diff options
author | André Fabian Silva Delgado <emulatorman@parabola.nu> | 2016-10-20 00:10:27 -0300 |
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committer | André Fabian Silva Delgado <emulatorman@parabola.nu> | 2016-10-20 00:10:27 -0300 |
commit | d0b2f91bede3bd5e3d24dd6803e56eee959c1797 (patch) | |
tree | 7fee4ab0509879c373c4f2cbd5b8a5be5b4041ee /net/ipv4/tcp_nv.c | |
parent | e914f8eb445e8f74b00303c19c2ffceaedd16a05 (diff) |
Linux-libre 4.8.2-gnupck-4.8.2-gnu
Diffstat (limited to 'net/ipv4/tcp_nv.c')
-rw-r--r-- | net/ipv4/tcp_nv.c | 476 |
1 files changed, 476 insertions, 0 deletions
diff --git a/net/ipv4/tcp_nv.c b/net/ipv4/tcp_nv.c new file mode 100644 index 000000000..5de82a8d4 --- /dev/null +++ b/net/ipv4/tcp_nv.c @@ -0,0 +1,476 @@ +/* + * TCP NV: TCP with Congestion Avoidance + * + * TCP-NV is a successor of TCP-Vegas that has been developed to + * deal with the issues that occur in modern networks. + * Like TCP-Vegas, TCP-NV supports true congestion avoidance, + * the ability to detect congestion before packet losses occur. + * When congestion (queue buildup) starts to occur, TCP-NV + * predicts what the cwnd size should be for the current + * throughput and it reduces the cwnd proportionally to + * the difference between the current cwnd and the predicted cwnd. + * + * NV is only recommeneded for traffic within a data center, and when + * all the flows are NV (at least those within the data center). This + * is due to the inherent unfairness between flows using losses to + * detect congestion (congestion control) and those that use queue + * buildup to detect congestion (congestion avoidance). + * + * Note: High NIC coalescence values may lower the performance of NV + * due to the increased noise in RTT values. In particular, we have + * seen issues with rx-frames values greater than 8. + * + * TODO: + * 1) Add mechanism to deal with reverse congestion. + */ + +#include <linux/mm.h> +#include <linux/module.h> +#include <linux/math64.h> +#include <net/tcp.h> +#include <linux/inet_diag.h> + +/* TCP NV parameters + * + * nv_pad Max number of queued packets allowed in network + * nv_pad_buffer Do not grow cwnd if this closed to nv_pad + * nv_reset_period How often (in) seconds)to reset min_rtt + * nv_min_cwnd Don't decrease cwnd below this if there are no losses + * nv_cong_dec_mult Decrease cwnd by X% (30%) of congestion when detected + * nv_ssthresh_factor On congestion set ssthresh to this * <desired cwnd> / 8 + * nv_rtt_factor RTT averaging factor + * nv_loss_dec_factor Decrease cwnd by this (50%) when losses occur + * nv_dec_eval_min_calls Wait this many RTT measurements before dec cwnd + * nv_inc_eval_min_calls Wait this many RTT measurements before inc cwnd + * nv_ssthresh_eval_min_calls Wait this many RTT measurements before stopping + * slow-start due to congestion + * nv_stop_rtt_cnt Only grow cwnd for this many RTTs after non-congestion + * nv_rtt_min_cnt Wait these many RTTs before making congesion decision + * nv_cwnd_growth_rate_neg + * nv_cwnd_growth_rate_pos + * How quickly to double growth rate (not rate) of cwnd when not + * congested. One value (nv_cwnd_growth_rate_neg) for when + * rate < 1 pkt/RTT (after losses). The other (nv_cwnd_growth_rate_pos) + * otherwise. + */ + +static int nv_pad __read_mostly = 10; +static int nv_pad_buffer __read_mostly = 2; +static int nv_reset_period __read_mostly = 5; /* in seconds */ +static int nv_min_cwnd __read_mostly = 2; +static int nv_cong_dec_mult __read_mostly = 30 * 128 / 100; /* = 30% */ +static int nv_ssthresh_factor __read_mostly = 8; /* = 1 */ +static int nv_rtt_factor __read_mostly = 128; /* = 1/2*old + 1/2*new */ +static int nv_loss_dec_factor __read_mostly = 512; /* => 50% */ +static int nv_cwnd_growth_rate_neg __read_mostly = 8; +static int nv_cwnd_growth_rate_pos __read_mostly; /* 0 => fixed like Reno */ +static int nv_dec_eval_min_calls __read_mostly = 60; +static int nv_inc_eval_min_calls __read_mostly = 20; +static int nv_ssthresh_eval_min_calls __read_mostly = 30; +static int nv_stop_rtt_cnt __read_mostly = 10; +static int nv_rtt_min_cnt __read_mostly = 2; + +module_param(nv_pad, int, 0644); +MODULE_PARM_DESC(nv_pad, "max queued packets allowed in network"); +module_param(nv_reset_period, int, 0644); +MODULE_PARM_DESC(nv_reset_period, "nv_min_rtt reset period (secs)"); +module_param(nv_min_cwnd, int, 0644); +MODULE_PARM_DESC(nv_min_cwnd, "NV will not decrease cwnd below this value" + " without losses"); + +/* TCP NV Parameters */ +struct tcpnv { + unsigned long nv_min_rtt_reset_jiffies; /* when to switch to + * nv_min_rtt_new */ + s8 cwnd_growth_factor; /* Current cwnd growth factor, + * < 0 => less than 1 packet/RTT */ + u8 available8; + u16 available16; + u32 loss_cwnd; /* cwnd at last loss */ + u8 nv_allow_cwnd_growth:1, /* whether cwnd can grow */ + nv_reset:1, /* whether to reset values */ + nv_catchup:1; /* whether we are growing because + * of temporary cwnd decrease */ + u8 nv_eval_call_cnt; /* call count since last eval */ + u8 nv_min_cwnd; /* nv won't make a ca decision if cwnd is + * smaller than this. It may grow to handle + * TSO, LRO and interrupt coalescence because + * with these a small cwnd cannot saturate + * the link. Note that this is different from + * the file local nv_min_cwnd */ + u8 nv_rtt_cnt; /* RTTs without making ca decision */; + u32 nv_last_rtt; /* last rtt */ + u32 nv_min_rtt; /* active min rtt. Used to determine slope */ + u32 nv_min_rtt_new; /* min rtt for future use */ + u32 nv_rtt_max_rate; /* max rate seen during current RTT */ + u32 nv_rtt_start_seq; /* current RTT ends when packet arrives + * acking beyond nv_rtt_start_seq */ + u32 nv_last_snd_una; /* Previous value of tp->snd_una. It is + * used to determine bytes acked since last + * call to bictcp_acked */ + u32 nv_no_cong_cnt; /* Consecutive no congestion decisions */ +}; + +#define NV_INIT_RTT U32_MAX +#define NV_MIN_CWND 4 +#define NV_MIN_CWND_GROW 2 +#define NV_TSO_CWND_BOUND 80 + +static inline void tcpnv_reset(struct tcpnv *ca, struct sock *sk) +{ + struct tcp_sock *tp = tcp_sk(sk); + + ca->nv_reset = 0; + ca->loss_cwnd = 0; + ca->nv_no_cong_cnt = 0; + ca->nv_rtt_cnt = 0; + ca->nv_last_rtt = 0; + ca->nv_rtt_max_rate = 0; + ca->nv_rtt_start_seq = tp->snd_una; + ca->nv_eval_call_cnt = 0; + ca->nv_last_snd_una = tp->snd_una; +} + +static void tcpnv_init(struct sock *sk) +{ + struct tcpnv *ca = inet_csk_ca(sk); + + tcpnv_reset(ca, sk); + + ca->nv_allow_cwnd_growth = 1; + ca->nv_min_rtt_reset_jiffies = jiffies + 2 * HZ; + ca->nv_min_rtt = NV_INIT_RTT; + ca->nv_min_rtt_new = NV_INIT_RTT; + ca->nv_min_cwnd = NV_MIN_CWND; + ca->nv_catchup = 0; + ca->cwnd_growth_factor = 0; +} + +static void tcpnv_cong_avoid(struct sock *sk, u32 ack, u32 acked) +{ + struct tcp_sock *tp = tcp_sk(sk); + struct tcpnv *ca = inet_csk_ca(sk); + u32 cnt; + + if (!tcp_is_cwnd_limited(sk)) + return; + + /* Only grow cwnd if NV has not detected congestion */ + if (!ca->nv_allow_cwnd_growth) + return; + + if (tcp_in_slow_start(tp)) { + acked = tcp_slow_start(tp, acked); + if (!acked) + return; + } + + if (ca->cwnd_growth_factor < 0) { + cnt = tp->snd_cwnd << -ca->cwnd_growth_factor; + tcp_cong_avoid_ai(tp, cnt, acked); + } else { + cnt = max(4U, tp->snd_cwnd >> ca->cwnd_growth_factor); + tcp_cong_avoid_ai(tp, cnt, acked); + } +} + +static u32 tcpnv_recalc_ssthresh(struct sock *sk) +{ + const struct tcp_sock *tp = tcp_sk(sk); + struct tcpnv *ca = inet_csk_ca(sk); + + ca->loss_cwnd = tp->snd_cwnd; + return max((tp->snd_cwnd * nv_loss_dec_factor) >> 10, 2U); +} + +static u32 tcpnv_undo_cwnd(struct sock *sk) +{ + struct tcpnv *ca = inet_csk_ca(sk); + + return max(tcp_sk(sk)->snd_cwnd, ca->loss_cwnd); +} + +static void tcpnv_state(struct sock *sk, u8 new_state) +{ + struct tcpnv *ca = inet_csk_ca(sk); + + if (new_state == TCP_CA_Open && ca->nv_reset) { + tcpnv_reset(ca, sk); + } else if (new_state == TCP_CA_Loss || new_state == TCP_CA_CWR || + new_state == TCP_CA_Recovery) { + ca->nv_reset = 1; + ca->nv_allow_cwnd_growth = 0; + if (new_state == TCP_CA_Loss) { + /* Reset cwnd growth factor to Reno value */ + if (ca->cwnd_growth_factor > 0) + ca->cwnd_growth_factor = 0; + /* Decrease growth rate if allowed */ + if (nv_cwnd_growth_rate_neg > 0 && + ca->cwnd_growth_factor > -8) + ca->cwnd_growth_factor--; + } + } +} + +/* Do congestion avoidance calculations for TCP-NV + */ +static void tcpnv_acked(struct sock *sk, const struct ack_sample *sample) +{ + const struct inet_connection_sock *icsk = inet_csk(sk); + struct tcp_sock *tp = tcp_sk(sk); + struct tcpnv *ca = inet_csk_ca(sk); + unsigned long now = jiffies; + s64 rate64 = 0; + u32 rate, max_win, cwnd_by_slope; + u32 avg_rtt; + u32 bytes_acked = 0; + + /* Some calls are for duplicates without timetamps */ + if (sample->rtt_us < 0) + return; + + /* If not in TCP_CA_Open or TCP_CA_Disorder states, skip. */ + if (icsk->icsk_ca_state != TCP_CA_Open && + icsk->icsk_ca_state != TCP_CA_Disorder) + return; + + /* Stop cwnd growth if we were in catch up mode */ + if (ca->nv_catchup && tp->snd_cwnd >= nv_min_cwnd) { + ca->nv_catchup = 0; + ca->nv_allow_cwnd_growth = 0; + } + + bytes_acked = tp->snd_una - ca->nv_last_snd_una; + ca->nv_last_snd_una = tp->snd_una; + + if (sample->in_flight == 0) + return; + + /* Calculate moving average of RTT */ + if (nv_rtt_factor > 0) { + if (ca->nv_last_rtt > 0) { + avg_rtt = (((u64)sample->rtt_us) * nv_rtt_factor + + ((u64)ca->nv_last_rtt) + * (256 - nv_rtt_factor)) >> 8; + } else { + avg_rtt = sample->rtt_us; + ca->nv_min_rtt = avg_rtt << 1; + } + ca->nv_last_rtt = avg_rtt; + } else { + avg_rtt = sample->rtt_us; + } + + /* rate in 100's bits per second */ + rate64 = ((u64)sample->in_flight) * 8000000; + rate = (u32)div64_u64(rate64, (u64)(avg_rtt * 100)); + + /* Remember the maximum rate seen during this RTT + * Note: It may be more than one RTT. This function should be + * called at least nv_dec_eval_min_calls times. + */ + if (ca->nv_rtt_max_rate < rate) + ca->nv_rtt_max_rate = rate; + + /* We have valid information, increment counter */ + if (ca->nv_eval_call_cnt < 255) + ca->nv_eval_call_cnt++; + + /* update min rtt if necessary */ + if (avg_rtt < ca->nv_min_rtt) + ca->nv_min_rtt = avg_rtt; + + /* update future min_rtt if necessary */ + if (avg_rtt < ca->nv_min_rtt_new) + ca->nv_min_rtt_new = avg_rtt; + + /* nv_min_rtt is updated with the minimum (possibley averaged) rtt + * seen in the last sysctl_tcp_nv_reset_period seconds (i.e. a + * warm reset). This new nv_min_rtt will be continued to be updated + * and be used for another sysctl_tcp_nv_reset_period seconds, + * when it will be updated again. + * In practice we introduce some randomness, so the actual period used + * is chosen randomly from the range: + * [sysctl_tcp_nv_reset_period*3/4, sysctl_tcp_nv_reset_period*5/4) + */ + if (time_after_eq(now, ca->nv_min_rtt_reset_jiffies)) { + unsigned char rand; + + ca->nv_min_rtt = ca->nv_min_rtt_new; + ca->nv_min_rtt_new = NV_INIT_RTT; + get_random_bytes(&rand, 1); + ca->nv_min_rtt_reset_jiffies = + now + ((nv_reset_period * (384 + rand) * HZ) >> 9); + /* Every so often we decrease ca->nv_min_cwnd in case previous + * value is no longer accurate. + */ + ca->nv_min_cwnd = max(ca->nv_min_cwnd / 2, NV_MIN_CWND); + } + + /* Once per RTT check if we need to do congestion avoidance */ + if (before(ca->nv_rtt_start_seq, tp->snd_una)) { + ca->nv_rtt_start_seq = tp->snd_nxt; + if (ca->nv_rtt_cnt < 0xff) + /* Increase counter for RTTs without CA decision */ + ca->nv_rtt_cnt++; + + /* If this function is only called once within an RTT + * the cwnd is probably too small (in some cases due to + * tso, lro or interrupt coalescence), so we increase + * ca->nv_min_cwnd. + */ + if (ca->nv_eval_call_cnt == 1 && + bytes_acked >= (ca->nv_min_cwnd - 1) * tp->mss_cache && + ca->nv_min_cwnd < (NV_TSO_CWND_BOUND + 1)) { + ca->nv_min_cwnd = min(ca->nv_min_cwnd + + NV_MIN_CWND_GROW, + NV_TSO_CWND_BOUND + 1); + ca->nv_rtt_start_seq = tp->snd_nxt + + ca->nv_min_cwnd * tp->mss_cache; + ca->nv_eval_call_cnt = 0; + ca->nv_allow_cwnd_growth = 1; + return; + } + + /* Find the ideal cwnd for current rate from slope + * slope = 80000.0 * mss / nv_min_rtt + * cwnd_by_slope = nv_rtt_max_rate / slope + */ + cwnd_by_slope = (u32) + div64_u64(((u64)ca->nv_rtt_max_rate) * ca->nv_min_rtt, + (u64)(80000 * tp->mss_cache)); + max_win = cwnd_by_slope + nv_pad; + + /* If cwnd > max_win, decrease cwnd + * if cwnd < max_win, grow cwnd + * else leave the same + */ + if (tp->snd_cwnd > max_win) { + /* there is congestion, check that it is ok + * to make a CA decision + * 1. We should have at least nv_dec_eval_min_calls + * data points before making a CA decision + * 2. We only make a congesion decision after + * nv_rtt_min_cnt RTTs + */ + if (ca->nv_rtt_cnt < nv_rtt_min_cnt) { + return; + } else if (tp->snd_ssthresh == TCP_INFINITE_SSTHRESH) { + if (ca->nv_eval_call_cnt < + nv_ssthresh_eval_min_calls) + return; + /* otherwise we will decrease cwnd */ + } else if (ca->nv_eval_call_cnt < + nv_dec_eval_min_calls) { + if (ca->nv_allow_cwnd_growth && + ca->nv_rtt_cnt > nv_stop_rtt_cnt) + ca->nv_allow_cwnd_growth = 0; + return; + } + + /* We have enough data to determine we are congested */ + ca->nv_allow_cwnd_growth = 0; + tp->snd_ssthresh = + (nv_ssthresh_factor * max_win) >> 3; + if (tp->snd_cwnd - max_win > 2) { + /* gap > 2, we do exponential cwnd decrease */ + int dec; + + dec = max(2U, ((tp->snd_cwnd - max_win) * + nv_cong_dec_mult) >> 7); + tp->snd_cwnd -= dec; + } else if (nv_cong_dec_mult > 0) { + tp->snd_cwnd = max_win; + } + if (ca->cwnd_growth_factor > 0) + ca->cwnd_growth_factor = 0; + ca->nv_no_cong_cnt = 0; + } else if (tp->snd_cwnd <= max_win - nv_pad_buffer) { + /* There is no congestion, grow cwnd if allowed*/ + if (ca->nv_eval_call_cnt < nv_inc_eval_min_calls) + return; + + ca->nv_allow_cwnd_growth = 1; + ca->nv_no_cong_cnt++; + if (ca->cwnd_growth_factor < 0 && + nv_cwnd_growth_rate_neg > 0 && + ca->nv_no_cong_cnt > nv_cwnd_growth_rate_neg) { + ca->cwnd_growth_factor++; + ca->nv_no_cong_cnt = 0; + } else if (ca->cwnd_growth_factor >= 0 && + nv_cwnd_growth_rate_pos > 0 && + ca->nv_no_cong_cnt > + nv_cwnd_growth_rate_pos) { + ca->cwnd_growth_factor++; + ca->nv_no_cong_cnt = 0; + } + } else { + /* cwnd is in-between, so do nothing */ + return; + } + + /* update state */ + ca->nv_eval_call_cnt = 0; + ca->nv_rtt_cnt = 0; + ca->nv_rtt_max_rate = 0; + + /* Don't want to make cwnd < nv_min_cwnd + * (it wasn't before, if it is now is because nv + * decreased it). + */ + if (tp->snd_cwnd < nv_min_cwnd) + tp->snd_cwnd = nv_min_cwnd; + } +} + +/* Extract info for Tcp socket info provided via netlink */ +size_t tcpnv_get_info(struct sock *sk, u32 ext, int *attr, + union tcp_cc_info *info) +{ + const struct tcpnv *ca = inet_csk_ca(sk); + + if (ext & (1 << (INET_DIAG_VEGASINFO - 1))) { + info->vegas.tcpv_enabled = 1; + info->vegas.tcpv_rttcnt = ca->nv_rtt_cnt; + info->vegas.tcpv_rtt = ca->nv_last_rtt; + info->vegas.tcpv_minrtt = ca->nv_min_rtt; + + *attr = INET_DIAG_VEGASINFO; + return sizeof(struct tcpvegas_info); + } + return 0; +} +EXPORT_SYMBOL_GPL(tcpnv_get_info); + +static struct tcp_congestion_ops tcpnv __read_mostly = { + .init = tcpnv_init, + .ssthresh = tcpnv_recalc_ssthresh, + .cong_avoid = tcpnv_cong_avoid, + .set_state = tcpnv_state, + .undo_cwnd = tcpnv_undo_cwnd, + .pkts_acked = tcpnv_acked, + .get_info = tcpnv_get_info, + + .owner = THIS_MODULE, + .name = "nv", +}; + +static int __init tcpnv_register(void) +{ + BUILD_BUG_ON(sizeof(struct tcpnv) > ICSK_CA_PRIV_SIZE); + + return tcp_register_congestion_control(&tcpnv); +} + +static void __exit tcpnv_unregister(void) +{ + tcp_unregister_congestion_control(&tcpnv); +} + +module_init(tcpnv_register); +module_exit(tcpnv_unregister); + +MODULE_AUTHOR("Lawrence Brakmo"); +MODULE_LICENSE("GPL"); +MODULE_DESCRIPTION("TCP NV"); +MODULE_VERSION("1.0"); |