1b8dc6b0eSVu Pham /* SPDX-License-Identifier: BSD-3-Clause 2b8dc6b0eSVu Pham * Copyright 2016 6WIND S.A. 3b8dc6b0eSVu Pham * Copyright 2020 Mellanox Technologies, Ltd 4b8dc6b0eSVu Pham */ 5b8dc6b0eSVu Pham #include <rte_eal_memconfig.h> 6b8dc6b0eSVu Pham #include <rte_errno.h> 7b8dc6b0eSVu Pham #include <rte_mempool.h> 8b8dc6b0eSVu Pham #include <rte_malloc.h> 9b8dc6b0eSVu Pham #include <rte_rwlock.h> 10b8dc6b0eSVu Pham 11b8dc6b0eSVu Pham #include "mlx5_glue.h" 12b8dc6b0eSVu Pham #include "mlx5_common_mp.h" 13b8dc6b0eSVu Pham #include "mlx5_common_mr.h" 14*25245d5dSShiri Kuzin #include "mlx5_common_log.h" 15fd970a54SSuanming Mou #include "mlx5_malloc.h" 16b8dc6b0eSVu Pham 17b8dc6b0eSVu Pham struct mr_find_contig_memsegs_data { 18b8dc6b0eSVu Pham uintptr_t addr; 19b8dc6b0eSVu Pham uintptr_t start; 20b8dc6b0eSVu Pham uintptr_t end; 21b8dc6b0eSVu Pham const struct rte_memseg_list *msl; 22b8dc6b0eSVu Pham }; 23b8dc6b0eSVu Pham 24b8dc6b0eSVu Pham /** 25b8dc6b0eSVu Pham * Expand B-tree table to a given size. Can't be called with holding 26b8dc6b0eSVu Pham * memory_hotplug_lock or share_cache.rwlock due to rte_realloc(). 27b8dc6b0eSVu Pham * 28b8dc6b0eSVu Pham * @param bt 29b8dc6b0eSVu Pham * Pointer to B-tree structure. 30b8dc6b0eSVu Pham * @param n 31b8dc6b0eSVu Pham * Number of entries for expansion. 32b8dc6b0eSVu Pham * 33b8dc6b0eSVu Pham * @return 34b8dc6b0eSVu Pham * 0 on success, -1 on failure. 35b8dc6b0eSVu Pham */ 36b8dc6b0eSVu Pham static int 37b8dc6b0eSVu Pham mr_btree_expand(struct mlx5_mr_btree *bt, int n) 38b8dc6b0eSVu Pham { 39b8dc6b0eSVu Pham void *mem; 40b8dc6b0eSVu Pham int ret = 0; 41b8dc6b0eSVu Pham 42b8dc6b0eSVu Pham if (n <= bt->size) 43b8dc6b0eSVu Pham return ret; 44b8dc6b0eSVu Pham /* 45b8dc6b0eSVu Pham * Downside of directly using rte_realloc() is that SOCKET_ID_ANY is 46b8dc6b0eSVu Pham * used inside if there's no room to expand. Because this is a quite 47b8dc6b0eSVu Pham * rare case and a part of very slow path, it is very acceptable. 48b8dc6b0eSVu Pham * Initially cache_bh[] will be given practically enough space and once 49b8dc6b0eSVu Pham * it is expanded, expansion wouldn't be needed again ever. 50b8dc6b0eSVu Pham */ 51fd970a54SSuanming Mou mem = mlx5_realloc(bt->table, MLX5_MEM_RTE | MLX5_MEM_ZERO, 52fd970a54SSuanming Mou n * sizeof(struct mr_cache_entry), 0, SOCKET_ID_ANY); 53b8dc6b0eSVu Pham if (mem == NULL) { 54b8dc6b0eSVu Pham /* Not an error, B-tree search will be skipped. */ 55b8dc6b0eSVu Pham DRV_LOG(WARNING, "failed to expand MR B-tree (%p) table", 56b8dc6b0eSVu Pham (void *)bt); 57b8dc6b0eSVu Pham ret = -1; 58b8dc6b0eSVu Pham } else { 59b8dc6b0eSVu Pham DRV_LOG(DEBUG, "expanded MR B-tree table (size=%u)", n); 60b8dc6b0eSVu Pham bt->table = mem; 61b8dc6b0eSVu Pham bt->size = n; 62b8dc6b0eSVu Pham } 63b8dc6b0eSVu Pham return ret; 64b8dc6b0eSVu Pham } 65b8dc6b0eSVu Pham 66b8dc6b0eSVu Pham /** 67b8dc6b0eSVu Pham * Look up LKey from given B-tree lookup table, store the last index and return 68b8dc6b0eSVu Pham * searched LKey. 69b8dc6b0eSVu Pham * 70b8dc6b0eSVu Pham * @param bt 71b8dc6b0eSVu Pham * Pointer to B-tree structure. 72b8dc6b0eSVu Pham * @param[out] idx 73b8dc6b0eSVu Pham * Pointer to index. Even on search failure, returns index where it stops 74b8dc6b0eSVu Pham * searching so that index can be used when inserting a new entry. 75b8dc6b0eSVu Pham * @param addr 76b8dc6b0eSVu Pham * Search key. 77b8dc6b0eSVu Pham * 78b8dc6b0eSVu Pham * @return 79b8dc6b0eSVu Pham * Searched LKey on success, UINT32_MAX on no match. 80b8dc6b0eSVu Pham */ 81b8dc6b0eSVu Pham static uint32_t 82b8dc6b0eSVu Pham mr_btree_lookup(struct mlx5_mr_btree *bt, uint16_t *idx, uintptr_t addr) 83b8dc6b0eSVu Pham { 84b8dc6b0eSVu Pham struct mr_cache_entry *lkp_tbl; 85b8dc6b0eSVu Pham uint16_t n; 86b8dc6b0eSVu Pham uint16_t base = 0; 87b8dc6b0eSVu Pham 88b8dc6b0eSVu Pham MLX5_ASSERT(bt != NULL); 89b8dc6b0eSVu Pham lkp_tbl = *bt->table; 90b8dc6b0eSVu Pham n = bt->len; 91b8dc6b0eSVu Pham /* First entry must be NULL for comparison. */ 92b8dc6b0eSVu Pham MLX5_ASSERT(bt->len > 0 || (lkp_tbl[0].start == 0 && 93b8dc6b0eSVu Pham lkp_tbl[0].lkey == UINT32_MAX)); 94b8dc6b0eSVu Pham /* Binary search. */ 95b8dc6b0eSVu Pham do { 96b8dc6b0eSVu Pham register uint16_t delta = n >> 1; 97b8dc6b0eSVu Pham 98b8dc6b0eSVu Pham if (addr < lkp_tbl[base + delta].start) { 99b8dc6b0eSVu Pham n = delta; 100b8dc6b0eSVu Pham } else { 101b8dc6b0eSVu Pham base += delta; 102b8dc6b0eSVu Pham n -= delta; 103b8dc6b0eSVu Pham } 104b8dc6b0eSVu Pham } while (n > 1); 105b8dc6b0eSVu Pham MLX5_ASSERT(addr >= lkp_tbl[base].start); 106b8dc6b0eSVu Pham *idx = base; 107b8dc6b0eSVu Pham if (addr < lkp_tbl[base].end) 108b8dc6b0eSVu Pham return lkp_tbl[base].lkey; 109b8dc6b0eSVu Pham /* Not found. */ 110b8dc6b0eSVu Pham return UINT32_MAX; 111b8dc6b0eSVu Pham } 112b8dc6b0eSVu Pham 113b8dc6b0eSVu Pham /** 114b8dc6b0eSVu Pham * Insert an entry to B-tree lookup table. 115b8dc6b0eSVu Pham * 116b8dc6b0eSVu Pham * @param bt 117b8dc6b0eSVu Pham * Pointer to B-tree structure. 118b8dc6b0eSVu Pham * @param entry 119b8dc6b0eSVu Pham * Pointer to new entry to insert. 120b8dc6b0eSVu Pham * 121b8dc6b0eSVu Pham * @return 122b8dc6b0eSVu Pham * 0 on success, -1 on failure. 123b8dc6b0eSVu Pham */ 124b8dc6b0eSVu Pham static int 125b8dc6b0eSVu Pham mr_btree_insert(struct mlx5_mr_btree *bt, struct mr_cache_entry *entry) 126b8dc6b0eSVu Pham { 127b8dc6b0eSVu Pham struct mr_cache_entry *lkp_tbl; 128b8dc6b0eSVu Pham uint16_t idx = 0; 129b8dc6b0eSVu Pham size_t shift; 130b8dc6b0eSVu Pham 131b8dc6b0eSVu Pham MLX5_ASSERT(bt != NULL); 132b8dc6b0eSVu Pham MLX5_ASSERT(bt->len <= bt->size); 133b8dc6b0eSVu Pham MLX5_ASSERT(bt->len > 0); 134b8dc6b0eSVu Pham lkp_tbl = *bt->table; 135b8dc6b0eSVu Pham /* Find out the slot for insertion. */ 136b8dc6b0eSVu Pham if (mr_btree_lookup(bt, &idx, entry->start) != UINT32_MAX) { 137b8dc6b0eSVu Pham DRV_LOG(DEBUG, 138b8dc6b0eSVu Pham "abort insertion to B-tree(%p): already exist at" 139b8dc6b0eSVu Pham " idx=%u [0x%" PRIxPTR ", 0x%" PRIxPTR ") lkey=0x%x", 140b8dc6b0eSVu Pham (void *)bt, idx, entry->start, entry->end, entry->lkey); 141b8dc6b0eSVu Pham /* Already exist, return. */ 142b8dc6b0eSVu Pham return 0; 143b8dc6b0eSVu Pham } 144b8dc6b0eSVu Pham /* If table is full, return error. */ 145b8dc6b0eSVu Pham if (unlikely(bt->len == bt->size)) { 146b8dc6b0eSVu Pham bt->overflow = 1; 147b8dc6b0eSVu Pham return -1; 148b8dc6b0eSVu Pham } 149b8dc6b0eSVu Pham /* Insert entry. */ 150b8dc6b0eSVu Pham ++idx; 151b8dc6b0eSVu Pham shift = (bt->len - idx) * sizeof(struct mr_cache_entry); 152b8dc6b0eSVu Pham if (shift) 153b8dc6b0eSVu Pham memmove(&lkp_tbl[idx + 1], &lkp_tbl[idx], shift); 154b8dc6b0eSVu Pham lkp_tbl[idx] = *entry; 155b8dc6b0eSVu Pham bt->len++; 156b8dc6b0eSVu Pham DRV_LOG(DEBUG, 157b8dc6b0eSVu Pham "inserted B-tree(%p)[%u]," 158b8dc6b0eSVu Pham " [0x%" PRIxPTR ", 0x%" PRIxPTR ") lkey=0x%x", 159b8dc6b0eSVu Pham (void *)bt, idx, entry->start, entry->end, entry->lkey); 160b8dc6b0eSVu Pham return 0; 161b8dc6b0eSVu Pham } 162b8dc6b0eSVu Pham 163b8dc6b0eSVu Pham /** 164b8dc6b0eSVu Pham * Initialize B-tree and allocate memory for lookup table. 165b8dc6b0eSVu Pham * 166b8dc6b0eSVu Pham * @param bt 167b8dc6b0eSVu Pham * Pointer to B-tree structure. 168b8dc6b0eSVu Pham * @param n 169b8dc6b0eSVu Pham * Number of entries to allocate. 170b8dc6b0eSVu Pham * @param socket 171b8dc6b0eSVu Pham * NUMA socket on which memory must be allocated. 172b8dc6b0eSVu Pham * 173b8dc6b0eSVu Pham * @return 174b8dc6b0eSVu Pham * 0 on success, a negative errno value otherwise and rte_errno is set. 175b8dc6b0eSVu Pham */ 176b8dc6b0eSVu Pham int 177b8dc6b0eSVu Pham mlx5_mr_btree_init(struct mlx5_mr_btree *bt, int n, int socket) 178b8dc6b0eSVu Pham { 179b8dc6b0eSVu Pham if (bt == NULL) { 180b8dc6b0eSVu Pham rte_errno = EINVAL; 181b8dc6b0eSVu Pham return -rte_errno; 182b8dc6b0eSVu Pham } 183b8dc6b0eSVu Pham MLX5_ASSERT(!bt->table && !bt->size); 184b8dc6b0eSVu Pham memset(bt, 0, sizeof(*bt)); 185fd970a54SSuanming Mou bt->table = mlx5_malloc(MLX5_MEM_RTE | MLX5_MEM_ZERO, 186fd970a54SSuanming Mou sizeof(struct mr_cache_entry) * n, 187b8dc6b0eSVu Pham 0, socket); 188b8dc6b0eSVu Pham if (bt->table == NULL) { 189b8dc6b0eSVu Pham rte_errno = ENOMEM; 19087acdcc7SThomas Monjalon DRV_LOG(DEBUG, 19187acdcc7SThomas Monjalon "failed to allocate memory for btree cache on socket " 19287acdcc7SThomas Monjalon "%d", socket); 193b8dc6b0eSVu Pham return -rte_errno; 194b8dc6b0eSVu Pham } 195b8dc6b0eSVu Pham bt->size = n; 196b8dc6b0eSVu Pham /* First entry must be NULL for binary search. */ 197b8dc6b0eSVu Pham (*bt->table)[bt->len++] = (struct mr_cache_entry) { 198b8dc6b0eSVu Pham .lkey = UINT32_MAX, 199b8dc6b0eSVu Pham }; 20087acdcc7SThomas Monjalon DRV_LOG(DEBUG, "initialized B-tree %p with table %p", 201b8dc6b0eSVu Pham (void *)bt, (void *)bt->table); 202b8dc6b0eSVu Pham return 0; 203b8dc6b0eSVu Pham } 204b8dc6b0eSVu Pham 205b8dc6b0eSVu Pham /** 206b8dc6b0eSVu Pham * Free B-tree resources. 207b8dc6b0eSVu Pham * 208b8dc6b0eSVu Pham * @param bt 209b8dc6b0eSVu Pham * Pointer to B-tree structure. 210b8dc6b0eSVu Pham */ 211b8dc6b0eSVu Pham void 212b8dc6b0eSVu Pham mlx5_mr_btree_free(struct mlx5_mr_btree *bt) 213b8dc6b0eSVu Pham { 214b8dc6b0eSVu Pham if (bt == NULL) 215b8dc6b0eSVu Pham return; 21687acdcc7SThomas Monjalon DRV_LOG(DEBUG, "freeing B-tree %p with table %p", 217b8dc6b0eSVu Pham (void *)bt, (void *)bt->table); 218fd970a54SSuanming Mou mlx5_free(bt->table); 219b8dc6b0eSVu Pham memset(bt, 0, sizeof(*bt)); 220b8dc6b0eSVu Pham } 221b8dc6b0eSVu Pham 222b8dc6b0eSVu Pham /** 223b8dc6b0eSVu Pham * Dump all the entries in a B-tree 224b8dc6b0eSVu Pham * 225b8dc6b0eSVu Pham * @param bt 226b8dc6b0eSVu Pham * Pointer to B-tree structure. 227b8dc6b0eSVu Pham */ 228b8dc6b0eSVu Pham void 229b8dc6b0eSVu Pham mlx5_mr_btree_dump(struct mlx5_mr_btree *bt __rte_unused) 230b8dc6b0eSVu Pham { 231b8dc6b0eSVu Pham #ifdef RTE_LIBRTE_MLX5_DEBUG 232b8dc6b0eSVu Pham int idx; 233b8dc6b0eSVu Pham struct mr_cache_entry *lkp_tbl; 234b8dc6b0eSVu Pham 235b8dc6b0eSVu Pham if (bt == NULL) 236b8dc6b0eSVu Pham return; 237b8dc6b0eSVu Pham lkp_tbl = *bt->table; 238b8dc6b0eSVu Pham for (idx = 0; idx < bt->len; ++idx) { 239b8dc6b0eSVu Pham struct mr_cache_entry *entry = &lkp_tbl[idx]; 240b8dc6b0eSVu Pham 24187acdcc7SThomas Monjalon DRV_LOG(DEBUG, "B-tree(%p)[%u]," 242b8dc6b0eSVu Pham " [0x%" PRIxPTR ", 0x%" PRIxPTR ") lkey=0x%x", 243b8dc6b0eSVu Pham (void *)bt, idx, entry->start, entry->end, entry->lkey); 244b8dc6b0eSVu Pham } 245b8dc6b0eSVu Pham #endif 246b8dc6b0eSVu Pham } 247b8dc6b0eSVu Pham 248b8dc6b0eSVu Pham /** 249b8dc6b0eSVu Pham * Find virtually contiguous memory chunk in a given MR. 250b8dc6b0eSVu Pham * 251b8dc6b0eSVu Pham * @param dev 252b8dc6b0eSVu Pham * Pointer to MR structure. 253b8dc6b0eSVu Pham * @param[out] entry 254b8dc6b0eSVu Pham * Pointer to returning MR cache entry. If not found, this will not be 255b8dc6b0eSVu Pham * updated. 256b8dc6b0eSVu Pham * @param start_idx 257b8dc6b0eSVu Pham * Start index of the memseg bitmap. 258b8dc6b0eSVu Pham * 259b8dc6b0eSVu Pham * @return 260b8dc6b0eSVu Pham * Next index to go on lookup. 261b8dc6b0eSVu Pham */ 262b8dc6b0eSVu Pham static int 263b8dc6b0eSVu Pham mr_find_next_chunk(struct mlx5_mr *mr, struct mr_cache_entry *entry, 264b8dc6b0eSVu Pham int base_idx) 265b8dc6b0eSVu Pham { 266b8dc6b0eSVu Pham uintptr_t start = 0; 267b8dc6b0eSVu Pham uintptr_t end = 0; 268b8dc6b0eSVu Pham uint32_t idx = 0; 269b8dc6b0eSVu Pham 270b8dc6b0eSVu Pham /* MR for external memory doesn't have memseg list. */ 271b8dc6b0eSVu Pham if (mr->msl == NULL) { 272b8dc6b0eSVu Pham MLX5_ASSERT(mr->ms_bmp_n == 1); 273b8dc6b0eSVu Pham MLX5_ASSERT(mr->ms_n == 1); 274b8dc6b0eSVu Pham MLX5_ASSERT(base_idx == 0); 275b8dc6b0eSVu Pham /* 276b8dc6b0eSVu Pham * Can't search it from memseg list but get it directly from 27756d20677SOphir Munk * pmd_mr as there's only one chunk. 278b8dc6b0eSVu Pham */ 27956d20677SOphir Munk entry->start = (uintptr_t)mr->pmd_mr.addr; 28056d20677SOphir Munk entry->end = (uintptr_t)mr->pmd_mr.addr + mr->pmd_mr.len; 28156d20677SOphir Munk entry->lkey = rte_cpu_to_be_32(mr->pmd_mr.lkey); 282b8dc6b0eSVu Pham /* Returning 1 ends iteration. */ 283b8dc6b0eSVu Pham return 1; 284b8dc6b0eSVu Pham } 285b8dc6b0eSVu Pham for (idx = base_idx; idx < mr->ms_bmp_n; ++idx) { 286b8dc6b0eSVu Pham if (rte_bitmap_get(mr->ms_bmp, idx)) { 287b8dc6b0eSVu Pham const struct rte_memseg_list *msl; 288b8dc6b0eSVu Pham const struct rte_memseg *ms; 289b8dc6b0eSVu Pham 290b8dc6b0eSVu Pham msl = mr->msl; 291b8dc6b0eSVu Pham ms = rte_fbarray_get(&msl->memseg_arr, 292b8dc6b0eSVu Pham mr->ms_base_idx + idx); 293b8dc6b0eSVu Pham MLX5_ASSERT(msl->page_sz == ms->hugepage_sz); 294b8dc6b0eSVu Pham if (!start) 295b8dc6b0eSVu Pham start = ms->addr_64; 296b8dc6b0eSVu Pham end = ms->addr_64 + ms->hugepage_sz; 297b8dc6b0eSVu Pham } else if (start) { 298b8dc6b0eSVu Pham /* Passed the end of a fragment. */ 299b8dc6b0eSVu Pham break; 300b8dc6b0eSVu Pham } 301b8dc6b0eSVu Pham } 302b8dc6b0eSVu Pham if (start) { 303b8dc6b0eSVu Pham /* Found one chunk. */ 304b8dc6b0eSVu Pham entry->start = start; 305b8dc6b0eSVu Pham entry->end = end; 30656d20677SOphir Munk entry->lkey = rte_cpu_to_be_32(mr->pmd_mr.lkey); 307b8dc6b0eSVu Pham } 308b8dc6b0eSVu Pham return idx; 309b8dc6b0eSVu Pham } 310b8dc6b0eSVu Pham 311b8dc6b0eSVu Pham /** 312b8dc6b0eSVu Pham * Insert a MR to the global B-tree cache. It may fail due to low-on-memory. 313b8dc6b0eSVu Pham * Then, this entry will have to be searched by mr_lookup_list() in 314b8dc6b0eSVu Pham * mlx5_mr_create() on miss. 315b8dc6b0eSVu Pham * 316b8dc6b0eSVu Pham * @param share_cache 317b8dc6b0eSVu Pham * Pointer to a global shared MR cache. 318b8dc6b0eSVu Pham * @param mr 319b8dc6b0eSVu Pham * Pointer to MR to insert. 320b8dc6b0eSVu Pham * 321b8dc6b0eSVu Pham * @return 322b8dc6b0eSVu Pham * 0 on success, -1 on failure. 323b8dc6b0eSVu Pham */ 324b8dc6b0eSVu Pham int 325b8dc6b0eSVu Pham mlx5_mr_insert_cache(struct mlx5_mr_share_cache *share_cache, 326b8dc6b0eSVu Pham struct mlx5_mr *mr) 327b8dc6b0eSVu Pham { 328b8dc6b0eSVu Pham unsigned int n; 329b8dc6b0eSVu Pham 330b8dc6b0eSVu Pham DRV_LOG(DEBUG, "Inserting MR(%p) to global cache(%p)", 331b8dc6b0eSVu Pham (void *)mr, (void *)share_cache); 332b8dc6b0eSVu Pham for (n = 0; n < mr->ms_bmp_n; ) { 333b8dc6b0eSVu Pham struct mr_cache_entry entry; 334b8dc6b0eSVu Pham 335b8dc6b0eSVu Pham memset(&entry, 0, sizeof(entry)); 336b8dc6b0eSVu Pham /* Find a contiguous chunk and advance the index. */ 337b8dc6b0eSVu Pham n = mr_find_next_chunk(mr, &entry, n); 338b8dc6b0eSVu Pham if (!entry.end) 339b8dc6b0eSVu Pham break; 340b8dc6b0eSVu Pham if (mr_btree_insert(&share_cache->cache, &entry) < 0) { 341b8dc6b0eSVu Pham /* 342b8dc6b0eSVu Pham * Overflowed, but the global table cannot be expanded 343b8dc6b0eSVu Pham * because of deadlock. 344b8dc6b0eSVu Pham */ 345b8dc6b0eSVu Pham return -1; 346b8dc6b0eSVu Pham } 347b8dc6b0eSVu Pham } 348b8dc6b0eSVu Pham return 0; 349b8dc6b0eSVu Pham } 350b8dc6b0eSVu Pham 351b8dc6b0eSVu Pham /** 352b8dc6b0eSVu Pham * Look up address in the original global MR list. 353b8dc6b0eSVu Pham * 354b8dc6b0eSVu Pham * @param share_cache 355b8dc6b0eSVu Pham * Pointer to a global shared MR cache. 356b8dc6b0eSVu Pham * @param[out] entry 357b8dc6b0eSVu Pham * Pointer to returning MR cache entry. If no match, this will not be updated. 358b8dc6b0eSVu Pham * @param addr 359b8dc6b0eSVu Pham * Search key. 360b8dc6b0eSVu Pham * 361b8dc6b0eSVu Pham * @return 362b8dc6b0eSVu Pham * Found MR on match, NULL otherwise. 363b8dc6b0eSVu Pham */ 364b8dc6b0eSVu Pham struct mlx5_mr * 365b8dc6b0eSVu Pham mlx5_mr_lookup_list(struct mlx5_mr_share_cache *share_cache, 366b8dc6b0eSVu Pham struct mr_cache_entry *entry, uintptr_t addr) 367b8dc6b0eSVu Pham { 368b8dc6b0eSVu Pham struct mlx5_mr *mr; 369b8dc6b0eSVu Pham 370b8dc6b0eSVu Pham /* Iterate all the existing MRs. */ 371b8dc6b0eSVu Pham LIST_FOREACH(mr, &share_cache->mr_list, mr) { 372b8dc6b0eSVu Pham unsigned int n; 373b8dc6b0eSVu Pham 374b8dc6b0eSVu Pham if (mr->ms_n == 0) 375b8dc6b0eSVu Pham continue; 376b8dc6b0eSVu Pham for (n = 0; n < mr->ms_bmp_n; ) { 377b8dc6b0eSVu Pham struct mr_cache_entry ret; 378b8dc6b0eSVu Pham 379b8dc6b0eSVu Pham memset(&ret, 0, sizeof(ret)); 380b8dc6b0eSVu Pham n = mr_find_next_chunk(mr, &ret, n); 381b8dc6b0eSVu Pham if (addr >= ret.start && addr < ret.end) { 382b8dc6b0eSVu Pham /* Found. */ 383b8dc6b0eSVu Pham *entry = ret; 384b8dc6b0eSVu Pham return mr; 385b8dc6b0eSVu Pham } 386b8dc6b0eSVu Pham } 387b8dc6b0eSVu Pham } 388b8dc6b0eSVu Pham return NULL; 389b8dc6b0eSVu Pham } 390b8dc6b0eSVu Pham 391b8dc6b0eSVu Pham /** 392b8dc6b0eSVu Pham * Look up address on global MR cache. 393b8dc6b0eSVu Pham * 394b8dc6b0eSVu Pham * @param share_cache 395b8dc6b0eSVu Pham * Pointer to a global shared MR cache. 396b8dc6b0eSVu Pham * @param[out] entry 397b8dc6b0eSVu Pham * Pointer to returning MR cache entry. If no match, this will not be updated. 398b8dc6b0eSVu Pham * @param addr 399b8dc6b0eSVu Pham * Search key. 400b8dc6b0eSVu Pham * 401b8dc6b0eSVu Pham * @return 402b8dc6b0eSVu Pham * Searched LKey on success, UINT32_MAX on failure and rte_errno is set. 403b8dc6b0eSVu Pham */ 404b8dc6b0eSVu Pham uint32_t 405b8dc6b0eSVu Pham mlx5_mr_lookup_cache(struct mlx5_mr_share_cache *share_cache, 406b8dc6b0eSVu Pham struct mr_cache_entry *entry, uintptr_t addr) 407b8dc6b0eSVu Pham { 408b8dc6b0eSVu Pham uint16_t idx; 409b8dc6b0eSVu Pham uint32_t lkey = UINT32_MAX; 410b8dc6b0eSVu Pham struct mlx5_mr *mr; 411b8dc6b0eSVu Pham 412b8dc6b0eSVu Pham /* 413b8dc6b0eSVu Pham * If the global cache has overflowed since it failed to expand the 414b8dc6b0eSVu Pham * B-tree table, it can't have all the existing MRs. Then, the address 415b8dc6b0eSVu Pham * has to be searched by traversing the original MR list instead, which 416b8dc6b0eSVu Pham * is very slow path. Otherwise, the global cache is all inclusive. 417b8dc6b0eSVu Pham */ 418b8dc6b0eSVu Pham if (!unlikely(share_cache->cache.overflow)) { 419b8dc6b0eSVu Pham lkey = mr_btree_lookup(&share_cache->cache, &idx, addr); 420b8dc6b0eSVu Pham if (lkey != UINT32_MAX) 421b8dc6b0eSVu Pham *entry = (*share_cache->cache.table)[idx]; 422b8dc6b0eSVu Pham } else { 423b8dc6b0eSVu Pham /* Falling back to the slowest path. */ 424b8dc6b0eSVu Pham mr = mlx5_mr_lookup_list(share_cache, entry, addr); 425b8dc6b0eSVu Pham if (mr != NULL) 426b8dc6b0eSVu Pham lkey = entry->lkey; 427b8dc6b0eSVu Pham } 428b8dc6b0eSVu Pham MLX5_ASSERT(lkey == UINT32_MAX || (addr >= entry->start && 429b8dc6b0eSVu Pham addr < entry->end)); 430b8dc6b0eSVu Pham return lkey; 431b8dc6b0eSVu Pham } 432b8dc6b0eSVu Pham 433b8dc6b0eSVu Pham /** 434b8dc6b0eSVu Pham * Free MR resources. MR lock must not be held to avoid a deadlock. rte_free() 435b8dc6b0eSVu Pham * can raise memory free event and the callback function will spin on the lock. 436b8dc6b0eSVu Pham * 437b8dc6b0eSVu Pham * @param mr 438b8dc6b0eSVu Pham * Pointer to MR to free. 439b8dc6b0eSVu Pham */ 440992e6df3SJiawei Wang void 441992e6df3SJiawei Wang mlx5_mr_free(struct mlx5_mr *mr, mlx5_dereg_mr_t dereg_mr_cb) 442b8dc6b0eSVu Pham { 443b8dc6b0eSVu Pham if (mr == NULL) 444b8dc6b0eSVu Pham return; 445b8dc6b0eSVu Pham DRV_LOG(DEBUG, "freeing MR(%p):", (void *)mr); 446d5ed8aa9SOphir Munk dereg_mr_cb(&mr->pmd_mr); 447b8dc6b0eSVu Pham if (mr->ms_bmp != NULL) 448b8dc6b0eSVu Pham rte_bitmap_free(mr->ms_bmp); 449fd970a54SSuanming Mou mlx5_free(mr); 450b8dc6b0eSVu Pham } 451b8dc6b0eSVu Pham 452b8dc6b0eSVu Pham void 453b8dc6b0eSVu Pham mlx5_mr_rebuild_cache(struct mlx5_mr_share_cache *share_cache) 454b8dc6b0eSVu Pham { 455b8dc6b0eSVu Pham struct mlx5_mr *mr; 456b8dc6b0eSVu Pham 457b8dc6b0eSVu Pham DRV_LOG(DEBUG, "Rebuild dev cache[] %p", (void *)share_cache); 458b8dc6b0eSVu Pham /* Flush cache to rebuild. */ 459b8dc6b0eSVu Pham share_cache->cache.len = 1; 460b8dc6b0eSVu Pham share_cache->cache.overflow = 0; 461b8dc6b0eSVu Pham /* Iterate all the existing MRs. */ 462b8dc6b0eSVu Pham LIST_FOREACH(mr, &share_cache->mr_list, mr) 463b8dc6b0eSVu Pham if (mlx5_mr_insert_cache(share_cache, mr) < 0) 464b8dc6b0eSVu Pham return; 465b8dc6b0eSVu Pham } 466b8dc6b0eSVu Pham 467b8dc6b0eSVu Pham /** 468b8dc6b0eSVu Pham * Release resources of detached MR having no online entry. 469b8dc6b0eSVu Pham * 470b8dc6b0eSVu Pham * @param share_cache 471b8dc6b0eSVu Pham * Pointer to a global shared MR cache. 472b8dc6b0eSVu Pham */ 473b8dc6b0eSVu Pham static void 474b8dc6b0eSVu Pham mlx5_mr_garbage_collect(struct mlx5_mr_share_cache *share_cache) 475b8dc6b0eSVu Pham { 476b8dc6b0eSVu Pham struct mlx5_mr *mr_next; 477b8dc6b0eSVu Pham struct mlx5_mr_list free_list = LIST_HEAD_INITIALIZER(free_list); 478b8dc6b0eSVu Pham 479b8dc6b0eSVu Pham /* Must be called from the primary process. */ 480b8dc6b0eSVu Pham MLX5_ASSERT(rte_eal_process_type() == RTE_PROC_PRIMARY); 481b8dc6b0eSVu Pham /* 482b8dc6b0eSVu Pham * MR can't be freed with holding the lock because rte_free() could call 483b8dc6b0eSVu Pham * memory free callback function. This will be a deadlock situation. 484b8dc6b0eSVu Pham */ 485b8dc6b0eSVu Pham rte_rwlock_write_lock(&share_cache->rwlock); 486b8dc6b0eSVu Pham /* Detach the whole free list and release it after unlocking. */ 487b8dc6b0eSVu Pham free_list = share_cache->mr_free_list; 488b8dc6b0eSVu Pham LIST_INIT(&share_cache->mr_free_list); 489b8dc6b0eSVu Pham rte_rwlock_write_unlock(&share_cache->rwlock); 490b8dc6b0eSVu Pham /* Release resources. */ 491b8dc6b0eSVu Pham mr_next = LIST_FIRST(&free_list); 492b8dc6b0eSVu Pham while (mr_next != NULL) { 493b8dc6b0eSVu Pham struct mlx5_mr *mr = mr_next; 494b8dc6b0eSVu Pham 495b8dc6b0eSVu Pham mr_next = LIST_NEXT(mr, mr); 496992e6df3SJiawei Wang mlx5_mr_free(mr, share_cache->dereg_mr_cb); 497b8dc6b0eSVu Pham } 498b8dc6b0eSVu Pham } 499b8dc6b0eSVu Pham 500b8dc6b0eSVu Pham /* Called during rte_memseg_contig_walk() by mlx5_mr_create(). */ 501b8dc6b0eSVu Pham static int 502b8dc6b0eSVu Pham mr_find_contig_memsegs_cb(const struct rte_memseg_list *msl, 503b8dc6b0eSVu Pham const struct rte_memseg *ms, size_t len, void *arg) 504b8dc6b0eSVu Pham { 505b8dc6b0eSVu Pham struct mr_find_contig_memsegs_data *data = arg; 506b8dc6b0eSVu Pham 507b8dc6b0eSVu Pham if (data->addr < ms->addr_64 || data->addr >= ms->addr_64 + len) 508b8dc6b0eSVu Pham return 0; 509b8dc6b0eSVu Pham /* Found, save it and stop walking. */ 510b8dc6b0eSVu Pham data->start = ms->addr_64; 511b8dc6b0eSVu Pham data->end = ms->addr_64 + len; 512b8dc6b0eSVu Pham data->msl = msl; 513b8dc6b0eSVu Pham return 1; 514b8dc6b0eSVu Pham } 515b8dc6b0eSVu Pham 516b8dc6b0eSVu Pham /** 517b8dc6b0eSVu Pham * Create a new global Memory Region (MR) for a missing virtual address. 518b8dc6b0eSVu Pham * This API should be called on a secondary process, then a request is sent to 519b8dc6b0eSVu Pham * the primary process in order to create a MR for the address. As the global MR 520b8dc6b0eSVu Pham * list is on the shared memory, following LKey lookup should succeed unless the 521b8dc6b0eSVu Pham * request fails. 522b8dc6b0eSVu Pham * 523b8dc6b0eSVu Pham * @param pd 524c4685016SOphir Munk * Pointer to pd of a device (net, regex, vdpa,...). 525b8dc6b0eSVu Pham * @param share_cache 526b8dc6b0eSVu Pham * Pointer to a global shared MR cache. 527b8dc6b0eSVu Pham * @param[out] entry 528b8dc6b0eSVu Pham * Pointer to returning MR cache entry, found in the global cache or newly 529b8dc6b0eSVu Pham * created. If failed to create one, this will not be updated. 530b8dc6b0eSVu Pham * @param addr 531b8dc6b0eSVu Pham * Target virtual address to register. 532b8dc6b0eSVu Pham * @param mr_ext_memseg_en 533b8dc6b0eSVu Pham * Configurable flag about external memory segment enable or not. 534b8dc6b0eSVu Pham * 535b8dc6b0eSVu Pham * @return 536b8dc6b0eSVu Pham * Searched LKey on success, UINT32_MAX on failure and rte_errno is set. 537b8dc6b0eSVu Pham */ 538b8dc6b0eSVu Pham static uint32_t 539c4685016SOphir Munk mlx5_mr_create_secondary(void *pd __rte_unused, 540b8dc6b0eSVu Pham struct mlx5_mp_id *mp_id, 541b8dc6b0eSVu Pham struct mlx5_mr_share_cache *share_cache, 542b8dc6b0eSVu Pham struct mr_cache_entry *entry, uintptr_t addr, 543b8dc6b0eSVu Pham unsigned int mr_ext_memseg_en __rte_unused) 544b8dc6b0eSVu Pham { 545b8dc6b0eSVu Pham int ret; 546b8dc6b0eSVu Pham 54787acdcc7SThomas Monjalon DRV_LOG(DEBUG, "port %u requesting MR creation for address (%p)", 548b8dc6b0eSVu Pham mp_id->port_id, (void *)addr); 549b8dc6b0eSVu Pham ret = mlx5_mp_req_mr_create(mp_id, addr); 550b8dc6b0eSVu Pham if (ret) { 55187acdcc7SThomas Monjalon DRV_LOG(DEBUG, "Fail to request MR creation for address (%p)", 552b8dc6b0eSVu Pham (void *)addr); 553b8dc6b0eSVu Pham return UINT32_MAX; 554b8dc6b0eSVu Pham } 555b8dc6b0eSVu Pham rte_rwlock_read_lock(&share_cache->rwlock); 556b8dc6b0eSVu Pham /* Fill in output data. */ 557b8dc6b0eSVu Pham mlx5_mr_lookup_cache(share_cache, entry, addr); 558b8dc6b0eSVu Pham /* Lookup can't fail. */ 559b8dc6b0eSVu Pham MLX5_ASSERT(entry->lkey != UINT32_MAX); 560b8dc6b0eSVu Pham rte_rwlock_read_unlock(&share_cache->rwlock); 56187acdcc7SThomas Monjalon DRV_LOG(DEBUG, "MR CREATED by primary process for %p:\n" 562b8dc6b0eSVu Pham " [0x%" PRIxPTR ", 0x%" PRIxPTR "), lkey=0x%x", 563b8dc6b0eSVu Pham (void *)addr, entry->start, entry->end, entry->lkey); 564b8dc6b0eSVu Pham return entry->lkey; 565b8dc6b0eSVu Pham } 566b8dc6b0eSVu Pham 567b8dc6b0eSVu Pham /** 568b8dc6b0eSVu Pham * Create a new global Memory Region (MR) for a missing virtual address. 569b8dc6b0eSVu Pham * Register entire virtually contiguous memory chunk around the address. 570b8dc6b0eSVu Pham * 571b8dc6b0eSVu Pham * @param pd 572c4685016SOphir Munk * Pointer to pd of a device (net, regex, vdpa,...). 573b8dc6b0eSVu Pham * @param share_cache 574b8dc6b0eSVu Pham * Pointer to a global shared MR cache. 575b8dc6b0eSVu Pham * @param[out] entry 576b8dc6b0eSVu Pham * Pointer to returning MR cache entry, found in the global cache or newly 577b8dc6b0eSVu Pham * created. If failed to create one, this will not be updated. 578b8dc6b0eSVu Pham * @param addr 579b8dc6b0eSVu Pham * Target virtual address to register. 580b8dc6b0eSVu Pham * @param mr_ext_memseg_en 581b8dc6b0eSVu Pham * Configurable flag about external memory segment enable or not. 582b8dc6b0eSVu Pham * 583b8dc6b0eSVu Pham * @return 584b8dc6b0eSVu Pham * Searched LKey on success, UINT32_MAX on failure and rte_errno is set. 585b8dc6b0eSVu Pham */ 586b8dc6b0eSVu Pham uint32_t 587c4685016SOphir Munk mlx5_mr_create_primary(void *pd, 588b8dc6b0eSVu Pham struct mlx5_mr_share_cache *share_cache, 589b8dc6b0eSVu Pham struct mr_cache_entry *entry, uintptr_t addr, 590b8dc6b0eSVu Pham unsigned int mr_ext_memseg_en) 591b8dc6b0eSVu Pham { 592b8dc6b0eSVu Pham struct mr_find_contig_memsegs_data data = {.addr = addr, }; 593b8dc6b0eSVu Pham struct mr_find_contig_memsegs_data data_re; 594b8dc6b0eSVu Pham const struct rte_memseg_list *msl; 595b8dc6b0eSVu Pham const struct rte_memseg *ms; 596b8dc6b0eSVu Pham struct mlx5_mr *mr = NULL; 597b8dc6b0eSVu Pham int ms_idx_shift = -1; 598b8dc6b0eSVu Pham uint32_t bmp_size; 599b8dc6b0eSVu Pham void *bmp_mem; 600b8dc6b0eSVu Pham uint32_t ms_n; 601b8dc6b0eSVu Pham uint32_t n; 602b8dc6b0eSVu Pham size_t len; 603b8dc6b0eSVu Pham 604b8dc6b0eSVu Pham DRV_LOG(DEBUG, "Creating a MR using address (%p)", (void *)addr); 605b8dc6b0eSVu Pham /* 606b8dc6b0eSVu Pham * Release detached MRs if any. This can't be called with holding either 607b8dc6b0eSVu Pham * memory_hotplug_lock or share_cache->rwlock. MRs on the free list have 608b8dc6b0eSVu Pham * been detached by the memory free event but it couldn't be released 609b8dc6b0eSVu Pham * inside the callback due to deadlock. As a result, releasing resources 610b8dc6b0eSVu Pham * is quite opportunistic. 611b8dc6b0eSVu Pham */ 612b8dc6b0eSVu Pham mlx5_mr_garbage_collect(share_cache); 613b8dc6b0eSVu Pham /* 614b8dc6b0eSVu Pham * If enabled, find out a contiguous virtual address chunk in use, to 615b8dc6b0eSVu Pham * which the given address belongs, in order to register maximum range. 616b8dc6b0eSVu Pham * In the best case where mempools are not dynamically recreated and 617b8dc6b0eSVu Pham * '--socket-mem' is specified as an EAL option, it is very likely to 618b8dc6b0eSVu Pham * have only one MR(LKey) per a socket and per a hugepage-size even 619b8dc6b0eSVu Pham * though the system memory is highly fragmented. As the whole memory 620b8dc6b0eSVu Pham * chunk will be pinned by kernel, it can't be reused unless entire 621b8dc6b0eSVu Pham * chunk is freed from EAL. 622b8dc6b0eSVu Pham * 623b8dc6b0eSVu Pham * If disabled, just register one memseg (page). Then, memory 624b8dc6b0eSVu Pham * consumption will be minimized but it may drop performance if there 625b8dc6b0eSVu Pham * are many MRs to lookup on the datapath. 626b8dc6b0eSVu Pham */ 627b8dc6b0eSVu Pham if (!mr_ext_memseg_en) { 628b8dc6b0eSVu Pham data.msl = rte_mem_virt2memseg_list((void *)addr); 629b8dc6b0eSVu Pham data.start = RTE_ALIGN_FLOOR(addr, data.msl->page_sz); 630b8dc6b0eSVu Pham data.end = data.start + data.msl->page_sz; 631b8dc6b0eSVu Pham } else if (!rte_memseg_contig_walk(mr_find_contig_memsegs_cb, &data)) { 632b8dc6b0eSVu Pham DRV_LOG(WARNING, 633b8dc6b0eSVu Pham "Unable to find virtually contiguous" 634b8dc6b0eSVu Pham " chunk for address (%p)." 635b8dc6b0eSVu Pham " rte_memseg_contig_walk() failed.", (void *)addr); 636b8dc6b0eSVu Pham rte_errno = ENXIO; 637b8dc6b0eSVu Pham goto err_nolock; 638b8dc6b0eSVu Pham } 639b8dc6b0eSVu Pham alloc_resources: 640b8dc6b0eSVu Pham /* Addresses must be page-aligned. */ 641b8dc6b0eSVu Pham MLX5_ASSERT(data.msl); 642b8dc6b0eSVu Pham MLX5_ASSERT(rte_is_aligned((void *)data.start, data.msl->page_sz)); 643b8dc6b0eSVu Pham MLX5_ASSERT(rte_is_aligned((void *)data.end, data.msl->page_sz)); 644b8dc6b0eSVu Pham msl = data.msl; 645b8dc6b0eSVu Pham ms = rte_mem_virt2memseg((void *)data.start, msl); 646b8dc6b0eSVu Pham len = data.end - data.start; 647b8dc6b0eSVu Pham MLX5_ASSERT(ms); 648b8dc6b0eSVu Pham MLX5_ASSERT(msl->page_sz == ms->hugepage_sz); 649b8dc6b0eSVu Pham /* Number of memsegs in the range. */ 650b8dc6b0eSVu Pham ms_n = len / msl->page_sz; 65187acdcc7SThomas Monjalon DRV_LOG(DEBUG, "Extending %p to [0x%" PRIxPTR ", 0x%" PRIxPTR ")," 652b8dc6b0eSVu Pham " page_sz=0x%" PRIx64 ", ms_n=%u", 653b8dc6b0eSVu Pham (void *)addr, data.start, data.end, msl->page_sz, ms_n); 654b8dc6b0eSVu Pham /* Size of memory for bitmap. */ 655b8dc6b0eSVu Pham bmp_size = rte_bitmap_get_memory_footprint(ms_n); 656fd970a54SSuanming Mou mr = mlx5_malloc(MLX5_MEM_RTE | MLX5_MEM_ZERO, 657fd970a54SSuanming Mou RTE_ALIGN_CEIL(sizeof(*mr), RTE_CACHE_LINE_SIZE) + 658fd970a54SSuanming Mou bmp_size, RTE_CACHE_LINE_SIZE, msl->socket_id); 659b8dc6b0eSVu Pham if (mr == NULL) { 66087acdcc7SThomas Monjalon DRV_LOG(DEBUG, "Unable to allocate memory for a new MR of" 661b8dc6b0eSVu Pham " address (%p).", (void *)addr); 662b8dc6b0eSVu Pham rte_errno = ENOMEM; 663b8dc6b0eSVu Pham goto err_nolock; 664b8dc6b0eSVu Pham } 665b8dc6b0eSVu Pham mr->msl = msl; 666b8dc6b0eSVu Pham /* 667b8dc6b0eSVu Pham * Save the index of the first memseg and initialize memseg bitmap. To 668b8dc6b0eSVu Pham * see if a memseg of ms_idx in the memseg-list is still valid, check: 669b8dc6b0eSVu Pham * rte_bitmap_get(mr->bmp, ms_idx - mr->ms_base_idx) 670b8dc6b0eSVu Pham */ 671b8dc6b0eSVu Pham mr->ms_base_idx = rte_fbarray_find_idx(&msl->memseg_arr, ms); 672b8dc6b0eSVu Pham bmp_mem = RTE_PTR_ALIGN_CEIL(mr + 1, RTE_CACHE_LINE_SIZE); 673b8dc6b0eSVu Pham mr->ms_bmp = rte_bitmap_init(ms_n, bmp_mem, bmp_size); 674b8dc6b0eSVu Pham if (mr->ms_bmp == NULL) { 67587acdcc7SThomas Monjalon DRV_LOG(DEBUG, "Unable to initialize bitmap for a new MR of" 676b8dc6b0eSVu Pham " address (%p).", (void *)addr); 677b8dc6b0eSVu Pham rte_errno = EINVAL; 678b8dc6b0eSVu Pham goto err_nolock; 679b8dc6b0eSVu Pham } 680b8dc6b0eSVu Pham /* 681b8dc6b0eSVu Pham * Should recheck whether the extended contiguous chunk is still valid. 682b8dc6b0eSVu Pham * Because memory_hotplug_lock can't be held if there's any memory 683b8dc6b0eSVu Pham * related calls in a critical path, resource allocation above can't be 684b8dc6b0eSVu Pham * locked. If the memory has been changed at this point, try again with 685b8dc6b0eSVu Pham * just single page. If not, go on with the big chunk atomically from 686b8dc6b0eSVu Pham * here. 687b8dc6b0eSVu Pham */ 688b8dc6b0eSVu Pham rte_mcfg_mem_read_lock(); 689b8dc6b0eSVu Pham data_re = data; 690b8dc6b0eSVu Pham if (len > msl->page_sz && 691b8dc6b0eSVu Pham !rte_memseg_contig_walk(mr_find_contig_memsegs_cb, &data_re)) { 69287acdcc7SThomas Monjalon DRV_LOG(DEBUG, 69387acdcc7SThomas Monjalon "Unable to find virtually contiguous chunk for address " 69487acdcc7SThomas Monjalon "(%p). rte_memseg_contig_walk() failed.", (void *)addr); 695b8dc6b0eSVu Pham rte_errno = ENXIO; 696b8dc6b0eSVu Pham goto err_memlock; 697b8dc6b0eSVu Pham } 698b8dc6b0eSVu Pham if (data.start != data_re.start || data.end != data_re.end) { 699b8dc6b0eSVu Pham /* 700b8dc6b0eSVu Pham * The extended contiguous chunk has been changed. Try again 701b8dc6b0eSVu Pham * with single memseg instead. 702b8dc6b0eSVu Pham */ 703b8dc6b0eSVu Pham data.start = RTE_ALIGN_FLOOR(addr, msl->page_sz); 704b8dc6b0eSVu Pham data.end = data.start + msl->page_sz; 705b8dc6b0eSVu Pham rte_mcfg_mem_read_unlock(); 706992e6df3SJiawei Wang mlx5_mr_free(mr, share_cache->dereg_mr_cb); 707b8dc6b0eSVu Pham goto alloc_resources; 708b8dc6b0eSVu Pham } 709b8dc6b0eSVu Pham MLX5_ASSERT(data.msl == data_re.msl); 710b8dc6b0eSVu Pham rte_rwlock_write_lock(&share_cache->rwlock); 711b8dc6b0eSVu Pham /* 712b8dc6b0eSVu Pham * Check the address is really missing. If other thread already created 713b8dc6b0eSVu Pham * one or it is not found due to overflow, abort and return. 714b8dc6b0eSVu Pham */ 715b8dc6b0eSVu Pham if (mlx5_mr_lookup_cache(share_cache, entry, addr) != UINT32_MAX) { 716b8dc6b0eSVu Pham /* 717b8dc6b0eSVu Pham * Insert to the global cache table. It may fail due to 718b8dc6b0eSVu Pham * low-on-memory. Then, this entry will have to be searched 719b8dc6b0eSVu Pham * here again. 720b8dc6b0eSVu Pham */ 721b8dc6b0eSVu Pham mr_btree_insert(&share_cache->cache, entry); 72287acdcc7SThomas Monjalon DRV_LOG(DEBUG, "Found MR for %p on final lookup, abort", 72387acdcc7SThomas Monjalon (void *)addr); 724b8dc6b0eSVu Pham rte_rwlock_write_unlock(&share_cache->rwlock); 725b8dc6b0eSVu Pham rte_mcfg_mem_read_unlock(); 726b8dc6b0eSVu Pham /* 727b8dc6b0eSVu Pham * Must be unlocked before calling rte_free() because 728b8dc6b0eSVu Pham * mlx5_mr_mem_event_free_cb() can be called inside. 729b8dc6b0eSVu Pham */ 730992e6df3SJiawei Wang mlx5_mr_free(mr, share_cache->dereg_mr_cb); 731b8dc6b0eSVu Pham return entry->lkey; 732b8dc6b0eSVu Pham } 733b8dc6b0eSVu Pham /* 734b8dc6b0eSVu Pham * Trim start and end addresses for verbs MR. Set bits for registering 735b8dc6b0eSVu Pham * memsegs but exclude already registered ones. Bitmap can be 736b8dc6b0eSVu Pham * fragmented. 737b8dc6b0eSVu Pham */ 738b8dc6b0eSVu Pham for (n = 0; n < ms_n; ++n) { 739b8dc6b0eSVu Pham uintptr_t start; 740b8dc6b0eSVu Pham struct mr_cache_entry ret; 741b8dc6b0eSVu Pham 742b8dc6b0eSVu Pham memset(&ret, 0, sizeof(ret)); 743b8dc6b0eSVu Pham start = data_re.start + n * msl->page_sz; 744b8dc6b0eSVu Pham /* Exclude memsegs already registered by other MRs. */ 745b8dc6b0eSVu Pham if (mlx5_mr_lookup_cache(share_cache, &ret, start) == 746b8dc6b0eSVu Pham UINT32_MAX) { 747b8dc6b0eSVu Pham /* 748b8dc6b0eSVu Pham * Start from the first unregistered memseg in the 749b8dc6b0eSVu Pham * extended range. 750b8dc6b0eSVu Pham */ 751b8dc6b0eSVu Pham if (ms_idx_shift == -1) { 752b8dc6b0eSVu Pham mr->ms_base_idx += n; 753b8dc6b0eSVu Pham data.start = start; 754b8dc6b0eSVu Pham ms_idx_shift = n; 755b8dc6b0eSVu Pham } 756b8dc6b0eSVu Pham data.end = start + msl->page_sz; 757b8dc6b0eSVu Pham rte_bitmap_set(mr->ms_bmp, n - ms_idx_shift); 758b8dc6b0eSVu Pham ++mr->ms_n; 759b8dc6b0eSVu Pham } 760b8dc6b0eSVu Pham } 761b8dc6b0eSVu Pham len = data.end - data.start; 762b8dc6b0eSVu Pham mr->ms_bmp_n = len / msl->page_sz; 763b8dc6b0eSVu Pham MLX5_ASSERT(ms_idx_shift + mr->ms_bmp_n <= ms_n); 764b8dc6b0eSVu Pham /* 765d5ed8aa9SOphir Munk * Finally create an MR for the memory chunk. Verbs: ibv_reg_mr() can 766d5ed8aa9SOphir Munk * be called with holding the memory lock because it doesn't use 767b8dc6b0eSVu Pham * mlx5_alloc_buf_extern() which eventually calls rte_malloc_socket() 768b8dc6b0eSVu Pham * through mlx5_alloc_verbs_buf(). 769b8dc6b0eSVu Pham */ 770d5ed8aa9SOphir Munk share_cache->reg_mr_cb(pd, (void *)data.start, len, &mr->pmd_mr); 77158a17853SOphir Munk if (mr->pmd_mr.obj == NULL) { 77287acdcc7SThomas Monjalon DRV_LOG(DEBUG, "Fail to create an MR for address (%p)", 773b8dc6b0eSVu Pham (void *)addr); 774b8dc6b0eSVu Pham rte_errno = EINVAL; 775b8dc6b0eSVu Pham goto err_mrlock; 776b8dc6b0eSVu Pham } 77756d20677SOphir Munk MLX5_ASSERT((uintptr_t)mr->pmd_mr.addr == data.start); 77856d20677SOphir Munk MLX5_ASSERT(mr->pmd_mr.len); 779b8dc6b0eSVu Pham LIST_INSERT_HEAD(&share_cache->mr_list, mr, mr); 78087acdcc7SThomas Monjalon DRV_LOG(DEBUG, "MR CREATED (%p) for %p:\n" 781b8dc6b0eSVu Pham " [0x%" PRIxPTR ", 0x%" PRIxPTR ")," 782b8dc6b0eSVu Pham " lkey=0x%x base_idx=%u ms_n=%u, ms_bmp_n=%u", 783b8dc6b0eSVu Pham (void *)mr, (void *)addr, data.start, data.end, 78456d20677SOphir Munk rte_cpu_to_be_32(mr->pmd_mr.lkey), 785b8dc6b0eSVu Pham mr->ms_base_idx, mr->ms_n, mr->ms_bmp_n); 786b8dc6b0eSVu Pham /* Insert to the global cache table. */ 787b8dc6b0eSVu Pham mlx5_mr_insert_cache(share_cache, mr); 788b8dc6b0eSVu Pham /* Fill in output data. */ 789b8dc6b0eSVu Pham mlx5_mr_lookup_cache(share_cache, entry, addr); 790b8dc6b0eSVu Pham /* Lookup can't fail. */ 791b8dc6b0eSVu Pham MLX5_ASSERT(entry->lkey != UINT32_MAX); 792b8dc6b0eSVu Pham rte_rwlock_write_unlock(&share_cache->rwlock); 793b8dc6b0eSVu Pham rte_mcfg_mem_read_unlock(); 794b8dc6b0eSVu Pham return entry->lkey; 795b8dc6b0eSVu Pham err_mrlock: 796b8dc6b0eSVu Pham rte_rwlock_write_unlock(&share_cache->rwlock); 797b8dc6b0eSVu Pham err_memlock: 798b8dc6b0eSVu Pham rte_mcfg_mem_read_unlock(); 799b8dc6b0eSVu Pham err_nolock: 800b8dc6b0eSVu Pham /* 801b8dc6b0eSVu Pham * In case of error, as this can be called in a datapath, a warning 802b8dc6b0eSVu Pham * message per an error is preferable instead. Must be unlocked before 803b8dc6b0eSVu Pham * calling rte_free() because mlx5_mr_mem_event_free_cb() can be called 804b8dc6b0eSVu Pham * inside. 805b8dc6b0eSVu Pham */ 806992e6df3SJiawei Wang mlx5_mr_free(mr, share_cache->dereg_mr_cb); 807b8dc6b0eSVu Pham return UINT32_MAX; 808b8dc6b0eSVu Pham } 809b8dc6b0eSVu Pham 810b8dc6b0eSVu Pham /** 811b8dc6b0eSVu Pham * Create a new global Memory Region (MR) for a missing virtual address. 812b8dc6b0eSVu Pham * This can be called from primary and secondary process. 813b8dc6b0eSVu Pham * 814b8dc6b0eSVu Pham * @param pd 815c4685016SOphir Munk * Pointer to pd handle of a device (net, regex, vdpa,...). 816b8dc6b0eSVu Pham * @param share_cache 817b8dc6b0eSVu Pham * Pointer to a global shared MR cache. 818b8dc6b0eSVu Pham * @param[out] entry 819b8dc6b0eSVu Pham * Pointer to returning MR cache entry, found in the global cache or newly 820b8dc6b0eSVu Pham * created. If failed to create one, this will not be updated. 821b8dc6b0eSVu Pham * @param addr 822b8dc6b0eSVu Pham * Target virtual address to register. 823b8dc6b0eSVu Pham * 824b8dc6b0eSVu Pham * @return 825b8dc6b0eSVu Pham * Searched LKey on success, UINT32_MAX on failure and rte_errno is set. 826b8dc6b0eSVu Pham */ 827b8dc6b0eSVu Pham static uint32_t 828c4685016SOphir Munk mlx5_mr_create(void *pd, struct mlx5_mp_id *mp_id, 829b8dc6b0eSVu Pham struct mlx5_mr_share_cache *share_cache, 830b8dc6b0eSVu Pham struct mr_cache_entry *entry, uintptr_t addr, 831b8dc6b0eSVu Pham unsigned int mr_ext_memseg_en) 832b8dc6b0eSVu Pham { 833b8dc6b0eSVu Pham uint32_t ret = 0; 834b8dc6b0eSVu Pham 835b8dc6b0eSVu Pham switch (rte_eal_process_type()) { 836b8dc6b0eSVu Pham case RTE_PROC_PRIMARY: 837b8dc6b0eSVu Pham ret = mlx5_mr_create_primary(pd, share_cache, entry, 838b8dc6b0eSVu Pham addr, mr_ext_memseg_en); 839b8dc6b0eSVu Pham break; 840b8dc6b0eSVu Pham case RTE_PROC_SECONDARY: 841b8dc6b0eSVu Pham ret = mlx5_mr_create_secondary(pd, mp_id, share_cache, entry, 842b8dc6b0eSVu Pham addr, mr_ext_memseg_en); 843b8dc6b0eSVu Pham break; 844b8dc6b0eSVu Pham default: 845b8dc6b0eSVu Pham break; 846b8dc6b0eSVu Pham } 847b8dc6b0eSVu Pham return ret; 848b8dc6b0eSVu Pham } 849b8dc6b0eSVu Pham 850b8dc6b0eSVu Pham /** 851b8dc6b0eSVu Pham * Look up address in the global MR cache table. If not found, create a new MR. 852b8dc6b0eSVu Pham * Insert the found/created entry to local bottom-half cache table. 853b8dc6b0eSVu Pham * 854b8dc6b0eSVu Pham * @param pd 855c4685016SOphir Munk * Pointer to pd of a device (net, regex, vdpa,...). 856b8dc6b0eSVu Pham * @param share_cache 857b8dc6b0eSVu Pham * Pointer to a global shared MR cache. 858b8dc6b0eSVu Pham * @param mr_ctrl 859b8dc6b0eSVu Pham * Pointer to per-queue MR control structure. 860b8dc6b0eSVu Pham * @param[out] entry 861b8dc6b0eSVu Pham * Pointer to returning MR cache entry, found in the global cache or newly 862b8dc6b0eSVu Pham * created. If failed to create one, this is not written. 863b8dc6b0eSVu Pham * @param addr 864b8dc6b0eSVu Pham * Search key. 865b8dc6b0eSVu Pham * 866b8dc6b0eSVu Pham * @return 867b8dc6b0eSVu Pham * Searched LKey on success, UINT32_MAX on no match. 868b8dc6b0eSVu Pham */ 869b8dc6b0eSVu Pham static uint32_t 870c4685016SOphir Munk mr_lookup_caches(void *pd, struct mlx5_mp_id *mp_id, 871b8dc6b0eSVu Pham struct mlx5_mr_share_cache *share_cache, 872b8dc6b0eSVu Pham struct mlx5_mr_ctrl *mr_ctrl, 873b8dc6b0eSVu Pham struct mr_cache_entry *entry, uintptr_t addr, 874b8dc6b0eSVu Pham unsigned int mr_ext_memseg_en) 875b8dc6b0eSVu Pham { 876b8dc6b0eSVu Pham struct mlx5_mr_btree *bt = &mr_ctrl->cache_bh; 877b8dc6b0eSVu Pham uint32_t lkey; 878b8dc6b0eSVu Pham uint16_t idx; 879b8dc6b0eSVu Pham 880b8dc6b0eSVu Pham /* If local cache table is full, try to double it. */ 881b8dc6b0eSVu Pham if (unlikely(bt->len == bt->size)) 882b8dc6b0eSVu Pham mr_btree_expand(bt, bt->size << 1); 883b8dc6b0eSVu Pham /* Look up in the global cache. */ 884b8dc6b0eSVu Pham rte_rwlock_read_lock(&share_cache->rwlock); 885b8dc6b0eSVu Pham lkey = mr_btree_lookup(&share_cache->cache, &idx, addr); 886b8dc6b0eSVu Pham if (lkey != UINT32_MAX) { 887b8dc6b0eSVu Pham /* Found. */ 888b8dc6b0eSVu Pham *entry = (*share_cache->cache.table)[idx]; 889b8dc6b0eSVu Pham rte_rwlock_read_unlock(&share_cache->rwlock); 890b8dc6b0eSVu Pham /* 891b8dc6b0eSVu Pham * Update local cache. Even if it fails, return the found entry 892b8dc6b0eSVu Pham * to update top-half cache. Next time, this entry will be found 893b8dc6b0eSVu Pham * in the global cache. 894b8dc6b0eSVu Pham */ 895b8dc6b0eSVu Pham mr_btree_insert(bt, entry); 896b8dc6b0eSVu Pham return lkey; 897b8dc6b0eSVu Pham } 898b8dc6b0eSVu Pham rte_rwlock_read_unlock(&share_cache->rwlock); 899b8dc6b0eSVu Pham /* First time to see the address? Create a new MR. */ 900b8dc6b0eSVu Pham lkey = mlx5_mr_create(pd, mp_id, share_cache, entry, addr, 901b8dc6b0eSVu Pham mr_ext_memseg_en); 902b8dc6b0eSVu Pham /* 903b8dc6b0eSVu Pham * Update the local cache if successfully created a new global MR. Even 904b8dc6b0eSVu Pham * if failed to create one, there's no action to take in this datapath 905b8dc6b0eSVu Pham * code. As returning LKey is invalid, this will eventually make HW 906b8dc6b0eSVu Pham * fail. 907b8dc6b0eSVu Pham */ 908b8dc6b0eSVu Pham if (lkey != UINT32_MAX) 909b8dc6b0eSVu Pham mr_btree_insert(bt, entry); 910b8dc6b0eSVu Pham return lkey; 911b8dc6b0eSVu Pham } 912b8dc6b0eSVu Pham 913b8dc6b0eSVu Pham /** 914b8dc6b0eSVu Pham * Bottom-half of LKey search on datapath. First search in cache_bh[] and if 915b8dc6b0eSVu Pham * misses, search in the global MR cache table and update the new entry to 916b8dc6b0eSVu Pham * per-queue local caches. 917b8dc6b0eSVu Pham * 918b8dc6b0eSVu Pham * @param pd 919c4685016SOphir Munk * Pointer to pd of a device (net, regex, vdpa,...). 920b8dc6b0eSVu Pham * @param share_cache 921b8dc6b0eSVu Pham * Pointer to a global shared MR cache. 922b8dc6b0eSVu Pham * @param mr_ctrl 923b8dc6b0eSVu Pham * Pointer to per-queue MR control structure. 924b8dc6b0eSVu Pham * @param addr 925b8dc6b0eSVu Pham * Search key. 926b8dc6b0eSVu Pham * 927b8dc6b0eSVu Pham * @return 928b8dc6b0eSVu Pham * Searched LKey on success, UINT32_MAX on no match. 929b8dc6b0eSVu Pham */ 930c4685016SOphir Munk uint32_t mlx5_mr_addr2mr_bh(void *pd, struct mlx5_mp_id *mp_id, 931b8dc6b0eSVu Pham struct mlx5_mr_share_cache *share_cache, 932b8dc6b0eSVu Pham struct mlx5_mr_ctrl *mr_ctrl, 933b8dc6b0eSVu Pham uintptr_t addr, unsigned int mr_ext_memseg_en) 934b8dc6b0eSVu Pham { 935b8dc6b0eSVu Pham uint32_t lkey; 936b8dc6b0eSVu Pham uint16_t bh_idx = 0; 937b8dc6b0eSVu Pham /* Victim in top-half cache to replace with new entry. */ 938b8dc6b0eSVu Pham struct mr_cache_entry *repl = &mr_ctrl->cache[mr_ctrl->head]; 939b8dc6b0eSVu Pham 940b8dc6b0eSVu Pham /* Binary-search MR translation table. */ 941b8dc6b0eSVu Pham lkey = mr_btree_lookup(&mr_ctrl->cache_bh, &bh_idx, addr); 942b8dc6b0eSVu Pham /* Update top-half cache. */ 943b8dc6b0eSVu Pham if (likely(lkey != UINT32_MAX)) { 944b8dc6b0eSVu Pham *repl = (*mr_ctrl->cache_bh.table)[bh_idx]; 945b8dc6b0eSVu Pham } else { 946b8dc6b0eSVu Pham /* 947b8dc6b0eSVu Pham * If missed in local lookup table, search in the global cache 948b8dc6b0eSVu Pham * and local cache_bh[] will be updated inside if possible. 949b8dc6b0eSVu Pham * Top-half cache entry will also be updated. 950b8dc6b0eSVu Pham */ 951b8dc6b0eSVu Pham lkey = mr_lookup_caches(pd, mp_id, share_cache, mr_ctrl, 952b8dc6b0eSVu Pham repl, addr, mr_ext_memseg_en); 953b8dc6b0eSVu Pham if (unlikely(lkey == UINT32_MAX)) 954b8dc6b0eSVu Pham return UINT32_MAX; 955b8dc6b0eSVu Pham } 956b8dc6b0eSVu Pham /* Update the most recently used entry. */ 957b8dc6b0eSVu Pham mr_ctrl->mru = mr_ctrl->head; 958b8dc6b0eSVu Pham /* Point to the next victim, the oldest. */ 959b8dc6b0eSVu Pham mr_ctrl->head = (mr_ctrl->head + 1) % MLX5_MR_CACHE_N; 960b8dc6b0eSVu Pham return lkey; 961b8dc6b0eSVu Pham } 962b8dc6b0eSVu Pham 963b8dc6b0eSVu Pham /** 964b8dc6b0eSVu Pham * Release all the created MRs and resources on global MR cache of a device. 965b8dc6b0eSVu Pham * list. 966b8dc6b0eSVu Pham * 967b8dc6b0eSVu Pham * @param share_cache 968b8dc6b0eSVu Pham * Pointer to a global shared MR cache. 969b8dc6b0eSVu Pham */ 970b8dc6b0eSVu Pham void 971b8dc6b0eSVu Pham mlx5_mr_release_cache(struct mlx5_mr_share_cache *share_cache) 972b8dc6b0eSVu Pham { 973b8dc6b0eSVu Pham struct mlx5_mr *mr_next; 974b8dc6b0eSVu Pham 975b8dc6b0eSVu Pham rte_rwlock_write_lock(&share_cache->rwlock); 976b8dc6b0eSVu Pham /* Detach from MR list and move to free list. */ 977b8dc6b0eSVu Pham mr_next = LIST_FIRST(&share_cache->mr_list); 978b8dc6b0eSVu Pham while (mr_next != NULL) { 979b8dc6b0eSVu Pham struct mlx5_mr *mr = mr_next; 980b8dc6b0eSVu Pham 981b8dc6b0eSVu Pham mr_next = LIST_NEXT(mr, mr); 982b8dc6b0eSVu Pham LIST_REMOVE(mr, mr); 983b8dc6b0eSVu Pham LIST_INSERT_HEAD(&share_cache->mr_free_list, mr, mr); 984b8dc6b0eSVu Pham } 985b8dc6b0eSVu Pham LIST_INIT(&share_cache->mr_list); 986b8dc6b0eSVu Pham /* Free global cache. */ 987b8dc6b0eSVu Pham mlx5_mr_btree_free(&share_cache->cache); 988b8dc6b0eSVu Pham rte_rwlock_write_unlock(&share_cache->rwlock); 989b8dc6b0eSVu Pham /* Free all remaining MRs. */ 990b8dc6b0eSVu Pham mlx5_mr_garbage_collect(share_cache); 991b8dc6b0eSVu Pham } 992b8dc6b0eSVu Pham 993b8dc6b0eSVu Pham /** 994b8dc6b0eSVu Pham * Flush all of the local cache entries. 995b8dc6b0eSVu Pham * 996b8dc6b0eSVu Pham * @param mr_ctrl 997b8dc6b0eSVu Pham * Pointer to per-queue MR local cache. 998b8dc6b0eSVu Pham */ 999b8dc6b0eSVu Pham void 1000b8dc6b0eSVu Pham mlx5_mr_flush_local_cache(struct mlx5_mr_ctrl *mr_ctrl) 1001b8dc6b0eSVu Pham { 1002b8dc6b0eSVu Pham /* Reset the most-recently-used index. */ 1003b8dc6b0eSVu Pham mr_ctrl->mru = 0; 1004b8dc6b0eSVu Pham /* Reset the linear search array. */ 1005b8dc6b0eSVu Pham mr_ctrl->head = 0; 1006b8dc6b0eSVu Pham memset(mr_ctrl->cache, 0, sizeof(mr_ctrl->cache)); 1007b8dc6b0eSVu Pham /* Reset the B-tree table. */ 1008b8dc6b0eSVu Pham mr_ctrl->cache_bh.len = 1; 1009b8dc6b0eSVu Pham mr_ctrl->cache_bh.overflow = 0; 1010b8dc6b0eSVu Pham /* Update the generation number. */ 1011b8dc6b0eSVu Pham mr_ctrl->cur_gen = *mr_ctrl->dev_gen_ptr; 1012b8dc6b0eSVu Pham DRV_LOG(DEBUG, "mr_ctrl(%p): flushed, cur_gen=%d", 1013b8dc6b0eSVu Pham (void *)mr_ctrl, mr_ctrl->cur_gen); 1014b8dc6b0eSVu Pham } 1015b8dc6b0eSVu Pham 1016b8dc6b0eSVu Pham /** 1017b8dc6b0eSVu Pham * Creates a memory region for external memory, that is memory which is not 1018b8dc6b0eSVu Pham * part of the DPDK memory segments. 1019b8dc6b0eSVu Pham * 1020b8dc6b0eSVu Pham * @param pd 1021c4685016SOphir Munk * Pointer to pd of a device (net, regex, vdpa,...). 1022b8dc6b0eSVu Pham * @param addr 1023b8dc6b0eSVu Pham * Starting virtual address of memory. 1024b8dc6b0eSVu Pham * @param len 1025b8dc6b0eSVu Pham * Length of memory segment being mapped. 1026b8dc6b0eSVu Pham * @param socked_id 1027b8dc6b0eSVu Pham * Socket to allocate heap memory for the control structures. 1028b8dc6b0eSVu Pham * 1029b8dc6b0eSVu Pham * @return 1030b8dc6b0eSVu Pham * Pointer to MR structure on success, NULL otherwise. 1031b8dc6b0eSVu Pham */ 1032b8dc6b0eSVu Pham struct mlx5_mr * 1033d5ed8aa9SOphir Munk mlx5_create_mr_ext(void *pd, uintptr_t addr, size_t len, int socket_id, 1034d5ed8aa9SOphir Munk mlx5_reg_mr_t reg_mr_cb) 1035b8dc6b0eSVu Pham { 1036b8dc6b0eSVu Pham struct mlx5_mr *mr = NULL; 1037b8dc6b0eSVu Pham 1038fd970a54SSuanming Mou mr = mlx5_malloc(MLX5_MEM_RTE | MLX5_MEM_ZERO, 1039fd970a54SSuanming Mou RTE_ALIGN_CEIL(sizeof(*mr), RTE_CACHE_LINE_SIZE), 1040b8dc6b0eSVu Pham RTE_CACHE_LINE_SIZE, socket_id); 1041b8dc6b0eSVu Pham if (mr == NULL) 1042b8dc6b0eSVu Pham return NULL; 1043d5ed8aa9SOphir Munk reg_mr_cb(pd, (void *)addr, len, &mr->pmd_mr); 104458a17853SOphir Munk if (mr->pmd_mr.obj == NULL) { 1045b8dc6b0eSVu Pham DRV_LOG(WARNING, 104656d20677SOphir Munk "Fail to create MR for address (%p)", 1047b8dc6b0eSVu Pham (void *)addr); 1048fd970a54SSuanming Mou mlx5_free(mr); 1049b8dc6b0eSVu Pham return NULL; 1050b8dc6b0eSVu Pham } 1051b8dc6b0eSVu Pham mr->msl = NULL; /* Mark it is external memory. */ 1052b8dc6b0eSVu Pham mr->ms_bmp = NULL; 1053b8dc6b0eSVu Pham mr->ms_n = 1; 1054b8dc6b0eSVu Pham mr->ms_bmp_n = 1; 1055b8dc6b0eSVu Pham DRV_LOG(DEBUG, 1056b8dc6b0eSVu Pham "MR CREATED (%p) for external memory %p:\n" 1057b8dc6b0eSVu Pham " [0x%" PRIxPTR ", 0x%" PRIxPTR ")," 1058b8dc6b0eSVu Pham " lkey=0x%x base_idx=%u ms_n=%u, ms_bmp_n=%u", 1059b8dc6b0eSVu Pham (void *)mr, (void *)addr, 106056d20677SOphir Munk addr, addr + len, rte_cpu_to_be_32(mr->pmd_mr.lkey), 1061b8dc6b0eSVu Pham mr->ms_base_idx, mr->ms_n, mr->ms_bmp_n); 1062b8dc6b0eSVu Pham return mr; 1063b8dc6b0eSVu Pham } 1064b8dc6b0eSVu Pham 1065b8dc6b0eSVu Pham /** 1066b8dc6b0eSVu Pham * Dump all the created MRs and the global cache entries. 1067b8dc6b0eSVu Pham * 1068b8dc6b0eSVu Pham * @param sh 1069b8dc6b0eSVu Pham * Pointer to Ethernet device shared context. 1070b8dc6b0eSVu Pham */ 1071b8dc6b0eSVu Pham void 1072b8dc6b0eSVu Pham mlx5_mr_dump_cache(struct mlx5_mr_share_cache *share_cache __rte_unused) 1073b8dc6b0eSVu Pham { 1074b8dc6b0eSVu Pham #ifdef RTE_LIBRTE_MLX5_DEBUG 1075b8dc6b0eSVu Pham struct mlx5_mr *mr; 1076b8dc6b0eSVu Pham int mr_n = 0; 1077b8dc6b0eSVu Pham int chunk_n = 0; 1078b8dc6b0eSVu Pham 1079b8dc6b0eSVu Pham rte_rwlock_read_lock(&share_cache->rwlock); 1080b8dc6b0eSVu Pham /* Iterate all the existing MRs. */ 1081b8dc6b0eSVu Pham LIST_FOREACH(mr, &share_cache->mr_list, mr) { 1082b8dc6b0eSVu Pham unsigned int n; 1083b8dc6b0eSVu Pham 108487acdcc7SThomas Monjalon DRV_LOG(DEBUG, "MR[%u], LKey = 0x%x, ms_n = %u, ms_bmp_n = %u", 108556d20677SOphir Munk mr_n++, rte_cpu_to_be_32(mr->pmd_mr.lkey), 1086b8dc6b0eSVu Pham mr->ms_n, mr->ms_bmp_n); 1087b8dc6b0eSVu Pham if (mr->ms_n == 0) 1088b8dc6b0eSVu Pham continue; 1089b8dc6b0eSVu Pham for (n = 0; n < mr->ms_bmp_n; ) { 1090b8dc6b0eSVu Pham struct mr_cache_entry ret = { 0, }; 1091b8dc6b0eSVu Pham 1092b8dc6b0eSVu Pham n = mr_find_next_chunk(mr, &ret, n); 1093b8dc6b0eSVu Pham if (!ret.end) 1094b8dc6b0eSVu Pham break; 109587acdcc7SThomas Monjalon DRV_LOG(DEBUG, 109687acdcc7SThomas Monjalon " chunk[%u], [0x%" PRIxPTR ", 0x%" PRIxPTR ")", 1097b8dc6b0eSVu Pham chunk_n++, ret.start, ret.end); 1098b8dc6b0eSVu Pham } 1099b8dc6b0eSVu Pham } 110087acdcc7SThomas Monjalon DRV_LOG(DEBUG, "Dumping global cache %p", (void *)share_cache); 1101b8dc6b0eSVu Pham mlx5_mr_btree_dump(&share_cache->cache); 1102b8dc6b0eSVu Pham rte_rwlock_read_unlock(&share_cache->rwlock); 1103b8dc6b0eSVu Pham #endif 1104b8dc6b0eSVu Pham } 1105