diff options
Diffstat (limited to 'sys/netinet/cc')
| -rw-r--r-- | sys/netinet/cc/cc_cubic.c | 164 | ||||
| -rw-r--r-- | sys/netinet/cc/cc_cubic.h | 160 |
2 files changed, 181 insertions, 143 deletions
diff --git a/sys/netinet/cc/cc_cubic.c b/sys/netinet/cc/cc_cubic.c index a2e72130fa88..b3e15009244d 100644 --- a/sys/netinet/cc/cc_cubic.c +++ b/sys/netinet/cc/cc_cubic.c @@ -38,7 +38,7 @@ /* * An implementation of the CUBIC congestion control algorithm for FreeBSD, - * based on the Internet Draft "draft-rhee-tcpm-cubic-02" by Rhee, Xu and Ha. + * based on the Internet RFC9438 by Xu, Ha, Rhee, Goel, and Eggert. * Originally released as part of the NewTCP research project at Swinburne * University of Technology's Centre for Advanced Internet Architectures, * Melbourne, Australia, which was made possible in part by a grant from the @@ -81,7 +81,7 @@ static void cubic_conn_init(struct cc_var *ccv); static int cubic_mod_init(void); static void cubic_post_recovery(struct cc_var *ccv); static void cubic_record_rtt(struct cc_var *ccv); -static void cubic_ssthresh_update(struct cc_var *ccv, uint32_t maxseg); +static uint32_t cubic_get_ssthresh(struct cc_var *ccv, uint32_t maxseg); static void cubic_after_idle(struct cc_var *ccv); static size_t cubic_data_sz(void); static void cubic_newround(struct cc_var *ccv, uint32_t round_cnt); @@ -236,10 +236,11 @@ static void cubic_ack_received(struct cc_var *ccv, ccsignal_t type) { struct cubic *cubic_data; - unsigned long W_est, W_cubic; + uint32_t W_est, W_cubic, cwin, target, incr; int usecs_since_epoch; uint32_t mss = tcp_fixed_maxseg(ccv->tp); + cwin = CCV(ccv, snd_cwnd); cubic_data = ccv->cc_data; cubic_record_rtt(ccv); @@ -250,7 +251,7 @@ cubic_ack_received(struct cc_var *ccv, ccsignal_t type) if (type == CC_ACK && !IN_RECOVERY(CCV(ccv, t_flags)) && (ccv->flags & CCF_CWND_LIMITED)) { /* Use the logic in NewReno ack_received() for slow start. */ - if (CCV(ccv, snd_cwnd) <= CCV(ccv, snd_ssthresh) || + if (cwin <= CCV(ccv, snd_ssthresh) || cubic_data->min_rtt_usecs == TCPTV_SRTTBASE) { cubic_does_slow_start(ccv, cubic_data); } else { @@ -265,20 +266,32 @@ cubic_ack_received(struct cc_var *ccv, ccsignal_t type) cubic_data->flags &= ~CUBICFLAG_HYSTART_ENABLED; cubic_log_hystart_event(ccv, cubic_data, 11, CCV(ccv, snd_ssthresh)); } - if ((cubic_data->flags & CUBICFLAG_RTO_EVENT) && - (cubic_data->flags & CUBICFLAG_IN_SLOWSTART)) { - /* RFC8312 Section 4.7 */ - cubic_data->flags &= ~(CUBICFLAG_RTO_EVENT | - CUBICFLAG_IN_SLOWSTART); - cubic_data->W_max = CCV(ccv, snd_cwnd); - cubic_data->t_epoch = ticks; - cubic_data->K = 0; - } else if (cubic_data->flags & (CUBICFLAG_IN_SLOWSTART | + if (cubic_data->flags & (CUBICFLAG_IN_SLOWSTART | + CUBICFLAG_CONG_EVENT | CUBICFLAG_IN_APPLIMIT)) { + /* + * At the beginning of the current congestion + * avoidance stage, The epoch variables + * (t_epoch, cwnd_epoch, K) are updated in the + * following three cases: + * 1) just exited the slow start + * 2) after a congestion event + * 3) application-limited + */ + cubic_data->t_epoch = ticks; + cubic_data->cwnd_epoch = cwin; + cubic_data->K = cubic_k(cubic_data->W_max / mss, + cubic_data->cwnd_epoch / mss); cubic_data->flags &= ~(CUBICFLAG_IN_SLOWSTART | + CUBICFLAG_CONG_EVENT | CUBICFLAG_IN_APPLIMIT); - cubic_data->t_epoch = ticks; - cubic_data->K = cubic_k(cubic_data->W_max / mss); + + if (cubic_data->flags & CUBICFLAG_RTO_EVENT) { + /* RFC9438 Section 4.8: Timeout */ + cubic_data->flags &= ~CUBICFLAG_RTO_EVENT; + cubic_data->W_max = cwin; + cubic_data->K = 0; + } } usecs_since_epoch = (ticks - cubic_data->t_epoch) * tick; if (usecs_since_epoch < 0) { @@ -288,12 +301,9 @@ cubic_ack_received(struct cc_var *ccv, ccsignal_t type) usecs_since_epoch = INT_MAX; cubic_data->t_epoch = ticks - INT_MAX; } - W_est = tf_cwnd(ccv); - /* - * The mean RTT is used to best reflect the equations in - * the I-D. + * The mean RTT is used to best reflect the equations. */ W_cubic = cubic_cwnd(usecs_since_epoch + cubic_data->mean_rtt_usecs, @@ -302,33 +312,24 @@ cubic_ack_received(struct cc_var *ccv, ccsignal_t type) cubic_data->K); if (W_cubic < W_est) { - /* - * TCP-friendly region, follow tf - * cwnd growth. - */ - CCV(ccv, snd_cwnd) = ulmin(W_est, INT_MAX); + /* RFC9438 Section 4.3: Reno-friendly region */ + CCV(ccv, snd_cwnd) = W_est; cubic_data->flags |= CUBICFLAG_IN_TF; - } else if (CCV(ccv, snd_cwnd) < W_cubic) { + } else { /* - * Concave or convex region, follow CUBIC - * cwnd growth. - * Only update snd_cwnd, if it doesn't shrink. + * RFC9438 Section 4.4 or 4.5: + * Concave or Convex Region */ - CCV(ccv, snd_cwnd) = ulmin(W_cubic, INT_MAX); - cubic_data->flags &= ~CUBICFLAG_IN_TF; - } - - /* - * If we're not in slow start and we're probing for a - * new cwnd limit at the start of a connection - * (happens when hostcache has a relevant entry), - * keep updating our current estimate of the - * W_max. - */ - if (((cubic_data->flags & CUBICFLAG_CONG_EVENT) == 0) && - cubic_data->W_max < CCV(ccv, snd_cwnd)) { - cubic_data->W_max = CCV(ccv, snd_cwnd); - cubic_data->K = cubic_k(cubic_data->W_max / mss); + if (W_cubic < cwin) { + target = cwin; + } else if (W_cubic > ((cwin * 3) >> 1)) { + target = (cwin * 3) >> 1; + } else { + target = W_cubic; + } + incr = (((target - cwin) << CUBIC_SHIFT) / + cwin * mss) >> CUBIC_SHIFT; + CCV(ccv, snd_cwnd) = cwin + incr; } } } else if (type == CC_ACK && !IN_RECOVERY(CCV(ccv, t_flags)) && @@ -345,12 +346,11 @@ cubic_ack_received(struct cc_var *ccv, ccsignal_t type) static void cubic_after_idle(struct cc_var *ccv) { - struct cubic *cubic_data; - - cubic_data = ccv->cc_data; + struct cubic *cubic_data = ccv->cc_data; + uint32_t mss = tcp_fixed_maxseg(ccv->tp); cubic_data->W_max = ulmax(cubic_data->W_max, CCV(ccv, snd_cwnd)); - cubic_data->K = cubic_k(cubic_data->W_max / tcp_fixed_maxseg(ccv->tp)); + cubic_data->K = cubic_k(cubic_data->W_max / mss, cubic_data->cwnd_epoch / mss); if ((cubic_data->flags & CUBICFLAG_HYSTART_ENABLED) == 0) { /* * Re-enable hystart if we have been idle. @@ -389,7 +389,9 @@ cubic_cb_init(struct cc_var *ccv, void *ptr) cubic_data = ptr; /* Init some key variables with sensible defaults. */ - cubic_data->t_epoch = ticks; + cubic_data->t_epoch = 0; + cubic_data->cwnd_epoch = 0; + cubic_data->K = 0; cubic_data->min_rtt_usecs = TCPTV_SRTTBASE; cubic_data->mean_rtt_usecs = 1; @@ -416,7 +418,7 @@ static void cubic_cong_signal(struct cc_var *ccv, ccsignal_t type) { struct cubic *cubic_data; - uint32_t mss, pipe; + uint32_t mss, pipe, ssthresh; cubic_data = ccv->cc_data; mss = tcp_fixed_maxseg(ccv->tp); @@ -431,10 +433,13 @@ cubic_cong_signal(struct cc_var *ccv, ccsignal_t type) } if (!IN_FASTRECOVERY(CCV(ccv, t_flags))) { if (!IN_CONGRECOVERY(CCV(ccv, t_flags))) { - cubic_ssthresh_update(ccv, mss); + ssthresh = cubic_get_ssthresh(ccv, mss); + CCV(ccv, snd_ssthresh) = max(ssthresh, 2 * mss); + /* + * The congestion flag will recalculate K at the + * beginning of the congestion avoidance stage. + */ cubic_data->flags |= CUBICFLAG_CONG_EVENT; - cubic_data->t_epoch = ticks; - cubic_data->K = cubic_k(cubic_data->W_max / mss); } ENTER_RECOVERY(CCV(ccv, t_flags)); } @@ -448,17 +453,20 @@ cubic_cong_signal(struct cc_var *ccv, ccsignal_t type) cubic_log_hystart_event(ccv, cubic_data, 9, CCV(ccv, snd_ssthresh)); } if (!IN_CONGRECOVERY(CCV(ccv, t_flags))) { - cubic_ssthresh_update(ccv, mss); + ssthresh = cubic_get_ssthresh(ccv, mss); + CCV(ccv, snd_ssthresh) = max(ssthresh, 2 * mss); + CCV(ccv, snd_cwnd) = max(ssthresh, mss); + /* + * The congestion flag will recalculate K at the + * beginning of the congestion avoidance stage. + */ cubic_data->flags |= CUBICFLAG_CONG_EVENT; - cubic_data->t_epoch = ticks; - cubic_data->K = cubic_k(cubic_data->W_max / mss); - CCV(ccv, snd_cwnd) = CCV(ccv, snd_ssthresh); ENTER_CONGRECOVERY(CCV(ccv, t_flags)); } break; case CC_RTO: - /* RFC8312 Section 4.7 */ + /* RFC9438 Section 4.8: Timeout */ if (CCV(ccv, t_rxtshift) == 1) { /* * Remember the state only for the first RTO event. This @@ -475,12 +483,16 @@ cubic_cong_signal(struct cc_var *ccv, ccsignal_t type) (((uint64_t)min(CCV(ccv, snd_wnd), pipe) * CUBIC_BETA) >> CUBIC_SHIFT) / mss) * mss; } - cubic_data->flags |= CUBICFLAG_CONG_EVENT | CUBICFLAG_RTO_EVENT; + /* + * The RTO flag will recalculate K at the + * beginning of the congestion avoidance stage. + */ + cubic_data->flags |= CUBICFLAG_RTO_EVENT; CCV(ccv, snd_cwnd) = mss; break; case CC_RTO_ERR: - cubic_data->flags &= ~(CUBICFLAG_CONG_EVENT | CUBICFLAG_RTO_EVENT); + cubic_data->flags &= ~CUBICFLAG_RTO_EVENT; cubic_data->K = cubic_data->undo_K; cubic_data->W_max = cubic_data->undo_W_max; cubic_data->cwnd_epoch = cubic_data->undo_cwnd_epoch; @@ -503,7 +515,7 @@ cubic_conn_init(struct cc_var *ccv) * this here bad things happen when entries from the TCP hostcache * get used. */ - cubic_data->W_max = CCV(ccv, snd_cwnd); + cubic_data->W_max = UINT_MAX; } static int @@ -603,44 +615,36 @@ cubic_record_rtt(struct cc_var *ccv) } /* - * Update the ssthresh in the event of congestion. + * Return the new value for ssthresh in the event of a congestion. */ -static void -cubic_ssthresh_update(struct cc_var *ccv, uint32_t maxseg) +static uint32_t +cubic_get_ssthresh(struct cc_var *ccv, uint32_t maxseg) { struct cubic *cubic_data; - uint32_t ssthresh; - uint32_t cwnd; + uint32_t cwnd, pipe; cubic_data = ccv->cc_data; cwnd = CCV(ccv, snd_cwnd); - /* Fast convergence heuristic. */ + /* RFC9438 Section 4.7: Fast convergence */ if (cwnd < cubic_data->W_max) { cwnd = ((uint64_t)cwnd * CUBIC_FC_FACTOR) >> CUBIC_SHIFT; } - cubic_data->undo_W_max = cubic_data->W_max; cubic_data->W_max = cwnd; if (cubic_data->flags & CUBICFLAG_IN_TF) { - /* If in the TCP friendly region, follow what newreno does */ - ssthresh = newreno_cc_cwnd_on_multiplicative_decrease(ccv, maxseg); + /* If in the TCP friendly region, follow what newreno does. */ + return (newreno_cc_cwnd_on_multiplicative_decrease(ccv, maxseg)); - } else if ((cubic_data->flags & CUBICFLAG_CONG_EVENT) == 0) { - /* - * On the first congestion event, set ssthresh to cwnd * 0.5 - * and reduce W_max to cwnd * beta. This aligns the cubic - * concave region appropriately. - */ - ssthresh = cwnd >> 1; - cubic_data->W_max = ((uint64_t)cwnd * CUBIC_BETA) >> CUBIC_SHIFT; } else { /* - * On subsequent congestion events, set ssthresh to cwnd * beta. + * RFC9438 Section 4.6: Multiplicative Decrease + * Outside the TCP friendly region, set ssthresh to the size of + * inflight_size * beta. */ - ssthresh = ((uint64_t)cwnd * CUBIC_BETA) >> CUBIC_SHIFT; + pipe = tcp_compute_pipe(ccv->tp); + return ((pipe * CUBIC_BETA) >> CUBIC_SHIFT); } - CCV(ccv, snd_ssthresh) = max(ssthresh, 2 * maxseg); } static void diff --git a/sys/netinet/cc/cc_cubic.h b/sys/netinet/cc/cc_cubic.h index c30128570ab0..c31506d26b00 100644 --- a/sys/netinet/cc/cc_cubic.h +++ b/sys/netinet/cc/cc_cubic.h @@ -88,14 +88,23 @@ /* Kernel only bits */ #ifdef _KERNEL struct cubic { - /* CUBIC K in fixed point form with CUBIC_SHIFT worth of precision. */ + /* + * CUBIC K in fixed point form with CUBIC_SHIFT worth of precision. + * Also means the time period in seconds it takes to increase the + * congestion window size at the beginning of the current congestion + * avoidance stage to W_max. + */ int64_t K; /* Sum of RTT samples across an epoch in usecs. */ int64_t sum_rtt_usecs; - /* Size of cwnd just before cwnd was reduced in the last congestion event */ - uint64_t W_max; - /* The cwnd at the beginning of the current congestion avoidance stage */ - uint64_t cwnd_epoch; + /* Size of cwnd (in bytes) just before cwnd was reduced in the last congestion event. */ + uint32_t W_max; + /* An estimate (in bytes) for the congestion window in the Reno-friendly region */ + uint32_t W_est; + /* An estimate (in bytes) for the congestion window in the CUBIC region */ + uint32_t W_cubic; + /* The cwnd (in bytes) at the beginning of the current congestion avoidance stage. */ + uint32_t cwnd_epoch; /* various flags */ uint32_t flags; /* Minimum observed rtt in usecs. */ @@ -110,8 +119,8 @@ struct cubic { int undo_t_epoch; /* Few variables to restore the state after RTO_ERR */ int64_t undo_K; - uint64_t undo_W_max; - uint64_t undo_cwnd_epoch; + uint32_t undo_W_max; + uint32_t undo_cwnd_epoch; uint32_t css_baseline_minrtt; uint32_t css_current_round_minrtt; uint32_t css_lastround_minrtt; @@ -130,60 +139,103 @@ struct cubic { extern int hz; /* - * Implementation based on the formulae found in the CUBIC Internet Draft - * "draft-ietf-tcpm-cubic-04". + * Implementation based on the formulas in RFC9438. * */ -static __inline float -theoretical_cubic_k(double wmax_pkts) + +/* + * Returns K, the time period in seconds it takes to increase the congestion + * window size at the beginning of the current congestion avoidance stage to + * W_max. + */ +static inline float +theoretical_cubic_k(uint32_t wmax_segs, uint32_t cwnd_epoch_segs) { double C; C = 0.4; + if (wmax_segs <= cwnd_epoch_segs) + return 0.0; - return (pow((wmax_pkts * 0.3) / C, (1.0 / 3.0)) * pow(2, CUBIC_SHIFT)); + /* + * Figure 2: K = ((W_max - cwnd_epoch) / C)^(1/3) + */ + return (pow((wmax_segs - cwnd_epoch_segs) / C, (1.0 / 3.0)) * pow(2, CUBIC_SHIFT)); } -static __inline unsigned long -theoretical_cubic_cwnd(int ticks_since_epoch, unsigned long wmax, uint32_t smss) +/* + * Returns the congestion window in segments at time t in seconds based on the + * cubic increase function, where t is the elapsed time in seconds from the + * beginning of the current congestion avoidance stage, as described in RFC9438 + * Section 4.2. + */ +static inline unsigned long +theoretical_cubic_cwnd(int ticks_elapsed, uint32_t wmax_segs, uint32_t cwnd_epoch_segs) { - double C, wmax_pkts; + double C, t; + float K; C = 0.4; - wmax_pkts = wmax / (double)smss; + t = ticks_elapsed / (double)hz; + K = theoretical_cubic_k(wmax_segs, cwnd_epoch_segs); - return (smss * (wmax_pkts + - (C * pow(ticks_since_epoch / (double)hz - - theoretical_cubic_k(wmax_pkts) / pow(2, CUBIC_SHIFT), 3.0)))); + /* + * Figure 1: W_cubic(t) = C * (t - K)^3 + W_max + */ + return (C * pow(t - K / pow(2, CUBIC_SHIFT), 3.0) + wmax_segs); } -static __inline unsigned long -theoretical_reno_cwnd(int ticks_since_epoch, int rtt_ticks, unsigned long wmax, - uint32_t smss) +/* + * Returns estimated Reno congestion window in segments. + */ +static inline unsigned long +theoretical_reno_cwnd(int ticks_elapsed, int rtt_ticks, uint32_t wmax_segs) { - return ((wmax * 0.5) + ((ticks_since_epoch / (float)rtt_ticks) * smss)); + return (wmax_segs * 0.5 + ticks_elapsed / (float)rtt_ticks); } -static __inline unsigned long -theoretical_tf_cwnd(int ticks_since_epoch, int rtt_ticks, unsigned long wmax, - uint32_t smss) +/* + * Returns an estimate for the congestion window in segments in the + * Reno-friendly region -- that is, an estimate for the congestion window of + * Reno, as described in RFC9438 Section 4.3, where: + * cwnd: Current congestion window in segments. + * cwnd_prior: Size of cwnd in segments at the time of setting ssthresh most + * recently, either upon exiting the first slow start or just before + * cwnd was reduced in the last congestion event. + * W_est: An estimate for the congestion window in segments in the Reno-friendly + * region -- that is, an estimate for the congestion window of Reno. + */ +static inline unsigned long +theoretical_tf_cwnd(unsigned long W_est, unsigned long segs_acked, unsigned long cwnd, + unsigned long cwnd_prior) { + float cubic_alpha, cubic_beta; + + /* RFC9438 Section 4.6: The parameter β_cubic SHOULD be set to 0.7. */ + cubic_beta = 0.7; - return ((wmax * 0.7) + ((3 * 0.3) / (2 - 0.3) * - (ticks_since_epoch / (float)rtt_ticks) * smss)); + if (W_est >= cwnd_prior) + cubic_alpha = 1.0; + else + cubic_alpha = (3.0 * (1.0 - cubic_beta)) / (1.0 + cubic_beta); + + /* + * Figure 4: W_est = W_est + α_cubic * segments_acked / cwnd + */ + return (W_est + cubic_alpha * segs_acked / cwnd); } #endif /* !_KERNEL */ /* * Compute the CUBIC K value used in the cwnd calculation, using an - * implementation of eqn 2 in the I-D. The method used - * here is adapted from Apple Computer Technical Report #KT-32. + * implementation mentioned in Figure. 2 of RFC9438. + * The method used here is adapted from Apple Computer Technical Report #KT-32. */ -static __inline int64_t -cubic_k(unsigned long wmax_pkts) +static inline int64_t +cubic_k(uint32_t wmax_segs, uint32_t cwnd_epoch_segs) { int64_t s, K; uint16_t p; @@ -191,8 +243,13 @@ cubic_k(unsigned long wmax_pkts) K = s = 0; p = 0; - /* (wmax * beta)/C with CUBIC_SHIFT worth of precision. */ - s = ((wmax_pkts * ONE_SUB_CUBIC_BETA) << CUBIC_SHIFT) / CUBIC_C_FACTOR; + /* Handle the corner case where W_max <= cwnd_epoch */ + if (wmax_segs <= cwnd_epoch_segs) { + return 0; + } + + /* (wmax - cwnd_epoch) / C with CUBIC_SHIFT worth of precision. */ + s = ((wmax_segs - cwnd_epoch_segs) << (2 * CUBIC_SHIFT)) / CUBIC_C_FACTOR; /* Rebase s to be between 1 and 1/8 with a shift of CUBIC_SHIFT. */ while (s >= 256) { @@ -213,13 +270,14 @@ cubic_k(unsigned long wmax_pkts) } /* - * Compute the new cwnd value using an implementation of eqn 1 from the I-D. + * Compute and return the new cwnd value in bytes using an implementation + * mentioned in Figure. 1 of RFC9438. * Thanks to Kip Macy for help debugging this function. * * XXXLAS: Characterise bounds for overflow. */ -static __inline unsigned long -cubic_cwnd(int usecs_since_epoch, unsigned long wmax, uint32_t smss, int64_t K) +static inline uint32_t +cubic_cwnd(int usecs_since_epoch, uint32_t wmax, uint32_t smss, int64_t K) { int64_t cwnd; @@ -238,7 +296,7 @@ cubic_cwnd(int usecs_since_epoch, unsigned long wmax, uint32_t smss, int64_t K) cwnd *= (cwnd * cwnd); /* - * C(t - K)^3 + wmax + * Figure 1: C * (t - K)^3 + wmax * The down shift by CUBIC_SHIFT_4 is because cwnd has 4 lots of * CUBIC_SHIFT included in the value. 3 from the cubing of cwnd above, * and an extra from multiplying through by CUBIC_C_FACTOR. @@ -253,33 +311,9 @@ cubic_cwnd(int usecs_since_epoch, unsigned long wmax, uint32_t smss, int64_t K) } /* - * Compute an approximation of the NewReno cwnd some number of usecs after a - * congestion event. RTT should be the average RTT estimate for the path - * measured over the previous congestion epoch and wmax is the value of cwnd at - * the last congestion event. The "TCP friendly" concept in the CUBIC I-D is - * rather tricky to understand and it turns out this function is not required. - * It is left here for reference. - * - * XXX: Not used - */ -static __inline unsigned long -reno_cwnd(int usecs_since_epoch, int rtt_usecs, unsigned long wmax, - uint32_t smss) -{ - - /* - * For NewReno, beta = 0.5, therefore: W_tcp(t) = wmax*0.5 + t/RTT - * W_tcp(t) deals with cwnd/wmax in pkts, so because our cwnd is in - * bytes, we have to multiply by smss. - */ - return (((wmax * RENO_BETA) + (((usecs_since_epoch * smss) - << CUBIC_SHIFT) / rtt_usecs)) >> CUBIC_SHIFT); -} - -/* * Compute the "TCP friendly" cwnd by newreno in congestion avoidance state. */ -static __inline unsigned long +static inline uint32_t tf_cwnd(struct cc_var *ccv) { /* newreno is "TCP friendly" */ |