diff --git a/module/zfs/dmu_recv.c b/module/zfs/dmu_recv.c index 1684d9d92ff5..3763cba02135 100644 --- a/module/zfs/dmu_recv.c +++ b/module/zfs/dmu_recv.c @@ -1,3781 +1,3798 @@ /* * 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 https://opensource.org/licenses/CDDL-1.0. * 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 (c) 2005, 2010, Oracle and/or its affiliates. All rights reserved. * Copyright 2011 Nexenta Systems, Inc. All rights reserved. * Copyright (c) 2011, 2020 by Delphix. All rights reserved. * Copyright (c) 2014, Joyent, Inc. All rights reserved. * Copyright 2014 HybridCluster. All rights reserved. * Copyright (c) 2018, loli10K . All rights reserved. * Copyright (c) 2019, Klara Inc. * Copyright (c) 2019, Allan Jude * Copyright (c) 2019 Datto Inc. * Copyright (c) 2022 Axcient. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifdef _KERNEL #include #endif #include static uint_t zfs_recv_queue_length = SPA_MAXBLOCKSIZE; static uint_t zfs_recv_queue_ff = 20; static uint_t zfs_recv_write_batch_size = 1024 * 1024; static int zfs_recv_best_effort_corrective = 0; static const void *const dmu_recv_tag = "dmu_recv_tag"; const char *const recv_clone_name = "%recv"; typedef enum { ORNS_NO, ORNS_YES, ORNS_MAYBE } or_need_sync_t; static int receive_read_payload_and_next_header(dmu_recv_cookie_t *ra, int len, void *buf); struct receive_record_arg { dmu_replay_record_t header; void *payload; /* Pointer to a buffer containing the payload */ /* * If the record is a WRITE or SPILL, pointer to the abd containing the * payload. */ abd_t *abd; int payload_size; uint64_t bytes_read; /* bytes read from stream when record created */ boolean_t eos_marker; /* Marks the end of the stream */ bqueue_node_t node; }; struct receive_writer_arg { objset_t *os; boolean_t byteswap; bqueue_t q; /* * These three members are used to signal to the main thread when * we're done. */ kmutex_t mutex; kcondvar_t cv; boolean_t done; int err; const char *tofs; boolean_t heal; boolean_t resumable; boolean_t raw; /* DMU_BACKUP_FEATURE_RAW set */ boolean_t spill; /* DRR_FLAG_SPILL_BLOCK set */ boolean_t full; /* this is a full send stream */ uint64_t last_object; uint64_t last_offset; uint64_t max_object; /* highest object ID referenced in stream */ uint64_t bytes_read; /* bytes read when current record created */ list_t write_batch; /* Encryption parameters for the last received DRR_OBJECT_RANGE */ boolean_t or_crypt_params_present; uint64_t or_firstobj; uint64_t or_numslots; uint8_t or_salt[ZIO_DATA_SALT_LEN]; uint8_t or_iv[ZIO_DATA_IV_LEN]; uint8_t or_mac[ZIO_DATA_MAC_LEN]; boolean_t or_byteorder; zio_t *heal_pio; /* Keep track of DRR_FREEOBJECTS right after DRR_OBJECT_RANGE */ or_need_sync_t or_need_sync; }; typedef struct dmu_recv_begin_arg { const char *drba_origin; dmu_recv_cookie_t *drba_cookie; cred_t *drba_cred; proc_t *drba_proc; dsl_crypto_params_t *drba_dcp; } dmu_recv_begin_arg_t; static void byteswap_record(dmu_replay_record_t *drr) { #define DO64(X) (drr->drr_u.X = BSWAP_64(drr->drr_u.X)) #define DO32(X) (drr->drr_u.X = BSWAP_32(drr->drr_u.X)) drr->drr_type = BSWAP_32(drr->drr_type); drr->drr_payloadlen = BSWAP_32(drr->drr_payloadlen); switch (drr->drr_type) { case DRR_BEGIN: DO64(drr_begin.drr_magic); DO64(drr_begin.drr_versioninfo); DO64(drr_begin.drr_creation_time); DO32(drr_begin.drr_type); DO32(drr_begin.drr_flags); DO64(drr_begin.drr_toguid); DO64(drr_begin.drr_fromguid); break; case DRR_OBJECT: DO64(drr_object.drr_object); DO32(drr_object.drr_type); DO32(drr_object.drr_bonustype); DO32(drr_object.drr_blksz); DO32(drr_object.drr_bonuslen); DO32(drr_object.drr_raw_bonuslen); DO64(drr_object.drr_toguid); DO64(drr_object.drr_maxblkid); break; case DRR_FREEOBJECTS: DO64(drr_freeobjects.drr_firstobj); DO64(drr_freeobjects.drr_numobjs); DO64(drr_freeobjects.drr_toguid); break; case DRR_WRITE: DO64(drr_write.drr_object); DO32(drr_write.drr_type); DO64(drr_write.drr_offset); DO64(drr_write.drr_logical_size); DO64(drr_write.drr_toguid); ZIO_CHECKSUM_BSWAP(&drr->drr_u.drr_write.drr_key.ddk_cksum); DO64(drr_write.drr_key.ddk_prop); DO64(drr_write.drr_compressed_size); break; case DRR_WRITE_EMBEDDED: DO64(drr_write_embedded.drr_object); DO64(drr_write_embedded.drr_offset); DO64(drr_write_embedded.drr_length); DO64(drr_write_embedded.drr_toguid); DO32(drr_write_embedded.drr_lsize); DO32(drr_write_embedded.drr_psize); break; case DRR_FREE: DO64(drr_free.drr_object); DO64(drr_free.drr_offset); DO64(drr_free.drr_length); DO64(drr_free.drr_toguid); break; case DRR_SPILL: DO64(drr_spill.drr_object); DO64(drr_spill.drr_length); DO64(drr_spill.drr_toguid); DO64(drr_spill.drr_compressed_size); DO32(drr_spill.drr_type); break; case DRR_OBJECT_RANGE: DO64(drr_object_range.drr_firstobj); DO64(drr_object_range.drr_numslots); DO64(drr_object_range.drr_toguid); break; case DRR_REDACT: DO64(drr_redact.drr_object); DO64(drr_redact.drr_offset); DO64(drr_redact.drr_length); DO64(drr_redact.drr_toguid); break; case DRR_END: DO64(drr_end.drr_toguid); ZIO_CHECKSUM_BSWAP(&drr->drr_u.drr_end.drr_checksum); break; default: break; } if (drr->drr_type != DRR_BEGIN) { ZIO_CHECKSUM_BSWAP(&drr->drr_u.drr_checksum.drr_checksum); } #undef DO64 #undef DO32 } static boolean_t redact_snaps_contains(uint64_t *snaps, uint64_t num_snaps, uint64_t guid) { for (int i = 0; i < num_snaps; i++) { if (snaps[i] == guid) return (B_TRUE); } return (B_FALSE); } /* * Check that the new stream we're trying to receive is redacted with respect to * a subset of the snapshots that the origin was redacted with respect to. For * the reasons behind this, see the man page on redacted zfs sends and receives. */ static boolean_t compatible_redact_snaps(uint64_t *origin_snaps, uint64_t origin_num_snaps, uint64_t *redact_snaps, uint64_t num_redact_snaps) { /* * Short circuit the comparison; if we are redacted with respect to * more snapshots than the origin, we can't be redacted with respect * to a subset. */ if (num_redact_snaps > origin_num_snaps) { return (B_FALSE); } for (int i = 0; i < num_redact_snaps; i++) { if (!redact_snaps_contains(origin_snaps, origin_num_snaps, redact_snaps[i])) { return (B_FALSE); } } return (B_TRUE); } static boolean_t redact_check(dmu_recv_begin_arg_t *drba, dsl_dataset_t *origin) { uint64_t *origin_snaps; uint64_t origin_num_snaps; dmu_recv_cookie_t *drc = drba->drba_cookie; struct drr_begin *drrb = drc->drc_drrb; int featureflags = DMU_GET_FEATUREFLAGS(drrb->drr_versioninfo); int err = 0; boolean_t ret = B_TRUE; uint64_t *redact_snaps; uint_t numredactsnaps; /* * If this is a full send stream, we're safe no matter what. */ if (drrb->drr_fromguid == 0) return (ret); VERIFY(dsl_dataset_get_uint64_array_feature(origin, SPA_FEATURE_REDACTED_DATASETS, &origin_num_snaps, &origin_snaps)); if (nvlist_lookup_uint64_array(drc->drc_begin_nvl, BEGINNV_REDACT_FROM_SNAPS, &redact_snaps, &numredactsnaps) == 0) { /* * If the send stream was sent from the redaction bookmark or * the redacted version of the dataset, then we're safe. Verify * that this is from the a compatible redaction bookmark or * redacted dataset. */ if (!compatible_redact_snaps(origin_snaps, origin_num_snaps, redact_snaps, numredactsnaps)) { err = EINVAL; } } else if (featureflags & DMU_BACKUP_FEATURE_REDACTED) { /* * If the stream is redacted, it must be redacted with respect * to a subset of what the origin is redacted with respect to. * See case number 2 in the zfs man page section on redacted zfs * send. */ err = nvlist_lookup_uint64_array(drc->drc_begin_nvl, BEGINNV_REDACT_SNAPS, &redact_snaps, &numredactsnaps); if (err != 0 || !compatible_redact_snaps(origin_snaps, origin_num_snaps, redact_snaps, numredactsnaps)) { err = EINVAL; } } else if (!redact_snaps_contains(origin_snaps, origin_num_snaps, drrb->drr_toguid)) { /* * If the stream isn't redacted but the origin is, this must be * one of the snapshots the origin is redacted with respect to. * See case number 1 in the zfs man page section on redacted zfs * send. */ err = EINVAL; } if (err != 0) ret = B_FALSE; return (ret); } /* * If we previously received a stream with --large-block, we don't support * receiving an incremental on top of it without --large-block. This avoids * forcing a read-modify-write or trying to re-aggregate a string of WRITE * records. */ static int recv_check_large_blocks(dsl_dataset_t *ds, uint64_t featureflags) { if (dsl_dataset_feature_is_active(ds, SPA_FEATURE_LARGE_BLOCKS) && !(featureflags & DMU_BACKUP_FEATURE_LARGE_BLOCKS)) return (SET_ERROR(ZFS_ERR_STREAM_LARGE_BLOCK_MISMATCH)); return (0); } static int recv_begin_check_existing_impl(dmu_recv_begin_arg_t *drba, dsl_dataset_t *ds, uint64_t fromguid, uint64_t featureflags) { uint64_t obj; uint64_t children; int error; dsl_dataset_t *snap; dsl_pool_t *dp = ds->ds_dir->dd_pool; boolean_t encrypted = ds->ds_dir->dd_crypto_obj != 0; boolean_t raw = (featureflags & DMU_BACKUP_FEATURE_RAW) != 0; boolean_t embed = (featureflags & DMU_BACKUP_FEATURE_EMBED_DATA) != 0; /* Temporary clone name must not exist. */ error = zap_lookup(dp->dp_meta_objset, dsl_dir_phys(ds->ds_dir)->dd_child_dir_zapobj, recv_clone_name, 8, 1, &obj); if (error != ENOENT) return (error == 0 ? SET_ERROR(EBUSY) : error); /* Resume state must not be set. */ if (dsl_dataset_has_resume_receive_state(ds)) return (SET_ERROR(EBUSY)); /* New snapshot name must not exist if we're not healing it. */ error = zap_lookup(dp->dp_meta_objset, dsl_dataset_phys(ds)->ds_snapnames_zapobj, drba->drba_cookie->drc_tosnap, 8, 1, &obj); if (drba->drba_cookie->drc_heal) { if (error != 0) return (error); } else if (error != ENOENT) { return (error == 0 ? SET_ERROR(EEXIST) : error); } /* Must not have children if receiving a ZVOL. */ error = zap_count(dp->dp_meta_objset, dsl_dir_phys(ds->ds_dir)->dd_child_dir_zapobj, &children); if (error != 0) return (error); if (drba->drba_cookie->drc_drrb->drr_type != DMU_OST_ZFS && children > 0) return (SET_ERROR(ZFS_ERR_WRONG_PARENT)); /* * Check snapshot limit before receiving. We'll recheck again at the * end, but might as well abort before receiving if we're already over * the limit. * * Note that we do not check the file system limit with * dsl_dir_fscount_check because the temporary %clones don't count * against that limit. */ error = dsl_fs_ss_limit_check(ds->ds_dir, 1, ZFS_PROP_SNAPSHOT_LIMIT, NULL, drba->drba_cred, drba->drba_proc); if (error != 0) return (error); if (drba->drba_cookie->drc_heal) { /* Encryption is incompatible with embedded data. */ if (encrypted && embed) return (SET_ERROR(EINVAL)); /* Healing is not supported when in 'force' mode. */ if (drba->drba_cookie->drc_force) return (SET_ERROR(EINVAL)); /* Must have keys loaded if doing encrypted non-raw recv. */ if (encrypted && !raw) { if (spa_keystore_lookup_key(dp->dp_spa, ds->ds_object, NULL, NULL) != 0) return (SET_ERROR(EACCES)); } error = dsl_dataset_hold_obj(dp, obj, FTAG, &snap); if (error != 0) return (error); /* * When not doing best effort corrective recv healing can only * be done if the send stream is for the same snapshot as the * one we are trying to heal. */ if (zfs_recv_best_effort_corrective == 0 && drba->drba_cookie->drc_drrb->drr_toguid != dsl_dataset_phys(snap)->ds_guid) { dsl_dataset_rele(snap, FTAG); return (SET_ERROR(ENOTSUP)); } dsl_dataset_rele(snap, FTAG); } else if (fromguid != 0) { /* Sanity check the incremental recv */ uint64_t obj = dsl_dataset_phys(ds)->ds_prev_snap_obj; /* Can't perform a raw receive on top of a non-raw receive */ if (!encrypted && raw) return (SET_ERROR(EINVAL)); /* Encryption is incompatible with embedded data */ if (encrypted && embed) return (SET_ERROR(EINVAL)); /* Find snapshot in this dir that matches fromguid. */ while (obj != 0) { error = dsl_dataset_hold_obj(dp, obj, FTAG, &snap); if (error != 0) return (SET_ERROR(ENODEV)); if (snap->ds_dir != ds->ds_dir) { dsl_dataset_rele(snap, FTAG); return (SET_ERROR(ENODEV)); } if (dsl_dataset_phys(snap)->ds_guid == fromguid) break; obj = dsl_dataset_phys(snap)->ds_prev_snap_obj; dsl_dataset_rele(snap, FTAG); } if (obj == 0) return (SET_ERROR(ENODEV)); if (drba->drba_cookie->drc_force) { drba->drba_cookie->drc_fromsnapobj = obj; } else { /* * If we are not forcing, there must be no * changes since fromsnap. Raw sends have an * additional constraint that requires that * no "noop" snapshots exist between fromsnap * and tosnap for the IVset checking code to * work properly. */ if (dsl_dataset_modified_since_snap(ds, snap) || (raw && dsl_dataset_phys(ds)->ds_prev_snap_obj != snap->ds_object)) { dsl_dataset_rele(snap, FTAG); return (SET_ERROR(ETXTBSY)); } drba->drba_cookie->drc_fromsnapobj = ds->ds_prev->ds_object; } if (dsl_dataset_feature_is_active(snap, SPA_FEATURE_REDACTED_DATASETS) && !redact_check(drba, snap)) { dsl_dataset_rele(snap, FTAG); return (SET_ERROR(EINVAL)); } error = recv_check_large_blocks(snap, featureflags); if (error != 0) { dsl_dataset_rele(snap, FTAG); return (error); } dsl_dataset_rele(snap, FTAG); } else { /* If full and not healing then must be forced. */ if (!drba->drba_cookie->drc_force) return (SET_ERROR(EEXIST)); /* * We don't support using zfs recv -F to blow away * encrypted filesystems. This would require the * dsl dir to point to the old encryption key and * the new one at the same time during the receive. */ if ((!encrypted && raw) || encrypted) return (SET_ERROR(EINVAL)); /* * Perform the same encryption checks we would if * we were creating a new dataset from scratch. */ if (!raw) { boolean_t will_encrypt; error = dmu_objset_create_crypt_check( ds->ds_dir->dd_parent, drba->drba_dcp, &will_encrypt); if (error != 0) return (error); if (will_encrypt && embed) return (SET_ERROR(EINVAL)); } } return (0); } /* * Check that any feature flags used in the data stream we're receiving are * supported by the pool we are receiving into. * * Note that some of the features we explicitly check here have additional * (implicit) features they depend on, but those dependencies are enforced * through the zfeature_register() calls declaring the features that we * explicitly check. */ static int recv_begin_check_feature_flags_impl(uint64_t featureflags, spa_t *spa) { /* * Check if there are any unsupported feature flags. */ if (!DMU_STREAM_SUPPORTED(featureflags)) { return (SET_ERROR(ZFS_ERR_UNKNOWN_SEND_STREAM_FEATURE)); } /* Verify pool version supports SA if SA_SPILL feature set */ if ((featureflags & DMU_BACKUP_FEATURE_SA_SPILL) && spa_version(spa) < SPA_VERSION_SA) return (SET_ERROR(ENOTSUP)); /* * LZ4 compressed, ZSTD compressed, embedded, mooched, large blocks, * and large_dnodes in the stream can only be used if those pool * features are enabled because we don't attempt to decompress / * un-embed / un-mooch / split up the blocks / dnodes during the * receive process. */ if ((featureflags & DMU_BACKUP_FEATURE_LZ4) && !spa_feature_is_enabled(spa, SPA_FEATURE_LZ4_COMPRESS)) return (SET_ERROR(ENOTSUP)); if ((featureflags & DMU_BACKUP_FEATURE_ZSTD) && !spa_feature_is_enabled(spa, SPA_FEATURE_ZSTD_COMPRESS)) return (SET_ERROR(ENOTSUP)); if ((featureflags & DMU_BACKUP_FEATURE_EMBED_DATA) && !spa_feature_is_enabled(spa, SPA_FEATURE_EMBEDDED_DATA)) return (SET_ERROR(ENOTSUP)); if ((featureflags & DMU_BACKUP_FEATURE_LARGE_BLOCKS) && !spa_feature_is_enabled(spa, SPA_FEATURE_LARGE_BLOCKS)) return (SET_ERROR(ENOTSUP)); if ((featureflags & DMU_BACKUP_FEATURE_LARGE_DNODE) && !spa_feature_is_enabled(spa, SPA_FEATURE_LARGE_DNODE)) return (SET_ERROR(ENOTSUP)); /* * Receiving redacted streams requires that redacted datasets are * enabled. */ if ((featureflags & DMU_BACKUP_FEATURE_REDACTED) && !spa_feature_is_enabled(spa, SPA_FEATURE_REDACTED_DATASETS)) return (SET_ERROR(ENOTSUP)); return (0); } static int dmu_recv_begin_check(void *arg, dmu_tx_t *tx) { dmu_recv_begin_arg_t *drba = arg; dsl_pool_t *dp = dmu_tx_pool(tx); struct drr_begin *drrb = drba->drba_cookie->drc_drrb; uint64_t fromguid = drrb->drr_fromguid; int flags = drrb->drr_flags; ds_hold_flags_t dsflags = DS_HOLD_FLAG_NONE; int error; uint64_t featureflags = drba->drba_cookie->drc_featureflags; dsl_dataset_t *ds; const char *tofs = drba->drba_cookie->drc_tofs; /* already checked */ ASSERT3U(drrb->drr_magic, ==, DMU_BACKUP_MAGIC); ASSERT(!(featureflags & DMU_BACKUP_FEATURE_RESUMING)); if (DMU_GET_STREAM_HDRTYPE(drrb->drr_versioninfo) == DMU_COMPOUNDSTREAM || drrb->drr_type >= DMU_OST_NUMTYPES || ((flags & DRR_FLAG_CLONE) && drba->drba_origin == NULL)) return (SET_ERROR(EINVAL)); error = recv_begin_check_feature_flags_impl(featureflags, dp->dp_spa); if (error != 0) return (error); /* Resumable receives require extensible datasets */ if (drba->drba_cookie->drc_resumable && !spa_feature_is_enabled(dp->dp_spa, SPA_FEATURE_EXTENSIBLE_DATASET)) return (SET_ERROR(ENOTSUP)); if (featureflags & DMU_BACKUP_FEATURE_RAW) { /* raw receives require the encryption feature */ if (!spa_feature_is_enabled(dp->dp_spa, SPA_FEATURE_ENCRYPTION)) return (SET_ERROR(ENOTSUP)); /* embedded data is incompatible with encryption and raw recv */ if (featureflags & DMU_BACKUP_FEATURE_EMBED_DATA) return (SET_ERROR(EINVAL)); /* raw receives require spill block allocation flag */ if (!(flags & DRR_FLAG_SPILL_BLOCK)) return (SET_ERROR(ZFS_ERR_SPILL_BLOCK_FLAG_MISSING)); } else { /* * We support unencrypted datasets below encrypted ones now, * so add the DS_HOLD_FLAG_DECRYPT flag only if we are dealing * with a dataset we may encrypt. */ if (drba->drba_dcp == NULL || drba->drba_dcp->cp_crypt != ZIO_CRYPT_OFF) { dsflags |= DS_HOLD_FLAG_DECRYPT; } } error = dsl_dataset_hold_flags(dp, tofs, dsflags, FTAG, &ds); if (error == 0) { /* target fs already exists; recv into temp clone */ /* Can't recv a clone into an existing fs */ if (flags & DRR_FLAG_CLONE || drba->drba_origin) { dsl_dataset_rele_flags(ds, dsflags, FTAG); return (SET_ERROR(EINVAL)); } error = recv_begin_check_existing_impl(drba, ds, fromguid, featureflags); dsl_dataset_rele_flags(ds, dsflags, FTAG); } else if (error == ENOENT) { /* target fs does not exist; must be a full backup or clone */ char buf[ZFS_MAX_DATASET_NAME_LEN]; objset_t *os; /* healing recv must be done "into" an existing snapshot */ if (drba->drba_cookie->drc_heal == B_TRUE) return (SET_ERROR(ENOTSUP)); /* * If it's a non-clone incremental, we are missing the * target fs, so fail the recv. */ if (fromguid != 0 && !((flags & DRR_FLAG_CLONE) || drba->drba_origin)) return (SET_ERROR(ENOENT)); /* * If we're receiving a full send as a clone, and it doesn't * contain all the necessary free records and freeobject * records, reject it. */ if (fromguid == 0 && drba->drba_origin != NULL && !(flags & DRR_FLAG_FREERECORDS)) return (SET_ERROR(EINVAL)); /* Open the parent of tofs */ ASSERT3U(strlen(tofs), <, sizeof (buf)); (void) strlcpy(buf, tofs, strrchr(tofs, '/') - tofs + 1); error = dsl_dataset_hold(dp, buf, FTAG, &ds); if (error != 0) return (error); if ((featureflags & DMU_BACKUP_FEATURE_RAW) == 0 && drba->drba_origin == NULL) { boolean_t will_encrypt; /* * Check that we aren't breaking any encryption rules * and that we have all the parameters we need to * create an encrypted dataset if necessary. If we are * making an encrypted dataset the stream can't have * embedded data. */ error = dmu_objset_create_crypt_check(ds->ds_dir, drba->drba_dcp, &will_encrypt); if (error != 0) { dsl_dataset_rele(ds, FTAG); return (error); } if (will_encrypt && (featureflags & DMU_BACKUP_FEATURE_EMBED_DATA)) { dsl_dataset_rele(ds, FTAG); return (SET_ERROR(EINVAL)); } } /* * Check filesystem and snapshot limits before receiving. We'll * recheck snapshot limits again at the end (we create the * filesystems and increment those counts during begin_sync). */ error = dsl_fs_ss_limit_check(ds->ds_dir, 1, ZFS_PROP_FILESYSTEM_LIMIT, NULL, drba->drba_cred, drba->drba_proc); if (error != 0) { dsl_dataset_rele(ds, FTAG); return (error); } error = dsl_fs_ss_limit_check(ds->ds_dir, 1, ZFS_PROP_SNAPSHOT_LIMIT, NULL, drba->drba_cred, drba->drba_proc); if (error != 0) { dsl_dataset_rele(ds, FTAG); return (error); } /* can't recv below anything but filesystems (eg. no ZVOLs) */ error = dmu_objset_from_ds(ds, &os); if (error != 0) { dsl_dataset_rele(ds, FTAG); return (error); } if (dmu_objset_type(os) != DMU_OST_ZFS) { dsl_dataset_rele(ds, FTAG); return (SET_ERROR(ZFS_ERR_WRONG_PARENT)); } if (drba->drba_origin != NULL) { dsl_dataset_t *origin; error = dsl_dataset_hold_flags(dp, drba->drba_origin, dsflags, FTAG, &origin); if (error != 0) { dsl_dataset_rele(ds, FTAG); return (error); } if (!origin->ds_is_snapshot) { dsl_dataset_rele_flags(origin, dsflags, FTAG); dsl_dataset_rele(ds, FTAG); return (SET_ERROR(EINVAL)); } if (dsl_dataset_phys(origin)->ds_guid != fromguid && fromguid != 0) { dsl_dataset_rele_flags(origin, dsflags, FTAG); dsl_dataset_rele(ds, FTAG); return (SET_ERROR(ENODEV)); } if (origin->ds_dir->dd_crypto_obj != 0 && (featureflags & DMU_BACKUP_FEATURE_EMBED_DATA)) { dsl_dataset_rele_flags(origin, dsflags, FTAG); dsl_dataset_rele(ds, FTAG); return (SET_ERROR(EINVAL)); } /* * If the origin is redacted we need to verify that this * send stream can safely be received on top of the * origin. */ if (dsl_dataset_feature_is_active(origin, SPA_FEATURE_REDACTED_DATASETS)) { if (!redact_check(drba, origin)) { dsl_dataset_rele_flags(origin, dsflags, FTAG); dsl_dataset_rele_flags(ds, dsflags, FTAG); return (SET_ERROR(EINVAL)); } } error = recv_check_large_blocks(ds, featureflags); if (error != 0) { dsl_dataset_rele_flags(origin, dsflags, FTAG); dsl_dataset_rele_flags(ds, dsflags, FTAG); return (error); } dsl_dataset_rele_flags(origin, dsflags, FTAG); } dsl_dataset_rele(ds, FTAG); error = 0; } return (error); } static void dmu_recv_begin_sync(void *arg, dmu_tx_t *tx) { dmu_recv_begin_arg_t *drba = arg; dsl_pool_t *dp = dmu_tx_pool(tx); objset_t *mos = dp->dp_meta_objset; dmu_recv_cookie_t *drc = drba->drba_cookie; struct drr_begin *drrb = drc->drc_drrb; const char *tofs = drc->drc_tofs; uint64_t featureflags = drc->drc_featureflags; dsl_dataset_t *ds, *newds; objset_t *os; uint64_t dsobj; ds_hold_flags_t dsflags = DS_HOLD_FLAG_NONE; int error; uint64_t crflags = 0; dsl_crypto_params_t dummy_dcp = { 0 }; dsl_crypto_params_t *dcp = drba->drba_dcp; if (drrb->drr_flags & DRR_FLAG_CI_DATA) crflags |= DS_FLAG_CI_DATASET; if ((featureflags & DMU_BACKUP_FEATURE_RAW) == 0) dsflags |= DS_HOLD_FLAG_DECRYPT; /* * Raw, non-incremental recvs always use a dummy dcp with * the raw cmd set. Raw incremental recvs do not use a dcp * since the encryption parameters are already set in stone. */ if (dcp == NULL && drrb->drr_fromguid == 0 && drba->drba_origin == NULL) { ASSERT3P(dcp, ==, NULL); dcp = &dummy_dcp; if (featureflags & DMU_BACKUP_FEATURE_RAW) dcp->cp_cmd = DCP_CMD_RAW_RECV; } error = dsl_dataset_hold_flags(dp, tofs, dsflags, FTAG, &ds); if (error == 0) { /* Create temporary clone unless we're doing corrective recv */ dsl_dataset_t *snap = NULL; if (drba->drba_cookie->drc_fromsnapobj != 0) { VERIFY0(dsl_dataset_hold_obj(dp, drba->drba_cookie->drc_fromsnapobj, FTAG, &snap)); ASSERT3P(dcp, ==, NULL); } if (drc->drc_heal) { /* When healing we want to use the provided snapshot */ VERIFY0(dsl_dataset_snap_lookup(ds, drc->drc_tosnap, &dsobj)); } else { dsobj = dsl_dataset_create_sync(ds->ds_dir, recv_clone_name, snap, crflags, drba->drba_cred, dcp, tx); } if (drba->drba_cookie->drc_fromsnapobj != 0) dsl_dataset_rele(snap, FTAG); dsl_dataset_rele_flags(ds, dsflags, FTAG); } else { dsl_dir_t *dd; const char *tail; dsl_dataset_t *origin = NULL; VERIFY0(dsl_dir_hold(dp, tofs, FTAG, &dd, &tail)); if (drba->drba_origin != NULL) { VERIFY0(dsl_dataset_hold(dp, drba->drba_origin, FTAG, &origin)); ASSERT3P(dcp, ==, NULL); } /* Create new dataset. */ dsobj = dsl_dataset_create_sync(dd, strrchr(tofs, '/') + 1, origin, crflags, drba->drba_cred, dcp, tx); if (origin != NULL) dsl_dataset_rele(origin, FTAG); dsl_dir_rele(dd, FTAG); drc->drc_newfs = B_TRUE; } VERIFY0(dsl_dataset_own_obj_force(dp, dsobj, dsflags, dmu_recv_tag, &newds)); if (dsl_dataset_feature_is_active(newds, SPA_FEATURE_REDACTED_DATASETS)) { /* * If the origin dataset is redacted, the child will be redacted * when we create it. We clear the new dataset's * redaction info; if it should be redacted, we'll fill * in its information later. */ dsl_dataset_deactivate_feature(newds, SPA_FEATURE_REDACTED_DATASETS, tx); } VERIFY0(dmu_objset_from_ds(newds, &os)); if (drc->drc_resumable) { dsl_dataset_zapify(newds, tx); if (drrb->drr_fromguid != 0) { VERIFY0(zap_add(mos, dsobj, DS_FIELD_RESUME_FROMGUID, 8, 1, &drrb->drr_fromguid, tx)); } VERIFY0(zap_add(mos, dsobj, DS_FIELD_RESUME_TOGUID, 8, 1, &drrb->drr_toguid, tx)); VERIFY0(zap_add(mos, dsobj, DS_FIELD_RESUME_TONAME, 1, strlen(drrb->drr_toname) + 1, drrb->drr_toname, tx)); uint64_t one = 1; uint64_t zero = 0; VERIFY0(zap_add(mos, dsobj, DS_FIELD_RESUME_OBJECT, 8, 1, &one, tx)); VERIFY0(zap_add(mos, dsobj, DS_FIELD_RESUME_OFFSET, 8, 1, &zero, tx)); VERIFY0(zap_add(mos, dsobj, DS_FIELD_RESUME_BYTES, 8, 1, &zero, tx)); if (featureflags & DMU_BACKUP_FEATURE_LARGE_BLOCKS) { VERIFY0(zap_add(mos, dsobj, DS_FIELD_RESUME_LARGEBLOCK, 8, 1, &one, tx)); } if (featureflags & DMU_BACKUP_FEATURE_EMBED_DATA) { VERIFY0(zap_add(mos, dsobj, DS_FIELD_RESUME_EMBEDOK, 8, 1, &one, tx)); } if (featureflags & DMU_BACKUP_FEATURE_COMPRESSED) { VERIFY0(zap_add(mos, dsobj, DS_FIELD_RESUME_COMPRESSOK, 8, 1, &one, tx)); } if (featureflags & DMU_BACKUP_FEATURE_RAW) { VERIFY0(zap_add(mos, dsobj, DS_FIELD_RESUME_RAWOK, 8, 1, &one, tx)); } uint64_t *redact_snaps; uint_t numredactsnaps; if (nvlist_lookup_uint64_array(drc->drc_begin_nvl, BEGINNV_REDACT_FROM_SNAPS, &redact_snaps, &numredactsnaps) == 0) { VERIFY0(zap_add(mos, dsobj, DS_FIELD_RESUME_REDACT_BOOKMARK_SNAPS, sizeof (*redact_snaps), numredactsnaps, redact_snaps, tx)); } } /* * Usually the os->os_encrypted value is tied to the presence of a * DSL Crypto Key object in the dd. However, that will not be received * until dmu_recv_stream(), so we set the value manually for now. */ if (featureflags & DMU_BACKUP_FEATURE_RAW) { os->os_encrypted = B_TRUE; drba->drba_cookie->drc_raw = B_TRUE; } if (featureflags & DMU_BACKUP_FEATURE_REDACTED) { uint64_t *redact_snaps; uint_t numredactsnaps; VERIFY0(nvlist_lookup_uint64_array(drc->drc_begin_nvl, BEGINNV_REDACT_SNAPS, &redact_snaps, &numredactsnaps)); dsl_dataset_activate_redaction(newds, redact_snaps, numredactsnaps, tx); } dmu_buf_will_dirty(newds->ds_dbuf, tx); dsl_dataset_phys(newds)->ds_flags |= DS_FLAG_INCONSISTENT; /* * If we actually created a non-clone, we need to create the objset * in our new dataset. If this is a raw send we postpone this until * dmu_recv_stream() so that we can allocate the metadnode with the * properties from the DRR_BEGIN payload. */ rrw_enter(&newds->ds_bp_rwlock, RW_READER, FTAG); if (BP_IS_HOLE(dsl_dataset_get_blkptr(newds)) && (featureflags & DMU_BACKUP_FEATURE_RAW) == 0 && !drc->drc_heal) { (void) dmu_objset_create_impl(dp->dp_spa, newds, dsl_dataset_get_blkptr(newds), drrb->drr_type, tx); } rrw_exit(&newds->ds_bp_rwlock, FTAG); drba->drba_cookie->drc_ds = newds; drba->drba_cookie->drc_os = os; spa_history_log_internal_ds(newds, "receive", tx, " "); } static int dmu_recv_resume_begin_check(void *arg, dmu_tx_t *tx) { dmu_recv_begin_arg_t *drba = arg; dmu_recv_cookie_t *drc = drba->drba_cookie; dsl_pool_t *dp = dmu_tx_pool(tx); struct drr_begin *drrb = drc->drc_drrb; int error; ds_hold_flags_t dsflags = DS_HOLD_FLAG_NONE; dsl_dataset_t *ds; const char *tofs = drc->drc_tofs; /* already checked */ ASSERT3U(drrb->drr_magic, ==, DMU_BACKUP_MAGIC); ASSERT(drc->drc_featureflags & DMU_BACKUP_FEATURE_RESUMING); if (DMU_GET_STREAM_HDRTYPE(drrb->drr_versioninfo) == DMU_COMPOUNDSTREAM || drrb->drr_type >= DMU_OST_NUMTYPES) return (SET_ERROR(EINVAL)); /* * This is mostly a sanity check since we should have already done these * checks during a previous attempt to receive the data. */ error = recv_begin_check_feature_flags_impl(drc->drc_featureflags, dp->dp_spa); if (error != 0) return (error); /* 6 extra bytes for /%recv */ char recvname[ZFS_MAX_DATASET_NAME_LEN + 6]; (void) snprintf(recvname, sizeof (recvname), "%s/%s", tofs, recv_clone_name); if (drc->drc_featureflags & DMU_BACKUP_FEATURE_RAW) { /* raw receives require spill block allocation flag */ if (!(drrb->drr_flags & DRR_FLAG_SPILL_BLOCK)) return (SET_ERROR(ZFS_ERR_SPILL_BLOCK_FLAG_MISSING)); } else { dsflags |= DS_HOLD_FLAG_DECRYPT; } boolean_t recvexist = B_TRUE; if (dsl_dataset_hold_flags(dp, recvname, dsflags, FTAG, &ds) != 0) { /* %recv does not exist; continue in tofs */ recvexist = B_FALSE; error = dsl_dataset_hold_flags(dp, tofs, dsflags, FTAG, &ds); if (error != 0) return (error); } /* * Resume of full/newfs recv on existing dataset should be done with * force flag */ if (recvexist && drrb->drr_fromguid == 0 && !drc->drc_force) { dsl_dataset_rele_flags(ds, dsflags, FTAG); return (SET_ERROR(ZFS_ERR_RESUME_EXISTS)); } /* check that ds is marked inconsistent */ if (!DS_IS_INCONSISTENT(ds)) { dsl_dataset_rele_flags(ds, dsflags, FTAG); return (SET_ERROR(EINVAL)); } /* check that there is resuming data, and that the toguid matches */ if (!dsl_dataset_is_zapified(ds)) { dsl_dataset_rele_flags(ds, dsflags, FTAG); return (SET_ERROR(EINVAL)); } uint64_t val; error = zap_lookup(dp->dp_meta_objset, ds->ds_object, DS_FIELD_RESUME_TOGUID, sizeof (val), 1, &val); if (error != 0 || drrb->drr_toguid != val) { dsl_dataset_rele_flags(ds, dsflags, FTAG); return (SET_ERROR(EINVAL)); } /* * Check if the receive is still running. If so, it will be owned. * Note that nothing else can own the dataset (e.g. after the receive * fails) because it will be marked inconsistent. */ if (dsl_dataset_has_owner(ds)) { dsl_dataset_rele_flags(ds, dsflags, FTAG); return (SET_ERROR(EBUSY)); } /* There should not be any snapshots of this fs yet. */ if (ds->ds_prev != NULL && ds->ds_prev->ds_dir == ds->ds_dir) { dsl_dataset_rele_flags(ds, dsflags, FTAG); return (SET_ERROR(EINVAL)); } /* * Note: resume point will be checked when we process the first WRITE * record. */ /* check that the origin matches */ val = 0; (void) zap_lookup(dp->dp_meta_objset, ds->ds_object, DS_FIELD_RESUME_FROMGUID, sizeof (val), 1, &val); if (drrb->drr_fromguid != val) { dsl_dataset_rele_flags(ds, dsflags, FTAG); return (SET_ERROR(EINVAL)); } if (ds->ds_prev != NULL && drrb->drr_fromguid != 0) drc->drc_fromsnapobj = ds->ds_prev->ds_object; /* * If we're resuming, and the send is redacted, then the original send * must have been redacted, and must have been redacted with respect to * the same snapshots. */ if (drc->drc_featureflags & DMU_BACKUP_FEATURE_REDACTED) { uint64_t num_ds_redact_snaps; uint64_t *ds_redact_snaps; uint_t num_stream_redact_snaps; uint64_t *stream_redact_snaps; if (nvlist_lookup_uint64_array(drc->drc_begin_nvl, BEGINNV_REDACT_SNAPS, &stream_redact_snaps, &num_stream_redact_snaps) != 0) { dsl_dataset_rele_flags(ds, dsflags, FTAG); return (SET_ERROR(EINVAL)); } if (!dsl_dataset_get_uint64_array_feature(ds, SPA_FEATURE_REDACTED_DATASETS, &num_ds_redact_snaps, &ds_redact_snaps)) { dsl_dataset_rele_flags(ds, dsflags, FTAG); return (SET_ERROR(EINVAL)); } for (int i = 0; i < num_ds_redact_snaps; i++) { if (!redact_snaps_contains(ds_redact_snaps, num_ds_redact_snaps, stream_redact_snaps[i])) { dsl_dataset_rele_flags(ds, dsflags, FTAG); return (SET_ERROR(EINVAL)); } } } error = recv_check_large_blocks(ds, drc->drc_featureflags); if (error != 0) { dsl_dataset_rele_flags(ds, dsflags, FTAG); return (error); } dsl_dataset_rele_flags(ds, dsflags, FTAG); return (0); } static void dmu_recv_resume_begin_sync(void *arg, dmu_tx_t *tx) { dmu_recv_begin_arg_t *drba = arg; dsl_pool_t *dp = dmu_tx_pool(tx); const char *tofs = drba->drba_cookie->drc_tofs; uint64_t featureflags = drba->drba_cookie->drc_featureflags; dsl_dataset_t *ds; ds_hold_flags_t dsflags = DS_HOLD_FLAG_NONE; /* 6 extra bytes for /%recv */ char recvname[ZFS_MAX_DATASET_NAME_LEN + 6]; (void) snprintf(recvname, sizeof (recvname), "%s/%s", tofs, recv_clone_name); if (featureflags & DMU_BACKUP_FEATURE_RAW) { drba->drba_cookie->drc_raw = B_TRUE; } else { dsflags |= DS_HOLD_FLAG_DECRYPT; } if (dsl_dataset_own_force(dp, recvname, dsflags, dmu_recv_tag, &ds) != 0) { /* %recv does not exist; continue in tofs */ VERIFY0(dsl_dataset_own_force(dp, tofs, dsflags, dmu_recv_tag, &ds)); drba->drba_cookie->drc_newfs = B_TRUE; } ASSERT(DS_IS_INCONSISTENT(ds)); rrw_enter(&ds->ds_bp_rwlock, RW_READER, FTAG); ASSERT(!BP_IS_HOLE(dsl_dataset_get_blkptr(ds)) || drba->drba_cookie->drc_raw); rrw_exit(&ds->ds_bp_rwlock, FTAG); drba->drba_cookie->drc_ds = ds; VERIFY0(dmu_objset_from_ds(ds, &drba->drba_cookie->drc_os)); drba->drba_cookie->drc_should_save = B_TRUE; spa_history_log_internal_ds(ds, "resume receive", tx, " "); } /* * NB: callers *MUST* call dmu_recv_stream() if dmu_recv_begin() * succeeds; otherwise we will leak the holds on the datasets. */ int dmu_recv_begin(char *tofs, char *tosnap, dmu_replay_record_t *drr_begin, boolean_t force, boolean_t heal, boolean_t resumable, nvlist_t *localprops, nvlist_t *hidden_args, char *origin, dmu_recv_cookie_t *drc, zfs_file_t *fp, offset_t *voffp) { dmu_recv_begin_arg_t drba = { 0 }; int err; memset(drc, 0, sizeof (dmu_recv_cookie_t)); drc->drc_drr_begin = drr_begin; drc->drc_drrb = &drr_begin->drr_u.drr_begin; drc->drc_tosnap = tosnap; drc->drc_tofs = tofs; drc->drc_force = force; drc->drc_heal = heal; drc->drc_resumable = resumable; drc->drc_cred = CRED(); drc->drc_proc = curproc; drc->drc_clone = (origin != NULL); if (drc->drc_drrb->drr_magic == BSWAP_64(DMU_BACKUP_MAGIC)) { drc->drc_byteswap = B_TRUE; (void) fletcher_4_incremental_byteswap(drr_begin, sizeof (dmu_replay_record_t), &drc->drc_cksum); byteswap_record(drr_begin); } else if (drc->drc_drrb->drr_magic == DMU_BACKUP_MAGIC) { (void) fletcher_4_incremental_native(drr_begin, sizeof (dmu_replay_record_t), &drc->drc_cksum); } else { return (SET_ERROR(EINVAL)); } drc->drc_fp = fp; drc->drc_voff = *voffp; drc->drc_featureflags = DMU_GET_FEATUREFLAGS(drc->drc_drrb->drr_versioninfo); uint32_t payloadlen = drc->drc_drr_begin->drr_payloadlen; - void *payload = NULL; /* * Since OpenZFS 2.0.0, we have enforced a 64MB limit in userspace * configurable via ZFS_SENDRECV_MAX_NVLIST. We enforce 256MB as a hard * upper limit. Systems with less than 1GB of RAM will see a lower * limit from `arc_all_memory() / 4`. */ if (payloadlen > (MIN((1U << 28), arc_all_memory() / 4))) return (E2BIG); - if (payloadlen != 0) - payload = vmem_alloc(payloadlen, KM_SLEEP); - err = receive_read_payload_and_next_header(drc, payloadlen, - payload); - if (err != 0) { - vmem_free(payload, payloadlen); - return (err); - } if (payloadlen != 0) { + void *payload = vmem_alloc(payloadlen, KM_SLEEP); + /* + * For compatibility with recursive send streams, we don't do + * this here if the stream could be part of a package. Instead, + * we'll do it in dmu_recv_stream. If we pull the next header + * too early, and it's the END record, we break the `recv_skip` + * logic. + */ + + err = receive_read_payload_and_next_header(drc, payloadlen, + payload); + if (err != 0) { + vmem_free(payload, payloadlen); + return (err); + } err = nvlist_unpack(payload, payloadlen, &drc->drc_begin_nvl, KM_SLEEP); vmem_free(payload, payloadlen); if (err != 0) { kmem_free(drc->drc_next_rrd, sizeof (*drc->drc_next_rrd)); return (err); } } if (drc->drc_drrb->drr_flags & DRR_FLAG_SPILL_BLOCK) drc->drc_spill = B_TRUE; drba.drba_origin = origin; drba.drba_cookie = drc; drba.drba_cred = CRED(); drba.drba_proc = curproc; if (drc->drc_featureflags & DMU_BACKUP_FEATURE_RESUMING) { err = dsl_sync_task(tofs, dmu_recv_resume_begin_check, dmu_recv_resume_begin_sync, &drba, 5, ZFS_SPACE_CHECK_NORMAL); } else { /* * For non-raw, non-incremental, non-resuming receives the * user can specify encryption parameters on the command line * with "zfs recv -o". For these receives we create a dcp and * pass it to the sync task. Creating the dcp will implicitly * remove the encryption params from the localprops nvlist, * which avoids errors when trying to set these normally * read-only properties. Any other kind of receive that * attempts to set these properties will fail as a result. */ if ((DMU_GET_FEATUREFLAGS(drc->drc_drrb->drr_versioninfo) & DMU_BACKUP_FEATURE_RAW) == 0 && origin == NULL && drc->drc_drrb->drr_fromguid == 0) { err = dsl_crypto_params_create_nvlist(DCP_CMD_NONE, localprops, hidden_args, &drba.drba_dcp); } if (err == 0) { err = dsl_sync_task(tofs, dmu_recv_begin_check, dmu_recv_begin_sync, &drba, 5, ZFS_SPACE_CHECK_NORMAL); dsl_crypto_params_free(drba.drba_dcp, !!err); } } if (err != 0) { kmem_free(drc->drc_next_rrd, sizeof (*drc->drc_next_rrd)); nvlist_free(drc->drc_begin_nvl); } return (err); } /* * Holds data need for corrective recv callback */ typedef struct cr_cb_data { uint64_t size; zbookmark_phys_t zb; spa_t *spa; } cr_cb_data_t; static void corrective_read_done(zio_t *zio) { cr_cb_data_t *data = zio->io_private; /* Corruption corrected; update error log if needed */ if (zio->io_error == 0) spa_remove_error(data->spa, &data->zb); kmem_free(data, sizeof (cr_cb_data_t)); abd_free(zio->io_abd); } /* * zio_rewrite the data pointed to by bp with the data from the rrd's abd. */ static int do_corrective_recv(struct receive_writer_arg *rwa, struct drr_write *drrw, struct receive_record_arg *rrd, blkptr_t *bp) { int err; zio_t *io; zbookmark_phys_t zb; dnode_t *dn; abd_t *abd = rrd->abd; zio_cksum_t bp_cksum = bp->blk_cksum; zio_flag_t flags = ZIO_FLAG_SPECULATIVE | ZIO_FLAG_DONT_CACHE | ZIO_FLAG_DONT_RETRY | ZIO_FLAG_CANFAIL; if (rwa->raw) flags |= ZIO_FLAG_RAW; err = dnode_hold(rwa->os, drrw->drr_object, FTAG, &dn); if (err != 0) return (err); SET_BOOKMARK(&zb, dmu_objset_id(rwa->os), drrw->drr_object, 0, dbuf_whichblock(dn, 0, drrw->drr_offset)); dnode_rele(dn, FTAG); if (!rwa->raw && DRR_WRITE_COMPRESSED(drrw)) { /* Decompress the stream data */ abd_t *dabd = abd_alloc_linear( drrw->drr_logical_size, B_FALSE); err = zio_decompress_data(drrw->drr_compressiontype, abd, abd_to_buf(dabd), abd_get_size(abd), abd_get_size(dabd), NULL); if (err != 0) { abd_free(dabd); return (err); } /* Swap in the newly decompressed data into the abd */ abd_free(abd); abd = dabd; } if (!rwa->raw && BP_GET_COMPRESS(bp) != ZIO_COMPRESS_OFF) { /* Recompress the data */ abd_t *cabd = abd_alloc_linear(BP_GET_PSIZE(bp), B_FALSE); void *buf = abd_to_buf(cabd); uint64_t csize = zio_compress_data(BP_GET_COMPRESS(bp), abd, &buf, abd_get_size(abd), rwa->os->os_complevel); abd_zero_off(cabd, csize, BP_GET_PSIZE(bp) - csize); /* Swap in newly compressed data into the abd */ abd_free(abd); abd = cabd; flags |= ZIO_FLAG_RAW_COMPRESS; } /* * The stream is not encrypted but the data on-disk is. * We need to re-encrypt the buf using the same * encryption type, salt, iv, and mac that was used to encrypt * the block previosly. */ if (!rwa->raw && BP_USES_CRYPT(bp)) { dsl_dataset_t *ds; dsl_crypto_key_t *dck = NULL; uint8_t salt[ZIO_DATA_SALT_LEN]; uint8_t iv[ZIO_DATA_IV_LEN]; uint8_t mac[ZIO_DATA_MAC_LEN]; boolean_t no_crypt = B_FALSE; dsl_pool_t *dp = dmu_objset_pool(rwa->os); abd_t *eabd = abd_alloc_linear(BP_GET_PSIZE(bp), B_FALSE); zio_crypt_decode_params_bp(bp, salt, iv); zio_crypt_decode_mac_bp(bp, mac); dsl_pool_config_enter(dp, FTAG); err = dsl_dataset_hold_flags(dp, rwa->tofs, DS_HOLD_FLAG_DECRYPT, FTAG, &ds); if (err != 0) { dsl_pool_config_exit(dp, FTAG); abd_free(eabd); return (SET_ERROR(EACCES)); } /* Look up the key from the spa's keystore */ err = spa_keystore_lookup_key(rwa->os->os_spa, zb.zb_objset, FTAG, &dck); if (err != 0) { dsl_dataset_rele_flags(ds, DS_HOLD_FLAG_DECRYPT, FTAG); dsl_pool_config_exit(dp, FTAG); abd_free(eabd); return (SET_ERROR(EACCES)); } err = zio_do_crypt_abd(B_TRUE, &dck->dck_key, BP_GET_TYPE(bp), BP_SHOULD_BYTESWAP(bp), salt, iv, mac, abd_get_size(abd), abd, eabd, &no_crypt); spa_keystore_dsl_key_rele(rwa->os->os_spa, dck, FTAG); dsl_dataset_rele_flags(ds, DS_HOLD_FLAG_DECRYPT, FTAG); dsl_pool_config_exit(dp, FTAG); ASSERT0(no_crypt); if (err != 0) { abd_free(eabd); return (err); } /* Swap in the newly encrypted data into the abd */ abd_free(abd); abd = eabd; /* * We want to prevent zio_rewrite() from trying to * encrypt the data again */ flags |= ZIO_FLAG_RAW_ENCRYPT; } rrd->abd = abd; io = zio_rewrite(NULL, rwa->os->os_spa, bp->blk_birth, bp, abd, BP_GET_PSIZE(bp), NULL, NULL, ZIO_PRIORITY_SYNC_WRITE, flags, &zb); ASSERT(abd_get_size(abd) == BP_GET_LSIZE(bp) || abd_get_size(abd) == BP_GET_PSIZE(bp)); /* compute new bp checksum value and make sure it matches the old one */ zio_checksum_compute(io, BP_GET_CHECKSUM(bp), abd, abd_get_size(abd)); if (!ZIO_CHECKSUM_EQUAL(bp_cksum, io->io_bp->blk_cksum)) { zio_destroy(io); if (zfs_recv_best_effort_corrective != 0) return (0); return (SET_ERROR(ECKSUM)); } /* Correct the corruption in place */ err = zio_wait(io); if (err == 0) { cr_cb_data_t *cb_data = kmem_alloc(sizeof (cr_cb_data_t), KM_SLEEP); cb_data->spa = rwa->os->os_spa; cb_data->size = drrw->drr_logical_size; cb_data->zb = zb; /* Test if healing worked by re-reading the bp */ err = zio_wait(zio_read(rwa->heal_pio, rwa->os->os_spa, bp, abd_alloc_for_io(drrw->drr_logical_size, B_FALSE), drrw->drr_logical_size, corrective_read_done, cb_data, ZIO_PRIORITY_ASYNC_READ, flags, NULL)); } if (err != 0 && zfs_recv_best_effort_corrective != 0) err = 0; return (err); } static int receive_read(dmu_recv_cookie_t *drc, int len, void *buf) { int done = 0; /* * The code doesn't rely on this (lengths being multiples of 8). See * comment in dump_bytes. */ ASSERT(len % 8 == 0 || (drc->drc_featureflags & DMU_BACKUP_FEATURE_RAW) != 0); while (done < len) { ssize_t resid = len - done; zfs_file_t *fp = drc->drc_fp; int err = zfs_file_read(fp, (char *)buf + done, len - done, &resid); if (err == 0 && resid == len - done) { /* * Note: ECKSUM or ZFS_ERR_STREAM_TRUNCATED indicates * that the receive was interrupted and can * potentially be resumed. */ err = SET_ERROR(ZFS_ERR_STREAM_TRUNCATED); } drc->drc_voff += len - done - resid; done = len - resid; if (err != 0) return (err); } drc->drc_bytes_read += len; ASSERT3U(done, ==, len); return (0); } static inline uint8_t deduce_nblkptr(dmu_object_type_t bonus_type, uint64_t bonus_size) { if (bonus_type == DMU_OT_SA) { return (1); } else { return (1 + ((DN_OLD_MAX_BONUSLEN - MIN(DN_OLD_MAX_BONUSLEN, bonus_size)) >> SPA_BLKPTRSHIFT)); } } static void save_resume_state(struct receive_writer_arg *rwa, uint64_t object, uint64_t offset, dmu_tx_t *tx) { int txgoff = dmu_tx_get_txg(tx) & TXG_MASK; if (!rwa->resumable) return; /* * We use ds_resume_bytes[] != 0 to indicate that we need to * update this on disk, so it must not be 0. */ ASSERT(rwa->bytes_read != 0); /* * We only resume from write records, which have a valid * (non-meta-dnode) object number. */ ASSERT(object != 0); /* * For resuming to work correctly, we must receive records in order, * sorted by object,offset. This is checked by the callers, but * assert it here for good measure. */ ASSERT3U(object, >=, rwa->os->os_dsl_dataset->ds_resume_object[txgoff]); ASSERT(object != rwa->os->os_dsl_dataset->ds_resume_object[txgoff] || offset >= rwa->os->os_dsl_dataset->ds_resume_offset[txgoff]); ASSERT3U(rwa->bytes_read, >=, rwa->os->os_dsl_dataset->ds_resume_bytes[txgoff]); rwa->os->os_dsl_dataset->ds_resume_object[txgoff] = object; rwa->os->os_dsl_dataset->ds_resume_offset[txgoff] = offset; rwa->os->os_dsl_dataset->ds_resume_bytes[txgoff] = rwa->bytes_read; } static int receive_object_is_same_generation(objset_t *os, uint64_t object, dmu_object_type_t old_bonus_type, dmu_object_type_t new_bonus_type, const void *new_bonus, boolean_t *samegenp) { zfs_file_info_t zoi; int err; dmu_buf_t *old_bonus_dbuf; err = dmu_bonus_hold(os, object, FTAG, &old_bonus_dbuf); if (err != 0) return (err); err = dmu_get_file_info(os, old_bonus_type, old_bonus_dbuf->db_data, &zoi); dmu_buf_rele(old_bonus_dbuf, FTAG); if (err != 0) return (err); uint64_t old_gen = zoi.zfi_generation; err = dmu_get_file_info(os, new_bonus_type, new_bonus, &zoi); if (err != 0) return (err); uint64_t new_gen = zoi.zfi_generation; *samegenp = (old_gen == new_gen); return (0); } static int receive_handle_existing_object(const struct receive_writer_arg *rwa, const struct drr_object *drro, const dmu_object_info_t *doi, const void *bonus_data, uint64_t *object_to_hold, uint32_t *new_blksz) { uint32_t indblksz = drro->drr_indblkshift ? 1ULL << drro->drr_indblkshift : 0; int nblkptr = deduce_nblkptr(drro->drr_bonustype, drro->drr_bonuslen); uint8_t dn_slots = drro->drr_dn_slots != 0 ? drro->drr_dn_slots : DNODE_MIN_SLOTS; boolean_t do_free_range = B_FALSE; int err; *object_to_hold = drro->drr_object; /* nblkptr should be bounded by the bonus size and type */ if (rwa->raw && nblkptr != drro->drr_nblkptr) return (SET_ERROR(EINVAL)); /* * After the previous send stream, the sending system may * have freed this object, and then happened to re-allocate * this object number in a later txg. In this case, we are * receiving a different logical file, and the block size may * appear to be different. i.e. we may have a different * block size for this object than what the send stream says. * In this case we need to remove the object's contents, * so that its structure can be changed and then its contents * entirely replaced by subsequent WRITE records. * * If this is a -L (--large-block) incremental stream, and * the previous stream was not -L, the block size may appear * to increase. i.e. we may have a smaller block size for * this object than what the send stream says. In this case * we need to keep the object's contents and block size * intact, so that we don't lose parts of the object's * contents that are not changed by this incremental send * stream. * * We can distinguish between the two above cases by using * the ZPL's generation number (see * receive_object_is_same_generation()). However, we only * want to rely on the generation number when absolutely * necessary, because with raw receives, the generation is * encrypted. We also want to minimize dependence on the * ZPL, so that other types of datasets can also be received * (e.g. ZVOLs, although note that ZVOLS currently do not * reallocate their objects or change their structure). * Therefore, we check a number of different cases where we * know it is safe to discard the object's contents, before * using the ZPL's generation number to make the above * distinction. */ if (drro->drr_blksz != doi->doi_data_block_size) { if (rwa->raw) { /* * RAW streams always have large blocks, so * we are sure that the data is not needed * due to changing --large-block to be on. * Which is fortunate since the bonus buffer * (which contains the ZPL generation) is * encrypted, and the key might not be * loaded. */ do_free_range = B_TRUE; } else if (rwa->full) { /* * This is a full send stream, so it always * replaces what we have. Even if the * generation numbers happen to match, this * can not actually be the same logical file. * This is relevant when receiving a full * send as a clone. */ do_free_range = B_TRUE; } else if (drro->drr_type != DMU_OT_PLAIN_FILE_CONTENTS || doi->doi_type != DMU_OT_PLAIN_FILE_CONTENTS) { /* * PLAIN_FILE_CONTENTS are the only type of * objects that have ever been stored with * large blocks, so we don't need the special * logic below. ZAP blocks can shrink (when * there's only one block), so we don't want * to hit the error below about block size * only increasing. */ do_free_range = B_TRUE; } else if (doi->doi_max_offset <= doi->doi_data_block_size) { /* * There is only one block. We can free it, * because its contents will be replaced by a * WRITE record. This can not be the no-L -> * -L case, because the no-L case would have * resulted in multiple blocks. If we * supported -L -> no-L, it would not be safe * to free the file's contents. Fortunately, * that is not allowed (see * recv_check_large_blocks()). */ do_free_range = B_TRUE; } else { boolean_t is_same_gen; err = receive_object_is_same_generation(rwa->os, drro->drr_object, doi->doi_bonus_type, drro->drr_bonustype, bonus_data, &is_same_gen); if (err != 0) return (SET_ERROR(EINVAL)); if (is_same_gen) { /* * This is the same logical file, and * the block size must be increasing. * It could only decrease if * --large-block was changed to be * off, which is checked in * recv_check_large_blocks(). */ if (drro->drr_blksz <= doi->doi_data_block_size) return (SET_ERROR(EINVAL)); /* * We keep the existing blocksize and * contents. */ *new_blksz = doi->doi_data_block_size; } else { do_free_range = B_TRUE; } } } /* nblkptr can only decrease if the object was reallocated */ if (nblkptr < doi->doi_nblkptr) do_free_range = B_TRUE; /* number of slots can only change on reallocation */ if (dn_slots != doi->doi_dnodesize >> DNODE_SHIFT) do_free_range = B_TRUE; /* * For raw sends we also check a few other fields to * ensure we are preserving the objset structure exactly * as it was on the receive side: * - A changed indirect block size * - A smaller nlevels */ if (rwa->raw) { if (indblksz != doi->doi_metadata_block_size) do_free_range = B_TRUE; if (drro->drr_nlevels < doi->doi_indirection) do_free_range = B_TRUE; } if (do_free_range) { err = dmu_free_long_range(rwa->os, drro->drr_object, 0, DMU_OBJECT_END); if (err != 0) return (SET_ERROR(EINVAL)); } /* * The dmu does not currently support decreasing nlevels * or changing the number of dnode slots on an object. For * non-raw sends, this does not matter and the new object * can just use the previous one's nlevels. For raw sends, * however, the structure of the received dnode (including * nlevels and dnode slots) must match that of the send * side. Therefore, instead of using dmu_object_reclaim(), * we must free the object completely and call * dmu_object_claim_dnsize() instead. */ if ((rwa->raw && drro->drr_nlevels < doi->doi_indirection) || dn_slots != doi->doi_dnodesize >> DNODE_SHIFT) { err = dmu_free_long_object(rwa->os, drro->drr_object); if (err != 0) return (SET_ERROR(EINVAL)); txg_wait_synced(dmu_objset_pool(rwa->os), 0); *object_to_hold = DMU_NEW_OBJECT; } /* * For raw receives, free everything beyond the new incoming * maxblkid. Normally this would be done with a DRR_FREE * record that would come after this DRR_OBJECT record is * processed. However, for raw receives we manually set the * maxblkid from the drr_maxblkid and so we must first free * everything above that blkid to ensure the DMU is always * consistent with itself. We will never free the first block * of the object here because a maxblkid of 0 could indicate * an object with a single block or one with no blocks. This * free may be skipped when dmu_free_long_range() was called * above since it covers the entire object's contents. */ if (rwa->raw && *object_to_hold != DMU_NEW_OBJECT && !do_free_range) { err = dmu_free_long_range(rwa->os, drro->drr_object, (drro->drr_maxblkid + 1) * doi->doi_data_block_size, DMU_OBJECT_END); if (err != 0) return (SET_ERROR(EINVAL)); } return (0); } noinline static int receive_object(struct receive_writer_arg *rwa, struct drr_object *drro, void *data) { dmu_object_info_t doi; dmu_tx_t *tx; int err; uint32_t new_blksz = drro->drr_blksz; uint8_t dn_slots = drro->drr_dn_slots != 0 ? drro->drr_dn_slots : DNODE_MIN_SLOTS; if (drro->drr_type == DMU_OT_NONE || !DMU_OT_IS_VALID(drro->drr_type) || !DMU_OT_IS_VALID(drro->drr_bonustype) || drro->drr_checksumtype >= ZIO_CHECKSUM_FUNCTIONS || drro->drr_compress >= ZIO_COMPRESS_FUNCTIONS || P2PHASE(drro->drr_blksz, SPA_MINBLOCKSIZE) || drro->drr_blksz < SPA_MINBLOCKSIZE || drro->drr_blksz > spa_maxblocksize(dmu_objset_spa(rwa->os)) || drro->drr_bonuslen > DN_BONUS_SIZE(spa_maxdnodesize(dmu_objset_spa(rwa->os))) || dn_slots > (spa_maxdnodesize(dmu_objset_spa(rwa->os)) >> DNODE_SHIFT)) { return (SET_ERROR(EINVAL)); } if (rwa->raw) { /* * We should have received a DRR_OBJECT_RANGE record * containing this block and stored it in rwa. */ if (drro->drr_object < rwa->or_firstobj || drro->drr_object >= rwa->or_firstobj + rwa->or_numslots || drro->drr_raw_bonuslen < drro->drr_bonuslen || drro->drr_indblkshift > SPA_MAXBLOCKSHIFT || drro->drr_nlevels > DN_MAX_LEVELS || drro->drr_nblkptr > DN_MAX_NBLKPTR || DN_SLOTS_TO_BONUSLEN(dn_slots) < drro->drr_raw_bonuslen) return (SET_ERROR(EINVAL)); } else { /* * The DRR_OBJECT_SPILL flag is valid when the DRR_BEGIN * record indicates this by setting DRR_FLAG_SPILL_BLOCK. */ if (((drro->drr_flags & ~(DRR_OBJECT_SPILL))) || (!rwa->spill && DRR_OBJECT_HAS_SPILL(drro->drr_flags))) { return (SET_ERROR(EINVAL)); } if (drro->drr_raw_bonuslen != 0 || drro->drr_nblkptr != 0 || drro->drr_indblkshift != 0 || drro->drr_nlevels != 0) { return (SET_ERROR(EINVAL)); } } err = dmu_object_info(rwa->os, drro->drr_object, &doi); if (err != 0 && err != ENOENT && err != EEXIST) return (SET_ERROR(EINVAL)); if (drro->drr_object > rwa->max_object) rwa->max_object = drro->drr_object; /* * If we are losing blkptrs or changing the block size this must * be a new file instance. We must clear out the previous file * contents before we can change this type of metadata in the dnode. * Raw receives will also check that the indirect structure of the * dnode hasn't changed. */ uint64_t object_to_hold; if (err == 0) { err = receive_handle_existing_object(rwa, drro, &doi, data, &object_to_hold, &new_blksz); if (err != 0) return (err); } else if (err == EEXIST) { /* * The object requested is currently an interior slot of a * multi-slot dnode. This will be resolved when the next txg * is synced out, since the send stream will have told us * to free this slot when we freed the associated dnode * earlier in the stream. */ txg_wait_synced(dmu_objset_pool(rwa->os), 0); if (dmu_object_info(rwa->os, drro->drr_object, NULL) != ENOENT) return (SET_ERROR(EINVAL)); /* object was freed and we are about to allocate a new one */ object_to_hold = DMU_NEW_OBJECT; } else { /* * If the only record in this range so far was DRR_FREEOBJECTS * with at least one actually freed object, it's possible that * the block will now be converted to a hole. We need to wait * for the txg to sync to prevent races. */ if (rwa->or_need_sync == ORNS_YES) txg_wait_synced(dmu_objset_pool(rwa->os), 0); /* object is free and we are about to allocate a new one */ object_to_hold = DMU_NEW_OBJECT; } /* Only relevant for the first object in the range */ rwa->or_need_sync = ORNS_NO; /* * If this is a multi-slot dnode there is a chance that this * object will expand into a slot that is already used by * another object from the previous snapshot. We must free * these objects before we attempt to allocate the new dnode. */ if (dn_slots > 1) { boolean_t need_sync = B_FALSE; for (uint64_t slot = drro->drr_object + 1; slot < drro->drr_object + dn_slots; slot++) { dmu_object_info_t slot_doi; err = dmu_object_info(rwa->os, slot, &slot_doi); if (err == ENOENT || err == EEXIST) continue; else if (err != 0) return (err); err = dmu_free_long_object(rwa->os, slot); if (err != 0) return (err); need_sync = B_TRUE; } if (need_sync) txg_wait_synced(dmu_objset_pool(rwa->os), 0); } tx = dmu_tx_create(rwa->os); dmu_tx_hold_bonus(tx, object_to_hold); dmu_tx_hold_write(tx, object_to_hold, 0, 0); err = dmu_tx_assign(tx, TXG_WAIT); if (err != 0) { dmu_tx_abort(tx); return (err); } if (object_to_hold == DMU_NEW_OBJECT) { /* Currently free, wants to be allocated */ err = dmu_object_claim_dnsize(rwa->os, drro->drr_object, drro->drr_type, new_blksz, drro->drr_bonustype, drro->drr_bonuslen, dn_slots << DNODE_SHIFT, tx); } else if (drro->drr_type != doi.doi_type || new_blksz != doi.doi_data_block_size || drro->drr_bonustype != doi.doi_bonus_type || drro->drr_bonuslen != doi.doi_bonus_size) { /* Currently allocated, but with different properties */ err = dmu_object_reclaim_dnsize(rwa->os, drro->drr_object, drro->drr_type, new_blksz, drro->drr_bonustype, drro->drr_bonuslen, dn_slots << DNODE_SHIFT, rwa->spill ? DRR_OBJECT_HAS_SPILL(drro->drr_flags) : B_FALSE, tx); } else if (rwa->spill && !DRR_OBJECT_HAS_SPILL(drro->drr_flags)) { /* * Currently allocated, the existing version of this object * may reference a spill block that is no longer allocated * at the source and needs to be freed. */ err = dmu_object_rm_spill(rwa->os, drro->drr_object, tx); } if (err != 0) { dmu_tx_commit(tx); return (SET_ERROR(EINVAL)); } if (rwa->or_crypt_params_present) { /* * Set the crypt params for the buffer associated with this * range of dnodes. This causes the blkptr_t to have the * same crypt params (byteorder, salt, iv, mac) as on the * sending side. * * Since we are committing this tx now, it is possible for * the dnode block to end up on-disk with the incorrect MAC, * if subsequent objects in this block are received in a * different txg. However, since the dataset is marked as * inconsistent, no code paths will do a non-raw read (or * decrypt the block / verify the MAC). The receive code and * scrub code can safely do raw reads and verify the * checksum. They don't need to verify the MAC. */ dmu_buf_t *db = NULL; uint64_t offset = rwa->or_firstobj * DNODE_MIN_SIZE; err = dmu_buf_hold_by_dnode(DMU_META_DNODE(rwa->os), offset, FTAG, &db, DMU_READ_PREFETCH | DMU_READ_NO_DECRYPT); if (err != 0) { dmu_tx_commit(tx); return (SET_ERROR(EINVAL)); } dmu_buf_set_crypt_params(db, rwa->or_byteorder, rwa->or_salt, rwa->or_iv, rwa->or_mac, tx); dmu_buf_rele(db, FTAG); rwa->or_crypt_params_present = B_FALSE; } dmu_object_set_checksum(rwa->os, drro->drr_object, drro->drr_checksumtype, tx); dmu_object_set_compress(rwa->os, drro->drr_object, drro->drr_compress, tx); /* handle more restrictive dnode structuring for raw recvs */ if (rwa->raw) { /* * Set the indirect block size, block shift, nlevels. * This will not fail because we ensured all of the * blocks were freed earlier if this is a new object. * For non-new objects block size and indirect block * shift cannot change and nlevels can only increase. */ ASSERT3U(new_blksz, ==, drro->drr_blksz); VERIFY0(dmu_object_set_blocksize(rwa->os, drro->drr_object, drro->drr_blksz, drro->drr_indblkshift, tx)); VERIFY0(dmu_object_set_nlevels(rwa->os, drro->drr_object, drro->drr_nlevels, tx)); /* * Set the maxblkid. This will always succeed because * we freed all blocks beyond the new maxblkid above. */ VERIFY0(dmu_object_set_maxblkid(rwa->os, drro->drr_object, drro->drr_maxblkid, tx)); } if (data != NULL) { dmu_buf_t *db; dnode_t *dn; uint32_t flags = DMU_READ_NO_PREFETCH; if (rwa->raw) flags |= DMU_READ_NO_DECRYPT; VERIFY0(dnode_hold(rwa->os, drro->drr_object, FTAG, &dn)); VERIFY0(dmu_bonus_hold_by_dnode(dn, FTAG, &db, flags)); dmu_buf_will_dirty(db, tx); ASSERT3U(db->db_size, >=, drro->drr_bonuslen); memcpy(db->db_data, data, DRR_OBJECT_PAYLOAD_SIZE(drro)); /* * Raw bonus buffers have their byteorder determined by the * DRR_OBJECT_RANGE record. */ if (rwa->byteswap && !rwa->raw) { dmu_object_byteswap_t byteswap = DMU_OT_BYTESWAP(drro->drr_bonustype); dmu_ot_byteswap[byteswap].ob_func(db->db_data, DRR_OBJECT_PAYLOAD_SIZE(drro)); } dmu_buf_rele(db, FTAG); dnode_rele(dn, FTAG); } dmu_tx_commit(tx); return (0); } noinline static int receive_freeobjects(struct receive_writer_arg *rwa, struct drr_freeobjects *drrfo) { uint64_t obj; int next_err = 0; if (drrfo->drr_firstobj + drrfo->drr_numobjs < drrfo->drr_firstobj) return (SET_ERROR(EINVAL)); for (obj = drrfo->drr_firstobj == 0 ? 1 : drrfo->drr_firstobj; obj < drrfo->drr_firstobj + drrfo->drr_numobjs && obj < DN_MAX_OBJECT && next_err == 0; next_err = dmu_object_next(rwa->os, &obj, FALSE, 0)) { dmu_object_info_t doi; int err; err = dmu_object_info(rwa->os, obj, &doi); if (err == ENOENT) continue; else if (err != 0) return (err); err = dmu_free_long_object(rwa->os, obj); if (err != 0) return (err); if (rwa->or_need_sync == ORNS_MAYBE) rwa->or_need_sync = ORNS_YES; } if (next_err != ESRCH) return (next_err); return (0); } /* * Note: if this fails, the caller will clean up any records left on the * rwa->write_batch list. */ static int flush_write_batch_impl(struct receive_writer_arg *rwa) { dnode_t *dn; int err; if (dnode_hold(rwa->os, rwa->last_object, FTAG, &dn) != 0) return (SET_ERROR(EINVAL)); struct receive_record_arg *last_rrd = list_tail(&rwa->write_batch); struct drr_write *last_drrw = &last_rrd->header.drr_u.drr_write; struct receive_record_arg *first_rrd = list_head(&rwa->write_batch); struct drr_write *first_drrw = &first_rrd->header.drr_u.drr_write; ASSERT3U(rwa->last_object, ==, last_drrw->drr_object); ASSERT3U(rwa->last_offset, ==, last_drrw->drr_offset); dmu_tx_t *tx = dmu_tx_create(rwa->os); dmu_tx_hold_write_by_dnode(tx, dn, first_drrw->drr_offset, last_drrw->drr_offset - first_drrw->drr_offset + last_drrw->drr_logical_size); err = dmu_tx_assign(tx, TXG_WAIT); if (err != 0) { dmu_tx_abort(tx); dnode_rele(dn, FTAG); return (err); } struct receive_record_arg *rrd; while ((rrd = list_head(&rwa->write_batch)) != NULL) { struct drr_write *drrw = &rrd->header.drr_u.drr_write; abd_t *abd = rrd->abd; ASSERT3U(drrw->drr_object, ==, rwa->last_object); if (drrw->drr_logical_size != dn->dn_datablksz) { /* * The WRITE record is larger than the object's block * size. We must be receiving an incremental * large-block stream into a dataset that previously did * a non-large-block receive. Lightweight writes must * be exactly one block, so we need to decompress the * data (if compressed) and do a normal dmu_write(). */ ASSERT3U(drrw->drr_logical_size, >, dn->dn_datablksz); if (DRR_WRITE_COMPRESSED(drrw)) { abd_t *decomp_abd = abd_alloc_linear(drrw->drr_logical_size, B_FALSE); err = zio_decompress_data( drrw->drr_compressiontype, abd, abd_to_buf(decomp_abd), abd_get_size(abd), abd_get_size(decomp_abd), NULL); if (err == 0) { dmu_write_by_dnode(dn, drrw->drr_offset, drrw->drr_logical_size, abd_to_buf(decomp_abd), tx); } abd_free(decomp_abd); } else { dmu_write_by_dnode(dn, drrw->drr_offset, drrw->drr_logical_size, abd_to_buf(abd), tx); } if (err == 0) abd_free(abd); } else { zio_prop_t zp; dmu_write_policy(rwa->os, dn, 0, 0, &zp); zio_flag_t zio_flags = 0; if (rwa->raw) { zp.zp_encrypt = B_TRUE; zp.zp_compress = drrw->drr_compressiontype; zp.zp_byteorder = ZFS_HOST_BYTEORDER ^ !!DRR_IS_RAW_BYTESWAPPED(drrw->drr_flags) ^ rwa->byteswap; memcpy(zp.zp_salt, drrw->drr_salt, ZIO_DATA_SALT_LEN); memcpy(zp.zp_iv, drrw->drr_iv, ZIO_DATA_IV_LEN); memcpy(zp.zp_mac, drrw->drr_mac, ZIO_DATA_MAC_LEN); if (DMU_OT_IS_ENCRYPTED(zp.zp_type)) { zp.zp_nopwrite = B_FALSE; zp.zp_copies = MIN(zp.zp_copies, SPA_DVAS_PER_BP - 1); } zio_flags |= ZIO_FLAG_RAW; } else if (DRR_WRITE_COMPRESSED(drrw)) { ASSERT3U(drrw->drr_compressed_size, >, 0); ASSERT3U(drrw->drr_logical_size, >=, drrw->drr_compressed_size); zp.zp_compress = drrw->drr_compressiontype; zio_flags |= ZIO_FLAG_RAW_COMPRESS; } else if (rwa->byteswap) { /* * Note: compressed blocks never need to be * byteswapped, because WRITE records for * metadata blocks are never compressed. The * exception is raw streams, which are written * in the original byteorder, and the byteorder * bit is preserved in the BP by setting * zp_byteorder above. */ dmu_object_byteswap_t byteswap = DMU_OT_BYTESWAP(drrw->drr_type); dmu_ot_byteswap[byteswap].ob_func( abd_to_buf(abd), DRR_WRITE_PAYLOAD_SIZE(drrw)); } /* * Since this data can't be read until the receive * completes, we can do a "lightweight" write for * improved performance. */ err = dmu_lightweight_write_by_dnode(dn, drrw->drr_offset, abd, &zp, zio_flags, tx); } if (err != 0) { /* * This rrd is left on the list, so the caller will * free it (and the abd). */ break; } /* * Note: If the receive fails, we want the resume stream to * start with the same record that we last successfully * received (as opposed to the next record), so that we can * verify that we are resuming from the correct location. */ save_resume_state(rwa, drrw->drr_object, drrw->drr_offset, tx); list_remove(&rwa->write_batch, rrd); kmem_free(rrd, sizeof (*rrd)); } dmu_tx_commit(tx); dnode_rele(dn, FTAG); return (err); } noinline static int flush_write_batch(struct receive_writer_arg *rwa) { if (list_is_empty(&rwa->write_batch)) return (0); int err = rwa->err; if (err == 0) err = flush_write_batch_impl(rwa); if (err != 0) { struct receive_record_arg *rrd; while ((rrd = list_remove_head(&rwa->write_batch)) != NULL) { abd_free(rrd->abd); kmem_free(rrd, sizeof (*rrd)); } } ASSERT(list_is_empty(&rwa->write_batch)); return (err); } noinline static int receive_process_write_record(struct receive_writer_arg *rwa, struct receive_record_arg *rrd) { int err = 0; ASSERT3U(rrd->header.drr_type, ==, DRR_WRITE); struct drr_write *drrw = &rrd->header.drr_u.drr_write; if (drrw->drr_offset + drrw->drr_logical_size < drrw->drr_offset || !DMU_OT_IS_VALID(drrw->drr_type)) return (SET_ERROR(EINVAL)); if (rwa->heal) { blkptr_t *bp; dmu_buf_t *dbp; dnode_t *dn; int flags = DB_RF_CANFAIL; if (rwa->raw) flags |= DB_RF_NO_DECRYPT; if (rwa->byteswap) { dmu_object_byteswap_t byteswap = DMU_OT_BYTESWAP(drrw->drr_type); dmu_ot_byteswap[byteswap].ob_func(abd_to_buf(rrd->abd), DRR_WRITE_PAYLOAD_SIZE(drrw)); } err = dmu_buf_hold_noread(rwa->os, drrw->drr_object, drrw->drr_offset, FTAG, &dbp); if (err != 0) return (err); /* Try to read the object to see if it needs healing */ err = dbuf_read((dmu_buf_impl_t *)dbp, NULL, flags); /* * We only try to heal when dbuf_read() returns a ECKSUMs. * Other errors (even EIO) get returned to caller. * EIO indicates that the device is not present/accessible, * so writing to it will likely fail. * If the block is healthy, we don't want to overwrite it * unnecessarily. */ if (err != ECKSUM) { dmu_buf_rele(dbp, FTAG); return (err); } dn = dmu_buf_dnode_enter(dbp); /* Make sure the on-disk block and recv record sizes match */ if (drrw->drr_logical_size != dn->dn_datablkszsec << SPA_MINBLOCKSHIFT) { err = ENOTSUP; dmu_buf_dnode_exit(dbp); dmu_buf_rele(dbp, FTAG); return (err); } /* Get the block pointer for the corrupted block */ bp = dmu_buf_get_blkptr(dbp); err = do_corrective_recv(rwa, drrw, rrd, bp); dmu_buf_dnode_exit(dbp); dmu_buf_rele(dbp, FTAG); return (err); } /* * For resuming to work, records must be in increasing order * by (object, offset). */ if (drrw->drr_object < rwa->last_object || (drrw->drr_object == rwa->last_object && drrw->drr_offset < rwa->last_offset)) { return (SET_ERROR(EINVAL)); } struct receive_record_arg *first_rrd = list_head(&rwa->write_batch); struct drr_write *first_drrw = &first_rrd->header.drr_u.drr_write; uint64_t batch_size = MIN(zfs_recv_write_batch_size, DMU_MAX_ACCESS / 2); if (first_rrd != NULL && (drrw->drr_object != first_drrw->drr_object || drrw->drr_offset >= first_drrw->drr_offset + batch_size)) { err = flush_write_batch(rwa); if (err != 0) return (err); } rwa->last_object = drrw->drr_object; rwa->last_offset = drrw->drr_offset; if (rwa->last_object > rwa->max_object) rwa->max_object = rwa->last_object; list_insert_tail(&rwa->write_batch, rrd); /* * Return EAGAIN to indicate that we will use this rrd again, * so the caller should not free it */ return (EAGAIN); } static int receive_write_embedded(struct receive_writer_arg *rwa, struct drr_write_embedded *drrwe, void *data) { dmu_tx_t *tx; int err; if (drrwe->drr_offset + drrwe->drr_length < drrwe->drr_offset) return (SET_ERROR(EINVAL)); if (drrwe->drr_psize > BPE_PAYLOAD_SIZE) return (SET_ERROR(EINVAL)); if (drrwe->drr_etype >= NUM_BP_EMBEDDED_TYPES) return (SET_ERROR(EINVAL)); if (drrwe->drr_compression >= ZIO_COMPRESS_FUNCTIONS) return (SET_ERROR(EINVAL)); if (rwa->raw) return (SET_ERROR(EINVAL)); if (drrwe->drr_object > rwa->max_object) rwa->max_object = drrwe->drr_object; tx = dmu_tx_create(rwa->os); dmu_tx_hold_write(tx, drrwe->drr_object, drrwe->drr_offset, drrwe->drr_length); err = dmu_tx_assign(tx, TXG_WAIT); if (err != 0) { dmu_tx_abort(tx); return (err); } dmu_write_embedded(rwa->os, drrwe->drr_object, drrwe->drr_offset, data, drrwe->drr_etype, drrwe->drr_compression, drrwe->drr_lsize, drrwe->drr_psize, rwa->byteswap ^ ZFS_HOST_BYTEORDER, tx); /* See comment in restore_write. */ save_resume_state(rwa, drrwe->drr_object, drrwe->drr_offset, tx); dmu_tx_commit(tx); return (0); } static int receive_spill(struct receive_writer_arg *rwa, struct drr_spill *drrs, abd_t *abd) { dmu_buf_t *db, *db_spill; int err; if (drrs->drr_length < SPA_MINBLOCKSIZE || drrs->drr_length > spa_maxblocksize(dmu_objset_spa(rwa->os))) return (SET_ERROR(EINVAL)); /* * This is an unmodified spill block which was added to the stream * to resolve an issue with incorrectly removing spill blocks. It * should be ignored by current versions of the code which support * the DRR_FLAG_SPILL_BLOCK flag. */ if (rwa->spill && DRR_SPILL_IS_UNMODIFIED(drrs->drr_flags)) { abd_free(abd); return (0); } if (rwa->raw) { if (!DMU_OT_IS_VALID(drrs->drr_type) || drrs->drr_compressiontype >= ZIO_COMPRESS_FUNCTIONS || drrs->drr_compressed_size == 0) return (SET_ERROR(EINVAL)); } if (dmu_object_info(rwa->os, drrs->drr_object, NULL) != 0) return (SET_ERROR(EINVAL)); if (drrs->drr_object > rwa->max_object) rwa->max_object = drrs->drr_object; VERIFY0(dmu_bonus_hold(rwa->os, drrs->drr_object, FTAG, &db)); if ((err = dmu_spill_hold_by_bonus(db, DMU_READ_NO_DECRYPT, FTAG, &db_spill)) != 0) { dmu_buf_rele(db, FTAG); return (err); } dmu_tx_t *tx = dmu_tx_create(rwa->os); dmu_tx_hold_spill(tx, db->db_object); err = dmu_tx_assign(tx, TXG_WAIT); if (err != 0) { dmu_buf_rele(db, FTAG); dmu_buf_rele(db_spill, FTAG); dmu_tx_abort(tx); return (err); } /* * Spill blocks may both grow and shrink. When a change in size * occurs any existing dbuf must be updated to match the logical * size of the provided arc_buf_t. */ if (db_spill->db_size != drrs->drr_length) { dmu_buf_will_fill(db_spill, tx); VERIFY0(dbuf_spill_set_blksz(db_spill, drrs->drr_length, tx)); } arc_buf_t *abuf; if (rwa->raw) { boolean_t byteorder = ZFS_HOST_BYTEORDER ^ !!DRR_IS_RAW_BYTESWAPPED(drrs->drr_flags) ^ rwa->byteswap; abuf = arc_loan_raw_buf(dmu_objset_spa(rwa->os), drrs->drr_object, byteorder, drrs->drr_salt, drrs->drr_iv, drrs->drr_mac, drrs->drr_type, drrs->drr_compressed_size, drrs->drr_length, drrs->drr_compressiontype, 0); } else { abuf = arc_loan_buf(dmu_objset_spa(rwa->os), DMU_OT_IS_METADATA(drrs->drr_type), drrs->drr_length); if (rwa->byteswap) { dmu_object_byteswap_t byteswap = DMU_OT_BYTESWAP(drrs->drr_type); dmu_ot_byteswap[byteswap].ob_func(abd_to_buf(abd), DRR_SPILL_PAYLOAD_SIZE(drrs)); } } memcpy(abuf->b_data, abd_to_buf(abd), DRR_SPILL_PAYLOAD_SIZE(drrs)); abd_free(abd); dbuf_assign_arcbuf((dmu_buf_impl_t *)db_spill, abuf, tx); dmu_buf_rele(db, FTAG); dmu_buf_rele(db_spill, FTAG); dmu_tx_commit(tx); return (0); } noinline static int receive_free(struct receive_writer_arg *rwa, struct drr_free *drrf) { int err; if (drrf->drr_length != -1ULL && drrf->drr_offset + drrf->drr_length < drrf->drr_offset) return (SET_ERROR(EINVAL)); if (dmu_object_info(rwa->os, drrf->drr_object, NULL) != 0) return (SET_ERROR(EINVAL)); if (drrf->drr_object > rwa->max_object) rwa->max_object = drrf->drr_object; err = dmu_free_long_range(rwa->os, drrf->drr_object, drrf->drr_offset, drrf->drr_length); return (err); } static int receive_object_range(struct receive_writer_arg *rwa, struct drr_object_range *drror) { /* * By default, we assume this block is in our native format * (ZFS_HOST_BYTEORDER). We then take into account whether * the send stream is byteswapped (rwa->byteswap). Finally, * we need to byteswap again if this particular block was * in non-native format on the send side. */ boolean_t byteorder = ZFS_HOST_BYTEORDER ^ rwa->byteswap ^ !!DRR_IS_RAW_BYTESWAPPED(drror->drr_flags); /* * Since dnode block sizes are constant, we should not need to worry * about making sure that the dnode block size is the same on the * sending and receiving sides for the time being. For non-raw sends, * this does not matter (and in fact we do not send a DRR_OBJECT_RANGE * record at all). Raw sends require this record type because the * encryption parameters are used to protect an entire block of bonus * buffers. If the size of dnode blocks ever becomes variable, * handling will need to be added to ensure that dnode block sizes * match on the sending and receiving side. */ if (drror->drr_numslots != DNODES_PER_BLOCK || P2PHASE(drror->drr_firstobj, DNODES_PER_BLOCK) != 0 || !rwa->raw) return (SET_ERROR(EINVAL)); if (drror->drr_firstobj > rwa->max_object) rwa->max_object = drror->drr_firstobj; /* * The DRR_OBJECT_RANGE handling must be deferred to receive_object() * so that the block of dnodes is not written out when it's empty, * and converted to a HOLE BP. */ rwa->or_crypt_params_present = B_TRUE; rwa->or_firstobj = drror->drr_firstobj; rwa->or_numslots = drror->drr_numslots; memcpy(rwa->or_salt, drror->drr_salt, ZIO_DATA_SALT_LEN); memcpy(rwa->or_iv, drror->drr_iv, ZIO_DATA_IV_LEN); memcpy(rwa->or_mac, drror->drr_mac, ZIO_DATA_MAC_LEN); rwa->or_byteorder = byteorder; rwa->or_need_sync = ORNS_MAYBE; return (0); } /* * Until we have the ability to redact large ranges of data efficiently, we * process these records as frees. */ noinline static int receive_redact(struct receive_writer_arg *rwa, struct drr_redact *drrr) { struct drr_free drrf = {0}; drrf.drr_length = drrr->drr_length; drrf.drr_object = drrr->drr_object; drrf.drr_offset = drrr->drr_offset; drrf.drr_toguid = drrr->drr_toguid; return (receive_free(rwa, &drrf)); } /* used to destroy the drc_ds on error */ static void dmu_recv_cleanup_ds(dmu_recv_cookie_t *drc) { dsl_dataset_t *ds = drc->drc_ds; ds_hold_flags_t dsflags; dsflags = (drc->drc_raw) ? DS_HOLD_FLAG_NONE : DS_HOLD_FLAG_DECRYPT; /* * Wait for the txg sync before cleaning up the receive. For * resumable receives, this ensures that our resume state has * been written out to disk. For raw receives, this ensures * that the user accounting code will not attempt to do anything * after we stopped receiving the dataset. */ txg_wait_synced(ds->ds_dir->dd_pool, 0); ds->ds_objset->os_raw_receive = B_FALSE; rrw_enter(&ds->ds_bp_rwlock, RW_READER, FTAG); if (drc->drc_resumable && drc->drc_should_save && !BP_IS_HOLE(dsl_dataset_get_blkptr(ds))) { rrw_exit(&ds->ds_bp_rwlock, FTAG); dsl_dataset_disown(ds, dsflags, dmu_recv_tag); } else { char name[ZFS_MAX_DATASET_NAME_LEN]; rrw_exit(&ds->ds_bp_rwlock, FTAG); dsl_dataset_name(ds, name); dsl_dataset_disown(ds, dsflags, dmu_recv_tag); if (!drc->drc_heal) (void) dsl_destroy_head(name); } } static void receive_cksum(dmu_recv_cookie_t *drc, int len, void *buf) { if (drc->drc_byteswap) { (void) fletcher_4_incremental_byteswap(buf, len, &drc->drc_cksum); } else { (void) fletcher_4_incremental_native(buf, len, &drc->drc_cksum); } } /* * Read the payload into a buffer of size len, and update the current record's * payload field. * Allocate drc->drc_next_rrd and read the next record's header into * drc->drc_next_rrd->header. * Verify checksum of payload and next record. */ static int receive_read_payload_and_next_header(dmu_recv_cookie_t *drc, int len, void *buf) { int err; if (len != 0) { ASSERT3U(len, <=, SPA_MAXBLOCKSIZE); err = receive_read(drc, len, buf); if (err != 0) return (err); receive_cksum(drc, len, buf); /* note: rrd is NULL when reading the begin record's payload */ if (drc->drc_rrd != NULL) { drc->drc_rrd->payload = buf; drc->drc_rrd->payload_size = len; drc->drc_rrd->bytes_read = drc->drc_bytes_read; } } else { ASSERT3P(buf, ==, NULL); } drc->drc_prev_cksum = drc->drc_cksum; drc->drc_next_rrd = kmem_zalloc(sizeof (*drc->drc_next_rrd), KM_SLEEP); err = receive_read(drc, sizeof (drc->drc_next_rrd->header), &drc->drc_next_rrd->header); drc->drc_next_rrd->bytes_read = drc->drc_bytes_read; if (err != 0) { kmem_free(drc->drc_next_rrd, sizeof (*drc->drc_next_rrd)); drc->drc_next_rrd = NULL; return (err); } if (drc->drc_next_rrd->header.drr_type == DRR_BEGIN) { kmem_free(drc->drc_next_rrd, sizeof (*drc->drc_next_rrd)); drc->drc_next_rrd = NULL; return (SET_ERROR(EINVAL)); } /* * Note: checksum is of everything up to but not including the * checksum itself. */ ASSERT3U(offsetof(dmu_replay_record_t, drr_u.drr_checksum.drr_checksum), ==, sizeof (dmu_replay_record_t) - sizeof (zio_cksum_t)); receive_cksum(drc, offsetof(dmu_replay_record_t, drr_u.drr_checksum.drr_checksum), &drc->drc_next_rrd->header); zio_cksum_t cksum_orig = drc->drc_next_rrd->header.drr_u.drr_checksum.drr_checksum; zio_cksum_t *cksump = &drc->drc_next_rrd->header.drr_u.drr_checksum.drr_checksum; if (drc->drc_byteswap) byteswap_record(&drc->drc_next_rrd->header); if ((!ZIO_CHECKSUM_IS_ZERO(cksump)) && !ZIO_CHECKSUM_EQUAL(drc->drc_cksum, *cksump)) { kmem_free(drc->drc_next_rrd, sizeof (*drc->drc_next_rrd)); drc->drc_next_rrd = NULL; return (SET_ERROR(ECKSUM)); } receive_cksum(drc, sizeof (cksum_orig), &cksum_orig); return (0); } /* * Issue the prefetch reads for any necessary indirect blocks. * * We use the object ignore list to tell us whether or not to issue prefetches * for a given object. We do this for both correctness (in case the blocksize * of an object has changed) and performance (if the object doesn't exist, don't * needlessly try to issue prefetches). We also trim the list as we go through * the stream to prevent it from growing to an unbounded size. * * The object numbers within will always be in sorted order, and any write * records we see will also be in sorted order, but they're not sorted with * respect to each other (i.e. we can get several object records before * receiving each object's write records). As a result, once we've reached a * given object number, we can safely remove any reference to lower object * numbers in the ignore list. In practice, we receive up to 32 object records * before receiving write records, so the list can have up to 32 nodes in it. */ static void receive_read_prefetch(dmu_recv_cookie_t *drc, uint64_t object, uint64_t offset, uint64_t length) { if (!objlist_exists(drc->drc_ignore_objlist, object)) { dmu_prefetch(drc->drc_os, object, 1, offset, length, ZIO_PRIORITY_SYNC_READ); } } /* * Read records off the stream, issuing any necessary prefetches. */ static int receive_read_record(dmu_recv_cookie_t *drc) { int err; switch (drc->drc_rrd->header.drr_type) { case DRR_OBJECT: { struct drr_object *drro = &drc->drc_rrd->header.drr_u.drr_object; uint32_t size = DRR_OBJECT_PAYLOAD_SIZE(drro); void *buf = NULL; dmu_object_info_t doi; if (size != 0) buf = kmem_zalloc(size, KM_SLEEP); err = receive_read_payload_and_next_header(drc, size, buf); if (err != 0) { kmem_free(buf, size); return (err); } err = dmu_object_info(drc->drc_os, drro->drr_object, &doi); /* * See receive_read_prefetch for an explanation why we're * storing this object in the ignore_obj_list. */ if (err == ENOENT || err == EEXIST || (err == 0 && doi.doi_data_block_size != drro->drr_blksz)) { objlist_insert(drc->drc_ignore_objlist, drro->drr_object); err = 0; } return (err); } case DRR_FREEOBJECTS: { err = receive_read_payload_and_next_header(drc, 0, NULL); return (err); } case DRR_WRITE: { struct drr_write *drrw = &drc->drc_rrd->header.drr_u.drr_write; int size = DRR_WRITE_PAYLOAD_SIZE(drrw); abd_t *abd = abd_alloc_linear(size, B_FALSE); err = receive_read_payload_and_next_header(drc, size, abd_to_buf(abd)); if (err != 0) { abd_free(abd); return (err); } drc->drc_rrd->abd = abd; receive_read_prefetch(drc, drrw->drr_object, drrw->drr_offset, drrw->drr_logical_size); return (err); } case DRR_WRITE_EMBEDDED: { struct drr_write_embedded *drrwe = &drc->drc_rrd->header.drr_u.drr_write_embedded; uint32_t size = P2ROUNDUP(drrwe->drr_psize, 8); void *buf = kmem_zalloc(size, KM_SLEEP); err = receive_read_payload_and_next_header(drc, size, buf); if (err != 0) { kmem_free(buf, size); return (err); } receive_read_prefetch(drc, drrwe->drr_object, drrwe->drr_offset, drrwe->drr_length); return (err); } case DRR_FREE: case DRR_REDACT: { /* * It might be beneficial to prefetch indirect blocks here, but * we don't really have the data to decide for sure. */ err = receive_read_payload_and_next_header(drc, 0, NULL); return (err); } case DRR_END: { struct drr_end *drre = &drc->drc_rrd->header.drr_u.drr_end; if (!ZIO_CHECKSUM_EQUAL(drc->drc_prev_cksum, drre->drr_checksum)) return (SET_ERROR(ECKSUM)); return (0); } case DRR_SPILL: { struct drr_spill *drrs = &drc->drc_rrd->header.drr_u.drr_spill; int size = DRR_SPILL_PAYLOAD_SIZE(drrs); abd_t *abd = abd_alloc_linear(size, B_FALSE); err = receive_read_payload_and_next_header(drc, size, abd_to_buf(abd)); if (err != 0) abd_free(abd); else drc->drc_rrd->abd = abd; return (err); } case DRR_OBJECT_RANGE: { err = receive_read_payload_and_next_header(drc, 0, NULL); return (err); } default: return (SET_ERROR(EINVAL)); } } static void dprintf_drr(struct receive_record_arg *rrd, int err) { #ifdef ZFS_DEBUG switch (rrd->header.drr_type) { case DRR_OBJECT: { struct drr_object *drro = &rrd->header.drr_u.drr_object; dprintf("drr_type = OBJECT obj = %llu type = %u " "bonustype = %u blksz = %u bonuslen = %u cksumtype = %u " "compress = %u dn_slots = %u err = %d\n", (u_longlong_t)drro->drr_object, drro->drr_type, drro->drr_bonustype, drro->drr_blksz, drro->drr_bonuslen, drro->drr_checksumtype, drro->drr_compress, drro->drr_dn_slots, err); break; } case DRR_FREEOBJECTS: { struct drr_freeobjects *drrfo = &rrd->header.drr_u.drr_freeobjects; dprintf("drr_type = FREEOBJECTS firstobj = %llu " "numobjs = %llu err = %d\n", (u_longlong_t)drrfo->drr_firstobj, (u_longlong_t)drrfo->drr_numobjs, err); break; } case DRR_WRITE: { struct drr_write *drrw = &rrd->header.drr_u.drr_write; dprintf("drr_type = WRITE obj = %llu type = %u offset = %llu " "lsize = %llu cksumtype = %u flags = %u " "compress = %u psize = %llu err = %d\n", (u_longlong_t)drrw->drr_object, drrw->drr_type, (u_longlong_t)drrw->drr_offset, (u_longlong_t)drrw->drr_logical_size, drrw->drr_checksumtype, drrw->drr_flags, drrw->drr_compressiontype, (u_longlong_t)drrw->drr_compressed_size, err); break; } case DRR_WRITE_BYREF: { struct drr_write_byref *drrwbr = &rrd->header.drr_u.drr_write_byref; dprintf("drr_type = WRITE_BYREF obj = %llu offset = %llu " "length = %llu toguid = %llx refguid = %llx " "refobject = %llu refoffset = %llu cksumtype = %u " "flags = %u err = %d\n", (u_longlong_t)drrwbr->drr_object, (u_longlong_t)drrwbr->drr_offset, (u_longlong_t)drrwbr->drr_length, (u_longlong_t)drrwbr->drr_toguid, (u_longlong_t)drrwbr->drr_refguid, (u_longlong_t)drrwbr->drr_refobject, (u_longlong_t)drrwbr->drr_refoffset, drrwbr->drr_checksumtype, drrwbr->drr_flags, err); break; } case DRR_WRITE_EMBEDDED: { struct drr_write_embedded *drrwe = &rrd->header.drr_u.drr_write_embedded; dprintf("drr_type = WRITE_EMBEDDED obj = %llu offset = %llu " "length = %llu compress = %u etype = %u lsize = %u " "psize = %u err = %d\n", (u_longlong_t)drrwe->drr_object, (u_longlong_t)drrwe->drr_offset, (u_longlong_t)drrwe->drr_length, drrwe->drr_compression, drrwe->drr_etype, drrwe->drr_lsize, drrwe->drr_psize, err); break; } case DRR_FREE: { struct drr_free *drrf = &rrd->header.drr_u.drr_free; dprintf("drr_type = FREE obj = %llu offset = %llu " "length = %lld err = %d\n", (u_longlong_t)drrf->drr_object, (u_longlong_t)drrf->drr_offset, (longlong_t)drrf->drr_length, err); break; } case DRR_SPILL: { struct drr_spill *drrs = &rrd->header.drr_u.drr_spill; dprintf("drr_type = SPILL obj = %llu length = %llu " "err = %d\n", (u_longlong_t)drrs->drr_object, (u_longlong_t)drrs->drr_length, err); break; } case DRR_OBJECT_RANGE: { struct drr_object_range *drror = &rrd->header.drr_u.drr_object_range; dprintf("drr_type = OBJECT_RANGE firstobj = %llu " "numslots = %llu flags = %u err = %d\n", (u_longlong_t)drror->drr_firstobj, (u_longlong_t)drror->drr_numslots, drror->drr_flags, err); break; } default: return; } #endif } /* * Commit the records to the pool. */ static int receive_process_record(struct receive_writer_arg *rwa, struct receive_record_arg *rrd) { int err; /* Processing in order, therefore bytes_read should be increasing. */ ASSERT3U(rrd->bytes_read, >=, rwa->bytes_read); rwa->bytes_read = rrd->bytes_read; /* We can only heal write records; other ones get ignored */ if (rwa->heal && rrd->header.drr_type != DRR_WRITE) { if (rrd->abd != NULL) { abd_free(rrd->abd); rrd->abd = NULL; } else if (rrd->payload != NULL) { kmem_free(rrd->payload, rrd->payload_size); rrd->payload = NULL; } return (0); } if (!rwa->heal && rrd->header.drr_type != DRR_WRITE) { err = flush_write_batch(rwa); if (err != 0) { if (rrd->abd != NULL) { abd_free(rrd->abd); rrd->abd = NULL; rrd->payload = NULL; } else if (rrd->payload != NULL) { kmem_free(rrd->payload, rrd->payload_size); rrd->payload = NULL; } return (err); } } switch (rrd->header.drr_type) { case DRR_OBJECT: { struct drr_object *drro = &rrd->header.drr_u.drr_object; err = receive_object(rwa, drro, rrd->payload); kmem_free(rrd->payload, rrd->payload_size); rrd->payload = NULL; break; } case DRR_FREEOBJECTS: { struct drr_freeobjects *drrfo = &rrd->header.drr_u.drr_freeobjects; err = receive_freeobjects(rwa, drrfo); break; } case DRR_WRITE: { err = receive_process_write_record(rwa, rrd); if (rwa->heal) { /* * If healing - always free the abd after processing */ abd_free(rrd->abd); rrd->abd = NULL; } else if (err != EAGAIN) { /* * On success, a non-healing * receive_process_write_record() returns * EAGAIN to indicate that we do not want to free * the rrd or arc_buf. */ ASSERT(err != 0); abd_free(rrd->abd); rrd->abd = NULL; } break; } case DRR_WRITE_EMBEDDED: { struct drr_write_embedded *drrwe = &rrd->header.drr_u.drr_write_embedded; err = receive_write_embedded(rwa, drrwe, rrd->payload); kmem_free(rrd->payload, rrd->payload_size); rrd->payload = NULL; break; } case DRR_FREE: { struct drr_free *drrf = &rrd->header.drr_u.drr_free; err = receive_free(rwa, drrf); break; } case DRR_SPILL: { struct drr_spill *drrs = &rrd->header.drr_u.drr_spill; err = receive_spill(rwa, drrs, rrd->abd); if (err != 0) abd_free(rrd->abd); rrd->abd = NULL; rrd->payload = NULL; break; } case DRR_OBJECT_RANGE: { struct drr_object_range *drror = &rrd->header.drr_u.drr_object_range; err = receive_object_range(rwa, drror); break; } case DRR_REDACT: { struct drr_redact *drrr = &rrd->header.drr_u.drr_redact; err = receive_redact(rwa, drrr); break; } default: err = (SET_ERROR(EINVAL)); } if (err != 0) dprintf_drr(rrd, err); return (err); } /* * dmu_recv_stream's worker thread; pull records off the queue, and then call * receive_process_record When we're done, signal the main thread and exit. */ static __attribute__((noreturn)) void receive_writer_thread(void *arg) { struct receive_writer_arg *rwa = arg; struct receive_record_arg *rrd; fstrans_cookie_t cookie = spl_fstrans_mark(); for (rrd = bqueue_dequeue(&rwa->q); !rrd->eos_marker; rrd = bqueue_dequeue(&rwa->q)) { /* * If there's an error, the main thread will stop putting things * on the queue, but we need to clear everything in it before we * can exit. */ int err = 0; if (rwa->err == 0) { err = receive_process_record(rwa, rrd); } else if (rrd->abd != NULL) { abd_free(rrd->abd); rrd->abd = NULL; rrd->payload = NULL; } else if (rrd->payload != NULL) { kmem_free(rrd->payload, rrd->payload_size); rrd->payload = NULL; } /* * EAGAIN indicates that this record has been saved (on * raw->write_batch), and will be used again, so we don't * free it. * When healing data we always need to free the record. */ if (err != EAGAIN || rwa->heal) { if (rwa->err == 0) rwa->err = err; kmem_free(rrd, sizeof (*rrd)); } } kmem_free(rrd, sizeof (*rrd)); if (rwa->heal) { zio_wait(rwa->heal_pio); } else { int err = flush_write_batch(rwa); if (rwa->err == 0) rwa->err = err; } mutex_enter(&rwa->mutex); rwa->done = B_TRUE; cv_signal(&rwa->cv); mutex_exit(&rwa->mutex); spl_fstrans_unmark(cookie); thread_exit(); } static int resume_check(dmu_recv_cookie_t *drc, nvlist_t *begin_nvl) { uint64_t val; objset_t *mos = dmu_objset_pool(drc->drc_os)->dp_meta_objset; uint64_t dsobj = dmu_objset_id(drc->drc_os); uint64_t resume_obj, resume_off; if (nvlist_lookup_uint64(begin_nvl, "resume_object", &resume_obj) != 0 || nvlist_lookup_uint64(begin_nvl, "resume_offset", &resume_off) != 0) { return (SET_ERROR(EINVAL)); } VERIFY0(zap_lookup(mos, dsobj, DS_FIELD_RESUME_OBJECT, sizeof (val), 1, &val)); if (resume_obj != val) return (SET_ERROR(EINVAL)); VERIFY0(zap_lookup(mos, dsobj, DS_FIELD_RESUME_OFFSET, sizeof (val), 1, &val)); if (resume_off != val) return (SET_ERROR(EINVAL)); return (0); } /* * Read in the stream's records, one by one, and apply them to the pool. There * are two threads involved; the thread that calls this function will spin up a * worker thread, read the records off the stream one by one, and issue * prefetches for any necessary indirect blocks. It will then push the records * onto an internal blocking queue. The worker thread will pull the records off * the queue, and actually write the data into the DMU. This way, the worker * thread doesn't have to wait for reads to complete, since everything it needs * (the indirect blocks) will be prefetched. * * NB: callers *must* call dmu_recv_end() if this succeeds. */ int dmu_recv_stream(dmu_recv_cookie_t *drc, offset_t *voffp) { int err = 0; struct receive_writer_arg *rwa = kmem_zalloc(sizeof (*rwa), KM_SLEEP); if (dsl_dataset_has_resume_receive_state(drc->drc_ds)) { uint64_t bytes = 0; (void) zap_lookup(drc->drc_ds->ds_dir->dd_pool->dp_meta_objset, drc->drc_ds->ds_object, DS_FIELD_RESUME_BYTES, sizeof (bytes), 1, &bytes); drc->drc_bytes_read += bytes; } drc->drc_ignore_objlist = objlist_create(); /* these were verified in dmu_recv_begin */ ASSERT3U(DMU_GET_STREAM_HDRTYPE(drc->drc_drrb->drr_versioninfo), ==, DMU_SUBSTREAM); ASSERT3U(drc->drc_drrb->drr_type, <, DMU_OST_NUMTYPES); ASSERT(dsl_dataset_phys(drc->drc_ds)->ds_flags & DS_FLAG_INCONSISTENT); ASSERT0(drc->drc_os->os_encrypted && (drc->drc_featureflags & DMU_BACKUP_FEATURE_EMBED_DATA)); /* handle DSL encryption key payload */ if (drc->drc_featureflags & DMU_BACKUP_FEATURE_RAW) { nvlist_t *keynvl = NULL; ASSERT(drc->drc_os->os_encrypted); ASSERT(drc->drc_raw); err = nvlist_lookup_nvlist(drc->drc_begin_nvl, "crypt_keydata", &keynvl); if (err != 0) goto out; if (!drc->drc_heal) { /* * If this is a new dataset we set the key immediately. * Otherwise we don't want to change the key until we * are sure the rest of the receive succeeded so we * stash the keynvl away until then. */ err = dsl_crypto_recv_raw(spa_name(drc->drc_os->os_spa), drc->drc_ds->ds_object, drc->drc_fromsnapobj, drc->drc_drrb->drr_type, keynvl, drc->drc_newfs); if (err != 0) goto out; } /* see comment in dmu_recv_end_sync() */ drc->drc_ivset_guid = 0; (void) nvlist_lookup_uint64(keynvl, "to_ivset_guid", &drc->drc_ivset_guid); if (!drc->drc_newfs) drc->drc_keynvl = fnvlist_dup(keynvl); } if (drc->drc_featureflags & DMU_BACKUP_FEATURE_RESUMING) { err = resume_check(drc, drc->drc_begin_nvl); if (err != 0) goto out; } + /* + * For compatibility with recursive send streams, we do this here, + * rather than in dmu_recv_begin. If we pull the next header too + * early, and it's the END record, we break the `recv_skip` logic. + */ + if (drc->drc_drr_begin->drr_payloadlen == 0) { + err = receive_read_payload_and_next_header(drc, 0, NULL); + if (err != 0) + goto out; + } + /* * If we failed before this point we will clean up any new resume * state that was created. Now that we've gotten past the initial * checks we are ok to retain that resume state. */ drc->drc_should_save = B_TRUE; (void) bqueue_init(&rwa->q, zfs_recv_queue_ff, MAX(zfs_recv_queue_length, 2 * zfs_max_recordsize), offsetof(struct receive_record_arg, node)); cv_init(&rwa->cv, NULL, CV_DEFAULT, NULL); mutex_init(&rwa->mutex, NULL, MUTEX_DEFAULT, NULL); rwa->os = drc->drc_os; rwa->byteswap = drc->drc_byteswap; rwa->heal = drc->drc_heal; rwa->tofs = drc->drc_tofs; rwa->resumable = drc->drc_resumable; rwa->raw = drc->drc_raw; rwa->spill = drc->drc_spill; rwa->full = (drc->drc_drr_begin->drr_u.drr_begin.drr_fromguid == 0); rwa->os->os_raw_receive = drc->drc_raw; if (drc->drc_heal) { rwa->heal_pio = zio_root(drc->drc_os->os_spa, NULL, NULL, ZIO_FLAG_GODFATHER); } list_create(&rwa->write_batch, sizeof (struct receive_record_arg), offsetof(struct receive_record_arg, node.bqn_node)); (void) thread_create(NULL, 0, receive_writer_thread, rwa, 0, curproc, TS_RUN, minclsyspri); /* * We're reading rwa->err without locks, which is safe since we are the * only reader, and the worker thread is the only writer. It's ok if we * miss a write for an iteration or two of the loop, since the writer * thread will keep freeing records we send it until we send it an eos * marker. * * We can leave this loop in 3 ways: First, if rwa->err is * non-zero. In that case, the writer thread will free the rrd we just * pushed. Second, if we're interrupted; in that case, either it's the * first loop and drc->drc_rrd was never allocated, or it's later, and * drc->drc_rrd has been handed off to the writer thread who will free * it. Finally, if receive_read_record fails or we're at the end of the * stream, then we free drc->drc_rrd and exit. */ while (rwa->err == 0) { if (issig(JUSTLOOKING) && issig(FORREAL)) { err = SET_ERROR(EINTR); break; } ASSERT3P(drc->drc_rrd, ==, NULL); drc->drc_rrd = drc->drc_next_rrd; drc->drc_next_rrd = NULL; /* Allocates and loads header into drc->drc_next_rrd */ err = receive_read_record(drc); if (drc->drc_rrd->header.drr_type == DRR_END || err != 0) { kmem_free(drc->drc_rrd, sizeof (*drc->drc_rrd)); drc->drc_rrd = NULL; break; } bqueue_enqueue(&rwa->q, drc->drc_rrd, sizeof (struct receive_record_arg) + drc->drc_rrd->payload_size); drc->drc_rrd = NULL; } ASSERT3P(drc->drc_rrd, ==, NULL); drc->drc_rrd = kmem_zalloc(sizeof (*drc->drc_rrd), KM_SLEEP); drc->drc_rrd->eos_marker = B_TRUE; bqueue_enqueue_flush(&rwa->q, drc->drc_rrd, 1); mutex_enter(&rwa->mutex); while (!rwa->done) { /* * We need to use cv_wait_sig() so that any process that may * be sleeping here can still fork. */ (void) cv_wait_sig(&rwa->cv, &rwa->mutex); } mutex_exit(&rwa->mutex); /* * If we are receiving a full stream as a clone, all object IDs which * are greater than the maximum ID referenced in the stream are * by definition unused and must be freed. */ if (drc->drc_clone && drc->drc_drrb->drr_fromguid == 0) { uint64_t obj = rwa->max_object + 1; int free_err = 0; int next_err = 0; while (next_err == 0) { free_err = dmu_free_long_object(rwa->os, obj); if (free_err != 0 && free_err != ENOENT) break; next_err = dmu_object_next(rwa->os, &obj, FALSE, 0); } if (err == 0) { if (free_err != 0 && free_err != ENOENT) err = free_err; else if (next_err != ESRCH) err = next_err; } } cv_destroy(&rwa->cv); mutex_destroy(&rwa->mutex); bqueue_destroy(&rwa->q); list_destroy(&rwa->write_batch); if (err == 0) err = rwa->err; out: /* * If we hit an error before we started the receive_writer_thread * we need to clean up the next_rrd we create by processing the * DRR_BEGIN record. */ if (drc->drc_next_rrd != NULL) kmem_free(drc->drc_next_rrd, sizeof (*drc->drc_next_rrd)); /* * The objset will be invalidated by dmu_recv_end() when we do * dsl_dataset_clone_swap_sync_impl(). */ drc->drc_os = NULL; kmem_free(rwa, sizeof (*rwa)); nvlist_free(drc->drc_begin_nvl); if (err != 0) { /* * Clean up references. If receive is not resumable, * destroy what we created, so we don't leave it in * the inconsistent state. */ dmu_recv_cleanup_ds(drc); nvlist_free(drc->drc_keynvl); } objlist_destroy(drc->drc_ignore_objlist); drc->drc_ignore_objlist = NULL; *voffp = drc->drc_voff; return (err); } static int dmu_recv_end_check(void *arg, dmu_tx_t *tx) { dmu_recv_cookie_t *drc = arg; dsl_pool_t *dp = dmu_tx_pool(tx); int error; ASSERT3P(drc->drc_ds->ds_owner, ==, dmu_recv_tag); if (drc->drc_heal) { error = 0; } else if (!drc->drc_newfs) { dsl_dataset_t *origin_head; error = dsl_dataset_hold(dp, drc->drc_tofs, FTAG, &origin_head); if (error != 0) return (error); if (drc->drc_force) { /* * We will destroy any snapshots in tofs (i.e. before * origin_head) that are after the origin (which is * the snap before drc_ds, because drc_ds can not * have any snaps of its own). */ uint64_t obj; obj = dsl_dataset_phys(origin_head)->ds_prev_snap_obj; while (obj != dsl_dataset_phys(drc->drc_ds)->ds_prev_snap_obj) { dsl_dataset_t *snap; error = dsl_dataset_hold_obj(dp, obj, FTAG, &snap); if (error != 0) break; if (snap->ds_dir != origin_head->ds_dir) error = SET_ERROR(EINVAL); if (error == 0) { error = dsl_destroy_snapshot_check_impl( snap, B_FALSE); } obj = dsl_dataset_phys(snap)->ds_prev_snap_obj; dsl_dataset_rele(snap, FTAG); if (error != 0) break; } if (error != 0) { dsl_dataset_rele(origin_head, FTAG); return (error); } } if (drc->drc_keynvl != NULL) { error = dsl_crypto_recv_raw_key_check(drc->drc_ds, drc->drc_keynvl, tx); if (error != 0) { dsl_dataset_rele(origin_head, FTAG); return (error); } } error = dsl_dataset_clone_swap_check_impl(drc->drc_ds, origin_head, drc->drc_force, drc->drc_owner, tx); if (error != 0) { dsl_dataset_rele(origin_head, FTAG); return (error); } error = dsl_dataset_snapshot_check_impl(origin_head, drc->drc_tosnap, tx, B_TRUE, 1, drc->drc_cred, drc->drc_proc); dsl_dataset_rele(origin_head, FTAG); if (error != 0) return (error); error = dsl_destroy_head_check_impl(drc->drc_ds, 1); } else { error = dsl_dataset_snapshot_check_impl(drc->drc_ds, drc->drc_tosnap, tx, B_TRUE, 1, drc->drc_cred, drc->drc_proc); } return (error); } static void dmu_recv_end_sync(void *arg, dmu_tx_t *tx) { dmu_recv_cookie_t *drc = arg; dsl_pool_t *dp = dmu_tx_pool(tx); boolean_t encrypted = drc->drc_ds->ds_dir->dd_crypto_obj != 0; uint64_t newsnapobj = 0; spa_history_log_internal_ds(drc->drc_ds, "finish receiving", tx, "snap=%s", drc->drc_tosnap); drc->drc_ds->ds_objset->os_raw_receive = B_FALSE; if (drc->drc_heal) { if (drc->drc_keynvl != NULL) { nvlist_free(drc->drc_keynvl); drc->drc_keynvl = NULL; } } else if (!drc->drc_newfs) { dsl_dataset_t *origin_head; VERIFY0(dsl_dataset_hold(dp, drc->drc_tofs, FTAG, &origin_head)); if (drc->drc_force) { /* * Destroy any snapshots of drc_tofs (origin_head) * after the origin (the snap before drc_ds). */ uint64_t obj; obj = dsl_dataset_phys(origin_head)->ds_prev_snap_obj; while (obj != dsl_dataset_phys(drc->drc_ds)->ds_prev_snap_obj) { dsl_dataset_t *snap; VERIFY0(dsl_dataset_hold_obj(dp, obj, FTAG, &snap)); ASSERT3P(snap->ds_dir, ==, origin_head->ds_dir); obj = dsl_dataset_phys(snap)->ds_prev_snap_obj; dsl_destroy_snapshot_sync_impl(snap, B_FALSE, tx); dsl_dataset_rele(snap, FTAG); } } if (drc->drc_keynvl != NULL) { dsl_crypto_recv_raw_key_sync(drc->drc_ds, drc->drc_keynvl, tx); nvlist_free(drc->drc_keynvl); drc->drc_keynvl = NULL; } VERIFY3P(drc->drc_ds->ds_prev, ==, origin_head->ds_prev); dsl_dataset_clone_swap_sync_impl(drc->drc_ds, origin_head, tx); /* * The objset was evicted by dsl_dataset_clone_swap_sync_impl, * so drc_os is no longer valid. */ drc->drc_os = NULL; dsl_dataset_snapshot_sync_impl(origin_head, drc->drc_tosnap, tx); /* set snapshot's creation time and guid */ dmu_buf_will_dirty(origin_head->ds_prev->ds_dbuf, tx); dsl_dataset_phys(origin_head->ds_prev)->ds_creation_time = drc->drc_drrb->drr_creation_time; dsl_dataset_phys(origin_head->ds_prev)->ds_guid = drc->drc_drrb->drr_toguid; dsl_dataset_phys(origin_head->ds_prev)->ds_flags &= ~DS_FLAG_INCONSISTENT; dmu_buf_will_dirty(origin_head->ds_dbuf, tx); dsl_dataset_phys(origin_head)->ds_flags &= ~DS_FLAG_INCONSISTENT; newsnapobj = dsl_dataset_phys(origin_head)->ds_prev_snap_obj; dsl_dataset_rele(origin_head, FTAG); dsl_destroy_head_sync_impl(drc->drc_ds, tx); if (drc->drc_owner != NULL) VERIFY3P(origin_head->ds_owner, ==, drc->drc_owner); } else { dsl_dataset_t *ds = drc->drc_ds; dsl_dataset_snapshot_sync_impl(ds, drc->drc_tosnap, tx); /* set snapshot's creation time and guid */ dmu_buf_will_dirty(ds->ds_prev->ds_dbuf, tx); dsl_dataset_phys(ds->ds_prev)->ds_creation_time = drc->drc_drrb->drr_creation_time; dsl_dataset_phys(ds->ds_prev)->ds_guid = drc->drc_drrb->drr_toguid; dsl_dataset_phys(ds->ds_prev)->ds_flags &= ~DS_FLAG_INCONSISTENT; dmu_buf_will_dirty(ds->ds_dbuf, tx); dsl_dataset_phys(ds)->ds_flags &= ~DS_FLAG_INCONSISTENT; if (dsl_dataset_has_resume_receive_state(ds)) { (void) zap_remove(dp->dp_meta_objset, ds->ds_object, DS_FIELD_RESUME_FROMGUID, tx); (void) zap_remove(dp->dp_meta_objset, ds->ds_object, DS_FIELD_RESUME_OBJECT, tx); (void) zap_remove(dp->dp_meta_objset, ds->ds_object, DS_FIELD_RESUME_OFFSET, tx); (void) zap_remove(dp->dp_meta_objset, ds->ds_object, DS_FIELD_RESUME_BYTES, tx); (void) zap_remove(dp->dp_meta_objset, ds->ds_object, DS_FIELD_RESUME_TOGUID, tx); (void) zap_remove(dp->dp_meta_objset, ds->ds_object, DS_FIELD_RESUME_TONAME, tx); (void) zap_remove(dp->dp_meta_objset, ds->ds_object, DS_FIELD_RESUME_REDACT_BOOKMARK_SNAPS, tx); } newsnapobj = dsl_dataset_phys(drc->drc_ds)->ds_prev_snap_obj; } /* * If this is a raw receive, the crypt_keydata nvlist will include * a to_ivset_guid for us to set on the new snapshot. This value * will override the value generated by the snapshot code. However, * this value may not be present, because older implementations of * the raw send code did not include this value, and we are still * allowed to receive them if the zfs_disable_ivset_guid_check * tunable is set, in which case we will leave the newly-generated * value. */ if (!drc->drc_heal && drc->drc_raw && drc->drc_ivset_guid != 0) { dmu_object_zapify(dp->dp_meta_objset, newsnapobj, DMU_OT_DSL_DATASET, tx); VERIFY0(zap_update(dp->dp_meta_objset, newsnapobj, DS_FIELD_IVSET_GUID, sizeof (uint64_t), 1, &drc->drc_ivset_guid, tx)); } /* * Release the hold from dmu_recv_begin. This must be done before * we return to open context, so that when we free the dataset's dnode * we can evict its bonus buffer. Since the dataset may be destroyed * at this point (and therefore won't have a valid pointer to the spa) * we release the key mapping manually here while we do have a valid * pointer, if it exists. */ if (!drc->drc_raw && encrypted) { (void) spa_keystore_remove_mapping(dmu_tx_pool(tx)->dp_spa, drc->drc_ds->ds_object, drc->drc_ds); } dsl_dataset_disown(drc->drc_ds, 0, dmu_recv_tag); drc->drc_ds = NULL; } static int dmu_recv_end_modified_blocks = 3; static int dmu_recv_existing_end(dmu_recv_cookie_t *drc) { #ifdef _KERNEL /* * We will be destroying the ds; make sure its origin is unmounted if * necessary. */ char name[ZFS_MAX_DATASET_NAME_LEN]; dsl_dataset_name(drc->drc_ds, name); zfs_destroy_unmount_origin(name); #endif return (dsl_sync_task(drc->drc_tofs, dmu_recv_end_check, dmu_recv_end_sync, drc, dmu_recv_end_modified_blocks, ZFS_SPACE_CHECK_NORMAL)); } static int dmu_recv_new_end(dmu_recv_cookie_t *drc) { return (dsl_sync_task(drc->drc_tofs, dmu_recv_end_check, dmu_recv_end_sync, drc, dmu_recv_end_modified_blocks, ZFS_SPACE_CHECK_NORMAL)); } int dmu_recv_end(dmu_recv_cookie_t *drc, void *owner) { int error; drc->drc_owner = owner; if (drc->drc_newfs) error = dmu_recv_new_end(drc); else error = dmu_recv_existing_end(drc); if (error != 0) { dmu_recv_cleanup_ds(drc); nvlist_free(drc->drc_keynvl); } else if (!drc->drc_heal) { if (drc->drc_newfs) { zvol_create_minor(drc->drc_tofs); } char *snapname = kmem_asprintf("%s@%s", drc->drc_tofs, drc->drc_tosnap); zvol_create_minor(snapname); kmem_strfree(snapname); } return (error); } /* * Return TRUE if this objset is currently being received into. */ boolean_t dmu_objset_is_receiving(objset_t *os) { return (os->os_dsl_dataset != NULL && os->os_dsl_dataset->ds_owner == dmu_recv_tag); } ZFS_MODULE_PARAM(zfs_recv, zfs_recv_, queue_length, UINT, ZMOD_RW, "Maximum receive queue length"); ZFS_MODULE_PARAM(zfs_recv, zfs_recv_, queue_ff, UINT, ZMOD_RW, "Receive queue fill fraction"); ZFS_MODULE_PARAM(zfs_recv, zfs_recv_, write_batch_size, UINT, ZMOD_RW, "Maximum amount of writes to batch into one transaction"); ZFS_MODULE_PARAM(zfs_recv, zfs_recv_, best_effort_corrective, INT, ZMOD_RW, "Ignore errors during corrective receive"); /* END CSTYLED */ diff --git a/tests/runfiles/common.run b/tests/runfiles/common.run index 132df492541d..d30bcd804c13 100644 --- a/tests/runfiles/common.run +++ b/tests/runfiles/common.run @@ -1,974 +1,975 @@ # # This file and its contents are supplied under the terms of the # Common Development and Distribution License ("CDDL"), version 1.0. # You may only use this file in accordance with the terms of version # 1.0 of the CDDL. # # A full copy of the text of the CDDL should have accompanied this # source. A copy of the CDDL is also available via the Internet at # http://www.illumos.org/license/CDDL. # # This run file contains all of the common functional tests. When # adding a new test consider also adding it to the sanity.run file # if the new test runs to completion in only a few seconds. # # Approximate run time: 4-5 hours # [DEFAULT] pre = setup quiet = False pre_user = root user = root timeout = 600 post_user = root post = cleanup failsafe_user = root failsafe = callbacks/zfs_failsafe outputdir = /var/tmp/test_results tags = ['functional'] [tests/functional/acl/off] tests = ['dosmode', 'posixmode'] tags = ['functional', 'acl'] [tests/functional/alloc_class] tests = ['alloc_class_001_pos', 'alloc_class_002_neg', 'alloc_class_003_pos', 'alloc_class_004_pos', 'alloc_class_005_pos', 'alloc_class_006_pos', 'alloc_class_007_pos', 'alloc_class_008_pos', 'alloc_class_009_pos', 'alloc_class_010_pos', 'alloc_class_011_neg', 'alloc_class_012_pos', 'alloc_class_013_pos'] tags = ['functional', 'alloc_class'] [tests/functional/append] tests = ['file_append', 'threadsappend_001_pos'] tags = ['functional', 'append'] [tests/functional/arc] tests = ['dbufstats_001_pos', 'dbufstats_002_pos', 'dbufstats_003_pos', 'arcstats_runtime_tuning'] tags = ['functional', 'arc'] [tests/functional/atime] tests = ['atime_001_pos', 'atime_002_neg', 'root_atime_off', 'root_atime_on'] tags = ['functional', 'atime'] [tests/functional/bootfs] tests = ['bootfs_001_pos', 'bootfs_002_neg', 'bootfs_003_pos', 'bootfs_004_neg', 'bootfs_005_neg', 'bootfs_006_pos', 'bootfs_007_pos', 'bootfs_008_pos'] tags = ['functional', 'bootfs'] [tests/functional/btree] tests = ['btree_positive', 'btree_negative'] tags = ['functional', 'btree'] pre = post = [tests/functional/cache] tests = ['cache_001_pos', 'cache_002_pos', 'cache_003_pos', 'cache_004_neg', 'cache_005_neg', 'cache_006_pos', 'cache_007_neg', 'cache_008_neg', 'cache_009_pos', 'cache_010_pos', 'cache_011_pos', 'cache_012_pos'] tags = ['functional', 'cache'] [tests/functional/cachefile] tests = ['cachefile_001_pos', 'cachefile_002_pos', 'cachefile_003_pos', 'cachefile_004_pos'] tags = ['functional', 'cachefile'] [tests/functional/casenorm] tests = ['case_all_values', 'norm_all_values', 'mixed_create_failure', 'sensitive_none_lookup', 'sensitive_none_delete', 'sensitive_formd_lookup', 'sensitive_formd_delete', 'insensitive_none_lookup', 'insensitive_none_delete', 'insensitive_formd_lookup', 'insensitive_formd_delete', 'mixed_none_lookup', 'mixed_none_lookup_ci', 'mixed_none_delete', 'mixed_formd_lookup', 'mixed_formd_lookup_ci', 'mixed_formd_delete'] tags = ['functional', 'casenorm'] [tests/functional/channel_program/lua_core] tests = ['tst.args_to_lua', 'tst.divide_by_zero', 'tst.exists', 'tst.integer_illegal', 'tst.integer_overflow', 'tst.language_functions_neg', 'tst.language_functions_pos', 'tst.large_prog', 'tst.libraries', 'tst.memory_limit', 'tst.nested_neg', 'tst.nested_pos', 'tst.nvlist_to_lua', 'tst.recursive_neg', 'tst.recursive_pos', 'tst.return_large', 'tst.return_nvlist_neg', 'tst.return_nvlist_pos', 'tst.return_recursive_table', 'tst.stack_gsub', 'tst.timeout'] tags = ['functional', 'channel_program', 'lua_core'] [tests/functional/channel_program/synctask_core] tests = ['tst.destroy_fs', 'tst.destroy_snap', 'tst.get_count_and_limit', 'tst.get_index_props', 'tst.get_mountpoint', 'tst.get_neg', 'tst.get_number_props', 'tst.get_string_props', 'tst.get_type', 'tst.get_userquota', 'tst.get_written', 'tst.inherit', 'tst.list_bookmarks', 'tst.list_children', 'tst.list_clones', 'tst.list_holds', 'tst.list_snapshots', 'tst.list_system_props', 'tst.list_user_props', 'tst.parse_args_neg','tst.promote_conflict', 'tst.promote_multiple', 'tst.promote_simple', 'tst.rollback_mult', 'tst.rollback_one', 'tst.set_props', 'tst.snapshot_destroy', 'tst.snapshot_neg', 'tst.snapshot_recursive', 'tst.snapshot_simple', 'tst.bookmark.create', 'tst.bookmark.copy', 'tst.terminate_by_signal' ] tags = ['functional', 'channel_program', 'synctask_core'] [tests/functional/checksum] tests = ['run_edonr_test', 'run_sha2_test', 'run_skein_test', 'run_blake3_test', 'filetest_001_pos', 'filetest_002_pos'] tags = ['functional', 'checksum'] [tests/functional/clean_mirror] tests = [ 'clean_mirror_001_pos', 'clean_mirror_002_pos', 'clean_mirror_003_pos', 'clean_mirror_004_pos'] tags = ['functional', 'clean_mirror'] [tests/functional/cli_root/zdb] tests = ['zdb_002_pos', 'zdb_003_pos', 'zdb_004_pos', 'zdb_005_pos', 'zdb_006_pos', 'zdb_args_neg', 'zdb_args_pos', 'zdb_block_size_histogram', 'zdb_checksum', 'zdb_decompress', 'zdb_display_block', 'zdb_encrypted', 'zdb_label_checksum', 'zdb_object_range_neg', 'zdb_object_range_pos', 'zdb_objset_id', 'zdb_decompress_zstd', 'zdb_recover', 'zdb_recover_2'] pre = post = tags = ['functional', 'cli_root', 'zdb'] [tests/functional/cli_root/zfs] tests = ['zfs_001_neg', 'zfs_002_pos'] tags = ['functional', 'cli_root', 'zfs'] [tests/functional/cli_root/zfs_bookmark] tests = ['zfs_bookmark_cliargs'] tags = ['functional', 'cli_root', 'zfs_bookmark'] [tests/functional/cli_root/zfs_change-key] tests = ['zfs_change-key', 'zfs_change-key_child', 'zfs_change-key_format', 'zfs_change-key_inherit', 'zfs_change-key_load', 'zfs_change-key_location', 'zfs_change-key_pbkdf2iters', 'zfs_change-key_clones'] tags = ['functional', 'cli_root', 'zfs_change-key'] [tests/functional/cli_root/zfs_clone] tests = ['zfs_clone_001_neg', 'zfs_clone_002_pos', 'zfs_clone_003_pos', 'zfs_clone_004_pos', 'zfs_clone_005_pos', 'zfs_clone_006_pos', 'zfs_clone_007_pos', 'zfs_clone_008_neg', 'zfs_clone_009_neg', 'zfs_clone_010_pos', 'zfs_clone_encrypted', 'zfs_clone_deeply_nested'] tags = ['functional', 'cli_root', 'zfs_clone'] [tests/functional/cli_root/zfs_copies] tests = ['zfs_copies_001_pos', 'zfs_copies_002_pos', 'zfs_copies_003_pos', 'zfs_copies_004_neg', 'zfs_copies_005_neg', 'zfs_copies_006_pos'] tags = ['functional', 'cli_root', 'zfs_copies'] [tests/functional/cli_root/zfs_create] tests = ['zfs_create_001_pos', 'zfs_create_002_pos', 'zfs_create_003_pos', 'zfs_create_004_pos', 'zfs_create_005_pos', 'zfs_create_006_pos', 'zfs_create_007_pos', 'zfs_create_008_neg', 'zfs_create_009_neg', 'zfs_create_010_neg', 'zfs_create_011_pos', 'zfs_create_012_pos', 'zfs_create_013_pos', 'zfs_create_014_pos', 'zfs_create_encrypted', 'zfs_create_crypt_combos', 'zfs_create_dryrun', 'zfs_create_nomount', 'zfs_create_verbose'] tags = ['functional', 'cli_root', 'zfs_create'] [tests/functional/cli_root/zfs_destroy] tests = ['zfs_clone_livelist_condense_and_disable', 'zfs_clone_livelist_condense_races', 'zfs_clone_livelist_dedup', 'zfs_destroy_001_pos', 'zfs_destroy_002_pos', 'zfs_destroy_003_pos', 'zfs_destroy_004_pos', 'zfs_destroy_005_neg', 'zfs_destroy_006_neg', 'zfs_destroy_007_neg', 'zfs_destroy_008_pos', 'zfs_destroy_009_pos', 'zfs_destroy_010_pos', 'zfs_destroy_011_pos', 'zfs_destroy_012_pos', 'zfs_destroy_013_neg', 'zfs_destroy_014_pos', 'zfs_destroy_015_pos', 'zfs_destroy_016_pos', 'zfs_destroy_clone_livelist', 'zfs_destroy_dev_removal', 'zfs_destroy_dev_removal_condense'] tags = ['functional', 'cli_root', 'zfs_destroy'] [tests/functional/cli_root/zfs_diff] tests = ['zfs_diff_changes', 'zfs_diff_cliargs', 'zfs_diff_timestamp', 'zfs_diff_types', 'zfs_diff_encrypted', 'zfs_diff_mangle'] tags = ['functional', 'cli_root', 'zfs_diff'] [tests/functional/cli_root/zfs_get] tests = ['zfs_get_001_pos', 'zfs_get_002_pos', 'zfs_get_003_pos', 'zfs_get_004_pos', 'zfs_get_005_neg', 'zfs_get_006_neg', 'zfs_get_007_neg', 'zfs_get_008_pos', 'zfs_get_009_pos', 'zfs_get_010_neg'] tags = ['functional', 'cli_root', 'zfs_get'] [tests/functional/cli_root/zfs_ids_to_path] tests = ['zfs_ids_to_path_001_pos'] tags = ['functional', 'cli_root', 'zfs_ids_to_path'] [tests/functional/cli_root/zfs_inherit] tests = ['zfs_inherit_001_neg', 'zfs_inherit_002_neg', 'zfs_inherit_003_pos', 'zfs_inherit_mountpoint'] tags = ['functional', 'cli_root', 'zfs_inherit'] [tests/functional/cli_root/zfs_load-key] tests = ['zfs_load-key', 'zfs_load-key_all', 'zfs_load-key_file', 'zfs_load-key_https', 'zfs_load-key_location', 'zfs_load-key_noop', 'zfs_load-key_recursive'] tags = ['functional', 'cli_root', 'zfs_load-key'] [tests/functional/cli_root/zfs_mount] tests = ['zfs_mount_001_pos', 'zfs_mount_002_pos', 'zfs_mount_003_pos', 'zfs_mount_004_pos', 'zfs_mount_005_pos', 'zfs_mount_007_pos', 'zfs_mount_009_neg', 'zfs_mount_010_neg', 'zfs_mount_011_neg', 'zfs_mount_012_pos', 'zfs_mount_all_001_pos', 'zfs_mount_encrypted', 'zfs_mount_remount', 'zfs_mount_all_fail', 'zfs_mount_all_mountpoints', 'zfs_mount_test_race'] tags = ['functional', 'cli_root', 'zfs_mount'] [tests/functional/cli_root/zfs_program] tests = ['zfs_program_json'] tags = ['functional', 'cli_root', 'zfs_program'] [tests/functional/cli_root/zfs_promote] tests = ['zfs_promote_001_pos', 'zfs_promote_002_pos', 'zfs_promote_003_pos', 'zfs_promote_004_pos', 'zfs_promote_005_pos', 'zfs_promote_006_neg', 'zfs_promote_007_neg', 'zfs_promote_008_pos', 'zfs_promote_encryptionroot'] tags = ['functional', 'cli_root', 'zfs_promote'] [tests/functional/cli_root/zfs_property] tests = ['zfs_written_property_001_pos'] tags = ['functional', 'cli_root', 'zfs_property'] [tests/functional/cli_root/zfs_receive] tests = ['zfs_receive_001_pos', 'zfs_receive_002_pos', 'zfs_receive_003_pos', 'zfs_receive_004_neg', 'zfs_receive_005_neg', 'zfs_receive_006_pos', 'zfs_receive_007_neg', 'zfs_receive_008_pos', 'zfs_receive_009_neg', 'zfs_receive_010_pos', 'zfs_receive_011_pos', 'zfs_receive_012_pos', 'zfs_receive_013_pos', 'zfs_receive_014_pos', 'zfs_receive_015_pos', 'zfs_receive_016_pos', 'receive-o-x_props_override', 'receive-o-x_props_aliases', 'zfs_receive_from_encrypted', 'zfs_receive_to_encrypted', 'zfs_receive_raw', 'zfs_receive_raw_incremental', 'zfs_receive_-e', 'zfs_receive_raw_-d', 'zfs_receive_from_zstd', 'zfs_receive_new_props', 'zfs_receive_-wR-encrypted-mix', 'zfs_receive_corrective', 'zfs_receive_compressed_corrective'] tags = ['functional', 'cli_root', 'zfs_receive'] [tests/functional/cli_root/zfs_rename] tests = ['zfs_rename_001_pos', 'zfs_rename_002_pos', 'zfs_rename_003_pos', 'zfs_rename_004_neg', 'zfs_rename_005_neg', 'zfs_rename_006_pos', 'zfs_rename_007_pos', 'zfs_rename_008_pos', 'zfs_rename_009_neg', 'zfs_rename_010_neg', 'zfs_rename_011_pos', 'zfs_rename_012_neg', 'zfs_rename_013_pos', 'zfs_rename_014_neg', 'zfs_rename_encrypted_child', 'zfs_rename_to_encrypted', 'zfs_rename_mountpoint', 'zfs_rename_nounmount'] tags = ['functional', 'cli_root', 'zfs_rename'] [tests/functional/cli_root/zfs_reservation] tests = ['zfs_reservation_001_pos', 'zfs_reservation_002_pos'] tags = ['functional', 'cli_root', 'zfs_reservation'] [tests/functional/cli_root/zfs_rollback] tests = ['zfs_rollback_001_pos', 'zfs_rollback_002_pos', 'zfs_rollback_003_neg', 'zfs_rollback_004_neg'] tags = ['functional', 'cli_root', 'zfs_rollback'] [tests/functional/cli_root/zfs_send] tests = ['zfs_send_001_pos', 'zfs_send_002_pos', 'zfs_send_003_pos', 'zfs_send_004_neg', 'zfs_send_005_pos', 'zfs_send_006_pos', 'zfs_send_007_pos', 'zfs_send_encrypted', 'zfs_send_raw', 'zfs_send_sparse', 'zfs_send-b', 'zfs_send_skip_missing'] tags = ['functional', 'cli_root', 'zfs_send'] [tests/functional/cli_root/zfs_set] tests = ['cache_001_pos', 'cache_002_neg', 'canmount_001_pos', 'canmount_002_pos', 'canmount_003_pos', 'canmount_004_pos', 'checksum_001_pos', 'compression_001_pos', 'mountpoint_001_pos', 'mountpoint_002_pos', 'reservation_001_neg', 'user_property_002_pos', 'share_mount_001_neg', 'snapdir_001_pos', 'onoffs_001_pos', 'user_property_001_pos', 'user_property_003_neg', 'readonly_001_pos', 'user_property_004_pos', 'version_001_neg', 'zfs_set_001_neg', 'zfs_set_002_neg', 'zfs_set_003_neg', 'property_alias_001_pos', 'mountpoint_003_pos', 'ro_props_001_pos', 'zfs_set_keylocation', 'zfs_set_feature_activation'] tags = ['functional', 'cli_root', 'zfs_set'] [tests/functional/cli_root/zfs_share] tests = ['zfs_share_001_pos', 'zfs_share_002_pos', 'zfs_share_003_pos', 'zfs_share_004_pos', 'zfs_share_006_pos', 'zfs_share_008_neg', 'zfs_share_010_neg', 'zfs_share_011_pos', 'zfs_share_concurrent_shares'] tags = ['functional', 'cli_root', 'zfs_share'] [tests/functional/cli_root/zfs_snapshot] tests = ['zfs_snapshot_001_neg', 'zfs_snapshot_002_neg', 'zfs_snapshot_003_neg', 'zfs_snapshot_004_neg', 'zfs_snapshot_005_neg', 'zfs_snapshot_006_pos', 'zfs_snapshot_007_neg', 'zfs_snapshot_008_neg', 'zfs_snapshot_009_pos'] tags = ['functional', 'cli_root', 'zfs_snapshot'] [tests/functional/cli_root/zfs_unload-key] tests = ['zfs_unload-key', 'zfs_unload-key_all', 'zfs_unload-key_recursive'] tags = ['functional', 'cli_root', 'zfs_unload-key'] [tests/functional/cli_root/zfs_unmount] tests = ['zfs_unmount_001_pos', 'zfs_unmount_002_pos', 'zfs_unmount_003_pos', 'zfs_unmount_004_pos', 'zfs_unmount_005_pos', 'zfs_unmount_006_pos', 'zfs_unmount_007_neg', 'zfs_unmount_008_neg', 'zfs_unmount_009_pos', 'zfs_unmount_all_001_pos', 'zfs_unmount_nested', 'zfs_unmount_unload_keys'] tags = ['functional', 'cli_root', 'zfs_unmount'] [tests/functional/cli_root/zfs_unshare] tests = ['zfs_unshare_001_pos', 'zfs_unshare_002_pos', 'zfs_unshare_003_pos', 'zfs_unshare_004_neg', 'zfs_unshare_005_neg', 'zfs_unshare_006_pos', 'zfs_unshare_007_pos', 'zfs_unshare_008_pos'] tags = ['functional', 'cli_root', 'zfs_unshare'] [tests/functional/cli_root/zfs_upgrade] tests = ['zfs_upgrade_001_pos', 'zfs_upgrade_002_pos', 'zfs_upgrade_003_pos', 'zfs_upgrade_004_pos', 'zfs_upgrade_005_pos', 'zfs_upgrade_006_neg', 'zfs_upgrade_007_neg'] tags = ['functional', 'cli_root', 'zfs_upgrade'] [tests/functional/cli_root/zfs_wait] tests = ['zfs_wait_deleteq', 'zfs_wait_getsubopt'] tags = ['functional', 'cli_root', 'zfs_wait'] [tests/functional/cli_root/zhack] tests = ['zhack_label_checksum'] pre = post = tags = ['functional', 'cli_root', 'zhack'] [tests/functional/cli_root/zpool] tests = ['zpool_001_neg', 'zpool_002_pos', 'zpool_003_pos', 'zpool_colors'] tags = ['functional', 'cli_root', 'zpool'] [tests/functional/cli_root/zpool_add] tests = ['zpool_add_001_pos', 'zpool_add_002_pos', 'zpool_add_003_pos', 'zpool_add_004_pos', 'zpool_add_006_pos', 'zpool_add_007_neg', 'zpool_add_008_neg', 'zpool_add_009_neg', 'zpool_add_010_pos', 'add-o_ashift', 'add_prop_ashift', 'zpool_add_dryrun_output'] tags = ['functional', 'cli_root', 'zpool_add'] [tests/functional/cli_root/zpool_attach] tests = ['zpool_attach_001_neg', 'attach-o_ashift'] tags = ['functional', 'cli_root', 'zpool_attach'] [tests/functional/cli_root/zpool_clear] tests = ['zpool_clear_001_pos', 'zpool_clear_002_neg', 'zpool_clear_003_neg', 'zpool_clear_readonly'] tags = ['functional', 'cli_root', 'zpool_clear'] [tests/functional/cli_root/zpool_create] tests = ['zpool_create_001_pos', 'zpool_create_002_pos', 'zpool_create_003_pos', 'zpool_create_004_pos', 'zpool_create_005_pos', 'zpool_create_006_pos', 'zpool_create_007_neg', 'zpool_create_008_pos', 'zpool_create_009_neg', 'zpool_create_010_neg', 'zpool_create_011_neg', 'zpool_create_012_neg', 'zpool_create_014_neg', 'zpool_create_015_neg', 'zpool_create_017_neg', 'zpool_create_018_pos', 'zpool_create_019_pos', 'zpool_create_020_pos', 'zpool_create_021_pos', 'zpool_create_022_pos', 'zpool_create_023_neg', 'zpool_create_024_pos', 'zpool_create_encrypted', 'zpool_create_crypt_combos', 'zpool_create_draid_001_pos', 'zpool_create_draid_002_pos', 'zpool_create_draid_003_pos', 'zpool_create_draid_004_pos', 'zpool_create_features_001_pos', 'zpool_create_features_002_pos', 'zpool_create_features_003_pos', 'zpool_create_features_004_neg', 'zpool_create_features_005_pos', 'zpool_create_features_006_pos', 'zpool_create_features_007_pos', 'zpool_create_features_008_pos', 'zpool_create_features_009_pos', 'create-o_ashift', 'zpool_create_tempname', 'zpool_create_dryrun_output'] tags = ['functional', 'cli_root', 'zpool_create'] [tests/functional/cli_root/zpool_destroy] tests = ['zpool_destroy_001_pos', 'zpool_destroy_002_pos', 'zpool_destroy_003_neg'] pre = post = tags = ['functional', 'cli_root', 'zpool_destroy'] [tests/functional/cli_root/zpool_detach] tests = ['zpool_detach_001_neg'] tags = ['functional', 'cli_root', 'zpool_detach'] [tests/functional/cli_root/zpool_events] tests = ['zpool_events_clear', 'zpool_events_cliargs', 'zpool_events_follow', 'zpool_events_poolname', 'zpool_events_errors', 'zpool_events_duplicates', 'zpool_events_clear_retained'] tags = ['functional', 'cli_root', 'zpool_events'] [tests/functional/cli_root/zpool_export] tests = ['zpool_export_001_pos', 'zpool_export_002_pos', 'zpool_export_003_neg', 'zpool_export_004_pos'] tags = ['functional', 'cli_root', 'zpool_export'] [tests/functional/cli_root/zpool_get] tests = ['zpool_get_001_pos', 'zpool_get_002_pos', 'zpool_get_003_pos', 'zpool_get_004_neg', 'zpool_get_005_pos'] tags = ['functional', 'cli_root', 'zpool_get'] [tests/functional/cli_root/zpool_history] tests = ['zpool_history_001_neg', 'zpool_history_002_pos'] tags = ['functional', 'cli_root', 'zpool_history'] [tests/functional/cli_root/zpool_import] tests = ['zpool_import_001_pos', 'zpool_import_002_pos', 'zpool_import_003_pos', 'zpool_import_004_pos', 'zpool_import_005_pos', 'zpool_import_006_pos', 'zpool_import_007_pos', 'zpool_import_008_pos', 'zpool_import_009_neg', 'zpool_import_010_pos', 'zpool_import_011_neg', 'zpool_import_012_pos', 'zpool_import_013_neg', 'zpool_import_014_pos', 'zpool_import_015_pos', 'zpool_import_016_pos', 'zpool_import_017_pos', 'zpool_import_features_001_pos', 'zpool_import_features_002_neg', 'zpool_import_features_003_pos', 'zpool_import_missing_001_pos', 'zpool_import_missing_002_pos', 'zpool_import_missing_003_pos', 'zpool_import_rename_001_pos', 'zpool_import_all_001_pos', 'zpool_import_encrypted', 'zpool_import_encrypted_load', 'zpool_import_errata3', 'zpool_import_errata4', 'import_cachefile_device_added', 'import_cachefile_device_removed', 'import_cachefile_device_replaced', 'import_cachefile_mirror_attached', 'import_cachefile_mirror_detached', 'import_cachefile_paths_changed', 'import_cachefile_shared_device', 'import_devices_missing', 'import_paths_changed', 'import_rewind_config_changed', 'import_rewind_device_replaced'] tags = ['functional', 'cli_root', 'zpool_import'] timeout = 1200 [tests/functional/cli_root/zpool_labelclear] tests = ['zpool_labelclear_active', 'zpool_labelclear_exported', 'zpool_labelclear_removed', 'zpool_labelclear_valid'] pre = post = tags = ['functional', 'cli_root', 'zpool_labelclear'] [tests/functional/cli_root/zpool_initialize] tests = ['zpool_initialize_attach_detach_add_remove', 'zpool_initialize_fault_export_import_online', 'zpool_initialize_import_export', 'zpool_initialize_offline_export_import_online', 'zpool_initialize_online_offline', 'zpool_initialize_split', 'zpool_initialize_start_and_cancel_neg', 'zpool_initialize_start_and_cancel_pos', 'zpool_initialize_suspend_resume', 'zpool_initialize_unsupported_vdevs', 'zpool_initialize_verify_checksums', 'zpool_initialize_verify_initialized'] pre = tags = ['functional', 'cli_root', 'zpool_initialize'] [tests/functional/cli_root/zpool_offline] tests = ['zpool_offline_001_pos', 'zpool_offline_002_neg', 'zpool_offline_003_pos'] tags = ['functional', 'cli_root', 'zpool_offline'] [tests/functional/cli_root/zpool_online] tests = ['zpool_online_001_pos', 'zpool_online_002_neg'] tags = ['functional', 'cli_root', 'zpool_online'] [tests/functional/cli_root/zpool_remove] tests = ['zpool_remove_001_neg', 'zpool_remove_002_pos', 'zpool_remove_003_pos'] tags = ['functional', 'cli_root', 'zpool_remove'] [tests/functional/cli_root/zpool_replace] tests = ['zpool_replace_001_neg', 'replace-o_ashift', 'replace_prop_ashift'] tags = ['functional', 'cli_root', 'zpool_replace'] [tests/functional/cli_root/zpool_resilver] tests = ['zpool_resilver_bad_args', 'zpool_resilver_restart'] tags = ['functional', 'cli_root', 'zpool_resilver'] [tests/functional/cli_root/zpool_scrub] tests = ['zpool_scrub_001_neg', 'zpool_scrub_002_pos', 'zpool_scrub_003_pos', 'zpool_scrub_004_pos', 'zpool_scrub_005_pos', 'zpool_scrub_encrypted_unloaded', 'zpool_scrub_print_repairing', 'zpool_scrub_offline_device', 'zpool_scrub_multiple_copies'] tags = ['functional', 'cli_root', 'zpool_scrub'] [tests/functional/cli_root/zpool_set] tests = ['zpool_set_001_pos', 'zpool_set_002_neg', 'zpool_set_003_neg', 'zpool_set_ashift', 'zpool_set_features'] tags = ['functional', 'cli_root', 'zpool_set'] [tests/functional/cli_root/zpool_split] tests = ['zpool_split_cliargs', 'zpool_split_devices', 'zpool_split_encryption', 'zpool_split_props', 'zpool_split_vdevs', 'zpool_split_resilver', 'zpool_split_indirect', 'zpool_split_dryrun_output'] tags = ['functional', 'cli_root', 'zpool_split'] [tests/functional/cli_root/zpool_status] tests = ['zpool_status_001_pos', 'zpool_status_002_pos', 'zpool_status_003_pos', 'zpool_status_004_pos', 'zpool_status_005_pos', 'zpool_status_features_001_pos'] tags = ['functional', 'cli_root', 'zpool_status'] [tests/functional/cli_root/zpool_sync] tests = ['zpool_sync_001_pos', 'zpool_sync_002_neg'] tags = ['functional', 'cli_root', 'zpool_sync'] [tests/functional/cli_root/zpool_trim] tests = ['zpool_trim_attach_detach_add_remove', 'zpool_trim_fault_export_import_online', 'zpool_trim_import_export', 'zpool_trim_multiple', 'zpool_trim_neg', 'zpool_trim_offline_export_import_online', 'zpool_trim_online_offline', 'zpool_trim_partial', 'zpool_trim_rate', 'zpool_trim_rate_neg', 'zpool_trim_secure', 'zpool_trim_split', 'zpool_trim_start_and_cancel_neg', 'zpool_trim_start_and_cancel_pos', 'zpool_trim_suspend_resume', 'zpool_trim_unsupported_vdevs', 'zpool_trim_verify_checksums', 'zpool_trim_verify_trimmed'] tags = ['functional', 'zpool_trim'] [tests/functional/cli_root/zpool_upgrade] tests = ['zpool_upgrade_001_pos', 'zpool_upgrade_002_pos', 'zpool_upgrade_003_pos', 'zpool_upgrade_004_pos', 'zpool_upgrade_005_neg', 'zpool_upgrade_006_neg', 'zpool_upgrade_007_pos', 'zpool_upgrade_008_pos', 'zpool_upgrade_009_neg', 'zpool_upgrade_features_001_pos'] tags = ['functional', 'cli_root', 'zpool_upgrade'] [tests/functional/cli_root/zpool_wait] tests = ['zpool_wait_discard', 'zpool_wait_freeing', 'zpool_wait_initialize_basic', 'zpool_wait_initialize_cancel', 'zpool_wait_initialize_flag', 'zpool_wait_multiple', 'zpool_wait_no_activity', 'zpool_wait_remove', 'zpool_wait_remove_cancel', 'zpool_wait_trim_basic', 'zpool_wait_trim_cancel', 'zpool_wait_trim_flag', 'zpool_wait_usage'] tags = ['functional', 'cli_root', 'zpool_wait'] [tests/functional/cli_root/zpool_wait/scan] tests = ['zpool_wait_replace_cancel', 'zpool_wait_rebuild', 'zpool_wait_resilver', 'zpool_wait_scrub_cancel', 'zpool_wait_replace', 'zpool_wait_scrub_basic', 'zpool_wait_scrub_flag'] tags = ['functional', 'cli_root', 'zpool_wait'] [tests/functional/cli_user/misc] tests = ['zdb_001_neg', 'zfs_001_neg', 'zfs_allow_001_neg', 'zfs_clone_001_neg', 'zfs_create_001_neg', 'zfs_destroy_001_neg', 'zfs_get_001_neg', 'zfs_inherit_001_neg', 'zfs_mount_001_neg', 'zfs_promote_001_neg', 'zfs_receive_001_neg', 'zfs_rename_001_neg', 'zfs_rollback_001_neg', 'zfs_send_001_neg', 'zfs_set_001_neg', 'zfs_share_001_neg', 'zfs_snapshot_001_neg', 'zfs_unallow_001_neg', 'zfs_unmount_001_neg', 'zfs_unshare_001_neg', 'zfs_upgrade_001_neg', 'zpool_001_neg', 'zpool_add_001_neg', 'zpool_attach_001_neg', 'zpool_clear_001_neg', 'zpool_create_001_neg', 'zpool_destroy_001_neg', 'zpool_detach_001_neg', 'zpool_export_001_neg', 'zpool_get_001_neg', 'zpool_history_001_neg', 'zpool_import_001_neg', 'zpool_import_002_neg', 'zpool_offline_001_neg', 'zpool_online_001_neg', 'zpool_remove_001_neg', 'zpool_replace_001_neg', 'zpool_scrub_001_neg', 'zpool_set_001_neg', 'zpool_status_001_neg', 'zpool_upgrade_001_neg', 'arcstat_001_pos', 'arc_summary_001_pos', 'arc_summary_002_neg', 'zpool_wait_privilege', 'zilstat_001_pos'] user = tags = ['functional', 'cli_user', 'misc'] [tests/functional/cli_user/zfs_list] tests = ['zfs_list_001_pos', 'zfs_list_002_pos', 'zfs_list_003_pos', 'zfs_list_004_neg', 'zfs_list_005_neg', 'zfs_list_007_pos', 'zfs_list_008_neg'] user = tags = ['functional', 'cli_user', 'zfs_list'] [tests/functional/cli_user/zpool_iostat] tests = ['zpool_iostat_001_neg', 'zpool_iostat_002_pos', 'zpool_iostat_003_neg', 'zpool_iostat_004_pos', 'zpool_iostat_005_pos', 'zpool_iostat_-c_disable', 'zpool_iostat_-c_homedir', 'zpool_iostat_-c_searchpath'] user = tags = ['functional', 'cli_user', 'zpool_iostat'] [tests/functional/cli_user/zpool_list] tests = ['zpool_list_001_pos', 'zpool_list_002_neg'] user = tags = ['functional', 'cli_user', 'zpool_list'] [tests/functional/cli_user/zpool_status] tests = ['zpool_status_003_pos', 'zpool_status_-c_disable', 'zpool_status_-c_homedir', 'zpool_status_-c_searchpath'] user = tags = ['functional', 'cli_user', 'zpool_status'] [tests/functional/compression] tests = ['compress_001_pos', 'compress_002_pos', 'compress_003_pos', 'l2arc_compressed_arc', 'l2arc_compressed_arc_disabled', 'l2arc_encrypted', 'l2arc_encrypted_no_compressed_arc'] tags = ['functional', 'compression'] [tests/functional/cp_files] tests = ['cp_files_001_pos'] tags = ['functional', 'cp_files'] [tests/functional/crtime] tests = ['crtime_001_pos' ] tags = ['functional', 'crtime'] [tests/functional/ctime] tests = ['ctime_001_pos' ] tags = ['functional', 'ctime'] [tests/functional/deadman] tests = ['deadman_ratelimit', 'deadman_sync', 'deadman_zio'] pre = post = tags = ['functional', 'deadman'] [tests/functional/delegate] tests = ['zfs_allow_001_pos', 'zfs_allow_002_pos', 'zfs_allow_003_pos', 'zfs_allow_004_pos', 'zfs_allow_005_pos', 'zfs_allow_006_pos', 'zfs_allow_007_pos', 'zfs_allow_008_pos', 'zfs_allow_009_neg', 'zfs_allow_010_pos', 'zfs_allow_011_neg', 'zfs_allow_012_neg', 'zfs_unallow_001_pos', 'zfs_unallow_002_pos', 'zfs_unallow_003_pos', 'zfs_unallow_004_pos', 'zfs_unallow_005_pos', 'zfs_unallow_006_pos', 'zfs_unallow_007_neg', 'zfs_unallow_008_neg'] tags = ['functional', 'delegate'] [tests/functional/exec] tests = ['exec_001_pos', 'exec_002_neg'] tags = ['functional', 'exec'] [tests/functional/fallocate] tests = ['fallocate_punch-hole'] tags = ['functional', 'fallocate'] [tests/functional/features/async_destroy] tests = ['async_destroy_001_pos'] tags = ['functional', 'features', 'async_destroy'] [tests/functional/features/large_dnode] tests = ['large_dnode_001_pos', 'large_dnode_003_pos', 'large_dnode_004_neg', 'large_dnode_005_pos', 'large_dnode_007_neg', 'large_dnode_009_pos'] tags = ['functional', 'features', 'large_dnode'] [tests/functional/grow] pre = post = tests = ['grow_pool_001_pos', 'grow_replicas_001_pos'] tags = ['functional', 'grow'] [tests/functional/history] tests = ['history_001_pos', 'history_002_pos', 'history_003_pos', 'history_004_pos', 'history_005_neg', 'history_006_neg', 'history_007_pos', 'history_008_pos', 'history_009_pos', 'history_010_pos'] tags = ['functional', 'history'] [tests/functional/hkdf] pre = post = tests = ['hkdf_test'] tags = ['functional', 'hkdf'] [tests/functional/inheritance] tests = ['inherit_001_pos'] pre = tags = ['functional', 'inheritance'] [tests/functional/io] tests = ['sync', 'psync', 'posixaio', 'mmap'] tags = ['functional', 'io'] [tests/functional/inuse] tests = ['inuse_004_pos', 'inuse_005_pos', 'inuse_008_pos', 'inuse_009_pos'] post = tags = ['functional', 'inuse'] [tests/functional/large_files] tests = ['large_files_001_pos', 'large_files_002_pos'] tags = ['functional', 'large_files'] [tests/functional/limits] tests = ['filesystem_count', 'filesystem_limit', 'snapshot_count', 'snapshot_limit'] tags = ['functional', 'limits'] [tests/functional/link_count] tests = ['link_count_001', 'link_count_root_inode'] tags = ['functional', 'link_count'] [tests/functional/migration] tests = ['migration_001_pos', 'migration_002_pos', 'migration_003_pos', 'migration_004_pos', 'migration_005_pos', 'migration_006_pos', 'migration_007_pos', 'migration_008_pos', 'migration_009_pos', 'migration_010_pos', 'migration_011_pos', 'migration_012_pos'] tags = ['functional', 'migration'] [tests/functional/mmap] tests = ['mmap_mixed', 'mmap_read_001_pos', 'mmap_seek_001_pos', 'mmap_sync_001_pos', 'mmap_write_001_pos'] tags = ['functional', 'mmap'] [tests/functional/mount] tests = ['umount_001', 'umountall_001'] tags = ['functional', 'mount'] [tests/functional/mv_files] tests = ['mv_files_001_pos', 'mv_files_002_pos', 'random_creation'] tags = ['functional', 'mv_files'] [tests/functional/nestedfs] tests = ['nestedfs_001_pos'] tags = ['functional', 'nestedfs'] [tests/functional/no_space] tests = ['enospc_001_pos', 'enospc_002_pos', 'enospc_003_pos', 'enospc_df', 'enospc_ganging', 'enospc_rm'] tags = ['functional', 'no_space'] [tests/functional/nopwrite] tests = ['nopwrite_copies', 'nopwrite_mtime', 'nopwrite_negative', 'nopwrite_promoted_clone', 'nopwrite_recsize', 'nopwrite_sync', 'nopwrite_varying_compression', 'nopwrite_volume'] tags = ['functional', 'nopwrite'] [tests/functional/online_offline] tests = ['online_offline_001_pos', 'online_offline_002_neg', 'online_offline_003_neg'] tags = ['functional', 'online_offline'] [tests/functional/pool_checkpoint] tests = ['checkpoint_after_rewind', 'checkpoint_big_rewind', 'checkpoint_capacity', 'checkpoint_conf_change', 'checkpoint_discard', 'checkpoint_discard_busy', 'checkpoint_discard_many', 'checkpoint_indirect', 'checkpoint_invalid', 'checkpoint_lun_expsz', 'checkpoint_open', 'checkpoint_removal', 'checkpoint_rewind', 'checkpoint_ro_rewind', 'checkpoint_sm_scale', 'checkpoint_twice', 'checkpoint_vdev_add', 'checkpoint_zdb', 'checkpoint_zhack_feat'] tags = ['functional', 'pool_checkpoint'] timeout = 1800 [tests/functional/pool_names] tests = ['pool_names_001_pos', 'pool_names_002_neg'] pre = post = tags = ['functional', 'pool_names'] [tests/functional/poolversion] tests = ['poolversion_001_pos', 'poolversion_002_pos'] tags = ['functional', 'poolversion'] [tests/functional/pyzfs] tests = ['pyzfs_unittest'] pre = post = tags = ['functional', 'pyzfs'] [tests/functional/quota] tests = ['quota_001_pos', 'quota_002_pos', 'quota_003_pos', 'quota_004_pos', 'quota_005_pos', 'quota_006_neg'] tags = ['functional', 'quota'] [tests/functional/redacted_send] tests = ['redacted_compressed', 'redacted_contents', 'redacted_deleted', 'redacted_disabled_feature', 'redacted_embedded', 'redacted_holes', 'redacted_incrementals', 'redacted_largeblocks', 'redacted_many_clones', 'redacted_mixed_recsize', 'redacted_mounts', 'redacted_negative', 'redacted_origin', 'redacted_panic', 'redacted_props', 'redacted_resume', 'redacted_size', 'redacted_volume'] tags = ['functional', 'redacted_send'] [tests/functional/raidz] tests = ['raidz_001_neg', 'raidz_002_pos', 'raidz_003_pos', 'raidz_004_pos'] tags = ['functional', 'raidz'] [tests/functional/redundancy] tests = ['redundancy_draid', 'redundancy_draid1', 'redundancy_draid2', 'redundancy_draid3', 'redundancy_draid_damaged1', 'redundancy_draid_damaged2', 'redundancy_draid_spare1', 'redundancy_draid_spare2', 'redundancy_draid_spare3', 'redundancy_mirror', 'redundancy_raidz', 'redundancy_raidz1', 'redundancy_raidz2', 'redundancy_raidz3', 'redundancy_stripe'] tags = ['functional', 'redundancy'] timeout = 1200 [tests/functional/refquota] tests = ['refquota_001_pos', 'refquota_002_pos', 'refquota_003_pos', 'refquota_004_pos', 'refquota_005_pos', 'refquota_006_neg', 'refquota_007_neg', 'refquota_008_neg'] tags = ['functional', 'refquota'] [tests/functional/refreserv] tests = ['refreserv_001_pos', 'refreserv_002_pos', 'refreserv_003_pos', 'refreserv_004_pos', 'refreserv_005_pos', 'refreserv_multi_raidz', 'refreserv_raidz'] tags = ['functional', 'refreserv'] [tests/functional/removal] pre = tests = ['removal_all_vdev', 'removal_cancel', 'removal_check_space', 'removal_condense_export', 'removal_multiple_indirection', 'removal_nopwrite', 'removal_remap_deadlists', 'removal_resume_export', 'removal_sanity', 'removal_with_add', 'removal_with_create_fs', 'removal_with_dedup', 'removal_with_errors', 'removal_with_export', 'removal_with_ganging', 'removal_with_faulted', 'removal_with_remove', 'removal_with_scrub', 'removal_with_send', 'removal_with_send_recv', 'removal_with_snapshot', 'removal_with_write', 'removal_with_zdb', 'remove_expanded', 'remove_mirror', 'remove_mirror_sanity', 'remove_raidz', 'remove_indirect', 'remove_attach_mirror'] tags = ['functional', 'removal'] [tests/functional/rename_dirs] tests = ['rename_dirs_001_pos'] tags = ['functional', 'rename_dirs'] [tests/functional/replacement] tests = ['attach_import', 'attach_multiple', 'attach_rebuild', 'attach_resilver', 'detach', 'rebuild_disabled_feature', 'rebuild_multiple', 'rebuild_raidz', 'replace_import', 'replace_rebuild', 'replace_resilver', 'resilver_restart_001', 'resilver_restart_002', 'scrub_cancel'] tags = ['functional', 'replacement'] [tests/functional/reservation] tests = ['reservation_001_pos', 'reservation_002_pos', 'reservation_003_pos', 'reservation_004_pos', 'reservation_005_pos', 'reservation_006_pos', 'reservation_007_pos', 'reservation_008_pos', 'reservation_009_pos', 'reservation_010_pos', 'reservation_011_pos', 'reservation_012_pos', 'reservation_013_pos', 'reservation_014_pos', 'reservation_015_pos', 'reservation_016_pos', 'reservation_017_pos', 'reservation_018_pos', 'reservation_019_pos', 'reservation_020_pos', 'reservation_021_neg', 'reservation_022_pos'] tags = ['functional', 'reservation'] [tests/functional/rootpool] tests = ['rootpool_002_neg', 'rootpool_003_neg', 'rootpool_007_pos'] tags = ['functional', 'rootpool'] [tests/functional/rsend] tests = ['recv_dedup', 'recv_dedup_encrypted_zvol', 'rsend_001_pos', 'rsend_002_pos', 'rsend_003_pos', 'rsend_004_pos', 'rsend_005_pos', 'rsend_006_pos', 'rsend_007_pos', 'rsend_008_pos', 'rsend_009_pos', 'rsend_010_pos', 'rsend_011_pos', 'rsend_012_pos', 'rsend_013_pos', 'rsend_014_pos', 'rsend_016_neg', 'rsend_019_pos', 'rsend_020_pos', 'rsend_021_pos', 'rsend_022_pos', 'rsend_024_pos', 'rsend_025_pos', 'rsend_026_neg', 'rsend_027_pos', 'rsend_028_neg', 'rsend_029_neg', - 'rsend_030_pos', 'send-c_verify_ratio', 'send-c_verify_contents', - 'send-c_props', 'send-c_incremental', 'send-c_volume', - 'send-c_zstream_recompress', 'send-c_zstreamdump', 'send-c_lz4_disabled', - 'send-c_recv_lz4_disabled', 'send-c_mixed_compression', - 'send-c_stream_size_estimate', 'send-c_embedded_blocks', 'send-c_resume', - 'send-cpL_varied_recsize', 'send-c_recv_dedup', 'send-L_toggle', - 'send_encrypted_incremental', 'send_encrypted_freeobjects', - 'send_encrypted_hierarchy', 'send_encrypted_props', - 'send_encrypted_truncated_files', 'send_freeobjects', 'send_realloc_files', - 'send_realloc_encrypted_files', 'send_spill_block', 'send_holds', - 'send_hole_birth', 'send_mixed_raw', 'send-wR_encrypted_zvol', - 'send_partial_dataset', 'send_invalid', 'send_doall', - 'send_raw_spill_block', 'send_raw_ashift', 'send_raw_large_blocks'] + 'rsend_030_pos', 'rsend_031_pos', 'send-c_verify_ratio', + 'send-c_verify_contents', 'send-c_props', 'send-c_incremental', + 'send-c_volume', 'send-c_zstream_recompress', 'send-c_zstreamdump', + 'send-c_lz4_disabled', 'send-c_recv_lz4_disabled', + 'send-c_mixed_compression', 'send-c_stream_size_estimate', + 'send-c_embedded_blocks', 'send-c_resume', 'send-cpL_varied_recsize', + 'send-c_recv_dedup', 'send-L_toggle', 'send_encrypted_incremental', + 'send_encrypted_freeobjects', 'send_encrypted_hierarchy', + 'send_encrypted_props', 'send_encrypted_truncated_files', + 'send_freeobjects', 'send_realloc_files', 'send_realloc_encrypted_files', + 'send_spill_block', 'send_holds', 'send_hole_birth', 'send_mixed_raw', + 'send-wR_encrypted_zvol', 'send_partial_dataset', 'send_invalid', + 'send_doall', 'send_raw_spill_block', 'send_raw_ashift', + 'send_raw_large_blocks'] tags = ['functional', 'rsend'] [tests/functional/scrub_mirror] tests = ['scrub_mirror_001_pos', 'scrub_mirror_002_pos', 'scrub_mirror_003_pos', 'scrub_mirror_004_pos'] tags = ['functional', 'scrub_mirror'] [tests/functional/slog] tests = ['slog_001_pos', 'slog_002_pos', 'slog_003_pos', 'slog_004_pos', 'slog_005_pos', 'slog_006_pos', 'slog_007_pos', 'slog_008_neg', 'slog_009_neg', 'slog_010_neg', 'slog_011_neg', 'slog_012_neg', 'slog_013_pos', 'slog_014_pos', 'slog_015_neg', 'slog_replay_fs_001', 'slog_replay_fs_002', 'slog_replay_volume', 'slog_016_pos'] tags = ['functional', 'slog'] [tests/functional/snapshot] tests = ['clone_001_pos', 'rollback_001_pos', 'rollback_002_pos', 'rollback_003_pos', 'snapshot_001_pos', 'snapshot_002_pos', 'snapshot_003_pos', 'snapshot_004_pos', 'snapshot_005_pos', 'snapshot_006_pos', 'snapshot_007_pos', 'snapshot_008_pos', 'snapshot_009_pos', 'snapshot_010_pos', 'snapshot_011_pos', 'snapshot_012_pos', 'snapshot_013_pos', 'snapshot_014_pos', 'snapshot_017_pos', 'snapshot_018_pos'] tags = ['functional', 'snapshot'] [tests/functional/snapused] tests = ['snapused_001_pos', 'snapused_002_pos', 'snapused_003_pos', 'snapused_004_pos', 'snapused_005_pos'] tags = ['functional', 'snapused'] [tests/functional/sparse] tests = ['sparse_001_pos'] tags = ['functional', 'sparse'] [tests/functional/stat] tests = ['stat_001_pos'] tags = ['functional', 'stat'] [tests/functional/suid] tests = ['suid_write_to_suid', 'suid_write_to_sgid', 'suid_write_to_suid_sgid', 'suid_write_to_none', 'suid_write_zil_replay'] tags = ['functional', 'suid'] [tests/functional/trim] tests = ['autotrim_integrity', 'autotrim_config', 'autotrim_trim_integrity', 'trim_integrity', 'trim_config', 'trim_l2arc'] tags = ['functional', 'trim'] [tests/functional/truncate] tests = ['truncate_001_pos', 'truncate_002_pos', 'truncate_timestamps'] tags = ['functional', 'truncate'] [tests/functional/upgrade] tests = ['upgrade_userobj_001_pos', 'upgrade_readonly_pool'] tags = ['functional', 'upgrade'] [tests/functional/userquota] tests = [ 'userquota_001_pos', 'userquota_002_pos', 'userquota_003_pos', 'userquota_004_pos', 'userquota_005_neg', 'userquota_006_pos', 'userquota_007_pos', 'userquota_008_pos', 'userquota_009_pos', 'userquota_010_pos', 'userquota_011_pos', 'userquota_012_neg', 'userspace_001_pos', 'userspace_002_pos', 'userspace_encrypted', 'userspace_send_encrypted', 'userspace_encrypted_13709'] tags = ['functional', 'userquota'] [tests/functional/vdev_zaps] tests = ['vdev_zaps_001_pos', 'vdev_zaps_002_pos', 'vdev_zaps_003_pos', 'vdev_zaps_004_pos', 'vdev_zaps_005_pos', 'vdev_zaps_006_pos', 'vdev_zaps_007_pos'] tags = ['functional', 'vdev_zaps'] [tests/functional/write_dirs] tests = ['write_dirs_001_pos', 'write_dirs_002_pos'] tags = ['functional', 'write_dirs'] [tests/functional/xattr] tests = ['xattr_001_pos', 'xattr_002_neg', 'xattr_003_neg', 'xattr_004_pos', 'xattr_005_pos', 'xattr_006_pos', 'xattr_007_neg', 'xattr_011_pos', 'xattr_012_pos', 'xattr_013_pos', 'xattr_compat'] tags = ['functional', 'xattr'] [tests/functional/zvol/zvol_ENOSPC] tests = ['zvol_ENOSPC_001_pos'] tags = ['functional', 'zvol', 'zvol_ENOSPC'] [tests/functional/zvol/zvol_cli] tests = ['zvol_cli_001_pos', 'zvol_cli_002_pos', 'zvol_cli_003_neg'] tags = ['functional', 'zvol', 'zvol_cli'] [tests/functional/zvol/zvol_misc] tests = ['zvol_misc_002_pos', 'zvol_misc_hierarchy', 'zvol_misc_rename_inuse', 'zvol_misc_snapdev', 'zvol_misc_trim', 'zvol_misc_volmode', 'zvol_misc_zil'] tags = ['functional', 'zvol', 'zvol_misc'] [tests/functional/zvol/zvol_stress] tests = ['zvol_stress'] tags = ['functional', 'zvol', 'zvol_stress'] [tests/functional/zvol/zvol_swap] tests = ['zvol_swap_001_pos', 'zvol_swap_002_pos', 'zvol_swap_004_pos'] tags = ['functional', 'zvol', 'zvol_swap'] [tests/functional/libzfs] tests = ['many_fds', 'libzfs_input'] tags = ['functional', 'libzfs'] [tests/functional/log_spacemap] tests = ['log_spacemap_import_logs'] pre = post = tags = ['functional', 'log_spacemap'] [tests/functional/l2arc] tests = ['l2arc_arcstats_pos', 'l2arc_mfuonly_pos', 'l2arc_l2miss_pos', 'persist_l2arc_001_pos', 'persist_l2arc_002_pos', 'persist_l2arc_003_neg', 'persist_l2arc_004_pos', 'persist_l2arc_005_pos'] tags = ['functional', 'l2arc'] [tests/functional/zpool_influxdb] tests = ['zpool_influxdb'] tags = ['functional', 'zpool_influxdb'] diff --git a/tests/zfs-tests/cmd/libzfs_input_check.c b/tests/zfs-tests/cmd/libzfs_input_check.c index 2e1859b1eef0..a1dfaefd7105 100644 --- a/tests/zfs-tests/cmd/libzfs_input_check.c +++ b/tests/zfs-tests/cmd/libzfs_input_check.c @@ -1,1067 +1,1067 @@ /* * CDDL HEADER START * * This file and its contents are supplied under the terms of the * Common Development and Distribution License ("CDDL"), version 1.0. * You may only use this file in accordance with the terms of version * 1.0 of the CDDL. * * A full copy of the text of the CDDL should have accompanied this * source. A copy of the CDDL is also available via the Internet at * http://www.illumos.org/license/CDDL. * * CDDL HEADER END */ /* * Copyright (c) 2018 by Delphix. All rights reserved. */ #include #include #include #include #include #include #include #include #include /* * Test the nvpair inputs for the non-legacy zfs ioctl commands. */ static boolean_t unexpected_failures; static int zfs_fd; static const char *active_test; /* * Tracks which zfs_ioc_t commands were tested */ static boolean_t ioc_tested[ZFS_IOC_LAST - ZFS_IOC_FIRST]; /* * Legacy ioctls that are skipped (for now) */ static const zfs_ioc_t ioc_skip[] = { ZFS_IOC_POOL_CREATE, ZFS_IOC_POOL_DESTROY, ZFS_IOC_POOL_IMPORT, ZFS_IOC_POOL_EXPORT, ZFS_IOC_POOL_CONFIGS, ZFS_IOC_POOL_STATS, ZFS_IOC_POOL_TRYIMPORT, ZFS_IOC_POOL_SCAN, ZFS_IOC_POOL_FREEZE, ZFS_IOC_POOL_UPGRADE, ZFS_IOC_POOL_GET_HISTORY, ZFS_IOC_VDEV_ADD, ZFS_IOC_VDEV_REMOVE, ZFS_IOC_VDEV_SET_STATE, ZFS_IOC_VDEV_ATTACH, ZFS_IOC_VDEV_DETACH, ZFS_IOC_VDEV_SETPATH, ZFS_IOC_VDEV_SETFRU, ZFS_IOC_OBJSET_STATS, ZFS_IOC_OBJSET_ZPLPROPS, ZFS_IOC_DATASET_LIST_NEXT, ZFS_IOC_SNAPSHOT_LIST_NEXT, ZFS_IOC_SET_PROP, ZFS_IOC_DESTROY, ZFS_IOC_RENAME, ZFS_IOC_RECV, ZFS_IOC_SEND, ZFS_IOC_INJECT_FAULT, ZFS_IOC_CLEAR_FAULT, ZFS_IOC_INJECT_LIST_NEXT, ZFS_IOC_ERROR_LOG, ZFS_IOC_CLEAR, ZFS_IOC_PROMOTE, ZFS_IOC_DSOBJ_TO_DSNAME, ZFS_IOC_OBJ_TO_PATH, ZFS_IOC_POOL_SET_PROPS, ZFS_IOC_POOL_GET_PROPS, ZFS_IOC_SET_FSACL, ZFS_IOC_GET_FSACL, ZFS_IOC_SHARE, ZFS_IOC_INHERIT_PROP, ZFS_IOC_SMB_ACL, ZFS_IOC_USERSPACE_ONE, ZFS_IOC_USERSPACE_MANY, ZFS_IOC_USERSPACE_UPGRADE, ZFS_IOC_OBJSET_RECVD_PROPS, ZFS_IOC_VDEV_SPLIT, ZFS_IOC_NEXT_OBJ, ZFS_IOC_DIFF, ZFS_IOC_TMP_SNAPSHOT, ZFS_IOC_OBJ_TO_STATS, ZFS_IOC_SPACE_WRITTEN, ZFS_IOC_POOL_REGUID, ZFS_IOC_SEND_PROGRESS, ZFS_IOC_EVENTS_NEXT, ZFS_IOC_EVENTS_CLEAR, ZFS_IOC_EVENTS_SEEK, ZFS_IOC_NEXTBOOT, ZFS_IOC_JAIL, ZFS_IOC_UNJAIL, }; #define IOC_INPUT_TEST(ioc, name, req, opt, err) \ IOC_INPUT_TEST_IMPL(ioc, name, req, opt, err, B_FALSE) #define IOC_INPUT_TEST_WILD(ioc, name, req, opt, err) \ IOC_INPUT_TEST_IMPL(ioc, name, req, opt, err, B_TRUE) #define IOC_INPUT_TEST_IMPL(ioc, name, req, opt, err, wild) \ do { \ active_test = __func__ + 5; \ ioc_tested[ioc - ZFS_IOC_FIRST] = B_TRUE; \ lzc_ioctl_test(ioc, name, req, opt, err, wild); \ } while (0) /* * run a zfs ioctl command, verify expected results and log failures */ static void lzc_ioctl_run(zfs_ioc_t ioc, const char *name, nvlist_t *innvl, int expected) { zfs_cmd_t zc = {"\0"}; char *packed = NULL; const char *variant; size_t size = 0; int error = 0; switch (expected) { case ZFS_ERR_IOC_ARG_UNAVAIL: variant = "unsupported input"; break; case ZFS_ERR_IOC_ARG_REQUIRED: variant = "missing input"; break; case ZFS_ERR_IOC_ARG_BADTYPE: variant = "invalid input type"; break; default: variant = "valid input"; break; } packed = fnvlist_pack(innvl, &size); (void) strlcpy(zc.zc_name, name, sizeof (zc.zc_name)); zc.zc_name[sizeof (zc.zc_name) - 1] = '\0'; zc.zc_nvlist_src = (uint64_t)(uintptr_t)packed; zc.zc_nvlist_src_size = size; zc.zc_nvlist_dst_size = MAX(size * 2, 128 * 1024); zc.zc_nvlist_dst = (uint64_t)(uintptr_t)malloc(zc.zc_nvlist_dst_size); if (lzc_ioctl_fd(zfs_fd, ioc, &zc) != 0) error = errno; if (error != expected) { unexpected_failures = B_TRUE; (void) fprintf(stderr, "%s: Unexpected result with %s, " "error %d (expecting %d)\n", active_test, variant, error, expected); } fnvlist_pack_free(packed, size); free((void *)(uintptr_t)zc.zc_nvlist_dst); } /* * Test each ioc for the following ioctl input errors: * ZFS_ERR_IOC_ARG_UNAVAIL an input argument is not supported by kernel * ZFS_ERR_IOC_ARG_REQUIRED a required input argument is missing * ZFS_ERR_IOC_ARG_BADTYPE an input argument has an invalid type */ static int lzc_ioctl_test(zfs_ioc_t ioc, const char *name, nvlist_t *required, nvlist_t *optional, int expected_error, boolean_t wildcard) { nvlist_t *input = fnvlist_alloc(); nvlist_t *future = fnvlist_alloc(); int error = 0; if (required != NULL) { for (nvpair_t *pair = nvlist_next_nvpair(required, NULL); pair != NULL; pair = nvlist_next_nvpair(required, pair)) { fnvlist_add_nvpair(input, pair); } } if (optional != NULL) { for (nvpair_t *pair = nvlist_next_nvpair(optional, NULL); pair != NULL; pair = nvlist_next_nvpair(optional, pair)) { fnvlist_add_nvpair(input, pair); } } /* * Generic input run with 'optional' nvlist pair */ if (!wildcard) fnvlist_add_nvlist(input, "optional", future); lzc_ioctl_run(ioc, name, input, expected_error); if (!wildcard) fnvlist_remove(input, "optional"); /* * Bogus input value */ if (!wildcard) { fnvlist_add_string(input, "bogus_input", "bogus"); lzc_ioctl_run(ioc, name, input, ZFS_ERR_IOC_ARG_UNAVAIL); fnvlist_remove(input, "bogus_input"); } /* * Missing required inputs */ if (required != NULL) { nvlist_t *empty = fnvlist_alloc(); lzc_ioctl_run(ioc, name, empty, ZFS_ERR_IOC_ARG_REQUIRED); nvlist_free(empty); } /* * Wrong nvpair type */ if (required != NULL || optional != NULL) { /* * switch the type of one of the input pairs */ for (nvpair_t *pair = nvlist_next_nvpair(input, NULL); pair != NULL; pair = nvlist_next_nvpair(input, pair)) { char pname[MAXNAMELEN]; data_type_t ptype; strlcpy(pname, nvpair_name(pair), sizeof (pname)); pname[sizeof (pname) - 1] = '\0'; ptype = nvpair_type(pair); fnvlist_remove_nvpair(input, pair); switch (ptype) { case DATA_TYPE_STRING: fnvlist_add_uint64(input, pname, 42); break; default: fnvlist_add_string(input, pname, "bogus"); break; } } lzc_ioctl_run(ioc, name, input, ZFS_ERR_IOC_ARG_BADTYPE); } nvlist_free(future); nvlist_free(input); return (error); } static void test_pool_sync(const char *pool) { nvlist_t *required = fnvlist_alloc(); fnvlist_add_boolean_value(required, "force", B_TRUE); IOC_INPUT_TEST(ZFS_IOC_POOL_SYNC, pool, required, NULL, 0); nvlist_free(required); } static void test_pool_reopen(const char *pool) { nvlist_t *optional = fnvlist_alloc(); fnvlist_add_boolean_value(optional, "scrub_restart", B_FALSE); IOC_INPUT_TEST(ZFS_IOC_POOL_REOPEN, pool, NULL, optional, 0); nvlist_free(optional); } static void test_pool_checkpoint(const char *pool) { IOC_INPUT_TEST(ZFS_IOC_POOL_CHECKPOINT, pool, NULL, NULL, 0); } static void test_pool_discard_checkpoint(const char *pool) { int err = lzc_pool_checkpoint(pool); if (err == 0 || err == ZFS_ERR_CHECKPOINT_EXISTS) IOC_INPUT_TEST(ZFS_IOC_POOL_DISCARD_CHECKPOINT, pool, NULL, NULL, 0); } static void test_log_history(const char *pool) { nvlist_t *required = fnvlist_alloc(); fnvlist_add_string(required, "message", "input check"); IOC_INPUT_TEST(ZFS_IOC_LOG_HISTORY, pool, required, NULL, 0); nvlist_free(required); } static void test_create(const char *pool) { char dataset[MAXNAMELEN + 32]; (void) snprintf(dataset, sizeof (dataset), "%s/create-fs", pool); nvlist_t *required = fnvlist_alloc(); nvlist_t *optional = fnvlist_alloc(); nvlist_t *props = fnvlist_alloc(); fnvlist_add_int32(required, "type", DMU_OST_ZFS); fnvlist_add_uint64(props, "recordsize", 8192); fnvlist_add_nvlist(optional, "props", props); IOC_INPUT_TEST(ZFS_IOC_CREATE, dataset, required, optional, 0); nvlist_free(required); nvlist_free(optional); } static void test_snapshot(const char *pool, const char *snapshot) { nvlist_t *required = fnvlist_alloc(); nvlist_t *optional = fnvlist_alloc(); nvlist_t *snaps = fnvlist_alloc(); nvlist_t *props = fnvlist_alloc(); fnvlist_add_boolean(snaps, snapshot); fnvlist_add_nvlist(required, "snaps", snaps); fnvlist_add_string(props, "org.openzfs:launch", "September 17th, 2013"); fnvlist_add_nvlist(optional, "props", props); IOC_INPUT_TEST(ZFS_IOC_SNAPSHOT, pool, required, optional, 0); nvlist_free(props); nvlist_free(snaps); nvlist_free(optional); nvlist_free(required); } static void test_space_snaps(const char *snapshot) { nvlist_t *required = fnvlist_alloc(); fnvlist_add_string(required, "firstsnap", snapshot); IOC_INPUT_TEST(ZFS_IOC_SPACE_SNAPS, snapshot, required, NULL, 0); nvlist_free(required); } static void test_destroy_snaps(const char *pool, const char *snapshot) { nvlist_t *required = fnvlist_alloc(); nvlist_t *snaps = fnvlist_alloc(); fnvlist_add_boolean(snaps, snapshot); fnvlist_add_nvlist(required, "snaps", snaps); IOC_INPUT_TEST(ZFS_IOC_DESTROY_SNAPS, pool, required, NULL, 0); nvlist_free(snaps); nvlist_free(required); } static void test_bookmark(const char *pool, const char *snapshot, const char *bookmark) { nvlist_t *required = fnvlist_alloc(); fnvlist_add_string(required, bookmark, snapshot); IOC_INPUT_TEST_WILD(ZFS_IOC_BOOKMARK, pool, required, NULL, 0); nvlist_free(required); } static void test_get_bookmarks(const char *dataset) { nvlist_t *optional = fnvlist_alloc(); fnvlist_add_boolean(optional, "guid"); fnvlist_add_boolean(optional, "createtxg"); fnvlist_add_boolean(optional, "creation"); IOC_INPUT_TEST_WILD(ZFS_IOC_GET_BOOKMARKS, dataset, NULL, optional, 0); nvlist_free(optional); } static void test_destroy_bookmarks(const char *pool, const char *bookmark) { nvlist_t *required = fnvlist_alloc(); fnvlist_add_boolean(required, bookmark); IOC_INPUT_TEST_WILD(ZFS_IOC_DESTROY_BOOKMARKS, pool, required, NULL, 0); nvlist_free(required); } static void test_clone(const char *snapshot, const char *clone) { nvlist_t *required = fnvlist_alloc(); nvlist_t *optional = fnvlist_alloc(); nvlist_t *props = fnvlist_alloc(); fnvlist_add_string(required, "origin", snapshot); IOC_INPUT_TEST(ZFS_IOC_CLONE, clone, required, NULL, 0); nvlist_free(props); nvlist_free(optional); nvlist_free(required); } static void test_rollback(const char *dataset, const char *snapshot) { nvlist_t *optional = fnvlist_alloc(); fnvlist_add_string(optional, "target", snapshot); IOC_INPUT_TEST(ZFS_IOC_ROLLBACK, dataset, NULL, optional, B_FALSE); nvlist_free(optional); } static void test_hold(const char *pool, const char *snapshot) { nvlist_t *required = fnvlist_alloc(); nvlist_t *optional = fnvlist_alloc(); nvlist_t *holds = fnvlist_alloc(); fnvlist_add_string(holds, snapshot, "libzfs_check_hold"); fnvlist_add_nvlist(required, "holds", holds); fnvlist_add_int32(optional, "cleanup_fd", zfs_fd); IOC_INPUT_TEST(ZFS_IOC_HOLD, pool, required, optional, 0); nvlist_free(holds); nvlist_free(optional); nvlist_free(required); } static void test_get_holds(const char *snapshot) { IOC_INPUT_TEST(ZFS_IOC_GET_HOLDS, snapshot, NULL, NULL, 0); } static void test_release(const char *pool, const char *snapshot) { nvlist_t *required = fnvlist_alloc(); nvlist_t *release = fnvlist_alloc(); fnvlist_add_boolean(release, "libzfs_check_hold"); fnvlist_add_nvlist(required, snapshot, release); IOC_INPUT_TEST_WILD(ZFS_IOC_RELEASE, pool, required, NULL, 0); nvlist_free(release); nvlist_free(required); } static void test_send_new(const char *snapshot, int fd) { nvlist_t *required = fnvlist_alloc(); nvlist_t *optional = fnvlist_alloc(); fnvlist_add_int32(required, "fd", fd); fnvlist_add_boolean(optional, "largeblockok"); fnvlist_add_boolean(optional, "embedok"); fnvlist_add_boolean(optional, "compressok"); fnvlist_add_boolean(optional, "rawok"); /* * TODO - Resumable send is harder to set up. So we currently * ignore testing for that variant. */ #if 0 fnvlist_add_string(optional, "fromsnap", from); fnvlist_add_uint64(optional, "resume_object", resumeobj); fnvlist_add_uint64(optional, "resume_offset", offset); fnvlist_add_boolean(optional, "savedok"); #endif IOC_INPUT_TEST(ZFS_IOC_SEND_NEW, snapshot, required, optional, 0); nvlist_free(optional); nvlist_free(required); } static void test_recv_new(const char *dataset, int fd) { dmu_replay_record_t drr = { 0 }; nvlist_t *required = fnvlist_alloc(); nvlist_t *optional = fnvlist_alloc(); nvlist_t *props = fnvlist_alloc(); char snapshot[MAXNAMELEN + 32]; ssize_t count; int cleanup_fd = open(ZFS_DEV, O_RDWR); if (cleanup_fd == -1) { (void) fprintf(stderr, "open(%s) failed: %s\n", ZFS_DEV, strerror(errno)); exit(EXIT_FAILURE); } (void) snprintf(snapshot, sizeof (snapshot), "%s@replicant", dataset); count = pread(fd, &drr, sizeof (drr), 0); if (count != sizeof (drr)) { (void) fprintf(stderr, "could not read stream: %s\n", strerror(errno)); } fnvlist_add_string(required, "snapname", snapshot); fnvlist_add_byte_array(required, "begin_record", (uchar_t *)&drr, sizeof (drr)); fnvlist_add_int32(required, "input_fd", fd); fnvlist_add_string(props, "org.openzfs:launch", "September 17th, 2013"); fnvlist_add_nvlist(optional, "localprops", props); fnvlist_add_boolean(optional, "force"); fnvlist_add_boolean(optional, "heal"); fnvlist_add_int32(optional, "cleanup_fd", cleanup_fd); /* * TODO - Resumable receive is harder to set up. So we currently * ignore testing for one. */ #if 0 fnvlist_add_nvlist(optional, "props", recvdprops); fnvlist_add_string(optional, "origin", origin); fnvlist_add_boolean(optional, "resumable"); fnvlist_add_uint64(optional, "action_handle", *action_handle); #endif IOC_INPUT_TEST(ZFS_IOC_RECV_NEW, dataset, required, optional, - ZFS_ERR_STREAM_TRUNCATED); + ENOTSUP); nvlist_free(props); nvlist_free(optional); nvlist_free(required); (void) close(cleanup_fd); } static void test_send_space(const char *snapshot1, const char *snapshot2) { nvlist_t *optional = fnvlist_alloc(); fnvlist_add_string(optional, "from", snapshot1); fnvlist_add_boolean(optional, "largeblockok"); fnvlist_add_boolean(optional, "embedok"); fnvlist_add_boolean(optional, "compressok"); fnvlist_add_boolean(optional, "rawok"); IOC_INPUT_TEST(ZFS_IOC_SEND_SPACE, snapshot2, NULL, optional, 0); nvlist_free(optional); } static void test_remap(const char *dataset) { IOC_INPUT_TEST(ZFS_IOC_REMAP, dataset, NULL, NULL, 0); } static void test_channel_program(const char *pool) { const char *program = "arg = ...\n" "argv = arg[\"argv\"]\n" "return argv[1]"; const char *const argv[1] = { "Hello World!" }; nvlist_t *required = fnvlist_alloc(); nvlist_t *optional = fnvlist_alloc(); nvlist_t *args = fnvlist_alloc(); fnvlist_add_string(required, "program", program); fnvlist_add_string_array(args, "argv", argv, 1); fnvlist_add_nvlist(required, "arg", args); fnvlist_add_boolean_value(optional, "sync", B_TRUE); fnvlist_add_uint64(optional, "instrlimit", 1000 * 1000); fnvlist_add_uint64(optional, "memlimit", 8192 * 1024); IOC_INPUT_TEST(ZFS_IOC_CHANNEL_PROGRAM, pool, required, optional, 0); nvlist_free(args); nvlist_free(optional); nvlist_free(required); } #define WRAPPING_KEY_LEN 32 static void test_load_key(const char *dataset) { nvlist_t *required = fnvlist_alloc(); nvlist_t *optional = fnvlist_alloc(); nvlist_t *hidden = fnvlist_alloc(); uint8_t keydata[WRAPPING_KEY_LEN] = {0}; fnvlist_add_uint8_array(hidden, "wkeydata", keydata, sizeof (keydata)); fnvlist_add_nvlist(required, "hidden_args", hidden); fnvlist_add_boolean(optional, "noop"); IOC_INPUT_TEST(ZFS_IOC_LOAD_KEY, dataset, required, optional, EINVAL); nvlist_free(hidden); nvlist_free(optional); nvlist_free(required); } static void test_change_key(const char *dataset) { IOC_INPUT_TEST(ZFS_IOC_CHANGE_KEY, dataset, NULL, NULL, EINVAL); } static void test_unload_key(const char *dataset) { IOC_INPUT_TEST(ZFS_IOC_UNLOAD_KEY, dataset, NULL, NULL, EACCES); } static void test_vdev_initialize(const char *pool) { nvlist_t *required = fnvlist_alloc(); nvlist_t *vdev_guids = fnvlist_alloc(); fnvlist_add_uint64(vdev_guids, "path", 0xdeadbeefdeadbeef); fnvlist_add_uint64(required, ZPOOL_INITIALIZE_COMMAND, POOL_INITIALIZE_START); fnvlist_add_nvlist(required, ZPOOL_INITIALIZE_VDEVS, vdev_guids); IOC_INPUT_TEST(ZFS_IOC_POOL_INITIALIZE, pool, required, NULL, EINVAL); nvlist_free(vdev_guids); nvlist_free(required); } static void test_vdev_trim(const char *pool) { nvlist_t *required = fnvlist_alloc(); nvlist_t *optional = fnvlist_alloc(); nvlist_t *vdev_guids = fnvlist_alloc(); fnvlist_add_uint64(vdev_guids, "path", 0xdeadbeefdeadbeef); fnvlist_add_uint64(required, ZPOOL_TRIM_COMMAND, POOL_TRIM_START); fnvlist_add_nvlist(required, ZPOOL_TRIM_VDEVS, vdev_guids); fnvlist_add_uint64(optional, ZPOOL_TRIM_RATE, 1ULL << 30); fnvlist_add_boolean_value(optional, ZPOOL_TRIM_SECURE, B_TRUE); IOC_INPUT_TEST(ZFS_IOC_POOL_TRIM, pool, required, optional, EINVAL); nvlist_free(vdev_guids); nvlist_free(optional); nvlist_free(required); } static int zfs_destroy(const char *dataset) { zfs_cmd_t zc = {"\0"}; int err; (void) strlcpy(zc.zc_name, dataset, sizeof (zc.zc_name)); zc.zc_name[sizeof (zc.zc_name) - 1] = '\0'; err = lzc_ioctl_fd(zfs_fd, ZFS_IOC_DESTROY, &zc); return (err == 0 ? 0 : errno); } static void test_redact(const char *snapshot1, const char *snapshot2) { nvlist_t *required = fnvlist_alloc(); nvlist_t *snapnv = fnvlist_alloc(); char bookmark[MAXNAMELEN + 32]; fnvlist_add_string(required, "bookname", "testbookmark"); fnvlist_add_boolean(snapnv, snapshot2); fnvlist_add_nvlist(required, "snapnv", snapnv); IOC_INPUT_TEST(ZFS_IOC_REDACT, snapshot1, required, NULL, 0); nvlist_free(snapnv); nvlist_free(required); strlcpy(bookmark, snapshot1, sizeof (bookmark)); *strchr(bookmark, '@') = '\0'; strlcat(bookmark, "#testbookmark", sizeof (bookmark) - strlen(bookmark)); zfs_destroy(bookmark); } static void test_get_bookmark_props(const char *bookmark) { IOC_INPUT_TEST(ZFS_IOC_GET_BOOKMARK_PROPS, bookmark, NULL, NULL, 0); } static void test_wait(const char *pool) { nvlist_t *required = fnvlist_alloc(); nvlist_t *optional = fnvlist_alloc(); fnvlist_add_int32(required, "wait_activity", 2); fnvlist_add_uint64(optional, "wait_tag", 0xdeadbeefdeadbeef); IOC_INPUT_TEST(ZFS_IOC_WAIT, pool, required, optional, EINVAL); nvlist_free(required); nvlist_free(optional); } static void test_wait_fs(const char *dataset) { nvlist_t *required = fnvlist_alloc(); fnvlist_add_int32(required, "wait_activity", 2); IOC_INPUT_TEST(ZFS_IOC_WAIT_FS, dataset, required, NULL, EINVAL); nvlist_free(required); } static void test_get_bootenv(const char *pool) { IOC_INPUT_TEST(ZFS_IOC_GET_BOOTENV, pool, NULL, NULL, 0); } static void test_set_bootenv(const char *pool) { nvlist_t *required = fnvlist_alloc(); fnvlist_add_uint64(required, "version", VB_RAW); fnvlist_add_string(required, GRUB_ENVMAP, "test"); IOC_INPUT_TEST_WILD(ZFS_IOC_SET_BOOTENV, pool, required, NULL, 0); nvlist_free(required); } static void zfs_ioc_input_tests(const char *pool) { char filepath[] = "/tmp/ioc_test_file_XXXXXX"; char dataset[ZFS_MAX_DATASET_NAME_LEN]; char snapbase[ZFS_MAX_DATASET_NAME_LEN + 32]; char snapshot[ZFS_MAX_DATASET_NAME_LEN + 32]; char bookmark[ZFS_MAX_DATASET_NAME_LEN + 32]; char backup[ZFS_MAX_DATASET_NAME_LEN]; char clone[ZFS_MAX_DATASET_NAME_LEN]; char clonesnap[ZFS_MAX_DATASET_NAME_LEN + 32]; int tmpfd, err; /* * Setup names and create a working dataset */ (void) snprintf(dataset, sizeof (dataset), "%s/test-fs", pool); (void) snprintf(snapbase, sizeof (snapbase), "%s@snapbase", dataset); (void) snprintf(snapshot, sizeof (snapshot), "%s@snapshot", dataset); (void) snprintf(bookmark, sizeof (bookmark), "%s#bookmark", dataset); (void) snprintf(clone, sizeof (clone), "%s/test-fs-clone", pool); (void) snprintf(clonesnap, sizeof (clonesnap), "%s@snap", clone); (void) snprintf(backup, sizeof (backup), "%s/backup", pool); err = lzc_create(dataset, LZC_DATSET_TYPE_ZFS, NULL, NULL, -1); if (err) { (void) fprintf(stderr, "could not create '%s': %s\n", dataset, strerror(errno)); exit(2); } tmpfd = mkstemp(filepath); if (tmpfd < 0) { (void) fprintf(stderr, "could not create '%s': %s\n", filepath, strerror(errno)); exit(2); } /* * run a test for each ioctl * Note that some test build on previous test operations */ test_pool_sync(pool); test_pool_reopen(pool); test_pool_checkpoint(pool); test_pool_discard_checkpoint(pool); test_log_history(pool); test_create(dataset); test_snapshot(pool, snapbase); test_snapshot(pool, snapshot); test_space_snaps(snapshot); test_send_space(snapbase, snapshot); test_send_new(snapshot, tmpfd); test_recv_new(backup, tmpfd); test_bookmark(pool, snapshot, bookmark); test_get_bookmarks(dataset); test_get_bookmark_props(bookmark); test_destroy_bookmarks(pool, bookmark); test_hold(pool, snapshot); test_get_holds(snapshot); test_release(pool, snapshot); test_clone(snapshot, clone); test_snapshot(pool, clonesnap); test_redact(snapshot, clonesnap); zfs_destroy(clonesnap); zfs_destroy(clone); test_rollback(dataset, snapshot); test_destroy_snaps(pool, snapshot); test_destroy_snaps(pool, snapbase); test_remap(dataset); test_channel_program(pool); test_load_key(dataset); test_change_key(dataset); test_unload_key(dataset); test_vdev_initialize(pool); test_vdev_trim(pool); test_wait(pool); test_wait_fs(dataset); test_set_bootenv(pool); test_get_bootenv(pool); /* * cleanup */ zfs_cmd_t zc = {"\0"}; nvlist_t *snaps = fnvlist_alloc(); fnvlist_add_boolean(snaps, snapshot); (void) lzc_destroy_snaps(snaps, B_FALSE, NULL); nvlist_free(snaps); (void) zfs_destroy(dataset); (void) zfs_destroy(backup); (void) close(tmpfd); (void) unlink(filepath); /* * All the unused slots should yield ZFS_ERR_IOC_CMD_UNAVAIL */ for (int i = 0; i < ARRAY_SIZE(ioc_skip); i++) { if (ioc_tested[ioc_skip[i] - ZFS_IOC_FIRST]) (void) fprintf(stderr, "cmd %d tested, not skipped!\n", (int)(ioc_skip[i] - ZFS_IOC_FIRST)); ioc_tested[ioc_skip[i] - ZFS_IOC_FIRST] = B_TRUE; } (void) strlcpy(zc.zc_name, pool, sizeof (zc.zc_name)); zc.zc_name[sizeof (zc.zc_name) - 1] = '\0'; for (unsigned ioc = ZFS_IOC_FIRST; ioc < ZFS_IOC_LAST; ioc++) { unsigned cmd = ioc - ZFS_IOC_FIRST; if (ioc_tested[cmd]) continue; if (lzc_ioctl_fd(zfs_fd, ioc, &zc) != 0 && errno != ZFS_ERR_IOC_CMD_UNAVAIL) { (void) fprintf(stderr, "cmd %d is missing a test case " "(%d)\n", cmd, errno); } } } enum zfs_ioc_ref { #ifdef __FreeBSD__ ZFS_IOC_BASE = 0, #else ZFS_IOC_BASE = ('Z' << 8), #endif ZFS_IOC_PLATFORM_BASE = ZFS_IOC_BASE + 0x80, }; /* * Canonical reference check of /dev/zfs ioctl numbers. * These cannot change and new ioctl numbers must be appended. */ static boolean_t validate_ioc_values(void) { boolean_t result = B_TRUE; #define CHECK(expr) do { \ if (!(expr)) { \ result = B_FALSE; \ fprintf(stderr, "(%s) === FALSE\n", #expr); \ } \ } while (0) CHECK(ZFS_IOC_BASE + 0 == ZFS_IOC_POOL_CREATE); CHECK(ZFS_IOC_BASE + 1 == ZFS_IOC_POOL_DESTROY); CHECK(ZFS_IOC_BASE + 2 == ZFS_IOC_POOL_IMPORT); CHECK(ZFS_IOC_BASE + 3 == ZFS_IOC_POOL_EXPORT); CHECK(ZFS_IOC_BASE + 4 == ZFS_IOC_POOL_CONFIGS); CHECK(ZFS_IOC_BASE + 5 == ZFS_IOC_POOL_STATS); CHECK(ZFS_IOC_BASE + 6 == ZFS_IOC_POOL_TRYIMPORT); CHECK(ZFS_IOC_BASE + 7 == ZFS_IOC_POOL_SCAN); CHECK(ZFS_IOC_BASE + 8 == ZFS_IOC_POOL_FREEZE); CHECK(ZFS_IOC_BASE + 9 == ZFS_IOC_POOL_UPGRADE); CHECK(ZFS_IOC_BASE + 10 == ZFS_IOC_POOL_GET_HISTORY); CHECK(ZFS_IOC_BASE + 11 == ZFS_IOC_VDEV_ADD); CHECK(ZFS_IOC_BASE + 12 == ZFS_IOC_VDEV_REMOVE); CHECK(ZFS_IOC_BASE + 13 == ZFS_IOC_VDEV_SET_STATE); CHECK(ZFS_IOC_BASE + 14 == ZFS_IOC_VDEV_ATTACH); CHECK(ZFS_IOC_BASE + 15 == ZFS_IOC_VDEV_DETACH); CHECK(ZFS_IOC_BASE + 16 == ZFS_IOC_VDEV_SETPATH); CHECK(ZFS_IOC_BASE + 17 == ZFS_IOC_VDEV_SETFRU); CHECK(ZFS_IOC_BASE + 18 == ZFS_IOC_OBJSET_STATS); CHECK(ZFS_IOC_BASE + 19 == ZFS_IOC_OBJSET_ZPLPROPS); CHECK(ZFS_IOC_BASE + 20 == ZFS_IOC_DATASET_LIST_NEXT); CHECK(ZFS_IOC_BASE + 21 == ZFS_IOC_SNAPSHOT_LIST_NEXT); CHECK(ZFS_IOC_BASE + 22 == ZFS_IOC_SET_PROP); CHECK(ZFS_IOC_BASE + 23 == ZFS_IOC_CREATE); CHECK(ZFS_IOC_BASE + 24 == ZFS_IOC_DESTROY); CHECK(ZFS_IOC_BASE + 25 == ZFS_IOC_ROLLBACK); CHECK(ZFS_IOC_BASE + 26 == ZFS_IOC_RENAME); CHECK(ZFS_IOC_BASE + 27 == ZFS_IOC_RECV); CHECK(ZFS_IOC_BASE + 28 == ZFS_IOC_SEND); CHECK(ZFS_IOC_BASE + 29 == ZFS_IOC_INJECT_FAULT); CHECK(ZFS_IOC_BASE + 30 == ZFS_IOC_CLEAR_FAULT); CHECK(ZFS_IOC_BASE + 31 == ZFS_IOC_INJECT_LIST_NEXT); CHECK(ZFS_IOC_BASE + 32 == ZFS_IOC_ERROR_LOG); CHECK(ZFS_IOC_BASE + 33 == ZFS_IOC_CLEAR); CHECK(ZFS_IOC_BASE + 34 == ZFS_IOC_PROMOTE); CHECK(ZFS_IOC_BASE + 35 == ZFS_IOC_SNAPSHOT); CHECK(ZFS_IOC_BASE + 36 == ZFS_IOC_DSOBJ_TO_DSNAME); CHECK(ZFS_IOC_BASE + 37 == ZFS_IOC_OBJ_TO_PATH); CHECK(ZFS_IOC_BASE + 38 == ZFS_IOC_POOL_SET_PROPS); CHECK(ZFS_IOC_BASE + 39 == ZFS_IOC_POOL_GET_PROPS); CHECK(ZFS_IOC_BASE + 40 == ZFS_IOC_SET_FSACL); CHECK(ZFS_IOC_BASE + 41 == ZFS_IOC_GET_FSACL); CHECK(ZFS_IOC_BASE + 42 == ZFS_IOC_SHARE); CHECK(ZFS_IOC_BASE + 43 == ZFS_IOC_INHERIT_PROP); CHECK(ZFS_IOC_BASE + 44 == ZFS_IOC_SMB_ACL); CHECK(ZFS_IOC_BASE + 45 == ZFS_IOC_USERSPACE_ONE); CHECK(ZFS_IOC_BASE + 46 == ZFS_IOC_USERSPACE_MANY); CHECK(ZFS_IOC_BASE + 47 == ZFS_IOC_USERSPACE_UPGRADE); CHECK(ZFS_IOC_BASE + 48 == ZFS_IOC_HOLD); CHECK(ZFS_IOC_BASE + 49 == ZFS_IOC_RELEASE); CHECK(ZFS_IOC_BASE + 50 == ZFS_IOC_GET_HOLDS); CHECK(ZFS_IOC_BASE + 51 == ZFS_IOC_OBJSET_RECVD_PROPS); CHECK(ZFS_IOC_BASE + 52 == ZFS_IOC_VDEV_SPLIT); CHECK(ZFS_IOC_BASE + 53 == ZFS_IOC_NEXT_OBJ); CHECK(ZFS_IOC_BASE + 54 == ZFS_IOC_DIFF); CHECK(ZFS_IOC_BASE + 55 == ZFS_IOC_TMP_SNAPSHOT); CHECK(ZFS_IOC_BASE + 56 == ZFS_IOC_OBJ_TO_STATS); CHECK(ZFS_IOC_BASE + 57 == ZFS_IOC_SPACE_WRITTEN); CHECK(ZFS_IOC_BASE + 58 == ZFS_IOC_SPACE_SNAPS); CHECK(ZFS_IOC_BASE + 59 == ZFS_IOC_DESTROY_SNAPS); CHECK(ZFS_IOC_BASE + 60 == ZFS_IOC_POOL_REGUID); CHECK(ZFS_IOC_BASE + 61 == ZFS_IOC_POOL_REOPEN); CHECK(ZFS_IOC_BASE + 62 == ZFS_IOC_SEND_PROGRESS); CHECK(ZFS_IOC_BASE + 63 == ZFS_IOC_LOG_HISTORY); CHECK(ZFS_IOC_BASE + 64 == ZFS_IOC_SEND_NEW); CHECK(ZFS_IOC_BASE + 65 == ZFS_IOC_SEND_SPACE); CHECK(ZFS_IOC_BASE + 66 == ZFS_IOC_CLONE); CHECK(ZFS_IOC_BASE + 67 == ZFS_IOC_BOOKMARK); CHECK(ZFS_IOC_BASE + 68 == ZFS_IOC_GET_BOOKMARKS); CHECK(ZFS_IOC_BASE + 69 == ZFS_IOC_DESTROY_BOOKMARKS); CHECK(ZFS_IOC_BASE + 70 == ZFS_IOC_RECV_NEW); CHECK(ZFS_IOC_BASE + 71 == ZFS_IOC_POOL_SYNC); CHECK(ZFS_IOC_BASE + 72 == ZFS_IOC_CHANNEL_PROGRAM); CHECK(ZFS_IOC_BASE + 73 == ZFS_IOC_LOAD_KEY); CHECK(ZFS_IOC_BASE + 74 == ZFS_IOC_UNLOAD_KEY); CHECK(ZFS_IOC_BASE + 75 == ZFS_IOC_CHANGE_KEY); CHECK(ZFS_IOC_BASE + 76 == ZFS_IOC_REMAP); CHECK(ZFS_IOC_BASE + 77 == ZFS_IOC_POOL_CHECKPOINT); CHECK(ZFS_IOC_BASE + 78 == ZFS_IOC_POOL_DISCARD_CHECKPOINT); CHECK(ZFS_IOC_BASE + 79 == ZFS_IOC_POOL_INITIALIZE); CHECK(ZFS_IOC_BASE + 80 == ZFS_IOC_POOL_TRIM); CHECK(ZFS_IOC_BASE + 81 == ZFS_IOC_REDACT); CHECK(ZFS_IOC_BASE + 82 == ZFS_IOC_GET_BOOKMARK_PROPS); CHECK(ZFS_IOC_BASE + 83 == ZFS_IOC_WAIT); CHECK(ZFS_IOC_BASE + 84 == ZFS_IOC_WAIT_FS); CHECK(ZFS_IOC_PLATFORM_BASE + 1 == ZFS_IOC_EVENTS_NEXT); CHECK(ZFS_IOC_PLATFORM_BASE + 2 == ZFS_IOC_EVENTS_CLEAR); CHECK(ZFS_IOC_PLATFORM_BASE + 3 == ZFS_IOC_EVENTS_SEEK); CHECK(ZFS_IOC_PLATFORM_BASE + 4 == ZFS_IOC_NEXTBOOT); CHECK(ZFS_IOC_PLATFORM_BASE + 5 == ZFS_IOC_JAIL); CHECK(ZFS_IOC_PLATFORM_BASE + 6 == ZFS_IOC_UNJAIL); CHECK(ZFS_IOC_PLATFORM_BASE + 7 == ZFS_IOC_SET_BOOTENV); CHECK(ZFS_IOC_PLATFORM_BASE + 8 == ZFS_IOC_GET_BOOTENV); #undef CHECK return (result); } int main(int argc, const char *argv[]) { if (argc != 2) { (void) fprintf(stderr, "usage: %s \n", argv[0]); exit(2); } if (!validate_ioc_values()) { (void) fprintf(stderr, "WARNING: zfs_ioc_t has binary " "incompatible command values\n"); exit(3); } (void) libzfs_core_init(); zfs_fd = open(ZFS_DEV, O_RDWR); if (zfs_fd < 0) { (void) fprintf(stderr, "open: %s\n", strerror(errno)); libzfs_core_fini(); exit(2); } zfs_ioc_input_tests(argv[1]); (void) close(zfs_fd); libzfs_core_fini(); return (unexpected_failures); } diff --git a/tests/zfs-tests/tests/Makefile.am b/tests/zfs-tests/tests/Makefile.am index efce46123c32..4b0a28a6ef62 100644 --- a/tests/zfs-tests/tests/Makefile.am +++ b/tests/zfs-tests/tests/Makefile.am @@ -1,2027 +1,2028 @@ CLEANFILES = dist_noinst_DATA = include $(top_srcdir)/config/Substfiles.am datadir_zfs_tests_testsdir = $(datadir)/$(PACKAGE)/zfs-tests/tests nobase_dist_datadir_zfs_tests_tests_DATA = \ perf/nfs-sample.cfg \ perf/perf.shlib \ \ perf/fio/mkfiles.fio \ perf/fio/random_reads.fio \ perf/fio/random_readwrite.fio \ perf/fio/random_readwrite_fixed.fio \ perf/fio/random_writes.fio \ perf/fio/sequential_reads.fio \ perf/fio/sequential_readwrite.fio \ perf/fio/sequential_writes.fio nobase_dist_datadir_zfs_tests_tests_SCRIPTS = \ perf/regression/random_reads.ksh \ perf/regression/random_readwrite.ksh \ perf/regression/random_readwrite_fixed.ksh \ perf/regression/random_writes.ksh \ perf/regression/random_writes_zil.ksh \ perf/regression/sequential_reads_arc_cached_clone.ksh \ perf/regression/sequential_reads_arc_cached.ksh \ perf/regression/sequential_reads_dbuf_cached.ksh \ perf/regression/sequential_reads.ksh \ perf/regression/sequential_writes.ksh \ perf/regression/setup.ksh \ \ perf/scripts/prefetch_io.sh # These lists can be regenerated by running make regen-tests at the root, or, on a *clean* source: # find functional/ ! -type d ! -name .gitignore ! -name .dirstamp ! -name '*.Po' ! -executable -name '*.in' | sort | sed 's/\.in$//;s/^/\t/;$!s/$/ \\/' # find functional/ ! -type d ! -name .gitignore ! -name .dirstamp ! -name '*.Po' -executable -name '*.in' | sort | sed 's/\.in$//;s/^/\t/;$!s/$/ \\/' # find functional/ ! -type d ! -name .gitignore ! -name .dirstamp ! -name '*.Po' ! -name '*.in' ! -name '*.c' | grep -Fe /simd -e /tmpfile | sort | sed 's/^/\t/;$!s/$/ \\/' # find functional/ ! -type d ! -name .gitignore ! -name .dirstamp ! -name '*.Po' ! -executable ! -name '*.in' ! -name '*.c' | grep -vFe /simd -e /tmpfile | sort | sed 's/^/\t/;$!s/$/ \\/' # find functional/ ! -type d ! -name .gitignore ! -name .dirstamp ! -name '*.Po' -executable ! -name '*.in' ! -name '*.c' | grep -vFe /simd -e /tmpfile | sort | sed 's/^/\t/;$!s/$/ \\/' # # simd and tmpfile are Linux-only and not installed elsewhere # # C programs are specced in ../Makefile.am above as part of the main Makefile find_common := find functional/ ! -type d ! -name .gitignore ! -name .dirstamp ! -name '*.Po' regen: @$(MAKE) -C $(top_builddir) clean @$(MAKE) clean $(SED) $(ac_inplace) '/^# -- >8 --/q' Makefile.am echo >> Makefile.am echo 'nobase_nodist_datadir_zfs_tests_tests_DATA = \' >> Makefile.am $(find_common) ! -executable -name '*.in' | sort | sed 's/\.in$$//;s/^/\t/;$$!s/$$/ \\/' >> Makefile.am echo 'nobase_nodist_datadir_zfs_tests_tests_SCRIPTS = \' >> Makefile.am $(find_common) -executable -name '*.in' | sort | sed 's/\.in$$//;s/^/\t/;$$!s/$$/ \\/' >> Makefile.am echo >> Makefile.am echo 'SUBSTFILES += $$(nobase_nodist_datadir_zfs_tests_tests_DATA) $$(nobase_nodist_datadir_zfs_tests_tests_SCRIPTS)' >> Makefile.am echo >> Makefile.am echo 'if BUILD_LINUX' >> Makefile.am echo 'nobase_dist_datadir_zfs_tests_tests_SCRIPTS += \' >> Makefile.am $(find_common) ! -name '*.in' ! -name '*.c' | grep -Fe /simd -e /tmpfile | sort | sed 's/^/\t/;$$!s/$$/ \\/' >> Makefile.am echo 'endif' >> Makefile.am echo >> Makefile.am echo 'nobase_dist_datadir_zfs_tests_tests_DATA += \' >> Makefile.am $(find_common) ! -executable ! -name '*.in' ! -name '*.c' | grep -vFe /simd -e /tmpfile | sort | sed 's/^/\t/;$$!s/$$/ \\/' >> Makefile.am echo >> Makefile.am echo 'nobase_dist_datadir_zfs_tests_tests_SCRIPTS += \' >> Makefile.am $(find_common) -executable ! -name '*.in' ! -name '*.c' | grep -vFe /simd -e /tmpfile | sort | sed 's/^/\t/;$$!s/$$/ \\/' >> Makefile.am # -- >8 -- nobase_nodist_datadir_zfs_tests_tests_DATA = \ functional/pam/utilities.kshlib nobase_nodist_datadir_zfs_tests_tests_SCRIPTS = \ functional/pyzfs/pyzfs_unittest.ksh SUBSTFILES += $(nobase_nodist_datadir_zfs_tests_tests_DATA) $(nobase_nodist_datadir_zfs_tests_tests_SCRIPTS) if BUILD_LINUX nobase_dist_datadir_zfs_tests_tests_SCRIPTS += \ functional/simd/simd_supported.ksh \ functional/tmpfile/cleanup.ksh \ functional/tmpfile/setup.ksh endif nobase_dist_datadir_zfs_tests_tests_DATA += \ functional/acl/acl.cfg \ functional/acl/acl_common.kshlib \ functional/alloc_class/alloc_class.cfg \ functional/alloc_class/alloc_class.kshlib \ functional/atime/atime.cfg \ functional/atime/atime_common.kshlib \ functional/cache/cache.cfg \ functional/cache/cache.kshlib \ functional/cachefile/cachefile.cfg \ functional/cachefile/cachefile.kshlib \ functional/casenorm/casenorm.cfg \ functional/casenorm/casenorm.kshlib \ functional/channel_program/channel_common.kshlib \ functional/channel_program/lua_core/tst.args_to_lua.out \ functional/channel_program/lua_core/tst.args_to_lua.zcp \ functional/channel_program/lua_core/tst.divide_by_zero.err \ functional/channel_program/lua_core/tst.divide_by_zero.zcp \ functional/channel_program/lua_core/tst.exists.zcp \ functional/channel_program/lua_core/tst.large_prog.out \ functional/channel_program/lua_core/tst.large_prog.zcp \ functional/channel_program/lua_core/tst.lib_base.lua \ functional/channel_program/lua_core/tst.lib_coroutine.lua \ functional/channel_program/lua_core/tst.lib_strings.lua \ functional/channel_program/lua_core/tst.lib_table.lua \ functional/channel_program/lua_core/tst.nested_neg.zcp \ functional/channel_program/lua_core/tst.nested_pos.zcp \ functional/channel_program/lua_core/tst.recursive.zcp \ functional/channel_program/lua_core/tst.return_large.zcp \ functional/channel_program/lua_core/tst.return_recursive_table.zcp \ functional/channel_program/lua_core/tst.stack_gsub.err \ functional/channel_program/lua_core/tst.stack_gsub.zcp \ functional/channel_program/lua_core/tst.timeout.zcp \ functional/channel_program/synctask_core/tst.bookmark.copy.zcp \ functional/channel_program/synctask_core/tst.bookmark.create.zcp \ functional/channel_program/synctask_core/tst.get_index_props.out \ functional/channel_program/synctask_core/tst.get_index_props.zcp \ functional/channel_program/synctask_core/tst.get_number_props.out \ functional/channel_program/synctask_core/tst.get_number_props.zcp \ functional/channel_program/synctask_core/tst.get_string_props.out \ functional/channel_program/synctask_core/tst.get_string_props.zcp \ functional/channel_program/synctask_core/tst.promote_conflict.zcp \ functional/channel_program/synctask_core/tst.set_props.zcp \ functional/channel_program/synctask_core/tst.snapshot_destroy.zcp \ functional/channel_program/synctask_core/tst.snapshot_neg.zcp \ functional/channel_program/synctask_core/tst.snapshot_recursive.zcp \ functional/channel_program/synctask_core/tst.snapshot_rename.zcp \ functional/channel_program/synctask_core/tst.snapshot_simple.zcp \ functional/checksum/default.cfg \ functional/clean_mirror/clean_mirror_common.kshlib \ functional/clean_mirror/default.cfg \ functional/cli_root/cli_common.kshlib \ functional/cli_root/zfs_copies/zfs_copies.cfg \ functional/cli_root/zfs_copies/zfs_copies.kshlib \ functional/cli_root/zfs_create/properties.kshlib \ functional/cli_root/zfs_create/zfs_create.cfg \ functional/cli_root/zfs_create/zfs_create_common.kshlib \ functional/cli_root/zfs_destroy/zfs_destroy.cfg \ functional/cli_root/zfs_destroy/zfs_destroy_common.kshlib \ functional/cli_root/zfs_get/zfs_get_common.kshlib \ functional/cli_root/zfs_get/zfs_get_list_d.kshlib \ functional/cli_root/zfs_jail/jail.conf \ functional/cli_root/zfs_load-key/HEXKEY \ functional/cli_root/zfs_load-key/PASSPHRASE \ functional/cli_root/zfs_load-key/RAWKEY \ functional/cli_root/zfs_load-key/zfs_load-key.cfg \ functional/cli_root/zfs_load-key/zfs_load-key_common.kshlib \ functional/cli_root/zfs_mount/zfs_mount.cfg \ functional/cli_root/zfs_mount/zfs_mount.kshlib \ functional/cli_root/zfs_promote/zfs_promote.cfg \ functional/cli_root/zfs_receive/zstd_test_data.txt \ functional/cli_root/zfs_rename/zfs_rename.cfg \ functional/cli_root/zfs_rename/zfs_rename.kshlib \ functional/cli_root/zfs_rollback/zfs_rollback.cfg \ functional/cli_root/zfs_rollback/zfs_rollback_common.kshlib \ functional/cli_root/zfs_send/zfs_send.cfg \ functional/cli_root/zfs_set/zfs_set_common.kshlib \ functional/cli_root/zfs_share/zfs_share.cfg \ functional/cli_root/zfs_snapshot/zfs_snapshot.cfg \ functional/cli_root/zfs_unmount/zfs_unmount.cfg \ functional/cli_root/zfs_unmount/zfs_unmount.kshlib \ functional/cli_root/zfs_upgrade/zfs_upgrade.kshlib \ functional/cli_root/zfs_wait/zfs_wait.kshlib \ functional/cli_root/zpool_add/zpool_add.cfg \ functional/cli_root/zpool_add/zpool_add.kshlib \ functional/cli_root/zpool_clear/zpool_clear.cfg \ functional/cli_root/zpool_create/draidcfg.gz \ functional/cli_root/zpool_create/zpool_create.cfg \ functional/cli_root/zpool_create/zpool_create.shlib \ functional/cli_root/zpool_destroy/zpool_destroy.cfg \ functional/cli_root/zpool_events/zpool_events.cfg \ functional/cli_root/zpool_events/zpool_events.kshlib \ functional/cli_root/zpool_expand/zpool_expand.cfg \ functional/cli_root/zpool_export/zpool_export.cfg \ functional/cli_root/zpool_export/zpool_export.kshlib \ functional/cli_root/zpool_get/zpool_get.cfg \ functional/cli_root/zpool_get/zpool_get_parsable.cfg \ functional/cli_root/zpool_import/blockfiles/cryptv0.dat.bz2 \ functional/cli_root/zpool_import/blockfiles/missing_ivset.dat.bz2 \ functional/cli_root/zpool_import/blockfiles/unclean_export.dat.bz2 \ functional/cli_root/zpool_import/zpool_import.cfg \ functional/cli_root/zpool_import/zpool_import.kshlib \ functional/cli_root/zpool_initialize/zpool_initialize.kshlib \ functional/cli_root/zpool_labelclear/labelclear.cfg \ functional/cli_root/zpool_remove/zpool_remove.cfg \ functional/cli_root/zpool_reopen/zpool_reopen.cfg \ functional/cli_root/zpool_reopen/zpool_reopen.shlib \ functional/cli_root/zpool_resilver/zpool_resilver.cfg \ functional/cli_root/zpool_scrub/zpool_scrub.cfg \ functional/cli_root/zpool_split/zpool_split.cfg \ functional/cli_root/zpool_trim/zpool_trim.kshlib \ functional/cli_root/zpool_upgrade/blockfiles/zfs-broken-mirror1.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-broken-mirror2.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v10.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v11.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v12.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v13.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v14.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v15.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v1.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v1mirror1.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v1mirror2.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v1mirror3.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v1raidz1.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v1raidz2.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v1raidz3.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v1stripe1.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v1stripe2.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v1stripe3.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v2.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v2mirror1.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v2mirror2.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v2mirror3.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v2raidz1.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v2raidz2.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v2raidz3.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v2stripe1.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v2stripe2.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v2stripe3.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v3.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v3hotspare1.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v3hotspare2.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v3hotspare3.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v3mirror1.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v3mirror2.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v3mirror3.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v3raidz1.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v3raidz21.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v3raidz22.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v3raidz23.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v3raidz2.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v3raidz3.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v3stripe1.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v3stripe2.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v3stripe3.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v4.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v5.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v6.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v7.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v8.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v999.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-v9.dat.bz2 \ functional/cli_root/zpool_upgrade/blockfiles/zfs-pool-vBROKEN.dat.bz2 \ functional/cli_root/zpool_upgrade/zpool_upgrade.cfg \ functional/cli_root/zpool_upgrade/zpool_upgrade.kshlib \ functional/cli_root/zpool_wait/zpool_wait.kshlib \ functional/cli_user/misc/misc.cfg \ functional/cli_user/zfs_list/zfs_list.cfg \ functional/cli_user/zfs_list/zfs_list.kshlib \ functional/compression/compress.cfg \ functional/compression/testpool_zstd.tar.gz \ functional/deadman/deadman.cfg \ functional/delegate/delegate.cfg \ functional/delegate/delegate_common.kshlib \ functional/devices/devices.cfg \ functional/devices/devices_common.kshlib \ functional/events/events.cfg \ functional/events/events_common.kshlib \ functional/fault/fault.cfg \ functional/grow/grow.cfg \ functional/history/history.cfg \ functional/history/history_common.kshlib \ functional/history/i386.migratedpool.DAT.Z \ functional/history/i386.orig_history.txt \ functional/history/sparc.migratedpool.DAT.Z \ functional/history/sparc.orig_history.txt \ functional/history/zfs-pool-v4.dat.Z \ functional/inheritance/config001.cfg \ functional/inheritance/config002.cfg \ functional/inheritance/config003.cfg \ functional/inheritance/config004.cfg \ functional/inheritance/config005.cfg \ functional/inheritance/config006.cfg \ functional/inheritance/config007.cfg \ functional/inheritance/config008.cfg \ functional/inheritance/config009.cfg \ functional/inheritance/config010.cfg \ functional/inheritance/config011.cfg \ functional/inheritance/config012.cfg \ functional/inheritance/config013.cfg \ functional/inheritance/config014.cfg \ functional/inheritance/config015.cfg \ functional/inheritance/config016.cfg \ functional/inheritance/config017.cfg \ functional/inheritance/config018.cfg \ functional/inheritance/config019.cfg \ functional/inheritance/config020.cfg \ functional/inheritance/config021.cfg \ functional/inheritance/config022.cfg \ functional/inheritance/config023.cfg \ functional/inheritance/config024.cfg \ functional/inheritance/inherit.kshlib \ functional/inheritance/README.config \ functional/inheritance/README.state \ functional/inheritance/state001.cfg \ functional/inheritance/state002.cfg \ functional/inheritance/state003.cfg \ functional/inheritance/state004.cfg \ functional/inheritance/state005.cfg \ functional/inheritance/state006.cfg \ functional/inheritance/state007.cfg \ functional/inheritance/state008.cfg \ functional/inheritance/state009.cfg \ functional/inheritance/state010.cfg \ functional/inheritance/state011.cfg \ functional/inheritance/state012.cfg \ functional/inheritance/state013.cfg \ functional/inheritance/state014.cfg \ functional/inheritance/state015.cfg \ functional/inheritance/state016.cfg \ functional/inheritance/state017.cfg \ functional/inheritance/state018.cfg \ functional/inheritance/state019.cfg \ functional/inheritance/state020.cfg \ functional/inheritance/state021.cfg \ functional/inheritance/state022.cfg \ functional/inheritance/state023.cfg \ functional/inheritance/state024.cfg \ functional/inuse/inuse.cfg \ functional/io/io.cfg \ functional/l2arc/l2arc.cfg \ functional/largest_pool/largest_pool.cfg \ functional/migration/migration.cfg \ functional/migration/migration.kshlib \ functional/mmap/mmap.cfg \ functional/mmp/mmp.cfg \ functional/mmp/mmp.kshlib \ functional/mv_files/mv_files.cfg \ functional/mv_files/mv_files_common.kshlib \ functional/nopwrite/nopwrite.shlib \ functional/no_space/enospc.cfg \ functional/online_offline/online_offline.cfg \ functional/pool_checkpoint/pool_checkpoint.kshlib \ functional/projectquota/projectquota.cfg \ functional/projectquota/projectquota_common.kshlib \ functional/quota/quota.cfg \ functional/quota/quota.kshlib \ functional/redacted_send/redacted.cfg \ functional/redacted_send/redacted.kshlib \ functional/redundancy/redundancy.cfg \ functional/redundancy/redundancy.kshlib \ functional/refreserv/refreserv.cfg \ functional/removal/removal.kshlib \ functional/replacement/replacement.cfg \ functional/reservation/reservation.cfg \ functional/reservation/reservation.shlib \ functional/rsend/dedup_encrypted_zvol.bz2 \ functional/rsend/dedup_encrypted_zvol.zsend.bz2 \ functional/rsend/dedup.zsend.bz2 \ functional/rsend/fs.tar.gz \ functional/rsend/rsend.cfg \ functional/rsend/rsend.kshlib \ functional/scrub_mirror/default.cfg \ functional/scrub_mirror/scrub_mirror_common.kshlib \ functional/slog/slog.cfg \ functional/slog/slog.kshlib \ functional/snapshot/snapshot.cfg \ functional/snapused/snapused.kshlib \ functional/sparse/sparse.cfg \ functional/trim/trim.cfg \ functional/trim/trim.kshlib \ functional/truncate/truncate.cfg \ functional/upgrade/upgrade_common.kshlib \ functional/user_namespace/user_namespace.cfg \ functional/user_namespace/user_namespace_common.kshlib \ functional/userquota/13709_reproducer.bz2 \ functional/userquota/userquota.cfg \ functional/userquota/userquota_common.kshlib \ functional/vdev_zaps/vdev_zaps.kshlib \ functional/xattr/xattr.cfg \ functional/xattr/xattr_common.kshlib \ functional/zvol/zvol.cfg \ functional/zvol/zvol_cli/zvol_cli.cfg \ functional/zvol/zvol_common.shlib \ functional/zvol/zvol_ENOSPC/zvol_ENOSPC.cfg \ functional/zvol/zvol_misc/zvol_misc_common.kshlib \ functional/zvol/zvol_swap/zvol_swap.cfg \ functional/idmap_mount/idmap_mount.cfg \ functional/idmap_mount/idmap_mount_common.kshlib nobase_dist_datadir_zfs_tests_tests_SCRIPTS += \ functional/acl/off/cleanup.ksh \ functional/acl/off/dosmode.ksh \ functional/acl/off/posixmode.ksh \ functional/acl/off/setup.ksh \ functional/acl/posix/cleanup.ksh \ functional/acl/posix/posix_001_pos.ksh \ functional/acl/posix/posix_002_pos.ksh \ functional/acl/posix/posix_003_pos.ksh \ functional/acl/posix/posix_004_pos.ksh \ functional/acl/posix-sa/cleanup.ksh \ functional/acl/posix-sa/posix_001_pos.ksh \ functional/acl/posix-sa/posix_002_pos.ksh \ functional/acl/posix-sa/posix_003_pos.ksh \ functional/acl/posix-sa/posix_004_pos.ksh \ functional/acl/posix-sa/setup.ksh \ functional/acl/posix/setup.ksh \ functional/alloc_class/alloc_class_001_pos.ksh \ functional/alloc_class/alloc_class_002_neg.ksh \ functional/alloc_class/alloc_class_003_pos.ksh \ functional/alloc_class/alloc_class_004_pos.ksh \ functional/alloc_class/alloc_class_005_pos.ksh \ functional/alloc_class/alloc_class_006_pos.ksh \ functional/alloc_class/alloc_class_007_pos.ksh \ functional/alloc_class/alloc_class_008_pos.ksh \ functional/alloc_class/alloc_class_009_pos.ksh \ functional/alloc_class/alloc_class_010_pos.ksh \ functional/alloc_class/alloc_class_011_neg.ksh \ functional/alloc_class/alloc_class_012_pos.ksh \ functional/alloc_class/alloc_class_013_pos.ksh \ functional/alloc_class/cleanup.ksh \ functional/alloc_class/setup.ksh \ functional/append/file_append.ksh \ functional/append/threadsappend_001_pos.ksh \ functional/append/cleanup.ksh \ functional/append/setup.ksh \ functional/arc/arcstats_runtime_tuning.ksh \ functional/arc/cleanup.ksh \ functional/arc/dbufstats_001_pos.ksh \ functional/arc/dbufstats_002_pos.ksh \ functional/arc/dbufstats_003_pos.ksh \ functional/arc/setup.ksh \ functional/atime/atime_001_pos.ksh \ functional/atime/atime_002_neg.ksh \ functional/atime/atime_003_pos.ksh \ functional/atime/cleanup.ksh \ functional/atime/root_atime_off.ksh \ functional/atime/root_atime_on.ksh \ functional/atime/root_relatime_on.ksh \ functional/atime/setup.ksh \ functional/bootfs/bootfs_001_pos.ksh \ functional/bootfs/bootfs_002_neg.ksh \ functional/bootfs/bootfs_003_pos.ksh \ functional/bootfs/bootfs_004_neg.ksh \ functional/bootfs/bootfs_005_neg.ksh \ functional/bootfs/bootfs_006_pos.ksh \ functional/bootfs/bootfs_007_pos.ksh \ functional/bootfs/bootfs_008_pos.ksh \ functional/bootfs/cleanup.ksh \ functional/bootfs/setup.ksh \ functional/btree/btree_negative.ksh \ functional/btree/btree_positive.ksh \ functional/cache/cache_001_pos.ksh \ functional/cache/cache_002_pos.ksh \ functional/cache/cache_003_pos.ksh \ functional/cache/cache_004_neg.ksh \ functional/cache/cache_005_neg.ksh \ functional/cache/cache_006_pos.ksh \ functional/cache/cache_007_neg.ksh \ functional/cache/cache_008_neg.ksh \ functional/cache/cache_009_pos.ksh \ functional/cache/cache_010_pos.ksh \ functional/cache/cache_011_pos.ksh \ functional/cache/cache_012_pos.ksh \ functional/cache/cleanup.ksh \ functional/cachefile/cachefile_001_pos.ksh \ functional/cachefile/cachefile_002_pos.ksh \ functional/cachefile/cachefile_003_pos.ksh \ functional/cachefile/cachefile_004_pos.ksh \ functional/cachefile/cleanup.ksh \ functional/cachefile/setup.ksh \ functional/cache/setup.ksh \ functional/casenorm/case_all_values.ksh \ functional/casenorm/cleanup.ksh \ functional/casenorm/insensitive_formd_delete.ksh \ functional/casenorm/insensitive_formd_lookup.ksh \ functional/casenorm/insensitive_none_delete.ksh \ functional/casenorm/insensitive_none_lookup.ksh \ functional/casenorm/mixed_create_failure.ksh \ functional/casenorm/mixed_formd_delete.ksh \ functional/casenorm/mixed_formd_lookup_ci.ksh \ functional/casenorm/mixed_formd_lookup.ksh \ functional/casenorm/mixed_none_delete.ksh \ functional/casenorm/mixed_none_lookup_ci.ksh \ functional/casenorm/mixed_none_lookup.ksh \ functional/casenorm/norm_all_values.ksh \ functional/casenorm/sensitive_formd_delete.ksh \ functional/casenorm/sensitive_formd_lookup.ksh \ functional/casenorm/sensitive_none_delete.ksh \ functional/casenorm/sensitive_none_lookup.ksh \ functional/casenorm/setup.ksh \ functional/channel_program/lua_core/cleanup.ksh \ functional/channel_program/lua_core/setup.ksh \ functional/channel_program/lua_core/tst.args_to_lua.ksh \ functional/channel_program/lua_core/tst.divide_by_zero.ksh \ functional/channel_program/lua_core/tst.exists.ksh \ functional/channel_program/lua_core/tst.integer_illegal.ksh \ functional/channel_program/lua_core/tst.integer_overflow.ksh \ functional/channel_program/lua_core/tst.language_functions_neg.ksh \ functional/channel_program/lua_core/tst.language_functions_pos.ksh \ functional/channel_program/lua_core/tst.large_prog.ksh \ functional/channel_program/lua_core/tst.libraries.ksh \ functional/channel_program/lua_core/tst.memory_limit.ksh \ functional/channel_program/lua_core/tst.nested_neg.ksh \ functional/channel_program/lua_core/tst.nested_pos.ksh \ functional/channel_program/lua_core/tst.nvlist_to_lua.ksh \ functional/channel_program/lua_core/tst.recursive_neg.ksh \ functional/channel_program/lua_core/tst.recursive_pos.ksh \ functional/channel_program/lua_core/tst.return_large.ksh \ functional/channel_program/lua_core/tst.return_nvlist_neg.ksh \ functional/channel_program/lua_core/tst.return_nvlist_pos.ksh \ functional/channel_program/lua_core/tst.return_recursive_table.ksh \ functional/channel_program/lua_core/tst.stack_gsub.ksh \ functional/channel_program/lua_core/tst.timeout.ksh \ functional/channel_program/synctask_core/cleanup.ksh \ functional/channel_program/synctask_core/setup.ksh \ functional/channel_program/synctask_core/tst.bookmark.copy.ksh \ functional/channel_program/synctask_core/tst.bookmark.create.ksh \ functional/channel_program/synctask_core/tst.destroy_fs.ksh \ functional/channel_program/synctask_core/tst.destroy_snap.ksh \ functional/channel_program/synctask_core/tst.get_count_and_limit.ksh \ functional/channel_program/synctask_core/tst.get_index_props.ksh \ functional/channel_program/synctask_core/tst.get_mountpoint.ksh \ functional/channel_program/synctask_core/tst.get_neg.ksh \ functional/channel_program/synctask_core/tst.get_number_props.ksh \ functional/channel_program/synctask_core/tst.get_string_props.ksh \ functional/channel_program/synctask_core/tst.get_type.ksh \ functional/channel_program/synctask_core/tst.get_userquota.ksh \ functional/channel_program/synctask_core/tst.get_written.ksh \ functional/channel_program/synctask_core/tst.inherit.ksh \ functional/channel_program/synctask_core/tst.list_bookmarks.ksh \ functional/channel_program/synctask_core/tst.list_children.ksh \ functional/channel_program/synctask_core/tst.list_clones.ksh \ functional/channel_program/synctask_core/tst.list_holds.ksh \ functional/channel_program/synctask_core/tst.list_snapshots.ksh \ functional/channel_program/synctask_core/tst.list_system_props.ksh \ functional/channel_program/synctask_core/tst.list_user_props.ksh \ functional/channel_program/synctask_core/tst.parse_args_neg.ksh \ functional/channel_program/synctask_core/tst.promote_conflict.ksh \ functional/channel_program/synctask_core/tst.promote_multiple.ksh \ functional/channel_program/synctask_core/tst.promote_simple.ksh \ functional/channel_program/synctask_core/tst.rollback_mult.ksh \ functional/channel_program/synctask_core/tst.rollback_one.ksh \ functional/channel_program/synctask_core/tst.set_props.ksh \ functional/channel_program/synctask_core/tst.snapshot_destroy.ksh \ functional/channel_program/synctask_core/tst.snapshot_neg.ksh \ functional/channel_program/synctask_core/tst.snapshot_recursive.ksh \ functional/channel_program/synctask_core/tst.snapshot_rename.ksh \ functional/channel_program/synctask_core/tst.snapshot_simple.ksh \ functional/channel_program/synctask_core/tst.terminate_by_signal.ksh \ functional/chattr/chattr_001_pos.ksh \ functional/chattr/chattr_002_neg.ksh \ functional/chattr/cleanup.ksh \ functional/chattr/setup.ksh \ functional/checksum/cleanup.ksh \ functional/checksum/filetest_001_pos.ksh \ functional/checksum/filetest_002_pos.ksh \ functional/checksum/run_blake3_test.ksh \ functional/checksum/run_edonr_test.ksh \ functional/checksum/run_sha2_test.ksh \ functional/checksum/run_skein_test.ksh \ functional/checksum/setup.ksh \ functional/clean_mirror/clean_mirror_001_pos.ksh \ functional/clean_mirror/clean_mirror_002_pos.ksh \ functional/clean_mirror/clean_mirror_003_pos.ksh \ functional/clean_mirror/clean_mirror_004_pos.ksh \ functional/clean_mirror/cleanup.ksh \ functional/clean_mirror/setup.ksh \ functional/cli_root/zdb/zdb_002_pos.ksh \ functional/cli_root/zdb/zdb_003_pos.ksh \ functional/cli_root/zdb/zdb_004_pos.ksh \ functional/cli_root/zdb/zdb_005_pos.ksh \ functional/cli_root/zdb/zdb_006_pos.ksh \ functional/cli_root/zdb/zdb_args_neg.ksh \ functional/cli_root/zdb/zdb_args_pos.ksh \ functional/cli_root/zdb/zdb_block_size_histogram.ksh \ functional/cli_root/zdb/zdb_checksum.ksh \ functional/cli_root/zdb/zdb_decompress.ksh \ functional/cli_root/zdb/zdb_decompress_zstd.ksh \ functional/cli_root/zdb/zdb_display_block.ksh \ functional/cli_root/zdb/zdb_encrypted.ksh \ functional/cli_root/zdb/zdb_label_checksum.ksh \ functional/cli_root/zdb/zdb_object_range_neg.ksh \ functional/cli_root/zdb/zdb_object_range_pos.ksh \ functional/cli_root/zdb/zdb_objset_id.ksh \ functional/cli_root/zdb/zdb_recover_2.ksh \ functional/cli_root/zdb/zdb_recover.ksh \ functional/cli_root/zfs_bookmark/cleanup.ksh \ functional/cli_root/zfs_bookmark/setup.ksh \ functional/cli_root/zfs_bookmark/zfs_bookmark_cliargs.ksh \ functional/cli_root/zfs_change-key/cleanup.ksh \ functional/cli_root/zfs_change-key/setup.ksh \ functional/cli_root/zfs_change-key/zfs_change-key_child.ksh \ functional/cli_root/zfs_change-key/zfs_change-key_clones.ksh \ functional/cli_root/zfs_change-key/zfs_change-key_format.ksh \ functional/cli_root/zfs_change-key/zfs_change-key_inherit.ksh \ functional/cli_root/zfs_change-key/zfs_change-key.ksh \ functional/cli_root/zfs_change-key/zfs_change-key_load.ksh \ functional/cli_root/zfs_change-key/zfs_change-key_location.ksh \ functional/cli_root/zfs_change-key/zfs_change-key_pbkdf2iters.ksh \ functional/cli_root/zfs/cleanup.ksh \ functional/cli_root/zfs_clone/cleanup.ksh \ functional/cli_root/zfs_clone/setup.ksh \ functional/cli_root/zfs_clone/zfs_clone_001_neg.ksh \ functional/cli_root/zfs_clone/zfs_clone_002_pos.ksh \ functional/cli_root/zfs_clone/zfs_clone_003_pos.ksh \ functional/cli_root/zfs_clone/zfs_clone_004_pos.ksh \ functional/cli_root/zfs_clone/zfs_clone_005_pos.ksh \ functional/cli_root/zfs_clone/zfs_clone_006_pos.ksh \ functional/cli_root/zfs_clone/zfs_clone_007_pos.ksh \ functional/cli_root/zfs_clone/zfs_clone_008_neg.ksh \ functional/cli_root/zfs_clone/zfs_clone_009_neg.ksh \ functional/cli_root/zfs_clone/zfs_clone_010_pos.ksh \ functional/cli_root/zfs_clone/zfs_clone_deeply_nested.ksh \ functional/cli_root/zfs_clone/zfs_clone_encrypted.ksh \ functional/cli_root/zfs_clone/zfs_clone_rm_nested.ksh \ functional/cli_root/zfs_copies/cleanup.ksh \ functional/cli_root/zfs_copies/setup.ksh \ functional/cli_root/zfs_copies/zfs_copies_001_pos.ksh \ functional/cli_root/zfs_copies/zfs_copies_002_pos.ksh \ functional/cli_root/zfs_copies/zfs_copies_003_pos.ksh \ functional/cli_root/zfs_copies/zfs_copies_004_neg.ksh \ functional/cli_root/zfs_copies/zfs_copies_005_neg.ksh \ functional/cli_root/zfs_copies/zfs_copies_006_pos.ksh \ functional/cli_root/zfs_create/cleanup.ksh \ functional/cli_root/zfs_create/setup.ksh \ functional/cli_root/zfs_create/zfs_create_001_pos.ksh \ functional/cli_root/zfs_create/zfs_create_002_pos.ksh \ functional/cli_root/zfs_create/zfs_create_003_pos.ksh \ functional/cli_root/zfs_create/zfs_create_004_pos.ksh \ functional/cli_root/zfs_create/zfs_create_005_pos.ksh \ functional/cli_root/zfs_create/zfs_create_006_pos.ksh \ functional/cli_root/zfs_create/zfs_create_007_pos.ksh \ functional/cli_root/zfs_create/zfs_create_008_neg.ksh \ functional/cli_root/zfs_create/zfs_create_009_neg.ksh \ functional/cli_root/zfs_create/zfs_create_010_neg.ksh \ functional/cli_root/zfs_create/zfs_create_011_pos.ksh \ functional/cli_root/zfs_create/zfs_create_012_pos.ksh \ functional/cli_root/zfs_create/zfs_create_013_pos.ksh \ functional/cli_root/zfs_create/zfs_create_014_pos.ksh \ functional/cli_root/zfs_create/zfs_create_crypt_combos.ksh \ functional/cli_root/zfs_create/zfs_create_dryrun.ksh \ functional/cli_root/zfs_create/zfs_create_encrypted.ksh \ functional/cli_root/zfs_create/zfs_create_nomount.ksh \ functional/cli_root/zfs_create/zfs_create_verbose.ksh \ functional/cli_root/zfs_destroy/cleanup.ksh \ functional/cli_root/zfs_destroy/setup.ksh \ functional/cli_root/zfs_destroy/zfs_clone_livelist_condense_and_disable.ksh \ functional/cli_root/zfs_destroy/zfs_clone_livelist_condense_races.ksh \ functional/cli_root/zfs_destroy/zfs_clone_livelist_dedup.ksh \ functional/cli_root/zfs_destroy/zfs_destroy_001_pos.ksh \ functional/cli_root/zfs_destroy/zfs_destroy_002_pos.ksh \ functional/cli_root/zfs_destroy/zfs_destroy_003_pos.ksh \ functional/cli_root/zfs_destroy/zfs_destroy_004_pos.ksh \ functional/cli_root/zfs_destroy/zfs_destroy_005_neg.ksh \ functional/cli_root/zfs_destroy/zfs_destroy_006_neg.ksh \ functional/cli_root/zfs_destroy/zfs_destroy_007_neg.ksh \ functional/cli_root/zfs_destroy/zfs_destroy_008_pos.ksh \ functional/cli_root/zfs_destroy/zfs_destroy_009_pos.ksh \ functional/cli_root/zfs_destroy/zfs_destroy_010_pos.ksh \ functional/cli_root/zfs_destroy/zfs_destroy_011_pos.ksh \ 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functional/rsend/rsend_014_pos.ksh \ functional/rsend/rsend_016_neg.ksh \ functional/rsend/rsend_019_pos.ksh \ functional/rsend/rsend_020_pos.ksh \ functional/rsend/rsend_021_pos.ksh \ functional/rsend/rsend_022_pos.ksh \ functional/rsend/rsend_024_pos.ksh \ functional/rsend/rsend_025_pos.ksh \ functional/rsend/rsend_026_neg.ksh \ functional/rsend/rsend_027_pos.ksh \ functional/rsend/rsend_028_neg.ksh \ functional/rsend/rsend_029_neg.ksh \ functional/rsend/rsend_030_pos.ksh \ + functional/rsend/rsend_031_pos.ksh \ functional/rsend/send-c_embedded_blocks.ksh \ functional/rsend/send-c_incremental.ksh \ functional/rsend/send-c_lz4_disabled.ksh \ functional/rsend/send-c_mixed_compression.ksh \ functional/rsend/send-c_props.ksh \ functional/rsend/send-c_recv_dedup.ksh \ functional/rsend/send-c_recv_lz4_disabled.ksh \ functional/rsend/send-c_resume.ksh \ functional/rsend/send-c_stream_size_estimate.ksh \ functional/rsend/send-c_verify_contents.ksh \ functional/rsend/send-c_verify_ratio.ksh \ functional/rsend/send-c_volume.ksh \ functional/rsend/send-c_zstream_recompress.ksh \ functional/rsend/send-c_zstreamdump.ksh \ functional/rsend/send-cpL_varied_recsize.ksh \ functional/rsend/send_doall.ksh \ functional/rsend/send_encrypted_incremental.ksh \ functional/rsend/send_encrypted_files.ksh \ functional/rsend/send_encrypted_freeobjects.ksh \ functional/rsend/send_encrypted_hierarchy.ksh \ functional/rsend/send_encrypted_props.ksh \ functional/rsend/send_encrypted_truncated_files.ksh \ functional/rsend/send_freeobjects.ksh \ functional/rsend/send_holds.ksh \ functional/rsend/send_hole_birth.ksh \ functional/rsend/send_invalid.ksh \ functional/rsend/send-L_toggle.ksh \ functional/rsend/send_mixed_raw.ksh \ functional/rsend/send_partial_dataset.ksh \ functional/rsend/send_raw_ashift.ksh \ functional/rsend/send_raw_spill_block.ksh \ functional/rsend/send_raw_large_blocks.ksh \ functional/rsend/send_realloc_dnode_size.ksh \ functional/rsend/send_realloc_encrypted_files.ksh \ functional/rsend/send_realloc_files.ksh \ functional/rsend/send_spill_block.ksh \ functional/rsend/send-wR_encrypted_zvol.ksh \ functional/rsend/setup.ksh \ functional/scrub_mirror/cleanup.ksh \ functional/scrub_mirror/scrub_mirror_001_pos.ksh \ functional/scrub_mirror/scrub_mirror_002_pos.ksh \ functional/scrub_mirror/scrub_mirror_003_pos.ksh \ functional/scrub_mirror/scrub_mirror_004_pos.ksh \ functional/scrub_mirror/setup.ksh \ functional/slog/cleanup.ksh \ functional/slog/setup.ksh \ functional/slog/slog_001_pos.ksh \ functional/slog/slog_002_pos.ksh \ functional/slog/slog_003_pos.ksh \ functional/slog/slog_004_pos.ksh \ functional/slog/slog_005_pos.ksh \ functional/slog/slog_006_pos.ksh \ functional/slog/slog_007_pos.ksh \ functional/slog/slog_008_neg.ksh \ functional/slog/slog_009_neg.ksh \ functional/slog/slog_010_neg.ksh \ functional/slog/slog_011_neg.ksh \ functional/slog/slog_012_neg.ksh \ functional/slog/slog_013_pos.ksh \ functional/slog/slog_014_pos.ksh \ functional/slog/slog_015_neg.ksh \ functional/slog/slog_016_pos.ksh \ functional/slog/slog_replay_fs_001.ksh \ functional/slog/slog_replay_fs_002.ksh \ functional/slog/slog_replay_volume.ksh \ functional/snapshot/cleanup.ksh \ functional/snapshot/clone_001_pos.ksh \ functional/snapshot/rollback_001_pos.ksh \ functional/snapshot/rollback_002_pos.ksh \ functional/snapshot/rollback_003_pos.ksh \ functional/snapshot/setup.ksh \ functional/snapshot/snapshot_001_pos.ksh \ functional/snapshot/snapshot_002_pos.ksh \ functional/snapshot/snapshot_003_pos.ksh \ functional/snapshot/snapshot_004_pos.ksh \ functional/snapshot/snapshot_005_pos.ksh \ functional/snapshot/snapshot_006_pos.ksh \ functional/snapshot/snapshot_007_pos.ksh \ functional/snapshot/snapshot_008_pos.ksh \ functional/snapshot/snapshot_009_pos.ksh \ functional/snapshot/snapshot_010_pos.ksh \ functional/snapshot/snapshot_011_pos.ksh \ functional/snapshot/snapshot_012_pos.ksh \ functional/snapshot/snapshot_013_pos.ksh \ functional/snapshot/snapshot_014_pos.ksh \ functional/snapshot/snapshot_015_pos.ksh \ functional/snapshot/snapshot_016_pos.ksh \ functional/snapshot/snapshot_017_pos.ksh \ functional/snapshot/snapshot_018_pos.ksh \ functional/snapused/cleanup.ksh \ functional/snapused/setup.ksh \ functional/snapused/snapused_001_pos.ksh \ functional/snapused/snapused_002_pos.ksh \ functional/snapused/snapused_003_pos.ksh \ functional/snapused/snapused_004_pos.ksh \ functional/snapused/snapused_005_pos.ksh \ functional/sparse/cleanup.ksh \ functional/sparse/setup.ksh \ functional/sparse/sparse_001_pos.ksh \ functional/stat/cleanup.ksh \ functional/stat/setup.ksh \ functional/stat/stat_001_pos.ksh \ functional/suid/cleanup.ksh \ functional/suid/setup.ksh \ functional/suid/suid_write_to_none.ksh \ functional/suid/suid_write_to_sgid.ksh \ functional/suid/suid_write_to_suid.ksh \ functional/suid/suid_write_to_suid_sgid.ksh \ functional/suid/suid_write_zil_replay.ksh \ functional/trim/autotrim_config.ksh \ functional/trim/autotrim_integrity.ksh \ functional/trim/autotrim_trim_integrity.ksh \ functional/trim/cleanup.ksh \ functional/trim/setup.ksh \ functional/trim/trim_config.ksh \ functional/trim/trim_integrity.ksh \ functional/trim/trim_l2arc.ksh \ functional/truncate/cleanup.ksh \ functional/truncate/setup.ksh \ functional/truncate/truncate_001_pos.ksh \ functional/truncate/truncate_002_pos.ksh \ functional/truncate/truncate_timestamps.ksh \ functional/upgrade/cleanup.ksh \ functional/upgrade/setup.ksh \ functional/upgrade/upgrade_projectquota_001_pos.ksh \ functional/upgrade/upgrade_readonly_pool.ksh \ functional/upgrade/upgrade_userobj_001_pos.ksh \ functional/user_namespace/cleanup.ksh \ functional/user_namespace/setup.ksh \ functional/user_namespace/user_namespace_001.ksh \ functional/user_namespace/user_namespace_002.ksh \ functional/user_namespace/user_namespace_003.ksh \ functional/user_namespace/user_namespace_004.ksh \ functional/userquota/cleanup.ksh \ functional/userquota/groupspace_001_pos.ksh \ functional/userquota/groupspace_002_pos.ksh \ functional/userquota/groupspace_003_pos.ksh \ functional/userquota/setup.ksh \ functional/userquota/userquota_001_pos.ksh \ functional/userquota/userquota_002_pos.ksh \ functional/userquota/userquota_003_pos.ksh \ functional/userquota/userquota_004_pos.ksh \ functional/userquota/userquota_005_neg.ksh \ functional/userquota/userquota_006_pos.ksh \ functional/userquota/userquota_007_pos.ksh \ functional/userquota/userquota_008_pos.ksh \ functional/userquota/userquota_009_pos.ksh \ functional/userquota/userquota_010_pos.ksh \ functional/userquota/userquota_011_pos.ksh \ functional/userquota/userquota_012_neg.ksh \ functional/userquota/userquota_013_pos.ksh \ functional/userquota/userspace_001_pos.ksh \ functional/userquota/userspace_002_pos.ksh \ functional/userquota/userspace_003_pos.ksh \ functional/userquota/userspace_encrypted.ksh \ functional/userquota/userspace_send_encrypted.ksh \ functional/userquota/userspace_encrypted_13709.ksh \ functional/vdev_zaps/cleanup.ksh \ functional/vdev_zaps/setup.ksh \ functional/vdev_zaps/vdev_zaps_001_pos.ksh \ functional/vdev_zaps/vdev_zaps_002_pos.ksh \ functional/vdev_zaps/vdev_zaps_003_pos.ksh \ functional/vdev_zaps/vdev_zaps_004_pos.ksh \ functional/vdev_zaps/vdev_zaps_005_pos.ksh \ functional/vdev_zaps/vdev_zaps_006_pos.ksh \ functional/vdev_zaps/vdev_zaps_007_pos.ksh \ functional/write_dirs/cleanup.ksh \ functional/write_dirs/setup.ksh \ functional/write_dirs/write_dirs_001_pos.ksh \ functional/write_dirs/write_dirs_002_pos.ksh \ functional/xattr/cleanup.ksh \ functional/xattr/setup.ksh \ functional/xattr/xattr_001_pos.ksh \ functional/xattr/xattr_002_neg.ksh \ functional/xattr/xattr_003_neg.ksh \ functional/xattr/xattr_004_pos.ksh \ functional/xattr/xattr_005_pos.ksh \ functional/xattr/xattr_006_pos.ksh \ functional/xattr/xattr_007_neg.ksh \ functional/xattr/xattr_008_pos.ksh \ functional/xattr/xattr_009_neg.ksh \ functional/xattr/xattr_010_neg.ksh \ functional/xattr/xattr_011_pos.ksh \ functional/xattr/xattr_012_pos.ksh \ functional/xattr/xattr_013_pos.ksh \ functional/xattr/xattr_compat.ksh \ functional/zpool_influxdb/cleanup.ksh \ functional/zpool_influxdb/setup.ksh \ functional/zpool_influxdb/zpool_influxdb.ksh \ functional/zvol/zvol_cli/cleanup.ksh \ functional/zvol/zvol_cli/setup.ksh \ functional/zvol/zvol_cli/zvol_cli_001_pos.ksh \ functional/zvol/zvol_cli/zvol_cli_002_pos.ksh \ functional/zvol/zvol_cli/zvol_cli_003_neg.ksh \ functional/zvol/zvol_ENOSPC/cleanup.ksh \ functional/zvol/zvol_ENOSPC/setup.ksh \ functional/zvol/zvol_ENOSPC/zvol_ENOSPC_001_pos.ksh \ functional/zvol/zvol_misc/cleanup.ksh \ functional/zvol/zvol_misc/setup.ksh \ functional/zvol/zvol_misc/zvol_misc_001_neg.ksh \ functional/zvol/zvol_misc/zvol_misc_002_pos.ksh \ functional/zvol/zvol_misc/zvol_misc_003_neg.ksh \ functional/zvol/zvol_misc/zvol_misc_004_pos.ksh \ functional/zvol/zvol_misc/zvol_misc_005_neg.ksh \ functional/zvol/zvol_misc/zvol_misc_006_pos.ksh \ functional/zvol/zvol_misc/zvol_misc_fua.ksh \ functional/zvol/zvol_misc/zvol_misc_hierarchy.ksh \ functional/zvol/zvol_misc/zvol_misc_rename_inuse.ksh \ functional/zvol/zvol_misc/zvol_misc_snapdev.ksh \ functional/zvol/zvol_misc/zvol_misc_trim.ksh \ functional/zvol/zvol_misc/zvol_misc_volmode.ksh \ functional/zvol/zvol_misc/zvol_misc_zil.ksh \ functional/zvol/zvol_stress/cleanup.ksh \ functional/zvol/zvol_stress/setup.ksh \ functional/zvol/zvol_stress/zvol_stress.ksh \ functional/zvol/zvol_swap/cleanup.ksh \ functional/zvol/zvol_swap/setup.ksh \ functional/zvol/zvol_swap/zvol_swap_001_pos.ksh \ functional/zvol/zvol_swap/zvol_swap_002_pos.ksh \ functional/zvol/zvol_swap/zvol_swap_003_pos.ksh \ functional/zvol/zvol_swap/zvol_swap_004_pos.ksh \ functional/zvol/zvol_swap/zvol_swap_005_pos.ksh \ functional/zvol/zvol_swap/zvol_swap_006_pos.ksh \ functional/idmap_mount/cleanup.ksh \ functional/idmap_mount/setup.ksh \ functional/idmap_mount/idmap_mount_001.ksh \ functional/idmap_mount/idmap_mount_002.ksh \ functional/idmap_mount/idmap_mount_003.ksh \ functional/idmap_mount/idmap_mount_004.ksh \ functional/idmap_mount/idmap_mount_005.ksh diff --git a/tests/zfs-tests/tests/functional/rsend/rsend_031_pos.ksh b/tests/zfs-tests/tests/functional/rsend/rsend_031_pos.ksh new file mode 100755 index 000000000000..119da7150c36 --- /dev/null +++ b/tests/zfs-tests/tests/functional/rsend/rsend_031_pos.ksh @@ -0,0 +1,63 @@ +#!/bin/ksh -p + +# +# This file and its contents are supplied under the terms of the +# Common Development and Distribution License ("CDDL"), version 1.0. +# You may only use this file in accordance with the terms of version +# 1.0 of the CDDL. +# +# A full copy of the text of the CDDL should have accompanied this +# source. A copy of the CDDL is also available via the Internet at +# http://www.illumos.org/license/CDDL. +# + +# +# Copyright (c) 2023 by Delphix. All rights reserved. +# + +. $STF_SUITE/tests/functional/rsend/rsend.kshlib + +# +# Description: +# Verify recursive incremental sends missing snapshots behave correctly. +# +# Strategy: +# 1. Create snapshots on source filesystem. +# 2. Recursively send snapshots. +# 3. Delete snapshot on source filesystem +# 4. Perform incremental recursive send. +# 5. Verify matching snapshot lists. +# + +verify_runnable "both" + +sendfs=$POOL/sendfs +recvfs=$POOL2/recvfs + +function cleanup { + rm $BACKDIR/stream1 + rm $BACKDIR/stream2 + zfs destroy -r $sendfs + zfs destroy -r $recvfs +} + +log_assert "Verify recursive incremental sends missing snapshots behave correctly." +log_onexit cleanup + +log_must zfs create $sendfs +log_must zfs snapshot $sendfs@A +log_must zfs snapshot $sendfs@B +log_must zfs snapshot $sendfs@C +log_must eval "zfs send -Rpv $sendfs@C > $BACKDIR/stream1" +log_must eval "zfs receive -F $recvfs < $BACKDIR/stream1" +log_must zfs list $sendfs@C + +log_must zfs destroy $sendfs@C +log_must zfs snapshot $sendfs@D +log_must zfs snapshot $sendfs@E +log_must eval "zfs send -Rpv -I $sendfs@A $sendfs@E > $BACKDIR/stream2" +log_must eval "zfs receive -Fv $recvfs < $BACKDIR/stream2" +log_must zfs list $sendfs@D +log_must zfs list $sendfs@E +log_mustnot zfs list $sendfs@C +log_pass "Verify recursive incremental sends missing snapshots behave correctly."