xref: /freebsd/share/man/man4/mod_cc.4 (revision 3332f1b444d4a73238e9f59cca27bfc95fe936bd)
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31.\" $FreeBSD$
32.\"
33.Dd August 6, 2019
34.Dt MOD_CC 4
35.Os
36.Sh NAME
37.Nm mod_cc
38.Nd Modular congestion control
39.Sh DESCRIPTION
40The modular congestion control framework allows the TCP implementation to
41dynamically change the congestion control algorithm used by new and existing
42connections.
43Algorithms are identified by a unique
44.Xr ascii 7
45name.
46Algorithm modules can be compiled into the kernel or loaded as kernel modules
47using the
48.Xr kld 4
49facility.
50.Pp
51The default algorithm is NewReno, and all connections use the default unless
52explicitly overridden using the
53.Dv TCP_CONGESTION
54socket option (see
55.Xr tcp 4
56for details).
57The default can be changed using a
58.Xr sysctl 3
59MIB variable detailed in the
60.Sx MIB Variables
61section below.
62.Pp
63Algorithm specific parameters can be set or queried using the
64.Dv TCP_CCALGOOPT
65socket option (see
66.Xr tcp 4
67for details).
68Callers must pass a pointer to an algorithm specific data, and specify
69its size.
70.Pp
71Unloading a congestion control module will fail if it is used as a
72default by any Vnet.
73When unloading a module, the Vnet default is
74used to switch a connection to an alternate congestion control.
75Note that the new congestion control module may fail to initialize its
76internal memory, if so it will fail the module unload.
77If this occurs often times retrying the unload will succeed since the temporary
78memory shortage as the new CC module malloc's memory, that prevented the
79switch is often transient.
80.Sh MIB Variables
81The framework exposes the following variables in the
82.Va net.inet.tcp.cc
83branch of the
84.Xr sysctl 3
85MIB:
86.Bl -tag -width ".Va abe_frlossreduce"
87.It Va available
88Read-only list of currently available congestion control algorithms by name.
89.It Va algorithm
90Returns the current default congestion control algorithm when read, and changes
91the default when set.
92When attempting to change the default algorithm, this variable should be set to
93one of the names listed by the
94.Va net.inet.tcp.cc.available
95MIB variable.
96.It Va abe
97Enable support for RFC 8511,
98which alters the window decrease factor applied to the congestion window in
99response to an ECN congestion signal.
100Refer to individual congestion control man pages to determine if they implement
101support for ABE and for configuration details.
102.It Va abe_frlossreduce
103If non-zero, apply standard beta instead of ABE-beta during ECN-signalled
104congestion recovery episodes if loss also needs to be repaired.
105.El
106.Pp
107Each congestion control module may also expose other MIB variables
108to control their behaviour.
109.Sh Kernel Configuration
110.Pp
111All of the available congestion control modules may also be loaded
112via kernel configutation options.
113A kernel configuration is required to have at least one congestion control
114algorithm built into it via kernel option and a system default specified.
115Compilation of the kernel will fail if these two conditions are not met.
116.Sh Kernel Configuration Options
117The framework exposes the following kernel configuration options.
118.Bl -tag -width ".Va CC_NEWRENO"
119.It Va CC_NEWRENO
120This directive loads the newreno congestion control algorithm and is included
121in GENERIC by default.
122.It Va CC_CUBIC
123This directive loads the cubic congestion control algorithm.
124.It Va CC_VEGAS
125This directive loads the vegas congestion control algorithm, note that
126this algorithm also requires the TCP_HHOOK option as well.
127.It Va CC_CDG
128This directive loads the cdg congestion control algorithm, note that
129this algorithm also requires the TCP_HHOOK option as well.
130.It Va CC_DCTCP
131This directive loads the dctcp congestion control algorithm.
132.It Va CC_HD
133This directive loads the hd congestion control algorithm, note that
134this algorithm also requires the TCP_HHOOK option as well.
135.It Va CC_CHD
136This directive loads the chd congestion control algorithm, note that
137this algorithm also requires the TCP_HHOOK option as well.
138.It Va CC_HTCP
139This directive loads the htcp congestion control algorithm.
140.It Va CC_DEFAULT
141This directive specifies the string that represents the name of the system default algorithm, the GENERIC kernel
142defaults this to newreno.
143.El
144.Sh SEE ALSO
145.Xr cc_cdg 4 ,
146.Xr cc_chd 4 ,
147.Xr cc_cubic 4 ,
148.Xr cc_dctcp 4 ,
149.Xr cc_hd 4 ,
150.Xr cc_htcp 4 ,
151.Xr cc_newreno 4 ,
152.Xr cc_vegas 4 ,
153.Xr tcp 4 ,
154.Xr config 5 ,
155.Xr config 8 ,
156.Xr mod_cc 9
157.Sh ACKNOWLEDGEMENTS
158Development and testing of this software were made possible in part by grants
159from the FreeBSD Foundation and Cisco University Research Program Fund at
160Community Foundation Silicon Valley.
161.Sh HISTORY
162The
163.Nm
164modular congestion control framework first appeared in
165.Fx 9.0 .
166.Pp
167The framework was first released in 2007 by James Healy and Lawrence Stewart
168whilst working on the NewTCP research project at Swinburne University of
169Technology's Centre for Advanced Internet Architectures, Melbourne, Australia,
170which was made possible in part by a grant from the Cisco University Research
171Program Fund at Community Foundation Silicon Valley.
172More details are available at:
173.Pp
174http://caia.swin.edu.au/urp/newtcp/
175.Sh AUTHORS
176.An -nosplit
177The
178.Nm
179facility was written by
180.An Lawrence Stewart Aq Mt lstewart@FreeBSD.org ,
181.An James Healy Aq Mt jimmy@deefa.com
182and
183.An David Hayes Aq Mt david.hayes@ieee.org .
184.Pp
185This manual page was written by
186.An David Hayes Aq Mt david.hayes@ieee.org
187and
188.An Lawrence Stewart Aq Mt lstewart@FreeBSD.org .
189