Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Jiri Pirko | 1899 | 76.51% | 9 | 69.23% |
Ido Schimmel | 576 | 23.21% | 2 | 15.38% |
Gustavo A. R. Silva | 7 | 0.28% | 2 | 15.38% |
Total | 2482 | 13 |
// SPDX-License-Identifier: BSD-3-Clause OR GPL-2.0 /* Copyright (c) 2017-2018 Mellanox Technologies. All rights reserved */ #include <linux/kernel.h> #include <linux/slab.h> #include <linux/list.h> #include <linux/errno.h> #include "item.h" #include "core_acl_flex_keys.h" /* For the purpose of the driver, define an internal storage scratchpad * that will be used to store key/mask values. For each defined element type * define an internal storage geometry. * * When adding new elements, MLXSW_AFK_ELEMENT_STORAGE_SIZE must be increased * accordingly. */ static const struct mlxsw_afk_element_info mlxsw_afk_element_infos[] = { MLXSW_AFK_ELEMENT_INFO_U32(SRC_SYS_PORT, 0x00, 16, 16), MLXSW_AFK_ELEMENT_INFO_BUF(DMAC_32_47, 0x04, 2), MLXSW_AFK_ELEMENT_INFO_BUF(DMAC_0_31, 0x06, 4), MLXSW_AFK_ELEMENT_INFO_BUF(SMAC_32_47, 0x0A, 2), MLXSW_AFK_ELEMENT_INFO_BUF(SMAC_0_31, 0x0C, 4), MLXSW_AFK_ELEMENT_INFO_U32(ETHERTYPE, 0x00, 0, 16), MLXSW_AFK_ELEMENT_INFO_U32(IP_PROTO, 0x10, 0, 8), MLXSW_AFK_ELEMENT_INFO_U32(VID, 0x10, 8, 12), MLXSW_AFK_ELEMENT_INFO_U32(PCP, 0x10, 20, 3), MLXSW_AFK_ELEMENT_INFO_U32(TCP_FLAGS, 0x10, 23, 9), MLXSW_AFK_ELEMENT_INFO_U32(DST_L4_PORT, 0x14, 0, 16), MLXSW_AFK_ELEMENT_INFO_U32(SRC_L4_PORT, 0x14, 16, 16), MLXSW_AFK_ELEMENT_INFO_U32(IP_TTL_, 0x18, 0, 8), MLXSW_AFK_ELEMENT_INFO_U32(IP_ECN, 0x18, 9, 2), MLXSW_AFK_ELEMENT_INFO_U32(IP_DSCP, 0x18, 11, 6), MLXSW_AFK_ELEMENT_INFO_U32(VIRT_ROUTER_8_10, 0x18, 17, 3), MLXSW_AFK_ELEMENT_INFO_U32(VIRT_ROUTER_0_7, 0x18, 20, 8), MLXSW_AFK_ELEMENT_INFO_BUF(SRC_IP_96_127, 0x20, 4), MLXSW_AFK_ELEMENT_INFO_BUF(SRC_IP_64_95, 0x24, 4), MLXSW_AFK_ELEMENT_INFO_BUF(SRC_IP_32_63, 0x28, 4), MLXSW_AFK_ELEMENT_INFO_BUF(SRC_IP_0_31, 0x2C, 4), MLXSW_AFK_ELEMENT_INFO_BUF(DST_IP_96_127, 0x30, 4), MLXSW_AFK_ELEMENT_INFO_BUF(DST_IP_64_95, 0x34, 4), MLXSW_AFK_ELEMENT_INFO_BUF(DST_IP_32_63, 0x38, 4), MLXSW_AFK_ELEMENT_INFO_BUF(DST_IP_0_31, 0x3C, 4), }; struct mlxsw_afk { struct list_head key_info_list; unsigned int max_blocks; const struct mlxsw_afk_ops *ops; const struct mlxsw_afk_block *blocks; unsigned int blocks_count; }; static bool mlxsw_afk_blocks_check(struct mlxsw_afk *mlxsw_afk) { int i; int j; for (i = 0; i < mlxsw_afk->blocks_count; i++) { const struct mlxsw_afk_block *block = &mlxsw_afk->blocks[i]; for (j = 0; j < block->instances_count; j++) { const struct mlxsw_afk_element_info *elinfo; struct mlxsw_afk_element_inst *elinst; elinst = &block->instances[j]; elinfo = &mlxsw_afk_element_infos[elinst->element]; if (elinst->type != elinfo->type || (!elinst->avoid_size_check && elinst->item.size.bits != elinfo->item.size.bits)) return false; } } return true; } struct mlxsw_afk *mlxsw_afk_create(unsigned int max_blocks, const struct mlxsw_afk_ops *ops) { struct mlxsw_afk *mlxsw_afk; mlxsw_afk = kzalloc(sizeof(*mlxsw_afk), GFP_KERNEL); if (!mlxsw_afk) return NULL; INIT_LIST_HEAD(&mlxsw_afk->key_info_list); mlxsw_afk->max_blocks = max_blocks; mlxsw_afk->ops = ops; mlxsw_afk->blocks = ops->blocks; mlxsw_afk->blocks_count = ops->blocks_count; WARN_ON(!mlxsw_afk_blocks_check(mlxsw_afk)); return mlxsw_afk; } EXPORT_SYMBOL(mlxsw_afk_create); void mlxsw_afk_destroy(struct mlxsw_afk *mlxsw_afk) { WARN_ON(!list_empty(&mlxsw_afk->key_info_list)); kfree(mlxsw_afk); } EXPORT_SYMBOL(mlxsw_afk_destroy); struct mlxsw_afk_key_info { struct list_head list; unsigned int ref_count; unsigned int blocks_count; int element_to_block[MLXSW_AFK_ELEMENT_MAX]; /* index is element, value * is index inside "blocks" */ struct mlxsw_afk_element_usage elusage; const struct mlxsw_afk_block *blocks[]; }; static bool mlxsw_afk_key_info_elements_eq(struct mlxsw_afk_key_info *key_info, struct mlxsw_afk_element_usage *elusage) { return memcmp(&key_info->elusage, elusage, sizeof(*elusage)) == 0; } static struct mlxsw_afk_key_info * mlxsw_afk_key_info_find(struct mlxsw_afk *mlxsw_afk, struct mlxsw_afk_element_usage *elusage) { struct mlxsw_afk_key_info *key_info; list_for_each_entry(key_info, &mlxsw_afk->key_info_list, list) { if (mlxsw_afk_key_info_elements_eq(key_info, elusage)) return key_info; } return NULL; } struct mlxsw_afk_picker { struct { DECLARE_BITMAP(element, MLXSW_AFK_ELEMENT_MAX); unsigned int total; } hits[0]; }; static void mlxsw_afk_picker_count_hits(struct mlxsw_afk *mlxsw_afk, struct mlxsw_afk_picker *picker, enum mlxsw_afk_element element) { int i; int j; for (i = 0; i < mlxsw_afk->blocks_count; i++) { const struct mlxsw_afk_block *block = &mlxsw_afk->blocks[i]; for (j = 0; j < block->instances_count; j++) { struct mlxsw_afk_element_inst *elinst; elinst = &block->instances[j]; if (elinst->element == element) { __set_bit(element, picker->hits[i].element); picker->hits[i].total++; } } } } static void mlxsw_afk_picker_subtract_hits(struct mlxsw_afk *mlxsw_afk, struct mlxsw_afk_picker *picker, int block_index) { DECLARE_BITMAP(hits_element, MLXSW_AFK_ELEMENT_MAX); int i; int j; memcpy(&hits_element, &picker->hits[block_index].element, sizeof(hits_element)); for (i = 0; i < mlxsw_afk->blocks_count; i++) { for_each_set_bit(j, hits_element, MLXSW_AFK_ELEMENT_MAX) { if (__test_and_clear_bit(j, picker->hits[i].element)) picker->hits[i].total--; } } } static int mlxsw_afk_picker_most_hits_get(struct mlxsw_afk *mlxsw_afk, struct mlxsw_afk_picker *picker) { int most_index = -EINVAL; /* Should never happen to return this */ int most_hits = 0; int i; for (i = 0; i < mlxsw_afk->blocks_count; i++) { if (picker->hits[i].total > most_hits) { most_hits = picker->hits[i].total; most_index = i; } } return most_index; } static int mlxsw_afk_picker_key_info_add(struct mlxsw_afk *mlxsw_afk, struct mlxsw_afk_picker *picker, int block_index, struct mlxsw_afk_key_info *key_info) { enum mlxsw_afk_element element; if (key_info->blocks_count == mlxsw_afk->max_blocks) return -EINVAL; for_each_set_bit(element, picker->hits[block_index].element, MLXSW_AFK_ELEMENT_MAX) { key_info->element_to_block[element] = key_info->blocks_count; mlxsw_afk_element_usage_add(&key_info->elusage, element); } key_info->blocks[key_info->blocks_count] = &mlxsw_afk->blocks[block_index]; key_info->blocks_count++; return 0; } static int mlxsw_afk_picker(struct mlxsw_afk *mlxsw_afk, struct mlxsw_afk_key_info *key_info, struct mlxsw_afk_element_usage *elusage) { struct mlxsw_afk_picker *picker; enum mlxsw_afk_element element; size_t alloc_size; int err; alloc_size = sizeof(picker->hits[0]) * mlxsw_afk->blocks_count; picker = kzalloc(alloc_size, GFP_KERNEL); if (!picker) return -ENOMEM; /* Since the same elements could be present in multiple blocks, * we must find out optimal block list in order to make the * block count as low as possible. * * First, we count hits. We go over all available blocks and count * how many of requested elements are covered by each. * * Then in loop, we find block with most hits and add it to * output key_info. Then we have to subtract this block hits so * the next iteration will find most suitable block for * the rest of requested elements. */ mlxsw_afk_element_usage_for_each(element, elusage) mlxsw_afk_picker_count_hits(mlxsw_afk, picker, element); do { int block_index; block_index = mlxsw_afk_picker_most_hits_get(mlxsw_afk, picker); if (block_index < 0) { err = block_index; goto out; } err = mlxsw_afk_picker_key_info_add(mlxsw_afk, picker, block_index, key_info); if (err) goto out; mlxsw_afk_picker_subtract_hits(mlxsw_afk, picker, block_index); } while (!mlxsw_afk_key_info_elements_eq(key_info, elusage)); err = 0; out: kfree(picker); return err; } static struct mlxsw_afk_key_info * mlxsw_afk_key_info_create(struct mlxsw_afk *mlxsw_afk, struct mlxsw_afk_element_usage *elusage) { struct mlxsw_afk_key_info *key_info; int err; key_info = kzalloc(struct_size(key_info, blocks, mlxsw_afk->max_blocks), GFP_KERNEL); if (!key_info) return ERR_PTR(-ENOMEM); err = mlxsw_afk_picker(mlxsw_afk, key_info, elusage); if (err) goto err_picker; list_add(&key_info->list, &mlxsw_afk->key_info_list); key_info->ref_count = 1; return key_info; err_picker: kfree(key_info); return ERR_PTR(err); } static void mlxsw_afk_key_info_destroy(struct mlxsw_afk_key_info *key_info) { list_del(&key_info->list); kfree(key_info); } struct mlxsw_afk_key_info * mlxsw_afk_key_info_get(struct mlxsw_afk *mlxsw_afk, struct mlxsw_afk_element_usage *elusage) { struct mlxsw_afk_key_info *key_info; key_info = mlxsw_afk_key_info_find(mlxsw_afk, elusage); if (key_info) { key_info->ref_count++; return key_info; } return mlxsw_afk_key_info_create(mlxsw_afk, elusage); } EXPORT_SYMBOL(mlxsw_afk_key_info_get); void mlxsw_afk_key_info_put(struct mlxsw_afk_key_info *key_info) { if (--key_info->ref_count) return; mlxsw_afk_key_info_destroy(key_info); } EXPORT_SYMBOL(mlxsw_afk_key_info_put); bool mlxsw_afk_key_info_subset(struct mlxsw_afk_key_info *key_info, struct mlxsw_afk_element_usage *elusage) { return mlxsw_afk_element_usage_subset(elusage, &key_info->elusage); } EXPORT_SYMBOL(mlxsw_afk_key_info_subset); static const struct mlxsw_afk_element_inst * mlxsw_afk_block_elinst_get(const struct mlxsw_afk_block *block, enum mlxsw_afk_element element) { int i; for (i = 0; i < block->instances_count; i++) { struct mlxsw_afk_element_inst *elinst; elinst = &block->instances[i]; if (elinst->element == element) return elinst; } return NULL; } static const struct mlxsw_afk_element_inst * mlxsw_afk_key_info_elinst_get(struct mlxsw_afk_key_info *key_info, enum mlxsw_afk_element element, int *p_block_index) { const struct mlxsw_afk_element_inst *elinst; const struct mlxsw_afk_block *block; int block_index; if (WARN_ON(!test_bit(element, key_info->elusage.usage))) return NULL; block_index = key_info->element_to_block[element]; block = key_info->blocks[block_index]; elinst = mlxsw_afk_block_elinst_get(block, element); if (WARN_ON(!elinst)) return NULL; *p_block_index = block_index; return elinst; } u16 mlxsw_afk_key_info_block_encoding_get(const struct mlxsw_afk_key_info *key_info, int block_index) { return key_info->blocks[block_index]->encoding; } EXPORT_SYMBOL(mlxsw_afk_key_info_block_encoding_get); unsigned int mlxsw_afk_key_info_blocks_count_get(const struct mlxsw_afk_key_info *key_info) { return key_info->blocks_count; } EXPORT_SYMBOL(mlxsw_afk_key_info_blocks_count_get); void mlxsw_afk_values_add_u32(struct mlxsw_afk_element_values *values, enum mlxsw_afk_element element, u32 key_value, u32 mask_value) { const struct mlxsw_afk_element_info *elinfo = &mlxsw_afk_element_infos[element]; const struct mlxsw_item *storage_item = &elinfo->item; if (!mask_value) return; if (WARN_ON(elinfo->type != MLXSW_AFK_ELEMENT_TYPE_U32)) return; __mlxsw_item_set32(values->storage.key, storage_item, 0, key_value); __mlxsw_item_set32(values->storage.mask, storage_item, 0, mask_value); mlxsw_afk_element_usage_add(&values->elusage, element); } EXPORT_SYMBOL(mlxsw_afk_values_add_u32); void mlxsw_afk_values_add_buf(struct mlxsw_afk_element_values *values, enum mlxsw_afk_element element, const char *key_value, const char *mask_value, unsigned int len) { const struct mlxsw_afk_element_info *elinfo = &mlxsw_afk_element_infos[element]; const struct mlxsw_item *storage_item = &elinfo->item; if (!memchr_inv(mask_value, 0, len)) /* If mask is zero */ return; if (WARN_ON(elinfo->type != MLXSW_AFK_ELEMENT_TYPE_BUF) || WARN_ON(elinfo->item.size.bytes != len)) return; __mlxsw_item_memcpy_to(values->storage.key, key_value, storage_item, 0); __mlxsw_item_memcpy_to(values->storage.mask, mask_value, storage_item, 0); mlxsw_afk_element_usage_add(&values->elusage, element); } EXPORT_SYMBOL(mlxsw_afk_values_add_buf); static void mlxsw_sp_afk_encode_u32(const struct mlxsw_item *storage_item, const struct mlxsw_item *output_item, char *storage, char *output, int diff) { u32 value; value = __mlxsw_item_get32(storage, storage_item, 0); __mlxsw_item_set32(output, output_item, 0, value + diff); } static void mlxsw_sp_afk_encode_buf(const struct mlxsw_item *storage_item, const struct mlxsw_item *output_item, char *storage, char *output) { char *storage_data = __mlxsw_item_data(storage, storage_item, 0); char *output_data = __mlxsw_item_data(output, output_item, 0); size_t len = output_item->size.bytes; memcpy(output_data, storage_data, len); } static void mlxsw_sp_afk_encode_one(const struct mlxsw_afk_element_inst *elinst, char *output, char *storage, int u32_diff) { const struct mlxsw_item *output_item = &elinst->item; const struct mlxsw_afk_element_info *elinfo; const struct mlxsw_item *storage_item; elinfo = &mlxsw_afk_element_infos[elinst->element]; storage_item = &elinfo->item; if (elinst->type == MLXSW_AFK_ELEMENT_TYPE_U32) mlxsw_sp_afk_encode_u32(storage_item, output_item, storage, output, u32_diff); else if (elinst->type == MLXSW_AFK_ELEMENT_TYPE_BUF) mlxsw_sp_afk_encode_buf(storage_item, output_item, storage, output); } #define MLXSW_SP_AFK_KEY_BLOCK_MAX_SIZE 16 void mlxsw_afk_encode(struct mlxsw_afk *mlxsw_afk, struct mlxsw_afk_key_info *key_info, struct mlxsw_afk_element_values *values, char *key, char *mask) { unsigned int blocks_count = mlxsw_afk_key_info_blocks_count_get(key_info); char block_mask[MLXSW_SP_AFK_KEY_BLOCK_MAX_SIZE]; char block_key[MLXSW_SP_AFK_KEY_BLOCK_MAX_SIZE]; const struct mlxsw_afk_element_inst *elinst; enum mlxsw_afk_element element; int block_index, i; for (i = 0; i < blocks_count; i++) { memset(block_key, 0, MLXSW_SP_AFK_KEY_BLOCK_MAX_SIZE); memset(block_mask, 0, MLXSW_SP_AFK_KEY_BLOCK_MAX_SIZE); mlxsw_afk_element_usage_for_each(element, &values->elusage) { elinst = mlxsw_afk_key_info_elinst_get(key_info, element, &block_index); if (!elinst || block_index != i) continue; mlxsw_sp_afk_encode_one(elinst, block_key, values->storage.key, elinst->u32_key_diff); mlxsw_sp_afk_encode_one(elinst, block_mask, values->storage.mask, 0); } mlxsw_afk->ops->encode_block(key, i, block_key); mlxsw_afk->ops->encode_block(mask, i, block_mask); } } EXPORT_SYMBOL(mlxsw_afk_encode); void mlxsw_afk_clear(struct mlxsw_afk *mlxsw_afk, char *key, int block_start, int block_end) { int i; for (i = block_start; i <= block_end; i++) mlxsw_afk->ops->clear_block(key, i); } EXPORT_SYMBOL(mlxsw_afk_clear);
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