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authorNeal Cardwell <ncardwell@google.com>2018-10-16 20:16:44 -0400
committerDavid S. Miller <davem@davemloft.net>2018-10-17 22:22:53 -0700
commita87c83d5ee25cf7208279819642ae7bd218e3782 (patch)
treee311e6bf552e4a899847c49d2713626b1f621fd9 /net/decnet/netfilter
parentcb10c7c0dfd9e6fd3d69ced98b05cbd198c48cf6 (diff)
tcp_bbr: adjust TCP BBR for departure time pacing
Adjust TCP BBR for the new departure time pacing model in the recent commit ab408b6dc7449 ("tcp: switch tcp and sch_fq to new earliest departure time model"). With TSQ and pacing at lower layers, there are often several skbs queued in the pacing layer, and thus there is less data "in the network" than "in flight". With departure time pacing at lower layers (e.g. fq or potential future NICs), the data in the pacing layer now has a pre-scheduled ("baked-in") departure time that cannot be changed, even if the congestion control algorithm decides to use a new pacing rate. This means that there can be a non-trivial lag between when BBR makes a pacing rate change and when the inter-skb pacing delays change. After a pacing rate change, the number of packets in the network can gradually evolve to be higher or lower, depending on whether the sending rate is higher or lower than the delivery rate. Thus ignoring this lag can cause significant overshoot, with the flow ending up with too many or too few packets in the network. This commit changes BBR to adapt its pacing rate based on the amount of data in the network that it estimates has already been "baked in" by previous departure time decisions. We estimate the number of our packets that will be in the network at the earliest departure time (EDT) for the next skb scheduled as: in_network_at_edt = inflight_at_edt - (EDT - now) * bw If we're increasing the amount of data in the network ("in_network"), then we want to know if the transmit of the EDT skb will push in_network above the target, so our answer includes bbr_tso_segs_goal() from the skb departing at EDT. If we're decreasing in_network, then we want to know if in_network will sink too low just before the EDT transmit, so our answer does not include the segments from the skb departing at EDT. Why do we treat pacing_gain > 1.0 case and pacing_gain < 1.0 case differently? The in_network curve is a step function: in_network goes up on transmits, and down on ACKs. To accurately predict when in_network will go beyond our target value, this will happen on different events, depending on whether we're concerned about in_network potentially going too high or too low: o if pushing in_network up (pacing_gain > 1.0), then in_network goes above target upon a transmit event o if pushing in_network down (pacing_gain < 1.0), then in_network goes below target upon an ACK event This commit changes the BBR state machine to use this estimated "packets in network" value to make its decisions. Signed-off-by: Neal Cardwell <ncardwell@google.com> Signed-off-by: Yuchung Cheng <ycheng@google.com> Signed-off-by: Eric Dumazet <edumazet@google.com> Signed-off-by: David S. Miller <davem@davemloft.net>
Diffstat (limited to 'net/decnet/netfilter')
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