1*0a6a1f1dSLionel Sambuc /* $NetBSD: ffs_alloc.c,v 1.151 2015/08/12 14:52:35 riastradh Exp $ */
2d65f6f70SBen Gras
3d65f6f70SBen Gras /*-
4d65f6f70SBen Gras * Copyright (c) 2008, 2009 The NetBSD Foundation, Inc.
5d65f6f70SBen Gras * All rights reserved.
6d65f6f70SBen Gras *
7d65f6f70SBen Gras * This code is derived from software contributed to The NetBSD Foundation
8d65f6f70SBen Gras * by Wasabi Systems, Inc.
9d65f6f70SBen Gras *
10d65f6f70SBen Gras * Redistribution and use in source and binary forms, with or without
11d65f6f70SBen Gras * modification, are permitted provided that the following conditions
12d65f6f70SBen Gras * are met:
13d65f6f70SBen Gras * 1. Redistributions of source code must retain the above copyright
14d65f6f70SBen Gras * notice, this list of conditions and the following disclaimer.
15d65f6f70SBen Gras * 2. Redistributions in binary form must reproduce the above copyright
16d65f6f70SBen Gras * notice, this list of conditions and the following disclaimer in the
17d65f6f70SBen Gras * documentation and/or other materials provided with the distribution.
18d65f6f70SBen Gras *
19d65f6f70SBen Gras * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
20d65f6f70SBen Gras * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
21d65f6f70SBen Gras * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
22d65f6f70SBen Gras * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
23d65f6f70SBen Gras * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
24d65f6f70SBen Gras * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
25d65f6f70SBen Gras * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
26d65f6f70SBen Gras * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
27d65f6f70SBen Gras * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
28d65f6f70SBen Gras * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
29d65f6f70SBen Gras * POSSIBILITY OF SUCH DAMAGE.
30d65f6f70SBen Gras */
31d65f6f70SBen Gras
32d65f6f70SBen Gras /*
33d65f6f70SBen Gras * Copyright (c) 2002 Networks Associates Technology, Inc.
34d65f6f70SBen Gras * All rights reserved.
35d65f6f70SBen Gras *
36d65f6f70SBen Gras * This software was developed for the FreeBSD Project by Marshall
37d65f6f70SBen Gras * Kirk McKusick and Network Associates Laboratories, the Security
38d65f6f70SBen Gras * Research Division of Network Associates, Inc. under DARPA/SPAWAR
39d65f6f70SBen Gras * contract N66001-01-C-8035 ("CBOSS"), as part of the DARPA CHATS
40d65f6f70SBen Gras * research program
41d65f6f70SBen Gras *
42d65f6f70SBen Gras * Copyright (c) 1982, 1986, 1989, 1993
43d65f6f70SBen Gras * The Regents of the University of California. All rights reserved.
44d65f6f70SBen Gras *
45d65f6f70SBen Gras * Redistribution and use in source and binary forms, with or without
46d65f6f70SBen Gras * modification, are permitted provided that the following conditions
47d65f6f70SBen Gras * are met:
48d65f6f70SBen Gras * 1. Redistributions of source code must retain the above copyright
49d65f6f70SBen Gras * notice, this list of conditions and the following disclaimer.
50d65f6f70SBen Gras * 2. Redistributions in binary form must reproduce the above copyright
51d65f6f70SBen Gras * notice, this list of conditions and the following disclaimer in the
52d65f6f70SBen Gras * documentation and/or other materials provided with the distribution.
53d65f6f70SBen Gras * 3. Neither the name of the University nor the names of its contributors
54d65f6f70SBen Gras * may be used to endorse or promote products derived from this software
55d65f6f70SBen Gras * without specific prior written permission.
56d65f6f70SBen Gras *
57d65f6f70SBen Gras * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
58d65f6f70SBen Gras * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
59d65f6f70SBen Gras * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
60d65f6f70SBen Gras * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
61d65f6f70SBen Gras * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
62d65f6f70SBen Gras * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
63d65f6f70SBen Gras * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
64d65f6f70SBen Gras * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
65d65f6f70SBen Gras * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
66d65f6f70SBen Gras * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
67d65f6f70SBen Gras * SUCH DAMAGE.
68d65f6f70SBen Gras *
69d65f6f70SBen Gras * @(#)ffs_alloc.c 8.19 (Berkeley) 7/13/95
70d65f6f70SBen Gras */
71d65f6f70SBen Gras
72d65f6f70SBen Gras #include <sys/cdefs.h>
73*0a6a1f1dSLionel Sambuc __KERNEL_RCSID(0, "$NetBSD: ffs_alloc.c,v 1.151 2015/08/12 14:52:35 riastradh Exp $");
74d65f6f70SBen Gras
75d65f6f70SBen Gras #if defined(_KERNEL_OPT)
76d65f6f70SBen Gras #include "opt_ffs.h"
77d65f6f70SBen Gras #include "opt_quota.h"
78d65f6f70SBen Gras #include "opt_uvm_page_trkown.h"
79d65f6f70SBen Gras #endif
80d65f6f70SBen Gras
81d65f6f70SBen Gras #include <sys/param.h>
82d65f6f70SBen Gras #include <sys/systm.h>
83d65f6f70SBen Gras #include <sys/buf.h>
84d65f6f70SBen Gras #include <sys/cprng.h>
85d65f6f70SBen Gras #include <sys/fstrans.h>
86d65f6f70SBen Gras #include <sys/kauth.h>
87d65f6f70SBen Gras #include <sys/kernel.h>
88d65f6f70SBen Gras #include <sys/mount.h>
89d65f6f70SBen Gras #include <sys/proc.h>
90d65f6f70SBen Gras #include <sys/syslog.h>
91d65f6f70SBen Gras #include <sys/vnode.h>
92d65f6f70SBen Gras #include <sys/wapbl.h>
93*0a6a1f1dSLionel Sambuc #include <sys/cprng.h>
94d65f6f70SBen Gras
95d65f6f70SBen Gras #include <miscfs/specfs/specdev.h>
96d65f6f70SBen Gras #include <ufs/ufs/quota.h>
97d65f6f70SBen Gras #include <ufs/ufs/ufsmount.h>
98d65f6f70SBen Gras #include <ufs/ufs/inode.h>
99d65f6f70SBen Gras #include <ufs/ufs/ufs_extern.h>
100d65f6f70SBen Gras #include <ufs/ufs/ufs_bswap.h>
101d65f6f70SBen Gras #include <ufs/ufs/ufs_wapbl.h>
102d65f6f70SBen Gras
103d65f6f70SBen Gras #include <ufs/ffs/fs.h>
104d65f6f70SBen Gras #include <ufs/ffs/ffs_extern.h>
105d65f6f70SBen Gras
106d65f6f70SBen Gras #ifdef UVM_PAGE_TRKOWN
107d65f6f70SBen Gras #include <uvm/uvm.h>
108d65f6f70SBen Gras #endif
109d65f6f70SBen Gras
110d65f6f70SBen Gras static daddr_t ffs_alloccg(struct inode *, int, daddr_t, int, int);
111d65f6f70SBen Gras static daddr_t ffs_alloccgblk(struct inode *, struct buf *, daddr_t, int);
112d65f6f70SBen Gras static ino_t ffs_dirpref(struct inode *);
113d65f6f70SBen Gras static daddr_t ffs_fragextend(struct inode *, int, daddr_t, int, int);
114*0a6a1f1dSLionel Sambuc static void ffs_fserr(struct fs *, kauth_cred_t, const char *);
115d65f6f70SBen Gras static daddr_t ffs_hashalloc(struct inode *, int, daddr_t, int, int,
116d65f6f70SBen Gras daddr_t (*)(struct inode *, int, daddr_t, int, int));
117d65f6f70SBen Gras static daddr_t ffs_nodealloccg(struct inode *, int, daddr_t, int, int);
118d65f6f70SBen Gras static int32_t ffs_mapsearch(struct fs *, struct cg *,
119d65f6f70SBen Gras daddr_t, int);
120d65f6f70SBen Gras static void ffs_blkfree_common(struct ufsmount *, struct fs *, dev_t, struct buf *,
121d65f6f70SBen Gras daddr_t, long, bool);
122d65f6f70SBen Gras static void ffs_freefile_common(struct ufsmount *, struct fs *, dev_t, struct buf *, ino_t,
123d65f6f70SBen Gras int, bool);
124d65f6f70SBen Gras
125d65f6f70SBen Gras /* if 1, changes in optimalization strategy are logged */
126d65f6f70SBen Gras int ffs_log_changeopt = 0;
127d65f6f70SBen Gras
128d65f6f70SBen Gras /* in ffs_tables.c */
129d65f6f70SBen Gras extern const int inside[], around[];
130d65f6f70SBen Gras extern const u_char * const fragtbl[];
131d65f6f70SBen Gras
132d65f6f70SBen Gras /* Basic consistency check for block allocations */
133d65f6f70SBen Gras static int
ffs_check_bad_allocation(const char * func,struct fs * fs,daddr_t bno,long size,dev_t dev,ino_t inum)134d65f6f70SBen Gras ffs_check_bad_allocation(const char *func, struct fs *fs, daddr_t bno,
135d65f6f70SBen Gras long size, dev_t dev, ino_t inum)
136d65f6f70SBen Gras {
13784d9c625SLionel Sambuc if ((u_int)size > fs->fs_bsize || ffs_fragoff(fs, size) != 0 ||
13884d9c625SLionel Sambuc ffs_fragnum(fs, bno) + ffs_numfrags(fs, size) > fs->fs_frag) {
139d65f6f70SBen Gras printf("dev = 0x%llx, bno = %" PRId64 " bsize = %d, "
140d65f6f70SBen Gras "size = %ld, fs = %s\n",
141d65f6f70SBen Gras (long long)dev, bno, fs->fs_bsize, size, fs->fs_fsmnt);
142d65f6f70SBen Gras panic("%s: bad size", func);
143d65f6f70SBen Gras }
144d65f6f70SBen Gras
145d65f6f70SBen Gras if (bno >= fs->fs_size) {
146d65f6f70SBen Gras printf("bad block %" PRId64 ", ino %llu\n", bno,
147d65f6f70SBen Gras (unsigned long long)inum);
148*0a6a1f1dSLionel Sambuc ffs_fserr(fs, NOCRED, "bad block");
149d65f6f70SBen Gras return EINVAL;
150d65f6f70SBen Gras }
151d65f6f70SBen Gras return 0;
152d65f6f70SBen Gras }
153d65f6f70SBen Gras
154d65f6f70SBen Gras /*
155d65f6f70SBen Gras * Allocate a block in the file system.
156d65f6f70SBen Gras *
157d65f6f70SBen Gras * The size of the requested block is given, which must be some
158d65f6f70SBen Gras * multiple of fs_fsize and <= fs_bsize.
159d65f6f70SBen Gras * A preference may be optionally specified. If a preference is given
160d65f6f70SBen Gras * the following hierarchy is used to allocate a block:
161d65f6f70SBen Gras * 1) allocate the requested block.
162d65f6f70SBen Gras * 2) allocate a rotationally optimal block in the same cylinder.
163d65f6f70SBen Gras * 3) allocate a block in the same cylinder group.
164d65f6f70SBen Gras * 4) quadradically rehash into other cylinder groups, until an
165d65f6f70SBen Gras * available block is located.
166d65f6f70SBen Gras * If no block preference is given the following hierarchy is used
167d65f6f70SBen Gras * to allocate a block:
168d65f6f70SBen Gras * 1) allocate a block in the cylinder group that contains the
169d65f6f70SBen Gras * inode for the file.
170d65f6f70SBen Gras * 2) quadradically rehash into other cylinder groups, until an
171d65f6f70SBen Gras * available block is located.
172d65f6f70SBen Gras *
173d65f6f70SBen Gras * => called with um_lock held
174d65f6f70SBen Gras * => releases um_lock before returning
175d65f6f70SBen Gras */
176d65f6f70SBen Gras int
ffs_alloc(struct inode * ip,daddr_t lbn,daddr_t bpref,int size,int flags,kauth_cred_t cred,daddr_t * bnp)177d65f6f70SBen Gras ffs_alloc(struct inode *ip, daddr_t lbn, daddr_t bpref, int size, int flags,
178d65f6f70SBen Gras kauth_cred_t cred, daddr_t *bnp)
179d65f6f70SBen Gras {
180d65f6f70SBen Gras struct ufsmount *ump;
181d65f6f70SBen Gras struct fs *fs;
182d65f6f70SBen Gras daddr_t bno;
183d65f6f70SBen Gras int cg;
184d65f6f70SBen Gras #if defined(QUOTA) || defined(QUOTA2)
185d65f6f70SBen Gras int error;
186d65f6f70SBen Gras #endif
187d65f6f70SBen Gras
188d65f6f70SBen Gras fs = ip->i_fs;
189d65f6f70SBen Gras ump = ip->i_ump;
190d65f6f70SBen Gras
191d65f6f70SBen Gras KASSERT(mutex_owned(&ump->um_lock));
192d65f6f70SBen Gras
193d65f6f70SBen Gras #ifdef UVM_PAGE_TRKOWN
194d65f6f70SBen Gras
195d65f6f70SBen Gras /*
196d65f6f70SBen Gras * Sanity-check that allocations within the file size
197d65f6f70SBen Gras * do not allow other threads to read the stale contents
198d65f6f70SBen Gras * of newly allocated blocks.
199d65f6f70SBen Gras * Usually pages will exist to cover the new allocation.
200d65f6f70SBen Gras * There is an optimization in ffs_write() where we skip
201d65f6f70SBen Gras * creating pages if several conditions are met:
202d65f6f70SBen Gras * - the file must not be mapped (in any user address space).
203d65f6f70SBen Gras * - the write must cover whole pages and whole blocks.
204d65f6f70SBen Gras * If those conditions are not met then pages must exist and
205d65f6f70SBen Gras * be locked by the current thread.
206d65f6f70SBen Gras */
207d65f6f70SBen Gras
208d65f6f70SBen Gras if (ITOV(ip)->v_type == VREG &&
20984d9c625SLionel Sambuc ffs_lblktosize(fs, (voff_t)lbn) < round_page(ITOV(ip)->v_size)) {
210d65f6f70SBen Gras struct vm_page *pg;
211d65f6f70SBen Gras struct vnode *vp = ITOV(ip);
212d65f6f70SBen Gras struct uvm_object *uobj = &vp->v_uobj;
21384d9c625SLionel Sambuc voff_t off = trunc_page(ffs_lblktosize(fs, lbn));
21484d9c625SLionel Sambuc voff_t endoff = round_page(ffs_lblktosize(fs, lbn) + size);
215d65f6f70SBen Gras
216d65f6f70SBen Gras mutex_enter(uobj->vmobjlock);
217d65f6f70SBen Gras while (off < endoff) {
218d65f6f70SBen Gras pg = uvm_pagelookup(uobj, off);
219d65f6f70SBen Gras KASSERT((pg == NULL && (vp->v_vflag & VV_MAPPED) == 0 &&
220d65f6f70SBen Gras (size & PAGE_MASK) == 0 &&
22184d9c625SLionel Sambuc ffs_blkoff(fs, size) == 0) ||
222d65f6f70SBen Gras (pg != NULL && pg->owner == curproc->p_pid &&
223d65f6f70SBen Gras pg->lowner == curlwp->l_lid));
224d65f6f70SBen Gras off += PAGE_SIZE;
225d65f6f70SBen Gras }
226d65f6f70SBen Gras mutex_exit(uobj->vmobjlock);
227d65f6f70SBen Gras }
228d65f6f70SBen Gras #endif
229d65f6f70SBen Gras
230d65f6f70SBen Gras *bnp = 0;
231d65f6f70SBen Gras #ifdef DIAGNOSTIC
23284d9c625SLionel Sambuc if ((u_int)size > fs->fs_bsize || ffs_fragoff(fs, size) != 0) {
233d65f6f70SBen Gras printf("dev = 0x%llx, bsize = %d, size = %d, fs = %s\n",
234d65f6f70SBen Gras (unsigned long long)ip->i_dev, fs->fs_bsize, size,
235d65f6f70SBen Gras fs->fs_fsmnt);
236d65f6f70SBen Gras panic("ffs_alloc: bad size");
237d65f6f70SBen Gras }
238d65f6f70SBen Gras if (cred == NOCRED)
239d65f6f70SBen Gras panic("ffs_alloc: missing credential");
240d65f6f70SBen Gras #endif /* DIAGNOSTIC */
241d65f6f70SBen Gras if (size == fs->fs_bsize && fs->fs_cstotal.cs_nbfree == 0)
242d65f6f70SBen Gras goto nospace;
243d65f6f70SBen Gras if (freespace(fs, fs->fs_minfree) <= 0 &&
244d65f6f70SBen Gras kauth_authorize_system(cred, KAUTH_SYSTEM_FS_RESERVEDSPACE, 0, NULL,
245d65f6f70SBen Gras NULL, NULL) != 0)
246d65f6f70SBen Gras goto nospace;
247d65f6f70SBen Gras #if defined(QUOTA) || defined(QUOTA2)
248d65f6f70SBen Gras mutex_exit(&ump->um_lock);
249d65f6f70SBen Gras if ((error = chkdq(ip, btodb(size), cred, 0)) != 0)
250d65f6f70SBen Gras return (error);
251d65f6f70SBen Gras mutex_enter(&ump->um_lock);
252d65f6f70SBen Gras #endif
253d65f6f70SBen Gras
254d65f6f70SBen Gras if (bpref >= fs->fs_size)
255d65f6f70SBen Gras bpref = 0;
256d65f6f70SBen Gras if (bpref == 0)
257d65f6f70SBen Gras cg = ino_to_cg(fs, ip->i_number);
258d65f6f70SBen Gras else
259d65f6f70SBen Gras cg = dtog(fs, bpref);
260d65f6f70SBen Gras bno = ffs_hashalloc(ip, cg, bpref, size, flags, ffs_alloccg);
261d65f6f70SBen Gras if (bno > 0) {
262d65f6f70SBen Gras DIP_ADD(ip, blocks, btodb(size));
263d65f6f70SBen Gras ip->i_flag |= IN_CHANGE | IN_UPDATE;
264d65f6f70SBen Gras *bnp = bno;
265d65f6f70SBen Gras return (0);
266d65f6f70SBen Gras }
267d65f6f70SBen Gras #if defined(QUOTA) || defined(QUOTA2)
268d65f6f70SBen Gras /*
269d65f6f70SBen Gras * Restore user's disk quota because allocation failed.
270d65f6f70SBen Gras */
271d65f6f70SBen Gras (void) chkdq(ip, -btodb(size), cred, FORCE);
272d65f6f70SBen Gras #endif
273d65f6f70SBen Gras if (flags & B_CONTIG) {
274d65f6f70SBen Gras /*
275d65f6f70SBen Gras * XXX ump->um_lock handling is "suspect" at best.
276d65f6f70SBen Gras * For the case where ffs_hashalloc() fails early
277d65f6f70SBen Gras * in the B_CONTIG case we reach here with um_lock
278d65f6f70SBen Gras * already unlocked, so we can't release it again
279d65f6f70SBen Gras * like in the normal error path. See kern/39206.
280d65f6f70SBen Gras *
281d65f6f70SBen Gras *
282d65f6f70SBen Gras * Fail silently - it's up to our caller to report
283d65f6f70SBen Gras * errors.
284d65f6f70SBen Gras */
285d65f6f70SBen Gras return (ENOSPC);
286d65f6f70SBen Gras }
287d65f6f70SBen Gras nospace:
288d65f6f70SBen Gras mutex_exit(&ump->um_lock);
289*0a6a1f1dSLionel Sambuc ffs_fserr(fs, cred, "file system full");
290d65f6f70SBen Gras uprintf("\n%s: write failed, file system is full\n", fs->fs_fsmnt);
291d65f6f70SBen Gras return (ENOSPC);
292d65f6f70SBen Gras }
293d65f6f70SBen Gras
294d65f6f70SBen Gras /*
295d65f6f70SBen Gras * Reallocate a fragment to a bigger size
296d65f6f70SBen Gras *
297d65f6f70SBen Gras * The number and size of the old block is given, and a preference
298d65f6f70SBen Gras * and new size is also specified. The allocator attempts to extend
299d65f6f70SBen Gras * the original block. Failing that, the regular block allocator is
300d65f6f70SBen Gras * invoked to get an appropriate block.
301d65f6f70SBen Gras *
302d65f6f70SBen Gras * => called with um_lock held
303d65f6f70SBen Gras * => return with um_lock released
304d65f6f70SBen Gras */
305d65f6f70SBen Gras int
ffs_realloccg(struct inode * ip,daddr_t lbprev,daddr_t bpref,int osize,int nsize,kauth_cred_t cred,struct buf ** bpp,daddr_t * blknop)306d65f6f70SBen Gras ffs_realloccg(struct inode *ip, daddr_t lbprev, daddr_t bpref, int osize,
307d65f6f70SBen Gras int nsize, kauth_cred_t cred, struct buf **bpp, daddr_t *blknop)
308d65f6f70SBen Gras {
309d65f6f70SBen Gras struct ufsmount *ump;
310d65f6f70SBen Gras struct fs *fs;
311d65f6f70SBen Gras struct buf *bp;
312d65f6f70SBen Gras int cg, request, error;
313d65f6f70SBen Gras daddr_t bprev, bno;
314d65f6f70SBen Gras
315d65f6f70SBen Gras fs = ip->i_fs;
316d65f6f70SBen Gras ump = ip->i_ump;
317d65f6f70SBen Gras
318d65f6f70SBen Gras KASSERT(mutex_owned(&ump->um_lock));
319d65f6f70SBen Gras
320d65f6f70SBen Gras #ifdef UVM_PAGE_TRKOWN
321d65f6f70SBen Gras
322d65f6f70SBen Gras /*
323d65f6f70SBen Gras * Sanity-check that allocations within the file size
324d65f6f70SBen Gras * do not allow other threads to read the stale contents
325d65f6f70SBen Gras * of newly allocated blocks.
326d65f6f70SBen Gras * Unlike in ffs_alloc(), here pages must always exist
327d65f6f70SBen Gras * for such allocations, because only the last block of a file
328d65f6f70SBen Gras * can be a fragment and ffs_write() will reallocate the
329d65f6f70SBen Gras * fragment to the new size using ufs_balloc_range(),
330d65f6f70SBen Gras * which always creates pages to cover blocks it allocates.
331d65f6f70SBen Gras */
332d65f6f70SBen Gras
333d65f6f70SBen Gras if (ITOV(ip)->v_type == VREG) {
334d65f6f70SBen Gras struct vm_page *pg;
335d65f6f70SBen Gras struct uvm_object *uobj = &ITOV(ip)->v_uobj;
33684d9c625SLionel Sambuc voff_t off = trunc_page(ffs_lblktosize(fs, lbprev));
33784d9c625SLionel Sambuc voff_t endoff = round_page(ffs_lblktosize(fs, lbprev) + osize);
338d65f6f70SBen Gras
339d65f6f70SBen Gras mutex_enter(uobj->vmobjlock);
340d65f6f70SBen Gras while (off < endoff) {
341d65f6f70SBen Gras pg = uvm_pagelookup(uobj, off);
342d65f6f70SBen Gras KASSERT(pg->owner == curproc->p_pid &&
343d65f6f70SBen Gras pg->lowner == curlwp->l_lid);
344d65f6f70SBen Gras off += PAGE_SIZE;
345d65f6f70SBen Gras }
346d65f6f70SBen Gras mutex_exit(uobj->vmobjlock);
347d65f6f70SBen Gras }
348d65f6f70SBen Gras #endif
349d65f6f70SBen Gras
350d65f6f70SBen Gras #ifdef DIAGNOSTIC
35184d9c625SLionel Sambuc if ((u_int)osize > fs->fs_bsize || ffs_fragoff(fs, osize) != 0 ||
35284d9c625SLionel Sambuc (u_int)nsize > fs->fs_bsize || ffs_fragoff(fs, nsize) != 0) {
353d65f6f70SBen Gras printf(
354d65f6f70SBen Gras "dev = 0x%llx, bsize = %d, osize = %d, nsize = %d, fs = %s\n",
355d65f6f70SBen Gras (unsigned long long)ip->i_dev, fs->fs_bsize, osize, nsize,
356d65f6f70SBen Gras fs->fs_fsmnt);
357d65f6f70SBen Gras panic("ffs_realloccg: bad size");
358d65f6f70SBen Gras }
359d65f6f70SBen Gras if (cred == NOCRED)
360d65f6f70SBen Gras panic("ffs_realloccg: missing credential");
361d65f6f70SBen Gras #endif /* DIAGNOSTIC */
362d65f6f70SBen Gras if (freespace(fs, fs->fs_minfree) <= 0 &&
363d65f6f70SBen Gras kauth_authorize_system(cred, KAUTH_SYSTEM_FS_RESERVEDSPACE, 0, NULL,
364d65f6f70SBen Gras NULL, NULL) != 0) {
365d65f6f70SBen Gras mutex_exit(&ump->um_lock);
366d65f6f70SBen Gras goto nospace;
367d65f6f70SBen Gras }
368d65f6f70SBen Gras if (fs->fs_magic == FS_UFS2_MAGIC)
369d65f6f70SBen Gras bprev = ufs_rw64(ip->i_ffs2_db[lbprev], UFS_FSNEEDSWAP(fs));
370d65f6f70SBen Gras else
371d65f6f70SBen Gras bprev = ufs_rw32(ip->i_ffs1_db[lbprev], UFS_FSNEEDSWAP(fs));
372d65f6f70SBen Gras
373d65f6f70SBen Gras if (bprev == 0) {
374d65f6f70SBen Gras printf("dev = 0x%llx, bsize = %d, bprev = %" PRId64 ", fs = %s\n",
375d65f6f70SBen Gras (unsigned long long)ip->i_dev, fs->fs_bsize, bprev,
376d65f6f70SBen Gras fs->fs_fsmnt);
377d65f6f70SBen Gras panic("ffs_realloccg: bad bprev");
378d65f6f70SBen Gras }
379d65f6f70SBen Gras mutex_exit(&ump->um_lock);
380d65f6f70SBen Gras
381d65f6f70SBen Gras /*
382d65f6f70SBen Gras * Allocate the extra space in the buffer.
383d65f6f70SBen Gras */
384d65f6f70SBen Gras if (bpp != NULL &&
385*0a6a1f1dSLionel Sambuc (error = bread(ITOV(ip), lbprev, osize, 0, &bp)) != 0) {
386d65f6f70SBen Gras return (error);
387d65f6f70SBen Gras }
388d65f6f70SBen Gras #if defined(QUOTA) || defined(QUOTA2)
389d65f6f70SBen Gras if ((error = chkdq(ip, btodb(nsize - osize), cred, 0)) != 0) {
390d65f6f70SBen Gras if (bpp != NULL) {
391d65f6f70SBen Gras brelse(bp, 0);
392d65f6f70SBen Gras }
393d65f6f70SBen Gras return (error);
394d65f6f70SBen Gras }
395d65f6f70SBen Gras #endif
396d65f6f70SBen Gras /*
397d65f6f70SBen Gras * Check for extension in the existing location.
398d65f6f70SBen Gras */
399d65f6f70SBen Gras cg = dtog(fs, bprev);
400d65f6f70SBen Gras mutex_enter(&ump->um_lock);
401d65f6f70SBen Gras if ((bno = ffs_fragextend(ip, cg, bprev, osize, nsize)) != 0) {
402d65f6f70SBen Gras DIP_ADD(ip, blocks, btodb(nsize - osize));
403d65f6f70SBen Gras ip->i_flag |= IN_CHANGE | IN_UPDATE;
404d65f6f70SBen Gras
405d65f6f70SBen Gras if (bpp != NULL) {
40684d9c625SLionel Sambuc if (bp->b_blkno != FFS_FSBTODB(fs, bno))
407d65f6f70SBen Gras panic("bad blockno");
408d65f6f70SBen Gras allocbuf(bp, nsize, 1);
409d65f6f70SBen Gras memset((char *)bp->b_data + osize, 0, nsize - osize);
410d65f6f70SBen Gras mutex_enter(bp->b_objlock);
411d65f6f70SBen Gras KASSERT(!cv_has_waiters(&bp->b_done));
412d65f6f70SBen Gras bp->b_oflags |= BO_DONE;
413d65f6f70SBen Gras mutex_exit(bp->b_objlock);
414d65f6f70SBen Gras *bpp = bp;
415d65f6f70SBen Gras }
416d65f6f70SBen Gras if (blknop != NULL) {
417d65f6f70SBen Gras *blknop = bno;
418d65f6f70SBen Gras }
419d65f6f70SBen Gras return (0);
420d65f6f70SBen Gras }
421d65f6f70SBen Gras /*
422d65f6f70SBen Gras * Allocate a new disk location.
423d65f6f70SBen Gras */
424d65f6f70SBen Gras if (bpref >= fs->fs_size)
425d65f6f70SBen Gras bpref = 0;
426d65f6f70SBen Gras switch ((int)fs->fs_optim) {
427d65f6f70SBen Gras case FS_OPTSPACE:
428d65f6f70SBen Gras /*
429d65f6f70SBen Gras * Allocate an exact sized fragment. Although this makes
430d65f6f70SBen Gras * best use of space, we will waste time relocating it if
431d65f6f70SBen Gras * the file continues to grow. If the fragmentation is
432d65f6f70SBen Gras * less than half of the minimum free reserve, we choose
433d65f6f70SBen Gras * to begin optimizing for time.
434d65f6f70SBen Gras */
435d65f6f70SBen Gras request = nsize;
436d65f6f70SBen Gras if (fs->fs_minfree < 5 ||
437d65f6f70SBen Gras fs->fs_cstotal.cs_nffree >
438d65f6f70SBen Gras fs->fs_dsize * fs->fs_minfree / (2 * 100))
439d65f6f70SBen Gras break;
440d65f6f70SBen Gras
441d65f6f70SBen Gras if (ffs_log_changeopt) {
442d65f6f70SBen Gras log(LOG_NOTICE,
443d65f6f70SBen Gras "%s: optimization changed from SPACE to TIME\n",
444d65f6f70SBen Gras fs->fs_fsmnt);
445d65f6f70SBen Gras }
446d65f6f70SBen Gras
447d65f6f70SBen Gras fs->fs_optim = FS_OPTTIME;
448d65f6f70SBen Gras break;
449d65f6f70SBen Gras case FS_OPTTIME:
450d65f6f70SBen Gras /*
451d65f6f70SBen Gras * At this point we have discovered a file that is trying to
452d65f6f70SBen Gras * grow a small fragment to a larger fragment. To save time,
453d65f6f70SBen Gras * we allocate a full sized block, then free the unused portion.
454d65f6f70SBen Gras * If the file continues to grow, the `ffs_fragextend' call
455d65f6f70SBen Gras * above will be able to grow it in place without further
456d65f6f70SBen Gras * copying. If aberrant programs cause disk fragmentation to
457d65f6f70SBen Gras * grow within 2% of the free reserve, we choose to begin
458d65f6f70SBen Gras * optimizing for space.
459d65f6f70SBen Gras */
460d65f6f70SBen Gras request = fs->fs_bsize;
461d65f6f70SBen Gras if (fs->fs_cstotal.cs_nffree <
462d65f6f70SBen Gras fs->fs_dsize * (fs->fs_minfree - 2) / 100)
463d65f6f70SBen Gras break;
464d65f6f70SBen Gras
465d65f6f70SBen Gras if (ffs_log_changeopt) {
466d65f6f70SBen Gras log(LOG_NOTICE,
467d65f6f70SBen Gras "%s: optimization changed from TIME to SPACE\n",
468d65f6f70SBen Gras fs->fs_fsmnt);
469d65f6f70SBen Gras }
470d65f6f70SBen Gras
471d65f6f70SBen Gras fs->fs_optim = FS_OPTSPACE;
472d65f6f70SBen Gras break;
473d65f6f70SBen Gras default:
474d65f6f70SBen Gras printf("dev = 0x%llx, optim = %d, fs = %s\n",
475d65f6f70SBen Gras (unsigned long long)ip->i_dev, fs->fs_optim, fs->fs_fsmnt);
476d65f6f70SBen Gras panic("ffs_realloccg: bad optim");
477d65f6f70SBen Gras /* NOTREACHED */
478d65f6f70SBen Gras }
479d65f6f70SBen Gras bno = ffs_hashalloc(ip, cg, bpref, request, 0, ffs_alloccg);
480d65f6f70SBen Gras if (bno > 0) {
481d65f6f70SBen Gras if ((ip->i_ump->um_mountp->mnt_wapbl) &&
482d65f6f70SBen Gras (ITOV(ip)->v_type != VREG)) {
483d65f6f70SBen Gras UFS_WAPBL_REGISTER_DEALLOCATION(
48484d9c625SLionel Sambuc ip->i_ump->um_mountp, FFS_FSBTODB(fs, bprev),
485d65f6f70SBen Gras osize);
486d65f6f70SBen Gras } else {
487d65f6f70SBen Gras ffs_blkfree(fs, ip->i_devvp, bprev, (long)osize,
488d65f6f70SBen Gras ip->i_number);
489d65f6f70SBen Gras }
490d65f6f70SBen Gras if (nsize < request) {
491d65f6f70SBen Gras if ((ip->i_ump->um_mountp->mnt_wapbl) &&
492d65f6f70SBen Gras (ITOV(ip)->v_type != VREG)) {
493d65f6f70SBen Gras UFS_WAPBL_REGISTER_DEALLOCATION(
494d65f6f70SBen Gras ip->i_ump->um_mountp,
49584d9c625SLionel Sambuc FFS_FSBTODB(fs, (bno + ffs_numfrags(fs, nsize))),
496d65f6f70SBen Gras request - nsize);
497d65f6f70SBen Gras } else
498d65f6f70SBen Gras ffs_blkfree(fs, ip->i_devvp,
49984d9c625SLionel Sambuc bno + ffs_numfrags(fs, nsize),
500d65f6f70SBen Gras (long)(request - nsize), ip->i_number);
501d65f6f70SBen Gras }
502d65f6f70SBen Gras DIP_ADD(ip, blocks, btodb(nsize - osize));
503d65f6f70SBen Gras ip->i_flag |= IN_CHANGE | IN_UPDATE;
504d65f6f70SBen Gras if (bpp != NULL) {
50584d9c625SLionel Sambuc bp->b_blkno = FFS_FSBTODB(fs, bno);
506d65f6f70SBen Gras allocbuf(bp, nsize, 1);
507d65f6f70SBen Gras memset((char *)bp->b_data + osize, 0, (u_int)nsize - osize);
508d65f6f70SBen Gras mutex_enter(bp->b_objlock);
509d65f6f70SBen Gras KASSERT(!cv_has_waiters(&bp->b_done));
510d65f6f70SBen Gras bp->b_oflags |= BO_DONE;
511d65f6f70SBen Gras mutex_exit(bp->b_objlock);
512d65f6f70SBen Gras *bpp = bp;
513d65f6f70SBen Gras }
514d65f6f70SBen Gras if (blknop != NULL) {
515d65f6f70SBen Gras *blknop = bno;
516d65f6f70SBen Gras }
517d65f6f70SBen Gras return (0);
518d65f6f70SBen Gras }
519d65f6f70SBen Gras mutex_exit(&ump->um_lock);
520d65f6f70SBen Gras
521d65f6f70SBen Gras #if defined(QUOTA) || defined(QUOTA2)
522d65f6f70SBen Gras /*
523d65f6f70SBen Gras * Restore user's disk quota because allocation failed.
524d65f6f70SBen Gras */
525d65f6f70SBen Gras (void) chkdq(ip, -btodb(nsize - osize), cred, FORCE);
526d65f6f70SBen Gras #endif
527d65f6f70SBen Gras if (bpp != NULL) {
528d65f6f70SBen Gras brelse(bp, 0);
529d65f6f70SBen Gras }
530d65f6f70SBen Gras
531d65f6f70SBen Gras nospace:
532d65f6f70SBen Gras /*
533d65f6f70SBen Gras * no space available
534d65f6f70SBen Gras */
535*0a6a1f1dSLionel Sambuc ffs_fserr(fs, cred, "file system full");
536d65f6f70SBen Gras uprintf("\n%s: write failed, file system is full\n", fs->fs_fsmnt);
537d65f6f70SBen Gras return (ENOSPC);
538d65f6f70SBen Gras }
539d65f6f70SBen Gras
540d65f6f70SBen Gras /*
541d65f6f70SBen Gras * Allocate an inode in the file system.
542d65f6f70SBen Gras *
543d65f6f70SBen Gras * If allocating a directory, use ffs_dirpref to select the inode.
544d65f6f70SBen Gras * If allocating in a directory, the following hierarchy is followed:
545d65f6f70SBen Gras * 1) allocate the preferred inode.
546d65f6f70SBen Gras * 2) allocate an inode in the same cylinder group.
547d65f6f70SBen Gras * 3) quadradically rehash into other cylinder groups, until an
548d65f6f70SBen Gras * available inode is located.
549d65f6f70SBen Gras * If no inode preference is given the following hierarchy is used
550d65f6f70SBen Gras * to allocate an inode:
551d65f6f70SBen Gras * 1) allocate an inode in cylinder group 0.
552d65f6f70SBen Gras * 2) quadradically rehash into other cylinder groups, until an
553d65f6f70SBen Gras * available inode is located.
554d65f6f70SBen Gras *
555d65f6f70SBen Gras * => um_lock not held upon entry or return
556d65f6f70SBen Gras */
557d65f6f70SBen Gras int
ffs_valloc(struct vnode * pvp,int mode,kauth_cred_t cred,ino_t * inop)558*0a6a1f1dSLionel Sambuc ffs_valloc(struct vnode *pvp, int mode, kauth_cred_t cred, ino_t *inop)
559d65f6f70SBen Gras {
560d65f6f70SBen Gras struct ufsmount *ump;
561d65f6f70SBen Gras struct inode *pip;
562d65f6f70SBen Gras struct fs *fs;
563d65f6f70SBen Gras ino_t ino, ipref;
564d65f6f70SBen Gras int cg, error;
565d65f6f70SBen Gras
566d65f6f70SBen Gras UFS_WAPBL_JUNLOCK_ASSERT(pvp->v_mount);
567d65f6f70SBen Gras
568d65f6f70SBen Gras pip = VTOI(pvp);
569d65f6f70SBen Gras fs = pip->i_fs;
570d65f6f70SBen Gras ump = pip->i_ump;
571d65f6f70SBen Gras
572d65f6f70SBen Gras error = UFS_WAPBL_BEGIN(pvp->v_mount);
573d65f6f70SBen Gras if (error) {
574d65f6f70SBen Gras return error;
575d65f6f70SBen Gras }
576d65f6f70SBen Gras mutex_enter(&ump->um_lock);
577d65f6f70SBen Gras if (fs->fs_cstotal.cs_nifree == 0)
578d65f6f70SBen Gras goto noinodes;
579d65f6f70SBen Gras
580d65f6f70SBen Gras if ((mode & IFMT) == IFDIR)
581d65f6f70SBen Gras ipref = ffs_dirpref(pip);
582d65f6f70SBen Gras else
583d65f6f70SBen Gras ipref = pip->i_number;
584d65f6f70SBen Gras if (ipref >= fs->fs_ncg * fs->fs_ipg)
585d65f6f70SBen Gras ipref = 0;
586d65f6f70SBen Gras cg = ino_to_cg(fs, ipref);
587d65f6f70SBen Gras /*
588d65f6f70SBen Gras * Track number of dirs created one after another
589d65f6f70SBen Gras * in a same cg without intervening by files.
590d65f6f70SBen Gras */
591d65f6f70SBen Gras if ((mode & IFMT) == IFDIR) {
592d65f6f70SBen Gras if (fs->fs_contigdirs[cg] < 255)
593d65f6f70SBen Gras fs->fs_contigdirs[cg]++;
594d65f6f70SBen Gras } else {
595d65f6f70SBen Gras if (fs->fs_contigdirs[cg] > 0)
596d65f6f70SBen Gras fs->fs_contigdirs[cg]--;
597d65f6f70SBen Gras }
598d65f6f70SBen Gras ino = (ino_t)ffs_hashalloc(pip, cg, ipref, mode, 0, ffs_nodealloccg);
599d65f6f70SBen Gras if (ino == 0)
600d65f6f70SBen Gras goto noinodes;
601d65f6f70SBen Gras UFS_WAPBL_END(pvp->v_mount);
602*0a6a1f1dSLionel Sambuc *inop = ino;
603*0a6a1f1dSLionel Sambuc return 0;
604d65f6f70SBen Gras
605d65f6f70SBen Gras noinodes:
606d65f6f70SBen Gras mutex_exit(&ump->um_lock);
607d65f6f70SBen Gras UFS_WAPBL_END(pvp->v_mount);
608*0a6a1f1dSLionel Sambuc ffs_fserr(fs, cred, "out of inodes");
609d65f6f70SBen Gras uprintf("\n%s: create/symlink failed, no inodes free\n", fs->fs_fsmnt);
610*0a6a1f1dSLionel Sambuc return ENOSPC;
611d65f6f70SBen Gras }
612d65f6f70SBen Gras
613d65f6f70SBen Gras /*
614d65f6f70SBen Gras * Find a cylinder group in which to place a directory.
615d65f6f70SBen Gras *
616d65f6f70SBen Gras * The policy implemented by this algorithm is to allocate a
617d65f6f70SBen Gras * directory inode in the same cylinder group as its parent
618d65f6f70SBen Gras * directory, but also to reserve space for its files inodes
619d65f6f70SBen Gras * and data. Restrict the number of directories which may be
620d65f6f70SBen Gras * allocated one after another in the same cylinder group
621d65f6f70SBen Gras * without intervening allocation of files.
622d65f6f70SBen Gras *
623d65f6f70SBen Gras * If we allocate a first level directory then force allocation
624d65f6f70SBen Gras * in another cylinder group.
625d65f6f70SBen Gras */
626d65f6f70SBen Gras static ino_t
ffs_dirpref(struct inode * pip)627d65f6f70SBen Gras ffs_dirpref(struct inode *pip)
628d65f6f70SBen Gras {
629d65f6f70SBen Gras register struct fs *fs;
630d65f6f70SBen Gras int cg, prefcg;
631d65f6f70SBen Gras int64_t dirsize, cgsize, curdsz;
632d65f6f70SBen Gras int avgifree, avgbfree, avgndir;
633d65f6f70SBen Gras int minifree, minbfree, maxndir;
634d65f6f70SBen Gras int mincg, minndir;
635d65f6f70SBen Gras int maxcontigdirs;
636d65f6f70SBen Gras
637d65f6f70SBen Gras KASSERT(mutex_owned(&pip->i_ump->um_lock));
638d65f6f70SBen Gras
639d65f6f70SBen Gras fs = pip->i_fs;
640d65f6f70SBen Gras
641d65f6f70SBen Gras avgifree = fs->fs_cstotal.cs_nifree / fs->fs_ncg;
642d65f6f70SBen Gras avgbfree = fs->fs_cstotal.cs_nbfree / fs->fs_ncg;
643d65f6f70SBen Gras avgndir = fs->fs_cstotal.cs_ndir / fs->fs_ncg;
644d65f6f70SBen Gras
645d65f6f70SBen Gras /*
646d65f6f70SBen Gras * Force allocation in another cg if creating a first level dir.
647d65f6f70SBen Gras */
648d65f6f70SBen Gras if (ITOV(pip)->v_vflag & VV_ROOT) {
649*0a6a1f1dSLionel Sambuc prefcg = cprng_fast32() % fs->fs_ncg;
650d65f6f70SBen Gras mincg = prefcg;
651d65f6f70SBen Gras minndir = fs->fs_ipg;
652d65f6f70SBen Gras for (cg = prefcg; cg < fs->fs_ncg; cg++)
653d65f6f70SBen Gras if (fs->fs_cs(fs, cg).cs_ndir < minndir &&
654d65f6f70SBen Gras fs->fs_cs(fs, cg).cs_nifree >= avgifree &&
655d65f6f70SBen Gras fs->fs_cs(fs, cg).cs_nbfree >= avgbfree) {
656d65f6f70SBen Gras mincg = cg;
657d65f6f70SBen Gras minndir = fs->fs_cs(fs, cg).cs_ndir;
658d65f6f70SBen Gras }
659d65f6f70SBen Gras for (cg = 0; cg < prefcg; cg++)
660d65f6f70SBen Gras if (fs->fs_cs(fs, cg).cs_ndir < minndir &&
661d65f6f70SBen Gras fs->fs_cs(fs, cg).cs_nifree >= avgifree &&
662d65f6f70SBen Gras fs->fs_cs(fs, cg).cs_nbfree >= avgbfree) {
663d65f6f70SBen Gras mincg = cg;
664d65f6f70SBen Gras minndir = fs->fs_cs(fs, cg).cs_ndir;
665d65f6f70SBen Gras }
666d65f6f70SBen Gras return ((ino_t)(fs->fs_ipg * mincg));
667d65f6f70SBen Gras }
668d65f6f70SBen Gras
669d65f6f70SBen Gras /*
670d65f6f70SBen Gras * Count various limits which used for
671d65f6f70SBen Gras * optimal allocation of a directory inode.
67284d9c625SLionel Sambuc * Try cylinder groups with >75% avgifree and avgbfree.
67384d9c625SLionel Sambuc * Avoid cylinder groups with no free blocks or inodes as that
67484d9c625SLionel Sambuc * triggers an I/O-expensive cylinder group scan.
675d65f6f70SBen Gras */
676d65f6f70SBen Gras maxndir = min(avgndir + fs->fs_ipg / 16, fs->fs_ipg);
67784d9c625SLionel Sambuc minifree = avgifree - avgifree / 4;
67884d9c625SLionel Sambuc if (minifree < 1)
67984d9c625SLionel Sambuc minifree = 1;
68084d9c625SLionel Sambuc minbfree = avgbfree - avgbfree / 4;
68184d9c625SLionel Sambuc if (minbfree < 1)
68284d9c625SLionel Sambuc minbfree = 1;
683d65f6f70SBen Gras cgsize = (int64_t)fs->fs_fsize * fs->fs_fpg;
684d65f6f70SBen Gras dirsize = (int64_t)fs->fs_avgfilesize * fs->fs_avgfpdir;
685d65f6f70SBen Gras if (avgndir != 0) {
686d65f6f70SBen Gras curdsz = (cgsize - (int64_t)avgbfree * fs->fs_bsize) / avgndir;
687d65f6f70SBen Gras if (dirsize < curdsz)
688d65f6f70SBen Gras dirsize = curdsz;
689d65f6f70SBen Gras }
690d65f6f70SBen Gras if (cgsize < dirsize * 255)
69184d9c625SLionel Sambuc maxcontigdirs = (avgbfree * fs->fs_bsize) / dirsize;
692d65f6f70SBen Gras else
693d65f6f70SBen Gras maxcontigdirs = 255;
694d65f6f70SBen Gras if (fs->fs_avgfpdir > 0)
695d65f6f70SBen Gras maxcontigdirs = min(maxcontigdirs,
696d65f6f70SBen Gras fs->fs_ipg / fs->fs_avgfpdir);
697d65f6f70SBen Gras if (maxcontigdirs == 0)
698d65f6f70SBen Gras maxcontigdirs = 1;
699d65f6f70SBen Gras
700d65f6f70SBen Gras /*
701d65f6f70SBen Gras * Limit number of dirs in one cg and reserve space for
702d65f6f70SBen Gras * regular files, but only if we have no deficit in
703d65f6f70SBen Gras * inodes or space.
704d65f6f70SBen Gras */
705d65f6f70SBen Gras prefcg = ino_to_cg(fs, pip->i_number);
706d65f6f70SBen Gras for (cg = prefcg; cg < fs->fs_ncg; cg++)
707d65f6f70SBen Gras if (fs->fs_cs(fs, cg).cs_ndir < maxndir &&
708d65f6f70SBen Gras fs->fs_cs(fs, cg).cs_nifree >= minifree &&
709d65f6f70SBen Gras fs->fs_cs(fs, cg).cs_nbfree >= minbfree) {
710d65f6f70SBen Gras if (fs->fs_contigdirs[cg] < maxcontigdirs)
711d65f6f70SBen Gras return ((ino_t)(fs->fs_ipg * cg));
712d65f6f70SBen Gras }
713d65f6f70SBen Gras for (cg = 0; cg < prefcg; cg++)
714d65f6f70SBen Gras if (fs->fs_cs(fs, cg).cs_ndir < maxndir &&
715d65f6f70SBen Gras fs->fs_cs(fs, cg).cs_nifree >= minifree &&
716d65f6f70SBen Gras fs->fs_cs(fs, cg).cs_nbfree >= minbfree) {
717d65f6f70SBen Gras if (fs->fs_contigdirs[cg] < maxcontigdirs)
718d65f6f70SBen Gras return ((ino_t)(fs->fs_ipg * cg));
719d65f6f70SBen Gras }
720d65f6f70SBen Gras /*
721d65f6f70SBen Gras * This is a backstop when we are deficient in space.
722d65f6f70SBen Gras */
723d65f6f70SBen Gras for (cg = prefcg; cg < fs->fs_ncg; cg++)
724d65f6f70SBen Gras if (fs->fs_cs(fs, cg).cs_nifree >= avgifree)
725d65f6f70SBen Gras return ((ino_t)(fs->fs_ipg * cg));
726d65f6f70SBen Gras for (cg = 0; cg < prefcg; cg++)
727d65f6f70SBen Gras if (fs->fs_cs(fs, cg).cs_nifree >= avgifree)
728d65f6f70SBen Gras break;
729d65f6f70SBen Gras return ((ino_t)(fs->fs_ipg * cg));
730d65f6f70SBen Gras }
731d65f6f70SBen Gras
732d65f6f70SBen Gras /*
733d65f6f70SBen Gras * Select the desired position for the next block in a file. The file is
734d65f6f70SBen Gras * logically divided into sections. The first section is composed of the
735d65f6f70SBen Gras * direct blocks. Each additional section contains fs_maxbpg blocks.
736d65f6f70SBen Gras *
737d65f6f70SBen Gras * If no blocks have been allocated in the first section, the policy is to
738d65f6f70SBen Gras * request a block in the same cylinder group as the inode that describes
739d65f6f70SBen Gras * the file. If no blocks have been allocated in any other section, the
740d65f6f70SBen Gras * policy is to place the section in a cylinder group with a greater than
741d65f6f70SBen Gras * average number of free blocks. An appropriate cylinder group is found
742d65f6f70SBen Gras * by using a rotor that sweeps the cylinder groups. When a new group of
743d65f6f70SBen Gras * blocks is needed, the sweep begins in the cylinder group following the
744d65f6f70SBen Gras * cylinder group from which the previous allocation was made. The sweep
745d65f6f70SBen Gras * continues until a cylinder group with greater than the average number
746d65f6f70SBen Gras * of free blocks is found. If the allocation is for the first block in an
747d65f6f70SBen Gras * indirect block, the information on the previous allocation is unavailable;
748d65f6f70SBen Gras * here a best guess is made based upon the logical block number being
749d65f6f70SBen Gras * allocated.
750d65f6f70SBen Gras *
751d65f6f70SBen Gras * If a section is already partially allocated, the policy is to
752d65f6f70SBen Gras * contiguously allocate fs_maxcontig blocks. The end of one of these
753d65f6f70SBen Gras * contiguous blocks and the beginning of the next is laid out
754d65f6f70SBen Gras * contigously if possible.
755d65f6f70SBen Gras *
756d65f6f70SBen Gras * => um_lock held on entry and exit
757d65f6f70SBen Gras */
758d65f6f70SBen Gras daddr_t
ffs_blkpref_ufs1(struct inode * ip,daddr_t lbn,int indx,int flags,int32_t * bap)759d65f6f70SBen Gras ffs_blkpref_ufs1(struct inode *ip, daddr_t lbn, int indx, int flags,
760d65f6f70SBen Gras int32_t *bap /* XXX ondisk32 */)
761d65f6f70SBen Gras {
762d65f6f70SBen Gras struct fs *fs;
763d65f6f70SBen Gras int cg;
764d65f6f70SBen Gras int avgbfree, startcg;
765d65f6f70SBen Gras
766d65f6f70SBen Gras KASSERT(mutex_owned(&ip->i_ump->um_lock));
767d65f6f70SBen Gras
768d65f6f70SBen Gras fs = ip->i_fs;
769d65f6f70SBen Gras
770d65f6f70SBen Gras /*
771d65f6f70SBen Gras * If allocating a contiguous file with B_CONTIG, use the hints
772d65f6f70SBen Gras * in the inode extentions to return the desired block.
773d65f6f70SBen Gras *
774d65f6f70SBen Gras * For metadata (indirect blocks) return the address of where
775d65f6f70SBen Gras * the first indirect block resides - we'll scan for the next
776d65f6f70SBen Gras * available slot if we need to allocate more than one indirect
777d65f6f70SBen Gras * block. For data, return the address of the actual block
778d65f6f70SBen Gras * relative to the address of the first data block.
779d65f6f70SBen Gras */
780d65f6f70SBen Gras if (flags & B_CONTIG) {
781d65f6f70SBen Gras KASSERT(ip->i_ffs_first_data_blk != 0);
782d65f6f70SBen Gras KASSERT(ip->i_ffs_first_indir_blk != 0);
783d65f6f70SBen Gras if (flags & B_METAONLY)
784d65f6f70SBen Gras return ip->i_ffs_first_indir_blk;
785d65f6f70SBen Gras else
78684d9c625SLionel Sambuc return ip->i_ffs_first_data_blk + ffs_blkstofrags(fs, lbn);
787d65f6f70SBen Gras }
788d65f6f70SBen Gras
789d65f6f70SBen Gras if (indx % fs->fs_maxbpg == 0 || bap[indx - 1] == 0) {
79084d9c625SLionel Sambuc if (lbn < UFS_NDADDR + FFS_NINDIR(fs)) {
791d65f6f70SBen Gras cg = ino_to_cg(fs, ip->i_number);
792d65f6f70SBen Gras return (cgbase(fs, cg) + fs->fs_frag);
793d65f6f70SBen Gras }
794d65f6f70SBen Gras /*
795d65f6f70SBen Gras * Find a cylinder with greater than average number of
796d65f6f70SBen Gras * unused data blocks.
797d65f6f70SBen Gras */
798d65f6f70SBen Gras if (indx == 0 || bap[indx - 1] == 0)
799d65f6f70SBen Gras startcg =
800d65f6f70SBen Gras ino_to_cg(fs, ip->i_number) + lbn / fs->fs_maxbpg;
801d65f6f70SBen Gras else
802d65f6f70SBen Gras startcg = dtog(fs,
803d65f6f70SBen Gras ufs_rw32(bap[indx - 1], UFS_FSNEEDSWAP(fs)) + 1);
804d65f6f70SBen Gras startcg %= fs->fs_ncg;
805d65f6f70SBen Gras avgbfree = fs->fs_cstotal.cs_nbfree / fs->fs_ncg;
806d65f6f70SBen Gras for (cg = startcg; cg < fs->fs_ncg; cg++)
807d65f6f70SBen Gras if (fs->fs_cs(fs, cg).cs_nbfree >= avgbfree) {
808d65f6f70SBen Gras return (cgbase(fs, cg) + fs->fs_frag);
809d65f6f70SBen Gras }
810d65f6f70SBen Gras for (cg = 0; cg < startcg; cg++)
811d65f6f70SBen Gras if (fs->fs_cs(fs, cg).cs_nbfree >= avgbfree) {
812d65f6f70SBen Gras return (cgbase(fs, cg) + fs->fs_frag);
813d65f6f70SBen Gras }
814d65f6f70SBen Gras return (0);
815d65f6f70SBen Gras }
816d65f6f70SBen Gras /*
817d65f6f70SBen Gras * We just always try to lay things out contiguously.
818d65f6f70SBen Gras */
819d65f6f70SBen Gras return ufs_rw32(bap[indx - 1], UFS_FSNEEDSWAP(fs)) + fs->fs_frag;
820d65f6f70SBen Gras }
821d65f6f70SBen Gras
822d65f6f70SBen Gras daddr_t
ffs_blkpref_ufs2(struct inode * ip,daddr_t lbn,int indx,int flags,int64_t * bap)823d65f6f70SBen Gras ffs_blkpref_ufs2(struct inode *ip, daddr_t lbn, int indx, int flags,
824d65f6f70SBen Gras int64_t *bap)
825d65f6f70SBen Gras {
826d65f6f70SBen Gras struct fs *fs;
827d65f6f70SBen Gras int cg;
828d65f6f70SBen Gras int avgbfree, startcg;
829d65f6f70SBen Gras
830d65f6f70SBen Gras KASSERT(mutex_owned(&ip->i_ump->um_lock));
831d65f6f70SBen Gras
832d65f6f70SBen Gras fs = ip->i_fs;
833d65f6f70SBen Gras
834d65f6f70SBen Gras /*
835d65f6f70SBen Gras * If allocating a contiguous file with B_CONTIG, use the hints
836d65f6f70SBen Gras * in the inode extentions to return the desired block.
837d65f6f70SBen Gras *
838d65f6f70SBen Gras * For metadata (indirect blocks) return the address of where
839d65f6f70SBen Gras * the first indirect block resides - we'll scan for the next
840d65f6f70SBen Gras * available slot if we need to allocate more than one indirect
841d65f6f70SBen Gras * block. For data, return the address of the actual block
842d65f6f70SBen Gras * relative to the address of the first data block.
843d65f6f70SBen Gras */
844d65f6f70SBen Gras if (flags & B_CONTIG) {
845d65f6f70SBen Gras KASSERT(ip->i_ffs_first_data_blk != 0);
846d65f6f70SBen Gras KASSERT(ip->i_ffs_first_indir_blk != 0);
847d65f6f70SBen Gras if (flags & B_METAONLY)
848d65f6f70SBen Gras return ip->i_ffs_first_indir_blk;
849d65f6f70SBen Gras else
85084d9c625SLionel Sambuc return ip->i_ffs_first_data_blk + ffs_blkstofrags(fs, lbn);
851d65f6f70SBen Gras }
852d65f6f70SBen Gras
853d65f6f70SBen Gras if (indx % fs->fs_maxbpg == 0 || bap[indx - 1] == 0) {
85484d9c625SLionel Sambuc if (lbn < UFS_NDADDR + FFS_NINDIR(fs)) {
855d65f6f70SBen Gras cg = ino_to_cg(fs, ip->i_number);
856d65f6f70SBen Gras return (cgbase(fs, cg) + fs->fs_frag);
857d65f6f70SBen Gras }
858d65f6f70SBen Gras /*
859d65f6f70SBen Gras * Find a cylinder with greater than average number of
860d65f6f70SBen Gras * unused data blocks.
861d65f6f70SBen Gras */
862d65f6f70SBen Gras if (indx == 0 || bap[indx - 1] == 0)
863d65f6f70SBen Gras startcg =
864d65f6f70SBen Gras ino_to_cg(fs, ip->i_number) + lbn / fs->fs_maxbpg;
865d65f6f70SBen Gras else
866d65f6f70SBen Gras startcg = dtog(fs,
867d65f6f70SBen Gras ufs_rw64(bap[indx - 1], UFS_FSNEEDSWAP(fs)) + 1);
868d65f6f70SBen Gras startcg %= fs->fs_ncg;
869d65f6f70SBen Gras avgbfree = fs->fs_cstotal.cs_nbfree / fs->fs_ncg;
870d65f6f70SBen Gras for (cg = startcg; cg < fs->fs_ncg; cg++)
871d65f6f70SBen Gras if (fs->fs_cs(fs, cg).cs_nbfree >= avgbfree) {
872d65f6f70SBen Gras return (cgbase(fs, cg) + fs->fs_frag);
873d65f6f70SBen Gras }
874d65f6f70SBen Gras for (cg = 0; cg < startcg; cg++)
875d65f6f70SBen Gras if (fs->fs_cs(fs, cg).cs_nbfree >= avgbfree) {
876d65f6f70SBen Gras return (cgbase(fs, cg) + fs->fs_frag);
877d65f6f70SBen Gras }
878d65f6f70SBen Gras return (0);
879d65f6f70SBen Gras }
880d65f6f70SBen Gras /*
881d65f6f70SBen Gras * We just always try to lay things out contiguously.
882d65f6f70SBen Gras */
883d65f6f70SBen Gras return ufs_rw64(bap[indx - 1], UFS_FSNEEDSWAP(fs)) + fs->fs_frag;
884d65f6f70SBen Gras }
885d65f6f70SBen Gras
886d65f6f70SBen Gras
887d65f6f70SBen Gras /*
888d65f6f70SBen Gras * Implement the cylinder overflow algorithm.
889d65f6f70SBen Gras *
890d65f6f70SBen Gras * The policy implemented by this algorithm is:
891d65f6f70SBen Gras * 1) allocate the block in its requested cylinder group.
892d65f6f70SBen Gras * 2) quadradically rehash on the cylinder group number.
893d65f6f70SBen Gras * 3) brute force search for a free block.
894d65f6f70SBen Gras *
895d65f6f70SBen Gras * => called with um_lock held
896d65f6f70SBen Gras * => returns with um_lock released on success, held on failure
897d65f6f70SBen Gras * (*allocator releases lock on success, retains lock on failure)
898d65f6f70SBen Gras */
899d65f6f70SBen Gras /*VARARGS5*/
900d65f6f70SBen Gras static daddr_t
ffs_hashalloc(struct inode * ip,int cg,daddr_t pref,int size,int flags,daddr_t (* allocator)(struct inode *,int,daddr_t,int,int))901d65f6f70SBen Gras ffs_hashalloc(struct inode *ip, int cg, daddr_t pref,
902d65f6f70SBen Gras int size /* size for data blocks, mode for inodes */,
903d65f6f70SBen Gras int flags, daddr_t (*allocator)(struct inode *, int, daddr_t, int, int))
904d65f6f70SBen Gras {
905d65f6f70SBen Gras struct fs *fs;
906d65f6f70SBen Gras daddr_t result;
907d65f6f70SBen Gras int i, icg = cg;
908d65f6f70SBen Gras
909d65f6f70SBen Gras fs = ip->i_fs;
910d65f6f70SBen Gras /*
911d65f6f70SBen Gras * 1: preferred cylinder group
912d65f6f70SBen Gras */
913d65f6f70SBen Gras result = (*allocator)(ip, cg, pref, size, flags);
914d65f6f70SBen Gras if (result)
915d65f6f70SBen Gras return (result);
916d65f6f70SBen Gras
917d65f6f70SBen Gras if (flags & B_CONTIG)
918d65f6f70SBen Gras return (result);
919d65f6f70SBen Gras /*
920d65f6f70SBen Gras * 2: quadratic rehash
921d65f6f70SBen Gras */
922d65f6f70SBen Gras for (i = 1; i < fs->fs_ncg; i *= 2) {
923d65f6f70SBen Gras cg += i;
924d65f6f70SBen Gras if (cg >= fs->fs_ncg)
925d65f6f70SBen Gras cg -= fs->fs_ncg;
926d65f6f70SBen Gras result = (*allocator)(ip, cg, 0, size, flags);
927d65f6f70SBen Gras if (result)
928d65f6f70SBen Gras return (result);
929d65f6f70SBen Gras }
930d65f6f70SBen Gras /*
931d65f6f70SBen Gras * 3: brute force search
932d65f6f70SBen Gras * Note that we start at i == 2, since 0 was checked initially,
933d65f6f70SBen Gras * and 1 is always checked in the quadratic rehash.
934d65f6f70SBen Gras */
935d65f6f70SBen Gras cg = (icg + 2) % fs->fs_ncg;
936d65f6f70SBen Gras for (i = 2; i < fs->fs_ncg; i++) {
937d65f6f70SBen Gras result = (*allocator)(ip, cg, 0, size, flags);
938d65f6f70SBen Gras if (result)
939d65f6f70SBen Gras return (result);
940d65f6f70SBen Gras cg++;
941d65f6f70SBen Gras if (cg == fs->fs_ncg)
942d65f6f70SBen Gras cg = 0;
943d65f6f70SBen Gras }
944d65f6f70SBen Gras return (0);
945d65f6f70SBen Gras }
946d65f6f70SBen Gras
947d65f6f70SBen Gras /*
948d65f6f70SBen Gras * Determine whether a fragment can be extended.
949d65f6f70SBen Gras *
950d65f6f70SBen Gras * Check to see if the necessary fragments are available, and
951d65f6f70SBen Gras * if they are, allocate them.
952d65f6f70SBen Gras *
953d65f6f70SBen Gras * => called with um_lock held
954d65f6f70SBen Gras * => returns with um_lock released on success, held on failure
955d65f6f70SBen Gras */
956d65f6f70SBen Gras static daddr_t
ffs_fragextend(struct inode * ip,int cg,daddr_t bprev,int osize,int nsize)957d65f6f70SBen Gras ffs_fragextend(struct inode *ip, int cg, daddr_t bprev, int osize, int nsize)
958d65f6f70SBen Gras {
959d65f6f70SBen Gras struct ufsmount *ump;
960d65f6f70SBen Gras struct fs *fs;
961d65f6f70SBen Gras struct cg *cgp;
962d65f6f70SBen Gras struct buf *bp;
963d65f6f70SBen Gras daddr_t bno;
964d65f6f70SBen Gras int frags, bbase;
965d65f6f70SBen Gras int i, error;
966d65f6f70SBen Gras u_int8_t *blksfree;
967d65f6f70SBen Gras
968d65f6f70SBen Gras fs = ip->i_fs;
969d65f6f70SBen Gras ump = ip->i_ump;
970d65f6f70SBen Gras
971d65f6f70SBen Gras KASSERT(mutex_owned(&ump->um_lock));
972d65f6f70SBen Gras
97384d9c625SLionel Sambuc if (fs->fs_cs(fs, cg).cs_nffree < ffs_numfrags(fs, nsize - osize))
974d65f6f70SBen Gras return (0);
97584d9c625SLionel Sambuc frags = ffs_numfrags(fs, nsize);
97684d9c625SLionel Sambuc bbase = ffs_fragnum(fs, bprev);
97784d9c625SLionel Sambuc if (bbase > ffs_fragnum(fs, (bprev + frags - 1))) {
978d65f6f70SBen Gras /* cannot extend across a block boundary */
979d65f6f70SBen Gras return (0);
980d65f6f70SBen Gras }
981d65f6f70SBen Gras mutex_exit(&ump->um_lock);
98284d9c625SLionel Sambuc error = bread(ip->i_devvp, FFS_FSBTODB(fs, cgtod(fs, cg)),
983*0a6a1f1dSLionel Sambuc (int)fs->fs_cgsize, B_MODIFY, &bp);
984d65f6f70SBen Gras if (error)
985d65f6f70SBen Gras goto fail;
986d65f6f70SBen Gras cgp = (struct cg *)bp->b_data;
987d65f6f70SBen Gras if (!cg_chkmagic(cgp, UFS_FSNEEDSWAP(fs)))
988d65f6f70SBen Gras goto fail;
989d65f6f70SBen Gras cgp->cg_old_time = ufs_rw32(time_second, UFS_FSNEEDSWAP(fs));
990d65f6f70SBen Gras if ((fs->fs_magic != FS_UFS1_MAGIC) ||
991d65f6f70SBen Gras (fs->fs_old_flags & FS_FLAGS_UPDATED))
992d65f6f70SBen Gras cgp->cg_time = ufs_rw64(time_second, UFS_FSNEEDSWAP(fs));
993d65f6f70SBen Gras bno = dtogd(fs, bprev);
994d65f6f70SBen Gras blksfree = cg_blksfree(cgp, UFS_FSNEEDSWAP(fs));
99584d9c625SLionel Sambuc for (i = ffs_numfrags(fs, osize); i < frags; i++)
996d65f6f70SBen Gras if (isclr(blksfree, bno + i))
997d65f6f70SBen Gras goto fail;
998d65f6f70SBen Gras /*
999d65f6f70SBen Gras * the current fragment can be extended
1000d65f6f70SBen Gras * deduct the count on fragment being extended into
1001d65f6f70SBen Gras * increase the count on the remaining fragment (if any)
1002d65f6f70SBen Gras * allocate the extended piece
1003d65f6f70SBen Gras */
1004d65f6f70SBen Gras for (i = frags; i < fs->fs_frag - bbase; i++)
1005d65f6f70SBen Gras if (isclr(blksfree, bno + i))
1006d65f6f70SBen Gras break;
100784d9c625SLionel Sambuc ufs_add32(cgp->cg_frsum[i - ffs_numfrags(fs, osize)], -1, UFS_FSNEEDSWAP(fs));
1008d65f6f70SBen Gras if (i != frags)
1009d65f6f70SBen Gras ufs_add32(cgp->cg_frsum[i - frags], 1, UFS_FSNEEDSWAP(fs));
1010d65f6f70SBen Gras mutex_enter(&ump->um_lock);
101184d9c625SLionel Sambuc for (i = ffs_numfrags(fs, osize); i < frags; i++) {
1012d65f6f70SBen Gras clrbit(blksfree, bno + i);
1013d65f6f70SBen Gras ufs_add32(cgp->cg_cs.cs_nffree, -1, UFS_FSNEEDSWAP(fs));
1014d65f6f70SBen Gras fs->fs_cstotal.cs_nffree--;
1015d65f6f70SBen Gras fs->fs_cs(fs, cg).cs_nffree--;
1016d65f6f70SBen Gras }
1017d65f6f70SBen Gras fs->fs_fmod = 1;
1018d65f6f70SBen Gras ACTIVECG_CLR(fs, cg);
1019d65f6f70SBen Gras mutex_exit(&ump->um_lock);
1020d65f6f70SBen Gras bdwrite(bp);
1021d65f6f70SBen Gras return (bprev);
1022d65f6f70SBen Gras
1023d65f6f70SBen Gras fail:
102484d9c625SLionel Sambuc if (bp != NULL)
1025d65f6f70SBen Gras brelse(bp, 0);
1026d65f6f70SBen Gras mutex_enter(&ump->um_lock);
1027d65f6f70SBen Gras return (0);
1028d65f6f70SBen Gras }
1029d65f6f70SBen Gras
1030d65f6f70SBen Gras /*
1031d65f6f70SBen Gras * Determine whether a block can be allocated.
1032d65f6f70SBen Gras *
1033d65f6f70SBen Gras * Check to see if a block of the appropriate size is available,
1034d65f6f70SBen Gras * and if it is, allocate it.
1035d65f6f70SBen Gras */
1036d65f6f70SBen Gras static daddr_t
ffs_alloccg(struct inode * ip,int cg,daddr_t bpref,int size,int flags)1037d65f6f70SBen Gras ffs_alloccg(struct inode *ip, int cg, daddr_t bpref, int size, int flags)
1038d65f6f70SBen Gras {
1039d65f6f70SBen Gras struct ufsmount *ump;
1040d65f6f70SBen Gras struct fs *fs = ip->i_fs;
1041d65f6f70SBen Gras struct cg *cgp;
1042d65f6f70SBen Gras struct buf *bp;
1043d65f6f70SBen Gras int32_t bno;
1044d65f6f70SBen Gras daddr_t blkno;
1045d65f6f70SBen Gras int error, frags, allocsiz, i;
1046d65f6f70SBen Gras u_int8_t *blksfree;
1047d65f6f70SBen Gras const int needswap = UFS_FSNEEDSWAP(fs);
1048d65f6f70SBen Gras
1049d65f6f70SBen Gras ump = ip->i_ump;
1050d65f6f70SBen Gras
1051d65f6f70SBen Gras KASSERT(mutex_owned(&ump->um_lock));
1052d65f6f70SBen Gras
1053d65f6f70SBen Gras if (fs->fs_cs(fs, cg).cs_nbfree == 0 && size == fs->fs_bsize)
1054d65f6f70SBen Gras return (0);
1055d65f6f70SBen Gras mutex_exit(&ump->um_lock);
105684d9c625SLionel Sambuc error = bread(ip->i_devvp, FFS_FSBTODB(fs, cgtod(fs, cg)),
1057*0a6a1f1dSLionel Sambuc (int)fs->fs_cgsize, B_MODIFY, &bp);
1058d65f6f70SBen Gras if (error)
1059d65f6f70SBen Gras goto fail;
1060d65f6f70SBen Gras cgp = (struct cg *)bp->b_data;
1061d65f6f70SBen Gras if (!cg_chkmagic(cgp, needswap) ||
1062d65f6f70SBen Gras (cgp->cg_cs.cs_nbfree == 0 && size == fs->fs_bsize))
1063d65f6f70SBen Gras goto fail;
1064d65f6f70SBen Gras cgp->cg_old_time = ufs_rw32(time_second, needswap);
1065d65f6f70SBen Gras if ((fs->fs_magic != FS_UFS1_MAGIC) ||
1066d65f6f70SBen Gras (fs->fs_old_flags & FS_FLAGS_UPDATED))
1067d65f6f70SBen Gras cgp->cg_time = ufs_rw64(time_second, needswap);
1068d65f6f70SBen Gras if (size == fs->fs_bsize) {
1069d65f6f70SBen Gras mutex_enter(&ump->um_lock);
1070d65f6f70SBen Gras blkno = ffs_alloccgblk(ip, bp, bpref, flags);
1071d65f6f70SBen Gras ACTIVECG_CLR(fs, cg);
1072d65f6f70SBen Gras mutex_exit(&ump->um_lock);
1073d65f6f70SBen Gras bdwrite(bp);
1074d65f6f70SBen Gras return (blkno);
1075d65f6f70SBen Gras }
1076d65f6f70SBen Gras /*
1077d65f6f70SBen Gras * check to see if any fragments are already available
1078d65f6f70SBen Gras * allocsiz is the size which will be allocated, hacking
1079d65f6f70SBen Gras * it down to a smaller size if necessary
1080d65f6f70SBen Gras */
1081d65f6f70SBen Gras blksfree = cg_blksfree(cgp, needswap);
108284d9c625SLionel Sambuc frags = ffs_numfrags(fs, size);
1083d65f6f70SBen Gras for (allocsiz = frags; allocsiz < fs->fs_frag; allocsiz++)
1084d65f6f70SBen Gras if (cgp->cg_frsum[allocsiz] != 0)
1085d65f6f70SBen Gras break;
1086d65f6f70SBen Gras if (allocsiz == fs->fs_frag) {
1087d65f6f70SBen Gras /*
1088d65f6f70SBen Gras * no fragments were available, so a block will be
1089d65f6f70SBen Gras * allocated, and hacked up
1090d65f6f70SBen Gras */
1091d65f6f70SBen Gras if (cgp->cg_cs.cs_nbfree == 0)
1092d65f6f70SBen Gras goto fail;
1093d65f6f70SBen Gras mutex_enter(&ump->um_lock);
1094d65f6f70SBen Gras blkno = ffs_alloccgblk(ip, bp, bpref, flags);
1095d65f6f70SBen Gras bno = dtogd(fs, blkno);
1096d65f6f70SBen Gras for (i = frags; i < fs->fs_frag; i++)
1097d65f6f70SBen Gras setbit(blksfree, bno + i);
1098d65f6f70SBen Gras i = fs->fs_frag - frags;
1099d65f6f70SBen Gras ufs_add32(cgp->cg_cs.cs_nffree, i, needswap);
1100d65f6f70SBen Gras fs->fs_cstotal.cs_nffree += i;
1101d65f6f70SBen Gras fs->fs_cs(fs, cg).cs_nffree += i;
1102d65f6f70SBen Gras fs->fs_fmod = 1;
1103d65f6f70SBen Gras ufs_add32(cgp->cg_frsum[i], 1, needswap);
1104d65f6f70SBen Gras ACTIVECG_CLR(fs, cg);
1105d65f6f70SBen Gras mutex_exit(&ump->um_lock);
1106d65f6f70SBen Gras bdwrite(bp);
1107d65f6f70SBen Gras return (blkno);
1108d65f6f70SBen Gras }
1109d65f6f70SBen Gras bno = ffs_mapsearch(fs, cgp, bpref, allocsiz);
1110d65f6f70SBen Gras #if 0
1111d65f6f70SBen Gras /*
1112d65f6f70SBen Gras * XXX fvdl mapsearch will panic, and never return -1
1113d65f6f70SBen Gras * also: returning NULL as daddr_t ?
1114d65f6f70SBen Gras */
1115d65f6f70SBen Gras if (bno < 0)
1116d65f6f70SBen Gras goto fail;
1117d65f6f70SBen Gras #endif
1118d65f6f70SBen Gras for (i = 0; i < frags; i++)
1119d65f6f70SBen Gras clrbit(blksfree, bno + i);
1120d65f6f70SBen Gras mutex_enter(&ump->um_lock);
1121d65f6f70SBen Gras ufs_add32(cgp->cg_cs.cs_nffree, -frags, needswap);
1122d65f6f70SBen Gras fs->fs_cstotal.cs_nffree -= frags;
1123d65f6f70SBen Gras fs->fs_cs(fs, cg).cs_nffree -= frags;
1124d65f6f70SBen Gras fs->fs_fmod = 1;
1125d65f6f70SBen Gras ufs_add32(cgp->cg_frsum[allocsiz], -1, needswap);
1126d65f6f70SBen Gras if (frags != allocsiz)
1127d65f6f70SBen Gras ufs_add32(cgp->cg_frsum[allocsiz - frags], 1, needswap);
1128d65f6f70SBen Gras blkno = cgbase(fs, cg) + bno;
1129d65f6f70SBen Gras ACTIVECG_CLR(fs, cg);
1130d65f6f70SBen Gras mutex_exit(&ump->um_lock);
1131d65f6f70SBen Gras bdwrite(bp);
1132d65f6f70SBen Gras return blkno;
1133d65f6f70SBen Gras
1134d65f6f70SBen Gras fail:
113584d9c625SLionel Sambuc if (bp != NULL)
1136d65f6f70SBen Gras brelse(bp, 0);
1137d65f6f70SBen Gras mutex_enter(&ump->um_lock);
1138d65f6f70SBen Gras return (0);
1139d65f6f70SBen Gras }
1140d65f6f70SBen Gras
1141d65f6f70SBen Gras /*
1142d65f6f70SBen Gras * Allocate a block in a cylinder group.
1143d65f6f70SBen Gras *
1144d65f6f70SBen Gras * This algorithm implements the following policy:
1145d65f6f70SBen Gras * 1) allocate the requested block.
1146d65f6f70SBen Gras * 2) allocate a rotationally optimal block in the same cylinder.
1147d65f6f70SBen Gras * 3) allocate the next available block on the block rotor for the
1148d65f6f70SBen Gras * specified cylinder group.
1149d65f6f70SBen Gras * Note that this routine only allocates fs_bsize blocks; these
1150d65f6f70SBen Gras * blocks may be fragmented by the routine that allocates them.
1151d65f6f70SBen Gras */
1152d65f6f70SBen Gras static daddr_t
ffs_alloccgblk(struct inode * ip,struct buf * bp,daddr_t bpref,int flags)1153d65f6f70SBen Gras ffs_alloccgblk(struct inode *ip, struct buf *bp, daddr_t bpref, int flags)
1154d65f6f70SBen Gras {
1155d65f6f70SBen Gras struct fs *fs = ip->i_fs;
1156d65f6f70SBen Gras struct cg *cgp;
1157d65f6f70SBen Gras int cg;
1158d65f6f70SBen Gras daddr_t blkno;
1159d65f6f70SBen Gras int32_t bno;
1160d65f6f70SBen Gras u_int8_t *blksfree;
1161d65f6f70SBen Gras const int needswap = UFS_FSNEEDSWAP(fs);
1162d65f6f70SBen Gras
116384d9c625SLionel Sambuc KASSERT(mutex_owned(&ip->i_ump->um_lock));
1164d65f6f70SBen Gras
1165d65f6f70SBen Gras cgp = (struct cg *)bp->b_data;
1166d65f6f70SBen Gras blksfree = cg_blksfree(cgp, needswap);
1167d65f6f70SBen Gras if (bpref == 0 || dtog(fs, bpref) != ufs_rw32(cgp->cg_cgx, needswap)) {
1168d65f6f70SBen Gras bpref = ufs_rw32(cgp->cg_rotor, needswap);
1169d65f6f70SBen Gras } else {
117084d9c625SLionel Sambuc bpref = ffs_blknum(fs, bpref);
1171d65f6f70SBen Gras bno = dtogd(fs, bpref);
1172d65f6f70SBen Gras /*
1173d65f6f70SBen Gras * if the requested block is available, use it
1174d65f6f70SBen Gras */
117584d9c625SLionel Sambuc if (ffs_isblock(fs, blksfree, ffs_fragstoblks(fs, bno)))
1176d65f6f70SBen Gras goto gotit;
1177d65f6f70SBen Gras /*
1178d65f6f70SBen Gras * if the requested data block isn't available and we are
1179d65f6f70SBen Gras * trying to allocate a contiguous file, return an error.
1180d65f6f70SBen Gras */
1181d65f6f70SBen Gras if ((flags & (B_CONTIG | B_METAONLY)) == B_CONTIG)
1182d65f6f70SBen Gras return (0);
1183d65f6f70SBen Gras }
1184d65f6f70SBen Gras
1185d65f6f70SBen Gras /*
1186d65f6f70SBen Gras * Take the next available block in this cylinder group.
1187d65f6f70SBen Gras */
1188d65f6f70SBen Gras bno = ffs_mapsearch(fs, cgp, bpref, (int)fs->fs_frag);
1189d65f6f70SBen Gras if (bno < 0)
1190d65f6f70SBen Gras return (0);
1191d65f6f70SBen Gras cgp->cg_rotor = ufs_rw32(bno, needswap);
1192d65f6f70SBen Gras gotit:
119384d9c625SLionel Sambuc blkno = ffs_fragstoblks(fs, bno);
1194d65f6f70SBen Gras ffs_clrblock(fs, blksfree, blkno);
1195d65f6f70SBen Gras ffs_clusteracct(fs, cgp, blkno, -1);
1196d65f6f70SBen Gras ufs_add32(cgp->cg_cs.cs_nbfree, -1, needswap);
1197d65f6f70SBen Gras fs->fs_cstotal.cs_nbfree--;
1198d65f6f70SBen Gras fs->fs_cs(fs, ufs_rw32(cgp->cg_cgx, needswap)).cs_nbfree--;
1199d65f6f70SBen Gras if ((fs->fs_magic == FS_UFS1_MAGIC) &&
1200d65f6f70SBen Gras ((fs->fs_old_flags & FS_FLAGS_UPDATED) == 0)) {
1201d65f6f70SBen Gras int cylno;
1202d65f6f70SBen Gras cylno = old_cbtocylno(fs, bno);
1203d65f6f70SBen Gras KASSERT(cylno >= 0);
1204d65f6f70SBen Gras KASSERT(cylno < fs->fs_old_ncyl);
1205d65f6f70SBen Gras KASSERT(old_cbtorpos(fs, bno) >= 0);
1206d65f6f70SBen Gras KASSERT(fs->fs_old_nrpos == 0 || old_cbtorpos(fs, bno) < fs->fs_old_nrpos);
1207d65f6f70SBen Gras ufs_add16(old_cg_blks(fs, cgp, cylno, needswap)[old_cbtorpos(fs, bno)], -1,
1208d65f6f70SBen Gras needswap);
1209d65f6f70SBen Gras ufs_add32(old_cg_blktot(cgp, needswap)[cylno], -1, needswap);
1210d65f6f70SBen Gras }
1211d65f6f70SBen Gras fs->fs_fmod = 1;
1212d65f6f70SBen Gras cg = ufs_rw32(cgp->cg_cgx, needswap);
1213d65f6f70SBen Gras blkno = cgbase(fs, cg) + bno;
1214d65f6f70SBen Gras return (blkno);
1215d65f6f70SBen Gras }
1216d65f6f70SBen Gras
1217d65f6f70SBen Gras /*
1218d65f6f70SBen Gras * Determine whether an inode can be allocated.
1219d65f6f70SBen Gras *
1220d65f6f70SBen Gras * Check to see if an inode is available, and if it is,
1221d65f6f70SBen Gras * allocate it using the following policy:
1222d65f6f70SBen Gras * 1) allocate the requested inode.
1223d65f6f70SBen Gras * 2) allocate the next available inode after the requested
1224d65f6f70SBen Gras * inode in the specified cylinder group.
1225d65f6f70SBen Gras */
1226d65f6f70SBen Gras static daddr_t
ffs_nodealloccg(struct inode * ip,int cg,daddr_t ipref,int mode,int flags)1227d65f6f70SBen Gras ffs_nodealloccg(struct inode *ip, int cg, daddr_t ipref, int mode, int flags)
1228d65f6f70SBen Gras {
1229d65f6f70SBen Gras struct ufsmount *ump = ip->i_ump;
1230d65f6f70SBen Gras struct fs *fs = ip->i_fs;
1231d65f6f70SBen Gras struct cg *cgp;
1232d65f6f70SBen Gras struct buf *bp, *ibp;
1233d65f6f70SBen Gras u_int8_t *inosused;
1234d65f6f70SBen Gras int error, start, len, loc, map, i;
1235d65f6f70SBen Gras int32_t initediblk;
1236d65f6f70SBen Gras daddr_t nalloc;
1237d65f6f70SBen Gras struct ufs2_dinode *dp2;
1238d65f6f70SBen Gras const int needswap = UFS_FSNEEDSWAP(fs);
1239d65f6f70SBen Gras
1240d65f6f70SBen Gras KASSERT(mutex_owned(&ump->um_lock));
1241d65f6f70SBen Gras UFS_WAPBL_JLOCK_ASSERT(ip->i_ump->um_mountp);
1242d65f6f70SBen Gras
1243d65f6f70SBen Gras if (fs->fs_cs(fs, cg).cs_nifree == 0)
1244d65f6f70SBen Gras return (0);
1245d65f6f70SBen Gras mutex_exit(&ump->um_lock);
1246d65f6f70SBen Gras ibp = NULL;
1247d65f6f70SBen Gras initediblk = -1;
1248d65f6f70SBen Gras retry:
124984d9c625SLionel Sambuc error = bread(ip->i_devvp, FFS_FSBTODB(fs, cgtod(fs, cg)),
1250*0a6a1f1dSLionel Sambuc (int)fs->fs_cgsize, B_MODIFY, &bp);
1251d65f6f70SBen Gras if (error)
1252d65f6f70SBen Gras goto fail;
1253d65f6f70SBen Gras cgp = (struct cg *)bp->b_data;
1254d65f6f70SBen Gras if (!cg_chkmagic(cgp, needswap) || cgp->cg_cs.cs_nifree == 0)
1255d65f6f70SBen Gras goto fail;
1256d65f6f70SBen Gras
1257d65f6f70SBen Gras if (ibp != NULL &&
1258d65f6f70SBen Gras initediblk != ufs_rw32(cgp->cg_initediblk, needswap)) {
1259d65f6f70SBen Gras /* Another thread allocated more inodes so we retry the test. */
1260d65f6f70SBen Gras brelse(ibp, 0);
1261d65f6f70SBen Gras ibp = NULL;
1262d65f6f70SBen Gras }
1263d65f6f70SBen Gras /*
1264d65f6f70SBen Gras * Check to see if we need to initialize more inodes.
1265d65f6f70SBen Gras */
1266d65f6f70SBen Gras if (fs->fs_magic == FS_UFS2_MAGIC && ibp == NULL) {
1267d65f6f70SBen Gras initediblk = ufs_rw32(cgp->cg_initediblk, needswap);
1268d65f6f70SBen Gras nalloc = fs->fs_ipg - ufs_rw32(cgp->cg_cs.cs_nifree, needswap);
126984d9c625SLionel Sambuc if (nalloc + FFS_INOPB(fs) > initediblk &&
1270d65f6f70SBen Gras initediblk < ufs_rw32(cgp->cg_niblk, needswap)) {
1271d65f6f70SBen Gras /*
1272d65f6f70SBen Gras * We have to release the cg buffer here to prevent
1273d65f6f70SBen Gras * a deadlock when reading the inode block will
1274d65f6f70SBen Gras * run a copy-on-write that might use this cg.
1275d65f6f70SBen Gras */
1276d65f6f70SBen Gras brelse(bp, 0);
1277d65f6f70SBen Gras bp = NULL;
127884d9c625SLionel Sambuc error = ffs_getblk(ip->i_devvp, FFS_FSBTODB(fs,
1279d65f6f70SBen Gras ino_to_fsba(fs, cg * fs->fs_ipg + initediblk)),
1280d65f6f70SBen Gras FFS_NOBLK, fs->fs_bsize, false, &ibp);
1281d65f6f70SBen Gras if (error)
1282d65f6f70SBen Gras goto fail;
1283d65f6f70SBen Gras goto retry;
1284d65f6f70SBen Gras }
1285d65f6f70SBen Gras }
1286d65f6f70SBen Gras
1287d65f6f70SBen Gras cgp->cg_old_time = ufs_rw32(time_second, needswap);
1288d65f6f70SBen Gras if ((fs->fs_magic != FS_UFS1_MAGIC) ||
1289d65f6f70SBen Gras (fs->fs_old_flags & FS_FLAGS_UPDATED))
1290d65f6f70SBen Gras cgp->cg_time = ufs_rw64(time_second, needswap);
1291d65f6f70SBen Gras inosused = cg_inosused(cgp, needswap);
1292d65f6f70SBen Gras if (ipref) {
1293d65f6f70SBen Gras ipref %= fs->fs_ipg;
1294d65f6f70SBen Gras if (isclr(inosused, ipref))
1295d65f6f70SBen Gras goto gotit;
1296d65f6f70SBen Gras }
1297d65f6f70SBen Gras start = ufs_rw32(cgp->cg_irotor, needswap) / NBBY;
1298d65f6f70SBen Gras len = howmany(fs->fs_ipg - ufs_rw32(cgp->cg_irotor, needswap),
1299d65f6f70SBen Gras NBBY);
1300d65f6f70SBen Gras loc = skpc(0xff, len, &inosused[start]);
1301d65f6f70SBen Gras if (loc == 0) {
1302d65f6f70SBen Gras len = start + 1;
1303d65f6f70SBen Gras start = 0;
1304d65f6f70SBen Gras loc = skpc(0xff, len, &inosused[0]);
1305d65f6f70SBen Gras if (loc == 0) {
1306d65f6f70SBen Gras printf("cg = %d, irotor = %d, fs = %s\n",
1307d65f6f70SBen Gras cg, ufs_rw32(cgp->cg_irotor, needswap),
1308d65f6f70SBen Gras fs->fs_fsmnt);
1309d65f6f70SBen Gras panic("ffs_nodealloccg: map corrupted");
1310d65f6f70SBen Gras /* NOTREACHED */
1311d65f6f70SBen Gras }
1312d65f6f70SBen Gras }
1313d65f6f70SBen Gras i = start + len - loc;
1314d65f6f70SBen Gras map = inosused[i] ^ 0xff;
1315d65f6f70SBen Gras if (map == 0) {
1316d65f6f70SBen Gras printf("fs = %s\n", fs->fs_fsmnt);
1317d65f6f70SBen Gras panic("ffs_nodealloccg: block not in map");
1318d65f6f70SBen Gras }
1319d65f6f70SBen Gras ipref = i * NBBY + ffs(map) - 1;
1320d65f6f70SBen Gras cgp->cg_irotor = ufs_rw32(ipref, needswap);
1321d65f6f70SBen Gras gotit:
1322d65f6f70SBen Gras UFS_WAPBL_REGISTER_INODE(ip->i_ump->um_mountp, cg * fs->fs_ipg + ipref,
1323d65f6f70SBen Gras mode);
1324d65f6f70SBen Gras /*
1325d65f6f70SBen Gras * Check to see if we need to initialize more inodes.
1326d65f6f70SBen Gras */
1327d65f6f70SBen Gras if (ibp != NULL) {
1328d65f6f70SBen Gras KASSERT(initediblk == ufs_rw32(cgp->cg_initediblk, needswap));
1329d65f6f70SBen Gras memset(ibp->b_data, 0, fs->fs_bsize);
1330d65f6f70SBen Gras dp2 = (struct ufs2_dinode *)(ibp->b_data);
133184d9c625SLionel Sambuc for (i = 0; i < FFS_INOPB(fs); i++) {
1332d65f6f70SBen Gras /*
1333d65f6f70SBen Gras * Don't bother to swap, it's supposed to be
1334d65f6f70SBen Gras * random, after all.
1335d65f6f70SBen Gras */
1336d65f6f70SBen Gras dp2->di_gen = (cprng_fast32() & INT32_MAX) / 2 + 1;
1337d65f6f70SBen Gras dp2++;
1338d65f6f70SBen Gras }
133984d9c625SLionel Sambuc initediblk += FFS_INOPB(fs);
1340d65f6f70SBen Gras cgp->cg_initediblk = ufs_rw32(initediblk, needswap);
1341d65f6f70SBen Gras }
1342d65f6f70SBen Gras
1343d65f6f70SBen Gras mutex_enter(&ump->um_lock);
1344d65f6f70SBen Gras ACTIVECG_CLR(fs, cg);
1345d65f6f70SBen Gras setbit(inosused, ipref);
1346d65f6f70SBen Gras ufs_add32(cgp->cg_cs.cs_nifree, -1, needswap);
1347d65f6f70SBen Gras fs->fs_cstotal.cs_nifree--;
1348d65f6f70SBen Gras fs->fs_cs(fs, cg).cs_nifree--;
1349d65f6f70SBen Gras fs->fs_fmod = 1;
1350d65f6f70SBen Gras if ((mode & IFMT) == IFDIR) {
1351d65f6f70SBen Gras ufs_add32(cgp->cg_cs.cs_ndir, 1, needswap);
1352d65f6f70SBen Gras fs->fs_cstotal.cs_ndir++;
1353d65f6f70SBen Gras fs->fs_cs(fs, cg).cs_ndir++;
1354d65f6f70SBen Gras }
1355d65f6f70SBen Gras mutex_exit(&ump->um_lock);
1356d65f6f70SBen Gras if (ibp != NULL) {
1357d65f6f70SBen Gras bwrite(bp);
1358d65f6f70SBen Gras bawrite(ibp);
1359d65f6f70SBen Gras } else
1360d65f6f70SBen Gras bdwrite(bp);
1361d65f6f70SBen Gras return (cg * fs->fs_ipg + ipref);
1362d65f6f70SBen Gras fail:
1363d65f6f70SBen Gras if (bp != NULL)
1364d65f6f70SBen Gras brelse(bp, 0);
1365d65f6f70SBen Gras if (ibp != NULL)
1366d65f6f70SBen Gras brelse(ibp, 0);
1367d65f6f70SBen Gras mutex_enter(&ump->um_lock);
1368d65f6f70SBen Gras return (0);
1369d65f6f70SBen Gras }
1370d65f6f70SBen Gras
1371d65f6f70SBen Gras /*
1372d65f6f70SBen Gras * Allocate a block or fragment.
1373d65f6f70SBen Gras *
1374d65f6f70SBen Gras * The specified block or fragment is removed from the
1375d65f6f70SBen Gras * free map, possibly fragmenting a block in the process.
1376d65f6f70SBen Gras *
1377d65f6f70SBen Gras * This implementation should mirror fs_blkfree
1378d65f6f70SBen Gras *
1379d65f6f70SBen Gras * => um_lock not held on entry or exit
1380d65f6f70SBen Gras */
1381d65f6f70SBen Gras int
ffs_blkalloc(struct inode * ip,daddr_t bno,long size)1382d65f6f70SBen Gras ffs_blkalloc(struct inode *ip, daddr_t bno, long size)
1383d65f6f70SBen Gras {
1384d65f6f70SBen Gras int error;
1385d65f6f70SBen Gras
1386d65f6f70SBen Gras error = ffs_check_bad_allocation(__func__, ip->i_fs, bno, size,
1387d65f6f70SBen Gras ip->i_dev, ip->i_uid);
1388d65f6f70SBen Gras if (error)
1389d65f6f70SBen Gras return error;
1390d65f6f70SBen Gras
1391d65f6f70SBen Gras return ffs_blkalloc_ump(ip->i_ump, bno, size);
1392d65f6f70SBen Gras }
1393d65f6f70SBen Gras
1394d65f6f70SBen Gras int
ffs_blkalloc_ump(struct ufsmount * ump,daddr_t bno,long size)1395d65f6f70SBen Gras ffs_blkalloc_ump(struct ufsmount *ump, daddr_t bno, long size)
1396d65f6f70SBen Gras {
1397d65f6f70SBen Gras struct fs *fs = ump->um_fs;
1398d65f6f70SBen Gras struct cg *cgp;
1399d65f6f70SBen Gras struct buf *bp;
1400d65f6f70SBen Gras int32_t fragno, cgbno;
1401d65f6f70SBen Gras int i, error, cg, blk, frags, bbase;
1402d65f6f70SBen Gras u_int8_t *blksfree;
1403d65f6f70SBen Gras const int needswap = UFS_FSNEEDSWAP(fs);
1404d65f6f70SBen Gras
140584d9c625SLionel Sambuc KASSERT((u_int)size <= fs->fs_bsize && ffs_fragoff(fs, size) == 0 &&
140684d9c625SLionel Sambuc ffs_fragnum(fs, bno) + ffs_numfrags(fs, size) <= fs->fs_frag);
1407d65f6f70SBen Gras KASSERT(bno < fs->fs_size);
1408d65f6f70SBen Gras
1409d65f6f70SBen Gras cg = dtog(fs, bno);
141084d9c625SLionel Sambuc error = bread(ump->um_devvp, FFS_FSBTODB(fs, cgtod(fs, cg)),
1411*0a6a1f1dSLionel Sambuc (int)fs->fs_cgsize, B_MODIFY, &bp);
1412d65f6f70SBen Gras if (error) {
1413d65f6f70SBen Gras return error;
1414d65f6f70SBen Gras }
1415d65f6f70SBen Gras cgp = (struct cg *)bp->b_data;
1416d65f6f70SBen Gras if (!cg_chkmagic(cgp, needswap)) {
1417d65f6f70SBen Gras brelse(bp, 0);
1418d65f6f70SBen Gras return EIO;
1419d65f6f70SBen Gras }
1420d65f6f70SBen Gras cgp->cg_old_time = ufs_rw32(time_second, needswap);
1421d65f6f70SBen Gras cgp->cg_time = ufs_rw64(time_second, needswap);
1422d65f6f70SBen Gras cgbno = dtogd(fs, bno);
1423d65f6f70SBen Gras blksfree = cg_blksfree(cgp, needswap);
1424d65f6f70SBen Gras
1425d65f6f70SBen Gras mutex_enter(&ump->um_lock);
1426d65f6f70SBen Gras if (size == fs->fs_bsize) {
142784d9c625SLionel Sambuc fragno = ffs_fragstoblks(fs, cgbno);
1428d65f6f70SBen Gras if (!ffs_isblock(fs, blksfree, fragno)) {
1429d65f6f70SBen Gras mutex_exit(&ump->um_lock);
1430d65f6f70SBen Gras brelse(bp, 0);
1431d65f6f70SBen Gras return EBUSY;
1432d65f6f70SBen Gras }
1433d65f6f70SBen Gras ffs_clrblock(fs, blksfree, fragno);
1434d65f6f70SBen Gras ffs_clusteracct(fs, cgp, fragno, -1);
1435d65f6f70SBen Gras ufs_add32(cgp->cg_cs.cs_nbfree, -1, needswap);
1436d65f6f70SBen Gras fs->fs_cstotal.cs_nbfree--;
1437d65f6f70SBen Gras fs->fs_cs(fs, cg).cs_nbfree--;
1438d65f6f70SBen Gras } else {
143984d9c625SLionel Sambuc bbase = cgbno - ffs_fragnum(fs, cgbno);
1440d65f6f70SBen Gras
144184d9c625SLionel Sambuc frags = ffs_numfrags(fs, size);
1442d65f6f70SBen Gras for (i = 0; i < frags; i++) {
1443d65f6f70SBen Gras if (isclr(blksfree, cgbno + i)) {
1444d65f6f70SBen Gras mutex_exit(&ump->um_lock);
1445d65f6f70SBen Gras brelse(bp, 0);
1446d65f6f70SBen Gras return EBUSY;
1447d65f6f70SBen Gras }
1448d65f6f70SBen Gras }
1449d65f6f70SBen Gras /*
1450d65f6f70SBen Gras * if a complete block is being split, account for it
1451d65f6f70SBen Gras */
145284d9c625SLionel Sambuc fragno = ffs_fragstoblks(fs, bbase);
1453d65f6f70SBen Gras if (ffs_isblock(fs, blksfree, fragno)) {
1454d65f6f70SBen Gras ufs_add32(cgp->cg_cs.cs_nffree, fs->fs_frag, needswap);
1455d65f6f70SBen Gras fs->fs_cstotal.cs_nffree += fs->fs_frag;
1456d65f6f70SBen Gras fs->fs_cs(fs, cg).cs_nffree += fs->fs_frag;
1457d65f6f70SBen Gras ffs_clusteracct(fs, cgp, fragno, -1);
1458d65f6f70SBen Gras ufs_add32(cgp->cg_cs.cs_nbfree, -1, needswap);
1459d65f6f70SBen Gras fs->fs_cstotal.cs_nbfree--;
1460d65f6f70SBen Gras fs->fs_cs(fs, cg).cs_nbfree--;
1461d65f6f70SBen Gras }
1462d65f6f70SBen Gras /*
1463d65f6f70SBen Gras * decrement the counts associated with the old frags
1464d65f6f70SBen Gras */
1465d65f6f70SBen Gras blk = blkmap(fs, blksfree, bbase);
1466d65f6f70SBen Gras ffs_fragacct(fs, blk, cgp->cg_frsum, -1, needswap);
1467d65f6f70SBen Gras /*
1468d65f6f70SBen Gras * allocate the fragment
1469d65f6f70SBen Gras */
1470d65f6f70SBen Gras for (i = 0; i < frags; i++) {
1471d65f6f70SBen Gras clrbit(blksfree, cgbno + i);
1472d65f6f70SBen Gras }
1473d65f6f70SBen Gras ufs_add32(cgp->cg_cs.cs_nffree, -i, needswap);
1474d65f6f70SBen Gras fs->fs_cstotal.cs_nffree -= i;
1475d65f6f70SBen Gras fs->fs_cs(fs, cg).cs_nffree -= i;
1476d65f6f70SBen Gras /*
1477d65f6f70SBen Gras * add back in counts associated with the new frags
1478d65f6f70SBen Gras */
1479d65f6f70SBen Gras blk = blkmap(fs, blksfree, bbase);
1480d65f6f70SBen Gras ffs_fragacct(fs, blk, cgp->cg_frsum, 1, needswap);
1481d65f6f70SBen Gras }
1482d65f6f70SBen Gras fs->fs_fmod = 1;
1483d65f6f70SBen Gras ACTIVECG_CLR(fs, cg);
1484d65f6f70SBen Gras mutex_exit(&ump->um_lock);
1485d65f6f70SBen Gras bdwrite(bp);
1486d65f6f70SBen Gras return 0;
1487d65f6f70SBen Gras }
1488d65f6f70SBen Gras
1489d65f6f70SBen Gras /*
1490d65f6f70SBen Gras * Free a block or fragment.
1491d65f6f70SBen Gras *
1492d65f6f70SBen Gras * The specified block or fragment is placed back in the
1493d65f6f70SBen Gras * free map. If a fragment is deallocated, a possible
1494d65f6f70SBen Gras * block reassembly is checked.
1495d65f6f70SBen Gras *
1496d65f6f70SBen Gras * => um_lock not held on entry or exit
1497d65f6f70SBen Gras */
149884d9c625SLionel Sambuc static void
ffs_blkfree_cg(struct fs * fs,struct vnode * devvp,daddr_t bno,long size)149984d9c625SLionel Sambuc ffs_blkfree_cg(struct fs *fs, struct vnode *devvp, daddr_t bno, long size)
1500d65f6f70SBen Gras {
1501d65f6f70SBen Gras struct cg *cgp;
1502d65f6f70SBen Gras struct buf *bp;
1503d65f6f70SBen Gras struct ufsmount *ump;
1504d65f6f70SBen Gras daddr_t cgblkno;
1505d65f6f70SBen Gras int error, cg;
1506d65f6f70SBen Gras dev_t dev;
1507d65f6f70SBen Gras const bool devvp_is_snapshot = (devvp->v_type != VBLK);
1508d65f6f70SBen Gras const int needswap = UFS_FSNEEDSWAP(fs);
1509d65f6f70SBen Gras
1510d65f6f70SBen Gras KASSERT(!devvp_is_snapshot);
1511d65f6f70SBen Gras
1512d65f6f70SBen Gras cg = dtog(fs, bno);
1513d65f6f70SBen Gras dev = devvp->v_rdev;
151484d9c625SLionel Sambuc ump = VFSTOUFS(spec_node_getmountedfs(devvp));
1515d65f6f70SBen Gras KASSERT(fs == ump->um_fs);
151684d9c625SLionel Sambuc cgblkno = FFS_FSBTODB(fs, cgtod(fs, cg));
1517d65f6f70SBen Gras
1518d65f6f70SBen Gras error = bread(devvp, cgblkno, (int)fs->fs_cgsize,
1519*0a6a1f1dSLionel Sambuc B_MODIFY, &bp);
1520d65f6f70SBen Gras if (error) {
1521d65f6f70SBen Gras return;
1522d65f6f70SBen Gras }
1523d65f6f70SBen Gras cgp = (struct cg *)bp->b_data;
1524d65f6f70SBen Gras if (!cg_chkmagic(cgp, needswap)) {
1525d65f6f70SBen Gras brelse(bp, 0);
1526d65f6f70SBen Gras return;
1527d65f6f70SBen Gras }
1528d65f6f70SBen Gras
1529d65f6f70SBen Gras ffs_blkfree_common(ump, fs, dev, bp, bno, size, devvp_is_snapshot);
1530d65f6f70SBen Gras
1531d65f6f70SBen Gras bdwrite(bp);
1532d65f6f70SBen Gras }
1533d65f6f70SBen Gras
153484d9c625SLionel Sambuc struct discardopdata {
153584d9c625SLionel Sambuc struct work wk; /* must be first */
153684d9c625SLionel Sambuc struct vnode *devvp;
153784d9c625SLionel Sambuc daddr_t bno;
153884d9c625SLionel Sambuc long size;
153984d9c625SLionel Sambuc };
154084d9c625SLionel Sambuc
154184d9c625SLionel Sambuc struct discarddata {
154284d9c625SLionel Sambuc struct fs *fs;
154384d9c625SLionel Sambuc struct discardopdata *entry;
154484d9c625SLionel Sambuc long maxsize;
154584d9c625SLionel Sambuc kmutex_t entrylk;
154684d9c625SLionel Sambuc struct workqueue *wq;
154784d9c625SLionel Sambuc int wqcnt, wqdraining;
154884d9c625SLionel Sambuc kmutex_t wqlk;
154984d9c625SLionel Sambuc kcondvar_t wqcv;
155084d9c625SLionel Sambuc /* timer for flush? */
155184d9c625SLionel Sambuc };
155284d9c625SLionel Sambuc
155384d9c625SLionel Sambuc static void
ffs_blkfree_td(struct fs * fs,struct discardopdata * td)155484d9c625SLionel Sambuc ffs_blkfree_td(struct fs *fs, struct discardopdata *td)
155584d9c625SLionel Sambuc {
1556*0a6a1f1dSLionel Sambuc struct mount *mp = spec_node_getmountedfs(td->devvp);
155784d9c625SLionel Sambuc long todo;
1558*0a6a1f1dSLionel Sambuc int error;
155984d9c625SLionel Sambuc
156084d9c625SLionel Sambuc while (td->size) {
156184d9c625SLionel Sambuc todo = min(td->size,
156284d9c625SLionel Sambuc ffs_lfragtosize(fs, (fs->fs_frag - ffs_fragnum(fs, td->bno))));
1563*0a6a1f1dSLionel Sambuc error = UFS_WAPBL_BEGIN(mp);
1564*0a6a1f1dSLionel Sambuc if (error) {
1565*0a6a1f1dSLionel Sambuc printf("ffs: failed to begin wapbl transaction"
1566*0a6a1f1dSLionel Sambuc " for discard: %d\n", error);
1567*0a6a1f1dSLionel Sambuc break;
1568*0a6a1f1dSLionel Sambuc }
156984d9c625SLionel Sambuc ffs_blkfree_cg(fs, td->devvp, td->bno, todo);
1570*0a6a1f1dSLionel Sambuc UFS_WAPBL_END(mp);
157184d9c625SLionel Sambuc td->bno += ffs_numfrags(fs, todo);
157284d9c625SLionel Sambuc td->size -= todo;
157384d9c625SLionel Sambuc }
157484d9c625SLionel Sambuc }
157584d9c625SLionel Sambuc
157684d9c625SLionel Sambuc static void
ffs_discardcb(struct work * wk,void * arg)157784d9c625SLionel Sambuc ffs_discardcb(struct work *wk, void *arg)
157884d9c625SLionel Sambuc {
157984d9c625SLionel Sambuc struct discardopdata *td = (void *)wk;
158084d9c625SLionel Sambuc struct discarddata *ts = arg;
158184d9c625SLionel Sambuc struct fs *fs = ts->fs;
1582*0a6a1f1dSLionel Sambuc off_t start, len;
158384d9c625SLionel Sambuc #ifdef TRIMDEBUG
158484d9c625SLionel Sambuc int error;
158584d9c625SLionel Sambuc #endif
158684d9c625SLionel Sambuc
1587*0a6a1f1dSLionel Sambuc /* like FSBTODB but emits bytes; XXX move to fs.h */
1588*0a6a1f1dSLionel Sambuc #ifndef FFS_FSBTOBYTES
1589*0a6a1f1dSLionel Sambuc #define FFS_FSBTOBYTES(fs, b) ((b) << (fs)->fs_fshift)
1590*0a6a1f1dSLionel Sambuc #endif
1591*0a6a1f1dSLionel Sambuc
1592*0a6a1f1dSLionel Sambuc start = FFS_FSBTOBYTES(fs, td->bno);
1593*0a6a1f1dSLionel Sambuc len = td->size;
159484d9c625SLionel Sambuc #ifdef TRIMDEBUG
159584d9c625SLionel Sambuc error =
159684d9c625SLionel Sambuc #endif
1597*0a6a1f1dSLionel Sambuc VOP_FDISCARD(td->devvp, start, len);
159884d9c625SLionel Sambuc #ifdef TRIMDEBUG
159984d9c625SLionel Sambuc printf("trim(%" PRId64 ",%ld):%d\n", td->bno, td->size, error);
160084d9c625SLionel Sambuc #endif
160184d9c625SLionel Sambuc
160284d9c625SLionel Sambuc ffs_blkfree_td(fs, td);
160384d9c625SLionel Sambuc kmem_free(td, sizeof(*td));
160484d9c625SLionel Sambuc mutex_enter(&ts->wqlk);
160584d9c625SLionel Sambuc ts->wqcnt--;
160684d9c625SLionel Sambuc if (ts->wqdraining && !ts->wqcnt)
160784d9c625SLionel Sambuc cv_signal(&ts->wqcv);
160884d9c625SLionel Sambuc mutex_exit(&ts->wqlk);
160984d9c625SLionel Sambuc }
161084d9c625SLionel Sambuc
161184d9c625SLionel Sambuc void *
ffs_discard_init(struct vnode * devvp,struct fs * fs)161284d9c625SLionel Sambuc ffs_discard_init(struct vnode *devvp, struct fs *fs)
161384d9c625SLionel Sambuc {
161484d9c625SLionel Sambuc struct discarddata *ts;
161584d9c625SLionel Sambuc int error;
161684d9c625SLionel Sambuc
161784d9c625SLionel Sambuc ts = kmem_zalloc(sizeof (*ts), KM_SLEEP);
161884d9c625SLionel Sambuc error = workqueue_create(&ts->wq, "trimwq", ffs_discardcb, ts,
161984d9c625SLionel Sambuc 0, 0, 0);
162084d9c625SLionel Sambuc if (error) {
162184d9c625SLionel Sambuc kmem_free(ts, sizeof (*ts));
162284d9c625SLionel Sambuc return NULL;
162384d9c625SLionel Sambuc }
162484d9c625SLionel Sambuc mutex_init(&ts->entrylk, MUTEX_DEFAULT, IPL_NONE);
162584d9c625SLionel Sambuc mutex_init(&ts->wqlk, MUTEX_DEFAULT, IPL_NONE);
162684d9c625SLionel Sambuc cv_init(&ts->wqcv, "trimwqcv");
1627*0a6a1f1dSLionel Sambuc ts->maxsize = 100*1024; /* XXX */
162884d9c625SLionel Sambuc ts->fs = fs;
162984d9c625SLionel Sambuc return ts;
163084d9c625SLionel Sambuc }
163184d9c625SLionel Sambuc
163284d9c625SLionel Sambuc void
ffs_discard_finish(void * vts,int flags)163384d9c625SLionel Sambuc ffs_discard_finish(void *vts, int flags)
163484d9c625SLionel Sambuc {
163584d9c625SLionel Sambuc struct discarddata *ts = vts;
163684d9c625SLionel Sambuc struct discardopdata *td = NULL;
163784d9c625SLionel Sambuc int res = 0;
163884d9c625SLionel Sambuc
163984d9c625SLionel Sambuc /* wait for workqueue to drain */
164084d9c625SLionel Sambuc mutex_enter(&ts->wqlk);
164184d9c625SLionel Sambuc if (ts->wqcnt) {
164284d9c625SLionel Sambuc ts->wqdraining = 1;
164384d9c625SLionel Sambuc res = cv_timedwait(&ts->wqcv, &ts->wqlk, mstohz(5000));
164484d9c625SLionel Sambuc }
164584d9c625SLionel Sambuc mutex_exit(&ts->wqlk);
164684d9c625SLionel Sambuc if (res)
164784d9c625SLionel Sambuc printf("ffs_discarddata drain timeout\n");
164884d9c625SLionel Sambuc
164984d9c625SLionel Sambuc mutex_enter(&ts->entrylk);
165084d9c625SLionel Sambuc if (ts->entry) {
165184d9c625SLionel Sambuc td = ts->entry;
165284d9c625SLionel Sambuc ts->entry = NULL;
165384d9c625SLionel Sambuc }
165484d9c625SLionel Sambuc mutex_exit(&ts->entrylk);
165584d9c625SLionel Sambuc if (td) {
165684d9c625SLionel Sambuc /* XXX don't tell disk, its optional */
165784d9c625SLionel Sambuc ffs_blkfree_td(ts->fs, td);
165884d9c625SLionel Sambuc #ifdef TRIMDEBUG
165984d9c625SLionel Sambuc printf("finish(%" PRId64 ",%ld)\n", td->bno, td->size);
166084d9c625SLionel Sambuc #endif
166184d9c625SLionel Sambuc kmem_free(td, sizeof(*td));
166284d9c625SLionel Sambuc }
166384d9c625SLionel Sambuc
166484d9c625SLionel Sambuc cv_destroy(&ts->wqcv);
166584d9c625SLionel Sambuc mutex_destroy(&ts->entrylk);
166684d9c625SLionel Sambuc mutex_destroy(&ts->wqlk);
166784d9c625SLionel Sambuc workqueue_destroy(ts->wq);
166884d9c625SLionel Sambuc kmem_free(ts, sizeof(*ts));
166984d9c625SLionel Sambuc }
167084d9c625SLionel Sambuc
167184d9c625SLionel Sambuc void
ffs_blkfree(struct fs * fs,struct vnode * devvp,daddr_t bno,long size,ino_t inum)167284d9c625SLionel Sambuc ffs_blkfree(struct fs *fs, struct vnode *devvp, daddr_t bno, long size,
167384d9c625SLionel Sambuc ino_t inum)
167484d9c625SLionel Sambuc {
167584d9c625SLionel Sambuc struct ufsmount *ump;
167684d9c625SLionel Sambuc int error;
167784d9c625SLionel Sambuc dev_t dev;
167884d9c625SLionel Sambuc struct discarddata *ts;
167984d9c625SLionel Sambuc struct discardopdata *td;
168084d9c625SLionel Sambuc
168184d9c625SLionel Sambuc dev = devvp->v_rdev;
168284d9c625SLionel Sambuc ump = VFSTOUFS(spec_node_getmountedfs(devvp));
168384d9c625SLionel Sambuc if (ffs_snapblkfree(fs, devvp, bno, size, inum))
168484d9c625SLionel Sambuc return;
168584d9c625SLionel Sambuc
168684d9c625SLionel Sambuc error = ffs_check_bad_allocation(__func__, fs, bno, size, dev, inum);
168784d9c625SLionel Sambuc if (error)
168884d9c625SLionel Sambuc return;
168984d9c625SLionel Sambuc
169084d9c625SLionel Sambuc if (!ump->um_discarddata) {
169184d9c625SLionel Sambuc ffs_blkfree_cg(fs, devvp, bno, size);
169284d9c625SLionel Sambuc return;
169384d9c625SLionel Sambuc }
169484d9c625SLionel Sambuc
169584d9c625SLionel Sambuc #ifdef TRIMDEBUG
169684d9c625SLionel Sambuc printf("blkfree(%" PRId64 ",%ld)\n", bno, size);
169784d9c625SLionel Sambuc #endif
169884d9c625SLionel Sambuc ts = ump->um_discarddata;
169984d9c625SLionel Sambuc td = NULL;
170084d9c625SLionel Sambuc
170184d9c625SLionel Sambuc mutex_enter(&ts->entrylk);
170284d9c625SLionel Sambuc if (ts->entry) {
170384d9c625SLionel Sambuc td = ts->entry;
170484d9c625SLionel Sambuc /* ffs deallocs backwards, check for prepend only */
170584d9c625SLionel Sambuc if (td->bno == bno + ffs_numfrags(fs, size)
170684d9c625SLionel Sambuc && td->size + size <= ts->maxsize) {
170784d9c625SLionel Sambuc td->bno = bno;
170884d9c625SLionel Sambuc td->size += size;
170984d9c625SLionel Sambuc if (td->size < ts->maxsize) {
171084d9c625SLionel Sambuc #ifdef TRIMDEBUG
171184d9c625SLionel Sambuc printf("defer(%" PRId64 ",%ld)\n", td->bno, td->size);
171284d9c625SLionel Sambuc #endif
171384d9c625SLionel Sambuc mutex_exit(&ts->entrylk);
171484d9c625SLionel Sambuc return;
171584d9c625SLionel Sambuc }
171684d9c625SLionel Sambuc size = 0; /* mark done */
171784d9c625SLionel Sambuc }
171884d9c625SLionel Sambuc ts->entry = NULL;
171984d9c625SLionel Sambuc }
172084d9c625SLionel Sambuc mutex_exit(&ts->entrylk);
172184d9c625SLionel Sambuc
172284d9c625SLionel Sambuc if (td) {
172384d9c625SLionel Sambuc #ifdef TRIMDEBUG
172484d9c625SLionel Sambuc printf("enq old(%" PRId64 ",%ld)\n", td->bno, td->size);
172584d9c625SLionel Sambuc #endif
172684d9c625SLionel Sambuc mutex_enter(&ts->wqlk);
172784d9c625SLionel Sambuc ts->wqcnt++;
172884d9c625SLionel Sambuc mutex_exit(&ts->wqlk);
172984d9c625SLionel Sambuc workqueue_enqueue(ts->wq, &td->wk, NULL);
173084d9c625SLionel Sambuc }
173184d9c625SLionel Sambuc if (!size)
173284d9c625SLionel Sambuc return;
173384d9c625SLionel Sambuc
173484d9c625SLionel Sambuc td = kmem_alloc(sizeof(*td), KM_SLEEP);
173584d9c625SLionel Sambuc td->devvp = devvp;
173684d9c625SLionel Sambuc td->bno = bno;
173784d9c625SLionel Sambuc td->size = size;
173884d9c625SLionel Sambuc
173984d9c625SLionel Sambuc if (td->size < ts->maxsize) { /* XXX always the case */
174084d9c625SLionel Sambuc mutex_enter(&ts->entrylk);
174184d9c625SLionel Sambuc if (!ts->entry) { /* possible race? */
174284d9c625SLionel Sambuc #ifdef TRIMDEBUG
174384d9c625SLionel Sambuc printf("defer(%" PRId64 ",%ld)\n", td->bno, td->size);
174484d9c625SLionel Sambuc #endif
174584d9c625SLionel Sambuc ts->entry = td;
174684d9c625SLionel Sambuc td = NULL;
174784d9c625SLionel Sambuc }
174884d9c625SLionel Sambuc mutex_exit(&ts->entrylk);
174984d9c625SLionel Sambuc }
175084d9c625SLionel Sambuc if (td) {
175184d9c625SLionel Sambuc #ifdef TRIMDEBUG
175284d9c625SLionel Sambuc printf("enq new(%" PRId64 ",%ld)\n", td->bno, td->size);
175384d9c625SLionel Sambuc #endif
175484d9c625SLionel Sambuc mutex_enter(&ts->wqlk);
175584d9c625SLionel Sambuc ts->wqcnt++;
175684d9c625SLionel Sambuc mutex_exit(&ts->wqlk);
175784d9c625SLionel Sambuc workqueue_enqueue(ts->wq, &td->wk, NULL);
175884d9c625SLionel Sambuc }
175984d9c625SLionel Sambuc }
176084d9c625SLionel Sambuc
1761d65f6f70SBen Gras /*
1762d65f6f70SBen Gras * Free a block or fragment from a snapshot cg copy.
1763d65f6f70SBen Gras *
1764d65f6f70SBen Gras * The specified block or fragment is placed back in the
1765d65f6f70SBen Gras * free map. If a fragment is deallocated, a possible
1766d65f6f70SBen Gras * block reassembly is checked.
1767d65f6f70SBen Gras *
1768d65f6f70SBen Gras * => um_lock not held on entry or exit
1769d65f6f70SBen Gras */
1770d65f6f70SBen Gras void
ffs_blkfree_snap(struct fs * fs,struct vnode * devvp,daddr_t bno,long size,ino_t inum)1771d65f6f70SBen Gras ffs_blkfree_snap(struct fs *fs, struct vnode *devvp, daddr_t bno, long size,
1772d65f6f70SBen Gras ino_t inum)
1773d65f6f70SBen Gras {
1774d65f6f70SBen Gras struct cg *cgp;
1775d65f6f70SBen Gras struct buf *bp;
1776d65f6f70SBen Gras struct ufsmount *ump;
1777d65f6f70SBen Gras daddr_t cgblkno;
1778d65f6f70SBen Gras int error, cg;
1779d65f6f70SBen Gras dev_t dev;
1780d65f6f70SBen Gras const bool devvp_is_snapshot = (devvp->v_type != VBLK);
1781d65f6f70SBen Gras const int needswap = UFS_FSNEEDSWAP(fs);
1782d65f6f70SBen Gras
1783d65f6f70SBen Gras KASSERT(devvp_is_snapshot);
1784d65f6f70SBen Gras
1785d65f6f70SBen Gras cg = dtog(fs, bno);
1786d65f6f70SBen Gras dev = VTOI(devvp)->i_devvp->v_rdev;
1787d65f6f70SBen Gras ump = VFSTOUFS(devvp->v_mount);
178884d9c625SLionel Sambuc cgblkno = ffs_fragstoblks(fs, cgtod(fs, cg));
1789d65f6f70SBen Gras
1790d65f6f70SBen Gras error = ffs_check_bad_allocation(__func__, fs, bno, size, dev, inum);
1791d65f6f70SBen Gras if (error)
1792d65f6f70SBen Gras return;
1793d65f6f70SBen Gras
1794d65f6f70SBen Gras error = bread(devvp, cgblkno, (int)fs->fs_cgsize,
1795*0a6a1f1dSLionel Sambuc B_MODIFY, &bp);
1796d65f6f70SBen Gras if (error) {
1797d65f6f70SBen Gras return;
1798d65f6f70SBen Gras }
1799d65f6f70SBen Gras cgp = (struct cg *)bp->b_data;
1800d65f6f70SBen Gras if (!cg_chkmagic(cgp, needswap)) {
1801d65f6f70SBen Gras brelse(bp, 0);
1802d65f6f70SBen Gras return;
1803d65f6f70SBen Gras }
1804d65f6f70SBen Gras
1805d65f6f70SBen Gras ffs_blkfree_common(ump, fs, dev, bp, bno, size, devvp_is_snapshot);
1806d65f6f70SBen Gras
1807d65f6f70SBen Gras bdwrite(bp);
1808d65f6f70SBen Gras }
1809d65f6f70SBen Gras
1810d65f6f70SBen Gras static void
ffs_blkfree_common(struct ufsmount * ump,struct fs * fs,dev_t dev,struct buf * bp,daddr_t bno,long size,bool devvp_is_snapshot)1811d65f6f70SBen Gras ffs_blkfree_common(struct ufsmount *ump, struct fs *fs, dev_t dev,
1812d65f6f70SBen Gras struct buf *bp, daddr_t bno, long size, bool devvp_is_snapshot)
1813d65f6f70SBen Gras {
1814d65f6f70SBen Gras struct cg *cgp;
1815d65f6f70SBen Gras int32_t fragno, cgbno;
1816d65f6f70SBen Gras int i, cg, blk, frags, bbase;
1817d65f6f70SBen Gras u_int8_t *blksfree;
1818d65f6f70SBen Gras const int needswap = UFS_FSNEEDSWAP(fs);
1819d65f6f70SBen Gras
1820d65f6f70SBen Gras cg = dtog(fs, bno);
1821d65f6f70SBen Gras cgp = (struct cg *)bp->b_data;
1822d65f6f70SBen Gras cgp->cg_old_time = ufs_rw32(time_second, needswap);
1823d65f6f70SBen Gras if ((fs->fs_magic != FS_UFS1_MAGIC) ||
1824d65f6f70SBen Gras (fs->fs_old_flags & FS_FLAGS_UPDATED))
1825d65f6f70SBen Gras cgp->cg_time = ufs_rw64(time_second, needswap);
1826d65f6f70SBen Gras cgbno = dtogd(fs, bno);
1827d65f6f70SBen Gras blksfree = cg_blksfree(cgp, needswap);
1828d65f6f70SBen Gras mutex_enter(&ump->um_lock);
1829d65f6f70SBen Gras if (size == fs->fs_bsize) {
183084d9c625SLionel Sambuc fragno = ffs_fragstoblks(fs, cgbno);
1831d65f6f70SBen Gras if (!ffs_isfreeblock(fs, blksfree, fragno)) {
1832d65f6f70SBen Gras if (devvp_is_snapshot) {
1833d65f6f70SBen Gras mutex_exit(&ump->um_lock);
1834d65f6f70SBen Gras return;
1835d65f6f70SBen Gras }
1836d65f6f70SBen Gras printf("dev = 0x%llx, block = %" PRId64 ", fs = %s\n",
1837d65f6f70SBen Gras (unsigned long long)dev, bno, fs->fs_fsmnt);
1838d65f6f70SBen Gras panic("blkfree: freeing free block");
1839d65f6f70SBen Gras }
1840d65f6f70SBen Gras ffs_setblock(fs, blksfree, fragno);
1841d65f6f70SBen Gras ffs_clusteracct(fs, cgp, fragno, 1);
1842d65f6f70SBen Gras ufs_add32(cgp->cg_cs.cs_nbfree, 1, needswap);
1843d65f6f70SBen Gras fs->fs_cstotal.cs_nbfree++;
1844d65f6f70SBen Gras fs->fs_cs(fs, cg).cs_nbfree++;
1845d65f6f70SBen Gras if ((fs->fs_magic == FS_UFS1_MAGIC) &&
1846d65f6f70SBen Gras ((fs->fs_old_flags & FS_FLAGS_UPDATED) == 0)) {
1847d65f6f70SBen Gras i = old_cbtocylno(fs, cgbno);
1848d65f6f70SBen Gras KASSERT(i >= 0);
1849d65f6f70SBen Gras KASSERT(i < fs->fs_old_ncyl);
1850d65f6f70SBen Gras KASSERT(old_cbtorpos(fs, cgbno) >= 0);
1851d65f6f70SBen Gras KASSERT(fs->fs_old_nrpos == 0 || old_cbtorpos(fs, cgbno) < fs->fs_old_nrpos);
1852d65f6f70SBen Gras ufs_add16(old_cg_blks(fs, cgp, i, needswap)[old_cbtorpos(fs, cgbno)], 1,
1853d65f6f70SBen Gras needswap);
1854d65f6f70SBen Gras ufs_add32(old_cg_blktot(cgp, needswap)[i], 1, needswap);
1855d65f6f70SBen Gras }
1856d65f6f70SBen Gras } else {
185784d9c625SLionel Sambuc bbase = cgbno - ffs_fragnum(fs, cgbno);
1858d65f6f70SBen Gras /*
1859d65f6f70SBen Gras * decrement the counts associated with the old frags
1860d65f6f70SBen Gras */
1861d65f6f70SBen Gras blk = blkmap(fs, blksfree, bbase);
1862d65f6f70SBen Gras ffs_fragacct(fs, blk, cgp->cg_frsum, -1, needswap);
1863d65f6f70SBen Gras /*
1864d65f6f70SBen Gras * deallocate the fragment
1865d65f6f70SBen Gras */
186684d9c625SLionel Sambuc frags = ffs_numfrags(fs, size);
1867d65f6f70SBen Gras for (i = 0; i < frags; i++) {
1868d65f6f70SBen Gras if (isset(blksfree, cgbno + i)) {
1869d65f6f70SBen Gras printf("dev = 0x%llx, block = %" PRId64
1870d65f6f70SBen Gras ", fs = %s\n",
1871d65f6f70SBen Gras (unsigned long long)dev, bno + i,
1872d65f6f70SBen Gras fs->fs_fsmnt);
1873d65f6f70SBen Gras panic("blkfree: freeing free frag");
1874d65f6f70SBen Gras }
1875d65f6f70SBen Gras setbit(blksfree, cgbno + i);
1876d65f6f70SBen Gras }
1877d65f6f70SBen Gras ufs_add32(cgp->cg_cs.cs_nffree, i, needswap);
1878d65f6f70SBen Gras fs->fs_cstotal.cs_nffree += i;
1879d65f6f70SBen Gras fs->fs_cs(fs, cg).cs_nffree += i;
1880d65f6f70SBen Gras /*
1881d65f6f70SBen Gras * add back in counts associated with the new frags
1882d65f6f70SBen Gras */
1883d65f6f70SBen Gras blk = blkmap(fs, blksfree, bbase);
1884d65f6f70SBen Gras ffs_fragacct(fs, blk, cgp->cg_frsum, 1, needswap);
1885d65f6f70SBen Gras /*
1886d65f6f70SBen Gras * if a complete block has been reassembled, account for it
1887d65f6f70SBen Gras */
188884d9c625SLionel Sambuc fragno = ffs_fragstoblks(fs, bbase);
1889d65f6f70SBen Gras if (ffs_isblock(fs, blksfree, fragno)) {
1890d65f6f70SBen Gras ufs_add32(cgp->cg_cs.cs_nffree, -fs->fs_frag, needswap);
1891d65f6f70SBen Gras fs->fs_cstotal.cs_nffree -= fs->fs_frag;
1892d65f6f70SBen Gras fs->fs_cs(fs, cg).cs_nffree -= fs->fs_frag;
1893d65f6f70SBen Gras ffs_clusteracct(fs, cgp, fragno, 1);
1894d65f6f70SBen Gras ufs_add32(cgp->cg_cs.cs_nbfree, 1, needswap);
1895d65f6f70SBen Gras fs->fs_cstotal.cs_nbfree++;
1896d65f6f70SBen Gras fs->fs_cs(fs, cg).cs_nbfree++;
1897d65f6f70SBen Gras if ((fs->fs_magic == FS_UFS1_MAGIC) &&
1898d65f6f70SBen Gras ((fs->fs_old_flags & FS_FLAGS_UPDATED) == 0)) {
1899d65f6f70SBen Gras i = old_cbtocylno(fs, bbase);
1900d65f6f70SBen Gras KASSERT(i >= 0);
1901d65f6f70SBen Gras KASSERT(i < fs->fs_old_ncyl);
1902d65f6f70SBen Gras KASSERT(old_cbtorpos(fs, bbase) >= 0);
1903d65f6f70SBen Gras KASSERT(fs->fs_old_nrpos == 0 || old_cbtorpos(fs, bbase) < fs->fs_old_nrpos);
1904d65f6f70SBen Gras ufs_add16(old_cg_blks(fs, cgp, i, needswap)[old_cbtorpos(fs,
1905d65f6f70SBen Gras bbase)], 1, needswap);
1906d65f6f70SBen Gras ufs_add32(old_cg_blktot(cgp, needswap)[i], 1, needswap);
1907d65f6f70SBen Gras }
1908d65f6f70SBen Gras }
1909d65f6f70SBen Gras }
1910d65f6f70SBen Gras fs->fs_fmod = 1;
1911d65f6f70SBen Gras ACTIVECG_CLR(fs, cg);
1912d65f6f70SBen Gras mutex_exit(&ump->um_lock);
1913d65f6f70SBen Gras }
1914d65f6f70SBen Gras
1915d65f6f70SBen Gras /*
1916d65f6f70SBen Gras * Free an inode.
1917d65f6f70SBen Gras */
1918d65f6f70SBen Gras int
ffs_vfree(struct vnode * vp,ino_t ino,int mode)1919d65f6f70SBen Gras ffs_vfree(struct vnode *vp, ino_t ino, int mode)
1920d65f6f70SBen Gras {
1921d65f6f70SBen Gras
1922d65f6f70SBen Gras return ffs_freefile(vp->v_mount, ino, mode);
1923d65f6f70SBen Gras }
1924d65f6f70SBen Gras
1925d65f6f70SBen Gras /*
1926d65f6f70SBen Gras * Do the actual free operation.
1927d65f6f70SBen Gras * The specified inode is placed back in the free map.
1928d65f6f70SBen Gras *
1929d65f6f70SBen Gras * => um_lock not held on entry or exit
1930d65f6f70SBen Gras */
1931d65f6f70SBen Gras int
ffs_freefile(struct mount * mp,ino_t ino,int mode)1932d65f6f70SBen Gras ffs_freefile(struct mount *mp, ino_t ino, int mode)
1933d65f6f70SBen Gras {
1934d65f6f70SBen Gras struct ufsmount *ump = VFSTOUFS(mp);
1935d65f6f70SBen Gras struct fs *fs = ump->um_fs;
1936d65f6f70SBen Gras struct vnode *devvp;
1937d65f6f70SBen Gras struct cg *cgp;
1938d65f6f70SBen Gras struct buf *bp;
1939d65f6f70SBen Gras int error, cg;
1940d65f6f70SBen Gras daddr_t cgbno;
1941d65f6f70SBen Gras dev_t dev;
1942d65f6f70SBen Gras const int needswap = UFS_FSNEEDSWAP(fs);
1943d65f6f70SBen Gras
1944d65f6f70SBen Gras cg = ino_to_cg(fs, ino);
1945d65f6f70SBen Gras devvp = ump->um_devvp;
1946d65f6f70SBen Gras dev = devvp->v_rdev;
194784d9c625SLionel Sambuc cgbno = FFS_FSBTODB(fs, cgtod(fs, cg));
1948d65f6f70SBen Gras
1949d65f6f70SBen Gras if ((u_int)ino >= fs->fs_ipg * fs->fs_ncg)
1950d65f6f70SBen Gras panic("ifree: range: dev = 0x%llx, ino = %llu, fs = %s",
1951d65f6f70SBen Gras (long long)dev, (unsigned long long)ino, fs->fs_fsmnt);
1952d65f6f70SBen Gras error = bread(devvp, cgbno, (int)fs->fs_cgsize,
1953*0a6a1f1dSLionel Sambuc B_MODIFY, &bp);
1954d65f6f70SBen Gras if (error) {
1955d65f6f70SBen Gras return (error);
1956d65f6f70SBen Gras }
1957d65f6f70SBen Gras cgp = (struct cg *)bp->b_data;
1958d65f6f70SBen Gras if (!cg_chkmagic(cgp, needswap)) {
1959d65f6f70SBen Gras brelse(bp, 0);
1960d65f6f70SBen Gras return (0);
1961d65f6f70SBen Gras }
1962d65f6f70SBen Gras
1963d65f6f70SBen Gras ffs_freefile_common(ump, fs, dev, bp, ino, mode, false);
1964d65f6f70SBen Gras
1965d65f6f70SBen Gras bdwrite(bp);
1966d65f6f70SBen Gras
1967d65f6f70SBen Gras return 0;
1968d65f6f70SBen Gras }
1969d65f6f70SBen Gras
1970d65f6f70SBen Gras int
ffs_freefile_snap(struct fs * fs,struct vnode * devvp,ino_t ino,int mode)1971d65f6f70SBen Gras ffs_freefile_snap(struct fs *fs, struct vnode *devvp, ino_t ino, int mode)
1972d65f6f70SBen Gras {
1973d65f6f70SBen Gras struct ufsmount *ump;
1974d65f6f70SBen Gras struct cg *cgp;
1975d65f6f70SBen Gras struct buf *bp;
1976d65f6f70SBen Gras int error, cg;
1977d65f6f70SBen Gras daddr_t cgbno;
1978d65f6f70SBen Gras dev_t dev;
1979d65f6f70SBen Gras const int needswap = UFS_FSNEEDSWAP(fs);
1980d65f6f70SBen Gras
1981d65f6f70SBen Gras KASSERT(devvp->v_type != VBLK);
1982d65f6f70SBen Gras
1983d65f6f70SBen Gras cg = ino_to_cg(fs, ino);
1984d65f6f70SBen Gras dev = VTOI(devvp)->i_devvp->v_rdev;
1985d65f6f70SBen Gras ump = VFSTOUFS(devvp->v_mount);
198684d9c625SLionel Sambuc cgbno = ffs_fragstoblks(fs, cgtod(fs, cg));
1987d65f6f70SBen Gras if ((u_int)ino >= fs->fs_ipg * fs->fs_ncg)
1988d65f6f70SBen Gras panic("ifree: range: dev = 0x%llx, ino = %llu, fs = %s",
1989d65f6f70SBen Gras (unsigned long long)dev, (unsigned long long)ino,
1990d65f6f70SBen Gras fs->fs_fsmnt);
1991d65f6f70SBen Gras error = bread(devvp, cgbno, (int)fs->fs_cgsize,
1992*0a6a1f1dSLionel Sambuc B_MODIFY, &bp);
1993d65f6f70SBen Gras if (error) {
1994d65f6f70SBen Gras return (error);
1995d65f6f70SBen Gras }
1996d65f6f70SBen Gras cgp = (struct cg *)bp->b_data;
1997d65f6f70SBen Gras if (!cg_chkmagic(cgp, needswap)) {
1998d65f6f70SBen Gras brelse(bp, 0);
1999d65f6f70SBen Gras return (0);
2000d65f6f70SBen Gras }
2001d65f6f70SBen Gras ffs_freefile_common(ump, fs, dev, bp, ino, mode, true);
2002d65f6f70SBen Gras
2003d65f6f70SBen Gras bdwrite(bp);
2004d65f6f70SBen Gras
2005d65f6f70SBen Gras return 0;
2006d65f6f70SBen Gras }
2007d65f6f70SBen Gras
2008d65f6f70SBen Gras static void
ffs_freefile_common(struct ufsmount * ump,struct fs * fs,dev_t dev,struct buf * bp,ino_t ino,int mode,bool devvp_is_snapshot)2009d65f6f70SBen Gras ffs_freefile_common(struct ufsmount *ump, struct fs *fs, dev_t dev,
2010d65f6f70SBen Gras struct buf *bp, ino_t ino, int mode, bool devvp_is_snapshot)
2011d65f6f70SBen Gras {
2012d65f6f70SBen Gras int cg;
2013d65f6f70SBen Gras struct cg *cgp;
2014d65f6f70SBen Gras u_int8_t *inosused;
2015d65f6f70SBen Gras const int needswap = UFS_FSNEEDSWAP(fs);
2016d65f6f70SBen Gras
2017d65f6f70SBen Gras cg = ino_to_cg(fs, ino);
2018d65f6f70SBen Gras cgp = (struct cg *)bp->b_data;
2019d65f6f70SBen Gras cgp->cg_old_time = ufs_rw32(time_second, needswap);
2020d65f6f70SBen Gras if ((fs->fs_magic != FS_UFS1_MAGIC) ||
2021d65f6f70SBen Gras (fs->fs_old_flags & FS_FLAGS_UPDATED))
2022d65f6f70SBen Gras cgp->cg_time = ufs_rw64(time_second, needswap);
2023d65f6f70SBen Gras inosused = cg_inosused(cgp, needswap);
2024d65f6f70SBen Gras ino %= fs->fs_ipg;
2025d65f6f70SBen Gras if (isclr(inosused, ino)) {
2026d65f6f70SBen Gras printf("ifree: dev = 0x%llx, ino = %llu, fs = %s\n",
2027d65f6f70SBen Gras (unsigned long long)dev, (unsigned long long)ino +
2028d65f6f70SBen Gras cg * fs->fs_ipg, fs->fs_fsmnt);
2029d65f6f70SBen Gras if (fs->fs_ronly == 0)
2030d65f6f70SBen Gras panic("ifree: freeing free inode");
2031d65f6f70SBen Gras }
2032d65f6f70SBen Gras clrbit(inosused, ino);
2033d65f6f70SBen Gras if (!devvp_is_snapshot)
2034d65f6f70SBen Gras UFS_WAPBL_UNREGISTER_INODE(ump->um_mountp,
2035d65f6f70SBen Gras ino + cg * fs->fs_ipg, mode);
2036d65f6f70SBen Gras if (ino < ufs_rw32(cgp->cg_irotor, needswap))
2037d65f6f70SBen Gras cgp->cg_irotor = ufs_rw32(ino, needswap);
2038d65f6f70SBen Gras ufs_add32(cgp->cg_cs.cs_nifree, 1, needswap);
2039d65f6f70SBen Gras mutex_enter(&ump->um_lock);
2040d65f6f70SBen Gras fs->fs_cstotal.cs_nifree++;
2041d65f6f70SBen Gras fs->fs_cs(fs, cg).cs_nifree++;
2042d65f6f70SBen Gras if ((mode & IFMT) == IFDIR) {
2043d65f6f70SBen Gras ufs_add32(cgp->cg_cs.cs_ndir, -1, needswap);
2044d65f6f70SBen Gras fs->fs_cstotal.cs_ndir--;
2045d65f6f70SBen Gras fs->fs_cs(fs, cg).cs_ndir--;
2046d65f6f70SBen Gras }
2047d65f6f70SBen Gras fs->fs_fmod = 1;
2048d65f6f70SBen Gras ACTIVECG_CLR(fs, cg);
2049d65f6f70SBen Gras mutex_exit(&ump->um_lock);
2050d65f6f70SBen Gras }
2051d65f6f70SBen Gras
2052d65f6f70SBen Gras /*
2053d65f6f70SBen Gras * Check to see if a file is free.
2054d65f6f70SBen Gras */
2055d65f6f70SBen Gras int
ffs_checkfreefile(struct fs * fs,struct vnode * devvp,ino_t ino)2056d65f6f70SBen Gras ffs_checkfreefile(struct fs *fs, struct vnode *devvp, ino_t ino)
2057d65f6f70SBen Gras {
2058d65f6f70SBen Gras struct cg *cgp;
2059d65f6f70SBen Gras struct buf *bp;
2060d65f6f70SBen Gras daddr_t cgbno;
2061d65f6f70SBen Gras int ret, cg;
2062d65f6f70SBen Gras u_int8_t *inosused;
2063d65f6f70SBen Gras const bool devvp_is_snapshot = (devvp->v_type != VBLK);
2064d65f6f70SBen Gras
2065d65f6f70SBen Gras KASSERT(devvp_is_snapshot);
2066d65f6f70SBen Gras
2067d65f6f70SBen Gras cg = ino_to_cg(fs, ino);
2068d65f6f70SBen Gras if (devvp_is_snapshot)
206984d9c625SLionel Sambuc cgbno = ffs_fragstoblks(fs, cgtod(fs, cg));
2070d65f6f70SBen Gras else
207184d9c625SLionel Sambuc cgbno = FFS_FSBTODB(fs, cgtod(fs, cg));
2072d65f6f70SBen Gras if ((u_int)ino >= fs->fs_ipg * fs->fs_ncg)
2073d65f6f70SBen Gras return 1;
2074*0a6a1f1dSLionel Sambuc if (bread(devvp, cgbno, (int)fs->fs_cgsize, 0, &bp)) {
2075d65f6f70SBen Gras return 1;
2076d65f6f70SBen Gras }
2077d65f6f70SBen Gras cgp = (struct cg *)bp->b_data;
2078d65f6f70SBen Gras if (!cg_chkmagic(cgp, UFS_FSNEEDSWAP(fs))) {
2079d65f6f70SBen Gras brelse(bp, 0);
2080d65f6f70SBen Gras return 1;
2081d65f6f70SBen Gras }
2082d65f6f70SBen Gras inosused = cg_inosused(cgp, UFS_FSNEEDSWAP(fs));
2083d65f6f70SBen Gras ino %= fs->fs_ipg;
2084d65f6f70SBen Gras ret = isclr(inosused, ino);
2085d65f6f70SBen Gras brelse(bp, 0);
2086d65f6f70SBen Gras return ret;
2087d65f6f70SBen Gras }
2088d65f6f70SBen Gras
2089d65f6f70SBen Gras /*
2090d65f6f70SBen Gras * Find a block of the specified size in the specified cylinder group.
2091d65f6f70SBen Gras *
2092d65f6f70SBen Gras * It is a panic if a request is made to find a block if none are
2093d65f6f70SBen Gras * available.
2094d65f6f70SBen Gras */
2095d65f6f70SBen Gras static int32_t
ffs_mapsearch(struct fs * fs,struct cg * cgp,daddr_t bpref,int allocsiz)2096d65f6f70SBen Gras ffs_mapsearch(struct fs *fs, struct cg *cgp, daddr_t bpref, int allocsiz)
2097d65f6f70SBen Gras {
2098d65f6f70SBen Gras int32_t bno;
2099d65f6f70SBen Gras int start, len, loc, i;
2100d65f6f70SBen Gras int blk, field, subfield, pos;
2101d65f6f70SBen Gras int ostart, olen;
2102d65f6f70SBen Gras u_int8_t *blksfree;
2103d65f6f70SBen Gras const int needswap = UFS_FSNEEDSWAP(fs);
2104d65f6f70SBen Gras
2105d65f6f70SBen Gras /* KASSERT(mutex_owned(&ump->um_lock)); */
2106d65f6f70SBen Gras
2107d65f6f70SBen Gras /*
2108d65f6f70SBen Gras * find the fragment by searching through the free block
2109d65f6f70SBen Gras * map for an appropriate bit pattern
2110d65f6f70SBen Gras */
2111d65f6f70SBen Gras if (bpref)
2112d65f6f70SBen Gras start = dtogd(fs, bpref) / NBBY;
2113d65f6f70SBen Gras else
2114d65f6f70SBen Gras start = ufs_rw32(cgp->cg_frotor, needswap) / NBBY;
2115d65f6f70SBen Gras blksfree = cg_blksfree(cgp, needswap);
2116d65f6f70SBen Gras len = howmany(fs->fs_fpg, NBBY) - start;
2117d65f6f70SBen Gras ostart = start;
2118d65f6f70SBen Gras olen = len;
2119d65f6f70SBen Gras loc = scanc((u_int)len,
2120d65f6f70SBen Gras (const u_char *)&blksfree[start],
2121d65f6f70SBen Gras (const u_char *)fragtbl[fs->fs_frag],
2122d65f6f70SBen Gras (1 << (allocsiz - 1 + (fs->fs_frag & (NBBY - 1)))));
2123d65f6f70SBen Gras if (loc == 0) {
2124d65f6f70SBen Gras len = start + 1;
2125d65f6f70SBen Gras start = 0;
2126d65f6f70SBen Gras loc = scanc((u_int)len,
2127d65f6f70SBen Gras (const u_char *)&blksfree[0],
2128d65f6f70SBen Gras (const u_char *)fragtbl[fs->fs_frag],
2129d65f6f70SBen Gras (1 << (allocsiz - 1 + (fs->fs_frag & (NBBY - 1)))));
2130d65f6f70SBen Gras if (loc == 0) {
2131d65f6f70SBen Gras printf("start = %d, len = %d, fs = %s\n",
2132d65f6f70SBen Gras ostart, olen, fs->fs_fsmnt);
2133d65f6f70SBen Gras printf("offset=%d %ld\n",
2134d65f6f70SBen Gras ufs_rw32(cgp->cg_freeoff, needswap),
2135d65f6f70SBen Gras (long)blksfree - (long)cgp);
2136d65f6f70SBen Gras printf("cg %d\n", cgp->cg_cgx);
2137d65f6f70SBen Gras panic("ffs_alloccg: map corrupted");
2138d65f6f70SBen Gras /* NOTREACHED */
2139d65f6f70SBen Gras }
2140d65f6f70SBen Gras }
2141d65f6f70SBen Gras bno = (start + len - loc) * NBBY;
2142d65f6f70SBen Gras cgp->cg_frotor = ufs_rw32(bno, needswap);
2143d65f6f70SBen Gras /*
2144d65f6f70SBen Gras * found the byte in the map
2145d65f6f70SBen Gras * sift through the bits to find the selected frag
2146d65f6f70SBen Gras */
2147d65f6f70SBen Gras for (i = bno + NBBY; bno < i; bno += fs->fs_frag) {
2148d65f6f70SBen Gras blk = blkmap(fs, blksfree, bno);
2149d65f6f70SBen Gras blk <<= 1;
2150d65f6f70SBen Gras field = around[allocsiz];
2151d65f6f70SBen Gras subfield = inside[allocsiz];
2152d65f6f70SBen Gras for (pos = 0; pos <= fs->fs_frag - allocsiz; pos++) {
2153d65f6f70SBen Gras if ((blk & field) == subfield)
2154d65f6f70SBen Gras return (bno + pos);
2155d65f6f70SBen Gras field <<= 1;
2156d65f6f70SBen Gras subfield <<= 1;
2157d65f6f70SBen Gras }
2158d65f6f70SBen Gras }
2159d65f6f70SBen Gras printf("bno = %d, fs = %s\n", bno, fs->fs_fsmnt);
2160d65f6f70SBen Gras panic("ffs_alloccg: block not in map");
2161d65f6f70SBen Gras /* return (-1); */
2162d65f6f70SBen Gras }
2163d65f6f70SBen Gras
2164d65f6f70SBen Gras /*
2165d65f6f70SBen Gras * Fserr prints the name of a file system with an error diagnostic.
2166d65f6f70SBen Gras *
2167d65f6f70SBen Gras * The form of the error message is:
2168d65f6f70SBen Gras * fs: error message
2169d65f6f70SBen Gras */
2170d65f6f70SBen Gras static void
ffs_fserr(struct fs * fs,kauth_cred_t cred,const char * cp)2171*0a6a1f1dSLionel Sambuc ffs_fserr(struct fs *fs, kauth_cred_t cred, const char *cp)
2172d65f6f70SBen Gras {
2173*0a6a1f1dSLionel Sambuc KASSERT(cred != NULL);
2174d65f6f70SBen Gras
2175*0a6a1f1dSLionel Sambuc if (cred == NOCRED || cred == FSCRED) {
2176*0a6a1f1dSLionel Sambuc log(LOG_ERR, "pid %d, command %s, on %s: %s\n",
2177*0a6a1f1dSLionel Sambuc curproc->p_pid, curproc->p_comm,
2178*0a6a1f1dSLionel Sambuc fs->fs_fsmnt, cp);
2179*0a6a1f1dSLionel Sambuc } else {
2180d65f6f70SBen Gras log(LOG_ERR, "uid %d, pid %d, command %s, on %s: %s\n",
2181*0a6a1f1dSLionel Sambuc kauth_cred_getuid(cred), curproc->p_pid, curproc->p_comm,
2182*0a6a1f1dSLionel Sambuc fs->fs_fsmnt, cp);
2183*0a6a1f1dSLionel Sambuc }
2184d65f6f70SBen Gras }
2185