/* * ngtcp2 * * Copyright (c) 2018 ngtcp2 contributors * * Permission is hereby granted, free of charge, to any person obtaining * a copy of this software and associated documentation files (the * "Software"), to deal in the Software without restriction, including * without limitation the rights to use, copy, modify, merge, publish, * distribute, sublicense, and/or sell copies of the Software, and to * permit persons to whom the Software is furnished to do so, subject to * the following conditions: * * The above copyright notice and this permission notice shall be * included in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE * LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION * OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION * WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ #include "ngtcp2_cc.h" #include #include #include "ngtcp2_log.h" #include "ngtcp2_macro.h" #include "ngtcp2_mem.h" #include "ngtcp2_rcvry.h" #include "ngtcp2_conn_stat.h" #include "ngtcp2_unreachable.h" /* NGTCP2_CC_DELIVERY_RATE_SEC_FILTERLEN is the window length of delivery rate filter driven by ACK clocking. */ #define NGTCP2_CC_DELIVERY_RATE_SEC_FILTERLEN 10 uint64_t ngtcp2_cc_compute_initcwnd(size_t max_udp_payload_size) { uint64_t n = 2 * max_udp_payload_size; n = ngtcp2_max(n, 14720); return ngtcp2_min_uint64(10 * max_udp_payload_size, n); } ngtcp2_cc_pkt *ngtcp2_cc_pkt_init(ngtcp2_cc_pkt *pkt, int64_t pkt_num, size_t pktlen, ngtcp2_pktns_id pktns_id, ngtcp2_tstamp sent_ts, uint64_t lost, uint64_t tx_in_flight, int is_app_limited) { pkt->pkt_num = pkt_num; pkt->pktlen = pktlen; pkt->pktns_id = pktns_id; pkt->sent_ts = sent_ts; pkt->lost = lost; pkt->tx_in_flight = tx_in_flight; pkt->is_app_limited = is_app_limited; return pkt; } static void reno_cc_reset(ngtcp2_cc_reno *reno) { ngtcp2_window_filter_init(&reno->delivery_rate_sec_filter, NGTCP2_CC_DELIVERY_RATE_SEC_FILTERLEN); reno->ack_count = 0; reno->target_cwnd = 0; reno->pending_add = 0; } void ngtcp2_cc_reno_init(ngtcp2_cc_reno *reno, ngtcp2_log *log) { memset(reno, 0, sizeof(*reno)); reno->cc.log = log; reno->cc.on_pkt_acked = ngtcp2_cc_reno_cc_on_pkt_acked; reno->cc.congestion_event = ngtcp2_cc_reno_cc_congestion_event; reno->cc.on_persistent_congestion = ngtcp2_cc_reno_cc_on_persistent_congestion; reno->cc.on_ack_recv = ngtcp2_cc_reno_cc_on_ack_recv; reno->cc.reset = ngtcp2_cc_reno_cc_reset; reno_cc_reset(reno); } static int in_congestion_recovery(const ngtcp2_conn_stat *cstat, ngtcp2_tstamp sent_time) { return cstat->congestion_recovery_start_ts != UINT64_MAX && sent_time <= cstat->congestion_recovery_start_ts; } void ngtcp2_cc_reno_cc_on_pkt_acked(ngtcp2_cc *cc, ngtcp2_conn_stat *cstat, const ngtcp2_cc_pkt *pkt, ngtcp2_tstamp ts) { ngtcp2_cc_reno *reno = ngtcp2_struct_of(cc, ngtcp2_cc_reno, cc); uint64_t m; (void)ts; if (in_congestion_recovery(cstat, pkt->sent_ts)) { return; } if (reno->target_cwnd && reno->target_cwnd < cstat->cwnd) { return; } if (cstat->cwnd < cstat->ssthresh) { cstat->cwnd += pkt->pktlen; ngtcp2_log_info(reno->cc.log, NGTCP2_LOG_EVENT_CCA, "pkn=%" PRId64 " acked, slow start cwnd=%" PRIu64, pkt->pkt_num, cstat->cwnd); return; } m = cstat->max_tx_udp_payload_size * pkt->pktlen + reno->pending_add; reno->pending_add = m % cstat->cwnd; cstat->cwnd += m / cstat->cwnd; } void ngtcp2_cc_reno_cc_congestion_event(ngtcp2_cc *cc, ngtcp2_conn_stat *cstat, ngtcp2_tstamp sent_ts, ngtcp2_tstamp ts) { ngtcp2_cc_reno *reno = ngtcp2_struct_of(cc, ngtcp2_cc_reno, cc); uint64_t min_cwnd; if (in_congestion_recovery(cstat, sent_ts)) { return; } cstat->congestion_recovery_start_ts = ts; cstat->cwnd >>= NGTCP2_LOSS_REDUCTION_FACTOR_BITS; min_cwnd = 2 * cstat->max_tx_udp_payload_size; cstat->cwnd = ngtcp2_max(cstat->cwnd, min_cwnd); cstat->ssthresh = cstat->cwnd; reno->pending_add = 0; ngtcp2_log_info(reno->cc.log, NGTCP2_LOG_EVENT_CCA, "reduce cwnd because of packet loss cwnd=%" PRIu64, cstat->cwnd); } void ngtcp2_cc_reno_cc_on_persistent_congestion(ngtcp2_cc *cc, ngtcp2_conn_stat *cstat, ngtcp2_tstamp ts) { (void)cc; (void)ts; cstat->cwnd = 2 * cstat->max_tx_udp_payload_size; cstat->congestion_recovery_start_ts = UINT64_MAX; } void ngtcp2_cc_reno_cc_on_ack_recv(ngtcp2_cc *cc, ngtcp2_conn_stat *cstat, const ngtcp2_cc_ack *ack, ngtcp2_tstamp ts) { ngtcp2_cc_reno *reno = ngtcp2_struct_of(cc, ngtcp2_cc_reno, cc); uint64_t target_cwnd, initcwnd; uint64_t max_delivery_rate_sec; (void)ack; (void)ts; ++reno->ack_count; ngtcp2_window_filter_update(&reno->delivery_rate_sec_filter, cstat->delivery_rate_sec, reno->ack_count); max_delivery_rate_sec = ngtcp2_window_filter_get_best(&reno->delivery_rate_sec_filter); if (cstat->min_rtt != UINT64_MAX && max_delivery_rate_sec) { target_cwnd = max_delivery_rate_sec * cstat->smoothed_rtt / NGTCP2_SECONDS; initcwnd = ngtcp2_cc_compute_initcwnd(cstat->max_tx_udp_payload_size); reno->target_cwnd = ngtcp2_max(initcwnd, target_cwnd) * 289 / 100; ngtcp2_log_info(reno->cc.log, NGTCP2_LOG_EVENT_CCA, "target_cwnd=%" PRIu64 " max_delivery_rate_sec=%" PRIu64 " smoothed_rtt=%" PRIu64, reno->target_cwnd, max_delivery_rate_sec, cstat->smoothed_rtt); } } void ngtcp2_cc_reno_cc_reset(ngtcp2_cc *cc, ngtcp2_conn_stat *cstat, ngtcp2_tstamp ts) { ngtcp2_cc_reno *reno = ngtcp2_struct_of(cc, ngtcp2_cc_reno, cc); (void)cstat; (void)ts; reno_cc_reset(reno); } static void cubic_cc_reset(ngtcp2_cc_cubic *cubic) { ngtcp2_window_filter_init(&cubic->delivery_rate_sec_filter, NGTCP2_CC_DELIVERY_RATE_SEC_FILTERLEN); cubic->ack_count = 0; cubic->target_cwnd = 0; cubic->w_last_max = 0; cubic->w_tcp = 0; cubic->origin_point = 0; cubic->epoch_start = UINT64_MAX; cubic->k = 0; cubic->prior.cwnd = 0; cubic->prior.ssthresh = 0; cubic->prior.w_last_max = 0; cubic->prior.w_tcp = 0; cubic->prior.origin_point = 0; cubic->prior.epoch_start = UINT64_MAX; cubic->prior.k = 0; cubic->rtt_sample_count = 0; cubic->current_round_min_rtt = UINT64_MAX; cubic->last_round_min_rtt = UINT64_MAX; cubic->window_end = -1; } void ngtcp2_cc_cubic_init(ngtcp2_cc_cubic *cubic, ngtcp2_log *log) { memset(cubic, 0, sizeof(*cubic)); cubic->cc.log = log; cubic->cc.on_pkt_acked = ngtcp2_cc_cubic_cc_on_pkt_acked; cubic->cc.congestion_event = ngtcp2_cc_cubic_cc_congestion_event; cubic->cc.on_spurious_congestion = ngtcp2_cc_cubic_cc_on_spurious_congestion; cubic->cc.on_persistent_congestion = ngtcp2_cc_cubic_cc_on_persistent_congestion; cubic->cc.on_ack_recv = ngtcp2_cc_cubic_cc_on_ack_recv; cubic->cc.on_pkt_sent = ngtcp2_cc_cubic_cc_on_pkt_sent; cubic->cc.new_rtt_sample = ngtcp2_cc_cubic_cc_new_rtt_sample; cubic->cc.reset = ngtcp2_cc_cubic_cc_reset; cubic->cc.event = ngtcp2_cc_cubic_cc_event; cubic_cc_reset(cubic); } uint64_t ngtcp2_cbrt(uint64_t n) { size_t s; uint64_t y = 0; uint64_t b; for (s = 63; s > 0; s -= 3) { y <<= 1; b = 3 * y * (y + 1) + 1; if ((n >> s) >= b) { n -= b << s; y++; } } y <<= 1; b = 3 * y * (y + 1) + 1; if (n >= b) { n -= b; y++; } return y; } /* HyStart++ constants */ #define NGTCP2_HS_MIN_SSTHRESH 16 #define NGTCP2_HS_N_RTT_SAMPLE 8 #define NGTCP2_HS_MIN_ETA (4 * NGTCP2_MILLISECONDS) #define NGTCP2_HS_MAX_ETA (16 * NGTCP2_MILLISECONDS) void ngtcp2_cc_cubic_cc_on_pkt_acked(ngtcp2_cc *cc, ngtcp2_conn_stat *cstat, const ngtcp2_cc_pkt *pkt, ngtcp2_tstamp ts) { ngtcp2_cc_cubic *cubic = ngtcp2_struct_of(cc, ngtcp2_cc_cubic, cc); ngtcp2_duration t, eta; uint64_t target, cwnd_thres; uint64_t tx, kx, time_delta, delta; uint64_t add, tcp_add; uint64_t m; if (pkt->pktns_id == NGTCP2_PKTNS_ID_APPLICATION && cubic->window_end != -1 && cubic->window_end <= pkt->pkt_num) { cubic->window_end = -1; } if (in_congestion_recovery(cstat, pkt->sent_ts)) { return; } if (cstat->cwnd < cstat->ssthresh) { /* slow-start */ if (cubic->target_cwnd == 0 || cubic->target_cwnd > cstat->cwnd) { cstat->cwnd += pkt->pktlen; } ngtcp2_log_info(cubic->cc.log, NGTCP2_LOG_EVENT_CCA, "pkn=%" PRId64 " acked, slow start cwnd=%" PRIu64, pkt->pkt_num, cstat->cwnd); if (cubic->last_round_min_rtt != UINT64_MAX && cubic->current_round_min_rtt != UINT64_MAX && cstat->cwnd >= NGTCP2_HS_MIN_SSTHRESH * cstat->max_tx_udp_payload_size && cubic->rtt_sample_count >= NGTCP2_HS_N_RTT_SAMPLE) { eta = cubic->last_round_min_rtt / 8; if (eta < NGTCP2_HS_MIN_ETA) { eta = NGTCP2_HS_MIN_ETA; } else if (eta > NGTCP2_HS_MAX_ETA) { eta = NGTCP2_HS_MAX_ETA; } if (cubic->current_round_min_rtt >= cubic->last_round_min_rtt + eta) { ngtcp2_log_info(cubic->cc.log, NGTCP2_LOG_EVENT_CCA, "HyStart++ exit slow start"); cubic->w_last_max = cstat->cwnd; cstat->ssthresh = cstat->cwnd; } } return; } /* congestion avoidance */ if (cubic->epoch_start == UINT64_MAX) { cubic->epoch_start = ts; if (cstat->cwnd < cubic->w_last_max) { cubic->k = ngtcp2_cbrt((cubic->w_last_max - cstat->cwnd) * 10 / 4 / cstat->max_tx_udp_payload_size); cubic->origin_point = cubic->w_last_max; } else { cubic->k = 0; cubic->origin_point = cstat->cwnd; } cubic->w_tcp = cstat->cwnd; ngtcp2_log_info(cubic->cc.log, NGTCP2_LOG_EVENT_CCA, "cubic-ca epoch_start=%" PRIu64 " k=%" PRIu64 " origin_point=%" PRIu64, cubic->epoch_start, cubic->k, cubic->origin_point); cubic->pending_add = 0; cubic->pending_w_add = 0; } t = ts - cubic->epoch_start; tx = (t << 10) / NGTCP2_SECONDS; kx = (cubic->k << 10); if (tx > kx) { time_delta = tx - kx; } else { time_delta = kx - tx; } delta = cstat->max_tx_udp_payload_size * ((((time_delta * time_delta) >> 10) * time_delta) >> 10) * 4 / 10; delta >>= 10; if (tx > kx) { target = cubic->origin_point + delta; } else { target = cubic->origin_point - delta; } cwnd_thres = (target * (((t + cstat->smoothed_rtt) << 10) / NGTCP2_SECONDS)) >> 10; if (cwnd_thres < cstat->cwnd) { target = cstat->cwnd; } else if (2 * cwnd_thres > 3 * cstat->cwnd) { target = cstat->cwnd * 3 / 2; } else { target = cwnd_thres; } if (target > cstat->cwnd) { m = cubic->pending_add + cstat->max_tx_udp_payload_size * (target - cstat->cwnd); add = m / cstat->cwnd; cubic->pending_add = m % cstat->cwnd; } else { m = cubic->pending_add + cstat->max_tx_udp_payload_size; add = m / (100 * cstat->cwnd); cubic->pending_add = m % (100 * cstat->cwnd); } m = cubic->pending_w_add + cstat->max_tx_udp_payload_size * pkt->pktlen; cubic->w_tcp += m / cstat->cwnd; cubic->pending_w_add = m % cstat->cwnd; if (cubic->w_tcp > cstat->cwnd) { tcp_add = cstat->max_tx_udp_payload_size * (cubic->w_tcp - cstat->cwnd) / cstat->cwnd; if (tcp_add > add) { add = tcp_add; } } if (cubic->target_cwnd == 0 || cubic->target_cwnd > cstat->cwnd) { cstat->cwnd += add; } ngtcp2_log_info(cubic->cc.log, NGTCP2_LOG_EVENT_CCA, "pkn=%" PRId64 " acked, cubic-ca cwnd=%" PRIu64 " t=%" PRIu64 " k=%" PRIi64 " time_delta=%" PRIu64 " delta=%" PRIu64 " target=%" PRIu64 " w_tcp=%" PRIu64, pkt->pkt_num, cstat->cwnd, t, cubic->k, time_delta >> 4, delta, target, cubic->w_tcp); } void ngtcp2_cc_cubic_cc_congestion_event(ngtcp2_cc *cc, ngtcp2_conn_stat *cstat, ngtcp2_tstamp sent_ts, ngtcp2_tstamp ts) { ngtcp2_cc_cubic *cubic = ngtcp2_struct_of(cc, ngtcp2_cc_cubic, cc); uint64_t min_cwnd; if (in_congestion_recovery(cstat, sent_ts)) { return; } if (cubic->prior.cwnd < cstat->cwnd) { cubic->prior.cwnd = cstat->cwnd; cubic->prior.ssthresh = cstat->ssthresh; cubic->prior.w_last_max = cubic->w_last_max; cubic->prior.w_tcp = cubic->w_tcp; cubic->prior.origin_point = cubic->origin_point; cubic->prior.epoch_start = cubic->epoch_start; cubic->prior.k = cubic->k; } cstat->congestion_recovery_start_ts = ts; cubic->epoch_start = UINT64_MAX; if (cstat->cwnd < cubic->w_last_max) { cubic->w_last_max = cstat->cwnd * 17 / 10 / 2; } else { cubic->w_last_max = cstat->cwnd; } min_cwnd = 2 * cstat->max_tx_udp_payload_size; cstat->ssthresh = cstat->cwnd * 7 / 10; cstat->ssthresh = ngtcp2_max(cstat->ssthresh, min_cwnd); cstat->cwnd = cstat->ssthresh; ngtcp2_log_info(cubic->cc.log, NGTCP2_LOG_EVENT_CCA, "reduce cwnd because of packet loss cwnd=%" PRIu64, cstat->cwnd); } void ngtcp2_cc_cubic_cc_on_spurious_congestion(ngtcp2_cc *cc, ngtcp2_conn_stat *cstat, ngtcp2_tstamp ts) { ngtcp2_cc_cubic *cubic = ngtcp2_struct_of(cc, ngtcp2_cc_cubic, cc); (void)ts; if (cstat->cwnd >= cubic->prior.cwnd) { return; } cstat->congestion_recovery_start_ts = UINT64_MAX; cstat->cwnd = cubic->prior.cwnd; cstat->ssthresh = cubic->prior.ssthresh; cubic->w_last_max = cubic->prior.w_last_max; cubic->w_tcp = cubic->prior.w_tcp; cubic->origin_point = cubic->prior.origin_point; cubic->epoch_start = cubic->prior.epoch_start; cubic->k = cubic->prior.k; cubic->prior.cwnd = 0; cubic->prior.ssthresh = 0; cubic->prior.w_last_max = 0; cubic->prior.w_tcp = 0; cubic->prior.origin_point = 0; cubic->prior.epoch_start = UINT64_MAX; cubic->prior.k = 0; ngtcp2_log_info(cubic->cc.log, NGTCP2_LOG_EVENT_CCA, "spurious congestion is detected and congestion state is " "restored cwnd=%" PRIu64, cstat->cwnd); } void ngtcp2_cc_cubic_cc_on_persistent_congestion(ngtcp2_cc *cc, ngtcp2_conn_stat *cstat, ngtcp2_tstamp ts) { (void)cc; (void)ts; cstat->cwnd = 2 * cstat->max_tx_udp_payload_size; cstat->congestion_recovery_start_ts = UINT64_MAX; } void ngtcp2_cc_cubic_cc_on_ack_recv(ngtcp2_cc *cc, ngtcp2_conn_stat *cstat, const ngtcp2_cc_ack *ack, ngtcp2_tstamp ts) { ngtcp2_cc_cubic *cubic = ngtcp2_struct_of(cc, ngtcp2_cc_cubic, cc); uint64_t target_cwnd, initcwnd; uint64_t max_delivery_rate_sec; (void)ack; (void)ts; ++cubic->ack_count; ngtcp2_window_filter_update(&cubic->delivery_rate_sec_filter, cstat->delivery_rate_sec, cubic->ack_count); max_delivery_rate_sec = ngtcp2_window_filter_get_best(&cubic->delivery_rate_sec_filter); if (cstat->min_rtt != UINT64_MAX && max_delivery_rate_sec) { target_cwnd = max_delivery_rate_sec * cstat->smoothed_rtt / NGTCP2_SECONDS; initcwnd = ngtcp2_cc_compute_initcwnd(cstat->max_tx_udp_payload_size); cubic->target_cwnd = ngtcp2_max(initcwnd, target_cwnd) * 289 / 100; ngtcp2_log_info(cubic->cc.log, NGTCP2_LOG_EVENT_CCA, "target_cwnd=%" PRIu64 " max_delivery_rate_sec=%" PRIu64 " smoothed_rtt=%" PRIu64, cubic->target_cwnd, max_delivery_rate_sec, cstat->smoothed_rtt); } } void ngtcp2_cc_cubic_cc_on_pkt_sent(ngtcp2_cc *cc, ngtcp2_conn_stat *cstat, const ngtcp2_cc_pkt *pkt) { ngtcp2_cc_cubic *cubic = ngtcp2_struct_of(cc, ngtcp2_cc_cubic, cc); (void)cstat; if (pkt->pktns_id != NGTCP2_PKTNS_ID_APPLICATION || cubic->window_end != -1) { return; } cubic->window_end = pkt->pkt_num; cubic->last_round_min_rtt = cubic->current_round_min_rtt; cubic->current_round_min_rtt = UINT64_MAX; cubic->rtt_sample_count = 0; } void ngtcp2_cc_cubic_cc_new_rtt_sample(ngtcp2_cc *cc, ngtcp2_conn_stat *cstat, ngtcp2_tstamp ts) { ngtcp2_cc_cubic *cubic = ngtcp2_struct_of(cc, ngtcp2_cc_cubic, cc); (void)ts; if (cubic->window_end == -1) { return; } cubic->current_round_min_rtt = ngtcp2_min(cubic->current_round_min_rtt, cstat->latest_rtt); ++cubic->rtt_sample_count; } void ngtcp2_cc_cubic_cc_reset(ngtcp2_cc *cc, ngtcp2_conn_stat *cstat, ngtcp2_tstamp ts) { ngtcp2_cc_cubic *cubic = ngtcp2_struct_of(cc, ngtcp2_cc_cubic, cc); (void)cstat; (void)ts; cubic_cc_reset(cubic); } void ngtcp2_cc_cubic_cc_event(ngtcp2_cc *cc, ngtcp2_conn_stat *cstat, ngtcp2_cc_event_type event, ngtcp2_tstamp ts) { ngtcp2_cc_cubic *cubic = ngtcp2_struct_of(cc, ngtcp2_cc_cubic, cc); ngtcp2_tstamp last_ts; if (event != NGTCP2_CC_EVENT_TYPE_TX_START || cubic->epoch_start == UINT64_MAX) { return; } last_ts = cstat->last_tx_pkt_ts[NGTCP2_PKTNS_ID_APPLICATION]; if (last_ts == UINT64_MAX || last_ts <= cubic->epoch_start) { return; } assert(ts >= last_ts); cubic->epoch_start += ts - last_ts; }