| blob | 9636c99fc85f6601203ee0caf04665cceb576509 |
1 /*
2 * CDDL HEADER START
3 *
4 * The contents of this file are subject to the terms of the
5 * Common Development and Distribution License (the "License").
6 * You may not use this file except in compliance with the License.
7 *
8 * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9 * or https://opensource.org/licenses/CDDL-1.0.
10 * See the License for the specific language governing permissions
11 * and limitations under the License.
12 *
13 * When distributing Covered Code, include this CDDL HEADER in each
14 * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15 * If applicable, add the following below this CDDL HEADER, with the
16 * fields enclosed by brackets "[]" replaced with your own identifying
17 * information: Portions Copyright [yyyy] [name of copyright owner]
18 *
19 * CDDL HEADER END
20 */
21 /*
22 * Copyright (c) 2007, 2010, Oracle and/or its affiliates. All rights reserved.
23 * Copyright (c) 2012 by Delphix. All rights reserved.
24 * Copyright 2014 Nexenta Systems, Inc. All rights reserved.
25 * Copyright (c) 2016, 2017, Intel Corporation.
26 * Copyright (c) 2017 Open-E, Inc. All Rights Reserved.
27 * Copyright (c) 2023, Klara Inc.
28 */
30 /*
31 * ZFS syseventd module.
32 *
33 * file origin: openzfs/usr/src/cmd/syseventd/modules/zfs_mod/zfs_mod.c
34 *
35 * The purpose of this module is to identify when devices are added to the
36 * system, and appropriately online or replace the affected vdevs.
37 *
38 * When a device is added to the system:
39 *
40 * 1. Search for any vdevs whose devid matches that of the newly added
41 * device.
42 *
43 * 2. If no vdevs are found, then search for any vdevs whose udev path
44 * matches that of the new device.
45 *
46 * 3. If no vdevs match by either method, then ignore the event.
47 *
48 * 4. Attempt to online the device with a flag to indicate that it should
49 * be unspared when resilvering completes. If this succeeds, then the
50 * same device was inserted and we should continue normally.
51 *
52 * 5. If the pool does not have the 'autoreplace' property set, attempt to
53 * online the device again without the unspare flag, which will
54 * generate a FMA fault.
55 *
56 * 6. If the pool has the 'autoreplace' property set, and the matching vdev
57 * is a whole disk, then label the new disk and attempt a 'zpool
58 * replace'.
59 *
60 * The module responds to EC_DEV_ADD events. The special ESC_ZFS_VDEV_CHECK
61 * event indicates that a device failed to open during pool load, but the
62 * autoreplace property was set. In this case, we deferred the associated
63 * FMA fault until our module had a chance to process the autoreplace logic.
64 * If the device could not be replaced, then the second online attempt will
65 * trigger the FMA fault that we skipped earlier.
66 *
67 * On Linux udev provides a disk insert for both the disk and the partition.
68 */
70 #include <ctype.h>
71 #include <fcntl.h>
72 #include <libnvpair.h>
73 #include <libzfs.h>
74 #include <libzutil.h>
75 #include <limits.h>
76 #include <stddef.h>
77 #include <stdlib.h>
78 #include <string.h>
79 #include <syslog.h>
80 #include <sys/list.h>
81 #include <sys/sunddi.h>
82 #include <sys/sysevent/eventdefs.h>
83 #include <sys/sysevent/dev.h>
84 #include <thread_pool.h>
85 #include <pthread.h>
86 #include <unistd.h>
87 #include <errno.h>
101 boolean_t g_enumeration_done;
106 list_node_t uap_node;
111 list_node_t pd_node;
114 static int
116 {
126 }
128 static int
130 {
140 }
146 }
148 }
150 /*
151 * Write an array of strings to the zed log
152 */
154 {
158 }
159 }
161 /*
162 * Two stage replace on Linux
163 * since we get disk notifications
164 * we can wait for partitioned disk slice to show up!
165 *
166 * First stage tags the disk, initiates async partitioning, and returns
167 * Second stage finds the tag and proceeds to ZFS labeling/replace
168 *
169 * disk-add --> label-disk + tag-disk --> partition-add --> zpool_vdev_attach
170 *
171 * 1. physical match with no fs, no partition
172 * tag it top, partition disk
173 *
174 * 2. physical match again, see partition and tag
175 *
176 */
178 /*
179 * The device associated with the given vdev (either by devid or physical path)
180 * has been added to the system. If 'isdisk' is set, then we only attempt a
181 * replacement if it's a whole disk. This also implies that we should label the
182 * disk first.
183 *
184 * First, we attempt to online the device (making sure to undo any spare
185 * operation when finished). If this succeeds, then we're done. If it fails,
186 * and the new state is VDEV_CANT_OPEN, it indicates that the device was opened,
187 * but that the label was not what we expected. If the 'autoreplace' property
188 * is enabled, then we relabel the disk (if specified), and attempt a 'zpool
189 * replace'. If the online is successful, but the new state is something else
190 * (REMOVED or FAULTED), it indicates that we're out of sync or in some sort of
191 * race, and we should avoid attempting to relabel the disk.
192 *
193 * Also can arrive here from a ESC_ZFS_VDEV_CHECK event
194 */
195 static void
197 {
199 vdev_state_t newstate;
213 uint_t c;
218 /*
219 * Get the persistent path, typically under the '/dev/disk/by-id' or
220 * '/dev/disk/by-vdev' directories. Note that this path can change
221 * when a vdev is replaced with a new disk.
222 */
226 /* Skip healthy disks */
233 }
245 /*
246 * Special case:
247 *
248 * We've seen times where a disk won't have a ZPOOL_CONFIG_PHYS_PATH
249 * entry in their config. For example, on this force-faulted disk:
250 *
251 * children[0]:
252 * type: 'disk'
253 * id: 0
254 * guid: 14309659774640089719
255 * path: '/dev/disk/by-vdev/L28'
256 * whole_disk: 0
257 * DTL: 654
258 * create_txg: 4
259 * com.delphix:vdev_zap_leaf: 1161
260 * faulted: 1
261 * aux_state: 'external'
262 * children[1]:
263 * type: 'disk'
264 * id: 1
265 * guid: 16002508084177980912
266 * path: '/dev/disk/by-vdev/L29'
267 * devid: 'dm-uuid-mpath-35000c500a61d68a3'
268 * phys_path: 'L29'
269 * vdev_enc_sysfs_path: '/sys/class/enclosure/0:0:1:0/SLOT 30 32'
270 * whole_disk: 0
271 * DTL: 1028
272 * create_txg: 4
273 * com.delphix:vdev_zap_leaf: 131
274 *
275 * If the disk's path is a /dev/disk/by-vdev/ path, then we can infer
276 * the ZPOOL_CONFIG_PHYS_PATH from the by-vdev disk name.
277 */
279 /* If path begins with "/dev/disk/by-vdev/" ... */
282 /* Set physpath to the char after "/dev/disk/by-vdev" */
284 }
285 }
287 /*
288 * We don't want to autoreplace offlined disks. However, we do want to
289 * replace force-faulted disks (`zpool offline -f`). Force-faulted
290 * disks have both offline=1 and faulted=1 in the nvlist.
291 */
296 }
300 " %s blank disk, %s mpath blank disk, %s labeled, enc sysfs '%s', "
307 enc_sysfs_path,
310 /*
311 * The VDEV guid is preferred for identification (gets passed in path)
312 */
317 /*
318 * otherwise use path sans partition suffix for whole disks
319 */
325 __func__);
327 }
331 }
332 }
337 /*
338 * Attempt to online the device.
339 */
344 " zpool_vdev_online: vdev '%s' ('%s') is "
348 }
350 /*
351 * vdev_id alias rule for using scsi_debug devices (FMA automated
352 * testing)
353 */
357 /*
358 * If the pool doesn't have the autoreplace property set, then use
359 * vdev online to trigger a FMA fault by posting an ereport.
360 */
367 physpath);
369 }
371 /*
372 * Convert physical path into its current device node. Rawpath
373 * needs to be /dev/disk/by-vdev for a scsi_debug device since
374 * /dev/disk/by-path will not be present.
375 */
391 }
393 /* Only autoreplace bad disks */
401 }
406 /* Don't label device mapper or multipath disks. */
412 " zpool_prepare_disk: could not "
419 }
422 }
424 /*
425 * we're auto-replacing a raw disk, so label it first
426 */
429 /*
430 * If this is a request to label a whole disk, then attempt to
431 * write out the label. Before we can label the disk, we need
432 * to map the physical string that was matched on to the under
433 * lying device node.
434 *
435 * If any part of this process fails, then do a force online
436 * to trigger a ZFS fault for the device (and any hot spare
437 * replacement).
438 */
441 /*
442 * If this is a request to label a whole disk, then attempt to
443 * write out the label.
444 */
448 " zpool_prepare_and_label_disk: could not "
455 }
461 }
463 /*
464 * The disk labeling is asynchronous on Linux. Just record
465 * this label request and return as there will be another
466 * disk add event for the partition after the labeling is
467 * completed.
468 */
473 }
486 /*
487 * match up with request above to label the disk
488 */
496 }
499 }
501 /* unexpected partition slice encountered */
507 }
512 /*
513 * Paths that begin with '/dev/disk/by-id/' will change and so
514 * they must be updated before calling zpool_vdev_attach().
515 */
522 }
523 }
527 /*
528 * Construct the root vdev to pass to zpool_vdev_attach(). While adding
529 * the entire vdev structure is harmless, we construct a reduced set of
530 * path/physpath/wholedisk to keep it simple.
531 */
535 }
540 }
557 }
561 /*
562 * Wait for udev to verify the links exist, then auto-replace
563 * the leaf disk at same physical location.
564 */
567 "replacement disk, the expected disk partition link '%s' "
572 }
574 /*
575 * Prefer sequential resilvering when supported (mirrors and dRAID),
576 * otherwise fallback to a traditional healing resilver.
577 */
582 }
589 }
591 /*
592 * Utility functions to find a vdev matching given criteria.
593 */
597 zfs_process_func_t dd_func;
598 boolean_t dd_found;
599 boolean_t dd_islabeled;
607 static void
609 {
617 /*
618 * First iterate over any children.
619 */
624 }
626 /*
627 * Iterate over any spares and cache devices
628 */
633 }
638 }
640 /* once a vdev was matched and processed there is nothing left to do */
645 /*
646 * Match by GUID if available otherwise fallback to devid or physical
647 */
655 /*
656 * NOTE: On Linux there is an event for partition, so unlike
657 * illumos, substring matching is not required to accommodate
658 * the partition suffix. An exact match will be present in
659 * the dp->dd_compare value.
660 * If the attached disk already contains a vdev GUID, it means
661 * the disk is not clean. In such a scenario, the physical path
662 * would be a match that makes the disk faulted when trying to
663 * online it. So, we would only want to proceed if either GUID
664 * matches with the last attached disk or the disk is in clean
665 * state.
666 */
670 }
676 }
682 /* pass the new devid for use by auto-replacing code */
686 }
687 }
694 }
696 static void
698 {
704 }
706 static int
708 {
717 /*
718 * For each vdev in this pool, look for a match to apply dd_func
719 */
727 }
730 }
732 /*
733 * if this pool was originally unavailable,
734 * then enable its datasets asynchronously
735 */
746 pool);
748 }
749 }
750 }
754 /* cease iteration after a match */
756 }
758 /*
759 * Given a physical device location, iterate over all
760 * (pool, vdev) pairs which correspond to that location.
761 */
762 static boolean_t
765 {
779 }
781 /*
782 * Given a device identifier, find any vdevs with a matching by-vdev
783 * path. Normally we shouldn't need this as the comparison would be
784 * made earlier in the devphys_iter(). For example, if we were replacing
785 * /dev/disk/by-vdev/L28, normally devphys_iter() would match the
786 * ZPOOL_CONFIG_PHYS_PATH of "L28" from the old disk config to "L28"
787 * of the new disk config. However, we've seen cases where
788 * ZPOOL_CONFIG_PHYS_PATH was not in the config for the old disk. Here's
789 * an example of a real 2-disk mirror pool where one disk was force
790 * faulted:
791 *
792 * com.delphix:vdev_zap_top: 129
793 * children[0]:
794 * type: 'disk'
795 * id: 0
796 * guid: 14309659774640089719
797 * path: '/dev/disk/by-vdev/L28'
798 * whole_disk: 0
799 * DTL: 654
800 * create_txg: 4
801 * com.delphix:vdev_zap_leaf: 1161
802 * faulted: 1
803 * aux_state: 'external'
804 * children[1]:
805 * type: 'disk'
806 * id: 1
807 * guid: 16002508084177980912
808 * path: '/dev/disk/by-vdev/L29'
809 * devid: 'dm-uuid-mpath-35000c500a61d68a3'
810 * phys_path: 'L29'
811 * vdev_enc_sysfs_path: '/sys/class/enclosure/0:0:1:0/SLOT 30 32'
812 * whole_disk: 0
813 * DTL: 1028
814 * create_txg: 4
815 * com.delphix:vdev_zap_leaf: 131
816 *
817 * So in the case above, the only thing we could compare is the path.
818 *
819 * We can do this because we assume by-vdev paths are authoritative as physical
820 * paths. We could not assume this for normal paths like /dev/sda since the
821 * physical location /dev/sda points to could change over time.
822 */
823 static boolean_t
826 {
838 /* by_vdev_path doesn't start with "/dev/disk/by-vdev/" */
840 }
845 }
847 /*
848 * Given a device identifier, find any vdevs with a matching devid.
849 * On Linux we can match devid directly which is always a whole disk.
850 */
851 static boolean_t
853 {
866 }
868 /*
869 * Given a device guid, find any vdevs with a matching guid.
870 */
871 static boolean_t
874 {
887 }
889 /*
890 * Handle a EC_DEV_ADD.ESC_DISK event.
891 *
892 * illumos
893 * Expects: DEV_PHYS_PATH string in schema
894 * Matches: vdev's ZPOOL_CONFIG_PHYS_PATH or ZPOOL_CONFIG_DEVID
895 *
896 * path: '/dev/dsk/c0t1d0s0' (persistent)
897 * devid: 'id1,sd@SATA_____Hitachi_HDS72101______JP2940HZ3H74MC/a'
898 * phys_path: '/pci@0,0/pci103c,1609@11/disk@1,0:a'
899 *
900 * linux
901 * provides: DEV_PHYS_PATH and DEV_IDENTIFIER strings in schema
902 * Matches: vdev's ZPOOL_CONFIG_PHYS_PATH or ZPOOL_CONFIG_DEVID
903 *
904 * path: '/dev/sdc1' (not persistent)
905 * devid: 'ata-SAMSUNG_HD204UI_S2HGJD2Z805891-part1'
906 * phys_path: 'pci-0000:04:00.0-sas-0x4433221106000000-lun-0'
907 */
908 static int
910 {
913 boolean_t is_slice;
915 /*
916 * Expecting a devid string and an optional physical location and guid
917 */
921 }
932 /*
933 * Iterate over all vdevs looking for a match in the following order:
934 * 1. ZPOOL_CONFIG_DEVID (identifies the unique disk)
935 * 2. ZPOOL_CONFIG_PHYS_PATH (identifies disk physical location).
936 * 3. ZPOOL_CONFIG_GUID (identifies unique vdev).
937 * 4. ZPOOL_CONFIG_PATH for /dev/disk/by-vdev devices only (since
938 * by-vdev paths represent physical paths).
939 */
947 is_slice);
950 /* Can we match a /dev/disk/by-vdev/ path? */
955 is_slice))
957 }
960 }
962 /*
963 * Called when we receive a VDEV_CHECK event, which indicates a device could not
964 * be opened during initial pool open, but the autoreplace property was set on
965 * the pool. In this case, we treat it as if it were an add event.
966 */
967 static int
969 {
987 }
989 /*
990 * Given a path to a vdev, lookup the vdev's physical size from its
991 * config nvlist.
992 *
993 * Returns the vdev's physical size in bytes on success, 0 on error.
994 */
995 static uint64_t
997 {
1001 uint_t c;
1011 vdev_path);
1013 }
1016 }
1018 /*
1019 * Given a path to a vdev, lookup if the vdev is a "whole disk" in the
1020 * config nvlist. "whole disk" means that ZFS was passed a whole disk
1021 * at pool creation time, which it partitioned up and has full control over.
1022 * Thus a partition with wholedisk=1 set tells us that zfs created the
1023 * partition at creation time. A partition without whole disk set would have
1024 * been created by externally (like with fdisk) and passed to ZFS.
1025 *
1026 * Returns the whole disk value (either 0 or 1).
1027 */
1028 static uint64_t
1030 {
1042 }
1044 /*
1045 * If the device size grew more than 1% then return true.
1046 */
1047 #define DEVICE_GREW(oldsize, newsize) \
1048 ((newsize > oldsize) && \
1049 ((newsize / (newsize - oldsize)) <= 100))
1051 static int
1053 {
1071 }
1086 }
1099 }
1103 }
1108 /*
1109 * We need to reopen the pool associated with this
1110 * device so that the kernel can update the size of
1111 * the expanded device. When expanding there is no
1112 * need to restart the scrub from the beginning.
1113 */
1118 }
1121 vdev_state_t newstate;
1124 /*
1125 * If this disk size has not changed, then
1126 * there's no need to do an autoexpand. To
1127 * check we look at the disk's size in its
1128 * config, and compare it to the disk size
1129 * that udev is reporting.
1130 */
1134 /*
1135 * Get the size of our disk that udev is
1136 * reporting.
1137 */
1141 }
1143 /*
1144 * Get the size of our disk's parent device
1145 * from udev (where sda1's parent is sda).
1146 */
1150 }
1153 fullpath);
1156 fullpath);
1158 /*
1159 * Only attempt an autoexpand if the vdev size
1160 * changed. There are two different cases
1161 * to consider.
1162 *
1163 * 1. wholedisk=1
1164 * If you do a 'zpool create' on a whole disk
1165 * (like /dev/sda), then zfs will create
1166 * partitions on the disk (like /dev/sda1). In
1167 * that case, wholedisk=1 will be set in the
1168 * partition's nvlist config. So zed will need
1169 * to see if your parent device (/dev/sda)
1170 * expanded in size, and if so, then attempt
1171 * the autoexpand.
1172 *
1173 * 2. wholedisk=0
1174 * If you do a 'zpool create' on an existing
1175 * partition, or a device that doesn't allow
1176 * partitions, then wholedisk=0, and you will
1177 * simply need to check if the device itself
1178 * expanded in size.
1179 */
1182 udev_parent_size))) {
1187 "%s: autoexpanding '%s' from %llu"
1192 }
1193 }
1194 }
1197 }
1200 }
1202 /*
1203 * This function handles the ESC_DEV_DLE device change event. Use the
1204 * provided vdev guid when looking up a disk or partition, when the guid
1205 * is not present assume the entire disk is owned by ZFS and append the
1206 * expected -part1 partition information then lookup by physical path.
1207 */
1208 static int
1210 {
1223 }
1229 }
1232 }
1234 /*
1235 * syseventd daemon module event handler
1236 *
1237 * Handles syseventd daemon zfs device related events:
1238 *
1239 * EC_DEV_ADD.ESC_DISK
1240 * EC_DEV_STATUS.ESC_DEV_DLE
1241 * EC_ZFS.ESC_ZFS_VDEV_CHECK
1242 *
1243 * Note: assumes only one thread active at a time (not thread safe)
1244 */
1245 static int
1247 {
1252 /*
1253 * We're mainly interested in disk additions, but we also listen
1254 * for new loop devices, to allow for simplified testing.
1255 */
1263 /*
1264 * This event signifies that a device failed to open
1265 * during pool load, but the 'autoreplace' property was
1266 * set, so we should pretend it's just been added.
1267 */
1274 }
1280 else
1284 }
1288 {
1292 /*
1293 * Linux - instead of using a thread pool, each list entry
1294 * will spawn a thread when an unavailable pool transitions
1295 * to available. zfs_slm_fini will wait for these threads.
1296 */
1299 }
1301 /*
1302 * called from zed daemon at startup
1303 *
1304 * sent messages from zevents or udev monitor
1305 *
1306 * For now, each agent has its own libzfs instance
1307 */
1308 int
1310 {
1314 /*
1315 * collect a list of unavailable pools (asynchronously,
1316 * since this can take a while)
1317 */
1325 }
1332 }
1334 void
1336 {
1340 /* wait for zfs_enum_pools thread to complete */
1342 /* destroy the thread pool */
1346 }
1351 }
1359 }
1361 void
1363 {
1366 }