#include #include "utils.h" #include "stellar/mq.h" #include "packet_private.h" #include "packet_manager_private.h" #define PACKET_MANAGER_LOG_ERROR(format, ...) STELLAR_LOG_ERROR(__thread_local_logger, "packet manager", format, ##__VA_ARGS__) #define PACKET_MANAGER_LOG_DEBUG(format, ...) STELLAR_LOG_DEBUG(__thread_local_logger, "packet manager", format, ##__VA_ARGS__) #define PACKET_MANAGER_LOG_INFO(format, ...) STELLAR_LOG_WARN(__thread_local_logger, "packet manager", format, ##__VA_ARGS__) TAILQ_HEAD(packet_queue, packet); struct packet_manager_config { uint16_t nr_worker_thread; }; struct packet_manager_schema { struct mq_schema *mq; int topic_id[PACKET_STAGE_MAX]; }; struct packet_manager_runtime { void *cb_args; on_packet_claimed_callback *claimed_cb; enum packet_stage stage; struct mq_runtime *mq; struct packet_queue queue[PACKET_QUEUE_MAX]; struct packet_manager_runtime_stat stat; }; struct packet_manager { struct packet_manager_config *cfg; struct packet_manager_schema *schema; struct packet_manager_runtime *runtime[MAX_THREAD_NUM]; }; /****************************************************************************** * packet stage ******************************************************************************/ const char *packet_stage_to_str(enum packet_stage stage) { switch (stage) { case PACKET_STAGE_PREROUTING: return "prerouting"; case PACKET_STAGE_INPUT: return "input"; case PACKET_STAGE_FORWARD: return "forward"; case PACKET_STAGE_OUTPUT: return "output"; case PACKET_STAGE_POSTROUTING: return "postrouting"; default: return "unknown"; } } /****************************************************************************** * packet manager config ******************************************************************************/ static void packet_manager_config_free(struct packet_manager_config *cfg) { if (cfg) { free(cfg); cfg = NULL; } } static struct packet_manager_config *packet_manager_config_new(const char *toml_file) { struct packet_manager_config *cfg = calloc(1, sizeof(struct packet_manager_config)); if (cfg == NULL) { PACKET_MANAGER_LOG_ERROR("failed to allocate memory for packet_manager_config"); return NULL; } uint64_t val = 0; if (load_and_validate_toml_integer_config(toml_file, "packet_io.nr_worker_thread", &val, 1, MAX_THREAD_NUM) != 0) { PACKET_MANAGER_LOG_ERROR("failed to load packet_io.nr_worker_thread from %s", toml_file); free(cfg); return NULL; } cfg->nr_worker_thread = val; return cfg; } /****************************************************************************** * packet manager schema ******************************************************************************/ static void on_packet_stage_dispatch(int topic_id, const void *msg, on_msg_cb_func *cb, void *cb_arg, void *dispatch_arg) { assert(msg); assert(dispatch_arg); struct packet_manager_schema *schema = (struct packet_manager_schema *)dispatch_arg; struct packet *pkt = (struct packet *)msg; enum packet_stage stage = PACKET_STAGE_MAX; for (int i = 0; i < PACKET_STAGE_MAX; i++) { if (schema->topic_id[i] == topic_id) { stage = i; break; } } ((on_packet_stage_callback *)cb)(stage, pkt, cb_arg); } static void packet_manager_schema_free(struct packet_manager_schema *pkt_mgr_schema) { if (pkt_mgr_schema) { if (pkt_mgr_schema->mq) { for (int i = 0; i < PACKET_STAGE_MAX; i++) { if (pkt_mgr_schema->topic_id[i] >= 0) { mq_schema_destroy_topic(pkt_mgr_schema->mq, pkt_mgr_schema->topic_id[i]); } } } free(pkt_mgr_schema); pkt_mgr_schema = NULL; } } static struct packet_manager_schema *packet_manager_schema_new(struct mq_schema *mq) { struct packet_manager_schema *pkt_mgr_schema = calloc(1, sizeof(struct packet_manager_schema)); if (pkt_mgr_schema == NULL) { PACKET_MANAGER_LOG_ERROR("failed to allocate memory for packet_manager_schema"); return NULL; } pkt_mgr_schema->mq = mq; for (int i = 0; i < PACKET_STAGE_MAX; i++) { pkt_mgr_schema->topic_id[i] = mq_schema_create_topic(pkt_mgr_schema->mq, packet_stage_to_str(i), (on_msg_dispatch_cb_func *)on_packet_stage_dispatch, pkt_mgr_schema, NULL, NULL); if (pkt_mgr_schema->topic_id[i] < 0) { PACKET_MANAGER_LOG_ERROR("failed to create topic %s", packet_stage_to_str(i)); goto error_out; } } return pkt_mgr_schema; error_out: packet_manager_schema_free(pkt_mgr_schema); return NULL; } int packet_manager_schema_add_subscriber(struct packet_manager_schema *pkt_mgr_schema, enum packet_stage stage, on_packet_stage_callback cb, void *args) { return mq_schema_subscribe(pkt_mgr_schema->mq, pkt_mgr_schema->topic_id[stage], (on_msg_cb_func *)cb, args); } /****************************************************************************** * packet manager runtime ******************************************************************************/ static void packet_manager_runtime_free(struct packet_manager_runtime *runtime) { if (runtime) { for (int i = 0; i < PACKET_QUEUE_MAX; i++) { struct packet *pkt = NULL; while ((pkt = TAILQ_FIRST(&runtime->queue[i]))) { TAILQ_REMOVE(&runtime->queue[i], pkt, stage_tqe); // TODO: free packet and free mbuff packet_free(pkt); } } } free(runtime); runtime = NULL; } static struct packet_manager_runtime *packet_manager_runtime_new() { struct packet_manager_runtime *runtime = calloc(1, sizeof(struct packet_manager_runtime)); if (runtime == NULL) { PACKET_MANAGER_LOG_ERROR("failed to allocate memory for packet_manager_runtime"); return NULL; } for (int i = 0; i < PACKET_QUEUE_MAX; i++) { TAILQ_INIT(&runtime->queue[i]); } return runtime; } void packet_manager_runtime_print_stat(struct packet_manager_runtime *runtime) { PACKET_MANAGER_LOG_DEBUG("runtime[%p] current stage: %s, pkts_ingress: %lu, pkts_egress: %lu", runtime, packet_stage_to_str(runtime->stage), runtime->stat.total.pkts_ingress, runtime->stat.total.pkts_egress); for (int i = 0; i < PACKET_QUEUE_MAX; i++) { PACKET_MANAGER_LOG_DEBUG("runtime[%p] (%11s) queue stat => pkts_in: %lu, pkts_out: %lu, pkts_claim: %lu, pkts_schedule: %lu", runtime, packet_stage_to_str(i), runtime->stat.queue[i].pkts_in, runtime->stat.queue[i].pkts_out, runtime->stat.queue[i].pkts_claim, runtime->stat.queue[i].pkts_schedule); } } struct packet_manager_runtime_stat *packet_manager_runtime_get_stat(struct packet_manager_runtime *runtime) { return &runtime->stat; } void packet_manager_runtime_init(struct packet_manager_runtime *pkt_mgr_rt, struct mq_runtime *mq_rt) { pkt_mgr_rt->mq = mq_rt; } void packet_manager_runtime_ingress(struct packet_manager_runtime *pkt_mgr_rt, struct packet *pkt) { pkt_mgr_rt->stat.total.pkts_ingress++; pkt_mgr_rt->stat.queue[PACKET_STAGE_PREROUTING].pkts_in++; TAILQ_INSERT_TAIL(&pkt_mgr_rt->queue[PACKET_STAGE_PREROUTING], pkt, stage_tqe); } struct packet *packet_manager_runtime_egress(struct packet_manager_runtime *pkt_mgr_rt) { struct packet *pkt = TAILQ_FIRST(&pkt_mgr_rt->queue[PACKET_STAGE_MAX]); if (pkt) { pkt_mgr_rt->stat.total.pkts_egress++; pkt_mgr_rt->stat.queue[PACKET_STAGE_MAX].pkts_out++; TAILQ_REMOVE(&pkt_mgr_rt->queue[PACKET_STAGE_MAX], pkt, stage_tqe); } return pkt; } void packet_manager_runtime_dispatch(struct packet_manager_runtime *pkt_mgr_rt) { for (int i = 0; i < PACKET_STAGE_MAX; i++) { pkt_mgr_rt->stage = i; packet_manager_runtime_print_stat(pkt_mgr_rt); struct packet *pkt = NULL; while ((pkt = TAILQ_FIRST(&pkt_mgr_rt->queue[pkt_mgr_rt->stage]))) { packet_set_claim(pkt, false); pkt_mgr_rt->claimed_cb = NULL; pkt_mgr_rt->cb_args = NULL; TAILQ_REMOVE(&pkt_mgr_rt->queue[pkt_mgr_rt->stage], pkt, stage_tqe); pkt_mgr_rt->stat.queue[pkt_mgr_rt->stage].pkts_out++; mq_runtime_publish_message(pkt_mgr_rt->mq, pkt_mgr_rt->stage, pkt); mq_runtime_dispatch(pkt_mgr_rt->mq); if (packet_is_claim(pkt)) { if (pkt_mgr_rt->claimed_cb) { pkt_mgr_rt->claimed_cb(pkt, pkt_mgr_rt->cb_args); } packet_set_claim(pkt, false); continue; } TAILQ_INSERT_TAIL(&pkt_mgr_rt->queue[pkt_mgr_rt->stage + 1], pkt, stage_tqe); pkt_mgr_rt->stat.queue[pkt_mgr_rt->stage + 1].pkts_in++; } } pkt_mgr_rt->stage = -1; } int packet_manager_runtime_claim_packet(struct packet_manager_runtime *pkt_mgr_rt, struct packet *pkt, on_packet_claimed_callback cb, void *args) { if (packet_is_claim(pkt)) { PACKET_MANAGER_LOG_ERROR("packet is already claimed, cannot claim again"); return -1; } else { pkt_mgr_rt->claimed_cb = cb; pkt_mgr_rt->cb_args = args; packet_set_claim(pkt, true); pkt_mgr_rt->stat.queue[pkt_mgr_rt->stage].pkts_claim++; return 0; } } void packet_manager_runtime_schedule_packet(struct packet_manager_runtime *pkt_mgr_rt, struct packet *pkt, enum packet_stage stage) { if (stage >= PACKET_STAGE_MAX) { PACKET_MANAGER_LOG_ERROR("invalid stage %d", stage); assert(0); return; } pkt_mgr_rt->stat.queue[stage].pkts_schedule++; pkt_mgr_rt->stat.queue[stage].pkts_in++; TAILQ_INSERT_TAIL(&pkt_mgr_rt->queue[stage], pkt, stage_tqe); } /****************************************************************************** * packet manager ******************************************************************************/ struct packet_manager *packet_manager_new(struct mq_schema *mq, const char *toml_file) { struct packet_manager *pkt_mgr = calloc(1, sizeof(struct packet_manager)); if (pkt_mgr == NULL) { PACKET_MANAGER_LOG_ERROR("failed to allocate memory for packet_manager"); return NULL; } pkt_mgr->cfg = packet_manager_config_new(toml_file); if (pkt_mgr->cfg == NULL) { PACKET_MANAGER_LOG_ERROR("failed to create packet_manager_config"); goto error_out; } pkt_mgr->schema = packet_manager_schema_new(mq); if (pkt_mgr->schema == NULL) { PACKET_MANAGER_LOG_ERROR("failed to create packet_manager_schema"); goto error_out; } for (uint16_t i = 0; i < pkt_mgr->cfg->nr_worker_thread; i++) { pkt_mgr->runtime[i] = packet_manager_runtime_new(); if (pkt_mgr->runtime[i] == NULL) { PACKET_MANAGER_LOG_ERROR("failed to create packet_manager_runtime"); goto error_out; } } return pkt_mgr; error_out: packet_manager_free(pkt_mgr); return NULL; } void packet_manager_free(struct packet_manager *pkt_mgr) { if (pkt_mgr) { for (uint16_t i = 0; i < pkt_mgr->cfg->nr_worker_thread; i++) { if (pkt_mgr->runtime[i]) { packet_manager_runtime_free(pkt_mgr->runtime[i]); } } packet_manager_schema_free(pkt_mgr->schema); packet_manager_config_free(pkt_mgr->cfg); free(pkt_mgr); pkt_mgr = NULL; } } struct packet_manager_schema *packet_manager_get_schema(struct packet_manager *pkt_mgr) { if (pkt_mgr) { return pkt_mgr->schema; } else { return NULL; } } struct packet_manager_runtime *packet_manager_get_runtime(struct packet_manager *pkt_mgr, uint16_t thr_idx) { if (pkt_mgr && thr_idx < pkt_mgr->cfg->nr_worker_thread) { return pkt_mgr->runtime[thr_idx]; } else { return NULL; } }