Provided by: ocserv_1.2.0-1_amd64 bug

NAME

       ocserv - OpenConnect VPN server

SYNOPSIS

       ocserv options -c [config]

       OpenConnect  VPN  server  (ocserv)  is  a  VPN  server compatible with the OpenConnect VPN
       client. It follows the AnyConnect VPN protocol which is used by several CISCO routers.

DESCRIPTION

       This a standalone server that reads a configuration file (see below for more details), and
       waits for client connections. Log messages are directed to the syslog daemon facility.

       The  server  maintains  two  connections/channels with the client. The main VPN channel is
       established over TCP, HTTP and TLS. This is the control channel as well as the backup data
       channel. After its establishment a UDP channel using DTLS is initiated which serves as the
       main data channel. If the UDP channel fails to establish or is temporarily unavailable the
       backup channel over TCP/TLS is being used.

       This  server  supports  multiple  authentication  methods,  including  PAM and certificate
       authentication. Authenticated users are assigned an unprivileged worker process and obtain
       a networking (tun) device and an IP from a configurable pool of addresses.

       Once authenticated, the server provides the client with an IP address and a list of routes
       that it may access. In order to allow high-speed transfers the server does not process  or
       filter  packets.  It is expected that the server has or will set up any required routes or
       firewall rules.

       It is possible  to  separate  users  into  groups,  which  are  either  present  on  their
       certificate,  or  presented  on  login  for  the  user to choose. That way a user may take
       advantage of the different settings that may apply per group.  See  the  comments  on  the
       configuration file for more information.

       It  is  also  possible to run hostname-based virtual servers which could support different
       authentication  methods.  When  multiple  virtual  servers   are   present   clients   are
       distinguished  by  the advertised server name over TLS (SNI). Clients which do not support
       or sent SNI, are directed to the default server.

OPTIONS

       -f, --foreground:
              Do not fork server into background.

       -d, --debug=num:
              Enable verbose network debugging information. num must be between zero and 9999.

       -c, --config=FILE:
              Specify the configuration file for the server.

       -t, --test-config:
              Test the provided configuration  file  and  exit.  A  successful  exit  error  code
              indicates a valid configuration.

       -p, --pid-file=FILE:
              Specify a PID file for the server.

       -h, --help:
              Display usage information and exit.

       -v, --version:
              Output version of program and exit.

AUTHENTICATION

       Users  can  be  authenticated  in  multiple  ways,  which  are  explained in the following
       paragraphs. Connected users can be managed using the occtl tool.

   Password authentication
       If your system supports Pluggable Authentication Modules  (PAM),  then  ocserv  will  take
       advantage  of  it  to  password  authenticate  its  users. Otherwise a plain password file
       similar to the UNIX password file is also supported. In that case the ´ocpasswd´ tool  can
       be  used  for its management. Note that password authentication can be used in conjunction
       with certificate authentication.

   GSSAPI authentication
       ocserv will take advantage of  the  MIT  Kerberos  project  GSSAPI  libraries,  and  allow
       authentication using any method GSSAPI supports. That is, mainly, Kerberos authentication.
       That is often more useful to be combined with PAM or other password authentication methods
       so  that  a  fallback mechanism can be used when GSSAPI fails (e.g., when the user doesn´t
       already have a Kerberos ticket). The GSSAPI authentication  is  implemented  using  SPNEGO
       over HTTP (RFC4559).

   Public key (certificate) authentication
       Public  key  authentication  allows  the user to be authenticated by the possession of the
       private key that corresponds to a known to the server public key. That allows the usage of
       common smart cards for user authentication.

       In  ocserv,  a  certificate  authority  (CA) is used to sign the client certificates. That
       certificate authority can be local, used only by the  server  to  sign  its  user´s  known
       public  keys  which are then given to users in a form of certificates. That authority need
       also provide a CRL to allow the server to reject the revoked clients (see ca-cert, crl).

       In certificate authentication each client presents a certificate and signs  data  provided
       by the server, as part of TLS authentication, to prove his possession of the corresponding
       private key. The certificate need also contain user identifying information, for  example,
       the  user  ID of the client must be embedded in the certificate´s Distinguished Name (DN),
       i.e., in the  Common  Name,  or  UID  fields.  For  the  server  to  read  the  name,  the
       cert-user-oid configuration option must be set.

       The following examples demonstrate how to use certtool from GnuTLS to generate such CA.

   Generating the CA
       $ certtool --generate-privkey --outfile ca-key.pem
       $ cat << _EOF_ >ca.tmpl
       cn = "VPN CA"
       organization = "Big Corp"
       serial = 1
       expiration_days = -1
       ca
       signing_key
       cert_signing_key
       crl_signing_key
       _EOF_

       $ certtool --generate-self-signed --load-privkey ca-key.pem \
                  --template ca.tmpl --outfile ca-cert.pem

   Generating a local server certificate
       The  following example generates the server key and certificate pair. The key generated is
       an RSA one, but different types can be used by specifying the ´ecdsa´ or ´dsa´ options  to
       certtool.

           $ certtool --generate-privkey --outfile server-key.pem
           $ cat << _EOF_ >server.tmpl
           cn = "VPN server"
           dns_name = "www.example.com"
           dns_name = "vpn1.example.com"
           #ip_address = "1.2.3.4"
           organization = "MyCompany"
           expiration_days = -1
           signing_key
           encryption_key #only if the generated key is an RSA one
           tls_www_server
           _EOF_

           $ certtool --generate-certificate --load-privkey server-key.pem \
                      --load-ca-certificate ca-cert.pem --load-ca-privkey ca-key.pem \
                      --template server.tmpl --outfile server-cert.pem

       From this point the clients need ca-cert.pem to be able to securely connect to the server.

       Note  that  it is a better practice to use two separate RSA keys, one with the signing_key
       option and another with the encryption_key.

   Generating an external CA-signed server certificate
       $ certtool --generate-privkey --outfile server-key.pem
       $ cat << _EOF_ >server.tmpl
       cn = "My server"
       dns_name = "www.example.com"
       organization = "MyCompany"
       expiration_days = -1
       signing_key
       encryption_key #only if the generated key is an RSA one
       tls_www_server
       _EOF_
       $ certtool --generate-request --load-privkey server-key.pem \
                  --template server.tmpl --outfile server-cert.csr

       At this point you need to provide the server-cert.csr to your CA, and they will  send  you
       the server certificate.

   Generating the client certificates
       Note  that it is recommended to leave detailed personal information out of the certificate
       as it is sent in clear during  TLS  authentication.  The  following  process  generates  a
       certificate  and  converts  it to PKCS #12 that is protected by a PIN and most clients are
       able to import (the 3DES cipher is used in the example because it is supported by far more
       devices than AES).

           $ certtool --generate-privkey --outfile user-key.pem
           $ cat << _EOF_ >user.tmpl
           dn = "cn=Full Name,O=Example Org,UID=username"
           #if usernames are SAN(rfc822name) email addresses
           #email = "username@example.com"
           expiration_days = 365
           signing_key
           tls_www_client
           _EOF_
           $ certtool --generate-certificate --load-privkey user-key.pem \
                      --load-ca-certificate ca-cert.pem --load-ca-privkey ca-key.pem \
                      --template user.tmpl --outfile user-cert.pem

           $ certtool --to-p12 --load-privkey user-key.pem \
                      --pkcs-cipher 3des-pkcs12 \
                      --load-certificate user-cert.pem \
                      --outfile user.p12 --outder

   Revoking a client certificate
       To  revoke  the  previous client certificate, i.e., preventing the user from accessing the
       VPN resources prior to its certificate expiration, use:

           $ cat << _EOF_ >crl.tmpl
           crl_next_update = 365
           crl_number = 1
           _EOF_
           $ cat user-cert.pem >>revoked.pem
           $ certtool --generate-crl --load-ca-privkey ca-key.pem \
                      --load-ca-certificate ca-cert.pem --load-certificate revoked.pem \
                      --template crl.tmpl --outfile crl.pem

       After that you may want to notify ocserv of the new CRL by using the HUP signal,  or  wait
       for it to reload it.

       When  there  are  no  revoked certificates an empty revocation list should be generated as
       follows.

           $ certtool --generate-crl --load-ca-privkey ca-key.pem \
                      --load-ca-certificate ca-cert.pem \
                      --template crl.tmpl --outfile crl.pem

IMPLEMENTATION NOTES

       Note that while this server utilizes privilege separation and all authentication occurs on
       the  security  module, this does not apply for TLS client certificate authentication. That
       is due to TLS protocol limitation.

NETWORKING CONSIDERATIONS

       In certain setups, where a firewall may be blocking ICMP responses, setting the MSS of TCP
       connections   to   MTU   will   eliminate   the   "black   hole"  connection  issues.  See
       http://lartc.org/howto/lartc.cookbook.mtu-mss.html for instructions  to  enable  it  on  a
       Linux system.

FILES

   ocserv´s configuration file format
       By  default,  if  no  other  file is specified, ocserv looks for its configuration file at
       /etc/ocserv/ocserv.conf. An example configuration file follows.

           ### The following directives do not change with server reload.

           # User authentication method. To require multiple methods to be
           # used for the user to login, add multiple auth directives. The values
           # in the ´auth´ directive are AND composed (if multiple all must
           # succeed).
           # Available options: certificate, plain, pam, radius, gssapi.
           # Note that authentication methods utilizing passwords cannot be
           # combined (e.g., the plain, pam or radius methods).

           # certificate:
           #  This indicates that all connecting users must present a certificate.
           #  The username and user group will be then extracted from it (see
           #  cert-user-oid and cert-group-oid). The certificate to be accepted
           #  it must be signed by the CA certificate as specified in ´ca-cert´ and
           #  it must not be listed in the CRL, as specified by the ´crl´ option.
           #
           # pam[gid-min=1000]:
           #  This enabled PAM authentication of the user. The gid-min option is used
           # by auto-select-group option, in order to select the minimum valid group ID.
           #
           # plain[passwd=/etc/ocserv/ocpasswd,otp=/etc/ocserv/users.otp]
           #  The plain option requires specifying a password file which contains
           # entries of the following format.
           # "username:groupname1,groupname2:encoded-password"
           # One entry must be listed per line, and ´ocpasswd´ should be used
           # to generate password entries. The ´otp´ suboption allows one to specify
           # an oath password file to be used for one time passwords; the format of
           # the file is described in https://github.com/archiecobbs/mod-authn-otp/wiki/UsersFile
           #
           # radius[config=/etc/radiusclient/radiusclient.conf,groupconfig=true,nas-identifier=name]:
           #  The radius option requires specifying freeradius-client configuration
           # file. If the groupconfig option is set, then config-per-user/group will be overridden,
           # and all configuration will be read from radius. That also includes the
           # Acct-Interim-Interval, and Session-Timeout values.
           #
           # See doc/README-radius.md for the supported radius configuration attributes.
           #
           # gssapi[keytab=/etc/key.tab,require-local-user-map=true,tgt-freshness-time=900]
           #  The gssapi option allows one to use authentication methods supported by GSSAPI,
           # such as Kerberos tickets with ocserv. It should be best used as an alternative
           # to PAM (i.e., have pam in auth and gssapi in enable-auth), to allow users with
           # tickets and without tickets to login. The default value for require-local-user-map
           # is true. The ´tgt-freshness-time´ if set, it would require the TGT tickets presented
           # to have been issued within the provided number of seconds. That option is used to
           # restrict logins even if the KDC provides long time TGT tickets.

           #auth = "pam"
           #auth = "pam[gid-min=1000]"
           #auth = "plain[passwd=./sample.passwd,otp=./sample.otp]"
           auth = "plain[passwd=./sample.passwd]"
           #auth = "certificate"
           #auth = "radius[config=/etc/radiusclient/radiusclient.conf,groupconfig=true]"

           # Specify alternative authentication methods that are sufficient
           # for authentication. That is, if set, any of the methods enabled
           # will be sufficient to login, irrespective of the main ´auth´ entries.
           # When multiple options are present, they are OR composed (any of them
           # succeeding allows login).
           #enable-auth = "certificate"
           #enable-auth = "gssapi"
           #enable-auth = "gssapi[keytab=/etc/key.tab,require-local-user-map=true,tgt-freshness-time=900]"

           # Accounting methods available:
           # radius: can be combined with any authentication method, it provides
           #      radius accounting to available users (see also stats-report-time).
           #
           # pam: can be combined with any authentication method, it provides
           #      a validation of the connecting user´s name using PAM. It is
           #      superfluous to use this method when authentication is already
           #      PAM.
           #
           # Only one accounting method can be specified.
           #acct = "radius[config=/etc/radiusclient/radiusclient.conf]"

           # Use listen-host to limit to specific IPs or to the IPs of a provided
           # hostname.
           #listen-host = [IP|HOSTNAME]

           # Use udp-listen-host to limit udp to specific IPs or to the IPs of a provided
           # hostname. if not set, listen-host will be used
           #udp-listen-host = [IP|HOSTNAME]

           # When the server has a dynamic DNS address (that may change),
           # should set that to true to ask the client to resolve again on
           # reconnects.
           #listen-host-is-dyndns = true

           # move the listen socket within the specified network namespace
           # listen-netns = "foo"

           # TCP and UDP port number
           tcp-port = 443
           udp-port = 443

           # The user the worker processes will be run as. This should be a dedicated
           # unprivileged user (e.g., ´ocserv´) and no other services should run as this
           # user.
           run-as-user = nobody
           run-as-group = daemon

           # socket file used for IPC with occtl. You only need to set that,
           # if you use more than a single servers.
           #occtl-socket-file = /var/run/occtl.socket

           # socket file used for server IPC (worker-main), will be appended with .PID
           # It must be accessible within the chroot environment (if any), so it is best
           # specified relatively to the chroot directory.
           socket-file = /var/run/ocserv-socket

           # The default server directory. Does not require any devices present.
           #chroot-dir = /var/lib/ocserv

           # The key and the certificates of the server
           # The key may be a file, or any URL supported by GnuTLS (e.g.,
           # tpmkey:uuid=xxxxxxx-xxxx-xxxx-xxxx-xxxxxxxx;storage=user
           # or pkcs11:object=my-vpn-key;object-type=private)
           #
           # The server-cert file may contain a single certificate, or
           # a sorted certificate chain.
           # There may be multiple server-cert and server-key directives,
           # but each key should correspond to the preceding certificate.
           # The certificate files will be reloaded when changed allowing for in-place
           # certificate renewal (they are checked and reloaded periodically;
           # a SIGHUP signal to main server will force reload).

           #server-cert = /etc/ocserv/server-cert.pem
           #server-key = /etc/ocserv/server-key.pem
           server-cert = ../tests/certs/server-cert.pem
           server-key = ../tests/certs/server-key.pem

           # Diffie-Hellman parameters. Only needed if for old (pre 3.6.0
           # versions of GnuTLS for supporting DHE ciphersuites.
           # Can be generated using:
           # certtool --generate-dh-params --outfile /etc/ocserv/dh.pem
           #dh-params = /etc/ocserv/dh.pem

           # In case PKCS #11, TPM or encrypted keys are used the PINs should be available
           # in files. The srk-pin-file is applicable to TPM keys only, and is the
           # storage root key.
           #pin-file = /etc/ocserv/pin.txt
           #srk-pin-file = /etc/ocserv/srkpin.txt

           # The password or PIN needed to unlock the key in server-key file.
           # Only needed if the file is encrypted or a PKCS #11 object. This
           # is an alternative method to pin-file.
           #key-pin = 1234

           # The SRK PIN for TPM.
           # This is an alternative method to srk-pin-file.
           #srk-pin = 1234

           # The Certificate Authority that will be used to verify
           # client certificates (public keys) if certificate authentication
           # is set.
           #ca-cert = /etc/ocserv/ca.pem
           ca-cert = ../tests/certs/ca.pem

           # The number of sub-processes to use for the security module (authentication)
           # processes. Typically this should not be set as the number of processes
           # is determined automatically by the initially set maximum number of clients.
           #sec-mod-scale = 4

           ### All configuration options below this line are reloaded on a SIGHUP.
           ### The options above, will remain unchanged. Note however, that the
           ### server-cert, server-key, dh-params and ca-cert options will be reloaded
           ### if the provided file changes, on server reload. That allows certificate
           ### rotation, but requires the server key to remain the same for seamless
           ### operation. If the server key changes on reload, there may be connection
           ### failures during the reloading time.

           # Whether to enable seccomp/Linux namespaces worker isolation. That restricts the number of
           # system calls allowed to a worker process, in order to reduce damage from a
           # bug in the worker process. It is available on Linux systems at a performance cost.
           # The performance cost is roughly 2% overhead at transfer time (tested on a Linux 3.17.8).
           # Note however, that process isolation is restricted to the specific libc versions
           # the isolation was tested at. If you get random failures on worker processes, try
           # disabling that option and report the failures you, along with system and debugging
           # information at: https://gitlab.com/openconnect/ocserv/issues
           isolate-workers = true

           # A banner to be displayed on clients after connection
           #banner = "Welcome"

           # A banner to be displayed on clients before connection
           #pre-login-banner = "Welcome"

           # Limit the number of clients. Unset or set to zero if unknown. In
           # that case the maximum value is ~8k clients.
           #max-clients = 1024
           max-clients = 16

           # Limit the number of identical clients (i.e., users connecting
           # multiple times). Unset or set to zero for unlimited.
           max-same-clients = 2

           # When the server receives connections from a proxy, like haproxy
           # which supports the proxy protocol, set this to obtain the correct
           # client addresses. The proxy protocol would then be expected in
           # the TCP or UNIX socket (not the UDP one). Although both v1
           # and v2 versions of proxy protocol are supported, the v2 version
           # is recommended as it is more efficient in parsing.
           #listen-proxy-proto = true

           # Rate limit the number of incoming connections to one every X milliseconds
           # (X is the provided value), as the secmod backlog grows. This
           # makes the server more resilient (and prevents connection failures) on
           # multiple concurrent connections. Set to zero for no limit.
           rate-limit-ms = 100

           # Stats report time. The number of seconds after which each
           # worker process will report its usage statistics (number of
           # bytes transferred etc). This is useful when accounting like
           # radius is in use.
           #stats-report-time = 360

           # Stats reset time. The period of time statistics kept by main/sec-mod
           # processes will be reset. These are the statistics shown by cmd
           # ´occtl show stats´. For daily: 86400, weekly: 604800
           # This is unrelated to stats-report-time.
           server-stats-reset-time = 604800

           # Keepalive in seconds
           keepalive = 32400

           # Dead peer detection in seconds.
           # Note that when the client is behind a NAT this value
           # needs to be short enough to prevent the NAT disassociating
           # his UDP session from the port number. Otherwise the client
           # could have his UDP connection stalled, for several minutes.
           dpd = 90

           # Dead peer detection for mobile clients. That needs to
           # be higher to prevent such clients being awaken too
           # often by the DPD messages, and save battery.
           # The mobile clients are distinguished from the header
           # ´X-AnyConnect-Identifier-Platform´.
           mobile-dpd = 1800

           # If using DTLS, and no UDP traffic is received for this
           # many seconds, attempt to send future traffic over the TCP
           # connection instead, in an attempt to wake up the client
           # in the case that there is a NAT and the UDP translation
           # was deleted. If this is unset, do not attempt to use this
           # recovery mechanism.
           switch-to-tcp-timeout = 25

           # MTU discovery (DPD must be enabled)
           try-mtu-discovery = false

           # To enable load-balancer connection draining, set server-drain-ms to a value
           # higher than your load-balancer health probe interval.
           #server-drain-ms = 15000

           # If you have a certificate from a CA that provides an OCSP
           # service you may provide a fresh OCSP status response within
           # the TLS handshake. That will prevent the client from connecting
           # independently on the OCSP server.
           # You can update this response periodically using:
           # ocsptool --ask --load-cert=your_cert --load-issuer=your_ca --outfile response
           # Make sure that you replace the following file in an atomic way.
           #ocsp-response = /etc/ocserv/ocsp.der

           # The object identifier that will be used to read the user ID in the client
           # certificate. The object identifier should be part of the certificate´s DN
           # Useful OIDs are:
           #  CN = 2.5.4.3, UID = 0.9.2342.19200300.100.1.1, SAN(rfc822name)
           cert-user-oid = 0.9.2342.19200300.100.1.1

           # The object identifier that will be used to read the user group in the
           # client certificate. The object identifier should be part of the certificate´s
           # DN. If the user may belong to multiple groups, then use multiple such fields
           # in the certificate´s DN. Useful OIDs are:
           #  OU (organizational unit) = 2.5.4.11
           #cert-group-oid = 2.5.4.11

           # The revocation list of the certificates issued by the ´ca-cert´ above.
           # See the manual to generate an empty CRL initially. The CRL will be reloaded
           # periodically when ocserv detects a change in the file. To force a reload use
           # SIGHUP.
           #crl = /etc/ocserv/crl.pem

           # Uncomment this to enable compression negotiation (LZS, LZ4).
           #compression = true

           # Set the minimum size under which a packet will not be compressed.
           # That is to allow low-latency for VoIP packets. The default size
           # is 256 bytes. Modify it if the clients typically use compression
           # as well of VoIP with codecs that exceed the default value.
           #no-compress-limit = 256

           # GnuTLS priority string; note that SSL 3.0 is disabled by default
           # as there are no openconnect (and possibly anyconnect clients) using
           # that protocol. The string below does not enforce perfect forward
           # secrecy, in order to be compatible with legacy clients.
           #
           # Note that the most performant ciphersuites are the moment are the ones
           # involving AES-GCM. These are very fast in x86 and x86-64 hardware, and
           # in addition require no padding, thus taking full advantage of the MTU.
           # For that to be taken advantage of, the openconnect client must be
           # used, and the server must be compiled against GnuTLS 3.2.7 or later.
           # Use "gnutls-cli --benchmark-tls-ciphers", to see the performance
           # difference with AES_128_CBC_SHA1 (the default for anyconnect clients)
           # in your system.

           tls-priorities = "NORMAL:%SERVER_PRECEDENCE:%COMPAT:-VERS-SSL3.0:-VERS-TLS1.0:-VERS-TLS1.1"

           # More combinations in priority strings are available, check
           # http://gnutls.org/manual/html_node/Priority-Strings.html
           # E.g., the string below enforces perfect forward secrecy (PFS)
           # on the main channel.
           #tls-priorities = "NORMAL:%SERVER_PRECEDENCE:%COMPAT:-RSA:-VERS-SSL3.0:-ARCFOUR-128"

           # That option requires the established DTLS channel to use the same
           # cipher as the primary TLS channel.Note also, that this option implies
           # that the dtls-legacy option is false; this option cannot be enforced
           # in the legacy/compat protocol.
           #match-tls-dtls-ciphers = true

           # The time (in seconds) that a client is allowed to stay connected prior
           # to authentication
           auth-timeout = 240

           # The time (in seconds) that a client is allowed to stay idle (no traffic)
           # before being disconnected. Unset to disable.
           #idle-timeout = 1200

           # The time (in seconds) that a client is allowed to stay connected
           # Unset to disable. When set a client will be disconnected after being
           # continuously connected for this amount of time, and its cookies will
           # be invalidated (i.e., re-authentication will be required).
           #session-timeout = 86400

           # The time (in seconds) that a mobile client is allowed to stay idle (no
           # traffic) before being disconnected. Unset to disable.
           #mobile-idle-timeout = 2400

           # The time (in seconds) that a client is not allowed to reconnect after
           # a failed authentication attempt.
           min-reauth-time = 300

           # Banning clients in ocserv works with a point system. IP addresses
           # that get a score over that configured number are banned for
           # min-reauth-time seconds. By default a wrong password attempt is 10 points,
           # a KKDCP POST is 1 point, and a connection is 1 point. Note that
           # due to different processes being involved the count of points
           # will not be real-time precise. Local subnet IPs are exempt to allow
           # services that check for process health.
           #
           # Set to zero to disable.
           max-ban-score = 80

           # The time (in seconds) that all score kept for a client is reset.
           ban-reset-time = 1200

           # In case you´d like to change the default points.
           #ban-points-wrong-password = 10
           #ban-points-connection = 1
           #ban-points-kkdcp = 1

           # Cookie timeout (in seconds)
           # Once a client is authenticated he´s provided a cookie with
           # which he can reconnect. That cookie will be invalidated if not
           # used within this timeout value. This cookie remains valid, during
           # the user´s connected time, and after user disconnection it
           # remains active for this amount of time. That setting should allow a
           # reasonable amount of time for roaming between different networks.
           cookie-timeout = 300

           # If this is enabled (not recommended) the cookies will stay
           # valid even after a user manually disconnects, and until they
           # expire. This may improve roaming with some broken clients.
           #persistent-cookies = true

           # Whether roaming is allowed, i.e., if true a cookie is
           # restricted to a single IP address and cannot be re-used
           # from a different IP.
           deny-roaming = false

           # ReKey time (in seconds)
           # ocserv will ask the client to refresh keys periodically once
           # this amount of seconds is elapsed. Set to zero to disable (note
           # that, some clients fail if rekey is disabled).
           rekey-time = 172800

           # ReKey method
           # Valid options: ssl, new-tunnel
           #  ssl: Will perform an efficient rehandshake on the channel allowing
           #       a seamless connection during rekey.
           #  new-tunnel: Will instruct the client to discard and re-establish the channel.
           #       Use this option only if the connecting clients have issues with the ssl
           #       option.
           rekey-method = ssl

           # Script to call when a client connects and obtains an IP.
           # The following parameters are passed on the environment.
           # REASON, VHOST, USERNAME, GROUPNAME, DEVICE, IP_REAL (the real IP of the client),
           # REMOTE_HOSTNAME (the remotely advertised hostname), IP_REAL_LOCAL
           # (the local interface IP the client connected), IP_LOCAL
           # (the local IP in the P-t-P connection), IP_REMOTE (the VPN IP of the client),
           # IPV6_LOCAL (the IPv6 local address if there are both IPv4 and IPv6
           # assigned), IPV6_REMOTE (the IPv6 remote address), IPV6_PREFIX, and
           # ID (a unique numeric ID); REASON may be "connect" or "disconnect".
           # In addition the following variables OCSERV_ROUTES (the applied routes for this
           # client), OCSERV_NO_ROUTES, OCSERV_DNS (the DNS servers for this client),
           # will contain a space separated list of routes or DNS servers. A version
           # of these variables with the 4 or 6 suffix will contain only the IPv4 or
           # IPv6 values. The connect script must return zero as exit code, or the
           # client connection will be refused.

           # The disconnect script will receive the additional values: STATS_BYTES_IN,
           # STATS_BYTES_OUT, STATS_DURATION that contain a 64-bit counter of the bytes
           # output from the tun device, and the duration of the session in seconds.

           #connect-script = /usr/bin/myscript
           #disconnect-script = /usr/bin/myscript

           # This script is to be called when the client´s advertised hostname becomes
           # available. It will contain REASON with "host-update" value and the
           # variable REMOTE_HOSTNAME in addition to the connect variables.

           #host-update-script = /usr/bin/myhostnamescript

           # UTMP
           # Register the connected clients to utmp. This will allow viewing
           # the connected clients using the command ´who´.
           #use-utmp = true

           # Whether to enable support for the occtl tool (i.e., either through D-BUS,
           # or via a unix socket).
           use-occtl = true

           # PID file. It can be overridden in the command line.
           pid-file = /var/run/ocserv.pid

           # Log Level. Ocserv sends the logging messages to standard error
           # as well as the system log. The log level can be overridden in the
           # command line with the -d option. All messages at the configured
           # level and lower will be displayed.
           # Supported levels (default 0):
           #   0 default (Same as basic)
           #   1 basic
           #   2 info
           #   3 debug
           #   4 http
           #   8 sensitive
           #   9 TLS
           log-level = 1

           # Set the protocol-defined priority (SO_PRIORITY) for packets to
           # be sent. That is a number from 0 to 6 with 0 being the lowest
           # priority. Alternatively this can be used to set the IP Type-
           # Of-Service, by setting it to a hexadecimal number (e.g., 0x20).
           # This can be set per user/group or globally.
           #net-priority = 3

           # Set the VPN worker process into a specific cgroup. This is Linux
           # specific and can be set per user/group or globally.
           #cgroup = "cpuset,cpu:test"

           #
           # Network settings
           #

           # The name to use for the tun device
           device = vpns

           # Whether the generated IPs will be predictable, i.e., IP stays the
           # same for the same user when possible.
           predictable-ips = true

           # The default domain to be advertised. Multiple domains (functional on
           # openconnect clients) can be provided in a space separated list.
           default-domain = example.com
           #default-domain = "example.com one.example.com"

           # The pool of addresses that leases will be given from. If the leases
           # are given via Radius, or via the explicit-ip? per-user config option then
           # these network values should contain a network with at least a single
           # address that will remain under the full control of ocserv (that is
           # to be able to assign the local part of the tun device address).
           # Note that, you could use addresses from a subnet of your LAN network if you
           # enable [proxy arp in the LAN interface](http://ocserv.gitlab.io/www/recipes-ocserv-pseudo-bridge.html);
           # in that case it is recommended to set ping-leases to true.
           ipv4-network = 192.168.1.0
           ipv4-netmask = 255.255.255.0

           # An alternative way of specifying the network:
           #ipv4-network = 192.168.1.0/24

           # The IPv6 subnet that leases will be given from.
           #ipv6-network = fda9:4efe:7e3b:03ea::/48

           # Specify the size of the network to provide to clients. It is
           # generally recommended to provide clients with a /64 network in
           # IPv6, but any subnet may be specified. To provide clients only
           # with a single IP use the prefix 128.
           #ipv6-subnet-prefix = 128
           #ipv6-subnet-prefix = 64

           # Whether to tunnel all DNS queries via the VPN. This is the default
           # when a default route is set.
           #tunnel-all-dns = true

           # The advertised DNS server. Use multiple lines for
           # multiple servers.
           # dns = fc00::4be0
           dns = 192.168.1.2

           # The NBNS server (if any)
           #nbns = 192.168.1.3

           # The domains over which the provided DNS should be used. Use
           # multiple lines for multiple domains.
           #split-dns = example.com

           # Prior to leasing any IP from the pool ping it to verify that
           # it is not in use by another (unrelated to this server) host.
           # Only set to true, if there can be occupied addresses in the
           # IP range for leases.
           ping-leases = false

           # Use this option to set a link MTU value to the incoming
           # connections. Unset to use the default MTU of the TUN device.
           # Note that the MTU is negotiated using the value set and the
           # value sent by the peer.
           #mtu = 1420

           # Unset to enable bandwidth restrictions (in bytes/sec). The
           # setting here is global, but can also be set per user or per group.
           #rx-data-per-sec = 40000
           #tx-data-per-sec = 40000

           # The number of packets (of MTU size) that are available in
           # the output buffer. The default is low to improve latency.
           # Setting it higher will improve throughput.
           #output-buffer = 10

           # Routes to be forwarded to the client. If you need the
           # client to forward routes to the server, you may use the
           # config-per-user/group or even connect and disconnect scripts.
           #
           # To set the server as the default gateway for the client just
           # comment out all routes from the server, or use the special keyword
           # ´default´.

           route = 10.10.10.0/255.255.255.0
           route = 192.168.0.0/255.255.0.0
           #route = fef4:db8:1000:1001::/64
           #route = default

           # Subsets of the routes above that will not be routed by
           # the server.

           no-route = 192.168.5.0/255.255.255.0

           # Note the that following two firewalling options currently are available
           # in Linux systems with iptables software.

           # If set, the script /usr/bin/ocserv-fw will be called to restrict
           # the user to its allowed routes and prevent him from accessing
           # any other routes. In case of defaultroute, the no-routes are restricted.
           # All the routes applied by ocserv can be reverted using /usr/bin/ocserv-fw
           # --removeall. This option can be set globally or in the per-user configuration.
           #restrict-user-to-routes = true

           # This option implies restrict-user-to-routes set to true. If set, the
           # script /usr/bin/ocserv-fw will be called to restrict the user to
           # access specific ports in the network. This option can be set globally
           # or in the per-user configuration.
           #restrict-user-to-ports = "tcp(443), tcp(80), udp(443), sctp(99), tcp(583), icmp(), icmpv6()"

           # You could also use negation, i.e., block the user from accessing these ports only.
           #restrict-user-to-ports = "!(tcp(443), tcp(80))"

           # When set to true, all client´s iroutes are made visible to all
           # connecting clients except for the ones offering them. This option
           # only makes sense if config-per-user is set.
           #expose-iroutes = true

           # Groups that a client is allowed to select from.
           # A client may belong in multiple groups, and in certain use-cases
           # it is needed to switch between them. For these cases the client can
           # select prior to authentication. Add multiple entries for multiple groups.
           # The group may be followed by a user-friendly name in brackets.
           #select-group = group1
           #select-group = group2[My special group]

           # The name of the (virtual) group that if selected it would assign the user
           # to its default group.
           #default-select-group = DEFAULT

           # Instead of specifying manually all the allowed groups, you may instruct
           # ocserv to scan all available groups and include the full list.
           #auto-select-group = true

           # Configuration files that will be applied per user connection or
           # per group. Each file name on these directories must match the username
           # or the groupname.
           # The options allowed in the configuration files are dns, nbns,
           #  ipv?-network, ipv4-netmask, rx/tx-data-per-sec, iroute, route, no-route,
           #  explicit-ipv4, explicit-ipv6, net-priority, deny-roaming, no-udp,
           #  keepalive, dpd, mobile-dpd, max-same-clients, tunnel-all-dns,
           #  restrict-user-to-routes, cgroup, stats-report-time,
           #  mtu, idle-timeout, mobile-idle-timeout, restrict-user-to-ports,
           #  split-dns and session-timeout.
           #
           # Note that the ´iroute´ option allows one to add routes on the server
           # based on a user or group. The syntax depends on the input accepted
           # by the commands route-add-cmd and route-del-cmd (see below). The no-udp
           # is a boolean option (e.g., no-udp = true), and will prevent a UDP session
           # for that specific user or group. The hostname option will set a
           # hostname to override any proposed by the user. Note also, that, any
           # routes, no-routes, DNS or NBNS servers present will overwrite the global ones.

           #config-per-user = /etc/ocserv/config-per-user/
           #config-per-group = /etc/ocserv/config-per-group/

           # When config-per-xxx is specified and there is no group or user that
           # matches, then utilize the following configuration.
           #default-user-config = /etc/ocserv/defaults/user.conf
           #default-group-config = /etc/ocserv/defaults/group.conf

           # The system command to use to setup a route. %{R} will be replaced with the
           # route/mask, %{RI} with the route in CIDR format, and %{D} with the (tun) device.
           #
           # The following example is from linux systems. %{R} should be something
           # like 192.168.2.0/255.255.255.0 and %{RI} 192.168.2.0/24 (the argument of iroute).

           #route-add-cmd = "ip route add %{R} dev %{D}"
           #route-del-cmd = "ip route delete %{R} dev %{D}"

           # This option allows one to forward a proxy. The special keywords ´%{U}´
           # and ´%{G}´, if present will be replaced by the username and group name.
           #proxy-url = http://example.com/
           #proxy-url = http://example.com/%{U}/

           # This option allows you to specify a URL location where a client can
           # post using MS-KKDCP, and the message will be forwarded to the provided
           # KDC server. That is a translation URL between HTTP and Kerberos.
           # In MIT kerberos you´ll need to add in realms:
           #   EXAMPLE.COM = {
           #     kdc = https://ocserv.example.com/KdcProxy
           #     http_anchors = FILE:/etc/ocserv-ca.pem
           #   }
           # In some distributions the krb5-k5tls plugin of kinit is required.
           #
           # The following option is available in ocserv, when compiled with GSSAPI support.

           #kkdcp = "SERVER-PATH KERBEROS-REALM PROTOCOL@SERVER:PORT"
           #kkdcp = "/KdcProxy KERBEROS.REALM udp@127.0.0.1:88"
           #kkdcp = "/KdcProxy KERBEROS.REALM tcp@127.0.0.1:88"
           #kkdcp = "/KdcProxy KERBEROS.REALM tcp@[::1]:88"

           # Client profile xml. This can be used to advertise alternative servers
           # to the client. A minimal file can be:
           # <?xml version="1.0" encoding="UTF-8"?>
           # <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">
           #    <ServerList>
           #         <HostEntry>
           #                <HostName>VPN Server name</HostName>
           #                <HostAddress>localhost</HostAddress>
           #         </HostEntry>
           #    </ServerList>
           # </AnyConnectProfile>
           #
           # Other fields may be used by some of the CISCO clients.
           # This file must be accessible from inside the worker´s chroot.
           # Note that:
           #  (1) enabling this option is not recommended as it will allow the
           #      worker processes to open arbitrary files (when isolate-workers is
           #      set to true).
           #  (2) This option cannot be set per-user or per-group; only the global
           #      version is being sent to client.
           #user-profile = profile.xml

           #
           # The following options are for (experimental) AnyConnect client
           # compatibility.

           # This option will enable the pre-draft-DTLS version of DTLS, and
           # will not require clients to present their certificate on every TLS
           # connection. It must be set to true to support legacy CISCO clients
           # and openconnect clients < 7.08. When set to true, it implies dtls-legacy = true.
           cisco-client-compat = true

           # This option allows one to disable the DTLS-PSK negotiation (enabled by default).
           # The DTLS-PSK negotiation was introduced in ocserv 0.11.5 to deprecate
           # the pre-draft-DTLS negotiation inherited from AnyConnect. It allows the
           # DTLS channel to negotiate its ciphers and the DTLS protocol version.
           #dtls-psk = false

           # This option allows one to disable the legacy DTLS negotiation (enabled by default,
           # but that may change in the future).
           # The legacy DTLS uses a pre-draft version of the DTLS protocol and was
           # from AnyConnect protocol. It has several limitations, that are addressed
           # by the dtls-psk protocol supported by openconnect 7.08+.
           dtls-legacy = true

           # This option will enable the settings needed for Cisco SVC IPPhone clients
           # to connect. It implies dtls-legacy = true and tls-priorities is changed to
           # only the ciphers the device supports.
           cisco-svc-client-compat = false

           # This option will enable the X-CSTP-Client-Bypass-Protocol (disabled by default).
           # If the server has not configured an IPv6 or IPv4 address pool, enabling this option
           # will instruct the client to bypass the server for that IP protocol. The option is
           # currently only understood by Anyconnect clients.
           client-bypass-protocol = false

           # The following options are related to server camouflage (hidden service)

           # This option allows you to enable the camouflage feature of ocserv that makes it look
           # like a web server to unauthorized parties.
           # With "camouflage" enabled, connection to the VPN can be established only if the client provided a specific
           # "secret string" in the connection URL, e.g. "https://example.com/?mysecretkey",
           # otherwise the server will return HTTP error for all requests.
           camouflage = false

           # The URL prefix that should be set on the client (after ´?´ sign) to pass through the camouflage check,
           # e.g. in case of ´mysecretkey´, the server URL on the client should be like "https://example.com/?mysecretkey".
           camouflage_secret = "mysecretkey"

           # Defines the realm (browser prompt) for HTTP authentication.
           # If no realm is set, the server will return 404 Not found error instead of 401 Unauthorized.
           # Better change it from the default value to avoid fingerprinting.
           camouflage_realm = "Restricted Content"

           #Advanced options

           # Option to allow sending arbitrary custom headers to the client after
           # authentication and prior to VPN tunnel establishment. You shouldn´t
           # need to use this option normally; if you do and you think that
           # this may help others, please send your settings and reason to
           # the openconnect mailing list. The special keywords ´%{U}´
           # and ´%{G}´, if present will be replaced by the username and group name.
           #custom-header = "X-My-Header: hi there"

           # An example virtual host with different authentication methods serviced
           # by this server.

           [vhost:www.example.com]
           auth = "certificate"

           ca-cert = ../tests/certs/ca.pem

           # The certificate set here must include a ´dns_name´ corresponding to
           # the virtual host name.

           server-cert = ../tests/certs/server-cert-secp521r1.pem
           server-key = ../tests/certs/server-key-secp521r1.pem

           ipv4-network = 192.168.2.0
           ipv4-netmask = 255.255.255.0

           cert-user-oid = 0.9.2342.19200300.100.1.1

           # HTTP headers
           included-http-headers = Strict-Transport-Security: max-age=31536000 ; includeSubDomains
           included-http-headers = X-Frame-Options: deny
           included-http-headers = X-Content-Type-Options: nosniff
           included-http-headers = Content-Security-Policy: default-src ´none´
           included-http-headers = X-Permitted-Cross-Domain-Policies: none
           included-http-headers = Referrer-Policy: no-referrer
           included-http-headers = Clear-Site-Data: "cache","cookies","storage"
           included-http-headers = Cross-Origin-Embedder-Policy: require-corp
           included-http-headers = Cross-Origin-Opener-Policy: same-origin
           included-http-headers = Cross-Origin-Resource-Policy: same-origin
           included-http-headers = X-XSS-Protection: 0
           included-http-headers = Pragma: no-cache
           included-http-headers = Cache-control: no-store, no-cache

SEE ALSO

       occtl(8), ocpasswd(8), openconnect(8)

COPYRIGHT

       Copyright (C) 2013-2018 Nikos Mavrogiannopoulos and  others,  all  rights  reserved.  This
       program is released under the terms of the GNU General Public License, version 2.

AUTHORS

       Written by Nikos Mavrogiannopoulos. Many people have contributed to it.

                                            July 2023                                   OCSERV(8)