This is the info manual for @value{PACKAGE} version @value{VERSION}, a Virtual Private Network daemon.
-Copyright @copyright{} 1998-2013 Ivo Timmermans,
+Copyright @copyright{} 1998-2015 Ivo Timmermans,
Guus Sliepen <guus@@tinc-vpn.org> and
Wessel Dankers <wsl@@tinc-vpn.org>.
@vskip 0pt plus 1filll
This is the info manual for @value{PACKAGE} version @value{VERSION}, a Virtual Private Network daemon.
-Copyright @copyright{} 1998-2013 Ivo Timmermans,
+Copyright @copyright{} 1998-2015 Ivo Timmermans,
Guus Sliepen <guus@@tinc-vpn.org> and
Wessel Dankers <wsl@@tinc-vpn.org>.
@cindex release
For an up to date list of supported platforms, please check the list on
our website:
-@uref{http://www.tinc-vpn.org/platforms/}.
+@uref{https://www.tinc-vpn.org/platforms/}.
@c
@c
@node Configuration of OpenBSD kernels
@subsection Configuration of OpenBSD kernels
-For OpenBSD version 2.9 and higher,
-the tun driver is included in the default kernel configuration.
-There is also a kernel patch from @uref{http://diehard.n-r-g.com/stuff/openbsd/}
-which adds a tap device to OpenBSD which should work with tinc,
-but with recent versions of OpenBSD,
-a tun device can act as a tap device by setting the link0 option with ifconfig.
+Recent versions of OpenBSD come with both tun and tap devices enabled in the default kernel configuration.
@c ==================================================================
For Solaris 8 (SunOS 5.8) and higher,
the tun driver may or may not be included in the default kernel configuration.
If it isn't, the source can be downloaded from @uref{http://vtun.sourceforge.net/tun/}.
-For x86 and sparc64 architectures, precompiled versions can be found at @uref{http://www.monkey.org/~dugsong/fragroute/}.
+For x86 and sparc64 architectures, precompiled versions can be found at @uref{https://www.monkey.org/~dugsong/fragroute/}.
If the @file{net/if_tun.h} header file is missing, install it from the source package.
@subsection Configuration of Darwin (MacOS/X) kernels
Tinc on Darwin relies on a tunnel driver for its data acquisition from the kernel.
-Tinc supports either the driver from @uref{http://tuntaposx.sourceforge.net/},
+OS X version 10.6.8 and later have a built-in tun driver called "utun".
+Tinc also supports the driver from @uref{http://tuntaposx.sourceforge.net/},
which supports both tun and tap style devices,
-and also the driver from from @uref{http://chrisp.de/en/projects/tunnel.html}.
-The former driver is recommended.
-The tunnel driver must be loaded before starting tinc with the following command:
-@example
-kmodload tunnel
-@end example
+By default, tinc expects the tuntaposx driver to be installed.
+To use the utun driver, set add @code{Device = utunX} to @file{tinc.conf},
+where X is the desired number for the utun interface.
+You can also omit the number, in which case the first free number will be chosen.
@c ==================================================================
@subsection Configuration of Windows
You will need to install the latest TAP-Win32 driver from OpenVPN.
-You can download it from @uref{http://openvpn.sourceforge.net}.
+You can download it from @uref{https://openvpn.net/index.php/open-source/downloads.html}.
Using the Network Connections control panel,
configure the TAP-Win32 network interface in the same way as you would do from the tinc-up script,
as explained in the rest of the documentation.
@cindex requirements
@cindex libraries
-Before you can configure or build tinc, you need to have the OpenSSL,
-zlib and lzo libraries installed on your system. If you try to configure tinc without
-having them installed, configure will give you an error message, and stop.
+Before you can configure or build tinc, you need to have the LibreSSL or OpenSSL, zlib,
+lzo, curses and readline libraries installed on your system. If you try to
+configure tinc without having them installed, configure will give you an error
+message, and stop.
@menu
-* OpenSSL::
+* LibreSSL/OpenSSL::
* zlib::
* lzo::
* libcurses::
@c ==================================================================
-@node OpenSSL
-@subsection OpenSSL
+@node LibreSSL/OpenSSL
+@subsection LibreSSL/OpenSSL
+@cindex LibreSSL
@cindex OpenSSL
For all cryptography-related functions, tinc uses the functions provided
-by the OpenSSL library.
+by the LibreSSL or the OpenSSL library.
If this library is not installed, you wil get an error when configuring
tinc for build. Support for running tinc with other cryptographic libraries
available. Make sure you install the development AND runtime versions
of this package.
-If you have to install OpenSSL manually, you can get the source code
-from @url{http://www.openssl.org/}. Instructions on how to configure,
-build and install this package are included within the package. Please
-make sure you build development and runtime libraries (which is the
+If your operating system comes neither with LibreSSL or OpenSSL, you have to
+install one manually. It is recommended that you get the latest version of
+LibreSSL from @url{http://www.libressl.org/}. Instructions on how to
+configure, build and install this package are included within the package.
+Please make sure you build development and runtime libraries (which is the
default).
-If you installed the OpenSSL libraries from source, it may be necessary
+If you installed the LibreSSL or OpenSSL libraries from source, it may be necessary
to let configure know where they are, by passing configure one of the
---with-openssl-* parameters.
+--with-openssl-* parameters. Note that you even have to use --with-openssl-* if you
+are using LibreSSL.
@example
---with-openssl=DIR OpenSSL library and headers prefix
---with-openssl-include=DIR OpenSSL headers directory
+--with-openssl=DIR LibreSSL/OpenSSL library and headers prefix
+--with-openssl-include=DIR LibreSSL/OpenSSL headers directory
(Default is OPENSSL_DIR/include)
---with-openssl-lib=DIR OpenSSL library directory
+--with-openssl-lib=DIR LibreSSL/OpenSSL library directory
(Default is OPENSSL_DIR/lib)
@end example
The complete source code of tinc is covered by the GNU GPL version 2.
Since the license under which OpenSSL is distributed is not directly
compatible with the terms of the GNU GPL
-@uref{http://www.openssl.org/support/faq.html#LEGAL2}, we
+@uref{https://www.openssl.org/support/faq.html#LEGAL2}, we
include an exemption to the GPL (see also the file COPYING.README) to allow
everyone to create a statically or dynamically linked executable:
@quotation
Hereby I grant a special exception to the tinc VPN project
-(http://www.tinc-vpn.org/) to link the LZO library with the OpenSSL library
-(http://www.openssl.org).
+(https://www.tinc-vpn.org/) to link the LZO library with the OpenSSL library
+(https://www.openssl.org).
Markus F.X.J. Oberhumer
@end quotation
of this package.
If you have to install zlib manually, you can get the source code
-from @url{http://www.gzip.org/zlib/}. Instructions on how to configure,
+from @url{http://www.zlib.net/}. Instructions on how to configure,
build and install this package are included within the package. Please
make sure you build development and runtime libraries (which is the
default).
of this package.
If you have to install lzo manually, you can get the source code
-from @url{http://www.oberhumer.com/opensource/lzo/}. Instructions on how to configure,
+from @url{https://www.oberhumer.com/opensource/lzo/}. Instructions on how to configure,
build and install this package are included within the package. Please
make sure you build development and runtime libraries (which is the
default).
If you cannot use one of the precompiled packages, or you want to compile tinc
for yourself, you can use the source. The source is distributed under
the GNU General Public License (GPL). Download the source from the
-@uref{http://www.tinc-vpn.org/download/, download page}, which has
-the checksums of these files listed; you may wish to check these with
-md5sum before continuing.
+@uref{https://www.tinc-vpn.org/download/, download page}.
Tinc comes in a convenient autoconf/automake package, which you can just
treat the same as any other package. Which is just untar it, type
@node Darwin (MacOS/X) build environment
@subsection Darwin (MacOS/X) build environment
-In order to build tinc on Darwin, you need to install the MacOS/X Developer Tools
-from @uref{http://developer.apple.com/tools/macosxtools.html} and
-a recent version of Fink from @uref{http://www.finkproject.org/}.
+In order to build tinc on Darwin, you need to install Xcode from @uref{https://developer.apple.com/xcode/}.
+It might also help to install a recent version of Fink from @uref{http://www.finkproject.org/}.
-After installation use fink to download and install the following packages:
-autoconf25, automake, dlcompat, m4, openssl, zlib and lzo.
+You need to download and install LibreSSL (or OpenSSL) and LZO,
+either directly from their websites (see @ref{Libraries}) or using Fink.
@c ==================================================================
@node Cygwin (Windows) build environment
@subsection Cygwin (Windows) build environment
If Cygwin hasn't already been installed, install it directly from
-@uref{http://www.cygwin.com/}.
+@uref{https://www.cygwin.com/}.
When tinc is compiled in a Cygwin environment, it can only be run in this environment,
but all programs, including those started outside the Cygwin environment, will be able to use the VPN.
@subsection MinGW (Windows) build environment
You will need to install the MinGW environment from @uref{http://www.mingw.org}.
+You also need to download and install LibreSSL (or OpenSSL) and LZO.
When tinc is compiled using MinGW it runs natively under Windows,
it is not necessary to keep MinGW installed.
and on Linux, unless specified otherwise, the name of the virtual network interface will be the same as the network name.
However, it is not strictly necessary that you call tinc with the -n
-option. If you don not use it, the network name will just be empty, and
+option. If you do not use it, the network name will just be empty, and
tinc will look for files in @file{@value{sysconfdir}/tinc/} instead of
@file{@value{sysconfdir}/tinc/@var{netname}/};
the configuration file will then be @file{@value{sysconfdir}/tinc/tinc.conf},
both IPv4 and IPv6 or just IPv6 listening sockets will be created.
@cindex AutoConnect
-@item AutoConnect = <count> (0) [experimental]
-If set to a non-zero value,
-tinc will try to only have count meta connections to other nodes,
-by automatically making or breaking connections to known nodes.
-Higher values increase redundancy but also increase meta data overhead.
-When using this option, a good value is 3.
+@item AutoConnect = <yes|no> (no) [experimental]
+If set to yes, tinc will automatically set up meta connections to other nodes,
+without requiring @var{ConnectTo} variables.
@cindex BindToAddress
@item BindToAddress = <@var{address}> [<@var{port}>]
-If your computer has more than one IPv4 or IPv6 address, tinc
-will by default listen on all of them for incoming connections.
-Multiple BindToAddress variables may be specified,
-in which case listening sockets for each specified address are made.
-
-If no @var{port} is specified, the socket will be bound to the port specified by the Port option,
-or to port 655 if neither is given.
-To only bind to a specific port but not to a specific address, use "*" for the @var{address}.
+This is the same as ListenAddress, however the address given with the BindToAddress option
+will also be used for outgoing connections.
+This is useful if your computer has more than one IPv4 or IPv6 address,
+and you want tinc to only use a specific one for outgoing packets.
@cindex BindToInterface
@item BindToInterface = <@var{interface}> [experimental]
If the IndirectData option is also set, broadcast packets will only be sent to nodes which we have a meta connection to.
@end table
+@cindex BroadcastSubnet
+@item BroadcastSubnet = @var{address}[/@var{prefixlength}]
+Declares a broadcast subnet.
+Any packet with a destination address falling into such a subnet will be routed as a broadcast
+(provided all nodes have it declared).
+This is most useful to declare subnet broadcast addresses (e.g. 10.42.255.255),
+otherwise tinc won't know what to do with them.
+
+Note that global broadcast addresses (MAC ff:ff:ff:ff:ff:ff, IPv4 255.255.255.255),
+as well as multicast space (IPv4 224.0.0.0/4, IPv6 ff00::/8)
+are always considered broadcast addresses and don't need to be declared.
+
@cindex ConnectTo
@item ConnectTo = <@var{name}>
Specifies which other tinc daemon to connect to on startup.
The names should be known to this tinc daemon
(i.e., there should be a host configuration file for the name on the ConnectTo line).
-If you don't specify a host with ConnectTo,
+If you don't specify a host with ConnectTo and don't enable AutoConnect,
tinc won't try to connect to other daemons at all,
and will instead just listen for incoming connections.
Note that you can only use one device per daemon.
See also @ref{Device files}.
+@cindex DeviceStandby
+@item DeviceStandby = <yes | no> (no)
+When disabled, tinc calls @file{tinc-up} on startup, and @file{tinc-down} on shutdown.
+When enabled, tinc will only call @file{tinc-up} when at least one node is reachable,
+and will call @file{tinc-down} as soon as no nodes are reachable.
+On Windows, this also determines when the virtual network interface "cable" is "plugged".
+
@cindex DeviceType
@item DeviceType = <@var{type}> (platform dependent)
The type of the virtual network device.
followed by an IP header.
This mode should support both IPv4 and IPv6 packets.
+@cindex utun
+@item utun (OS X)
+Set type to utun.
+This is only supported on OS X version 10.6.8 and higher, but doesn't require the tuntaposx module.
+This mode should support both IPv4 and IPv6 packets.
+
@item tap (BSD and Linux)
Set type to tap.
Tinc will expect packets read from the virtual network device
When combined with the IndirectData option,
packets for nodes for which we do not have a meta connection with are also dropped.
-@cindex ECDSAPrivateKeyFile
-@item ECDSAPrivateKeyFile = <@var{path}> (@file{@value{sysconfdir}/tinc/@var{netname}/ecdsa_key.priv})
-The file in which the private ECDSA key of this tinc daemon resides.
+@cindex Ed25519PrivateKeyFile
+@item Ed25519PrivateKeyFile = <@var{path}> (@file{@value{sysconfdir}/tinc/@var{netname}/ed25519_key.priv})
+The file in which the private Ed25519 key of this tinc daemon resides.
This is only used if ExperimentalProtocol is enabled.
@cindex ExperimentalProtocol
@item ExperimentalProtocol = <yes|no> (yes)
When this option is enabled, the SPTPS protocol will be used when connecting to nodes that also support it.
Ephemeral ECDH will be used for key exchanges,
-and ECDSA will be used instead of RSA for authentication.
-When enabled, an ECDSA key must have been generated before with
-@samp{tinc generate-ecdsa-keys}.
+and Ed25519 will be used instead of RSA for authentication.
+When enabled, an Ed25519 key must have been generated before with
+@samp{tinc generate-ed25519-keys}.
@cindex Forwarding
@item Forwarding = <off|internal|kernel> (internal) [experimental]
Under Windows, this variable is used to select which network interface will be used.
If you specified a Device, this variable is almost always already correctly set.
+@cindex ListenAddress
+@item ListenAddress = <@var{address}> [<@var{port}>]
+If your computer has more than one IPv4 or IPv6 address, tinc
+will by default listen on all of them for incoming connections.
+This option can be used to restrict which addresses tinc listens on.
+Multiple ListenAddress variables may be specified,
+in which case listening sockets for each specified address are made.
+
+If no @var{port} is specified, the socket will listen on the port specified by the Port option,
+or to port 655 if neither is given.
+To only listen on a specific port but not to a specific address, use "*" for the @var{address}.
+
@cindex LocalDiscovery
@item LocalDiscovery = <yes | no> (no)
When enabled, tinc will try to detect peers that are on the same local network.
and they only ConnectTo a third node outside the NAT,
which normally would prevent the peers from learning each other's LAN address.
-Currently, local discovery is implemented by sending broadcast packets to the LAN during path MTU discovery.
-This feature may not work in all possible situations.
+Currently, local discovery is implemented by sending some packets to the local address of the node during UDP discovery.
+This will not work with old nodes that don't transmit their local address.
@cindex LocalDiscoveryAddress
@item LocalDiscoveryAddress <@var{address}>
@cindex Name
@item Name = <@var{name}> [required]
This is a symbolic name for this connection.
-The name should consist only of alfanumeric and underscore characters (a-z, A-Z, 0-9 and _), and is case sensitive.
+The name must consist only of alfanumeric and underscore characters (a-z, A-Z, 0-9 and _), and is case sensitive.
If Name starts with a $, then the contents of the environment variable that follows will be used.
In that case, invalid characters will be converted to underscores.
@end table
@cindex ReplayWindow
-@item ReplayWindow = <bytes> (16)
+@item ReplayWindow = <bytes> (32)
This is the size of the replay tracking window for each remote node, in bytes.
The window is a bitfield which tracks 1 packet per bit, so for example
-the default setting of 16 will track up to 128 packets in the window. In high
+the default setting of 32 will track up to 256 packets in the window. In high
bandwidth scenarios, setting this to a higher value can reduce packet loss from
the interaction of replay tracking with underlying real packet loss and/or
reordering. Setting this to zero will disable replay tracking completely and
@file{@value{sysconfdir}/tinc/@var{netname}/hosts/} directory.
Setting this options also implicitly sets StrictSubnets.
+@cindex UDPDiscovey
+@item UDPDiscovery = <yes|no> (yes)
+When this option is enabled tinc will try to establish UDP connectivity to nodes,
+using TCP while it determines if a node is reachable over UDP. If it is disabled,
+tinc always assumes a node is reachable over UDP.
+Note that tinc will never use UDP with nodes that have TCPOnly enabled.
+
+@cindex UDPDiscoveryKeepaliveInterval
+@item UDPDiscoveryKeepaliveInterval = <seconds> (9)
+The minimum amount of time between sending UDP ping datagrams to check UDP connectivity once it has been established.
+Note that these pings are large, since they are used to verify link MTU as well.
+
+@cindex UDPDiscoveryInterval
+@item UDPDiscoveryInterval = <seconds> (2)
+The minimum amount of time between sending UDP ping datagrams to try to establish UDP connectivity.
+
+@cindex UDPDiscoveryTimeout
+@item UDPDiscoveryTimeout = <seconds> (30)
+If tinc doesn't receive any UDP ping replies over the specified interval,
+it will assume UDP communication is broken and will fall back to TCP.
+
+@cindex UDPInfoInterval
+@item UDPInfoInterval = <seconds> (5)
+The minimum amount of time between sending periodic updates about UDP addresses, which are mostly useful for UDP hole punching.
+
@cindex UDPRcvBuf
-@item UDPRcvBuf = <bytes> (OS default)
+@item UDPRcvBuf = <bytes> (1048576)
Sets the socket receive buffer size for the UDP socket, in bytes.
-If unset, the default buffer size will be used by the operating system.
+If set to zero, the default buffer size will be used by the operating system.
+Note: this setting can have a significant impact on performance, especially raw throughput.
@cindex UDPSndBuf
-@item UDPSndBuf = <bytes> Pq OS default
+@item UDPSndBuf = <bytes> (1048576)
Sets the socket send buffer size for the UDP socket, in bytes.
-If unset, the default buffer size will be used by the operating system.
+If set to zero, the default buffer size will be used by the operating system.
+Note: this setting can have a significant impact on performance, especially raw throughput.
+
+@cindex UPnP
+@item UPnP = <yes|udponly|no> (no)
+If this option is enabled then tinc will search for UPnP-IGD devices on the local network.
+It will then create and maintain port mappings for tinc's listening TCP and UDP ports.
+If set to "udponly", tinc will only create a mapping for its UDP (data) port, not for its TCP (metaconnection) port.
+Note that tinc must have been built with miniupnpc support for this feature to be available.
+Furthermore, be advised that enabling this can have security implications, because the miniupnpc library that
+tinc uses might not be well-hardened with regard to malicious UPnP replies.
+
+@cindex UPnPDiscoverWait
+@item UPnPDiscoverWait = <seconds> (5)
+The amount of time to wait for replies when probing the local network for UPnP devices.
+
+@cindex UPnPRefreshPeriod
+@item UPnPRefreshPeriod = <seconds> (5)
+How often tinc will re-add the port mapping, in case it gets reset on the UPnP device.
+This also controls the duration of the port mapping itself, which will be set to twice that duration.
@end table
@cindex Cipher
@item Cipher = <@var{cipher}> (blowfish)
The symmetric cipher algorithm used to encrypt UDP packets using the legacy protocol.
-Any cipher supported by OpenSSL is recognized.
+Any cipher supported by LibreSSL or OpenSSL is recognized.
Furthermore, specifying "none" will turn off packet encryption.
It is best to use only those ciphers which support CBC mode.
This option has no effect for connections using the SPTPS protocol, which always use AES-256-CTR.
@cindex Digest
@item Digest = <@var{digest}> (sha1)
The digest algorithm used to authenticate UDP packets using the legacy protocol.
-Any digest supported by OpenSSL is recognized.
+Any digest supported by LibreSSL or OpenSSL is recognized.
Furthermore, specifying "none" will turn off packet authentication.
This option has no effect for connections using the SPTPS protocol, which always use HMAC-SHA-256.
When this option is enabled, tinc will try to discover the path MTU to this node.
After the path MTU has been discovered, it will be enforced on the VPN.
+@cindex MTUInfoInterval
+@item MTUInfoInterval = <seconds> (5)
+The minimum amount of time between sending periodic updates about relay path MTU. Useful for quickly determining MTU to indirect nodes.
+
@cindex Port
@item Port = <@var{port}> (655)
This is the port this tinc daemon listens on.
Prefixlength is the number of bits set to 1 in the netmask part; for
example: netmask 255.255.255.0 would become /24, 255.255.252.0 becomes
/22. This conforms to standard CIDR notation as described in
-@uref{http://www.ietf.org/rfc/rfc1519.txt, RFC1519}
+@uref{https://www.ietf.org/rfc/rfc1519.txt, RFC1519}
A Subnet can be given a weight to indicate its priority over identical Subnets
owned by different nodes. The default weight is 10. Lower values indicate
for those who want to run a tinc daemon from behind a masquerading
firewall, or if UDP packet routing is disabled somehow.
Setting this options also implicitly sets IndirectData.
+
+@cindex Weight
+@item Weight = <weight>
+If this variable is set, it overrides the weight given to connections made with
+another host. A higher weight means a lower priority is given to this
+connection when broadcasting or forwarding packets.
@end table
@cindex scripts
Apart from reading the server and host configuration files,
tinc can also run scripts at certain moments.
+Below is a list of filenames of scripts and a description of when they are run.
+A script is only run if it exists and if it is executable.
+
+Scripts are run synchronously;
+this means that tinc will temporarily stop processing packets until the called script finishes executing.
+This guarantees that scripts will execute in the exact same order as the events that trigger them.
+If you need to run commands asynchronously, you have to ensure yourself that they are being run in the background.
+
Under Windows (not Cygwin), the scripts should have the extension @file{.bat} or @file{.cmd}.
@table @file
started and has connected to the virtual network device.
It should be used to set up the corresponding network interface,
but can also be used to start other things.
+
Under Windows you can use the Network Connections control panel instead of creating this script.
@cindex tinc-down
Name = @var{name}
@end example
-It will also create private RSA and ECDSA keys, which will be stored in the files @file{rsa_key.priv} and @file{ecdsa_key.priv}.
+It will also create private RSA and Ed25519 keys, which will be stored in the files @file{rsa_key.priv} and @file{ed25519_key.priv}.
It will also create a host configuration file @file{hosts/@var{name}},
-which will contain the corresponding public RSA and ECDSA keys.
+which will contain the corresponding public RSA and Ed25519 keys.
Finally, on UNIX operating systems, it will create an executable script @file{tinc-up},
which will initially not do anything except warning that you should edit it.
This will add a Subnet statement to your host configuration file.
Try opening the file @file{@value{sysconfdir}/tinc/@var{netname}/hosts/@var{name}} in an editor.
-You should now see a file containing the public RSA and ECDSA keys (which looks like a bunch of random characters),
+You should now see a file containing the public RSA and Ed25519 keys (which looks like a bunch of random characters),
and the following line at the bottom:
@example
A, B, C and D all have their own public/private keypairs:
The private RSA key is stored in @file{@value{sysconfdir}/tinc/company/rsa_key.priv},
-the private ECDSA key is stored in @file{@value{sysconfdir}/tinc/company/ecdsa_key.priv},
-and the public RSA and ECDSA keys are put into the host configuration file in the @file{@value{sysconfdir}/tinc/company/hosts/} directory.
+the private Ed25519 key is stored in @file{@value{sysconfdir}/tinc/company/ed25519_key.priv},
+and the public RSA and Ed25519 keys are put into the host configuration file in the @file{@value{sysconfdir}/tinc/company/hosts/} directory.
@subsubheading Starting
If unspecified, the default is
@file{@value{localstatedir}/run/tinc.@var{netname}.pid}.
+@item --force
+Force some commands to work despite warnings.
+
@item --help
Display a short reminder of runtime options and commands, then terminate.
@cindex init
@item init [@var{name}]
-Create initial configuration files and RSA and ECDSA keypairs with default length.
+Create initial configuration files and RSA and Ed25519 keypairs with default length.
If no @var{name} for this node is given, it will be asked for.
@cindex get
@cindex add
@item add @var{variable} @var{value}
As above, but without removing any previously existing configuration variables.
+If the variable already exists with the given value, nothing happens.
@cindex del
@item del @var{variable} [@var{value}]
Export all host configuration files to standard output.
@cindex import
-@item import [--force]
+@item import
Import host configuration file(s) generated by the tinc export command from standard input.
Already existing host configuration files are not overwritten unless the option --force is used.
@cindex exchange
-@item exchange [--force]
+@item exchange
The same as export followed by import.
@cindex exchange-all
-@item exchange-all [--force]
+@item exchange-all
The same as export-all followed by import.
@cindex invite
@cindex generate-keys
@item generate-keys [@var{bits}]
-Generate both RSA and ECDSA keypairs (see below) and exit.
+Generate both RSA and Ed25519 keypairs (see below) and exit.
tinc will ask where you want to store the files, but will default to the
configuration directory (you can use the -c or -n option).
-@cindex generate-ecdsa-keys
-@item generate-ecdsa-keys
-Generate public/private ECDSA keypair and exit.
+@cindex generate-ed25519-keys
+@item generate-ed25519-keys
+Generate public/private Ed25519 keypair and exit.
@cindex generate-rsa-keys
@item generate-rsa-keys [@var{bits}]
red nodes are unreachable, orange nodes are indirectly reachable, green nodes are directly reachable.
Black nodes are either directly or indirectly reachable, but direct reachability has not been tried yet.
+@item dump invitations
+Dump a list of outstanding invitations.
+The filename of the invitation, as well as the name of the node that is being invited is shown for each invitation.
+
@cindex info
@item info @var{node} | @var{subnet} | @var{address}
Show information about a particular @var{node}, @var{subnet} or @var{address}.
from where it can be redirected to a file or piped through a program that can parse it directly,
such as tcpdump.
+@cindex network
+@item network [@var{netname}]
+If @var{netname} is given, switch to that network.
+Otherwise, display a list of all networks for which configuration files exist.
+
+@cindex fsck
+@item fsck
+This will check the configuration files for possible problems,
+such as unsafe file permissions, missing executable bit on script,
+unknown and obsolete configuration variables, wrong public and/or private keys, and so on.
+
+When problems are found, this will be printed on a line with WARNING or ERROR in front of it.
+Most problems must be corrected by the user itself, however in some cases (like file permissions and missing public keys),
+tinc will ask if it should fix the problem.
+
+@cindex sign
+@item sign [@var{filename}]
+Sign a file with the local node's private key.
+If no @var{filename} is given, the file is read from standard input.
+The signed file is written to standard output.
+
+@cindex verify
+@item verify @var{name} [@var{filename}]
+
+Check the signature of a file against a node's public key.
+The @var{name} of the node must be given,
+or can be "." to check against the local node's public key,
+or "*" to allow a signature from any node whose public key is known.
+If no @var{filename} is given, the file is read from standard input.
+If the verification is succesful, a copy of the input with the signature removed is written to standard output, and the exit code will be zero.
+If the verification failed, nothing will be written to standard output, and the exit code will be non-zero.
+
@end table
@c ==================================================================
Where initiator_cipher_key is the key used by session initiator to encrypt
messages sent to the responder.
-When using 521 bits EC keys, the AES-256-CTR cipher and HMAC-SHA-256 digest algorithm,
+When using 256 bits Ed25519 keys, the AES-256-CTR cipher and HMAC-SHA-256 digest algorithm,
the sizes are as follows:
@example
-ECDH_SIZE: 67 (= ceil(521/8) + 1)
-ECDSA_SIZE: 141 (= 2 * ceil(521/8) + 9)
+ECDH_SIZE: 32 (= 256/8)
+ECDSA_SIZE: 64 (= 2 * 256/8)
CIPHER_KEYSIZE: 48 (= 256/8 + 128/8)
DIGEST_KEYSIZE: 32 (= 256/8)
@end example
packets they can intercept. The encryption algorithm and message authentication
algorithm can be changed in the configuration. The length of the message
authentication codes is also adjustable. The length of the key for the
-encryption algorithm is always the default length used by OpenSSL.
+encryption algorithm is always the default length used by LibreSSL/OpenSSL.
The SPTPS protocol is described in @ref{Simple Peer-to-Peer Security}.
For comparison, this is how SPTPS UDP packets look:
In August 2000, we discovered the existence of a security hole in all versions
of tinc up to and including 1.0pre2. This had to do with the way we exchanged
keys. Since then, we have been working on a new authentication scheme to make
-tinc as secure as possible. The current version uses the OpenSSL library and
+tinc as secure as possible. The current version uses the LibreSSL or OpenSSL library and
uses strong authentication with RSA keys.
On the 29th of December 2001, Jerome Etienne posted a security analysis of tinc
@section Contact information
@cindex website
-Tinc's website is at @url{http://www.tinc-vpn.org/},
+Tinc's website is at @url{https://www.tinc-vpn.org/},
this server is located in the Netherlands.
@cindex IRC
We have an IRC channel on the FreeNode and OFTC IRC networks. Connect to
-@uref{http://www.freenode.net/, irc.freenode.net}
+@uref{https://freenode.net/, irc.freenode.net}
or
-@uref{http://www.oftc.net/, irc.oftc.net}
+@uref{https://www.oftc.net/, irc.oftc.net}
and join channel #tinc.