1b8dc6b0eSVu Pham /* SPDX-License-Identifier: BSD-3-Clause 2b8dc6b0eSVu Pham * Copyright 2018 6WIND S.A. 3b8dc6b0eSVu Pham * Copyright 2018 Mellanox Technologies, Ltd 4b8dc6b0eSVu Pham */ 5b8dc6b0eSVu Pham 6b8dc6b0eSVu Pham #ifndef RTE_PMD_MLX5_COMMON_MR_H_ 7b8dc6b0eSVu Pham #define RTE_PMD_MLX5_COMMON_MR_H_ 8b8dc6b0eSVu Pham 9b8dc6b0eSVu Pham #include <stddef.h> 10b8dc6b0eSVu Pham #include <stdint.h> 11b8dc6b0eSVu Pham #include <sys/queue.h> 12b8dc6b0eSVu Pham 13b8dc6b0eSVu Pham /* Verbs header. */ 14b8dc6b0eSVu Pham /* ISO C doesn't support unnamed structs/unions, disabling -pedantic. */ 15b8dc6b0eSVu Pham #ifdef PEDANTIC 16b8dc6b0eSVu Pham #pragma GCC diagnostic ignored "-Wpedantic" 17b8dc6b0eSVu Pham #endif 18b8dc6b0eSVu Pham #include <infiniband/verbs.h> 19b8dc6b0eSVu Pham #include <infiniband/mlx5dv.h> 20b8dc6b0eSVu Pham #ifdef PEDANTIC 21b8dc6b0eSVu Pham #pragma GCC diagnostic error "-Wpedantic" 22b8dc6b0eSVu Pham #endif 23b8dc6b0eSVu Pham 24b8dc6b0eSVu Pham #include <rte_rwlock.h> 25b8dc6b0eSVu Pham #include <rte_bitmap.h> 26b8dc6b0eSVu Pham #include <rte_memory.h> 27b8dc6b0eSVu Pham 28b8dc6b0eSVu Pham #include "mlx5_common_mp.h" 29b8dc6b0eSVu Pham 30b8dc6b0eSVu Pham /* Size of per-queue MR cache array for linear search. */ 31b8dc6b0eSVu Pham #define MLX5_MR_CACHE_N 8 32b8dc6b0eSVu Pham #define MLX5_MR_BTREE_CACHE_N 256 33b8dc6b0eSVu Pham 34b8dc6b0eSVu Pham /* Memory Region object. */ 35b8dc6b0eSVu Pham struct mlx5_mr { 36b8dc6b0eSVu Pham LIST_ENTRY(mlx5_mr) mr; /**< Pointer to the prev/next entry. */ 37b8dc6b0eSVu Pham struct ibv_mr *ibv_mr; /* Verbs Memory Region. */ 38b8dc6b0eSVu Pham const struct rte_memseg_list *msl; 39b8dc6b0eSVu Pham int ms_base_idx; /* Start index of msl->memseg_arr[]. */ 40b8dc6b0eSVu Pham int ms_n; /* Number of memsegs in use. */ 41b8dc6b0eSVu Pham uint32_t ms_bmp_n; /* Number of bits in memsegs bit-mask. */ 42b8dc6b0eSVu Pham struct rte_bitmap *ms_bmp; /* Bit-mask of memsegs belonged to MR. */ 43b8dc6b0eSVu Pham }; 44b8dc6b0eSVu Pham 45b8dc6b0eSVu Pham /* Cache entry for Memory Region. */ 46b8dc6b0eSVu Pham struct mr_cache_entry { 47b8dc6b0eSVu Pham uintptr_t start; /* Start address of MR. */ 48b8dc6b0eSVu Pham uintptr_t end; /* End address of MR. */ 49b8dc6b0eSVu Pham uint32_t lkey; /* rte_cpu_to_be_32(ibv_mr->lkey). */ 50b8dc6b0eSVu Pham } __rte_packed; 51b8dc6b0eSVu Pham 52b8dc6b0eSVu Pham /* MR Cache table for Binary search. */ 53b8dc6b0eSVu Pham struct mlx5_mr_btree { 54b8dc6b0eSVu Pham uint16_t len; /* Number of entries. */ 55b8dc6b0eSVu Pham uint16_t size; /* Total number of entries. */ 56b8dc6b0eSVu Pham int overflow; /* Mark failure of table expansion. */ 57b8dc6b0eSVu Pham struct mr_cache_entry (*table)[]; 58b8dc6b0eSVu Pham } __rte_packed; 59b8dc6b0eSVu Pham 60b8dc6b0eSVu Pham /* Per-queue MR control descriptor. */ 61b8dc6b0eSVu Pham struct mlx5_mr_ctrl { 62b8dc6b0eSVu Pham uint32_t *dev_gen_ptr; /* Generation number of device to poll. */ 63b8dc6b0eSVu Pham uint32_t cur_gen; /* Generation number saved to flush caches. */ 64b8dc6b0eSVu Pham uint16_t mru; /* Index of last hit entry in top-half cache. */ 65b8dc6b0eSVu Pham uint16_t head; /* Index of the oldest entry in top-half cache. */ 66b8dc6b0eSVu Pham struct mr_cache_entry cache[MLX5_MR_CACHE_N]; /* Cache for top-half. */ 67b8dc6b0eSVu Pham struct mlx5_mr_btree cache_bh; /* Cache for bottom-half. */ 68b8dc6b0eSVu Pham } __rte_packed; 69b8dc6b0eSVu Pham 70b8dc6b0eSVu Pham LIST_HEAD(mlx5_mr_list, mlx5_mr); 71b8dc6b0eSVu Pham 72b8dc6b0eSVu Pham /* Global per-device MR cache. */ 73b8dc6b0eSVu Pham struct mlx5_mr_share_cache { 74b8dc6b0eSVu Pham uint32_t dev_gen; /* Generation number to flush local caches. */ 75b8dc6b0eSVu Pham rte_rwlock_t rwlock; /* MR cache Lock. */ 76b8dc6b0eSVu Pham struct mlx5_mr_btree cache; /* Global MR cache table. */ 77b8dc6b0eSVu Pham struct mlx5_mr_list mr_list; /* Registered MR list. */ 78b8dc6b0eSVu Pham struct mlx5_mr_list mr_free_list; /* Freed MR list. */ 79b8dc6b0eSVu Pham } __rte_packed; 80b8dc6b0eSVu Pham 81b8dc6b0eSVu Pham /** 82b8dc6b0eSVu Pham * Look up LKey from given lookup table by linear search. Firstly look up the 83b8dc6b0eSVu Pham * last-hit entry. If miss, the entire array is searched. If found, update the 84b8dc6b0eSVu Pham * last-hit index and return LKey. 85b8dc6b0eSVu Pham * 86b8dc6b0eSVu Pham * @param lkp_tbl 87b8dc6b0eSVu Pham * Pointer to lookup table. 88b8dc6b0eSVu Pham * @param[in,out] cached_idx 89b8dc6b0eSVu Pham * Pointer to last-hit index. 90b8dc6b0eSVu Pham * @param n 91b8dc6b0eSVu Pham * Size of lookup table. 92b8dc6b0eSVu Pham * @param addr 93b8dc6b0eSVu Pham * Search key. 94b8dc6b0eSVu Pham * 95b8dc6b0eSVu Pham * @return 96b8dc6b0eSVu Pham * Searched LKey on success, UINT32_MAX on no match. 97b8dc6b0eSVu Pham */ 98b8dc6b0eSVu Pham static __rte_always_inline uint32_t 99b8dc6b0eSVu Pham mlx5_mr_lookup_lkey(struct mr_cache_entry *lkp_tbl, uint16_t *cached_idx, 100b8dc6b0eSVu Pham uint16_t n, uintptr_t addr) 101b8dc6b0eSVu Pham { 102b8dc6b0eSVu Pham uint16_t idx; 103b8dc6b0eSVu Pham 104b8dc6b0eSVu Pham if (likely(addr >= lkp_tbl[*cached_idx].start && 105b8dc6b0eSVu Pham addr < lkp_tbl[*cached_idx].end)) 106b8dc6b0eSVu Pham return lkp_tbl[*cached_idx].lkey; 107b8dc6b0eSVu Pham for (idx = 0; idx < n && lkp_tbl[idx].start != 0; ++idx) { 108b8dc6b0eSVu Pham if (addr >= lkp_tbl[idx].start && 109b8dc6b0eSVu Pham addr < lkp_tbl[idx].end) { 110b8dc6b0eSVu Pham /* Found. */ 111b8dc6b0eSVu Pham *cached_idx = idx; 112b8dc6b0eSVu Pham return lkp_tbl[idx].lkey; 113b8dc6b0eSVu Pham } 114b8dc6b0eSVu Pham } 115b8dc6b0eSVu Pham return UINT32_MAX; 116b8dc6b0eSVu Pham } 117b8dc6b0eSVu Pham 11864c563f8SOphir Munk __rte_internal 119b8dc6b0eSVu Pham int mlx5_mr_btree_init(struct mlx5_mr_btree *bt, int n, int socket); 12064c563f8SOphir Munk __rte_internal 121b8dc6b0eSVu Pham void mlx5_mr_btree_free(struct mlx5_mr_btree *bt); 12264c563f8SOphir Munk __rte_internal 123b8dc6b0eSVu Pham void mlx5_mr_btree_dump(struct mlx5_mr_btree *bt __rte_unused); 12464c563f8SOphir Munk __rte_internal 125*c4685016SOphir Munk uint32_t mlx5_mr_addr2mr_bh(void *pd, struct mlx5_mp_id *mp_id, 126b8dc6b0eSVu Pham struct mlx5_mr_share_cache *share_cache, 127b8dc6b0eSVu Pham struct mlx5_mr_ctrl *mr_ctrl, 128b8dc6b0eSVu Pham uintptr_t addr, unsigned int mr_ext_memseg_en); 12964c563f8SOphir Munk __rte_internal 130b8dc6b0eSVu Pham void mlx5_mr_release_cache(struct mlx5_mr_share_cache *mr_cache); 13164c563f8SOphir Munk __rte_internal 132b8dc6b0eSVu Pham void mlx5_mr_dump_cache(struct mlx5_mr_share_cache *share_cache __rte_unused); 13364c563f8SOphir Munk __rte_internal 134b8dc6b0eSVu Pham void mlx5_mr_rebuild_cache(struct mlx5_mr_share_cache *share_cache); 13564c563f8SOphir Munk __rte_internal 136b8dc6b0eSVu Pham void mlx5_mr_flush_local_cache(struct mlx5_mr_ctrl *mr_ctrl); 13764c563f8SOphir Munk __rte_internal 138b8dc6b0eSVu Pham int 139b8dc6b0eSVu Pham mlx5_mr_insert_cache(struct mlx5_mr_share_cache *share_cache, 140b8dc6b0eSVu Pham struct mlx5_mr *mr); 14164c563f8SOphir Munk __rte_internal 142b8dc6b0eSVu Pham uint32_t 143b8dc6b0eSVu Pham mlx5_mr_lookup_cache(struct mlx5_mr_share_cache *share_cache, 144b8dc6b0eSVu Pham struct mr_cache_entry *entry, uintptr_t addr); 14564c563f8SOphir Munk __rte_internal 146b8dc6b0eSVu Pham struct mlx5_mr * 147b8dc6b0eSVu Pham mlx5_mr_lookup_list(struct mlx5_mr_share_cache *share_cache, 148b8dc6b0eSVu Pham struct mr_cache_entry *entry, uintptr_t addr); 14964c563f8SOphir Munk __rte_internal 150b8dc6b0eSVu Pham struct mlx5_mr * 151*c4685016SOphir Munk mlx5_create_mr_ext(void *pd, uintptr_t addr, size_t len, 152b8dc6b0eSVu Pham int socket_id); 15364c563f8SOphir Munk __rte_internal 154b8dc6b0eSVu Pham uint32_t 155*c4685016SOphir Munk mlx5_mr_create_primary(void *pd, 156b8dc6b0eSVu Pham struct mlx5_mr_share_cache *share_cache, 157b8dc6b0eSVu Pham struct mr_cache_entry *entry, uintptr_t addr, 158b8dc6b0eSVu Pham unsigned int mr_ext_memseg_en); 159b8dc6b0eSVu Pham 160b8dc6b0eSVu Pham #endif /* RTE_PMD_MLX5_COMMON_MR_H_ */ 161