161145dc2SMartin Matuska // SPDX-License-Identifier: CDDL-1.0
2eda14cbcSMatt Macy /*
3eda14cbcSMatt Macy * CDDL HEADER START
4eda14cbcSMatt Macy *
5eda14cbcSMatt Macy * The contents of this file are subject to the terms of the
6eda14cbcSMatt Macy * Common Development and Distribution License (the "License").
7eda14cbcSMatt Macy * You may not use this file except in compliance with the License.
8eda14cbcSMatt Macy *
9eda14cbcSMatt Macy * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
10271171e0SMartin Matuska * or https://opensource.org/licenses/CDDL-1.0.
11eda14cbcSMatt Macy * See the License for the specific language governing permissions
12eda14cbcSMatt Macy * and limitations under the License.
13eda14cbcSMatt Macy *
14eda14cbcSMatt Macy * When distributing Covered Code, include this CDDL HEADER in each
15eda14cbcSMatt Macy * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
16eda14cbcSMatt Macy * If applicable, add the following below this CDDL HEADER, with the
17eda14cbcSMatt Macy * fields enclosed by brackets "[]" replaced with your own identifying
18eda14cbcSMatt Macy * information: Portions Copyright [yyyy] [name of copyright owner]
19eda14cbcSMatt Macy *
20eda14cbcSMatt Macy * CDDL HEADER END
21eda14cbcSMatt Macy */
22eda14cbcSMatt Macy /*
23eda14cbcSMatt Macy * Copyright 2009 Sun Microsystems, Inc. All rights reserved.
24eda14cbcSMatt Macy * Use is subject to license terms.
25eda14cbcSMatt Macy */
26eda14cbcSMatt Macy
27eda14cbcSMatt Macy /*
28eda14cbcSMatt Macy * Copyright (c) 2013, 2017 by Delphix. All rights reserved.
29eda14cbcSMatt Macy */
30eda14cbcSMatt Macy
31eda14cbcSMatt Macy #include <sys/zfs_context.h>
322a58b312SMartin Matuska #include <sys/arc_impl.h>
33eda14cbcSMatt Macy #include <sys/dnode.h>
34eda14cbcSMatt Macy #include <sys/dmu_objset.h>
35eda14cbcSMatt Macy #include <sys/dmu_zfetch.h>
36eda14cbcSMatt Macy #include <sys/dmu.h>
37eda14cbcSMatt Macy #include <sys/dbuf.h>
38eda14cbcSMatt Macy #include <sys/kstat.h>
390d8fe237SMartin Matuska #include <sys/wmsum.h>
40eda14cbcSMatt Macy
41eda14cbcSMatt Macy /*
42eda14cbcSMatt Macy * This tunable disables predictive prefetch. Note that it leaves "prescient"
43eda14cbcSMatt Macy * prefetch (e.g. prefetch for zfs send) intact. Unlike predictive prefetch,
44eda14cbcSMatt Macy * prescient prefetch never issues i/os that end up not being needed,
45eda14cbcSMatt Macy * so it can't hurt performance.
46eda14cbcSMatt Macy */
47eda14cbcSMatt Macy
48e92ffd9bSMartin Matuska static int zfs_prefetch_disable = B_FALSE;
49eda14cbcSMatt Macy
50eda14cbcSMatt Macy /* max # of streams per zfetch */
51e92ffd9bSMartin Matuska static unsigned int zfetch_max_streams = 8;
52eda14cbcSMatt Macy /* min time before stream reclaim */
53e3aa18adSMartin Matuska static unsigned int zfetch_min_sec_reap = 1;
54e3aa18adSMartin Matuska /* max time before stream delete */
55e3aa18adSMartin Matuska static unsigned int zfetch_max_sec_reap = 2;
56315ee00fSMartin Matuska #ifdef _ILP32
57315ee00fSMartin Matuska /* min bytes to prefetch per stream (default 2MB) */
58315ee00fSMartin Matuska static unsigned int zfetch_min_distance = 2 * 1024 * 1024;
59315ee00fSMartin Matuska /* max bytes to prefetch per stream (default 8MB) */
60315ee00fSMartin Matuska unsigned int zfetch_max_distance = 8 * 1024 * 1024;
61315ee00fSMartin Matuska #else
62e3aa18adSMartin Matuska /* min bytes to prefetch per stream (default 4MB) */
63e3aa18adSMartin Matuska static unsigned int zfetch_min_distance = 4 * 1024 * 1024;
64e3aa18adSMartin Matuska /* max bytes to prefetch per stream (default 64MB) */
65e3aa18adSMartin Matuska unsigned int zfetch_max_distance = 64 * 1024 * 1024;
66315ee00fSMartin Matuska #endif
6717aab35aSMartin Matuska /* max bytes to prefetch indirects for per stream (default 128MB) */
6817aab35aSMartin Matuska unsigned int zfetch_max_idistance = 128 * 1024 * 1024;
691719886fSMartin Matuska /* max request reorder distance within a stream (default 16MB) */
701719886fSMartin Matuska unsigned int zfetch_max_reorder = 16 * 1024 * 1024;
711719886fSMartin Matuska /* Max log2 fraction of holes in a stream */
721719886fSMartin Matuska unsigned int zfetch_hole_shift = 2;
73eda14cbcSMatt Macy
74eda14cbcSMatt Macy typedef struct zfetch_stats {
75eda14cbcSMatt Macy kstat_named_t zfetchstat_hits;
761719886fSMartin Matuska kstat_named_t zfetchstat_future;
771719886fSMartin Matuska kstat_named_t zfetchstat_stride;
781719886fSMartin Matuska kstat_named_t zfetchstat_past;
79eda14cbcSMatt Macy kstat_named_t zfetchstat_misses;
80eda14cbcSMatt Macy kstat_named_t zfetchstat_max_streams;
817877fdebSMatt Macy kstat_named_t zfetchstat_io_issued;
822a58b312SMartin Matuska kstat_named_t zfetchstat_io_active;
83eda14cbcSMatt Macy } zfetch_stats_t;
84eda14cbcSMatt Macy
85eda14cbcSMatt Macy static zfetch_stats_t zfetch_stats = {
86eda14cbcSMatt Macy { "hits", KSTAT_DATA_UINT64 },
871719886fSMartin Matuska { "future", KSTAT_DATA_UINT64 },
881719886fSMartin Matuska { "stride", KSTAT_DATA_UINT64 },
891719886fSMartin Matuska { "past", KSTAT_DATA_UINT64 },
90eda14cbcSMatt Macy { "misses", KSTAT_DATA_UINT64 },
91eda14cbcSMatt Macy { "max_streams", KSTAT_DATA_UINT64 },
927877fdebSMatt Macy { "io_issued", KSTAT_DATA_UINT64 },
932a58b312SMartin Matuska { "io_active", KSTAT_DATA_UINT64 },
94eda14cbcSMatt Macy };
95eda14cbcSMatt Macy
960d8fe237SMartin Matuska struct {
970d8fe237SMartin Matuska wmsum_t zfetchstat_hits;
981719886fSMartin Matuska wmsum_t zfetchstat_future;
991719886fSMartin Matuska wmsum_t zfetchstat_stride;
1001719886fSMartin Matuska wmsum_t zfetchstat_past;
1010d8fe237SMartin Matuska wmsum_t zfetchstat_misses;
1020d8fe237SMartin Matuska wmsum_t zfetchstat_max_streams;
1030d8fe237SMartin Matuska wmsum_t zfetchstat_io_issued;
1042a58b312SMartin Matuska aggsum_t zfetchstat_io_active;
1050d8fe237SMartin Matuska } zfetch_sums;
1060d8fe237SMartin Matuska
107eda14cbcSMatt Macy #define ZFETCHSTAT_BUMP(stat) \
1080d8fe237SMartin Matuska wmsum_add(&zfetch_sums.stat, 1)
1097877fdebSMatt Macy #define ZFETCHSTAT_ADD(stat, val) \
1100d8fe237SMartin Matuska wmsum_add(&zfetch_sums.stat, val)
1117877fdebSMatt Macy
112eda14cbcSMatt Macy
113e92ffd9bSMartin Matuska static kstat_t *zfetch_ksp;
114eda14cbcSMatt Macy
1150d8fe237SMartin Matuska static int
zfetch_kstats_update(kstat_t * ksp,int rw)1160d8fe237SMartin Matuska zfetch_kstats_update(kstat_t *ksp, int rw)
1170d8fe237SMartin Matuska {
1180d8fe237SMartin Matuska zfetch_stats_t *zs = ksp->ks_data;
1190d8fe237SMartin Matuska
1200d8fe237SMartin Matuska if (rw == KSTAT_WRITE)
1210d8fe237SMartin Matuska return (EACCES);
1220d8fe237SMartin Matuska zs->zfetchstat_hits.value.ui64 =
1230d8fe237SMartin Matuska wmsum_value(&zfetch_sums.zfetchstat_hits);
1241719886fSMartin Matuska zs->zfetchstat_future.value.ui64 =
1251719886fSMartin Matuska wmsum_value(&zfetch_sums.zfetchstat_future);
1261719886fSMartin Matuska zs->zfetchstat_stride.value.ui64 =
1271719886fSMartin Matuska wmsum_value(&zfetch_sums.zfetchstat_stride);
1281719886fSMartin Matuska zs->zfetchstat_past.value.ui64 =
1291719886fSMartin Matuska wmsum_value(&zfetch_sums.zfetchstat_past);
1300d8fe237SMartin Matuska zs->zfetchstat_misses.value.ui64 =
1310d8fe237SMartin Matuska wmsum_value(&zfetch_sums.zfetchstat_misses);
1320d8fe237SMartin Matuska zs->zfetchstat_max_streams.value.ui64 =
1330d8fe237SMartin Matuska wmsum_value(&zfetch_sums.zfetchstat_max_streams);
1340d8fe237SMartin Matuska zs->zfetchstat_io_issued.value.ui64 =
1350d8fe237SMartin Matuska wmsum_value(&zfetch_sums.zfetchstat_io_issued);
1362a58b312SMartin Matuska zs->zfetchstat_io_active.value.ui64 =
1372a58b312SMartin Matuska aggsum_value(&zfetch_sums.zfetchstat_io_active);
1380d8fe237SMartin Matuska return (0);
1390d8fe237SMartin Matuska }
1400d8fe237SMartin Matuska
141eda14cbcSMatt Macy void
zfetch_init(void)142eda14cbcSMatt Macy zfetch_init(void)
143eda14cbcSMatt Macy {
1440d8fe237SMartin Matuska wmsum_init(&zfetch_sums.zfetchstat_hits, 0);
1451719886fSMartin Matuska wmsum_init(&zfetch_sums.zfetchstat_future, 0);
1461719886fSMartin Matuska wmsum_init(&zfetch_sums.zfetchstat_stride, 0);
1471719886fSMartin Matuska wmsum_init(&zfetch_sums.zfetchstat_past, 0);
1480d8fe237SMartin Matuska wmsum_init(&zfetch_sums.zfetchstat_misses, 0);
1490d8fe237SMartin Matuska wmsum_init(&zfetch_sums.zfetchstat_max_streams, 0);
1500d8fe237SMartin Matuska wmsum_init(&zfetch_sums.zfetchstat_io_issued, 0);
1512a58b312SMartin Matuska aggsum_init(&zfetch_sums.zfetchstat_io_active, 0);
1520d8fe237SMartin Matuska
153eda14cbcSMatt Macy zfetch_ksp = kstat_create("zfs", 0, "zfetchstats", "misc",
154eda14cbcSMatt Macy KSTAT_TYPE_NAMED, sizeof (zfetch_stats) / sizeof (kstat_named_t),
155eda14cbcSMatt Macy KSTAT_FLAG_VIRTUAL);
156eda14cbcSMatt Macy
157eda14cbcSMatt Macy if (zfetch_ksp != NULL) {
158eda14cbcSMatt Macy zfetch_ksp->ks_data = &zfetch_stats;
1590d8fe237SMartin Matuska zfetch_ksp->ks_update = zfetch_kstats_update;
160eda14cbcSMatt Macy kstat_install(zfetch_ksp);
161eda14cbcSMatt Macy }
162eda14cbcSMatt Macy }
163eda14cbcSMatt Macy
164eda14cbcSMatt Macy void
zfetch_fini(void)165eda14cbcSMatt Macy zfetch_fini(void)
166eda14cbcSMatt Macy {
167eda14cbcSMatt Macy if (zfetch_ksp != NULL) {
168eda14cbcSMatt Macy kstat_delete(zfetch_ksp);
169eda14cbcSMatt Macy zfetch_ksp = NULL;
170eda14cbcSMatt Macy }
1710d8fe237SMartin Matuska
1720d8fe237SMartin Matuska wmsum_fini(&zfetch_sums.zfetchstat_hits);
1731719886fSMartin Matuska wmsum_fini(&zfetch_sums.zfetchstat_future);
1741719886fSMartin Matuska wmsum_fini(&zfetch_sums.zfetchstat_stride);
1751719886fSMartin Matuska wmsum_fini(&zfetch_sums.zfetchstat_past);
1760d8fe237SMartin Matuska wmsum_fini(&zfetch_sums.zfetchstat_misses);
1770d8fe237SMartin Matuska wmsum_fini(&zfetch_sums.zfetchstat_max_streams);
1780d8fe237SMartin Matuska wmsum_fini(&zfetch_sums.zfetchstat_io_issued);
1792a58b312SMartin Matuska ASSERT0(aggsum_value(&zfetch_sums.zfetchstat_io_active));
1802a58b312SMartin Matuska aggsum_fini(&zfetch_sums.zfetchstat_io_active);
181eda14cbcSMatt Macy }
182eda14cbcSMatt Macy
183eda14cbcSMatt Macy /*
184eda14cbcSMatt Macy * This takes a pointer to a zfetch structure and a dnode. It performs the
185eda14cbcSMatt Macy * necessary setup for the zfetch structure, grokking data from the
186eda14cbcSMatt Macy * associated dnode.
187eda14cbcSMatt Macy */
188eda14cbcSMatt Macy void
dmu_zfetch_init(zfetch_t * zf,dnode_t * dno)189eda14cbcSMatt Macy dmu_zfetch_init(zfetch_t *zf, dnode_t *dno)
190eda14cbcSMatt Macy {
191eda14cbcSMatt Macy if (zf == NULL)
192eda14cbcSMatt Macy return;
193eda14cbcSMatt Macy zf->zf_dnode = dno;
1947877fdebSMatt Macy zf->zf_numstreams = 0;
195eda14cbcSMatt Macy
196eda14cbcSMatt Macy list_create(&zf->zf_stream, sizeof (zstream_t),
197eda14cbcSMatt Macy offsetof(zstream_t, zs_node));
198eda14cbcSMatt Macy
199eda14cbcSMatt Macy mutex_init(&zf->zf_lock, NULL, MUTEX_DEFAULT, NULL);
200eda14cbcSMatt Macy }
201eda14cbcSMatt Macy
202eda14cbcSMatt Macy static void
dmu_zfetch_stream_fini(zstream_t * zs)2037877fdebSMatt Macy dmu_zfetch_stream_fini(zstream_t *zs)
2047877fdebSMatt Macy {
205f9693befSMartin Matuska ASSERT(!list_link_active(&zs->zs_node));
2067cd22ac4SMartin Matuska zfs_refcount_destroy(&zs->zs_callers);
2077cd22ac4SMartin Matuska zfs_refcount_destroy(&zs->zs_refs);
2087877fdebSMatt Macy kmem_free(zs, sizeof (*zs));
2097877fdebSMatt Macy }
2107877fdebSMatt Macy
2117877fdebSMatt Macy static void
dmu_zfetch_stream_remove(zfetch_t * zf,zstream_t * zs)212eda14cbcSMatt Macy dmu_zfetch_stream_remove(zfetch_t *zf, zstream_t *zs)
213eda14cbcSMatt Macy {
214eda14cbcSMatt Macy ASSERT(MUTEX_HELD(&zf->zf_lock));
215eda14cbcSMatt Macy list_remove(&zf->zf_stream, zs);
216f9693befSMartin Matuska zf->zf_numstreams--;
217f9693befSMartin Matuska membar_producer();
218f9693befSMartin Matuska if (zfs_refcount_remove(&zs->zs_refs, NULL) == 0)
2197877fdebSMatt Macy dmu_zfetch_stream_fini(zs);
220eda14cbcSMatt Macy }
221eda14cbcSMatt Macy
222eda14cbcSMatt Macy /*
223eda14cbcSMatt Macy * Clean-up state associated with a zfetch structure (e.g. destroy the
224eda14cbcSMatt Macy * streams). This doesn't free the zfetch_t itself, that's left to the caller.
225eda14cbcSMatt Macy */
226eda14cbcSMatt Macy void
dmu_zfetch_fini(zfetch_t * zf)227eda14cbcSMatt Macy dmu_zfetch_fini(zfetch_t *zf)
228eda14cbcSMatt Macy {
229eda14cbcSMatt Macy zstream_t *zs;
230eda14cbcSMatt Macy
231eda14cbcSMatt Macy mutex_enter(&zf->zf_lock);
232f9693befSMartin Matuska while ((zs = list_head(&zf->zf_stream)) != NULL)
233eda14cbcSMatt Macy dmu_zfetch_stream_remove(zf, zs);
234eda14cbcSMatt Macy mutex_exit(&zf->zf_lock);
235eda14cbcSMatt Macy list_destroy(&zf->zf_stream);
236eda14cbcSMatt Macy mutex_destroy(&zf->zf_lock);
237eda14cbcSMatt Macy
238eda14cbcSMatt Macy zf->zf_dnode = NULL;
239eda14cbcSMatt Macy }
240eda14cbcSMatt Macy
241eda14cbcSMatt Macy /*
242e3aa18adSMartin Matuska * If there aren't too many active streams already, create one more.
243e3aa18adSMartin Matuska * In process delete/reuse all streams without hits for zfetch_max_sec_reap.
244e3aa18adSMartin Matuska * If needed, reuse oldest stream without hits for zfetch_min_sec_reap or ever.
245eda14cbcSMatt Macy * The "blkid" argument is the next block that we expect this stream to access.
246eda14cbcSMatt Macy */
247eda14cbcSMatt Macy static void
dmu_zfetch_stream_create(zfetch_t * zf,uint64_t blkid)248eda14cbcSMatt Macy dmu_zfetch_stream_create(zfetch_t *zf, uint64_t blkid)
249eda14cbcSMatt Macy {
250e3aa18adSMartin Matuska zstream_t *zs, *zs_next, *zs_old = NULL;
2511719886fSMartin Matuska uint_t now = gethrestime_sec(), t;
252eda14cbcSMatt Macy
253eda14cbcSMatt Macy ASSERT(MUTEX_HELD(&zf->zf_lock));
254eda14cbcSMatt Macy
255eda14cbcSMatt Macy /*
256e3aa18adSMartin Matuska * Delete too old streams, reusing the first found one.
257eda14cbcSMatt Macy */
2581719886fSMartin Matuska t = now - zfetch_max_sec_reap;
259e3aa18adSMartin Matuska for (zs = list_head(&zf->zf_stream); zs != NULL; zs = zs_next) {
260eda14cbcSMatt Macy zs_next = list_next(&zf->zf_stream, zs);
2617877fdebSMatt Macy /*
262f9693befSMartin Matuska * Skip if still active. 1 -- zf_stream reference.
2637877fdebSMatt Macy */
2641719886fSMartin Matuska if ((int)(zs->zs_atime - t) >= 0)
2657877fdebSMatt Macy continue;
2661719886fSMartin Matuska if (zfs_refcount_count(&zs->zs_refs) != 1)
267e3aa18adSMartin Matuska continue;
268e3aa18adSMartin Matuska if (zs_old)
269eda14cbcSMatt Macy dmu_zfetch_stream_remove(zf, zs);
270e3aa18adSMartin Matuska else
271e3aa18adSMartin Matuska zs_old = zs;
272e3aa18adSMartin Matuska }
273e3aa18adSMartin Matuska if (zs_old) {
274e3aa18adSMartin Matuska zs = zs_old;
2751719886fSMartin Matuska list_remove(&zf->zf_stream, zs);
276e3aa18adSMartin Matuska goto reuse;
277eda14cbcSMatt Macy }
278eda14cbcSMatt Macy
279eda14cbcSMatt Macy /*
280eda14cbcSMatt Macy * The maximum number of streams is normally zfetch_max_streams,
281eda14cbcSMatt Macy * but for small files we lower it such that it's at least possible
282eda14cbcSMatt Macy * for all the streams to be non-overlapping.
283eda14cbcSMatt Macy */
284eda14cbcSMatt Macy uint32_t max_streams = MAX(1, MIN(zfetch_max_streams,
2851719886fSMartin Matuska (zf->zf_dnode->dn_maxblkid << zf->zf_dnode->dn_datablkshift) /
286eda14cbcSMatt Macy zfetch_max_distance));
2877877fdebSMatt Macy if (zf->zf_numstreams >= max_streams) {
2881719886fSMartin Matuska t = now - zfetch_min_sec_reap;
289e3aa18adSMartin Matuska for (zs = list_head(&zf->zf_stream); zs != NULL;
290e3aa18adSMartin Matuska zs = list_next(&zf->zf_stream, zs)) {
2911719886fSMartin Matuska if ((int)(zs->zs_atime - t) >= 0)
2921719886fSMartin Matuska continue;
293e3aa18adSMartin Matuska if (zfs_refcount_count(&zs->zs_refs) != 1)
294e3aa18adSMartin Matuska continue;
2951719886fSMartin Matuska if (zs_old == NULL ||
2961719886fSMartin Matuska (int)(zs_old->zs_atime - zs->zs_atime) >= 0)
297e3aa18adSMartin Matuska zs_old = zs;
298e3aa18adSMartin Matuska }
299e3aa18adSMartin Matuska if (zs_old) {
300e3aa18adSMartin Matuska zs = zs_old;
3011719886fSMartin Matuska list_remove(&zf->zf_stream, zs);
302e3aa18adSMartin Matuska goto reuse;
303e3aa18adSMartin Matuska }
304eda14cbcSMatt Macy ZFETCHSTAT_BUMP(zfetchstat_max_streams);
305eda14cbcSMatt Macy return;
306eda14cbcSMatt Macy }
307eda14cbcSMatt Macy
308e3aa18adSMartin Matuska zs = kmem_zalloc(sizeof (*zs), KM_SLEEP);
309f9693befSMartin Matuska zfs_refcount_create(&zs->zs_callers);
310f9693befSMartin Matuska zfs_refcount_create(&zs->zs_refs);
311f9693befSMartin Matuska /* One reference for zf_stream. */
312f9693befSMartin Matuska zfs_refcount_add(&zs->zs_refs, NULL);
3137877fdebSMatt Macy zf->zf_numstreams++;
314e3aa18adSMartin Matuska
315e3aa18adSMartin Matuska reuse:
3161719886fSMartin Matuska list_insert_head(&zf->zf_stream, zs);
317e3aa18adSMartin Matuska zs->zs_blkid = blkid;
3181719886fSMartin Matuska /* Allow immediate stream reuse until first hit. */
3191719886fSMartin Matuska zs->zs_atime = now - zfetch_min_sec_reap;
3201719886fSMartin Matuska memset(zs->zs_ranges, 0, sizeof (zs->zs_ranges));
321e3aa18adSMartin Matuska zs->zs_pf_dist = 0;
3221719886fSMartin Matuska zs->zs_ipf_dist = 0;
323e3aa18adSMartin Matuska zs->zs_pf_start = blkid;
324e3aa18adSMartin Matuska zs->zs_pf_end = blkid;
325e3aa18adSMartin Matuska zs->zs_ipf_start = blkid;
326e3aa18adSMartin Matuska zs->zs_ipf_end = blkid;
327e3aa18adSMartin Matuska zs->zs_missed = B_FALSE;
328e3aa18adSMartin Matuska zs->zs_more = B_FALSE;
329eda14cbcSMatt Macy }
330eda14cbcSMatt Macy
3317877fdebSMatt Macy static void
dmu_zfetch_done(void * arg,uint64_t level,uint64_t blkid,boolean_t io_issued)332e3aa18adSMartin Matuska dmu_zfetch_done(void *arg, uint64_t level, uint64_t blkid, boolean_t io_issued)
3337877fdebSMatt Macy {
3347877fdebSMatt Macy zstream_t *zs = arg;
3357877fdebSMatt Macy
336e3aa18adSMartin Matuska if (io_issued && level == 0 && blkid < zs->zs_blkid)
337e3aa18adSMartin Matuska zs->zs_more = B_TRUE;
338f9693befSMartin Matuska if (zfs_refcount_remove(&zs->zs_refs, NULL) == 0)
3397877fdebSMatt Macy dmu_zfetch_stream_fini(zs);
3402a58b312SMartin Matuska aggsum_add(&zfetch_sums.zfetchstat_io_active, -1);
3417877fdebSMatt Macy }
3427877fdebSMatt Macy
343eda14cbcSMatt Macy /*
3441719886fSMartin Matuska * Process stream hit access for nblks blocks starting at zs_blkid. Return
3451719886fSMartin Matuska * number of blocks to proceed for after aggregation with future ranges.
3461719886fSMartin Matuska */
3471719886fSMartin Matuska static uint64_t
dmu_zfetch_hit(zstream_t * zs,uint64_t nblks)3481719886fSMartin Matuska dmu_zfetch_hit(zstream_t *zs, uint64_t nblks)
3491719886fSMartin Matuska {
3501719886fSMartin Matuska uint_t i, j;
3511719886fSMartin Matuska
3521719886fSMartin Matuska /* Optimize sequential accesses (no future ranges). */
3531719886fSMartin Matuska if (zs->zs_ranges[0].start == 0)
3541719886fSMartin Matuska goto done;
3551719886fSMartin Matuska
3561719886fSMartin Matuska /* Look for intersections with further ranges. */
3571719886fSMartin Matuska for (i = 0; i < ZFETCH_RANGES; i++) {
3581719886fSMartin Matuska zsrange_t *r = &zs->zs_ranges[i];
3591719886fSMartin Matuska if (r->start == 0 || r->start > nblks)
3601719886fSMartin Matuska break;
3611719886fSMartin Matuska if (r->end >= nblks) {
3621719886fSMartin Matuska nblks = r->end;
3631719886fSMartin Matuska i++;
3641719886fSMartin Matuska break;
3651719886fSMartin Matuska }
3661719886fSMartin Matuska }
3671719886fSMartin Matuska
3681719886fSMartin Matuska /* Delete all found intersecting ranges, updates remaining. */
3691719886fSMartin Matuska for (j = 0; i < ZFETCH_RANGES; i++, j++) {
3701719886fSMartin Matuska if (zs->zs_ranges[i].start == 0)
3711719886fSMartin Matuska break;
3721719886fSMartin Matuska ASSERT3U(zs->zs_ranges[i].start, >, nblks);
3731719886fSMartin Matuska ASSERT3U(zs->zs_ranges[i].end, >, nblks);
3741719886fSMartin Matuska zs->zs_ranges[j].start = zs->zs_ranges[i].start - nblks;
3751719886fSMartin Matuska zs->zs_ranges[j].end = zs->zs_ranges[i].end - nblks;
3761719886fSMartin Matuska }
3771719886fSMartin Matuska if (j < ZFETCH_RANGES) {
3781719886fSMartin Matuska zs->zs_ranges[j].start = 0;
3791719886fSMartin Matuska zs->zs_ranges[j].end = 0;
3801719886fSMartin Matuska }
3811719886fSMartin Matuska
3821719886fSMartin Matuska done:
3831719886fSMartin Matuska zs->zs_blkid += nblks;
3841719886fSMartin Matuska return (nblks);
3851719886fSMartin Matuska }
3861719886fSMartin Matuska
3871719886fSMartin Matuska /*
3881719886fSMartin Matuska * Process future stream access for nblks blocks starting at blkid. Return
3891719886fSMartin Matuska * number of blocks to proceed for if future ranges reach fill threshold.
3901719886fSMartin Matuska */
3911719886fSMartin Matuska static uint64_t
dmu_zfetch_future(zstream_t * zs,uint64_t blkid,uint64_t nblks)3921719886fSMartin Matuska dmu_zfetch_future(zstream_t *zs, uint64_t blkid, uint64_t nblks)
3931719886fSMartin Matuska {
3941719886fSMartin Matuska ASSERT3U(blkid, >, zs->zs_blkid);
3951719886fSMartin Matuska blkid -= zs->zs_blkid;
3961719886fSMartin Matuska ASSERT3U(blkid + nblks, <=, UINT16_MAX);
3971719886fSMartin Matuska
3981719886fSMartin Matuska /* Search for first and last intersection or insert point. */
3991719886fSMartin Matuska uint_t f = ZFETCH_RANGES, l = 0, i;
4001719886fSMartin Matuska for (i = 0; i < ZFETCH_RANGES; i++) {
4011719886fSMartin Matuska zsrange_t *r = &zs->zs_ranges[i];
4021719886fSMartin Matuska if (r->start == 0 || r->start > blkid + nblks)
4031719886fSMartin Matuska break;
4041719886fSMartin Matuska if (r->end < blkid)
4051719886fSMartin Matuska continue;
4061719886fSMartin Matuska if (f > i)
4071719886fSMartin Matuska f = i;
4081719886fSMartin Matuska if (l < i)
4091719886fSMartin Matuska l = i;
4101719886fSMartin Matuska }
4111719886fSMartin Matuska if (f <= l) {
4121719886fSMartin Matuska /* Got some intersecting range, expand it if needed. */
4131719886fSMartin Matuska if (zs->zs_ranges[f].start > blkid)
4141719886fSMartin Matuska zs->zs_ranges[f].start = blkid;
4151719886fSMartin Matuska zs->zs_ranges[f].end = MAX(zs->zs_ranges[l].end, blkid + nblks);
4161719886fSMartin Matuska if (f < l) {
4171719886fSMartin Matuska /* Got more than one intersection, remove others. */
4181719886fSMartin Matuska for (f++, l++; l < ZFETCH_RANGES; f++, l++) {
4191719886fSMartin Matuska zs->zs_ranges[f].start = zs->zs_ranges[l].start;
4201719886fSMartin Matuska zs->zs_ranges[f].end = zs->zs_ranges[l].end;
4211719886fSMartin Matuska }
4221719886fSMartin Matuska zs->zs_ranges[f].start = 0;
4231719886fSMartin Matuska zs->zs_ranges[f].end = 0;
4241719886fSMartin Matuska }
4251719886fSMartin Matuska } else if (i < ZFETCH_RANGES) {
4261719886fSMartin Matuska /* Got no intersecting ranges, insert new one. */
4271719886fSMartin Matuska for (l = ZFETCH_RANGES - 1; l > i; l--) {
4281719886fSMartin Matuska zs->zs_ranges[l].start = zs->zs_ranges[l - 1].start;
4291719886fSMartin Matuska zs->zs_ranges[l].end = zs->zs_ranges[l - 1].end;
4301719886fSMartin Matuska }
4311719886fSMartin Matuska zs->zs_ranges[i].start = blkid;
4321719886fSMartin Matuska zs->zs_ranges[i].end = blkid + nblks;
4331719886fSMartin Matuska } else {
4341719886fSMartin Matuska /* No space left to insert. Drop the range. */
4351719886fSMartin Matuska return (0);
4361719886fSMartin Matuska }
4371719886fSMartin Matuska
4381719886fSMartin Matuska /* Check if with the new access addition we reached fill threshold. */
4391719886fSMartin Matuska if (zfetch_hole_shift >= 16)
4401719886fSMartin Matuska return (0);
4411719886fSMartin Matuska uint_t hole = 0;
4421719886fSMartin Matuska for (i = f = l = 0; i < ZFETCH_RANGES; i++) {
4431719886fSMartin Matuska zsrange_t *r = &zs->zs_ranges[i];
4441719886fSMartin Matuska if (r->start == 0)
4451719886fSMartin Matuska break;
4461719886fSMartin Matuska hole += r->start - f;
4471719886fSMartin Matuska f = r->end;
4481719886fSMartin Matuska if (hole <= r->end >> zfetch_hole_shift)
4491719886fSMartin Matuska l = r->end;
4501719886fSMartin Matuska }
4511719886fSMartin Matuska if (l > 0)
4521719886fSMartin Matuska return (dmu_zfetch_hit(zs, l));
4531719886fSMartin Matuska
4541719886fSMartin Matuska return (0);
4551719886fSMartin Matuska }
4561719886fSMartin Matuska
4571719886fSMartin Matuska /*
458f9693befSMartin Matuska * This is the predictive prefetch entry point. dmu_zfetch_prepare()
459f9693befSMartin Matuska * associates dnode access specified with blkid and nblks arguments with
460f9693befSMartin Matuska * prefetch stream, predicts further accesses based on that stats and returns
461f9693befSMartin Matuska * the stream pointer on success. That pointer must later be passed to
462f9693befSMartin Matuska * dmu_zfetch_run() to initiate the speculative prefetch for the stream and
463f9693befSMartin Matuska * release it. dmu_zfetch() is a wrapper for simple cases when window between
464f9693befSMartin Matuska * prediction and prefetch initiation is not needed.
465eda14cbcSMatt Macy * fetch_data argument specifies whether actual data blocks should be fetched:
466eda14cbcSMatt Macy * FALSE -- prefetch only indirect blocks for predicted data blocks;
467eda14cbcSMatt Macy * TRUE -- prefetch predicted data blocks plus following indirect blocks.
468eda14cbcSMatt Macy */
469f9693befSMartin Matuska zstream_t *
dmu_zfetch_prepare(zfetch_t * zf,uint64_t blkid,uint64_t nblks,boolean_t fetch_data,boolean_t have_lock)470f9693befSMartin Matuska dmu_zfetch_prepare(zfetch_t *zf, uint64_t blkid, uint64_t nblks,
471f9693befSMartin Matuska boolean_t fetch_data, boolean_t have_lock)
472eda14cbcSMatt Macy {
473eda14cbcSMatt Macy zstream_t *zs;
474eda14cbcSMatt Macy spa_t *spa = zf->zf_dnode->dn_objset->os_spa;
4756c1e79dfSMartin Matuska zfs_prefetch_type_t os_prefetch = zf->zf_dnode->dn_objset->os_prefetch;
47617aab35aSMartin Matuska int64_t ipf_start, ipf_end;
477eda14cbcSMatt Macy
4786c1e79dfSMartin Matuska if (zfs_prefetch_disable || os_prefetch == ZFS_PREFETCH_NONE)
479f9693befSMartin Matuska return (NULL);
4806c1e79dfSMartin Matuska
4816c1e79dfSMartin Matuska if (os_prefetch == ZFS_PREFETCH_METADATA)
4826c1e79dfSMartin Matuska fetch_data = B_FALSE;
4836c1e79dfSMartin Matuska
484eda14cbcSMatt Macy /*
485eda14cbcSMatt Macy * If we haven't yet loaded the indirect vdevs' mappings, we
486eda14cbcSMatt Macy * can only read from blocks that we carefully ensure are on
487eda14cbcSMatt Macy * concrete vdevs (or previously-loaded indirect vdevs). So we
488eda14cbcSMatt Macy * can't allow the predictive prefetcher to attempt reads of other
489eda14cbcSMatt Macy * blocks (e.g. of the MOS's dnode object).
490eda14cbcSMatt Macy */
491eda14cbcSMatt Macy if (!spa_indirect_vdevs_loaded(spa))
492f9693befSMartin Matuska return (NULL);
493eda14cbcSMatt Macy
494eda14cbcSMatt Macy /*
495eda14cbcSMatt Macy * As a fast path for small (single-block) files, ignore access
496eda14cbcSMatt Macy * to the first block.
497eda14cbcSMatt Macy */
4987877fdebSMatt Macy if (!have_lock && blkid == 0)
499f9693befSMartin Matuska return (NULL);
500eda14cbcSMatt Macy
501eda14cbcSMatt Macy if (!have_lock)
502eda14cbcSMatt Macy rw_enter(&zf->zf_dnode->dn_struct_rwlock, RW_READER);
5037877fdebSMatt Macy
5047877fdebSMatt Macy /*
5057877fdebSMatt Macy * A fast path for small files for which no prefetch will
5067877fdebSMatt Macy * happen.
5077877fdebSMatt Macy */
508e3aa18adSMartin Matuska uint64_t maxblkid = zf->zf_dnode->dn_maxblkid;
509f9693befSMartin Matuska if (maxblkid < 2) {
5107877fdebSMatt Macy if (!have_lock)
5117877fdebSMatt Macy rw_exit(&zf->zf_dnode->dn_struct_rwlock);
512f9693befSMartin Matuska return (NULL);
5137877fdebSMatt Macy }
514eda14cbcSMatt Macy mutex_enter(&zf->zf_lock);
515eda14cbcSMatt Macy
516eda14cbcSMatt Macy /*
5171719886fSMartin Matuska * Find perfect prefetch stream. Depending on whether the accesses
518eda14cbcSMatt Macy * are block-aligned, first block of the new access may either follow
519eda14cbcSMatt Macy * the last block of the previous access, or be equal to it.
520eda14cbcSMatt Macy */
5211719886fSMartin Matuska unsigned int dbs = zf->zf_dnode->dn_datablkshift;
5221719886fSMartin Matuska uint64_t end_blkid = blkid + nblks;
523eda14cbcSMatt Macy for (zs = list_head(&zf->zf_stream); zs != NULL;
524eda14cbcSMatt Macy zs = list_next(&zf->zf_stream, zs)) {
525eda14cbcSMatt Macy if (blkid == zs->zs_blkid) {
5261719886fSMartin Matuska goto hit;
527eda14cbcSMatt Macy } else if (blkid + 1 == zs->zs_blkid) {
528eda14cbcSMatt Macy blkid++;
529eda14cbcSMatt Macy nblks--;
5301719886fSMartin Matuska goto hit;
531eda14cbcSMatt Macy }
532eda14cbcSMatt Macy }
533f9693befSMartin Matuska
534f9693befSMartin Matuska /*
5351719886fSMartin Matuska * Find close enough prefetch stream. Access crossing stream position
5361719886fSMartin Matuska * is a hit in its new part. Access ahead of stream position considered
5371719886fSMartin Matuska * a hit for metadata prefetch, since we do not care about fill percent,
5381719886fSMartin Matuska * or stored for future otherwise. Access behind stream position is
5391719886fSMartin Matuska * silently ignored, since we already skipped it reaching fill percent.
540f9693befSMartin Matuska */
5411719886fSMartin Matuska uint_t max_reorder = MIN((zfetch_max_reorder >> dbs) + 1, UINT16_MAX);
5421719886fSMartin Matuska uint_t t = gethrestime_sec() - zfetch_max_sec_reap;
5431719886fSMartin Matuska for (zs = list_head(&zf->zf_stream); zs != NULL;
5441719886fSMartin Matuska zs = list_next(&zf->zf_stream, zs)) {
5451719886fSMartin Matuska if (blkid > zs->zs_blkid) {
5461719886fSMartin Matuska if (end_blkid <= zs->zs_blkid + max_reorder) {
5471719886fSMartin Matuska if (!fetch_data) {
5481719886fSMartin Matuska nblks = dmu_zfetch_hit(zs,
5491719886fSMartin Matuska end_blkid - zs->zs_blkid);
5501719886fSMartin Matuska ZFETCHSTAT_BUMP(zfetchstat_stride);
5511719886fSMartin Matuska goto future;
5521719886fSMartin Matuska }
5531719886fSMartin Matuska nblks = dmu_zfetch_future(zs, blkid, nblks);
5541719886fSMartin Matuska if (nblks > 0)
5551719886fSMartin Matuska ZFETCHSTAT_BUMP(zfetchstat_stride);
5561719886fSMartin Matuska else
5571719886fSMartin Matuska ZFETCHSTAT_BUMP(zfetchstat_future);
5581719886fSMartin Matuska goto future;
5591719886fSMartin Matuska }
5601719886fSMartin Matuska } else if (end_blkid >= zs->zs_blkid) {
5611719886fSMartin Matuska nblks -= zs->zs_blkid - blkid;
5621719886fSMartin Matuska blkid += zs->zs_blkid - blkid;
5631719886fSMartin Matuska goto hit;
5641719886fSMartin Matuska } else if (end_blkid + max_reorder > zs->zs_blkid &&
5651719886fSMartin Matuska (int)(zs->zs_atime - t) >= 0) {
5661719886fSMartin Matuska ZFETCHSTAT_BUMP(zfetchstat_past);
5671719886fSMartin Matuska zs->zs_atime = gethrestime_sec();
5681719886fSMartin Matuska goto out;
5691719886fSMartin Matuska }
570f9693befSMartin Matuska }
571f9693befSMartin Matuska
572eda14cbcSMatt Macy /*
5731719886fSMartin Matuska * This access is not part of any existing stream. Create a new
5741719886fSMartin Matuska * stream for it unless we are at the end of file.
575eda14cbcSMatt Macy */
57617aab35aSMartin Matuska ASSERT0P(zs);
5771719886fSMartin Matuska if (end_blkid < maxblkid)
5781719886fSMartin Matuska dmu_zfetch_stream_create(zf, end_blkid);
579eda14cbcSMatt Macy mutex_exit(&zf->zf_lock);
580f9693befSMartin Matuska ZFETCHSTAT_BUMP(zfetchstat_misses);
58117aab35aSMartin Matuska ipf_start = 0;
58217aab35aSMartin Matuska goto prescient;
5831719886fSMartin Matuska
5841719886fSMartin Matuska hit:
5851719886fSMartin Matuska nblks = dmu_zfetch_hit(zs, nblks);
5861719886fSMartin Matuska ZFETCHSTAT_BUMP(zfetchstat_hits);
5871719886fSMartin Matuska
5881719886fSMartin Matuska future:
5891719886fSMartin Matuska zs->zs_atime = gethrestime_sec();
5901719886fSMartin Matuska
5911719886fSMartin Matuska /* Exit if we already prefetched for this position before. */
5921719886fSMartin Matuska if (nblks == 0)
5931719886fSMartin Matuska goto out;
5941719886fSMartin Matuska
5951719886fSMartin Matuska /* If the file is ending, remove the stream. */
5961719886fSMartin Matuska end_blkid = zs->zs_blkid;
5971719886fSMartin Matuska if (end_blkid >= maxblkid) {
5981719886fSMartin Matuska dmu_zfetch_stream_remove(zf, zs);
5991719886fSMartin Matuska out:
6001719886fSMartin Matuska mutex_exit(&zf->zf_lock);
6011719886fSMartin Matuska if (!have_lock)
6021719886fSMartin Matuska rw_exit(&zf->zf_dnode->dn_struct_rwlock);
6031719886fSMartin Matuska return (NULL);
604eda14cbcSMatt Macy }
605eda14cbcSMatt Macy
606eda14cbcSMatt Macy /*
607eda14cbcSMatt Macy * This access was to a block that we issued a prefetch for on
608e3aa18adSMartin Matuska * behalf of this stream. Calculate further prefetch distances.
609eda14cbcSMatt Macy *
610e3aa18adSMartin Matuska * Start prefetch from the demand access size (nblks). Double the
611e3aa18adSMartin Matuska * distance every access up to zfetch_min_distance. After that only
612e3aa18adSMartin Matuska * if needed increase the distance by 1/8 up to zfetch_max_distance.
6132a58b312SMartin Matuska *
6142a58b312SMartin Matuska * Don't double the distance beyond single block if we have more
6152a58b312SMartin Matuska * than ~6% of ARC held by active prefetches. It should help with
6162a58b312SMartin Matuska * getting out of RAM on some badly mispredicted read patterns.
617eda14cbcSMatt Macy */
6182a58b312SMartin Matuska unsigned int nbytes = nblks << dbs;
619e3aa18adSMartin Matuska unsigned int pf_nblks;
620eda14cbcSMatt Macy if (fetch_data) {
621e3aa18adSMartin Matuska if (unlikely(zs->zs_pf_dist < nbytes))
622e3aa18adSMartin Matuska zs->zs_pf_dist = nbytes;
6232a58b312SMartin Matuska else if (zs->zs_pf_dist < zfetch_min_distance &&
6242a58b312SMartin Matuska (zs->zs_pf_dist < (1 << dbs) ||
6252a58b312SMartin Matuska aggsum_compare(&zfetch_sums.zfetchstat_io_active,
6262a58b312SMartin Matuska arc_c_max >> (4 + dbs)) < 0))
627e3aa18adSMartin Matuska zs->zs_pf_dist *= 2;
628e3aa18adSMartin Matuska else if (zs->zs_more)
629e3aa18adSMartin Matuska zs->zs_pf_dist += zs->zs_pf_dist / 8;
630e3aa18adSMartin Matuska zs->zs_more = B_FALSE;
631e3aa18adSMartin Matuska if (zs->zs_pf_dist > zfetch_max_distance)
632e3aa18adSMartin Matuska zs->zs_pf_dist = zfetch_max_distance;
6332a58b312SMartin Matuska pf_nblks = zs->zs_pf_dist >> dbs;
634eda14cbcSMatt Macy } else {
635eda14cbcSMatt Macy pf_nblks = 0;
636eda14cbcSMatt Macy }
6371719886fSMartin Matuska if (zs->zs_pf_start < end_blkid)
6381719886fSMartin Matuska zs->zs_pf_start = end_blkid;
6391719886fSMartin Matuska if (zs->zs_pf_end < end_blkid + pf_nblks)
6401719886fSMartin Matuska zs->zs_pf_end = end_blkid + pf_nblks;
641eda14cbcSMatt Macy
642eda14cbcSMatt Macy /*
643e3aa18adSMartin Matuska * Do the same for indirects, starting where we will stop reading
644e3aa18adSMartin Matuska * data blocks (and the indirects that point to them).
645eda14cbcSMatt Macy */
646e3aa18adSMartin Matuska if (unlikely(zs->zs_ipf_dist < nbytes))
647e3aa18adSMartin Matuska zs->zs_ipf_dist = nbytes;
648e3aa18adSMartin Matuska else
649e3aa18adSMartin Matuska zs->zs_ipf_dist *= 2;
650e3aa18adSMartin Matuska if (zs->zs_ipf_dist > zfetch_max_idistance)
651e3aa18adSMartin Matuska zs->zs_ipf_dist = zfetch_max_idistance;
6522a58b312SMartin Matuska pf_nblks = zs->zs_ipf_dist >> dbs;
653e3aa18adSMartin Matuska if (zs->zs_ipf_start < zs->zs_pf_end)
654e3aa18adSMartin Matuska zs->zs_ipf_start = zs->zs_pf_end;
65517aab35aSMartin Matuska ipf_start = zs->zs_ipf_end;
656e3aa18adSMartin Matuska if (zs->zs_ipf_end < zs->zs_pf_end + pf_nblks)
657e3aa18adSMartin Matuska zs->zs_ipf_end = zs->zs_pf_end + pf_nblks;
658eda14cbcSMatt Macy
659f9693befSMartin Matuska zfs_refcount_add(&zs->zs_refs, NULL);
660f9693befSMartin Matuska /* Count concurrent callers. */
661f9693befSMartin Matuska zfs_refcount_add(&zs->zs_callers, NULL);
662eda14cbcSMatt Macy mutex_exit(&zf->zf_lock);
663f9693befSMartin Matuska
66417aab35aSMartin Matuska prescient:
66517aab35aSMartin Matuska /*
66617aab35aSMartin Matuska * Prefetch the following indirect blocks for this access to reduce
66717aab35aSMartin Matuska * dbuf_hold() sync read delays in dmu_buf_hold_array_by_dnode().
66817aab35aSMartin Matuska * This covers the gap during the first couple accesses when we can
66917aab35aSMartin Matuska * not predict the future yet, but know what is needed right now.
67017aab35aSMartin Matuska * This should be very rare for reads/writes to need more than one
67117aab35aSMartin Matuska * indirect, but more useful for cloning due to much bigger accesses.
67217aab35aSMartin Matuska */
67317aab35aSMartin Matuska ipf_start = MAX(ipf_start, blkid + 1);
67417aab35aSMartin Matuska int epbs = zf->zf_dnode->dn_indblkshift - SPA_BLKPTRSHIFT;
67517aab35aSMartin Matuska ipf_start = P2ROUNDUP(ipf_start, 1 << epbs) >> epbs;
67617aab35aSMartin Matuska ipf_end = P2ROUNDUP(end_blkid, 1 << epbs) >> epbs;
67717aab35aSMartin Matuska
67817aab35aSMartin Matuska int issued = 0;
67917aab35aSMartin Matuska for (int64_t iblk = ipf_start; iblk < ipf_end; iblk++) {
68017aab35aSMartin Matuska issued += dbuf_prefetch(zf->zf_dnode, 1, iblk,
68117aab35aSMartin Matuska ZIO_PRIORITY_SYNC_READ, ARC_FLAG_PRESCIENT_PREFETCH);
68217aab35aSMartin Matuska }
68317aab35aSMartin Matuska
684f9693befSMartin Matuska if (!have_lock)
685f9693befSMartin Matuska rw_exit(&zf->zf_dnode->dn_struct_rwlock);
68617aab35aSMartin Matuska if (issued)
68717aab35aSMartin Matuska ZFETCHSTAT_ADD(zfetchstat_io_issued, issued);
688f9693befSMartin Matuska return (zs);
689f9693befSMartin Matuska }
690f9693befSMartin Matuska
691f9693befSMartin Matuska void
dmu_zfetch_run(zfetch_t * zf,zstream_t * zs,boolean_t missed,boolean_t have_lock,boolean_t uncached)6921719886fSMartin Matuska dmu_zfetch_run(zfetch_t *zf, zstream_t *zs, boolean_t missed,
693*b1c1ee44SMartin Matuska boolean_t have_lock, boolean_t uncached)
694f9693befSMartin Matuska {
695f9693befSMartin Matuska int64_t pf_start, pf_end, ipf_start, ipf_end;
696f9693befSMartin Matuska int epbs, issued;
697f9693befSMartin Matuska
698f9693befSMartin Matuska if (missed)
699f9693befSMartin Matuska zs->zs_missed = missed;
700eda14cbcSMatt Macy
701eda14cbcSMatt Macy /*
702f9693befSMartin Matuska * Postpone the prefetch if there are more concurrent callers.
703f9693befSMartin Matuska * It happens when multiple requests are waiting for the same
704f9693befSMartin Matuska * indirect block. The last one will run the prefetch for all.
705eda14cbcSMatt Macy */
706f9693befSMartin Matuska if (zfs_refcount_remove(&zs->zs_callers, NULL) != 0) {
707f9693befSMartin Matuska /* Drop reference taken in dmu_zfetch_prepare(). */
708f9693befSMartin Matuska if (zfs_refcount_remove(&zs->zs_refs, NULL) == 0)
709f9693befSMartin Matuska dmu_zfetch_stream_fini(zs);
710f9693befSMartin Matuska return;
711f9693befSMartin Matuska }
712eda14cbcSMatt Macy
713f9693befSMartin Matuska mutex_enter(&zf->zf_lock);
714f9693befSMartin Matuska if (zs->zs_missed) {
715e3aa18adSMartin Matuska pf_start = zs->zs_pf_start;
716e3aa18adSMartin Matuska pf_end = zs->zs_pf_start = zs->zs_pf_end;
717f9693befSMartin Matuska } else {
718f9693befSMartin Matuska pf_start = pf_end = 0;
719f9693befSMartin Matuska }
720e3aa18adSMartin Matuska ipf_start = zs->zs_ipf_start;
721e3aa18adSMartin Matuska ipf_end = zs->zs_ipf_start = zs->zs_ipf_end;
722f9693befSMartin Matuska mutex_exit(&zf->zf_lock);
723f9693befSMartin Matuska ASSERT3S(pf_start, <=, pf_end);
724f9693befSMartin Matuska ASSERT3S(ipf_start, <=, ipf_end);
725f9693befSMartin Matuska
726f9693befSMartin Matuska epbs = zf->zf_dnode->dn_indblkshift - SPA_BLKPTRSHIFT;
727f9693befSMartin Matuska ipf_start = P2ROUNDUP(ipf_start, 1 << epbs) >> epbs;
728f9693befSMartin Matuska ipf_end = P2ROUNDUP(ipf_end, 1 << epbs) >> epbs;
729f9693befSMartin Matuska ASSERT3S(ipf_start, <=, ipf_end);
730f9693befSMartin Matuska issued = pf_end - pf_start + ipf_end - ipf_start;
731f9693befSMartin Matuska if (issued > 1) {
732f9693befSMartin Matuska /* More references on top of taken in dmu_zfetch_prepare(). */
7334e8d558cSMartin Matuska zfs_refcount_add_few(&zs->zs_refs, issued - 1, NULL);
734f9693befSMartin Matuska } else if (issued == 0) {
735f9693befSMartin Matuska /* Some other thread has done our work, so drop the ref. */
736f9693befSMartin Matuska if (zfs_refcount_remove(&zs->zs_refs, NULL) == 0)
737f9693befSMartin Matuska dmu_zfetch_stream_fini(zs);
738f9693befSMartin Matuska return;
739f9693befSMartin Matuska }
7402a58b312SMartin Matuska aggsum_add(&zfetch_sums.zfetchstat_io_active, issued);
741f9693befSMartin Matuska
742f9693befSMartin Matuska if (!have_lock)
743f9693befSMartin Matuska rw_enter(&zf->zf_dnode->dn_struct_rwlock, RW_READER);
744f9693befSMartin Matuska
745f9693befSMartin Matuska issued = 0;
746f9693befSMartin Matuska for (int64_t blk = pf_start; blk < pf_end; blk++) {
747f9693befSMartin Matuska issued += dbuf_prefetch_impl(zf->zf_dnode, 0, blk,
748*b1c1ee44SMartin Matuska ZIO_PRIORITY_ASYNC_READ, uncached ?
749*b1c1ee44SMartin Matuska ARC_FLAG_UNCACHED : 0, dmu_zfetch_done, zs);
750eda14cbcSMatt Macy }
751f9693befSMartin Matuska for (int64_t iblk = ipf_start; iblk < ipf_end; iblk++) {
7527877fdebSMatt Macy issued += dbuf_prefetch_impl(zf->zf_dnode, 1, iblk,
75315f0b8c3SMartin Matuska ZIO_PRIORITY_ASYNC_READ, 0, dmu_zfetch_done, zs);
754eda14cbcSMatt Macy }
755f9693befSMartin Matuska
756eda14cbcSMatt Macy if (!have_lock)
757eda14cbcSMatt Macy rw_exit(&zf->zf_dnode->dn_struct_rwlock);
7587877fdebSMatt Macy
7597877fdebSMatt Macy if (issued)
7607877fdebSMatt Macy ZFETCHSTAT_ADD(zfetchstat_io_issued, issued);
761eda14cbcSMatt Macy }
762eda14cbcSMatt Macy
763f9693befSMartin Matuska void
dmu_zfetch(zfetch_t * zf,uint64_t blkid,uint64_t nblks,boolean_t fetch_data,boolean_t missed,boolean_t have_lock,boolean_t uncached)764f9693befSMartin Matuska dmu_zfetch(zfetch_t *zf, uint64_t blkid, uint64_t nblks, boolean_t fetch_data,
765*b1c1ee44SMartin Matuska boolean_t missed, boolean_t have_lock, boolean_t uncached)
766f9693befSMartin Matuska {
767f9693befSMartin Matuska zstream_t *zs;
768f9693befSMartin Matuska
769f9693befSMartin Matuska zs = dmu_zfetch_prepare(zf, blkid, nblks, fetch_data, have_lock);
770f9693befSMartin Matuska if (zs)
771*b1c1ee44SMartin Matuska dmu_zfetch_run(zf, zs, missed, have_lock, uncached);
772f9693befSMartin Matuska }
773f9693befSMartin Matuska
774eda14cbcSMatt Macy ZFS_MODULE_PARAM(zfs_prefetch, zfs_prefetch_, disable, INT, ZMOD_RW,
775eda14cbcSMatt Macy "Disable all ZFS prefetching");
776eda14cbcSMatt Macy
777eda14cbcSMatt Macy ZFS_MODULE_PARAM(zfs_prefetch, zfetch_, max_streams, UINT, ZMOD_RW,
778eda14cbcSMatt Macy "Max number of streams per zfetch");
779eda14cbcSMatt Macy
780eda14cbcSMatt Macy ZFS_MODULE_PARAM(zfs_prefetch, zfetch_, min_sec_reap, UINT, ZMOD_RW,
781eda14cbcSMatt Macy "Min time before stream reclaim");
782eda14cbcSMatt Macy
783e3aa18adSMartin Matuska ZFS_MODULE_PARAM(zfs_prefetch, zfetch_, max_sec_reap, UINT, ZMOD_RW,
784e3aa18adSMartin Matuska "Max time before stream delete");
785e3aa18adSMartin Matuska
786e3aa18adSMartin Matuska ZFS_MODULE_PARAM(zfs_prefetch, zfetch_, min_distance, UINT, ZMOD_RW,
787e3aa18adSMartin Matuska "Min bytes to prefetch per stream");
788e3aa18adSMartin Matuska
789eda14cbcSMatt Macy ZFS_MODULE_PARAM(zfs_prefetch, zfetch_, max_distance, UINT, ZMOD_RW,
790180f8225SMatt Macy "Max bytes to prefetch per stream");
791180f8225SMatt Macy
792180f8225SMatt Macy ZFS_MODULE_PARAM(zfs_prefetch, zfetch_, max_idistance, UINT, ZMOD_RW,
793180f8225SMatt Macy "Max bytes to prefetch indirects for per stream");
7941719886fSMartin Matuska
7951719886fSMartin Matuska ZFS_MODULE_PARAM(zfs_prefetch, zfetch_, max_reorder, UINT, ZMOD_RW,
7961719886fSMartin Matuska "Max request reorder distance within a stream");
7971719886fSMartin Matuska
7981719886fSMartin Matuska ZFS_MODULE_PARAM(zfs_prefetch, zfetch_, hole_shift, UINT, ZMOD_RW,
7991719886fSMartin Matuska "Max log2 fraction of holes in a stream");
800