/* SPDX-License-Identifier: BSD-3-Clause * Copyright(c) 2010-2016 Intel Corporation */ #include #include #include #include #include #include #include #include #include #include #include "rte_pipeline.h" #define RTE_TABLE_INVALID UINT32_MAX #ifdef RTE_PIPELINE_STATS_COLLECT #define RTE_PIPELINE_STATS_AH_DROP_WRITE(p, mask) \ ({ (p)->n_pkts_ah_drop = __builtin_popcountll(mask); }) #define RTE_PIPELINE_STATS_AH_DROP_READ(p, counter) \ ({ (counter) += (p)->n_pkts_ah_drop; (p)->n_pkts_ah_drop = 0; }) #define RTE_PIPELINE_STATS_TABLE_DROP0(p) \ ({ (p)->pkts_drop_mask = (p)->action_mask0[RTE_PIPELINE_ACTION_DROP]; }) #define RTE_PIPELINE_STATS_TABLE_DROP1(p, counter) \ ({ \ uint64_t mask = (p)->action_mask0[RTE_PIPELINE_ACTION_DROP]; \ mask ^= (p)->pkts_drop_mask; \ (counter) += __builtin_popcountll(mask); \ }) #else #define RTE_PIPELINE_STATS_AH_DROP_WRITE(p, mask) #define RTE_PIPELINE_STATS_AH_DROP_READ(p, counter) #define RTE_PIPELINE_STATS_TABLE_DROP0(p) #define RTE_PIPELINE_STATS_TABLE_DROP1(p, counter) #endif struct rte_port_in { /* Input parameters */ struct rte_port_in_ops ops; rte_pipeline_port_in_action_handler f_action; void *arg_ah; uint32_t burst_size; /* The table to which this port is connected */ uint32_t table_id; /* Handle to low-level port */ void *h_port; /* List of enabled ports */ struct rte_port_in *next; /* Statistics */ uint64_t n_pkts_dropped_by_ah; }; struct rte_port_out { /* Input parameters */ struct rte_port_out_ops ops; rte_pipeline_port_out_action_handler f_action; void *arg_ah; /* Handle to low-level port */ void *h_port; /* Statistics */ uint64_t n_pkts_dropped_by_ah; }; struct rte_table { /* Input parameters */ struct rte_table_ops ops; rte_pipeline_table_action_handler_hit f_action_hit; rte_pipeline_table_action_handler_miss f_action_miss; void *arg_ah; struct rte_pipeline_table_entry *default_entry; uint32_t entry_size; uint32_t table_next_id; uint32_t table_next_id_valid; /* Handle to the low-level table object */ void *h_table; /* Statistics */ uint64_t n_pkts_dropped_by_lkp_hit_ah; uint64_t n_pkts_dropped_by_lkp_miss_ah; uint64_t n_pkts_dropped_lkp_hit; uint64_t n_pkts_dropped_lkp_miss; }; #define RTE_PIPELINE_MAX_NAME_SZ 124 struct rte_pipeline { /* Input parameters */ char name[RTE_PIPELINE_MAX_NAME_SZ]; int socket_id; uint32_t offset_port_id; /* Internal tables */ struct rte_port_in ports_in[RTE_PIPELINE_PORT_IN_MAX]; struct rte_port_out ports_out[RTE_PIPELINE_PORT_OUT_MAX]; struct rte_table tables[RTE_PIPELINE_TABLE_MAX]; /* Occupancy of internal tables */ uint32_t num_ports_in; uint32_t num_ports_out; uint32_t num_tables; /* List of enabled ports */ uint64_t enabled_port_in_mask; struct rte_port_in *port_in_next; /* Pipeline run structures */ struct rte_mbuf *pkts[RTE_PORT_IN_BURST_SIZE_MAX]; struct rte_pipeline_table_entry *entries[RTE_PORT_IN_BURST_SIZE_MAX]; uint64_t action_mask0[RTE_PIPELINE_ACTIONS]; uint64_t action_mask1[RTE_PIPELINE_ACTIONS]; uint64_t pkts_mask; uint64_t n_pkts_ah_drop; uint64_t pkts_drop_mask; } __rte_cache_aligned; static inline uint32_t rte_mask_get_next(uint64_t mask, uint32_t pos) { uint64_t mask_rot = (mask << ((63 - pos) & 0x3F)) | (mask >> ((pos + 1) & 0x3F)); return (__builtin_ctzll(mask_rot) - (63 - pos)) & 0x3F; } static inline uint32_t rte_mask_get_prev(uint64_t mask, uint32_t pos) { uint64_t mask_rot = (mask >> (pos & 0x3F)) | (mask << ((64 - pos) & 0x3F)); return ((63 - __builtin_clzll(mask_rot)) + pos) & 0x3F; } static void rte_pipeline_table_free(struct rte_table *table); static void rte_pipeline_port_in_free(struct rte_port_in *port); static void rte_pipeline_port_out_free(struct rte_port_out *port); /* * Pipeline * */ static int rte_pipeline_check_params(struct rte_pipeline_params *params) { if (params == NULL) { RTE_LOG(ERR, PIPELINE, "%s: Incorrect value for parameter params\n", __func__); return -EINVAL; } /* name */ if (params->name == NULL) { RTE_LOG(ERR, PIPELINE, "%s: Incorrect value for parameter name\n", __func__); return -EINVAL; } /* socket */ if ((params->socket_id < 0) || (params->socket_id >= RTE_MAX_NUMA_NODES)) { RTE_LOG(ERR, PIPELINE, "%s: Incorrect value for parameter socket_id\n", __func__); return -EINVAL; } return 0; } struct rte_pipeline * rte_pipeline_create(struct rte_pipeline_params *params) { struct rte_pipeline *p; int status; /* Check input parameters */ status = rte_pipeline_check_params(params); if (status != 0) { RTE_LOG(ERR, PIPELINE, "%s: Pipeline params check failed (%d)\n", __func__, status); return NULL; } /* Allocate memory for the pipeline on requested socket */ p = rte_zmalloc_socket("PIPELINE", sizeof(struct rte_pipeline), RTE_CACHE_LINE_SIZE, params->socket_id); if (p == NULL) { RTE_LOG(ERR, PIPELINE, "%s: Pipeline memory allocation failed\n", __func__); return NULL; } /* Save input parameters */ snprintf(p->name, RTE_PIPELINE_MAX_NAME_SZ, "%s", params->name); p->socket_id = params->socket_id; p->offset_port_id = params->offset_port_id; /* Initialize pipeline internal data structure */ p->num_ports_in = 0; p->num_ports_out = 0; p->num_tables = 0; p->enabled_port_in_mask = 0; p->port_in_next = NULL; p->pkts_mask = 0; p->n_pkts_ah_drop = 0; return p; } int rte_pipeline_free(struct rte_pipeline *p) { uint32_t i; /* Check input parameters */ if (p == NULL) { RTE_LOG(ERR, PIPELINE, "%s: rte_pipeline parameter is NULL\n", __func__); return -EINVAL; } /* Free input ports */ for (i = 0; i < p->num_ports_in; i++) { struct rte_port_in *port = &p->ports_in[i]; rte_pipeline_port_in_free(port); } /* Free tables */ for (i = 0; i < p->num_tables; i++) { struct rte_table *table = &p->tables[i]; rte_pipeline_table_free(table); } /* Free output ports */ for (i = 0; i < p->num_ports_out; i++) { struct rte_port_out *port = &p->ports_out[i]; rte_pipeline_port_out_free(port); } /* Free pipeline memory */ rte_free(p); return 0; } /* * Table * */ static int rte_table_check_params(struct rte_pipeline *p, struct rte_pipeline_table_params *params, uint32_t *table_id) { if (p == NULL) { RTE_LOG(ERR, PIPELINE, "%s: pipeline parameter is NULL\n", __func__); return -EINVAL; } if (params == NULL) { RTE_LOG(ERR, PIPELINE, "%s: params parameter is NULL\n", __func__); return -EINVAL; } if (table_id == NULL) { RTE_LOG(ERR, PIPELINE, "%s: table_id parameter is NULL\n", __func__); return -EINVAL; } /* ops */ if (params->ops == NULL) { RTE_LOG(ERR, PIPELINE, "%s: params->ops is NULL\n", __func__); return -EINVAL; } if (params->ops->f_create == NULL) { RTE_LOG(ERR, PIPELINE, "%s: f_create function pointer is NULL\n", __func__); return -EINVAL; } if (params->ops->f_lookup == NULL) { RTE_LOG(ERR, PIPELINE, "%s: f_lookup function pointer is NULL\n", __func__); return -EINVAL; } /* De we have room for one more table? */ if (p->num_tables == RTE_PIPELINE_TABLE_MAX) { RTE_LOG(ERR, PIPELINE, "%s: Incorrect value for num_tables parameter\n", __func__); return -EINVAL; } return 0; } int rte_pipeline_table_create(struct rte_pipeline *p, struct rte_pipeline_table_params *params, uint32_t *table_id) { struct rte_table *table; struct rte_pipeline_table_entry *default_entry; void *h_table; uint32_t entry_size, id; int status; /* Check input arguments */ status = rte_table_check_params(p, params, table_id); if (status != 0) return status; id = p->num_tables; table = &p->tables[id]; /* Allocate space for the default table entry */ entry_size = sizeof(struct rte_pipeline_table_entry) + params->action_data_size; default_entry = rte_zmalloc_socket( "PIPELINE", entry_size, RTE_CACHE_LINE_SIZE, p->socket_id); if (default_entry == NULL) { RTE_LOG(ERR, PIPELINE, "%s: Failed to allocate default entry\n", __func__); return -EINVAL; } /* Create the table */ h_table = params->ops->f_create(params->arg_create, p->socket_id, entry_size); if (h_table == NULL) { rte_free(default_entry); RTE_LOG(ERR, PIPELINE, "%s: Table creation failed\n", __func__); return -EINVAL; } /* Commit current table to the pipeline */ p->num_tables++; *table_id = id; /* Save input parameters */ memcpy(&table->ops, params->ops, sizeof(struct rte_table_ops)); table->f_action_hit = params->f_action_hit; table->f_action_miss = params->f_action_miss; table->arg_ah = params->arg_ah; table->entry_size = entry_size; /* Clear the lookup miss actions (to be set later through API) */ table->default_entry = default_entry; table->default_entry->action = RTE_PIPELINE_ACTION_DROP; /* Initialize table internal data structure */ table->h_table = h_table; table->table_next_id = 0; table->table_next_id_valid = 0; return 0; } void rte_pipeline_table_free(struct rte_table *table) { if (table->ops.f_free != NULL) table->ops.f_free(table->h_table); rte_free(table->default_entry); } int rte_pipeline_table_default_entry_add(struct rte_pipeline *p, uint32_t table_id, struct rte_pipeline_table_entry *default_entry, struct rte_pipeline_table_entry **default_entry_ptr) { struct rte_table *table; /* Check input arguments */ if (p == NULL) { RTE_LOG(ERR, PIPELINE, "%s: pipeline parameter is NULL\n", __func__); return -EINVAL; } if (default_entry == NULL) { RTE_LOG(ERR, PIPELINE, "%s: default_entry parameter is NULL\n", __func__); return -EINVAL; } if (table_id >= p->num_tables) { RTE_LOG(ERR, PIPELINE, "%s: table_id %d out of range\n", __func__, table_id); return -EINVAL; } table = &p->tables[table_id]; if ((default_entry->action == RTE_PIPELINE_ACTION_TABLE) && table->table_next_id_valid && (default_entry->table_id != table->table_next_id)) { RTE_LOG(ERR, PIPELINE, "%s: Tree-like topologies not allowed\n", __func__); return -EINVAL; } /* Set the lookup miss actions */ if ((default_entry->action == RTE_PIPELINE_ACTION_TABLE) && (table->table_next_id_valid == 0)) { table->table_next_id = default_entry->table_id; table->table_next_id_valid = 1; } memcpy(table->default_entry, default_entry, table->entry_size); *default_entry_ptr = table->default_entry; return 0; } int rte_pipeline_table_default_entry_delete(struct rte_pipeline *p, uint32_t table_id, struct rte_pipeline_table_entry *entry) { struct rte_table *table; /* Check input arguments */ if (p == NULL) { RTE_LOG(ERR, PIPELINE, "%s: pipeline parameter is NULL\n", __func__); return -EINVAL; } if (table_id >= p->num_tables) { RTE_LOG(ERR, PIPELINE, "%s: table_id %d out of range\n", __func__, table_id); return -EINVAL; } table = &p->tables[table_id]; /* Save the current contents of the default entry */ if (entry) memcpy(entry, table->default_entry, table->entry_size); /* Clear the lookup miss actions */ memset(table->default_entry, 0, table->entry_size); table->default_entry->action = RTE_PIPELINE_ACTION_DROP; return 0; } int rte_pipeline_table_entry_add(struct rte_pipeline *p, uint32_t table_id, void *key, struct rte_pipeline_table_entry *entry, int *key_found, struct rte_pipeline_table_entry **entry_ptr) { struct rte_table *table; /* Check input arguments */ if (p == NULL) { RTE_LOG(ERR, PIPELINE, "%s: pipeline parameter is NULL\n", __func__); return -EINVAL; } if (key == NULL) { RTE_LOG(ERR, PIPELINE, "%s: key parameter is NULL\n", __func__); return -EINVAL; } if (entry == NULL) { RTE_LOG(ERR, PIPELINE, "%s: entry parameter is NULL\n", __func__); return -EINVAL; } if (table_id >= p->num_tables) { RTE_LOG(ERR, PIPELINE, "%s: table_id %d out of range\n", __func__, table_id); return -EINVAL; } table = &p->tables[table_id]; if (table->ops.f_add == NULL) { RTE_LOG(ERR, PIPELINE, "%s: f_add function pointer NULL\n", __func__); return -EINVAL; } if ((entry->action == RTE_PIPELINE_ACTION_TABLE) && table->table_next_id_valid && (entry->table_id != table->table_next_id)) { RTE_LOG(ERR, PIPELINE, "%s: Tree-like topologies not allowed\n", __func__); return -EINVAL; } /* Add entry */ if ((entry->action == RTE_PIPELINE_ACTION_TABLE) && (table->table_next_id_valid == 0)) { table->table_next_id = entry->table_id; table->table_next_id_valid = 1; } return (table->ops.f_add)(table->h_table, key, (void *) entry, key_found, (void **) entry_ptr); } int rte_pipeline_table_entry_delete(struct rte_pipeline *p, uint32_t table_id, void *key, int *key_found, struct rte_pipeline_table_entry *entry) { struct rte_table *table; /* Check input arguments */ if (p == NULL) { RTE_LOG(ERR, PIPELINE, "%s: pipeline parameter NULL\n", __func__); return -EINVAL; } if (key == NULL) { RTE_LOG(ERR, PIPELINE, "%s: key parameter is NULL\n", __func__); return -EINVAL; } if (table_id >= p->num_tables) { RTE_LOG(ERR, PIPELINE, "%s: table_id %d out of range\n", __func__, table_id); return -EINVAL; } table = &p->tables[table_id]; if (table->ops.f_delete == NULL) { RTE_LOG(ERR, PIPELINE, "%s: f_delete function pointer NULL\n", __func__); return -EINVAL; } return (table->ops.f_delete)(table->h_table, key, key_found, entry); } int rte_pipeline_table_entry_add_bulk(struct rte_pipeline *p, uint32_t table_id, void **keys, struct rte_pipeline_table_entry **entries, uint32_t n_keys, int *key_found, struct rte_pipeline_table_entry **entries_ptr) { struct rte_table *table; uint32_t i; /* Check input arguments */ if (p == NULL) { RTE_LOG(ERR, PIPELINE, "%s: pipeline parameter is NULL\n", __func__); return -EINVAL; } if (keys == NULL) { RTE_LOG(ERR, PIPELINE, "%s: keys parameter is NULL\n", __func__); return -EINVAL; } if (entries == NULL) { RTE_LOG(ERR, PIPELINE, "%s: entries parameter is NULL\n", __func__); return -EINVAL; } if (table_id >= p->num_tables) { RTE_LOG(ERR, PIPELINE, "%s: table_id %d out of range\n", __func__, table_id); return -EINVAL; } table = &p->tables[table_id]; if (table->ops.f_add_bulk == NULL) { RTE_LOG(ERR, PIPELINE, "%s: f_add_bulk function pointer NULL\n", __func__); return -EINVAL; } for (i = 0; i < n_keys; i++) { if ((entries[i]->action == RTE_PIPELINE_ACTION_TABLE) && table->table_next_id_valid && (entries[i]->table_id != table->table_next_id)) { RTE_LOG(ERR, PIPELINE, "%s: Tree-like topologies not allowed\n", __func__); return -EINVAL; } } /* Add entry */ for (i = 0; i < n_keys; i++) { if ((entries[i]->action == RTE_PIPELINE_ACTION_TABLE) && (table->table_next_id_valid == 0)) { table->table_next_id = entries[i]->table_id; table->table_next_id_valid = 1; } } return (table->ops.f_add_bulk)(table->h_table, keys, (void **) entries, n_keys, key_found, (void **) entries_ptr); } int rte_pipeline_table_entry_delete_bulk(struct rte_pipeline *p, uint32_t table_id, void **keys, uint32_t n_keys, int *key_found, struct rte_pipeline_table_entry **entries) { struct rte_table *table; /* Check input arguments */ if (p == NULL) { RTE_LOG(ERR, PIPELINE, "%s: pipeline parameter NULL\n", __func__); return -EINVAL; } if (keys == NULL) { RTE_LOG(ERR, PIPELINE, "%s: key parameter is NULL\n", __func__); return -EINVAL; } if (table_id >= p->num_tables) { RTE_LOG(ERR, PIPELINE, "%s: table_id %d out of range\n", __func__, table_id); return -EINVAL; } table = &p->tables[table_id]; if (table->ops.f_delete_bulk == NULL) { RTE_LOG(ERR, PIPELINE, "%s: f_delete function pointer NULL\n", __func__); return -EINVAL; } return (table->ops.f_delete_bulk)(table->h_table, keys, n_keys, key_found, (void **) entries); } /* * Port * */ static int rte_pipeline_port_in_check_params(struct rte_pipeline *p, struct rte_pipeline_port_in_params *params, uint32_t *port_id) { if (p == NULL) { RTE_LOG(ERR, PIPELINE, "%s: pipeline parameter NULL\n", __func__); return -EINVAL; } if (params == NULL) { RTE_LOG(ERR, PIPELINE, "%s: params parameter NULL\n", __func__); return -EINVAL; } if (port_id == NULL) { RTE_LOG(ERR, PIPELINE, "%s: port_id parameter NULL\n", __func__); return -EINVAL; } /* ops */ if (params->ops == NULL) { RTE_LOG(ERR, PIPELINE, "%s: params->ops parameter NULL\n", __func__); return -EINVAL; } if (params->ops->f_create == NULL) { RTE_LOG(ERR, PIPELINE, "%s: f_create function pointer NULL\n", __func__); return -EINVAL; } if (params->ops->f_rx == NULL) { RTE_LOG(ERR, PIPELINE, "%s: f_rx function pointer NULL\n", __func__); return -EINVAL; } /* burst_size */ if ((params->burst_size == 0) || (params->burst_size > RTE_PORT_IN_BURST_SIZE_MAX)) { RTE_LOG(ERR, PIPELINE, "%s: invalid value for burst_size\n", __func__); return -EINVAL; } /* Do we have room for one more port? */ if (p->num_ports_in == RTE_PIPELINE_PORT_IN_MAX) { RTE_LOG(ERR, PIPELINE, "%s: invalid value for num_ports_in\n", __func__); return -EINVAL; } return 0; } static int rte_pipeline_port_out_check_params(struct rte_pipeline *p, struct rte_pipeline_port_out_params *params, uint32_t *port_id) { if (p == NULL) { RTE_LOG(ERR, PIPELINE, "%s: pipeline parameter NULL\n", __func__); return -EINVAL; } if (params == NULL) { RTE_LOG(ERR, PIPELINE, "%s: params parameter NULL\n", __func__); return -EINVAL; } if (port_id == NULL) { RTE_LOG(ERR, PIPELINE, "%s: port_id parameter NULL\n", __func__); return -EINVAL; } /* ops */ if (params->ops == NULL) { RTE_LOG(ERR, PIPELINE, "%s: params->ops parameter NULL\n", __func__); return -EINVAL; } if (params->ops->f_create == NULL) { RTE_LOG(ERR, PIPELINE, "%s: f_create function pointer NULL\n", __func__); return -EINVAL; } if (params->ops->f_tx == NULL) { RTE_LOG(ERR, PIPELINE, "%s: f_tx function pointer NULL\n", __func__); return -EINVAL; } if (params->ops->f_tx_bulk == NULL) { RTE_LOG(ERR, PIPELINE, "%s: f_tx_bulk function pointer NULL\n", __func__); return -EINVAL; } /* Do we have room for one more port? */ if (p->num_ports_out == RTE_PIPELINE_PORT_OUT_MAX) { RTE_LOG(ERR, PIPELINE, "%s: invalid value for num_ports_out\n", __func__); return -EINVAL; } return 0; } int rte_pipeline_port_in_create(struct rte_pipeline *p, struct rte_pipeline_port_in_params *params, uint32_t *port_id) { struct rte_port_in *port; void *h_port; uint32_t id; int status; /* Check input arguments */ status = rte_pipeline_port_in_check_params(p, params, port_id); if (status != 0) return status; id = p->num_ports_in; port = &p->ports_in[id]; /* Create the port */ h_port = params->ops->f_create(params->arg_create, p->socket_id); if (h_port == NULL) { RTE_LOG(ERR, PIPELINE, "%s: Port creation failed\n", __func__); return -EINVAL; } /* Commit current table to the pipeline */ p->num_ports_in++; *port_id = id; /* Save input parameters */ memcpy(&port->ops, params->ops, sizeof(struct rte_port_in_ops)); port->f_action = params->f_action; port->arg_ah = params->arg_ah; port->burst_size = params->burst_size; /* Initialize port internal data structure */ port->table_id = RTE_TABLE_INVALID; port->h_port = h_port; port->next = NULL; return 0; } void rte_pipeline_port_in_free(struct rte_port_in *port) { if (port->ops.f_free != NULL) port->ops.f_free(port->h_port); } int rte_pipeline_port_out_create(struct rte_pipeline *p, struct rte_pipeline_port_out_params *params, uint32_t *port_id) { struct rte_port_out *port; void *h_port; uint32_t id; int status; /* Check input arguments */ status = rte_pipeline_port_out_check_params(p, params, port_id); if (status != 0) return status; id = p->num_ports_out; port = &p->ports_out[id]; /* Create the port */ h_port = params->ops->f_create(params->arg_create, p->socket_id); if (h_port == NULL) { RTE_LOG(ERR, PIPELINE, "%s: Port creation failed\n", __func__); return -EINVAL; } /* Commit current table to the pipeline */ p->num_ports_out++; *port_id = id; /* Save input parameters */ memcpy(&port->ops, params->ops, sizeof(struct rte_port_out_ops)); port->f_action = params->f_action; port->arg_ah = params->arg_ah; /* Initialize port internal data structure */ port->h_port = h_port; return 0; } void rte_pipeline_port_out_free(struct rte_port_out *port) { if (port->ops.f_free != NULL) port->ops.f_free(port->h_port); } int rte_pipeline_port_in_connect_to_table(struct rte_pipeline *p, uint32_t port_id, uint32_t table_id) { struct rte_port_in *port; /* Check input arguments */ if (p == NULL) { RTE_LOG(ERR, PIPELINE, "%s: pipeline parameter NULL\n", __func__); return -EINVAL; } if (port_id >= p->num_ports_in) { RTE_LOG(ERR, PIPELINE, "%s: port IN ID %u is out of range\n", __func__, port_id); return -EINVAL; } if (table_id >= p->num_tables) { RTE_LOG(ERR, PIPELINE, "%s: Table ID %u is out of range\n", __func__, table_id); return -EINVAL; } port = &p->ports_in[port_id]; port->table_id = table_id; return 0; } int rte_pipeline_port_in_enable(struct rte_pipeline *p, uint32_t port_id) { struct rte_port_in *port, *port_prev, *port_next; uint64_t port_mask; uint32_t port_prev_id, port_next_id; /* Check input arguments */ if (p == NULL) { RTE_LOG(ERR, PIPELINE, "%s: pipeline parameter NULL\n", __func__); return -EINVAL; } if (port_id >= p->num_ports_in) { RTE_LOG(ERR, PIPELINE, "%s: port IN ID %u is out of range\n", __func__, port_id); return -EINVAL; } port = &p->ports_in[port_id]; /* Return if current input port is already enabled */ port_mask = 1LLU << port_id; if (p->enabled_port_in_mask & port_mask) return 0; p->enabled_port_in_mask |= port_mask; /* Add current input port to the pipeline chain of enabled ports */ port_prev_id = rte_mask_get_prev(p->enabled_port_in_mask, port_id); port_next_id = rte_mask_get_next(p->enabled_port_in_mask, port_id); port_prev = &p->ports_in[port_prev_id]; port_next = &p->ports_in[port_next_id]; port_prev->next = port; port->next = port_next; /* Check if list of enabled ports was previously empty */ if (p->enabled_port_in_mask == port_mask) p->port_in_next = port; return 0; } int rte_pipeline_port_in_disable(struct rte_pipeline *p, uint32_t port_id) { struct rte_port_in *port, *port_prev, *port_next; uint64_t port_mask; uint32_t port_prev_id, port_next_id; /* Check input arguments */ if (p == NULL) { RTE_LOG(ERR, PIPELINE, "%s: pipeline parameter NULL\n", __func__); return -EINVAL; } if (port_id >= p->num_ports_in) { RTE_LOG(ERR, PIPELINE, "%s: port IN ID %u is out of range\n", __func__, port_id); return -EINVAL; } port = &p->ports_in[port_id]; /* Return if current input port is already disabled */ port_mask = 1LLU << port_id; if ((p->enabled_port_in_mask & port_mask) == 0) return 0; p->enabled_port_in_mask &= ~port_mask; /* Return if no other enabled ports */ if (p->enabled_port_in_mask == 0) { p->port_in_next = NULL; return 0; } /* Add current input port to the pipeline chain of enabled ports */ port_prev_id = rte_mask_get_prev(p->enabled_port_in_mask, port_id); port_next_id = rte_mask_get_next(p->enabled_port_in_mask, port_id); port_prev = &p->ports_in[port_prev_id]; port_next = &p->ports_in[port_next_id]; port_prev->next = port_next; /* Check if the port which has just been disabled is next to serve */ if (port == p->port_in_next) p->port_in_next = port_next; return 0; } /* * Pipeline run-time * */ int rte_pipeline_check(struct rte_pipeline *p) { uint32_t port_in_id; /* Check input arguments */ if (p == NULL) { RTE_LOG(ERR, PIPELINE, "%s: pipeline parameter NULL\n", __func__); return -EINVAL; } /* Check that pipeline has at least one input port, one table and one output port */ if (p->num_ports_in == 0) { RTE_LOG(ERR, PIPELINE, "%s: must have at least 1 input port\n", __func__); return -EINVAL; } if (p->num_tables == 0) { RTE_LOG(ERR, PIPELINE, "%s: must have at least 1 table\n", __func__); return -EINVAL; } if (p->num_ports_out == 0) { RTE_LOG(ERR, PIPELINE, "%s: must have at least 1 output port\n", __func__); return -EINVAL; } /* Check that all input ports are connected */ for (port_in_id = 0; port_in_id < p->num_ports_in; port_in_id++) { struct rte_port_in *port_in = &p->ports_in[port_in_id]; if (port_in->table_id == RTE_TABLE_INVALID) { RTE_LOG(ERR, PIPELINE, "%s: Port IN ID %u is not connected\n", __func__, port_in_id); return -EINVAL; } } return 0; } static inline void rte_pipeline_compute_masks(struct rte_pipeline *p, uint64_t pkts_mask) { p->action_mask1[RTE_PIPELINE_ACTION_DROP] = 0; p->action_mask1[RTE_PIPELINE_ACTION_PORT] = 0; p->action_mask1[RTE_PIPELINE_ACTION_PORT_META] = 0; p->action_mask1[RTE_PIPELINE_ACTION_TABLE] = 0; if ((pkts_mask & (pkts_mask + 1)) == 0) { uint64_t n_pkts = __builtin_popcountll(pkts_mask); uint32_t i; for (i = 0; i < n_pkts; i++) { uint64_t pkt_mask = 1LLU << i; uint32_t pos = p->entries[i]->action; p->action_mask1[pos] |= pkt_mask; } } else { uint32_t i; for (i = 0; i < RTE_PORT_IN_BURST_SIZE_MAX; i++) { uint64_t pkt_mask = 1LLU << i; uint32_t pos; if ((pkt_mask & pkts_mask) == 0) continue; pos = p->entries[i]->action; p->action_mask1[pos] |= pkt_mask; } } } static inline void rte_pipeline_action_handler_port_bulk(struct rte_pipeline *p, uint64_t pkts_mask, uint32_t port_id) { struct rte_port_out *port_out = &p->ports_out[port_id]; p->pkts_mask = pkts_mask; /* Output port user actions */ if (port_out->f_action != NULL) { port_out->f_action(p, p->pkts, pkts_mask, port_out->arg_ah); RTE_PIPELINE_STATS_AH_DROP_READ(p, port_out->n_pkts_dropped_by_ah); } /* Output port TX */ if (p->pkts_mask != 0) port_out->ops.f_tx_bulk(port_out->h_port, p->pkts, p->pkts_mask); } static inline void rte_pipeline_action_handler_port(struct rte_pipeline *p, uint64_t pkts_mask) { p->pkts_mask = pkts_mask; if ((pkts_mask & (pkts_mask + 1)) == 0) { uint64_t n_pkts = __builtin_popcountll(pkts_mask); uint32_t i; for (i = 0; i < n_pkts; i++) { struct rte_mbuf *pkt = p->pkts[i]; uint32_t port_out_id = p->entries[i]->port_id; struct rte_port_out *port_out = &p->ports_out[port_out_id]; /* Output port user actions */ if (port_out->f_action == NULL) /* Output port TX */ port_out->ops.f_tx(port_out->h_port, pkt); else { uint64_t pkt_mask = 1LLU << i; port_out->f_action(p, p->pkts, pkt_mask, port_out->arg_ah); RTE_PIPELINE_STATS_AH_DROP_READ(p, port_out->n_pkts_dropped_by_ah); /* Output port TX */ if (pkt_mask & p->pkts_mask) port_out->ops.f_tx(port_out->h_port, pkt); } } } else { uint32_t i; for (i = 0; i < RTE_PORT_IN_BURST_SIZE_MAX; i++) { uint64_t pkt_mask = 1LLU << i; struct rte_mbuf *pkt; struct rte_port_out *port_out; uint32_t port_out_id; if ((pkt_mask & pkts_mask) == 0) continue; pkt = p->pkts[i]; port_out_id = p->entries[i]->port_id; port_out = &p->ports_out[port_out_id]; /* Output port user actions */ if (port_out->f_action == NULL) /* Output port TX */ port_out->ops.f_tx(port_out->h_port, pkt); else { port_out->f_action(p, p->pkts, pkt_mask, port_out->arg_ah); RTE_PIPELINE_STATS_AH_DROP_READ(p, port_out->n_pkts_dropped_by_ah); /* Output port TX */ if (pkt_mask & p->pkts_mask) port_out->ops.f_tx(port_out->h_port, pkt); } } } } static inline void rte_pipeline_action_handler_port_meta(struct rte_pipeline *p, uint64_t pkts_mask) { p->pkts_mask = pkts_mask; if ((pkts_mask & (pkts_mask + 1)) == 0) { uint64_t n_pkts = __builtin_popcountll(pkts_mask); uint32_t i; for (i = 0; i < n_pkts; i++) { struct rte_mbuf *pkt = p->pkts[i]; uint32_t port_out_id = RTE_MBUF_METADATA_UINT32(pkt, p->offset_port_id); struct rte_port_out *port_out = &p->ports_out[ port_out_id]; /* Output port user actions */ if (port_out->f_action == NULL) /* Output port TX */ port_out->ops.f_tx(port_out->h_port, pkt); else { uint64_t pkt_mask = 1LLU << i; port_out->f_action(p, p->pkts, pkt_mask, port_out->arg_ah); RTE_PIPELINE_STATS_AH_DROP_READ(p, port_out->n_pkts_dropped_by_ah); /* Output port TX */ if (pkt_mask & p->pkts_mask) port_out->ops.f_tx(port_out->h_port, pkt); } } } else { uint32_t i; for (i = 0; i < RTE_PORT_IN_BURST_SIZE_MAX; i++) { uint64_t pkt_mask = 1LLU << i; struct rte_mbuf *pkt; struct rte_port_out *port_out; uint32_t port_out_id; if ((pkt_mask & pkts_mask) == 0) continue; pkt = p->pkts[i]; port_out_id = RTE_MBUF_METADATA_UINT32(pkt, p->offset_port_id); port_out = &p->ports_out[port_out_id]; /* Output port user actions */ if (port_out->f_action == NULL) /* Output port TX */ port_out->ops.f_tx(port_out->h_port, pkt); else { port_out->f_action(p, p->pkts, pkt_mask, port_out->arg_ah); RTE_PIPELINE_STATS_AH_DROP_READ(p, port_out->n_pkts_dropped_by_ah); /* Output port TX */ if (pkt_mask & p->pkts_mask) port_out->ops.f_tx(port_out->h_port, pkt); } } } } static inline void rte_pipeline_action_handler_drop(struct rte_pipeline *p, uint64_t pkts_mask) { if ((pkts_mask & (pkts_mask + 1)) == 0) { uint64_t n_pkts = __builtin_popcountll(pkts_mask); uint32_t i; for (i = 0; i < n_pkts; i++) rte_pktmbuf_free(p->pkts[i]); } else { uint32_t i; for (i = 0; i < RTE_PORT_IN_BURST_SIZE_MAX; i++) { uint64_t pkt_mask = 1LLU << i; if ((pkt_mask & pkts_mask) == 0) continue; rte_pktmbuf_free(p->pkts[i]); } } } int rte_pipeline_run(struct rte_pipeline *p) { struct rte_port_in *port_in = p->port_in_next; uint32_t n_pkts, table_id; if (port_in == NULL) return 0; /* Input port RX */ n_pkts = port_in->ops.f_rx(port_in->h_port, p->pkts, port_in->burst_size); if (n_pkts == 0) { p->port_in_next = port_in->next; return 0; } p->pkts_mask = RTE_LEN2MASK(n_pkts, uint64_t); p->action_mask0[RTE_PIPELINE_ACTION_DROP] = 0; p->action_mask0[RTE_PIPELINE_ACTION_PORT] = 0; p->action_mask0[RTE_PIPELINE_ACTION_PORT_META] = 0; p->action_mask0[RTE_PIPELINE_ACTION_TABLE] = 0; /* Input port user actions */ if (port_in->f_action != NULL) { port_in->f_action(p, p->pkts, n_pkts, port_in->arg_ah); RTE_PIPELINE_STATS_AH_DROP_READ(p, port_in->n_pkts_dropped_by_ah); } /* Table */ for (table_id = port_in->table_id; p->pkts_mask != 0; ) { struct rte_table *table; uint64_t lookup_hit_mask, lookup_miss_mask; /* Lookup */ table = &p->tables[table_id]; table->ops.f_lookup(table->h_table, p->pkts, p->pkts_mask, &lookup_hit_mask, (void **) p->entries); lookup_miss_mask = p->pkts_mask & (~lookup_hit_mask); /* Lookup miss */ if (lookup_miss_mask != 0) { struct rte_pipeline_table_entry *default_entry = table->default_entry; p->pkts_mask = lookup_miss_mask; /* Table user actions */ if (table->f_action_miss != NULL) { table->f_action_miss(p, p->pkts, lookup_miss_mask, default_entry, table->arg_ah); RTE_PIPELINE_STATS_AH_DROP_READ(p, table->n_pkts_dropped_by_lkp_miss_ah); } /* Table reserved actions */ if ((default_entry->action == RTE_PIPELINE_ACTION_PORT) && (p->pkts_mask != 0)) rte_pipeline_action_handler_port_bulk(p, p->pkts_mask, default_entry->port_id); else { uint32_t pos = default_entry->action; RTE_PIPELINE_STATS_TABLE_DROP0(p); p->action_mask0[pos] |= p->pkts_mask; RTE_PIPELINE_STATS_TABLE_DROP1(p, table->n_pkts_dropped_lkp_miss); } } /* Lookup hit */ if (lookup_hit_mask != 0) { p->pkts_mask = lookup_hit_mask; /* Table user actions */ if (table->f_action_hit != NULL) { table->f_action_hit(p, p->pkts, lookup_hit_mask, p->entries, table->arg_ah); RTE_PIPELINE_STATS_AH_DROP_READ(p, table->n_pkts_dropped_by_lkp_hit_ah); } /* Table reserved actions */ RTE_PIPELINE_STATS_TABLE_DROP0(p); rte_pipeline_compute_masks(p, p->pkts_mask); p->action_mask0[RTE_PIPELINE_ACTION_DROP] |= p->action_mask1[ RTE_PIPELINE_ACTION_DROP]; p->action_mask0[RTE_PIPELINE_ACTION_PORT] |= p->action_mask1[ RTE_PIPELINE_ACTION_PORT]; p->action_mask0[RTE_PIPELINE_ACTION_PORT_META] |= p->action_mask1[ RTE_PIPELINE_ACTION_PORT_META]; p->action_mask0[RTE_PIPELINE_ACTION_TABLE] |= p->action_mask1[ RTE_PIPELINE_ACTION_TABLE]; RTE_PIPELINE_STATS_TABLE_DROP1(p, table->n_pkts_dropped_lkp_hit); } /* Prepare for next iteration */ p->pkts_mask = p->action_mask0[RTE_PIPELINE_ACTION_TABLE]; table_id = table->table_next_id; p->action_mask0[RTE_PIPELINE_ACTION_TABLE] = 0; } /* Table reserved action PORT */ rte_pipeline_action_handler_port(p, p->action_mask0[RTE_PIPELINE_ACTION_PORT]); /* Table reserved action PORT META */ rte_pipeline_action_handler_port_meta(p, p->action_mask0[RTE_PIPELINE_ACTION_PORT_META]); /* Table reserved action DROP */ rte_pipeline_action_handler_drop(p, p->action_mask0[RTE_PIPELINE_ACTION_DROP]); /* Pick candidate for next port IN to serve */ p->port_in_next = port_in->next; return (int) n_pkts; } int rte_pipeline_flush(struct rte_pipeline *p) { uint32_t port_id; /* Check input arguments */ if (p == NULL) { RTE_LOG(ERR, PIPELINE, "%s: pipeline parameter NULL\n", __func__); return -EINVAL; } for (port_id = 0; port_id < p->num_ports_out; port_id++) { struct rte_port_out *port = &p->ports_out[port_id]; if (port->ops.f_flush != NULL) port->ops.f_flush(port->h_port); } return 0; } int rte_pipeline_port_out_packet_insert(struct rte_pipeline *p, uint32_t port_id, struct rte_mbuf *pkt) { struct rte_port_out *port_out = &p->ports_out[port_id]; port_out->ops.f_tx(port_out->h_port, pkt); /* Output port TX */ return 0; } int rte_pipeline_ah_packet_hijack(struct rte_pipeline *p, uint64_t pkts_mask) { pkts_mask &= p->pkts_mask; p->pkts_mask &= ~pkts_mask; return 0; } int rte_pipeline_ah_packet_drop(struct rte_pipeline *p, uint64_t pkts_mask) { pkts_mask &= p->pkts_mask; p->pkts_mask &= ~pkts_mask; p->action_mask0[RTE_PIPELINE_ACTION_DROP] |= pkts_mask; RTE_PIPELINE_STATS_AH_DROP_WRITE(p, pkts_mask); return 0; } int rte_pipeline_port_in_stats_read(struct rte_pipeline *p, uint32_t port_id, struct rte_pipeline_port_in_stats *stats, int clear) { struct rte_port_in *port; int retval; if (p == NULL) { RTE_LOG(ERR, PIPELINE, "%s: pipeline parameter NULL\n", __func__); return -EINVAL; } if (port_id >= p->num_ports_in) { RTE_LOG(ERR, PIPELINE, "%s: port IN ID %u is out of range\n", __func__, port_id); return -EINVAL; } port = &p->ports_in[port_id]; if (port->ops.f_stats != NULL) { retval = port->ops.f_stats(port->h_port, &stats->stats, clear); if (retval) return retval; } else if (stats != NULL) memset(&stats->stats, 0, sizeof(stats->stats)); if (stats != NULL) stats->n_pkts_dropped_by_ah = port->n_pkts_dropped_by_ah; if (clear != 0) port->n_pkts_dropped_by_ah = 0; return 0; } int rte_pipeline_port_out_stats_read(struct rte_pipeline *p, uint32_t port_id, struct rte_pipeline_port_out_stats *stats, int clear) { struct rte_port_out *port; int retval; if (p == NULL) { RTE_LOG(ERR, PIPELINE, "%s: pipeline parameter NULL\n", __func__); return -EINVAL; } if (port_id >= p->num_ports_out) { RTE_LOG(ERR, PIPELINE, "%s: port OUT ID %u is out of range\n", __func__, port_id); return -EINVAL; } port = &p->ports_out[port_id]; if (port->ops.f_stats != NULL) { retval = port->ops.f_stats(port->h_port, &stats->stats, clear); if (retval != 0) return retval; } else if (stats != NULL) memset(&stats->stats, 0, sizeof(stats->stats)); if (stats != NULL) stats->n_pkts_dropped_by_ah = port->n_pkts_dropped_by_ah; if (clear != 0) port->n_pkts_dropped_by_ah = 0; return 0; } int rte_pipeline_table_stats_read(struct rte_pipeline *p, uint32_t table_id, struct rte_pipeline_table_stats *stats, int clear) { struct rte_table *table; int retval; if (p == NULL) { RTE_LOG(ERR, PIPELINE, "%s: pipeline parameter NULL\n", __func__); return -EINVAL; } if (table_id >= p->num_tables) { RTE_LOG(ERR, PIPELINE, "%s: table %u is out of range\n", __func__, table_id); return -EINVAL; } table = &p->tables[table_id]; if (table->ops.f_stats != NULL) { retval = table->ops.f_stats(table->h_table, &stats->stats, clear); if (retval != 0) return retval; } else if (stats != NULL) memset(&stats->stats, 0, sizeof(stats->stats)); if (stats != NULL) { stats->n_pkts_dropped_by_lkp_hit_ah = table->n_pkts_dropped_by_lkp_hit_ah; stats->n_pkts_dropped_by_lkp_miss_ah = table->n_pkts_dropped_by_lkp_miss_ah; stats->n_pkts_dropped_lkp_hit = table->n_pkts_dropped_lkp_hit; stats->n_pkts_dropped_lkp_miss = table->n_pkts_dropped_lkp_miss; } if (clear != 0) { table->n_pkts_dropped_by_lkp_hit_ah = 0; table->n_pkts_dropped_by_lkp_miss_ah = 0; table->n_pkts_dropped_lkp_hit = 0; table->n_pkts_dropped_lkp_miss = 0; } return 0; }