/* SPDX-License-Identifier: BSD-3-Clause * Copyright(c) 2017 Intel Corporation */ #include #include #include #include #include /* * Persistent bit-rate data. * @internal */ struct rte_stats_bitrate { uint64_t last_ibytes; uint64_t last_obytes; uint64_t peak_ibits; uint64_t peak_obits; uint64_t mean_ibits; uint64_t mean_obits; uint64_t ewma_ibits; uint64_t ewma_obits; }; struct rte_stats_bitrates { struct rte_stats_bitrate port_stats[RTE_MAX_ETHPORTS]; uint16_t id_stats_set; }; struct rte_stats_bitrates * rte_stats_bitrate_create(void) { return rte_zmalloc(NULL, sizeof(struct rte_stats_bitrates), RTE_CACHE_LINE_SIZE); } void rte_stats_bitrate_free(struct rte_stats_bitrates *bitrate_data) { rte_free(bitrate_data); } int rte_stats_bitrate_reg(struct rte_stats_bitrates *bitrate_data) { const char * const names[] = { "ewma_bits_in", "ewma_bits_out", "mean_bits_in", "mean_bits_out", "peak_bits_in", "peak_bits_out", }; int return_value; if (bitrate_data == NULL) return -EINVAL; return_value = rte_metrics_reg_names(&names[0], RTE_DIM(names)); if (return_value >= 0) { bitrate_data->id_stats_set = return_value; return 0; } return return_value; } int rte_stats_bitrate_calc(struct rte_stats_bitrates *bitrate_data, uint16_t port_id) { struct rte_stats_bitrate *port_data; struct rte_eth_stats eth_stats; int ret_code; uint64_t cnt_bits; int64_t delta; const int64_t alpha_percent = 20; uint64_t values[6]; int ret; if (bitrate_data == NULL) return -EINVAL; ret_code = rte_eth_stats_get(port_id, ð_stats); if (ret_code != 0) return ret_code < 0 ? ret_code : -ret_code; port_data = &bitrate_data->port_stats[port_id]; /* Incoming bitrate. This is an iteratively calculated EWMA * (Exponentially Weighted Moving Average) that uses a * weighting factor of alpha_percent. An unsmoothed mean * for just the current time delta is also calculated for the * benefit of people who don't understand signal processing. */ cnt_bits = (eth_stats.ibytes - port_data->last_ibytes) << 3; port_data->last_ibytes = eth_stats.ibytes; if (cnt_bits > port_data->peak_ibits) port_data->peak_ibits = cnt_bits; delta = cnt_bits; delta -= port_data->ewma_ibits; /* The +-50 fixes integer rounding during division */ if (delta > 0) delta = (delta * alpha_percent + 50) / 100; else delta = (delta * alpha_percent - 50) / 100; port_data->ewma_ibits += delta; /* Integer roundoff prevents EWMA between 0 and (100/alpha_percent) * ever reaching zero in no-traffic conditions */ if (cnt_bits == 0 && delta == 0) port_data->ewma_ibits = 0; port_data->mean_ibits = cnt_bits; /* Outgoing bitrate (also EWMA) */ cnt_bits = (eth_stats.obytes - port_data->last_obytes) << 3; port_data->last_obytes = eth_stats.obytes; if (cnt_bits > port_data->peak_obits) port_data->peak_obits = cnt_bits; delta = cnt_bits; delta -= port_data->ewma_obits; if (delta > 0) delta = (delta * alpha_percent + 50) / 100; else delta = (delta * alpha_percent - 50) / 100; port_data->ewma_obits += delta; if (cnt_bits == 0 && delta == 0) port_data->ewma_obits = 0; port_data->mean_obits = cnt_bits; values[0] = port_data->ewma_ibits; values[1] = port_data->ewma_obits; values[2] = port_data->mean_ibits; values[3] = port_data->mean_obits; values[4] = port_data->peak_ibits; values[5] = port_data->peak_obits; ret = rte_metrics_update_values(port_id, bitrate_data->id_stats_set, values, RTE_DIM(values)); if (ret < 0) return ret; return 0; }