xref: /freebsd/share/man/man4/ktls.4 (revision ec0ea6efa1ad229d75c394c1a9b9cac33af2b1d3)
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34.Dd December 14, 2021
35.Dt KTLS 4
36.Os
37.Sh NAME
38.Nm ktls
39.Nd kernel Transport Layer Security
40.Sh SYNOPSIS
41.Cd options KERN_TLS
42.Sh DESCRIPTION
43The
44.Nm
45facility allows the kernel to perform Transport Layer Security (TLS)
46framing on TCP sockets.
47With
48.Nm ,
49the initial handshake for a socket using TLS is performed in userland.
50Once the session keys are negotiated,
51they are provided to the kernel via the
52.Dv TCP_TXTLS_ENABLE
53and
54.Dv TCP_RXTLS_ENABLE
55socket options.
56Both socket options accept a
57.Vt struct tls_enable
58structure as their argument.
59The members of this structure describe the cipher suite used for the
60TLS session and provide the session keys used for the respective
61direction.
62.Pp
63.Nm
64only permits the session keys to be set once in each direction.
65As a result,
66applications must disable rekeying when using
67.Nm .
68.Ss Modes
69.Nm
70can operate in different modes.
71A given socket may use different modes for transmit and receive,
72or a socket may only offload a single direction.
73The available modes are:
74.Bl -tag -width "Dv TCP_TLS_MODE_IFNET"
75.It Dv TCP_TLS_MODE_NONE
76.Nm
77is not enabled.
78.It Dv TCP_TLS_MODE_SW
79TLS records are encrypted or decrypted in the kernel in the socket
80layer via
81.Xr crypto 9 .
82Typically the encryption or decryption is performed in software,
83but it may also be performed by co-processors.
84.It Dv TCP_TLS_MODE_IFNET
85TLS records are encrypted or decrypted by the network interface card (NIC).
86In this mode, the network stack does not work with encrypted data.
87Instead, the NIC encrypts TLS records as they are being transmitted,
88or decrypts received TLS records before providing them to the host.
89.Pp
90Network interfaces which support this feature will advertise the
91.Dv TXTLS4
92(for IPv4)
93and/or
94.Dv TXTLS6
95(for IPv6)
96capabilities as reported by
97.Xr ifconfig 8 .
98These capabilities can also be controlled by
99.Xr ifconfig 8 .
100.Pp
101If a network interface supports rate limiting
102(also known as packet pacing) for TLS offload,
103the interface will advertise the
104.Dv TXTLS_RTLMT
105capability.
106.It Dv TCP_TLS_MODE_TOE
107TLS records are encrypted by the NIC using a TCP offload engine (TOE).
108This is similar to
109.Dv TCP_TLS_MODE_IFNET
110in that the network stack does not work with encrypted data.
111However, this mode works in tandem with a TOE to handle interactions
112between TCP and TLS.
113.El
114.Ss Transmit
115Once TLS transmit is enabled by a successful set of the
116.Dv TCP_TXTLS_ENABLE
117socket option,
118all data written on the socket is stored in TLS records and encrypted.
119Most data is transmitted in application layer TLS records,
120and the kernel chooses how to partition data among TLS records.
121Individual TLS records with a fixed length and record type can be sent
122by
123.Xr sendmsg 2
124with the TLS record type set in a
125.Dv TLS_SET_RECORD_TYPE
126control message.
127The payload of this control message is a single byte holding the desired
128TLS record type.
129This can be used to send TLS records with a type other than
130application data (for example, handshake messages) or to send
131application data records with specific contents (for example, empty
132fragments).
133.Pp
134The current TLS transmit mode of a socket can be queried via the
135.Dv TCP_TXTLS_MODE
136socket option.
137A socket using TLS transmit offload can also set the
138.Dv TCP_TXTLS_MODE
139socket option to toggle between
140.Dv TCP_TLS_MODE_SW
141and
142.Dv TCP_TLS_MODE_IFNET .
143.Ss Receive
144Once TLS receive is enabled by a successful set of the
145.Dv TCP_RXTLS_ENABLE
146socket option,
147all data read from the socket is returned as decrypted TLS records.
148Each received TLS record must be read from the socket using
149.Xr recvmsg 2 .
150Each received TLS record will contain a
151.Dv TLS_GET_RECORD
152control message along with the decrypted payload.
153The control message contains a
154.Vt struct tls_get_record
155which includes fields from the TLS record header.
156If an invalid or corrupted TLS record is received,
157.Xr recvmsg 2
158will fail with one of the following errors:
159.Bl -tag -width Er
160.It Bq Er EINVAL
161The version fields in a TLS record's header did not match the version required
162by the
163.Vt struct tls_enable
164structure used to enable in-kernel TLS.
165.It Bq Er EMSGSIZE
166A TLS record's length was either too small or too large.
167.It Bq Er EMSGSIZE
168The connection was closed after sending a truncated TLS record.
169.It Bq Er EBADMSG
170The TLS record failed to match the included authentication tag.
171.El
172.Pp
173The current TLS receive mode of a socket can be queried via the
174.Dv TCP_RXTLS_MODE
175socket option.
176At present,
177the mode cannot be changed.
178.Ss Sysctl Nodes
179.Nm
180uses several sysctl nodes under the
181.Va kern.ipc.tls
182node.
183A few of them are described below:
184.Bl -tag -width ".Va kern.ipc.tls.cbc_enable"
185.It Va kern.ipc.tls.enable
186Determines if new kernel TLS sessions can be created.
187.It Va kern.ipc.tls.cbc_enable
188Determines if new kernel TLS sessions with a cipher suite using AES-CBC
189can be created.
190.It Va kern.ipc.tls.sw
191A tree of nodes containing statistics for TLS sessions using
192.Dv TCP_TLS_MODE_SW .
193.It Va kern.ipc.tls.ifnet
194A tree of nodes containing statistics for TLS sessions using
195.Dv TCP_TLS_MODE_IFNET .
196.It Va kern.ipc.tls.toe
197A tree of nodes containing statistics for TLS sessions using
198.Dv TCP_TLS_MODE_TOE .
199.It Va kern.ipc.tls.stats
200A tree of nodes containing various kernel TLS statistics.
201.El
202.Pp
203The
204.Va kern.ipc.mb_use_ext_pgs
205sysctl controls whether the kernel may use unmapped mbufs.
206They are required for TLS transmit.
207.Ss Supported Hardware
208The
209.Xr cxgbe 4
210and
211.Xr mlx5en 4
212drivers include support for the
213.Dv TCP_TLS_MODE_IFNET
214mode.
215.Pp
216The
217.Xr cxgbe 4
218driver includes support for the
219.Dv TCP_TLS_MODE_TOE
220mode.
221.Ss Supported Libraries
222OpenSSL 3.0 and later include support for
223.Nm .
224The
225.Fa security/openssl-devel
226port may also be built with support for
227.Nm
228by enabling the
229.Dv KTLS
230option.
231OpenSSL in the base system includes KTLS support when built with
232.Dv WITH_OPENSSL_KTLS .
233.Pp
234Applications using a supported library should generally work with
235.Nm
236without any changes provided they use standard interfaces such as
237.Xr SSL_read 3
238and
239.Xr SSL_write 3 .
240Additional performance may be gained by the use of
241.Xr SSL_sendfile 3 .
242.Sh IMPLEMENTATION NOTES
243.Nm
244assumes the presence of a direct map of physical memory when performing
245software encryption and decryption.
246As a result, it is only supported on architectures with a direct map.
247.Sh SEE ALSO
248.Xr cxgbe 4 ,
249.Xr mlx5en 4 ,
250.Xr tcp 4 ,
251.Xr src.conf 5 ,
252.Xr ifconfig 8 ,
253.Xr sysctl 8 ,
254.Xr crypto 9
255.Sh HISTORY
256Kernel TLS first appeared in
257.Fx 13.0 .
258