/etc/swanctl/swanctl.conf is in strongswan-swanctl 5.6.2-1ubuntu2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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# connections {
# Section for an IKE connection named <conn>.
# <conn> {
# IKE major version to use for connection.
# version = 0
# Local address(es) to use for IKE communication, comma separated.
# local_addrs = %any
# Remote address(es) to use for IKE communication, comma separated.
# remote_addrs = %any
# Local UDP port for IKE communication.
# local_port = 500
# Remote UDP port for IKE communication.
# remote_port = 500
# Comma separated proposals to accept for IKE.
# proposals = default
# Virtual IPs to request in configuration payload / Mode Config.
# vips =
# Use Aggressive Mode in IKEv1.
# aggressive = no
# Set the Mode Config mode to use.
# pull = yes
# Differentiated Services Field Codepoint to set on outgoing IKE packets
# (six binary digits).
# dscp = 000000
# Enforce UDP encapsulation by faking NAT-D payloads.
# encap = no
# Enables MOBIKE on IKEv2 connections.
# mobike = yes
# Interval of liveness checks (DPD).
# dpd_delay = 0s
# Timeout for DPD checks (IKEV1 only).
# dpd_timeout = 0s
# Use IKE UDP datagram fragmentation. (yes, accept, no or force).
# fragmentation = yes
# Send certificate requests payloads (yes or no).
# send_certreq = yes
# Send certificate payloads (always, never or ifasked).
# send_cert = ifasked
# Number of retransmission sequences to perform during initial connect.
# keyingtries = 1
# Connection uniqueness policy (never, no, keep or replace).
# unique = no
# Time to schedule IKE reauthentication.
# reauth_time = 0s
# Time to schedule IKE rekeying.
# rekey_time = 4h
# Hard IKE_SA lifetime if rekey/reauth does not complete, as time.
# over_time = 10% of rekey_time/reauth_time
# Range of random time to subtract from rekey/reauth times.
# rand_time = over_time
# Comma separated list of named IP pools.
# pools =
# Whether this connection is a mediation connection.
# mediation = no
# The name of the connection to mediate this connection through.
# mediated_by =
# Identity under which the peer is registered at the mediation server.
# mediation_peer =
# Section for a local authentication round.
# local<suffix> {
# Optional numeric identifier by which authentication rounds are
# sorted. If not specified rounds are ordered by their position in
# the config file/VICI message.
# round = 0
# Comma separated list of certificate candidates to use for
# authentication.
# certs =
# Section for a certificate candidate to use for authentication.
# cert<suffix> =
# Comma separated list of raw public key candidates to use for
# authentication.
# pubkeys =
# Authentication to perform locally (pubkey, psk, xauth[-backend] or
# eap[-method]).
# auth = pubkey
# IKE identity to use for authentication round.
# id =
# Client EAP-Identity to use in EAP-Identity exchange and the EAP
# method.
# eap_id = id
# Server side EAP-Identity to expect in the EAP method.
# aaa_id = remote-id
# Client XAuth username used in the XAuth exchange.
# xauth_id = id
# cert<suffix> {
# Absolute path to the certificate to load.
# file =
# Hex-encoded CKA_ID of the certificate on a token.
# handle =
# Optional slot number of the token that stores the certificate.
# slot =
# Optional PKCS#11 module name.
# module =
# }
# }
# Section for a remote authentication round.
# remote<suffix> {
# Optional numeric identifier by which authentication rounds are
# sorted. If not specified rounds are ordered by their position in
# the config file/VICI message.
# round = 0
# IKE identity to expect for authentication round.
# id = %any
# Identity to use as peer identity during EAP authentication.
# eap_id = id
# Authorization group memberships to require.
# groups =
# Certificate policy OIDs the peer's certificate must have.
# cert_policy =
# Comma separated list of certificate to accept for authentication.
# certs =
# Section for a certificate to accept for authentication.
# cert<suffix> =
# Comma separated list of CA certificates to accept for
# authentication.
# cacerts =
# Section for a CA certificate to accept for authentication.
# cacert<suffix> =
# Comma separated list of raw public keys to accept for
# authentication.
# pubkeys =
# Certificate revocation policy, (strict, ifuri or relaxed).
# revocation = relaxed
# Authentication to expect from remote (pubkey, psk, xauth[-backend]
# or eap[-method]).
# auth = pubkey
# cert<suffix> {
# Absolute path to the certificate to load.
# file =
# Hex-encoded CKA_ID of the certificate on a token.
# handle =
# Optional slot number of the token that stores the certificate.
# slot =
# Optional PKCS#11 module name.
# module =
# }
# cacert<suffix> {
# Absolute path to the certificate to load.
# file =
# Hex-encoded CKA_ID of the CA certificate on a token.
# handle =
# Optional slot number of the token that stores the CA
# certificate.
# slot =
# Optional PKCS#11 module name.
# module =
# }
# }
# children {
# CHILD_SA configuration sub-section.
# <child> {
# AH proposals to offer for the CHILD_SA.
# ah_proposals =
# ESP proposals to offer for the CHILD_SA.
# esp_proposals = default
# Use incorrect 96-bit truncation for HMAC-SHA-256.
# sha256_96 = no
# Local traffic selectors to include in CHILD_SA.
# local_ts = dynamic
# Remote selectors to include in CHILD_SA.
# remote_ts = dynamic
# Time to schedule CHILD_SA rekeying.
# rekey_time = 1h
# Maximum lifetime before CHILD_SA gets closed, as time.
# life_time = rekey_time + 10%
# Range of random time to subtract from rekey_time.
# rand_time = life_time - rekey_time
# Number of bytes processed before initiating CHILD_SA rekeying.
# rekey_bytes = 0
# Maximum bytes processed before CHILD_SA gets closed.
# life_bytes = rekey_bytes + 10%
# Range of random bytes to subtract from rekey_bytes.
# rand_bytes = life_bytes - rekey_bytes
# Number of packets processed before initiating CHILD_SA
# rekeying.
# rekey_packets = 0
# Maximum number of packets processed before CHILD_SA gets
# closed.
# life_packets = rekey_packets + 10%
# Range of random packets to subtract from packets_bytes.
# rand_packets = life_packets - rekey_packets
# Updown script to invoke on CHILD_SA up and down events.
# updown =
# Hostaccess variable to pass to updown script.
# hostaccess = yes
# IPsec Mode to establish (tunnel, transport, transport_proxy,
# beet, pass or drop).
# mode = tunnel
# Whether to install IPsec policies or not.
# policies = yes
# Whether to install outbound FWD IPsec policies or not.
# policies_fwd_out = no
# Action to perform on DPD timeout (clear, trap or restart).
# dpd_action = clear
# Enable IPComp compression before encryption.
# ipcomp = no
# Timeout before closing CHILD_SA after inactivity.
# inactivity = 0s
# Fixed reqid to use for this CHILD_SA.
# reqid = 0
# Optional fixed priority for IPsec policies.
# priority = 0
# Optional interface name to restrict IPsec policies.
# interface =
# Netfilter mark and mask for input traffic.
# mark_in = 0/0x00000000
# Whether to set *mark_in* on the inbound SA.
# mark_in_sa = no
# Netfilter mark and mask for output traffic.
# mark_out = 0/0x00000000
# Traffic Flow Confidentiality padding.
# tfc_padding = 0
# IPsec replay window to configure for this CHILD_SA.
# replay_window = 32
# Enable hardware offload for this CHILD_SA, if supported by the
# IPsec implementation.
# hw_offload = no
# Action to perform after loading the configuration (none, trap,
# start).
# start_action = none
# Action to perform after a CHILD_SA gets closed (none, trap,
# start).
# close_action = none
# }
# }
# }
# }
# Section defining secrets for IKE/EAP/XAuth authentication and private key
# decryption.
# secrets {
# EAP secret section for a specific secret.
# eap<suffix> {
# Value of the EAP/XAuth secret.
# secret =
# Identity the EAP/XAuth secret belongs to.
# id<suffix> =
# }
# XAuth secret section for a specific secret.
# xauth<suffix> {
# }
# NTLM secret section for a specific secret.
# ntlm<suffix> {
# Value of the NTLM secret.
# secret =
# Identity the NTLM secret belongs to.
# id<suffix> =
# }
# IKE preshared secret section for a specific secret.
# ike<suffix> {
# Value of the IKE preshared secret.
# secret =
# IKE identity the IKE preshared secret belongs to.
# id<suffix> =
# }
# Private key decryption passphrase for a key in the private folder.
# private<suffix> {
# File name in the private folder for which this passphrase should be
# used.
# file =
# Value of decryption passphrase for private key.
# secret =
# }
# Private key decryption passphrase for a key in the rsa folder.
# rsa<suffix> {
# File name in the rsa folder for which this passphrase should be used.
# file =
# Value of decryption passphrase for RSA key.
# secret =
# }
# Private key decryption passphrase for a key in the ecdsa folder.
# ecdsa<suffix> {
# File name in the ecdsa folder for which this passphrase should be
# used.
# file =
# Value of decryption passphrase for ECDSA key.
# secret =
# }
# Private key decryption passphrase for a key in the pkcs8 folder.
# pkcs8<suffix> {
# File name in the pkcs8 folder for which this passphrase should be
# used.
# file =
# Value of decryption passphrase for PKCS#8 key.
# secret =
# }
# PKCS#12 decryption passphrase for a container in the pkcs12 folder.
# pkcs12<suffix> {
# File name in the pkcs12 folder for which this passphrase should be
# used.
# file =
# Value of decryption passphrase for PKCS#12 container.
# secret =
# }
# Definition for a private key that's stored on a token/smartcard.
# token<suffix> {
# Hex-encoded CKA_ID of the private key on the token.
# handle =
# Optional slot number to access the token.
# slot =
# Optional PKCS#11 module name to access the token.
# module =
# Optional PIN required to access the key on the token. If none is
# provided the user is prompted during an interactive --load-creds call.
# pin =
# }
# }
# Section defining named pools.
# pools {
# Section defining a single pool with a unique name.
# <name> {
# Addresses allocated in pool.
# addrs =
# Comma separated list of additional attributes from type <attr>.
# <attr> =
# }
# }
# Section defining attributes of certification authorities.
# authorities {
# Section defining a certification authority with a unique name.
# <name> {
# CA certificate belonging to the certification authority.
# cacert =
# Absolute path to the certificate to load.
# file =
# Hex-encoded CKA_ID of the CA certificate on a token.
# handle =
# Optional slot number of the token that stores the CA certificate.
# slot =
# Optional PKCS#11 module name.
# module =
# Comma-separated list of CRL distribution points.
# crl_uris =
# Comma-separated list of OCSP URIs.
# ocsp_uris =
# Defines the base URI for the Hash and URL feature supported by IKEv2.
# cert_uri_base =
# }
# }
# Include config snippets
include conf.d/*.conf
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