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|
From b8584936a7a1eb2149d0c10de2ac05ca7acc5c9f Mon Sep 17 00:00:00 2001
From: Peter Jung <admin@ptr1337.dev>
Date: Sat, 3 Aug 2024 09:32:56 +0200
Subject: [PATCH 02/12] bbr3
Signed-off-by: Peter Jung <admin@ptr1337.dev>
---
include/linux/tcp.h | 4 +-
include/net/inet_connection_sock.h | 4 +-
include/net/tcp.h | 72 +-
include/uapi/linux/inet_diag.h | 23 +
include/uapi/linux/rtnetlink.h | 4 +-
include/uapi/linux/tcp.h | 1 +
net/ipv4/Kconfig | 21 +-
net/ipv4/bpf_tcp_ca.c | 9 +-
net/ipv4/tcp.c | 3 +
net/ipv4/tcp_bbr.c | 2230 +++++++++++++++++++++-------
net/ipv4/tcp_cong.c | 1 +
net/ipv4/tcp_input.c | 40 +-
net/ipv4/tcp_minisocks.c | 2 +
net/ipv4/tcp_output.c | 48 +-
net/ipv4/tcp_rate.c | 30 +-
net/ipv4/tcp_timer.c | 1 +
16 files changed, 1940 insertions(+), 553 deletions(-)
diff --git a/include/linux/tcp.h b/include/linux/tcp.h
index 6a5e08b937b3..27aab715490e 100644
--- a/include/linux/tcp.h
+++ b/include/linux/tcp.h
@@ -369,7 +369,9 @@ struct tcp_sock {
u8 compressed_ack;
u8 dup_ack_counter:2,
tlp_retrans:1, /* TLP is a retransmission */
- unused:5;
+ fast_ack_mode:2, /* which fast ack mode ? */
+ tlp_orig_data_app_limited:1, /* app-limited before TLP rtx? */
+ unused:2;
u8 thin_lto : 1,/* Use linear timeouts for thin streams */
fastopen_connect:1, /* FASTOPEN_CONNECT sockopt */
fastopen_no_cookie:1, /* Allow send/recv SYN+data without a cookie */
diff --git a/include/net/inet_connection_sock.h b/include/net/inet_connection_sock.h
index c0deaafebfdc..d53f042d936e 100644
--- a/include/net/inet_connection_sock.h
+++ b/include/net/inet_connection_sock.h
@@ -137,8 +137,8 @@ struct inet_connection_sock {
u32 icsk_probes_tstamp;
u32 icsk_user_timeout;
- u64 icsk_ca_priv[104 / sizeof(u64)];
-#define ICSK_CA_PRIV_SIZE sizeof_field(struct inet_connection_sock, icsk_ca_priv)
+#define ICSK_CA_PRIV_SIZE (144)
+ u64 icsk_ca_priv[ICSK_CA_PRIV_SIZE / sizeof(u64)];
};
#define ICSK_TIME_RETRANS 1 /* Retransmit timer */
diff --git a/include/net/tcp.h b/include/net/tcp.h
index 32815a40dea1..109b8d1ddc31 100644
--- a/include/net/tcp.h
+++ b/include/net/tcp.h
@@ -375,6 +375,8 @@ static inline void tcp_dec_quickack_mode(struct sock *sk)
#define TCP_ECN_QUEUE_CWR 2
#define TCP_ECN_DEMAND_CWR 4
#define TCP_ECN_SEEN 8
+#define TCP_ECN_LOW 16
+#define TCP_ECN_ECT_PERMANENT 32
enum tcp_tw_status {
TCP_TW_SUCCESS = 0,
@@ -779,6 +781,15 @@ static inline void tcp_fast_path_check(struct sock *sk)
u32 tcp_delack_max(const struct sock *sk);
+static inline void tcp_set_ecn_low_from_dst(struct sock *sk,
+ const struct dst_entry *dst)
+{
+ struct tcp_sock *tp = tcp_sk(sk);
+
+ if (dst_feature(dst, RTAX_FEATURE_ECN_LOW))
+ tp->ecn_flags |= TCP_ECN_LOW;
+}
+
/* Compute the actual rto_min value */
static inline u32 tcp_rto_min(const struct sock *sk)
{
@@ -884,6 +895,11 @@ static inline u32 tcp_stamp_us_delta(u64 t1, u64 t0)
return max_t(s64, t1 - t0, 0);
}
+static inline u32 tcp_stamp32_us_delta(u32 t1, u32 t0)
+{
+ return max_t(s32, t1 - t0, 0);
+}
+
/* provide the departure time in us unit */
static inline u64 tcp_skb_timestamp_us(const struct sk_buff *skb)
{
@@ -973,9 +989,14 @@ struct tcp_skb_cb {
/* pkts S/ACKed so far upon tx of skb, incl retrans: */
__u32 delivered;
/* start of send pipeline phase */
- u64 first_tx_mstamp;
+ u32 first_tx_mstamp;
/* when we reached the "delivered" count */
- u64 delivered_mstamp;
+ u32 delivered_mstamp;
+#define TCPCB_IN_FLIGHT_BITS 20
+#define TCPCB_IN_FLIGHT_MAX ((1U << TCPCB_IN_FLIGHT_BITS) - 1)
+ u32 in_flight:20, /* packets in flight at transmit */
+ unused2:12;
+ u32 lost; /* packets lost so far upon tx of skb */
} tx; /* only used for outgoing skbs */
union {
struct inet_skb_parm h4;
@@ -1079,6 +1100,7 @@ enum tcp_ca_event {
CA_EVENT_LOSS, /* loss timeout */
CA_EVENT_ECN_NO_CE, /* ECT set, but not CE marked */
CA_EVENT_ECN_IS_CE, /* received CE marked IP packet */
+ CA_EVENT_TLP_RECOVERY, /* a lost segment was repaired by TLP probe */
};
/* Information about inbound ACK, passed to cong_ops->in_ack_event() */
@@ -1101,7 +1123,11 @@ enum tcp_ca_ack_event_flags {
#define TCP_CONG_NON_RESTRICTED 0x1
/* Requires ECN/ECT set on all packets */
#define TCP_CONG_NEEDS_ECN 0x2
-#define TCP_CONG_MASK (TCP_CONG_NON_RESTRICTED | TCP_CONG_NEEDS_ECN)
+/* Wants notification of CE events (CA_EVENT_ECN_IS_CE, CA_EVENT_ECN_NO_CE). */
+#define TCP_CONG_WANTS_CE_EVENTS 0x4
+#define TCP_CONG_MASK (TCP_CONG_NON_RESTRICTED | \
+ TCP_CONG_NEEDS_ECN | \
+ TCP_CONG_WANTS_CE_EVENTS)
union tcp_cc_info;
@@ -1121,10 +1147,13 @@ struct ack_sample {
*/
struct rate_sample {
u64 prior_mstamp; /* starting timestamp for interval */
+ u32 prior_lost; /* tp->lost at "prior_mstamp" */
u32 prior_delivered; /* tp->delivered at "prior_mstamp" */
u32 prior_delivered_ce;/* tp->delivered_ce at "prior_mstamp" */
+ u32 tx_in_flight; /* packets in flight at starting timestamp */
+ s32 lost; /* number of packets lost over interval */
s32 delivered; /* number of packets delivered over interval */
- s32 delivered_ce; /* number of packets delivered w/ CE marks*/
+ s32 delivered_ce; /* packets delivered w/ CE mark over interval */
long interval_us; /* time for tp->delivered to incr "delivered" */
u32 snd_interval_us; /* snd interval for delivered packets */
u32 rcv_interval_us; /* rcv interval for delivered packets */
@@ -1135,7 +1164,9 @@ struct rate_sample {
u32 last_end_seq; /* end_seq of most recently ACKed packet */
bool is_app_limited; /* is sample from packet with bubble in pipe? */
bool is_retrans; /* is sample from retransmission? */
+ bool is_acking_tlp_retrans_seq; /* ACKed a TLP retransmit sequence? */
bool is_ack_delayed; /* is this (likely) a delayed ACK? */
+ bool is_ece; /* did this ACK have ECN marked? */
};
struct tcp_congestion_ops {
@@ -1159,8 +1190,11 @@ struct tcp_congestion_ops {
/* hook for packet ack accounting (optional) */
void (*pkts_acked)(struct sock *sk, const struct ack_sample *sample);
- /* override sysctl_tcp_min_tso_segs */
- u32 (*min_tso_segs)(struct sock *sk);
+ /* pick target number of segments per TSO/GSO skb (optional): */
+ u32 (*tso_segs)(struct sock *sk, unsigned int mss_now);
+
+ /* react to a specific lost skb (optional) */
+ void (*skb_marked_lost)(struct sock *sk, const struct sk_buff *skb);
/* call when packets are delivered to update cwnd and pacing rate,
* after all the ca_state processing. (optional)
@@ -1226,6 +1260,14 @@ static inline char *tcp_ca_get_name_by_key(u32 key, char *buffer)
}
#endif
+static inline bool tcp_ca_wants_ce_events(const struct sock *sk)
+{
+ const struct inet_connection_sock *icsk = inet_csk(sk);
+
+ return icsk->icsk_ca_ops->flags & (TCP_CONG_NEEDS_ECN |
+ TCP_CONG_WANTS_CE_EVENTS);
+}
+
static inline bool tcp_ca_needs_ecn(const struct sock *sk)
{
const struct inet_connection_sock *icsk = inet_csk(sk);
@@ -1245,6 +1287,7 @@ static inline void tcp_ca_event(struct sock *sk, const enum tcp_ca_event event)
void tcp_set_ca_state(struct sock *sk, const u8 ca_state);
/* From tcp_rate.c */
+void tcp_set_tx_in_flight(struct sock *sk, struct sk_buff *skb);
void tcp_rate_skb_sent(struct sock *sk, struct sk_buff *skb);
void tcp_rate_skb_delivered(struct sock *sk, struct sk_buff *skb,
struct rate_sample *rs);
@@ -1257,6 +1300,21 @@ static inline bool tcp_skb_sent_after(u64 t1, u64 t2, u32 seq1, u32 seq2)
return t1 > t2 || (t1 == t2 && after(seq1, seq2));
}
+/* If a retransmit failed due to local qdisc congestion or other local issues,
+ * then we may have called tcp_set_skb_tso_segs() to increase the number of
+ * segments in the skb without increasing the tx.in_flight. In all other cases,
+ * the tx.in_flight should be at least as big as the pcount of the sk_buff. We
+ * do not have the state to know whether a retransmit failed due to local qdisc
+ * congestion or other local issues, so to avoid spurious warnings we consider
+ * that any skb marked lost may have suffered that fate.
+ */
+static inline bool tcp_skb_tx_in_flight_is_suspicious(u32 skb_pcount,
+ u32 skb_sacked_flags,
+ u32 tx_in_flight)
+{
+ return (skb_pcount > tx_in_flight) && !(skb_sacked_flags & TCPCB_LOST);
+}
+
/* These functions determine how the current flow behaves in respect of SACK
* handling. SACK is negotiated with the peer, and therefore it can vary
* between different flows.
@@ -2419,7 +2477,7 @@ struct tcp_plb_state {
u8 consec_cong_rounds:5, /* consecutive congested rounds */
unused:3;
u32 pause_until; /* jiffies32 when PLB can resume rerouting */
-};
+} __attribute__ ((__packed__));
static inline void tcp_plb_init(const struct sock *sk,
struct tcp_plb_state *plb)
diff --git a/include/uapi/linux/inet_diag.h b/include/uapi/linux/inet_diag.h
index 50655de04c9b..82f8bd8f0d16 100644
--- a/include/uapi/linux/inet_diag.h
+++ b/include/uapi/linux/inet_diag.h
@@ -229,6 +229,29 @@ struct tcp_bbr_info {
__u32 bbr_min_rtt; /* min-filtered RTT in uSec */
__u32 bbr_pacing_gain; /* pacing gain shifted left 8 bits */
__u32 bbr_cwnd_gain; /* cwnd gain shifted left 8 bits */
+ __u32 bbr_bw_hi_lsb; /* lower 32 bits of bw_hi */
+ __u32 bbr_bw_hi_msb; /* upper 32 bits of bw_hi */
+ __u32 bbr_bw_lo_lsb; /* lower 32 bits of bw_lo */
+ __u32 bbr_bw_lo_msb; /* upper 32 bits of bw_lo */
+ __u8 bbr_mode; /* current bbr_mode in state machine */
+ __u8 bbr_phase; /* current state machine phase */
+ __u8 unused1; /* alignment padding; not used yet */
+ __u8 bbr_version; /* BBR algorithm version */
+ __u32 bbr_inflight_lo; /* lower short-term data volume bound */
+ __u32 bbr_inflight_hi; /* higher long-term data volume bound */
+ __u32 bbr_extra_acked; /* max excess packets ACKed in epoch */
+};
+
+/* TCP BBR congestion control bbr_phase as reported in netlink/ss stats. */
+enum tcp_bbr_phase {
+ BBR_PHASE_INVALID = 0,
+ BBR_PHASE_STARTUP = 1,
+ BBR_PHASE_DRAIN = 2,
+ BBR_PHASE_PROBE_RTT = 3,
+ BBR_PHASE_PROBE_BW_UP = 4,
+ BBR_PHASE_PROBE_BW_DOWN = 5,
+ BBR_PHASE_PROBE_BW_CRUISE = 6,
+ BBR_PHASE_PROBE_BW_REFILL = 7,
};
union tcp_cc_info {
diff --git a/include/uapi/linux/rtnetlink.h b/include/uapi/linux/rtnetlink.h
index 3b687d20c9ed..a7c30c243b54 100644
--- a/include/uapi/linux/rtnetlink.h
+++ b/include/uapi/linux/rtnetlink.h
@@ -507,12 +507,14 @@ enum {
#define RTAX_FEATURE_TIMESTAMP (1 << 2) /* unused */
#define RTAX_FEATURE_ALLFRAG (1 << 3) /* unused */
#define RTAX_FEATURE_TCP_USEC_TS (1 << 4)
+#define RTAX_FEATURE_ECN_LOW (1 << 5)
#define RTAX_FEATURE_MASK (RTAX_FEATURE_ECN | \
RTAX_FEATURE_SACK | \
RTAX_FEATURE_TIMESTAMP | \
RTAX_FEATURE_ALLFRAG | \
- RTAX_FEATURE_TCP_USEC_TS)
+ RTAX_FEATURE_TCP_USEC_TS | \
+ RTAX_FEATURE_ECN_LOW)
struct rta_session {
__u8 proto;
diff --git a/include/uapi/linux/tcp.h b/include/uapi/linux/tcp.h
index dbf896f3146c..4702cd2f1ffc 100644
--- a/include/uapi/linux/tcp.h
+++ b/include/uapi/linux/tcp.h
@@ -178,6 +178,7 @@ enum tcp_fastopen_client_fail {
#define TCPI_OPT_ECN_SEEN 16 /* we received at least one packet with ECT */
#define TCPI_OPT_SYN_DATA 32 /* SYN-ACK acked data in SYN sent or rcvd */
#define TCPI_OPT_USEC_TS 64 /* usec timestamps */
+#define TCPI_OPT_ECN_LOW 128 /* Low-latency ECN configured at init */
/*
* Sender's congestion state indicating normal or abnormal situations
diff --git a/net/ipv4/Kconfig b/net/ipv4/Kconfig
index 8e94ed7c56a0..50dc9970cad2 100644
--- a/net/ipv4/Kconfig
+++ b/net/ipv4/Kconfig
@@ -668,15 +668,18 @@ config TCP_CONG_BBR
default n
help
- BBR (Bottleneck Bandwidth and RTT) TCP congestion control aims to
- maximize network utilization and minimize queues. It builds an explicit
- model of the bottleneck delivery rate and path round-trip propagation
- delay. It tolerates packet loss and delay unrelated to congestion. It
- can operate over LAN, WAN, cellular, wifi, or cable modem links. It can
- coexist with flows that use loss-based congestion control, and can
- operate with shallow buffers, deep buffers, bufferbloat, policers, or
- AQM schemes that do not provide a delay signal. It requires the fq
- ("Fair Queue") pacing packet scheduler.
+ BBR (Bottleneck Bandwidth and RTT) TCP congestion control is a
+ model-based congestion control algorithm that aims to maximize
+ network utilization, keep queues and retransmit rates low, and to be
+ able to coexist with Reno/CUBIC in common scenarios. It builds an
+ explicit model of the network path. It tolerates a targeted degree
+ of random packet loss and delay. It can operate over LAN, WAN,
+ cellular, wifi, or cable modem links, and can use shallow-threshold
+ ECN signals. It can coexist to some degree with flows that use
+ loss-based congestion control, and can operate with shallow buffers,
+ deep buffers, bufferbloat, policers, or AQM schemes that do not
+ provide a delay signal. It requires pacing, using either TCP internal
+ pacing or the fq ("Fair Queue") pacing packet scheduler.
choice
prompt "Default TCP congestion control"
diff --git a/net/ipv4/bpf_tcp_ca.c b/net/ipv4/bpf_tcp_ca.c
index 18227757ec0c..f180befc28bd 100644
--- a/net/ipv4/bpf_tcp_ca.c
+++ b/net/ipv4/bpf_tcp_ca.c
@@ -305,11 +305,15 @@ static void bpf_tcp_ca_pkts_acked(struct sock *sk, const struct ack_sample *samp
{
}
-static u32 bpf_tcp_ca_min_tso_segs(struct sock *sk)
+static u32 bpf_tcp_ca_tso_segs(struct sock *sk, unsigned int mss_now)
{
return 0;
}
+static void bpf_tcp_ca_skb_marked_lost(struct sock *sk, const struct sk_buff *skb)
+{
+}
+
static void bpf_tcp_ca_cong_control(struct sock *sk, u32 ack, int flag,
const struct rate_sample *rs)
{
@@ -340,7 +344,8 @@ static struct tcp_congestion_ops __bpf_ops_tcp_congestion_ops = {
.cwnd_event = bpf_tcp_ca_cwnd_event,
.in_ack_event = bpf_tcp_ca_in_ack_event,
.pkts_acked = bpf_tcp_ca_pkts_acked,
- .min_tso_segs = bpf_tcp_ca_min_tso_segs,
+ .tso_segs = bpf_tcp_ca_tso_segs,
+ .skb_marked_lost = bpf_tcp_ca_skb_marked_lost,
.cong_control = bpf_tcp_ca_cong_control,
.undo_cwnd = bpf_tcp_ca_undo_cwnd,
.sndbuf_expand = bpf_tcp_ca_sndbuf_expand,
diff --git a/net/ipv4/tcp.c b/net/ipv4/tcp.c
index ec6911034138..df7731a30198 100644
--- a/net/ipv4/tcp.c
+++ b/net/ipv4/tcp.c
@@ -3120,6 +3120,7 @@ int tcp_disconnect(struct sock *sk, int flags)
tp->rx_opt.dsack = 0;
tp->rx_opt.num_sacks = 0;
tp->rcv_ooopack = 0;
+ tp->fast_ack_mode = 0;
/* Clean up fastopen related fields */
@@ -3846,6 +3847,8 @@ void tcp_get_info(struct sock *sk, struct tcp_info *info)
info->tcpi_options |= TCPI_OPT_ECN;
if (tp->ecn_flags & TCP_ECN_SEEN)
info->tcpi_options |= TCPI_OPT_ECN_SEEN;
+ if (tp->ecn_flags & TCP_ECN_LOW)
+ info->tcpi_options |= TCPI_OPT_ECN_LOW;
if (tp->syn_data_acked)
info->tcpi_options |= TCPI_OPT_SYN_DATA;
if (tp->tcp_usec_ts)
diff --git a/net/ipv4/tcp_bbr.c b/net/ipv4/tcp_bbr.c
index 760941e55153..a180fa648d5e 100644
--- a/net/ipv4/tcp_bbr.c
+++ b/net/ipv4/tcp_bbr.c
@@ -1,18 +1,19 @@
-/* Bottleneck Bandwidth and RTT (BBR) congestion control
+/* BBR (Bottleneck Bandwidth and RTT) congestion control
*
- * BBR congestion control computes the sending rate based on the delivery
- * rate (throughput) estimated from ACKs. In a nutshell:
+ * BBR is a model-based congestion control algorithm that aims for low queues,
+ * low loss, and (bounded) Reno/CUBIC coexistence. To maintain a model of the
+ * network path, it uses measurements of bandwidth and RTT, as well as (if they
+ * occur) packet loss and/or shallow-threshold ECN signals. Note that although
+ * it can use ECN or loss signals explicitly, it does not require either; it
+ * can bound its in-flight data based on its estimate of the BDP.
*
- * On each ACK, update our model of the network path:
- * bottleneck_bandwidth = windowed_max(delivered / elapsed, 10 round trips)
- * min_rtt = windowed_min(rtt, 10 seconds)
- * pacing_rate = pacing_gain * bottleneck_bandwidth
- * cwnd = max(cwnd_gain * bottleneck_bandwidth * min_rtt, 4)
- *
- * The core algorithm does not react directly to packet losses or delays,
- * although BBR may adjust the size of next send per ACK when loss is
- * observed, or adjust the sending rate if it estimates there is a
- * traffic policer, in order to keep the drop rate reasonable.
+ * The model has both higher and lower bounds for the operating range:
+ * lo: bw_lo, inflight_lo: conservative short-term lower bound
+ * hi: bw_hi, inflight_hi: robust long-term upper bound
+ * The bandwidth-probing time scale is (a) extended dynamically based on
+ * estimated BDP to improve coexistence with Reno/CUBIC; (b) bounded by
+ * an interactive wall-clock time-scale to be more scalable and responsive
+ * than Reno and CUBIC.
*
* Here is a state transition diagram for BBR:
*
@@ -65,6 +66,13 @@
#include <linux/random.h>
#include <linux/win_minmax.h>
+#include <trace/events/tcp.h>
+#include "tcp_dctcp.h"
+
+#define BBR_VERSION 3
+
+#define bbr_param(sk,name) (bbr_ ## name)
+
/* Scale factor for rate in pkt/uSec unit to avoid truncation in bandwidth
* estimation. The rate unit ~= (1500 bytes / 1 usec / 2^24) ~= 715 bps.
* This handles bandwidths from 0.06pps (715bps) to 256Mpps (3Tbps) in a u32.
@@ -85,36 +93,41 @@ enum bbr_mode {
BBR_PROBE_RTT, /* cut inflight to min to probe min_rtt */
};
+/* How does the incoming ACK stream relate to our bandwidth probing? */
+enum bbr_ack_phase {
+ BBR_ACKS_INIT, /* not probing; not getting probe feedback */
+ BBR_ACKS_REFILLING, /* sending at est. bw to fill pipe */
+ BBR_ACKS_PROBE_STARTING, /* inflight rising to probe bw */
+ BBR_ACKS_PROBE_FEEDBACK, /* getting feedback from bw probing */
+ BBR_ACKS_PROBE_STOPPING, /* stopped probing; still getting feedback */
+};
+
/* BBR congestion control block */
struct bbr {
u32 min_rtt_us; /* min RTT in min_rtt_win_sec window */
u32 min_rtt_stamp; /* timestamp of min_rtt_us */
u32 probe_rtt_done_stamp; /* end time for BBR_PROBE_RTT mode */
- struct minmax bw; /* Max recent delivery rate in pkts/uS << 24 */
- u32 rtt_cnt; /* count of packet-timed rounds elapsed */
+ u32 probe_rtt_min_us; /* min RTT in probe_rtt_win_ms win */
+ u32 probe_rtt_min_stamp; /* timestamp of probe_rtt_min_us*/
u32 next_rtt_delivered; /* scb->tx.delivered at end of round */
u64 cycle_mstamp; /* time of this cycle phase start */
- u32 mode:3, /* current bbr_mode in state machine */
+ u32 mode:2, /* current bbr_mode in state machine */
prev_ca_state:3, /* CA state on previous ACK */
- packet_conservation:1, /* use packet conservation? */
round_start:1, /* start of packet-timed tx->ack round? */
+ ce_state:1, /* If most recent data has CE bit set */
+ bw_probe_up_rounds:5, /* cwnd-limited rounds in PROBE_UP */
+ try_fast_path:1, /* can we take fast path? */
idle_restart:1, /* restarting after idle? */
probe_rtt_round_done:1, /* a BBR_PROBE_RTT round at 4 pkts? */
- unused:13,
- lt_is_sampling:1, /* taking long-term ("LT") samples now? */
- lt_rtt_cnt:7, /* round trips in long-term interval */
- lt_use_bw:1; /* use lt_bw as our bw estimate? */
- u32 lt_bw; /* LT est delivery rate in pkts/uS << 24 */
- u32 lt_last_delivered; /* LT intvl start: tp->delivered */
- u32 lt_last_stamp; /* LT intvl start: tp->delivered_mstamp */
- u32 lt_last_lost; /* LT intvl start: tp->lost */
+ init_cwnd:7, /* initial cwnd */
+ unused_1:10;
u32 pacing_gain:10, /* current gain for setting pacing rate */
cwnd_gain:10, /* current gain for setting cwnd */
full_bw_reached:1, /* reached full bw in Startup? */
full_bw_cnt:2, /* number of rounds without large bw gains */
- cycle_idx:3, /* current index in pacing_gain cycle array */
+ cycle_idx:2, /* current index in pacing_gain cycle array */
has_seen_rtt:1, /* have we seen an RTT sample yet? */
- unused_b:5;
+ unused_2:6;
u32 prior_cwnd; /* prior cwnd upon entering loss recovery */
u32 full_bw; /* recent bw, to estimate if pipe is full */
@@ -124,19 +137,67 @@ struct bbr {
u32 ack_epoch_acked:20, /* packets (S)ACKed in sampling epoch */
extra_acked_win_rtts:5, /* age of extra_acked, in round trips */
extra_acked_win_idx:1, /* current index in extra_acked array */
- unused_c:6;
+ /* BBR v3 state: */
+ full_bw_now:1, /* recently reached full bw plateau? */
+ startup_ecn_rounds:2, /* consecutive hi ECN STARTUP rounds */
+ loss_in_cycle:1, /* packet loss in this cycle? */
+ ecn_in_cycle:1, /* ECN in this cycle? */
+ unused_3:1;
+ u32 loss_round_delivered; /* scb->tx.delivered ending loss round */
+ u32 undo_bw_lo; /* bw_lo before latest losses */
+ u32 undo_inflight_lo; /* inflight_lo before latest losses */
+ u32 undo_inflight_hi; /* inflight_hi before latest losses */
+ u32 bw_latest; /* max delivered bw in last round trip */
+ u32 bw_lo; /* lower bound on sending bandwidth */
+ u32 bw_hi[2]; /* max recent measured bw sample */
+ u32 inflight_latest; /* max delivered data in last round trip */
+ u32 inflight_lo; /* lower bound of inflight data range */
+ u32 inflight_hi; /* upper bound of inflight data range */
+ u32 bw_probe_up_cnt; /* packets delivered per inflight_hi incr */
+ u32 bw_probe_up_acks; /* packets (S)ACKed since inflight_hi incr */
+ u32 probe_wait_us; /* PROBE_DOWN until next clock-driven probe */
+ u32 prior_rcv_nxt; /* tp->rcv_nxt when CE state last changed */
+ u32 ecn_eligible:1, /* sender can use ECN (RTT, handshake)? */
+ ecn_alpha:9, /* EWMA delivered_ce/delivered; 0..256 */
+ bw_probe_samples:1, /* rate samples reflect bw probing? */
+ prev_probe_too_high:1, /* did last PROBE_UP go too high? */
+ stopped_risky_probe:1, /* last PROBE_UP stopped due to risk? */
+ rounds_since_probe:8, /* packet-timed rounds since probed bw */
+ loss_round_start:1, /* loss_round_delivered round trip? */
+ loss_in_round:1, /* loss marked in this round trip? */
+ ecn_in_round:1, /* ECN marked in this round trip? */
+ ack_phase:3, /* bbr_ack_phase: meaning of ACKs */
+ loss_events_in_round:4,/* losses in STARTUP round */
+ initialized:1; /* has bbr_init() been called? */
+ u32 alpha_last_delivered; /* tp->delivered at alpha update */
+ u32 alpha_last_delivered_ce; /* tp->delivered_ce at alpha update */
+
+ u8 unused_4; /* to preserve alignment */
+ struct tcp_plb_state plb;
};
-#define CYCLE_LEN 8 /* number of phases in a pacing gain cycle */
+struct bbr_context {
+ u32 sample_bw;
+};
-/* Window length of bw filter (in rounds): */
-static const int bbr_bw_rtts = CYCLE_LEN + 2;
/* Window length of min_rtt filter (in sec): */
static const u32 bbr_min_rtt_win_sec = 10;
/* Minimum time (in ms) spent at bbr_cwnd_min_target in BBR_PROBE_RTT mode: */
static const u32 bbr_probe_rtt_mode_ms = 200;
-/* Skip TSO below the following bandwidth (bits/sec): */
-static const int bbr_min_tso_rate = 1200000;
+/* Window length of probe_rtt_min_us filter (in ms), and consequently the
+ * typical interval between PROBE_RTT mode entries. The default is 5000ms.
+ * Note that bbr_probe_rtt_win_ms must be <= bbr_min_rtt_win_sec * MSEC_PER_SEC
+ */
+static const u32 bbr_probe_rtt_win_ms = 5000;
+/* Proportion of cwnd to estimated BDP in PROBE_RTT, in units of BBR_UNIT: */
+static const u32 bbr_probe_rtt_cwnd_gain = BBR_UNIT * 1 / 2;
+
+/* Use min_rtt to help adapt TSO burst size, with smaller min_rtt resulting
+ * in bigger TSO bursts. We cut the RTT-based allowance in half
+ * for every 2^9 usec (aka 512 us) of RTT, so that the RTT-based allowance
+ * is below 1500 bytes after 6 * ~500 usec = 3ms.
+ */
+static const u32 bbr_tso_rtt_shift = 9;
/* Pace at ~1% below estimated bw, on average, to reduce queue at bottleneck.
* In order to help drive the network toward lower queues and low latency while
@@ -146,13 +207,15 @@ static const int bbr_min_tso_rate = 1200000;
*/
static const int bbr_pacing_margin_percent = 1;
-/* We use a high_gain value of 2/ln(2) because it's the smallest pacing gain
+/* We use a startup_pacing_gain of 4*ln(2) because it's the smallest value
* that will allow a smoothly increasing pacing rate that will double each RTT
* and send the same number of packets per RTT that an un-paced, slow-starting
* Reno or CUBIC flow would:
*/
-static const int bbr_high_gain = BBR_UNIT * 2885 / 1000 + 1;
-/* The pacing gain of 1/high_gain in BBR_DRAIN is calculated to typically drain
+static const int bbr_startup_pacing_gain = BBR_UNIT * 277 / 100 + 1;
+/* The gain for deriving startup cwnd: */
+static const int bbr_startup_cwnd_gain = BBR_UNIT * 2;
+/* The pacing gain in BBR_DRAIN is calculated to typically drain
* the queue created in BBR_STARTUP in a single round:
*/
static const int bbr_drain_gain = BBR_UNIT * 1000 / 2885;
@@ -160,13 +223,17 @@ static const int bbr_drain_gain = BBR_UNIT * 1000 / 2885;
static const int bbr_cwnd_gain = BBR_UNIT * 2;
/* The pacing_gain values for the PROBE_BW gain cycle, to discover/share bw: */
static const int bbr_pacing_gain[] = {
- BBR_UNIT * 5 / 4, /* probe for more available bw */
- BBR_UNIT * 3 / 4, /* drain queue and/or yield bw to other flows */
- BBR_UNIT, BBR_UNIT, BBR_UNIT, /* cruise at 1.0*bw to utilize pipe, */
- BBR_UNIT, BBR_UNIT, BBR_UNIT /* without creating excess queue... */
+ BBR_UNIT * 5 / 4, /* UP: probe for more available bw */
+ BBR_UNIT * 91 / 100, /* DOWN: drain queue and/or yield bw */
+ BBR_UNIT, /* CRUISE: try to use pipe w/ some headroom */
+ BBR_UNIT, /* REFILL: refill pipe to estimated 100% */
+};
+enum bbr_pacing_gain_phase {
+ BBR_BW_PROBE_UP = 0, /* push up inflight to probe for bw/vol */
+ BBR_BW_PROBE_DOWN = 1, /* drain excess inflight from the queue */
+ BBR_BW_PROBE_CRUISE = 2, /* use pipe, w/ headroom in queue/pipe */
+ BBR_BW_PROBE_REFILL = 3, /* v2: refill the pipe again to 100% */
};
-/* Randomize the starting gain cycling phase over N phases: */
-static const u32 bbr_cycle_rand = 7;
/* Try to keep at least this many packets in flight, if things go smoothly. For
* smooth functioning, a sliding window protocol ACKing every other packet
@@ -174,24 +241,12 @@ static const u32 bbr_cycle_rand = 7;
*/
static const u32 bbr_cwnd_min_target = 4;
-/* To estimate if BBR_STARTUP mode (i.e. high_gain) has filled pipe... */
+/* To estimate if BBR_STARTUP or BBR_BW_PROBE_UP has filled pipe... */
/* If bw has increased significantly (1.25x), there may be more bw available: */
static const u32 bbr_full_bw_thresh = BBR_UNIT * 5 / 4;
/* But after 3 rounds w/o significant bw growth, estimate pipe is full: */
static const u32 bbr_full_bw_cnt = 3;
-/* "long-term" ("LT") bandwidth estimator parameters... */
-/* The minimum number of rounds in an LT bw sampling interval: */
-static const u32 bbr_lt_intvl_min_rtts = 4;
-/* If lost/delivered ratio > 20%, interval is "lossy" and we may be policed: */
-static const u32 bbr_lt_loss_thresh = 50;
-/* If 2 intervals have a bw ratio <= 1/8, their bw is "consistent": */
-static const u32 bbr_lt_bw_ratio = BBR_UNIT / 8;
-/* If 2 intervals have a bw diff <= 4 Kbit/sec their bw is "consistent": */
-static const u32 bbr_lt_bw_diff = 4000 / 8;
-/* If we estimate we're policed, use lt_bw for this many round trips: */
-static const u32 bbr_lt_bw_max_rtts = 48;
-
/* Gain factor for adding extra_acked to target cwnd: */
static const int bbr_extra_acked_gain = BBR_UNIT;
/* Window length of extra_acked window. */
@@ -201,8 +256,121 @@ static const u32 bbr_ack_epoch_acked_reset_thresh = 1U << 20;
/* Time period for clamping cwnd increment due to ack aggregation */
static const u32 bbr_extra_acked_max_us = 100 * 1000;
+/* Flags to control BBR ECN-related behavior... */
+
+/* Ensure ACKs only ACK packets with consistent ECN CE status? */
+static const bool bbr_precise_ece_ack = true;
+
+/* Max RTT (in usec) at which to use sender-side ECN logic.
+ * Disabled when 0 (ECN allowed at any RTT).
+ */
+static const u32 bbr_ecn_max_rtt_us = 5000;
+
+/* On losses, scale down inflight and pacing rate by beta scaled by BBR_SCALE.
+ * No loss response when 0.
+ */
+static const u32 bbr_beta = BBR_UNIT * 30 / 100;
+
+/* Gain factor for ECN mark ratio samples, scaled by BBR_SCALE (1/16 = 6.25%) */
+static const u32 bbr_ecn_alpha_gain = BBR_UNIT * 1 / 16;
+
+/* The initial value for ecn_alpha; 1.0 allows a flow to respond quickly
+ * to congestion if the bottleneck is congested when the flow starts up.
+ */
+static const u32 bbr_ecn_alpha_init = BBR_UNIT;
+
+/* On ECN, cut inflight_lo to (1 - ecn_factor * ecn_alpha) scaled by BBR_SCALE.
+ * No ECN based bounding when 0.
+ */
+static const u32 bbr_ecn_factor = BBR_UNIT * 1 / 3; /* 1/3 = 33% */
+
+/* Estimate bw probing has gone too far if CE ratio exceeds this threshold.
+ * Scaled by BBR_SCALE. Disabled when 0.
+ */
+static const u32 bbr_ecn_thresh = BBR_UNIT * 1 / 2; /* 1/2 = 50% */
+
+/* If non-zero, if in a cycle with no losses but some ECN marks, after ECN
+ * clears then make the first round's increment to inflight_hi the following
+ * fraction of inflight_hi.
+ */
+static const u32 bbr_ecn_reprobe_gain = BBR_UNIT * 1 / 2;
+
+/* Estimate bw probing has gone too far if loss rate exceeds this level. */
+static const u32 bbr_loss_thresh = BBR_UNIT * 2 / 100; /* 2% loss */
+
+/* Slow down for a packet loss recovered by TLP? */
+static const bool bbr_loss_probe_recovery = true;
+
+/* Exit STARTUP if number of loss marking events in a Recovery round is >= N,
+ * and loss rate is higher than bbr_loss_thresh.
+ * Disabled if 0.
+ */
+static const u32 bbr_full_loss_cnt = 6;
+
+/* Exit STARTUP if number of round trips with ECN mark rate above ecn_thresh
+ * meets this count.
+ */
+static const u32 bbr_full_ecn_cnt = 2;
+
+/* Fraction of unutilized headroom to try to leave in path upon high loss. */
+static const u32 bbr_inflight_headroom = BBR_UNIT * 15 / 100;
+
+/* How much do we increase cwnd_gain when probing for bandwidth in
+ * BBR_BW_PROBE_UP? This specifies the increment in units of
+ * BBR_UNIT/4. The default is 1, meaning 0.25.
+ * The min value is 0 (meaning 0.0); max is 3 (meaning 0.75).
+ */
+static const u32 bbr_bw_probe_cwnd_gain = 1;
+
+/* Max number of packet-timed rounds to wait before probing for bandwidth. If
+ * we want to tolerate 1% random loss per round, and not have this cut our
+ * inflight too much, we must probe for bw periodically on roughly this scale.
+ * If low, limits Reno/CUBIC coexistence; if high, limits loss tolerance.
+ * We aim to be fair with Reno/CUBIC up to a BDP of at least:
+ * BDP = 25Mbps * .030sec /(1514bytes) = 61.9 packets
+ */
+static const u32 bbr_bw_probe_max_rounds = 63;
+
+/* Max amount of randomness to inject in round counting for Reno-coexistence.
+ */
+static const u32 bbr_bw_probe_rand_rounds = 2;
+
+/* Use BBR-native probe time scale starting at this many usec.
+ * We aim to be fair with Reno/CUBIC up to an inter-loss time epoch of at least:
+ * BDP*RTT = 25Mbps * .030sec /(1514bytes) * 0.030sec = 1.9 secs
+ */
+static const u32 bbr_bw_probe_base_us = 2 * USEC_PER_SEC; /* 2 secs */
+
+/* Use BBR-native probes spread over this many usec: */
+static const u32 bbr_bw_probe_rand_us = 1 * USEC_PER_SEC; /* 1 secs */
+
+/* Use fast path if app-limited, no loss/ECN, and target cwnd was reached? */
+static const bool bbr_fast_path = true;
+
+/* Use fast ack mode? */
+static const bool bbr_fast_ack_mode = true;
+
+static u32 bbr_max_bw(const struct sock *sk);
+static u32 bbr_bw(const struct sock *sk);
+static void bbr_exit_probe_rtt(struct sock *sk);
+static void bbr_reset_congestion_signals(struct sock *sk);
+static void bbr_run_loss_probe_recovery(struct sock *sk);
+
static void bbr_check_probe_rtt_done(struct sock *sk);
+/* This connection can use ECN if both endpoints have signaled ECN support in
+ * the handshake and the per-route settings indicated this is a
+ * shallow-threshold ECN environment, meaning both:
+ * (a) ECN CE marks indicate low-latency/shallow-threshold congestion, and
+ * (b) TCP endpoints provide precise ACKs that only ACK data segments
+ * with consistent ECN CE status
+ */
+static bool bbr_can_use_ecn(const struct sock *sk)
+{
+ return (tcp_sk(sk)->ecn_flags & TCP_ECN_OK) &&
+ (tcp_sk(sk)->ecn_flags & TCP_ECN_LOW);
+}
+
/* Do we estimate that STARTUP filled the pipe? */
static bool bbr_full_bw_reached(const struct sock *sk)
{
@@ -214,17 +382,17 @@ static bool bbr_full_bw_reached(const struct sock *sk)
/* Return the windowed max recent bandwidth sample, in pkts/uS << BW_SCALE. */
static u32 bbr_max_bw(const struct sock *sk)
{
- struct bbr *bbr = inet_csk_ca(sk);
+ const struct bbr *bbr = inet_csk_ca(sk);
- return minmax_get(&bbr->bw);
+ return max(bbr->bw_hi[0], bbr->bw_hi[1]);
}
/* Return the estimated bandwidth of the path, in pkts/uS << BW_SCALE. */
static u32 bbr_bw(const struct sock *sk)
{
- struct bbr *bbr = inet_csk_ca(sk);
+ const struct bbr *bbr = inet_csk_ca(sk);
- return bbr->lt_use_bw ? bbr->lt_bw : bbr_max_bw(sk);
+ return min(bbr_max_bw(sk), bbr->bw_lo);
}
/* Return maximum extra acked in past k-2k round trips,
@@ -241,15 +409,23 @@ static u16 bbr_extra_acked(const struct sock *sk)
* The order here is chosen carefully to avoid overflow of u64. This should
* work for input rates of up to 2.9Tbit/sec and gain of 2.89x.
*/
-static u64 bbr_rate_bytes_per_sec(struct sock *sk, u64 rate, int gain)
+static u64 bbr_rate_bytes_per_sec(struct sock *sk, u64 rate, int gain,
+ int margin)
{
unsigned int mss = tcp_sk(sk)->mss_cache;
rate *= mss;
rate *= gain;
rate >>= BBR_SCALE;
- rate *= USEC_PER_SEC / 100 * (100 - bbr_pacing_margin_percent);
- return rate >> BW_SCALE;
+ rate *= USEC_PER_SEC / 100 * (100 - margin);
+ rate >>= BW_SCALE;
+ rate = max(rate, 1ULL);
+ return rate;
+}
+
+static u64 bbr_bw_bytes_per_sec(struct sock *sk, u64 rate)
+{
+ return bbr_rate_bytes_per_sec(sk, rate, BBR_UNIT, 0);
}
/* Convert a BBR bw and gain factor to a pacing rate in bytes per second. */
@@ -257,12 +433,13 @@ static unsigned long bbr_bw_to_pacing_rate(struct sock *sk, u32 bw, int gain)
{
u64 rate = bw;
- rate = bbr_rate_bytes_per_sec(sk, rate, gain);
+ rate = bbr_rate_bytes_per_sec(sk, rate, gain,
+ bbr_pacing_margin_percent);
rate = min_t(u64, rate, READ_ONCE(sk->sk_max_pacing_rate));
return rate;
}
-/* Initialize pacing rate to: high_gain * init_cwnd / RTT. */
+/* Initialize pacing rate to: startup_pacing_gain * init_cwnd / RTT. */
static void bbr_init_pacing_rate_from_rtt(struct sock *sk)
{
struct tcp_sock *tp = tcp_sk(sk);
@@ -279,7 +456,7 @@ static void bbr_init_pacing_rate_from_rtt(struct sock *sk)
bw = (u64)tcp_snd_cwnd(tp) * BW_UNIT;
do_div(bw, rtt_us);
WRITE_ONCE(sk->sk_pacing_rate,
- bbr_bw_to_pacing_rate(sk, bw, bbr_high_gain));
+ bbr_bw_to_pacing_rate(sk, bw, bbr_param(sk, startup_pacing_gain)));
}
/* Pace using current bw estimate and a gain factor. */
@@ -295,26 +472,48 @@ static void bbr_set_pacing_rate(struct sock *sk, u32 bw, int gain)
WRITE_ONCE(sk->sk_pacing_rate, rate);
}
-/* override sysctl_tcp_min_tso_segs */
-__bpf_kfunc static u32 bbr_min_tso_segs(struct sock *sk)
+/* Return the number of segments BBR would like in a TSO/GSO skb, given a
+ * particular max gso size as a constraint. TODO: make this simpler and more
+ * consistent by switching bbr to just call tcp_tso_autosize().
+ */
+static u32 bbr_tso_segs_generic(struct sock *sk, unsigned int mss_now,
+ u32 gso_max_size)
+{
+ struct bbr *bbr = inet_csk_ca(sk);
+ u32 segs, r;
+ u64 bytes;
+
+ /* Budget a TSO/GSO burst size allowance based on bw (pacing_rate). */
+ bytes = READ_ONCE(sk->sk_pacing_rate) >> READ_ONCE(sk->sk_pacing_shift);
+
+ /* Budget a TSO/GSO burst size allowance based on min_rtt. For every
+ * K = 2^tso_rtt_shift microseconds of min_rtt, halve the burst.
+ * The min_rtt-based burst allowance is: 64 KBytes / 2^(min_rtt/K)
+ */
+ if (bbr_param(sk, tso_rtt_shift)) {
+ r = bbr->min_rtt_us >> bbr_param(sk, tso_rtt_shift);
+ if (r < BITS_PER_TYPE(u32)) /* prevent undefined behavior */
+ bytes += GSO_LEGACY_MAX_SIZE >> r;
+ }
+
+ bytes = min_t(u32, bytes, gso_max_size - 1 - MAX_TCP_HEADER);
+ segs = max_t(u32, bytes / mss_now,
+ sock_net(sk)->ipv4.sysctl_tcp_min_tso_segs);
+ return segs;
+}
+
+/* Custom tcp_tso_autosize() for BBR, used at transmit time to cap skb size. */
+__bpf_kfunc static u32 bbr_tso_segs(struct sock *sk, unsigned int mss_now)
{
- return READ_ONCE(sk->sk_pacing_rate) < (bbr_min_tso_rate >> 3) ? 1 : 2;
+ return bbr_tso_segs_generic(sk, mss_now, sk->sk_gso_max_size);
}
+/* Like bbr_tso_segs(), using mss_cache, ignoring driver's sk_gso_max_size. */
static u32 bbr_tso_segs_goal(struct sock *sk)
{
struct tcp_sock *tp = tcp_sk(sk);
- u32 segs, bytes;
-
- /* Sort of tcp_tso_autosize() but ignoring
- * driver provided sk_gso_max_size.
- */
- bytes = min_t(unsigned long,
- READ_ONCE(sk->sk_pacing_rate) >> READ_ONCE(sk->sk_pacing_shift),
- GSO_LEGACY_MAX_SIZE - 1 - MAX_TCP_HEADER);
- segs = max_t(u32, bytes / tp->mss_cache, bbr_min_tso_segs(sk));
- return min(segs, 0x7FU);
+ return bbr_tso_segs_generic(sk, tp->mss_cache, GSO_LEGACY_MAX_SIZE);
}
/* Save "last known good" cwnd so we can restore it after losses or PROBE_RTT */
@@ -334,7 +533,9 @@ __bpf_kfunc static void bbr_cwnd_event(struct sock *sk, enum tcp_ca_event event)
struct tcp_sock *tp = tcp_sk(sk);
struct bbr *bbr = inet_csk_ca(sk);
- if (event == CA_EVENT_TX_START && tp->app_limited) {
+ if (event == CA_EVENT_TX_START) {
+ if (!tp->app_limited)
+ return;
bbr->idle_restart = 1;
bbr->ack_epoch_mstamp = tp->tcp_mstamp;
bbr->ack_epoch_acked = 0;
@@ -345,6 +546,16 @@ __bpf_kfunc static void bbr_cwnd_event(struct sock *sk, enum tcp_ca_event event)
bbr_set_pacing_rate(sk, bbr_bw(sk), BBR_UNIT);
else if (bbr->mode == BBR_PROBE_RTT)
bbr_check_probe_rtt_done(sk);
+ } else if ((event == CA_EVENT_ECN_IS_CE ||
+ event == CA_EVENT_ECN_NO_CE) &&
+ bbr_can_use_ecn(sk) &&
+ bbr_param(sk, precise_ece_ack)) {
+ u32 state = bbr->ce_state;
+ dctcp_ece_ack_update(sk, event, &bbr->prior_rcv_nxt, &state);
+ bbr->ce_state = state;
+ } else if (event == CA_EVENT_TLP_RECOVERY &&
+ bbr_param(sk, loss_probe_recovery)) {
+ bbr_run_loss_probe_recovery(sk);
}
}
@@ -367,10 +578,10 @@ static u32 bbr_bdp(struct sock *sk, u32 bw, int gain)
* default. This should only happen when the connection is not using TCP
* timestamps and has retransmitted all of the SYN/SYNACK/data packets
* ACKed so far. In this case, an RTO can cut cwnd to 1, in which
- * case we need to slow-start up toward something safe: TCP_INIT_CWND.
+ * case we need to slow-start up toward something safe: initial cwnd.
*/
if (unlikely(bbr->min_rtt_us == ~0U)) /* no valid RTT samples yet? */
- return TCP_INIT_CWND; /* be safe: cap at default initial cwnd*/
+ return bbr->init_cwnd; /* be safe: cap at initial cwnd */
w = (u64)bw * bbr->min_rtt_us;
@@ -387,23 +598,23 @@ static u32 bbr_bdp(struct sock *sk, u32 bw, int gain)
* - one skb in sending host Qdisc,
* - one skb in sending host TSO/GSO engine
* - one skb being received by receiver host LRO/GRO/delayed-ACK engine
- * Don't worry, at low rates (bbr_min_tso_rate) this won't bloat cwnd because
- * in such cases tso_segs_goal is 1. The minimum cwnd is 4 packets,
+ * Don't worry, at low rates this won't bloat cwnd because
+ * in such cases tso_segs_goal is small. The minimum cwnd is 4 packets,
* which allows 2 outstanding 2-packet sequences, to try to keep pipe
* full even with ACK-every-other-packet delayed ACKs.
*/
static u32 bbr_quantization_budget(struct sock *sk, u32 cwnd)
{
struct bbr *bbr = inet_csk_ca(sk);
+ u32 tso_segs_goal;
- /* Allow enough full-sized skbs in flight to utilize end systems. */
- cwnd += 3 * bbr_tso_segs_goal(sk);
-
- /* Reduce delayed ACKs by rounding up cwnd to the next even number. */
- cwnd = (cwnd + 1) & ~1U;
+ tso_segs_goal = 3 * bbr_tso_segs_goal(sk);
+ /* Allow enough full-sized skbs in flight to utilize end systems. */
+ cwnd = max_t(u32, cwnd, tso_segs_goal);
+ cwnd = max_t(u32, cwnd, bbr_param(sk, cwnd_min_target));
/* Ensure gain cycling gets inflight above BDP even for small BDPs. */
- if (bbr->mode == BBR_PROBE_BW && bbr->cycle_idx == 0)
+ if (bbr->mode == BBR_PROBE_BW && bbr->cycle_idx == BBR_BW_PROBE_UP)
cwnd += 2;
return cwnd;
@@ -458,10 +669,10 @@ static u32 bbr_ack_aggregation_cwnd(struct sock *sk)
{
u32 max_aggr_cwnd, aggr_cwnd = 0;
- if (bbr_extra_acked_gain && bbr_full_bw_reached(sk)) {
+ if (bbr_param(sk, extra_acked_gain)) {
max_aggr_cwnd = ((u64)bbr_bw(sk) * bbr_extra_acked_max_us)
/ BW_UNIT;
- aggr_cwnd = (bbr_extra_acked_gain * bbr_extra_acked(sk))
+ aggr_cwnd = (bbr_param(sk, extra_acked_gain) * bbr_extra_acked(sk))
>> BBR_SCALE;
aggr_cwnd = min(aggr_cwnd, max_aggr_cwnd);
}
@@ -469,66 +680,27 @@ static u32 bbr_ack_aggregation_cwnd(struct sock *sk)
return aggr_cwnd;
}
-/* An optimization in BBR to reduce losses: On the first round of recovery, we
- * follow the packet conservation principle: send P packets per P packets acked.
- * After that, we slow-start and send at most 2*P packets per P packets acked.
- * After recovery finishes, or upon undo, we restore the cwnd we had when
- * recovery started (capped by the target cwnd based on estimated BDP).
- *
- * TODO(ycheng/ncardwell): implement a rate-based approach.
- */
-static bool bbr_set_cwnd_to_recover_or_restore(
- struct sock *sk, const struct rate_sample *rs, u32 acked, u32 *new_cwnd)
+/* Returns the cwnd for PROBE_RTT mode. */
+static u32 bbr_probe_rtt_cwnd(struct sock *sk)
{
- struct tcp_sock *tp = tcp_sk(sk);
- struct bbr *bbr = inet_csk_ca(sk);
- u8 prev_state = bbr->prev_ca_state, state = inet_csk(sk)->icsk_ca_state;
- u32 cwnd = tcp_snd_cwnd(tp);
-
- /* An ACK for P pkts should release at most 2*P packets. We do this
- * in two steps. First, here we deduct the number of lost packets.
- * Then, in bbr_set_cwnd() we slow start up toward the target cwnd.
- */
- if (rs->losses > 0)
- cwnd = max_t(s32, cwnd - rs->losses, 1);
-
- if (state == TCP_CA_Recovery && prev_state != TCP_CA_Recovery) {
- /* Starting 1st round of Recovery, so do packet conservation. */
- bbr->packet_conservation = 1;
- bbr->next_rtt_delivered = tp->delivered; /* start round now */
- /* Cut unused cwnd from app behavior, TSQ, or TSO deferral: */
- cwnd = tcp_packets_in_flight(tp) + acked;
- } else if (prev_state >= TCP_CA_Recovery && state < TCP_CA_Recovery) {
- /* Exiting loss recovery; restore cwnd saved before recovery. */
- cwnd = max(cwnd, bbr->prior_cwnd);
- bbr->packet_conservation = 0;
- }
- bbr->prev_ca_state = state;
-
- if (bbr->packet_conservation) {
- *new_cwnd = max(cwnd, tcp_packets_in_flight(tp) + acked);
- return true; /* yes, using packet conservation */
- }
- *new_cwnd = cwnd;
- return false;
+ return max_t(u32, bbr_param(sk, cwnd_min_target),
+ bbr_bdp(sk, bbr_bw(sk), bbr_param(sk, probe_rtt_cwnd_gain)));
}
/* Slow-start up toward target cwnd (if bw estimate is growing, or packet loss
* has drawn us down below target), or snap down to target if we're above it.
*/
static void bbr_set_cwnd(struct sock *sk, const struct rate_sample *rs,
- u32 acked, u32 bw, int gain)
+ u32 acked, u32 bw, int gain, u32 cwnd,
+ struct bbr_context *ctx)
{
struct tcp_sock *tp = tcp_sk(sk);
struct bbr *bbr = inet_csk_ca(sk);
- u32 cwnd = tcp_snd_cwnd(tp), target_cwnd = 0;
+ u32 target_cwnd = 0;
if (!acked)
goto done; /* no packet fully ACKed; just apply caps */
- if (bbr_set_cwnd_to_recover_or_restore(sk, rs, acked, &cwnd))
- goto done;
-
target_cwnd = bbr_bdp(sk, bw, gain);
/* Increment the cwnd to account for excess ACKed data that seems
@@ -537,74 +709,26 @@ static void bbr_set_cwnd(struct sock *sk, const struct rate_sample *rs,
target_cwnd += bbr_ack_aggregation_cwnd(sk);
target_cwnd = bbr_quantization_budget(sk, target_cwnd);
- /* If we're below target cwnd, slow start cwnd toward target cwnd. */
- if (bbr_full_bw_reached(sk)) /* only cut cwnd if we filled the pipe */
- cwnd = min(cwnd + acked, target_cwnd);
- else if (cwnd < target_cwnd || tp->delivered < TCP_INIT_CWND)
- cwnd = cwnd + acked;
- cwnd = max(cwnd, bbr_cwnd_min_target);
+ /* Update cwnd and enable fast path if cwnd reaches target_cwnd. */
+ bbr->try_fast_path = 0;
+ if (bbr_full_bw_reached(sk)) { /* only cut cwnd if we filled the pipe */
+ cwnd += acked;
+ if (cwnd >= target_cwnd) {
+ cwnd = target_cwnd;
+ bbr->try_fast_path = 1;
+ }
+ } else if (cwnd < target_cwnd || cwnd < 2 * bbr->init_cwnd) {
+ cwnd += acked;
+ } else {
+ bbr->try_fast_path = 1;
+ }
+ cwnd = max_t(u32, cwnd, bbr_param(sk, cwnd_min_target));
done:
- tcp_snd_cwnd_set(tp, min(cwnd, tp->snd_cwnd_clamp)); /* apply global cap */
+ tcp_snd_cwnd_set(tp, min(cwnd, tp->snd_cwnd_clamp)); /* global cap */
if (bbr->mode == BBR_PROBE_RTT) /* drain queue, refresh min_rtt */
- tcp_snd_cwnd_set(tp, min(tcp_snd_cwnd(tp), bbr_cwnd_min_target));
-}
-
-/* End cycle phase if it's time and/or we hit the phase's in-flight target. */
-static bool bbr_is_next_cycle_phase(struct sock *sk,
- const struct rate_sample *rs)
-{
- struct tcp_sock *tp = tcp_sk(sk);
- struct bbr *bbr = inet_csk_ca(sk);
- bool is_full_length =
- tcp_stamp_us_delta(tp->delivered_mstamp, bbr->cycle_mstamp) >
- bbr->min_rtt_us;
- u32 inflight, bw;
-
- /* The pacing_gain of 1.0 paces at the estimated bw to try to fully
- * use the pipe without increasing the queue.
- */
- if (bbr->pacing_gain == BBR_UNIT)
- return is_full_length; /* just use wall clock time */
-
- inflight = bbr_packets_in_net_at_edt(sk, rs->prior_in_flight);
- bw = bbr_max_bw(sk);
-
- /* A pacing_gain > 1.0 probes for bw by trying to raise inflight to at
- * least pacing_gain*BDP; this may take more than min_rtt if min_rtt is
- * small (e.g. on a LAN). We do not persist if packets are lost, since
- * a path with small buffers may not hold that much.
- */
- if (bbr->pacing_gain > BBR_UNIT)
- return is_full_length &&
- (rs->losses || /* perhaps pacing_gain*BDP won't fit */
- inflight >= bbr_inflight(sk, bw, bbr->pacing_gain));
-
- /* A pacing_gain < 1.0 tries to drain extra queue we added if bw
- * probing didn't find more bw. If inflight falls to match BDP then we
- * estimate queue is drained; persisting would underutilize the pipe.
- */
- return is_full_length ||
- inflight <= bbr_inflight(sk, bw, BBR_UNIT);
-}
-
-static void bbr_advance_cycle_phase(struct sock *sk)
-{
- struct tcp_sock *tp = tcp_sk(sk);
- struct bbr *bbr = inet_csk_ca(sk);
-
- bbr->cycle_idx = (bbr->cycle_idx + 1) & (CYCLE_LEN - 1);
- bbr->cycle_mstamp = tp->delivered_mstamp;
-}
-
-/* Gain cycling: cycle pacing gain to converge to fair share of available bw. */
-static void bbr_update_cycle_phase(struct sock *sk,
- const struct rate_sample *rs)
-{
- struct bbr *bbr = inet_csk_ca(sk);
-
- if (bbr->mode == BBR_PROBE_BW && bbr_is_next_cycle_phase(sk, rs))
- bbr_advance_cycle_phase(sk);
+ tcp_snd_cwnd_set(tp, min_t(u32, tcp_snd_cwnd(tp),
+ bbr_probe_rtt_cwnd(sk)));
}
static void bbr_reset_startup_mode(struct sock *sk)
@@ -614,191 +738,49 @@ static void bbr_reset_startup_mode(struct sock *sk)
bbr->mode = BBR_STARTUP;
}
-static void bbr_reset_probe_bw_mode(struct sock *sk)
-{
- struct bbr *bbr = inet_csk_ca(sk);
-
- bbr->mode = BBR_PROBE_BW;
- bbr->cycle_idx = CYCLE_LEN - 1 - get_random_u32_below(bbr_cycle_rand);
- bbr_advance_cycle_phase(sk); /* flip to next phase of gain cycle */
-}
-
-static void bbr_reset_mode(struct sock *sk)
-{
- if (!bbr_full_bw_reached(sk))
- bbr_reset_startup_mode(sk);
- else
- bbr_reset_probe_bw_mode(sk);
-}
-
-/* Start a new long-term sampling interval. */
-static void bbr_reset_lt_bw_sampling_interval(struct sock *sk)
-{
- struct tcp_sock *tp = tcp_sk(sk);
- struct bbr *bbr = inet_csk_ca(sk);
-
- bbr->lt_last_stamp = div_u64(tp->delivered_mstamp, USEC_PER_MSEC);
- bbr->lt_last_delivered = tp->delivered;
- bbr->lt_last_lost = tp->lost;
- bbr->lt_rtt_cnt = 0;
-}
-
-/* Completely reset long-term bandwidth sampling. */
-static void bbr_reset_lt_bw_sampling(struct sock *sk)
-{
- struct bbr *bbr = inet_csk_ca(sk);
-
- bbr->lt_bw = 0;
- bbr->lt_use_bw = 0;
- bbr->lt_is_sampling = false;
- bbr_reset_lt_bw_sampling_interval(sk);
-}
-
-/* Long-term bw sampling interval is done. Estimate whether we're policed. */
-static void bbr_lt_bw_interval_done(struct sock *sk, u32 bw)
-{
- struct bbr *bbr = inet_csk_ca(sk);
- u32 diff;
-
- if (bbr->lt_bw) { /* do we have bw from a previous interval? */
- /* Is new bw close to the lt_bw from the previous interval? */
- diff = abs(bw - bbr->lt_bw);
- if ((diff * BBR_UNIT <= bbr_lt_bw_ratio * bbr->lt_bw) ||
- (bbr_rate_bytes_per_sec(sk, diff, BBR_UNIT) <=
- bbr_lt_bw_diff)) {
- /* All criteria are met; estimate we're policed. */
- bbr->lt_bw = (bw + bbr->lt_bw) >> 1; /* avg 2 intvls */
- bbr->lt_use_bw = 1;
- bbr->pacing_gain = BBR_UNIT; /* try to avoid drops */
- bbr->lt_rtt_cnt = 0;
- return;
- }
- }
- bbr->lt_bw = bw;
- bbr_reset_lt_bw_sampling_interval(sk);
-}
-
-/* Token-bucket traffic policers are common (see "An Internet-Wide Analysis of
- * Traffic Policing", SIGCOMM 2016). BBR detects token-bucket policers and
- * explicitly models their policed rate, to reduce unnecessary losses. We
- * estimate that we're policed if we see 2 consecutive sampling intervals with
- * consistent throughput and high packet loss. If we think we're being policed,
- * set lt_bw to the "long-term" average delivery rate from those 2 intervals.
+/* See if we have reached next round trip. Upon start of the new round,
+ * returns packets delivered since previous round start plus this ACK.
*/
-static void bbr_lt_bw_sampling(struct sock *sk, const struct rate_sample *rs)
-{
- struct tcp_sock *tp = tcp_sk(sk);
- struct bbr *bbr = inet_csk_ca(sk);
- u32 lost, delivered;
- u64 bw;
- u32 t;
-
- if (bbr->lt_use_bw) { /* already using long-term rate, lt_bw? */
- if (bbr->mode == BBR_PROBE_BW && bbr->round_start &&
- ++bbr->lt_rtt_cnt >= bbr_lt_bw_max_rtts) {
- bbr_reset_lt_bw_sampling(sk); /* stop using lt_bw */
- bbr_reset_probe_bw_mode(sk); /* restart gain cycling */
- }
- return;
- }
-
- /* Wait for the first loss before sampling, to let the policer exhaust
- * its tokens and estimate the steady-state rate allowed by the policer.
- * Starting samples earlier includes bursts that over-estimate the bw.
- */
- if (!bbr->lt_is_sampling) {
- if (!rs->losses)
- return;
- bbr_reset_lt_bw_sampling_interval(sk);
- bbr->lt_is_sampling = true;
- }
-
- /* To avoid underestimates, reset sampling if we run out of data. */
- if (rs->is_app_limited) {
- bbr_reset_lt_bw_sampling(sk);
- return;
- }
-
- if (bbr->round_start)
- bbr->lt_rtt_cnt++; /* count round trips in this interval */
- if (bbr->lt_rtt_cnt < bbr_lt_intvl_min_rtts)
- return; /* sampling interval needs to be longer */
- if (bbr->lt_rtt_cnt > 4 * bbr_lt_intvl_min_rtts) {
- bbr_reset_lt_bw_sampling(sk); /* interval is too long */
- return;
- }
-
- /* End sampling interval when a packet is lost, so we estimate the
- * policer tokens were exhausted. Stopping the sampling before the
- * tokens are exhausted under-estimates the policed rate.
- */
- if (!rs->losses)
- return;
-
- /* Calculate packets lost and delivered in sampling interval. */
- lost = tp->lost - bbr->lt_last_lost;
- delivered = tp->delivered - bbr->lt_last_delivered;
- /* Is loss rate (lost/delivered) >= lt_loss_thresh? If not, wait. */
- if (!delivered || (lost << BBR_SCALE) < bbr_lt_loss_thresh * delivered)
- return;
-
- /* Find average delivery rate in this sampling interval. */
- t = div_u64(tp->delivered_mstamp, USEC_PER_MSEC) - bbr->lt_last_stamp;
- if ((s32)t < 1)
- return; /* interval is less than one ms, so wait */
- /* Check if can multiply without overflow */
- if (t >= ~0U / USEC_PER_MSEC) {
- bbr_reset_lt_bw_sampling(sk); /* interval too long; reset */
- return;
- }
- t *= USEC_PER_MSEC;
- bw = (u64)delivered * BW_UNIT;
- do_div(bw, t);
- bbr_lt_bw_interval_done(sk, bw);
-}
-
-/* Estimate the bandwidth based on how fast packets are delivered */
-static void bbr_update_bw(struct sock *sk, const struct rate_sample *rs)
+static u32 bbr_update_round_start(struct sock *sk,
+ const struct rate_sample *rs, struct bbr_context *ctx)
{
struct tcp_sock *tp = tcp_sk(sk);
struct bbr *bbr = inet_csk_ca(sk);
- u64 bw;
+ u32 round_delivered = 0;
bbr->round_start = 0;
- if (rs->delivered < 0 || rs->interval_us <= 0)
- return; /* Not a valid observation */
/* See if we've reached the next RTT */
- if (!before(rs->prior_delivered, bbr->next_rtt_delivered)) {
+ if (rs->interval_us > 0 &&
+ !before(rs->prior_delivered, bbr->next_rtt_delivered)) {
+ round_delivered = tp->delivered - bbr->next_rtt_delivered;
bbr->next_rtt_delivered = tp->delivered;
- bbr->rtt_cnt++;
bbr->round_start = 1;
- bbr->packet_conservation = 0;
}
+ return round_delivered;
+}
- bbr_lt_bw_sampling(sk, rs);
+/* Calculate the bandwidth based on how fast packets are delivered */
+static void bbr_calculate_bw_sample(struct sock *sk,
+ const struct rate_sample *rs, struct bbr_context *ctx)
+{
+ u64 bw = 0;
/* Divide delivered by the interval to find a (lower bound) bottleneck
* bandwidth sample. Delivered is in packets and interval_us in uS and
* ratio will be <<1 for most connections. So delivered is first scaled.
+ * Round up to allow growth at low rates, even with integer division.
*/
- bw = div64_long((u64)rs->delivered * BW_UNIT, rs->interval_us);
-
- /* If this sample is application-limited, it is likely to have a very
- * low delivered count that represents application behavior rather than
- * the available network rate. Such a sample could drag down estimated
- * bw, causing needless slow-down. Thus, to continue to send at the
- * last measured network rate, we filter out app-limited samples unless
- * they describe the path bw at least as well as our bw model.
- *
- * So the goal during app-limited phase is to proceed with the best
- * network rate no matter how long. We automatically leave this
- * phase when app writes faster than the network can deliver :)
- */
- if (!rs->is_app_limited || bw >= bbr_max_bw(sk)) {
- /* Incorporate new sample into our max bw filter. */
- minmax_running_max(&bbr->bw, bbr_bw_rtts, bbr->rtt_cnt, bw);
+ if (rs->interval_us > 0) {
+ if (WARN_ONCE(rs->delivered < 0,
+ "negative delivered: %d interval_us: %ld\n",
+ rs->delivered, rs->interval_us))
+ return;
+
+ bw = DIV_ROUND_UP_ULL((u64)rs->delivered * BW_UNIT, rs->interval_us);
}
+
+ ctx->sample_bw = bw;
}
/* Estimates the windowed max degree of ack aggregation.
@@ -812,7 +794,7 @@ static void bbr_update_bw(struct sock *sk, const struct rate_sample *rs)
*
* Max extra_acked is clamped by cwnd and bw * bbr_extra_acked_max_us (100 ms).
* Max filter is an approximate sliding window of 5-10 (packet timed) round
- * trips.
+ * trips for non-startup phase, and 1-2 round trips for startup.
*/
static void bbr_update_ack_aggregation(struct sock *sk,
const struct rate_sample *rs)
@@ -820,15 +802,19 @@ static void bbr_update_ack_aggregation(struct sock *sk,
u32 epoch_us, expected_acked, extra_acked;
struct bbr *bbr = inet_csk_ca(sk);
struct tcp_sock *tp = tcp_sk(sk);
+ u32 extra_acked_win_rtts_thresh = bbr_param(sk, extra_acked_win_rtts);
- if (!bbr_extra_acked_gain || rs->acked_sacked <= 0 ||
+ if (!bbr_param(sk, extra_acked_gain) || rs->acked_sacked <= 0 ||
rs->delivered < 0 || rs->interval_us <= 0)
return;
if (bbr->round_start) {
bbr->extra_acked_win_rtts = min(0x1F,
bbr->extra_acked_win_rtts + 1);
- if (bbr->extra_acked_win_rtts >= bbr_extra_acked_win_rtts) {
+ if (!bbr_full_bw_reached(sk))
+ extra_acked_win_rtts_thresh = 1;
+ if (bbr->extra_acked_win_rtts >=
+ extra_acked_win_rtts_thresh) {
bbr->extra_acked_win_rtts = 0;
bbr->extra_acked_win_idx = bbr->extra_acked_win_idx ?
0 : 1;
@@ -862,49 +848,6 @@ static void bbr_update_ack_aggregation(struct sock *sk,
bbr->extra_acked[bbr->extra_acked_win_idx] = extra_acked;
}
-/* Estimate when the pipe is full, using the change in delivery rate: BBR
- * estimates that STARTUP filled the pipe if the estimated bw hasn't changed by
- * at least bbr_full_bw_thresh (25%) after bbr_full_bw_cnt (3) non-app-limited
- * rounds. Why 3 rounds: 1: rwin autotuning grows the rwin, 2: we fill the
- * higher rwin, 3: we get higher delivery rate samples. Or transient
- * cross-traffic or radio noise can go away. CUBIC Hystart shares a similar
- * design goal, but uses delay and inter-ACK spacing instead of bandwidth.
- */
-static void bbr_check_full_bw_reached(struct sock *sk,
- const struct rate_sample *rs)
-{
- struct bbr *bbr = inet_csk_ca(sk);
- u32 bw_thresh;
-
- if (bbr_full_bw_reached(sk) || !bbr->round_start || rs->is_app_limited)
- return;
-
- bw_thresh = (u64)bbr->full_bw * bbr_full_bw_thresh >> BBR_SCALE;
- if (bbr_max_bw(sk) >= bw_thresh) {
- bbr->full_bw = bbr_max_bw(sk);
- bbr->full_bw_cnt = 0;
- return;
- }
- ++bbr->full_bw_cnt;
- bbr->full_bw_reached = bbr->full_bw_cnt >= bbr_full_bw_cnt;
-}
-
-/* If pipe is probably full, drain the queue and then enter steady-state. */
-static void bbr_check_drain(struct sock *sk, const struct rate_sample *rs)
-{
- struct bbr *bbr = inet_csk_ca(sk);
-
- if (bbr->mode == BBR_STARTUP && bbr_full_bw_reached(sk)) {
- bbr->mode = BBR_DRAIN; /* drain queue we created */
- tcp_sk(sk)->snd_ssthresh =
- bbr_inflight(sk, bbr_max_bw(sk), BBR_UNIT);
- } /* fall through to check if in-flight is already small: */
- if (bbr->mode == BBR_DRAIN &&
- bbr_packets_in_net_at_edt(sk, tcp_packets_in_flight(tcp_sk(sk))) <=
- bbr_inflight(sk, bbr_max_bw(sk), BBR_UNIT))
- bbr_reset_probe_bw_mode(sk); /* we estimate queue is drained */
-}
-
static void bbr_check_probe_rtt_done(struct sock *sk)
{
struct tcp_sock *tp = tcp_sk(sk);
@@ -914,9 +857,9 @@ static void bbr_check_probe_rtt_done(struct sock *sk)
after(tcp_jiffies32, bbr->probe_rtt_done_stamp)))
return;
- bbr->min_rtt_stamp = tcp_jiffies32; /* wait a while until PROBE_RTT */
+ bbr->probe_rtt_min_stamp = tcp_jiffies32; /* schedule next PROBE_RTT */
tcp_snd_cwnd_set(tp, max(tcp_snd_cwnd(tp), bbr->prior_cwnd));
- bbr_reset_mode(sk);
+ bbr_exit_probe_rtt(sk);
}
/* The goal of PROBE_RTT mode is to have BBR flows cooperatively and
@@ -942,23 +885,35 @@ static void bbr_update_min_rtt(struct sock *sk, const struct rate_sample *rs)
{
struct tcp_sock *tp = tcp_sk(sk);
struct bbr *bbr = inet_csk_ca(sk);
- bool filter_expired;
+ bool probe_rtt_expired, min_rtt_expired;
+ u32 expire;
- /* Track min RTT seen in the min_rtt_win_sec filter window: */
- filter_expired = after(tcp_jiffies32,
- bbr->min_rtt_stamp + bbr_min_rtt_win_sec * HZ);
+ /* Track min RTT in probe_rtt_win_ms to time next PROBE_RTT state. */
+ expire = bbr->probe_rtt_min_stamp +
+ msecs_to_jiffies(bbr_param(sk, probe_rtt_win_ms));
+ probe_rtt_expired = after(tcp_jiffies32, expire);
if (rs->rtt_us >= 0 &&
- (rs->rtt_us < bbr->min_rtt_us ||
- (filter_expired && !rs->is_ack_delayed))) {
- bbr->min_rtt_us = rs->rtt_us;
- bbr->min_rtt_stamp = tcp_jiffies32;
+ (rs->rtt_us < bbr->probe_rtt_min_us ||
+ (probe_rtt_expired && !rs->is_ack_delayed))) {
+ bbr->probe_rtt_min_us = rs->rtt_us;
+ bbr->probe_rtt_min_stamp = tcp_jiffies32;
+ }
+ /* Track min RTT seen in the min_rtt_win_sec filter window: */
+ expire = bbr->min_rtt_stamp + bbr_param(sk, min_rtt_win_sec) * HZ;
+ min_rtt_expired = after(tcp_jiffies32, expire);
+ if (bbr->probe_rtt_min_us <= bbr->min_rtt_us ||
+ min_rtt_expired) {
+ bbr->min_rtt_us = bbr->probe_rtt_min_us;
+ bbr->min_rtt_stamp = bbr->probe_rtt_min_stamp;
}
- if (bbr_probe_rtt_mode_ms > 0 && filter_expired &&
+ if (bbr_param(sk, probe_rtt_mode_ms) > 0 && probe_rtt_expired &&
!bbr->idle_restart && bbr->mode != BBR_PROBE_RTT) {
bbr->mode = BBR_PROBE_RTT; /* dip, drain queue */
bbr_save_cwnd(sk); /* note cwnd so we can restore it */
bbr->probe_rtt_done_stamp = 0;
+ bbr->ack_phase = BBR_ACKS_PROBE_STOPPING;
+ bbr->next_rtt_delivered = tp->delivered;
}
if (bbr->mode == BBR_PROBE_RTT) {
@@ -967,9 +922,9 @@ static void bbr_update_min_rtt(struct sock *sk, const struct rate_sample *rs)
(tp->delivered + tcp_packets_in_flight(tp)) ? : 1;
/* Maintain min packets in flight for max(200 ms, 1 round). */
if (!bbr->probe_rtt_done_stamp &&
- tcp_packets_in_flight(tp) <= bbr_cwnd_min_target) {
+ tcp_packets_in_flight(tp) <= bbr_probe_rtt_cwnd(sk)) {
bbr->probe_rtt_done_stamp = tcp_jiffies32 +
- msecs_to_jiffies(bbr_probe_rtt_mode_ms);
+ msecs_to_jiffies(bbr_param(sk, probe_rtt_mode_ms));
bbr->probe_rtt_round_done = 0;
bbr->next_rtt_delivered = tp->delivered;
} else if (bbr->probe_rtt_done_stamp) {
@@ -990,18 +945,20 @@ static void bbr_update_gains(struct sock *sk)
switch (bbr->mode) {
case BBR_STARTUP:
- bbr->pacing_gain = bbr_high_gain;
- bbr->cwnd_gain = bbr_high_gain;
+ bbr->pacing_gain = bbr_param(sk, startup_pacing_gain);
+ bbr->cwnd_gain = bbr_param(sk, startup_cwnd_gain);
break;
case BBR_DRAIN:
- bbr->pacing_gain = bbr_drain_gain; /* slow, to drain */
- bbr->cwnd_gain = bbr_high_gain; /* keep cwnd */
+ bbr->pacing_gain = bbr_param(sk, drain_gain); /* slow, to drain */
+ bbr->cwnd_gain = bbr_param(sk, startup_cwnd_gain); /* keep cwnd */
break;
case BBR_PROBE_BW:
- bbr->pacing_gain = (bbr->lt_use_bw ?
- BBR_UNIT :
- bbr_pacing_gain[bbr->cycle_idx]);
- bbr->cwnd_gain = bbr_cwnd_gain;
+ bbr->pacing_gain = bbr_pacing_gain[bbr->cycle_idx];
+ bbr->cwnd_gain = bbr_param(sk, cwnd_gain);
+ if (bbr_param(sk, bw_probe_cwnd_gain) &&
+ bbr->cycle_idx == BBR_BW_PROBE_UP)
+ bbr->cwnd_gain +=
+ BBR_UNIT * bbr_param(sk, bw_probe_cwnd_gain) / 4;
break;
case BBR_PROBE_RTT:
bbr->pacing_gain = BBR_UNIT;
@@ -1013,144 +970,1387 @@ static void bbr_update_gains(struct sock *sk)
}
}
-static void bbr_update_model(struct sock *sk, const struct rate_sample *rs)
+__bpf_kfunc static u32 bbr_sndbuf_expand(struct sock *sk)
{
- bbr_update_bw(sk, rs);
- bbr_update_ack_aggregation(sk, rs);
- bbr_update_cycle_phase(sk, rs);
- bbr_check_full_bw_reached(sk, rs);
- bbr_check_drain(sk, rs);
- bbr_update_min_rtt(sk, rs);
- bbr_update_gains(sk);
+ /* Provision 3 * cwnd since BBR may slow-start even during recovery. */
+ return 3;
}
-__bpf_kfunc static void bbr_main(struct sock *sk, u32 ack, int flag, const struct rate_sample *rs)
+/* Incorporate a new bw sample into the current window of our max filter. */
+static void bbr_take_max_bw_sample(struct sock *sk, u32 bw)
{
struct bbr *bbr = inet_csk_ca(sk);
- u32 bw;
-
- bbr_update_model(sk, rs);
- bw = bbr_bw(sk);
- bbr_set_pacing_rate(sk, bw, bbr->pacing_gain);
- bbr_set_cwnd(sk, rs, rs->acked_sacked, bw, bbr->cwnd_gain);
+ bbr->bw_hi[1] = max(bw, bbr->bw_hi[1]);
}
-__bpf_kfunc static void bbr_init(struct sock *sk)
+/* Keep max of last 1-2 cycles. Each PROBE_BW cycle, flip filter window. */
+static void bbr_advance_max_bw_filter(struct sock *sk)
{
- struct tcp_sock *tp = tcp_sk(sk);
struct bbr *bbr = inet_csk_ca(sk);
- bbr->prior_cwnd = 0;
- tp->snd_ssthresh = TCP_INFINITE_SSTHRESH;
- bbr->rtt_cnt = 0;
- bbr->next_rtt_delivered = tp->delivered;
- bbr->prev_ca_state = TCP_CA_Open;
- bbr->packet_conservation = 0;
-
- bbr->probe_rtt_done_stamp = 0;
- bbr->probe_rtt_round_done = 0;
- bbr->min_rtt_us = tcp_min_rtt(tp);
- bbr->min_rtt_stamp = tcp_jiffies32;
-
- minmax_reset(&bbr->bw, bbr->rtt_cnt, 0); /* init max bw to 0 */
+ if (!bbr->bw_hi[1])
+ return; /* no samples in this window; remember old window */
+ bbr->bw_hi[0] = bbr->bw_hi[1];
+ bbr->bw_hi[1] = 0;
+}
- bbr->has_seen_rtt = 0;
- bbr_init_pacing_rate_from_rtt(sk);
+/* Reset the estimator for reaching full bandwidth based on bw plateau. */
+static void bbr_reset_full_bw(struct sock *sk)
+{
+ struct bbr *bbr = inet_csk_ca(sk);
- bbr->round_start = 0;
- bbr->idle_restart = 0;
- bbr->full_bw_reached = 0;
bbr->full_bw = 0;
bbr->full_bw_cnt = 0;
- bbr->cycle_mstamp = 0;
- bbr->cycle_idx = 0;
- bbr_reset_lt_bw_sampling(sk);
- bbr_reset_startup_mode(sk);
+ bbr->full_bw_now = 0;
+}
- bbr->ack_epoch_mstamp = tp->tcp_mstamp;
- bbr->ack_epoch_acked = 0;
- bbr->extra_acked_win_rtts = 0;
- bbr->extra_acked_win_idx = 0;
- bbr->extra_acked[0] = 0;
- bbr->extra_acked[1] = 0;
+/* How much do we want in flight? Our BDP, unless congestion cut cwnd. */
+static u32 bbr_target_inflight(struct sock *sk)
+{
+ u32 bdp = bbr_inflight(sk, bbr_bw(sk), BBR_UNIT);
- cmpxchg(&sk->sk_pacing_status, SK_PACING_NONE, SK_PACING_NEEDED);
+ return min(bdp, tcp_sk(sk)->snd_cwnd);
}
-__bpf_kfunc static u32 bbr_sndbuf_expand(struct sock *sk)
+static bool bbr_is_probing_bandwidth(struct sock *sk)
{
- /* Provision 3 * cwnd since BBR may slow-start even during recovery. */
- return 3;
+ struct bbr *bbr = inet_csk_ca(sk);
+
+ return (bbr->mode == BBR_STARTUP) ||
+ (bbr->mode == BBR_PROBE_BW &&
+ (bbr->cycle_idx == BBR_BW_PROBE_REFILL ||
+ bbr->cycle_idx == BBR_BW_PROBE_UP));
+}
+
+/* Has the given amount of time elapsed since we marked the phase start? */
+static bool bbr_has_elapsed_in_phase(const struct sock *sk, u32 interval_us)
+{
+ const struct tcp_sock *tp = tcp_sk(sk);
+ const struct bbr *bbr = inet_csk_ca(sk);
+
+ return tcp_stamp_us_delta(tp->tcp_mstamp,
+ bbr->cycle_mstamp + interval_us) > 0;
+}
+
+static void bbr_handle_queue_too_high_in_startup(struct sock *sk)
+{
+ struct bbr *bbr = inet_csk_ca(sk);
+ u32 bdp; /* estimated BDP in packets, with quantization budget */
+
+ bbr->full_bw_reached = 1;
+
+ bdp = bbr_inflight(sk, bbr_max_bw(sk), BBR_UNIT);
+ bbr->inflight_hi = max(bdp, bbr->inflight_latest);
+}
+
+/* Exit STARTUP upon N consecutive rounds with ECN mark rate > ecn_thresh. */
+static void bbr_check_ecn_too_high_in_startup(struct sock *sk, u32 ce_ratio)
+{
+ struct bbr *bbr = inet_csk_ca(sk);
+
+ if (bbr_full_bw_reached(sk) || !bbr->ecn_eligible ||
+ !bbr_param(sk, full_ecn_cnt) || !bbr_param(sk, ecn_thresh))
+ return;
+
+ if (ce_ratio >= bbr_param(sk, ecn_thresh))
+ bbr->startup_ecn_rounds++;
+ else
+ bbr->startup_ecn_rounds = 0;
+
+ if (bbr->startup_ecn_rounds >= bbr_param(sk, full_ecn_cnt)) {
+ bbr_handle_queue_too_high_in_startup(sk);
+ return;
+ }
+}
+
+/* Updates ecn_alpha and returns ce_ratio. -1 if not available. */
+static int bbr_update_ecn_alpha(struct sock *sk)
+{
+ struct tcp_sock *tp = tcp_sk(sk);
+ struct net *net = sock_net(sk);
+ struct bbr *bbr = inet_csk_ca(sk);
+ s32 delivered, delivered_ce;
+ u64 alpha, ce_ratio;
+ u32 gain;
+ bool want_ecn_alpha;
+
+ /* See if we should use ECN sender logic for this connection. */
+ if (!bbr->ecn_eligible && bbr_can_use_ecn(sk) &&
+ bbr_param(sk, ecn_factor) &&
+ (bbr->min_rtt_us <= bbr_ecn_max_rtt_us ||
+ !bbr_ecn_max_rtt_us))
+ bbr->ecn_eligible = 1;
+
+ /* Skip updating alpha only if not ECN-eligible and PLB is disabled. */
+ want_ecn_alpha = (bbr->ecn_eligible ||
+ (bbr_can_use_ecn(sk) &&
+ READ_ONCE(net->ipv4.sysctl_tcp_plb_enabled)));
+ if (!want_ecn_alpha)
+ return -1;
+
+ delivered = tp->delivered - bbr->alpha_last_delivered;
+ delivered_ce = tp->delivered_ce - bbr->alpha_last_delivered_ce;
+
+ if (delivered == 0 || /* avoid divide by zero */
+ WARN_ON_ONCE(delivered < 0 || delivered_ce < 0)) /* backwards? */
+ return -1;
+
+ BUILD_BUG_ON(BBR_SCALE != TCP_PLB_SCALE);
+ ce_ratio = (u64)delivered_ce << BBR_SCALE;
+ do_div(ce_ratio, delivered);
+
+ gain = bbr_param(sk, ecn_alpha_gain);
+ alpha = ((BBR_UNIT - gain) * bbr->ecn_alpha) >> BBR_SCALE;
+ alpha += (gain * ce_ratio) >> BBR_SCALE;
+ bbr->ecn_alpha = min_t(u32, alpha, BBR_UNIT);
+
+ bbr->alpha_last_delivered = tp->delivered;
+ bbr->alpha_last_delivered_ce = tp->delivered_ce;
+
+ bbr_check_ecn_too_high_in_startup(sk, ce_ratio);
+ return (int)ce_ratio;
}
-/* In theory BBR does not need to undo the cwnd since it does not
- * always reduce cwnd on losses (see bbr_main()). Keep it for now.
+/* Protective Load Balancing (PLB). PLB rehashes outgoing data (to a new IPv6
+ * flow label) if it encounters sustained congestion in the form of ECN marks.
*/
-__bpf_kfunc static u32 bbr_undo_cwnd(struct sock *sk)
+static void bbr_plb(struct sock *sk, const struct rate_sample *rs, int ce_ratio)
+{
+ struct bbr *bbr = inet_csk_ca(sk);
+
+ if (bbr->round_start && ce_ratio >= 0)
+ tcp_plb_update_state(sk, &bbr->plb, ce_ratio);
+
+ tcp_plb_check_rehash(sk, &bbr->plb);
+}
+
+/* Each round trip of BBR_BW_PROBE_UP, double volume of probing data. */
+static void bbr_raise_inflight_hi_slope(struct sock *sk)
+{
+ struct tcp_sock *tp = tcp_sk(sk);
+ struct bbr *bbr = inet_csk_ca(sk);
+ u32 growth_this_round, cnt;
+
+ /* Calculate "slope": packets S/Acked per inflight_hi increment. */
+ growth_this_round = 1 << bbr->bw_probe_up_rounds;
+ bbr->bw_probe_up_rounds = min(bbr->bw_probe_up_rounds + 1, 30);
+ cnt = tcp_snd_cwnd(tp) / growth_this_round;
+ cnt = max(cnt, 1U);
+ bbr->bw_probe_up_cnt = cnt;
+}
+
+/* In BBR_BW_PROBE_UP, not seeing high loss/ECN/queue, so raise inflight_hi. */
+static void bbr_probe_inflight_hi_upward(struct sock *sk,
+ const struct rate_sample *rs)
+{
+ struct tcp_sock *tp = tcp_sk(sk);
+ struct bbr *bbr = inet_csk_ca(sk);
+ u32 delta;
+
+ if (!tp->is_cwnd_limited || tcp_snd_cwnd(tp) < bbr->inflight_hi)
+ return; /* not fully using inflight_hi, so don't grow it */
+
+ /* For each bw_probe_up_cnt packets ACKed, increase inflight_hi by 1. */
+ bbr->bw_probe_up_acks += rs->acked_sacked;
+ if (bbr->bw_probe_up_acks >= bbr->bw_probe_up_cnt) {
+ delta = bbr->bw_probe_up_acks / bbr->bw_probe_up_cnt;
+ bbr->bw_probe_up_acks -= delta * bbr->bw_probe_up_cnt;
+ bbr->inflight_hi += delta;
+ bbr->try_fast_path = 0; /* Need to update cwnd */
+ }
+
+ if (bbr->round_start)
+ bbr_raise_inflight_hi_slope(sk);
+}
+
+/* Does loss/ECN rate for this sample say inflight is "too high"?
+ * This is used by both the bbr_check_loss_too_high_in_startup() function,
+ * which can be used in either v1 or v2, and the PROBE_UP phase of v2, which
+ * uses it to notice when loss/ECN rates suggest inflight is too high.
+ */
+static bool bbr_is_inflight_too_high(const struct sock *sk,
+ const struct rate_sample *rs)
+{
+ const struct bbr *bbr = inet_csk_ca(sk);
+ u32 loss_thresh, ecn_thresh;
+
+ if (rs->lost > 0 && rs->tx_in_flight) {
+ loss_thresh = (u64)rs->tx_in_flight * bbr_param(sk, loss_thresh) >>
+ BBR_SCALE;
+ if (rs->lost > loss_thresh) {
+ return true;
+ }
+ }
+
+ if (rs->delivered_ce > 0 && rs->delivered > 0 &&
+ bbr->ecn_eligible && bbr_param(sk, ecn_thresh)) {
+ ecn_thresh = (u64)rs->delivered * bbr_param(sk, ecn_thresh) >>
+ BBR_SCALE;
+ if (rs->delivered_ce > ecn_thresh) {
+ return true;
+ }
+ }
+
+ return false;
+}
+
+/* Calculate the tx_in_flight level that corresponded to excessive loss.
+ * We find "lost_prefix" segs of the skb where loss rate went too high,
+ * by solving for "lost_prefix" in the following equation:
+ * lost / inflight >= loss_thresh
+ * (lost_prev + lost_prefix) / (inflight_prev + lost_prefix) >= loss_thresh
+ * Then we take that equation, convert it to fixed point, and
+ * round up to the nearest packet.
+ */
+static u32 bbr_inflight_hi_from_lost_skb(const struct sock *sk,
+ const struct rate_sample *rs,
+ const struct sk_buff *skb)
+{
+ const struct tcp_sock *tp = tcp_sk(sk);
+ u32 loss_thresh = bbr_param(sk, loss_thresh);
+ u32 pcount, divisor, inflight_hi;
+ s32 inflight_prev, lost_prev;
+ u64 loss_budget, lost_prefix;
+
+ pcount = tcp_skb_pcount(skb);
+
+ /* How much data was in flight before this skb? */
+ inflight_prev = rs->tx_in_flight - pcount;
+ if (inflight_prev < 0) {
+ WARN_ONCE(tcp_skb_tx_in_flight_is_suspicious(
+ pcount,
+ TCP_SKB_CB(skb)->sacked,
+ rs->tx_in_flight),
+ "tx_in_flight: %u pcount: %u reneg: %u",
+ rs->tx_in_flight, pcount, tcp_sk(sk)->is_sack_reneg);
+ return ~0U;
+ }
+
+ /* How much inflight data was marked lost before this skb? */
+ lost_prev = rs->lost - pcount;
+ if (WARN_ONCE(lost_prev < 0,
+ "cwnd: %u ca: %d out: %u lost: %u pif: %u "
+ "tx_in_flight: %u tx.lost: %u tp->lost: %u rs->lost: %d "
+ "lost_prev: %d pcount: %d seq: %u end_seq: %u reneg: %u",
+ tcp_snd_cwnd(tp), inet_csk(sk)->icsk_ca_state,
+ tp->packets_out, tp->lost_out, tcp_packets_in_flight(tp),
+ rs->tx_in_flight, TCP_SKB_CB(skb)->tx.lost, tp->lost,
+ rs->lost, lost_prev, pcount,
+ TCP_SKB_CB(skb)->seq, TCP_SKB_CB(skb)->end_seq,
+ tp->is_sack_reneg))
+ return ~0U;
+
+ /* At what prefix of this lost skb did losss rate exceed loss_thresh? */
+ loss_budget = (u64)inflight_prev * loss_thresh + BBR_UNIT - 1;
+ loss_budget >>= BBR_SCALE;
+ if (lost_prev >= loss_budget) {
+ lost_prefix = 0; /* previous losses crossed loss_thresh */
+ } else {
+ lost_prefix = loss_budget - lost_prev;
+ lost_prefix <<= BBR_SCALE;
+ divisor = BBR_UNIT - loss_thresh;
+ if (WARN_ON_ONCE(!divisor)) /* loss_thresh is 8 bits */
+ return ~0U;
+ do_div(lost_prefix, divisor);
+ }
+
+ inflight_hi = inflight_prev + lost_prefix;
+ return inflight_hi;
+}
+
+/* If loss/ECN rates during probing indicated we may have overfilled a
+ * buffer, return an operating point that tries to leave unutilized headroom in
+ * the path for other flows, for fairness convergence and lower RTTs and loss.
+ */
+static u32 bbr_inflight_with_headroom(const struct sock *sk)
+{
+ struct bbr *bbr = inet_csk_ca(sk);
+ u32 headroom, headroom_fraction;
+
+ if (bbr->inflight_hi == ~0U)
+ return ~0U;
+
+ headroom_fraction = bbr_param(sk, inflight_headroom);
+ headroom = ((u64)bbr->inflight_hi * headroom_fraction) >> BBR_SCALE;
+ headroom = max(headroom, 1U);
+ return max_t(s32, bbr->inflight_hi - headroom,
+ bbr_param(sk, cwnd_min_target));
+}
+
+/* Bound cwnd to a sensible level, based on our current probing state
+ * machine phase and model of a good inflight level (inflight_lo, inflight_hi).
+ */
+static void bbr_bound_cwnd_for_inflight_model(struct sock *sk)
+{
+ struct tcp_sock *tp = tcp_sk(sk);
+ struct bbr *bbr = inet_csk_ca(sk);
+ u32 cap;
+
+ /* tcp_rcv_synsent_state_process() currently calls tcp_ack()
+ * and thus cong_control() without first initializing us(!).
+ */
+ if (!bbr->initialized)
+ return;
+
+ cap = ~0U;
+ if (bbr->mode == BBR_PROBE_BW &&
+ bbr->cycle_idx != BBR_BW_PROBE_CRUISE) {
+ /* Probe to see if more packets fit in the path. */
+ cap = bbr->inflight_hi;
+ } else {
+ if (bbr->mode == BBR_PROBE_RTT ||
+ (bbr->mode == BBR_PROBE_BW &&
+ bbr->cycle_idx == BBR_BW_PROBE_CRUISE))
+ cap = bbr_inflight_with_headroom(sk);
+ }
+ /* Adapt to any loss/ECN since our last bw probe. */
+ cap = min(cap, bbr->inflight_lo);
+
+ cap = max_t(u32, cap, bbr_param(sk, cwnd_min_target));
+ tcp_snd_cwnd_set(tp, min(cap, tcp_snd_cwnd(tp)));
+}
+
+/* How should we multiplicatively cut bw or inflight limits based on ECN? */
+static u32 bbr_ecn_cut(struct sock *sk)
+{
+ struct bbr *bbr = inet_csk_ca(sk);
+
+ return BBR_UNIT -
+ ((bbr->ecn_alpha * bbr_param(sk, ecn_factor)) >> BBR_SCALE);
+}
+
+/* Init lower bounds if have not inited yet. */
+static void bbr_init_lower_bounds(struct sock *sk, bool init_bw)
+{
+ struct tcp_sock *tp = tcp_sk(sk);
+ struct bbr *bbr = inet_csk_ca(sk);
+
+ if (init_bw && bbr->bw_lo == ~0U)
+ bbr->bw_lo = bbr_max_bw(sk);
+ if (bbr->inflight_lo == ~0U)
+ bbr->inflight_lo = tcp_snd_cwnd(tp);
+}
+
+/* Reduce bw and inflight to (1 - beta). */
+static void bbr_loss_lower_bounds(struct sock *sk, u32 *bw, u32 *inflight)
+{
+ struct bbr* bbr = inet_csk_ca(sk);
+ u32 loss_cut = BBR_UNIT - bbr_param(sk, beta);
+
+ *bw = max_t(u32, bbr->bw_latest,
+ (u64)bbr->bw_lo * loss_cut >> BBR_SCALE);
+ *inflight = max_t(u32, bbr->inflight_latest,
+ (u64)bbr->inflight_lo * loss_cut >> BBR_SCALE);
+}
+
+/* Reduce inflight to (1 - alpha*ecn_factor). */
+static void bbr_ecn_lower_bounds(struct sock *sk, u32 *inflight)
+{
+ struct bbr *bbr = inet_csk_ca(sk);
+ u32 ecn_cut = bbr_ecn_cut(sk);
+
+ *inflight = (u64)bbr->inflight_lo * ecn_cut >> BBR_SCALE;
+}
+
+/* Estimate a short-term lower bound on the capacity available now, based
+ * on measurements of the current delivery process and recent history. When we
+ * are seeing loss/ECN at times when we are not probing bw, then conservatively
+ * move toward flow balance by multiplicatively cutting our short-term
+ * estimated safe rate and volume of data (bw_lo and inflight_lo). We use a
+ * multiplicative decrease in order to converge to a lower capacity in time
+ * logarithmic in the magnitude of the decrease.
+ *
+ * However, we do not cut our short-term estimates lower than the current rate
+ * and volume of delivered data from this round trip, since from the current
+ * delivery process we can estimate the measured capacity available now.
+ *
+ * Anything faster than that approach would knowingly risk high loss, which can
+ * cause low bw for Reno/CUBIC and high loss recovery latency for
+ * request/response flows using any congestion control.
+ */
+static void bbr_adapt_lower_bounds(struct sock *sk,
+ const struct rate_sample *rs)
+{
+ struct bbr *bbr = inet_csk_ca(sk);
+ u32 ecn_inflight_lo = ~0U;
+
+ /* We only use lower-bound estimates when not probing bw.
+ * When probing we need to push inflight higher to probe bw.
+ */
+ if (bbr_is_probing_bandwidth(sk))
+ return;
+
+ /* ECN response. */
+ if (bbr->ecn_in_round && bbr_param(sk, ecn_factor)) {
+ bbr_init_lower_bounds(sk, false);
+ bbr_ecn_lower_bounds(sk, &ecn_inflight_lo);
+ }
+
+ /* Loss response. */
+ if (bbr->loss_in_round) {
+ bbr_init_lower_bounds(sk, true);
+ bbr_loss_lower_bounds(sk, &bbr->bw_lo, &bbr->inflight_lo);
+ }
+
+ /* Adjust to the lower of the levels implied by loss/ECN. */
+ bbr->inflight_lo = min(bbr->inflight_lo, ecn_inflight_lo);
+ bbr->bw_lo = max(1U, bbr->bw_lo);
+}
+
+/* Reset any short-term lower-bound adaptation to congestion, so that we can
+ * push our inflight up.
+ */
+static void bbr_reset_lower_bounds(struct sock *sk)
+{
+ struct bbr *bbr = inet_csk_ca(sk);
+
+ bbr->bw_lo = ~0U;
+ bbr->inflight_lo = ~0U;
+}
+
+/* After bw probing (STARTUP/PROBE_UP), reset signals before entering a state
+ * machine phase where we adapt our lower bound based on congestion signals.
+ */
+static void bbr_reset_congestion_signals(struct sock *sk)
+{
+ struct bbr *bbr = inet_csk_ca(sk);
+
+ bbr->loss_in_round = 0;
+ bbr->ecn_in_round = 0;
+ bbr->loss_in_cycle = 0;
+ bbr->ecn_in_cycle = 0;
+ bbr->bw_latest = 0;
+ bbr->inflight_latest = 0;
+}
+
+static void bbr_exit_loss_recovery(struct sock *sk)
+{
+ struct tcp_sock *tp = tcp_sk(sk);
+ struct bbr *bbr = inet_csk_ca(sk);
+
+ tcp_snd_cwnd_set(tp, max(tcp_snd_cwnd(tp), bbr->prior_cwnd));
+ bbr->try_fast_path = 0; /* bound cwnd using latest model */
+}
+
+/* Update rate and volume of delivered data from latest round trip. */
+static void bbr_update_latest_delivery_signals(
+ struct sock *sk, const struct rate_sample *rs, struct bbr_context *ctx)
+{
+ struct tcp_sock *tp = tcp_sk(sk);
+ struct bbr *bbr = inet_csk_ca(sk);
+
+ bbr->loss_round_start = 0;
+ if (rs->interval_us <= 0 || !rs->acked_sacked)
+ return; /* Not a valid observation */
+
+ bbr->bw_latest = max_t(u32, bbr->bw_latest, ctx->sample_bw);
+ bbr->inflight_latest = max_t(u32, bbr->inflight_latest, rs->delivered);
+
+ if (!before(rs->prior_delivered, bbr->loss_round_delivered)) {
+ bbr->loss_round_delivered = tp->delivered;
+ bbr->loss_round_start = 1; /* mark start of new round trip */
+ }
+}
+
+/* Once per round, reset filter for latest rate and volume of delivered data. */
+static void bbr_advance_latest_delivery_signals(
+ struct sock *sk, const struct rate_sample *rs, struct bbr_context *ctx)
+{
+ struct bbr *bbr = inet_csk_ca(sk);
+
+ /* If ACK matches a TLP retransmit, persist the filter. If we detect
+ * that a TLP retransmit plugged a tail loss, we'll want to remember
+ * how much data the path delivered before the tail loss.
+ */
+ if (bbr->loss_round_start && !rs->is_acking_tlp_retrans_seq) {
+ bbr->bw_latest = ctx->sample_bw;
+ bbr->inflight_latest = rs->delivered;
+ }
+}
+
+/* Update (most of) our congestion signals: track the recent rate and volume of
+ * delivered data, presence of loss, and EWMA degree of ECN marking.
+ */
+static void bbr_update_congestion_signals(
+ struct sock *sk, const struct rate_sample *rs, struct bbr_context *ctx)
{
struct bbr *bbr = inet_csk_ca(sk);
+ u64 bw;
+
+ if (rs->interval_us <= 0 || !rs->acked_sacked)
+ return; /* Not a valid observation */
+ bw = ctx->sample_bw;
- bbr->full_bw = 0; /* spurious slow-down; reset full pipe detection */
+ if (!rs->is_app_limited || bw >= bbr_max_bw(sk))
+ bbr_take_max_bw_sample(sk, bw);
+
+ bbr->loss_in_round |= (rs->losses > 0);
+
+ if (!bbr->loss_round_start)
+ return; /* skip the per-round-trip updates */
+ /* Now do per-round-trip updates. */
+ bbr_adapt_lower_bounds(sk, rs);
+
+ bbr->loss_in_round = 0;
+ bbr->ecn_in_round = 0;
+}
+
+/* Bandwidth probing can cause loss. To help coexistence with loss-based
+ * congestion control we spread out our probing in a Reno-conscious way. Due to
+ * the shape of the Reno sawtooth, the time required between loss epochs for an
+ * idealized Reno flow is a number of round trips that is the BDP of that
+ * flow. We count packet-timed round trips directly, since measured RTT can
+ * vary widely, and Reno is driven by packet-timed round trips.
+ */
+static bool bbr_is_reno_coexistence_probe_time(struct sock *sk)
+{
+ struct bbr *bbr = inet_csk_ca(sk);
+ u32 rounds;
+
+ /* Random loss can shave some small percentage off of our inflight
+ * in each round. To survive this, flows need robust periodic probes.
+ */
+ rounds = min_t(u32, bbr_param(sk, bw_probe_max_rounds), bbr_target_inflight(sk));
+ return bbr->rounds_since_probe >= rounds;
+}
+
+/* How long do we want to wait before probing for bandwidth (and risking
+ * loss)? We randomize the wait, for better mixing and fairness convergence.
+ *
+ * We bound the Reno-coexistence inter-bw-probe time to be 62-63 round trips.
+ * This is calculated to allow fairness with a 25Mbps, 30ms Reno flow,
+ * (eg 4K video to a broadband user):
+ * BDP = 25Mbps * .030sec /(1514bytes) = 61.9 packets
+ *
+ * We bound the BBR-native inter-bw-probe wall clock time to be:
+ * (a) higher than 2 sec: to try to avoid causing loss for a long enough time
+ * to allow Reno at 30ms to get 4K video bw, the inter-bw-probe time must
+ * be at least: 25Mbps * .030sec / (1514bytes) * 0.030sec = 1.9secs
+ * (b) lower than 3 sec: to ensure flows can start probing in a reasonable
+ * amount of time to discover unutilized bw on human-scale interactive
+ * time-scales (e.g. perhaps traffic from a web page download that we
+ * were competing with is now complete).
+ */
+static void bbr_pick_probe_wait(struct sock *sk)
+{
+ struct bbr *bbr = inet_csk_ca(sk);
+
+ /* Decide the random round-trip bound for wait until probe: */
+ bbr->rounds_since_probe =
+ get_random_u32_below(bbr_param(sk, bw_probe_rand_rounds));
+ /* Decide the random wall clock bound for wait until probe: */
+ bbr->probe_wait_us = bbr_param(sk, bw_probe_base_us) +
+ get_random_u32_below(bbr_param(sk, bw_probe_rand_us));
+}
+
+static void bbr_set_cycle_idx(struct sock *sk, int cycle_idx)
+{
+ struct bbr *bbr = inet_csk_ca(sk);
+
+ bbr->cycle_idx = cycle_idx;
+ /* New phase, so need to update cwnd and pacing rate. */
+ bbr->try_fast_path = 0;
+}
+
+/* Send at estimated bw to fill the pipe, but not queue. We need this phase
+ * before PROBE_UP, because as soon as we send faster than the available bw
+ * we will start building a queue, and if the buffer is shallow we can cause
+ * loss. If we do not fill the pipe before we cause this loss, our bw_hi and
+ * inflight_hi estimates will underestimate.
+ */
+static void bbr_start_bw_probe_refill(struct sock *sk, u32 bw_probe_up_rounds)
+{
+ struct tcp_sock *tp = tcp_sk(sk);
+ struct bbr *bbr = inet_csk_ca(sk);
+
+ bbr_reset_lower_bounds(sk);
+ bbr->bw_probe_up_rounds = bw_probe_up_rounds;
+ bbr->bw_probe_up_acks = 0;
+ bbr->stopped_risky_probe = 0;
+ bbr->ack_phase = BBR_ACKS_REFILLING;
+ bbr->next_rtt_delivered = tp->delivered;
+ bbr_set_cycle_idx(sk, BBR_BW_PROBE_REFILL);
+}
+
+/* Now probe max deliverable data rate and volume. */
+static void bbr_start_bw_probe_up(struct sock *sk, struct bbr_context *ctx)
+{
+ struct tcp_sock *tp = tcp_sk(sk);
+ struct bbr *bbr = inet_csk_ca(sk);
+
+ bbr->ack_phase = BBR_ACKS_PROBE_STARTING;
+ bbr->next_rtt_delivered = tp->delivered;
+ bbr->cycle_mstamp = tp->tcp_mstamp;
+ bbr_reset_full_bw(sk);
+ bbr->full_bw = ctx->sample_bw;
+ bbr_set_cycle_idx(sk, BBR_BW_PROBE_UP);
+ bbr_raise_inflight_hi_slope(sk);
+}
+
+/* Start a new PROBE_BW probing cycle of some wall clock length. Pick a wall
+ * clock time at which to probe beyond an inflight that we think to be
+ * safe. This will knowingly risk packet loss, so we want to do this rarely, to
+ * keep packet loss rates low. Also start a round-trip counter, to probe faster
+ * if we estimate a Reno flow at our BDP would probe faster.
+ */
+static void bbr_start_bw_probe_down(struct sock *sk)
+{
+ struct tcp_sock *tp = tcp_sk(sk);
+ struct bbr *bbr = inet_csk_ca(sk);
+
+ bbr_reset_congestion_signals(sk);
+ bbr->bw_probe_up_cnt = ~0U; /* not growing inflight_hi any more */
+ bbr_pick_probe_wait(sk);
+ bbr->cycle_mstamp = tp->tcp_mstamp; /* start wall clock */
+ bbr->ack_phase = BBR_ACKS_PROBE_STOPPING;
+ bbr->next_rtt_delivered = tp->delivered;
+ bbr_set_cycle_idx(sk, BBR_BW_PROBE_DOWN);
+}
+
+/* Cruise: maintain what we estimate to be a neutral, conservative
+ * operating point, without attempting to probe up for bandwidth or down for
+ * RTT, and only reducing inflight in response to loss/ECN signals.
+ */
+static void bbr_start_bw_probe_cruise(struct sock *sk)
+{
+ struct bbr *bbr = inet_csk_ca(sk);
+
+ if (bbr->inflight_lo != ~0U)
+ bbr->inflight_lo = min(bbr->inflight_lo, bbr->inflight_hi);
+
+ bbr_set_cycle_idx(sk, BBR_BW_PROBE_CRUISE);
+}
+
+/* Loss and/or ECN rate is too high while probing.
+ * Adapt (once per bw probe) by cutting inflight_hi and then restarting cycle.
+ */
+static void bbr_handle_inflight_too_high(struct sock *sk,
+ const struct rate_sample *rs)
+{
+ struct bbr *bbr = inet_csk_ca(sk);
+ const u32 beta = bbr_param(sk, beta);
+
+ bbr->prev_probe_too_high = 1;
+ bbr->bw_probe_samples = 0; /* only react once per probe */
+ /* If we are app-limited then we are not robustly
+ * probing the max volume of inflight data we think
+ * might be safe (analogous to how app-limited bw
+ * samples are not known to be robustly probing bw).
+ */
+ if (!rs->is_app_limited) {
+ bbr->inflight_hi = max_t(u32, rs->tx_in_flight,
+ (u64)bbr_target_inflight(sk) *
+ (BBR_UNIT - beta) >> BBR_SCALE);
+ }
+ if (bbr->mode == BBR_PROBE_BW && bbr->cycle_idx == BBR_BW_PROBE_UP)
+ bbr_start_bw_probe_down(sk);
+}
+
+/* If we're seeing bw and loss samples reflecting our bw probing, adapt
+ * using the signals we see. If loss or ECN mark rate gets too high, then adapt
+ * inflight_hi downward. If we're able to push inflight higher without such
+ * signals, push higher: adapt inflight_hi upward.
+ */
+static bool bbr_adapt_upper_bounds(struct sock *sk,
+ const struct rate_sample *rs,
+ struct bbr_context *ctx)
+{
+ struct bbr *bbr = inet_csk_ca(sk);
+
+ /* Track when we'll see bw/loss samples resulting from our bw probes. */
+ if (bbr->ack_phase == BBR_ACKS_PROBE_STARTING && bbr->round_start)
+ bbr->ack_phase = BBR_ACKS_PROBE_FEEDBACK;
+ if (bbr->ack_phase == BBR_ACKS_PROBE_STOPPING && bbr->round_start) {
+ /* End of samples from bw probing phase. */
+ bbr->bw_probe_samples = 0;
+ bbr->ack_phase = BBR_ACKS_INIT;
+ /* At this point in the cycle, our current bw sample is also
+ * our best recent chance at finding the highest available bw
+ * for this flow. So now is the best time to forget the bw
+ * samples from the previous cycle, by advancing the window.
+ */
+ if (bbr->mode == BBR_PROBE_BW && !rs->is_app_limited)
+ bbr_advance_max_bw_filter(sk);
+ /* If we had an inflight_hi, then probed and pushed inflight all
+ * the way up to hit that inflight_hi without seeing any
+ * high loss/ECN in all the resulting ACKs from that probing,
+ * then probe up again, this time letting inflight persist at
+ * inflight_hi for a round trip, then accelerating beyond.
+ */
+ if (bbr->mode == BBR_PROBE_BW &&
+ bbr->stopped_risky_probe && !bbr->prev_probe_too_high) {
+ bbr_start_bw_probe_refill(sk, 0);
+ return true; /* yes, decided state transition */
+ }
+ }
+ if (bbr_is_inflight_too_high(sk, rs)) {
+ if (bbr->bw_probe_samples) /* sample is from bw probing? */
+ bbr_handle_inflight_too_high(sk, rs);
+ } else {
+ /* Loss/ECN rate is declared safe. Adjust upper bound upward. */
+
+ if (bbr->inflight_hi == ~0U)
+ return false; /* no excess queue signals yet */
+
+ /* To be resilient to random loss, we must raise bw/inflight_hi
+ * if we observe in any phase that a higher level is safe.
+ */
+ if (rs->tx_in_flight > bbr->inflight_hi) {
+ bbr->inflight_hi = rs->tx_in_flight;
+ }
+
+ if (bbr->mode == BBR_PROBE_BW &&
+ bbr->cycle_idx == BBR_BW_PROBE_UP)
+ bbr_probe_inflight_hi_upward(sk, rs);
+ }
+
+ return false;
+}
+
+/* Check if it's time to probe for bandwidth now, and if so, kick it off. */
+static bool bbr_check_time_to_probe_bw(struct sock *sk,
+ const struct rate_sample *rs)
+{
+ struct bbr *bbr = inet_csk_ca(sk);
+ u32 n;
+
+ /* If we seem to be at an operating point where we are not seeing loss
+ * but we are seeing ECN marks, then when the ECN marks cease we reprobe
+ * quickly (in case cross-traffic has ceased and freed up bw).
+ */
+ if (bbr_param(sk, ecn_reprobe_gain) && bbr->ecn_eligible &&
+ bbr->ecn_in_cycle && !bbr->loss_in_cycle &&
+ inet_csk(sk)->icsk_ca_state == TCP_CA_Open) {
+ /* Calculate n so that when bbr_raise_inflight_hi_slope()
+ * computes growth_this_round as 2^n it will be roughly the
+ * desired volume of data (inflight_hi*ecn_reprobe_gain).
+ */
+ n = ilog2((((u64)bbr->inflight_hi *
+ bbr_param(sk, ecn_reprobe_gain)) >> BBR_SCALE));
+ bbr_start_bw_probe_refill(sk, n);
+ return true;
+ }
+
+ if (bbr_has_elapsed_in_phase(sk, bbr->probe_wait_us) ||
+ bbr_is_reno_coexistence_probe_time(sk)) {
+ bbr_start_bw_probe_refill(sk, 0);
+ return true;
+ }
+ return false;
+}
+
+/* Is it time to transition from PROBE_DOWN to PROBE_CRUISE? */
+static bool bbr_check_time_to_cruise(struct sock *sk, u32 inflight, u32 bw)
+{
+ /* Always need to pull inflight down to leave headroom in queue. */
+ if (inflight > bbr_inflight_with_headroom(sk))
+ return false;
+
+ return inflight <= bbr_inflight(sk, bw, BBR_UNIT);
+}
+
+/* PROBE_BW state machine: cruise, refill, probe for bw, or drain? */
+static void bbr_update_cycle_phase(struct sock *sk,
+ const struct rate_sample *rs,
+ struct bbr_context *ctx)
+{
+ struct tcp_sock *tp = tcp_sk(sk);
+ struct bbr *bbr = inet_csk_ca(sk);
+ bool is_bw_probe_done = false;
+ u32 inflight, bw;
+
+ if (!bbr_full_bw_reached(sk))
+ return;
+
+ /* In DRAIN, PROBE_BW, or PROBE_RTT, adjust upper bounds. */
+ if (bbr_adapt_upper_bounds(sk, rs, ctx))
+ return; /* already decided state transition */
+
+ if (bbr->mode != BBR_PROBE_BW)
+ return;
+
+ inflight = bbr_packets_in_net_at_edt(sk, rs->prior_in_flight);
+ bw = bbr_max_bw(sk);
+
+ switch (bbr->cycle_idx) {
+ /* First we spend most of our time cruising with a pacing_gain of 1.0,
+ * which paces at the estimated bw, to try to fully use the pipe
+ * without building queue. If we encounter loss/ECN marks, we adapt
+ * by slowing down.
+ */
+ case BBR_BW_PROBE_CRUISE:
+ if (bbr_check_time_to_probe_bw(sk, rs))
+ return; /* already decided state transition */
+ break;
+
+ /* After cruising, when it's time to probe, we first "refill": we send
+ * at the estimated bw to fill the pipe, before probing higher and
+ * knowingly risking overflowing the bottleneck buffer (causing loss).
+ */
+ case BBR_BW_PROBE_REFILL:
+ if (bbr->round_start) {
+ /* After one full round trip of sending in REFILL, we
+ * start to see bw samples reflecting our REFILL, which
+ * may be putting too much data in flight.
+ */
+ bbr->bw_probe_samples = 1;
+ bbr_start_bw_probe_up(sk, ctx);
+ }
+ break;
+
+ /* After we refill the pipe, we probe by using a pacing_gain > 1.0, to
+ * probe for bw. If we have not seen loss/ECN, we try to raise inflight
+ * to at least pacing_gain*BDP; note that this may take more than
+ * min_rtt if min_rtt is small (e.g. on a LAN).
+ *
+ * We terminate PROBE_UP bandwidth probing upon any of the following:
+ *
+ * (1) We've pushed inflight up to hit the inflight_hi target set in the
+ * most recent previous bw probe phase. Thus we want to start
+ * draining the queue immediately because it's very likely the most
+ * recently sent packets will fill the queue and cause drops.
+ * (2) If inflight_hi has not limited bandwidth growth recently, and
+ * yet delivered bandwidth has not increased much recently
+ * (bbr->full_bw_now).
+ * (3) Loss filter says loss rate is "too high".
+ * (4) ECN filter says ECN mark rate is "too high".
+ *
+ * (1) (2) checked here, (3) (4) checked in bbr_is_inflight_too_high()
+ */
+ case BBR_BW_PROBE_UP:
+ if (bbr->prev_probe_too_high &&
+ inflight >= bbr->inflight_hi) {
+ bbr->stopped_risky_probe = 1;
+ is_bw_probe_done = true;
+ } else {
+ if (tp->is_cwnd_limited &&
+ tcp_snd_cwnd(tp) >= bbr->inflight_hi) {
+ /* inflight_hi is limiting bw growth */
+ bbr_reset_full_bw(sk);
+ bbr->full_bw = ctx->sample_bw;
+ } else if (bbr->full_bw_now) {
+ /* Plateau in estimated bw. Pipe looks full. */
+ is_bw_probe_done = true;
+ }
+ }
+ if (is_bw_probe_done) {
+ bbr->prev_probe_too_high = 0; /* no loss/ECN (yet) */
+ bbr_start_bw_probe_down(sk); /* restart w/ down */
+ }
+ break;
+
+ /* After probing in PROBE_UP, we have usually accumulated some data in
+ * the bottleneck buffer (if bw probing didn't find more bw). We next
+ * enter PROBE_DOWN to try to drain any excess data from the queue. To
+ * do this, we use a pacing_gain < 1.0. We hold this pacing gain until
+ * our inflight is less then that target cruising point, which is the
+ * minimum of (a) the amount needed to leave headroom, and (b) the
+ * estimated BDP. Once inflight falls to match the target, we estimate
+ * the queue is drained; persisting would underutilize the pipe.
+ */
+ case BBR_BW_PROBE_DOWN:
+ if (bbr_check_time_to_probe_bw(sk, rs))
+ return; /* already decided state transition */
+ if (bbr_check_time_to_cruise(sk, inflight, bw))
+ bbr_start_bw_probe_cruise(sk);
+ break;
+
+ default:
+ WARN_ONCE(1, "BBR invalid cycle index %u\n", bbr->cycle_idx);
+ }
+}
+
+/* Exiting PROBE_RTT, so return to bandwidth probing in STARTUP or PROBE_BW. */
+static void bbr_exit_probe_rtt(struct sock *sk)
+{
+ struct bbr *bbr = inet_csk_ca(sk);
+
+ bbr_reset_lower_bounds(sk);
+ if (bbr_full_bw_reached(sk)) {
+ bbr->mode = BBR_PROBE_BW;
+ /* Raising inflight after PROBE_RTT may cause loss, so reset
+ * the PROBE_BW clock and schedule the next bandwidth probe for
+ * a friendly and randomized future point in time.
+ */
+ bbr_start_bw_probe_down(sk);
+ /* Since we are exiting PROBE_RTT, we know inflight is
+ * below our estimated BDP, so it is reasonable to cruise.
+ */
+ bbr_start_bw_probe_cruise(sk);
+ } else {
+ bbr->mode = BBR_STARTUP;
+ }
+}
+
+/* Exit STARTUP based on loss rate > 1% and loss gaps in round >= N. Wait until
+ * the end of the round in recovery to get a good estimate of how many packets
+ * have been lost, and how many we need to drain with a low pacing rate.
+ */
+static void bbr_check_loss_too_high_in_startup(struct sock *sk,
+ const struct rate_sample *rs)
+{
+ struct bbr *bbr = inet_csk_ca(sk);
+
+ if (bbr_full_bw_reached(sk))
+ return;
+
+ /* For STARTUP exit, check the loss rate at the end of each round trip
+ * of Recovery episodes in STARTUP. We check the loss rate at the end
+ * of the round trip to filter out noisy/low loss and have a better
+ * sense of inflight (extent of loss), so we can drain more accurately.
+ */
+ if (rs->losses && bbr->loss_events_in_round < 0xf)
+ bbr->loss_events_in_round++; /* update saturating counter */
+ if (bbr_param(sk, full_loss_cnt) && bbr->loss_round_start &&
+ inet_csk(sk)->icsk_ca_state == TCP_CA_Recovery &&
+ bbr->loss_events_in_round >= bbr_param(sk, full_loss_cnt) &&
+ bbr_is_inflight_too_high(sk, rs)) {
+ bbr_handle_queue_too_high_in_startup(sk);
+ return;
+ }
+ if (bbr->loss_round_start)
+ bbr->loss_events_in_round = 0;
+}
+
+/* Estimate when the pipe is full, using the change in delivery rate: BBR
+ * estimates bw probing filled the pipe if the estimated bw hasn't changed by
+ * at least bbr_full_bw_thresh (25%) after bbr_full_bw_cnt (3) non-app-limited
+ * rounds. Why 3 rounds: 1: rwin autotuning grows the rwin, 2: we fill the
+ * higher rwin, 3: we get higher delivery rate samples. Or transient
+ * cross-traffic or radio noise can go away. CUBIC Hystart shares a similar
+ * design goal, but uses delay and inter-ACK spacing instead of bandwidth.
+ */
+static void bbr_check_full_bw_reached(struct sock *sk,
+ const struct rate_sample *rs,
+ struct bbr_context *ctx)
+{
+ struct bbr *bbr = inet_csk_ca(sk);
+ u32 bw_thresh, full_cnt, thresh;
+
+ if (bbr->full_bw_now || rs->is_app_limited)
+ return;
+
+ thresh = bbr_param(sk, full_bw_thresh);
+ full_cnt = bbr_param(sk, full_bw_cnt);
+ bw_thresh = (u64)bbr->full_bw * thresh >> BBR_SCALE;
+ if (ctx->sample_bw >= bw_thresh) {
+ bbr_reset_full_bw(sk);
+ bbr->full_bw = ctx->sample_bw;
+ return;
+ }
+ if (!bbr->round_start)
+ return;
+ ++bbr->full_bw_cnt;
+ bbr->full_bw_now = bbr->full_bw_cnt >= full_cnt;
+ bbr->full_bw_reached |= bbr->full_bw_now;
+}
+
+/* If pipe is probably full, drain the queue and then enter steady-state. */
+static void bbr_check_drain(struct sock *sk, const struct rate_sample *rs,
+ struct bbr_context *ctx)
+{
+ struct bbr *bbr = inet_csk_ca(sk);
+
+ if (bbr->mode == BBR_STARTUP && bbr_full_bw_reached(sk)) {
+ bbr->mode = BBR_DRAIN; /* drain queue we created */
+ /* Set ssthresh to export purely for monitoring, to signal
+ * completion of initial STARTUP by setting to a non-
+ * TCP_INFINITE_SSTHRESH value (ssthresh is not used by BBR).
+ */
+ tcp_sk(sk)->snd_ssthresh =
+ bbr_inflight(sk, bbr_max_bw(sk), BBR_UNIT);
+ bbr_reset_congestion_signals(sk);
+ } /* fall through to check if in-flight is already small: */
+ if (bbr->mode == BBR_DRAIN &&
+ bbr_packets_in_net_at_edt(sk, tcp_packets_in_flight(tcp_sk(sk))) <=
+ bbr_inflight(sk, bbr_max_bw(sk), BBR_UNIT)) {
+ bbr->mode = BBR_PROBE_BW;
+ bbr_start_bw_probe_down(sk);
+ }
+}
+
+static void bbr_update_model(struct sock *sk, const struct rate_sample *rs,
+ struct bbr_context *ctx)
+{
+ bbr_update_congestion_signals(sk, rs, ctx);
+ bbr_update_ack_aggregation(sk, rs);
+ bbr_check_loss_too_high_in_startup(sk, rs);
+ bbr_check_full_bw_reached(sk, rs, ctx);
+ bbr_check_drain(sk, rs, ctx);
+ bbr_update_cycle_phase(sk, rs, ctx);
+ bbr_update_min_rtt(sk, rs);
+}
+
+/* Fast path for app-limited case.
+ *
+ * On each ack, we execute bbr state machine, which primarily consists of:
+ * 1) update model based on new rate sample, and
+ * 2) update control based on updated model or state change.
+ *
+ * There are certain workload/scenarios, e.g. app-limited case, where
+ * either we can skip updating model or we can skip update of both model
+ * as well as control. This provides signifcant softirq cpu savings for
+ * processing incoming acks.
+ *
+ * In case of app-limited, if there is no congestion (loss/ecn) and
+ * if observed bw sample is less than current estimated bw, then we can
+ * skip some of the computation in bbr state processing:
+ *
+ * - if there is no rtt/mode/phase change: In this case, since all the
+ * parameters of the network model are constant, we can skip model
+ * as well control update.
+ *
+ * - else we can skip rest of the model update. But we still need to
+ * update the control to account for the new rtt/mode/phase.
+ *
+ * Returns whether we can take fast path or not.
+ */
+static bool bbr_run_fast_path(struct sock *sk, bool *update_model,
+ const struct rate_sample *rs, struct bbr_context *ctx)
+{
+ struct bbr *bbr = inet_csk_ca(sk);
+ u32 prev_min_rtt_us, prev_mode;
+
+ if (bbr_param(sk, fast_path) && bbr->try_fast_path &&
+ rs->is_app_limited && ctx->sample_bw < bbr_max_bw(sk) &&
+ !bbr->loss_in_round && !bbr->ecn_in_round ) {
+ prev_mode = bbr->mode;
+ prev_min_rtt_us = bbr->min_rtt_us;
+ bbr_check_drain(sk, rs, ctx);
+ bbr_update_cycle_phase(sk, rs, ctx);
+ bbr_update_min_rtt(sk, rs);
+
+ if (bbr->mode == prev_mode &&
+ bbr->min_rtt_us == prev_min_rtt_us &&
+ bbr->try_fast_path) {
+ return true;
+ }
+
+ /* Skip model update, but control still needs to be updated */
+ *update_model = false;
+ }
+ return false;
+}
+
+__bpf_kfunc static void bbr_main(struct sock *sk, u32 ack, int flag, const struct rate_sample *rs)
+{
+ struct tcp_sock *tp = tcp_sk(sk);
+ struct bbr *bbr = inet_csk_ca(sk);
+ struct bbr_context ctx = { 0 };
+ bool update_model = true;
+ u32 bw, round_delivered;
+ int ce_ratio = -1;
+
+ round_delivered = bbr_update_round_start(sk, rs, &ctx);
+ if (bbr->round_start) {
+ bbr->rounds_since_probe =
+ min_t(s32, bbr->rounds_since_probe + 1, 0xFF);
+ ce_ratio = bbr_update_ecn_alpha(sk);
+ }
+ bbr_plb(sk, rs, ce_ratio);
+
+ bbr->ecn_in_round |= (bbr->ecn_eligible && rs->is_ece);
+ bbr_calculate_bw_sample(sk, rs, &ctx);
+ bbr_update_latest_delivery_signals(sk, rs, &ctx);
+
+ if (bbr_run_fast_path(sk, &update_model, rs, &ctx))
+ goto out;
+
+ if (update_model)
+ bbr_update_model(sk, rs, &ctx);
+
+ bbr_update_gains(sk);
+ bw = bbr_bw(sk);
+ bbr_set_pacing_rate(sk, bw, bbr->pacing_gain);
+ bbr_set_cwnd(sk, rs, rs->acked_sacked, bw, bbr->cwnd_gain,
+ tcp_snd_cwnd(tp), &ctx);
+ bbr_bound_cwnd_for_inflight_model(sk);
+
+out:
+ bbr_advance_latest_delivery_signals(sk, rs, &ctx);
+ bbr->prev_ca_state = inet_csk(sk)->icsk_ca_state;
+ bbr->loss_in_cycle |= rs->lost > 0;
+ bbr->ecn_in_cycle |= rs->delivered_ce > 0;
+}
+
+__bpf_kfunc static void bbr_init(struct sock *sk)
+{
+ struct tcp_sock *tp = tcp_sk(sk);
+ struct bbr *bbr = inet_csk_ca(sk);
+
+ bbr->initialized = 1;
+
+ bbr->init_cwnd = min(0x7FU, tcp_snd_cwnd(tp));
+ bbr->prior_cwnd = tp->prior_cwnd;
+ tp->snd_ssthresh = TCP_INFINITE_SSTHRESH;
+ bbr->next_rtt_delivered = tp->delivered;
+ bbr->prev_ca_state = TCP_CA_Open;
+
+ bbr->probe_rtt_done_stamp = 0;
+ bbr->probe_rtt_round_done = 0;
+ bbr->probe_rtt_min_us = tcp_min_rtt(tp);
+ bbr->probe_rtt_min_stamp = tcp_jiffies32;
+ bbr->min_rtt_us = tcp_min_rtt(tp);
+ bbr->min_rtt_stamp = tcp_jiffies32;
+
+ bbr->has_seen_rtt = 0;
+ bbr_init_pacing_rate_from_rtt(sk);
+
+ bbr->round_start = 0;
+ bbr->idle_restart = 0;
+ bbr->full_bw_reached = 0;
+ bbr->full_bw = 0;
bbr->full_bw_cnt = 0;
- bbr_reset_lt_bw_sampling(sk);
- return tcp_snd_cwnd(tcp_sk(sk));
+ bbr->cycle_mstamp = 0;
+ bbr->cycle_idx = 0;
+
+ bbr_reset_startup_mode(sk);
+
+ bbr->ack_epoch_mstamp = tp->tcp_mstamp;
+ bbr->ack_epoch_acked = 0;
+ bbr->extra_acked_win_rtts = 0;
+ bbr->extra_acked_win_idx = 0;
+ bbr->extra_acked[0] = 0;
+ bbr->extra_acked[1] = 0;
+
+ bbr->ce_state = 0;
+ bbr->prior_rcv_nxt = tp->rcv_nxt;
+ bbr->try_fast_path = 0;
+
+ cmpxchg(&sk->sk_pacing_status, SK_PACING_NONE, SK_PACING_NEEDED);
+
+ /* Start sampling ECN mark rate after first full flight is ACKed: */
+ bbr->loss_round_delivered = tp->delivered + 1;
+ bbr->loss_round_start = 0;
+ bbr->undo_bw_lo = 0;
+ bbr->undo_inflight_lo = 0;
+ bbr->undo_inflight_hi = 0;
+ bbr->loss_events_in_round = 0;
+ bbr->startup_ecn_rounds = 0;
+ bbr_reset_congestion_signals(sk);
+ bbr->bw_lo = ~0U;
+ bbr->bw_hi[0] = 0;
+ bbr->bw_hi[1] = 0;
+ bbr->inflight_lo = ~0U;
+ bbr->inflight_hi = ~0U;
+ bbr_reset_full_bw(sk);
+ bbr->bw_probe_up_cnt = ~0U;
+ bbr->bw_probe_up_acks = 0;
+ bbr->bw_probe_up_rounds = 0;
+ bbr->probe_wait_us = 0;
+ bbr->stopped_risky_probe = 0;
+ bbr->ack_phase = BBR_ACKS_INIT;
+ bbr->rounds_since_probe = 0;
+ bbr->bw_probe_samples = 0;
+ bbr->prev_probe_too_high = 0;
+ bbr->ecn_eligible = 0;
+ bbr->ecn_alpha = bbr_param(sk, ecn_alpha_init);
+ bbr->alpha_last_delivered = 0;
+ bbr->alpha_last_delivered_ce = 0;
+ bbr->plb.pause_until = 0;
+
+ tp->fast_ack_mode = bbr_fast_ack_mode ? 1 : 0;
+
+ if (bbr_can_use_ecn(sk))
+ tp->ecn_flags |= TCP_ECN_ECT_PERMANENT;
+}
+
+/* BBR marks the current round trip as a loss round. */
+static void bbr_note_loss(struct sock *sk)
+{
+ struct tcp_sock *tp = tcp_sk(sk);
+ struct bbr *bbr = inet_csk_ca(sk);
+
+ /* Capture "current" data over the full round trip of loss, to
+ * have a better chance of observing the full capacity of the path.
+ */
+ if (!bbr->loss_in_round) /* first loss in this round trip? */
+ bbr->loss_round_delivered = tp->delivered; /* set round trip */
+ bbr->loss_in_round = 1;
+ bbr->loss_in_cycle = 1;
}
-/* Entering loss recovery, so save cwnd for when we exit or undo recovery. */
+/* Core TCP stack informs us that the given skb was just marked lost. */
+__bpf_kfunc static void bbr_skb_marked_lost(struct sock *sk,
+ const struct sk_buff *skb)
+{
+ struct tcp_sock *tp = tcp_sk(sk);
+ struct bbr *bbr = inet_csk_ca(sk);
+ struct tcp_skb_cb *scb = TCP_SKB_CB(skb);
+ struct rate_sample rs = {};
+
+ bbr_note_loss(sk);
+
+ if (!bbr->bw_probe_samples)
+ return; /* not an skb sent while probing for bandwidth */
+ if (unlikely(!scb->tx.delivered_mstamp))
+ return; /* skb was SACKed, reneged, marked lost; ignore it */
+ /* We are probing for bandwidth. Construct a rate sample that
+ * estimates what happened in the flight leading up to this lost skb,
+ * then see if the loss rate went too high, and if so at which packet.
+ */
+ rs.tx_in_flight = scb->tx.in_flight;
+ rs.lost = tp->lost - scb->tx.lost;
+ rs.is_app_limited = scb->tx.is_app_limited;
+ if (bbr_is_inflight_too_high(sk, &rs)) {
+ rs.tx_in_flight = bbr_inflight_hi_from_lost_skb(sk, &rs, skb);
+ bbr_handle_inflight_too_high(sk, &rs);
+ }
+}
+
+static void bbr_run_loss_probe_recovery(struct sock *sk)
+{
+ struct tcp_sock *tp = tcp_sk(sk);
+ struct bbr *bbr = inet_csk_ca(sk);
+ struct rate_sample rs = {0};
+
+ bbr_note_loss(sk);
+
+ if (!bbr->bw_probe_samples)
+ return; /* not sent while probing for bandwidth */
+ /* We are probing for bandwidth. Construct a rate sample that
+ * estimates what happened in the flight leading up to this
+ * loss, then see if the loss rate went too high.
+ */
+ rs.lost = 1; /* TLP probe repaired loss of a single segment */
+ rs.tx_in_flight = bbr->inflight_latest + rs.lost;
+ rs.is_app_limited = tp->tlp_orig_data_app_limited;
+ if (bbr_is_inflight_too_high(sk, &rs))
+ bbr_handle_inflight_too_high(sk, &rs);
+}
+
+/* Revert short-term model if current loss recovery event was spurious. */
+__bpf_kfunc static u32 bbr_undo_cwnd(struct sock *sk)
+{
+ struct bbr *bbr = inet_csk_ca(sk);
+
+ bbr_reset_full_bw(sk); /* spurious slow-down; reset full bw detector */
+ bbr->loss_in_round = 0;
+
+ /* Revert to cwnd and other state saved before loss episode. */
+ bbr->bw_lo = max(bbr->bw_lo, bbr->undo_bw_lo);
+ bbr->inflight_lo = max(bbr->inflight_lo, bbr->undo_inflight_lo);
+ bbr->inflight_hi = max(bbr->inflight_hi, bbr->undo_inflight_hi);
+ bbr->try_fast_path = 0; /* take slow path to set proper cwnd, pacing */
+ return bbr->prior_cwnd;
+}
+
+/* Entering loss recovery, so save state for when we undo recovery. */
__bpf_kfunc static u32 bbr_ssthresh(struct sock *sk)
{
+ struct bbr *bbr = inet_csk_ca(sk);
+
bbr_save_cwnd(sk);
+ /* For undo, save state that adapts based on loss signal. */
+ bbr->undo_bw_lo = bbr->bw_lo;
+ bbr->undo_inflight_lo = bbr->inflight_lo;
+ bbr->undo_inflight_hi = bbr->inflight_hi;
return tcp_sk(sk)->snd_ssthresh;
}
+static enum tcp_bbr_phase bbr_get_phase(struct bbr *bbr)
+{
+ switch (bbr->mode) {
+ case BBR_STARTUP:
+ return BBR_PHASE_STARTUP;
+ case BBR_DRAIN:
+ return BBR_PHASE_DRAIN;
+ case BBR_PROBE_BW:
+ break;
+ case BBR_PROBE_RTT:
+ return BBR_PHASE_PROBE_RTT;
+ default:
+ return BBR_PHASE_INVALID;
+ }
+ switch (bbr->cycle_idx) {
+ case BBR_BW_PROBE_UP:
+ return BBR_PHASE_PROBE_BW_UP;
+ case BBR_BW_PROBE_DOWN:
+ return BBR_PHASE_PROBE_BW_DOWN;
+ case BBR_BW_PROBE_CRUISE:
+ return BBR_PHASE_PROBE_BW_CRUISE;
+ case BBR_BW_PROBE_REFILL:
+ return BBR_PHASE_PROBE_BW_REFILL;
+ default:
+ return BBR_PHASE_INVALID;
+ }
+}
+
static size_t bbr_get_info(struct sock *sk, u32 ext, int *attr,
- union tcp_cc_info *info)
+ union tcp_cc_info *info)
{
if (ext & (1 << (INET_DIAG_BBRINFO - 1)) ||
ext & (1 << (INET_DIAG_VEGASINFO - 1))) {
- struct tcp_sock *tp = tcp_sk(sk);
struct bbr *bbr = inet_csk_ca(sk);
- u64 bw = bbr_bw(sk);
-
- bw = bw * tp->mss_cache * USEC_PER_SEC >> BW_SCALE;
- memset(&info->bbr, 0, sizeof(info->bbr));
- info->bbr.bbr_bw_lo = (u32)bw;
- info->bbr.bbr_bw_hi = (u32)(bw >> 32);
- info->bbr.bbr_min_rtt = bbr->min_rtt_us;
- info->bbr.bbr_pacing_gain = bbr->pacing_gain;
- info->bbr.bbr_cwnd_gain = bbr->cwnd_gain;
+ u64 bw = bbr_bw_bytes_per_sec(sk, bbr_bw(sk));
+ u64 bw_hi = bbr_bw_bytes_per_sec(sk, bbr_max_bw(sk));
+ u64 bw_lo = bbr->bw_lo == ~0U ?
+ ~0ULL : bbr_bw_bytes_per_sec(sk, bbr->bw_lo);
+ struct tcp_bbr_info *bbr_info = &info->bbr;
+
+ memset(bbr_info, 0, sizeof(*bbr_info));
+ bbr_info->bbr_bw_lo = (u32)bw;
+ bbr_info->bbr_bw_hi = (u32)(bw >> 32);
+ bbr_info->bbr_min_rtt = bbr->min_rtt_us;
+ bbr_info->bbr_pacing_gain = bbr->pacing_gain;
+ bbr_info->bbr_cwnd_gain = bbr->cwnd_gain;
+ bbr_info->bbr_bw_hi_lsb = (u32)bw_hi;
+ bbr_info->bbr_bw_hi_msb = (u32)(bw_hi >> 32);
+ bbr_info->bbr_bw_lo_lsb = (u32)bw_lo;
+ bbr_info->bbr_bw_lo_msb = (u32)(bw_lo >> 32);
+ bbr_info->bbr_mode = bbr->mode;
+ bbr_info->bbr_phase = (__u8)bbr_get_phase(bbr);
+ bbr_info->bbr_version = (__u8)BBR_VERSION;
+ bbr_info->bbr_inflight_lo = bbr->inflight_lo;
+ bbr_info->bbr_inflight_hi = bbr->inflight_hi;
+ bbr_info->bbr_extra_acked = bbr_extra_acked(sk);
*attr = INET_DIAG_BBRINFO;
- return sizeof(info->bbr);
+ return sizeof(*bbr_info);
}
return 0;
}
__bpf_kfunc static void bbr_set_state(struct sock *sk, u8 new_state)
{
+ struct tcp_sock *tp = tcp_sk(sk);
struct bbr *bbr = inet_csk_ca(sk);
if (new_state == TCP_CA_Loss) {
- struct rate_sample rs = { .losses = 1 };
bbr->prev_ca_state = TCP_CA_Loss;
- bbr->full_bw = 0;
- bbr->round_start = 1; /* treat RTO like end of a round */
- bbr_lt_bw_sampling(sk, &rs);
+ tcp_plb_update_state_upon_rto(sk, &bbr->plb);
+ /* The tcp_write_timeout() call to sk_rethink_txhash() likely
+ * repathed this flow, so re-learn the min network RTT on the
+ * new path:
+ */
+ bbr_reset_full_bw(sk);
+ if (!bbr_is_probing_bandwidth(sk) && bbr->inflight_lo == ~0U) {
+ /* bbr_adapt_lower_bounds() needs cwnd before
+ * we suffered an RTO, to update inflight_lo:
+ */
+ bbr->inflight_lo =
+ max(tcp_snd_cwnd(tp), bbr->prior_cwnd);
+ }
+ } else if (bbr->prev_ca_state == TCP_CA_Loss &&
+ new_state != TCP_CA_Loss) {
+ bbr_exit_loss_recovery(sk);
}
}
+
static struct tcp_congestion_ops tcp_bbr_cong_ops __read_mostly = {
- .flags = TCP_CONG_NON_RESTRICTED,
+ .flags = TCP_CONG_NON_RESTRICTED | TCP_CONG_WANTS_CE_EVENTS,
.name = "bbr",
.owner = THIS_MODULE,
.init = bbr_init,
.cong_control = bbr_main,
.sndbuf_expand = bbr_sndbuf_expand,
+ .skb_marked_lost = bbr_skb_marked_lost,
.undo_cwnd = bbr_undo_cwnd,
.cwnd_event = bbr_cwnd_event,
.ssthresh = bbr_ssthresh,
- .min_tso_segs = bbr_min_tso_segs,
+ .tso_segs = bbr_tso_segs,
.get_info = bbr_get_info,
.set_state = bbr_set_state,
};
@@ -1159,10 +2359,11 @@ BTF_KFUNCS_START(tcp_bbr_check_kfunc_ids)
BTF_ID_FLAGS(func, bbr_init)
BTF_ID_FLAGS(func, bbr_main)
BTF_ID_FLAGS(func, bbr_sndbuf_expand)
+BTF_ID_FLAGS(func, bbr_skb_marked_lost)
BTF_ID_FLAGS(func, bbr_undo_cwnd)
BTF_ID_FLAGS(func, bbr_cwnd_event)
BTF_ID_FLAGS(func, bbr_ssthresh)
-BTF_ID_FLAGS(func, bbr_min_tso_segs)
+BTF_ID_FLAGS(func, bbr_tso_segs)
BTF_ID_FLAGS(func, bbr_set_state)
BTF_KFUNCS_END(tcp_bbr_check_kfunc_ids)
@@ -1195,5 +2396,12 @@ MODULE_AUTHOR("Van Jacobson <vanj@google.com>");
MODULE_AUTHOR("Neal Cardwell <ncardwell@google.com>");
MODULE_AUTHOR("Yuchung Cheng <ycheng@google.com>");
MODULE_AUTHOR("Soheil Hassas Yeganeh <soheil@google.com>");
+MODULE_AUTHOR("Priyaranjan Jha <priyarjha@google.com>");
+MODULE_AUTHOR("Yousuk Seung <ysseung@google.com>");
+MODULE_AUTHOR("Kevin Yang <yyd@google.com>");
+MODULE_AUTHOR("Arjun Roy <arjunroy@google.com>");
+MODULE_AUTHOR("David Morley <morleyd@google.com>");
+
MODULE_LICENSE("Dual BSD/GPL");
MODULE_DESCRIPTION("TCP BBR (Bottleneck Bandwidth and RTT)");
+MODULE_VERSION(__stringify(BBR_VERSION));
diff --git a/net/ipv4/tcp_cong.c b/net/ipv4/tcp_cong.c
index 28ffcfbeef14..7b13915ba288 100644
--- a/net/ipv4/tcp_cong.c
+++ b/net/ipv4/tcp_cong.c
@@ -237,6 +237,7 @@ void tcp_init_congestion_control(struct sock *sk)
struct inet_connection_sock *icsk = inet_csk(sk);
tcp_sk(sk)->prior_ssthresh = 0;
+ tcp_sk(sk)->fast_ack_mode = 0;
if (icsk->icsk_ca_ops->init)
icsk->icsk_ca_ops->init(sk);
if (tcp_ca_needs_ecn(sk))
diff --git a/net/ipv4/tcp_input.c b/net/ipv4/tcp_input.c
index 570e87ad9a56..c539ac50f7a6 100644
--- a/net/ipv4/tcp_input.c
+++ b/net/ipv4/tcp_input.c
@@ -365,7 +365,7 @@ static void __tcp_ecn_check_ce(struct sock *sk, const struct sk_buff *skb)
tcp_enter_quickack_mode(sk, 2);
break;
case INET_ECN_CE:
- if (tcp_ca_needs_ecn(sk))
+ if (tcp_ca_wants_ce_events(sk))
tcp_ca_event(sk, CA_EVENT_ECN_IS_CE);
if (!(tp->ecn_flags & TCP_ECN_DEMAND_CWR)) {
@@ -376,7 +376,7 @@ static void __tcp_ecn_check_ce(struct sock *sk, const struct sk_buff *skb)
tp->ecn_flags |= TCP_ECN_SEEN;
break;
default:
- if (tcp_ca_needs_ecn(sk))
+ if (tcp_ca_wants_ce_events(sk))
tcp_ca_event(sk, CA_EVENT_ECN_NO_CE);
tp->ecn_flags |= TCP_ECN_SEEN;
break;
@@ -1115,7 +1115,12 @@ static void tcp_verify_retransmit_hint(struct tcp_sock *tp, struct sk_buff *skb)
*/
static void tcp_notify_skb_loss_event(struct tcp_sock *tp, const struct sk_buff *skb)
{
+ struct sock *sk = (struct sock *)tp;
+ const struct tcp_congestion_ops *ca_ops = inet_csk(sk)->icsk_ca_ops;
+
tp->lost += tcp_skb_pcount(skb);
+ if (ca_ops->skb_marked_lost)
+ ca_ops->skb_marked_lost(sk, skb);
}
void tcp_mark_skb_lost(struct sock *sk, struct sk_buff *skb)
@@ -1496,6 +1501,17 @@ static bool tcp_shifted_skb(struct sock *sk, struct sk_buff *prev,
WARN_ON_ONCE(tcp_skb_pcount(skb) < pcount);
tcp_skb_pcount_add(skb, -pcount);
+ /* Adjust tx.in_flight as pcount is shifted from skb to prev. */
+ if (WARN_ONCE(TCP_SKB_CB(skb)->tx.in_flight < pcount,
+ "prev in_flight: %u skb in_flight: %u pcount: %u",
+ TCP_SKB_CB(prev)->tx.in_flight,
+ TCP_SKB_CB(skb)->tx.in_flight,
+ pcount))
+ TCP_SKB_CB(skb)->tx.in_flight = 0;
+ else
+ TCP_SKB_CB(skb)->tx.in_flight -= pcount;
+ TCP_SKB_CB(prev)->tx.in_flight += pcount;
+
/* When we're adding to gso_segs == 1, gso_size will be zero,
* in theory this shouldn't be necessary but as long as DSACK
* code can come after this skb later on it's better to keep
@@ -3790,7 +3806,8 @@ static void tcp_replace_ts_recent(struct tcp_sock *tp, u32 seq)
/* This routine deals with acks during a TLP episode and ends an episode by
* resetting tlp_high_seq. Ref: TLP algorithm in draft-ietf-tcpm-rack
*/
-static void tcp_process_tlp_ack(struct sock *sk, u32 ack, int flag)
+static void tcp_process_tlp_ack(struct sock *sk, u32 ack, int flag,
+ struct rate_sample *rs)
{
struct tcp_sock *tp = tcp_sk(sk);
@@ -3807,6 +3824,7 @@ static void tcp_process_tlp_ack(struct sock *sk, u32 ack, int flag)
/* ACK advances: there was a loss, so reduce cwnd. Reset
* tlp_high_seq in tcp_init_cwnd_reduction()
*/
+ tcp_ca_event(sk, CA_EVENT_TLP_RECOVERY);
tcp_init_cwnd_reduction(sk);
tcp_set_ca_state(sk, TCP_CA_CWR);
tcp_end_cwnd_reduction(sk);
@@ -3817,6 +3835,11 @@ static void tcp_process_tlp_ack(struct sock *sk, u32 ack, int flag)
FLAG_NOT_DUP | FLAG_DATA_SACKED))) {
/* Pure dupack: original and TLP probe arrived; no loss */
tp->tlp_high_seq = 0;
+ } else {
+ /* This ACK matches a TLP retransmit. We cannot yet tell if
+ * this ACK is for the original or the TLP retransmit.
+ */
+ rs->is_acking_tlp_retrans_seq = 1;
}
}
@@ -3925,6 +3948,7 @@ static int tcp_ack(struct sock *sk, const struct sk_buff *skb, int flag)
prior_fack = tcp_is_sack(tp) ? tcp_highest_sack_seq(tp) : tp->snd_una;
rs.prior_in_flight = tcp_packets_in_flight(tp);
+ tcp_rate_check_app_limited(sk);
/* ts_recent update must be made after we are sure that the packet
* is in window.
@@ -3999,7 +4023,7 @@ static int tcp_ack(struct sock *sk, const struct sk_buff *skb, int flag)
tcp_rack_update_reo_wnd(sk, &rs);
if (tp->tlp_high_seq)
- tcp_process_tlp_ack(sk, ack, flag);
+ tcp_process_tlp_ack(sk, ack, flag, &rs);
if (tcp_ack_is_dubious(sk, flag)) {
if (!(flag & (FLAG_SND_UNA_ADVANCED |
@@ -4023,6 +4047,7 @@ static int tcp_ack(struct sock *sk, const struct sk_buff *skb, int flag)
delivered = tcp_newly_delivered(sk, delivered, flag);
lost = tp->lost - lost; /* freshly marked lost */
rs.is_ack_delayed = !!(flag & FLAG_ACK_MAYBE_DELAYED);
+ rs.is_ece = !!(flag & FLAG_ECE);
tcp_rate_gen(sk, delivered, lost, is_sack_reneg, sack_state.rate);
tcp_cong_control(sk, ack, delivered, flag, sack_state.rate);
tcp_xmit_recovery(sk, rexmit);
@@ -4042,7 +4067,7 @@ static int tcp_ack(struct sock *sk, const struct sk_buff *skb, int flag)
tcp_ack_probe(sk);
if (tp->tlp_high_seq)
- tcp_process_tlp_ack(sk, ack, flag);
+ tcp_process_tlp_ack(sk, ack, flag, &rs);
return 1;
old_ack:
@@ -5714,13 +5739,14 @@ static void __tcp_ack_snd_check(struct sock *sk, int ofo_possible)
/* More than one full frame received... */
if (((tp->rcv_nxt - tp->rcv_wup) > inet_csk(sk)->icsk_ack.rcv_mss &&
+ (tp->fast_ack_mode == 1 ||
/* ... and right edge of window advances far enough.
* (tcp_recvmsg() will send ACK otherwise).
* If application uses SO_RCVLOWAT, we want send ack now if
* we have not received enough bytes to satisfy the condition.
*/
- (tp->rcv_nxt - tp->copied_seq < sk->sk_rcvlowat ||
- __tcp_select_window(sk) >= tp->rcv_wnd)) ||
+ (tp->rcv_nxt - tp->copied_seq < sk->sk_rcvlowat ||
+ __tcp_select_window(sk) >= tp->rcv_wnd))) ||
/* We ACK each frame or... */
tcp_in_quickack_mode(sk) ||
/* Protocol state mandates a one-time immediate ACK */
diff --git a/net/ipv4/tcp_minisocks.c b/net/ipv4/tcp_minisocks.c
index 0fbebf6266e9..6eb1d369c584 100644
--- a/net/ipv4/tcp_minisocks.c
+++ b/net/ipv4/tcp_minisocks.c
@@ -460,6 +460,8 @@ void tcp_ca_openreq_child(struct sock *sk, const struct dst_entry *dst)
u32 ca_key = dst_metric(dst, RTAX_CC_ALGO);
bool ca_got_dst = false;
+ tcp_set_ecn_low_from_dst(sk, dst);
+
if (ca_key != TCP_CA_UNSPEC) {
const struct tcp_congestion_ops *ca;
diff --git a/net/ipv4/tcp_output.c b/net/ipv4/tcp_output.c
index 95618d0e78e4..3f4bdd2b6476 100644
--- a/net/ipv4/tcp_output.c
+++ b/net/ipv4/tcp_output.c
@@ -336,10 +336,9 @@ static void tcp_ecn_send_syn(struct sock *sk, struct sk_buff *skb)
bool bpf_needs_ecn = tcp_bpf_ca_needs_ecn(sk);
bool use_ecn = READ_ONCE(sock_net(sk)->ipv4.sysctl_tcp_ecn) == 1 ||
tcp_ca_needs_ecn(sk) || bpf_needs_ecn;
+ const struct dst_entry *dst = __sk_dst_get(sk);
if (!use_ecn) {
- const struct dst_entry *dst = __sk_dst_get(sk);
-
if (dst && dst_feature(dst, RTAX_FEATURE_ECN))
use_ecn = true;
}
@@ -351,6 +350,9 @@ static void tcp_ecn_send_syn(struct sock *sk, struct sk_buff *skb)
tp->ecn_flags = TCP_ECN_OK;
if (tcp_ca_needs_ecn(sk) || bpf_needs_ecn)
INET_ECN_xmit(sk);
+
+ if (dst)
+ tcp_set_ecn_low_from_dst(sk, dst);
}
}
@@ -388,7 +390,8 @@ static void tcp_ecn_send(struct sock *sk, struct sk_buff *skb,
th->cwr = 1;
skb_shinfo(skb)->gso_type |= SKB_GSO_TCP_ECN;
}
- } else if (!tcp_ca_needs_ecn(sk)) {
+ } else if (!(tp->ecn_flags & TCP_ECN_ECT_PERMANENT) &&
+ !tcp_ca_needs_ecn(sk)) {
/* ACK or retransmitted segment: clear ECT|CE */
INET_ECN_dontxmit(sk);
}
@@ -1601,7 +1604,7 @@ int tcp_fragment(struct sock *sk, enum tcp_queue tcp_queue,
{
struct tcp_sock *tp = tcp_sk(sk);
struct sk_buff *buff;
- int old_factor;
+ int old_factor, inflight_prev;
long limit;
int nlen;
u8 flags;
@@ -1676,6 +1679,30 @@ int tcp_fragment(struct sock *sk, enum tcp_queue tcp_queue,
if (diff)
tcp_adjust_pcount(sk, skb, diff);
+
+ inflight_prev = TCP_SKB_CB(skb)->tx.in_flight - old_factor;
+ if (inflight_prev < 0) {
+ WARN_ONCE(tcp_skb_tx_in_flight_is_suspicious(
+ old_factor,
+ TCP_SKB_CB(skb)->sacked,
+ TCP_SKB_CB(skb)->tx.in_flight),
+ "inconsistent: tx.in_flight: %u "
+ "old_factor: %d mss: %u sacked: %u "
+ "1st pcount: %d 2nd pcount: %d "
+ "1st len: %u 2nd len: %u ",
+ TCP_SKB_CB(skb)->tx.in_flight, old_factor,
+ mss_now, TCP_SKB_CB(skb)->sacked,
+ tcp_skb_pcount(skb), tcp_skb_pcount(buff),
+ skb->len, buff->len);
+ inflight_prev = 0;
+ }
+ /* Set 1st tx.in_flight as if 1st were sent by itself: */
+ TCP_SKB_CB(skb)->tx.in_flight = inflight_prev +
+ tcp_skb_pcount(skb);
+ /* Set 2nd tx.in_flight with new 1st and 2nd pcounts: */
+ TCP_SKB_CB(buff)->tx.in_flight = inflight_prev +
+ tcp_skb_pcount(skb) +
+ tcp_skb_pcount(buff);
}
/* Link BUFF into the send queue. */
@@ -2033,13 +2060,12 @@ static u32 tcp_tso_autosize(const struct sock *sk, unsigned int mss_now,
static u32 tcp_tso_segs(struct sock *sk, unsigned int mss_now)
{
const struct tcp_congestion_ops *ca_ops = inet_csk(sk)->icsk_ca_ops;
- u32 min_tso, tso_segs;
-
- min_tso = ca_ops->min_tso_segs ?
- ca_ops->min_tso_segs(sk) :
- READ_ONCE(sock_net(sk)->ipv4.sysctl_tcp_min_tso_segs);
+ u32 tso_segs;
- tso_segs = tcp_tso_autosize(sk, mss_now, min_tso);
+ tso_segs = ca_ops->tso_segs ?
+ ca_ops->tso_segs(sk, mss_now) :
+ tcp_tso_autosize(sk, mss_now,
+ sock_net(sk)->ipv4.sysctl_tcp_min_tso_segs);
return min_t(u32, tso_segs, sk->sk_gso_max_segs);
}
@@ -2767,6 +2793,7 @@ static bool tcp_write_xmit(struct sock *sk, unsigned int mss_now, int nonagle,
skb_set_delivery_time(skb, tp->tcp_wstamp_ns, true);
list_move_tail(&skb->tcp_tsorted_anchor, &tp->tsorted_sent_queue);
tcp_init_tso_segs(skb, mss_now);
+ tcp_set_tx_in_flight(sk, skb);
goto repair; /* Skip network transmission */
}
@@ -2981,6 +3008,7 @@ void tcp_send_loss_probe(struct sock *sk)
if (WARN_ON(!skb || !tcp_skb_pcount(skb)))
goto rearm_timer;
+ tp->tlp_orig_data_app_limited = TCP_SKB_CB(skb)->tx.is_app_limited;
if (__tcp_retransmit_skb(sk, skb, 1))
goto rearm_timer;
diff --git a/net/ipv4/tcp_rate.c b/net/ipv4/tcp_rate.c
index a8f6d9d06f2e..8737f2134648 100644
--- a/net/ipv4/tcp_rate.c
+++ b/net/ipv4/tcp_rate.c
@@ -34,6 +34,24 @@
* ready to send in the write queue.
*/
+void tcp_set_tx_in_flight(struct sock *sk, struct sk_buff *skb)
+{
+ struct tcp_sock *tp = tcp_sk(sk);
+ u32 in_flight;
+
+ /* Check, sanitize, and record packets in flight after skb was sent. */
+ in_flight = tcp_packets_in_flight(tp) + tcp_skb_pcount(skb);
+ if (WARN_ONCE(in_flight > TCPCB_IN_FLIGHT_MAX,
+ "insane in_flight %u cc %s mss %u "
+ "cwnd %u pif %u %u %u %u\n",
+ in_flight, inet_csk(sk)->icsk_ca_ops->name,
+ tp->mss_cache, tp->snd_cwnd,
+ tp->packets_out, tp->retrans_out,
+ tp->sacked_out, tp->lost_out))
+ in_flight = TCPCB_IN_FLIGHT_MAX;
+ TCP_SKB_CB(skb)->tx.in_flight = in_flight;
+}
+
/* Snapshot the current delivery information in the skb, to generate
* a rate sample later when the skb is (s)acked in tcp_rate_skb_delivered().
*/
@@ -66,7 +84,9 @@ void tcp_rate_skb_sent(struct sock *sk, struct sk_buff *skb)
TCP_SKB_CB(skb)->tx.delivered_mstamp = tp->delivered_mstamp;
TCP_SKB_CB(skb)->tx.delivered = tp->delivered;
TCP_SKB_CB(skb)->tx.delivered_ce = tp->delivered_ce;
+ TCP_SKB_CB(skb)->tx.lost = tp->lost;
TCP_SKB_CB(skb)->tx.is_app_limited = tp->app_limited ? 1 : 0;
+ tcp_set_tx_in_flight(sk, skb);
}
/* When an skb is sacked or acked, we fill in the rate sample with the (prior)
@@ -91,18 +111,21 @@ void tcp_rate_skb_delivered(struct sock *sk, struct sk_buff *skb,
if (!rs->prior_delivered ||
tcp_skb_sent_after(tx_tstamp, tp->first_tx_mstamp,
scb->end_seq, rs->last_end_seq)) {
+ rs->prior_lost = scb->tx.lost;
rs->prior_delivered_ce = scb->tx.delivered_ce;
rs->prior_delivered = scb->tx.delivered;
rs->prior_mstamp = scb->tx.delivered_mstamp;
rs->is_app_limited = scb->tx.is_app_limited;
rs->is_retrans = scb->sacked & TCPCB_RETRANS;
+ rs->tx_in_flight = scb->tx.in_flight;
rs->last_end_seq = scb->end_seq;
/* Record send time of most recently ACKed packet: */
tp->first_tx_mstamp = tx_tstamp;
/* Find the duration of the "send phase" of this window: */
- rs->interval_us = tcp_stamp_us_delta(tp->first_tx_mstamp,
- scb->tx.first_tx_mstamp);
+ rs->interval_us = tcp_stamp32_us_delta(
+ tp->first_tx_mstamp,
+ scb->tx.first_tx_mstamp);
}
/* Mark off the skb delivered once it's sacked to avoid being
@@ -144,6 +167,7 @@ void tcp_rate_gen(struct sock *sk, u32 delivered, u32 lost,
return;
}
rs->delivered = tp->delivered - rs->prior_delivered;
+ rs->lost = tp->lost - rs->prior_lost;
rs->delivered_ce = tp->delivered_ce - rs->prior_delivered_ce;
/* delivered_ce occupies less than 32 bits in the skb control block */
@@ -155,7 +179,7 @@ void tcp_rate_gen(struct sock *sk, u32 delivered, u32 lost,
* longer phase.
*/
snd_us = rs->interval_us; /* send phase */
- ack_us = tcp_stamp_us_delta(tp->tcp_mstamp,
+ ack_us = tcp_stamp32_us_delta(tp->tcp_mstamp,
rs->prior_mstamp); /* ack phase */
rs->interval_us = max(snd_us, ack_us);
diff --git a/net/ipv4/tcp_timer.c b/net/ipv4/tcp_timer.c
index 4d40615dc8fc..f27941201ef2 100644
--- a/net/ipv4/tcp_timer.c
+++ b/net/ipv4/tcp_timer.c
@@ -689,6 +689,7 @@ void tcp_write_timer_handler(struct sock *sk)
return;
}
+ tcp_rate_check_app_limited(sk);
tcp_mstamp_refresh(tcp_sk(sk));
event = icsk->icsk_pending;
--
2.46.0.rc1
|