/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2008 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include extern int maxphys; extern uint_t bypass_snapshot_throttle_key; extern struct kmem_cache *lufs_sv; extern struct kmem_cache *lufs_bp; static void makebusy(ml_unit_t *ul, buf_t *bp) { sema_p(&bp->b_sem); if ((bp->b_flags & B_ERROR) == 0) return; if (bp->b_flags & B_READ) ldl_seterror(ul, "Error reading ufs log"); else ldl_seterror(ul, "Error writing ufs log"); } static int logdone(buf_t *bp) { bp->b_flags |= B_DONE; if (bp->b_flags & B_WRITE) sema_v(&bp->b_sem); else /* wakeup the thread waiting on this buf */ sema_v(&bp->b_io); return (0); } static int ldl_strategy_done(buf_t *cb) { lufs_save_t *sv; lufs_buf_t *lbp; buf_t *bp; ASSERT(SEMA_HELD(&cb->b_sem)); ASSERT((cb->b_flags & B_DONE) == 0); /* * Compute address of the ``save'' struct */ lbp = (lufs_buf_t *)cb; sv = (lufs_save_t *)lbp->lb_ptr; if (cb->b_flags & B_ERROR) sv->sv_error = 1; /* * If this is the last request, release the resources and * ``done'' the original buffer header. */ if (atomic_add_long_nv(&sv->sv_nb_left, -cb->b_bcount)) { kmem_cache_free(lufs_bp, lbp); return (1); } /* Propagate any errors back to the original buffer header */ bp = sv->sv_bp; if (sv->sv_error) bp->b_flags |= B_ERROR; kmem_cache_free(lufs_bp, lbp); kmem_cache_free(lufs_sv, sv); biodone(bp); return (0); } /* * Map the log logical block number to a physical disk block number */ static int map_frag( ml_unit_t *ul, daddr_t lblkno, size_t bcount, daddr_t *pblkno, size_t *pbcount) { ic_extent_t *ext = ul->un_ebp->ic_extents; uint32_t e = ul->un_ebp->ic_nextents; uint32_t s = 0; uint32_t i = e >> 1; uint32_t lasti = i; uint32_t bno_off; again: if (ext[i].ic_lbno <= lblkno) { if ((ext[i].ic_lbno + ext[i].ic_nbno) > lblkno) { /* FOUND IT */ bno_off = lblkno - (uint32_t)ext[i].ic_lbno; *pbcount = MIN(bcount, dbtob(ext[i].ic_nbno - bno_off)); *pblkno = ext[i].ic_pbno + bno_off; return (0); } else s = i; } else e = i; i = s + ((e - s) >> 1); if (i == lasti) { *pbcount = bcount; return (ENOENT); } lasti = i; goto again; } /* * The log is a set of extents (which typically will be only one, but * may be more if the disk was close to full when the log was created) * and hence the logical offsets into the log * have to be translated into their real device locations before * calling the device's strategy routine. The translation may result * in several IO requests if this request spans extents. */ void ldl_strategy(ml_unit_t *ul, buf_t *pb) { lufs_save_t *sv; lufs_buf_t *lbp; buf_t *cb; ufsvfs_t *ufsvfsp = ul->un_ufsvfs; daddr_t lblkno, pblkno; size_t nb_left, pbcount; off_t offset; dev_t dev = ul->un_dev; int error; int read = pb->b_flags & B_READ; /* * Allocate and initialise the save stucture, */ sv = kmem_cache_alloc(lufs_sv, KM_SLEEP); sv->sv_error = 0; sv->sv_bp = pb; nb_left = pb->b_bcount; sv->sv_nb_left = nb_left; lblkno = pb->b_blkno; offset = 0; do { error = map_frag(ul, lblkno, nb_left, &pblkno, &pbcount); lbp = kmem_cache_alloc(lufs_bp, KM_SLEEP); bioinit(&lbp->lb_buf); lbp->lb_ptr = sv; cb = bioclone(pb, offset, pbcount, dev, pblkno, ldl_strategy_done, &lbp->lb_buf, KM_SLEEP); offset += pbcount; lblkno += btodb(pbcount); nb_left -= pbcount; if (error) { cb->b_flags |= B_ERROR; cb->b_resid = cb->b_bcount; biodone(cb); } else { if (read) { logstats.ls_ldlreads.value.ui64++; ufsvfsp->vfs_iotstamp = lbolt; lwp_stat_update(LWP_STAT_INBLK, 1); } else { logstats.ls_ldlwrites.value.ui64++; lwp_stat_update(LWP_STAT_OUBLK, 1); } /* * write through the snapshot driver if necessary * We do not want this write to be throttled because * we are holding the un_log mutex here. If we * are throttled in fssnap_translate, the fssnap_taskq * thread which can wake us up can get blocked on * the un_log mutex resulting in a deadlock. */ if (ufsvfsp->vfs_snapshot) { (void) tsd_set(bypass_snapshot_throttle_key, (void *)1); fssnap_strategy(&ufsvfsp->vfs_snapshot, cb); (void) tsd_set(bypass_snapshot_throttle_key, (void *)0); } else { (void) bdev_strategy(cb); } } } while (nb_left); } static void writelog(ml_unit_t *ul, buf_t *bp) { ASSERT(SEMA_HELD(&bp->b_sem)); /* * This is really an B_ASYNC write but we want Presto to * cache this write. The iodone routine, logdone, processes * the buf correctly. */ bp->b_flags = B_WRITE; bp->b_edev = ul->un_dev; bp->b_iodone = logdone; /* * return EIO for every IO if in hard error state */ if (ul->un_flags & LDL_ERROR) { bp->b_flags |= B_ERROR; bp->b_error = EIO; biodone(bp); return; } ldl_strategy(ul, bp); } static void readlog(ml_unit_t *ul, buf_t *bp) { ASSERT(SEMA_HELD(&bp->b_sem)); ASSERT(bp->b_bcount); bp->b_flags = B_READ; bp->b_edev = ul->un_dev; bp->b_iodone = logdone; /* all IO returns errors when in error state */ if (ul->un_flags & LDL_ERROR) { bp->b_flags |= B_ERROR; bp->b_error = EIO; biodone(bp); (void) trans_wait(bp); return; } ldl_strategy(ul, bp); if (trans_wait(bp)) ldl_seterror(ul, "Error reading ufs log"); } /* * NOTE: writers are single threaded thru the log layer. * This means we can safely reference and change the cb and bp fields * that ldl_read does not reference w/o holding the cb_rwlock or * the bp makebusy lock. */ static void push_dirty_bp(ml_unit_t *ul, buf_t *bp) { buf_t *newbp; cirbuf_t *cb = &ul->un_wrbuf; ASSERT(bp == cb->cb_bp && bp == cb->cb_dirty); ASSERT((bp->b_bcount & (DEV_BSIZE-1)) == 0); /* * async write the buf */ writelog(ul, bp); /* * no longer filling any buf */ cb->cb_dirty = NULL; /* * no extra buffer space; all done */ if (bp->b_bcount == bp->b_bufsize) return; /* * give extra buffer space to a new bp * try to take buf off of free list */ if ((newbp = cb->cb_free) != NULL) { cb->cb_free = newbp->b_forw; } else { newbp = kmem_zalloc(sizeof (buf_t), KM_SLEEP); sema_init(&newbp->b_sem, 1, NULL, SEMA_DEFAULT, NULL); sema_init(&newbp->b_io, 0, NULL, SEMA_DEFAULT, NULL); } newbp->b_flags = 0; newbp->b_bcount = 0; newbp->b_file = NULL; newbp->b_offset = -1; newbp->b_bufsize = bp->b_bufsize - bp->b_bcount; newbp->b_un.b_addr = bp->b_un.b_addr + bp->b_bcount; bp->b_bufsize = bp->b_bcount; /* * lock out readers and put new buf at LRU position */ rw_enter(&cb->cb_rwlock, RW_WRITER); newbp->b_forw = bp->b_forw; newbp->b_back = bp; bp->b_forw->b_back = newbp; bp->b_forw = newbp; rw_exit(&cb->cb_rwlock); } static void inval_range(ml_unit_t *ul, cirbuf_t *cb, off_t lof, off_t nb) { buf_t *bp; off_t elof = lof + nb; off_t buflof; off_t bufelof; /* * discard all bufs that overlap the range (lof, lof + nb) */ rw_enter(&cb->cb_rwlock, RW_WRITER); bp = cb->cb_bp; do { if (bp == cb->cb_dirty || bp->b_bcount == 0) { bp = bp->b_forw; continue; } buflof = dbtob(bp->b_blkno); bufelof = buflof + bp->b_bcount; if ((buflof < lof && bufelof <= lof) || (buflof >= elof && bufelof > elof)) { bp = bp->b_forw; continue; } makebusy(ul, bp); bp->b_flags = 0; bp->b_bcount = 0; sema_v(&bp->b_sem); bp = bp->b_forw; } while (bp != cb->cb_bp); rw_exit(&cb->cb_rwlock); } /* * NOTE: writers are single threaded thru the log layer. * This means we can safely reference and change the cb and bp fields * that ldl_read does not reference w/o holding the cb_rwlock or * the bp makebusy lock. */ static buf_t * get_write_bp(ml_unit_t *ul) { cirbuf_t *cb = &ul->un_wrbuf; buf_t *bp; /* * cb_dirty is the buffer we are currently filling; if any */ if ((bp = cb->cb_dirty) != NULL) { makebusy(ul, bp); return (bp); } /* * discard any bp that overlaps the current tail since we are * about to overwrite it. */ inval_range(ul, cb, ul->un_tail_lof, 1); /* * steal LRU buf */ rw_enter(&cb->cb_rwlock, RW_WRITER); bp = cb->cb_bp->b_forw; makebusy(ul, bp); cb->cb_dirty = bp; cb->cb_bp = bp; bp->b_flags = 0; bp->b_bcount = 0; bp->b_blkno = btodb(ul->un_tail_lof); ASSERT(dbtob(bp->b_blkno) == ul->un_tail_lof); rw_exit(&cb->cb_rwlock); /* * NOTE: * 1. un_tail_lof never addresses >= un_eol_lof * 2. b_blkno + btodb(b_bufsize) may > un_eol_lof * this case is handled in storebuf */ return (bp); } void alloc_wrbuf(cirbuf_t *cb, size_t bufsize) { int i; buf_t *bp; /* * Clear previous allocation */ if (cb->cb_nb) free_cirbuf(cb); bzero(cb, sizeof (*cb)); rw_init(&cb->cb_rwlock, NULL, RW_DRIVER, NULL); rw_enter(&cb->cb_rwlock, RW_WRITER); /* * preallocate 3 bp's and put them on the free list. */ for (i = 0; i < 3; ++i) { bp = kmem_zalloc(sizeof (buf_t), KM_SLEEP); sema_init(&bp->b_sem, 1, NULL, SEMA_DEFAULT, NULL); sema_init(&bp->b_io, 0, NULL, SEMA_DEFAULT, NULL); bp->b_offset = -1; bp->b_forw = cb->cb_free; cb->cb_free = bp; } cb->cb_va = kmem_alloc(bufsize, KM_SLEEP); cb->cb_nb = bufsize; /* * first bp claims entire write buffer */ bp = cb->cb_free; cb->cb_free = bp->b_forw; bp->b_forw = bp; bp->b_back = bp; cb->cb_bp = bp; bp->b_un.b_addr = cb->cb_va; bp->b_bufsize = cb->cb_nb; rw_exit(&cb->cb_rwlock); } void alloc_rdbuf(cirbuf_t *cb, size_t bufsize, size_t blksize) { caddr_t va; size_t nb; buf_t *bp; /* * Clear previous allocation */ if (cb->cb_nb) free_cirbuf(cb); bzero(cb, sizeof (*cb)); rw_init(&cb->cb_rwlock, NULL, RW_DRIVER, NULL); rw_enter(&cb->cb_rwlock, RW_WRITER); cb->cb_va = kmem_alloc(bufsize, KM_SLEEP); cb->cb_nb = bufsize; /* * preallocate N bufs that are hard-sized to blksize * in other words, the read buffer pool is a linked list * of statically sized bufs. */ va = cb->cb_va; while ((nb = bufsize) != 0) { if (nb > blksize) nb = blksize; bp = kmem_alloc(sizeof (buf_t), KM_SLEEP); bzero(bp, sizeof (buf_t)); sema_init(&bp->b_sem, 1, NULL, SEMA_DEFAULT, NULL); sema_init(&bp->b_io, 0, NULL, SEMA_DEFAULT, NULL); bp->b_un.b_addr = va; bp->b_bufsize = nb; if (cb->cb_bp) { bp->b_forw = cb->cb_bp->b_forw; bp->b_back = cb->cb_bp; cb->cb_bp->b_forw->b_back = bp; cb->cb_bp->b_forw = bp; } else bp->b_forw = bp->b_back = bp; cb->cb_bp = bp; bufsize -= nb; va += nb; } rw_exit(&cb->cb_rwlock); } void free_cirbuf(cirbuf_t *cb) { buf_t *bp; if (cb->cb_nb == 0) return; rw_enter(&cb->cb_rwlock, RW_WRITER); ASSERT(cb->cb_dirty == NULL); /* * free the active bufs */ while ((bp = cb->cb_bp) != NULL) { if (bp == bp->b_forw) cb->cb_bp = NULL; else cb->cb_bp = bp->b_forw; bp->b_back->b_forw = bp->b_forw; bp->b_forw->b_back = bp->b_back; sema_destroy(&bp->b_sem); sema_destroy(&bp->b_io); kmem_free(bp, sizeof (buf_t)); } /* * free the free bufs */ while ((bp = cb->cb_free) != NULL) { cb->cb_free = bp->b_forw; sema_destroy(&bp->b_sem); sema_destroy(&bp->b_io); kmem_free(bp, sizeof (buf_t)); } kmem_free(cb->cb_va, cb->cb_nb); cb->cb_va = NULL; cb->cb_nb = 0; rw_exit(&cb->cb_rwlock); rw_destroy(&cb->cb_rwlock); } static int within_range(off_t lof, daddr_t blkno, ulong_t bcount) { off_t blof = dbtob(blkno); return ((lof >= blof) && (lof < (blof + bcount))); } static buf_t * find_bp(ml_unit_t *ul, cirbuf_t *cb, off_t lof) { buf_t *bp; /* * find a buf that contains the offset lof */ rw_enter(&cb->cb_rwlock, RW_READER); bp = cb->cb_bp; do { if (bp->b_bcount && within_range(lof, bp->b_blkno, bp->b_bcount)) { makebusy(ul, bp); rw_exit(&cb->cb_rwlock); return (bp); } bp = bp->b_forw; } while (bp != cb->cb_bp); rw_exit(&cb->cb_rwlock); return (NULL); } static off_t find_read_lof(ml_unit_t *ul, cirbuf_t *cb, off_t lof) { buf_t *bp, *bpend; off_t rlof; /* * we mustn't: * o read past eol * o read past the tail * o read data that may be being written. */ rw_enter(&cb->cb_rwlock, RW_READER); bpend = bp = cb->cb_bp->b_forw; rlof = ul->un_tail_lof; do { if (bp->b_bcount) { rlof = dbtob(bp->b_blkno); break; } bp = bp->b_forw; } while (bp != bpend); rw_exit(&cb->cb_rwlock); if (lof <= rlof) /* lof is prior to the range represented by the write buf */ return (rlof); else /* lof follows the range represented by the write buf */ return ((off_t)ul->un_eol_lof); } static buf_t * get_read_bp(ml_unit_t *ul, off_t lof) { cirbuf_t *cb; buf_t *bp; off_t rlof; /* * retrieve as much data as possible from the incore buffers */ if ((bp = find_bp(ul, &ul->un_wrbuf, lof)) != NULL) { logstats.ls_lreadsinmem.value.ui64++; return (bp); } if ((bp = find_bp(ul, &ul->un_rdbuf, lof)) != NULL) { logstats.ls_lreadsinmem.value.ui64++; return (bp); } /* * steal the LRU buf */ cb = &ul->un_rdbuf; rw_enter(&cb->cb_rwlock, RW_WRITER); bp = cb->cb_bp->b_forw; makebusy(ul, bp); bp->b_flags = 0; bp->b_bcount = 0; cb->cb_bp = bp; rw_exit(&cb->cb_rwlock); /* * don't read past the tail or the end-of-log */ bp->b_blkno = btodb(lof); lof = dbtob(bp->b_blkno); rlof = find_read_lof(ul, &ul->un_wrbuf, lof); bp->b_bcount = MIN(bp->b_bufsize, rlof - lof); readlog(ul, bp); return (bp); } /* * NOTE: writers are single threaded thru the log layer. * This means we can safely reference and change the cb and bp fields * that ldl_read does not reference w/o holding the cb_rwlock or * the bp makebusy lock. */ static int extend_write_bp(ml_unit_t *ul, cirbuf_t *cb, buf_t *bp) { buf_t *bpforw = bp->b_forw; ASSERT(bp == cb->cb_bp && bp == cb->cb_dirty); /* * there is no `next' bp; do nothing */ if (bpforw == bp) return (0); /* * buffer space is not adjacent; do nothing */ if ((bp->b_un.b_addr + bp->b_bufsize) != bpforw->b_un.b_addr) return (0); /* * locking protocol requires giving up any bp locks before * acquiring cb_rwlock. This is okay because we hold * un_log_mutex. */ sema_v(&bp->b_sem); /* * lock out ldl_read */ rw_enter(&cb->cb_rwlock, RW_WRITER); /* * wait for current IO to finish w/next bp; if necessary */ makebusy(ul, bpforw); /* * free the next bp and steal its space */ bp->b_forw = bpforw->b_forw; bpforw->b_forw->b_back = bp; bp->b_bufsize += bpforw->b_bufsize; sema_v(&bpforw->b_sem); bpforw->b_forw = cb->cb_free; cb->cb_free = bpforw; makebusy(ul, bp); rw_exit(&cb->cb_rwlock); return (1); } static size_t storebuf(ml_unit_t *ul, buf_t *bp, caddr_t va, size_t nb) { size_t copy_nb; size_t nb_in_sec; sect_trailer_t *st; size_t nb_left = nb; cirbuf_t *cb = &ul->un_wrbuf; again: nb_in_sec = NB_LEFT_IN_SECTOR(bp->b_bcount); copy_nb = MIN(nb_left, nb_in_sec); ASSERT(copy_nb); bcopy(va, bp->b_un.b_addr + bp->b_bcount, copy_nb); bp->b_bcount += copy_nb; va += copy_nb; nb_left -= copy_nb; ul->un_tail_lof += copy_nb; if ((nb_in_sec -= copy_nb) == 0) { st = (sect_trailer_t *)(bp->b_un.b_addr + bp->b_bcount); st->st_tid = ul->un_logmap->mtm_tid; st->st_ident = ul->un_tail_ident++; bp->b_bcount += sizeof (sect_trailer_t); ul->un_tail_lof += sizeof (sect_trailer_t); /* * log wrapped; async write this bp */ if (ul->un_tail_lof == ul->un_eol_lof) { ul->un_tail_lof = ul->un_bol_lof; push_dirty_bp(ul, bp); return (nb - nb_left); } /* * out of bp space; get more or async write buf */ if (bp->b_bcount == bp->b_bufsize) { if (!extend_write_bp(ul, cb, bp)) { push_dirty_bp(ul, bp); return (nb - nb_left); } } } if (nb_left) goto again; sema_v(&bp->b_sem); return (nb); } static void fetchzeroes(caddr_t dst_va, offset_t dst_mof, ulong_t dst_nb, mapentry_t *me) { offset_t src_mof = me->me_mof; size_t src_nb = me->me_nb; if (src_mof > dst_mof) { ASSERT(src_mof < (dst_mof + dst_nb)); dst_va += (src_mof - dst_mof); dst_nb -= (src_mof - dst_mof); } else { ASSERT(dst_mof < (src_mof + src_nb)); src_nb -= (dst_mof - src_mof); } src_nb = MIN(src_nb, dst_nb); ASSERT(src_nb); bzero(dst_va, src_nb); } /* * dst_va == NULL means don't copy anything */ static ulong_t fetchbuf( ml_unit_t *ul, buf_t *bp, caddr_t dst_va, size_t dst_nb, off_t *dst_lofp) { caddr_t copy_va; size_t copy_nb; size_t nb_sec; off_t dst_lof = *dst_lofp; ulong_t sav_dst_nb = dst_nb; ulong_t src_nb = bp->b_bcount; off_t src_lof = dbtob(bp->b_blkno); off_t src_elof = src_lof + src_nb; caddr_t src_va = bp->b_un.b_addr; /* * copy from bp to dst_va */ while (dst_nb) { /* * compute address within bp */ copy_va = src_va + (dst_lof - src_lof); /* * adjust copy size to amount of data in bp */ copy_nb = MIN(dst_nb, src_elof - dst_lof); /* * adjust copy size to amount of data in sector */ nb_sec = NB_LEFT_IN_SECTOR(dst_lof); copy_nb = MIN(copy_nb, nb_sec); /* * dst_va == NULL means don't do copy (see logseek()) */ if (dst_va) { bcopy(copy_va, dst_va, copy_nb); dst_va += copy_nb; } dst_lof += copy_nb; dst_nb -= copy_nb; nb_sec -= copy_nb; /* * advance over sector trailer */ if (nb_sec == 0) dst_lof += sizeof (sect_trailer_t); /* * exhausted buffer * return current lof for next read */ if (dst_lof == src_elof) { sema_v(&bp->b_sem); if (dst_lof == ul->un_eol_lof) dst_lof = ul->un_bol_lof; *dst_lofp = dst_lof; return (sav_dst_nb - dst_nb); } } /* * copy complete - return current lof */ sema_v(&bp->b_sem); *dst_lofp = dst_lof; return (sav_dst_nb); } void ldl_round_commit(ml_unit_t *ul) { int wrapped; buf_t *bp; sect_trailer_t *st; size_t bcount; cirbuf_t *cb = &ul->un_wrbuf; /* * if nothing to write; then do nothing */ if ((bp = cb->cb_dirty) == NULL) return; makebusy(ul, bp); /* * round up to sector boundary and set new tail * don't readjust st_ident if buf is already rounded */ bcount = P2ROUNDUP(bp->b_bcount, DEV_BSIZE); if (bcount == bp->b_bcount) { sema_v(&bp->b_sem); return; } bp->b_bcount = bcount; ul->un_tail_lof = dbtob(bp->b_blkno) + bcount; wrapped = 0; if (ul->un_tail_lof == ul->un_eol_lof) { ul->un_tail_lof = ul->un_bol_lof; ++wrapped; } ASSERT(ul->un_tail_lof != ul->un_head_lof); /* * fix up the sector trailer */ /* LINTED */ st = (sect_trailer_t *) ((bp->b_un.b_addr + bcount) - sizeof (*st)); st->st_tid = ul->un_logmap->mtm_tid; st->st_ident = ul->un_tail_ident++; /* * if tail wrapped or we have exhausted this buffer * async write the buffer */ if (wrapped || bcount == bp->b_bufsize) push_dirty_bp(ul, bp); else sema_v(&bp->b_sem); } void ldl_push_commit(ml_unit_t *ul) { buf_t *bp; cirbuf_t *cb = &ul->un_wrbuf; /* * if nothing to write; then do nothing */ if ((bp = cb->cb_dirty) == NULL) return; makebusy(ul, bp); push_dirty_bp(ul, bp); } int ldl_need_commit(ml_unit_t *ul) { return (ul->un_resv > (ul->un_maxresv - (ul->un_maxresv>>2))); } int ldl_has_space(ml_unit_t *ul, mapentry_t *me) { off_t nfb; off_t nb; ASSERT(MUTEX_HELD(&ul->un_log_mutex)); /* * Add up the size used by the deltas * round nb up to a sector length plus an extra sector * w/o the extra sector we couldn't distinguish * a full log (head == tail) from an empty log (head == tail) */ for (nb = DEV_BSIZE; me; me = me->me_hash) { nb += sizeof (struct delta); if (me->me_dt != DT_CANCEL) nb += me->me_nb; } nb = P2ROUNDUP(nb, DEV_BSIZE); if (ul->un_head_lof <= ul->un_tail_lof) nfb = (ul->un_head_lof - ul->un_bol_lof) + (ul->un_eol_lof - ul->un_tail_lof); else nfb = ul->un_head_lof - ul->un_tail_lof; return (nb < nfb); } void ldl_write(ml_unit_t *ul, caddr_t bufp, offset_t bufmof, struct mapentry *me) { buf_t *bp; caddr_t va; size_t nb; size_t actual; ASSERT(MUTEX_HELD(&ul->un_log_mutex)); /* Write the delta */ nb = sizeof (struct delta); va = (caddr_t)&me->me_delta; bp = get_write_bp(ul); while (nb) { if (ul->un_flags & LDL_ERROR) { sema_v(&bp->b_sem); return; } actual = storebuf(ul, bp, va, nb); ASSERT(actual); va += actual; nb -= actual; if (nb) bp = get_write_bp(ul); } /* If a commit, cancel, or 0's; we're almost done */ switch (me->me_dt) { case DT_COMMIT: case DT_CANCEL: case DT_ABZERO: /* roll needs to know where the next delta will go */ me->me_lof = ul->un_tail_lof; return; default: break; } /* Now write the data */ ASSERT(me->me_nb != 0); nb = me->me_nb; va = (me->me_mof - bufmof) + bufp; bp = get_write_bp(ul); /* Save where we will put the data */ me->me_lof = ul->un_tail_lof; while (nb) { if (ul->un_flags & LDL_ERROR) { sema_v(&bp->b_sem); return; } actual = storebuf(ul, bp, va, nb); ASSERT(actual); va += actual; nb -= actual; if (nb) bp = get_write_bp(ul); } } void ldl_waito(ml_unit_t *ul) { buf_t *bp; cirbuf_t *cb = &ul->un_wrbuf; rw_enter(&cb->cb_rwlock, RW_WRITER); /* * wait on them */ bp = cb->cb_bp; do { if ((bp->b_flags & B_DONE) == 0) { makebusy(ul, bp); sema_v(&bp->b_sem); } bp = bp->b_forw; } while (bp != cb->cb_bp); rw_exit(&cb->cb_rwlock); } /* * seek nb bytes from location lof */ static int logseek(ml_unit_t *ul, off_t lof, size_t nb, off_t *lofp) { buf_t *bp; ulong_t actual; while (nb) { bp = get_read_bp(ul, lof); if (bp->b_flags & B_ERROR) { sema_v(&bp->b_sem); return (EIO); } actual = fetchbuf(ul, bp, NULL, nb, &lof); ASSERT(actual); nb -= actual; } *lofp = lof; ASSERT(nb == 0); return (0); } int ldl_read( ml_unit_t *ul, /* Log unit */ caddr_t va, /* address of buffer to read into */ offset_t mof, /* mof of buffer */ off_t nb, /* length of buffer */ mapentry_t *me) /* Map entry list */ { buf_t *bp; crb_t *crb; caddr_t rva; /* address to read into */ size_t rnb; /* # of bytes to read */ off_t lof; /* log device offset to read from */ off_t skip; ulong_t actual; int error; caddr_t eva = va + nb; /* end of buffer */ for (; me; me = me->me_agenext) { ASSERT(me->me_dt != DT_CANCEL); /* * check for an cached roll buffer */ crb = me->me_crb; if (crb) { if (mof > crb->c_mof) { /* * This mapentry overlaps with the beginning of * the supplied buffer */ skip = mof - crb->c_mof; bcopy(crb->c_buf + skip, va, MIN(nb, crb->c_nb - skip)); } else { /* * This mapentry starts at or after * the supplied buffer. */ skip = crb->c_mof - mof; bcopy(crb->c_buf, va + skip, MIN(crb->c_nb, nb - skip)); } logstats.ls_lreadsinmem.value.ui64++; continue; } /* * check for a delta full of zeroes - there's no log data */ if (me->me_dt == DT_ABZERO) { fetchzeroes(va, mof, nb, me); continue; } if (mof > me->me_mof) { rnb = (size_t)(mof - me->me_mof); error = logseek(ul, me->me_lof, rnb, &lof); if (error) return (EIO); rva = va; rnb = me->me_nb - rnb; rnb = ((rva + rnb) > eva) ? eva - rva : rnb; } else { lof = me->me_lof; rva = (me->me_mof - mof) + va; rnb = ((rva + me->me_nb) > eva) ? eva - rva : me->me_nb; } while (rnb) { bp = get_read_bp(ul, lof); if (bp->b_flags & B_ERROR) { sema_v(&bp->b_sem); return (EIO); } ASSERT(((me->me_flags & ME_ROLL) == 0) || (bp != ul->un_wrbuf.cb_dirty)); actual = fetchbuf(ul, bp, rva, rnb, &lof); ASSERT(actual); rva += actual; rnb -= actual; } } return (0); } void ldl_savestate(ml_unit_t *ul) { int error; buf_t *bp = ul->un_bp; ml_odunit_t *ud = (void *)bp->b_un.b_addr; ml_odunit_t *ud2 = (void *)(bp->b_un.b_addr + DEV_BSIZE); #if DEBUG /* * Scan test is running; don't update intermediate state */ if (ul->un_logmap && ul->un_logmap->mtm_trimlof) return; #endif /* DEBUG */ mutex_enter(&ul->un_state_mutex); bcopy(&ul->un_ondisk, ud, sizeof (*ud)); ud->od_chksum = ud->od_head_ident + ud->od_tail_ident; bcopy(ud, ud2, sizeof (*ud)); /* If a snapshot is enabled write through the shapshot driver. */ if (ul->un_ufsvfs->vfs_snapshot) UFS_BWRITE2(ul->un_ufsvfs, bp); else BWRITE2(bp); logstats.ls_ldlwrites.value.ui64++; error = bp->b_flags & B_ERROR; mutex_exit(&ul->un_state_mutex); if (error) ldl_seterror(ul, "Error writing ufs log state"); } /* * The head will be set to (new_lof - header) since ldl_sethead is * called with the new_lof of the data portion of a delta. */ void ldl_sethead(ml_unit_t *ul, off_t data_lof, uint32_t tid) { off_t nb; off_t new_lof; uint32_t new_ident; daddr_t beg_blkno; daddr_t end_blkno; ASSERT(MUTEX_HELD(&ul->un_log_mutex)); if (data_lof == -1) { /* log is empty */ new_ident = lufs_hd_genid(ul); new_lof = ul->un_tail_lof; } else { /* compute header's lof */ new_ident = ul->un_head_ident; new_lof = data_lof - sizeof (struct delta); /* whoops, header spans sectors; subtract out sector trailer */ if (btodb(new_lof) != btodb(data_lof)) new_lof -= sizeof (sect_trailer_t); /* whoops, header wrapped the log; go to last sector */ if (new_lof < ul->un_bol_lof) { /* sector offset */ new_lof -= dbtob(btodb(new_lof)); /* add to last sector's lof */ new_lof += (ul->un_eol_lof - DEV_BSIZE); } ul->un_head_tid = tid; } /* * check for nop */ if (new_lof == ul->un_head_lof) return; /* * invalidate the affected bufs and calculate new ident */ if (new_lof > ul->un_head_lof) { nb = new_lof - ul->un_head_lof; inval_range(ul, &ul->un_wrbuf, ul->un_head_lof, nb); inval_range(ul, &ul->un_rdbuf, ul->un_head_lof, nb); end_blkno = btodb(new_lof); beg_blkno = btodb(ul->un_head_lof); new_ident += (end_blkno - beg_blkno); } else { nb = ul->un_eol_lof - ul->un_head_lof; inval_range(ul, &ul->un_wrbuf, ul->un_head_lof, nb); inval_range(ul, &ul->un_rdbuf, ul->un_head_lof, nb); end_blkno = btodb(ul->un_eol_lof); beg_blkno = btodb(ul->un_head_lof); new_ident += (end_blkno - beg_blkno); nb = new_lof - ul->un_bol_lof; inval_range(ul, &ul->un_wrbuf, ul->un_bol_lof, nb); inval_range(ul, &ul->un_rdbuf, ul->un_bol_lof, nb); end_blkno = btodb(new_lof); beg_blkno = btodb(ul->un_bol_lof); new_ident += (end_blkno - beg_blkno); } /* * don't update the head if there has been an error */ if (ul->un_flags & LDL_ERROR) return; /* Fix up the head and ident */ ASSERT(new_lof >= ul->un_bol_lof); ul->un_head_lof = new_lof; ul->un_head_ident = new_ident; if (data_lof == -1) { ul->un_tail_ident = ul->un_head_ident; } /* Commit to the database */ ldl_savestate(ul); ASSERT(((ul->un_logmap->mtm_debug & MT_SCAN) == 0) || ldl_sethead_debug(ul)); } /* * The tail will be set to the sector following lof+nb * lof + nb == size of the last delta + commit record * this function is called once after the log scan has completed. */ void ldl_settail(ml_unit_t *ul, off_t lof, size_t nb) { off_t new_lof; uint32_t new_ident; daddr_t beg_blkno; daddr_t end_blkno; ASSERT(MUTEX_HELD(&ul->un_log_mutex)); if (lof == -1) { ul->un_tail_lof = dbtob(btodb(ul->un_head_lof)); ul->un_head_lof = ul->un_tail_lof; ul->un_head_ident = lufs_hd_genid(ul); ul->un_tail_ident = ul->un_head_ident; /* Commit to the database */ ldl_savestate(ul); return; } /* * new_lof is the offset of the sector following the last commit */ (void) logseek(ul, lof, nb, &new_lof); ASSERT(new_lof != dbtob(btodb(ul->un_head_lof))); /* * calculate new ident */ if (new_lof > ul->un_head_lof) { end_blkno = btodb(new_lof); beg_blkno = btodb(ul->un_head_lof); new_ident = ul->un_head_ident + (end_blkno - beg_blkno); } else { end_blkno = btodb(ul->un_eol_lof); beg_blkno = btodb(ul->un_head_lof); new_ident = ul->un_head_ident + (end_blkno - beg_blkno); end_blkno = btodb(new_lof); beg_blkno = btodb(ul->un_bol_lof); new_ident += (end_blkno - beg_blkno); } /* Fix up the tail and ident */ ul->un_tail_lof = new_lof; ul->un_tail_ident = new_ident; /* Commit to the database */ ldl_savestate(ul); } /* * LOGSCAN STUFF */ static int ldl_logscan_ident(ml_unit_t *ul, buf_t *bp, off_t lof) { ulong_t ident; size_t nblk, i; sect_trailer_t *st; /* * compute ident for first sector in the buffer */ ident = ul->un_head_ident; if (bp->b_blkno >= btodb(ul->un_head_lof)) { ident += (bp->b_blkno - btodb(ul->un_head_lof)); } else { ident += (btodb(ul->un_eol_lof) - btodb(ul->un_head_lof)); ident += (bp->b_blkno - btodb(ul->un_bol_lof)); } /* * truncate the buffer down to the last valid sector */ nblk = btodb(bp->b_bcount); bp->b_bcount = 0; /* LINTED */ st = (sect_trailer_t *)(bp->b_un.b_addr + LDL_USABLE_BSIZE); for (i = 0; i < nblk; ++i) { if (st->st_ident != ident) break; /* remember last valid tid for ldl_logscan_error() */ ul->un_tid = st->st_tid; /* LINTED */ st = (sect_trailer_t *)(((caddr_t)st) + DEV_BSIZE); ++ident; bp->b_bcount += DEV_BSIZE; } /* * make sure that lof is still within range */ return (within_range(lof, bp->b_blkno, bp->b_bcount)); } ulong_t ldl_logscan_nbcommit(off_t lof) { /* * lof is the offset following the commit header. However, * if the commit header fell on the end-of-sector, then lof * has already been advanced to the beginning of the next * sector. So do nothing. Otherwise, return the remaining * bytes in the sector. */ if ((lof & (DEV_BSIZE - 1)) == 0) return (0); return (NB_LEFT_IN_SECTOR(lof)); } int ldl_logscan_read(ml_unit_t *ul, off_t *lofp, size_t nb, caddr_t va) { buf_t *bp; ulong_t actual; ASSERT(ul->un_head_lof != ul->un_tail_lof); /* * Check the log data doesn't go out of bounds */ if (ul->un_head_lof < ul->un_tail_lof) { if (!WITHIN(*lofp, nb, ul->un_head_lof, (ul->un_tail_lof - ul->un_head_lof))) { return (EIO); } } else { if (OVERLAP(*lofp, nb, ul->un_tail_lof, (ul->un_head_lof - ul->un_tail_lof))) { return (EIO); } } while (nb) { bp = get_read_bp(ul, *lofp); if (bp->b_flags & B_ERROR) { sema_v(&bp->b_sem); return (EIO); } /* * out-of-seq idents means partial transaction * panic, non-corrupting powerfail, ... */ if (!ldl_logscan_ident(ul, bp, *lofp)) { sema_v(&bp->b_sem); return (EIO); } /* * copy the header into the caller's buf */ actual = fetchbuf(ul, bp, va, nb, lofp); if (va) va += actual; nb -= actual; } return (0); } void ldl_logscan_begin(ml_unit_t *ul) { size_t bufsize; ASSERT(ul->un_wrbuf.cb_dirty == NULL); /* * logscan has begun */ ul->un_flags |= LDL_SCAN; /* * reset the circular bufs */ bufsize = ldl_bufsize(ul); alloc_rdbuf(&ul->un_rdbuf, bufsize, bufsize); alloc_wrbuf(&ul->un_wrbuf, bufsize); /* * set the tail to reflect a full log */ ul->un_tail_lof = dbtob(btodb(ul->un_head_lof)) - DEV_BSIZE; if (ul->un_tail_lof < ul->un_bol_lof) ul->un_tail_lof = ul->un_eol_lof - DEV_BSIZE; if (ul->un_tail_lof >= ul->un_eol_lof) ul->un_tail_lof = ul->un_bol_lof; /* * un_tid is used during error processing; it is initialized to * the tid of the delta at un_head_lof; */ ul->un_tid = ul->un_head_tid; } void ldl_logscan_end(ml_unit_t *ul) { size_t bufsize; /* * reset the circular bufs */ bufsize = ldl_bufsize(ul); alloc_rdbuf(&ul->un_rdbuf, MAPBLOCKSIZE, MAPBLOCKSIZE); alloc_wrbuf(&ul->un_wrbuf, bufsize); /* * Done w/scan */ ul->un_flags &= ~LDL_SCAN; } int ldl_need_roll(ml_unit_t *ul) { off_t busybytes; off_t head; off_t tail; off_t bol; off_t eol; off_t nb; /* * snapshot the log state */ head = ul->un_head_lof; tail = ul->un_tail_lof; bol = ul->un_bol_lof; eol = ul->un_eol_lof; nb = ul->un_logsize; /* * compute number of busy (inuse) bytes */ if (head <= tail) busybytes = tail - head; else busybytes = (eol - head) + (tail - bol); /* * return TRUE if > 75% full */ return (busybytes > (nb - (nb >> 2))); } void ldl_seterror(ml_unit_t *ul, char *why) { /* * already in error state; do nothing */ if (ul->un_flags & LDL_ERROR) return; ul->un_flags |= LDL_ERROR; /* incore */ ul->un_badlog = 1; /* ondisk (cleared by fsck) */ /* * Commit to state sectors */ uniqtime(&ul->un_timestamp); ldl_savestate(ul); /* Pretty print */ cmn_err(CE_WARN, "%s", why); cmn_err(CE_WARN, "ufs log for %s changed state to Error", ul->un_ufsvfs->vfs_fs->fs_fsmnt); cmn_err(CE_WARN, "Please umount(1M) %s and run fsck(1M)", ul->un_ufsvfs->vfs_fs->fs_fsmnt); /* * If we aren't in the middle of scan (aka snarf); tell ufs * to hard lock itself. */ if ((ul->un_flags & LDL_SCAN) == 0) ufs_trans_onerror(); } size_t ldl_bufsize(ml_unit_t *ul) { size_t bufsize; extern uint32_t ldl_minbufsize; /* * initial guess is the maxtransfer value for this log device * increase if too small * decrease if too large */ bufsize = dbtob(btod(ul->un_maxtransfer)); if (bufsize < ldl_minbufsize) bufsize = ldl_minbufsize; if (bufsize > maxphys) bufsize = maxphys; if (bufsize > ul->un_maxtransfer) bufsize = ul->un_maxtransfer; return (bufsize); }