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source: mainline/uspace/srv/bd/hr/raid5.c@ a3486f2

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Last change on this file since a3486f2 was a3486f2, checked in by Miroslav Cimerman <mc@…>, 8 weeks ago
hr: parallel RAID 5
Property mode set to `100644`
File size: 22.4 KB

Rev	Line
[dceb6e7]	1	/*
[746e636]	2	* Copyright (c) 2025 Miroslav Cimerman
[dceb6e7]	3	* All rights reserved.
	4	*
	5	* Redistribution and use in source and binary forms, with or without
	6	* modification, are permitted provided that the following conditions
	7	* are met:
	8	*
	9	* - Redistributions of source code must retain the above copyright
	10	* notice, this list of conditions and the following disclaimer.
	11	* - Redistributions in binary form must reproduce the above copyright
	12	* notice, this list of conditions and the following disclaimer in the
	13	* documentation and/or other materials provided with the distribution.
	14	* - The name of the author may not be used to endorse or promote products
	15	* derived from this software without specific prior written permission.
	16	*
	17	* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
	18	* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
	19	* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
	20	* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
	21	* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
	22	* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
	23	* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
	24	* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	25	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
	26	* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
	27	*/
	28
	29	/** @addtogroup hr
	30	* @{
	31	*/
	32	/**
	33	* @file
	34	*/
	35
	36	#include <abi/ipc/ipc.h>
	37	#include <bd_srv.h>
	38	#include <block.h>
	39	#include <errno.h>
	40	#include <hr.h>
[ca7fa5b]	41	#include <inttypes.h>
[dceb6e7]	42	#include <io/log.h>
	43	#include <ipc/hr.h>
	44	#include <ipc/services.h>
	45	#include <loc.h>
[978130a]	46	#include <mem.h>
[dceb6e7]	47	#include <task.h>
	48	#include <stdio.h>
	49	#include <stdlib.h>
	50	#include <str_error.h>
	51
[a3486f2]	52	#include "io.h"
	53	#include "parity_stripe.h"
[dceb6e7]	54	#include "superblock.h"
	55	#include "util.h"
	56	#include "var.h"
	57
[a3486f2]	58	static void hr_raid5_vol_state_eval_forced(hr_volume_t *);
	59
	60	static size_t hr_raid5_parity_extent(hr_level_t, hr_layout_t, size_t,
	61	uint64_t);
	62	static size_t hr_raid5_data_extent(hr_level_t, hr_layout_t, size_t, uint64_t,
	63	uint64_t);
[6f13257]	64
	65	static errno_t hr_raid5_rebuild(void *);
[733564a]	66
	67	/* bdops */
[6f13257]	68	static errno_t hr_raid5_bd_open(bd_srvs_t , bd_srv_t );
	69	static errno_t hr_raid5_bd_close(bd_srv_t *);
	70	static errno_t hr_raid5_bd_read_blocks(bd_srv_t , aoff64_t, size_t, void ,
[dceb6e7]	71	size_t);
[6f13257]	72	static errno_t hr_raid5_bd_sync_cache(bd_srv_t *, aoff64_t, size_t);
	73	static errno_t hr_raid5_bd_write_blocks(bd_srv_t *, aoff64_t, size_t,
[dceb6e7]	74	const void *, size_t);
[6f13257]	75	static errno_t hr_raid5_bd_get_block_size(bd_srv_t , size_t );
	76	static errno_t hr_raid5_bd_get_num_blocks(bd_srv_t , aoff64_t );
[dceb6e7]	77
	78	static bd_ops_t hr_raid5_bd_ops = {
[6f13257]	79	.open = hr_raid5_bd_open,
	80	.close = hr_raid5_bd_close,
	81	.sync_cache = hr_raid5_bd_sync_cache,
	82	.read_blocks = hr_raid5_bd_read_blocks,
	83	.write_blocks = hr_raid5_bd_write_blocks,
	84	.get_block_size = hr_raid5_bd_get_block_size,
	85	.get_num_blocks = hr_raid5_bd_get_num_blocks
[dceb6e7]	86	};
	87
[6d0fc11]	88	extern loc_srv_t *hr_srv;
	89
[733564a]	90	errno_t hr_raid5_create(hr_volume_t *new_volume)
	91	{
[baa4929]	92	HR_DEBUG("%s()", __func__);
	93
[b5c95da5]	94	if (new_volume->level != HR_LVL_5 && new_volume->level != HR_LVL_4)
	95	return EINVAL;
[733564a]	96
[65706f1]	97	if (new_volume->extent_no < 3) {
[af73327a]	98	HR_ERROR("RAID 5 volume needs at least 3 devices\n");
[733564a]	99	return EINVAL;
	100	}
	101
	102	bd_srvs_init(&new_volume->hr_bds);
	103	new_volume->hr_bds.ops = &hr_raid5_bd_ops;
	104	new_volume->hr_bds.sarg = new_volume;
	105
[a3486f2]	106	hr_raid5_vol_state_eval_forced(new_volume);
	107
	108	fibril_rwlock_read_lock(&new_volume->states_lock);
	109	hr_vol_state_t state = new_volume->state;
	110	fibril_rwlock_read_unlock(&new_volume->states_lock);
	111	if (state == HR_VOL_FAULTY \|\| state == HR_VOL_NONE) {
	112	HR_NOTE("\"%s\": unusable state, not creating\n",
	113	new_volume->devname);
	114	return EINVAL;
	115	}
[f1be66bf]	116
[8a65373]	117	return EOK;
[733564a]	118	}
	119
[746e636]	120	/*
	121	* Called only once in volume's lifetime.
	122	*/
[733564a]	123	errno_t hr_raid5_init(hr_volume_t *vol)
	124	{
[baa4929]	125	HR_DEBUG("%s()", __func__);
[733564a]	126
[b5c95da5]	127	if (vol->level != HR_LVL_5 && vol->level != HR_LVL_4)
	128	return EINVAL;
[733564a]	129
[50603405]	130	vol->data_offset = vol->meta_ops->get_data_offset();
[baa4929]	131
[a3486f2]	132	uint64_t single_sz = vol->truncated_blkno - vol->meta_ops->get_size();
	133	vol->data_blkno = single_sz * (vol->extent_no - 1);
[baa4929]	134
[733564a]	135	vol->strip_size = HR_STRIP_SIZE;
	136
[9ee9c60b]	137	if (vol->level == HR_LVL_4)
	138	vol->layout = HR_LAYOUT_RAID4_N;
	139	else
	140	vol->layout = HR_LAYOUT_RAID5_NR;
[1cfce3f]	141
[733564a]	142	return EOK;
	143	}
	144
[da80de9]	145	void hr_raid5_vol_state_eval(hr_volume_t *vol)
[7b359f5]	146	{
[a3486f2]	147	HR_DEBUG("%s()", __func__);
	148
	149	bool exp = true;
	150	if (!atomic_compare_exchange_strong(&vol->state_dirty, &exp, false))
	151	return;
	152
	153	vol->meta_ops->inc_counter(vol);
	154	(void)vol->meta_ops->save(vol, WITH_STATE_CALLBACK);
	155
	156	hr_raid5_vol_state_eval_forced(vol);
[7b359f5]	157	}
	158
[aa7864b]	159	errno_t hr_raid5_add_hotspare(hr_volume_t *vol, service_id_t hotspare)
	160	{
[56214383]	161	HR_DEBUG("%s()", __func__);
[aa7864b]	162
[56214383]	163	errno_t rc = hr_util_add_hotspare(vol, hotspare);
[f1be66bf]	164
[a3486f2]	165	hr_raid5_vol_state_eval(vol);
[aa7864b]	166
[56214383]	167	return rc;
[aa7864b]	168	}
	169
[a3486f2]	170	void hr_raid5_ext_state_cb(hr_volume_t *vol, size_t extent, errno_t rc)
[da80de9]	171	{
[a3486f2]	172	HR_DEBUG("%s()", __func__);
	173
	174	assert(fibril_rwlock_is_locked(&vol->extents_lock));
	175
	176	if (rc == EOK)
	177	return;
	178
	179	fibril_rwlock_write_lock(&vol->states_lock);
	180
	181	switch (rc) {
	182	case ENOMEM:
	183	hr_update_ext_state(vol, extent, HR_EXT_INVALID);
	184	break;
	185	case ENOENT:
[da80de9]	186	hr_update_ext_state(vol, extent, HR_EXT_MISSING);
[a3486f2]	187	break;
	188	default:
[da80de9]	189	hr_update_ext_state(vol, extent, HR_EXT_FAILED);
[a3486f2]	190	}
	191
	192	hr_mark_vol_state_dirty(vol);
	193
	194	fibril_rwlock_write_unlock(&vol->states_lock);
[da80de9]	195	}
	196
[733564a]	197	static errno_t hr_raid5_bd_open(bd_srvs_t bds, bd_srv_t bd)
	198	{
[7a80c63]	199	HR_DEBUG("%s()\n", __func__);
	200
	201	hr_volume_t *vol = bd->srvs->sarg;
	202
	203	atomic_fetch_add_explicit(&vol->open_cnt, 1, memory_order_relaxed);
	204
[733564a]	205	return EOK;
	206	}
	207
	208	static errno_t hr_raid5_bd_close(bd_srv_t *bd)
	209	{
[7a80c63]	210	HR_DEBUG("%s()\n", __func__);
	211
	212	hr_volume_t *vol = bd->srvs->sarg;
	213
	214	atomic_fetch_sub_explicit(&vol->open_cnt, 1, memory_order_relaxed);
	215
[733564a]	216	return EOK;
	217	}
	218
	219	static errno_t hr_raid5_bd_sync_cache(bd_srv_t *bd, aoff64_t ba, size_t cnt)
	220	{
[a3486f2]	221	/* XXX */
	222	return EOK;
[733564a]	223	}
	224
[a3486f2]	225	static errno_t hr_raid5_bd_read_blocks(bd_srv_t *bd, uint64_t ba, size_t cnt,
	226	void *data_read, size_t size)
[733564a]	227	{
	228	hr_volume_t *vol = bd->srvs->sarg;
[a3486f2]	229	errno_t rc;
[733564a]	230
[a3486f2]	231	if (size < cnt * vol->bsize)
	232	return EINVAL;
[733564a]	233
[a3486f2]	234	fibril_rwlock_read_lock(&vol->states_lock);
	235	hr_vol_state_t vol_state = vol->state;
	236	fibril_rwlock_read_unlock(&vol->states_lock);
[733564a]	237
[a3486f2]	238	if (vol_state == HR_VOL_FAULTY \|\| vol_state == HR_VOL_NONE)
	239	return EIO;
[733564a]	240
[a3486f2]	241	rc = hr_check_ba_range(vol, cnt, ba);
	242	if (rc != EOK)
	243	return rc;
[da0570a]	244
[a3486f2]	245	uint64_t strip_size = vol->strip_size / vol->bsize; /* in blocks */
	246	uint64_t strip_no = ba / strip_size;
[da0570a]	247
[a3486f2]	248	/* calculate number of stripes touched */
	249	uint64_t last_ba = ba + cnt - 1;
	250	uint64_t end_strip_no = last_ba / strip_size;
	251	uint64_t start_stripe = strip_no / (vol->extent_no - 1);
	252	uint64_t end_stripe = end_strip_no / (vol->extent_no - 1);
	253	size_t stripes_cnt = end_stripe - start_stripe + 1;
[da0570a]	254
[a3486f2]	255	hr_stripe_t *stripes = hr_create_stripes(vol, stripes_cnt, false);
	256	if (stripes == NULL)
	257	return ENOMEM;
[a0c3080]	258
[a3486f2]	259	/*
	260	* Pre-allocate range locks, because after group creation and
	261	* firing off IO requests there is no easy consistent ENOMEM error
	262	* path.
	263	*/
	264	hr_range_lock_t *rlps = malloc_waitok(stripes_cnt sizeof(*rlps));
	265	for (size_t i = 0; i < stripes_cnt; i++)
	266	rlps[i] = malloc_waitok(sizeof(**rlps));
[a0c3080]	267
[a3486f2]	268	/*
	269	* extent order has to be locked for the whole IO duration,
	270	* so that workers have consistent targets
	271	*/
	272	fibril_rwlock_read_lock(&vol->extents_lock);
	273
	274	for (uint64_t s = start_stripe; s <= end_stripe; s++) {
	275	uint64_t relative = s - start_stripe;
	276	hr_range_lock_acquire_noalloc(rlps[relative], vol, s, 1);
[da0570a]	277	}
	278
[a3486f2]	279	uint64_t phys_block, len;
	280	size_t left;
[dceb6e7]	281
[a3486f2]	282	hr_layout_t layout = vol->layout;
	283	hr_level_t level = vol->level;
[dceb6e7]	284
[a3486f2]	285	/* parity extent */
	286	size_t p_extent = hr_raid5_parity_extent(level, layout,
	287	vol->extent_no, strip_no);
[dceb6e7]	288
[a3486f2]	289	uint64_t strip_off = ba % strip_size;
[dceb6e7]	290
[a3486f2]	291	left = cnt;
[dceb6e7]	292
[a3486f2]	293	while (left != 0) {
	294	if (level == HR_LVL_5) {
	295	p_extent = hr_raid5_parity_extent(level, layout,
	296	vol->extent_no, strip_no);
	297	}
[8160e4c0]	298
[a3486f2]	299	size_t extent = hr_raid5_data_extent(level, layout,
	300	vol->extent_no, strip_no, p_extent);
[8160e4c0]	301
[a3486f2]	302	uint64_t stripe_no = strip_no / (vol->extent_no - 1);
	303	size_t relative_si = stripe_no - start_stripe; /* relative stripe index */
	304	hr_stripe_t *stripe = &stripes[relative_si];
	305	stripe->p_extent = p_extent;
[978130a]	306
[a3486f2]	307	stripe->strips_touched++;
[da0570a]	308
[a3486f2]	309	phys_block = stripe_no * strip_size + strip_off;
	310	cnt = min(left, strip_size - strip_off);
	311	len = vol->bsize * cnt;
	312	hr_add_data_offset(vol, &phys_block);
[da0570a]	313
[a3486f2]	314	stripe->extent_span[extent].range.start = phys_block;
	315	stripe->extent_span[extent].range.end = phys_block + cnt - 1;
	316	stripe->extent_span[extent].cnt = cnt;
	317	stripe->extent_span[extent].data_read = data_read;
	318	stripe->extent_span[extent].strip_off = strip_off;
	319
	320	data_read += len;
	321	left -= cnt;
	322	strip_off = 0;
	323	strip_no++;
[da0570a]	324	}
	325
[a3486f2]	326	retry:
	327	size_t bad_extent = vol->extent_no;
[da0570a]	328
[a3486f2]	329	uint64_t rebuild_pos = atomic_load_explicit(&vol->rebuild_blk,
	330	memory_order_relaxed);
[da0570a]	331
[a3486f2]	332	fibril_rwlock_read_lock(&vol->states_lock);
[8160e4c0]	333
[a3486f2]	334	for (size_t e = 0; e < vol->extent_no; e++) {
	335	hr_ext_state_t s = vol->extents[e].state;
	336	if ((vol->state == HR_VOL_DEGRADED && s != HR_EXT_ONLINE) \|\|
	337	(s == HR_EXT_REBUILD && rebuild_pos < start_stripe)) {
	338	bad_extent = e;
	339	break;
[dceb6e7]	340	}
[a3486f2]	341	}
[da0570a]	342
[a3486f2]	343	fibril_rwlock_read_unlock(&vol->states_lock);
[dceb6e7]	344
[a3486f2]	345	for (size_t s = 0; s < stripes_cnt; s++) {
	346	if (stripes[s].done)
	347	continue;
	348	execute_stripe(&stripes[s], bad_extent);
	349	}
[da0570a]	350
[a3486f2]	351	for (size_t s = 0; s < stripes_cnt; s++) {
	352	if (stripes[s].done)
	353	continue;
	354	wait_for_stripe(&stripes[s]);
[da0570a]	355	}
	356
[a3486f2]	357	hr_raid5_vol_state_eval(vol);
[da0570a]	358
[a3486f2]	359	rc = EOK;
[da0570a]	360
[a3486f2]	361	fibril_rwlock_read_lock(&vol->states_lock);
	362
	363	if (vol->state == HR_VOL_FAULTY) {
	364	fibril_rwlock_read_unlock(&vol->states_lock);
	365	rc = EIO;
	366	goto end;
[978130a]	367	}
[dceb6e7]	368
[a3486f2]	369	fibril_rwlock_read_unlock(&vol->states_lock);
[8160e4c0]	370
[a3486f2]	371	for (size_t s = 0; s < stripes_cnt; s++)
	372	if (stripes[s].rc == EAGAIN)
	373	goto retry;
[8160e4c0]	374
[a3486f2]	375	/* all stripes are done */
	376	end:
	377	fibril_rwlock_read_unlock(&vol->extents_lock);
[8160e4c0]	378
[a3486f2]	379	for (size_t i = 0; i < stripes_cnt; i++)
	380	hr_range_lock_release(rlps[i]);
	381
	382	hr_destroy_stripes(stripes, stripes_cnt);
[da0570a]	383
[12321f8]	384	return rc;
[dceb6e7]	385	}
	386
[a3486f2]	387	static errno_t hr_raid5_bd_write_blocks(bd_srv_t *bd, aoff64_t ba, size_t cnt,
	388	const void *data_write, size_t size)
[dceb6e7]	389	{
	390	hr_volume_t *vol = bd->srvs->sarg;
	391	errno_t rc;
[da0570a]	392
[a3486f2]	393	if (size < cnt * vol->bsize)
	394	return EINVAL;
	395
	396	fibril_rwlock_read_lock(&vol->states_lock);
	397	hr_vol_state_t vol_state = vol->state;
	398	fibril_rwlock_read_unlock(&vol->states_lock);
[fad91b9]	399
[a3486f2]	400	if (vol_state == HR_VOL_FAULTY \|\| vol_state == HR_VOL_NONE)
	401	return EIO;
	402
	403	/* increment metadata counter only on first write */
	404	bool exp = false;
	405	if (atomic_compare_exchange_strong(&vol->first_write, &exp, true)) {
	406	vol->meta_ops->inc_counter(vol);
	407	vol->meta_ops->save(vol, WITH_STATE_CALLBACK);
	408	}
[dceb6e7]	409
	410	rc = hr_check_ba_range(vol, cnt, ba);
	411	if (rc != EOK)
	412	return rc;
	413
[978130a]	414	uint64_t strip_size = vol->strip_size / vol->bsize; /* in blocks */
[a3486f2]	415	uint64_t strip_no = ba / strip_size;
[d7768d11]	416
[a3486f2]	417	/* calculate number of stripes touched */
	418	uint64_t last_ba = ba + cnt - 1;
	419	uint64_t end_strip_no = last_ba / strip_size;
	420	uint64_t start_stripe = strip_no / (vol->extent_no - 1);
	421	uint64_t end_stripe = end_strip_no / (vol->extent_no - 1);
	422	size_t stripes_cnt = end_stripe - start_stripe + 1;
	423
	424	hr_stripe_t *stripes = hr_create_stripes(vol, stripes_cnt, true);
	425	if (stripes == NULL)
	426	return ENOMEM;
	427
	428	uint64_t stripe_size = strip_size * (vol->extent_no - 1);
	429
	430	for (uint64_t stripe = start_stripe; stripe <= end_stripe; stripe++) {
	431	uint64_t relative_stripe = stripe - start_stripe;
	432
	433	uint64_t s_start = stripe * stripe_size;
	434	uint64_t s_end = s_start + stripe_size - 1;
[d7768d11]	435
[a3486f2]	436	uint64_t overlap_start;
	437	if (ba > s_start)
	438	overlap_start = ba;
[d7768d11]	439	else
[a3486f2]	440	overlap_start = s_start;
	441
	442	uint64_t overlap_end;
	443	if (last_ba < s_end)
	444	overlap_end = last_ba;
	445	else
	446	overlap_end = s_end;
	447
	448	uint64_t start_strip_index =
	449	(overlap_start - s_start) / strip_size;
	450	uint64_t end_strip_index = (overlap_end - s_start) / strip_size;
	451	size_t strips_touched = end_strip_index - start_strip_index + 1;
	452
	453	stripes[relative_stripe].strips_touched = strips_touched;
	454
	455	uint64_t first_offset = (overlap_start - s_start) % strip_size;
	456	uint64_t last_offset = (overlap_end - s_start) % strip_size;
	457
	458	size_t partials = 0;
	459	if (first_offset != 0)
	460	partials++;
	461	if (last_offset != strip_size - 1)
	462	partials++;
	463	if (start_strip_index == end_strip_index && partials == 2)
	464	partials = 1;
	465
	466	stripes[relative_stripe].strips_touched = strips_touched;
	467	stripes[relative_stripe].partial_strips_touched = partials;
	468
	469	if (strips_touched < (vol->extent_no - 1) / 2)
	470	stripes[relative_stripe].subtract = true;
[d7768d11]	471	}
	472
[a3486f2]	473	/*
	474	* Pre-allocate range locks, because after group creation and
	475	* firing off IO requests there is no easy consistent ENOMEM error
	476	* path.
	477	*/
	478	hr_range_lock_t *rlps = malloc_waitok(stripes_cnt sizeof(*rlps));
	479	for (size_t i = 0; i < stripes_cnt; i++)
	480	rlps[i] = malloc_waitok(sizeof(**rlps));
[978130a]	481
[a3486f2]	482	/*
	483	* extent order has to be locked for the whole IO duration,
	484	* so that workers have consistent targets
	485	*/
	486	fibril_rwlock_read_lock(&vol->extents_lock);
[dceb6e7]	487
[a3486f2]	488	for (uint64_t s = start_stripe; s <= end_stripe; s++) {
	489	uint64_t relative = s - start_stripe;
	490	hr_range_lock_acquire_noalloc(rlps[relative], vol, s, 1);
[da0570a]	491	}
	492
[a3486f2]	493	uint64_t phys_block, len;
	494	size_t left;
	495
	496	hr_layout_t layout = vol->layout;
	497	hr_level_t level = vol->level;
	498
	499	/* parity extent */
	500	size_t p_extent = hr_raid5_parity_extent(level, layout,
	501	vol->extent_no, strip_no);
	502
	503	uint64_t strip_off = ba % strip_size;
	504
[fad91b9]	505	left = cnt;
[a0c3080]	506
[dceb6e7]	507	while (left != 0) {
[a3486f2]	508	if (level == HR_LVL_5) {
	509	p_extent = hr_raid5_parity_extent(level, layout,
	510	vol->extent_no, strip_no);
	511	}
	512
	513	size_t extent = hr_raid5_data_extent(level, layout,
	514	vol->extent_no, strip_no, p_extent);
	515
	516	uint64_t stripe_no = strip_no / (vol->extent_no - 1);
	517	size_t relative_si = stripe_no - start_stripe; /* relative stripe index */
	518	hr_stripe_t *stripe = &stripes[relative_si];
	519	stripe->p_extent = p_extent;
	520
	521	phys_block = stripe_no * strip_size + strip_off;
[978130a]	522	cnt = min(left, strip_size - strip_off);
[da0570a]	523	len = vol->bsize * cnt;
[a3486f2]	524	hr_add_data_offset(vol, &phys_block);
	525
	526	stripe->extent_span[extent].range.start = phys_block;
	527	stripe->extent_span[extent].range.end = phys_block + cnt - 1;
	528	stripe->extent_span[extent].cnt = cnt;
	529	stripe->extent_span[extent].data_write = data_write;
	530	stripe->extent_span[extent].strip_off = strip_off;
	531
	532	data_write += len;
	533	left -= cnt;
	534	strip_off = 0;
	535	strip_no++;
	536	}
	537
	538	retry:
	539	size_t bad_extent = vol->extent_no;
	540
	541	uint64_t rebuild_pos = atomic_load_explicit(&vol->rebuild_blk,
	542	memory_order_relaxed);
	543
	544	fibril_rwlock_read_lock(&vol->states_lock);
	545
	546	for (size_t e = 0; e < vol->extent_no; e++) {
	547	hr_ext_state_t s = vol->extents[e].state;
	548	if ((vol->state == HR_VOL_DEGRADED && s != HR_EXT_ONLINE) \|\|
	549	(s == HR_EXT_REBUILD && rebuild_pos < start_stripe)) {
	550	bad_extent = e;
[dceb6e7]	551	break;
[fad91b9]	552	}
[a3486f2]	553	}
[fad91b9]	554
[a3486f2]	555	fibril_rwlock_read_unlock(&vol->states_lock);
[fad91b9]	556
[a3486f2]	557	for (size_t s = 0; s < stripes_cnt; s++) {
	558	if (stripes[s].done)
	559	continue;
	560	execute_stripe(&stripes[s], bad_extent);
	561	}
[da0570a]	562
[a3486f2]	563	for (size_t s = 0; s < stripes_cnt; s++) {
	564	if (stripes[s].done)
	565	continue;
	566	wait_for_stripe(&stripes[s]);
	567	}
	568
	569	hr_raid5_vol_state_eval(vol);
	570
	571	rc = EOK;
	572
	573	fibril_rwlock_read_lock(&vol->states_lock);
	574
	575	if (vol->state == HR_VOL_FAULTY) {
	576	fibril_rwlock_read_unlock(&vol->states_lock);
	577	rc = EIO;
	578	goto end;
	579	}
	580
	581	fibril_rwlock_read_unlock(&vol->states_lock);
	582
	583	for (size_t s = 0; s < stripes_cnt; s++)
	584	if (stripes[s].rc == EAGAIN)
	585	goto retry;
	586
	587	/* all stripes are done */
	588	end:
	589	fibril_rwlock_read_unlock(&vol->extents_lock);
	590
	591	for (size_t i = 0; i < stripes_cnt; i++)
	592	hr_range_lock_release(rlps[i]);
	593
	594	hr_destroy_stripes(stripes, stripes_cnt);
	595
	596	return rc;
	597	}
	598
	599	static errno_t hr_raid5_bd_get_block_size(bd_srv_t bd, size_t rsize)
	600	{
	601	hr_volume_t *vol = bd->srvs->sarg;
	602
	603	*rsize = vol->bsize;
	604	return EOK;
	605	}
	606
	607	static errno_t hr_raid5_bd_get_num_blocks(bd_srv_t bd, aoff64_t rnb)
	608	{
	609	hr_volume_t *vol = bd->srvs->sarg;
	610
	611	*rnb = vol->data_blkno;
	612	return EOK;
	613	}
	614
	615	static void hr_raid5_vol_state_eval_forced(hr_volume_t *vol)
	616	{
	617	fibril_rwlock_read_lock(&vol->extents_lock);
	618	fibril_rwlock_write_lock(&vol->states_lock);
	619
	620	hr_vol_state_t state = vol->state;
	621
	622	size_t bad = 0;
	623	for (size_t i = 0; i < vol->extent_no; i++)
	624	if (vol->extents[i].state != HR_EXT_ONLINE)
	625	bad++;
	626
	627	switch (bad) {
	628	case 0:
	629	if (state != HR_VOL_ONLINE)
	630	hr_update_vol_state(vol, HR_VOL_ONLINE);
	631	break;
	632	case 1:
	633	if (state != HR_VOL_DEGRADED && state != HR_VOL_REBUILD)
	634	hr_update_vol_state(vol, HR_VOL_DEGRADED);
	635
	636	if (state != HR_VOL_REBUILD) {
	637	/* XXX: allow REBUILD on INVALID extents */
	638	fibril_mutex_lock(&vol->hotspare_lock);
	639	size_t hs_no = vol->hotspare_no;
	640	fibril_mutex_unlock(&vol->hotspare_lock);
	641	if (hs_no > 0) {
	642	fid_t fib = fibril_create(hr_raid5_rebuild,
	643	vol);
	644	if (fib == 0)
	645	break;
	646	fibril_start(fib);
	647	fibril_detach(fib);
[da0570a]	648	}
	649	}
[a3486f2]	650	break;
	651	default:
	652	if (state != HR_VOL_FAULTY)
	653	hr_update_vol_state(vol, HR_VOL_FAULTY);
	654	break;
	655	}
[da0570a]	656
[a3486f2]	657	fibril_rwlock_write_unlock(&vol->states_lock);
	658	fibril_rwlock_read_unlock(&vol->extents_lock);
	659	}
[d7768d11]	660
[a3486f2]	661	static void xor(void dst, const void src, size_t size)
	662	{
	663	size_t i;
	664	uint64_t *d = dst;
	665	const uint64_t *s = src;
	666
	667	for (i = 0; i < size / sizeof(uint64_t); ++i)
	668	d++ ^= s++;
	669	}
[d7768d11]	670
[a3486f2]	671	static size_t hr_raid5_parity_extent(hr_level_t level,
	672	hr_layout_t layout, size_t extent_no, uint64_t strip_no)
	673	{
	674	switch (level) {
	675	case HR_LVL_4:
	676	switch (layout) {
	677	case HR_LAYOUT_RAID4_0:
	678	return (0);
	679	case HR_LAYOUT_RAID4_N:
	680	return (extent_no - 1);
	681	default:
	682	assert(0 && "invalid layout configuration");
[d7768d11]	683	}
[a3486f2]	684	case HR_LVL_5:
	685	switch (layout) {
	686	case HR_LAYOUT_RAID5_0R:
	687	return ((strip_no / (extent_no - 1)) % extent_no);
	688	case HR_LAYOUT_RAID5_NR:
	689	case HR_LAYOUT_RAID5_NC:
	690	return ((extent_no - 1) -
	691	(strip_no / (extent_no - 1)) % extent_no);
	692	default:
	693	assert(0 && "invalid layout configuration");
	694	}
	695	default:
	696	assert(0 && "invalid layout configuration");
	697	}
	698	}
[d7768d11]	699
[a3486f2]	700	static size_t hr_raid5_data_extent(hr_level_t level,
	701	hr_layout_t layout, size_t extent_no, uint64_t strip_no, size_t p_extent)
	702	{
	703	switch (level) {
	704	case HR_LVL_4:
	705	switch (layout) {
	706	case HR_LAYOUT_RAID4_0:
	707	return ((strip_no % (extent_no - 1)) + 1);
	708	case HR_LAYOUT_RAID4_N:
	709	return (strip_no % (extent_no - 1));
	710	default:
	711	assert(0 && "invalid layout configuration");
	712	}
	713	case HR_LVL_5:
	714	switch (layout) {
	715	case HR_LAYOUT_RAID5_0R:
	716	case HR_LAYOUT_RAID5_NR:
	717	if ((strip_no % (extent_no - 1)) < p_extent)
	718	return (strip_no % (extent_no - 1));
[d7768d11]	719	else
[a3486f2]	720	return ((strip_no % (extent_no - 1)) + 1);
	721	case HR_LAYOUT_RAID5_NC:
	722	return (((strip_no % (extent_no - 1)) + p_extent + 1) %
	723	extent_no);
	724	default:
	725	assert(0 && "invalid layout configuration");
[d7768d11]	726	}
[a3486f2]	727	default:
	728	assert(0 && "invalid layout configuration");
[dceb6e7]	729	}
	730	}
	731
[aa7864b]	732	static errno_t hr_raid5_rebuild(void *arg)
	733	{
	734	HR_DEBUG("hr_raid5_rebuild()\n");
	735
	736	hr_volume_t *vol = arg;
	737	errno_t rc = EOK;
	738	void buf = NULL, xorbuf = NULL;
	739
[f1be66bf]	740	fibril_rwlock_read_lock(&vol->extents_lock);
	741	fibril_rwlock_write_lock(&vol->states_lock);
[aa7864b]	742
	743	if (vol->hotspare_no == 0) {
	744	HR_WARN("hr_raid5_rebuild(): no free hotspares on \"%s\", "
	745	"aborting rebuild\n", vol->devname);
	746	/* retval isn't checked for now */
	747	goto end;
	748	}
	749
[65706f1]	750	size_t bad = vol->extent_no;
	751	for (size_t i = 0; i < vol->extent_no; i++) {
[56602e0]	752	if (vol->extents[i].state == HR_EXT_FAILED) {
[aa7864b]	753	bad = i;
	754	break;
	755	}
	756	}
	757
[65706f1]	758	if (bad == vol->extent_no) {
[aa7864b]	759	HR_WARN("hr_raid5_rebuild(): no bad extent on \"%s\", "
	760	"aborting rebuild\n", vol->devname);
	761	/* retval isn't checked for now */
	762	goto end;
	763	}
	764
	765	size_t hotspare_idx = vol->hotspare_no - 1;
	766
[56602e0]	767	hr_ext_state_t hs_state = vol->hotspares[hotspare_idx].state;
[a0c3080]	768	if (hs_state != HR_EXT_HOTSPARE) {
	769	HR_ERROR("hr_raid5_rebuild(): invalid hotspare state \"%s\", "
[155d34f]	770	"aborting rebuild\n", hr_get_ext_state_str(hs_state));
[a0c3080]	771	rc = EINVAL;
	772	goto end;
	773	}
	774
	775	HR_DEBUG("hr_raid5_rebuild(): swapping in hotspare\n");
	776
	777	block_fini(vol->extents[bad].svc_id);
	778
[aa7864b]	779	vol->extents[bad].svc_id = vol->hotspares[hotspare_idx].svc_id;
[56602e0]	780	hr_update_ext_state(vol, bad, HR_EXT_HOTSPARE);
[aa7864b]	781
	782	vol->hotspares[hotspare_idx].svc_id = 0;
[f1be66bf]	783	fibril_mutex_lock(&vol->hotspare_lock);
[56602e0]	784	hr_update_hotspare_state(vol, hotspare_idx, HR_EXT_MISSING);
[f1be66bf]	785	fibril_mutex_unlock(&vol->hotspare_lock);
[aa7864b]	786
[a0c3080]	787	vol->hotspare_no--;
[aa7864b]	788
[a0c3080]	789	hr_extent_t *rebuild_ext = &vol->extents[bad];
[aa7864b]	790
[ca7fa5b]	791	HR_DEBUG("hr_raid5_rebuild(): starting rebuild on (%" PRIun ")\n",
[a0c3080]	792	rebuild_ext->svc_id);
	793
[56602e0]	794	hr_update_ext_state(vol, bad, HR_EXT_REBUILD);
	795	hr_update_vol_state(vol, HR_VOL_REBUILD);
[a0c3080]	796
[aa7864b]	797	uint64_t max_blks = DATA_XFER_LIMIT / vol->bsize;
[65706f1]	798	uint64_t left = vol->data_blkno / (vol->extent_no - 1);
[aa7864b]	799	buf = malloc(max_blks * vol->bsize);
	800	xorbuf = malloc(max_blks * vol->bsize);
	801
	802	uint64_t ba = 0, cnt;
[a3486f2]	803	hr_add_data_offset(vol, &ba);
[a0c3080]	804
[aa7864b]	805	while (left != 0) {
	806	cnt = min(left, max_blks);
	807
	808	/*
	809	* Almost the same as read_degraded,
	810	* but we don't want to allocate new
	811	* xorbuf each blk rebuild batch.
	812	*/
	813	bool first = true;
[65706f1]	814	for (size_t i = 0; i < vol->extent_no; i++) {
[aa7864b]	815	if (i == bad)
	816	continue;
[8160e4c0]	817	if (first)
	818	rc = block_read_direct(vol->extents[i].svc_id,
	819	ba, cnt, xorbuf);
	820	else
	821	rc = block_read_direct(vol->extents[i].svc_id,
	822	ba, cnt, buf);
[aa7864b]	823	if (rc != EOK) {
[da80de9]	824	hr_raid5_ext_state_cb(vol, i, rc);
[ca7fa5b]	825	HR_ERROR("rebuild on \"%s\" (%" PRIun "), "
	826	"failed due to a failed ONLINE extent, "
	827	"number %zu\n",
[aa7864b]	828	vol->devname, vol->svc_id, i);
	829	goto end;
	830	}
	831
[8160e4c0]	832	if (!first)
[aa7864b]	833	xor(xorbuf, buf, cnt * vol->bsize);
[8160e4c0]	834	else
	835	first = false;
[aa7864b]	836	}
	837
[a0c3080]	838	rc = block_write_direct(rebuild_ext->svc_id, ba, cnt, xorbuf);
[aa7864b]	839	if (rc != EOK) {
[da80de9]	840	hr_raid5_ext_state_cb(vol, bad, rc);
[ca7fa5b]	841	HR_ERROR("rebuild on \"%s\" (%" PRIun "), failed due to "
	842	"the rebuilt extent number %zu failing\n",
[aa7864b]	843	vol->devname, vol->svc_id, bad);
	844	goto end;
	845	}
	846
	847	ba += cnt;
	848	left -= cnt;
[40bf2c6]	849
	850	/*
	851	* Let other IO requests be served
	852	* during rebuild.
	853	*/
[00d80c6]	854
	855	/*
	856	* fibril_rwlock_write_unlock(&vol->states_lock);
	857	* fibril_mutex_unlock(&vol->lock);
	858	* fibril_mutex_lock(&vol->lock);
	859	* fibril_rwlock_write_lock(&vol->states_lock);
	860	*/
[aa7864b]	861	}
	862
[ca7fa5b]	863	HR_DEBUG("hr_raid5_rebuild(): rebuild finished on \"%s\" (%" PRIun "), "
	864	"extent number %zu\n", vol->devname, vol->svc_id, hotspare_idx);
[aa7864b]	865
[56602e0]	866	hr_update_ext_state(vol, bad, HR_EXT_ONLINE);
[0277ec2]	867
[00d80c6]	868	fibril_rwlock_write_unlock(&vol->states_lock);
	869	fibril_rwlock_read_unlock(&vol->extents_lock);
	870
[50603405]	871	rc = vol->meta_ops->save(vol, WITH_STATE_CALLBACK);
[0277ec2]	872
[00d80c6]	873	fibril_rwlock_read_lock(&vol->extents_lock);
	874	fibril_rwlock_write_lock(&vol->states_lock);
	875
[aa7864b]	876	end:
[a3486f2]	877	hr_raid5_vol_state_eval_forced(vol);
[aa7864b]	878
[f1be66bf]	879	fibril_rwlock_write_unlock(&vol->states_lock);
	880	fibril_rwlock_read_unlock(&vol->extents_lock);
[aa7864b]	881
	882	if (buf != NULL)
	883	free(buf);
	884
	885	if (xorbuf != NULL)
	886	free(xorbuf);
	887
	888	return rc;
	889	}
	890
[dceb6e7]	891	/** @}
	892	*/

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