xref: /freebsd/share/man/man4/cc_dctcp.4 (revision e8d8bef961a50d4dc22501cde4fb9fb0be1b2532)
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2.\" Copyright (c) 2014 Midori Kato <katoon@sfc.wide.ad.jp>
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31.Dd May 13, 2021
32.Dt CC_DCTCP 4
33.Os
34.Sh NAME
35.Nm cc_dctcp
36.Nd DCTCP Congestion Control Algorithm
37.Sh DESCRIPTION
38The DCTCP (data center TCP) congestion control algorithm aims to maximise
39throughput and minimise latency in data center networks by utilising the
40proportion of Explicit Congestion Notification (ECN) marks received from capable
41hardware as a congestion signal.
42.Pp
43DCTCP uses fraction of ECN marked packets to update congestion window.
44The window reduction ratio is always <= 1/2.
45Only when all of the packets are
46marked, congestion window is halved.
47.Pp
48In order to keep the accuracy of the ECN marked fraction, a DCTCP receiver
49mirrors back incoming (or missing) CE marks by setting (or clearing) ECE marks.
50This feedback methodology is also adopted when the receiver uses delayed ACK.
51.Pp
52The
53.Fx
54DCTCP implementation includes two minor modifications for the one-sided
55deployment.
56Considering the situation that DCTCP is used as sender and classic
57ECN is used as receiver, DCTCP sets the CWR flag as the reaction to the ECE
58flag.
59In addition, when classic ECN is used as sender and DCTCP is used as
60receiver, DCTCP avoids to mirror back ACKs only when the CWR flag is
61set in the incoming packet.
62.Pp
63The other specifications are based on the paper and the RFC referenced
64in the
65.Sx SEE ALSO
66section below.
67.Sh MIB Variables
68The algorithm exposes the following tunable variables in the
69.Va net.inet.tcp.cc.dctcp
70branch of the
71.Xr sysctl 3
72MIB:
73.Bl -tag -width ".Va slowstart"
74.It Va alpha
75The initial value to estimate the congestion on the link.
76The valid range is from 0 to 1024, where 1024 reduces the congestion
77window to half, if a CE is observed in the first window and
78.Va alpha
79could not yet adjust to the congestion level on that path.
80Default is 1024.
81.It Va shift_g
82An estimation gain in the
83.Va alpha
84calculation.
85This influences the responsiveness when adjusting alpha
86to the most recent observed window.
87Valid range from 0 to 10, the default is 4, resulting in an effective
88gain of 1 / ( 2 ^
89.Va shift_g
90), or 1/16th.
91.It Va slowstart
92A flag if the congestion window should be reduced by one half after slow start.
93Valid settings 0 and 1, default 0.
94.El
95.Sh SEE ALSO
96.Xr cc_cdg 4 ,
97.Xr cc_chd 4 ,
98.Xr cc_cubic 4 ,
99.Xr cc_hd 4 ,
100.Xr cc_htcp 4 ,
101.Xr cc_newreno 4 ,
102.Xr cc_vegas 4 ,
103.Xr mod_cc 4 ,
104.Xr tcp 4 ,
105.Xr mod_cc 9
106.Rs
107.%A "Mohammad Alizadeh"
108.%A "Albert Greenberg"
109.%A "David A. Maltz"
110.%A "Jitendra Padhye"
111.%A "Parveen Patel"
112.%A "Balaji Prabhakar"
113.%A "Sudipta Sengupta"
114.%A "Murari Sridharan"
115.%T "Data Center TCP (DCTCP)"
116.%U "http://research.microsoft.com/pubs/121386/dctcp-public.pdf"
117.%J "ACM SIGCOMM 2010"
118.%D "July 2010"
119.%P "63-74"
120.Re
121.Rs
122.%A "Stephen Bensley"
123.%A "Dave Thaler"
124.%A "Praveen Balasubramanian"
125.%A "Lars Eggert"
126.%A "Glenn Judd"
127.%T "Data Center TCP (DCTCP): TCP Congestion Control for Data Centers"
128.%U "https://tools.ietf.org/html/rfc8257"
129.Re
130.Sh HISTORY
131The
132.Nm
133congestion control module first appeared in
134.Fx 11.0 .
135.Pp
136The module was first released in 2014 by Midori Kato studying at Keio
137University, Japan.
138.Sh AUTHORS
139.An -nosplit
140The
141.Nm
142congestion control module and this manual page were written by
143.An Midori Kato Mt katoon@sfc.wide.ad.jp
144and
145.An Lars Eggert Mt lars@netapp.com
146with help and modifications from
147.An Hiren Panchasara Mt hiren@FreeBSD.org
148