// SPDX-License-Identifier: GPL-2.0 /* * Copyright (c) 2003, 2010, Oracle and/or its affiliates. All rights reserved. * Use is subject to license terms. * * Copyright (c) 2012, 2017, Intel Corporation. */ /* * This file is part of Lustre, http://www.lustre.org/ * * Low level llog routines on top of OSD API * * This file provides set of methods for llog operations on top of * dt_device. It contains all supported llog_operations interfaces and * supplimental functions. * * Author: Alexey Zhuravlev * Author: Mikhail Pershin */ #define DEBUG_SUBSYSTEM S_LOG #include #include #include #include #include #include #include "llog_internal.h" #include "local_storage.h" /** * Implementation of the llog_operations::lop_declare_create * * This function is a wrapper over local_storage API function * local_object_declare_create(). * * \param[in] env execution environment * \param[in] los local_storage for bottom storage device * \param[in] o dt_object to create * \param[in] th current transaction handle * * \retval 0 on successful declaration of the new object * \retval negative error if declaration was failed */ static int llog_osd_declare_new_object(const struct lu_env *env, struct local_oid_storage *los, struct dt_object *o, struct thandle *th) { struct llog_thread_info *lgi = llog_info(env); lgi->lgi_attr.la_valid = LA_MODE; lgi->lgi_attr.la_mode = S_IFREG | S_IRUGO | S_IWUSR; lgi->lgi_dof.dof_type = dt_mode_to_dft(S_IFREG); return local_object_declare_create(env, los, o, &lgi->lgi_attr, &lgi->lgi_dof, th); } /** * Implementation of the llog_operations::lop_create * * This function is a wrapper over local_storage API function * local_object_create(). * * \param[in] env execution environment * \param[in] los local_storage for bottom storage device * \param[in] o dt_object to create * \param[in] th current transaction handle * * \retval 0 on successful creation of the new object * \retval negative error if creation was failed */ static int llog_osd_create_new_object(const struct lu_env *env, struct local_oid_storage *los, struct dt_object *o, struct thandle *th) { struct llog_thread_info *lgi = llog_info(env); lgi->lgi_attr.la_valid = LA_MODE | LA_CTIME | LA_MTIME | LA_ATIME; lgi->lgi_attr.la_mode = S_IFREG | S_IRUGO | S_IWUSR; lgi->lgi_attr.la_ctime = lgi->lgi_attr.la_mtime = lgi->lgi_attr.la_atime = ktime_get_real_seconds(); lgi->lgi_dof.dof_type = dt_mode_to_dft(S_IFREG); return local_object_create(env, los, o, &lgi->lgi_attr, &lgi->lgi_dof, th); } /** * Implementation of the llog_operations::lop_exist * * This function checks that llog exists on storage. * * \param[in] handle llog handle of the current llog * * \retval true if llog object exists and is not just destroyed * \retval false if llog doesn't exist or just destroyed */ static int llog_osd_exist(struct llog_handle *handle) { LASSERT(handle->lgh_obj); return dt_object_exists(handle->lgh_obj) && !handle->lgh_destroyed; } /** * Write a padding record to the llog * * This function writes a padding record to the end of llog. That may * be needed if llog contains records of variable size, e.g. config logs * or changelogs. * The padding record just aligns llog to the llog chunk_size boundary if * the current record doesn't fit in the remaining space. * * It allocates full length to avoid two separate writes for header and tail. * Such 2-steps scheme needs extra protection and complex error handling. * * \param[in] env execution environment * \param[in] o dt_object to create * \param[in,out] off pointer to the padding start offset * \param[in] len padding length * \param[in] index index of the padding record in a llog * \param[in] th current transaction handle * * \retval 0 on successful padding write * \retval negative error if write failed */ static int llog_osd_pad(const struct lu_env *env, struct dt_object *o, loff_t *off, int len, int index, struct thandle *th) { struct llog_thread_info *lgi = llog_info(env); struct llog_rec_hdr *rec; struct llog_rec_tail *tail; int rc; ENTRY; LASSERT(th); LASSERT(off); LASSERT(len >= LLOG_MIN_REC_SIZE && (len & 0x7) == 0); OBD_ALLOC(rec, len); if (rec == NULL) RETURN(-ENOMEM); rec->lrh_len = len; rec->lrh_index = index; rec->lrh_type = LLOG_PAD_MAGIC; tail = llog_get_rec_tail(rec); tail->lrt_len = len; tail->lrt_index = index; lgi->lgi_buf.lb_buf = rec; lgi->lgi_buf.lb_len = len; rc = dt_record_write(env, o, &lgi->lgi_buf, off, th); if (rc) CERROR("%s: error writing padding record: rc = %d\n", o->do_lu.lo_dev->ld_obd->obd_name, rc); OBD_FREE(rec, len); RETURN(rc); } /** * Implementation of the llog_operations::lop_read_header * * This function reads the current llog header from the bottom storage * device. * * \param[in] env execution environment * \param[in] handle llog handle of the current llog * * \retval 0 on successful header read * \retval negative error if read failed */ static int llog_osd_read_header(const struct lu_env *env, struct llog_handle *handle) { struct llog_rec_hdr *llh_hdr; struct dt_object *o; struct llog_thread_info *lgi; enum llog_flag flags; int rc; ENTRY; o = handle->lgh_obj; LASSERT(o); lgi = llog_info(env); dt_read_lock(env, o, 0); rc = dt_attr_get(env, o, &lgi->lgi_attr); if (rc) GOTO(unlock, rc = -EIO); LASSERT(lgi->lgi_attr.la_valid & LA_SIZE); if (lgi->lgi_attr.la_size == 0) { CDEBUG(D_HA, "not reading header from 0-byte log\n"); GOTO(unlock, rc = LLOG_EEMPTY); } flags = handle->lgh_hdr->llh_flags; lgi->lgi_off = 0; lgi->lgi_buf.lb_buf = handle->lgh_hdr; lgi->lgi_buf.lb_len = handle->lgh_hdr_size; rc = dt_read(env, o, &lgi->lgi_buf, &lgi->lgi_off); llh_hdr = &handle->lgh_hdr->llh_hdr; if (rc < 0) { CERROR("%s: can't read llog "DFID" header: rc = %d\n", o->do_lu.lo_dev->ld_obd->obd_name, PFID(lu_object_fid(&o->do_lu)), rc); GOTO(unlock, rc = -EIO); } if (rc < sizeof(*llh_hdr) || rc < LLOG_MIN_CHUNK_SIZE) { /* consider short header as non-initialized llog */ CERROR("%s: llog "DFID" header too small: rc = %d\n", o->do_lu.lo_dev->ld_obd->obd_name, PFID(lu_object_fid(&o->do_lu)), rc); /* caller flags to be initialized */ handle->lgh_hdr->llh_flags = flags; GOTO(unlock, rc = LLOG_EEMPTY); } if (LLOG_REC_HDR_NEEDS_SWABBING(llh_hdr)) lustre_swab_llog_hdr(handle->lgh_hdr); if (llh_hdr->lrh_type != LLOG_HDR_MAGIC) { CERROR("%s: bad log %s "DFID" header magic: %#x " "(expected %#x)\n", o->do_lu.lo_dev->ld_obd->obd_name, handle->lgh_name ? handle->lgh_name : "", PFID(lu_object_fid(&o->do_lu)), llh_hdr->lrh_type, LLOG_HDR_MAGIC); GOTO(unlock, rc = -EINVAL); } else if (llh_hdr->lrh_len < LLOG_MIN_CHUNK_SIZE || llh_hdr->lrh_len > handle->lgh_hdr_size) { CERROR("%s: incorrectly sized log %s "DFID" header: " "%#x (expected at least %#x)\n" "you may need to re-run lconf --write_conf.\n", o->do_lu.lo_dev->ld_obd->obd_name, handle->lgh_name ? handle->lgh_name : "", PFID(lu_object_fid(&o->do_lu)), llh_hdr->lrh_len, LLOG_MIN_CHUNK_SIZE); GOTO(unlock, rc = -EINVAL); } else if (LLOG_HDR_TAIL(handle->lgh_hdr)->lrt_index > LLOG_HDR_BITMAP_SIZE(handle->lgh_hdr) || LLOG_HDR_TAIL(handle->lgh_hdr)->lrt_len != llh_hdr->lrh_len) { CERROR("%s: incorrectly sized log %s "DFID" tailer: " "%#x : rc = %d\n", o->do_lu.lo_dev->ld_obd->obd_name, handle->lgh_name ? handle->lgh_name : "", PFID(lu_object_fid(&o->do_lu)), LLOG_HDR_TAIL(handle->lgh_hdr)->lrt_len, -EIO); GOTO(unlock, rc = -EINVAL); } handle->lgh_hdr->llh_flags |= (flags & LLOG_F_EXT_MASK); handle->lgh_last_idx = LLOG_HDR_TAIL(handle->lgh_hdr)->lrt_index; rc = 0; unlock: dt_read_unlock(env, o); RETURN(rc); } /** * Implementation of the llog_operations::lop_declare_write * * This function declares the new record write. * * \param[in] env execution environment * \param[in] loghandle llog handle of the current llog * \param[in] rec llog record header. This is a real header of the full * llog record to write. This is the beginning of buffer * to write, the length of buffer is stored in * \a rec::lrh_len * \param[in] idx index of the llog record. If \a idx == -1 then this is * append case, otherwise \a idx is the index of record * to modify * \param[in] th current transaction handle * * \retval 0 on successful declaration * \retval negative error if declaration failed */ static int llog_osd_declare_write_rec(const struct lu_env *env, struct llog_handle *loghandle, struct llog_rec_hdr *rec, int idx, struct thandle *th) { struct llog_thread_info *lgi = llog_info(env); __u32 chunk_size; struct dt_object *o; int rc; ENTRY; LASSERT(env); LASSERT(th); LASSERT(loghandle); LASSERT(rec); LASSERT(rec->lrh_len <= loghandle->lgh_ctxt->loc_chunk_size); o = loghandle->lgh_obj; LASSERT(o); chunk_size = loghandle->lgh_ctxt->loc_chunk_size; lgi->lgi_buf.lb_len = chunk_size; lgi->lgi_buf.lb_buf = NULL; /* each time we update header */ rc = dt_declare_record_write(env, o, &lgi->lgi_buf, 0, th); if (rc || idx == 0) /* if error or just header */ RETURN(rc); /** * the pad record can be inserted so take into account double * record size: pad and the actual record into a new block */ lgi->lgi_buf.lb_len = rec->lrh_len * 2; lgi->lgi_buf.lb_buf = NULL; /* XXX: implement declared window or multi-chunks approach */ rc = dt_declare_record_write(env, o, &lgi->lgi_buf, -1, th); RETURN(rc); } /** * Implementation of the llog_operations::lop_write * * This function writes the new record in the llog or modify the existed one. * * \param[in] env execution environment * \param[in] loghandle llog handle of the current llog * \param[in] rec llog record header. This is a real header of * the full llog record to write. This is * the beginning of buffer to write, the length * of buffer is stored in \a rec::lrh_len * \param[in,out] reccookie pointer to the cookie to return back if needed. * It is used for further cancel of this llog * record. * \param[in] idx index of the llog record. If \a idx == -1 then * this is append case, otherwise \a idx is * the index of record to modify * \param[in] th current transaction handle * * \retval 0 on successful write && \a reccookie == NULL * 1 on successful write && \a reccookie != NULL * \retval negative error if write failed */ static int llog_osd_write_rec(const struct lu_env *env, struct llog_handle *loghandle, struct llog_rec_hdr *rec, struct llog_cookie *reccookie, int idx, struct thandle *th) { struct llog_thread_info *lgi = llog_info(env); struct llog_log_hdr *llh; int reclen = rec->lrh_len; int index, rc; struct llog_rec_tail *lrt; struct dt_object *o; __u32 chunk_size; size_t left; __u32 orig_last_idx; bool pad = false; ENTRY; llh = loghandle->lgh_hdr; o = loghandle->lgh_obj; chunk_size = llh->llh_hdr.lrh_len; CDEBUG(D_OTHER, "new record %x to "DFID"\n", rec->lrh_type, PFID(lu_object_fid(&o->do_lu))); if (!llog_osd_exist(loghandle)) RETURN(-ENOENT); /* record length should not bigger than */ if (reclen > loghandle->lgh_hdr->llh_hdr.lrh_len) RETURN(-E2BIG); /* sanity check for fixed-records llog */ if (idx != LLOG_HEADER_IDX && (llh->llh_flags & LLOG_F_IS_FIXSIZE)) { LASSERT(llh->llh_size != 0); LASSERT(llh->llh_size == reclen); } /* return error if osp object is stale */ if (idx != LLOG_HEADER_IDX && dt_object_stale(o)) RETURN(-ESTALE); rc = dt_attr_get(env, o, &lgi->lgi_attr); if (rc) RETURN(rc); /** * The modification case. * If idx set then the record with that index must be modified. * There are three cases possible: * 1) the common case is the llog header update (idx == 0) * 2) the llog record modification during llog process. * This is indicated by the \a loghandle::lgh_cur_idx > 0. * In that case the \a loghandle::lgh_cur_offset * 3) otherwise this is assumed that llog consist of records of * fixed size, i.e. catalog. The llog header must has llh_size * field equal to record size. The record offset is calculated * just by /a idx value * * During modification we don't need extra header update because * the bitmap and record count are not changed. The record header * and tail remains the same too. */ if (idx != LLOG_NEXT_IDX) { /* llog can be empty only when first record is being written */ LASSERT(ergo(idx > 0, lgi->lgi_attr.la_size > 0)); if (!test_bit_le(idx, LLOG_HDR_BITMAP(llh))) { CERROR("%s: modify unset record %u\n", o->do_lu.lo_dev->ld_obd->obd_name, idx); RETURN(-ENOENT); } if (idx != rec->lrh_index) { CERROR("%s: modify index mismatch %d %u\n", o->do_lu.lo_dev->ld_obd->obd_name, idx, rec->lrh_index); RETURN(-EFAULT); } if (idx == LLOG_HEADER_IDX) { /* llog header update */ __u32 *bitmap = LLOG_HDR_BITMAP(llh); lgi->lgi_off = 0; /* If it does not indicate the bitmap index * (reccookie == NULL), then it means update * the whole update header. Otherwise only * update header and bits needs to be updated, * and in DNE cases, it will signaficantly * shrink the RPC size. * see distribute_txn_cancel_records()*/ if (reccookie == NULL) { lgi->lgi_buf.lb_len = reclen; lgi->lgi_buf.lb_buf = rec; rc = dt_record_write(env, o, &lgi->lgi_buf, &lgi->lgi_off, th); RETURN(rc); } /* update the header */ lgi->lgi_buf.lb_len = llh->llh_bitmap_offset; lgi->lgi_buf.lb_buf = llh; rc = dt_record_write(env, o, &lgi->lgi_buf, &lgi->lgi_off, th); if (rc != 0) RETURN(rc); /* update the bitmap */ index = reccookie->lgc_index; lgi->lgi_off = llh->llh_bitmap_offset + (index / (sizeof(*bitmap) * 8)) * sizeof(*bitmap); lgi->lgi_buf.lb_len = sizeof(*bitmap); lgi->lgi_buf.lb_buf = &bitmap[index/(sizeof(*bitmap)*8)]; rc = dt_record_write(env, o, &lgi->lgi_buf, &lgi->lgi_off, th); RETURN(rc); } else if (llh->llh_flags & LLOG_F_IS_FIXSIZE) { lgi->lgi_off = llh->llh_hdr.lrh_len + (idx - 1) * reclen; } else if (reccookie != NULL && reccookie->lgc_index > 0) { /** * The lgc_offset can be used only if index is * the same. */ if (idx != reccookie->lgc_index) { CERROR("%s: modify index mismatch %d %d\n", o->do_lu.lo_dev->ld_obd->obd_name, idx, reccookie->lgc_index); RETURN(-EFAULT); } lgi->lgi_off = reccookie->lgc_offset; CDEBUG(D_OTHER, "modify record "DFID": idx:%u, " "len:%u offset %llu\n", PLOGID(&loghandle->lgh_id), idx, rec->lrh_len, (long long)lgi->lgi_off); } else { /* This can be result of lgh_cur_idx is not set during * llog processing or llh_size is not set to proper * record size for fixed records llog. Therefore it is * impossible to get record offset. */ CERROR("%s: can't get record offset, idx:%d, " "len:%u.\n", o->do_lu.lo_dev->ld_obd->obd_name, idx, rec->lrh_len); RETURN(-EFAULT); } /* update only data, header and tail remain the same */ lgi->lgi_off += sizeof(struct llog_rec_hdr); lgi->lgi_buf.lb_len = REC_DATA_LEN(rec); lgi->lgi_buf.lb_buf = REC_DATA(rec); dt_write_lock(env, o, 0); rc = dt_record_write(env, o, &lgi->lgi_buf, &lgi->lgi_off, th); if (rc == 0 && reccookie) { reccookie->lgc_lgl = loghandle->lgh_id; reccookie->lgc_index = idx; rc = 1; } dt_write_unlock(env, o); RETURN(rc); } /** * The append case. * The most common case of using llog. The new index is assigned to * the new record, new bit is set in llog bitmap and llog count is * incremented. * * Make sure that records don't cross a chunk boundary, so we can * process them page-at-a-time if needed. If it will cross a chunk * boundary, write in a fake (but referenced) entry to pad the chunk. */ /* simulate ENOSPC when new plain llog is being added to the * catalog */ if (CFS_FAIL_CHECK(OBD_FAIL_MDS_LLOG_CREATE_FAILED2) && llh->llh_flags & LLOG_F_IS_CAT) RETURN(-ENOSPC); LASSERT(lgi->lgi_attr.la_valid & LA_SIZE); orig_last_idx = loghandle->lgh_last_idx; lgi->lgi_off = lgi->lgi_attr.la_size; if (loghandle->lgh_max_size > 0 && lgi->lgi_off >= loghandle->lgh_max_size) { CDEBUG(D_OTHER, "llog is getting too large (%u >= %u) at %u " DFID"\n", (unsigned)lgi->lgi_off, loghandle->lgh_max_size, (int)loghandle->lgh_last_idx, PLOGID(&loghandle->lgh_id)); /* this is to signal that this llog is full */ loghandle->lgh_last_idx = llog_max_idx(llh); RETURN(-ENOSPC); } left = chunk_size - (lgi->lgi_off & (chunk_size - 1)); /* NOTE: padding is a record, but no bit is set */ if (left != 0 && left != reclen && left < (reclen + LLOG_MIN_REC_SIZE)) { index = loghandle->lgh_last_idx + 1; rc = llog_osd_pad(env, o, &lgi->lgi_off, left, index, th); if (rc) RETURN(rc); loghandle->lgh_last_idx++; /* for pad rec */ pad = true; } /* if it's the last idx in log file, then return -ENOSPC * or wrap around if a catalog */ if (llog_is_full(loghandle)) { if (llh->llh_flags & LLOG_F_IS_CAT) loghandle->lgh_last_idx = 0; else RETURN(-ENOSPC); } down_write(&loghandle->lgh_last_sem); /* increment the last_idx along with llh_tail index, they should * be equal for a llog lifetime */ if (CFS_FAIL_CHECK(OBD_FAIL_LLOG_ADD_GAP) && --cfs_fail_val == 0) loghandle->lgh_last_idx++; loghandle->lgh_last_idx++; index = loghandle->lgh_last_idx; LLOG_HDR_TAIL(llh)->lrt_index = index; /** * NB: the caller should make sure only 1 process access * the lgh_last_idx, e.g. append should be exclusive. * Otherwise it might hit the assert. */ LASSERT(index < LLOG_HDR_BITMAP_SIZE(llh)); rec->lrh_index = index; lrt = llog_get_rec_tail(rec); lrt->lrt_len = rec->lrh_len; lrt->lrt_index = rec->lrh_index; /* the lgh_hdr_lock protects llog header data from concurrent * update/cancel, the llh_count and llh_bitmap are protected */ spin_lock(&loghandle->lgh_hdr_lock); rc = __test_and_set_bit_le(index, LLOG_HDR_BITMAP(llh)); LASSERTF(!rc, "%s: index %u already set in llog bitmap "DFID"\n", o->do_lu.lo_dev->ld_obd->obd_name, index, PFID(lu_object_fid(&o->do_lu))); llh->llh_count++; if (!(llh->llh_flags & LLOG_F_IS_FIXSIZE)) { /* Update the minimum size of the llog record */ if (llh->llh_size == 0) llh->llh_size = reclen; else if (reclen < llh->llh_size) llh->llh_size = reclen; } spin_unlock(&loghandle->lgh_hdr_lock); /* * readers (e.g. llog_osd_read_header()) must not find * llog updated partially (bitmap/counter claims record, * but a record hasn't been added yet) as this results * in EIO. */ dt_write_lock(env, o, 0); if (lgi->lgi_attr.la_size == 0) { lgi->lgi_off = 0; lgi->lgi_buf.lb_len = llh->llh_hdr.lrh_len; lgi->lgi_buf.lb_buf = &llh->llh_hdr; rc = dt_record_write(env, o, &lgi->lgi_buf, &lgi->lgi_off, th); if (rc != 0) GOTO(out_unlock, rc); } else { __u32 *bitmap = LLOG_HDR_BITMAP(llh); /* Note: If this is not initialization (size == 0), then do not * write the whole header (8k bytes), only update header/tail * and bits needs to be updated. Because this update might be * part of cross-MDT operation, which needs to write these * updates into the update log(32KB limit) and also pack inside * the RPC (1MB limit), if we write 8K for each operation, which * will cost a lot space, and keep us adding more updates to one * update log.*/ lgi->lgi_off = 0; lgi->lgi_buf.lb_len = llh->llh_bitmap_offset; lgi->lgi_buf.lb_buf = &llh->llh_hdr; rc = dt_record_write(env, o, &lgi->lgi_buf, &lgi->lgi_off, th); if (rc != 0) GOTO(out_unlock, rc); lgi->lgi_off = llh->llh_bitmap_offset + (index / (sizeof(*bitmap) * 8)) * sizeof(*bitmap); lgi->lgi_buf.lb_len = sizeof(*bitmap); lgi->lgi_buf.lb_buf = &bitmap[index/(sizeof(*bitmap)*8)]; rc = dt_record_write(env, o, &lgi->lgi_buf, &lgi->lgi_off, th); if (rc != 0) GOTO(out_unlock, rc); lgi->lgi_off = (unsigned long)LLOG_HDR_TAIL(llh) - (unsigned long)llh; lgi->lgi_buf.lb_len = sizeof(llh->llh_tail); lgi->lgi_buf.lb_buf = LLOG_HDR_TAIL(llh); rc = dt_record_write(env, o, &lgi->lgi_buf, &lgi->lgi_off, th); if (rc != 0) GOTO(out_unlock, rc); } if (CFS_FAIL_PRECHECK(OBD_FAIL_LLOG_PAUSE_AFTER_PAD) && pad) { /* a window for concurrent llog reader, see LU-12577 */ CFS_FAIL_TIMEOUT(OBD_FAIL_LLOG_PAUSE_AFTER_PAD, cfs_fail_val ?: 1); } out_unlock: /* unlock here for remote object */ if (rc) { dt_write_unlock(env, o); GOTO(out, rc); } if (CFS_FAIL_PRECHECK(OBD_FAIL_LLOG_PROCESS_TIMEOUT) && cfs_fail_val == (unsigned int)(loghandle->lgh_id.lgl_oi.oi.oi_id & 0xFFFFFFFF)) { CFS_RACE(OBD_FAIL_LLOG_PROCESS_TIMEOUT); msleep(1 * MSEC_PER_SEC); } /* computed index can be used to determine offset for fixed-size * records. This also allows to handle Catalog wrap around case */ if (llh->llh_flags & LLOG_F_IS_FIXSIZE) { lgi->lgi_off = llh->llh_hdr.lrh_len + (index - 1) * reclen; } else { rc = dt_attr_get(env, o, &lgi->lgi_attr); if (rc) { dt_write_unlock(env, o); GOTO(out, rc); } LASSERT(lgi->lgi_attr.la_valid & LA_SIZE); lgi->lgi_off = max_t(__u64, lgi->lgi_attr.la_size, lgi->lgi_off); } lgi->lgi_buf.lb_len = reclen; lgi->lgi_buf.lb_buf = rec; rc = dt_record_write(env, o, &lgi->lgi_buf, &lgi->lgi_off, th); dt_write_unlock(env, o); if (rc < 0) GOTO(out, rc); if (loghandle->lgh_max_size > 0 && lgi->lgi_off >= loghandle->lgh_max_size) { CDEBUG(D_OTHER, "llog is getting too large (%u >= %u) at %u " DFID"\n", (unsigned int)lgi->lgi_off, loghandle->lgh_max_size, (int)loghandle->lgh_last_idx, PLOGID(&loghandle->lgh_id)); /* this is to signal that this llog is full */ loghandle->lgh_last_idx = llog_max_idx(llh); } up_write(&loghandle->lgh_last_sem); CDEBUG(D_HA, "added record "DFID".%u, %u off%llu\n", PFID(lu_object_fid(&o->do_lu)), index, rec->lrh_len, lgi->lgi_off); if (reccookie != NULL) { reccookie->lgc_lgl = loghandle->lgh_id; reccookie->lgc_index = index; if ((rec->lrh_type == MDS_UNLINK_REC) || (rec->lrh_type == MDS_SETATTR64_REC)) reccookie->lgc_subsys = LLOG_MDS_OST_ORIG_CTXT; else if (rec->lrh_type == OST_SZ_REC) reccookie->lgc_subsys = LLOG_SIZE_ORIG_CTXT; else reccookie->lgc_subsys = -1; rc = 1; } RETURN(rc); out: /* cleanup llog for error case */ spin_lock(&loghandle->lgh_hdr_lock); clear_bit_le(index, LLOG_HDR_BITMAP(llh)); llh->llh_count--; spin_unlock(&loghandle->lgh_hdr_lock); /* restore llog last_idx */ if (dt_object_remote(o)) { loghandle->lgh_last_idx = orig_last_idx; } else if (--loghandle->lgh_last_idx == 0 && (llh->llh_flags & LLOG_F_IS_CAT) && llh->llh_cat_idx != 0) { /* catalog had just wrap-around case */ loghandle->lgh_last_idx = llog_max_idx(llh); } LLOG_HDR_TAIL(llh)->lrt_index = loghandle->lgh_last_idx; up_write(&loghandle->lgh_last_sem); RETURN(rc); } /** * We can skip reading at least as many log blocks as the number of * minimum sized log records we are skipping. If it turns out * that we are not far enough along the log (because the * actual records are larger than minimum size) we just skip * some more records. * * Note: in llog_process_thread, it will use bitmap offset as * the index to locate the record, which also includs some pad * records, whose record size is very small, and it also does not * consider pad record when recording minimum record size (otherwise * min_record size might be too small), so in some rare cases, * it might skip too much record for @goal, see llog_osd_next_block(). * * When force_mini_rec is true, it means we have to use LLOG_MIN_REC_SIZE * as the min record size to skip over, usually because in the previous * try, it skip too much record, see loog_osd_next(prev)_block(). */ static inline void llog_skip_over(struct llog_handle *lgh, __u64 *off, int curr, int goal, __u32 chunk_size, bool force_mini_rec) { struct llog_log_hdr *llh = lgh->lgh_hdr; /* Goal should not bigger than the record count */ if (goal > lgh->lgh_last_idx) goal = lgh->lgh_last_idx; if (goal > curr) { if (llh->llh_flags & LLOG_F_IS_FIXSIZE) { *off = chunk_size + (goal - 1) * llh->llh_size; } else { __u64 min_rec_size = LLOG_MIN_REC_SIZE; if (llh->llh_size > 0 && !force_mini_rec) min_rec_size = llh->llh_size; *off = *off + (goal - curr - 1) * min_rec_size; } } /* always align with lower chunk boundary*/ *off &= ~(chunk_size - 1); } /** * Remap a record to the desired format as specified by the crf flags. * The record must be big enough to contain the final remapped version. * Superfluous extension fields are removed and missing ones are added * and zeroed. The flags of the record are updated accordingly to what * the calling llog layer can support. Only influence user land has is * to store the NID in large NID format. The user land end user will * recieve all fields that supported by the kernel. * * The jobid and rename extensions will be added to a record, to match the * format an application expects, typically. In this case, the newly added * fields will be zeroed. * The Jobid field can be removed, to guarantee compatibility with older * clients that don't expect this field in the records they process. * * The following assumptions are being made: * - CLF_RENAME will not be removed * - CLF_JOBID will not be added without CLF_RENAME being added too * - CLF_EXTRA_FLAGS will not be added without CLF_JOBID being added too * * @rec: The record to remap. * @crf_wanted: Flags describing the desired extensions. * @cref_want: Flags describing the desired extra extensions. */ static void changelog_remap_rec(struct changelog_rec *rec, enum changelog_rec_flags crf_wanted, enum changelog_rec_extra_flags cref_want) { char *xattr_mov = NULL; char *omd_mov = NULL; char *nid_mov = NULL; char *uidgid_mov = NULL; char *ef_mov; char *jid_mov; char *rnm_mov; enum changelog_rec_extra_flags cref = CLFE_INVALID; crf_wanted = (enum changelog_rec_flags) (crf_wanted & CLF_SUPPORTED); cref_want = (enum changelog_rec_extra_flags) (cref_want & CLFE_SUPPORTED); if ((rec->cr_flags & CLF_SUPPORTED) == crf_wanted) { if (!(rec->cr_flags & CLF_EXTRA_FLAGS) || (rec->cr_flags & CLF_EXTRA_FLAGS && (changelog_rec_extra_flags(rec)->cr_extra_flags & CLFE_SUPPORTED) == cref_want)) return; } /* First move the variable-length name field */ memmove((char *)rec + changelog_rec_offset(crf_wanted, cref_want), changelog_rec_name(rec), rec->cr_namelen); /* Locations of extensions in the remapped record */ if (rec->cr_flags & CLF_EXTRA_FLAGS) { xattr_mov = (char *)rec + changelog_rec_offset( (enum changelog_rec_flags) (crf_wanted & CLF_SUPPORTED), (enum changelog_rec_extra_flags) (cref_want & ~CLFE_XATTR)); omd_mov = (char *)rec + changelog_rec_offset( (enum changelog_rec_flags) (crf_wanted & CLF_SUPPORTED), (enum changelog_rec_extra_flags) (cref_want & ~(CLFE_OPEN | CLFE_XATTR))); nid_mov = (char *)rec + changelog_rec_offset( (enum changelog_rec_flags) (crf_wanted & CLF_SUPPORTED), (enum changelog_rec_extra_flags) (cref_want & ~(CLFE_NID | CLFE_OPEN | CLFE_XATTR))); uidgid_mov = (char *)rec + changelog_rec_offset( (enum changelog_rec_flags) (crf_wanted & CLF_SUPPORTED), (enum changelog_rec_extra_flags) (cref_want & ~(CLFE_UIDGID | CLFE_NID | CLFE_OPEN | CLFE_XATTR))); cref = (enum changelog_rec_extra_flags) changelog_rec_extra_flags(rec)->cr_extra_flags; } ef_mov = (char *)rec + changelog_rec_offset( (enum changelog_rec_flags) (crf_wanted & ~CLF_EXTRA_FLAGS), CLFE_INVALID); jid_mov = (char *)rec + changelog_rec_offset((enum changelog_rec_flags)(crf_wanted & ~(CLF_EXTRA_FLAGS | CLF_JOBID)), CLFE_INVALID); rnm_mov = (char *)rec + changelog_rec_offset((enum changelog_rec_flags)(crf_wanted & ~(CLF_EXTRA_FLAGS | CLF_JOBID | CLF_RENAME)), CLFE_INVALID); /* Move the extension fields to the desired positions */ if ((crf_wanted & CLF_EXTRA_FLAGS) && (rec->cr_flags & CLF_EXTRA_FLAGS)) { if ((cref_want & CLFE_XATTR) && (cref & CLFE_XATTR)) memmove(xattr_mov, changelog_rec_xattr(rec), sizeof(struct changelog_ext_xattr)); if ((cref_want & CLFE_OPEN) && (cref & CLFE_OPEN)) memmove(omd_mov, changelog_rec_openmode(rec), sizeof(struct changelog_ext_openmode)); if ((cref_want & CLFE_NID) && (cref & CLFE_NID)) { struct changelog_ext_nid *cen = changelog_rec_nid(rec); if ((cref_want & CLFE_NID_BE) != (cref & CLFE_NID_BE)) { struct lnet_nid *nid; if (!(cref_want & CLFE_NID_BE)) { nid = (struct lnet_nid *)cen; if (nid_is_nid4(nid)) { struct changelog_ext_nid *mov; mov = (struct changelog_ext_nid *)nid_mov; mov->cr_nid = lnet_nid_to_nid4(nid); cref &= ~CLFE_NID_BE; } else { cref &= ~(CLFE_NID | CLFE_NID_BE); } } else { nid = (struct lnet_nid *)nid_mov; lnet_nid4_to_nid(cen->cr_nid, nid); } changelog_rec_extra_flags(rec)->cr_extra_flags = cref; } else { memmove(nid_mov, cen, sizeof(*cen)); } } if ((cref_want & CLFE_UIDGID) && (cref & CLFE_UIDGID)) memmove(uidgid_mov, changelog_rec_uidgid(rec), sizeof(struct changelog_ext_uidgid)); memmove(ef_mov, changelog_rec_extra_flags(rec), sizeof(struct changelog_ext_extra_flags)); } if ((crf_wanted & CLF_JOBID) && (rec->cr_flags & CLF_JOBID)) memmove(jid_mov, changelog_rec_jobid(rec), sizeof(struct changelog_ext_jobid)); if ((crf_wanted & CLF_RENAME) && (rec->cr_flags & CLF_RENAME)) memmove(rnm_mov, changelog_rec_rename(rec), sizeof(struct changelog_ext_rename)); /* Clear newly added fields */ if (xattr_mov && (cref_want & CLFE_XATTR) && !(cref & CLFE_XATTR)) memset(xattr_mov, 0, sizeof(struct changelog_ext_xattr)); if (omd_mov && (cref_want & CLFE_OPEN) && !(cref & CLFE_OPEN)) memset(omd_mov, 0, sizeof(struct changelog_ext_openmode)); if (nid_mov && (cref_want & CLFE_NID) && !(cref & CLFE_NID)) memset(nid_mov, 0, sizeof(struct changelog_ext_nid)); if (uidgid_mov && (cref_want & CLFE_UIDGID) && !(cref & CLFE_UIDGID)) memset(uidgid_mov, 0, sizeof(struct changelog_ext_uidgid)); if ((crf_wanted & CLF_EXTRA_FLAGS) && !(rec->cr_flags & CLF_EXTRA_FLAGS)) memset(ef_mov, 0, sizeof(struct changelog_ext_extra_flags)); if ((crf_wanted & CLF_JOBID) && !(rec->cr_flags & CLF_JOBID)) memset(jid_mov, 0, sizeof(struct changelog_ext_jobid)); if ((crf_wanted & CLF_RENAME) && !(rec->cr_flags & CLF_RENAME)) memset(rnm_mov, 0, sizeof(struct changelog_ext_rename)); /* Update the record's flags accordingly */ rec->cr_flags = (rec->cr_flags & CLF_FLAGMASK) | crf_wanted; if (rec->cr_flags & CLF_EXTRA_FLAGS) changelog_rec_extra_flags(rec)->cr_extra_flags = changelog_rec_extra_flags(rec)->cr_extra_flags | cref_want; } /** * Remove optional fields that the client doesn't expect. * This is typically in order to ensure compatibility with older clients. * It is assumed that since we exclusively remove fields, the block will be * big enough to handle the remapped records. It is also assumed that records * of a block have the same format (i.e.: the same features enabled). * * \param[in,out] hdr Header of the block of records to remap. * \param[in,out] last_hdr Last header, don't read past this point. * \param[in] flags Flags describing the fields to keep. * \param[in] extra_flags Flags describing the extra fields to keep. */ static void changelog_block_trim_ext(struct llog_rec_hdr *hdr, struct llog_rec_hdr *last_hdr, struct llog_handle *loghandle) { enum changelog_rec_flags flags = CLF_SUPPORTED; enum changelog_rec_extra_flags extra_flags = CLFE_SUPPORTED; if (!(loghandle->lgh_hdr->llh_flags & LLOG_F_EXT_X_XATTR)) extra_flags &= ~CLFE_XATTR; if (!(loghandle->lgh_hdr->llh_flags & LLOG_F_EXT_X_OMODE)) extra_flags &= ~CLFE_OPEN; if (!(loghandle->lgh_hdr->llh_flags & LLOG_F_EXT_X_NID)) extra_flags &= ~(CLFE_NID | CLFE_NID_BE); if (!(loghandle->lgh_hdr->llh_flags & LLOG_F_EXT_X_NID_BE)) { if (extra_flags & CLFE_NID_BE) { /* The large nid won't be understood */ extra_flags &= ~CLFE_NID_BE; } } if (!(loghandle->lgh_hdr->llh_flags & LLOG_F_EXT_X_UIDGID)) extra_flags &= ~CLFE_UIDGID; if (!(loghandle->lgh_hdr->llh_flags & LLOG_F_EXT_EXTRA_FLAGS)) flags &= ~CLF_EXTRA_FLAGS; if (!(loghandle->lgh_hdr->llh_flags & LLOG_F_EXT_JOBID)) flags &= ~CLF_JOBID; if (flags == CLF_SUPPORTED && extra_flags == CLFE_SUPPORTED) return; if (hdr->lrh_type != CHANGELOG_REC) return; do { struct changelog_rec *rec = (struct changelog_rec *)(hdr + 1); enum changelog_rec_extra_flags xflag = CLFE_INVALID; if (unlikely(hdr->lrh_len == 0)) { /* It is corruption case, we cannot know the next rec, * jump to the last one directly to avoid dead loop. */ LCONSOLE(D_WARNING, "Hit invalid llog record: " "idx %u, type %u, id %u\n", hdr->lrh_index, hdr->lrh_type, hdr->lrh_id); hdr = llog_rec_hdr_next(last_hdr); if (unlikely(hdr == last_hdr)) LCONSOLE(D_WARNING, "The last record crashed: " "idx %u, type %u, id %u\n", hdr->lrh_index, hdr->lrh_type, hdr->lrh_id); break; } if (flags & CLF_EXTRA_FLAGS && rec->cr_flags & CLF_EXTRA_FLAGS) { xflag = changelog_rec_extra_flags(rec)->cr_extra_flags & extra_flags; } /* Fill up the changelog record with everything the kernel * version supports. */ changelog_remap_rec(rec, rec->cr_flags & flags, xflag); hdr = llog_rec_hdr_next(hdr); /* Yield CPU to avoid soft-lockup if there are too many records * to be handled. */ cond_resched(); } while ((char *)hdr <= (char *)last_hdr); } /** * Implementation of the llog_operations::lop_next_block * * This function finds the the next llog block to return which contains * record with required index. It is main part of llog processing. * * \param[in] env execution environment * \param[in] loghandle llog handle of the current llog * \param[in,out] cur_idx index preceeding cur_offset * \param[in] next_idx target index to find * \param[in,out] cur_offset furtherst point read in the file * \param[in] buf pointer to data buffer to fill * \param[in] len required len to read, it is * usually llog chunk_size. * * \retval 0 on successful buffer read * \retval negative value on error */ static int llog_osd_next_block(const struct lu_env *env, struct llog_handle *loghandle, int *cur_idx, int next_idx, __u64 *cur_offset, void *buf, int len) { struct llog_thread_info *lgi = llog_info(env); struct dt_object *o; struct dt_device *dt; int rc; __u32 chunk_size; __u32 tail_len; int last_idx = *cur_idx; __u64 last_offset = *cur_offset; bool force_mini_rec = !next_idx; ENTRY; LASSERT(env); LASSERT(lgi); chunk_size = loghandle->lgh_hdr->llh_hdr.lrh_len; if (len == 0 || len & (chunk_size - 1)) RETURN(-EINVAL); LASSERT(loghandle); LASSERT(loghandle->lgh_ctxt); if (CFS_FAIL_PRECHECK(OBD_FAIL_MDS_CHANGELOG_DEL) && cfs_fail_val == ((unsigned long)loghandle & 0xFFFFFFFF)) { CFS_RACE(OBD_FAIL_MDS_CHANGELOG_DEL); msleep(MSEC_PER_SEC >> 2); } o = loghandle->lgh_obj; LASSERT(o); dt_read_lock(env, o, 0); if (!llog_osd_exist(loghandle)) GOTO(out, rc = -ESTALE); //object was destroyed dt = lu2dt_dev(o->do_lu.lo_dev); LASSERT(dt); rc = dt_attr_get(env, o, &lgi->lgi_attr); if (rc) GOTO(out, rc); CDEBUG(D_OTHER, "looking for log index %u (cur idx %u off %llu), size %llu\n", next_idx, *cur_idx, *cur_offset, lgi->lgi_attr.la_size); while (*cur_offset < lgi->lgi_attr.la_size) { struct llog_rec_hdr *rec, *last_rec; struct llog_rec_tail *tail; llog_skip_over(loghandle, cur_offset, *cur_idx, next_idx, chunk_size, force_mini_rec); /* read up to next llog chunk_size block */ lgi->lgi_buf.lb_len = chunk_size - (*cur_offset & (chunk_size - 1)); lgi->lgi_buf.lb_buf = buf; rc = dt_read(env, o, &lgi->lgi_buf, cur_offset); if (rc < 0) { if (rc == -EBADR) { /* no goal is valid case */ if (!next_idx) GOTO(out, rc); if (!force_mini_rec) goto retry; } CERROR("%s: can't read llog block from log "DFID " offset %llu: rc = %d\n", o->do_lu.lo_dev->ld_obd->obd_name, PFID(lu_object_fid(&o->do_lu)), *cur_offset, rc); GOTO(out, rc); } if (rc < len) { /* signal the end of the valid buffer to * llog_process */ memset(buf + rc, 0, len - rc); } if (rc == 0) { /* end of file, nothing to do */ if (!force_mini_rec) goto retry; GOTO(out, rc); } if (rc < sizeof(*tail)) { if (!force_mini_rec) goto retry; CERROR("%s: invalid llog block at log id "DFID" offset %llu\n", o->do_lu.lo_dev->ld_obd->obd_name, PLOGID(&loghandle->lgh_id), *cur_offset); GOTO(out, rc = -EINVAL); } rec = buf; if (LLOG_REC_HDR_NEEDS_SWABBING(rec)) lustre_swab_llog_rec(rec); /* caller handles bad records if any */ if (llog_verify_record(loghandle, rec)) GOTO(out, rc = 0); tail = (struct llog_rec_tail *)((char *)buf + rc - sizeof(struct llog_rec_tail)); while ((tail->lrt_index == 0 || tail->lrt_len == 0) && (void *) tail > buf) { /* looks like zeroes at the end of block */ /* searching real record, assume 4bytes align */ tail = (struct llog_rec_tail *)(((char *)tail) - 4); }; tail_len = tail->lrt_len; /* base on tail_len do swab */ if (tail_len > chunk_size) { __swab32s(&tail_len); if (tail_len > chunk_size) { CERROR("%s: invalid llog tail at log id "DFID":%x offset %llu tail idx %u lrt len %u read_size %d\n", o->do_lu.lo_dev->ld_obd->obd_name, PFID(&loghandle->lgh_id.lgl_oi.oi_fid), loghandle->lgh_id.lgl_ogen, *cur_offset, tail->lrt_index, tail->lrt_len, rc); /* tail is broken */ GOTO(out, rc = -EINVAL); } } /* get the last record in block */ last_rec = (struct llog_rec_hdr *)((char *)tail - tail_len + sizeof(struct llog_rec_tail)); if (LLOG_REC_HDR_NEEDS_SWABBING(last_rec)) lustre_swab_llog_rec(last_rec); if (last_rec->lrh_index != tail->lrt_index) { CERROR("%s: invalid llog tail at log id "DFID" offset %llu last_rec idx %u tail idx %u lrt len %u read_size %d\n", o->do_lu.lo_dev->ld_obd->obd_name, PLOGID(&loghandle->lgh_id), *cur_offset, last_rec->lrh_index, tail->lrt_index, tail->lrt_len, rc); GOTO(out, rc = -EINVAL); } *cur_idx = tail->lrt_index; /* this shouldn't happen */ if (tail->lrt_index == 0) { CERROR("%s: invalid llog tail at log id "DFID"offset %llu bytes %d\n", o->do_lu.lo_dev->ld_obd->obd_name, PLOGID(&loghandle->lgh_id), *cur_offset, rc); GOTO(out, rc = -EINVAL); } if (tail->lrt_index < next_idx) { last_idx = *cur_idx; last_offset = *cur_offset; continue; } /* sanity check that the start of the new buffer is no farther * than the record that we wanted. This shouldn't happen. */ if (next_idx && rec->lrh_index > next_idx) { if (!force_mini_rec && next_idx > last_idx) goto retry; CERROR("%s: missed desired record? %u > %u\n", o->do_lu.lo_dev->ld_obd->obd_name, rec->lrh_index, next_idx); GOTO(out, rc = -ENOENT); } /* Trim unsupported extensions for compat w/ older clients */ changelog_block_trim_ext(rec, last_rec, loghandle); GOTO(out, rc = 0); retry: /* Note: because there are some pad records in the * llog, so llog_skip_over() might skip too much * records, let's try skip again with minimum record */ force_mini_rec = true; *cur_offset = last_offset; *cur_idx = last_idx; } /* being here means we reach end of llog but didn't find needed idx * normally could happen while processing remote llog, return -EBADR * to indicate access beyond end of file like dt_read() does and to * distunguish this situation from real IO or network issues. */ GOTO(out, rc = -EBADR); out: dt_read_unlock(env, o); return rc; } /** * Implementation of the llog_operations::lop_prev_block * * This function finds the llog block to return which contains * record with required index but in reverse order - from end of llog * to the beginning. * It is main part of reverse llog processing. * * \param[in] env execution environment * \param[in] loghandle llog handle of the current llog * \param[in] prev_idx target index to find * \param[in] buf pointer to data buffer to fill * \param[in] len required len to read, it is llog_chunk_size usually. * * \retval 0 on successful buffer read * \retval negative value on error */ static int llog_osd_prev_block(const struct lu_env *env, struct llog_handle *loghandle, int prev_idx, void *buf, int len) { loff_t cur_offset; int cur_idx; cur_offset = loghandle->lgh_hdr->llh_hdr.lrh_len; cur_idx = 1; return llog_osd_next_block(env, loghandle, &cur_idx, prev_idx, &cur_offset, buf, len); } /** * This is helper function to get llog directory object. It is used by named * llog operations to find/insert/delete llog entry from llog directory. * * \param[in] env execution environment * \param[in] ctxt llog context * * \retval dt_object of llog directory * \retval ERR_PTR of negative value on error */ static struct dt_object *llog_osd_dir_get(const struct lu_env *env, struct llog_ctxt *ctxt) { struct dt_device *dt; struct dt_thread_info *dti = dt_info(env); struct dt_object *dir; int rc; dt = ctxt->loc_exp->exp_obd->obd_lvfs_ctxt.dt; if (ctxt->loc_dir == NULL) { rc = dt_root_get(env, dt, &dti->dti_fid); if (rc) return ERR_PTR(rc); dir = dt_locate(env, dt, &dti->dti_fid); if (!IS_ERR(dir) && !dt_try_as_dir(env, dir, false)) { dt_object_put(env, dir); return ERR_PTR(-ENOTDIR); } } else { lu_object_get(&ctxt->loc_dir->do_lu); dir = ctxt->loc_dir; } return dir; } /** * Implementation of the llog_operations::lop_open * * This function opens the llog by its logid or by name, it may open also * non existent llog and assing then new id to it. * The llog_open/llog_close pair works similar to lu_object_find/put, * the object may not exist prior open. The result of open is just dt_object * in the llog header. * * \param[in] env execution environment * \param[in] handle llog handle of the current llog * \param[in] logid logid of llog to open (nameless llog) * \param[in] name name of llog to open (named llog) * \param[in] open_param * LLOG_OPEN_NEW - new llog, may not exist * LLOG_OPEN_EXIST - old llog, must exist * * \retval 0 on successful open, llog_handle::lgh_obj * contains the dt_object of the llog. * \retval negative value on error */ static int llog_osd_open(const struct lu_env *env, struct llog_handle *handle, struct llog_logid *logid, char *name, enum llog_open_param open_param) { struct llog_thread_info *lgi = llog_info(env); struct llog_ctxt *ctxt = handle->lgh_ctxt; struct dt_object *o; struct dt_device *dt; struct ls_device *ls; struct local_oid_storage *los = NULL; int rc = 0; bool new_id = false; ENTRY; LASSERT(env); LASSERT(ctxt); LASSERT(ctxt->loc_exp); LASSERT(ctxt->loc_exp->exp_obd); dt = ctxt->loc_exp->exp_obd->obd_lvfs_ctxt.dt; LASSERT(dt); if (ctxt->loc_flags & LLOG_CTXT_FLAG_NORMAL_FID) { struct lu_object_conf conf = { 0 }; if (logid != NULL) { logid_to_fid(logid, &lgi->lgi_fid); } else { /* If logid == NULL, then it means the caller needs * to allocate new FID (llog_cat_declare_add_rec()). */ rc = dt_fid_alloc(env, dt, &lgi->lgi_fid, NULL, NULL); if (rc < 0) RETURN(rc); rc = 0; conf.loc_flags = LOC_F_NEW; } o = dt_locate_at(env, dt, &lgi->lgi_fid, dt->dd_lu_dev.ld_site->ls_top_dev, &conf); if (IS_ERR(o)) RETURN(PTR_ERR(o)); goto after_open; } ls = ls_device_find_or_init(dt); if (IS_ERR(ls)) RETURN(PTR_ERR(ls)); mutex_lock(&ls->ls_los_mutex); los = dt_los_find(ls, name != NULL ? FID_SEQ_LLOG_NAME : FID_SEQ_LLOG); mutex_unlock(&ls->ls_los_mutex); LASSERT(los); ls_device_put(env, ls); LASSERT(handle); if (logid != NULL) { logid_to_fid(logid, &lgi->lgi_fid); } else if (name) { struct dt_object *llog_dir; llog_dir = llog_osd_dir_get(env, ctxt); if (IS_ERR(llog_dir)) GOTO(out, rc = PTR_ERR(llog_dir)); dt_read_lock(env, llog_dir, 0); rc = dt_lookup_dir(env, llog_dir, name, &lgi->lgi_fid); dt_read_unlock(env, llog_dir); dt_object_put(env, llog_dir); if (rc == -ENOENT && open_param == LLOG_OPEN_NEW) { /* generate fid for new llog */ rc = local_object_fid_generate(env, los, &lgi->lgi_fid); new_id = true; } if (rc < 0) GOTO(out, rc); OBD_ALLOC(handle->lgh_name, strlen(name) + 1); if (handle->lgh_name) strcpy(handle->lgh_name, name); else GOTO(out, rc = -ENOMEM); } else { LASSERTF(open_param & LLOG_OPEN_NEW, "%#x\n", open_param); /* generate fid for new llog */ generate: rc = local_object_fid_generate(env, los, &lgi->lgi_fid); if (rc < 0) GOTO(out, rc); new_id = true; } if (CFS_FAIL_PRECHECK(OBD_FAIL_MDS_LLOG_UMOUNT_RACE) && cfs_fail_val == 1) { cfs_fail_val = 2; CFS_RACE(OBD_FAIL_MDS_LLOG_UMOUNT_RACE); msleep(MSEC_PER_SEC); } o = ls_locate(env, ls, &lgi->lgi_fid, NULL); if (IS_ERR(o)) GOTO(out_name, rc = PTR_ERR(o)); if (dt_object_exists(o) && new_id) { /* llog exists with just generated ID, e.g. some old llog file * still is in use or is orphan, drop a warn and skip it. */ CDEBUG(D_INFO, "%s: llog exists with the same FID: "DFID ", skipping\n", o->do_lu.lo_dev->ld_obd->obd_name, PFID(lu_object_fid(&o->do_lu))); dt_object_put(env, o); /* just skip this llog ID, we shouldn't delete it because we * don't know exactly what is its purpose and state. */ goto generate; } after_open: /* No new llog is expected but doesn't exist */ if (open_param != LLOG_OPEN_NEW && !dt_object_exists(o)) { CDEBUG(D_INFO, "%s: llog FID: "DFID" obj %p doesn`t exist\n", o->do_lu.lo_dev->ld_obd->obd_name, PFID(lu_object_fid(&o->do_lu)), o); GOTO(out_put, rc = -ENOENT); } fid_to_logid(&lgi->lgi_fid, &handle->lgh_id); handle->lgh_obj = o; handle->private_data = los; LASSERT(handle->lgh_ctxt); RETURN(rc); out_put: if (ctxt->loc_flags & LLOG_CTXT_FLAG_NORMAL_FID) /* according to llog_osd_close() */ dt_object_put_nocache(env, o); else dt_object_put(env, o); out_name: OBD_FREE(handle->lgh_name, strlen(name) + 1); out: if (los != NULL) dt_los_put(los); RETURN(rc); } /** * Get dir for regular fid log object * * Get directory for regular fid log object, and these regular fid log * object will be inserted under this directory, to satisfy the FS * consistency check, e2fsck etc. * * \param [in] env execution environment * \param [in] dto llog object * * \retval pointer to the directory if it is found. * \retval ERR_PTR(negative errno) if it fails. */ static struct dt_object *llog_osd_get_regular_fid_dir(const struct lu_env *env, struct dt_object *dto) { struct llog_thread_info *lgi = llog_info(env); struct seq_server_site *ss = dto->do_lu.lo_dev->ld_site->ld_seq_site; struct lu_seq_range *range = &lgi->lgi_range; struct lu_fid *dir_fid = &lgi->lgi_fid; struct dt_object *dir; int rc; ENTRY; fld_range_set_any(range); LASSERT(ss != NULL); rc = ss->ss_server_fld->lsf_seq_lookup(env, ss->ss_server_fld, fid_seq(lu_object_fid(&dto->do_lu)), range); if (rc < 0) RETURN(ERR_PTR(rc)); lu_update_log_dir_fid(dir_fid, range->lsr_index); dir = dt_locate(env, lu2dt_dev(dto->do_lu.lo_dev), dir_fid); if (IS_ERR(dir)) RETURN(dir); if (!dt_try_as_dir(env, dir, false)) { dt_object_put(env, dir); RETURN(ERR_PTR(-ENOTDIR)); } RETURN(dir); } /** * Add llog object with regular FID to name entry * * Add llog object with regular FID to name space, and each llog * object on each MDT will be /update_log_dir/[seq:oid:ver], * so to satisfy the namespace consistency check, e2fsck etc. * * \param [in] env execution environment * \param [in] dto llog object * \param [in] th thandle * \param [in] declare if it is declare or execution * * \retval 0 if insertion succeeds. * \retval negative errno if insertion fails. */ static int llog_osd_regular_fid_add_name_entry(const struct lu_env *env, struct dt_object *dto, struct thandle *th, bool declare) { struct llog_thread_info *lgi = llog_info(env); const struct lu_fid *fid = lu_object_fid(&dto->do_lu); struct dt_insert_rec *rec = &lgi->lgi_dt_rec; struct dt_object *dir; char *name = lgi->lgi_name; int rc; ENTRY; if (!fid_is_norm(fid)) RETURN(0); dir = llog_osd_get_regular_fid_dir(env, dto); if (IS_ERR(dir)) RETURN(PTR_ERR(dir)); rec->rec_fid = fid; rec->rec_type = S_IFREG; snprintf(name, sizeof(lgi->lgi_name), DFID, PFID(fid)); dt_write_lock(env, dir, 0); if (declare) { rc = dt_declare_insert(env, dir, (struct dt_rec *)rec, (struct dt_key *)name, th); } else { rc = dt_insert(env, dir, (struct dt_rec *)rec, (struct dt_key *)name, th); } dt_write_unlock(env, dir); dt_object_put(env, dir); RETURN(rc); } /** * Implementation of the llog_operations::lop_declare_create * * This function declares the llog create. It declares also name insert * into llog directory in case of named llog. * * \param[in] env execution environment * \param[in] res llog handle of the current llog * \param[in] th current transaction handle * * \retval 0 on successful create declaration * \retval negative value on error */ static int llog_osd_declare_create(const struct lu_env *env, struct llog_handle *res, struct thandle *th) { struct llog_thread_info *lgi = llog_info(env); struct dt_insert_rec *rec = &lgi->lgi_dt_rec; struct local_oid_storage *los; struct dt_object *o; int rc; ENTRY; LASSERT(res->lgh_obj); LASSERT(th); /* object can be created by another thread */ o = res->lgh_obj; if (dt_object_exists(o)) RETURN(0); if (res->lgh_ctxt->loc_flags & LLOG_CTXT_FLAG_NORMAL_FID) { struct llog_thread_info *lgi = llog_info(env); lgi->lgi_attr.la_valid = LA_MODE | LA_SIZE; lgi->lgi_attr.la_size = 0; lgi->lgi_attr.la_mode = S_IFREG | S_IRUGO | S_IWUSR; lgi->lgi_dof.dof_type = dt_mode_to_dft(S_IFREG); rc = dt_declare_create(env, o, &lgi->lgi_attr, NULL, &lgi->lgi_dof, th); if (rc < 0) RETURN(rc); rc = llog_osd_regular_fid_add_name_entry(env, o, th, true); RETURN(rc); } los = res->private_data; LASSERT(los); rc = llog_osd_declare_new_object(env, los, o, th); if (rc) RETURN(rc); /* do not declare header initialization here as it's declared * in llog_osd_declare_write_rec() which is always called */ if (res->lgh_name) { struct dt_object *llog_dir; llog_dir = llog_osd_dir_get(env, res->lgh_ctxt); if (IS_ERR(llog_dir)) RETURN(PTR_ERR(llog_dir)); logid_to_fid(&res->lgh_id, &lgi->lgi_fid); rec->rec_fid = &lgi->lgi_fid; rec->rec_type = S_IFREG; rc = dt_declare_insert(env, llog_dir, (struct dt_rec *)rec, (struct dt_key *)res->lgh_name, th); dt_object_put(env, llog_dir); if (rc) CERROR("%s: can't declare named llog %s: rc = %d\n", o->do_lu.lo_dev->ld_obd->obd_name, res->lgh_name, rc); } RETURN(rc); } /** * Implementation of the llog_operations::lop_create * * This function creates the llog according with llog_handle::lgh_obj * and llog_handle::lgh_name. * * \param[in] env execution environment * \param[in] res llog handle of the current llog * \param[in] th current transaction handle * * \retval 0 on successful create * \retval negative value on error */ static int llog_osd_create(const struct lu_env *env, struct llog_handle *res, struct thandle *th) { struct llog_thread_info *lgi = llog_info(env); struct dt_insert_rec *rec = &lgi->lgi_dt_rec; struct local_oid_storage *los; struct dt_object *o; int rc = 0; ENTRY; LASSERT(env); o = res->lgh_obj; LASSERT(o); /* llog can be already created */ if (dt_object_exists(o)) RETURN(-EEXIST); if (res->lgh_ctxt->loc_flags & LLOG_CTXT_FLAG_NORMAL_FID) { struct llog_thread_info *lgi = llog_info(env); lgi->lgi_attr.la_valid = LA_MODE | LA_SIZE | LA_TYPE | LA_CTIME | LA_MTIME | LA_ATIME; lgi->lgi_attr.la_size = 0; lgi->lgi_attr.la_mode = S_IFREG | S_IRUGO | S_IWUSR; lgi->lgi_attr.la_ctime = lgi->lgi_attr.la_mtime = lgi->lgi_attr.la_atime = ktime_get_real_seconds(); lgi->lgi_dof.dof_type = dt_mode_to_dft(S_IFREG); dt_write_lock(env, o, 0); rc = dt_create(env, o, &lgi->lgi_attr, NULL, &lgi->lgi_dof, th); dt_write_unlock(env, o); if (rc < 0) RETURN(rc); rc = llog_osd_regular_fid_add_name_entry(env, o, th, false); RETURN(rc); } los = res->private_data; LASSERT(los); dt_write_lock(env, o, 0); if (!dt_object_exists(o)) rc = llog_osd_create_new_object(env, los, o, th); else rc = -EEXIST; dt_write_unlock(env, o); if (rc) RETURN(rc); if (res->lgh_name) { struct dt_object *llog_dir; llog_dir = llog_osd_dir_get(env, res->lgh_ctxt); if (IS_ERR(llog_dir)) RETURN(PTR_ERR(llog_dir)); logid_to_fid(&res->lgh_id, &lgi->lgi_fid); rec->rec_fid = &lgi->lgi_fid; rec->rec_type = S_IFREG; dt_read_lock(env, llog_dir, 0); rc = dt_insert(env, llog_dir, (struct dt_rec *)rec, (struct dt_key *)res->lgh_name, th); dt_read_unlock(env, llog_dir); dt_object_put(env, llog_dir); if (rc) CERROR("%s: can't create named llog %s: rc = %d\n", o->do_lu.lo_dev->ld_obd->obd_name, res->lgh_name, rc); } RETURN(rc); } /** * Implementation of the llog_operations::lop_close * * This function closes the llog. It just put llog object and referenced * local storage. * * \param[in] env execution environment * \param[in] handle llog handle of the current llog * * \retval 0 on successful llog close * \retval negative value on error */ static int llog_osd_close(const struct lu_env *env, struct llog_handle *handle) { struct local_oid_storage *los; int rc = 0; ENTRY; LASSERT(handle->lgh_obj); if (handle->lgh_ctxt->loc_flags & LLOG_CTXT_FLAG_NORMAL_FID) { /* Remove the object from the cache, otherwise it may * hold LOD being released during cleanup process */ dt_object_put_nocache(env, handle->lgh_obj); LASSERT(handle->private_data == NULL); RETURN(rc); } else { dt_object_put(env, handle->lgh_obj); } los = handle->private_data; LASSERT(los); dt_los_put(los); OBD_FREE(handle->lgh_name, strlen(handle->lgh_name) + 1); RETURN(rc); } /** * delete llog object name entry * * Delete llog object (with regular FID) from name space (under * update_log_dir). * * \param [in] env execution environment * \param [in] dto llog object * \param [in] th thandle * \param [in] declare if it is declare or execution * * \retval 0 if deletion succeeds. * \retval negative errno if deletion fails. */ static int llog_osd_regular_fid_del_name_entry(const struct lu_env *env, struct dt_object *dto, struct thandle *th, bool declare) { struct llog_thread_info *lgi = llog_info(env); const struct lu_fid *fid = lu_object_fid(&dto->do_lu); struct dt_object *dir; char *name = lgi->lgi_name; int rc; ENTRY; if (!fid_is_norm(fid)) RETURN(0); dir = llog_osd_get_regular_fid_dir(env, dto); if (IS_ERR(dir)) RETURN(PTR_ERR(dir)); snprintf(name, sizeof(lgi->lgi_name), DFID, PFID(fid)); dt_write_lock(env, dir, 0); if (declare) { rc = dt_declare_delete(env, dir, (struct dt_key *)name, th); } else { rc = dt_delete(env, dir, (struct dt_key *)name, th); } dt_write_unlock(env, dir); dt_object_put(env, dir); RETURN(rc); } /** * Implementation of the llog_operations::lop_declare_destroy * * This function declare destroys the llog and deletes also entry in the * llog directory in case of named llog. Llog should be opened prior that. * * \param[in] env execution environment * \param[in] loghandle llog handle of the current llog * * \retval 0 on successful destroy * \retval negative value on error */ static int llog_osd_declare_destroy(const struct lu_env *env, struct llog_handle *loghandle, struct thandle *th) { struct llog_ctxt *ctxt; struct dt_object *o, *llog_dir = NULL; int rc; ENTRY; ctxt = loghandle->lgh_ctxt; LASSERT(ctxt); o = loghandle->lgh_obj; LASSERT(o); if (loghandle->lgh_name) { llog_dir = llog_osd_dir_get(env, ctxt); if (IS_ERR(llog_dir)) RETURN(PTR_ERR(llog_dir)); rc = dt_declare_delete(env, llog_dir, (struct dt_key *)loghandle->lgh_name, th); if (rc < 0) GOTO(out_put, rc); } rc = dt_declare_ref_del(env, o, th); if (rc < 0) GOTO(out_put, rc); rc = dt_declare_destroy(env, o, th); if (rc < 0) GOTO(out_put, rc); if (loghandle->lgh_ctxt->loc_flags & LLOG_CTXT_FLAG_NORMAL_FID) { rc = llog_osd_regular_fid_del_name_entry(env, o, th, true); if (rc < 0) GOTO(out_put, rc); } out_put: if (!(IS_ERR_OR_NULL(llog_dir))) dt_object_put(env, llog_dir); RETURN(rc); } /** * Implementation of the llog_operations::lop_destroy * * This function destroys the llog and deletes also entry in the * llog directory in case of named llog. Llog should be opened prior that. * Destroy method is not part of external transaction and does everything * inside. * * \param[in] env execution environment * \param[in] loghandle llog handle of the current llog * * \retval 0 on successful destroy * \retval negative value on error */ static int llog_osd_destroy(const struct lu_env *env, struct llog_handle *loghandle, struct thandle *th) { struct llog_ctxt *ctxt; struct dt_object *o, *llog_dir = NULL; int rc; ENTRY; ctxt = loghandle->lgh_ctxt; LASSERT(ctxt != NULL); o = loghandle->lgh_obj; LASSERT(o != NULL); dt_write_lock(env, o, 0); if (!llog_osd_exist(loghandle)) GOTO(out_unlock, rc = 0); if (loghandle->lgh_name) { llog_dir = llog_osd_dir_get(env, ctxt); if (IS_ERR(llog_dir)) GOTO(out_unlock, rc = PTR_ERR(llog_dir)); dt_read_lock(env, llog_dir, 0); rc = dt_delete(env, llog_dir, (struct dt_key *)loghandle->lgh_name, th); dt_read_unlock(env, llog_dir); if (rc) { CERROR("%s: can't remove llog %s: rc = %d\n", o->do_lu.lo_dev->ld_obd->obd_name, loghandle->lgh_name, rc); GOTO(out_unlock, rc); } } dt_ref_del(env, o, th); rc = dt_destroy(env, o, th); if (rc < 0) GOTO(out_unlock, rc); loghandle->lgh_destroyed = true; if (loghandle->lgh_ctxt->loc_flags & LLOG_CTXT_FLAG_NORMAL_FID) { rc = llog_osd_regular_fid_del_name_entry(env, o, th, false); if (rc < 0) GOTO(out_unlock, rc); } out_unlock: dt_write_unlock(env, o); if (!(IS_ERR_OR_NULL(llog_dir))) dt_object_put(env, llog_dir); RETURN(rc); } /** * Implementation of the llog_operations::lop_setup * * This function setup the llog on local storage. * * \param[in] env execution environment * \param[in] obd obd device the llog belongs to * \param[in] olg the llog group, it is always zero group now. * \param[in] ctxt_idx the llog index, it defines the purpose of this llog. * Every new llog type have to use own index. * \param[in] disk_obd the storage obd, where llog is stored. * * \retval 0 on successful llog setup * \retval negative value on error */ static int llog_osd_setup(const struct lu_env *env, struct obd_device *obd, struct obd_llog_group *olg, int ctxt_idx, struct obd_device *disk_obd) { struct llog_thread_info *lgi = llog_info(env); struct llog_ctxt *ctxt; int rc = 0; ENTRY; LASSERT(obd); LASSERT(olg->olg_ctxts[ctxt_idx]); ctxt = llog_ctxt_get(olg->olg_ctxts[ctxt_idx]); LASSERT(ctxt); if (disk_obd == NULL) GOTO(out, rc = 0); /* initialize data allowing to generate new fids, * literally we need a sequece */ lgi->lgi_fid.f_seq = FID_SEQ_LLOG; lgi->lgi_fid.f_oid = 1; lgi->lgi_fid.f_ver = 0; rc = local_oid_storage_init(env, disk_obd->obd_lvfs_ctxt.dt, &lgi->lgi_fid, &ctxt->loc_los_nameless); if (rc != 0) GOTO(out, rc); lgi->lgi_fid.f_seq = FID_SEQ_LLOG_NAME; lgi->lgi_fid.f_oid = 1; lgi->lgi_fid.f_ver = 0; rc = local_oid_storage_init(env, disk_obd->obd_lvfs_ctxt.dt, &lgi->lgi_fid, &ctxt->loc_los_named); if (rc != 0) { local_oid_storage_fini(env, ctxt->loc_los_nameless); ctxt->loc_los_nameless = NULL; } GOTO(out, rc); out: llog_ctxt_put(ctxt); return rc; } /** * Implementation of the llog_operations::lop_cleanup * * This function cleanups the llog on local storage. * * \param[in] env execution environment * \param[in] ctxt the llog context * * \retval 0 */ static int llog_osd_cleanup(const struct lu_env *env, struct llog_ctxt *ctxt) { if (ctxt->loc_los_nameless != NULL) { local_oid_storage_fini(env, ctxt->loc_los_nameless); ctxt->loc_los_nameless = NULL; } if (ctxt->loc_los_named != NULL) { local_oid_storage_fini(env, ctxt->loc_los_named); ctxt->loc_los_named = NULL; } return 0; } const struct llog_operations llog_osd_ops = { .lop_next_block = llog_osd_next_block, .lop_prev_block = llog_osd_prev_block, .lop_read_header = llog_osd_read_header, .lop_declare_destroy = llog_osd_declare_destroy, .lop_destroy = llog_osd_destroy, .lop_setup = llog_osd_setup, .lop_cleanup = llog_osd_cleanup, .lop_open = llog_osd_open, .lop_exist = llog_osd_exist, .lop_declare_create = llog_osd_declare_create, .lop_create = llog_osd_create, .lop_declare_write_rec = llog_osd_declare_write_rec, .lop_write_rec = llog_osd_write_rec, .lop_close = llog_osd_close, }; EXPORT_SYMBOL(llog_osd_ops); const struct llog_operations llog_common_cat_ops = { .lop_next_block = llog_osd_next_block, .lop_prev_block = llog_osd_prev_block, .lop_read_header = llog_osd_read_header, .lop_declare_destroy = llog_osd_declare_destroy, .lop_destroy = llog_osd_destroy, .lop_setup = llog_osd_setup, .lop_cleanup = llog_osd_cleanup, .lop_open = llog_osd_open, .lop_exist = llog_osd_exist, .lop_declare_create = llog_osd_declare_create, .lop_create = llog_osd_create, .lop_declare_write_rec = llog_osd_declare_write_rec, .lop_write_rec = llog_osd_write_rec, .lop_close = llog_osd_close, .lop_add = llog_cat_add_rec, .lop_declare_add = llog_cat_declare_add_rec, }; EXPORT_SYMBOL(llog_common_cat_ops); /** * Read the special file which contains the list of llog catalogs IDs * * This function reads the CATALOGS file which contains the array of llog * catalogs IDs. The main purpose of this file is to store OSP llogs indexed * by OST/MDT number. * * \param[in] env execution environment * \param[in] d corresponding storage device * \param[in] idx position to start from, usually OST/MDT index * \param[in] count how many catalog IDs to read * \param[out] idarray the buffer for the data. If it is NULL then * function returns just number of catalog IDs * in the file. * \param[in] fid LLOG_CATALOGS_OID for CATALOG object * * \retval 0 on successful read of catalog IDs * \retval negative value on error * \retval positive value which is number of records in * the file if \a idarray is NULL */ int llog_osd_get_cat_list(const struct lu_env *env, struct dt_device *d, int idx, int count, struct llog_catid *idarray, const struct lu_fid *fid) { struct llog_thread_info *lgi = llog_info(env); struct dt_object *o = NULL; struct thandle *th; int rc, size; ENTRY; LASSERT(d); size = sizeof(*idarray) * count; lgi->lgi_off = idx * sizeof(*idarray); lgi->lgi_fid = *fid; o = dt_locate(env, d, &lgi->lgi_fid); if (IS_ERR(o)) RETURN(PTR_ERR(o)); if (!dt_object_exists(o)) { th = dt_trans_create(env, d); if (IS_ERR(th)) GOTO(out, rc = PTR_ERR(th)); lgi->lgi_attr.la_valid = LA_MODE | LA_TYPE; lgi->lgi_attr.la_mode = S_IFREG | S_IRUGO | S_IWUSR; lgi->lgi_dof.dof_type = dt_mode_to_dft(S_IFREG); th->th_wait_submit = 1; /* Make the llog object creation synchronization, so * it will be reliable to the reference, especially * for remote reference */ th->th_sync = 1; rc = dt_declare_create(env, o, &lgi->lgi_attr, NULL, &lgi->lgi_dof, th); if (rc) GOTO(out_trans, rc); rc = dt_trans_start_local(env, d, th); if (rc) GOTO(out_trans, rc); dt_write_lock(env, o, 0); if (!dt_object_exists(o)) rc = dt_create(env, o, &lgi->lgi_attr, NULL, &lgi->lgi_dof, th); dt_write_unlock(env, o); out_trans: dt_trans_stop(env, d, th); if (rc) GOTO(out, rc); } rc = dt_attr_get(env, o, &lgi->lgi_attr); if (rc) GOTO(out, rc); if (!S_ISREG(lgi->lgi_attr.la_mode)) { CERROR("%s: CATALOGS is not a regular file!: mode = %o\n", o->do_lu.lo_dev->ld_obd->obd_name, lgi->lgi_attr.la_mode); GOTO(out, rc = -ENOENT); } CDEBUG(D_CONFIG, "cat list: disk size=%d, read=%d\n", (int)lgi->lgi_attr.la_size, size); /* return just number of llogs */ if (idarray == NULL) { rc = lgi->lgi_attr.la_size / sizeof(*idarray); GOTO(out, rc); } /* read for new ost index or for empty file */ memset(idarray, 0, size); if (lgi->lgi_attr.la_size <= lgi->lgi_off) GOTO(out, rc = 0); if (lgi->lgi_attr.la_size < lgi->lgi_off + size) size = lgi->lgi_attr.la_size - lgi->lgi_off; lgi->lgi_buf.lb_buf = idarray; lgi->lgi_buf.lb_len = size; rc = dt_record_read(env, o, &lgi->lgi_buf, &lgi->lgi_off); /* -EFAULT means the llog is a sparse file. This is not an error * after arbitrary OST index is supported. */ if (rc < 0 && rc != -EFAULT) { CERROR("%s: error reading CATALOGS: rc = %d\n", o->do_lu.lo_dev->ld_obd->obd_name, rc); GOTO(out, rc); } EXIT; out: dt_object_put(env, o); RETURN(rc); } EXPORT_SYMBOL(llog_osd_get_cat_list); /** * Write the special file which contains the list of llog catalogs IDs * * This function writes the CATALOG file which contains the array of llog * catalogs IDs. It is used mostly to store OSP llogs indexed by OST/MDT * number. * * \param[in] env execution environment * \param[in] d corresponding storage device * \param[in] idx position to start from, usually OST/MDT index * \param[in] count how many catalog IDs to write * \param[out] idarray the buffer with the data to write. * \param[in] fid LLOG_CATALOGS_OID for CATALOG object * * \retval 0 on successful write of catalog IDs * \retval negative value on error */ int llog_osd_put_cat_list(const struct lu_env *env, struct dt_device *d, int idx, int count, struct llog_catid *idarray, const struct lu_fid *fid) { struct llog_thread_info *lgi = llog_info(env); struct dt_object *o = NULL; struct thandle *th; int rc, size; if (count == 0) RETURN(0); LASSERT(d); size = sizeof(*idarray) * count; lgi->lgi_off = idx * sizeof(*idarray); lgi->lgi_fid = *fid; o = dt_locate(env, d, &lgi->lgi_fid); if (IS_ERR(o)) RETURN(PTR_ERR(o)); if (!dt_object_exists(o)) GOTO(out, rc = -ENOENT); rc = dt_attr_get(env, o, &lgi->lgi_attr); if (rc) GOTO(out, rc); if (!S_ISREG(lgi->lgi_attr.la_mode)) { CERROR("%s: CATALOGS is not a regular file!: mode = %o\n", o->do_lu.lo_dev->ld_obd->obd_name, lgi->lgi_attr.la_mode); GOTO(out, rc = -ENOENT); } th = dt_trans_create(env, d); if (IS_ERR(th)) GOTO(out, rc = PTR_ERR(th)); lgi->lgi_buf.lb_len = size; lgi->lgi_buf.lb_buf = idarray; rc = dt_declare_record_write(env, o, &lgi->lgi_buf, lgi->lgi_off, th); if (rc) GOTO(out_trans, rc); /* For update log, this happens during initialization, * see lod_sub_prep_llog(), and we need make sure catlog * file ID is written to catlist file(committed) before * cross-MDT operation write update records to catlog FILE, * otherwise, during failover these update records might * missing */ if (fid_is_update_log(fid)) th->th_sync = 1; rc = dt_trans_start_local(env, d, th); if (rc) GOTO(out_trans, rc); th->th_wait_submit = 1; rc = dt_record_write(env, o, &lgi->lgi_buf, &lgi->lgi_off, th); if (rc) CDEBUG(D_INODE, "can't write CATALOGS at index %d: rc = %d\n", idx, rc); out_trans: dt_trans_stop(env, d, th); out: dt_object_put(env, o); RETURN(rc); } EXPORT_SYMBOL(llog_osd_put_cat_list);