sys/kern/vfs_wapbl.c

1.1.4.2  haad /*	$NetBSD: vfs_wapbl.c,v 1.1.4.2 2008/12/13 01:15:10 haad Exp $	*/
1.1.4.1  haad
1.1.4.1  haad /*-
1.1.4.1  haad  * Copyright (c) 2003,2008 The NetBSD Foundation, Inc.
1.1.4.1  haad  * All rights reserved.
1.1.4.1  haad  *
1.1.4.1  haad  * This code is derived from software contributed to The NetBSD Foundation
1.1.4.1  haad  * by Wasabi Systems, Inc.
1.1.4.1  haad  *
1.1.4.1  haad  * Redistribution and use in source and binary forms, with or without
1.1.4.1  haad  * modification, are permitted provided that the following conditions
1.1.4.1  haad  * are met:
1.1.4.1  haad  * 1. Redistributions of source code must retain the above copyright
1.1.4.1  haad  *    notice, this list of conditions and the following disclaimer.
1.1.4.1  haad  * 2. Redistributions in binary form must reproduce the above copyright
1.1.4.1  haad  *    notice, this list of conditions and the following disclaimer in the
1.1.4.1  haad  *    documentation and/or other materials provided with the distribution.
1.1.4.1  haad  *
1.1.4.1  haad  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
1.1.4.1  haad  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
1.1.4.1  haad  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
1.1.4.1  haad  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
1.1.4.1  haad  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
1.1.4.1  haad  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
1.1.4.1  haad  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
1.1.4.1  haad  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
1.1.4.1  haad  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
1.1.4.1  haad  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
1.1.4.1  haad  * POSSIBILITY OF SUCH DAMAGE.
1.1.4.1  haad  */
1.1.4.1  haad
1.1.4.1  haad /*
1.1.4.1  haad  * This implements file system independent write ahead filesystem logging.
1.1.4.1  haad  */
1.1.4.2  haad
1.1.4.2  haad #define WAPBL_INTERNAL
1.1.4.2  haad
1.1.4.1  haad #include <sys/cdefs.h>
1.1.4.2  haad __KERNEL_RCSID(0, "$NetBSD: vfs_wapbl.c,v 1.1.4.2 2008/12/13 01:15:10 haad Exp $");
1.1.4.1  haad
1.1.4.1  haad #include <sys/param.h>
1.1.4.1  haad
1.1.4.1  haad #ifdef _KERNEL
1.1.4.1  haad #include <sys/param.h>
1.1.4.1  haad #include <sys/namei.h>
1.1.4.1  haad #include <sys/proc.h>
1.1.4.1  haad #include <sys/uio.h>
1.1.4.1  haad #include <sys/vnode.h>
1.1.4.1  haad #include <sys/file.h>
1.1.4.1  haad #include <sys/malloc.h>
1.1.4.1  haad #include <sys/resourcevar.h>
1.1.4.1  haad #include <sys/conf.h>
1.1.4.1  haad #include <sys/mount.h>
1.1.4.1  haad #include <sys/kernel.h>
1.1.4.1  haad #include <sys/kauth.h>
1.1.4.1  haad #include <sys/mutex.h>
1.1.4.1  haad #include <sys/atomic.h>
1.1.4.1  haad #include <sys/wapbl.h>
1.1.4.2  haad #include <sys/wapbl_replay.h>
1.1.4.1  haad
1.1.4.1  haad #if WAPBL_UVM_ALLOC
1.1.4.1  haad #include <uvm/uvm.h>
1.1.4.1  haad #endif
1.1.4.1  haad
1.1.4.1  haad #include <miscfs/specfs/specdev.h>
1.1.4.1  haad
1.1.4.1  haad MALLOC_JUSTDEFINE(M_WAPBL, "wapbl", "write-ahead physical block logging");
1.1.4.1  haad #define	wapbl_malloc(s) malloc((s), M_WAPBL, M_WAITOK)
1.1.4.1  haad #define	wapbl_free(a) free((a), M_WAPBL)
1.1.4.1  haad #define	wapbl_calloc(n, s) malloc((n)*(s), M_WAPBL, M_WAITOK | M_ZERO)
1.1.4.2  haad #define	wapbl_realloc(ptr, s) realloc((ptr), (s), M_WAPBL, M_WAITOK | M_ZERO)
1.1.4.1  haad
1.1.4.1  haad #else /* !_KERNEL */
1.1.4.1  haad #include <assert.h>
1.1.4.1  haad #include <errno.h>
1.1.4.1  haad #include <stdio.h>
1.1.4.1  haad #include <stdbool.h>
1.1.4.1  haad #include <stdlib.h>
1.1.4.1  haad #include <string.h>
1.1.4.1  haad
1.1.4.1  haad #include <sys/time.h>
1.1.4.1  haad #include <sys/wapbl.h>
1.1.4.2  haad #include <sys/wapbl_replay.h>
1.1.4.1  haad
1.1.4.1  haad #define	KDASSERT(x) assert(x)
1.1.4.1  haad #define	KASSERT(x) assert(x)
1.1.4.1  haad #define	wapbl_malloc(s) malloc(s)
1.1.4.1  haad #define	wapbl_free(a) free(a)
1.1.4.1  haad #define	wapbl_calloc(n, s) calloc((n), (s))
1.1.4.2  haad #define	wapbl_realloc(ptr, s) realloc((ptr), (s))
1.1.4.1  haad
1.1.4.1  haad #endif /* !_KERNEL */
1.1.4.1  haad
1.1.4.1  haad /*
1.1.4.1  haad  * INTERNAL DATA STRUCTURES
1.1.4.1  haad  */
1.1.4.1  haad
1.1.4.1  haad /*
1.1.4.1  haad  * This structure holds per-mount log information.
1.1.4.1  haad  *
1.1.4.1  haad  * Legend:	a = atomic access only
1.1.4.1  haad  *		r = read-only after init
1.1.4.1  haad  *		l = rwlock held
1.1.4.1  haad  *		m = mutex held
1.1.4.1  haad  *		u = unlocked access ok
1.1.4.1  haad  *		b = bufcache_lock held
1.1.4.1  haad  */
1.1.4.1  haad struct wapbl {
1.1.4.1  haad 	struct vnode *wl_logvp;	/* r:	log here */
1.1.4.1  haad 	struct vnode *wl_devvp;	/* r:	log on this device */
1.1.4.1  haad 	struct mount *wl_mount;	/* r:	mountpoint wl is associated with */
1.1.4.1  haad 	daddr_t wl_logpbn;	/* r:	Physical block number of start of log */
1.1.4.1  haad 	int wl_log_dev_bshift;	/* r:	logarithm of device block size of log
1.1.4.1  haad 					device */
1.1.4.1  haad 	int wl_fs_dev_bshift;	/* r:	logarithm of device block size of
1.1.4.1  haad 					filesystem device */
1.1.4.1  haad
1.1.4.1  haad 	unsigned wl_lock_count;	/* m:	Count of transactions in progress */
1.1.4.1  haad
1.1.4.1  haad 	size_t wl_circ_size; 	/* r:	Number of bytes in buffer of log */
1.1.4.1  haad 	size_t wl_circ_off;	/* r:	Number of bytes reserved at start */
1.1.4.1  haad
1.1.4.1  haad 	size_t wl_bufcount_max;	/* r:	Number of buffers reserved for log */
1.1.4.1  haad 	size_t wl_bufbytes_max;	/* r:	Number of buf bytes reserved for log */
1.1.4.1  haad
1.1.4.1  haad 	off_t wl_head;		/* l:	Byte offset of log head */
1.1.4.1  haad 	off_t wl_tail;		/* l:	Byte offset of log tail */
1.1.4.1  haad 	/*
1.1.4.1  haad 	 * head == tail == 0 means log is empty
1.1.4.1  haad 	 * head == tail != 0 means log is full
1.1.4.1  haad 	 * see assertions in wapbl_advance() for other boundary conditions.
1.1.4.1  haad 	 * only truncate moves the tail, except when flush sets it to
1.1.4.1  haad 	 * wl_header_size only flush moves the head, except when truncate
1.1.4.1  haad 	 * sets it to 0.
1.1.4.1  haad 	 */
1.1.4.1  haad
1.1.4.1  haad 	struct wapbl_wc_header *wl_wc_header;	/* l	*/
1.1.4.1  haad 	void *wl_wc_scratch;	/* l:	scratch space (XXX: por que?!?) */
1.1.4.1  haad
1.1.4.1  haad 	kmutex_t wl_mtx;	/* u:	short-term lock */
1.1.4.1  haad 	krwlock_t wl_rwlock;	/* u:	File system transaction lock */
1.1.4.1  haad
1.1.4.1  haad 	/*
1.1.4.1  haad 	 * Must be held while accessing
1.1.4.1  haad 	 * wl_count or wl_bufs or head or tail
1.1.4.1  haad 	 */
1.1.4.1  haad
1.1.4.1  haad 	/*
1.1.4.1  haad 	 * Callback called from within the flush routine to flush any extra
1.1.4.1  haad 	 * bits.  Note that flush may be skipped without calling this if
1.1.4.1  haad 	 * there are no outstanding buffers in the transaction.
1.1.4.1  haad 	 */
1.1.4.2  haad #if _KERNEL
1.1.4.1  haad 	wapbl_flush_fn_t wl_flush;	/* r	*/
1.1.4.1  haad 	wapbl_flush_fn_t wl_flush_abort;/* r	*/
1.1.4.2  haad #endif
1.1.4.1  haad
1.1.4.1  haad 	size_t wl_bufbytes;	/* m:	Byte count of pages in wl_bufs */
1.1.4.1  haad 	size_t wl_bufcount;	/* m:	Count of buffers in wl_bufs */
1.1.4.1  haad 	size_t wl_bcount;	/* m:	Total bcount of wl_bufs */
1.1.4.1  haad
1.1.4.1  haad 	LIST_HEAD(, buf) wl_bufs; /* m:	Buffers in current transaction */
1.1.4.1  haad
1.1.4.1  haad 	kcondvar_t wl_reclaimable_cv;	/* m (obviously) */
1.1.4.1  haad 	size_t wl_reclaimable_bytes; /* m:	Amount of space available for
1.1.4.1  haad 						reclamation by truncate */
1.1.4.1  haad 	int wl_error_count;	/* m:	# of wl_entries with errors */
1.1.4.1  haad 	size_t wl_reserved_bytes; /* never truncate log smaller than this */
1.1.4.1  haad
1.1.4.1  haad #ifdef WAPBL_DEBUG_BUFBYTES
1.1.4.1  haad 	size_t wl_unsynced_bufbytes; /* Byte count of unsynced buffers */
1.1.4.1  haad #endif
1.1.4.1  haad
1.1.4.1  haad 	daddr_t *wl_deallocblks;/* l:	address of block */
1.1.4.1  haad 	int *wl_dealloclens;	/* l:	size of block (fragments, kom ihg) */
1.1.4.1  haad 	int wl_dealloccnt;	/* l:	total count */
1.1.4.1  haad 	int wl_dealloclim;	/* l:	max count */
1.1.4.1  haad
1.1.4.1  haad 	/* hashtable of inode numbers for allocated but unlinked inodes */
1.1.4.1  haad 	/* synch ??? */
1.1.4.1  haad 	LIST_HEAD(wapbl_ino_head, wapbl_ino) *wl_inohash;
1.1.4.1  haad 	u_long wl_inohashmask;
1.1.4.1  haad 	int wl_inohashcnt;
1.1.4.1  haad
1.1.4.1  haad 	SIMPLEQ_HEAD(, wapbl_entry) wl_entries; /* On disk transaction
1.1.4.1  haad 						   accounting */
1.1.4.1  haad };
1.1.4.1  haad
1.1.4.1  haad #ifdef WAPBL_DEBUG_PRINT
1.1.4.1  haad int wapbl_debug_print = WAPBL_DEBUG_PRINT;
1.1.4.1  haad #endif
1.1.4.1  haad
1.1.4.1  haad /****************************************************************/
1.1.4.1  haad #ifdef _KERNEL
1.1.4.1  haad
1.1.4.1  haad #ifdef WAPBL_DEBUG
1.1.4.1  haad struct wapbl *wapbl_debug_wl;
1.1.4.1  haad #endif
1.1.4.1  haad
1.1.4.1  haad static int wapbl_write_commit(struct wapbl *wl, off_t head, off_t tail);
1.1.4.1  haad static int wapbl_write_blocks(struct wapbl *wl, off_t *offp);
1.1.4.1  haad static int wapbl_write_revocations(struct wapbl *wl, off_t *offp);
1.1.4.1  haad static int wapbl_write_inodes(struct wapbl *wl, off_t *offp);
1.1.4.1  haad #endif /* _KERNEL */
1.1.4.1  haad
1.1.4.2  haad static int wapbl_replay_process(struct wapbl_replay *wr, off_t, off_t);
1.1.4.1  haad
1.1.4.1  haad static __inline size_t wapbl_space_free(size_t avail, off_t head,
1.1.4.1  haad 	off_t tail);
1.1.4.1  haad static __inline size_t wapbl_space_used(size_t avail, off_t head,
1.1.4.1  haad 	off_t tail);
1.1.4.1  haad
1.1.4.1  haad #ifdef _KERNEL
1.1.4.1  haad
1.1.4.1  haad #define	WAPBL_INODETRK_SIZE 83
1.1.4.1  haad static int wapbl_ino_pool_refcount;
1.1.4.1  haad static struct pool wapbl_ino_pool;
1.1.4.1  haad struct wapbl_ino {
1.1.4.1  haad 	LIST_ENTRY(wapbl_ino) wi_hash;
1.1.4.1  haad 	ino_t wi_ino;
1.1.4.1  haad 	mode_t wi_mode;
1.1.4.1  haad };
1.1.4.1  haad
1.1.4.1  haad static void wapbl_inodetrk_init(struct wapbl *wl, u_int size);
1.1.4.1  haad static void wapbl_inodetrk_free(struct wapbl *wl);
1.1.4.1  haad static struct wapbl_ino *wapbl_inodetrk_get(struct wapbl *wl, ino_t ino);
1.1.4.1  haad
1.1.4.1  haad static size_t wapbl_transaction_len(struct wapbl *wl);
1.1.4.1  haad static __inline size_t wapbl_transaction_inodes_len(struct wapbl *wl);
1.1.4.1  haad
1.1.4.2  haad #if 0
1.1.4.2  haad int wapbl_replay_verify(struct wapbl_replay *, struct vnode *);
1.1.4.2  haad #endif
1.1.4.2  haad
1.1.4.2  haad static int wapbl_replay_isopen1(struct wapbl_replay *);
1.1.4.2  haad
1.1.4.1  haad /*
1.1.4.1  haad  * This is useful for debugging.  If set, the log will
1.1.4.1  haad  * only be truncated when necessary.
1.1.4.1  haad  */
1.1.4.1  haad int wapbl_lazy_truncate = 0;
1.1.4.1  haad
1.1.4.1  haad struct wapbl_ops wapbl_ops = {
1.1.4.1  haad 	.wo_wapbl_discard	= wapbl_discard,
1.1.4.1  haad 	.wo_wapbl_replay_isopen	= wapbl_replay_isopen1,
1.1.4.2  haad 	.wo_wapbl_replay_can_read = wapbl_replay_can_read,
1.1.4.1  haad 	.wo_wapbl_replay_read	= wapbl_replay_read,
1.1.4.1  haad 	.wo_wapbl_add_buf	= wapbl_add_buf,
1.1.4.1  haad 	.wo_wapbl_remove_buf	= wapbl_remove_buf,
1.1.4.1  haad 	.wo_wapbl_resize_buf	= wapbl_resize_buf,
1.1.4.1  haad 	.wo_wapbl_begin		= wapbl_begin,
1.1.4.1  haad 	.wo_wapbl_end		= wapbl_end,
1.1.4.1  haad 	.wo_wapbl_junlock_assert= wapbl_junlock_assert,
1.1.4.1  haad
1.1.4.1  haad 	/* XXX: the following is only used to say "this is a wapbl buf" */
1.1.4.1  haad 	.wo_wapbl_biodone	= wapbl_biodone,
1.1.4.1  haad };
1.1.4.1  haad
1.1.4.1  haad void
1.1.4.1  haad wapbl_init()
1.1.4.1  haad {
1.1.4.1  haad
1.1.4.1  haad 	malloc_type_attach(M_WAPBL);
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.2  haad static  int
1.1.4.2  haad wapbl_start_flush_inodes(struct wapbl *wl, struct wapbl_replay *wr)
1.1.4.2  haad {
1.1.4.2  haad 	int error, i;
1.1.4.2  haad
1.1.4.2  haad 	WAPBL_PRINTF(WAPBL_PRINT_REPLAY,
1.1.4.2  haad 	    ("wapbl_start: reusing log with %d inodes\n", wr->wr_inodescnt));
1.1.4.2  haad
1.1.4.2  haad 	/*
1.1.4.2  haad 	 * Its only valid to reuse the replay log if its
1.1.4.2  haad 	 * the same as the new log we just opened.
1.1.4.2  haad 	 */
1.1.4.2  haad 	KDASSERT(!wapbl_replay_isopen(wr));
1.1.4.2  haad 	KASSERT(wl->wl_devvp->v_rdev == wr->wr_devvp->v_rdev);
1.1.4.2  haad 	KASSERT(wl->wl_logpbn == wr->wr_logpbn);
1.1.4.2  haad 	KASSERT(wl->wl_circ_size == wr->wr_circ_size);
1.1.4.2  haad 	KASSERT(wl->wl_circ_off == wr->wr_circ_off);
1.1.4.2  haad 	KASSERT(wl->wl_log_dev_bshift == wr->wr_log_dev_bshift);
1.1.4.2  haad 	KASSERT(wl->wl_fs_dev_bshift == wr->wr_fs_dev_bshift);
1.1.4.2  haad
1.1.4.2  haad 	wl->wl_wc_header->wc_generation = wr->wr_generation + 1;
1.1.4.2  haad
1.1.4.2  haad 	for (i = 0; i < wr->wr_inodescnt; i++)
1.1.4.2  haad 		wapbl_register_inode(wl, wr->wr_inodes[i].wr_inumber,
1.1.4.2  haad 		    wr->wr_inodes[i].wr_imode);
1.1.4.2  haad
1.1.4.2  haad 	/* Make sure new transaction won't overwrite old inodes list */
1.1.4.2  haad 	KDASSERT(wapbl_transaction_len(wl) <=
1.1.4.2  haad 	    wapbl_space_free(wl->wl_circ_size, wr->wr_inodeshead,
1.1.4.2  haad 	    wr->wr_inodestail));
1.1.4.2  haad
1.1.4.2  haad 	wl->wl_head = wl->wl_tail = wr->wr_inodeshead;
1.1.4.2  haad 	wl->wl_reclaimable_bytes = wl->wl_reserved_bytes =
1.1.4.2  haad 	    wapbl_transaction_len(wl);
1.1.4.2  haad
1.1.4.2  haad 	error = wapbl_write_inodes(wl, &wl->wl_head);
1.1.4.2  haad 	if (error)
1.1.4.2  haad 		return error;
1.1.4.2  haad
1.1.4.2  haad 	KASSERT(wl->wl_head != wl->wl_tail);
1.1.4.2  haad 	KASSERT(wl->wl_head != 0);
1.1.4.2  haad
1.1.4.2  haad 	return 0;
1.1.4.2  haad }
1.1.4.2  haad
1.1.4.1  haad int
1.1.4.1  haad wapbl_start(struct wapbl ** wlp, struct mount *mp, struct vnode *vp,
1.1.4.1  haad 	daddr_t off, size_t count, size_t blksize, struct wapbl_replay *wr,
1.1.4.1  haad 	wapbl_flush_fn_t flushfn, wapbl_flush_fn_t flushabortfn)
1.1.4.1  haad {
1.1.4.1  haad 	struct wapbl *wl;
1.1.4.1  haad 	struct vnode *devvp;
1.1.4.1  haad 	daddr_t logpbn;
1.1.4.1  haad 	int error;
1.1.4.1  haad 	int log_dev_bshift = DEV_BSHIFT;
1.1.4.1  haad 	int fs_dev_bshift = DEV_BSHIFT;
1.1.4.1  haad 	int run;
1.1.4.1  haad
1.1.4.1  haad 	WAPBL_PRINTF(WAPBL_PRINT_OPEN, ("wapbl_start: vp=%p off=%" PRId64
1.1.4.1  haad 	    " count=%zu blksize=%zu\n", vp, off, count, blksize));
1.1.4.1  haad
1.1.4.1  haad 	if (log_dev_bshift > fs_dev_bshift) {
1.1.4.1  haad 		WAPBL_PRINTF(WAPBL_PRINT_OPEN,
1.1.4.1  haad 			("wapbl: log device's block size cannot be larger "
1.1.4.1  haad 			 "than filesystem's\n"));
1.1.4.1  haad 		/*
1.1.4.1  haad 		 * Not currently implemented, although it could be if
1.1.4.1  haad 		 * needed someday.
1.1.4.1  haad 		 */
1.1.4.1  haad 		return ENOSYS;
1.1.4.1  haad 	}
1.1.4.1  haad
1.1.4.1  haad 	if (off < 0)
1.1.4.1  haad 		return EINVAL;
1.1.4.1  haad
1.1.4.1  haad 	if (blksize < DEV_BSIZE)
1.1.4.1  haad 		return EINVAL;
1.1.4.1  haad 	if (blksize % DEV_BSIZE)
1.1.4.1  haad 		return EINVAL;
1.1.4.1  haad
1.1.4.1  haad 	/* XXXTODO: verify that the full load is writable */
1.1.4.1  haad
1.1.4.1  haad 	/*
1.1.4.1  haad 	 * XXX check for minimum log size
1.1.4.1  haad 	 * minimum is governed by minimum amount of space
1.1.4.1  haad 	 * to complete a transaction. (probably truncate)
1.1.4.1  haad 	 */
1.1.4.1  haad 	/* XXX for now pick something minimal */
1.1.4.1  haad 	if ((count * blksize) < MAXPHYS) {
1.1.4.1  haad 		return ENOSPC;
1.1.4.1  haad 	}
1.1.4.1  haad
1.1.4.1  haad 	if ((error = VOP_BMAP(vp, off, &devvp, &logpbn, &run)) != 0) {
1.1.4.1  haad 		return error;
1.1.4.1  haad 	}
1.1.4.1  haad
1.1.4.1  haad 	wl = wapbl_calloc(1, sizeof(*wl));
1.1.4.1  haad 	rw_init(&wl->wl_rwlock);
1.1.4.1  haad 	mutex_init(&wl->wl_mtx, MUTEX_DEFAULT, IPL_NONE);
1.1.4.1  haad 	cv_init(&wl->wl_reclaimable_cv, "wapblrec");
1.1.4.1  haad 	LIST_INIT(&wl->wl_bufs);
1.1.4.1  haad 	SIMPLEQ_INIT(&wl->wl_entries);
1.1.4.1  haad
1.1.4.1  haad 	wl->wl_logvp = vp;
1.1.4.1  haad 	wl->wl_devvp = devvp;
1.1.4.1  haad 	wl->wl_mount = mp;
1.1.4.1  haad 	wl->wl_logpbn = logpbn;
1.1.4.1  haad 	wl->wl_log_dev_bshift = log_dev_bshift;
1.1.4.1  haad 	wl->wl_fs_dev_bshift = fs_dev_bshift;
1.1.4.1  haad
1.1.4.1  haad 	wl->wl_flush = flushfn;
1.1.4.1  haad 	wl->wl_flush_abort = flushabortfn;
1.1.4.1  haad
1.1.4.1  haad 	/* Reserve two log device blocks for the commit headers */
1.1.4.1  haad 	wl->wl_circ_off = 2<<wl->wl_log_dev_bshift;
1.1.4.1  haad 	wl->wl_circ_size = ((count * blksize) - wl->wl_circ_off);
1.1.4.1  haad 	/* truncate the log usage to a multiple of log_dev_bshift */
1.1.4.1  haad 	wl->wl_circ_size >>= wl->wl_log_dev_bshift;
1.1.4.1  haad 	wl->wl_circ_size <<= wl->wl_log_dev_bshift;
1.1.4.1  haad
1.1.4.1  haad 	/*
1.1.4.1  haad 	 * wl_bufbytes_max limits the size of the in memory transaction space.
1.1.4.1  haad 	 * - Since buffers are allocated and accounted for in units of
1.1.4.1  haad 	 *   PAGE_SIZE it is required to be a multiple of PAGE_SIZE
1.1.4.1  haad 	 *   (i.e. 1<<PAGE_SHIFT)
1.1.4.1  haad 	 * - Since the log device has to be written in units of
1.1.4.1  haad 	 *   1<<wl_log_dev_bshift it is required to be a mulitple of
1.1.4.1  haad 	 *   1<<wl_log_dev_bshift.
1.1.4.1  haad 	 * - Since filesystem will provide data in units of 1<<wl_fs_dev_bshift,
1.1.4.1  haad 	 *   it is convenient to be a multiple of 1<<wl_fs_dev_bshift.
1.1.4.1  haad 	 * Therefore it must be multiple of the least common multiple of those
1.1.4.1  haad 	 * three quantities.  Fortunately, all of those quantities are
1.1.4.1  haad 	 * guaranteed to be a power of two, and the least common multiple of
1.1.4.1  haad 	 * a set of numbers which are all powers of two is simply the maximum
1.1.4.1  haad 	 * of those numbers.  Finally, the maximum logarithm of a power of two
1.1.4.1  haad 	 * is the same as the log of the maximum power of two.  So we can do
1.1.4.1  haad 	 * the following operations to size wl_bufbytes_max:
1.1.4.1  haad 	 */
1.1.4.1  haad
1.1.4.1  haad 	/* XXX fix actual number of pages reserved per filesystem. */
1.1.4.1  haad 	wl->wl_bufbytes_max = MIN(wl->wl_circ_size, buf_memcalc() / 2);
1.1.4.1  haad
1.1.4.1  haad 	/* Round wl_bufbytes_max to the largest power of two constraint */
1.1.4.1  haad 	wl->wl_bufbytes_max >>= PAGE_SHIFT;
1.1.4.1  haad 	wl->wl_bufbytes_max <<= PAGE_SHIFT;
1.1.4.1  haad 	wl->wl_bufbytes_max >>= wl->wl_log_dev_bshift;
1.1.4.1  haad 	wl->wl_bufbytes_max <<= wl->wl_log_dev_bshift;
1.1.4.1  haad 	wl->wl_bufbytes_max >>= wl->wl_fs_dev_bshift;
1.1.4.1  haad 	wl->wl_bufbytes_max <<= wl->wl_fs_dev_bshift;
1.1.4.1  haad
1.1.4.1  haad 	/* XXX maybe use filesystem fragment size instead of 1024 */
1.1.4.1  haad 	/* XXX fix actual number of buffers reserved per filesystem. */
1.1.4.1  haad 	wl->wl_bufcount_max = (nbuf / 2) * 1024;
1.1.4.1  haad
1.1.4.1  haad 	/* XXX tie this into resource estimation */
1.1.4.1  haad 	wl->wl_dealloclim = 2 * btodb(wl->wl_bufbytes_max);
1.1.4.1  haad
1.1.4.1  haad #if WAPBL_UVM_ALLOC
1.1.4.1  haad 	wl->wl_deallocblks = (void *) uvm_km_zalloc(kernel_map,
1.1.4.1  haad 	    round_page(sizeof(*wl->wl_deallocblks) * wl->wl_dealloclim));
1.1.4.1  haad 	KASSERT(wl->wl_deallocblks != NULL);
1.1.4.1  haad 	wl->wl_dealloclens = (void *) uvm_km_zalloc(kernel_map,
1.1.4.1  haad 	    round_page(sizeof(*wl->wl_dealloclens) * wl->wl_dealloclim));
1.1.4.1  haad 	KASSERT(wl->wl_dealloclens != NULL);
1.1.4.1  haad #else
1.1.4.1  haad 	wl->wl_deallocblks = wapbl_malloc(sizeof(*wl->wl_deallocblks) *
1.1.4.1  haad 	    wl->wl_dealloclim);
1.1.4.1  haad 	wl->wl_dealloclens = wapbl_malloc(sizeof(*wl->wl_dealloclens) *
1.1.4.1  haad 	    wl->wl_dealloclim);
1.1.4.1  haad #endif
1.1.4.1  haad
1.1.4.1  haad 	wapbl_inodetrk_init(wl, WAPBL_INODETRK_SIZE);
1.1.4.1  haad
1.1.4.1  haad 	/* Initialize the commit header */
1.1.4.1  haad 	{
1.1.4.1  haad 		struct wapbl_wc_header *wc;
1.1.4.2  haad 		size_t len = 1 << wl->wl_log_dev_bshift;
1.1.4.1  haad 		wc = wapbl_calloc(1, len);
1.1.4.1  haad 		wc->wc_type = WAPBL_WC_HEADER;
1.1.4.1  haad 		wc->wc_len = len;
1.1.4.1  haad 		wc->wc_circ_off = wl->wl_circ_off;
1.1.4.1  haad 		wc->wc_circ_size = wl->wl_circ_size;
1.1.4.1  haad 		/* XXX wc->wc_fsid */
1.1.4.1  haad 		wc->wc_log_dev_bshift = wl->wl_log_dev_bshift;
1.1.4.1  haad 		wc->wc_fs_dev_bshift = wl->wl_fs_dev_bshift;
1.1.4.1  haad 		wl->wl_wc_header = wc;
1.1.4.1  haad 		wl->wl_wc_scratch = wapbl_malloc(len);
1.1.4.1  haad 	}
1.1.4.1  haad
1.1.4.1  haad 	/*
1.1.4.1  haad 	 * if there was an existing set of unlinked but
1.1.4.1  haad 	 * allocated inodes, preserve it in the new
1.1.4.1  haad 	 * log.
1.1.4.1  haad 	 */
1.1.4.1  haad 	if (wr && wr->wr_inodescnt) {
1.1.4.2  haad 		error = wapbl_start_flush_inodes(wl, wr);
1.1.4.1  haad 		if (error)
1.1.4.1  haad 			goto errout;
1.1.4.1  haad 	}
1.1.4.1  haad
1.1.4.1  haad 	error = wapbl_write_commit(wl, wl->wl_head, wl->wl_tail);
1.1.4.1  haad 	if (error) {
1.1.4.1  haad 		goto errout;
1.1.4.1  haad 	}
1.1.4.1  haad
1.1.4.1  haad 	*wlp = wl;
1.1.4.1  haad #if defined(WAPBL_DEBUG)
1.1.4.1  haad 	wapbl_debug_wl = wl;
1.1.4.1  haad #endif
1.1.4.1  haad
1.1.4.1  haad 	return 0;
1.1.4.1  haad  errout:
1.1.4.1  haad 	wapbl_discard(wl);
1.1.4.1  haad 	wapbl_free(wl->wl_wc_scratch);
1.1.4.1  haad 	wapbl_free(wl->wl_wc_header);
1.1.4.1  haad #if WAPBL_UVM_ALLOC
1.1.4.1  haad 	uvm_km_free_wakeup(kernel_map, (vaddr_t) wl->wl_deallocblks,
1.1.4.1  haad 			   round_page(sizeof(*wl->wl_deallocblks *
1.1.4.1  haad 			   	      wl->wl_dealloclim)));
1.1.4.1  haad 	uvm_km_free_wakeup(kernel_map, (vaddr_t) wl->wl_dealloclens,
1.1.4.1  haad 			   round_page(sizeof(*wl->wl_dealloclens *
1.1.4.1  haad 				      wl->wl_dealloclim)));
1.1.4.1  haad #else
1.1.4.1  haad 	wapbl_free(wl->wl_deallocblks);
1.1.4.1  haad 	wapbl_free(wl->wl_dealloclens);
1.1.4.1  haad #endif
1.1.4.1  haad 	wapbl_inodetrk_free(wl);
1.1.4.1  haad 	wapbl_free(wl);
1.1.4.1  haad
1.1.4.1  haad 	return error;
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad /*
1.1.4.1  haad  * Like wapbl_flush, only discards the transaction
1.1.4.1  haad  * completely
1.1.4.1  haad  */
1.1.4.1  haad
1.1.4.1  haad void
1.1.4.1  haad wapbl_discard(struct wapbl *wl)
1.1.4.1  haad {
1.1.4.1  haad 	struct wapbl_entry *we;
1.1.4.1  haad 	struct buf *bp;
1.1.4.1  haad 	int i;
1.1.4.1  haad
1.1.4.1  haad 	/*
1.1.4.1  haad 	 * XXX we may consider using upgrade here
1.1.4.1  haad 	 * if we want to call flush from inside a transaction
1.1.4.1  haad 	 */
1.1.4.1  haad 	rw_enter(&wl->wl_rwlock, RW_WRITER);
1.1.4.1  haad 	wl->wl_flush(wl->wl_mount, wl->wl_deallocblks, wl->wl_dealloclens,
1.1.4.1  haad 	    wl->wl_dealloccnt);
1.1.4.1  haad
1.1.4.1  haad #ifdef WAPBL_DEBUG_PRINT
1.1.4.1  haad 	{
1.1.4.1  haad 		struct wapbl_entry *we;
1.1.4.1  haad 		pid_t pid = -1;
1.1.4.1  haad 		lwpid_t lid = -1;
1.1.4.1  haad 		if (curproc)
1.1.4.1  haad 			pid = curproc->p_pid;
1.1.4.1  haad 		if (curlwp)
1.1.4.1  haad 			lid = curlwp->l_lid;
1.1.4.1  haad #ifdef WAPBL_DEBUG_BUFBYTES
1.1.4.1  haad 		WAPBL_PRINTF(WAPBL_PRINT_DISCARD,
1.1.4.1  haad 		    ("wapbl_discard: thread %d.%d discarding "
1.1.4.1  haad 		    "transaction\n"
1.1.4.1  haad 		    "\tbufcount=%zu bufbytes=%zu bcount=%zu "
1.1.4.1  haad 		    "deallocs=%d inodes=%d\n"
1.1.4.1  haad 		    "\terrcnt = %u, reclaimable=%zu reserved=%zu "
1.1.4.1  haad 		    "unsynced=%zu\n",
1.1.4.1  haad 		    pid, lid, wl->wl_bufcount, wl->wl_bufbytes,
1.1.4.1  haad 		    wl->wl_bcount, wl->wl_dealloccnt,
1.1.4.1  haad 		    wl->wl_inohashcnt, wl->wl_error_count,
1.1.4.1  haad 		    wl->wl_reclaimable_bytes, wl->wl_reserved_bytes,
1.1.4.1  haad 		    wl->wl_unsynced_bufbytes));
1.1.4.1  haad 		SIMPLEQ_FOREACH(we, &wl->wl_entries, we_entries) {
1.1.4.1  haad 			WAPBL_PRINTF(WAPBL_PRINT_DISCARD,
1.1.4.1  haad 			    ("\tentry: bufcount = %zu, reclaimable = %zu, "
1.1.4.1  haad 			     "error = %d, unsynced = %zu\n",
1.1.4.1  haad 			     we->we_bufcount, we->we_reclaimable_bytes,
1.1.4.1  haad 			     we->we_error, we->we_unsynced_bufbytes));
1.1.4.1  haad 		}
1.1.4.1  haad #else /* !WAPBL_DEBUG_BUFBYTES */
1.1.4.1  haad 		WAPBL_PRINTF(WAPBL_PRINT_DISCARD,
1.1.4.1  haad 		    ("wapbl_discard: thread %d.%d discarding transaction\n"
1.1.4.1  haad 		    "\tbufcount=%zu bufbytes=%zu bcount=%zu "
1.1.4.1  haad 		    "deallocs=%d inodes=%d\n"
1.1.4.1  haad 		    "\terrcnt = %u, reclaimable=%zu reserved=%zu\n",
1.1.4.1  haad 		    pid, lid, wl->wl_bufcount, wl->wl_bufbytes,
1.1.4.1  haad 		    wl->wl_bcount, wl->wl_dealloccnt,
1.1.4.1  haad 		    wl->wl_inohashcnt, wl->wl_error_count,
1.1.4.1  haad 		    wl->wl_reclaimable_bytes, wl->wl_reserved_bytes));
1.1.4.1  haad 		SIMPLEQ_FOREACH(we, &wl->wl_entries, we_entries) {
1.1.4.1  haad 			WAPBL_PRINTF(WAPBL_PRINT_DISCARD,
1.1.4.1  haad 			    ("\tentry: bufcount = %zu, reclaimable = %zu, "
1.1.4.1  haad 			     "error = %d\n",
1.1.4.1  haad 			     we->we_bufcount, we->we_reclaimable_bytes,
1.1.4.1  haad 			     we->we_error));
1.1.4.1  haad 		}
1.1.4.1  haad #endif /* !WAPBL_DEBUG_BUFBYTES */
1.1.4.1  haad 	}
1.1.4.1  haad #endif /* WAPBL_DEBUG_PRINT */
1.1.4.1  haad
1.1.4.1  haad 	for (i = 0; i <= wl->wl_inohashmask; i++) {
1.1.4.1  haad 		struct wapbl_ino_head *wih;
1.1.4.1  haad 		struct wapbl_ino *wi;
1.1.4.1  haad
1.1.4.1  haad 		wih = &wl->wl_inohash[i];
1.1.4.1  haad 		while ((wi = LIST_FIRST(wih)) != NULL) {
1.1.4.1  haad 			LIST_REMOVE(wi, wi_hash);
1.1.4.1  haad 			pool_put(&wapbl_ino_pool, wi);
1.1.4.1  haad 			KASSERT(wl->wl_inohashcnt > 0);
1.1.4.1  haad 			wl->wl_inohashcnt--;
1.1.4.1  haad 		}
1.1.4.1  haad 	}
1.1.4.1  haad
1.1.4.1  haad 	/*
1.1.4.1  haad 	 * clean buffer list
1.1.4.1  haad 	 */
1.1.4.1  haad 	mutex_enter(&bufcache_lock);
1.1.4.1  haad 	mutex_enter(&wl->wl_mtx);
1.1.4.1  haad 	while ((bp = LIST_FIRST(&wl->wl_bufs)) != NULL) {
1.1.4.1  haad 		if (bbusy(bp, 0, 0, &wl->wl_mtx) == 0) {
1.1.4.1  haad 			/*
1.1.4.1  haad 			 * The buffer will be unlocked and
1.1.4.1  haad 			 * removed from the transaction in brelse
1.1.4.1  haad 			 */
1.1.4.1  haad 			mutex_exit(&wl->wl_mtx);
1.1.4.1  haad 			brelsel(bp, 0);
1.1.4.1  haad 			mutex_enter(&wl->wl_mtx);
1.1.4.1  haad 		}
1.1.4.1  haad 	}
1.1.4.1  haad 	mutex_exit(&wl->wl_mtx);
1.1.4.1  haad 	mutex_exit(&bufcache_lock);
1.1.4.1  haad
1.1.4.1  haad 	/*
1.1.4.1  haad 	 * Remove references to this wl from wl_entries, free any which
1.1.4.1  haad 	 * no longer have buffers, others will be freed in wapbl_biodone
1.1.4.1  haad 	 * when they no longer have any buffers.
1.1.4.1  haad 	 */
1.1.4.1  haad 	while ((we = SIMPLEQ_FIRST(&wl->wl_entries)) != NULL) {
1.1.4.1  haad 		SIMPLEQ_REMOVE_HEAD(&wl->wl_entries, we_entries);
1.1.4.1  haad 		/* XXX should we be accumulating wl_error_count
1.1.4.1  haad 		 * and increasing reclaimable bytes ? */
1.1.4.1  haad 		we->we_wapbl = NULL;
1.1.4.1  haad 		if (we->we_bufcount == 0) {
1.1.4.1  haad #ifdef WAPBL_DEBUG_BUFBYTES
1.1.4.1  haad 			KASSERT(we->we_unsynced_bufbytes == 0);
1.1.4.1  haad #endif
1.1.4.1  haad 			wapbl_free(we);
1.1.4.1  haad 		}
1.1.4.1  haad 	}
1.1.4.1  haad
1.1.4.1  haad 	/* Discard list of deallocs */
1.1.4.1  haad 	wl->wl_dealloccnt = 0;
1.1.4.1  haad 	/* XXX should we clear wl_reserved_bytes? */
1.1.4.1  haad
1.1.4.1  haad 	KASSERT(wl->wl_bufbytes == 0);
1.1.4.1  haad 	KASSERT(wl->wl_bcount == 0);
1.1.4.1  haad 	KASSERT(wl->wl_bufcount == 0);
1.1.4.1  haad 	KASSERT(LIST_EMPTY(&wl->wl_bufs));
1.1.4.1  haad 	KASSERT(SIMPLEQ_EMPTY(&wl->wl_entries));
1.1.4.1  haad 	KASSERT(wl->wl_inohashcnt == 0);
1.1.4.1  haad
1.1.4.1  haad 	rw_exit(&wl->wl_rwlock);
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad int
1.1.4.1  haad wapbl_stop(struct wapbl *wl, int force)
1.1.4.1  haad {
1.1.4.1  haad 	struct vnode *vp;
1.1.4.1  haad 	int error;
1.1.4.1  haad
1.1.4.1  haad 	WAPBL_PRINTF(WAPBL_PRINT_OPEN, ("wapbl_stop called\n"));
1.1.4.1  haad 	error = wapbl_flush(wl, 1);
1.1.4.1  haad 	if (error) {
1.1.4.1  haad 		if (force)
1.1.4.1  haad 			wapbl_discard(wl);
1.1.4.1  haad 		else
1.1.4.1  haad 			return error;
1.1.4.1  haad 	}
1.1.4.1  haad
1.1.4.1  haad 	/* Unlinked inodes persist after a flush */
1.1.4.1  haad 	if (wl->wl_inohashcnt) {
1.1.4.1  haad 		if (force) {
1.1.4.1  haad 			wapbl_discard(wl);
1.1.4.1  haad 		} else {
1.1.4.1  haad 			return EBUSY;
1.1.4.1  haad 		}
1.1.4.1  haad 	}
1.1.4.1  haad
1.1.4.1  haad 	KASSERT(wl->wl_bufbytes == 0);
1.1.4.1  haad 	KASSERT(wl->wl_bcount == 0);
1.1.4.1  haad 	KASSERT(wl->wl_bufcount == 0);
1.1.4.1  haad 	KASSERT(LIST_EMPTY(&wl->wl_bufs));
1.1.4.1  haad 	KASSERT(wl->wl_dealloccnt == 0);
1.1.4.1  haad 	KASSERT(SIMPLEQ_EMPTY(&wl->wl_entries));
1.1.4.1  haad 	KASSERT(wl->wl_inohashcnt == 0);
1.1.4.1  haad
1.1.4.1  haad 	vp = wl->wl_logvp;
1.1.4.1  haad
1.1.4.1  haad 	wapbl_free(wl->wl_wc_scratch);
1.1.4.1  haad 	wapbl_free(wl->wl_wc_header);
1.1.4.1  haad #if WAPBL_UVM_ALLOC
1.1.4.1  haad 	uvm_km_free_wakeup(kernel_map, (vaddr_t) wl->wl_deallocblks,
1.1.4.1  haad 			   round_page(sizeof(*wl->wl_deallocblks *
1.1.4.1  haad 			   	      wl->wl_dealloclim)));
1.1.4.1  haad 	uvm_km_free_wakeup(kernel_map, (vaddr_t) wl->wl_dealloclens,
1.1.4.1  haad 			   round_page(sizeof(*wl->wl_dealloclens *
1.1.4.1  haad 				      wl->wl_dealloclim)));
1.1.4.1  haad #else
1.1.4.1  haad 	wapbl_free(wl->wl_deallocblks);
1.1.4.1  haad 	wapbl_free(wl->wl_dealloclens);
1.1.4.1  haad #endif
1.1.4.1  haad 	wapbl_inodetrk_free(wl);
1.1.4.1  haad
1.1.4.1  haad 	cv_destroy(&wl->wl_reclaimable_cv);
1.1.4.1  haad 	mutex_destroy(&wl->wl_mtx);
1.1.4.1  haad 	rw_destroy(&wl->wl_rwlock);
1.1.4.1  haad 	wapbl_free(wl);
1.1.4.1  haad
1.1.4.1  haad 	return 0;
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad static int
1.1.4.1  haad wapbl_doio(void *data, size_t len, struct vnode *devvp, daddr_t pbn, int flags)
1.1.4.1  haad {
1.1.4.1  haad 	struct pstats *pstats = curlwp->l_proc->p_stats;
1.1.4.1  haad 	struct buf *bp;
1.1.4.1  haad 	int error;
1.1.4.1  haad
1.1.4.1  haad 	KASSERT((flags & ~(B_WRITE | B_READ)) == 0);
1.1.4.1  haad 	KASSERT(devvp->v_type == VBLK);
1.1.4.1  haad
1.1.4.1  haad 	if ((flags & (B_WRITE | B_READ)) == B_WRITE) {
1.1.4.1  haad 		mutex_enter(&devvp->v_interlock);
1.1.4.1  haad 		devvp->v_numoutput++;
1.1.4.1  haad 		mutex_exit(&devvp->v_interlock);
1.1.4.1  haad 		pstats->p_ru.ru_oublock++;
1.1.4.1  haad 	} else {
1.1.4.1  haad 		pstats->p_ru.ru_inblock++;
1.1.4.1  haad 	}
1.1.4.1  haad
1.1.4.1  haad 	bp = getiobuf(devvp, true);
1.1.4.1  haad 	bp->b_flags = flags;
1.1.4.1  haad 	bp->b_cflags = BC_BUSY; /* silly & dubious */
1.1.4.1  haad 	bp->b_dev = devvp->v_rdev;
1.1.4.1  haad 	bp->b_data = data;
1.1.4.1  haad 	bp->b_bufsize = bp->b_resid = bp->b_bcount = len;
1.1.4.1  haad 	bp->b_blkno = pbn;
1.1.4.1  haad
1.1.4.1  haad 	WAPBL_PRINTF(WAPBL_PRINT_IO,
1.1.4.1  haad 	    ("wapbl_doio: %s %d bytes at block %"PRId64" on dev 0x%x\n",
1.1.4.1  haad 	    BUF_ISWRITE(bp) ? "write" : "read", bp->b_bcount,
1.1.4.1  haad 	    bp->b_blkno, bp->b_dev));
1.1.4.1  haad
1.1.4.1  haad 	VOP_STRATEGY(devvp, bp);
1.1.4.1  haad
1.1.4.1  haad 	error = biowait(bp);
1.1.4.1  haad 	putiobuf(bp);
1.1.4.1  haad
1.1.4.1  haad 	if (error) {
1.1.4.1  haad 		WAPBL_PRINTF(WAPBL_PRINT_ERROR,
1.1.4.1  haad 		    ("wapbl_doio: %s %zu bytes at block %" PRId64
1.1.4.1  haad 		    " on dev 0x%x failed with error %d\n",
1.1.4.1  haad 		    (((flags & (B_WRITE | B_READ)) == B_WRITE) ?
1.1.4.1  haad 		     "write" : "read"),
1.1.4.1  haad 		    len, pbn, devvp->v_rdev, error));
1.1.4.1  haad 	}
1.1.4.1  haad
1.1.4.1  haad 	return error;
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad int
1.1.4.1  haad wapbl_write(void *data, size_t len, struct vnode *devvp, daddr_t pbn)
1.1.4.1  haad {
1.1.4.1  haad
1.1.4.1  haad 	return wapbl_doio(data, len, devvp, pbn, B_WRITE);
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad int
1.1.4.1  haad wapbl_read(void *data, size_t len, struct vnode *devvp, daddr_t pbn)
1.1.4.1  haad {
1.1.4.1  haad
1.1.4.1  haad 	return wapbl_doio(data, len, devvp, pbn, B_READ);
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad /*
1.1.4.1  haad  * Off is byte offset returns new offset for next write
1.1.4.1  haad  * handles log wraparound
1.1.4.1  haad  */
1.1.4.1  haad static int
1.1.4.1  haad wapbl_circ_write(struct wapbl *wl, void *data, size_t len, off_t *offp)
1.1.4.1  haad {
1.1.4.1  haad 	size_t slen;
1.1.4.1  haad 	off_t off = *offp;
1.1.4.1  haad 	int error;
1.1.4.1  haad
1.1.4.1  haad 	KDASSERT(((len >> wl->wl_log_dev_bshift) <<
1.1.4.1  haad 	    wl->wl_log_dev_bshift) == len);
1.1.4.1  haad
1.1.4.1  haad 	if (off < wl->wl_circ_off)
1.1.4.1  haad 		off = wl->wl_circ_off;
1.1.4.1  haad 	slen = wl->wl_circ_off + wl->wl_circ_size - off;
1.1.4.1  haad 	if (slen < len) {
1.1.4.1  haad 		error = wapbl_write(data, slen, wl->wl_devvp,
1.1.4.1  haad 		    wl->wl_logpbn + (off >> wl->wl_log_dev_bshift));
1.1.4.1  haad 		if (error)
1.1.4.1  haad 			return error;
1.1.4.1  haad 		data = (uint8_t *)data + slen;
1.1.4.1  haad 		len -= slen;
1.1.4.1  haad 		off = wl->wl_circ_off;
1.1.4.1  haad 	}
1.1.4.1  haad 	error = wapbl_write(data, len, wl->wl_devvp,
1.1.4.1  haad 			    wl->wl_logpbn + (off >> wl->wl_log_dev_bshift));
1.1.4.1  haad 	if (error)
1.1.4.1  haad 		return error;
1.1.4.1  haad 	off += len;
1.1.4.1  haad 	if (off >= wl->wl_circ_off + wl->wl_circ_size)
1.1.4.1  haad 		off = wl->wl_circ_off;
1.1.4.1  haad 	*offp = off;
1.1.4.1  haad 	return 0;
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad /****************************************************************/
1.1.4.1  haad
1.1.4.1  haad int
1.1.4.1  haad wapbl_begin(struct wapbl *wl, const char *file, int line)
1.1.4.1  haad {
1.1.4.1  haad 	int doflush;
1.1.4.1  haad 	unsigned lockcount;
1.1.4.1  haad 	krw_t op;
1.1.4.1  haad
1.1.4.1  haad 	KDASSERT(wl);
1.1.4.1  haad
1.1.4.1  haad /*
1.1.4.1  haad  *	XXX: The original code calls for the use of a RW_READER lock
1.1.4.1  haad  *	here, but it turns out there are performance issues with high
1.1.4.1  haad  *	metadata-rate workloads (e.g. multiple simultaneous tar
1.1.4.1  haad  *	extractions).  For now, we force the lock to be RW_WRITER,
1.1.4.1  haad  *	since that currently has the best performance characteristics
1.1.4.1  haad  *	(even for a single tar-file extraction).
1.1.4.1  haad  *
1.1.4.1  haad  */
1.1.4.1  haad #define WAPBL_DEBUG_SERIALIZE 1
1.1.4.1  haad
1.1.4.1  haad #ifdef WAPBL_DEBUG_SERIALIZE
1.1.4.1  haad 	op = RW_WRITER;
1.1.4.1  haad #else
1.1.4.1  haad 	op = RW_READER;
1.1.4.1  haad #endif
1.1.4.1  haad
1.1.4.1  haad 	/*
1.1.4.1  haad 	 * XXX this needs to be made much more sophisticated.
1.1.4.1  haad 	 * perhaps each wapbl_begin could reserve a specified
1.1.4.1  haad 	 * number of buffers and bytes.
1.1.4.1  haad 	 */
1.1.4.1  haad 	mutex_enter(&wl->wl_mtx);
1.1.4.1  haad 	lockcount = wl->wl_lock_count;
1.1.4.1  haad 	doflush = ((wl->wl_bufbytes + (lockcount * MAXPHYS)) >
1.1.4.1  haad 		   wl->wl_bufbytes_max / 2) ||
1.1.4.1  haad 		  ((wl->wl_bufcount + (lockcount * 10)) >
1.1.4.1  haad 		   wl->wl_bufcount_max / 2) ||
1.1.4.1  haad 		  (wapbl_transaction_len(wl) > wl->wl_circ_size / 2);
1.1.4.1  haad 	mutex_exit(&wl->wl_mtx);
1.1.4.1  haad
1.1.4.1  haad 	if (doflush) {
1.1.4.1  haad 		WAPBL_PRINTF(WAPBL_PRINT_FLUSH,
1.1.4.1  haad 		    ("force flush lockcnt=%d bufbytes=%zu "
1.1.4.1  haad 		    "(max=%zu) bufcount=%zu (max=%zu)\n",
1.1.4.1  haad 		    lockcount, wl->wl_bufbytes,
1.1.4.1  haad 		    wl->wl_bufbytes_max, wl->wl_bufcount,
1.1.4.1  haad 		    wl->wl_bufcount_max));
1.1.4.1  haad 	}
1.1.4.1  haad
1.1.4.1  haad 	if (doflush) {
1.1.4.1  haad 		int error = wapbl_flush(wl, 0);
1.1.4.1  haad 		if (error)
1.1.4.1  haad 			return error;
1.1.4.1  haad 	}
1.1.4.1  haad
1.1.4.1  haad 	rw_enter(&wl->wl_rwlock, op);
1.1.4.1  haad 	mutex_enter(&wl->wl_mtx);
1.1.4.1  haad 	wl->wl_lock_count++;
1.1.4.1  haad 	mutex_exit(&wl->wl_mtx);
1.1.4.1  haad
1.1.4.1  haad #if defined(WAPBL_DEBUG_PRINT) && defined(WAPBL_DEBUG_SERIALIZE)
1.1.4.1  haad 	WAPBL_PRINTF(WAPBL_PRINT_TRANSACTION,
1.1.4.1  haad 	    ("wapbl_begin thread %d.%d with bufcount=%zu "
1.1.4.1  haad 	    "bufbytes=%zu bcount=%zu at %s:%d\n",
1.1.4.1  haad 	    curproc->p_pid, curlwp->l_lid, wl->wl_bufcount,
1.1.4.1  haad 	    wl->wl_bufbytes, wl->wl_bcount, file, line));
1.1.4.1  haad #endif
1.1.4.1  haad
1.1.4.1  haad 	return 0;
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad void
1.1.4.1  haad wapbl_end(struct wapbl *wl)
1.1.4.1  haad {
1.1.4.1  haad
1.1.4.1  haad #if defined(WAPBL_DEBUG_PRINT) && defined(WAPBL_DEBUG_SERIALIZE)
1.1.4.1  haad 	WAPBL_PRINTF(WAPBL_PRINT_TRANSACTION,
1.1.4.1  haad 	     ("wapbl_end thread %d.%d with bufcount=%zu "
1.1.4.1  haad 	      "bufbytes=%zu bcount=%zu\n",
1.1.4.1  haad 	      curproc->p_pid, curlwp->l_lid, wl->wl_bufcount,
1.1.4.1  haad 	      wl->wl_bufbytes, wl->wl_bcount));
1.1.4.1  haad #endif
1.1.4.1  haad
1.1.4.1  haad 	mutex_enter(&wl->wl_mtx);
1.1.4.1  haad 	KASSERT(wl->wl_lock_count > 0);
1.1.4.1  haad 	wl->wl_lock_count--;
1.1.4.1  haad 	mutex_exit(&wl->wl_mtx);
1.1.4.1  haad
1.1.4.1  haad 	rw_exit(&wl->wl_rwlock);
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad void
1.1.4.1  haad wapbl_add_buf(struct wapbl *wl, struct buf * bp)
1.1.4.1  haad {
1.1.4.1  haad
1.1.4.1  haad 	KASSERT(bp->b_cflags & BC_BUSY);
1.1.4.1  haad 	KASSERT(bp->b_vp);
1.1.4.1  haad
1.1.4.1  haad 	wapbl_jlock_assert(wl);
1.1.4.1  haad
1.1.4.1  haad #if 0
1.1.4.1  haad 	/*
1.1.4.1  haad 	 * XXX this might be an issue for swapfiles.
1.1.4.1  haad 	 * see uvm_swap.c:1702
1.1.4.1  haad 	 *
1.1.4.1  haad 	 * XXX2 why require it then?  leap of semantics?
1.1.4.1  haad 	 */
1.1.4.1  haad 	KASSERT((bp->b_cflags & BC_NOCACHE) == 0);
1.1.4.1  haad #endif
1.1.4.1  haad
1.1.4.1  haad 	mutex_enter(&wl->wl_mtx);
1.1.4.1  haad 	if (bp->b_flags & B_LOCKED) {
1.1.4.1  haad 		LIST_REMOVE(bp, b_wapbllist);
1.1.4.1  haad 		WAPBL_PRINTF(WAPBL_PRINT_BUFFER2,
1.1.4.1  haad 		   ("wapbl_add_buf thread %d.%d re-adding buf %p "
1.1.4.1  haad 		    "with %d bytes %d bcount\n",
1.1.4.1  haad 		    curproc->p_pid, curlwp->l_lid, bp, bp->b_bufsize,
1.1.4.1  haad 		    bp->b_bcount));
1.1.4.1  haad 	} else {
1.1.4.1  haad 		/* unlocked by dirty buffers shouldn't exist */
1.1.4.1  haad 		KASSERT(!(bp->b_oflags & BO_DELWRI));
1.1.4.1  haad 		wl->wl_bufbytes += bp->b_bufsize;
1.1.4.1  haad 		wl->wl_bcount += bp->b_bcount;
1.1.4.1  haad 		wl->wl_bufcount++;
1.1.4.1  haad 		WAPBL_PRINTF(WAPBL_PRINT_BUFFER,
1.1.4.1  haad 		   ("wapbl_add_buf thread %d.%d adding buf %p "
1.1.4.1  haad 		    "with %d bytes %d bcount\n",
1.1.4.1  haad 		    curproc->p_pid, curlwp->l_lid, bp, bp->b_bufsize,
1.1.4.1  haad 		    bp->b_bcount));
1.1.4.1  haad 	}
1.1.4.1  haad 	LIST_INSERT_HEAD(&wl->wl_bufs, bp, b_wapbllist);
1.1.4.1  haad 	mutex_exit(&wl->wl_mtx);
1.1.4.1  haad
1.1.4.1  haad 	bp->b_flags |= B_LOCKED;
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad static void
1.1.4.1  haad wapbl_remove_buf_locked(struct wapbl * wl, struct buf *bp)
1.1.4.1  haad {
1.1.4.1  haad
1.1.4.1  haad 	KASSERT(mutex_owned(&wl->wl_mtx));
1.1.4.1  haad 	KASSERT(bp->b_cflags & BC_BUSY);
1.1.4.1  haad 	wapbl_jlock_assert(wl);
1.1.4.1  haad
1.1.4.1  haad #if 0
1.1.4.1  haad 	/*
1.1.4.1  haad 	 * XXX this might be an issue for swapfiles.
1.1.4.1  haad 	 * see uvm_swap.c:1725
1.1.4.1  haad 	 *
1.1.4.1  haad 	 * XXXdeux: see above
1.1.4.1  haad 	 */
1.1.4.1  haad 	KASSERT((bp->b_flags & BC_NOCACHE) == 0);
1.1.4.1  haad #endif
1.1.4.1  haad 	KASSERT(bp->b_flags & B_LOCKED);
1.1.4.1  haad
1.1.4.1  haad 	WAPBL_PRINTF(WAPBL_PRINT_BUFFER,
1.1.4.1  haad 	   ("wapbl_remove_buf thread %d.%d removing buf %p with "
1.1.4.1  haad 	    "%d bytes %d bcount\n",
1.1.4.1  haad 	    curproc->p_pid, curlwp->l_lid, bp, bp->b_bufsize, bp->b_bcount));
1.1.4.1  haad
1.1.4.1  haad 	KASSERT(wl->wl_bufbytes >= bp->b_bufsize);
1.1.4.1  haad 	wl->wl_bufbytes -= bp->b_bufsize;
1.1.4.1  haad 	KASSERT(wl->wl_bcount >= bp->b_bcount);
1.1.4.1  haad 	wl->wl_bcount -= bp->b_bcount;
1.1.4.1  haad 	KASSERT(wl->wl_bufcount > 0);
1.1.4.1  haad 	wl->wl_bufcount--;
1.1.4.1  haad 	KASSERT((wl->wl_bufcount == 0) == (wl->wl_bufbytes == 0));
1.1.4.1  haad 	KASSERT((wl->wl_bufcount == 0) == (wl->wl_bcount == 0));
1.1.4.1  haad 	LIST_REMOVE(bp, b_wapbllist);
1.1.4.1  haad
1.1.4.1  haad 	bp->b_flags &= ~B_LOCKED;
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad /* called from brelsel() in vfs_bio among other places */
1.1.4.1  haad void
1.1.4.1  haad wapbl_remove_buf(struct wapbl * wl, struct buf *bp)
1.1.4.1  haad {
1.1.4.1  haad
1.1.4.1  haad 	mutex_enter(&wl->wl_mtx);
1.1.4.1  haad 	wapbl_remove_buf_locked(wl, bp);
1.1.4.1  haad 	mutex_exit(&wl->wl_mtx);
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad void
1.1.4.1  haad wapbl_resize_buf(struct wapbl *wl, struct buf *bp, long oldsz, long oldcnt)
1.1.4.1  haad {
1.1.4.1  haad
1.1.4.1  haad 	KASSERT(bp->b_cflags & BC_BUSY);
1.1.4.1  haad
1.1.4.1  haad 	/*
1.1.4.1  haad 	 * XXX: why does this depend on B_LOCKED?  otherwise the buf
1.1.4.1  haad 	 * is not for a transaction?  if so, why is this called in the
1.1.4.1  haad 	 * first place?
1.1.4.1  haad 	 */
1.1.4.1  haad 	if (bp->b_flags & B_LOCKED) {
1.1.4.1  haad 		mutex_enter(&wl->wl_mtx);
1.1.4.1  haad 		wl->wl_bufbytes += bp->b_bufsize - oldsz;
1.1.4.1  haad 		wl->wl_bcount += bp->b_bcount - oldcnt;
1.1.4.1  haad 		mutex_exit(&wl->wl_mtx);
1.1.4.1  haad 	}
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad #endif /* _KERNEL */
1.1.4.1  haad
1.1.4.1  haad /****************************************************************/
1.1.4.1  haad /* Some utility inlines */
1.1.4.1  haad
1.1.4.1  haad /* This is used to advance the pointer at old to new value at old+delta */
1.1.4.1  haad static __inline off_t
1.1.4.1  haad wapbl_advance(size_t size, size_t off, off_t old, size_t delta)
1.1.4.1  haad {
1.1.4.1  haad 	off_t new;
1.1.4.1  haad
1.1.4.1  haad 	/* Define acceptable ranges for inputs. */
1.1.4.1  haad 	KASSERT(delta <= size);
1.1.4.1  haad 	KASSERT((old == 0) || (old >= off));
1.1.4.1  haad 	KASSERT(old < (size + off));
1.1.4.1  haad
1.1.4.1  haad 	if ((old == 0) && (delta != 0))
1.1.4.1  haad 		new = off + delta;
1.1.4.1  haad 	else if ((old + delta) < (size + off))
1.1.4.1  haad 		new = old + delta;
1.1.4.1  haad 	else
1.1.4.1  haad 		new = (old + delta) - size;
1.1.4.1  haad
1.1.4.1  haad 	/* Note some interesting axioms */
1.1.4.1  haad 	KASSERT((delta != 0) || (new == old));
1.1.4.1  haad 	KASSERT((delta == 0) || (new != 0));
1.1.4.1  haad 	KASSERT((delta != (size)) || (new == old));
1.1.4.1  haad
1.1.4.1  haad 	/* Define acceptable ranges for output. */
1.1.4.1  haad 	KASSERT((new == 0) || (new >= off));
1.1.4.1  haad 	KASSERT(new < (size + off));
1.1.4.1  haad 	return new;
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad static __inline size_t
1.1.4.1  haad wapbl_space_used(size_t avail, off_t head, off_t tail)
1.1.4.1  haad {
1.1.4.1  haad
1.1.4.1  haad 	if (tail == 0) {
1.1.4.1  haad 		KASSERT(head == 0);
1.1.4.1  haad 		return 0;
1.1.4.1  haad 	}
1.1.4.1  haad 	return ((head + (avail - 1) - tail) % avail) + 1;
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad static __inline size_t
1.1.4.1  haad wapbl_space_free(size_t avail, off_t head, off_t tail)
1.1.4.1  haad {
1.1.4.1  haad
1.1.4.1  haad 	return avail - wapbl_space_used(avail, head, tail);
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad static __inline void
1.1.4.1  haad wapbl_advance_head(size_t size, size_t off, size_t delta, off_t *headp,
1.1.4.1  haad 		   off_t *tailp)
1.1.4.1  haad {
1.1.4.1  haad 	off_t head = *headp;
1.1.4.1  haad 	off_t tail = *tailp;
1.1.4.1  haad
1.1.4.1  haad 	KASSERT(delta <= wapbl_space_free(size, head, tail));
1.1.4.1  haad 	head = wapbl_advance(size, off, head, delta);
1.1.4.1  haad 	if ((tail == 0) && (head != 0))
1.1.4.1  haad 		tail = off;
1.1.4.1  haad 	*headp = head;
1.1.4.1  haad 	*tailp = tail;
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad static __inline void
1.1.4.1  haad wapbl_advance_tail(size_t size, size_t off, size_t delta, off_t *headp,
1.1.4.1  haad 		   off_t *tailp)
1.1.4.1  haad {
1.1.4.1  haad 	off_t head = *headp;
1.1.4.1  haad 	off_t tail = *tailp;
1.1.4.1  haad
1.1.4.1  haad 	KASSERT(delta <= wapbl_space_used(size, head, tail));
1.1.4.1  haad 	tail = wapbl_advance(size, off, tail, delta);
1.1.4.1  haad 	if (head == tail) {
1.1.4.1  haad 		head = tail = 0;
1.1.4.1  haad 	}
1.1.4.1  haad 	*headp = head;
1.1.4.1  haad 	*tailp = tail;
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad #ifdef _KERNEL
1.1.4.1  haad
1.1.4.1  haad /****************************************************************/
1.1.4.1  haad
1.1.4.1  haad /*
1.1.4.1  haad  * Remove transactions whose buffers are completely flushed to disk.
1.1.4.1  haad  * Will block until at least minfree space is available.
1.1.4.1  haad  * only intended to be called from inside wapbl_flush and therefore
1.1.4.1  haad  * does not protect against commit races with itself or with flush.
1.1.4.1  haad  */
1.1.4.1  haad static int
1.1.4.1  haad wapbl_truncate(struct wapbl *wl, size_t minfree, int waitonly)
1.1.4.1  haad {
1.1.4.1  haad 	size_t delta;
1.1.4.1  haad 	size_t avail;
1.1.4.1  haad 	off_t head;
1.1.4.1  haad 	off_t tail;
1.1.4.1  haad 	int error = 0;
1.1.4.1  haad
1.1.4.1  haad 	KASSERT(minfree <= (wl->wl_circ_size - wl->wl_reserved_bytes));
1.1.4.1  haad 	KASSERT(rw_write_held(&wl->wl_rwlock));
1.1.4.1  haad
1.1.4.1  haad 	mutex_enter(&wl->wl_mtx);
1.1.4.1  haad
1.1.4.1  haad 	/*
1.1.4.1  haad 	 * First check to see if we have to do a commit
1.1.4.1  haad 	 * at all.
1.1.4.1  haad 	 */
1.1.4.1  haad 	avail = wapbl_space_free(wl->wl_circ_size, wl->wl_head, wl->wl_tail);
1.1.4.1  haad 	if (minfree < avail) {
1.1.4.1  haad 		mutex_exit(&wl->wl_mtx);
1.1.4.1  haad 		return 0;
1.1.4.1  haad 	}
1.1.4.1  haad 	minfree -= avail;
1.1.4.1  haad 	while ((wl->wl_error_count == 0) &&
1.1.4.1  haad 	    (wl->wl_reclaimable_bytes < minfree)) {
1.1.4.1  haad         	WAPBL_PRINTF(WAPBL_PRINT_TRUNCATE,
1.1.4.1  haad                    ("wapbl_truncate: sleeping on %p wl=%p bytes=%zd "
1.1.4.1  haad 		    "minfree=%zd\n",
1.1.4.1  haad                     &wl->wl_reclaimable_bytes, wl, wl->wl_reclaimable_bytes,
1.1.4.1  haad 		    minfree));
1.1.4.1  haad
1.1.4.1  haad 		cv_wait(&wl->wl_reclaimable_cv, &wl->wl_mtx);
1.1.4.1  haad 	}
1.1.4.1  haad 	if (wl->wl_reclaimable_bytes < minfree) {
1.1.4.1  haad 		KASSERT(wl->wl_error_count);
1.1.4.1  haad 		/* XXX maybe get actual error from buffer instead someday? */
1.1.4.1  haad 		error = EIO;
1.1.4.1  haad 	}
1.1.4.1  haad 	head = wl->wl_head;
1.1.4.1  haad 	tail = wl->wl_tail;
1.1.4.1  haad 	delta = wl->wl_reclaimable_bytes;
1.1.4.1  haad
1.1.4.1  haad 	/* If all of of the entries are flushed, then be sure to keep
1.1.4.1  haad 	 * the reserved bytes reserved.  Watch out for discarded transactions,
1.1.4.1  haad 	 * which could leave more bytes reserved than are reclaimable.
1.1.4.1  haad 	 */
1.1.4.1  haad 	if (SIMPLEQ_EMPTY(&wl->wl_entries) &&
1.1.4.1  haad 	    (delta >= wl->wl_reserved_bytes)) {
1.1.4.1  haad 		delta -= wl->wl_reserved_bytes;
1.1.4.1  haad 	}
1.1.4.1  haad 	wapbl_advance_tail(wl->wl_circ_size, wl->wl_circ_off, delta, &head,
1.1.4.1  haad 			   &tail);
1.1.4.1  haad 	KDASSERT(wl->wl_reserved_bytes <=
1.1.4.1  haad 		wapbl_space_used(wl->wl_circ_size, head, tail));
1.1.4.1  haad 	mutex_exit(&wl->wl_mtx);
1.1.4.1  haad
1.1.4.1  haad 	if (error)
1.1.4.1  haad 		return error;
1.1.4.1  haad
1.1.4.1  haad 	if (waitonly)
1.1.4.1  haad 		return 0;
1.1.4.1  haad
1.1.4.1  haad 	/*
1.1.4.1  haad 	 * This is where head, tail and delta are unprotected
1.1.4.1  haad 	 * from races against itself or flush.  This is ok since
1.1.4.1  haad 	 * we only call this routine from inside flush itself.
1.1.4.1  haad 	 *
1.1.4.1  haad 	 * XXX: how can it race against itself when accessed only
1.1.4.1  haad 	 * from behind the write-locked rwlock?
1.1.4.1  haad 	 */
1.1.4.1  haad 	error = wapbl_write_commit(wl, head, tail);
1.1.4.1  haad 	if (error)
1.1.4.1  haad 		return error;
1.1.4.1  haad
1.1.4.1  haad 	wl->wl_head = head;
1.1.4.1  haad 	wl->wl_tail = tail;
1.1.4.1  haad
1.1.4.1  haad 	mutex_enter(&wl->wl_mtx);
1.1.4.1  haad 	KASSERT(wl->wl_reclaimable_bytes >= delta);
1.1.4.1  haad 	wl->wl_reclaimable_bytes -= delta;
1.1.4.1  haad 	mutex_exit(&wl->wl_mtx);
1.1.4.1  haad 	WAPBL_PRINTF(WAPBL_PRINT_TRUNCATE,
1.1.4.1  haad 	    ("wapbl_truncate thread %d.%d truncating %zu bytes\n",
1.1.4.1  haad 	    curproc->p_pid, curlwp->l_lid, delta));
1.1.4.1  haad
1.1.4.1  haad 	return 0;
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad /****************************************************************/
1.1.4.1  haad
1.1.4.1  haad void
1.1.4.1  haad wapbl_biodone(struct buf *bp)
1.1.4.1  haad {
1.1.4.1  haad 	struct wapbl_entry *we = bp->b_private;
1.1.4.1  haad 	struct wapbl *wl = we->we_wapbl;
1.1.4.1  haad
1.1.4.1  haad 	/*
1.1.4.1  haad 	 * Handle possible flushing of buffers after log has been
1.1.4.1  haad 	 * decomissioned.
1.1.4.1  haad 	 */
1.1.4.1  haad 	if (!wl) {
1.1.4.1  haad 		KASSERT(we->we_bufcount > 0);
1.1.4.1  haad 		we->we_bufcount--;
1.1.4.1  haad #ifdef WAPBL_DEBUG_BUFBYTES
1.1.4.1  haad 		KASSERT(we->we_unsynced_bufbytes >= bp->b_bufsize);
1.1.4.1  haad 		we->we_unsynced_bufbytes -= bp->b_bufsize;
1.1.4.1  haad #endif
1.1.4.1  haad
1.1.4.1  haad 		if (we->we_bufcount == 0) {
1.1.4.1  haad #ifdef WAPBL_DEBUG_BUFBYTES
1.1.4.1  haad 			KASSERT(we->we_unsynced_bufbytes == 0);
1.1.4.1  haad #endif
1.1.4.1  haad 			wapbl_free(we);
1.1.4.1  haad 		}
1.1.4.1  haad
1.1.4.1  haad 		brelse(bp, 0);
1.1.4.1  haad 		return;
1.1.4.1  haad 	}
1.1.4.1  haad
1.1.4.1  haad #ifdef ohbother
1.1.4.1  haad 	KDASSERT(bp->b_flags & B_DONE);
1.1.4.1  haad 	KDASSERT(!(bp->b_flags & B_DELWRI));
1.1.4.1  haad 	KDASSERT(bp->b_flags & B_ASYNC);
1.1.4.1  haad 	KDASSERT(bp->b_flags & B_BUSY);
1.1.4.1  haad 	KDASSERT(!(bp->b_flags & B_LOCKED));
1.1.4.1  haad 	KDASSERT(!(bp->b_flags & B_READ));
1.1.4.1  haad 	KDASSERT(!(bp->b_flags & B_INVAL));
1.1.4.1  haad 	KDASSERT(!(bp->b_flags & B_NOCACHE));
1.1.4.1  haad #endif
1.1.4.1  haad
1.1.4.1  haad 	if (bp->b_error) {
1.1.4.1  haad #ifdef notyet /* Can't currently handle possible dirty buffer reuse */
1.1.4.1  haad 		XXXpooka: interfaces not fully updated
1.1.4.1  haad 		Note: this was not enabled in the original patch
1.1.4.1  haad 		against netbsd4 either.  I don't know if comment
1.1.4.1  haad 		above is true or not.
1.1.4.1  haad
1.1.4.1  haad 		/*
1.1.4.1  haad 		 * If an error occurs, report the error and leave the
1.1.4.1  haad 		 * buffer as a delayed write on the LRU queue.
1.1.4.1  haad 		 * restarting the write would likely result in
1.1.4.1  haad 		 * an error spinloop, so let it be done harmlessly
1.1.4.1  haad 		 * by the syncer.
1.1.4.1  haad 		 */
1.1.4.1  haad 		bp->b_flags &= ~(B_DONE);
1.1.4.1  haad 		simple_unlock(&bp->b_interlock);
1.1.4.1  haad
1.1.4.1  haad 		if (we->we_error == 0) {
1.1.4.1  haad 			mutex_enter(&wl->wl_mtx);
1.1.4.1  haad 			wl->wl_error_count++;
1.1.4.1  haad 			mutex_exit(&wl->wl_mtx);
1.1.4.1  haad 			cv_broadcast(&wl->wl_reclaimable_cv);
1.1.4.1  haad 		}
1.1.4.1  haad 		we->we_error = bp->b_error;
1.1.4.1  haad 		bp->b_error = 0;
1.1.4.1  haad 		brelse(bp);
1.1.4.1  haad 		return;
1.1.4.1  haad #else
1.1.4.1  haad 		/* For now, just mark the log permanently errored out */
1.1.4.1  haad
1.1.4.1  haad 		mutex_enter(&wl->wl_mtx);
1.1.4.1  haad 		if (wl->wl_error_count == 0) {
1.1.4.1  haad 			wl->wl_error_count++;
1.1.4.1  haad 			cv_broadcast(&wl->wl_reclaimable_cv);
1.1.4.1  haad 		}
1.1.4.1  haad 		mutex_exit(&wl->wl_mtx);
1.1.4.1  haad #endif
1.1.4.1  haad 	}
1.1.4.1  haad
1.1.4.1  haad 	mutex_enter(&wl->wl_mtx);
1.1.4.1  haad
1.1.4.1  haad 	KASSERT(we->we_bufcount > 0);
1.1.4.1  haad 	we->we_bufcount--;
1.1.4.1  haad #ifdef WAPBL_DEBUG_BUFBYTES
1.1.4.1  haad 	KASSERT(we->we_unsynced_bufbytes >= bp->b_bufsize);
1.1.4.1  haad 	we->we_unsynced_bufbytes -= bp->b_bufsize;
1.1.4.1  haad 	KASSERT(wl->wl_unsynced_bufbytes >= bp->b_bufsize);
1.1.4.1  haad 	wl->wl_unsynced_bufbytes -= bp->b_bufsize;
1.1.4.1  haad #endif
1.1.4.1  haad
1.1.4.1  haad 	/*
1.1.4.1  haad 	 * If the current transaction can be reclaimed, start
1.1.4.1  haad 	 * at the beginning and reclaim any consecutive reclaimable
1.1.4.1  haad 	 * transactions.  If we successfully reclaim anything,
1.1.4.1  haad 	 * then wakeup anyone waiting for the reclaim.
1.1.4.1  haad 	 */
1.1.4.1  haad 	if (we->we_bufcount == 0) {
1.1.4.1  haad 		size_t delta = 0;
1.1.4.1  haad 		int errcnt = 0;
1.1.4.1  haad #ifdef WAPBL_DEBUG_BUFBYTES
1.1.4.1  haad 		KDASSERT(we->we_unsynced_bufbytes == 0);
1.1.4.1  haad #endif
1.1.4.1  haad 		/*
1.1.4.1  haad 		 * clear any posted error, since the buffer it came from
1.1.4.1  haad 		 * has successfully flushed by now
1.1.4.1  haad 		 */
1.1.4.1  haad 		while ((we = SIMPLEQ_FIRST(&wl->wl_entries)) &&
1.1.4.1  haad 		       (we->we_bufcount == 0)) {
1.1.4.1  haad 			delta += we->we_reclaimable_bytes;
1.1.4.1  haad 			if (we->we_error)
1.1.4.1  haad 				errcnt++;
1.1.4.1  haad 			SIMPLEQ_REMOVE_HEAD(&wl->wl_entries, we_entries);
1.1.4.1  haad 			wapbl_free(we);
1.1.4.1  haad 		}
1.1.4.1  haad
1.1.4.1  haad 		if (delta) {
1.1.4.1  haad 			wl->wl_reclaimable_bytes += delta;
1.1.4.1  haad 			KASSERT(wl->wl_error_count >= errcnt);
1.1.4.1  haad 			wl->wl_error_count -= errcnt;
1.1.4.1  haad 			cv_broadcast(&wl->wl_reclaimable_cv);
1.1.4.1  haad 		}
1.1.4.1  haad 	}
1.1.4.1  haad
1.1.4.1  haad 	mutex_exit(&wl->wl_mtx);
1.1.4.1  haad 	brelse(bp, 0);
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad /*
1.1.4.1  haad  * Write transactions to disk + start I/O for contents
1.1.4.1  haad  */
1.1.4.1  haad int
1.1.4.1  haad wapbl_flush(struct wapbl *wl, int waitfor)
1.1.4.1  haad {
1.1.4.1  haad 	struct buf *bp;
1.1.4.1  haad 	struct wapbl_entry *we;
1.1.4.1  haad 	off_t off;
1.1.4.1  haad 	off_t head;
1.1.4.1  haad 	off_t tail;
1.1.4.1  haad 	size_t delta = 0;
1.1.4.1  haad 	size_t flushsize;
1.1.4.1  haad 	size_t reserved;
1.1.4.1  haad 	int error = 0;
1.1.4.1  haad
1.1.4.1  haad 	/*
1.1.4.1  haad 	 * Do a quick check to see if a full flush can be skipped
1.1.4.1  haad 	 * This assumes that the flush callback does not need to be called
1.1.4.1  haad 	 * unless there are other outstanding bufs.
1.1.4.1  haad 	 */
1.1.4.1  haad 	if (!waitfor) {
1.1.4.1  haad 		size_t nbufs;
1.1.4.1  haad 		mutex_enter(&wl->wl_mtx);	/* XXX need mutex here to
1.1.4.1  haad 						   protect the KASSERTS */
1.1.4.1  haad 		nbufs = wl->wl_bufcount;
1.1.4.1  haad 		KASSERT((wl->wl_bufcount == 0) == (wl->wl_bufbytes == 0));
1.1.4.1  haad 		KASSERT((wl->wl_bufcount == 0) == (wl->wl_bcount == 0));
1.1.4.1  haad 		mutex_exit(&wl->wl_mtx);
1.1.4.1  haad 		if (nbufs == 0)
1.1.4.1  haad 			return 0;
1.1.4.1  haad 	}
1.1.4.1  haad
1.1.4.1  haad 	/*
1.1.4.1  haad 	 * XXX we may consider using LK_UPGRADE here
1.1.4.1  haad 	 * if we want to call flush from inside a transaction
1.1.4.1  haad 	 */
1.1.4.1  haad 	rw_enter(&wl->wl_rwlock, RW_WRITER);
1.1.4.1  haad 	wl->wl_flush(wl->wl_mount, wl->wl_deallocblks, wl->wl_dealloclens,
1.1.4.1  haad 	    wl->wl_dealloccnt);
1.1.4.1  haad
1.1.4.1  haad 	/*
1.1.4.1  haad 	 * Now that we are fully locked and flushed,
1.1.4.1  haad 	 * do another check for nothing to do.
1.1.4.1  haad 	 */
1.1.4.1  haad 	if (wl->wl_bufcount == 0) {
1.1.4.1  haad 		goto out;
1.1.4.1  haad 	}
1.1.4.1  haad
1.1.4.1  haad #if 0
1.1.4.1  haad 	WAPBL_PRINTF(WAPBL_PRINT_FLUSH,
1.1.4.1  haad 		     ("wapbl_flush thread %d.%d flushing entries with "
1.1.4.1  haad 		      "bufcount=%zu bufbytes=%zu\n",
1.1.4.1  haad 		      curproc->p_pid, curlwp->l_lid, wl->wl_bufcount,
1.1.4.1  haad 		      wl->wl_bufbytes));
1.1.4.1  haad #endif
1.1.4.1  haad
1.1.4.1  haad 	/* Calculate amount of space needed to flush */
1.1.4.1  haad 	flushsize = wapbl_transaction_len(wl);
1.1.4.1  haad
1.1.4.1  haad 	if (flushsize > (wl->wl_circ_size - wl->wl_reserved_bytes)) {
1.1.4.1  haad 		/*
1.1.4.1  haad 		 * XXX this could be handled more gracefully, perhaps place
1.1.4.1  haad 		 * only a partial transaction in the log and allow the
1.1.4.1  haad 		 * remaining to flush without the protection of the journal.
1.1.4.1  haad 		 */
1.1.4.1  haad 		panic("wapbl_flush: current transaction too big to flush\n");
1.1.4.1  haad 	}
1.1.4.1  haad
1.1.4.1  haad 	error = wapbl_truncate(wl, flushsize, 0);
1.1.4.1  haad 	if (error)
1.1.4.1  haad 		goto out2;
1.1.4.1  haad
1.1.4.1  haad 	off = wl->wl_head;
1.1.4.1  haad 	KASSERT((off == 0) || ((off >= wl->wl_circ_off) &&
1.1.4.1  haad 	                      (off < wl->wl_circ_off + wl->wl_circ_size)));
1.1.4.1  haad 	error = wapbl_write_blocks(wl, &off);
1.1.4.1  haad 	if (error)
1.1.4.1  haad 		goto out2;
1.1.4.1  haad 	error = wapbl_write_revocations(wl, &off);
1.1.4.1  haad 	if (error)
1.1.4.1  haad 		goto out2;
1.1.4.1  haad 	error = wapbl_write_inodes(wl, &off);
1.1.4.1  haad 	if (error)
1.1.4.1  haad 		goto out2;
1.1.4.1  haad
1.1.4.1  haad 	reserved = 0;
1.1.4.1  haad 	if (wl->wl_inohashcnt)
1.1.4.1  haad 		reserved = wapbl_transaction_inodes_len(wl);
1.1.4.1  haad
1.1.4.1  haad 	head = wl->wl_head;
1.1.4.1  haad 	tail = wl->wl_tail;
1.1.4.1  haad
1.1.4.1  haad 	wapbl_advance_head(wl->wl_circ_size, wl->wl_circ_off, flushsize,
1.1.4.1  haad 	    &head, &tail);
1.1.4.1  haad #ifdef WAPBL_DEBUG
1.1.4.1  haad 	if (head != off) {
1.1.4.1  haad 		panic("lost head! head=%"PRIdMAX" tail=%" PRIdMAX
1.1.4.1  haad 		      " off=%"PRIdMAX" flush=%zu\n",
1.1.4.1  haad 		      (intmax_t)head, (intmax_t)tail, (intmax_t)off,
1.1.4.1  haad 		      flushsize);
1.1.4.1  haad 	}
1.1.4.1  haad #else
1.1.4.1  haad 	KASSERT(head == off);
1.1.4.1  haad #endif
1.1.4.1  haad
1.1.4.1  haad 	/* Opportunistically move the tail forward if we can */
1.1.4.1  haad 	if (!wapbl_lazy_truncate) {
1.1.4.1  haad 		mutex_enter(&wl->wl_mtx);
1.1.4.1  haad 		delta = wl->wl_reclaimable_bytes;
1.1.4.1  haad 		mutex_exit(&wl->wl_mtx);
1.1.4.1  haad 		wapbl_advance_tail(wl->wl_circ_size, wl->wl_circ_off, delta,
1.1.4.1  haad 		    &head, &tail);
1.1.4.1  haad 	}
1.1.4.1  haad
1.1.4.1  haad 	error = wapbl_write_commit(wl, head, tail);
1.1.4.1  haad 	if (error)
1.1.4.1  haad 		goto out2;
1.1.4.1  haad
1.1.4.1  haad 	/* poolme?  or kmemme? */
1.1.4.1  haad 	we = wapbl_calloc(1, sizeof(*we));
1.1.4.1  haad
1.1.4.1  haad #ifdef WAPBL_DEBUG_BUFBYTES
1.1.4.1  haad 	WAPBL_PRINTF(WAPBL_PRINT_FLUSH,
1.1.4.1  haad 		("wapbl_flush: thread %d.%d head+=%zu tail+=%zu used=%zu"
1.1.4.1  haad 		 " unsynced=%zu"
1.1.4.1  haad 		 "\n\tbufcount=%zu bufbytes=%zu bcount=%zu deallocs=%d "
1.1.4.1  haad 		 "inodes=%d\n",
1.1.4.1  haad 		 curproc->p_pid, curlwp->l_lid, flushsize, delta,
1.1.4.1  haad 		 wapbl_space_used(wl->wl_circ_size, head, tail),
1.1.4.1  haad 		 wl->wl_unsynced_bufbytes, wl->wl_bufcount,
1.1.4.1  haad 		 wl->wl_bufbytes, wl->wl_bcount, wl->wl_dealloccnt,
1.1.4.1  haad 		 wl->wl_inohashcnt));
1.1.4.1  haad #else
1.1.4.1  haad 	WAPBL_PRINTF(WAPBL_PRINT_FLUSH,
1.1.4.1  haad 		("wapbl_flush: thread %d.%d head+=%zu tail+=%zu used=%zu"
1.1.4.1  haad 		 "\n\tbufcount=%zu bufbytes=%zu bcount=%zu deallocs=%d "
1.1.4.1  haad 		 "inodes=%d\n",
1.1.4.1  haad 		 curproc->p_pid, curlwp->l_lid, flushsize, delta,
1.1.4.1  haad 		 wapbl_space_used(wl->wl_circ_size, head, tail),
1.1.4.1  haad 		 wl->wl_bufcount, wl->wl_bufbytes, wl->wl_bcount,
1.1.4.1  haad 		 wl->wl_dealloccnt, wl->wl_inohashcnt));
1.1.4.1  haad #endif
1.1.4.1  haad
1.1.4.1  haad
1.1.4.1  haad 	mutex_enter(&bufcache_lock);
1.1.4.1  haad 	mutex_enter(&wl->wl_mtx);
1.1.4.1  haad
1.1.4.1  haad 	wl->wl_reserved_bytes = reserved;
1.1.4.1  haad 	wl->wl_head = head;
1.1.4.1  haad 	wl->wl_tail = tail;
1.1.4.1  haad 	KASSERT(wl->wl_reclaimable_bytes >= delta);
1.1.4.1  haad 	wl->wl_reclaimable_bytes -= delta;
1.1.4.1  haad 	wl->wl_dealloccnt = 0;
1.1.4.1  haad #ifdef WAPBL_DEBUG_BUFBYTES
1.1.4.1  haad 	wl->wl_unsynced_bufbytes += wl->wl_bufbytes;
1.1.4.1  haad #endif
1.1.4.1  haad
1.1.4.1  haad 	we->we_wapbl = wl;
1.1.4.1  haad 	we->we_bufcount = wl->wl_bufcount;
1.1.4.1  haad #ifdef WAPBL_DEBUG_BUFBYTES
1.1.4.1  haad 	we->we_unsynced_bufbytes = wl->wl_bufbytes;
1.1.4.1  haad #endif
1.1.4.1  haad 	we->we_reclaimable_bytes = flushsize;
1.1.4.1  haad 	we->we_error = 0;
1.1.4.1  haad 	SIMPLEQ_INSERT_TAIL(&wl->wl_entries, we, we_entries);
1.1.4.1  haad
1.1.4.1  haad 	/*
1.1.4.1  haad 	 * this flushes bufs in reverse order than they were queued
1.1.4.1  haad 	 * it shouldn't matter, but if we care we could use TAILQ instead.
1.1.4.1  haad 	 * XXX Note they will get put on the lru queue when they flush
1.1.4.1  haad 	 * so we might actually want to change this to preserve order.
1.1.4.1  haad 	 */
1.1.4.1  haad 	while ((bp = LIST_FIRST(&wl->wl_bufs)) != NULL) {
1.1.4.1  haad 		if (bbusy(bp, 0, 0, &wl->wl_mtx)) {
1.1.4.1  haad 			continue;
1.1.4.1  haad 		}
1.1.4.1  haad 		bp->b_iodone = wapbl_biodone;
1.1.4.1  haad 		bp->b_private = we;
1.1.4.1  haad 		bremfree(bp);
1.1.4.1  haad 		wapbl_remove_buf_locked(wl, bp);
1.1.4.1  haad 		mutex_exit(&wl->wl_mtx);
1.1.4.1  haad 		mutex_exit(&bufcache_lock);
1.1.4.1  haad 		bawrite(bp);
1.1.4.1  haad 		mutex_enter(&bufcache_lock);
1.1.4.1  haad 		mutex_enter(&wl->wl_mtx);
1.1.4.1  haad 	}
1.1.4.1  haad 	mutex_exit(&wl->wl_mtx);
1.1.4.1  haad 	mutex_exit(&bufcache_lock);
1.1.4.1  haad
1.1.4.1  haad #if 0
1.1.4.1  haad 	WAPBL_PRINTF(WAPBL_PRINT_FLUSH,
1.1.4.1  haad 		     ("wapbl_flush thread %d.%d done flushing entries...\n",
1.1.4.1  haad 		     curproc->p_pid, curlwp->l_lid));
1.1.4.1  haad #endif
1.1.4.1  haad
1.1.4.1  haad  out:
1.1.4.1  haad
1.1.4.1  haad 	/*
1.1.4.1  haad 	 * If the waitfor flag is set, don't return until everything is
1.1.4.1  haad 	 * fully flushed and the on disk log is empty.
1.1.4.1  haad 	 */
1.1.4.1  haad 	if (waitfor) {
1.1.4.1  haad 		error = wapbl_truncate(wl, wl->wl_circ_size -
1.1.4.1  haad 			wl->wl_reserved_bytes, wapbl_lazy_truncate);
1.1.4.1  haad 	}
1.1.4.1  haad
1.1.4.1  haad  out2:
1.1.4.1  haad 	if (error) {
1.1.4.1  haad 		wl->wl_flush_abort(wl->wl_mount, wl->wl_deallocblks,
1.1.4.1  haad 		    wl->wl_dealloclens, wl->wl_dealloccnt);
1.1.4.1  haad 	}
1.1.4.1  haad
1.1.4.1  haad #ifdef WAPBL_DEBUG_PRINT
1.1.4.1  haad 	if (error) {
1.1.4.1  haad 		pid_t pid = -1;
1.1.4.1  haad 		lwpid_t lid = -1;
1.1.4.1  haad 		if (curproc)
1.1.4.1  haad 			pid = curproc->p_pid;
1.1.4.1  haad 		if (curlwp)
1.1.4.1  haad 			lid = curlwp->l_lid;
1.1.4.1  haad 		mutex_enter(&wl->wl_mtx);
1.1.4.1  haad #ifdef WAPBL_DEBUG_BUFBYTES
1.1.4.1  haad 		WAPBL_PRINTF(WAPBL_PRINT_ERROR,
1.1.4.1  haad 		    ("wapbl_flush: thread %d.%d aborted flush: "
1.1.4.1  haad 		    "error = %d\n"
1.1.4.1  haad 		    "\tbufcount=%zu bufbytes=%zu bcount=%zu "
1.1.4.1  haad 		    "deallocs=%d inodes=%d\n"
1.1.4.1  haad 		    "\terrcnt = %d, reclaimable=%zu reserved=%zu "
1.1.4.1  haad 		    "unsynced=%zu\n",
1.1.4.1  haad 		    pid, lid, error, wl->wl_bufcount,
1.1.4.1  haad 		    wl->wl_bufbytes, wl->wl_bcount,
1.1.4.1  haad 		    wl->wl_dealloccnt, wl->wl_inohashcnt,
1.1.4.1  haad 		    wl->wl_error_count, wl->wl_reclaimable_bytes,
1.1.4.1  haad 		    wl->wl_reserved_bytes, wl->wl_unsynced_bufbytes));
1.1.4.1  haad 		SIMPLEQ_FOREACH(we, &wl->wl_entries, we_entries) {
1.1.4.1  haad 			WAPBL_PRINTF(WAPBL_PRINT_ERROR,
1.1.4.1  haad 			    ("\tentry: bufcount = %zu, reclaimable = %zu, "
1.1.4.1  haad 			     "error = %d, unsynced = %zu\n",
1.1.4.1  haad 			     we->we_bufcount, we->we_reclaimable_bytes,
1.1.4.1  haad 			     we->we_error, we->we_unsynced_bufbytes));
1.1.4.1  haad 		}
1.1.4.1  haad #else
1.1.4.1  haad 		WAPBL_PRINTF(WAPBL_PRINT_ERROR,
1.1.4.1  haad 		    ("wapbl_flush: thread %d.%d aborted flush: "
1.1.4.1  haad 		     "error = %d\n"
1.1.4.1  haad 		     "\tbufcount=%zu bufbytes=%zu bcount=%zu "
1.1.4.1  haad 		     "deallocs=%d inodes=%d\n"
1.1.4.1  haad 		     "\terrcnt = %d, reclaimable=%zu reserved=%zu\n",
1.1.4.1  haad 		     pid, lid, error, wl->wl_bufcount,
1.1.4.1  haad 		     wl->wl_bufbytes, wl->wl_bcount,
1.1.4.1  haad 		     wl->wl_dealloccnt, wl->wl_inohashcnt,
1.1.4.1  haad 		     wl->wl_error_count, wl->wl_reclaimable_bytes,
1.1.4.1  haad 		     wl->wl_reserved_bytes));
1.1.4.1  haad 		SIMPLEQ_FOREACH(we, &wl->wl_entries, we_entries) {
1.1.4.1  haad 			WAPBL_PRINTF(WAPBL_PRINT_ERROR,
1.1.4.1  haad 			    ("\tentry: bufcount = %zu, reclaimable = %zu, "
1.1.4.1  haad 			     "error = %d\n", we->we_bufcount,
1.1.4.1  haad 			     we->we_reclaimable_bytes, we->we_error));
1.1.4.1  haad 		}
1.1.4.1  haad #endif
1.1.4.1  haad 		mutex_exit(&wl->wl_mtx);
1.1.4.1  haad 	}
1.1.4.1  haad #endif
1.1.4.1  haad
1.1.4.1  haad 	rw_exit(&wl->wl_rwlock);
1.1.4.1  haad 	return error;
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad /****************************************************************/
1.1.4.1  haad
1.1.4.1  haad void
1.1.4.1  haad wapbl_jlock_assert(struct wapbl *wl)
1.1.4.1  haad {
1.1.4.1  haad
1.1.4.1  haad #ifdef WAPBL_DEBUG_SERIALIZE
1.1.4.1  haad 	KASSERT(rw_write_held(&wl->wl_rwlock));
1.1.4.1  haad #else
1.1.4.1  haad 	KASSERT(rw_read_held(&wl->wl_rwlock) || rw_write_held(&wl->wl_rwlock));
1.1.4.1  haad #endif
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad void
1.1.4.1  haad wapbl_junlock_assert(struct wapbl *wl)
1.1.4.1  haad {
1.1.4.1  haad
1.1.4.1  haad #ifdef WAPBL_DEBUG_SERIALIZE
1.1.4.1  haad 	KASSERT(!rw_write_held(&wl->wl_rwlock));
1.1.4.1  haad #endif
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad /****************************************************************/
1.1.4.1  haad
1.1.4.1  haad /* locks missing */
1.1.4.1  haad void
1.1.4.1  haad wapbl_print(struct wapbl *wl,
1.1.4.1  haad 		int full,
1.1.4.1  haad 		void (*pr)(const char *, ...))
1.1.4.1  haad {
1.1.4.1  haad 	struct buf *bp;
1.1.4.1  haad 	struct wapbl_entry *we;
1.1.4.1  haad 	(*pr)("wapbl %p", wl);
1.1.4.1  haad 	(*pr)("\nlogvp = %p, devvp = %p, logpbn = %"PRId64"\n",
1.1.4.1  haad 	      wl->wl_logvp, wl->wl_devvp, wl->wl_logpbn);
1.1.4.1  haad 	(*pr)("circ = %zu, header = %zu, head = %"PRIdMAX" tail = %"PRIdMAX"\n",
1.1.4.1  haad 	      wl->wl_circ_size, wl->wl_circ_off,
1.1.4.1  haad 	      (intmax_t)wl->wl_head, (intmax_t)wl->wl_tail);
1.1.4.1  haad 	(*pr)("fs_dev_bshift = %d, log_dev_bshift = %d\n",
1.1.4.1  haad 	      wl->wl_log_dev_bshift, wl->wl_fs_dev_bshift);
1.1.4.1  haad #ifdef WAPBL_DEBUG_BUFBYTES
1.1.4.1  haad 	(*pr)("bufcount = %zu, bufbytes = %zu bcount = %zu reclaimable = %zu "
1.1.4.1  haad 	      "reserved = %zu errcnt = %d unsynced = %zu\n",
1.1.4.1  haad 	      wl->wl_bufcount, wl->wl_bufbytes, wl->wl_bcount,
1.1.4.1  haad 	      wl->wl_reclaimable_bytes, wl->wl_reserved_bytes,
1.1.4.1  haad 				wl->wl_error_count, wl->wl_unsynced_bufbytes);
1.1.4.1  haad #else
1.1.4.1  haad 	(*pr)("bufcount = %zu, bufbytes = %zu bcount = %zu reclaimable = %zu "
1.1.4.1  haad 	      "reserved = %zu errcnt = %d\n", wl->wl_bufcount, wl->wl_bufbytes,
1.1.4.1  haad 	      wl->wl_bcount, wl->wl_reclaimable_bytes, wl->wl_reserved_bytes,
1.1.4.1  haad 				wl->wl_error_count);
1.1.4.1  haad #endif
1.1.4.1  haad 	(*pr)("\tdealloccnt = %d, dealloclim = %d\n",
1.1.4.1  haad 	      wl->wl_dealloccnt, wl->wl_dealloclim);
1.1.4.1  haad 	(*pr)("\tinohashcnt = %d, inohashmask = 0x%08x\n",
1.1.4.1  haad 	      wl->wl_inohashcnt, wl->wl_inohashmask);
1.1.4.1  haad 	(*pr)("entries:\n");
1.1.4.1  haad 	SIMPLEQ_FOREACH(we, &wl->wl_entries, we_entries) {
1.1.4.1  haad #ifdef WAPBL_DEBUG_BUFBYTES
1.1.4.1  haad 		(*pr)("\tbufcount = %zu, reclaimable = %zu, error = %d, "
1.1.4.1  haad 		      "unsynced = %zu\n",
1.1.4.1  haad 		      we->we_bufcount, we->we_reclaimable_bytes,
1.1.4.1  haad 		      we->we_error, we->we_unsynced_bufbytes);
1.1.4.1  haad #else
1.1.4.1  haad 		(*pr)("\tbufcount = %zu, reclaimable = %zu, error = %d\n",
1.1.4.1  haad 		      we->we_bufcount, we->we_reclaimable_bytes, we->we_error);
1.1.4.1  haad #endif
1.1.4.1  haad 	}
1.1.4.1  haad 	if (full) {
1.1.4.1  haad 		int cnt = 0;
1.1.4.1  haad 		(*pr)("bufs =");
1.1.4.1  haad 		LIST_FOREACH(bp, &wl->wl_bufs, b_wapbllist) {
1.1.4.1  haad 			if (!LIST_NEXT(bp, b_wapbllist)) {
1.1.4.1  haad 				(*pr)(" %p", bp);
1.1.4.1  haad 			} else if ((++cnt % 6) == 0) {
1.1.4.1  haad 				(*pr)(" %p,\n\t", bp);
1.1.4.1  haad 			} else {
1.1.4.1  haad 				(*pr)(" %p,", bp);
1.1.4.1  haad 			}
1.1.4.1  haad 		}
1.1.4.1  haad 		(*pr)("\n");
1.1.4.1  haad
1.1.4.1  haad 		(*pr)("dealloced blks = ");
1.1.4.1  haad 		{
1.1.4.1  haad 			int i;
1.1.4.1  haad 			cnt = 0;
1.1.4.1  haad 			for (i = 0; i < wl->wl_dealloccnt; i++) {
1.1.4.1  haad 				(*pr)(" %"PRId64":%d,",
1.1.4.1  haad 				      wl->wl_deallocblks[i],
1.1.4.1  haad 				      wl->wl_dealloclens[i]);
1.1.4.1  haad 				if ((++cnt % 4) == 0) {
1.1.4.1  haad 					(*pr)("\n\t");
1.1.4.1  haad 				}
1.1.4.1  haad 			}
1.1.4.1  haad 		}
1.1.4.1  haad 		(*pr)("\n");
1.1.4.1  haad
1.1.4.1  haad 		(*pr)("registered inodes = ");
1.1.4.1  haad 		{
1.1.4.1  haad 			int i;
1.1.4.1  haad 			cnt = 0;
1.1.4.1  haad 			for (i = 0; i <= wl->wl_inohashmask; i++) {
1.1.4.1  haad 				struct wapbl_ino_head *wih;
1.1.4.1  haad 				struct wapbl_ino *wi;
1.1.4.1  haad
1.1.4.1  haad 				wih = &wl->wl_inohash[i];
1.1.4.1  haad 				LIST_FOREACH(wi, wih, wi_hash) {
1.1.4.1  haad 					if (wi->wi_ino == 0)
1.1.4.1  haad 						continue;
1.1.4.1  haad 					(*pr)(" %"PRId32"/0%06"PRIo32",",
1.1.4.1  haad 					    wi->wi_ino, wi->wi_mode);
1.1.4.1  haad 					if ((++cnt % 4) == 0) {
1.1.4.1  haad 						(*pr)("\n\t");
1.1.4.1  haad 					}
1.1.4.1  haad 				}
1.1.4.1  haad 			}
1.1.4.1  haad 			(*pr)("\n");
1.1.4.1  haad 		}
1.1.4.1  haad 	}
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad #if defined(WAPBL_DEBUG) || defined(DDB)
1.1.4.1  haad void
1.1.4.1  haad wapbl_dump(struct wapbl *wl)
1.1.4.1  haad {
1.1.4.1  haad #if defined(WAPBL_DEBUG)
1.1.4.1  haad 	if (!wl)
1.1.4.1  haad 		wl = wapbl_debug_wl;
1.1.4.1  haad #endif
1.1.4.1  haad 	if (!wl)
1.1.4.1  haad 		return;
1.1.4.1  haad 	wapbl_print(wl, 1, printf);
1.1.4.1  haad }
1.1.4.1  haad #endif
1.1.4.1  haad
1.1.4.1  haad /****************************************************************/
1.1.4.1  haad
1.1.4.1  haad void
1.1.4.1  haad wapbl_register_deallocation(struct wapbl *wl, daddr_t blk, int len)
1.1.4.1  haad {
1.1.4.1  haad
1.1.4.1  haad 	wapbl_jlock_assert(wl);
1.1.4.1  haad
1.1.4.1  haad 	/* XXX should eventually instead tie this into resource estimation */
1.1.4.1  haad 	/* XXX this KASSERT needs locking/mutex analysis */
1.1.4.1  haad 	KASSERT(wl->wl_dealloccnt < wl->wl_dealloclim);
1.1.4.1  haad 	wl->wl_deallocblks[wl->wl_dealloccnt] = blk;
1.1.4.1  haad 	wl->wl_dealloclens[wl->wl_dealloccnt] = len;
1.1.4.1  haad 	wl->wl_dealloccnt++;
1.1.4.1  haad 	WAPBL_PRINTF(WAPBL_PRINT_ALLOC,
1.1.4.1  haad 	    ("wapbl_register_deallocation: blk=%"PRId64" len=%d\n", blk, len));
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad /****************************************************************/
1.1.4.1  haad
1.1.4.1  haad static void
1.1.4.1  haad wapbl_inodetrk_init(struct wapbl *wl, u_int size)
1.1.4.1  haad {
1.1.4.1  haad
1.1.4.1  haad 	wl->wl_inohash = hashinit(size, HASH_LIST, true, &wl->wl_inohashmask);
1.1.4.1  haad 	if (atomic_inc_uint_nv(&wapbl_ino_pool_refcount) == 1) {
1.1.4.1  haad 		pool_init(&wapbl_ino_pool, sizeof(struct wapbl_ino), 0, 0, 0,
1.1.4.1  haad 		    "wapblinopl", &pool_allocator_nointr, IPL_NONE);
1.1.4.1  haad 	}
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad static void
1.1.4.1  haad wapbl_inodetrk_free(struct wapbl *wl)
1.1.4.1  haad {
1.1.4.1  haad
1.1.4.1  haad 	/* XXX this KASSERT needs locking/mutex analysis */
1.1.4.1  haad 	KASSERT(wl->wl_inohashcnt == 0);
1.1.4.1  haad 	hashdone(wl->wl_inohash, HASH_LIST, wl->wl_inohashmask);
1.1.4.1  haad 	if (atomic_dec_uint_nv(&wapbl_ino_pool_refcount) == 0) {
1.1.4.1  haad 		pool_destroy(&wapbl_ino_pool);
1.1.4.1  haad 	}
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad static struct wapbl_ino *
1.1.4.1  haad wapbl_inodetrk_get(struct wapbl *wl, ino_t ino)
1.1.4.1  haad {
1.1.4.1  haad 	struct wapbl_ino_head *wih;
1.1.4.1  haad 	struct wapbl_ino *wi;
1.1.4.1  haad
1.1.4.1  haad 	KASSERT(mutex_owned(&wl->wl_mtx));
1.1.4.1  haad
1.1.4.1  haad 	wih = &wl->wl_inohash[ino & wl->wl_inohashmask];
1.1.4.1  haad 	LIST_FOREACH(wi, wih, wi_hash) {
1.1.4.1  haad 		if (ino == wi->wi_ino)
1.1.4.1  haad 			return wi;
1.1.4.1  haad 	}
1.1.4.1  haad 	return 0;
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad void
1.1.4.1  haad wapbl_register_inode(struct wapbl *wl, ino_t ino, mode_t mode)
1.1.4.1  haad {
1.1.4.1  haad 	struct wapbl_ino_head *wih;
1.1.4.1  haad 	struct wapbl_ino *wi;
1.1.4.1  haad
1.1.4.1  haad 	wi = pool_get(&wapbl_ino_pool, PR_WAITOK);
1.1.4.1  haad
1.1.4.1  haad 	mutex_enter(&wl->wl_mtx);
1.1.4.1  haad 	if (wapbl_inodetrk_get(wl, ino) == NULL) {
1.1.4.1  haad 		wi->wi_ino = ino;
1.1.4.1  haad 		wi->wi_mode = mode;
1.1.4.1  haad 		wih = &wl->wl_inohash[ino & wl->wl_inohashmask];
1.1.4.1  haad 		LIST_INSERT_HEAD(wih, wi, wi_hash);
1.1.4.1  haad 		wl->wl_inohashcnt++;
1.1.4.1  haad 		WAPBL_PRINTF(WAPBL_PRINT_INODE,
1.1.4.1  haad 		    ("wapbl_register_inode: ino=%"PRId64"\n", ino));
1.1.4.1  haad 		mutex_exit(&wl->wl_mtx);
1.1.4.1  haad 	} else {
1.1.4.1  haad 		mutex_exit(&wl->wl_mtx);
1.1.4.1  haad 		pool_put(&wapbl_ino_pool, wi);
1.1.4.1  haad 	}
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad void
1.1.4.1  haad wapbl_unregister_inode(struct wapbl *wl, ino_t ino, mode_t mode)
1.1.4.1  haad {
1.1.4.1  haad 	struct wapbl_ino *wi;
1.1.4.1  haad
1.1.4.1  haad 	mutex_enter(&wl->wl_mtx);
1.1.4.1  haad 	wi = wapbl_inodetrk_get(wl, ino);
1.1.4.1  haad 	if (wi) {
1.1.4.1  haad 		WAPBL_PRINTF(WAPBL_PRINT_INODE,
1.1.4.1  haad 		    ("wapbl_unregister_inode: ino=%"PRId64"\n", ino));
1.1.4.1  haad 		KASSERT(wl->wl_inohashcnt > 0);
1.1.4.1  haad 		wl->wl_inohashcnt--;
1.1.4.1  haad 		LIST_REMOVE(wi, wi_hash);
1.1.4.1  haad 		mutex_exit(&wl->wl_mtx);
1.1.4.1  haad
1.1.4.1  haad 		pool_put(&wapbl_ino_pool, wi);
1.1.4.1  haad 	} else {
1.1.4.1  haad 		mutex_exit(&wl->wl_mtx);
1.1.4.1  haad 	}
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad /****************************************************************/
1.1.4.1  haad
1.1.4.1  haad static __inline size_t
1.1.4.1  haad wapbl_transaction_inodes_len(struct wapbl *wl)
1.1.4.1  haad {
1.1.4.1  haad 	int blocklen = 1<<wl->wl_log_dev_bshift;
1.1.4.1  haad 	int iph;
1.1.4.1  haad
1.1.4.1  haad 	/* Calculate number of inodes described in a inodelist header */
1.1.4.1  haad 	iph = (blocklen - offsetof(struct wapbl_wc_inodelist, wc_inodes)) /
1.1.4.1  haad 	    sizeof(((struct wapbl_wc_inodelist *)0)->wc_inodes[0]);
1.1.4.1  haad
1.1.4.1  haad 	KASSERT(iph > 0);
1.1.4.1  haad
1.1.4.1  haad 	return MAX(1, howmany(wl->wl_inohashcnt, iph))*blocklen;
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad
1.1.4.1  haad /* Calculate amount of space a transaction will take on disk */
1.1.4.1  haad static size_t
1.1.4.1  haad wapbl_transaction_len(struct wapbl *wl)
1.1.4.1  haad {
1.1.4.1  haad 	int blocklen = 1<<wl->wl_log_dev_bshift;
1.1.4.1  haad 	size_t len;
1.1.4.1  haad 	int bph;
1.1.4.1  haad
1.1.4.1  haad 	/* Calculate number of blocks described in a blocklist header */
1.1.4.1  haad 	bph = (blocklen - offsetof(struct wapbl_wc_blocklist, wc_blocks)) /
1.1.4.1  haad 	    sizeof(((struct wapbl_wc_blocklist *)0)->wc_blocks[0]);
1.1.4.1  haad
1.1.4.1  haad 	KASSERT(bph > 0);
1.1.4.1  haad
1.1.4.1  haad 	len = wl->wl_bcount;
1.1.4.1  haad 	len += howmany(wl->wl_bufcount, bph)*blocklen;
1.1.4.1  haad 	len += howmany(wl->wl_dealloccnt, bph)*blocklen;
1.1.4.1  haad 	len += wapbl_transaction_inodes_len(wl);
1.1.4.1  haad
1.1.4.1  haad 	return len;
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad /*
1.1.4.1  haad  * Perform commit operation
1.1.4.1  haad  *
1.1.4.1  haad  * Note that generation number incrementation needs to
1.1.4.1  haad  * be protected against racing with other invocations
1.1.4.1  haad  * of wapbl_commit.  This is ok since this routine
1.1.4.1  haad  * is only invoked from wapbl_flush
1.1.4.1  haad  */
1.1.4.1  haad static int
1.1.4.1  haad wapbl_write_commit(struct wapbl *wl, off_t head, off_t tail)
1.1.4.1  haad {
1.1.4.1  haad 	struct wapbl_wc_header *wc = wl->wl_wc_header;
1.1.4.1  haad 	struct timespec ts;
1.1.4.1  haad 	int error;
1.1.4.1  haad 	int force = 1;
1.1.4.1  haad
1.1.4.1  haad 	/* XXX Calc checksum here, instead we do this for now */
1.1.4.1  haad 	error = VOP_IOCTL(wl->wl_devvp, DIOCCACHESYNC, &force, FWRITE, FSCRED);
1.1.4.1  haad 	if (error) {
1.1.4.1  haad 		WAPBL_PRINTF(WAPBL_PRINT_ERROR,
1.1.4.1  haad 		    ("wapbl_write_commit: DIOCCACHESYNC on dev 0x%x "
1.1.4.1  haad 		    "returned %d\n", wl->wl_devvp->v_rdev, error));
1.1.4.1  haad 	}
1.1.4.1  haad
1.1.4.1  haad 	wc->wc_head = head;
1.1.4.1  haad 	wc->wc_tail = tail;
1.1.4.1  haad 	wc->wc_checksum = 0;
1.1.4.1  haad 	wc->wc_version = 1;
1.1.4.1  haad 	getnanotime(&ts);
1.1.4.1  haad 	wc->wc_time = ts.tv_sec;;
1.1.4.1  haad 	wc->wc_timensec = ts.tv_nsec;
1.1.4.1  haad
1.1.4.1  haad 	WAPBL_PRINTF(WAPBL_PRINT_WRITE,
1.1.4.1  haad 	    ("wapbl_write_commit: head = %"PRIdMAX "tail = %"PRIdMAX"\n",
1.1.4.1  haad 	    (intmax_t)head, (intmax_t)tail));
1.1.4.1  haad
1.1.4.1  haad 	/*
1.1.4.1  haad 	 * XXX if generation will rollover, then first zero
1.1.4.1  haad 	 * over second commit header before trying to write both headers.
1.1.4.1  haad 	 */
1.1.4.1  haad
1.1.4.1  haad 	error = wapbl_write(wc, wc->wc_len, wl->wl_devvp,
1.1.4.1  haad 	    wl->wl_logpbn + wc->wc_generation % 2);
1.1.4.1  haad 	if (error)
1.1.4.1  haad 		return error;
1.1.4.1  haad
1.1.4.1  haad 	error = VOP_IOCTL(wl->wl_devvp, DIOCCACHESYNC, &force, FWRITE, FSCRED);
1.1.4.1  haad 	if (error) {
1.1.4.1  haad 		WAPBL_PRINTF(WAPBL_PRINT_ERROR,
1.1.4.1  haad 		    ("wapbl_write_commit: DIOCCACHESYNC on dev 0x%x "
1.1.4.1  haad 		    "returned %d\n", wl->wl_devvp->v_rdev, error));
1.1.4.1  haad 	}
1.1.4.1  haad
1.1.4.1  haad 	/*
1.1.4.1  haad 	 * If the generation number was zero, write it out a second time.
1.1.4.1  haad 	 * This handles initialization and generation number rollover
1.1.4.1  haad 	 */
1.1.4.1  haad 	if (wc->wc_generation++ == 0) {
1.1.4.1  haad 		error = wapbl_write_commit(wl, head, tail);
1.1.4.1  haad 		/*
1.1.4.1  haad 		 * This panic should be able to be removed if we do the
1.1.4.1  haad 		 * zero'ing mentioned above, and we are certain to roll
1.1.4.1  haad 		 * back generation number on failure.
1.1.4.1  haad 		 */
1.1.4.1  haad 		if (error)
1.1.4.1  haad 			panic("wapbl_write_commit: error writing duplicate "
1.1.4.1  haad 			      "log header: %d\n", error);
1.1.4.1  haad 	}
1.1.4.1  haad 	return 0;
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad /* Returns new offset value */
1.1.4.1  haad static int
1.1.4.1  haad wapbl_write_blocks(struct wapbl *wl, off_t *offp)
1.1.4.1  haad {
1.1.4.1  haad 	struct wapbl_wc_blocklist *wc =
1.1.4.1  haad 	    (struct wapbl_wc_blocklist *)wl->wl_wc_scratch;
1.1.4.1  haad 	int blocklen = 1<<wl->wl_log_dev_bshift;
1.1.4.1  haad 	int bph;
1.1.4.1  haad 	struct buf *bp;
1.1.4.1  haad 	off_t off = *offp;
1.1.4.1  haad 	int error;
1.1.4.2  haad 	size_t padding;
1.1.4.1  haad
1.1.4.1  haad 	KASSERT(rw_write_held(&wl->wl_rwlock));
1.1.4.1  haad
1.1.4.1  haad 	bph = (blocklen - offsetof(struct wapbl_wc_blocklist, wc_blocks)) /
1.1.4.1  haad 	    sizeof(((struct wapbl_wc_blocklist *)0)->wc_blocks[0]);
1.1.4.1  haad
1.1.4.1  haad 	bp = LIST_FIRST(&wl->wl_bufs);
1.1.4.1  haad
1.1.4.1  haad 	while (bp) {
1.1.4.1  haad 		int cnt;
1.1.4.1  haad 		struct buf *obp = bp;
1.1.4.1  haad
1.1.4.1  haad 		KASSERT(bp->b_flags & B_LOCKED);
1.1.4.1  haad
1.1.4.1  haad 		wc->wc_type = WAPBL_WC_BLOCKS;
1.1.4.1  haad 		wc->wc_len = blocklen;
1.1.4.1  haad 		wc->wc_blkcount = 0;
1.1.4.1  haad 		while (bp && (wc->wc_blkcount < bph)) {
1.1.4.1  haad 			/*
1.1.4.1  haad 			 * Make sure all the physical block numbers are up to
1.1.4.1  haad 			 * date.  If this is not always true on a given
1.1.4.1  haad 			 * filesystem, then VOP_BMAP must be called.  We
1.1.4.1  haad 			 * could call VOP_BMAP here, or else in the filesystem
1.1.4.1  haad 			 * specific flush callback, although neither of those
1.1.4.1  haad 			 * solutions allow us to take the vnode lock.  If a
1.1.4.1  haad 			 * filesystem requires that we must take the vnode lock
1.1.4.1  haad 			 * to call VOP_BMAP, then we can probably do it in
1.1.4.1  haad 			 * bwrite when the vnode lock should already be held
1.1.4.1  haad 			 * by the invoking code.
1.1.4.1  haad 			 */
1.1.4.1  haad 			KASSERT((bp->b_vp->v_type == VBLK) ||
1.1.4.1  haad 				 (bp->b_blkno != bp->b_lblkno));
1.1.4.1  haad 			KASSERT(bp->b_blkno > 0);
1.1.4.1  haad
1.1.4.1  haad 			wc->wc_blocks[wc->wc_blkcount].wc_daddr = bp->b_blkno;
1.1.4.1  haad 			wc->wc_blocks[wc->wc_blkcount].wc_dlen = bp->b_bcount;
1.1.4.1  haad 			wc->wc_len += bp->b_bcount;
1.1.4.1  haad 			wc->wc_blkcount++;
1.1.4.1  haad 			bp = LIST_NEXT(bp, b_wapbllist);
1.1.4.1  haad 		}
1.1.4.2  haad 		if (wc->wc_len % blocklen != 0) {
1.1.4.2  haad 			padding = blocklen - wc->wc_len % blocklen;
1.1.4.2  haad 			wc->wc_len += padding;
1.1.4.2  haad 		} else {
1.1.4.2  haad 			padding = 0;
1.1.4.2  haad 		}
1.1.4.2  haad
1.1.4.1  haad 		WAPBL_PRINTF(WAPBL_PRINT_WRITE,
1.1.4.2  haad 		    ("wapbl_write_blocks: len = %u (padding %zu) off = %"PRIdMAX"\n",
1.1.4.2  haad 		    wc->wc_len, padding, (intmax_t)off));
1.1.4.1  haad
1.1.4.1  haad 		error = wapbl_circ_write(wl, wc, blocklen, &off);
1.1.4.1  haad 		if (error)
1.1.4.1  haad 			return error;
1.1.4.1  haad 		bp = obp;
1.1.4.1  haad 		cnt = 0;
1.1.4.1  haad 		while (bp && (cnt++ < bph)) {
1.1.4.1  haad 			error = wapbl_circ_write(wl, bp->b_data,
1.1.4.1  haad 			    bp->b_bcount, &off);
1.1.4.1  haad 			if (error)
1.1.4.1  haad 				return error;
1.1.4.1  haad 			bp = LIST_NEXT(bp, b_wapbllist);
1.1.4.1  haad 		}
1.1.4.2  haad 		if (padding) {
1.1.4.2  haad 			void *zero;
1.1.4.2  haad
1.1.4.2  haad 			zero = wapbl_malloc(padding);
1.1.4.2  haad 			memset(zero, 0, padding);
1.1.4.2  haad 			error = wapbl_circ_write(wl, zero, padding, &off);
1.1.4.2  haad 			wapbl_free(zero);
1.1.4.2  haad 			if (error)
1.1.4.2  haad 				return error;
1.1.4.2  haad 		}
1.1.4.1  haad 	}
1.1.4.1  haad 	*offp = off;
1.1.4.1  haad 	return 0;
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad static int
1.1.4.1  haad wapbl_write_revocations(struct wapbl *wl, off_t *offp)
1.1.4.1  haad {
1.1.4.1  haad 	struct wapbl_wc_blocklist *wc =
1.1.4.1  haad 	    (struct wapbl_wc_blocklist *)wl->wl_wc_scratch;
1.1.4.1  haad 	int i;
1.1.4.1  haad 	int blocklen = 1<<wl->wl_log_dev_bshift;
1.1.4.1  haad 	int bph;
1.1.4.1  haad 	off_t off = *offp;
1.1.4.1  haad 	int error;
1.1.4.1  haad
1.1.4.1  haad 	if (wl->wl_dealloccnt == 0)
1.1.4.1  haad 		return 0;
1.1.4.1  haad
1.1.4.1  haad 	bph = (blocklen - offsetof(struct wapbl_wc_blocklist, wc_blocks)) /
1.1.4.1  haad 	    sizeof(((struct wapbl_wc_blocklist *)0)->wc_blocks[0]);
1.1.4.1  haad
1.1.4.1  haad 	i = 0;
1.1.4.1  haad 	while (i < wl->wl_dealloccnt) {
1.1.4.1  haad 		wc->wc_type = WAPBL_WC_REVOCATIONS;
1.1.4.1  haad 		wc->wc_len = blocklen;
1.1.4.1  haad 		wc->wc_blkcount = 0;
1.1.4.1  haad 		while ((i < wl->wl_dealloccnt) && (wc->wc_blkcount < bph)) {
1.1.4.1  haad 			wc->wc_blocks[wc->wc_blkcount].wc_daddr =
1.1.4.1  haad 			    wl->wl_deallocblks[i];
1.1.4.1  haad 			wc->wc_blocks[wc->wc_blkcount].wc_dlen =
1.1.4.1  haad 			    wl->wl_dealloclens[i];
1.1.4.1  haad 			wc->wc_blkcount++;
1.1.4.1  haad 			i++;
1.1.4.1  haad 		}
1.1.4.1  haad 		WAPBL_PRINTF(WAPBL_PRINT_WRITE,
1.1.4.1  haad 		    ("wapbl_write_revocations: len = %u off = %"PRIdMAX"\n",
1.1.4.1  haad 		    wc->wc_len, (intmax_t)off));
1.1.4.1  haad 		error = wapbl_circ_write(wl, wc, blocklen, &off);
1.1.4.1  haad 		if (error)
1.1.4.1  haad 			return error;
1.1.4.1  haad 	}
1.1.4.1  haad 	*offp = off;
1.1.4.1  haad 	return 0;
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad static int
1.1.4.1  haad wapbl_write_inodes(struct wapbl *wl, off_t *offp)
1.1.4.1  haad {
1.1.4.1  haad 	struct wapbl_wc_inodelist *wc =
1.1.4.1  haad 	    (struct wapbl_wc_inodelist *)wl->wl_wc_scratch;
1.1.4.1  haad 	int i;
1.1.4.2  haad 	int blocklen = 1 << wl->wl_log_dev_bshift;
1.1.4.1  haad 	off_t off = *offp;
1.1.4.1  haad 	int error;
1.1.4.1  haad
1.1.4.1  haad 	struct wapbl_ino_head *wih;
1.1.4.1  haad 	struct wapbl_ino *wi;
1.1.4.1  haad 	int iph;
1.1.4.1  haad
1.1.4.1  haad 	iph = (blocklen - offsetof(struct wapbl_wc_inodelist, wc_inodes)) /
1.1.4.1  haad 	    sizeof(((struct wapbl_wc_inodelist *)0)->wc_inodes[0]);
1.1.4.1  haad
1.1.4.1  haad 	i = 0;
1.1.4.1  haad 	wih = &wl->wl_inohash[0];
1.1.4.1  haad 	wi = 0;
1.1.4.1  haad 	do {
1.1.4.1  haad 		wc->wc_type = WAPBL_WC_INODES;
1.1.4.1  haad 		wc->wc_len = blocklen;
1.1.4.1  haad 		wc->wc_inocnt = 0;
1.1.4.1  haad 		wc->wc_clear = (i == 0);
1.1.4.1  haad 		while ((i < wl->wl_inohashcnt) && (wc->wc_inocnt < iph)) {
1.1.4.1  haad 			while (!wi) {
1.1.4.1  haad 				KASSERT((wih - &wl->wl_inohash[0])
1.1.4.1  haad 				    <= wl->wl_inohashmask);
1.1.4.1  haad 				wi = LIST_FIRST(wih++);
1.1.4.1  haad 			}
1.1.4.1  haad 			wc->wc_inodes[wc->wc_inocnt].wc_inumber = wi->wi_ino;
1.1.4.1  haad 			wc->wc_inodes[wc->wc_inocnt].wc_imode = wi->wi_mode;
1.1.4.1  haad 			wc->wc_inocnt++;
1.1.4.1  haad 			i++;
1.1.4.1  haad 			wi = LIST_NEXT(wi, wi_hash);
1.1.4.1  haad 		}
1.1.4.1  haad 		WAPBL_PRINTF(WAPBL_PRINT_WRITE,
1.1.4.1  haad 		    ("wapbl_write_inodes: len = %u off = %"PRIdMAX"\n",
1.1.4.1  haad 		    wc->wc_len, (intmax_t)off));
1.1.4.1  haad 		error = wapbl_circ_write(wl, wc, blocklen, &off);
1.1.4.1  haad 		if (error)
1.1.4.1  haad 			return error;
1.1.4.1  haad 	} while (i < wl->wl_inohashcnt);
1.1.4.1  haad
1.1.4.1  haad 	*offp = off;
1.1.4.1  haad 	return 0;
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad #endif /* _KERNEL */
1.1.4.1  haad
1.1.4.1  haad /****************************************************************/
1.1.4.1  haad
1.1.4.1  haad #ifdef _KERNEL
1.1.4.1  haad static struct pool wapbl_blk_pool;
1.1.4.1  haad static int wapbl_blk_pool_refcount;
1.1.4.1  haad #endif
1.1.4.1  haad struct wapbl_blk {
1.1.4.1  haad 	LIST_ENTRY(wapbl_blk) wb_hash;
1.1.4.1  haad 	daddr_t wb_blk;
1.1.4.1  haad 	off_t wb_off; /* Offset of this block in the log */
1.1.4.1  haad };
1.1.4.1  haad #define	WAPBL_BLKPOOL_MIN 83
1.1.4.1  haad
1.1.4.1  haad static void
1.1.4.1  haad wapbl_blkhash_init(struct wapbl_replay *wr, u_int size)
1.1.4.1  haad {
1.1.4.1  haad 	if (size < WAPBL_BLKPOOL_MIN)
1.1.4.1  haad 		size = WAPBL_BLKPOOL_MIN;
1.1.4.1  haad 	KASSERT(wr->wr_blkhash == 0);
1.1.4.1  haad #ifdef _KERNEL
1.1.4.1  haad 	wr->wr_blkhash = hashinit(size, HASH_LIST, true, &wr->wr_blkhashmask);
1.1.4.1  haad 	if (atomic_inc_uint_nv(&wapbl_blk_pool_refcount) == 1) {
1.1.4.1  haad 		pool_init(&wapbl_blk_pool, sizeof(struct wapbl_blk), 0, 0, 0,
1.1.4.1  haad 		    "wapblblkpl", &pool_allocator_nointr, IPL_NONE);
1.1.4.1  haad         }
1.1.4.1  haad #else /* ! _KERNEL */
1.1.4.1  haad 	/* Manually implement hashinit */
1.1.4.1  haad 	{
1.1.4.1  haad 		int i;
1.1.4.1  haad 		unsigned long hashsize;
1.1.4.1  haad 		for (hashsize = 1; hashsize < size; hashsize <<= 1)
1.1.4.1  haad 			continue;
1.1.4.1  haad 		wr->wr_blkhash = wapbl_malloc(hashsize * sizeof(*wr->wr_blkhash));
1.1.4.1  haad 		for (i = 0; i < wr->wr_blkhashmask; i++)
1.1.4.1  haad 			LIST_INIT(&wr->wr_blkhash[i]);
1.1.4.1  haad 		wr->wr_blkhashmask = hashsize - 1;
1.1.4.1  haad 	}
1.1.4.1  haad #endif /* ! _KERNEL */
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad static void
1.1.4.1  haad wapbl_blkhash_free(struct wapbl_replay *wr)
1.1.4.1  haad {
1.1.4.1  haad 	KASSERT(wr->wr_blkhashcnt == 0);
1.1.4.1  haad #ifdef _KERNEL
1.1.4.1  haad 	hashdone(wr->wr_blkhash, HASH_LIST, wr->wr_blkhashmask);
1.1.4.1  haad 	if (atomic_dec_uint_nv(&wapbl_blk_pool_refcount) == 0) {
1.1.4.1  haad 		pool_destroy(&wapbl_blk_pool);
1.1.4.1  haad 	}
1.1.4.1  haad #else /* ! _KERNEL */
1.1.4.1  haad 	wapbl_free(wr->wr_blkhash);
1.1.4.1  haad #endif /* ! _KERNEL */
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad static struct wapbl_blk *
1.1.4.1  haad wapbl_blkhash_get(struct wapbl_replay *wr, daddr_t blk)
1.1.4.1  haad {
1.1.4.1  haad 	struct wapbl_blk_head *wbh;
1.1.4.1  haad 	struct wapbl_blk *wb;
1.1.4.1  haad 	wbh = &wr->wr_blkhash[blk & wr->wr_blkhashmask];
1.1.4.1  haad 	LIST_FOREACH(wb, wbh, wb_hash) {
1.1.4.1  haad 		if (blk == wb->wb_blk)
1.1.4.1  haad 			return wb;
1.1.4.1  haad 	}
1.1.4.1  haad 	return 0;
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad static void
1.1.4.1  haad wapbl_blkhash_ins(struct wapbl_replay *wr, daddr_t blk, off_t off)
1.1.4.1  haad {
1.1.4.1  haad 	struct wapbl_blk_head *wbh;
1.1.4.1  haad 	struct wapbl_blk *wb;
1.1.4.1  haad 	wb = wapbl_blkhash_get(wr, blk);
1.1.4.1  haad 	if (wb) {
1.1.4.1  haad 		KASSERT(wb->wb_blk == blk);
1.1.4.1  haad 		wb->wb_off = off;
1.1.4.1  haad 	} else {
1.1.4.1  haad #ifdef _KERNEL
1.1.4.1  haad 		wb = pool_get(&wapbl_blk_pool, PR_WAITOK);
1.1.4.1  haad #else /* ! _KERNEL */
1.1.4.1  haad 		wb = wapbl_malloc(sizeof(*wb));
1.1.4.1  haad #endif /* ! _KERNEL */
1.1.4.1  haad 		wb->wb_blk = blk;
1.1.4.1  haad 		wb->wb_off = off;
1.1.4.1  haad 		wbh = &wr->wr_blkhash[blk & wr->wr_blkhashmask];
1.1.4.1  haad 		LIST_INSERT_HEAD(wbh, wb, wb_hash);
1.1.4.1  haad 		wr->wr_blkhashcnt++;
1.1.4.1  haad 	}
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad static void
1.1.4.1  haad wapbl_blkhash_rem(struct wapbl_replay *wr, daddr_t blk)
1.1.4.1  haad {
1.1.4.1  haad 	struct wapbl_blk *wb = wapbl_blkhash_get(wr, blk);
1.1.4.1  haad 	if (wb) {
1.1.4.1  haad 		KASSERT(wr->wr_blkhashcnt > 0);
1.1.4.1  haad 		wr->wr_blkhashcnt--;
1.1.4.1  haad 		LIST_REMOVE(wb, wb_hash);
1.1.4.1  haad #ifdef _KERNEL
1.1.4.1  haad 		pool_put(&wapbl_blk_pool, wb);
1.1.4.1  haad #else /* ! _KERNEL */
1.1.4.1  haad 		wapbl_free(wb);
1.1.4.1  haad #endif /* ! _KERNEL */
1.1.4.1  haad 	}
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad static void
1.1.4.1  haad wapbl_blkhash_clear(struct wapbl_replay *wr)
1.1.4.1  haad {
1.1.4.1  haad 	int i;
1.1.4.1  haad 	for (i = 0; i <= wr->wr_blkhashmask; i++) {
1.1.4.1  haad 		struct wapbl_blk *wb;
1.1.4.1  haad
1.1.4.1  haad 		while ((wb = LIST_FIRST(&wr->wr_blkhash[i]))) {
1.1.4.1  haad 			KASSERT(wr->wr_blkhashcnt > 0);
1.1.4.1  haad 			wr->wr_blkhashcnt--;
1.1.4.1  haad 			LIST_REMOVE(wb, wb_hash);
1.1.4.1  haad #ifdef _KERNEL
1.1.4.1  haad 			pool_put(&wapbl_blk_pool, wb);
1.1.4.1  haad #else /* ! _KERNEL */
1.1.4.1  haad 			wapbl_free(wb);
1.1.4.1  haad #endif /* ! _KERNEL */
1.1.4.1  haad 		}
1.1.4.1  haad 	}
1.1.4.1  haad 	KASSERT(wr->wr_blkhashcnt == 0);
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad /****************************************************************/
1.1.4.1  haad
1.1.4.1  haad static int
1.1.4.1  haad wapbl_circ_read(struct wapbl_replay *wr, void *data, size_t len, off_t *offp)
1.1.4.1  haad {
1.1.4.1  haad 	size_t slen;
1.1.4.1  haad 	off_t off = *offp;
1.1.4.1  haad 	int error;
1.1.4.1  haad
1.1.4.2  haad 	KASSERT(((len >> wr->wr_log_dev_bshift) <<
1.1.4.2  haad 	    wr->wr_log_dev_bshift) == len);
1.1.4.2  haad 	if (off < wr->wr_circ_off)
1.1.4.2  haad 		off = wr->wr_circ_off;
1.1.4.2  haad 	slen = wr->wr_circ_off + wr->wr_circ_size - off;
1.1.4.1  haad 	if (slen < len) {
1.1.4.1  haad 		error = wapbl_read(data, slen, wr->wr_devvp,
1.1.4.2  haad 		    wr->wr_logpbn + (off >> wr->wr_log_dev_bshift));
1.1.4.1  haad 		if (error)
1.1.4.1  haad 			return error;
1.1.4.1  haad 		data = (uint8_t *)data + slen;
1.1.4.1  haad 		len -= slen;
1.1.4.2  haad 		off = wr->wr_circ_off;
1.1.4.1  haad 	}
1.1.4.1  haad 	error = wapbl_read(data, len, wr->wr_devvp,
1.1.4.2  haad 	    wr->wr_logpbn + (off >> wr->wr_log_dev_bshift));
1.1.4.1  haad 	if (error)
1.1.4.1  haad 		return error;
1.1.4.1  haad 	off += len;
1.1.4.2  haad 	if (off >= wr->wr_circ_off + wr->wr_circ_size)
1.1.4.2  haad 		off = wr->wr_circ_off;
1.1.4.1  haad 	*offp = off;
1.1.4.1  haad 	return 0;
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad static void
1.1.4.1  haad wapbl_circ_advance(struct wapbl_replay *wr, size_t len, off_t *offp)
1.1.4.1  haad {
1.1.4.1  haad 	size_t slen;
1.1.4.1  haad 	off_t off = *offp;
1.1.4.1  haad
1.1.4.2  haad 	KASSERT(((len >> wr->wr_log_dev_bshift) <<
1.1.4.2  haad 	    wr->wr_log_dev_bshift) == len);
1.1.4.1  haad
1.1.4.2  haad 	if (off < wr->wr_circ_off)
1.1.4.2  haad 		off = wr->wr_circ_off;
1.1.4.2  haad 	slen = wr->wr_circ_off + wr->wr_circ_size - off;
1.1.4.1  haad 	if (slen < len) {
1.1.4.1  haad 		len -= slen;
1.1.4.2  haad 		off = wr->wr_circ_off;
1.1.4.1  haad 	}
1.1.4.1  haad 	off += len;
1.1.4.2  haad 	if (off >= wr->wr_circ_off + wr->wr_circ_size)
1.1.4.2  haad 		off = wr->wr_circ_off;
1.1.4.1  haad 	*offp = off;
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad /****************************************************************/
1.1.4.1  haad
1.1.4.1  haad int
1.1.4.1  haad wapbl_replay_start(struct wapbl_replay **wrp, struct vnode *vp,
1.1.4.1  haad 	daddr_t off, size_t count, size_t blksize)
1.1.4.1  haad {
1.1.4.1  haad 	struct wapbl_replay *wr;
1.1.4.1  haad 	int error;
1.1.4.1  haad 	struct vnode *devvp;
1.1.4.1  haad 	daddr_t logpbn;
1.1.4.1  haad 	uint8_t *scratch;
1.1.4.1  haad 	struct wapbl_wc_header *wch;
1.1.4.1  haad 	struct wapbl_wc_header *wch2;
1.1.4.1  haad 	/* Use this until we read the actual log header */
1.1.4.1  haad 	int log_dev_bshift = DEV_BSHIFT;
1.1.4.1  haad 	size_t used;
1.1.4.1  haad
1.1.4.1  haad 	WAPBL_PRINTF(WAPBL_PRINT_REPLAY,
1.1.4.1  haad 	    ("wapbl_replay_start: vp=%p off=%"PRId64 " count=%zu blksize=%zu\n",
1.1.4.1  haad 	    vp, off, count, blksize));
1.1.4.1  haad
1.1.4.1  haad 	if (off < 0)
1.1.4.1  haad 		return EINVAL;
1.1.4.1  haad
1.1.4.1  haad 	if (blksize < DEV_BSIZE)
1.1.4.1  haad 		return EINVAL;
1.1.4.1  haad 	if (blksize % DEV_BSIZE)
1.1.4.1  haad 		return EINVAL;
1.1.4.1  haad
1.1.4.1  haad #ifdef _KERNEL
1.1.4.1  haad #if 0
1.1.4.1  haad 	/* XXX vp->v_size isn't reliably set for VBLK devices,
1.1.4.1  haad 	 * especially root.  However, we might still want to verify
1.1.4.1  haad 	 * that the full load is readable */
1.1.4.1  haad 	if ((off + count) * blksize > vp->v_size)
1.1.4.1  haad 		return EINVAL;
1.1.4.1  haad #endif
1.1.4.1  haad
1.1.4.1  haad 	if ((error = VOP_BMAP(vp, off, &devvp, &logpbn, 0)) != 0) {
1.1.4.1  haad 		return error;
1.1.4.1  haad 	}
1.1.4.1  haad #else /* ! _KERNEL */
1.1.4.1  haad 	devvp = vp;
1.1.4.1  haad 	logpbn = off;
1.1.4.1  haad #endif /* ! _KERNEL */
1.1.4.1  haad
1.1.4.1  haad 	scratch = wapbl_malloc(MAXBSIZE);
1.1.4.1  haad
1.1.4.1  haad 	error = wapbl_read(scratch, 2<<log_dev_bshift, devvp, logpbn);
1.1.4.1  haad 	if (error)
1.1.4.1  haad 		goto errout;
1.1.4.1  haad
1.1.4.1  haad 	wch = (struct wapbl_wc_header *)scratch;
1.1.4.1  haad 	wch2 =
1.1.4.1  haad 	    (struct wapbl_wc_header *)(scratch + (1<<log_dev_bshift));
1.1.4.1  haad 	/* XXX verify checksums and magic numbers */
1.1.4.1  haad 	if (wch->wc_type != WAPBL_WC_HEADER) {
1.1.4.1  haad 		printf("Unrecognized wapbl magic: 0x%08x\n", wch->wc_type);
1.1.4.1  haad 		error = EFTYPE;
1.1.4.1  haad 		goto errout;
1.1.4.1  haad 	}
1.1.4.1  haad
1.1.4.1  haad 	if (wch2->wc_generation > wch->wc_generation)
1.1.4.1  haad 		wch = wch2;
1.1.4.1  haad
1.1.4.1  haad 	wr = wapbl_calloc(1, sizeof(*wr));
1.1.4.1  haad
1.1.4.1  haad 	wr->wr_logvp = vp;
1.1.4.1  haad 	wr->wr_devvp = devvp;
1.1.4.1  haad 	wr->wr_logpbn = logpbn;
1.1.4.1  haad
1.1.4.1  haad 	wr->wr_scratch = scratch;
1.1.4.1  haad
1.1.4.2  haad 	wr->wr_log_dev_bshift = wch->wc_log_dev_bshift;
1.1.4.2  haad 	wr->wr_fs_dev_bshift = wch->wc_fs_dev_bshift;
1.1.4.2  haad 	wr->wr_circ_off = wch->wc_circ_off;
1.1.4.2  haad 	wr->wr_circ_size = wch->wc_circ_size;
1.1.4.2  haad 	wr->wr_generation = wch->wc_generation;
1.1.4.1  haad
1.1.4.1  haad 	used = wapbl_space_used(wch->wc_circ_size, wch->wc_head, wch->wc_tail);
1.1.4.1  haad
1.1.4.1  haad 	WAPBL_PRINTF(WAPBL_PRINT_REPLAY,
1.1.4.1  haad 	    ("wapbl_replay: head=%"PRId64" tail=%"PRId64" off=%"PRId64
1.1.4.1  haad 	    " len=%"PRId64" used=%zu\n",
1.1.4.1  haad 	    wch->wc_head, wch->wc_tail, wch->wc_circ_off,
1.1.4.1  haad 	    wch->wc_circ_size, used));
1.1.4.1  haad
1.1.4.1  haad 	wapbl_blkhash_init(wr, (used >> wch->wc_fs_dev_bshift));
1.1.4.1  haad
1.1.4.2  haad 	error = wapbl_replay_process(wr, wch->wc_head, wch->wc_tail);
1.1.4.1  haad 	if (error) {
1.1.4.1  haad 		wapbl_replay_stop(wr);
1.1.4.1  haad 		wapbl_replay_free(wr);
1.1.4.1  haad 		return error;
1.1.4.1  haad 	}
1.1.4.1  haad
1.1.4.1  haad 	*wrp = wr;
1.1.4.1  haad 	return 0;
1.1.4.1  haad
1.1.4.1  haad  errout:
1.1.4.1  haad 	wapbl_free(scratch);
1.1.4.1  haad 	return error;
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad void
1.1.4.1  haad wapbl_replay_stop(struct wapbl_replay *wr)
1.1.4.1  haad {
1.1.4.1  haad
1.1.4.2  haad 	if (!wapbl_replay_isopen(wr))
1.1.4.2  haad 		return;
1.1.4.1  haad
1.1.4.2  haad 	WAPBL_PRINTF(WAPBL_PRINT_REPLAY, ("wapbl_replay_stop called\n"));
1.1.4.1  haad
1.1.4.1  haad 	wapbl_free(wr->wr_scratch);
1.1.4.1  haad 	wr->wr_scratch = 0;
1.1.4.1  haad
1.1.4.1  haad 	wr->wr_logvp = 0;
1.1.4.1  haad
1.1.4.1  haad 	wapbl_blkhash_clear(wr);
1.1.4.1  haad 	wapbl_blkhash_free(wr);
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad void
1.1.4.1  haad wapbl_replay_free(struct wapbl_replay *wr)
1.1.4.1  haad {
1.1.4.1  haad
1.1.4.1  haad 	KDASSERT(!wapbl_replay_isopen(wr));
1.1.4.1  haad
1.1.4.1  haad 	if (wr->wr_inodes)
1.1.4.1  haad 		wapbl_free(wr->wr_inodes);
1.1.4.1  haad 	wapbl_free(wr);
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.2  haad #ifdef _KERNEL
1.1.4.1  haad int
1.1.4.1  haad wapbl_replay_isopen1(struct wapbl_replay *wr)
1.1.4.1  haad {
1.1.4.1  haad
1.1.4.1  haad 	return wapbl_replay_isopen(wr);
1.1.4.1  haad }
1.1.4.2  haad #endif
1.1.4.2  haad
1.1.4.2  haad static void
1.1.4.2  haad wapbl_replay_process_blocks(struct wapbl_replay *wr, off_t *offp)
1.1.4.2  haad {
1.1.4.2  haad 	struct wapbl_wc_blocklist *wc =
1.1.4.2  haad 	    (struct wapbl_wc_blocklist *)wr->wr_scratch;
1.1.4.2  haad 	int fsblklen = 1 << wr->wr_fs_dev_bshift;
1.1.4.2  haad 	int i, j, n;
1.1.4.2  haad
1.1.4.2  haad 	for (i = 0; i < wc->wc_blkcount; i++) {
1.1.4.2  haad 		/*
1.1.4.2  haad 		 * Enter each physical block into the hashtable independently.
1.1.4.2  haad 		 */
1.1.4.2  haad 		n = wc->wc_blocks[i].wc_dlen >> wr->wr_fs_dev_bshift;
1.1.4.2  haad 		for (j = 0; j < n; j++) {
1.1.4.2  haad 			wapbl_blkhash_ins(wr, wc->wc_blocks[i].wc_daddr + j,
1.1.4.2  haad 			    *offp);
1.1.4.2  haad 			wapbl_circ_advance(wr, fsblklen, offp);
1.1.4.2  haad 		}
1.1.4.2  haad 	}
1.1.4.2  haad }
1.1.4.2  haad
1.1.4.2  haad static void
1.1.4.2  haad wapbl_replay_process_revocations(struct wapbl_replay *wr)
1.1.4.2  haad {
1.1.4.2  haad 	struct wapbl_wc_blocklist *wc =
1.1.4.2  haad 	    (struct wapbl_wc_blocklist *)wr->wr_scratch;
1.1.4.2  haad 	int i, j, n;
1.1.4.2  haad
1.1.4.2  haad 	for (i = 0; i < wc->wc_blkcount; i++) {
1.1.4.2  haad 		/*
1.1.4.2  haad 		 * Remove any blocks found from the hashtable.
1.1.4.2  haad 		 */
1.1.4.2  haad 		n = wc->wc_blocks[i].wc_dlen >> wr->wr_fs_dev_bshift;
1.1.4.2  haad 		for (j = 0; j < n; j++)
1.1.4.2  haad 			wapbl_blkhash_rem(wr, wc->wc_blocks[i].wc_daddr + j);
1.1.4.2  haad 	}
1.1.4.2  haad }
1.1.4.2  haad
1.1.4.2  haad static void
1.1.4.2  haad wapbl_replay_process_inodes(struct wapbl_replay *wr, off_t oldoff, off_t newoff)
1.1.4.2  haad {
1.1.4.2  haad 	struct wapbl_wc_inodelist *wc =
1.1.4.2  haad 	    (struct wapbl_wc_inodelist *)wr->wr_scratch;
1.1.4.2  haad 	/*
1.1.4.2  haad 	 * Keep track of where we found this so location won't be
1.1.4.2  haad 	 * overwritten.
1.1.4.2  haad 	 */
1.1.4.2  haad 	if (wc->wc_clear) {
1.1.4.2  haad 		wr->wr_inodestail = oldoff;
1.1.4.2  haad 		wr->wr_inodescnt = 0;
1.1.4.2  haad 		if (wr->wr_inodes != NULL) {
1.1.4.2  haad 			wapbl_free(wr->wr_inodes);
1.1.4.2  haad 			wr->wr_inodes = NULL;
1.1.4.2  haad 		}
1.1.4.2  haad 	}
1.1.4.2  haad 	wr->wr_inodeshead = newoff;
1.1.4.2  haad 	if (wc->wc_inocnt == 0)
1.1.4.2  haad 		return;
1.1.4.2  haad
1.1.4.2  haad 	wr->wr_inodes = wapbl_realloc(wr->wr_inodes,
1.1.4.2  haad 	    (wr->wr_inodescnt + wc->wc_inocnt) * sizeof(wc->wc_inodes[0]));
1.1.4.2  haad 	memcpy(&wr->wr_inodes[wr->wr_inodescnt], wc->wc_inodes,
1.1.4.2  haad 	    wc->wc_inocnt * sizeof(wc->wc_inodes[0]));
1.1.4.2  haad 	wr->wr_inodescnt += wc->wc_inocnt;
1.1.4.2  haad }
1.1.4.1  haad
1.1.4.1  haad static int
1.1.4.2  haad wapbl_replay_process(struct wapbl_replay *wr, off_t head, off_t tail)
1.1.4.1  haad {
1.1.4.1  haad 	off_t off;
1.1.4.1  haad 	int error;
1.1.4.1  haad
1.1.4.2  haad 	int logblklen = 1 << wr->wr_log_dev_bshift;
1.1.4.1  haad
1.1.4.1  haad 	wapbl_blkhash_clear(wr);
1.1.4.1  haad
1.1.4.2  haad 	off = tail;
1.1.4.2  haad 	while (off != head) {
1.1.4.1  haad 		struct wapbl_wc_null *wcn;
1.1.4.1  haad 		off_t saveoff = off;
1.1.4.1  haad 		error = wapbl_circ_read(wr, wr->wr_scratch, logblklen, &off);
1.1.4.1  haad 		if (error)
1.1.4.1  haad 			goto errout;
1.1.4.1  haad 		wcn = (struct wapbl_wc_null *)wr->wr_scratch;
1.1.4.1  haad 		switch (wcn->wc_type) {
1.1.4.1  haad 		case WAPBL_WC_BLOCKS:
1.1.4.2  haad 			wapbl_replay_process_blocks(wr, &off);
1.1.4.1  haad 			break;
1.1.4.1  haad
1.1.4.1  haad 		case WAPBL_WC_REVOCATIONS:
1.1.4.2  haad 			wapbl_replay_process_revocations(wr);
1.1.4.1  haad 			break;
1.1.4.1  haad
1.1.4.1  haad 		case WAPBL_WC_INODES:
1.1.4.2  haad 			wapbl_replay_process_inodes(wr, saveoff, off);
1.1.4.1  haad 			break;
1.1.4.2  haad
1.1.4.1  haad 		default:
1.1.4.1  haad 			printf("Unrecognized wapbl type: 0x%08x\n",
1.1.4.1  haad 			       wcn->wc_type);
1.1.4.1  haad  			error = EFTYPE;
1.1.4.1  haad 			goto errout;
1.1.4.1  haad 		}
1.1.4.1  haad 		wapbl_circ_advance(wr, wcn->wc_len, &saveoff);
1.1.4.1  haad 		if (off != saveoff) {
1.1.4.1  haad 			printf("wapbl_replay: corrupted records\n");
1.1.4.1  haad 			error = EFTYPE;
1.1.4.1  haad 			goto errout;
1.1.4.1  haad 		}
1.1.4.1  haad 	}
1.1.4.1  haad 	return 0;
1.1.4.1  haad
1.1.4.1  haad  errout:
1.1.4.1  haad 	wapbl_blkhash_clear(wr);
1.1.4.1  haad 	return error;
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.2  haad #if 0
1.1.4.1  haad int
1.1.4.1  haad wapbl_replay_verify(struct wapbl_replay *wr, struct vnode *fsdevvp)
1.1.4.1  haad {
1.1.4.1  haad 	off_t off;
1.1.4.1  haad 	int mismatchcnt = 0;
1.1.4.2  haad 	int logblklen = 1 << wr->wr_log_dev_bshift;
1.1.4.2  haad 	int fsblklen = 1 << wr->wr_fs_dev_bshift;
1.1.4.1  haad 	void *scratch1 = wapbl_malloc(MAXBSIZE);
1.1.4.1  haad 	void *scratch2 = wapbl_malloc(MAXBSIZE);
1.1.4.1  haad 	int error = 0;
1.1.4.1  haad
1.1.4.1  haad 	KDASSERT(wapbl_replay_isopen(wr));
1.1.4.1  haad
1.1.4.1  haad 	off = wch->wc_tail;
1.1.4.1  haad 	while (off != wch->wc_head) {
1.1.4.1  haad 		struct wapbl_wc_null *wcn;
1.1.4.1  haad #ifdef DEBUG
1.1.4.1  haad 		off_t saveoff = off;
1.1.4.1  haad #endif
1.1.4.1  haad 		error = wapbl_circ_read(wr, wr->wr_scratch, logblklen, &off);
1.1.4.1  haad 		if (error)
1.1.4.1  haad 			goto out;
1.1.4.1  haad 		wcn = (struct wapbl_wc_null *)wr->wr_scratch;
1.1.4.1  haad 		switch (wcn->wc_type) {
1.1.4.1  haad 		case WAPBL_WC_BLOCKS:
1.1.4.1  haad 			{
1.1.4.1  haad 				struct wapbl_wc_blocklist *wc =
1.1.4.1  haad 				    (struct wapbl_wc_blocklist *)wr->wr_scratch;
1.1.4.1  haad 				int i;
1.1.4.1  haad 				for (i = 0; i < wc->wc_blkcount; i++) {
1.1.4.1  haad 					int foundcnt = 0;
1.1.4.1  haad 					int dirtycnt = 0;
1.1.4.1  haad 					int j, n;
1.1.4.1  haad 					/*
1.1.4.1  haad 					 * Check each physical block into the
1.1.4.1  haad 					 * hashtable independently
1.1.4.1  haad 					 */
1.1.4.1  haad 					n = wc->wc_blocks[i].wc_dlen >>
1.1.4.1  haad 					    wch->wc_fs_dev_bshift;
1.1.4.1  haad 					for (j = 0; j < n; j++) {
1.1.4.1  haad 						struct wapbl_blk *wb =
1.1.4.1  haad 						   wapbl_blkhash_get(wr,
1.1.4.1  haad 						   wc->wc_blocks[i].wc_daddr + j);
1.1.4.1  haad 						if (wb && (wb->wb_off == off)) {
1.1.4.1  haad 							foundcnt++;
1.1.4.1  haad 							error =
1.1.4.1  haad 							    wapbl_circ_read(wr,
1.1.4.1  haad 							    scratch1, fsblklen,
1.1.4.1  haad 							    &off);
1.1.4.1  haad 							if (error)
1.1.4.1  haad 								goto out;
1.1.4.1  haad 							error =
1.1.4.1  haad 							    wapbl_read(scratch2,
1.1.4.1  haad 							    fsblklen, fsdevvp,
1.1.4.1  haad 							    wb->wb_blk);
1.1.4.1  haad 							if (error)
1.1.4.1  haad 								goto out;
1.1.4.1  haad 							if (memcmp(scratch1,
1.1.4.1  haad 								   scratch2,
1.1.4.1  haad 								   fsblklen)) {
1.1.4.1  haad 								printf(
1.1.4.1  haad 		"wapbl_verify: mismatch block %"PRId64" at off %"PRIdMAX"\n",
1.1.4.1  haad 		wb->wb_blk, (intmax_t)off);
1.1.4.1  haad 								dirtycnt++;
1.1.4.1  haad 								mismatchcnt++;
1.1.4.1  haad 							}
1.1.4.1  haad 						} else {
1.1.4.1  haad 							wapbl_circ_advance(wr,
1.1.4.1  haad 							    fsblklen, &off);
1.1.4.1  haad 						}
1.1.4.1  haad 					}
1.1.4.1  haad #if 0
1.1.4.1  haad 					/*
1.1.4.1  haad 					 * If all of the blocks in an entry
1.1.4.1  haad 					 * are clean, then remove all of its
1.1.4.1  haad 					 * blocks from the hashtable since they
1.1.4.1  haad 					 * never will need replay.
1.1.4.1  haad 					 */
1.1.4.1  haad 					if ((foundcnt != 0) &&
1.1.4.1  haad 					    (dirtycnt == 0)) {
1.1.4.1  haad 						off = saveoff;
1.1.4.1  haad 						wapbl_circ_advance(wr,
1.1.4.1  haad 						    logblklen, &off);
1.1.4.1  haad 						for (j = 0; j < n; j++) {
1.1.4.1  haad 							struct wapbl_blk *wb =
1.1.4.1  haad 							   wapbl_blkhash_get(wr,
1.1.4.1  haad 							   wc->wc_blocks[i].wc_daddr + j);
1.1.4.1  haad 							if (wb &&
1.1.4.1  haad 							  (wb->wb_off == off)) {
1.1.4.1  haad 								wapbl_blkhash_rem(wr, wb->wb_blk);
1.1.4.1  haad 							}
1.1.4.1  haad 							wapbl_circ_advance(wr,
1.1.4.1  haad 							    fsblklen, &off);
1.1.4.1  haad 						}
1.1.4.1  haad 					}
1.1.4.1  haad #endif
1.1.4.1  haad 				}
1.1.4.1  haad 			}
1.1.4.1  haad 			break;
1.1.4.1  haad 		case WAPBL_WC_REVOCATIONS:
1.1.4.1  haad 		case WAPBL_WC_INODES:
1.1.4.1  haad 			break;
1.1.4.1  haad 		default:
1.1.4.1  haad 			KASSERT(0);
1.1.4.1  haad 		}
1.1.4.1  haad #ifdef DEBUG
1.1.4.1  haad 		wapbl_circ_advance(wr, wcn->wc_len, &saveoff);
1.1.4.1  haad 		KASSERT(off == saveoff);
1.1.4.1  haad #endif
1.1.4.1  haad 	}
1.1.4.1  haad  out:
1.1.4.1  haad 	wapbl_free(scratch1);
1.1.4.1  haad 	wapbl_free(scratch2);
1.1.4.1  haad 	if (!error && mismatchcnt)
1.1.4.1  haad 		error = EFTYPE;
1.1.4.1  haad 	return error;
1.1.4.1  haad }
1.1.4.1  haad #endif
1.1.4.1  haad
1.1.4.1  haad int
1.1.4.1  haad wapbl_replay_write(struct wapbl_replay *wr, struct vnode *fsdevvp)
1.1.4.1  haad {
1.1.4.2  haad 	struct wapbl_blk *wb;
1.1.4.2  haad 	size_t i;
1.1.4.1  haad 	off_t off;
1.1.4.2  haad 	void *scratch;
1.1.4.1  haad 	int error = 0;
1.1.4.2  haad 	int fsblklen = 1 << wr->wr_fs_dev_bshift;
1.1.4.1  haad
1.1.4.1  haad 	KDASSERT(wapbl_replay_isopen(wr));
1.1.4.1  haad
1.1.4.2  haad 	scratch = wapbl_malloc(MAXBSIZE);
1.1.4.1  haad
1.1.4.2  haad 	for (i = 0; i < wr->wr_blkhashmask; ++i) {
1.1.4.2  haad 		LIST_FOREACH(wb, &wr->wr_blkhash[i], wb_hash) {
1.1.4.2  haad 			off = wb->wb_off;
1.1.4.2  haad 			error = wapbl_circ_read(wr, scratch, fsblklen, &off);
1.1.4.2  haad 			if (error)
1.1.4.2  haad 				break;
1.1.4.2  haad 			error = wapbl_write(scratch, fsblklen, fsdevvp,
1.1.4.2  haad 			    wb->wb_blk);
1.1.4.2  haad 			if (error)
1.1.4.2  haad 				break;
1.1.4.1  haad 		}
1.1.4.1  haad 	}
1.1.4.2  haad
1.1.4.2  haad 	wapbl_free(scratch);
1.1.4.1  haad 	return error;
1.1.4.1  haad }
1.1.4.1  haad
1.1.4.1  haad int
1.1.4.2  haad wapbl_replay_can_read(struct wapbl_replay *wr, daddr_t blk, long len)
1.1.4.2  haad {
1.1.4.2  haad 	int fsblklen = 1 << wr->wr_fs_dev_bshift;
1.1.4.2  haad
1.1.4.2  haad 	KDASSERT(wapbl_replay_isopen(wr));
1.1.4.2  haad 	KASSERT((len % fsblklen) == 0);
1.1.4.2  haad
1.1.4.2  haad 	while (len != 0) {
1.1.4.2  haad 		struct wapbl_blk *wb = wapbl_blkhash_get(wr, blk);
1.1.4.2  haad 		if (wb)
1.1.4.2  haad 			return 1;
1.1.4.2  haad 		len -= fsblklen;
1.1.4.2  haad 	}
1.1.4.2  haad 	return 0;
1.1.4.2  haad }
1.1.4.2  haad
1.1.4.2  haad int
1.1.4.1  haad wapbl_replay_read(struct wapbl_replay *wr, void *data, daddr_t blk, long len)
1.1.4.1  haad {
1.1.4.2  haad 	int fsblklen = 1 << wr->wr_fs_dev_bshift;
1.1.4.1  haad
1.1.4.1  haad 	KDASSERT(wapbl_replay_isopen(wr));
1.1.4.1  haad
1.1.4.1  haad 	KASSERT((len % fsblklen) == 0);
1.1.4.1  haad
1.1.4.1  haad 	while (len != 0) {
1.1.4.1  haad 		struct wapbl_blk *wb = wapbl_blkhash_get(wr, blk);
1.1.4.1  haad 		if (wb) {
1.1.4.1  haad 			off_t off = wb->wb_off;
1.1.4.1  haad 			int error;
1.1.4.1  haad 			error = wapbl_circ_read(wr, data, fsblklen, &off);
1.1.4.1  haad 			if (error)
1.1.4.1  haad 				return error;
1.1.4.1  haad 		}
1.1.4.1  haad 		data = (uint8_t *)data + fsblklen;
1.1.4.1  haad 		len -= fsblklen;
1.1.4.1  haad 		blk++;
1.1.4.1  haad 	}
1.1.4.1  haad 	return 0;
1.1.4.1  haad }