// SPDX-License-Identifier: GPL-2.0 OR Linux-OpenIB /* Copyright (c) 2019 Mellanox Technologies. */ #include "dr_types.h" #define DR_ICM_MODIFY_HDR_ALIGN_BASE 64 #define DR_ICM_POOL_STE_HOT_MEM_PERCENT 25 #define DR_ICM_POOL_MODIFY_HDR_PTRN_HOT_MEM_PERCENT 50 #define DR_ICM_POOL_MODIFY_ACTION_HOT_MEM_PERCENT 90 struct mlx5dr_icm_hot_chunk { struct mlx5dr_icm_buddy_mem *buddy_mem; unsigned int seg; enum mlx5dr_icm_chunk_size size; }; struct mlx5dr_icm_pool { enum mlx5dr_icm_type icm_type; enum mlx5dr_icm_chunk_size max_log_chunk_sz; struct mlx5dr_domain *dmn; struct kmem_cache *chunks_kmem_cache; /* memory management */ struct mutex mutex; /* protect the ICM pool and ICM buddy */ struct list_head buddy_mem_list; /* Hardware may be accessing this memory but at some future, * undetermined time, it might cease to do so. * sync_ste command sets them free. */ struct mlx5dr_icm_hot_chunk *hot_chunks_arr; u32 hot_chunks_num; u64 hot_memory_size; /* hot memory size threshold for triggering sync */ u64 th; }; struct mlx5dr_icm_dm { u32 obj_id; enum mlx5_sw_icm_type type; phys_addr_t addr; size_t length; }; struct mlx5dr_icm_mr { u32 mkey; struct mlx5dr_icm_dm dm; struct mlx5dr_domain *dmn; size_t length; u64 icm_start_addr; }; static int dr_icm_create_dm_mkey(struct mlx5_core_dev *mdev, u32 pd, u64 length, u64 start_addr, int mode, u32 *mkey) { u32 inlen = MLX5_ST_SZ_BYTES(create_mkey_in); u32 in[MLX5_ST_SZ_DW(create_mkey_in)] = {}; void *mkc; mkc = MLX5_ADDR_OF(create_mkey_in, in, memory_key_mkey_entry); MLX5_SET(mkc, mkc, access_mode_1_0, mode); MLX5_SET(mkc, mkc, access_mode_4_2, (mode >> 2) & 0x7); MLX5_SET(mkc, mkc, lw, 1); MLX5_SET(mkc, mkc, lr, 1); if (mode == MLX5_MKC_ACCESS_MODE_SW_ICM) { MLX5_SET(mkc, mkc, rw, 1); MLX5_SET(mkc, mkc, rr, 1); } MLX5_SET64(mkc, mkc, len, length); MLX5_SET(mkc, mkc, pd, pd); MLX5_SET(mkc, mkc, qpn, 0xffffff); MLX5_SET64(mkc, mkc, start_addr, start_addr); return mlx5_core_create_mkey(mdev, mkey, in, inlen); } u64 mlx5dr_icm_pool_get_chunk_mr_addr(struct mlx5dr_icm_chunk *chunk) { u32 offset = mlx5dr_icm_pool_dm_type_to_entry_size(chunk->buddy_mem->pool->icm_type); return (u64)offset * chunk->seg; } u32 mlx5dr_icm_pool_get_chunk_rkey(struct mlx5dr_icm_chunk *chunk) { return chunk->buddy_mem->icm_mr->mkey; } u64 mlx5dr_icm_pool_get_chunk_icm_addr(struct mlx5dr_icm_chunk *chunk) { u32 size = mlx5dr_icm_pool_dm_type_to_entry_size(chunk->buddy_mem->pool->icm_type); return (u64)chunk->buddy_mem->icm_mr->icm_start_addr + size * chunk->seg; } u32 mlx5dr_icm_pool_get_chunk_byte_size(struct mlx5dr_icm_chunk *chunk) { return mlx5dr_icm_pool_chunk_size_to_byte(chunk->size, chunk->buddy_mem->pool->icm_type); } u32 mlx5dr_icm_pool_get_chunk_num_of_entries(struct mlx5dr_icm_chunk *chunk) { return mlx5dr_icm_pool_chunk_size_to_entries(chunk->size); } static struct mlx5dr_icm_mr * dr_icm_pool_mr_create(struct mlx5dr_icm_pool *pool) { struct mlx5_core_dev *mdev = pool->dmn->mdev; enum mlx5_sw_icm_type dm_type = 0; struct mlx5dr_icm_mr *icm_mr; size_t log_align_base = 0; int err; icm_mr = kvzalloc(sizeof(*icm_mr), GFP_KERNEL); if (!icm_mr) return NULL; icm_mr->dmn = pool->dmn; icm_mr->dm.length = mlx5dr_icm_pool_chunk_size_to_byte(pool->max_log_chunk_sz, pool->icm_type); switch (pool->icm_type) { case DR_ICM_TYPE_STE: dm_type = MLX5_SW_ICM_TYPE_STEERING; log_align_base = ilog2(icm_mr->dm.length); break; case DR_ICM_TYPE_MODIFY_ACTION: dm_type = MLX5_SW_ICM_TYPE_HEADER_MODIFY; /* Align base is 64B */ log_align_base = ilog2(DR_ICM_MODIFY_HDR_ALIGN_BASE); break; case DR_ICM_TYPE_MODIFY_HDR_PTRN: dm_type = MLX5_SW_ICM_TYPE_HEADER_MODIFY_PATTERN; /* Align base is 64B */ log_align_base = ilog2(DR_ICM_MODIFY_HDR_ALIGN_BASE); break; default: WARN_ON(pool->icm_type); } icm_mr->dm.type = dm_type; err = mlx5_dm_sw_icm_alloc(mdev, icm_mr->dm.type, icm_mr->dm.length, log_align_base, 0, &icm_mr->dm.addr, &icm_mr->dm.obj_id); if (err) { mlx5dr_err(pool->dmn, "Failed to allocate SW ICM memory, err (%d)\n", err); goto free_icm_mr; } /* Register device memory */ err = dr_icm_create_dm_mkey(mdev, pool->dmn->pdn, icm_mr->dm.length, icm_mr->dm.addr, MLX5_MKC_ACCESS_MODE_SW_ICM, &icm_mr->mkey); if (err) { mlx5dr_err(pool->dmn, "Failed to create SW ICM MKEY, err (%d)\n", err); goto free_dm; } icm_mr->icm_start_addr = icm_mr->dm.addr; if (icm_mr->icm_start_addr & (BIT(log_align_base) - 1)) { mlx5dr_err(pool->dmn, "Failed to get Aligned ICM mem (asked: %zu)\n", log_align_base); goto free_mkey; } return icm_mr; free_mkey: mlx5_core_destroy_mkey(mdev, icm_mr->mkey); free_dm: mlx5_dm_sw_icm_dealloc(mdev, icm_mr->dm.type, icm_mr->dm.length, 0, icm_mr->dm.addr, icm_mr->dm.obj_id); free_icm_mr: kvfree(icm_mr); return NULL; } static void dr_icm_pool_mr_destroy(struct mlx5dr_icm_mr *icm_mr) { struct mlx5_core_dev *mdev = icm_mr->dmn->mdev; struct mlx5dr_icm_dm *dm = &icm_mr->dm; mlx5_core_destroy_mkey(mdev, icm_mr->mkey); mlx5_dm_sw_icm_dealloc(mdev, dm->type, dm->length, 0, dm->addr, dm->obj_id); kvfree(icm_mr); } static int dr_icm_buddy_get_ste_size(struct mlx5dr_icm_buddy_mem *buddy) { /* We support only one type of STE size, both for ConnectX-5 and later * devices. Once the support for match STE which has a larger tag is * added (32B instead of 16B), the STE size for devices later than * ConnectX-5 needs to account for that. */ return DR_STE_SIZE_REDUCED; } static void dr_icm_chunk_ste_init(struct mlx5dr_icm_chunk *chunk, int offset) { int num_of_entries = mlx5dr_icm_pool_get_chunk_num_of_entries(chunk); struct mlx5dr_icm_buddy_mem *buddy = chunk->buddy_mem; int ste_size = dr_icm_buddy_get_ste_size(buddy); int index = offset / DR_STE_SIZE; chunk->ste_arr = &buddy->ste_arr[index]; chunk->miss_list = &buddy->miss_list[index]; chunk->hw_ste_arr = buddy->hw_ste_arr + index * ste_size; memset(chunk->hw_ste_arr, 0, num_of_entries * ste_size); memset(chunk->ste_arr, 0, num_of_entries * sizeof(chunk->ste_arr[0])); } static int dr_icm_buddy_init_ste_cache(struct mlx5dr_icm_buddy_mem *buddy) { int num_of_entries = mlx5dr_icm_pool_chunk_size_to_entries(buddy->pool->max_log_chunk_sz); buddy->ste_arr = kvcalloc(num_of_entries, sizeof(struct mlx5dr_ste), GFP_KERNEL); if (!buddy->ste_arr) return -ENOMEM; /* Preallocate full STE size on non-ConnectX-5 devices since * we need to support both full and reduced with the same cache. */ buddy->hw_ste_arr = kvcalloc(num_of_entries, dr_icm_buddy_get_ste_size(buddy), GFP_KERNEL); if (!buddy->hw_ste_arr) goto free_ste_arr; buddy->miss_list = kvmalloc(num_of_entries * sizeof(struct list_head), GFP_KERNEL); if (!buddy->miss_list) goto free_hw_ste_arr; return 0; free_hw_ste_arr: kvfree(buddy->hw_ste_arr); free_ste_arr: kvfree(buddy->ste_arr); return -ENOMEM; } static void dr_icm_buddy_cleanup_ste_cache(struct mlx5dr_icm_buddy_mem *buddy) { kvfree(buddy->ste_arr); kvfree(buddy->hw_ste_arr); kvfree(buddy->miss_list); } static int dr_icm_buddy_create(struct mlx5dr_icm_pool *pool) { struct mlx5dr_icm_buddy_mem *buddy; struct mlx5dr_icm_mr *icm_mr; icm_mr = dr_icm_pool_mr_create(pool); if (!icm_mr) return -ENOMEM; buddy = kvzalloc(sizeof(*buddy), GFP_KERNEL); if (!buddy) goto free_mr; if (mlx5dr_buddy_init(buddy, pool->max_log_chunk_sz)) goto err_free_buddy; buddy->icm_mr = icm_mr; buddy->pool = pool; if (pool->icm_type == DR_ICM_TYPE_STE) { /* Reduce allocations by preallocating and reusing the STE structures */ if (dr_icm_buddy_init_ste_cache(buddy)) goto err_cleanup_buddy; } /* add it to the -start- of the list in order to search in it first */ list_add(&buddy->list_node, &pool->buddy_mem_list); pool->dmn->num_buddies[pool->icm_type]++; return 0; err_cleanup_buddy: mlx5dr_buddy_cleanup(buddy); err_free_buddy: kvfree(buddy); free_mr: dr_icm_pool_mr_destroy(icm_mr); return -ENOMEM; } static void dr_icm_buddy_destroy(struct mlx5dr_icm_buddy_mem *buddy) { enum mlx5dr_icm_type icm_type = buddy->pool->icm_type; dr_icm_pool_mr_destroy(buddy->icm_mr); mlx5dr_buddy_cleanup(buddy); if (icm_type == DR_ICM_TYPE_STE) dr_icm_buddy_cleanup_ste_cache(buddy); buddy->pool->dmn->num_buddies[icm_type]--; kvfree(buddy); } static void dr_icm_chunk_init(struct mlx5dr_icm_chunk *chunk, struct mlx5dr_icm_pool *pool, enum mlx5dr_icm_chunk_size chunk_size, struct mlx5dr_icm_buddy_mem *buddy_mem_pool, unsigned int seg) { int offset; chunk->seg = seg; chunk->size = chunk_size; chunk->buddy_mem = buddy_mem_pool; if (pool->icm_type == DR_ICM_TYPE_STE) { offset = mlx5dr_icm_pool_dm_type_to_entry_size(pool->icm_type) * seg; dr_icm_chunk_ste_init(chunk, offset); } buddy_mem_pool->used_memory += mlx5dr_icm_pool_get_chunk_byte_size(chunk); } static bool dr_icm_pool_is_sync_required(struct mlx5dr_icm_pool *pool) { return pool->hot_memory_size > pool->th; } static void dr_icm_pool_clear_hot_chunks_arr(struct mlx5dr_icm_pool *pool) { struct mlx5dr_icm_hot_chunk *hot_chunk; u32 i, num_entries; for (i = 0; i < pool->hot_chunks_num; i++) { hot_chunk = &pool->hot_chunks_arr[i]; num_entries = mlx5dr_icm_pool_chunk_size_to_entries(hot_chunk->size); mlx5dr_buddy_free_mem(hot_chunk->buddy_mem, hot_chunk->seg, ilog2(num_entries)); hot_chunk->buddy_mem->used_memory -= mlx5dr_icm_pool_chunk_size_to_byte(hot_chunk->size, pool->icm_type); } pool->hot_chunks_num = 0; pool->hot_memory_size = 0; } static int dr_icm_pool_sync_all_buddy_pools(struct mlx5dr_icm_pool *pool) { struct mlx5dr_icm_buddy_mem *buddy, *tmp_buddy; int err; err = mlx5dr_cmd_sync_steering(pool->dmn->mdev); if (err) { mlx5dr_err(pool->dmn, "Failed to sync to HW (err: %d)\n", err); return err; } dr_icm_pool_clear_hot_chunks_arr(pool); list_for_each_entry_safe(buddy, tmp_buddy, &pool->buddy_mem_list, list_node) { if (!buddy->used_memory && pool->icm_type == DR_ICM_TYPE_STE) dr_icm_buddy_destroy(buddy); } return 0; } static int dr_icm_handle_buddies_get_mem(struct mlx5dr_icm_pool *pool, enum mlx5dr_icm_chunk_size chunk_size, struct mlx5dr_icm_buddy_mem **buddy, unsigned int *seg) { struct mlx5dr_icm_buddy_mem *buddy_mem_pool; bool new_mem = false; int err; alloc_buddy_mem: /* find the next free place from the buddy list */ list_for_each_entry(buddy_mem_pool, &pool->buddy_mem_list, list_node) { err = mlx5dr_buddy_alloc_mem(buddy_mem_pool, chunk_size, seg); if (!err) goto found; if (WARN_ON(new_mem)) { /* We have new memory pool, first in the list */ mlx5dr_err(pool->dmn, "No memory for order: %d\n", chunk_size); goto out; } } /* no more available allocators in that pool, create new */ err = dr_icm_buddy_create(pool); if (err) { mlx5dr_err(pool->dmn, "Failed creating buddy for order %d\n", chunk_size); goto out; } /* mark we have new memory, first in list */ new_mem = true; goto alloc_buddy_mem; found: *buddy = buddy_mem_pool; out: return err; } /* Allocate an ICM chunk, each chunk holds a piece of ICM memory and * also memory used for HW STE management for optimizations. */ struct mlx5dr_icm_chunk * mlx5dr_icm_alloc_chunk(struct mlx5dr_icm_pool *pool, enum mlx5dr_icm_chunk_size chunk_size) { struct mlx5dr_icm_chunk *chunk = NULL; struct mlx5dr_icm_buddy_mem *buddy; unsigned int seg; int ret; if (chunk_size > pool->max_log_chunk_sz) return NULL; mutex_lock(&pool->mutex); /* find mem, get back the relevant buddy pool and seg in that mem */ ret = dr_icm_handle_buddies_get_mem(pool, chunk_size, &buddy, &seg); if (ret) goto out; chunk = kmem_cache_alloc(pool->chunks_kmem_cache, GFP_KERNEL); if (!chunk) goto out_err; dr_icm_chunk_init(chunk, pool, chunk_size, buddy, seg); goto out; out_err: mlx5dr_buddy_free_mem(buddy, seg, chunk_size); out: mutex_unlock(&pool->mutex); return chunk; } void mlx5dr_icm_free_chunk(struct mlx5dr_icm_chunk *chunk) { struct mlx5dr_icm_buddy_mem *buddy = chunk->buddy_mem; struct mlx5dr_icm_pool *pool = buddy->pool; struct mlx5dr_icm_hot_chunk *hot_chunk; struct kmem_cache *chunks_cache; chunks_cache = pool->chunks_kmem_cache; /* move the chunk to the waiting chunks array, AKA "hot" memory */ mutex_lock(&pool->mutex); pool->hot_memory_size += mlx5dr_icm_pool_get_chunk_byte_size(chunk); hot_chunk = &pool->hot_chunks_arr[pool->hot_chunks_num++]; hot_chunk->buddy_mem = chunk->buddy_mem; hot_chunk->seg = chunk->seg; hot_chunk->size = chunk->size; kmem_cache_free(chunks_cache, chunk); /* Check if we have chunks that are waiting for sync-ste */ if (dr_icm_pool_is_sync_required(pool)) dr_icm_pool_sync_all_buddy_pools(pool); mutex_unlock(&pool->mutex); } struct mlx5dr_ste_htbl *mlx5dr_icm_pool_alloc_htbl(struct mlx5dr_icm_pool *pool) { return kmem_cache_alloc(pool->dmn->htbls_kmem_cache, GFP_KERNEL); } void mlx5dr_icm_pool_free_htbl(struct mlx5dr_icm_pool *pool, struct mlx5dr_ste_htbl *htbl) { kmem_cache_free(pool->dmn->htbls_kmem_cache, htbl); } struct mlx5dr_icm_pool *mlx5dr_icm_pool_create(struct mlx5dr_domain *dmn, enum mlx5dr_icm_type icm_type) { u32 num_of_chunks, entry_size; struct mlx5dr_icm_pool *pool; u32 max_hot_size = 0; pool = kvzalloc(sizeof(*pool), GFP_KERNEL); if (!pool) return NULL; pool->dmn = dmn; pool->icm_type = icm_type; pool->chunks_kmem_cache = dmn->chunks_kmem_cache; INIT_LIST_HEAD(&pool->buddy_mem_list); mutex_init(&pool->mutex); switch (icm_type) { case DR_ICM_TYPE_STE: pool->max_log_chunk_sz = dmn->info.max_log_sw_icm_sz; max_hot_size = mlx5dr_icm_pool_chunk_size_to_byte(pool->max_log_chunk_sz, pool->icm_type) * DR_ICM_POOL_STE_HOT_MEM_PERCENT / 100; break; case DR_ICM_TYPE_MODIFY_ACTION: pool->max_log_chunk_sz = dmn->info.max_log_action_icm_sz; max_hot_size = mlx5dr_icm_pool_chunk_size_to_byte(pool->max_log_chunk_sz, pool->icm_type) * DR_ICM_POOL_MODIFY_ACTION_HOT_MEM_PERCENT / 100; break; case DR_ICM_TYPE_MODIFY_HDR_PTRN: pool->max_log_chunk_sz = dmn->info.max_log_modify_hdr_pattern_icm_sz; max_hot_size = mlx5dr_icm_pool_chunk_size_to_byte(pool->max_log_chunk_sz, pool->icm_type) * DR_ICM_POOL_MODIFY_HDR_PTRN_HOT_MEM_PERCENT / 100; break; default: WARN_ON(icm_type); } entry_size = mlx5dr_icm_pool_dm_type_to_entry_size(pool->icm_type); num_of_chunks = DIV_ROUND_UP(max_hot_size, entry_size) + 1; pool->th = max_hot_size; pool->hot_chunks_arr = kvcalloc(num_of_chunks, sizeof(struct mlx5dr_icm_hot_chunk), GFP_KERNEL); if (!pool->hot_chunks_arr) goto free_pool; return pool; free_pool: kvfree(pool); return NULL; } void mlx5dr_icm_pool_destroy(struct mlx5dr_icm_pool *pool) { struct mlx5dr_icm_buddy_mem *buddy, *tmp_buddy; dr_icm_pool_clear_hot_chunks_arr(pool); list_for_each_entry_safe(buddy, tmp_buddy, &pool->buddy_mem_list, list_node) dr_icm_buddy_destroy(buddy); kvfree(pool->hot_chunks_arr); mutex_destroy(&pool->mutex); kvfree(pool); }