, VM_SLEEP);
1.24.4.2  yamt 	if (vm == NULL) {
1.24.4.2  yamt 		printf("vmem_create\n");
1.24.4.2  yamt 		exit(EXIT_FAILURE);
1.24.4.2  yamt 	}
1.24.4.2  yamt 	vmem_dump(vm);
1.24.4.2  yamt
1.24.4.2  yamt 	p = vmem_add(vm, 100, 200, VM_SLEEP);
1.24.4.2  yamt 	p = vmem_add(vm, 2000, 1, VM_SLEEP);
1.24.4.2  yamt 	p = vmem_add(vm, 40000, 0x10000000>>12, VM_SLEEP);
1.24.4.2  yamt 	p = vmem_add(vm, 10000, 10000, VM_SLEEP);
1.24.4.2  yamt 	p = vmem_add(vm, 500, 1000, VM_SLEEP);
1.24.4.2  yamt 	vmem_dump(vm);
1.24.4.2  yamt 	for (;;) {
1.24.4.2  yamt 		struct reg *r;
1.24.4.2  yamt 		int t = rand() % 100;
1.24.4.2  yamt
1.24.4.2  yamt 		if (t > 45) {
1.24.4.2  yamt 			/* alloc */
1.24.4.2  yamt 			vmem_size_t sz = rand() % 500 + 1;
1.24.4.3  yamt 			bool x;
1.24.4.2  yamt 			vmem_size_t align, phase, nocross;
1.24.4.2  yamt 			vmem_addr_t minaddr, maxaddr;
1.24.4.2  yamt
1.24.4.2  yamt 			if (t > 70) {
1.24.4.3  yamt 				x = true;
1.24.4.2  yamt 				/* XXX */
1.24.4.2  yamt 				align = 1 << (rand() % 15);
1.24.4.2  yamt 				phase = rand() % 65536;
1.24.4.2  yamt 				nocross = 1 << (rand() % 15);
1.24.4.2  yamt 				if (align <= phase) {
1.24.4.2  yamt 					phase = 0;
1.24.4.2  yamt 				}
1.24.4.2  yamt 				if (VMEM_CROSS_P(phase, phase + sz - 1,
1.24.4.2  yamt 				    nocross)) {
1.24.4.2  yamt 					nocross = 0;
1.24.4.2  yamt 				}
1.24.4.2  yamt 				minaddr = rand() % 50000;
1.24.4.2  yamt 				maxaddr = rand() % 70000;
1.24.4.2  yamt 				if (minaddr > maxaddr) {
1.24.4.2  yamt 					minaddr = 0;
1.24.4.2  yamt 					maxaddr = 0;
1.24.4.2  yamt 				}
1.24.4.2  yamt 				printf("=== xalloc %" PRIu64
1.24.4.2  yamt 				    " align=%" PRIu64 ", phase=%" PRIu64
1.24.4.2  yamt 				    ", nocross=%" PRIu64 ", min=%" PRIu64
1.24.4.2  yamt 				    ", max=%" PRIu64 "\n",
1.24.4.2  yamt 				    (uint64_t)sz,
1.24.4.2  yamt 				    (uint64_t)align,
1.24.4.2  yamt 				    (uint64_t)phase,
1.24.4.2  yamt 				    (uint64_t)nocross,
1.24.4.2  yamt 				    (uint64_t)minaddr,
1.24.4.2  yamt 				    (uint64_t)maxaddr);
1.24.4.2  yamt 				p = vmem_xalloc(vm, sz, align, phase, nocross,
1.24.4.2  yamt 				    minaddr, maxaddr, strat|VM_SLEEP);
1.24.4.2  yamt 			} else {
1.24.4.3  yamt 				x = false;
1.24.4.2  yamt 				printf("=== alloc %" PRIu64 "\n", (uint64_t)sz);
1.24.4.2  yamt 				p = vmem_alloc(vm, sz, strat|VM_SLEEP);
1.24.4.2  yamt 			}
1.24.4.2  yamt 			printf("-> %" PRIu64 "\n", (uint64_t)p);
1.24.4.2  yamt 			vmem_dump(vm);
1.24.4.2  yamt 			if (p == VMEM_ADDR_NULL) {
1.24.4.2  yamt 				if (x) {
1.24.4.2  yamt 					continue;
1.24.4.2  yamt 				}
1.24.4.2  yamt 				break;
1.24.4.2  yamt 			}
1.24.4.2  yamt 			nreg++;
1.24.4.2  yamt 			reg = realloc(reg, sizeof(*reg) * nreg);
1.24.4.2  yamt 			r = &reg[nreg - 1];
1.24.4.2  yamt 			r->p = p;
1.24.4.2  yamt 			r->sz = sz;
1.24.4.2  yamt 			r->x = x;
1.24.4.2  yamt 			total += sz;
1.24.4.2  yamt 			nalloc++;
1.24.4.2  yamt 		} else if (nreg != 0) {
1.24.4.2  yamt 			/* free */
1.24.4.2  yamt 			r = &reg[rand() % nreg];
1.24.4.2  yamt 			printf("=== free %" PRIu64 ", %" PRIu64 "\n",
1.24.4.2  yamt 			    (uint64_t)r->p, (uint64_t)r->sz);
1.24.4.2  yamt 			if (r->x) {
1.24.4.2  yamt 				vmem_xfree(vm, r->p, r->sz);
1.24.4.2  yamt 			} else {
1.24.4.2  yamt 				vmem_free(vm, r->p, r->sz);
1.24.4.2  yamt 			}
1.24.4.2  yamt 			total -= r->sz;
1.24.4.2  yamt 			vmem_dump(vm);
1.24.4.2  yamt 			*r = reg[nreg - 1];
1.24.4.2  yamt 			nreg--;
1.24.4.2  yamt 			nfree++;
1.24.4.2  yamt 		}
1.24.4.2  yamt 		printf("total=%" PRIu64 "\n", (uint64_t)total);
1.24.4.2  yamt 	}
1.24.4.2  yamt 	fprintf(stderr, "total=%" PRIu64 ", nalloc=%d, nfree=%d\n",
1.24.4.2  yamt 	    (uint64_t)total, nalloc, nfree);
1.24.4.2  yamt 	exit(EXIT_SUCCESS);
1.24.4.2  yamt }
1.24.4.2  yamt #endif /* !defined(_KERNEL) */
1.24.4.2  yamt #endif /* defined(VMEM_DEBUG) */