1eda14cbcSMatt Macy /* 2eda14cbcSMatt Macy * BSD 3-Clause New License (https://spdx.org/licenses/BSD-3-Clause.html) 3eda14cbcSMatt Macy * 4eda14cbcSMatt Macy * Redistribution and use in source and binary forms, with or without 5eda14cbcSMatt Macy * modification, are permitted provided that the following conditions are met: 6eda14cbcSMatt Macy * 7eda14cbcSMatt Macy * 1. Redistributions of source code must retain the above copyright notice, 8eda14cbcSMatt Macy * this list of conditions and the following disclaimer. 9eda14cbcSMatt Macy * 10eda14cbcSMatt Macy * 2. Redistributions in binary form must reproduce the above copyright notice, 11eda14cbcSMatt Macy * this list of conditions and the following disclaimer in the documentation 12eda14cbcSMatt Macy * and/or other materials provided with the distribution. 13eda14cbcSMatt Macy * 14eda14cbcSMatt Macy * 3. Neither the name of the copyright holder nor the names of its 15eda14cbcSMatt Macy * contributors may be used to endorse or promote products derived from this 16eda14cbcSMatt Macy * software without specific prior written permission. 17eda14cbcSMatt Macy * 18eda14cbcSMatt Macy * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" 19eda14cbcSMatt Macy * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 20eda14cbcSMatt Macy * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 21eda14cbcSMatt Macy * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE 22eda14cbcSMatt Macy * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 23eda14cbcSMatt Macy * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 24eda14cbcSMatt Macy * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 25eda14cbcSMatt Macy * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 26eda14cbcSMatt Macy * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 27eda14cbcSMatt Macy * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 28eda14cbcSMatt Macy * POSSIBILITY OF SUCH DAMAGE. 29eda14cbcSMatt Macy */ 30eda14cbcSMatt Macy 31eda14cbcSMatt Macy /* 32eda14cbcSMatt Macy * Copyright (c) 2016-2018, Klara Inc. 33eda14cbcSMatt Macy * Copyright (c) 2016-2018, Allan Jude 34eda14cbcSMatt Macy * Copyright (c) 2018-2020, Sebastian Gottschall 35eda14cbcSMatt Macy * Copyright (c) 2019-2020, Michael Niewöhner 36eda14cbcSMatt Macy * Copyright (c) 2020, The FreeBSD Foundation [1] 37eda14cbcSMatt Macy * 38eda14cbcSMatt Macy * [1] Portions of this software were developed by Allan Jude 39eda14cbcSMatt Macy * under sponsorship from the FreeBSD Foundation. 40eda14cbcSMatt Macy */ 41eda14cbcSMatt Macy 42eda14cbcSMatt Macy #include <sys/param.h> 43eda14cbcSMatt Macy #include <sys/sysmacros.h> 44eda14cbcSMatt Macy #include <sys/zfs_context.h> 45eda14cbcSMatt Macy #include <sys/zio_compress.h> 46eda14cbcSMatt Macy #include <sys/spa.h> 47eda14cbcSMatt Macy #include <sys/zstd/zstd.h> 48eda14cbcSMatt Macy 49eda14cbcSMatt Macy #define ZSTD_STATIC_LINKING_ONLY 50eda14cbcSMatt Macy #include "lib/zstd.h" 51eda14cbcSMatt Macy #include "lib/zstd_errors.h" 52eda14cbcSMatt Macy 53eda14cbcSMatt Macy kstat_t *zstd_ksp = NULL; 54eda14cbcSMatt Macy 55eda14cbcSMatt Macy typedef struct zstd_stats { 56eda14cbcSMatt Macy kstat_named_t zstd_stat_alloc_fail; 57eda14cbcSMatt Macy kstat_named_t zstd_stat_alloc_fallback; 58eda14cbcSMatt Macy kstat_named_t zstd_stat_com_alloc_fail; 59eda14cbcSMatt Macy kstat_named_t zstd_stat_dec_alloc_fail; 60eda14cbcSMatt Macy kstat_named_t zstd_stat_com_inval; 61eda14cbcSMatt Macy kstat_named_t zstd_stat_dec_inval; 62eda14cbcSMatt Macy kstat_named_t zstd_stat_dec_header_inval; 63eda14cbcSMatt Macy kstat_named_t zstd_stat_com_fail; 64eda14cbcSMatt Macy kstat_named_t zstd_stat_dec_fail; 654a58b4abSMateusz Guzik kstat_named_t zstd_stat_buffers; 664a58b4abSMateusz Guzik kstat_named_t zstd_stat_size; 67eda14cbcSMatt Macy } zstd_stats_t; 68eda14cbcSMatt Macy 69eda14cbcSMatt Macy static zstd_stats_t zstd_stats = { 70eda14cbcSMatt Macy { "alloc_fail", KSTAT_DATA_UINT64 }, 71eda14cbcSMatt Macy { "alloc_fallback", KSTAT_DATA_UINT64 }, 72eda14cbcSMatt Macy { "compress_alloc_fail", KSTAT_DATA_UINT64 }, 73eda14cbcSMatt Macy { "decompress_alloc_fail", KSTAT_DATA_UINT64 }, 74eda14cbcSMatt Macy { "compress_level_invalid", KSTAT_DATA_UINT64 }, 75eda14cbcSMatt Macy { "decompress_level_invalid", KSTAT_DATA_UINT64 }, 76eda14cbcSMatt Macy { "decompress_header_invalid", KSTAT_DATA_UINT64 }, 77eda14cbcSMatt Macy { "compress_failed", KSTAT_DATA_UINT64 }, 78eda14cbcSMatt Macy { "decompress_failed", KSTAT_DATA_UINT64 }, 794a58b4abSMateusz Guzik { "buffers", KSTAT_DATA_UINT64 }, 804a58b4abSMateusz Guzik { "size", KSTAT_DATA_UINT64 }, 81eda14cbcSMatt Macy }; 82eda14cbcSMatt Macy 83eda14cbcSMatt Macy /* Enums describing the allocator type specified by kmem_type in zstd_kmem */ 84eda14cbcSMatt Macy enum zstd_kmem_type { 85eda14cbcSMatt Macy ZSTD_KMEM_UNKNOWN = 0, 86eda14cbcSMatt Macy /* Allocation type using kmem_vmalloc */ 87eda14cbcSMatt Macy ZSTD_KMEM_DEFAULT, 88eda14cbcSMatt Macy /* Pool based allocation using mempool_alloc */ 89eda14cbcSMatt Macy ZSTD_KMEM_POOL, 90eda14cbcSMatt Macy /* Reserved fallback memory for decompression only */ 91eda14cbcSMatt Macy ZSTD_KMEM_DCTX, 92eda14cbcSMatt Macy ZSTD_KMEM_COUNT, 93eda14cbcSMatt Macy }; 94eda14cbcSMatt Macy 95eda14cbcSMatt Macy /* Structure for pooled memory objects */ 96eda14cbcSMatt Macy struct zstd_pool { 97eda14cbcSMatt Macy void *mem; 98eda14cbcSMatt Macy size_t size; 99eda14cbcSMatt Macy kmutex_t barrier; 100eda14cbcSMatt Macy hrtime_t timeout; 101eda14cbcSMatt Macy }; 102eda14cbcSMatt Macy 103eda14cbcSMatt Macy /* Global structure for handling memory allocations */ 104eda14cbcSMatt Macy struct zstd_kmem { 105eda14cbcSMatt Macy enum zstd_kmem_type kmem_type; 106eda14cbcSMatt Macy size_t kmem_size; 107eda14cbcSMatt Macy struct zstd_pool *pool; 108eda14cbcSMatt Macy }; 109eda14cbcSMatt Macy 110eda14cbcSMatt Macy /* Fallback memory structure used for decompression only if memory runs out */ 111eda14cbcSMatt Macy struct zstd_fallback_mem { 112eda14cbcSMatt Macy size_t mem_size; 113eda14cbcSMatt Macy void *mem; 114eda14cbcSMatt Macy kmutex_t barrier; 115eda14cbcSMatt Macy }; 116eda14cbcSMatt Macy 117eda14cbcSMatt Macy struct zstd_levelmap { 118eda14cbcSMatt Macy int16_t zstd_level; 119eda14cbcSMatt Macy enum zio_zstd_levels level; 120eda14cbcSMatt Macy }; 121eda14cbcSMatt Macy 122eda14cbcSMatt Macy /* 123eda14cbcSMatt Macy * ZSTD memory handlers 124eda14cbcSMatt Macy * 125eda14cbcSMatt Macy * For decompression we use a different handler which also provides fallback 126eda14cbcSMatt Macy * memory allocation in case memory runs out. 127eda14cbcSMatt Macy * 128eda14cbcSMatt Macy * The ZSTD handlers were split up for the most simplified implementation. 129eda14cbcSMatt Macy */ 130eda14cbcSMatt Macy static void *zstd_alloc(void *opaque, size_t size); 131eda14cbcSMatt Macy static void *zstd_dctx_alloc(void *opaque, size_t size); 132eda14cbcSMatt Macy static void zstd_free(void *opaque, void *ptr); 133eda14cbcSMatt Macy 134eda14cbcSMatt Macy /* Compression memory handler */ 135eda14cbcSMatt Macy static const ZSTD_customMem zstd_malloc = { 136eda14cbcSMatt Macy zstd_alloc, 137eda14cbcSMatt Macy zstd_free, 138eda14cbcSMatt Macy NULL, 139eda14cbcSMatt Macy }; 140eda14cbcSMatt Macy 141eda14cbcSMatt Macy /* Decompression memory handler */ 142eda14cbcSMatt Macy static const ZSTD_customMem zstd_dctx_malloc = { 143eda14cbcSMatt Macy zstd_dctx_alloc, 144eda14cbcSMatt Macy zstd_free, 145eda14cbcSMatt Macy NULL, 146eda14cbcSMatt Macy }; 147eda14cbcSMatt Macy 148eda14cbcSMatt Macy /* Level map for converting ZFS internal levels to ZSTD levels and vice versa */ 149eda14cbcSMatt Macy static struct zstd_levelmap zstd_levels[] = { 150eda14cbcSMatt Macy {ZIO_ZSTD_LEVEL_1, ZIO_ZSTD_LEVEL_1}, 151eda14cbcSMatt Macy {ZIO_ZSTD_LEVEL_2, ZIO_ZSTD_LEVEL_2}, 152eda14cbcSMatt Macy {ZIO_ZSTD_LEVEL_3, ZIO_ZSTD_LEVEL_3}, 153eda14cbcSMatt Macy {ZIO_ZSTD_LEVEL_4, ZIO_ZSTD_LEVEL_4}, 154eda14cbcSMatt Macy {ZIO_ZSTD_LEVEL_5, ZIO_ZSTD_LEVEL_5}, 155eda14cbcSMatt Macy {ZIO_ZSTD_LEVEL_6, ZIO_ZSTD_LEVEL_6}, 156eda14cbcSMatt Macy {ZIO_ZSTD_LEVEL_7, ZIO_ZSTD_LEVEL_7}, 157eda14cbcSMatt Macy {ZIO_ZSTD_LEVEL_8, ZIO_ZSTD_LEVEL_8}, 158eda14cbcSMatt Macy {ZIO_ZSTD_LEVEL_9, ZIO_ZSTD_LEVEL_9}, 159eda14cbcSMatt Macy {ZIO_ZSTD_LEVEL_10, ZIO_ZSTD_LEVEL_10}, 160eda14cbcSMatt Macy {ZIO_ZSTD_LEVEL_11, ZIO_ZSTD_LEVEL_11}, 161eda14cbcSMatt Macy {ZIO_ZSTD_LEVEL_12, ZIO_ZSTD_LEVEL_12}, 162eda14cbcSMatt Macy {ZIO_ZSTD_LEVEL_13, ZIO_ZSTD_LEVEL_13}, 163eda14cbcSMatt Macy {ZIO_ZSTD_LEVEL_14, ZIO_ZSTD_LEVEL_14}, 164eda14cbcSMatt Macy {ZIO_ZSTD_LEVEL_15, ZIO_ZSTD_LEVEL_15}, 165eda14cbcSMatt Macy {ZIO_ZSTD_LEVEL_16, ZIO_ZSTD_LEVEL_16}, 166eda14cbcSMatt Macy {ZIO_ZSTD_LEVEL_17, ZIO_ZSTD_LEVEL_17}, 167eda14cbcSMatt Macy {ZIO_ZSTD_LEVEL_18, ZIO_ZSTD_LEVEL_18}, 168eda14cbcSMatt Macy {ZIO_ZSTD_LEVEL_19, ZIO_ZSTD_LEVEL_19}, 169eda14cbcSMatt Macy {-1, ZIO_ZSTD_LEVEL_FAST_1}, 170eda14cbcSMatt Macy {-2, ZIO_ZSTD_LEVEL_FAST_2}, 171eda14cbcSMatt Macy {-3, ZIO_ZSTD_LEVEL_FAST_3}, 172eda14cbcSMatt Macy {-4, ZIO_ZSTD_LEVEL_FAST_4}, 173eda14cbcSMatt Macy {-5, ZIO_ZSTD_LEVEL_FAST_5}, 174eda14cbcSMatt Macy {-6, ZIO_ZSTD_LEVEL_FAST_6}, 175eda14cbcSMatt Macy {-7, ZIO_ZSTD_LEVEL_FAST_7}, 176eda14cbcSMatt Macy {-8, ZIO_ZSTD_LEVEL_FAST_8}, 177eda14cbcSMatt Macy {-9, ZIO_ZSTD_LEVEL_FAST_9}, 178eda14cbcSMatt Macy {-10, ZIO_ZSTD_LEVEL_FAST_10}, 179eda14cbcSMatt Macy {-20, ZIO_ZSTD_LEVEL_FAST_20}, 180eda14cbcSMatt Macy {-30, ZIO_ZSTD_LEVEL_FAST_30}, 181eda14cbcSMatt Macy {-40, ZIO_ZSTD_LEVEL_FAST_40}, 182eda14cbcSMatt Macy {-50, ZIO_ZSTD_LEVEL_FAST_50}, 183eda14cbcSMatt Macy {-60, ZIO_ZSTD_LEVEL_FAST_60}, 184eda14cbcSMatt Macy {-70, ZIO_ZSTD_LEVEL_FAST_70}, 185eda14cbcSMatt Macy {-80, ZIO_ZSTD_LEVEL_FAST_80}, 186eda14cbcSMatt Macy {-90, ZIO_ZSTD_LEVEL_FAST_90}, 187eda14cbcSMatt Macy {-100, ZIO_ZSTD_LEVEL_FAST_100}, 188eda14cbcSMatt Macy {-500, ZIO_ZSTD_LEVEL_FAST_500}, 189eda14cbcSMatt Macy {-1000, ZIO_ZSTD_LEVEL_FAST_1000}, 190eda14cbcSMatt Macy }; 191eda14cbcSMatt Macy 192eda14cbcSMatt Macy /* 193eda14cbcSMatt Macy * This variable represents the maximum count of the pool based on the number 194eda14cbcSMatt Macy * of CPUs plus some buffer. We default to cpu count * 4, see init_zstd. 195eda14cbcSMatt Macy */ 196eda14cbcSMatt Macy static int pool_count = 16; 197eda14cbcSMatt Macy 198eda14cbcSMatt Macy #define ZSTD_POOL_MAX pool_count 199eda14cbcSMatt Macy #define ZSTD_POOL_TIMEOUT 60 * 2 200eda14cbcSMatt Macy 201eda14cbcSMatt Macy static struct zstd_fallback_mem zstd_dctx_fallback; 202eda14cbcSMatt Macy static struct zstd_pool *zstd_mempool_cctx; 203eda14cbcSMatt Macy static struct zstd_pool *zstd_mempool_dctx; 204eda14cbcSMatt Macy 205*7877fdebSMatt Macy 206*7877fdebSMatt Macy static void 207*7877fdebSMatt Macy zstd_mempool_reap(struct zstd_pool *zstd_mempool) 208*7877fdebSMatt Macy { 209*7877fdebSMatt Macy struct zstd_pool *pool; 210*7877fdebSMatt Macy 211*7877fdebSMatt Macy if (!zstd_mempool || !ZSTDSTAT(zstd_stat_buffers)) { 212*7877fdebSMatt Macy return; 213*7877fdebSMatt Macy } 214*7877fdebSMatt Macy 215*7877fdebSMatt Macy /* free obsolete slots */ 216*7877fdebSMatt Macy for (int i = 0; i < ZSTD_POOL_MAX; i++) { 217*7877fdebSMatt Macy pool = &zstd_mempool[i]; 218*7877fdebSMatt Macy if (pool->mem && mutex_tryenter(&pool->barrier)) { 219*7877fdebSMatt Macy /* Free memory if unused object older than 2 minutes */ 220*7877fdebSMatt Macy if (pool->mem && gethrestime_sec() > pool->timeout) { 221*7877fdebSMatt Macy vmem_free(pool->mem, pool->size); 222*7877fdebSMatt Macy ZSTDSTAT_SUB(zstd_stat_buffers, 1); 223*7877fdebSMatt Macy ZSTDSTAT_SUB(zstd_stat_size, pool->size); 224*7877fdebSMatt Macy pool->mem = NULL; 225*7877fdebSMatt Macy pool->size = 0; 226*7877fdebSMatt Macy pool->timeout = 0; 227*7877fdebSMatt Macy } 228*7877fdebSMatt Macy mutex_exit(&pool->barrier); 229*7877fdebSMatt Macy } 230*7877fdebSMatt Macy } 231*7877fdebSMatt Macy } 232*7877fdebSMatt Macy 233eda14cbcSMatt Macy /* 234eda14cbcSMatt Macy * Try to get a cached allocated buffer from memory pool or allocate a new one 235eda14cbcSMatt Macy * if necessary. If a object is older than 2 minutes and does not fit the 236eda14cbcSMatt Macy * requested size, it will be released and a new cached entry will be allocated. 237eda14cbcSMatt Macy * If other pooled objects are detected without being used for 2 minutes, they 238eda14cbcSMatt Macy * will be released, too. 239eda14cbcSMatt Macy * 240eda14cbcSMatt Macy * The concept is that high frequency memory allocations of bigger objects are 241eda14cbcSMatt Macy * expensive. So if a lot of work is going on, allocations will be kept for a 242eda14cbcSMatt Macy * while and can be reused in that time frame. 243eda14cbcSMatt Macy * 244eda14cbcSMatt Macy * The scheduled release will be updated every time a object is reused. 245eda14cbcSMatt Macy */ 246*7877fdebSMatt Macy 247eda14cbcSMatt Macy static void * 248eda14cbcSMatt Macy zstd_mempool_alloc(struct zstd_pool *zstd_mempool, size_t size) 249eda14cbcSMatt Macy { 250eda14cbcSMatt Macy struct zstd_pool *pool; 251eda14cbcSMatt Macy struct zstd_kmem *mem = NULL; 252eda14cbcSMatt Macy 253eda14cbcSMatt Macy if (!zstd_mempool) { 254eda14cbcSMatt Macy return (NULL); 255eda14cbcSMatt Macy } 256eda14cbcSMatt Macy 257eda14cbcSMatt Macy /* Seek for preallocated memory slot and free obsolete slots */ 258eda14cbcSMatt Macy for (int i = 0; i < ZSTD_POOL_MAX; i++) { 259eda14cbcSMatt Macy pool = &zstd_mempool[i]; 260eda14cbcSMatt Macy /* 261eda14cbcSMatt Macy * This lock is simply a marker for a pool object beeing in use. 262eda14cbcSMatt Macy * If it's already hold, it will be skipped. 263eda14cbcSMatt Macy * 264eda14cbcSMatt Macy * We need to create it before checking it to avoid race 265eda14cbcSMatt Macy * conditions caused by running in a threaded context. 266eda14cbcSMatt Macy * 267eda14cbcSMatt Macy * The lock is later released by zstd_mempool_free. 268eda14cbcSMatt Macy */ 269eda14cbcSMatt Macy if (mutex_tryenter(&pool->barrier)) { 270eda14cbcSMatt Macy /* 271eda14cbcSMatt Macy * Check if objects fits the size, if so we take it and 272eda14cbcSMatt Macy * update the timestamp. 273eda14cbcSMatt Macy */ 274*7877fdebSMatt Macy if (pool->mem && size <= pool->size) { 275eda14cbcSMatt Macy pool->timeout = gethrestime_sec() + 276eda14cbcSMatt Macy ZSTD_POOL_TIMEOUT; 277eda14cbcSMatt Macy mem = pool->mem; 278*7877fdebSMatt Macy return (mem); 279eda14cbcSMatt Macy } 280eda14cbcSMatt Macy mutex_exit(&pool->barrier); 281eda14cbcSMatt Macy } 282eda14cbcSMatt Macy } 283eda14cbcSMatt Macy 284eda14cbcSMatt Macy /* 285eda14cbcSMatt Macy * If no preallocated slot was found, try to fill in a new one. 286eda14cbcSMatt Macy * 287eda14cbcSMatt Macy * We run a similar algorithm twice here to avoid pool fragmentation. 288eda14cbcSMatt Macy * The first one may generate holes in the list if objects get released. 289eda14cbcSMatt Macy * We always make sure that these holes get filled instead of adding new 290eda14cbcSMatt Macy * allocations constantly at the end. 291eda14cbcSMatt Macy */ 292eda14cbcSMatt Macy for (int i = 0; i < ZSTD_POOL_MAX; i++) { 293eda14cbcSMatt Macy pool = &zstd_mempool[i]; 294eda14cbcSMatt Macy if (mutex_tryenter(&pool->barrier)) { 295eda14cbcSMatt Macy /* Object is free, try to allocate new one */ 296eda14cbcSMatt Macy if (!pool->mem) { 297eda14cbcSMatt Macy mem = vmem_alloc(size, KM_SLEEP); 2984a58b4abSMateusz Guzik if (mem) { 2994a58b4abSMateusz Guzik ZSTDSTAT_ADD(zstd_stat_buffers, 1); 3004a58b4abSMateusz Guzik ZSTDSTAT_ADD(zstd_stat_size, size); 301eda14cbcSMatt Macy pool->mem = mem; 3024a58b4abSMateusz Guzik pool->size = size; 303eda14cbcSMatt Macy /* Keep track for later release */ 304eda14cbcSMatt Macy mem->pool = pool; 305eda14cbcSMatt Macy mem->kmem_type = ZSTD_KMEM_POOL; 306eda14cbcSMatt Macy mem->kmem_size = size; 307eda14cbcSMatt Macy } 308eda14cbcSMatt Macy } 309eda14cbcSMatt Macy 310eda14cbcSMatt Macy if (size <= pool->size) { 311eda14cbcSMatt Macy /* Update timestamp */ 312eda14cbcSMatt Macy pool->timeout = gethrestime_sec() + 313eda14cbcSMatt Macy ZSTD_POOL_TIMEOUT; 314eda14cbcSMatt Macy 315eda14cbcSMatt Macy return (pool->mem); 316eda14cbcSMatt Macy } 317eda14cbcSMatt Macy 318eda14cbcSMatt Macy mutex_exit(&pool->barrier); 319eda14cbcSMatt Macy } 320eda14cbcSMatt Macy } 321eda14cbcSMatt Macy 322eda14cbcSMatt Macy /* 323eda14cbcSMatt Macy * If the pool is full or the allocation failed, try lazy allocation 324eda14cbcSMatt Macy * instead. 325eda14cbcSMatt Macy */ 326eda14cbcSMatt Macy if (!mem) { 327eda14cbcSMatt Macy mem = vmem_alloc(size, KM_NOSLEEP); 328eda14cbcSMatt Macy if (mem) { 329eda14cbcSMatt Macy mem->pool = NULL; 330eda14cbcSMatt Macy mem->kmem_type = ZSTD_KMEM_DEFAULT; 331eda14cbcSMatt Macy mem->kmem_size = size; 332eda14cbcSMatt Macy } 333eda14cbcSMatt Macy } 334eda14cbcSMatt Macy 335eda14cbcSMatt Macy return (mem); 336eda14cbcSMatt Macy } 337eda14cbcSMatt Macy 338eda14cbcSMatt Macy /* Mark object as released by releasing the barrier mutex */ 339eda14cbcSMatt Macy static void 340eda14cbcSMatt Macy zstd_mempool_free(struct zstd_kmem *z) 341eda14cbcSMatt Macy { 342eda14cbcSMatt Macy mutex_exit(&z->pool->barrier); 343eda14cbcSMatt Macy } 344eda14cbcSMatt Macy 345eda14cbcSMatt Macy /* Convert ZFS internal enum to ZSTD level */ 346eda14cbcSMatt Macy static int 347eda14cbcSMatt Macy zstd_enum_to_level(enum zio_zstd_levels level, int16_t *zstd_level) 348eda14cbcSMatt Macy { 349eda14cbcSMatt Macy if (level > 0 && level <= ZIO_ZSTD_LEVEL_19) { 350eda14cbcSMatt Macy *zstd_level = zstd_levels[level - 1].zstd_level; 351eda14cbcSMatt Macy return (0); 352eda14cbcSMatt Macy } 353eda14cbcSMatt Macy if (level >= ZIO_ZSTD_LEVEL_FAST_1 && 354eda14cbcSMatt Macy level <= ZIO_ZSTD_LEVEL_FAST_1000) { 355eda14cbcSMatt Macy *zstd_level = zstd_levels[level - ZIO_ZSTD_LEVEL_FAST_1 356eda14cbcSMatt Macy + ZIO_ZSTD_LEVEL_19].zstd_level; 357eda14cbcSMatt Macy return (0); 358eda14cbcSMatt Macy } 359eda14cbcSMatt Macy 360eda14cbcSMatt Macy /* Invalid/unknown zfs compression enum - this should never happen. */ 361eda14cbcSMatt Macy return (1); 362eda14cbcSMatt Macy } 363eda14cbcSMatt Macy 364eda14cbcSMatt Macy /* Compress block using zstd */ 365eda14cbcSMatt Macy size_t 366eda14cbcSMatt Macy zfs_zstd_compress(void *s_start, void *d_start, size_t s_len, size_t d_len, 367eda14cbcSMatt Macy int level) 368eda14cbcSMatt Macy { 369eda14cbcSMatt Macy size_t c_len; 370eda14cbcSMatt Macy int16_t zstd_level; 371eda14cbcSMatt Macy zfs_zstdhdr_t *hdr; 372eda14cbcSMatt Macy ZSTD_CCtx *cctx; 373eda14cbcSMatt Macy 374eda14cbcSMatt Macy hdr = (zfs_zstdhdr_t *)d_start; 375eda14cbcSMatt Macy 376eda14cbcSMatt Macy /* Skip compression if the specified level is invalid */ 377eda14cbcSMatt Macy if (zstd_enum_to_level(level, &zstd_level)) { 378eda14cbcSMatt Macy ZSTDSTAT_BUMP(zstd_stat_com_inval); 379eda14cbcSMatt Macy return (s_len); 380eda14cbcSMatt Macy } 381eda14cbcSMatt Macy 382eda14cbcSMatt Macy ASSERT3U(d_len, >=, sizeof (*hdr)); 383eda14cbcSMatt Macy ASSERT3U(d_len, <=, s_len); 384eda14cbcSMatt Macy ASSERT3U(zstd_level, !=, 0); 385eda14cbcSMatt Macy 386eda14cbcSMatt Macy cctx = ZSTD_createCCtx_advanced(zstd_malloc); 387eda14cbcSMatt Macy 388eda14cbcSMatt Macy /* 389eda14cbcSMatt Macy * Out of kernel memory, gently fall through - this will disable 390eda14cbcSMatt Macy * compression in zio_compress_data 391eda14cbcSMatt Macy */ 392eda14cbcSMatt Macy if (!cctx) { 393eda14cbcSMatt Macy ZSTDSTAT_BUMP(zstd_stat_com_alloc_fail); 394eda14cbcSMatt Macy return (s_len); 395eda14cbcSMatt Macy } 396eda14cbcSMatt Macy 397eda14cbcSMatt Macy /* Set the compression level */ 398eda14cbcSMatt Macy ZSTD_CCtx_setParameter(cctx, ZSTD_c_compressionLevel, zstd_level); 399eda14cbcSMatt Macy 400eda14cbcSMatt Macy /* Use the "magicless" zstd header which saves us 4 header bytes */ 401eda14cbcSMatt Macy ZSTD_CCtx_setParameter(cctx, ZSTD_c_format, ZSTD_f_zstd1_magicless); 402eda14cbcSMatt Macy 403eda14cbcSMatt Macy /* 404eda14cbcSMatt Macy * Disable redundant checksum calculation and content size storage since 405eda14cbcSMatt Macy * this is already done by ZFS itself. 406eda14cbcSMatt Macy */ 407eda14cbcSMatt Macy ZSTD_CCtx_setParameter(cctx, ZSTD_c_checksumFlag, 0); 408eda14cbcSMatt Macy ZSTD_CCtx_setParameter(cctx, ZSTD_c_contentSizeFlag, 0); 409eda14cbcSMatt Macy 410eda14cbcSMatt Macy c_len = ZSTD_compress2(cctx, 411eda14cbcSMatt Macy hdr->data, 412eda14cbcSMatt Macy d_len - sizeof (*hdr), 413eda14cbcSMatt Macy s_start, s_len); 414eda14cbcSMatt Macy 415eda14cbcSMatt Macy ZSTD_freeCCtx(cctx); 416eda14cbcSMatt Macy 417eda14cbcSMatt Macy /* Error in the compression routine, disable compression. */ 418eda14cbcSMatt Macy if (ZSTD_isError(c_len)) { 419eda14cbcSMatt Macy /* 420eda14cbcSMatt Macy * If we are aborting the compression because the saves are 421eda14cbcSMatt Macy * too small, that is not a failure. Everything else is a 422eda14cbcSMatt Macy * failure, so increment the compression failure counter. 423eda14cbcSMatt Macy */ 424eda14cbcSMatt Macy if (ZSTD_getErrorCode(c_len) != ZSTD_error_dstSize_tooSmall) { 425eda14cbcSMatt Macy ZSTDSTAT_BUMP(zstd_stat_com_fail); 426eda14cbcSMatt Macy } 427eda14cbcSMatt Macy return (s_len); 428eda14cbcSMatt Macy } 429eda14cbcSMatt Macy 430eda14cbcSMatt Macy /* 431eda14cbcSMatt Macy * Encode the compressed buffer size at the start. We'll need this in 432eda14cbcSMatt Macy * decompression to counter the effects of padding which might be added 433eda14cbcSMatt Macy * to the compressed buffer and which, if unhandled, would confuse the 434eda14cbcSMatt Macy * hell out of our decompression function. 435eda14cbcSMatt Macy */ 436eda14cbcSMatt Macy hdr->c_len = BE_32(c_len); 437eda14cbcSMatt Macy 438eda14cbcSMatt Macy /* 439eda14cbcSMatt Macy * Check version for overflow. 440eda14cbcSMatt Macy * The limit of 24 bits must not be exceeded. This allows a maximum 441eda14cbcSMatt Macy * version 1677.72.15 which we don't expect to be ever reached. 442eda14cbcSMatt Macy */ 443eda14cbcSMatt Macy ASSERT3U(ZSTD_VERSION_NUMBER, <=, 0xFFFFFF); 444eda14cbcSMatt Macy 445eda14cbcSMatt Macy /* 446eda14cbcSMatt Macy * Encode the compression level as well. We may need to know the 447eda14cbcSMatt Macy * original compression level if compressed_arc is disabled, to match 448eda14cbcSMatt Macy * the compression settings to write this block to the L2ARC. 449eda14cbcSMatt Macy * 450eda14cbcSMatt Macy * Encode the actual level, so if the enum changes in the future, we 451eda14cbcSMatt Macy * will be compatible. 452eda14cbcSMatt Macy * 453eda14cbcSMatt Macy * The upper 24 bits store the ZSTD version to be able to provide 454eda14cbcSMatt Macy * future compatibility, since new versions might enhance the 455eda14cbcSMatt Macy * compression algorithm in a way, where the compressed data will 456eda14cbcSMatt Macy * change. 457eda14cbcSMatt Macy * 458eda14cbcSMatt Macy * As soon as such incompatibility occurs, handling code needs to be 459eda14cbcSMatt Macy * added, differentiating between the versions. 460eda14cbcSMatt Macy */ 461eda14cbcSMatt Macy hdr->version = ZSTD_VERSION_NUMBER; 462eda14cbcSMatt Macy hdr->level = level; 463eda14cbcSMatt Macy hdr->raw_version_level = BE_32(hdr->raw_version_level); 464eda14cbcSMatt Macy 465eda14cbcSMatt Macy return (c_len + sizeof (*hdr)); 466eda14cbcSMatt Macy } 467eda14cbcSMatt Macy 468eda14cbcSMatt Macy /* Decompress block using zstd and return its stored level */ 469eda14cbcSMatt Macy int 470eda14cbcSMatt Macy zfs_zstd_decompress_level(void *s_start, void *d_start, size_t s_len, 471eda14cbcSMatt Macy size_t d_len, uint8_t *level) 472eda14cbcSMatt Macy { 473eda14cbcSMatt Macy ZSTD_DCtx *dctx; 474eda14cbcSMatt Macy size_t result; 475eda14cbcSMatt Macy int16_t zstd_level; 476eda14cbcSMatt Macy uint32_t c_len; 477eda14cbcSMatt Macy const zfs_zstdhdr_t *hdr; 478eda14cbcSMatt Macy zfs_zstdhdr_t hdr_copy; 479eda14cbcSMatt Macy 480eda14cbcSMatt Macy hdr = (const zfs_zstdhdr_t *)s_start; 481eda14cbcSMatt Macy c_len = BE_32(hdr->c_len); 482eda14cbcSMatt Macy 483eda14cbcSMatt Macy /* 484eda14cbcSMatt Macy * Make a copy instead of directly converting the header, since we must 485eda14cbcSMatt Macy * not modify the original data that may be used again later. 486eda14cbcSMatt Macy */ 487eda14cbcSMatt Macy hdr_copy.raw_version_level = BE_32(hdr->raw_version_level); 488eda14cbcSMatt Macy 489eda14cbcSMatt Macy /* 490eda14cbcSMatt Macy * NOTE: We ignore the ZSTD version for now. As soon as any 491eda14cbcSMatt Macy * incompatibility occurrs, it has to be handled accordingly. 492eda14cbcSMatt Macy * The version can be accessed via `hdr_copy.version`. 493eda14cbcSMatt Macy */ 494eda14cbcSMatt Macy 495eda14cbcSMatt Macy /* 496eda14cbcSMatt Macy * Convert and check the level 497eda14cbcSMatt Macy * An invalid level is a strong indicator for data corruption! In such 498eda14cbcSMatt Macy * case return an error so the upper layers can try to fix it. 499eda14cbcSMatt Macy */ 500eda14cbcSMatt Macy if (zstd_enum_to_level(hdr_copy.level, &zstd_level)) { 501eda14cbcSMatt Macy ZSTDSTAT_BUMP(zstd_stat_dec_inval); 502eda14cbcSMatt Macy return (1); 503eda14cbcSMatt Macy } 504eda14cbcSMatt Macy 505eda14cbcSMatt Macy ASSERT3U(d_len, >=, s_len); 506eda14cbcSMatt Macy ASSERT3U(hdr_copy.level, !=, ZIO_COMPLEVEL_INHERIT); 507eda14cbcSMatt Macy 508eda14cbcSMatt Macy /* Invalid compressed buffer size encoded at start */ 509eda14cbcSMatt Macy if (c_len + sizeof (*hdr) > s_len) { 510eda14cbcSMatt Macy ZSTDSTAT_BUMP(zstd_stat_dec_header_inval); 511eda14cbcSMatt Macy return (1); 512eda14cbcSMatt Macy } 513eda14cbcSMatt Macy 514eda14cbcSMatt Macy dctx = ZSTD_createDCtx_advanced(zstd_dctx_malloc); 515eda14cbcSMatt Macy if (!dctx) { 516eda14cbcSMatt Macy ZSTDSTAT_BUMP(zstd_stat_dec_alloc_fail); 517eda14cbcSMatt Macy return (1); 518eda14cbcSMatt Macy } 519eda14cbcSMatt Macy 520eda14cbcSMatt Macy /* Set header type to "magicless" */ 521eda14cbcSMatt Macy ZSTD_DCtx_setParameter(dctx, ZSTD_d_format, ZSTD_f_zstd1_magicless); 522eda14cbcSMatt Macy 523eda14cbcSMatt Macy /* Decompress the data and release the context */ 524eda14cbcSMatt Macy result = ZSTD_decompressDCtx(dctx, d_start, d_len, hdr->data, c_len); 525eda14cbcSMatt Macy ZSTD_freeDCtx(dctx); 526eda14cbcSMatt Macy 527eda14cbcSMatt Macy /* 528eda14cbcSMatt Macy * Returns 0 on success (decompression function returned non-negative) 529eda14cbcSMatt Macy * and non-zero on failure (decompression function returned negative. 530eda14cbcSMatt Macy */ 531eda14cbcSMatt Macy if (ZSTD_isError(result)) { 532eda14cbcSMatt Macy ZSTDSTAT_BUMP(zstd_stat_dec_fail); 533eda14cbcSMatt Macy return (1); 534eda14cbcSMatt Macy } 535eda14cbcSMatt Macy 536eda14cbcSMatt Macy if (level) { 537eda14cbcSMatt Macy *level = hdr_copy.level; 538eda14cbcSMatt Macy } 539eda14cbcSMatt Macy 540eda14cbcSMatt Macy return (0); 541eda14cbcSMatt Macy } 542eda14cbcSMatt Macy 543eda14cbcSMatt Macy /* Decompress datablock using zstd */ 544eda14cbcSMatt Macy int 545eda14cbcSMatt Macy zfs_zstd_decompress(void *s_start, void *d_start, size_t s_len, size_t d_len, 546eda14cbcSMatt Macy int level __maybe_unused) 547eda14cbcSMatt Macy { 548eda14cbcSMatt Macy 549eda14cbcSMatt Macy return (zfs_zstd_decompress_level(s_start, d_start, s_len, d_len, 550eda14cbcSMatt Macy NULL)); 551eda14cbcSMatt Macy } 552eda14cbcSMatt Macy 553eda14cbcSMatt Macy /* Allocator for zstd compression context using mempool_allocator */ 554eda14cbcSMatt Macy static void * 555eda14cbcSMatt Macy zstd_alloc(void *opaque __maybe_unused, size_t size) 556eda14cbcSMatt Macy { 557eda14cbcSMatt Macy size_t nbytes = sizeof (struct zstd_kmem) + size; 558eda14cbcSMatt Macy struct zstd_kmem *z = NULL; 559eda14cbcSMatt Macy 560eda14cbcSMatt Macy z = (struct zstd_kmem *)zstd_mempool_alloc(zstd_mempool_cctx, nbytes); 561eda14cbcSMatt Macy 562eda14cbcSMatt Macy if (!z) { 563eda14cbcSMatt Macy ZSTDSTAT_BUMP(zstd_stat_alloc_fail); 564eda14cbcSMatt Macy return (NULL); 565eda14cbcSMatt Macy } 566eda14cbcSMatt Macy 567eda14cbcSMatt Macy return ((void*)z + (sizeof (struct zstd_kmem))); 568eda14cbcSMatt Macy } 569eda14cbcSMatt Macy 570eda14cbcSMatt Macy /* 571eda14cbcSMatt Macy * Allocator for zstd decompression context using mempool_allocator with 572eda14cbcSMatt Macy * fallback to reserved memory if allocation fails 573eda14cbcSMatt Macy */ 574eda14cbcSMatt Macy static void * 575eda14cbcSMatt Macy zstd_dctx_alloc(void *opaque __maybe_unused, size_t size) 576eda14cbcSMatt Macy { 577eda14cbcSMatt Macy size_t nbytes = sizeof (struct zstd_kmem) + size; 578eda14cbcSMatt Macy struct zstd_kmem *z = NULL; 579eda14cbcSMatt Macy enum zstd_kmem_type type = ZSTD_KMEM_DEFAULT; 580eda14cbcSMatt Macy 581eda14cbcSMatt Macy z = (struct zstd_kmem *)zstd_mempool_alloc(zstd_mempool_dctx, nbytes); 582eda14cbcSMatt Macy if (!z) { 583eda14cbcSMatt Macy /* Try harder, decompression shall not fail */ 584eda14cbcSMatt Macy z = vmem_alloc(nbytes, KM_SLEEP); 585eda14cbcSMatt Macy if (z) { 586eda14cbcSMatt Macy z->pool = NULL; 587eda14cbcSMatt Macy } 588eda14cbcSMatt Macy ZSTDSTAT_BUMP(zstd_stat_alloc_fail); 589eda14cbcSMatt Macy } else { 590eda14cbcSMatt Macy return ((void*)z + (sizeof (struct zstd_kmem))); 591eda14cbcSMatt Macy } 592eda14cbcSMatt Macy 593eda14cbcSMatt Macy /* Fallback if everything fails */ 594eda14cbcSMatt Macy if (!z) { 595eda14cbcSMatt Macy /* 596eda14cbcSMatt Macy * Barrier since we only can handle it in a single thread. All 597eda14cbcSMatt Macy * other following threads need to wait here until decompression 598eda14cbcSMatt Macy * is completed. zstd_free will release this barrier later. 599eda14cbcSMatt Macy */ 600eda14cbcSMatt Macy mutex_enter(&zstd_dctx_fallback.barrier); 601eda14cbcSMatt Macy 602eda14cbcSMatt Macy z = zstd_dctx_fallback.mem; 603eda14cbcSMatt Macy type = ZSTD_KMEM_DCTX; 604eda14cbcSMatt Macy ZSTDSTAT_BUMP(zstd_stat_alloc_fallback); 605eda14cbcSMatt Macy } 606eda14cbcSMatt Macy 607eda14cbcSMatt Macy /* Allocation should always be successful */ 608eda14cbcSMatt Macy if (!z) { 609eda14cbcSMatt Macy return (NULL); 610eda14cbcSMatt Macy } 611eda14cbcSMatt Macy 612eda14cbcSMatt Macy z->kmem_type = type; 613eda14cbcSMatt Macy z->kmem_size = nbytes; 614eda14cbcSMatt Macy 615eda14cbcSMatt Macy return ((void*)z + (sizeof (struct zstd_kmem))); 616eda14cbcSMatt Macy } 617eda14cbcSMatt Macy 618eda14cbcSMatt Macy /* Free allocated memory by its specific type */ 619eda14cbcSMatt Macy static void 620eda14cbcSMatt Macy zstd_free(void *opaque __maybe_unused, void *ptr) 621eda14cbcSMatt Macy { 622eda14cbcSMatt Macy struct zstd_kmem *z = (ptr - sizeof (struct zstd_kmem)); 623eda14cbcSMatt Macy enum zstd_kmem_type type; 624eda14cbcSMatt Macy 625eda14cbcSMatt Macy ASSERT3U(z->kmem_type, <, ZSTD_KMEM_COUNT); 626eda14cbcSMatt Macy ASSERT3U(z->kmem_type, >, ZSTD_KMEM_UNKNOWN); 627eda14cbcSMatt Macy 628eda14cbcSMatt Macy type = z->kmem_type; 629eda14cbcSMatt Macy switch (type) { 630eda14cbcSMatt Macy case ZSTD_KMEM_DEFAULT: 631eda14cbcSMatt Macy vmem_free(z, z->kmem_size); 632eda14cbcSMatt Macy break; 633eda14cbcSMatt Macy case ZSTD_KMEM_POOL: 634eda14cbcSMatt Macy zstd_mempool_free(z); 635eda14cbcSMatt Macy break; 636eda14cbcSMatt Macy case ZSTD_KMEM_DCTX: 637eda14cbcSMatt Macy mutex_exit(&zstd_dctx_fallback.barrier); 638eda14cbcSMatt Macy break; 639eda14cbcSMatt Macy default: 640eda14cbcSMatt Macy break; 641eda14cbcSMatt Macy } 642eda14cbcSMatt Macy } 643eda14cbcSMatt Macy 644eda14cbcSMatt Macy /* Allocate fallback memory to ensure safe decompression */ 645eda14cbcSMatt Macy static void __init 646eda14cbcSMatt Macy create_fallback_mem(struct zstd_fallback_mem *mem, size_t size) 647eda14cbcSMatt Macy { 648eda14cbcSMatt Macy mem->mem_size = size; 649eda14cbcSMatt Macy mem->mem = vmem_zalloc(mem->mem_size, KM_SLEEP); 650eda14cbcSMatt Macy mutex_init(&mem->barrier, NULL, MUTEX_DEFAULT, NULL); 651eda14cbcSMatt Macy } 652eda14cbcSMatt Macy 653eda14cbcSMatt Macy /* Initialize memory pool barrier mutexes */ 654eda14cbcSMatt Macy static void __init 655eda14cbcSMatt Macy zstd_mempool_init(void) 656eda14cbcSMatt Macy { 657eda14cbcSMatt Macy zstd_mempool_cctx = (struct zstd_pool *) 658eda14cbcSMatt Macy kmem_zalloc(ZSTD_POOL_MAX * sizeof (struct zstd_pool), KM_SLEEP); 659eda14cbcSMatt Macy zstd_mempool_dctx = (struct zstd_pool *) 660eda14cbcSMatt Macy kmem_zalloc(ZSTD_POOL_MAX * sizeof (struct zstd_pool), KM_SLEEP); 661eda14cbcSMatt Macy 662eda14cbcSMatt Macy for (int i = 0; i < ZSTD_POOL_MAX; i++) { 663eda14cbcSMatt Macy mutex_init(&zstd_mempool_cctx[i].barrier, NULL, 664eda14cbcSMatt Macy MUTEX_DEFAULT, NULL); 665eda14cbcSMatt Macy mutex_init(&zstd_mempool_dctx[i].barrier, NULL, 666eda14cbcSMatt Macy MUTEX_DEFAULT, NULL); 667eda14cbcSMatt Macy } 668eda14cbcSMatt Macy } 669eda14cbcSMatt Macy 670eda14cbcSMatt Macy /* Initialize zstd-related memory handling */ 671eda14cbcSMatt Macy static int __init 672eda14cbcSMatt Macy zstd_meminit(void) 673eda14cbcSMatt Macy { 674eda14cbcSMatt Macy zstd_mempool_init(); 675eda14cbcSMatt Macy 676eda14cbcSMatt Macy /* 677eda14cbcSMatt Macy * Estimate the size of the fallback decompression context. 678eda14cbcSMatt Macy * The expected size on x64 with current ZSTD should be about 160 KB. 679eda14cbcSMatt Macy */ 680eda14cbcSMatt Macy create_fallback_mem(&zstd_dctx_fallback, 681eda14cbcSMatt Macy P2ROUNDUP(ZSTD_estimateDCtxSize() + sizeof (struct zstd_kmem), 682eda14cbcSMatt Macy PAGESIZE)); 683eda14cbcSMatt Macy 684eda14cbcSMatt Macy return (0); 685eda14cbcSMatt Macy } 686eda14cbcSMatt Macy 687eda14cbcSMatt Macy /* Release object from pool and free memory */ 688eda14cbcSMatt Macy static void __exit 689eda14cbcSMatt Macy release_pool(struct zstd_pool *pool) 690eda14cbcSMatt Macy { 691eda14cbcSMatt Macy mutex_destroy(&pool->barrier); 692eda14cbcSMatt Macy vmem_free(pool->mem, pool->size); 693eda14cbcSMatt Macy pool->mem = NULL; 694eda14cbcSMatt Macy pool->size = 0; 695eda14cbcSMatt Macy } 696eda14cbcSMatt Macy 697eda14cbcSMatt Macy /* Release memory pool objects */ 698eda14cbcSMatt Macy static void __exit 699eda14cbcSMatt Macy zstd_mempool_deinit(void) 700eda14cbcSMatt Macy { 701eda14cbcSMatt Macy for (int i = 0; i < ZSTD_POOL_MAX; i++) { 702eda14cbcSMatt Macy release_pool(&zstd_mempool_cctx[i]); 703eda14cbcSMatt Macy release_pool(&zstd_mempool_dctx[i]); 704eda14cbcSMatt Macy } 705eda14cbcSMatt Macy 706eda14cbcSMatt Macy kmem_free(zstd_mempool_dctx, ZSTD_POOL_MAX * sizeof (struct zstd_pool)); 707eda14cbcSMatt Macy kmem_free(zstd_mempool_cctx, ZSTD_POOL_MAX * sizeof (struct zstd_pool)); 708eda14cbcSMatt Macy zstd_mempool_dctx = NULL; 709eda14cbcSMatt Macy zstd_mempool_cctx = NULL; 710eda14cbcSMatt Macy } 711eda14cbcSMatt Macy 712c40487d4SMatt Macy /* release unused memory from pool */ 713c40487d4SMatt Macy 714c40487d4SMatt Macy void 715c40487d4SMatt Macy zfs_zstd_cache_reap_now(void) 716c40487d4SMatt Macy { 71736639c39SMateusz Guzik 71836639c39SMateusz Guzik /* 71936639c39SMateusz Guzik * Short-circuit if there are no buffers to begin with. 72036639c39SMateusz Guzik */ 72136639c39SMateusz Guzik if (ZSTDSTAT(zstd_stat_buffers) == 0) 72236639c39SMateusz Guzik return; 72336639c39SMateusz Guzik 724c40487d4SMatt Macy /* 725c40487d4SMatt Macy * calling alloc with zero size seeks 726c40487d4SMatt Macy * and releases old unused objects 727c40487d4SMatt Macy */ 728*7877fdebSMatt Macy zstd_mempool_reap(zstd_mempool_cctx); 729*7877fdebSMatt Macy zstd_mempool_reap(zstd_mempool_dctx); 730c40487d4SMatt Macy } 731c40487d4SMatt Macy 732eda14cbcSMatt Macy extern int __init 733eda14cbcSMatt Macy zstd_init(void) 734eda14cbcSMatt Macy { 735eda14cbcSMatt Macy /* Set pool size by using maximum sane thread count * 4 */ 736eda14cbcSMatt Macy pool_count = (boot_ncpus * 4); 737eda14cbcSMatt Macy zstd_meminit(); 738eda14cbcSMatt Macy 739eda14cbcSMatt Macy /* Initialize kstat */ 740eda14cbcSMatt Macy zstd_ksp = kstat_create("zfs", 0, "zstd", "misc", 741eda14cbcSMatt Macy KSTAT_TYPE_NAMED, sizeof (zstd_stats) / sizeof (kstat_named_t), 742eda14cbcSMatt Macy KSTAT_FLAG_VIRTUAL); 743eda14cbcSMatt Macy if (zstd_ksp != NULL) { 744eda14cbcSMatt Macy zstd_ksp->ks_data = &zstd_stats; 745eda14cbcSMatt Macy kstat_install(zstd_ksp); 746eda14cbcSMatt Macy } 747eda14cbcSMatt Macy 748eda14cbcSMatt Macy return (0); 749eda14cbcSMatt Macy } 750eda14cbcSMatt Macy 751eda14cbcSMatt Macy extern void __exit 752eda14cbcSMatt Macy zstd_fini(void) 753eda14cbcSMatt Macy { 754eda14cbcSMatt Macy /* Deinitialize kstat */ 755eda14cbcSMatt Macy if (zstd_ksp != NULL) { 756eda14cbcSMatt Macy kstat_delete(zstd_ksp); 757eda14cbcSMatt Macy zstd_ksp = NULL; 758eda14cbcSMatt Macy } 759eda14cbcSMatt Macy 760eda14cbcSMatt Macy /* Release fallback memory */ 761eda14cbcSMatt Macy vmem_free(zstd_dctx_fallback.mem, zstd_dctx_fallback.mem_size); 762eda14cbcSMatt Macy mutex_destroy(&zstd_dctx_fallback.barrier); 763eda14cbcSMatt Macy 764eda14cbcSMatt Macy /* Deinit memory pool */ 765eda14cbcSMatt Macy zstd_mempool_deinit(); 766eda14cbcSMatt Macy } 767eda14cbcSMatt Macy 768eda14cbcSMatt Macy #if defined(_KERNEL) 769eda14cbcSMatt Macy module_init(zstd_init); 770eda14cbcSMatt Macy module_exit(zstd_fini); 771eda14cbcSMatt Macy 772eda14cbcSMatt Macy ZFS_MODULE_DESCRIPTION("ZSTD Compression for ZFS"); 773c40487d4SMatt Macy ZFS_MODULE_LICENSE("Dual BSD/GPL"); 774eda14cbcSMatt Macy ZFS_MODULE_VERSION(ZSTD_VERSION_STRING); 775eda14cbcSMatt Macy 776eda14cbcSMatt Macy EXPORT_SYMBOL(zfs_zstd_compress); 777eda14cbcSMatt Macy EXPORT_SYMBOL(zfs_zstd_decompress_level); 778eda14cbcSMatt Macy EXPORT_SYMBOL(zfs_zstd_decompress); 779c40487d4SMatt Macy EXPORT_SYMBOL(zfs_zstd_cache_reap_now); 780eda14cbcSMatt Macy #endif 781