Provided by: strongswan-starter_5.1.2-0ubuntu2.11_amd64 bug

NAME

       strongswan.conf - strongSwan configuration file

DESCRIPTION

       While  the  ipsec.conf(5)  configuration  file  is  well  suited  to  define IPsec related
       configuration parameters, it is not useful  for  other  strongSwan  applications  to  read
       options  from  this  file.  The file is hard to parse and only ipsec starter is capable of
       doing so. As the number of components of the strongSwan project is continually growing,  a
       more flexible configuration file was needed, one that is easy to extend and can be used by
       all components. With strongSwan 4.2.1 strongswan.conf(5) was introduced which meets  these
       requirements.

SYNTAX

       The  format  of  the  strongswan.conf file consists of hierarchical sections and a list of
       key/value pairs in each section. Each section  has  a  name,  followed  by  C-Style  curly
       brackets  defining  the  section body. Each section body contains a set of subsections and
       key/value pairs:

            settings := (section|keyvalue)*
            section  := name { settings }
            keyvalue := key = value\n

       Values must be terminated by a newline.

       Comments are possible using the #-character, but be careful: The parser implementation  is
       currently limited and does not like brackets in comments.

       Section names and keys may contain any printable character except:

            . { } # \n \t space

       An example file in this format might look like this:

            a = b
            section-one {
                 somevalue = asdf
                 subsection {
                      othervalue = xxx
                 }
                 # yei, a comment
                 yetanother = zz
            }
            section-two {
                 x = 12
            }

       Indentation is optional, you may use tabs or spaces.

INCLUDING FILES

       Using  the  include  statement it is possible to include other files into strongswan.conf,
       e.g.

            include /some/path/*.conf

       If the file name is not an absolute path, it is considered to be relative to the directory
       of  the  file  containing the include statement. The file name may include shell wildcards
       (see sh(1)).  Also, such inclusions can be nested.

       Sections loaded from included files extend previously loaded  sections;  already  existing
       values  are  replaced.   It  is  important to note that settings are added relative to the
       section the include statement is in.

       As an example, the following three files result in the same final config as the one  given
       above:

            a = b
            section-one {
                 somevalue = before include
                 include include.conf
            }
            include other.conf

       include.conf:
            # settings loaded from this file are added to section-one
            # the following replaces the previous value
            somevalue = asdf
            subsection {
                 othervalue = yyy
            }
            yetanother = zz

       other.conf:
            # this extends section-one and subsection
            section-one {
                 subsection {
                      # this replaces the previous value
                      othervalue = xxx
                 }
            }
            section-two {
                 x = 12
            }

READING VALUES

       Values  are  accessed using a dot-separated section list and a key.  With reference to the
       example above, accessing section-one.subsection.othervalue will return xxx.

DEFINED KEYS

       The following keys are currently defined (using dot notation). The default value (if  any)
       is listed in brackets after the key.

       attest.database []
              File  measurement information database URI. If it contains a password, make sure to
              adjust the permissions of the config file accordingly.

       attest.load []
              Plugins to load in ipsec attest tool.

       charon
              Options for the charon IKE daemon.

              Note: Many of the options in this section also apply to charon-cmd and other charon
              derivatives.   Just use their respective name (e.g.  charon-cmd instead of charon).
              For many options defaults can be defined in the libstrongswan section.

       charon.block_threshold [5]
              Maximum number of half-open IKE_SAs for a single peer IP.

       charon.cert_cache [yes]
              Whether relations in validated certificate chains should be cached in memory.

       charon.cisco_unity [no]
              Send Cisco Unity vendor ID payload (IKEv1 only).

       charon.close_ike_on_child_failure [no]
              Close the IKE_SA if setup of the CHILD_SA along with IKE_AUTH failed.

       charon.cookie_threshold [10]
              Number of half-open IKE_SAs that activate the cookie mechanism.

       charon.dh_exponent_ansi_x9_42 [yes]
              Use ANSI X9.42 DH exponent size or optimum size matched to cryptographic strength.

       charon.dns1 []
              DNS server assigned to peer via configuration payload (CP).

       charon.dns2 []
              DNS server assigned to peer via configuration payload (CP).

       charon.dos_protection [yes]
              Enable Denial of Service protection using cookies and aggressiveness checks.

       charon.ecp_x_coordinate_only [yes]
              Compliance with the errata for RFC 4753.

       charon.flush_auth_cfg [no]
              If enabled objects used during authentication (certificates, identities etc.)   are
              released to free memory once an IKE_SA is established. Enabling this might conflict
              with plugins that later need access to e.g. the used certificates.

       charon.fragment_size [512]
              Maximum size (in bytes) of  a  sent  fragment  when  using  the  proprietary  IKEv1
              fragmentation extension.

       charon.group []
              Name of the group the daemon changes to after startup.

       charon.half_open_timeout [30]
              Timeout in seconds for connecting IKE_SAs (also see IKE_SA_INIT DROPPING).

       charon.hash_and_url [no]
              Enable hash and URL support.

       charon.i_dont_care_about_security_and_use_aggressive_mode_psk [no]
              If  enabled  responders  are  allowed  to use IKEv1 Aggressive Mode with pre-shared
              keys, which is discouraged due to security concerns (offline attacks on the  openly
              transmitted hash of the PSK).

       charon.ignore_routing_tables []
              A space-separated list of routing tables to be excluded from route lookups.

       charon.ikesa_limit [0]
              Maximum  number  of  IKE_SAs  that  can  be established at the same time before new
              connection attempts are blocked.

       charon.ikesa_table_segments [1]
              Number of exclusively locked segments in the hash table.

       charon.ikesa_table_size [1]
              Size of the IKE_SA hash table.

       charon.inactivity_close_ike [no]
              Whether to close IKE_SA if the only CHILD_SA closed due to inactivity.

       charon.init_limit_half_open [0]
              Limit new connections based on  the  current  number  of  half  open  IKE_SAs,  see
              IKE_SA_INIT DROPPING in strongswan.conf(5).

       charon.init_limit_job_load [0]
              Limit  new  connections based on the number of jobs currently queued for processing
              (see IKE_SA_INIT DROPPING).

       charon.initiator_only [no]
              Causes charon daemon to ignore IKE initiation requests.

       charon.install_routes [yes]
              Install routes into a separate routing table for established IPsec tunnels.

       charon.install_virtual_ip [yes]
              Install virtual IP addresses.

       charon.install_virtual_ip_on []
              The name of the interface on which virtual IP addresses should be installed. If not
              specified the addresses will be installed on the outbound interface.

       charon.integrity_test [no]
              Check daemon, libstrongswan and plugin integrity at startup.

       charon.interfaces_ignore []
              A   comma-separated   list  of  network  interfaces  that  should  be  ignored,  if
              interfaces_use is specified this option has no effect.

       charon.interfaces_use []
              A comma-separated list of network interfaces that should be  used  by  charon.  All
              other interfaces are ignored.

       charon.keep_alive [20s]
              NAT keep alive interval.

       charon.load []
              Plugins to load in the IKE daemon charon.

       charon.load_modular [no]
              If  enabled,  the  list  of  plugins  to  load  is  determined via the value of the
              charon.plugins.<name>.load options.  In addition to  a  simple  boolean  flag  that
              option  may  take an integer value indicating the priority of a plugin, which would
              influence the order of a plugin in the plugin list  (the  default  is  1).  If  two
              plugins have the same priority their order in the default plugin list is preserved.
              Enabled plugins not found in that list  are  ordered  alphabetically  before  other
              plugins with the same priority.

       charon.max_packet [10000]
              Maximum packet size accepted by charon.

       charon.multiple_authentication [yes]
              Enable multiple authentication exchanges (RFC 4739).

       charon.nbns1 []
              WINS servers assigned to peer via configuration payload (CP).

       charon.nbns2 []
              WINS servers assigned to peer via configuration payload (CP).

       charon.port [500]
              UDP port used locally. If set to 0 a random port will be allocated.

       charon.port_nat_t [4500]
              UDP  port  used  locally  in  case  of  NAT-T.  If  set  to 0 a random port will be
              allocated.  Has to be different from charon.port, otherwise a random port  will  be
              allocated.

       charon.process_route [yes]
              Process RTM_NEWROUTE and RTM_DELROUTE events.

       charon.receive_delay [0]
              Delay in ms for receiving packets, to simulate larger RTT.

       charon.receive_delay_request [yes]
              Delay request messages.

       charon.receive_delay_response [yes]
              Delay response messages.

       charon.receive_delay_type [0]
              Specific IKEv2 message type to delay, 0 for any.

       charon.replay_window [32]
              Size of the AH/ESP replay window, in packets.

       charon.retransmit_base [1.8]
              Base  to  use  for  calculating  exponential  back off, see IKEv2 RETRANSMISSION in
              strongswan.conf(5).

       charon.retransmit_timeout [4.0]
              Timeout in seconds before sending first retransmit.

       charon.retransmit_tries [5]
              Number of times to retransmit a packet before giving up.

       charon.retry_initiate_interval [0]
              Interval to use when retrying  to  initiate  an  IKE_SA  (e.g.  if  DNS  resolution
              failed), 0 to disable retries.

       charon.reuse_ikesa [yes]
              Initiate CHILD_SA within existing IKE_SAs.

       charon.routing_table []
              Numerical routing table to install routes to.

       charon.routing_table_prio []
              Priority of the routing table.

       charon.send_delay [0]
              Delay in ms for sending packets, to simulate larger RTT.

       charon.send_delay_request [yes]
              Delay request messages.

       charon.send_delay_response [yes]
              Delay response messages.

       charon.send_delay_type [0]
              Specific IKEv2 message type to delay, 0 for any.

       charon.send_vendor_id [no]
              Send strongSwan vendor ID payload

       charon.threads [16]
              Number  of worker threads in charon. Several of these are reserved for long running
              tasks in internal modules and plugins. Therefore, make  sure  you  don't  set  this
              value too low. The number of idle worker threads listed in ipsec statusall might be
              used as indicator on the number of reserved threads.

       charon.user []
              Name of the user the daemon changes to after startup.

       charon.crypto_test.bench [no]
              Benchmark crypto algorithms and order them by efficiency.

       charon.crypto_test.bench_size [1024]
              Buffer size used for crypto benchmark.

       charon.crypto_test.bench_time [50]
              Number of iterations to test each algorithm.

       charon.crypto_test.on_add [no]
              Test crypto algorithms during registration (requires test vectors provided  by  the
              test-vectors plugin).

       charon.crypto_test.on_create [no]
              Test crypto algorithms on each crypto primitive instantiation.

       charon.crypto_test.required [no]
              Strictly require at least one test vector to enable an algorithm.

       charon.crypto_test.rng_true [no]
              Whether to test RNG with TRUE quality; requires a lot of entropy.

       charon.filelog
              Section to define file loggers, see LOGGER CONFIGURATION in strongswan.conf(5).

       charon.filelog.<filename>
              <filename> is the full path to the log file.

       charon.filelog.<filename>.<subsystem> [<default>]
              Loglevel for a specific subsystem.

       charon.filelog.<filename>.append [yes]
              If this option is enabled log entries are appended to the existing file.

       charon.filelog.<filename>.default [1]
              Specifies  the  default  loglevel  to  be used for subsystems for which no specific
              loglevel is defined.

       charon.filelog.<filename>.flush_line [no]
              Enabling this option disables block buffering and enables line buffering.

       charon.filelog.<filename>.ike_name [no]
              Prefix each log entry with the connection name and a  unique  numerical  identifier
              for each IKE_SA.

       charon.filelog.<filename>.time_format []
              Prefix  each  log  entry  with  a  timestamp. The option accepts a format string as
              passed to strftime(3).

       charon.host_resolver.max_threads [3]
              Maximum number of concurrent resolver threads (they are terminated if unused).

       charon.host_resolver.min_threads [0]
              Minimum number of resolver threads to keep around.

       charon.imcv
              Defaults for options in this section can be configured in the libimcv section.

       charon.imcv.assessment_result [yes]
              Whether IMVs send a standard IETF Assessment Result attribute.

       charon.imcv.database []
              Global IMV policy database URI. If it contains a password, make sure to adjust  the
              permissions of the config file accordingly.

       charon.imcv.policy_script [ipsec _imv_policy]
              Script called for each TNC connection to generate IMV policies.

       charon.imcv.os_info.name []
              Manually set the name of the client OS (e.g. Ubuntu).

       charon.imcv.os_info.version []
              Manually set the version of the client OS (e.g. 12.04 i686).

       charon.leak_detective.detailed [yes]
              Includes source file names and line numbers in leak detective output.

       charon.leak_detective.usage_threshold [10240]
              Threshold in bytes for leaks to be reported (0 to report all).

       charon.leak_detective.usage_threshold_count [0]
              Threshold in number of allocations for leaks to be reported (0 to report all).

       charon.plugins.android_log.loglevel [1]
              Loglevel for logging to Android specific logger.

       charon.plugins.attr
              Section   to  specify  arbitrary  attributes  that  are  assigned  to  a  peer  via
              configuration payload (CP).

       charon.plugins.attr.<attr> []
              <attr> can be either address, netmask,  dns,  nbns,  dhcp,  subnet,  split-include,
              split-exclude  or  the numeric identifier of the attribute type. The assigned value
              can be an IPv4/IPv6 address, a subnet  in  CIDR  notation  or  an  arbitrary  value
              depending  on  the attribute type.  For some attribute types multiple values may be
              specified as a comma separated list.

       charon.plugins.attr-sql.database []
              Database URI for attr-sql plugin used by charon. If it contains  a  password,  make
              sure to adjust the permissions of the config file accordingly.

       charon.plugins.attr-sql.lease_history [yes]
              Enable logging of SQL IP pool leases.

       charon.plugins.certexpire.csv.cron []
              Cron style string specifying CSV export times.

       charon.plugins.certexpire.csv.empty_string []
              String to use in empty intermediate CA fields.

       charon.plugins.certexpire.csv.fixed_fields [yes]
              Use a fixed intermediate CA field count.

       charon.plugins.certexpire.csv.force [yes]
              Force export of all trustchains we have a private key for.

       charon.plugins.certexpire.csv.format [%d:%m:%Y]
              strftime(3) format string to export expiration dates as.

       charon.plugins.certexpire.csv.local []
              strftime(3) format string for the CSV file name to export local certificates to.

       charon.plugins.certexpire.csv.remote []
              strftime(3) format string for the CSV file name to export remote certificates to.

       charon.plugins.certexpire.csv.separator [,]
              CSV field separator.

       charon.plugins.coupling.file []
              File to store coupling list to.

       charon.plugins.coupling.hash [sha1]
              Hashing algorithm to fingerprint coupled certificates.

       charon.plugins.coupling.max [1]
              Maximum number of coupling entries to create.

       charon.plugins.dhcp.force_server_address [no]
              Always  use the configured server address. This might be helpful if the DHCP server
              runs on the same host as strongSwan, and the DHCP daemon does  not  listen  on  the
              loopback interface.  In that case the server cannot be reached via unicast (or even
              255.255.255.255) as that would be routed via loopback. Setting this option  to  yes
              and configuring the local broadcast address (e.g.  192.168.0.255) as server address
              might work.

       charon.plugins.dhcp.identity_lease [no]
              Derive user-defined MAC address from hash of IKE identity.

       charon.plugins.dhcp.interface []
              Interface name the plugin uses for address allocation. The default is  to  bind  to
              any  (0.0.0.0) and let the system decide which way to route the packets to the DHCP
              server.

       charon.plugins.dhcp.server [255.255.255.255]
              DHCP server unicast or broadcast IP address.

       charon.plugins.dnscert.enable [no]
              Enable fetching of CERT RRs via DNS.

       charon.plugins.duplicheck.enable [yes]
              Enable duplicheck plugin (if loaded).

       charon.plugins.duplicheck.socket [unix://${piddir}/charon.dck]
              Socket provided by the duplicheck plugin.

       charon.plugins.eap-aka.request_identity [yes]

       charon.plugins.eap-aka-3ggp2.seq_check []

       charon.plugins.eap-dynamic.prefer_user [no]
              If enabled the EAP methods proposed in an EAP-Nak message  sent  by  the  peer  are
              preferred over the methods registered locally.

       charon.plugins.eap-dynamic.preferred []
              The  preferred  EAP  method(s) to be used.  If it is not given the first registered
              method will be used initially.  If a comma separated list is given the methods  are
              tried in the given order before trying the rest of the registered methods.

       charon.plugins.eap-gtc.backend [pam]
              XAuth backend to be used for credential verification.

       charon.plugins.eap-peap.fragment_size [1024]
              Maximum size of an EAP-PEAP packet.

       charon.plugins.eap-peap.include_length [no]
              Include length in non-fragmented EAP-PEAP packets.

       charon.plugins.eap-peap.max_message_count [32]
              Maximum number of processed EAP-PEAP packets (0 = no limit).

       charon.plugins.eap-peap.phase2_method [mschapv2]
              Phase2 EAP client authentication method.

       charon.plugins.eap-peap.phase2_piggyback [no]
              Phase2 EAP Identity request piggybacked by server onto TLS Finished message.

       charon.plugins.eap-peap.phase2_tnc [no]
              Start phase2 EAP TNC protocol after successful client authentication.

       charon.plugins.eap-peap.request_peer_auth [no]
              Request peer authentication based on a client certificate.

       charon.plugins.eap-radius.accounting [no]
              Send RADIUS accounting information to RADIUS servers.

       charon.plugins.eap-radius.accounting_requires_vip [no]
              If enabled, accounting is disabled unless an IKE_SA has at least one virtual IP.

       charon.plugins.eap-radius.class_group [no]
              Use  the  class  attribute  sent  in  the RADIUS-Accept message as group membership
              information that is compared to the groups specified in the rightgroups  option  in
              ipsec.conf(5).

       charon.plugins.eap-radius.close_all_on_timeout [no]
              Closes  all IKE_SAs if communication with the RADIUS server times out. If it is not
              set only the current IKE_SA is closed.

       charon.plugins.eap-radius.eap_start [no]
              Send EAP-Start instead of EAP-Identity to start RADIUS conversation.

       charon.plugins.eap-radius.filter_id [no]
              If the RADIUS tunnel_type attribute with value ESP is received, use  the  filter_id
              attribute sent in the RADIUS-Accept message as group membership information that is
              compared to the groups specified in the rightgroups option in ipsec.conf(5).

       charon.plugins.eap-radius.id_prefix []
              Prefix to EAP-Identity, some AAA servers use  a  IMSI  prefix  to  select  the  EAP
              method.

       charon.plugins.eap-radius.nas_identifier [strongSwan]
              NAS-Identifier to include in RADIUS messages.

       charon.plugins.eap-radius.port [1812]
              Port of RADIUS server (authentication).

       charon.plugins.eap-radius.secret []
              Shared  secret  between RADIUS and NAS. If set, make sure to adjust the permissions
              of the config file accordingly.

       charon.plugins.eap-radius.server []
              IP/Hostname of RADIUS server.

       charon.plugins.eap-radius.sockets [1]
              Number of sockets (ports) to use, increase for high load.

       charon.plugins.eap-radius.dae.enable [no]
              Enables support for the Dynamic Authorization Extension (RFC 5176).

       charon.plugins.eap-radius.dae.listen [0.0.0.0]
              Address to listen for DAE messages from the RADIUS server.

       charon.plugins.eap-radius.dae.port [3799]
              Port to listen for DAE requests.

       charon.plugins.eap-radius.dae.secret []
              Shared secret used to verify/sign DAE messages. If set, make  sure  to  adjust  the
              permissions of the config file accordingly.

       charon.plugins.eap-radius.forward.ike_to_radius []
              RADIUS  attributes  to be forwarded from IKEv2 to RADIUS (can be defined by name or
              attribute number, a colon can be used to specify vendor-specific  attributes,  e.g.
              Reply-Message, or 11, or 36906:12).

       charon.plugins.eap-radius.forward.radius_to_ike []
              Same as charon.plugins.eap-radius.forward.ike_to_radius but from RADIUS to IKEv2, a
              strongSwan specific private notify (40969) is used to transmit the attributes.

       charon.plugins.eap-radius.servers
              Section to specify multiple RADIUS servers. The nas_identifier, secret, sockets and
              port  (or  auth_port)  options  can  be  specified  for  each  server.  A  server's
              IP/Hostname can be configured using  the  address  option.   The  acct_port  [1813]
              option  can be used to specify the port used for RADIUS accounting. For each RADIUS
              server a priority can be specified using the preference [0] option.

       charon.plugins.eap-radius.xauth
              Section  to  configure  multiple  XAuth  authentication  rounds  via  RADIUS.   The
              subsections  define so called authentication profiles with arbitrary names. In each
              profile section one or more  XAuth  types  can  be  configured,  with  an  assigned
              message.  For each type a separate XAuth exchange will be initiated and all replies
              get concatenated into the User-Password attribute, which then  gets  verified  over
              RADIUS.

              Available  XAuth  types  are password, passcode, nextpin, and answer.  This type is
              not relevant to strongSwan or the AAA server, but the client may show  a  different
              dialog (along with the configured message).

              To  use  the  configured  profiles,  they  have  to be configured in the respective
              connection in ipsec.conf(5) by appending the profile name, separated by a colon, to
              the  xauth-radius  XAauth  backend  configuration  in  rightauth or rightauth2, for
              instance, rightauth2=xauth-radius:profile.

       charon.plugins.eap-sim.request_identity [yes]

       charon.plugins.eap-simaka-sql.database []

       charon.plugins.eap-simaka-sql.remove_used [no]

       charon.plugins.eap-tls.fragment_size [1024]
              Maximum size of an EAP-TLS packet.

       charon.plugins.eap-tls.include_length [yes]
              Include length in non-fragmented EAP-TLS packets.

       charon.plugins.eap-tls.max_message_count [32]
              Maximum number of processed EAP-TLS packets (0 = no limit).

       charon.plugins.eap-tnc.max_message_count [10]
              Maximum number of processed EAP-TNC packets (0 = no limit).

       charon.plugins.eap-tnc.protocol [tnccs-1.1]
              IF-TNCCS protocol version to be used (tnccs-1.1, tnccs-2.0, tnccs-dynamic).

       charon.plugins.eap-ttls.fragment_size [1024]
              Maximum size of an EAP-TTLS packet.

       charon.plugins.eap-ttls.include_length [yes]
              Include length in non-fragmented EAP-TTLS packets.

       charon.plugins.eap-ttls.max_message_count [32]
              Maximum number of processed EAP-TTLS packets (0 = no limit).

       charon.plugins.eap-ttls.phase2_method [md5]
              Phase2 EAP client authentication method.

       charon.plugins.eap-ttls.phase2_piggyback [no]
              Phase2 EAP Identity request piggybacked by server onto TLS Finished message.

       charon.plugins.eap-ttls.phase2_tnc [no]
              Start phase2 EAP TNC protocol after successful client authentication.

       charon.plugins.eap-ttls.request_peer_auth [no]
              Request peer authentication based on a client certificate.

       charon.plugins.error-notify.socket [unix://${piddir}/charon.enfy]
              Socket provided by the error-notify plugin.

       charon.plugins.gcrypt.quick_random [no]
              Use faster random numbers in gcrypt; for testing only, produces weak keys!

       charon.plugins.ha.autobalance [0]
              Interval in seconds to automatically balance handled segments between nodes. Set to
              0 to disable.

       charon.plugins.ha.fifo_interface [yes]

       charon.plugins.ha.heartbeat_delay [1000]

       charon.plugins.ha.heartbeat_timeout [2100]

       charon.plugins.ha.local []

       charon.plugins.ha.monitor [yes]

       charon.plugins.ha.pools []

       charon.plugins.ha.remote []

       charon.plugins.ha.resync [yes]

       charon.plugins.ha.secret []

       charon.plugins.ha.segment_count [1]

       charon.plugins.imc-attestation.aik_blob []
              AIK encrypted private key blob file.

       charon.plugins.imc-attestation.aik_cert []
              AIK certificate file.

       charon.plugins.imc-attestation.aik_key []
              AIK public key file.

       charon.plugins.imc-attestation.nonce_len [20]
              DH nonce length.

       charon.plugins.imc-attestation.pcr17_after []
              Dummy data if the TBOOT log is not retrieved.

       charon.plugins.imc-attestation.pcr17_before []
              Dummy data if the TBOOT log is not retrieved.

       charon.plugins.imc-attestation.pcr17_meas []
              Dummy data if the TBOOT log is not retrieved.

       charon.plugins.imc-attestation.pcr18_after []
              Dummy data if the TBOOT log is not retrieved.

       charon.plugins.imc-attestation.pcr18_before []
              Dummy data if the TBOOT log is not retrieved.

       charon.plugins.imc-attestation.pcr18_meas []
              Dummy data if the TBOOT log is not retrieved.

       charon.plugins.imc-attestation.pcr_info [yes]
              Whether to send pcr_before and pcr_after info.

       charon.plugins.imc-attestation.use_quote2 [yes]
              Use Quote2 AIK signature instead of Quote signature.

       charon.plugins.imc-os.push_info [yes]
              Send operating system info without being prompted.

       charon.plugins.imc-scanner.push_info [yes]
              Send open listening ports without being prompted.

       charon.plugins.imc-swid.swid_directory [${prefix}/share]
              Directory where SWID tags are located.

       charon.plugins.imc-test.additional_ids [0]
              Number of additional IMC IDs.

       charon.plugins.imc-test.command [none]
              Command to be sent to the Test IMV.

       charon.plugins.imc-test.dummy_size [0]
              Size of dummy attribute to be sent to the Test IMV (0 = disabled).

       charon.plugins.imc-test.retry [no]
              Do a handshake retry.

       charon.plugins.imc-test.retry_command []
              Command to be sent to the Test IMV in the handshake retry.

       charon.plugins.imv-attestation.cadir []
              Path to directory with AIK cacerts.

       charon.plugins.imv-attestation.dh_group [ecp256]
              Preferred Diffie-Hellman group.

       charon.plugins.imv-attestation.hash_algorithm [sha256]
              Preferred measurement hash algorithm.

       charon.plugins.imv-attestation.min_nonce_len [0]
              DH minimum nonce length.

       charon.plugins.imv-os.remediation_uri []
              URI pointing to operating system remediation instructions.

       charon.plugins.imv-scanner.remediation_uri []
              URI pointing to scanner remediation instructions.

       charon.plugins.imv-test.rounds [0]
              Number of IMC-IMV retry rounds.

       charon.plugins.ipseckey.enable [no]
              Enable fetching of IPSECKEY RRs via DNS.

       charon.plugins.kernel-klips.ipsec_dev_count [4]
              Number of ipsecN devices.

       charon.plugins.kernel-klips.ipsec_dev_mtu [0]
              Set MTU of ipsecN device.

       charon.plugins.kernel-libipsec.allow_peer_ts [no]
              Allow that the remote traffic selector equals the IKE peer. The route installed for
              such traffic (via TUN device) usually prevents  further  IKE  traffic.  The  fwmark
              options for the kernel-netlink and socket-default plugins can be used to circumvent
              that problem.

       charon.plugins.kernel-netlink.fwmark []
              Firewall mark to set on the routing rule that directs traffic to our routing table.
              The  format  is  [!]mark[/mask],  where  the  optional exclamation mark inverts the
              meaning (i.e. the rule only applies to packets that don't match the mark).

       charon.plugins.kernel-netlink.roam_events [yes]
              Whether to trigger roam events when interfaces, addresses or routes change.

       charon.plugins.kernel-netlink.xfrm_acq_expires [165]
              Lifetime  of  XFRM  acquire  state  in  kernel.   The   value   gets   written   to
              /proc/sys/net/core/xfrm_acq_expires.  Indirectly controls the delay of XFRM acquire
              messages sent.

       charon.plugins.kernel-pfroute.vip_wait [1000]
              Time in ms to wait until virtual IP addresses appear/disappear before failing.

       charon.plugins.led.activity_led []

       charon.plugins.led.blink_time [50]

       charon.plugins.load-tester
              Section to configure the load-tester plugin, see LOAD TESTS  in  strongswan.conf(5)
              for details.

       charon.plugins.load-tester.addrs_keep [no]
              Whether to keep dynamic addresses even after the associated SA got terminated.

       charon.plugins.load-tester.addrs_prefix [16]
              Network  prefix  length  to use when installing dynamic addresses. If set to -1 the
              full address is used (i.e. 32 or 128).

       charon.plugins.load-tester.ca_dir []
              Directory to load (intermediate) CA certificates from.

       charon.plugins.load-tester.child_rekey [600]
              Seconds to start CHILD_SA rekeying after setup.

       charon.plugins.load-tester.delay [0]
              Delay between initiatons for each thread.

       charon.plugins.load-tester.delete_after_established [no]
              Delete an IKE_SA as soon as it has been established.

       charon.plugins.load-tester.digest [sha1]
              Digest algorithm used when issuing certificates.

       charon.plugins.load-tester.dpd_delay [0]
              DPD delay to use in load test.

       charon.plugins.load-tester.dynamic_port [0]
              Base port to be used for requests (each client uses a different port).

       charon.plugins.load-tester.eap_password [default-pwd]
              EAP secret to use in load test.

       charon.plugins.load-tester.enable [no]
              Enable the load testing plugin.  WARNING: Never enable this  plugin  on  productive
              systems.   It   provides  preconfigured  credentials  and  allows  an  attacker  to
              authenticate as any user.

       charon.plugins.load-tester.esp [aes128-sha1]
              CHILD_SA proposal to use for load tests.

       charon.plugins.load-tester.fake_kernel [no]
              Fake the kernel interface to allow load-testing against self.

       charon.plugins.load-tester.ike_rekey [0]
              Seconds to start IKE_SA rekeying after setup.

       charon.plugins.load-tester.init_limit [0]
              Global limit of concurrently established SAs during load test.

       charon.plugins.load-tester.initiator [0.0.0.0]
              Address to initiate from.

       charon.plugins.load-tester.initiator_auth [pubkey]
              Authentication method(s) the intiator uses.

       charon.plugins.load-tester.initiator_id []
              Initiator ID used in load test.

       charon.plugins.load-tester.initiator_match []
              Initiator ID to match against as responder.

       charon.plugins.load-tester.initiator_tsi []
              Traffic selector on initiator side, as proposed by initiator.

       charon.plugins.load-tester.initiator_tsr []
              Traffic selector on responder side, as proposed by initiator.

       charon.plugins.load-tester.initiators [0]
              Number of concurrent initiator threads to use in load test.

       charon.plugins.load-tester.issuer_cert []
              Path to the issuer certificate (if not configured a  hard-coded  default  value  is
              used).

       charon.plugins.load-tester.issuer_key []
              Path  to  private  key  that  is  used  to  issue certificates (if not configured a
              hard-coded default value is used).

       charon.plugins.load-tester.iterations [1]
              Number of IKE_SAs to initiate by each initiator in load test.

       charon.plugins.load-tester.mode [tunnel]
              IPsec mode to use, one of tunnel, transport, or beet.

       charon.plugins.load-tester.pool []
              Provide INTERNAL_IPV4_ADDRs from a named pool.

       charon.plugins.load-tester.preshared_key [<default-psk>]
              Preshared key to use in load test.

       charon.plugins.load-tester.proposal [aes128-sha1-modp768]
              IKE proposal to use in load test.

       charon.plugins.load-tester.request_virtual_ip [no]
              Request an INTERNAL_IPV4_ADDR from the server.

       charon.plugins.load-tester.responder [127.0.0.1]
              Address to initiation connections to.

       charon.plugins.load-tester.responder_auth [pubkey]
              Authentication method(s) the responder uses.

       charon.plugins.load-tester.responder_id []
              Responder ID used in load test.

       charon.plugins.load-tester.responder_tsi [initiator_tsi]
              Traffic selector on initiator side, as narrowed by responder.

       charon.plugins.load-tester.responder_tsr [initiator_tsr]
              Traffic selector on responder side, as narrowed by responder.

       charon.plugins.load-tester.shutdown_when_complete [no]
              Shutdown the daemon after all IKE_SAs have been established.

       charon.plugins.load-tester.socket [unix://${piddir}/charon.ldt]
              Socket provided by the load-tester plugin.

       charon.plugins.load-tester.version [0]
              IKE version to use (0 means use IKEv2  as  initiator  and  accept  any  version  as
              responder).

       charon.plugins.load-tester.addrs
              Section  that contains key/value pairs with address pools (in CIDR notation) to use
              for a specific network interface e.g. eth0 = 10.10.0.0/16.

       charon.plugins.lookip.socket [unix://${piddir}/charon.lkp]
              Socket provided by the lookip plugin.

       charon.plugins.ntru.max_drbg_requests [4294967294]
              Number of pseudo-random bit requests from the DRBG before  an  automatic  reseeding
              occurs.

       charon.plugins.ntru.parameter_set [optimum]
              The   following   parameter   sets  are  available:  x9_98_speed,  x9_98_bandwidth,
              x9_98_balance and optimum, the last set not being part of the  X9.98  standard  but
              having the best performance.

       charon.plugins.openssl.engine_id [pkcs11]
              ENGINE ID to use in the OpenSSL plugin.

       charon.plugins.openssl.fips_mode [0]
              Set OpenSSL FIPS mode: disabled(0), enabled(1), Suite B enabled(2).

       charon.plugins.pkcs11.load_certs [yes]
              Whether to load certificates from tokens.

       charon.plugins.pkcs11.reload_certs [no]
              Reload certificates from all tokens if charon receives a SIGHUP.

       charon.plugins.pkcs11.use_dh [no]
              Whether the PKCS#11 modules should be used for DH and ECDH (see use_ecc option).

       charon.plugins.pkcs11.use_ecc [no]
              Whether  the  PKCS#11  modules  should  be  used  for  ECDH  and  ECDSA  public key
              operations. ECDSA private keys can be used regardless of this option.

       charon.plugins.pkcs11.use_hasher [no]
              Whether the PKCS#11 modules should be used to hash data.

       charon.plugins.pkcs11.use_pubkey [no]
              Whether the PKCS#11 modules should be used for public key operations, even for keys
              not stored on tokens.

       charon.plugins.pkcs11.use_rng [no]
              Whether the PKCS#11 modules should be used as RNG.

       charon.plugins.pkcs11.modules
              List of available PKCS#11 modules.

       charon.plugins.radattr.dir []
              Directory where RADIUS attributes are stored in client-ID specific files.

       charon.plugins.radattr.message_id [-1]
              Attributes  are  added  to  all  IKE_AUTH  messages by default (-1), or only to the
              IKE_AUTH message with the given IKEv2 message ID.

       charon.plugins.random.random [${random_device}]
              File to read random bytes from.

       charon.plugins.random.strong_equals_true [no]
              If set to yes the RNG_STRONG class reads random bytes from the same source  as  the
              RNG_TRUE class.

       charon.plugins.random.urandom [${urandom_device}]
              File to read pseudo random bytes from.

       charon.plugins.resolve.file [/etc/resolv.conf]
              File where to add DNS server entries.

       charon.plugins.resolve.resolvconf.iface_prefix [lo.inet.ipsec.]
              Prefix  used  for interface names sent to resolvconf(8).  The nameserver address is
              appended to this prefix to make it unique.  The result has to be a valid  interface
              name  according  to  the  rules defined by resolvconf.  Also, it should have a high
              priority according to the order defined in interface-order(5).

       charon.plugins.socket-default.fwmark []
              Firewall mark to set on outbound packets.

       charon.plugins.socket-default.set_source [yes]
              Set source address on outbound packets, if possible.

       charon.plugins.socket-default.use_ipv4 [yes]
              Listen on IPv4, if possible.

       charon.plugins.socket-default.use_ipv6 [yes]
              Listen on IPv6, if possible.

       charon.plugins.sql.database []
              Database URI for charon's SQL plugin. If it  contains  a  password,  make  sure  to
              adjust the permissions of the config file accordingly.

       charon.plugins.sql.loglevel [-1]
              Loglevel for logging to SQL database.

       charon.plugins.stroke.ignore_missing_ca_basic_constraint [no]
              Treat certificates in ipsec.d/cacerts and ipsec.conf ca sections as CA certificates
              even if they don't contain a CA basic constraint.

       charon.plugins.stroke.max_concurrent [4]
              Maximum number of stroke messages handled concurrently.

       charon.plugins.stroke.prevent_loglevel_changes [no]
              If enabled log level changes via stroke socket are not allowed.

       charon.plugins.stroke.socket [unix://${piddir}/charon.ctl]
              Socket provided by the stroke plugin.

       charon.plugins.stroke.timeout [0]
              Timeout in ms for any stroke command. Use 0 to disable the timeout.

       charon.plugins.systime-fix.interval [0]
              Interval in seconds to check system time for validity. 0 disables the check.

       charon.plugins.systime-fix.reauth [no]
              Whether to use reauth or delete if an invalid cert lifetime is detected.

       charon.plugins.systime-fix.threshold []
              Threshold date where system time is considered valid. Disabled if not specified.

       charon.plugins.systime-fix.threshold_format [%Y]
              strptime(3) format used to parse threshold option.

       charon.plugins.tnc-ifmap.client_cert []
              Path to X.509 certificate file of IF-MAP client.

       charon.plugins.tnc-ifmap.client_key []
              Path to private key file of IF-MAP client.

       charon.plugins.tnc-ifmap.device_name []
              Unique name of strongSwan server as a PEP and/or PDP device.

       charon.plugins.tnc-ifmap.renew_session_interval [150]
              Interval in seconds between periodic IF-MAP RenewSession requests.

       charon.plugins.tnc-ifmap.server_cert []
              Path to X.509 certificate file of IF-MAP server.

       charon.plugins.tnc-ifmap.server_uri [https://localhost:8444/imap]
              URI of the form [https://]servername[:port][/path].

       charon.plugins.tnc-ifmap.username_password []
              Credentials of IF-MAP client of the form username:password. If set,  make  sure  to
              adjust the permissions of the config file accordingly.

       charon.plugins.tnc-imc.dlclose [yes]
              Unload IMC after use.

       charon.plugins.tnc-imc.preferred_language [en]
              Preferred language for TNC recommendations.

       charon.plugins.tnc-imv.dlclose [yes]
              Unload IMV after use.

       charon.plugins.tnc-imv.recommendation_policy [default]
              TNC recommendation policy, one of default, any, or all.

       charon.plugins.tnc-pdp.server []
              Name of the strongSwan PDP as contained in the AAA certificate.

       charon.plugins.tnc-pdp.timeout []
              Timeout in seconds before closing incomplete connections.

       charon.plugins.tnc-pdp.pt_tls.enable [yes]
              Enable PT-TLS protocol on the strongSwan PDP.

       charon.plugins.tnc-pdp.pt_tls.port [271]
              PT-TLS server port the strongSwan PDP is listening on.

       charon.plugins.tnc-pdp.radius.enable [yes]
              Enable RADIUS protocol on the strongSwan PDP.

       charon.plugins.tnc-pdp.radius.method [ttls]
              EAP tunnel method to be used.

       charon.plugins.tnc-pdp.radius.port [1812]
              RADIUS server port the strongSwan PDP is listening on.

       charon.plugins.tnc-pdp.radius.secret []
              Shared  RADIUS  secret  between strongSwan PDP and NAS. If set, make sure to adjust
              the permissions of the config file accordingly.

       charon.plugins.tnccs-11.max_message_size [45000]
              Maximum size of a PA-TNC message (XML & Base64 encoding).

       charon.plugins.tnccs-20.max_batch_size [65522]
              Maximum size of a PB-TNC batch (upper limit via PT-EAP = 65529).

       charon.plugins.tnccs-20.max_message_size [65490]
              Maximum size of a PA-TNC message (upper limit via PT-EAP = 65497).

       charon.plugins.unbound.dlv_anchors []
              File to read trusted keys for DLV (DNSSEC Lookaside Validation) from. It  uses  the
              same  format  as trust_anchors.  Only one DLV can be configured, which is then used
              as a root trusted DLV, this means that it is a lookaside for the root.

       charon.plugins.unbound.resolv_conf [/etc/resolv.conf]
              File to read DNS resolver configuration from.

       charon.plugins.unbound.trust_anchors [/etc/ipsec.d/dnssec.keys]
              File to read DNSSEC trust anchors from (usually root zone KSK). The format  of  the
              file  is  the  standard DNS Zone file format, anchors can be stored as DS or DNSKEY
              entries in the file.

       charon.plugins.updown.dns_handler [no]
              Whether the updown script should handle DNS servers assigned via IKEv1 Mode  Config
              or  IKEv2  Config Payloads (if enabled they can't be handled by other plugins, like
              resolve)

       charon.plugins.whitelist.enable [yes]
              Enable loaded whitelist plugin.

       charon.plugins.whitelist.socket [unix://${piddir}/charon.wlst]
              Socket provided by the whitelist plugin.

       charon.plugins.xauth-eap.backend [radius]
              EAP plugin to be used as backend for XAuth credential verification.

       charon.plugins.xauth-pam.pam_service [login]
              PAM service to be used for authentication.

       charon.plugins.xauth-pam.session [no]
              Open/close a PAM session for each active IKE_SA.

       charon.plugins.xauth-pam.trim_email [yes]
              If an email address is received as an XAuth username, trim it to just the  username
              part.

       charon.processor.priority_threads
              Section  to  configure  the  number  of reserved threads per priority class see JOB
              PRIORITY MANAGEMENT in strongswan.conf(5).

       charon.syslog
              Section to define syslog loggers, see LOGGER CONFIGURATION in strongswan.conf(5).

       charon.syslog.identifier []
              Global identifier used for an openlog(3) call, prepended to  each  log  message  by
              syslog.   If  not configured, openlog(3) is not called, so the value will depend on
              system defaults (often the program name).

       charon.syslog.<facility>
              <facility> is one of the supported syslog facilities, see LOGGER  CONFIGURATION  in
              strongswan.conf(5).

       charon.syslog.<facility>.<subsystem> [<default>]
              Loglevel for a specific subsystem.

       charon.syslog.<facility>.default [1]
              Specifies  the  default  loglevel  to  be used for subsystems for which no specific
              loglevel is defined.

       charon.syslog.<facility>.ike_name [no]
              Prefix each log entry with the connection name and a  unique  numerical  identifier
              for each IKE_SA.

       charon.tls.cipher []
              List of TLS encryption ciphers.

       charon.tls.key_exchange []
              List of TLS key exchange methods.

       charon.tls.mac []
              List of TLS MAC algorithms.

       charon.tls.suites []
              List of TLS cipher suites.

       charon.tnc.tnc_config [/etc/tnc_config]
              TNC IMC/IMV configuration file.

       charon.x509.enforce_critical [yes]
              Discard certificates with unsupported or unknown critical extensions.

       libimcv.debug_level [1]
              Debug level for a stand-alone libimcv library.

       libimcv.load [random nonce gmp pubkey x509]
              Plugins to load in IMC/IMVs with stand-alone libimcv library.

       libimcv.stderr_quiet [no]
              Disable output to stderr with a stand-alone libimcv library.

       manager.database []
              Credential database URI for manager. If it contains a password, make sure to adjust
              the permissions of the config file accordingly.

       manager.debug [no]
              Enable debugging in manager.

       manager.load []
              Plugins to load in manager.

       manager.socket []
              FastCGI socket of manager, to run it statically.

       manager.threads [10]
              Threads to use for request handling.

       manager.timeout [15m]
              Session timeout for manager.

       medsrv.database []
              Mediation server database URI. If it contains a password, make sure to  adjust  the
              permissions of the config file accordingly.

       medsrv.debug [no]
              Debugging in mediation server web application.

       medsrv.dpd [5m]
              DPD timeout to use in mediation server plugin.

       medsrv.load []
              Plugins to load in mediation server plugin.

       medsrv.password_length [6]
              Minimum password length required for mediation server user accounts.

       medsrv.rekey [20m]
              Rekeying time on mediation connections in mediation server plugin.

       medsrv.socket []
              Run Mediation server web application statically on socket.

       medsrv.threads [5]
              Number of thread for mediation service web application.

       medsrv.timeout [15m]
              Session timeout for mediation service.

       openac.load []
              Plugins to load in ipsec openac tool.

       pacman.database []
              Database URI for the database that stores the package information. If it contains a
              password, make sure to adjust the permissions of the config file accordingly.

       pacman.load []
              Plugins to load in package manager.

       pki.load []
              Plugins to load in ipsec pki tool.

       pool.database []
              Database URI for the database that stores IP pools  and  configuration  attributes.
              If it contains a password, make        sure to adjust the permissions of the config
              file accordingly.

       pool.load []
              Plugins to load in ipsec pool tool.

       scepclient.load []
              Plugins to load in ipsec scepclient tool.

       starter.load []
              Plugins to load in starter.

       starter.load_warning [yes]
              Disable charon plugin load option warning.

LOGGER CONFIGURATION

       Options in strongswan.conf(5) provide a much more flexible way to  configure  loggers  for
       the IKE daemon charon than using the charondebug option in ipsec.conf(5).

       Note:  If  any  loggers  are  specified  in strongswan.conf, charondebug does not have any
       effect.

       There are currently two types of loggers:

       File loggers
              Log directly to a file and are defined by specifying the full path to the  file  as
              subsection  in  the  charon.filelog  section. To log to the console the two special
              filenames stdout and stderr can be used.

       Syslog loggers
              Log into a syslog facility and are defined by specifying the facility to log to  as
              the name of a subsection in the charon.syslog section. The following facilities are
              currently supported: daemon and auth.

       Multiple loggers can be defined for  each  type  with  different  log  verbosity  for  the
       different subsystems of the daemon.

   Subsystems
       dmn    Main daemon setup/cleanup/signal handling

       mgr    IKE_SA manager, handling synchronization for IKE_SA access

       ike    IKE_SA

       chd    CHILD_SA

       job    Jobs queueing/processing and thread pool management

       cfg    Configuration management and plugins

       knl    IPsec/Networking kernel interface

       net    IKE network communication

       asn    Low-level encoding/decoding (ASN.1, X.509 etc.)

       enc    Packet encoding/decoding encryption/decryption operations

       tls    libtls library messages

       esp    libipsec library messages

       lib    libstrongwan library messages

       tnc    Trusted Network Connect

       imc    Integrity Measurement Collector

       imv    Integrity Measurement Verifier

       pts    Platform Trust Service

   Loglevels
       -1     Absolutely silent

       0      Very basic auditing logs, (e.g. SA up/SA down)

       1      Generic control flow with errors, a good default to see whats going on

       2      More detailed debugging control flow

       3      Including RAW data dumps in Hex

       4      Also include sensitive material in dumps, e.g. keys

   Example
            charon {
                 filelog {
                      /var/log/charon.log {
                           time_format = %b %e %T
                           append = no
                           default = 1
                      }
                      stderr {
                           ike = 2
                           knl = 3
                           ike_name = yes
                      }
                 }
                 syslog {
                      # enable logging to LOG_DAEMON, use defaults
                      daemon {
                      }
                      # minimalistic IKE auditing logging to LOG_AUTHPRIV
                      auth {
                           default = -1
                           ike = 0
                      }
                 }
            }

JOB PRIORITY MANAGEMENT

       Some  operations  in  the  IKEv2 daemon charon are currently implemented synchronously and
       blocking. Two examples for such operations are communication with a RADIUS server via EAP-
       RADIUS, or fetching CRL/OCSP information during certificate chain verification. Under high
       load conditions, the thread pool may run out of available threads, and some more important
       jobs, such as liveness checking, may not get executed in time.

       To  prevent  thread starvation in such situations job priorities were introduced.  The job
       processor will reserve some threads for  higher  priority  jobs,  these  threads  are  not
       available for lower priority, locking jobs.

   Implementation
       Currently 4 priorities have been defined, and they are used in charon as follows:

       CRITICAL
              Priority for long-running dispatcher jobs.

       HIGH   INFORMATIONAL exchanges, as used by liveness checking (DPD).

       MEDIUM Everything not HIGH/LOW, including IKE_SA_INIT processing.

       LOW    IKE_AUTH message processing. RADIUS and CRL fetching block here

       Although IKE_SA_INIT processing is computationally expensive, it is explicitly assigned to
       the MEDIUM class. This allows charon to do the DH exchange while other threads are blocked
       in  IKE_AUTH.  To  prevent the daemon from accepting more IKE_SA_INIT requests than it can
       handle, use IKE_SA_INIT DROPPING.

       The thread pool processes jobs strictly by priority, meaning it will  consume  all  higher
       priority  jobs  before  looking for ones with lower priority. Further, it reserves threads
       for certain priorities. A priority class having reserved n  threads  will  always  have  n
       threads available for this class (either currently processing a job, or waiting for one).

   Configuration
       To  ensure  that  there  are  always  enough  threads available for higher priority tasks,
       threads must be reserved for each priority class.

       charon.processor.priority_threads.critical [0]
              Threads reserved for CRITICAL priority class jobs

       charon.processor.priority_threads.high [0]
              Threads reserved for HIGH priority class jobs

       charon.processor.priority_threads.medium [0]
              Threads reserved for MEDIUM priority class jobs

       charon.processor.priority_threads.low [0]
              Threads reserved for LOW priority class jobs

       Let's consider the following configuration:

            charon {
                 processor {
                      priority_threads {
                           high = 1
                           medium = 4
                      }
                 }
            }

       With this configuration, one thread is reserved for HIGH priority tasks. As currently only
       liveness  checking  and  stroke  message processing is done with high priority, one or two
       threads should be sufficient.

       The MEDIUM class mostly processes non-blocking jobs. Unless  your  setup  is  experiencing
       many  blocks  in  locks while accessing shared resources, threads for one or two times the
       number of CPU cores is fine.

       It is usually not required to reserve threads for CRITICAL jobs. Jobs in this class rarely
       return and do not release their thread to the pool.

       The remaining threads are available for LOW priority jobs. Reserving threads does not make
       sense (until we have an even lower priority).

   Monitoring
       To see what the threads are actually doing, invoke  ipsec  statusall.   Under  high  load,
       something like this will show up:

            worker threads: 2 or 32 idle, 5/1/2/22 working,
                 job queue: 0/0/1/149, scheduled: 198

       From 32 worker threads,

       2      are currently idle.

       5      are running CRITICAL priority jobs (dispatching from sockets, etc.).

       1      is  currently  handling  a HIGH priority job. This is actually the thread currently
              providing this information via stroke.

       2      are handling MEDIUM priority jobs, likely IKE_SA_INIT or CREATE_CHILD_SA messages.

       22     are handling LOW priority jobs, probably waiting for an EAP-RADIUS  response  while
              processing IKE_AUTH messages.

       The  job queue load shows how many jobs are queued for each priority, ready for execution.
       The single MEDIUM priority job will get executed immediately, as we have two spare threads
       reserved for MEDIUM class jobs.

IKE_SA_INIT DROPPING

       If  a  responder receives more connection requests per seconds than it can handle, it does
       not make sense to accept more IKE_SA_INIT messages. And if they are queued but  can't  get
       processed  in  time,  an  answer  might  be sent after the client has already given up and
       restarted its connection setup. This additionally increases the load on the responder.

       To limit the responder load resulting from new connection attempts, the  daemon  can  drop
       IKE_SA_INIT  messages  just  after  reception.  There are two mechanisms to decide if this
       should happen, configured with the following options:

       charon.init_limit_half_open [0]
              Limit based on the number of half open  IKE_SAs.  Half  open  IKE_SAs  are  SAs  in
              connecting state, but not yet established.

       charon.init_limit_job_load [0]
              Limit based on the number of jobs currently queued for processing (sum over all job
              priorities).

       The second limit includes load from other jobs, such as rekeying. Choosing a good value is
       difficult and depends on the hardware and expected load.

       The  first limit is simpler to calculate, but includes the load from new connections only.
       If your responder is capable of negotiating 100 tunnels/s, you might  set  this  limit  to
       1000.  The  daemon  will  then drop new connection attempts if generating a response would
       require more than 10 seconds. If you are allowing for a maximum response time of more than
       30     seconds,    consider    adjusting    the    timeout    for    connecting    IKE_SAs
       (charon.half_open_timeout).  A responder, by default, deletes an IKE_SA if  the  initiator
       does  not  establish  it  within  30  seconds.  Under  high  load, a higher value might be
       required.

LOAD TESTS

       To do stability testing and performance optimizations, the IKE daemon charon provides  the
       load-tester  plugin.  This  plugin  allows  one to setup thousands of tunnels concurrently
       against the daemon itself or a remote host.

       WARNING:  Never  enable  the  load-testing  plugin  on  productive  systems.  It  provides
       preconfigured credentials and allows an attacker to authenticate as any user.

   Configuration details
       For public key authentication, the responder uses the "CN=srv, OU=load-test, O=strongSwan"
       identity. For the initiator, each connection attempt uses a different identity in the form
       "CN=c1-r1,  OU=load-test,  O=strongSwan",  where  the  first  number inidicates the client
       number, the second the authentication round (if multiple authentication rounds are used).

       For PSK authentication, FQDN identities are used. The server uses srv.strongswan.org,  the
       client uses an identity in the form c1-r1.strongswan.org.

       For EAP authentication, the client uses a NAI in the form 100000000010001@strongswan.org.

       To configure multiple authentication rounds, concatenate multiple methods using, e.g.
            initiator_auth = pubkey|psk|eap-md5|eap-aka

       The  responder uses a hardcoded certificate based on a 1024-bit RSA key.  This certificate
       additionally serves as CA certificate. A peer uses the same  private  key,  but  generates
       client  certificates  on  demand  signed  by  the CA certificate. Install the Responder/CA
       certificate on the remote host to authenticate all clients.

       To  speed  up  testing,  the  load  tester  plugin  implements  a  special  Diffie-Hellman
       implementation called modpnull. By setting
            proposal = aes128-sha1-modpnull
       this  wicked  fast DH implementation is used. It does not provide any security at all, but
       allows one to run tests without DH calculation overhead.

   Examples
       In the simplest case, the daemon initiates  IKE_SAs  against  itself  using  the  loopback
       interface.  This  will  actually  establish double the number of IKE_SAs, as the daemon is
       initiator and responder for each IKE_SA at the same time.  Installation of IPsec SAs would
       fail,  as  each  SA  gets installed twice. To simulate the correct behavior, a fake kernel
       interface can be enabled which does not install the IPsec SAs at the kernel level.

       A simple loopback configuration might look like this:

            charon {
                 # create new IKE_SAs for each CHILD_SA to simulate
                 # different clients
                 reuse_ikesa = no
                 # turn off denial of service protection
                 dos_protection = no

                 plugins {
                      load-tester {
                           # enable the plugin
                           enable = yes
                           # use 4 threads to initiate connections
                           # simultaneously
                           initiators = 4
                           # each thread initiates 1000 connections
                           iterations = 1000
                           # delay each initiation in each thread by 20ms
                           delay = 20
                           # enable the fake kernel interface to
                           # avoid SA conflicts
                           fake_kernel = yes
                      }
                 }
            }

       This will initiate 4000 IKE_SAs within 20 seconds. You may increase  the  delay  value  if
       your  box  can  not  handle  that much load, or decrease it to put more load on it. If the
       daemon starts retransmitting messages your box probably  can  not  handle  all  connection
       attempts.

       The  plugin also allows one to test against a remote host. This might help to test against
       a real world configuration. A connection setup to do stress testing  of  a  gateway  might
       look like this:

            charon {
                 reuse_ikesa = no
                 threads = 32

                 plugins {
                      load-tester {
                           enable = yes
                           # 10000 connections, ten in parallel
                           initiators = 10
                           iterations = 1000
                           # use a delay of 100ms, overall time is:
                           # iterations * delay = 100s
                           delay = 100
                           # address of the gateway
                           remote = 1.2.3.4
                           # IKE-proposal to use
                           proposal = aes128-sha1-modp1024
                           # use faster PSK authentication instead
                           # of 1024bit RSA
                           initiator_auth = psk
                           responder_auth = psk
                           # request a virtual IP using configuration
                           # payloads
                           request_virtual_ip = yes
                           # enable CHILD_SA every 60s
                           child_rekey = 60
                      }
                 }
            }

IKEv2 RETRANSMISSION

       Retransmission  timeouts  in  the IKEv2 daemon charon can be configured globally using the
       three keys listed below:

              charon.retransmit_base [1.8]
              charon.retransmit_timeout [4.0]
              charon.retransmit_tries [5]

       The following algorithm is used to calculate the timeout:

            relative timeout = retransmit_timeout * retransmit_base ^ (n-1)

       Where n is the current retransmission count.

       Using the default values, packets are retransmitted in:

       Retransmission   Relative Timeout   Absolute Timeout
       ─────────────────────────────────────────────────────
       1                              4s                 4s
       2                              7s                11s
       3                             13s                24s
       4                             23s                47s
       5                             42s                89s
       giving up                     76s               165s

VARIABLES

       The variables used above are configured as follows:

       ${piddir}               /var/run
       ${prefix}               /usr
       ${random_device}        /dev/random
       ${urandom_device}       /dev/urandom

FILES

       /etc/strongswan.conf       configuration file
       /etc/strongswan.d/         directory containing included config snippets
       /etc/strongswan.d/charon/  plugin specific config snippets

SEE ALSO

       ipsec.conf(5), ipsec.secrets(5), ipsec(8), charon-cmd(8)

HISTORY

       Written for the strongSwan project ⟨http://www.strongswan.org⟩ by Tobias Brunner,  Andreas
       Steffen and Martin Willi.