1OCSERV(8) OCSERV(8)
2
6 ocserv - OpenConnect VPN server
7
9 ocserv options -c [config]
10 Openconnect VPN server (ocserv) is a VPN server compatible with the
12 openconnect VPN client. It follows the AnyConnect VPN protocol which is
13 used by several CISCO routers.
14
16 This a standalone server that reads a configuration file (see below for
17 more details), and waits for client connections. Log messages are redi‐
18 rected to daemon facility.
19 The server maintains two connections/channels with the client. The main
21 VPN channel is established over TCP, HTTP and TLS. This is the control
22 channel as well as the backup data channel. After its establishment a
23 UDP channel using DTLS is initiated which serves as the main data chan‐
24 nel. If the UDP channel fails to establish or is temporarily unavail‐
25 able the backup channel over TCP/TLS is being used.
26 This server supports multiple authentication methods, including PAM and
28 certificate authentication. Authenticated users are assigned an unpriv‐
29 ileged worker process and obtain a networking (tun) device and an IP
30 from a configurable pool of addresses.
31 Once authenticated, the server provides the client with an IP address
33 and a list of routes that it may access. In order to allow high-speed
34 transfers the server does not process or filter packets. It is expected
35 that the server has or will set up any required routes or firewall
36 rules.
37 It is possible to separate users into groups, which are either present
39 on their certificate, or presented on login for the user to choose.
40 That way a user may take advantage of the different settings that may
41 apply per group. See the comments on the configuration file for more
42 information.
43 It is also possible to run hostname-based virtual servers which could
45 support different authentication methods. When multiple virtual servers
46 are present clients are distinguished by the advertised server name
47 over TLS (SNI). Clients which do not support or sent SNI, are directed
48 to the default server.
49
51 -f, --foreground:
52 Do not fork server into background.
53 -d, --debug=num:
55 Enable verbose network debugging information. num must be
56 between zero and 9999.
57 -c, --config=FILE:
59 Specify the configuration file for the server.
60 -t, --test-config:
62 Test the provided configuration file and exit. A successful exit
63 error code indicates a valid configuration.
64 -p, --pid-file=FILE:
66 Specify a PID file for the server.
67 -h, --help:
69 Display usage information and exit.
70 -v, --version:
72 Output version of program and exit.
73
75 Users can be authenticated in multiple ways, which are explained in the
76 following paragraphs. Connected users can be managed using the occtl
77 tool.
78 Password authentication
80 If your system supports Pluggable Authentication Modules (PAM), then
81 ocserv will take advantage of it to password authenticate its users.
82 Otherwise a plain password file similar to the UNIX password file is
83 also supported. In that case the ´ocpasswd´ tool can be used for its
84 management. Note that password authentication can be used in conjunc‐
85 tion with certificate authentication.
86 GSSAPI authentication
88 ocserv will take advantage of the MIT Kerberos project GSSAPI
89 libraries, and allow authentication using any method GSSAPI supports.
90 That is, mainly, Kerberos authentication. That is often more useful to
91 be combined with PAM or other password authentication methods so that a
92 fallback mechanism can be used when GSSAPI fails (e.g., when the user
93 doesn´t already have a Kerberos ticket). The GSSAPI authentication is
94 implemented using SPNEGO over HTTP (RFC4559).
95 Public key (certificate) authentication
97 Public key authentication allows the user to be authenticated by the
98 possession of the private key that corresponds to a known to the server
99 public key. That allows the usage of common smart cards for user
100 authentication.
101 In ocserv, a certificate authority (CA) is used to sign the client cer‐
103 tificates. That certificate authority can be local, used only by the
104 server to sign its user´s known public keys which are then given to
105 users in a form of certificates. That authority need also provide a CRL
106 to allow the server to reject the revoked clients (see ca-cert, crl).
107 In certificate authentication each client presents a certificate and
109 signs data provided by the server, as part of TLS authentication, to
110 prove his possession of the corresponding private key. The certificate
111 need also contain user identifying information, for example, the user
112 ID of the client must be embedded in the certificate´s Distinguished
113 Name (DN), i.e., in the Common Name, or UID fields. For the server to
114 read the name, the cert-user-oid configuration option must be set.
115 The following examples demonstrate how to use certtool from GnuTLS to
117 generate such CA.
118 Generating the CA
120 $ certtool --generate-privkey --outfile ca-key.pem
121 $ cat << _EOF_ >ca.tmpl
122 cn = "VPN CA"
123 organization = "Big Corp"
124 serial = 1
125 expiration_days = -1
126 ca
127 signing_key
128 cert_signing_key
129 crl_signing_key
130 _EOF_
131 $ certtool --generate-self-signed --load-privkey ca-key.pem \
133 --template ca.tmpl --outfile ca-cert.pem
134 Generating a local server certificate
136 The following example generates the server key and certificate pair.
137 The key generated is an RSA one, but different types can be used by
138 specifying the ´ecdsa´ or ´dsa´ options to certtool.
139 $ certtool --generate-privkey --outfile server-key.pem
143 $ cat << _EOF_ >server.tmpl
144 cn = "VPN server"
145 dns_name = "www.example.com"
146 dns_name = "vpn1.example.com"
147 #ip_address = "1.2.3.4"
148 organization = "MyCompany"
149 expiration_days = -1
150 signing_key
151 encryption_key #only if the generated key is an RSA one
152 tls_www_server
153 _EOF_
154 $ certtool --generate-certificate --load-privkey server-key.pem \
156 --load-ca-certificate ca-cert.pem --load-ca-privkey ca-key.pem \
157 --template server.tmpl --outfile server-cert.pem
158 From this point the clients need ca-cert.pem to be able to securely
162 connect to the server.
163 Note that it is a better practice to use two separate RSA keys, one
165 with the signing_key option and another with the encryption_key.
166 Generating an external CA-signed server certificate
168 $ certtool --generate-privkey --outfile server-key.pem
169 $ cat << _EOF_ >server.tmpl
170 cn = "My server"
171 dns_name = "www.example.com"
172 organization = "MyCompany"
173 expiration_days = -1
174 signing_key
175 encryption_key #only if the generated key is an RSA one
176 tls_www_server
177 _EOF_
178 $ certtool --generate-request --load-privkey server-key.pem \
179 --template server.tmpl --outfile server-cert.csr
180 At this point you need to provide the server-cert.csr to your CA, and
182 they will send you the server certificate.
183 Generating the client certificates
185 Note that it is recommended to leave detailed personal information out
186 of the certificate as it is sent in clear during TLS authentication.
187 The following process generates a certificate and converts it to PKCS
188 #12 that is protected by a PIN and most clients are able to import (the
189 3DES cipher is used in the example because it is supported by far more
190 devices than AES).
191 $ certtool --generate-privkey --outfile user-key.pem
195 $ cat << _EOF_ >user.tmpl
196 cn = "user"
197 unit = "admins"
198 expiration_days = 365
199 signing_key
200 tls_www_client
201 _EOF_
202 $ certtool --generate-certificate --load-privkey user-key.pem \
203 --load-ca-certificate ca-cert.pem --load-ca-privkey ca-key.pem \
204 --template user.tmpl --outfile user-cert.pem
205 $ certtool --to-p12 --load-privkey user-key.pem \
207 --pkcs-cipher 3des-pkcs12 \
208 --load-certificate user-cert.pem \
209 --outfile user.p12 --outder
210 Revoking a client certificate
214 To revoke the previous client certificate, i.e., preventing the user
215 from accessing the VPN resources prior to its certificate expiration,
216 use:
217 $ cat << _EOF_ >crl.tmpl
221 crl_next_update = 365
222 crl_number = 1
223 _EOF_
224 $ cat user-cert.pem >>revoked.pem
225 $ certtool --generate-crl --load-ca-privkey ca-key.pem \
226 --load-ca-certificate ca-cert.pem --load-certificate revoked.pem \
227 --template crl.tmpl --outfile crl.pem
228 After that you may want to notify ocserv of the new CRL by using the
232 HUP signal, or wait for it to reload it.
233 When there are no revoked certificates an empty revocation list should
235 be generated as follows.
236 $ certtool --generate-crl --load-ca-privkey ca-key.pem \
240 --load-ca-certificate ca-cert.pem \
241 --template crl.tmpl --outfile crl.pem
242
246 Note that while this server utilizes privilege separation and all
247 authentication occurs on the security module, this does not apply for
248 TLS client certificate authentication. That is due to TLS protocol lim‐
249 itation.
250
252 In certain setups, where a firewall may be blocking ICMP responses,
253 setting the MSS of TCP connections to MTU will eliminate the "black
254 hole" connection issues. See http://lartc.org/howto/lartc.cook‐
255 book.mtu-mss.html for instructions to enable it on a Linux system.
256
258 ocserv´s configuration file format
259 By default, if no other file is specified, ocserv looks for its config‐
260 uration file at /etc/ocserv/ocserv.conf. An example configuration file
261 follows.
262 ### The following directives do not change with server reload.
266 # User authentication method. To require multiple methods to be
268 # used for the user to login, add multiple auth directives. The values
269 # in the ´auth´ directive are AND composed (if multiple all must
270 # succeed).
271 # Available options: certificate, plain, pam, radius, gssapi.
272 # Note that authentication methods utilizing passwords cannot be
273 # combined (e.g., the plain, pam or radius methods).
274 # certificate:
276 # This indicates that all connecting users must present a certificate.
277 # The username and user group will be then extracted from it (see
278 # cert-user-oid and cert-group-oid). The certificate to be accepted
279 # it must be signed by the CA certificate as specified in ´ca-cert´ and
280 # it must not be listed in the CRL, as specified by the ´crl´ option.
281 #
282 # pam[gid-min=1000]:
283 # This enabled PAM authentication of the user. The gid-min option is used
284 # by auto-select-group option, in order to select the minimum valid group ID.
285 #
286 # plain[passwd=/etc/ocserv/ocpasswd,otp=/etc/ocserv/users.otp]
287 # The plain option requires specifying a password file which contains
288 # entries of the following format.
289 # "username:groupname1,groupname2:encoded-password"
290 # One entry must be listed per line, and ´ocpasswd´ should be used
291 # to generate password entries. The ´otp´ suboption allows one to specify
292 # an oath password file to be used for one time passwords; the format of
293 # the file is described in https://github.com/archiecobbs/mod-authn-otp/wiki/UsersFile
294 #
295 # radius[config=/etc/radiusclient/radiusclient.conf,groupconfig=true,nas-identifier=name]:
296 # The radius option requires specifying freeradius-client configuration
297 # file. If the groupconfig option is set, then config-per-user/group will be overridden,
298 # and all configuration will be read from radius. That also includes the
299 # Acct-Interim-Interval, and Session-Timeout values.
300 #
301 # See doc/README-radius.md for the supported radius configuration atributes.
302 #
303 # gssapi[keytab=/etc/key.tab,require-local-user-map=true,tgt-freshness-time=900]
304 # The gssapi option allows one to use authentication methods supported by GSSAPI,
305 # such as Kerberos tickets with ocserv. It should be best used as an alternative
306 # to PAM (i.e., have pam in auth and gssapi in enable-auth), to allow users with
307 # tickets and without tickets to login. The default value for require-local-user-map
308 # is true. The ´tgt-freshness-time´ if set, it would require the TGT tickets presented
309 # to have been issued within the provided number of seconds. That option is used to
310 # restrict logins even if the KDC provides long time TGT tickets.
311 #auth = "pam"
313 #auth = "pam[gid-min=1000]"
314 #auth = "plain[passwd=./sample.passwd,otp=./sample.otp]"
315 auth = "plain[passwd=./sample.passwd]"
316 #auth = "certificate"
317 #auth = "radius[config=/etc/radiusclient/radiusclient.conf,groupconfig=true]"
318 # Specify alternative authentication methods that are sufficient
320 # for authentication. That is, if set, any of the methods enabled
321 # will be sufficient to login, irrespective of the main ´auth´ entries.
322 # When multiple options are present, they are OR composed (any of them
323 # succeeding allows login).
324 #enable-auth = "certificate"
325 #enable-auth = "gssapi"
326 #enable-auth = "gssapi[keytab=/etc/key.tab,require-local-user-map=true,tgt-freshness-time=900]"
327 # Accounting methods available:
329 # radius: can be combined with any authentication method, it provides
330 # radius accounting to available users (see also stats-report-time).
331 #
332 # pam: can be combined with any authentication method, it provides
333 # a validation of the connecting user´s name using PAM. It is
334 # superfluous to use this method when authentication is already
335 # PAM.
336 #
337 # Only one accounting method can be specified.
338 #acct = "radius[config=/etc/radiusclient/radiusclient.conf]"
339 # Use listen-host to limit to specific IPs or to the IPs of a provided
341 # hostname.
342 #listen-host = [IP|HOSTNAME]
343 # When the server has a dynamic DNS address (that may change),
345 # should set that to true to ask the client to resolve again on
346 # reconnects.
347 #listen-host-is-dyndns = true
348 # TCP and UDP port number
350 tcp-port = 443
351 udp-port = 443
352 # Accept connections using a socket file. It accepts HTTP
354 # connections (i.e., without SSL/TLS unlike its TCP counterpart),
355 # and uses it as the primary channel. That option is experimental
356 # and it has many known issues.
357 # * It can only be combined with certificate authentication, when receiving
358 # channel information through proxy protocol (see listen-proxy-proto)
359 # * It cannot derive any keys needed for the DTLS session (hence no support for dtls-psk)
360 # * It cannot enforce the framing of the SSL/TLS packets, and that
361 # breaks assumptions held by several openconnect clients.
362 # This option is not recommended for use, and may be removed
363 # in the future.
364 #
365 #listen-clear-file = /var/run/ocserv-conn.socket
366 # The user the worker processes will be run as. It should be
368 # unique (no other services run as this user).
369 run-as-user = nobody
370 run-as-group = daemon
371 # socket file used for IPC with occtl. You only need to set that,
373 # if you use more than a single servers.
374 #occtl-socket-file = /var/run/occtl.socket
375 # socket file used for server IPC (worker-main), will be appended with .PID
377 # It must be accessible within the chroot environment (if any), so it is best
378 # specified relatively to the chroot directory.
379 socket-file = /var/run/ocserv-socket
380 # The default server directory. Does not require any devices present.
382 #chroot-dir = /var/lib/ocserv
383 # The key and the certificates of the server
385 # The key may be a file, or any URL supported by GnuTLS (e.g.,
386 # tpmkey:uuid=xxxxxxx-xxxx-xxxx-xxxx-xxxxxxxx;storage=user
387 # or pkcs11:object=my-vpn-key;object-type=private)
388 #
389 # The server-cert file may contain a single certificate, or
390 # a sorted certificate chain.
391 # There may be multiple server-cert and server-key directives,
392 # but each key should correspond to the preceding certificate.
393 # The certificate files will be reloaded when changed allowing for in-place
394 # certificate renewal (they are checked and reloaded periodically;
395 # a SIGHUP signal to main server will force reload).
396 #server-cert = /etc/ocserv/server-cert.pem
398 #server-key = /etc/ocserv/server-key.pem
399 server-cert = ../tests/certs/server-cert.pem
400 server-key = ../tests/certs/server-key.pem
401 # Diffie-Hellman parameters. Only needed if for old (pre 3.6.0
403 # versions of GnuTLS for supporting DHE ciphersuites.
404 # Can be generated using:
405 # certtool --generate-dh-params --outfile /etc/ocserv/dh.pem
406 #dh-params = /etc/ocserv/dh.pem
407 # In case PKCS #11, TPM or encrypted keys are used the PINs should be available
409 # in files. The srk-pin-file is applicable to TPM keys only, and is the
410 # storage root key.
411 #pin-file = /etc/ocserv/pin.txt
412 #srk-pin-file = /etc/ocserv/srkpin.txt
413 # The password or PIN needed to unlock the key in server-key file.
415 # Only needed if the file is encrypted or a PKCS #11 object. This
416 # is an alternative method to pin-file.
417 #key-pin = 1234
418 # The SRK PIN for TPM.
420 # This is an alternative method to srk-pin-file.
421 #srk-pin = 1234
422 # The Certificate Authority that will be used to verify
424 # client certificates (public keys) if certificate authentication
425 # is set.
426 #ca-cert = /etc/ocserv/ca.pem
427 ca-cert = ../tests/certs/ca.pem
428 ### All configuration options below this line are reloaded on a SIGHUP.
431 ### The options above, will remain unchanged. Note however, that the
432 ### server-cert, server-key, dh-params and ca-cert options will be reloaded
433 ### if the provided file changes, on server reload. That allows certificate
434 ### rotation, but requires the server key to remain the same for seamless
435 ### operation. If the server key changes on reload, there may be connection
436 ### failures during the reloading time.
437 # Whether to enable seccomp/Linux namespaces worker isolation. That restricts the number of
440 # system calls allowed to a worker process, in order to reduce damage from a
441 # bug in the worker process. It is available on Linux systems at a performance cost.
442 # The performance cost is roughly 2% overhead at transfer time (tested on a Linux 3.17.8).
443 # Note however, that process isolation is restricted to the specific libc versions
444 # the isolation was tested at. If you get random failures on worker processes, try
445 # disabling that option and report the failures you, along with system and debugging
446 # information at: https://gitlab.com/ocserv/ocserv/issues
447 isolate-workers = true
448 # A banner to be displayed on clients
450 #banner = "Welcome"
451 # Limit the number of clients. Unset or set to zero for unlimited.
453 #max-clients = 1024
454 max-clients = 16
455 # Limit the number of identical clients (i.e., users connecting
457 # multiple times). Unset or set to zero for unlimited.
458 max-same-clients = 2
459 # When the server receives connections from a proxy, like haproxy
461 # which supports the proxy protocol, set this to obtain the correct
462 # client addresses. The proxy protocol would then be expected in
463 # the TCP or UNIX socket (not the UDP one). Although both v1
464 # and v2 versions of proxy protocol are supported, the v2 version
465 # is recommended as it is more efficient in parsing.
466 #listen-proxy-proto = true
467 # Limit the number of client connections to one every X milliseconds
469 # (X is the provided value). Set to zero for no limit.
470 #rate-limit-ms = 100
471 # Stats report time. The number of seconds after which each
473 # worker process will report its usage statistics (number of
474 # bytes transferred etc). This is useful when accounting like
475 # radius is in use.
476 #stats-report-time = 360
477 # Stats reset time. The period of time statistics kept by main/sec-mod
479 # processes will be reset. These are the statistics shown by cmd
480 # ´occtl show stats´. For daily: 86400, weekly: 604800
481 # This is unrelated to stats-report-time.
482 server-stats-reset-time = 604800
483 # Keepalive in seconds
485 keepalive = 32400
486 # Dead peer detection in seconds.
488 # Note that when the client is behind a NAT this value
489 # needs to be short enough to prevent the NAT disassociating
490 # his UDP session from the port number. Otherwise the client
491 # could have his UDP connection stalled, for several minutes.
492 dpd = 90
493 # Dead peer detection for mobile clients. That needs to
495 # be higher to prevent such clients being awaken too
496 # often by the DPD messages, and save battery.
497 # The mobile clients are distinguished from the header
498 # ´X-AnyConnect-Identifier-Platform´.
499 mobile-dpd = 1800
500 # If using DTLS, and no UDP traffic is received for this
502 # many seconds, attempt to send future traffic over the TCP
503 # connection instead, in an attempt to wake up the client
504 # in the case that there is a NAT and the UDP translation
505 # was deleted. If this is unset, do not attempt to use this
506 # recovery mechanism.
507 switch-to-tcp-timeout = 25
508 # MTU discovery (DPD must be enabled)
510 try-mtu-discovery = false
511 # If you have a certificate from a CA that provides an OCSP
513 # service you may provide a fresh OCSP status response within
514 # the TLS handshake. That will prevent the client from connecting
515 # independently on the OCSP server.
516 # You can update this response periodically using:
517 # ocsptool --ask --load-cert=your_cert --load-issuer=your_ca --outfile response
518 # Make sure that you replace the following file in an atomic way.
519 #ocsp-response = /etc/ocserv/ocsp.der
520 # The object identifier that will be used to read the user ID in the client
522 # certificate. The object identifier should be part of the certificate´s DN
523 # Useful OIDs are:
524 # CN = 2.5.4.3, UID = 0.9.2342.19200300.100.1.1, SAN(rfc822name)
525 cert-user-oid = 0.9.2342.19200300.100.1.1
526 # The object identifier that will be used to read the user group in the
528 # client certificate. The object identifier should be part of the certificate´s
529 # DN. If the user may belong to multiple groups, then use multiple such fields
530 # in the certificate´s DN. Useful OIDs are:
531 # OU (organizational unit) = 2.5.4.11
532 #cert-group-oid = 2.5.4.11
533 # The revocation list of the certificates issued by the ´ca-cert´ above.
535 # See the manual to generate an empty CRL initially. The CRL will be reloaded
536 # periodically when ocserv detects a change in the file. To force a reload use
537 # SIGHUP.
538 #crl = /etc/ocserv/crl.pem
539 # Uncomment this to enable compression negotiation (LZS, LZ4).
541 #compression = true
542 # Set the minimum size under which a packet will not be compressed.
544 # That is to allow low-latency for VoIP packets. The default size
545 # is 256 bytes. Modify it if the clients typically use compression
546 # as well of VoIP with codecs that exceed the default value.
547 #no-compress-limit = 256
548 # GnuTLS priority string; note that SSL 3.0 is disabled by default
550 # as there are no openconnect (and possibly anyconnect clients) using
551 # that protocol. The string below does not enforce perfect forward
552 # secrecy, in order to be compatible with legacy clients.
553 #
554 # Note that the most performant ciphersuites are the moment are the ones
555 # involving AES-GCM. These are very fast in x86 and x86-64 hardware, and
556 # in addition require no padding, thus taking full advantage of the MTU.
557 # For that to be taken advantage of, the openconnect client must be
558 # used, and the server must be compiled against GnuTLS 3.2.7 or later.
559 # Use "gnutls-cli --benchmark-tls-ciphers", to see the performance
560 # difference with AES_128_CBC_SHA1 (the default for anyconnect clients)
561 # in your system.
562 tls-priorities = "NORMAL:%SERVER_PRECEDENCE:%COMPAT:-VERS-SSL3.0"
564 # More combinations in priority strings are available, check
566 # http://gnutls.org/manual/html_node/Priority-Strings.html
567 # E.g., the string below enforces perfect forward secrecy (PFS)
568 # on the main channel.
569 #tls-priorities = "NORMAL:%SERVER_PRECEDENCE:%COMPAT:-RSA:-VERS-SSL3.0:-ARCFOUR-128"
570 # That option requires the established DTLS channel to use the same
572 # cipher as the primary TLS channel. This cannot be combined with
573 # listen-clear-file since the ciphersuite information is not available
574 # in that configuration. Note also, that this option implies that
575 # dtls-legacy option is false; this option cannot be enforced
576 # in the legacy/compat protocol.
577 #match-tls-dtls-ciphers = true
578 # The time (in seconds) that a client is allowed to stay connected prior
580 # to authentication
581 auth-timeout = 240
582 # The time (in seconds) that a client is allowed to stay idle (no traffic)
584 # before being disconnected. Unset to disable.
585 #idle-timeout = 1200
586 # The time (in seconds) that a client is allowed to stay connected
588 # Unset to disable. When set a client will be disconnected after being
589 # continuously connected for this amount of time, and its cookies will
590 # be invalidated (i.e., re-authentication will be required).
591 #session-timeout = 86400
592 # The time (in seconds) that a mobile client is allowed to stay idle (no
594 # traffic) before being disconnected. Unset to disable.
595 #mobile-idle-timeout = 2400
596 # The time (in seconds) that a client is not allowed to reconnect after
598 # a failed authentication attempt.
599 min-reauth-time = 300
600 # Banning clients in ocserv works with a point system. IP addresses
602 # that get a score over that configured number are banned for
603 # min-reauth-time seconds. By default a wrong password attempt is 10 points,
604 # a KKDCP POST is 1 point, and a connection is 1 point. Note that
605 # due to difference processes being involved the count of points
606 # will not be real-time precise.
607 #
608 # Score banning cannot be reliably used when receiving proxied connections
609 # locally from an HTTP server (i.e., when listen-clear-file is used).
610 #
611 # Set to zero to disable.
612 max-ban-score = 80
613 # The time (in seconds) that all score kept for a client is reset.
615 ban-reset-time = 1200
616 # In case you´d like to change the default points.
618 #ban-points-wrong-password = 10
619 #ban-points-connection = 1
620 #ban-points-kkdcp = 1
621 # Cookie timeout (in seconds)
623 # Once a client is authenticated he´s provided a cookie with
624 # which he can reconnect. That cookie will be invalidated if not
625 # used within this timeout value. This cookie remains valid, during
626 # the user´s connected time, and after user disconnection it
627 # remains active for this amount of time. That setting should allow a
628 # reasonable amount of time for roaming between different networks.
629 cookie-timeout = 300
630 # If this is enabled (not recommended) the cookies will stay
632 # valid even after a user manually disconnects, and until they
633 # expire. This may improve roaming with some broken clients.
634 #persistent-cookies = true
635 # Whether roaming is allowed, i.e., if true a cookie is
637 # restricted to a single IP address and cannot be re-used
638 # from a different IP.
639 deny-roaming = false
640 # ReKey time (in seconds)
642 # ocserv will ask the client to refresh keys periodically once
643 # this amount of seconds is elapsed. Set to zero to disable (note
644 # that, some clients fail if rekey is disabled).
645 rekey-time = 172800
646 # ReKey method
648 # Valid options: ssl, new-tunnel
649 # ssl: Will perform an efficient rehandshake on the channel allowing
650 # a seamless connection during rekey.
651 # new-tunnel: Will instruct the client to discard and re-establish the channel.
652 # Use this option only if the connecting clients have issues with the ssl
653 # option.
654 rekey-method = ssl
655 # Script to call when a client connects and obtains an IP.
657 # The following parameters are passed on the environment.
658 # REASON, VHOST, USERNAME, GROUPNAME, DEVICE, IP_REAL (the real IP of the client),
659 # IP_REAL_LOCAL (the local interface IP the client connected), IP_LOCAL
660 # (the local IP in the P-t-P connection), IP_REMOTE (the VPN IP of the client),
661 # IPV6_LOCAL (the IPv6 local address if there are both IPv4 and IPv6
662 # assigned), IPV6_REMOTE (the IPv6 remote address), IPV6_PREFIX, and
663 # ID (a unique numeric ID); REASON may be "connect" or "disconnect".
664 # In addition the following variables OCSERV_ROUTES (the applied routes for this
665 # client), OCSERV_NO_ROUTES, OCSERV_DNS (the DNS servers for this client),
666 # will contain a space separated list of routes or DNS servers. A version
667 # of these variables with the 4 or 6 suffix will contain only the IPv4 or
668 # IPv6 values.
669 # The disconnect script will receive the additional values: STATS_BYTES_IN,
671 # STATS_BYTES_OUT, STATS_DURATION that contain a 64-bit counter of the bytes
672 # output from the tun device, and the duration of the session in seconds.
673 #connect-script = /usr/bin/myscript
675 #disconnect-script = /usr/bin/myscript
676 # UTMP
678 # Register the connected clients to utmp. This will allow viewing
679 # the connected clients using the command ´who´.
680 #use-utmp = true
681 # Whether to enable support for the occtl tool (i.e., either through D-BUS,
683 # or via a unix socket).
684 use-occtl = true
685 # PID file. It can be overridden in the command line.
687 pid-file = /var/run/ocserv.pid
688 # Set the protocol-defined priority (SO_PRIORITY) for packets to
690 # be sent. That is a number from 0 to 6 with 0 being the lowest
691 # priority. Alternatively this can be used to set the IP Type-
692 # Of-Service, by setting it to a hexadecimal number (e.g., 0x20).
693 # This can be set per user/group or globally.
694 #net-priority = 3
695 # Set the VPN worker process into a specific cgroup. This is Linux
697 # specific and can be set per user/group or globally.
698 #cgroup = "cpuset,cpu:test"
699 #
701 # Network settings
702 #
703 # The name to use for the tun device
705 device = vpns
706 # Whether the generated IPs will be predictable, i.e., IP stays the
708 # same for the same user when possible.
709 predictable-ips = true
710 # The default domain to be advertised
712 default-domain = example.com
713 # The pool of addresses that leases will be given from. If the leases
715 # are given via Radius, or via the explicit-ip? per-user config option then
716 # these network values should contain a network with at least a single
717 # address that will remain under the full control of ocserv (that is
718 # to be able to assign the local part of the tun device address).
719 # Note that, you could use addresses from a subnet of your LAN network if you
720 # enable [proxy arp in the LAN interface](http://ocserv.gitlab.io/www/recipes-ocserv-pseudo-bridge.html);
721 # in that case it is recommended to set ping-leases to true.
722 ipv4-network = 192.168.1.0
723 ipv4-netmask = 255.255.255.0
724 # An alternative way of specifying the network:
726 #ipv4-network = 192.168.1.0/24
727 # The IPv6 subnet that leases will be given from.
729 #ipv6-network = fda9:4efe:7e3b:03ea::/48
730 # Specify the size of the network to provide to clients. It is
732 # generally recommended to provide clients with a /64 network in
733 # IPv6, but any subnet may be specified. To provide clients only
734 # with a single IP use the prefix 128.
735 #ipv6-subnet-prefix = 128
736 #ipv6-subnet-prefix = 64
737 # Whether to tunnel all DNS queries via the VPN. This is the default
739 # when a default route is set.
740 #tunnel-all-dns = true
741 # The advertized DNS server. Use multiple lines for
743 # multiple servers.
744 # dns = fc00::4be0
745 dns = 192.168.1.2
746 # The NBNS server (if any)
748 #nbns = 192.168.1.3
749 # The domains over which the provided DNS should be used. Use
751 # multiple lines for multiple domains.
752 #split-dns = example.com
753 # Prior to leasing any IP from the pool ping it to verify that
755 # it is not in use by another (unrelated to this server) host.
756 # Only set to true, if there can be occupied addresses in the
757 # IP range for leases.
758 ping-leases = false
759 # Use this option to set a link MTU value to the incoming
761 # connections. Unset to use the default MTU of the TUN device.
762 # Note that the MTU is negotiated using the value set and the
763 # value sent by the peer.
764 #mtu = 1420
765 # Unset to enable bandwidth restrictions (in bytes/sec). The
767 # setting here is global, but can also be set per user or per group.
768 #rx-data-per-sec = 40000
769 #tx-data-per-sec = 40000
770 # The number of packets (of MTU size) that are available in
772 # the output buffer. The default is low to improve latency.
773 # Setting it higher will improve throughput.
774 #output-buffer = 10
775 # Routes to be forwarded to the client. If you need the
777 # client to forward routes to the server, you may use the
778 # config-per-user/group or even connect and disconnect scripts.
779 #
780 # To set the server as the default gateway for the client just
781 # comment out all routes from the server, or use the special keyword
782 # ´default´.
783 route = 10.10.10.0/255.255.255.0
785 route = 192.168.0.0/255.255.0.0
786 #route = fef4:db8:1000:1001::/64
787 #route = default
788 # Subsets of the routes above that will not be routed by
790 # the server.
791 no-route = 192.168.5.0/255.255.255.0
793 # Note the that following two firewalling options currently are available
795 # in Linux systems with iptables software.
796 # If set, the script /usr/bin/ocserv-fw will be called to restrict
798 # the user to its allowed routes and prevent him from accessing
799 # any other routes. In case of defaultroute, the no-routes are restricted.
800 # All the routes applied by ocserv can be reverted using /usr/bin/ocserv-fw
801 # --removeall. This option can be set globally or in the per-user configuration.
802 #restrict-user-to-routes = true
803 # This option implies restrict-user-to-routes set to true. If set, the
805 # script /usr/bin/ocserv-fw will be called to restrict the user to
806 # access specific ports in the network. This option can be set globally
807 # or in the per-user configuration.
808 #restrict-user-to-ports = "tcp(443), tcp(80), udp(443), sctp(99), tcp(583), icmp(), icmpv6()"
809 # You could also use negation, i.e., block the user from accessing these ports only.
811 #restrict-user-to-ports = "!(tcp(443), tcp(80))"
812 # When set to true, all client´s iroutes are made visible to all
814 # connecting clients except for the ones offering them. This option
815 # only makes sense if config-per-user is set.
816 #expose-iroutes = true
817 # Groups that a client is allowed to select from.
819 # A client may belong in multiple groups, and in certain use-cases
820 # it is needed to switch between them. For these cases the client can
821 # select prior to authentication. Add multiple entries for multiple groups.
822 # The group may be followed by a user-friendly name in brackets.
823 #select-group = group1
824 #select-group = group2[My special group]
825 # The name of the (virtual) group that if selected it would assign the user
827 # to its default group.
828 #default-select-group = DEFAULT
829 # Instead of specifying manually all the allowed groups, you may instruct
831 # ocserv to scan all available groups and include the full list.
832 #auto-select-group = true
833 # Configuration files that will be applied per user connection or
835 # per group. Each file name on these directories must match the username
836 # or the groupname.
837 # The options allowed in the configuration files are dns, nbns,
838 # ipv?-network, ipv4-netmask, rx/tx-per-sec, iroute, route, no-route,
839 # explicit-ipv4, explicit-ipv6, net-priority, deny-roaming, no-udp,
840 # keepalive, dpd, mobile-dpd, max-same-clients, tunnel-all-dns,
841 # restrict-user-to-routes, user-profile, cgroup, stats-report-time,
842 # mtu, idle-timeout, mobile-idle-timeout, restrict-user-to-ports,
843 # and session-timeout.
844 #
845 # Note that the ´iroute´ option allows one to add routes on the server
846 # based on a user or group. The syntax depends on the input accepted
847 # by the commands route-add-cmd and route-del-cmd (see below). The no-udp
848 # is a boolean option (e.g., no-udp = true), and will prevent a UDP session
849 # for that specific user or group. The hostname option will set a
850 # hostname to override any proposed by the user. Note also, that, any
851 # routes, no-routes, DNS or NBNS servers present will overwrite the global ones.
852 #config-per-user = /etc/ocserv/config-per-user/
854 #config-per-group = /etc/ocserv/config-per-group/
855 # When config-per-xxx is specified and there is no group or user that
857 # matches, then utilize the following configuration.
858 #default-user-config = /etc/ocserv/defaults/user.conf
859 #default-group-config = /etc/ocserv/defaults/group.conf
860 # The system command to use to setup a route. %{R} will be replaced with the
862 # route/mask, %{RI} with the route in CIDR format, and %{D} with the (tun) device.
863 #
864 # The following example is from linux systems. %{R} should be something
865 # like 192.168.2.0/255.255.255.0 and %{RI} 192.168.2.0/24 (the argument of iroute).
866 #route-add-cmd = "ip route add %{R} dev %{D}"
868 #route-del-cmd = "ip route delete %{R} dev %{D}"
869 # This option allows one to forward a proxy. The special keywords ´%{U}´
871 # and ´%{G}´, if present will be replaced by the username and group name.
872 #proxy-url = http://example.com/
873 #proxy-url = http://example.com/%{U}/
874 # This option allows you to specify a URL location where a client can
876 # post using MS-KKDCP, and the message will be forwarded to the provided
877 # KDC server. That is a translation URL between HTTP and Kerberos.
878 # In MIT kerberos you´ll need to add in realms:
879 # EXAMPLE.COM = {
880 # kdc = https://ocserv.example.com/KdcProxy
881 # http_anchors = FILE:/etc/ocserv-ca.pem
882 # }
883 # In some distributions the krb5-k5tls plugin of kinit is required.
884 #
885 # The following option is available in ocserv, when compiled with GSSAPI support.
886 #kkdcp = "SERVER-PATH KERBEROS-REALM PROTOCOL@SERVER:PORT"
888 #kkdcp = "/KdcProxy KERBEROS.REALM udp@127.0.0.1:88"
889 #kkdcp = "/KdcProxy KERBEROS.REALM tcp@127.0.0.1:88"
890 #kkdcp = "/KdcProxy KERBEROS.REALM tcp@[::1]:88"
891 # Client profile xml. This can be used to advertise alternative servers
893 # to the client. A minimal file can be:
894 # <?xml version="1.0" encoding="UTF-8"?>
895 # <AnyConnectProfile xmlns="http://schemas.xmlsoap.org/encoding/" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:schemaLocation="http://schemas.xmlsoap.org/encoding/ AnyConnectProfile.xsd">
896 # <ServerList>
897 # <HostEntry>
898 # <HostName>VPN Server name</HostName>
899 # <HostAddress>localhost</HostAddress>
900 # </HostEntry>
901 # </ServerList>
902 # </AnyConnectProfile>
903 #
904 # Other fields may be used by some of the CISCO clients.
905 # This file must be accessible from inside the worker´s chroot.
906 # Note that enabling this option is not recommended as it will allow
907 # the worker processes to open arbitrary files (when isolate-workers is
908 # set to true).
909 #user-profile = profile.xml
910 #
912 # The following options are for (experimental) AnyConnect client
913 # compatibility.
914 # This option will enable the pre-draft-DTLS version of DTLS, and
916 # will not require clients to present their certificate on every TLS
917 # connection. It must be set to true to support legacy CISCO clients
918 # and openconnect clients < 7.08. When set to true, it implies dtls-legacy = true.
919 cisco-client-compat = true
920 # This option allows one to disable the DTLS-PSK negotiation (enabled by default).
922 # The DTLS-PSK negotiation was introduced in ocserv 0.11.5 to deprecate
923 # the pre-draft-DTLS negotiation inherited from AnyConnect. It allows the
924 # DTLS channel to negotiate its ciphers and the DTLS protocol version.
925 #dtls-psk = false
926 # This option allows one to disable the legacy DTLS negotiation (enabled by default,
928 # but that may change in the future).
929 # The legacy DTLS uses a pre-draft version of the DTLS protocol and was
930 # from AnyConnect protocol. It has several limitations, that are addressed
931 # by the dtls-psk protocol supported by openconnect 7.08+.
932 dtls-legacy = true
933 #Advanced options
935 # Option to allow sending arbitrary custom headers to the client after
937 # authentication and prior to VPN tunnel establishment. You shouldn´t
938 # need to use this option normally; if you do and you think that
939 # this may help others, please send your settings and reason to
940 # the openconnect mailing list. The special keywords ´%{U}´
941 # and ´%{G}´, if present will be replaced by the username and group name.
942 #custom-header = "X-My-Header: hi there"
943 # An example virtual host with different authentication methods serviced
947 # by this server.
948 [vhost:www.example.com]
950 auth = "certificate"
951 ca-cert = ../tests/certs/ca.pem
953 # The certificate set here must include a ´dns_name´ corresponding to
955 # the virtual host name.
956 server-cert = ../tests/certs/server-cert-secp521r1.pem
958 server-key = ../tests/certs/server-key-secp521r1.pem
959 ipv4-network = 192.168.2.0
961 ipv4-netmask = 255.255.255.0
962 cert-user-oid = 0.9.2342.19200300.100.1.1
964
968 occtl(8), ocpasswd(8), openconnect(8)
969
971 Copyright (C) 2013-2018 Nikos Mavrogiannopoulos and others, all rights
972 reserved. This program is released under the terms of the GNU General
973 Public License, version 2.
974
976 Written by Nikos Mavrogiannopoulos. Many people have contributed to it.
977 February 2019 OCSERV(8)