/* SPDX-License-Identifier: BSD-3-Clause * Copyright 2017-2020 NXP */ /* System headers */ #include #include #include #include #include #include #include #include #include #define FMC_OUTPUT_FORMAT_VER 0x106 #define FMC_NAME_LEN 64 #define FMC_FMAN_NUM 2 #define FMC_PORTS_PER_FMAN 16 #define FMC_SCHEMES_NUM 32 #define FMC_SCHEME_PROTOCOLS_NUM 16 #define FMC_CC_NODES_NUM 512 #define FMC_REPLICATORS_NUM 16 #define FMC_PLC_NUM 64 #define MAX_SP_CODE_SIZE 0x7C0 #define FMC_MANIP_MAX 64 #define FMC_HMANIP_MAX 512 #define FMC_INSERT_MAX 56 #define FM_PCD_MAX_REPS 64 typedef struct fmc_port_t { e_fm_port_type type; unsigned int number; struct fm_pcd_net_env_params_t distinction_units; struct ioc_fm_port_pcd_params_t pcd_param; struct ioc_fm_port_pcd_prs_params_t prs_param; struct ioc_fm_port_pcd_kg_params_t kg_param; struct ioc_fm_port_pcd_cc_params_t cc_param; char name[FMC_NAME_LEN]; char cctree_name[FMC_NAME_LEN]; t_handle handle; t_handle env_id_handle; t_handle env_id_dev_id; t_handle cctree_handle; t_handle cctree_dev_id; unsigned int schemes_count; unsigned int schemes[FMC_SCHEMES_NUM]; unsigned int ccnodes_count; unsigned int ccnodes[FMC_CC_NODES_NUM]; unsigned int htnodes_count; unsigned int htnodes[FMC_CC_NODES_NUM]; unsigned int replicators_count; unsigned int replicators[FMC_REPLICATORS_NUM]; ioc_fm_port_vsp_alloc_params_t vsp_param; unsigned int ccroot_count; unsigned int ccroot[FMC_CC_NODES_NUM]; enum ioc_fm_pcd_engine ccroot_type[FMC_CC_NODES_NUM]; unsigned int ccroot_manip[FMC_CC_NODES_NUM]; unsigned int reasm_index; } fmc_port; typedef struct fmc_fman_t { unsigned int number; unsigned int port_count; unsigned int ports[FMC_PORTS_PER_FMAN]; char name[FMC_NAME_LEN]; t_handle handle; char pcd_name[FMC_NAME_LEN]; t_handle pcd_handle; unsigned int kg_payload_offset; unsigned int offload_support; unsigned int reasm_count; struct fm_pcd_manip_params_t reasm[FMC_MANIP_MAX]; char reasm_name[FMC_MANIP_MAX][FMC_NAME_LEN]; t_handle reasm_handle[FMC_MANIP_MAX]; t_handle reasm_dev_id[FMC_MANIP_MAX]; unsigned int frag_count; struct fm_pcd_manip_params_t frag[FMC_MANIP_MAX]; char frag_name[FMC_MANIP_MAX][FMC_NAME_LEN]; t_handle frag_handle[FMC_MANIP_MAX]; t_handle frag_dev_id[FMC_MANIP_MAX]; unsigned int hdr_count; struct fm_pcd_manip_params_t hdr[FMC_HMANIP_MAX]; uint8_t insert_data[FMC_HMANIP_MAX][FMC_INSERT_MAX]; char hdr_name[FMC_HMANIP_MAX][FMC_NAME_LEN]; t_handle hdr_handle[FMC_HMANIP_MAX]; t_handle hdr_dev_id[FMC_HMANIP_MAX]; unsigned int hdr_has_next[FMC_HMANIP_MAX]; unsigned int hdr_next[FMC_HMANIP_MAX]; } fmc_fman; typedef enum fmc_apply_order_e { fmcengine_start, fmcengine_end, fmcport_start, fmcport_end, fmcscheme, fmcccnode, fmchtnode, fmccctree, fmcpolicer, fmcreplicator, fmcmanipulation } fmc_apply_order_e; typedef struct fmc_apply_order_t { fmc_apply_order_e type; unsigned int index; } fmc_apply_order; struct fmc_model_t { unsigned int format_version; unsigned int sp_enable; t_fm_pcd_prs_sw_params sp; uint8_t spcode[MAX_SP_CODE_SIZE]; unsigned int fman_count; fmc_fman fman[FMC_FMAN_NUM]; unsigned int port_count; fmc_port port[FMC_FMAN_NUM * FMC_PORTS_PER_FMAN]; unsigned int scheme_count; char scheme_name[FMC_SCHEMES_NUM][FMC_NAME_LEN]; t_handle scheme_handle[FMC_SCHEMES_NUM]; t_handle scheme_dev_id[FMC_SCHEMES_NUM]; struct fm_pcd_kg_scheme_params_t scheme[FMC_SCHEMES_NUM]; unsigned int ccnode_count; char ccnode_name[FMC_CC_NODES_NUM][FMC_NAME_LEN]; t_handle ccnode_handle[FMC_CC_NODES_NUM]; t_handle ccnode_dev_id[FMC_CC_NODES_NUM]; struct fm_pcd_cc_node_params_t ccnode[FMC_CC_NODES_NUM]; uint8_t cckeydata[FMC_CC_NODES_NUM][FM_PCD_MAX_NUM_OF_KEYS] [FM_PCD_MAX_SIZE_OF_KEY]; unsigned char ccmask[FMC_CC_NODES_NUM][FM_PCD_MAX_NUM_OF_KEYS] [FM_PCD_MAX_SIZE_OF_KEY]; unsigned int ccentry_action_index[FMC_CC_NODES_NUM][FM_PCD_MAX_NUM_OF_KEYS]; enum ioc_fm_pcd_engine ccentry_action_type[FMC_CC_NODES_NUM][FM_PCD_MAX_NUM_OF_KEYS]; unsigned char ccentry_frag[FMC_CC_NODES_NUM][FM_PCD_MAX_NUM_OF_KEYS]; unsigned int ccentry_manip[FMC_CC_NODES_NUM][FM_PCD_MAX_NUM_OF_KEYS]; unsigned int ccmiss_action_index[FMC_CC_NODES_NUM]; enum ioc_fm_pcd_engine ccmiss_action_type[FMC_CC_NODES_NUM]; unsigned char ccmiss_frag[FMC_CC_NODES_NUM]; unsigned int ccmiss_manip[FMC_CC_NODES_NUM]; unsigned int htnode_count; char htnode_name[FMC_CC_NODES_NUM][FMC_NAME_LEN]; t_handle htnode_handle[FMC_CC_NODES_NUM]; t_handle htnode_dev_id[FMC_CC_NODES_NUM]; struct fm_pcd_hash_table_params_t htnode[FMC_CC_NODES_NUM]; unsigned int htentry_count[FMC_CC_NODES_NUM]; struct ioc_fm_pcd_cc_key_params_t htentry[FMC_CC_NODES_NUM][FM_PCD_MAX_NUM_OF_KEYS]; uint8_t htkeydata[FMC_CC_NODES_NUM][FM_PCD_MAX_NUM_OF_KEYS] [FM_PCD_MAX_SIZE_OF_KEY]; unsigned int htentry_action_index[FMC_CC_NODES_NUM][FM_PCD_MAX_NUM_OF_KEYS]; enum ioc_fm_pcd_engine htentry_action_type[FMC_CC_NODES_NUM][FM_PCD_MAX_NUM_OF_KEYS]; unsigned char htentry_frag[FMC_CC_NODES_NUM][FM_PCD_MAX_NUM_OF_KEYS]; unsigned int htentry_manip[FMC_CC_NODES_NUM][FM_PCD_MAX_NUM_OF_KEYS]; unsigned int htmiss_action_index[FMC_CC_NODES_NUM]; enum ioc_fm_pcd_engine htmiss_action_type[FMC_CC_NODES_NUM]; unsigned char htmiss_frag[FMC_CC_NODES_NUM]; unsigned int htmiss_manip[FMC_CC_NODES_NUM]; unsigned int replicator_count; char replicator_name[FMC_REPLICATORS_NUM][FMC_NAME_LEN]; t_handle replicator_handle[FMC_REPLICATORS_NUM]; t_handle replicator_dev_id[FMC_REPLICATORS_NUM]; struct fm_pcd_frm_replic_group_params_t replicator[FMC_REPLICATORS_NUM]; unsigned int repentry_action_index[FMC_REPLICATORS_NUM][FM_PCD_MAX_REPS]; unsigned char repentry_frag[FMC_REPLICATORS_NUM][FM_PCD_MAX_REPS]; unsigned int repentry_manip[FMC_REPLICATORS_NUM][FM_PCD_MAX_REPS]; unsigned int policer_count; char policer_name[FMC_PLC_NUM][FMC_NAME_LEN]; struct fm_pcd_plcr_profile_params_t policer[FMC_PLC_NUM]; t_handle policer_handle[FMC_PLC_NUM]; t_handle policer_dev_id[FMC_PLC_NUM]; unsigned int policer_action_index[FMC_PLC_NUM][3]; unsigned int apply_order_count; fmc_apply_order apply_order[FMC_FMAN_NUM * FMC_PORTS_PER_FMAN * (FMC_SCHEMES_NUM + FMC_CC_NODES_NUM)]; }; struct fmc_model_t *g_fmc_model; static int dpaa_port_fmc_port_parse(struct fman_if *fif, const struct fmc_model_t *fmc_model, int apply_idx) { int current_port = fmc_model->apply_order[apply_idx].index; const fmc_port *pport = &fmc_model->port[current_port]; const uint8_t mac_idx[] = {-1, 0, 1, 2, 3, 4, 5, 6, 7, 0, 1}; const uint8_t mac_type[] = {1, 1, 1, 1, 1, 1, 1, 1, 1, 2, 2}; if (mac_idx[fif->mac_idx] != pport->number || mac_type[fif->mac_idx] != pport->type) return -1; return current_port; } static int dpaa_port_fmc_scheme_parse(struct fman_if *fif, const struct fmc_model_t *fmc, int apply_idx, uint16_t *rxq_idx, int max_nb_rxq, uint32_t *fqids, int8_t *vspids) { int idx = fmc->apply_order[apply_idx].index; uint32_t i; if (!fmc->scheme[idx].override_storage_profile && fif->is_shared_mac) { DPAA_PMD_WARN("No VSP assigned to scheme %d for sharemac %d!", idx, fif->mac_idx); DPAA_PMD_WARN("Risk to receive pkts from skb pool to CRASH!"); } if (e_IOC_FM_PCD_DONE == fmc->scheme[idx].next_engine) { for (i = 0; i < fmc->scheme[idx] .key_ext_and_hash.hash_dist_num_of_fqids; i++) { uint32_t fqid = fmc->scheme[idx].base_fqid + i; int k, found = 0; if (fqid == fif->fqid_rx_def) { if (fif->is_shared_mac && fmc->scheme[idx].override_storage_profile && fmc->scheme[idx].storage_profile.direct && fmc->scheme[idx].storage_profile .profile_select.direct_relative_profile_id != fif->base_profile_id) { DPAA_PMD_ERR("Def RXQ must be associated with def VSP on sharemac!"); return -1; } continue; } if (fif->is_shared_mac && !fmc->scheme[idx].override_storage_profile) { DPAA_PMD_ERR("RXQ to DPDK must be associated with VSP on sharemac!"); return -1; } if (fif->is_shared_mac && fmc->scheme[idx].override_storage_profile && fmc->scheme[idx].storage_profile.direct && fmc->scheme[idx].storage_profile .profile_select.direct_relative_profile_id == fif->base_profile_id) { DPAA_PMD_ERR("RXQ can't be associated with default VSP on sharemac!"); return -1; } if ((*rxq_idx) >= max_nb_rxq) { DPAA_PMD_DEBUG("Too many queues in FMC policy" "%d overflow %d", (*rxq_idx), max_nb_rxq); continue; } for (k = 0; k < (*rxq_idx); k++) { if (fqids[k] == fqid) { found = 1; break; } } if (found) continue; fqids[(*rxq_idx)] = fqid; if (fmc->scheme[idx].override_storage_profile) { if (fmc->scheme[idx].storage_profile.direct) { vspids[(*rxq_idx)] = fmc->scheme[idx].storage_profile .profile_select .direct_relative_profile_id; } else { vspids[(*rxq_idx)] = -1; } } else { vspids[(*rxq_idx)] = -1; } (*rxq_idx)++; } } return 0; } static int dpaa_port_fmc_ccnode_parse(struct fman_if *fif, const struct fmc_model_t *fmc_model, int apply_idx, uint16_t *rxq_idx, int max_nb_rxq, uint32_t *fqids, int8_t *vspids) { uint16_t j, k, found = 0; const struct ioc_keys_params_t *keys_params; uint32_t fqid, cc_idx = fmc_model->apply_order[apply_idx].index; keys_params = &fmc_model->ccnode[cc_idx].keys_params; if ((*rxq_idx) >= max_nb_rxq) { DPAA_PMD_WARN("Too many queues in FMC policy %d overflow %d", (*rxq_idx), max_nb_rxq); return 0; } for (j = 0; j < keys_params->num_of_keys; ++j) { found = 0; fqid = keys_params->key_params[j].cc_next_engine_params .params.enqueue_params.new_fqid; if (keys_params->key_params[j].cc_next_engine_params .next_engine != e_IOC_FM_PCD_DONE) { DPAA_PMD_WARN("FMC CC next engine not support"); continue; } if (keys_params->key_params[j].cc_next_engine_params .params.enqueue_params.action != e_IOC_FM_PCD_ENQ_FRAME) continue; for (k = 0; k < (*rxq_idx); k++) { if (fqids[k] == fqid) { found = 1; break; } } if (found) continue; if ((*rxq_idx) >= max_nb_rxq) { DPAA_PMD_WARN("Too many queues in FMC policy %d overflow %d", (*rxq_idx), max_nb_rxq); return 0; } fqids[(*rxq_idx)] = fqid; vspids[(*rxq_idx)] = keys_params->key_params[j].cc_next_engine_params .params.enqueue_params .new_relative_storage_profile_id; if (vspids[(*rxq_idx)] == fif->base_profile_id && fif->is_shared_mac) { DPAA_PMD_ERR("VSP %d can NOT be used on DPDK.", vspids[(*rxq_idx)]); DPAA_PMD_ERR("It is associated to skb pool of shared interface."); return -1; } (*rxq_idx)++; } return 0; } int dpaa_port_fmc_init(struct fman_if *fif, uint32_t *fqids, int8_t *vspids, int max_nb_rxq) { int current_port = -1, ret; uint16_t rxq_idx = 0; const struct fmc_model_t *fmc_model; uint32_t i; if (!g_fmc_model) { size_t bytes_read; FILE *fp = fopen(FMC_FILE, "rb"); if (!fp) { DPAA_PMD_ERR("%s not exists", FMC_FILE); return -1; } g_fmc_model = rte_malloc(NULL, sizeof(struct fmc_model_t), 64); if (!g_fmc_model) { DPAA_PMD_ERR("FMC memory alloc failed"); fclose(fp); return -1; } bytes_read = fread(g_fmc_model, sizeof(struct fmc_model_t), 1, fp); if (!bytes_read) { DPAA_PMD_ERR("No bytes read"); fclose(fp); rte_free(g_fmc_model); g_fmc_model = NULL; return -1; } fclose(fp); } fmc_model = g_fmc_model; if (fmc_model->format_version != FMC_OUTPUT_FORMAT_VER) return -1; for (i = 0; i < fmc_model->apply_order_count; i++) { switch (fmc_model->apply_order[i].type) { case fmcengine_start: break; case fmcengine_end: break; case fmcport_start: current_port = dpaa_port_fmc_port_parse(fif, fmc_model, i); break; case fmcport_end: break; case fmcscheme: if (current_port < 0) break; ret = dpaa_port_fmc_scheme_parse(fif, fmc_model, i, &rxq_idx, max_nb_rxq, fqids, vspids); if (ret) return ret; break; case fmcccnode: if (current_port < 0) break; ret = dpaa_port_fmc_ccnode_parse(fif, fmc_model, i, &rxq_idx, max_nb_rxq, fqids, vspids); if (ret) return ret; break; case fmchtnode: break; case fmcreplicator: break; case fmccctree: break; case fmcpolicer: break; case fmcmanipulation: break; default: break; } } return rxq_idx; }