2740 lines
108 KiB
Text
2740 lines
108 KiB
Text
This is tinc.info, produced by makeinfo version 4.13 from tinc.texi.
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INFO-DIR-SECTION Networking tools
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START-INFO-DIR-ENTRY
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* tinc: (tinc). The tinc Manual.
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END-INFO-DIR-ENTRY
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This is the info manual for tinc version 1.1pre2, a Virtual Private
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Network daemon.
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Copyright (C) 1998-2011 Ivo Timmermans, Guus Sliepen
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<guus@tinc-vpn.org> and Wessel Dankers <wsl@tinc-vpn.org>.
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Permission is granted to make and distribute verbatim copies of this
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manual provided the copyright notice and this permission notice are
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preserved on all copies.
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Permission is granted to copy and distribute modified versions of
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this manual under the conditions for verbatim copying, provided that the
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entire resulting derived work is distributed under the terms of a
|
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permission notice identical to this one.
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File: tinc.info, Node: Top, Next: Introduction, Up: (dir)
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Top
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***
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* Menu:
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* Introduction::
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* Preparations::
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* Installation::
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* Configuration::
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* Running tinc::
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* Controlling tinc::
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* Technical information::
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* Platform specific information::
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* About us::
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* Concept Index:: All used terms explained
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File: tinc.info, Node: Introduction, Next: Preparations, Prev: Top, Up: Top
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1 Introduction
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**************
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Tinc is a Virtual Private Network (VPN) daemon that uses tunneling and
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encryption to create a secure private network between hosts on the
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Internet.
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Because the tunnel appears to the IP level network code as a normal
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network device, there is no need to adapt any existing software. The
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encrypted tunnels allows VPN sites to share information with each other
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over the Internet without exposing any information to others.
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This document is the manual for tinc. Included are chapters on how
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to configure your computer to use tinc, as well as the configuration
|
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process of tinc itself.
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* Menu:
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* Virtual Private Networks::
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* tinc:: About tinc
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* Supported platforms::
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File: tinc.info, Node: Virtual Private Networks, Next: tinc, Up: Introduction
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1.1 Virtual Private Networks
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============================
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A Virtual Private Network or VPN is a network that can only be accessed
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by a few elected computers that participate. This goal is achievable in
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more than just one way.
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Private networks can consist of a single stand-alone Ethernet LAN.
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Or even two computers hooked up using a null-modem cable. In these
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cases, it is obvious that the network is _private_, no one can access
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it from the outside. But if your computers are linked to the Internet,
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the network is not private anymore, unless one uses firewalls to block
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all private traffic. But then, there is no way to send private data to
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trusted computers on the other end of the Internet.
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This problem can be solved by using _virtual_ networks. Virtual
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networks can live on top of other networks, but they use encapsulation
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to keep using their private address space so they do not interfere with
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the Internet. Mostly, virtual networks appear like a single LAN, even
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though they can span the entire world. But virtual networks can't be
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secured by using firewalls, because the traffic that flows through it
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has to go through the Internet, where other people can look at it.
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As is the case with either type of VPN, anybody could eavesdrop. Or
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worse, alter data. Hence it's probably advisable to encrypt the data
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that flows over the network.
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When one introduces encryption, we can form a true VPN. Other
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people may see encrypted traffic, but if they don't know how to
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decipher it (they need to know the key for that), they cannot read the
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information that flows through the VPN. This is what tinc was made for.
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File: tinc.info, Node: tinc, Next: Supported platforms, Prev: Virtual Private Networks, Up: Introduction
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1.2 tinc
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========
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I really don't quite remember what got us started, but it must have been
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Guus' idea. He wrote a simple implementation (about 50 lines of C) that
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used the ethertap device that Linux knows of since somewhere about
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kernel 2.1.60. It didn't work immediately and he improved it a bit.
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At this stage, the project was still simply called "vpnd".
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Since then, a lot has changed--to say the least.
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Tinc now supports encryption, it consists of a single daemon (tincd)
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for both the receiving and sending end, it has become largely
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runtime-configurable--in short, it has become a full-fledged
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professional package.
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Tinc also allows more than two sites to connect to eachother and
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form a single VPN. Traditionally VPNs are created by making tunnels,
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which only have two endpoints. Larger VPNs with more sites are created
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by adding more tunnels. Tinc takes another approach: only endpoints
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are specified, the software itself will take care of creating the
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tunnels. This allows for easier configuration and improved scalability.
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A lot can--and will be--changed. We have a number of things that we
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would like to see in the future releases of tinc. Not everything will
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be available in the near future. Our first objective is to make tinc
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work perfectly as it stands, and then add more advanced features.
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Meanwhile, we're always open-minded towards new ideas. And we're
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available too.
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File: tinc.info, Node: Supported platforms, Prev: tinc, Up: Introduction
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1.3 Supported platforms
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=======================
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Tinc has been verified to work under Linux, FreeBSD, OpenBSD, NetBSD,
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MacOS/X (Darwin), Solaris, and Windows (both natively and in a Cygwin
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environment), with various hardware architectures. These are some of
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the platforms that are supported by the universal tun/tap device driver
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or other virtual network device drivers. Without such a driver, tinc
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will most likely compile and run, but it will not be able to send or
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receive data packets.
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For an up to date list of supported platforms, please check the list
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on our website: `http://www.tinc-vpn.org/platforms'.
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File: tinc.info, Node: Preparations, Next: Installation, Prev: Introduction, Up: Top
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2 Preparations
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**************
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This chapter contains information on how to prepare your system to
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support tinc.
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* Menu:
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* Configuring the kernel::
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* Libraries::
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File: tinc.info, Node: Configuring the kernel, Next: Libraries, Up: Preparations
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2.1 Configuring the kernel
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==========================
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* Menu:
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* Configuration of Linux kernels::
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* Configuration of FreeBSD kernels::
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* Configuration of OpenBSD kernels::
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* Configuration of NetBSD kernels::
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* Configuration of Solaris kernels::
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* Configuration of Darwin (MacOS/X) kernels::
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* Configuration of Windows::
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File: tinc.info, Node: Configuration of Linux kernels, Next: Configuration of FreeBSD kernels, Up: Configuring the kernel
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2.1.1 Configuration of Linux kernels
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------------------------------------
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For tinc to work, you need a kernel that supports the Universal tun/tap
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device. Most distributions come with kernels that already support this.
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Here are the options you have to turn on when configuring a new kernel:
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Code maturity level options
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[*] Prompt for development and/or incomplete code/drivers
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Network device support
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<M> Universal tun/tap device driver support
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It's not necessary to compile this driver as a module, even if you
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are going to run more than one instance of tinc.
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If you decide to build the tun/tap driver as a kernel module, add
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these lines to `/etc/modules.conf':
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alias char-major-10-200 tun
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File: tinc.info, Node: Configuration of FreeBSD kernels, Next: Configuration of OpenBSD kernels, Prev: Configuration of Linux kernels, Up: Configuring the kernel
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2.1.2 Configuration of FreeBSD kernels
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--------------------------------------
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For FreeBSD version 4.1 and higher, tun and tap drivers are included in
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the default kernel configuration. Using tap devices is recommended.
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File: tinc.info, Node: Configuration of OpenBSD kernels, Next: Configuration of NetBSD kernels, Prev: Configuration of FreeBSD kernels, Up: Configuring the kernel
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2.1.3 Configuration of OpenBSD kernels
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--------------------------------------
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For OpenBSD version 2.9 and higher, the tun driver is included in the
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default kernel configuration. There is also a kernel patch from
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`http://diehard.n-r-g.com/stuff/openbsd/' which adds a tap device to
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OpenBSD which should work with tinc, but with recent versions of
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OpenBSD, a tun device can act as a tap device by setting the link0
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option with ifconfig.
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||
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File: tinc.info, Node: Configuration of NetBSD kernels, Next: Configuration of Solaris kernels, Prev: Configuration of OpenBSD kernels, Up: Configuring the kernel
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2.1.4 Configuration of NetBSD kernels
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-------------------------------------
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For NetBSD version 1.5.2 and higher, the tun driver is included in the
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default kernel configuration.
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Tunneling IPv6 may not work on NetBSD's tun device.
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||
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File: tinc.info, Node: Configuration of Solaris kernels, Next: Configuration of Darwin (MacOS/X) kernels, Prev: Configuration of NetBSD kernels, Up: Configuring the kernel
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2.1.5 Configuration of Solaris kernels
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--------------------------------------
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For Solaris 8 (SunOS 5.8) and higher, the tun driver may or may not be
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included in the default kernel configuration. If it isn't, the source
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can be downloaded from `http://vtun.sourceforge.net/tun/'. For x86 and
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sparc64 architectures, precompiled versions can be found at
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`http://www.monkey.org/~dugsong/fragroute/'. If the `net/if_tun.h'
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header file is missing, install it from the source package.
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||
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File: tinc.info, Node: Configuration of Darwin (MacOS/X) kernels, Next: Configuration of Windows, Prev: Configuration of Solaris kernels, Up: Configuring the kernel
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2.1.6 Configuration of Darwin (MacOS/X) kernels
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-----------------------------------------------
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Tinc on Darwin relies on a tunnel driver for its data acquisition from
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the kernel. Tinc supports either the driver from
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`http://tuntaposx.sourceforge.net/', which supports both tun and tap
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style devices, and also the driver from from
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`http://chrisp.de/en/projects/tunnel.html'. The former driver is
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recommended. The tunnel driver must be loaded before starting tinc
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with the following command:
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kmodload tunnel
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File: tinc.info, Node: Configuration of Windows, Prev: Configuration of Darwin (MacOS/X) kernels, Up: Configuring the kernel
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2.1.7 Configuration of Windows
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------------------------------
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You will need to install the latest TAP-Win32 driver from OpenVPN. You
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can download it from `http://openvpn.sourceforge.net'. Using the
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||
Network Connections control panel, configure the TAP-Win32 network
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interface in the same way as you would do from the tinc-up script, as
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||
explained in the rest of the documentation.
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||
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||
|
||
File: tinc.info, Node: Libraries, Prev: Configuring the kernel, Up: Preparations
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||
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2.2 Libraries
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||
=============
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||
|
||
Before you can configure or build tinc, you need to have the OpenSSL,
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||
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.
|
||
|
||
* Menu:
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||
|
||
* OpenSSL::
|
||
* zlib::
|
||
* lzo::
|
||
* libevent::
|
||
|
||
|
||
File: tinc.info, Node: OpenSSL, Next: zlib, Up: Libraries
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||
|
||
2.2.1 OpenSSL
|
||
-------------
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||
|
||
For all cryptography-related functions, tinc uses the functions provided
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||
by the OpenSSL library.
|
||
|
||
If this library is not installed, you wil get an error when
|
||
configuring tinc for build. Support for running tinc without having
|
||
OpenSSL installed _may_ be added in the future.
|
||
|
||
You can use your operating system's package manager to install this
|
||
if 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 `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
|
||
default).
|
||
|
||
If you installed the 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=DIR OpenSSL library and headers prefix
|
||
--with-openssl-include=DIR OpenSSL headers directory
|
||
(Default is OPENSSL_DIR/include)
|
||
--with-openssl-lib=DIR OpenSSL library directory
|
||
(Default is OPENSSL_DIR/lib)
|
||
|
||
License
|
||
.......
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||
|
||
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
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||
compatible with the terms of the GNU GPL
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||
`http://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:
|
||
|
||
This program is released under the GPL with the additional
|
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exemption that compiling, linking, and/or using OpenSSL is
|
||
allowed. You may provide binary packages linked to the OpenSSL
|
||
libraries, provided that all other requirements of the GPL are met.
|
||
|
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Since the LZO library used by tinc is also covered by the GPL, we
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also present the following exemption:
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||
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Hereby I grant a special exception to the tinc VPN project
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(http://www.tinc-vpn.org/) to link the LZO library with the
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OpenSSL library (http://www.openssl.org).
|
||
|
||
Markus F.X.J. Oberhumer
|
||
|
||
|
||
File: tinc.info, Node: zlib, Next: lzo, Prev: OpenSSL, Up: Libraries
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||
|
||
2.2.2 zlib
|
||
----------
|
||
|
||
For the optional compression of UDP packets, tinc uses the functions
|
||
provided by the zlib library.
|
||
|
||
If this library is not installed, you wil get an error when
|
||
configuring tinc for build. Support for running tinc without having
|
||
zlib installed _may_ be added in the future.
|
||
|
||
You can use your operating system's package manager to install this
|
||
if available. Make sure you install the development AND runtime
|
||
versions of this package.
|
||
|
||
If you have to install zlib manually, you can get the source code
|
||
from `http://www.gzip.org/zlib/'. 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).
|
||
|
||
|
||
File: tinc.info, Node: lzo, Next: libevent, Prev: zlib, Up: Libraries
|
||
|
||
2.2.3 lzo
|
||
---------
|
||
|
||
Another form of compression is offered using the lzo library.
|
||
|
||
If this library is not installed, you wil get an error when
|
||
configuring tinc for build. Support for running tinc without having lzo
|
||
installed _may_ be added in the future.
|
||
|
||
You can use your operating system's package manager to install this
|
||
if available. Make sure you install the development AND runtime
|
||
versions of this package.
|
||
|
||
If you have to install lzo manually, you can get the source code
|
||
from `http://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).
|
||
|
||
|
||
File: tinc.info, Node: libevent, Prev: lzo, Up: Libraries
|
||
|
||
2.2.4 libevent
|
||
--------------
|
||
|
||
For the main event loop, tinc uses the libevent library.
|
||
|
||
If this library is not installed, you wil get an error when
|
||
configuring tinc for build.
|
||
|
||
You can use your operating system's package manager to install this
|
||
if available. Make sure you install the development AND runtime
|
||
versions of this package.
|
||
|
||
If you have to install libevent manually, you can get the source code
|
||
from `http://monkey.org/~provos/libevent/'. 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).
|
||
|
||
|
||
File: tinc.info, Node: Installation, Next: Configuration, Prev: Preparations, Up: Top
|
||
|
||
3 Installation
|
||
**************
|
||
|
||
If you use Debian, you may want to install one of the precompiled
|
||
packages for your system. These packages are equipped with system
|
||
startup scripts and sample configurations.
|
||
|
||
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 download page (http://www.tinc-vpn.org/download), which
|
||
has the checksums of these files listed; you may wish to check these
|
||
with md5sum before continuing.
|
||
|
||
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
|
||
`./configure' and then `make'. More detailed instructions are in the
|
||
file `INSTALL', which is included in the source distribution.
|
||
|
||
* Menu:
|
||
|
||
* Building and installing tinc::
|
||
* System files::
|
||
|
||
|
||
File: tinc.info, Node: Building and installing tinc, Next: System files, Up: Installation
|
||
|
||
3.1 Building and installing tinc
|
||
================================
|
||
|
||
Detailed instructions on configuring the source, building tinc and
|
||
installing tinc can be found in the file called `INSTALL'.
|
||
|
||
If you happen to have a binary package for tinc for your
|
||
distribution, you can use the package management tools of that
|
||
distribution to install tinc. The documentation that comes along with
|
||
your distribution will tell you how to do that.
|
||
|
||
* Menu:
|
||
|
||
* Darwin (MacOS/X) build environment::
|
||
* Cygwin (Windows) build environment::
|
||
* MinGW (Windows) build environment::
|
||
|
||
|
||
File: tinc.info, Node: Darwin (MacOS/X) build environment, Next: Cygwin (Windows) build environment, Up: Building and installing tinc
|
||
|
||
3.1.1 Darwin (MacOS/X) build environment
|
||
----------------------------------------
|
||
|
||
In order to build tinc on Darwin, you need to install the MacOS/X
|
||
Developer Tools from
|
||
`http://developer.apple.com/tools/macosxtools.html' and a recent
|
||
version of Fink from `http://fink.sourceforge.net/'.
|
||
|
||
After installation use fink to download and install the following
|
||
packages: autoconf25, automake, dlcompat, m4, openssl, zlib and lzo.
|
||
|
||
|
||
File: tinc.info, Node: Cygwin (Windows) build environment, Next: MinGW (Windows) build environment, Prev: Darwin (MacOS/X) build environment, Up: Building and installing tinc
|
||
|
||
3.1.2 Cygwin (Windows) build environment
|
||
----------------------------------------
|
||
|
||
If Cygwin hasn't already been installed, install it directly from
|
||
`http://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. It will also support
|
||
all features.
|
||
|
||
|
||
File: tinc.info, Node: MinGW (Windows) build environment, Prev: Cygwin (Windows) build environment, Up: Building and installing tinc
|
||
|
||
3.1.3 MinGW (Windows) build environment
|
||
---------------------------------------
|
||
|
||
You will need to install the MinGW environment from
|
||
`http://www.mingw.org'.
|
||
|
||
When tinc is compiled using MinGW it runs natively under Windows, it
|
||
is not necessary to keep MinGW installed.
|
||
|
||
When detaching, tinc will install itself as a service, which will be
|
||
restarted automatically after reboots.
|
||
|
||
|
||
File: tinc.info, Node: System files, Prev: Building and installing tinc, Up: Installation
|
||
|
||
3.2 System files
|
||
================
|
||
|
||
Before you can run tinc, you must make sure you have all the needed
|
||
files on your system.
|
||
|
||
* Menu:
|
||
|
||
* Device files::
|
||
* Other files::
|
||
|
||
|
||
File: tinc.info, Node: Device files, Next: Other files, Up: System files
|
||
|
||
3.2.1 Device files
|
||
------------------
|
||
|
||
Most operating systems nowadays come with the necessary device files by
|
||
default, or they have a mechanism to create them on demand.
|
||
|
||
If you use Linux and do not have udev installed, you may need to
|
||
create the following device file if it does not exist:
|
||
|
||
mknod -m 600 /dev/net/tun c 10 200
|
||
|
||
|
||
File: tinc.info, Node: Other files, Prev: Device files, Up: System files
|
||
|
||
3.2.2 Other files
|
||
-----------------
|
||
|
||
`/etc/networks'
|
||
...............
|
||
|
||
You may add a line to `/etc/networks' so that your VPN will get a
|
||
symbolic name. For example:
|
||
|
||
myvpn 10.0.0.0
|
||
|
||
`/etc/services'
|
||
...............
|
||
|
||
You may add this line to `/etc/services'. The effect is that you may
|
||
supply a `tinc' as a valid port number to some programs. The number
|
||
655 is registered with the IANA.
|
||
|
||
tinc 655/tcp TINC
|
||
tinc 655/udp TINC
|
||
# Ivo Timmermans <ivo@tinc-vpn.org>
|
||
|
||
|
||
File: tinc.info, Node: Configuration, Next: Running tinc, Prev: Installation, Up: Top
|
||
|
||
4 Configuration
|
||
***************
|
||
|
||
* Menu:
|
||
|
||
* Configuration introduction::
|
||
* Multiple networks::
|
||
* How connections work::
|
||
* Configuration files::
|
||
* Generating keypairs::
|
||
* Network interfaces::
|
||
* Example configuration::
|
||
|
||
|
||
File: tinc.info, Node: Configuration introduction, Next: Multiple networks, Up: Configuration
|
||
|
||
4.1 Configuration introduction
|
||
==============================
|
||
|
||
Before actually starting to configure tinc and editing files, make sure
|
||
you have read this entire section so you know what to expect. Then,
|
||
make it clear to yourself how you want to organize your VPN: What are
|
||
the nodes (computers running tinc)? What IP addresses/subnets do they
|
||
have? What is the network mask of the entire VPN? Do you need special
|
||
firewall rules? Do you have to set up masquerading or forwarding rules?
|
||
Do you want to run tinc in router mode or switch mode? These questions
|
||
can only be answered by yourself, you will not find the answers in this
|
||
documentation. Make sure you have an adequate understanding of
|
||
networks in general. A good resource on networking is the Linux
|
||
Network Administrators Guide (http://www.linuxdoc.org/LDP/nag2/).
|
||
|
||
If you have everything clearly pictured in your mind, proceed in the
|
||
following order: First, generate the configuration files (`tinc.conf',
|
||
your host configuration file, `tinc-up' and perhaps `tinc-down'). Then
|
||
generate the keypairs. Finally, distribute the host configuration
|
||
files. These steps are described in the subsections below.
|
||
|
||
|
||
File: tinc.info, Node: Multiple networks, Next: How connections work, Prev: Configuration introduction, Up: Configuration
|
||
|
||
4.2 Multiple networks
|
||
=====================
|
||
|
||
In order to allow you to run more than one tinc daemon on one computer,
|
||
for instance if your computer is part of more than one VPN, you can
|
||
assign a NETNAME to your VPN. It is not required if you only run one
|
||
tinc daemon, it doesn't even have to be the same on all the sites of
|
||
your VPN, but it is recommended that you choose one anyway.
|
||
|
||
We will asume you use a netname throughout this document. This
|
||
means that you call tincd with the -n argument, which will assign a
|
||
netname to this daemon.
|
||
|
||
The effect of this is that the daemon will set its configuration
|
||
root to `/etc/tinc/NETNAME/', where NETNAME is your argument to the -n
|
||
option. You'll notice that it appears in syslog as `tinc.NETNAME'.
|
||
|
||
However, it is not strictly necessary that you call tinc with the -n
|
||
option. In this case, the network name would just be empty, and it will
|
||
be used as such. tinc now looks for files in `/etc/tinc/', instead of
|
||
`/etc/tinc/NETNAME/'; the configuration file should be
|
||
`/etc/tinc/tinc.conf', and the host configuration files are now
|
||
expected to be in `/etc/tinc/hosts/'.
|
||
|
||
But it is highly recommended that you use this feature of tinc,
|
||
because it will be so much clearer whom your daemon talks to. Hence,
|
||
we will assume that you use it.
|
||
|
||
|
||
File: tinc.info, Node: How connections work, Next: Configuration files, Prev: Multiple networks, Up: Configuration
|
||
|
||
4.3 How connections work
|
||
========================
|
||
|
||
When tinc starts up, it parses the command-line options and then reads
|
||
in the configuration file tinc.conf. If it sees one or more
|
||
`ConnectTo' values pointing to other tinc daemons in that file, it will
|
||
try to connect to those other daemons. Whether this succeeds or not
|
||
and whether `ConnectTo' is specified or not, tinc will listen for
|
||
incoming connection from other deamons. If you did specify a
|
||
`ConnectTo' value and the other side is not responding, tinc will keep
|
||
retrying. This means that once started, tinc will stay running until
|
||
you tell it to stop, and failures to connect to other tinc daemons will
|
||
not stop your tinc daemon for trying again later. This means you don't
|
||
have to intervene if there are temporary network problems.
|
||
|
||
There is no real distinction between a server and a client in tinc.
|
||
If you wish, you can view a tinc daemon without a `ConnectTo' value as
|
||
a server, and one which does specify such a value as a client. It does
|
||
not matter if two tinc daemons have a `ConnectTo' value pointing to
|
||
each other however.
|
||
|
||
|
||
File: tinc.info, Node: Configuration files, Next: Generating keypairs, Prev: How connections work, Up: Configuration
|
||
|
||
4.4 Configuration files
|
||
=======================
|
||
|
||
The actual configuration of the daemon is done in the file
|
||
`/etc/tinc/NETNAME/tinc.conf' and at least one other file in the
|
||
directory `/etc/tinc/NETNAME/hosts/'.
|
||
|
||
These file consists of comments (lines started with a #) or
|
||
assignments in the form of
|
||
|
||
Variable = Value.
|
||
|
||
The variable names are case insensitive, and any spaces, tabs,
|
||
newlines and carriage returns are ignored. Note: it is not required
|
||
that you put in the `=' sign, but doing so improves readability. If
|
||
you leave it out, remember to replace it with at least one space
|
||
character.
|
||
|
||
The server configuration is complemented with host specific
|
||
configuration (see the next section). Although all host configuration
|
||
options for the local node listed in this document can also be put in
|
||
`/etc/tinc/NETNAME/tinc.conf', it is recommended to put host specific
|
||
configuration options in the host configuration file, as this makes it
|
||
easy to exchange with other nodes.
|
||
|
||
In this section all valid variables are listed in alphabetical order.
|
||
The default value is given between parentheses, other comments are
|
||
between square brackets.
|
||
|
||
* Menu:
|
||
|
||
* Main configuration variables::
|
||
* Host configuration variables::
|
||
* Scripts::
|
||
* How to configure::
|
||
|
||
|
||
File: tinc.info, Node: Main configuration variables, Next: Host configuration variables, Up: Configuration files
|
||
|
||
4.4.1 Main configuration variables
|
||
----------------------------------
|
||
|
||
AddressFamily = <ipv4|ipv6|any> (any)
|
||
This option affects the address family of listening and outgoing
|
||
sockets. If any is selected, then depending on the operating
|
||
system both IPv4 and IPv6 or just IPv6 listening sockets will be
|
||
created.
|
||
|
||
BindToAddress = <ADDRESS> [experimental]
|
||
If your computer has more than one IPv4 or IPv6 address, tinc will
|
||
by default listen on all of them for incoming connections. It is
|
||
possible to bind only to a single address with this variable.
|
||
|
||
This option may not work on all platforms.
|
||
|
||
BindToInterface = <INTERFACE> [experimental]
|
||
If you have more than one network interface in your computer, tinc
|
||
will by default listen on all of them for incoming connections.
|
||
It is possible to bind tinc to a single interface like eth0 or
|
||
ppp0 with this variable.
|
||
|
||
This option may not work on all platforms.
|
||
|
||
ConnectTo = <NAME>
|
||
Specifies which other tinc daemon to connect to on startup.
|
||
Multiple ConnectTo variables may be specified, in which case
|
||
outgoing connections to each specified tinc daemon are made. 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, tinc won't try to
|
||
connect to other daemons at all, and will instead just listen for
|
||
incoming connections.
|
||
|
||
Device = <DEVICE> (`/dev/tap0', `/dev/net/tun' or other depending on platform)
|
||
The virtual network device to use. Tinc will automatically detect
|
||
what kind of device it is. Note that you can only use one device
|
||
per daemon. Under Windows, use INTERFACE instead of DEVICE. Note
|
||
that you can only use one device per daemon. See also *note
|
||
Device files::.
|
||
|
||
DeviceType = <tun|tunnohead|tunifhead|tap> (only supported on BSD platforms)
|
||
The type of the virtual network device. Tinc will normally
|
||
automatically select the right type, and this option should not be
|
||
used. However, in case tinc does not seem to correctly interpret
|
||
packets received from the virtual network device, using this
|
||
option might help.
|
||
|
||
tun
|
||
Set type to tun. Depending on the platform, this can either
|
||
be with or without an address family header (see below).
|
||
|
||
tunnohead
|
||
Set type to tun without an address family header. Tinc will
|
||
expect packets read from the virtual network device to start
|
||
with an IP header. On some platforms IPv6 packets cannot be
|
||
read from or written to the device in this mode.
|
||
|
||
tunifhead
|
||
Set type to tun with an address family header. Tinc will
|
||
expect packets read from the virtual network device to start
|
||
with a four byte header containing the address family,
|
||
followed by an IP header. This mode should support both IPv4
|
||
and IPv6 packets.
|
||
|
||
tap
|
||
Set type to tap. Tinc will expect packets read from the
|
||
virtual network device to start with an Ethernet header.
|
||
|
||
DirectOnly = <yes|no> (no) [experimental]
|
||
When this option is enabled, packets that cannot be sent directly
|
||
to the destination node, but which would have to be forwarded by
|
||
an intermediate node, are dropped instead. When combined with the
|
||
IndirectData option, packets for nodes for which we do not have a
|
||
meta connection with are also dropped.
|
||
|
||
ECDSAPrivateKeyFile = <PATH> (`/etc/tinc/NETNAME/ecdsa_key.priv')
|
||
The file in which the private ECDSA key of this tinc daemon
|
||
resides. This is only used if ExperimentalProtocol is enabled.
|
||
|
||
ExperimentalProtocol = <yes|no> (no) [experimental]
|
||
When this option is enabled, experimental protocol enhancements
|
||
will be used. 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
|
||
`tincctl generate-ecdsa-keys'. The experimental protocol may
|
||
change at any time, and there is no guarantee that tinc will run
|
||
stable when it is used.
|
||
|
||
Forwarding = <off|internal|kernel> (internal) [experimental]
|
||
This option selects the way indirect packets are forwarded.
|
||
|
||
off
|
||
Incoming packets that are not meant for the local node, but
|
||
which should be forwarded to another node, are dropped.
|
||
|
||
internal
|
||
Incoming packets that are meant for another node are
|
||
forwarded by tinc internally.
|
||
|
||
This is the default mode, and unless you really know you need
|
||
another forwarding mode, don't change it.
|
||
|
||
kernel
|
||
Incoming packets are always sent to the TUN/TAP device, even
|
||
if the packets are not for the local node. This is less
|
||
efficient, but allows the kernel to apply its routing and
|
||
firewall rules on them, and can also help debugging.
|
||
|
||
GraphDumpFile = <FILENAME> [experimental]
|
||
If this option is present, tinc will dump the current network
|
||
graph to the file FILENAME every minute, unless there were no
|
||
changes to the graph. The file is in a format that can be read by
|
||
graphviz tools. If FILENAME starts with a pipe symbol |, then the
|
||
rest of the filename is interpreted as a shell command that is
|
||
executed, the graph is then sent to stdin.
|
||
|
||
Hostnames = <yes|no> (no)
|
||
This option selects whether IP addresses (both real and on the VPN)
|
||
should be resolved. Since DNS lookups are blocking, it might
|
||
affect tinc's efficiency, even stopping the daemon for a few
|
||
seconds everytime it does a lookup if your DNS server is not
|
||
responding.
|
||
|
||
This does not affect resolving hostnames to IP addresses from the
|
||
configuration file.
|
||
|
||
Interface = <INTERFACE>
|
||
Defines the name of the interface corresponding to the virtual
|
||
network device. Depending on the operating system and the type of
|
||
device this may or may not actually set the name of the interface.
|
||
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.
|
||
|
||
Mode = <router|switch|hub> (router)
|
||
This option selects the way packets are routed to other daemons.
|
||
|
||
router
|
||
In this mode Subnet variables in the host configuration files
|
||
will be used to form a routing table. Only unicast packets
|
||
of routable protocols (IPv4 and IPv6) are supported in this
|
||
mode.
|
||
|
||
This is the default mode, and unless you really know you need
|
||
another mode, don't change it.
|
||
|
||
switch
|
||
In this mode the MAC addresses of the packets on the VPN will
|
||
be used to dynamically create a routing table just like an
|
||
Ethernet switch does. Unicast, multicast and broadcast
|
||
packets of every protocol that runs over Ethernet are
|
||
supported in this mode at the cost of frequent broadcast ARP
|
||
requests and routing table updates.
|
||
|
||
This mode is primarily useful if you want to bridge Ethernet
|
||
segments.
|
||
|
||
hub
|
||
This mode is almost the same as the switch mode, but instead
|
||
every packet will be broadcast to the other daemons while no
|
||
routing table is managed.
|
||
|
||
KeyExpire = <SECONDS> (3600)
|
||
This option controls the time the encryption keys used to encrypt
|
||
the data are valid. It is common practice to change keys at
|
||
regular intervals to make it even harder for crackers, even though
|
||
it is thought to be nearly impossible to crack a single key.
|
||
|
||
MACExpire = <SECONDS> (600)
|
||
This option controls the amount of time MAC addresses are kept
|
||
before they are removed. This only has effect when Mode is set to
|
||
"switch".
|
||
|
||
Name = <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 _).
|
||
|
||
PingInterval = <SECONDS> (60)
|
||
The number of seconds of inactivity that tinc will wait before
|
||
sending a probe to the other end.
|
||
|
||
PingTimeout = <SECONDS> (5)
|
||
The number of seconds to wait for a response to pings or to allow
|
||
meta connections to block. If the other end doesn't respond within
|
||
this time, the connection is terminated, and the others will be
|
||
notified of this.
|
||
|
||
PriorityInheritance = <yes|no> (no) [experimental]
|
||
When this option is enabled the value of the TOS field of tunneled
|
||
IPv4 packets will be inherited by the UDP packets that are sent
|
||
out.
|
||
|
||
PrivateKey = <KEY> [obsolete]
|
||
This is the RSA private key for tinc. However, for safety reasons
|
||
it is advised to store private keys of any kind in separate files.
|
||
This prevents accidental eavesdropping if you are editting the
|
||
configuration file.
|
||
|
||
PrivateKeyFile = <PATH> (`/etc/tinc/NETNAME/rsa_key.priv')
|
||
This is the full path name of the RSA private key file that was
|
||
generated by `tincctl generate-keys'. It must be a full path, not
|
||
a relative directory.
|
||
|
||
Note that there must be exactly one of PrivateKey or PrivateKeyFile
|
||
specified in the configuration file.
|
||
|
||
ProcessPriority = <low|normal|high>
|
||
When this option is used the priority of the tincd process will be
|
||
adjusted. Increasing the priority may help to reduce latency and
|
||
packet loss on the VPN.
|
||
|
||
ReplayWindow = <bytes> (16)
|
||
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 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 pass all traffic, but leaves tinc vulnerable to
|
||
replay-based attacks on your traffic.
|
||
|
||
StrictSubnets <yes|no> (no) [experimental]
|
||
When this option is enabled tinc will only use Subnet statements
|
||
which are present in the host config files in the local
|
||
`/etc/tinc/NETNAME/hosts/' directory.
|
||
|
||
TunnelServer = <yes|no> (no) [experimental]
|
||
When this option is enabled tinc will no longer forward
|
||
information between other tinc daemons, and will only allow
|
||
connections with nodes for which host config files are present in
|
||
the local `/etc/tinc/NETNAME/hosts/' directory. Setting this
|
||
options also implicitly sets StrictSubnets.
|
||
|
||
UDPRcvBuf = <bytes> (OS default)
|
||
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.
|
||
|
||
UDPSndBuf = <bytes> Pq OS default
|
||
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.
|
||
|
||
|
||
|
||
File: tinc.info, Node: Host configuration variables, Next: Scripts, Prev: Main configuration variables, Up: Configuration files
|
||
|
||
4.4.2 Host configuration variables
|
||
----------------------------------
|
||
|
||
Address = <IP ADDRESS|HOSTNAME> [<port>] [recommended]
|
||
This variable is only required if you want to connect to this
|
||
host. It must resolve to the external IP address where the host
|
||
can be reached, not the one that is internal to the VPN. If no
|
||
port is specified, the default Port is used.
|
||
|
||
Cipher = <CIPHER> (blowfish)
|
||
The symmetric cipher algorithm used to encrypt UDP packets. Any
|
||
cipher supported by OpenSSL is recognized. Furthermore,
|
||
specifying "none" will turn off packet encryption. It is best to
|
||
use only those ciphers which support CBC mode.
|
||
|
||
ClampMSS = <yes|no> (yes)
|
||
This option specifies whether tinc should clamp the maximum
|
||
segment size (MSS) of TCP packets to the path MTU. This helps in
|
||
situations where ICMP Fragmentation Needed or Packet too Big
|
||
messages are dropped by firewalls.
|
||
|
||
Compression = <LEVEL> (0)
|
||
This option sets the level of compression used for UDP packets.
|
||
Possible values are 0 (off), 1 (fast zlib) and any integer up to 9
|
||
(best zlib), 10 (fast lzo) and 11 (best lzo).
|
||
|
||
Digest = <DIGEST> (sha1)
|
||
The digest algorithm used to authenticate UDP packets. Any digest
|
||
supported by OpenSSL is recognized. Furthermore, specifying
|
||
"none" will turn off packet authentication.
|
||
|
||
IndirectData = <yes|no> (no)
|
||
This option specifies whether other tinc daemons besides the one
|
||
you specified with ConnectTo can make a direct connection to you.
|
||
This is especially useful if you are behind a firewall and it is
|
||
impossible to make a connection from the outside to your tinc
|
||
daemon. Otherwise, it is best to leave this option out or set it
|
||
to no.
|
||
|
||
MACLength = <BYTES> (4)
|
||
The length of the message authentication code used to authenticate
|
||
UDP packets. Can be anything from 0 up to the length of the
|
||
digest produced by the digest algorithm.
|
||
|
||
PMTU = <MTU> (1514)
|
||
This option controls the initial path MTU to this node.
|
||
|
||
PMTUDiscovery = <yes|no> (yes)
|
||
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.
|
||
|
||
Port = <PORT> (655)
|
||
This is the port this tinc daemon listens on. You can use decimal
|
||
portnumbers or symbolic names (as listed in `/etc/services').
|
||
|
||
PublicKey = <KEY> [obsolete]
|
||
This is the RSA public key for this host.
|
||
|
||
PublicKeyFile = <PATH> [obsolete]
|
||
This is the full path name of the RSA public key file that was
|
||
generated by `tincctl generate-keys'. It must be a full path, not
|
||
a relative directory.
|
||
|
||
From version 1.0pre4 on tinc will store the public key directly
|
||
into the host configuration file in PEM format, the above two
|
||
options then are not necessary. Either the PEM format is used, or
|
||
exactly *one of the above two options* must be specified in each
|
||
host configuration file, if you want to be able to establish a
|
||
connection with that host.
|
||
|
||
Subnet = <ADDRESS[/PREFIXLENGTH[#WEIGHT]]>
|
||
The subnet which this tinc daemon will serve. Tinc tries to look
|
||
up which other daemon it should send a packet to by searching the
|
||
appropiate subnet. If the packet matches a subnet, it will be
|
||
sent to the daemon who has this subnet in his host configuration
|
||
file. Multiple subnet lines can be specified for each daemon.
|
||
|
||
Subnets can either be single MAC, IPv4 or IPv6 addresses, in which
|
||
case a subnet consisting of only that single address is assumed,
|
||
or they can be a IPv4 or IPv6 network address with a prefixlength.
|
||
Shorthand notations are not supported. For example, IPv4 subnets
|
||
must be in a form like 192.168.1.0/24, where 192.168.1.0 is the
|
||
network address and 24 is the number of bits set in the netmask.
|
||
Note that subnets like 192.168.1.1/24 are invalid! Read a
|
||
networking HOWTO/FAQ/guide if you don't understand this. IPv6
|
||
subnets are notated like fec0:0:0:1:0:0:0:0/64. MAC addresses are
|
||
notated like 0:1a:2b:3c:4d:5e.
|
||
|
||
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 RFC1519 (ftp://ftp.isi.edu/in-notes/rfc1519.txt)
|
||
|
||
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 higher priority. Packets will be sent to
|
||
the node with the highest priority, unless that node is not
|
||
reachable, in which case the node with the next highest priority
|
||
will be tried, and so on.
|
||
|
||
TCPonly = <yes|no> (no)
|
||
If this variable is set to yes, then the packets are tunnelled
|
||
over a TCP connection instead of a UDP connection. This is
|
||
especially useful 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.
|
||
|
||
|
||
File: tinc.info, Node: Scripts, Next: How to configure, Prev: Host configuration variables, Up: Configuration files
|
||
|
||
4.4.3 Scripts
|
||
-------------
|
||
|
||
Apart from reading the server and host configuration files, tinc can
|
||
also run scripts at certain moments. Under Windows (not Cygwin), the
|
||
scripts should have the extension .bat.
|
||
|
||
`/etc/tinc/NETNAME/tinc-up'
|
||
This is the most important script. If it is present it will be
|
||
executed right after the tinc daemon has been 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.
|
||
|
||
`/etc/tinc/NETNAME/tinc-down'
|
||
This script is started right before the tinc daemon quits.
|
||
|
||
`/etc/tinc/NETNAME/hosts/HOST-up'
|
||
This script is started when the tinc daemon with name HOST becomes
|
||
reachable.
|
||
|
||
`/etc/tinc/NETNAME/hosts/HOST-down'
|
||
This script is started when the tinc daemon with name HOST becomes
|
||
unreachable.
|
||
|
||
`/etc/tinc/NETNAME/host-up'
|
||
This script is started when any host becomes reachable.
|
||
|
||
`/etc/tinc/NETNAME/host-down'
|
||
This script is started when any host becomes unreachable.
|
||
|
||
`/etc/tinc/NETNAME/subnet-up'
|
||
This script is started when a Subnet becomes reachable. The
|
||
Subnet and the node it belongs to are passed in environment
|
||
variables.
|
||
|
||
`/etc/tinc/NETNAME/subnet-down'
|
||
This script is started when a Subnet becomes unreachable.
|
||
|
||
The scripts are started without command line arguments, but can make
|
||
use of certain environment variables. Under UNIX like operating
|
||
systems the names of environment variables must be preceded by a $ in
|
||
scripts. Under Windows, in `.bat' files, they have to be put between %
|
||
signs.
|
||
|
||
`NETNAME'
|
||
If a netname was specified, this environment variable contains it.
|
||
|
||
`NAME'
|
||
Contains the name of this tinc daemon.
|
||
|
||
`DEVICE'
|
||
Contains the name of the virtual network device that tinc uses.
|
||
|
||
`INTERFACE'
|
||
Contains the name of the virtual network interface that tinc uses.
|
||
This should be used for commands like ifconfig.
|
||
|
||
`NODE'
|
||
When a host becomes (un)reachable, this is set to its name. If a
|
||
subnet becomes (un)reachable, this is set to the owner of that
|
||
subnet.
|
||
|
||
`REMOTEADDRESS'
|
||
When a host becomes (un)reachable, this is set to its real address.
|
||
|
||
`REMOTEPORT'
|
||
When a host becomes (un)reachable, this is set to the port number
|
||
it uses for communication with other tinc daemons.
|
||
|
||
`SUBNET'
|
||
When a subnet becomes (un)reachable, this is set to the subnet.
|
||
|
||
|
||
|
||
File: tinc.info, Node: How to configure, Prev: Scripts, Up: Configuration files
|
||
|
||
4.4.4 How to configure
|
||
----------------------
|
||
|
||
Step 1. Creating the main configuration file
|
||
.............................................
|
||
|
||
The main configuration file will be called
|
||
`/etc/tinc/NETNAME/tinc.conf'. Adapt the following example to create a
|
||
basic configuration file:
|
||
|
||
Name = YOURNAME
|
||
Device = `/dev/tap0'
|
||
|
||
Then, if you know to which other tinc daemon(s) yours is going to
|
||
connect, add `ConnectTo' values.
|
||
|
||
Step 2. Creating your host configuration file
|
||
..............................................
|
||
|
||
If you added a line containing `Name = yourname' in the main
|
||
configuarion file, you will need to create a host configuration file
|
||
`/etc/tinc/NETNAME/hosts/yourname'. Adapt the following example to
|
||
create a host configuration file:
|
||
|
||
Address = your.real.hostname.org
|
||
Subnet = 192.168.1.0/24
|
||
|
||
You can also use an IP address instead of a hostname. The `Subnet'
|
||
specifies the address range that is local for _your part of the VPN
|
||
only_. If you have multiple address ranges you can specify more than
|
||
one `Subnet'. You might also need to add a `Port' if you want your
|
||
tinc daemon to run on a different port number than the default (655).
|
||
|
||
|
||
File: tinc.info, Node: Generating keypairs, Next: Network interfaces, Prev: Configuration files, Up: Configuration
|
||
|
||
4.5 Generating keypairs
|
||
=======================
|
||
|
||
Now that you have already created the main configuration file and your
|
||
host configuration file, you can easily create a public/private keypair
|
||
by entering the following command:
|
||
|
||
tincctl -n NETNAME generate-keys
|
||
|
||
Tinc will generate a public and a private key and ask you where to
|
||
put them. Just press enter to accept the defaults.
|
||
|
||
|
||
File: tinc.info, Node: Network interfaces, Next: Example configuration, Prev: Generating keypairs, Up: Configuration
|
||
|
||
4.6 Network interfaces
|
||
======================
|
||
|
||
Before tinc can start transmitting data over the tunnel, it must set up
|
||
the virtual network interface.
|
||
|
||
First, decide which IP addresses you want to have associated with
|
||
these devices, and what network mask they must have.
|
||
|
||
Tinc will open a virtual network device (`/dev/tun', `/dev/tap0' or
|
||
similar), which will also create a network interface called something
|
||
like `tun0', `tap0'. If you are using the Linux tun/tap driver, the
|
||
network interface will by default have the same name as the NETNAME.
|
||
Under Windows you can change the name of the network interface from the
|
||
Network Connections control panel.
|
||
|
||
You can configure the network interface by putting ordinary
|
||
ifconfig, route, and other commands to a script named
|
||
`/etc/tinc/NETNAME/tinc-up'. When tinc starts, this script will be
|
||
executed. When tinc exits, it will execute the script named
|
||
`/etc/tinc/NETNAME/tinc-down', but normally you don't need to create
|
||
that script.
|
||
|
||
An example `tinc-up' script:
|
||
|
||
#!/bin/sh
|
||
ifconfig $INTERFACE 192.168.1.1 netmask 255.255.0.0
|
||
|
||
This script gives the interface an IP address and a netmask. The
|
||
kernel will also automatically add a route to this interface, so
|
||
normally you don't need to add route commands to the `tinc-up' script.
|
||
The kernel will also bring the interface up after this command. The
|
||
netmask is the mask of the _entire_ VPN network, not just your own
|
||
subnet.
|
||
|
||
The exact syntax of the ifconfig and route commands differs from
|
||
platform to platform. You can look up the commands for setting
|
||
addresses and adding routes in *note Platform specific information::,
|
||
but it is best to consult the manpages of those utilities on your
|
||
platform.
|
||
|
||
|
||
File: tinc.info, Node: Example configuration, Prev: Network interfaces, Up: Configuration
|
||
|
||
4.7 Example configuration
|
||
=========================
|
||
|
||
Imagine the following situation. Branch A of our example `company'
|
||
wants to connect three branch offices in B, C and D using the Internet.
|
||
All four offices have a 24/7 connection to the Internet.
|
||
|
||
A is going to serve as the center of the network. B and C will
|
||
connect to A, and D will connect to C. Each office will be assigned
|
||
their own IP network, 10.x.0.0.
|
||
|
||
A: net 10.1.0.0 mask 255.255.0.0 gateway 10.1.54.1 internet IP 1.2.3.4
|
||
B: net 10.2.0.0 mask 255.255.0.0 gateway 10.2.1.12 internet IP 2.3.4.5
|
||
C: net 10.3.0.0 mask 255.255.0.0 gateway 10.3.69.254 internet IP 3.4.5.6
|
||
D: net 10.4.0.0 mask 255.255.0.0 gateway 10.4.3.32 internet IP 4.5.6.7
|
||
|
||
Here, "gateway" is the VPN IP address of the machine that is running
|
||
the tincd, and "internet IP" is the IP address of the firewall, which
|
||
does not need to run tincd, but it must do a port forwarding of TCP and
|
||
UDP on port 655 (unless otherwise configured).
|
||
|
||
In this example, it is assumed that eth0 is the interface that
|
||
points to the inner (physical) LAN of the office, although this could
|
||
also be the same as the interface that leads to the Internet. The
|
||
configuration of the real interface is also shown as a comment, to give
|
||
you an idea of how these example host is set up. All branches use the
|
||
netname `company' for this particular VPN.
|
||
|
||
For Branch A
|
||
............
|
||
|
||
_BranchA_ would be configured like this:
|
||
|
||
In `/etc/tinc/company/tinc-up':
|
||
|
||
# Real interface of internal network:
|
||
# ifconfig eth0 10.1.54.1 netmask 255.255.0.0
|
||
|
||
ifconfig $INTERFACE 10.1.54.1 netmask 255.0.0.0
|
||
|
||
and in `/etc/tinc/company/tinc.conf':
|
||
|
||
Name = BranchA
|
||
Device = /dev/tap0
|
||
|
||
On all hosts, `/etc/tinc/company/hosts/BranchA' contains:
|
||
|
||
Subnet = 10.1.0.0/16
|
||
Address = 1.2.3.4
|
||
|
||
-----BEGIN RSA PUBLIC KEY-----
|
||
...
|
||
-----END RSA PUBLIC KEY-----
|
||
|
||
Note that the IP addresses of eth0 and tap0 are the same. This is
|
||
quite possible, if you make sure that the netmasks of the interfaces
|
||
are different. It is in fact recommended to give both real internal
|
||
network interfaces and tap interfaces the same IP address, since that
|
||
will make things a lot easier to remember and set up.
|
||
|
||
For Branch B
|
||
............
|
||
|
||
In `/etc/tinc/company/tinc-up':
|
||
|
||
# Real interface of internal network:
|
||
# ifconfig eth0 10.2.43.8 netmask 255.255.0.0
|
||
|
||
ifconfig $INTERFACE 10.2.1.12 netmask 255.0.0.0
|
||
|
||
and in `/etc/tinc/company/tinc.conf':
|
||
|
||
Name = BranchB
|
||
ConnectTo = BranchA
|
||
|
||
Note here that the internal address (on eth0) doesn't have to be the
|
||
same as on the tap0 device. Also, ConnectTo is given so that this node
|
||
will always try to connect to BranchA.
|
||
|
||
On all hosts, in `/etc/tinc/company/hosts/BranchB':
|
||
|
||
Subnet = 10.2.0.0/16
|
||
Address = 2.3.4.5
|
||
|
||
-----BEGIN RSA PUBLIC KEY-----
|
||
...
|
||
-----END RSA PUBLIC KEY-----
|
||
|
||
For Branch C
|
||
............
|
||
|
||
In `/etc/tinc/company/tinc-up':
|
||
|
||
# Real interface of internal network:
|
||
# ifconfig eth0 10.3.69.254 netmask 255.255.0.0
|
||
|
||
ifconfig $INTERFACE 10.3.69.254 netmask 255.0.0.0
|
||
|
||
and in `/etc/tinc/company/tinc.conf':
|
||
|
||
Name = BranchC
|
||
ConnectTo = BranchA
|
||
Device = /dev/tap1
|
||
|
||
C already has another daemon that runs on port 655, so they have to
|
||
reserve another port for tinc. It knows the portnumber it has to listen
|
||
on from it's own host configuration file.
|
||
|
||
On all hosts, in `/etc/tinc/company/hosts/BranchC':
|
||
|
||
Address = 3.4.5.6
|
||
Subnet = 10.3.0.0/16
|
||
Port = 2000
|
||
|
||
-----BEGIN RSA PUBLIC KEY-----
|
||
...
|
||
-----END RSA PUBLIC KEY-----
|
||
|
||
For Branch D
|
||
............
|
||
|
||
In `/etc/tinc/company/tinc-up':
|
||
|
||
# Real interface of internal network:
|
||
# ifconfig eth0 10.4.3.32 netmask 255.255.0.0
|
||
|
||
ifconfig $INTERFACE 10.4.3.32 netmask 255.0.0.0
|
||
|
||
and in `/etc/tinc/company/tinc.conf':
|
||
|
||
Name = BranchD
|
||
ConnectTo = BranchC
|
||
Device = /dev/net/tun
|
||
|
||
D will be connecting to C, which has a tincd running for this
|
||
network on port 2000. It knows the port number from the host
|
||
configuration file. Also note that since D uses the tun/tap driver,
|
||
the network interface will not be called `tun' or `tap0' or something
|
||
like that, but will have the same name as netname.
|
||
|
||
On all hosts, in `/etc/tinc/company/hosts/BranchD':
|
||
|
||
Subnet = 10.4.0.0/16
|
||
Address = 4.5.6.7
|
||
|
||
-----BEGIN RSA PUBLIC KEY-----
|
||
...
|
||
-----END RSA PUBLIC KEY-----
|
||
|
||
Key files
|
||
.........
|
||
|
||
A, B, C and D all have generated a public/private keypair with the
|
||
following command:
|
||
|
||
tincctl -n company generate-keys
|
||
|
||
The private key is stored in `/etc/tinc/company/rsa_key.priv', the
|
||
public key is put into the host configuration file in the
|
||
`/etc/tinc/company/hosts/' directory. During key generation, tinc
|
||
automatically guesses the right filenames based on the -n option and
|
||
the Name directive in the `tinc.conf' file (if it is available).
|
||
|
||
Starting
|
||
........
|
||
|
||
After each branch has finished configuration and they have distributed
|
||
the host configuration files amongst them, they can start their tinc
|
||
daemons. They don't necessarily have to wait for the other branches to
|
||
have started their daemons, tinc will try connecting until they are
|
||
available.
|
||
|
||
|
||
File: tinc.info, Node: Running tinc, Next: Controlling tinc, Prev: Configuration, Up: Top
|
||
|
||
5 Running tinc
|
||
**************
|
||
|
||
If everything else is done, you can start tinc by typing the following
|
||
command:
|
||
|
||
tincd -n NETNAME
|
||
|
||
Tinc will detach from the terminal and continue to run in the
|
||
background like a good daemon. If there are any problems however you
|
||
can try to increase the debug level and look in the syslog to find out
|
||
what the problems are.
|
||
|
||
* Menu:
|
||
|
||
* Runtime options::
|
||
* Signals::
|
||
* Debug levels::
|
||
* Solving problems::
|
||
* Error messages::
|
||
* Sending bug reports::
|
||
|
||
|
||
File: tinc.info, Node: Runtime options, Next: Signals, Up: Running tinc
|
||
|
||
5.1 Runtime options
|
||
===================
|
||
|
||
Besides the settings in the configuration file, tinc also accepts some
|
||
command line options.
|
||
|
||
`-c, --config=PATH'
|
||
Read configuration options from the directory PATH. The default is
|
||
`/etc/tinc/NETNAME/'.
|
||
|
||
`-D, --no-detach'
|
||
Don't fork and detach. This will also disable the automatic
|
||
restart mechanism for fatal errors.
|
||
|
||
`-d, --debug=LEVEL'
|
||
Set debug level to LEVEL. The higher the debug level, the more
|
||
gets logged. Everything goes via syslog.
|
||
|
||
`-n, --net=NETNAME'
|
||
Use configuration for net NETNAME. This will let tinc read all
|
||
configuration files from `/etc/tinc/NETNAME/'. Specifying . for
|
||
NETNAME is the same as not specifying any NETNAME. *Note Multiple
|
||
networks::.
|
||
|
||
`--pidfile=FILENAME'
|
||
Store a cookie in FILENAME which allows tincctl to authenticate.
|
||
If unspecified, the default is `/var/run/tinc.NETNAME.pid'.
|
||
|
||
`-L, --mlock'
|
||
Lock tinc into main memory. This will prevent sensitive data like
|
||
shared private keys to be written to the system swap
|
||
files/partitions.
|
||
|
||
`--logfile[=FILE]'
|
||
Write log entries to a file instead of to the system logging
|
||
facility. If FILE is omitted, the default is
|
||
`/var/log/tinc.NETNAME.log'.
|
||
|
||
`--bypass-security'
|
||
Disables encryption and authentication. Only useful for debugging.
|
||
|
||
`-R, --chroot'
|
||
Change process root directory to the directory where the config
|
||
file is located (`/etc/tinc/NETNAME/' as determined by -n/-net
|
||
option or as given by -c/-config option), for added security. The
|
||
chroot is performed after all the initialization is done, after
|
||
writing pid files and opening network sockets.
|
||
|
||
Note that this option alone does not do any good without -U/-user,
|
||
below.
|
||
|
||
Note also that tinc can't run scripts anymore (such as tinc-down
|
||
or host-up), unless it's setup to be runnable inside chroot
|
||
environment.
|
||
|
||
`-U, --user=USER'
|
||
Switch to the given USER after initialization, at the same time as
|
||
chroot is performed (see -chroot above). With this option tinc
|
||
drops privileges, for added security.
|
||
|
||
`--help'
|
||
Display a short reminder of these runtime options and terminate.
|
||
|
||
`--version'
|
||
Output version information and exit.
|
||
|
||
|
||
|
||
File: tinc.info, Node: Signals, Next: Debug levels, Prev: Runtime options, Up: Running tinc
|
||
|
||
5.2 Signals
|
||
===========
|
||
|
||
You can also send the following signals to a running tincd process:
|
||
|
||
`ALRM'
|
||
Forces tinc to try to connect to all uplinks immediately. Usually
|
||
tinc attempts to do this itself, but increases the time it waits
|
||
between the attempts each time it failed, and if tinc didn't
|
||
succeed to connect to an uplink the first time after it started,
|
||
it defaults to the maximum time of 15 minutes.
|
||
|
||
`HUP'
|
||
Partially rereads configuration files. Connections to hosts whose
|
||
host config file are removed are closed. New outgoing connections
|
||
specified in `tinc.conf' will be made. If the -logfile option is
|
||
used, this will also close and reopen the log file, useful when
|
||
log rotation is used.
|
||
|
||
|
||
|
||
File: tinc.info, Node: Debug levels, Next: Solving problems, Prev: Signals, Up: Running tinc
|
||
|
||
5.3 Debug levels
|
||
================
|
||
|
||
The tinc daemon can send a lot of messages to the syslog. The higher
|
||
the debug level, the more messages it will log. Each level inherits
|
||
all messages of the previous level:
|
||
|
||
`0'
|
||
This will log a message indicating tinc has started along with a
|
||
version number. It will also log any serious error.
|
||
|
||
`1'
|
||
This will log all connections that are made with other tinc
|
||
daemons.
|
||
|
||
`2'
|
||
This will log status and error messages from scripts and other
|
||
tinc daemons.
|
||
|
||
`3'
|
||
This will log all requests that are exchanged with other tinc
|
||
daemons. These include authentication, key exchange and connection
|
||
list updates.
|
||
|
||
`4'
|
||
This will log a copy of everything received on the meta socket.
|
||
|
||
`5'
|
||
This will log all network traffic over the virtual private network.
|
||
|
||
|
||
|
||
File: tinc.info, Node: Solving problems, Next: Error messages, Prev: Debug levels, Up: Running tinc
|
||
|
||
5.4 Solving problems
|
||
====================
|
||
|
||
If tinc starts without problems, but if the VPN doesn't work, you will
|
||
have to find the cause of the problem. The first thing to do is to
|
||
start tinc with a high debug level in the foreground, so you can
|
||
directly see everything tinc logs:
|
||
|
||
tincd -n NETNAME -d5 -D
|
||
|
||
If tinc does not log any error messages, then you might want to
|
||
check the following things:
|
||
|
||
* `tinc-up' script Does this script contain the right commands?
|
||
Normally you must give the interface the address of this host on
|
||
the VPN, and the netmask must be big enough so that the entire VPN
|
||
is covered.
|
||
|
||
* Subnet Does the Subnet (or Subnets) in the host configuration file
|
||
of this host match the portion of the VPN that belongs to this
|
||
host?
|
||
|
||
* Firewalls and NATs Do you have a firewall or a NAT device (a
|
||
masquerading firewall or perhaps an ADSL router that performs
|
||
masquerading)? If so, check that it allows TCP and UDP traffic on
|
||
port 655. If it masquerades and the host running tinc is behind
|
||
it, make sure that it forwards TCP and UDP traffic to port 655 to
|
||
the host running tinc. You can add `TCPOnly = yes' to your host
|
||
config file to force tinc to only use a single TCP connection,
|
||
this works through most firewalls and NATs.
|
||
|
||
|
||
|
||
File: tinc.info, Node: Error messages, Next: Sending bug reports, Prev: Solving problems, Up: Running tinc
|
||
|
||
5.5 Error messages
|
||
==================
|
||
|
||
What follows is a list of the most common error messages you might find
|
||
in the logs. Some of them will only be visible if the debug level is
|
||
high enough.
|
||
|
||
`Could not open /dev/tap0: No such device'
|
||
* You forgot to `modprobe netlink_dev' or `modprobe ethertap'.
|
||
|
||
* You forgot to compile `Netlink device emulation' in the
|
||
kernel.
|
||
|
||
`Can't write to /dev/net/tun: No such device'
|
||
* You forgot to `modprobe tun'.
|
||
|
||
* You forgot to compile `Universal TUN/TAP driver' in the
|
||
kernel.
|
||
|
||
* The tun device is located somewhere else in `/dev/'.
|
||
|
||
`Network address and prefix length do not match!'
|
||
* The Subnet field must contain a _network_ address, trailing
|
||
bits should be 0.
|
||
|
||
* If you only want to use one IP address, set the netmask to
|
||
/32.
|
||
|
||
`Error reading RSA key file `rsa_key.priv': No such file or directory'
|
||
* You forgot to create a public/private keypair.
|
||
|
||
* Specify the complete pathname to the private key file with
|
||
the `PrivateKeyFile' option.
|
||
|
||
`Warning: insecure file permissions for RSA private key file `rsa_key.priv'!'
|
||
* The private key file is readable by users other than root.
|
||
Use chmod to correct the file permissions.
|
||
|
||
`Creating metasocket failed: Address family not supported'
|
||
* By default tinc tries to create both IPv4 and IPv6 sockets.
|
||
On some platforms this might not be implemented. If the logs
|
||
show `Ready' later on, then at least one metasocket was
|
||
created, and you can ignore this message. You can add
|
||
`AddressFamily = ipv4' to `tinc.conf' to prevent this from
|
||
happening.
|
||
|
||
`Cannot route packet: unknown IPv4 destination 1.2.3.4'
|
||
* You try to send traffic to a host on the VPN for which no
|
||
Subnet is known.
|
||
|
||
* If it is a broadcast address (ending in .255), it probably is
|
||
a samba server or a Windows host sending broadcast packets.
|
||
You can ignore it.
|
||
|
||
`Cannot route packet: ARP request for unknown address 1.2.3.4'
|
||
* You try to send traffic to a host on the VPN for which no
|
||
Subnet is known.
|
||
|
||
`Packet with destination 1.2.3.4 is looping back to us!'
|
||
* Something is not configured right. Packets are being sent out
|
||
to the virtual network device, but according to the Subnet
|
||
directives in your host configuration file, those packets
|
||
should go to your own host. Most common mistake is that you
|
||
have a Subnet line in your host configuration file with a
|
||
prefix length which is just as large as the prefix of the
|
||
virtual network interface. The latter should in almost all
|
||
cases be larger. Rethink your configuration. Note that you
|
||
will only see this message if you specified a debug level of
|
||
5 or higher!
|
||
|
||
* Chances are that a `Subnet = ...' line in the host
|
||
configuration file of this tinc daemon is wrong. Change it
|
||
to a subnet that is accepted locally by another interface, or
|
||
if that is not the case, try changing the prefix length into
|
||
/32.
|
||
|
||
`Node foo (1.2.3.4) is not reachable'
|
||
* Node foo does not have a connection anymore, its tinc daemon
|
||
is not running or its connection to the Internet is broken.
|
||
|
||
`Received UDP packet from unknown source 1.2.3.4 (port 12345)'
|
||
* If you see this only sporadically, it is harmless and caused
|
||
by a node sending packets using an old key.
|
||
|
||
* If you see this often and another node is not reachable
|
||
anymore, then a NAT (masquerading firewall) is changing the
|
||
source address of UDP packets. You can add `TCPOnly = yes'
|
||
to host configuration files to force all VPN traffic to go
|
||
over a TCP connection.
|
||
|
||
`Got bad/bogus/unauthorized REQUEST from foo (1.2.3.4 port 12345)'
|
||
* Node foo does not have the right public/private keypair.
|
||
Generate new keypairs and distribute them again.
|
||
|
||
* An attacker tries to gain access to your VPN.
|
||
|
||
* A network error caused corruption of metadata sent from foo.
|
||
|
||
|
||
|
||
File: tinc.info, Node: Sending bug reports, Prev: Error messages, Up: Running tinc
|
||
|
||
5.6 Sending bug reports
|
||
=======================
|
||
|
||
If you really can't find the cause of a problem, or if you suspect tinc
|
||
is not working right, you can send us a bugreport, see *note Contact
|
||
information::. Be sure to include the following information in your
|
||
bugreport:
|
||
|
||
* A clear description of what you are trying to achieve and what the
|
||
problem is.
|
||
|
||
* What platform (operating system, version, hardware architecture)
|
||
and which version of tinc you use.
|
||
|
||
* If compiling tinc fails, a copy of `config.log' and the error
|
||
messages you get.
|
||
|
||
* Otherwise, a copy of `tinc.conf', `tinc-up' and all files in the
|
||
`hosts/' directory.
|
||
|
||
* The output of the commands `ifconfig -a' and `route -n' (or
|
||
`netstat -rn' if that doesn't work).
|
||
|
||
* The output of any command that fails to work as it should (like
|
||
ping or traceroute).
|
||
|
||
|
||
File: tinc.info, Node: Controlling tinc, Next: Technical information, Prev: Running tinc, Up: Top
|
||
|
||
6 Controlling tinc
|
||
******************
|
||
|
||
You can control and inspect a running tincd through the tincctl
|
||
command. A quick example:
|
||
|
||
tincctl -n NETNAME reload
|
||
|
||
* Menu:
|
||
|
||
* tincctl runtime options::
|
||
* tincctl commands::
|
||
* tincctl examples::
|
||
* tincctl top::
|
||
|
||
|
||
File: tinc.info, Node: tincctl runtime options, Next: tincctl commands, Up: Controlling tinc
|
||
|
||
6.1 tincctl runtime options
|
||
===========================
|
||
|
||
`-c, --config=PATH'
|
||
Read configuration options from the directory PATH. The default is
|
||
`/etc/tinc/NETNAME/'.
|
||
|
||
`-n, --net=NETNAME'
|
||
Use configuration for net NETNAME. *Note Multiple networks::.
|
||
|
||
`--pidfile=FILENAME'
|
||
Use the cookie from FILENAME to authenticate with a running tinc
|
||
daemon. If unspecified, the default is
|
||
`/var/run/tinc.NETNAME.pid'.
|
||
|
||
`--help'
|
||
Display a short reminder of runtime options and commands, then
|
||
terminate.
|
||
|
||
`--version'
|
||
Output version information and exit.
|
||
|
||
|
||
|
||
File: tinc.info, Node: tincctl commands, Next: tincctl examples, Prev: tincctl runtime options, Up: Controlling tinc
|
||
|
||
6.2 tincctl commands
|
||
====================
|
||
|
||
`start'
|
||
Start `tincd'.
|
||
|
||
`stop'
|
||
Stop `tincd'.
|
||
|
||
`restart'
|
||
Restart `tincd'.
|
||
|
||
`reload'
|
||
Partially rereads configuration files. Connections to hosts whose
|
||
host config files are removed are closed. New outgoing connections
|
||
specified in `tinc.conf' will be made.
|
||
|
||
`pid'
|
||
Shows the PID of the currently running `tincd'.
|
||
|
||
`generate-keys [BITS]'
|
||
Generate public/private keypair of BITS length. If BITS is not
|
||
specified, 1024 is the default. 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).
|
||
|
||
`dump nodes'
|
||
Dump a list of all known nodes in the VPN.
|
||
|
||
`dump edges'
|
||
Dump a list of all known connections in the VPN.
|
||
|
||
`dump subnets'
|
||
Dump a list of all known subnets in the VPN.
|
||
|
||
`dump connections'
|
||
Dump a list of all meta connections with ourself.
|
||
|
||
`dump graph'
|
||
Dump a graph of the VPN in dotty format.
|
||
|
||
`purge'
|
||
Purges all information remembered about unreachable nodes.
|
||
|
||
`debug LEVEL'
|
||
Sets debug level to LEVEL.
|
||
|
||
`retry'
|
||
Forces tinc to try to connect to all uplinks immediately. Usually
|
||
tinc attempts to do this itself, but increases the time it waits
|
||
between the attempts each time it failed, and if tinc didn't
|
||
succeed to connect to an uplink the first time after it started,
|
||
it defaults to the maximum time of 15 minutes.
|
||
|
||
`disconnect NODE'
|
||
Closes the meta connection with the given NODE.
|
||
|
||
`top'
|
||
If tincctl is compiled with libcurses support, this will display
|
||
live traffic statistics for all the known nodes, similar to the
|
||
UNIX top command. See below for more information.
|
||
|
||
`pcap'
|
||
Dump VPN traffic going through the local tinc node in
|
||
pcap-savefile format to standard output, from where it can be
|
||
redirected to a file or piped through a program that can parse it
|
||
directly, such as tcpdump.
|
||
|
||
|
||
|
||
File: tinc.info, Node: tincctl examples, Next: tincctl top, Prev: tincctl commands, Up: Controlling tinc
|
||
|
||
6.3 tincctl examples
|
||
====================
|
||
|
||
Examples of some commands:
|
||
|
||
tincctl -n vpn dump graph | circo -Txlib
|
||
tincctl -n vpn pcap | tcpdump -r -
|
||
tincctl -n vpn top
|
||
|
||
|
||
File: tinc.info, Node: tincctl top, Prev: tincctl examples, Up: Controlling tinc
|
||
|
||
6.4 tincctl top
|
||
===============
|
||
|
||
The top command connects to a running tinc daemon and repeatedly
|
||
queries its per-node traffic counters. It displays a list of all the
|
||
known nodes in the left-most column, and the amount of bytes and
|
||
packets read from and sent to each node in the other columns. By
|
||
default, the information is updated every second. The behaviour of the
|
||
top command can be changed using the following keys:
|
||
|
||
<s>
|
||
Change the interval between updates. After pressing the <s> key,
|
||
enter the desired interval in seconds, followed by enter.
|
||
Fractional seconds are honored. Intervals lower than 0.1 seconds
|
||
are not allowed.
|
||
|
||
<c>
|
||
Toggle between displaying current traffic rates (in packets and
|
||
bytes per second) and cummulative traffic (total packets and bytes
|
||
since the tinc daemon started).
|
||
|
||
<n>
|
||
Sort the list of nodes by name.
|
||
|
||
<i>
|
||
Sort the list of nodes by incoming amount of bytes.
|
||
|
||
<I>
|
||
Sort the list of nodes by incoming amount of packets.
|
||
|
||
<o>
|
||
Sort the list of nodes by outgoing amount of bytes.
|
||
|
||
<O>
|
||
Sort the list of nodes by outgoing amount of packets.
|
||
|
||
<t>
|
||
Sort the list of nodes by sum of incoming and outgoing amount of
|
||
bytes.
|
||
|
||
<T>
|
||
Sort the list of nodes by sum of incoming and outgoing amount of
|
||
packets.
|
||
|
||
<b>
|
||
Show amount of traffic in bytes.
|
||
|
||
<k>
|
||
Show amount of traffic in kilobytes.
|
||
|
||
<M>
|
||
Show amount of traffic in megabytes.
|
||
|
||
<G>
|
||
Show amount of traffic in gigabytes.
|
||
|
||
<q>
|
||
Quit.
|
||
|
||
|
||
|
||
File: tinc.info, Node: Technical information, Next: Platform specific information, Prev: Controlling tinc, Up: Top
|
||
|
||
7 Technical information
|
||
***********************
|
||
|
||
* Menu:
|
||
|
||
* The connection::
|
||
* The meta-protocol::
|
||
* Security::
|
||
|
||
|
||
File: tinc.info, Node: The connection, Next: The meta-protocol, Up: Technical information
|
||
|
||
7.1 The connection
|
||
==================
|
||
|
||
Tinc is a daemon that takes VPN data and transmit that to another host
|
||
computer over the existing Internet infrastructure.
|
||
|
||
* Menu:
|
||
|
||
* The UDP tunnel::
|
||
* The meta-connection::
|
||
|
||
|
||
File: tinc.info, Node: The UDP tunnel, Next: The meta-connection, Up: The connection
|
||
|
||
7.1.1 The UDP tunnel
|
||
--------------------
|
||
|
||
The data itself is read from a character device file, the so-called
|
||
_virtual network device_. This device is associated with a network
|
||
interface. Any data sent to this interface can be read from the device,
|
||
and any data written to the device gets sent from the interface. There
|
||
are two possible types of virtual network devices: `tun' style, which
|
||
are point-to-point devices which can only handle IPv4 and/or IPv6
|
||
packets, and `tap' style, which are Ethernet devices and handle
|
||
complete Ethernet frames.
|
||
|
||
So when tinc reads an Ethernet frame from the device, it determines
|
||
its type. When tinc is in it's default routing mode, it can handle IPv4
|
||
and IPv6 packets. Depending on the Subnet lines, it will send the
|
||
packets off to their destination IP address. In the `switch' and `hub'
|
||
mode, tinc will use broadcasts and MAC address discovery to deduce the
|
||
destination of the packets. Since the latter modes only depend on the
|
||
link layer information, any protocol that runs over Ethernet is
|
||
supported (for instance IPX and Appletalk). However, only `tap' style
|
||
devices provide this information.
|
||
|
||
After the destination has been determined, the packet will be
|
||
compressed (optionally), a sequence number will be added to the packet,
|
||
the packet will then be encrypted and a message authentication code
|
||
will be appended.
|
||
|
||
When that is done, time has come to actually transport the packet to
|
||
the destination computer. We do this by sending the packet over an UDP
|
||
connection to the destination host. This is called _encapsulating_,
|
||
the VPN packet (though now encrypted) is encapsulated in another IP
|
||
datagram.
|
||
|
||
When the destination receives this packet, the same thing happens,
|
||
only in reverse. So it checks the message authentication code,
|
||
decrypts the contents of the UDP datagram, checks the sequence number
|
||
and writes the decrypted information to its own virtual network device.
|
||
|
||
If the virtual network device is a `tun' device (a point-to-point
|
||
tunnel), there is no problem for the kernel to accept a packet.
|
||
However, if it is a `tap' device (this is the only available type on
|
||
FreeBSD), the destination MAC address must match that of the virtual
|
||
network interface. If tinc is in it's default routing mode, ARP does
|
||
not work, so the correct destination MAC can not be known by the
|
||
sending host. Tinc solves this by letting the receiving end detect the
|
||
MAC address of its own virtual network interface and overwriting the
|
||
destination MAC address of the received packet.
|
||
|
||
In switch or hub modes ARP does work so the sender already knows the
|
||
correct destination MAC address. In those modes every interface should
|
||
have a unique MAC address, so make sure they are not the same. Because
|
||
switch and hub modes rely on MAC addresses to function correctly, these
|
||
modes cannot be used on the following operating systems which don't
|
||
have a `tap' style virtual network device: OpenBSD, NetBSD, Darwin and
|
||
Solaris.
|
||
|
||
|
||
File: tinc.info, Node: The meta-connection, Prev: The UDP tunnel, Up: The connection
|
||
|
||
7.1.2 The meta-connection
|
||
-------------------------
|
||
|
||
Having only a UDP connection available is not enough. Though suitable
|
||
for transmitting data, we want to be able to reliably send other
|
||
information, such as routing and session key information to somebody.
|
||
|
||
TCP is a better alternative, because it already contains protection
|
||
against information being lost, unlike UDP.
|
||
|
||
So we establish two connections. One for the encrypted VPN data,
|
||
and one for other information, the meta-data. Hence, we call the second
|
||
connection the meta-connection. We can now be sure that the
|
||
meta-information doesn't get lost on the way to another computer.
|
||
|
||
Like with any communication, we must have a protocol, so that
|
||
everybody knows what everything stands for, and how she should react.
|
||
Because we have two connections, we also have two protocols. The
|
||
protocol used for the UDP data is the "data-protocol," the other one is
|
||
the "meta-protocol."
|
||
|
||
The reason we don't use TCP for both protocols is that UDP is much
|
||
better for encapsulation, even while it is less reliable. The real
|
||
problem is that when TCP would be used to encapsulate a TCP stream
|
||
that's on the private network, for every packet sent there would be
|
||
three ACKs sent instead of just one. Furthermore, if there would be a
|
||
timeout, both TCP streams would sense the timeout, and both would start
|
||
re-sending packets.
|
||
|
||
|
||
File: tinc.info, Node: The meta-protocol, Next: Security, Prev: The connection, Up: Technical information
|
||
|
||
7.2 The meta-protocol
|
||
=====================
|
||
|
||
The meta protocol is used to tie all tinc daemons together, and
|
||
exchange information about which tinc daemon serves which virtual
|
||
subnet.
|
||
|
||
The meta protocol consists of requests that can be sent to the other
|
||
side. Each request has a unique number and several parameters. All
|
||
requests are represented in the standard ASCII character set. It is
|
||
possible to use tools such as telnet or netcat to connect to a tinc
|
||
daemon started with the -bypass-security option and to read and write
|
||
requests by hand, provided that one understands the numeric codes sent.
|
||
|
||
The authentication scheme is described in *note Authentication
|
||
protocol::. After a successful authentication, the server and the
|
||
client will exchange all the information about other tinc daemons and
|
||
subnets they know of, so that both sides (and all the other tinc
|
||
daemons behind them) have their information synchronised.
|
||
|
||
message
|
||
------------------------------------------------------------------
|
||
ADD_EDGE node1 node2 21.32.43.54 655 222 0
|
||
| | | | | +-> options
|
||
| | | | +----> weight
|
||
| | | +--------> UDP port of node2
|
||
| | +----------------> real address of node2
|
||
| +-------------------------> name of destination node
|
||
+-------------------------------> name of source node
|
||
|
||
ADD_SUBNET node 192.168.1.0/24
|
||
| | +--> prefixlength
|
||
| +--------> network address
|
||
+------------------> owner of this subnet
|
||
------------------------------------------------------------------
|
||
|
||
The ADD_EDGE messages are to inform other tinc daemons that a
|
||
connection between two nodes exist. The address of the destination node
|
||
is available so that VPN packets can be sent directly to that node.
|
||
|
||
The ADD_SUBNET messages inform other tinc daemons that certain
|
||
subnets belong to certain nodes. tinc will use it to determine to which
|
||
node a VPN packet has to be sent.
|
||
|
||
message
|
||
------------------------------------------------------------------
|
||
DEL_EDGE node1 node2
|
||
| +----> name of destination node
|
||
+----------> name of source node
|
||
|
||
DEL_SUBNET node 192.168.1.0/24
|
||
| | +--> prefixlength
|
||
| +--------> network address
|
||
+------------------> owner of this subnet
|
||
------------------------------------------------------------------
|
||
|
||
In case a connection between two daemons is closed or broken,
|
||
DEL_EDGE messages are sent to inform the other daemons of that fact.
|
||
Each daemon will calculate a new route to the the daemons, or mark them
|
||
unreachable if there isn't any.
|
||
|
||
message
|
||
------------------------------------------------------------------
|
||
REQ_KEY origin destination
|
||
| +--> name of the tinc daemon it wants the key from
|
||
+----------> name of the daemon that wants the key
|
||
|
||
ANS_KEY origin destination 4ae0b0a82d6e0078 91 64 4
|
||
| | \______________/ | | +--> MAC length
|
||
| | | | +-----> digest algorithm
|
||
| | | +--------> cipher algorithm
|
||
| | +--> 128 bits key
|
||
| +--> name of the daemon that wants the key
|
||
+----------> name of the daemon that uses this key
|
||
|
||
KEY_CHANGED origin
|
||
+--> daemon that has changed it's packet key
|
||
------------------------------------------------------------------
|
||
|
||
The keys used to encrypt VPN packets are not sent out directly. This
|
||
is because it would generate a lot of traffic on VPNs with many
|
||
daemons, and chances are that not every tinc daemon will ever send a
|
||
packet to every other daemon. Instead, if a daemon needs a key it sends
|
||
a request for it via the meta connection of the nearest hop in the
|
||
direction of the destination.
|
||
|
||
daemon message
|
||
------------------------------------------------------------------
|
||
origin PING
|
||
dest. PONG
|
||
------------------------------------------------------------------
|
||
|
||
There is also a mechanism to check if hosts are still alive. Since
|
||
network failures or a crash can cause a daemon to be killed without
|
||
properly shutting down the TCP connection, this is necessary to keep an
|
||
up to date connection list. PINGs are sent at regular intervals, except
|
||
when there is also some other traffic. A little bit of salt (random
|
||
data) is added with each PING and PONG message, to make sure that long
|
||
sequences of PING/PONG messages without any other traffic won't result
|
||
in known plaintext.
|
||
|
||
This basically covers what is sent over the meta connection by tinc.
|
||
|
||
|
||
File: tinc.info, Node: Security, Prev: The meta-protocol, Up: Technical information
|
||
|
||
7.3 Security
|
||
============
|
||
|
||
Tinc got its name from "TINC," short for _There Is No Cabal_; the
|
||
alleged Cabal was/is an organisation that was said to keep an eye on the
|
||
entire Internet. As this is exactly what you _don't_ want, we named
|
||
the tinc project after TINC.
|
||
|
||
But in order to be "immune" to eavesdropping, you'll have to encrypt
|
||
your data. Because tinc is a _Secure_ VPN (SVPN) daemon, it does
|
||
exactly that: encrypt. Tinc by default uses blowfish encryption with
|
||
128 bit keys in CBC mode, 32 bit sequence numbers and 4 byte long
|
||
message authentication codes to make sure eavesdroppers cannot get and
|
||
cannot change any information at all from the 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.
|
||
|
||
* Menu:
|
||
|
||
* Authentication protocol::
|
||
* Encryption of network packets::
|
||
* Security issues::
|
||
|
||
|
||
File: tinc.info, Node: Authentication protocol, Next: Encryption of network packets, Up: Security
|
||
|
||
7.3.1 Authentication protocol
|
||
-----------------------------
|
||
|
||
A new scheme for authentication in tinc has been devised, which offers
|
||
some improvements over the protocol used in 1.0pre2 and 1.0pre3.
|
||
Explanation is below.
|
||
|
||
daemon message
|
||
--------------------------------------------------------------------------
|
||
client <attempts connection>
|
||
|
||
server <accepts connection>
|
||
|
||
client ID client 12
|
||
| +---> version
|
||
+-------> name of tinc daemon
|
||
|
||
server ID server 12
|
||
| +---> version
|
||
+-------> name of tinc daemon
|
||
|
||
client META_KEY 5f0823a93e35b69e...7086ec7866ce582b
|
||
\_________________________________/
|
||
+-> RSAKEYLEN bits totally random string S1,
|
||
encrypted with server's public RSA key
|
||
|
||
server META_KEY 6ab9c1640388f8f0...45d1a07f8a672630
|
||
\_________________________________/
|
||
+-> RSAKEYLEN bits totally random string S2,
|
||
encrypted with client's public RSA key
|
||
|
||
From now on:
|
||
- the client will symmetrically encrypt outgoing traffic using S1
|
||
- the server will symmetrically encrypt outgoing traffic using S2
|
||
|
||
client CHALLENGE da02add1817c1920989ba6ae2a49cecbda0
|
||
\_________________________________/
|
||
+-> CHALLEN bits totally random string H1
|
||
|
||
server CHALLENGE 57fb4b2ccd70d6bb35a64c142f47e61d57f
|
||
\_________________________________/
|
||
+-> CHALLEN bits totally random string H2
|
||
|
||
client CHAL_REPLY 816a86
|
||
+-> 160 bits SHA1 of H2
|
||
|
||
server CHAL_REPLY 928ffe
|
||
+-> 160 bits SHA1 of H1
|
||
|
||
After the correct challenge replies are received, both ends have proved
|
||
their identity. Further information is exchanged.
|
||
|
||
client ACK 655 123 0
|
||
| | +-> options
|
||
| +----> estimated weight
|
||
+--------> listening port of client
|
||
|
||
server ACK 655 321 0
|
||
| | +-> options
|
||
| +----> estimated weight
|
||
+--------> listening port of server
|
||
--------------------------------------------------------------------------
|
||
|
||
This new scheme has several improvements, both in efficiency and
|
||
security.
|
||
|
||
First of all, the server sends exactly the same kind of messages
|
||
over the wire as the client. The previous versions of tinc first
|
||
authenticated the client, and then the server. This scheme even allows
|
||
both sides to send their messages simultaneously, there is no need to
|
||
wait for the other to send something first. This means that any
|
||
calculations that need to be done upon sending or receiving a message
|
||
can also be done in parallel. This is especially important when doing
|
||
RSA encryption/decryption. Given that these calculations are the main
|
||
part of the CPU time spent for the authentication, speed is improved by
|
||
a factor 2.
|
||
|
||
Second, only one RSA encrypted message is sent instead of two. This
|
||
reduces the amount of information attackers can see (and thus use for a
|
||
cryptographic attack). It also improves speed by a factor two, making
|
||
the total speedup a factor 4.
|
||
|
||
Third, and most important: The symmetric cipher keys are exchanged
|
||
first, the challenge is done afterwards. In the previous authentication
|
||
scheme, because a man-in-the-middle could pass the challenge/chal_reply
|
||
phase (by just copying the messages between the two real tinc daemons),
|
||
but no information was exchanged that was really needed to read the
|
||
rest of the messages, the challenge/chal_reply phase was of no real
|
||
use. The man-in-the-middle was only stopped by the fact that only after
|
||
the ACK messages were encrypted with the symmetric cipher. Potentially,
|
||
it could even send it's own symmetric key to the server (if it knew the
|
||
server's public key) and read some of the metadata the server would
|
||
send it (it was impossible for the mitm to read actual network packets
|
||
though). The new scheme however prevents this.
|
||
|
||
This new scheme makes sure that first of all, symmetric keys are
|
||
exchanged. The rest of the messages are then encrypted with the
|
||
symmetric cipher. Then, each side can only read received messages if
|
||
they have their private key. The challenge is there to let the other
|
||
side know that the private key is really known, because a challenge
|
||
reply can only be sent back if the challenge is decrypted correctly,
|
||
and that can only be done with knowledge of the private key.
|
||
|
||
Fourth: the first thing that is sent via the symmetric cipher
|
||
encrypted connection is a totally random string, so that there is no
|
||
known plaintext (for an attacker) in the beginning of the encrypted
|
||
stream.
|
||
|
||
|
||
File: tinc.info, Node: Encryption of network packets, Next: Security issues, Prev: Authentication protocol, Up: Security
|
||
|
||
7.3.2 Encryption of network packets
|
||
-----------------------------------
|
||
|
||
A data packet can only be sent if the encryption key is known to both
|
||
parties, and the connection is activated. If the encryption key is not
|
||
known, a request is sent to the destination using the meta connection
|
||
to retrieve it. The packet is stored in a queue while waiting for the
|
||
key to arrive.
|
||
|
||
The UDP packet containing the network packet from the VPN has the
|
||
following layout:
|
||
|
||
... | IP header | UDP header | seqno | VPN packet | MAC | UDP trailer
|
||
\___________________/\_____/
|
||
| |
|
||
V +---> digest algorithm
|
||
Encrypted with symmetric cipher
|
||
|
||
So, the entire VPN packet is encrypted using a symmetric cipher,
|
||
including a 32 bits sequence number that is added in front of the
|
||
actual VPN packet, to act as a unique IV for each packet and to prevent
|
||
replay attacks. A message authentication code is added to the UDP
|
||
packet to prevent alteration of packets. By default the first 4 bytes
|
||
of the digest are used for this, but this can be changed using the
|
||
MACLength configuration variable.
|
||
|
||
|
||
File: tinc.info, Node: Security issues, Prev: Encryption of network packets, Up: Security
|
||
|
||
7.3.3 Security issues
|
||
---------------------
|
||
|
||
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 uses strong authentication with
|
||
RSA keys.
|
||
|
||
On the 29th of December 2001, Jerome Etienne posted a security
|
||
analysis of tinc 1.0pre4. Due to a lack of sequence numbers and a
|
||
message authentication code for each packet, an attacker could possibly
|
||
disrupt certain network services or launch a denial of service attack
|
||
by replaying intercepted packets. The current version adds sequence
|
||
numbers and message authentication codes to prevent such attacks.
|
||
|
||
On the 15th of September 2003, Peter Gutmann posted a security
|
||
analysis of tinc 1.0.1. He argues that the 32 bit sequence number used
|
||
by tinc is not a good IV, that tinc's default length of 4 bytes for the
|
||
MAC is too short, and he doesn't like tinc's use of RSA during
|
||
authentication. We do not know of a security hole in this version of
|
||
tinc, but tinc's security is not as strong as TLS or IPsec. We will
|
||
address these issues in tinc 2.0.
|
||
|
||
Cryptography is a hard thing to get right. We cannot make any
|
||
guarantees. Time, review and feedback are the only things that can
|
||
prove the security of any cryptographic product. If you wish to review
|
||
tinc or give us feedback, you are stronly encouraged to do so.
|
||
|
||
|
||
File: tinc.info, Node: Platform specific information, Next: About us, Prev: Technical information, Up: Top
|
||
|
||
8 Platform specific information
|
||
*******************************
|
||
|
||
* Menu:
|
||
|
||
* Interface configuration::
|
||
* Routes::
|
||
|
||
|
||
File: tinc.info, Node: Interface configuration, Next: Routes, Up: Platform specific information
|
||
|
||
8.1 Interface configuration
|
||
===========================
|
||
|
||
When configuring an interface, one normally assigns it an address and a
|
||
netmask. The address uniquely identifies the host on the network
|
||
attached to the interface. The netmask, combined with the address,
|
||
forms a subnet. It is used to add a route to the routing table
|
||
instructing the kernel to send all packets which fall into that subnet
|
||
to that interface. Because all packets for the entire VPN should go to
|
||
the virtual network interface used by tinc, the netmask should be such
|
||
that it encompasses the entire VPN.
|
||
|
||
For IPv4 addresses:
|
||
|
||
Linux `ifconfig' INTERFACE ADDRESS `netmask' NETMASK
|
||
Linux iproute2 `ip addr add' ADDRESS`/'PREFIXLENGTH `dev' INTERFACE
|
||
FreeBSD `ifconfig' INTERFACE ADDRESS `netmask' NETMASK
|
||
OpenBSD `ifconfig' INTERFACE ADDRESS `netmask' NETMASK
|
||
NetBSD `ifconfig' INTERFACE ADDRESS `netmask' NETMASK
|
||
Solaris `ifconfig' INTERFACE ADDRESS `netmask' NETMASK
|
||
Darwin (MacOS/X) `ifconfig' INTERFACE ADDRESS `netmask' NETMASK
|
||
Windows `netsh interface ip set address' INTERFACE `static' ADDRESS NETMASK
|
||
|
||
For IPv6 addresses:
|
||
|
||
Linux `ifconfig' INTERFACE `add' ADDRESS`/'PREFIXLENGTH
|
||
FreeBSD `ifconfig' INTERFACE `inet6' ADDRESS `prefixlen' PREFIXLENGTH
|
||
OpenBSD `ifconfig' INTERFACE `inet6' ADDRESS `prefixlen' PREFIXLENGTH
|
||
NetBSD `ifconfig' INTERFACE `inet6' ADDRESS `prefixlen' PREFIXLENGTH
|
||
Solaris `ifconfig' INTERFACE `inet6 plumb up'
|
||
`ifconfig' INTERFACE `inet6 addif' ADDRESS ADDRESS
|
||
Darwin (MacOS/X) `ifconfig' INTERFACE `inet6' ADDRESS `prefixlen' PREFIXLENGTH
|
||
Windows `netsh interface ipv6 add address' INTERFACE `static' ADDRESS/PREFIXLENGTH
|
||
|
||
|
||
File: tinc.info, Node: Routes, Prev: Interface configuration, Up: Platform specific information
|
||
|
||
8.2 Routes
|
||
==========
|
||
|
||
In some cases it might be necessary to add more routes to the virtual
|
||
network interface. There are two ways to indicate which interface a
|
||
packet should go to, one is to use the name of the interface itself,
|
||
another way is to specify the (local) address that is assigned to that
|
||
interface (LOCAL_ADDRESS). The former way is unambiguous and therefore
|
||
preferable, but not all platforms support this.
|
||
|
||
Adding routes to IPv4 subnets:
|
||
|
||
Linux `route add -net' NETWORK_ADDRESS `netmask' NETMASK INTERFACE
|
||
Linux iproute2 `ip route add' NETWORK_ADDRESS`/'PREFIXLENGTH `dev' INTERFACE
|
||
FreeBSD `route add' NETWORK_ADDRESS`/'PREFIXLENGTH LOCAL_ADDRESS
|
||
OpenBSD `route add' NETWORK_ADDRESS`/'PREFIXLENGTH LOCAL_ADDRESS
|
||
NetBSD `route add' NETWORK_ADDRESS`/'PREFIXLENGTH LOCAL_ADDRESS
|
||
Solaris `route add' NETWORK_ADDRESS`/'PREFIXLENGTH LOCAL_ADDRESS `-interface'
|
||
Darwin (MacOS/X) `route add' NETWORK_ADDRESS`/'PREFIXLENGTH LOCAL_ADDRESS
|
||
Windows `netsh routing ip add persistentroute' NETWORK_ADDRESS NETMASK INTERFACE
|
||
LOCAL_ADDRESS
|
||
|
||
Adding routes to IPv6 subnets:
|
||
|
||
Linux `route add -A inet6' NETWORK_ADDRESS`/'PREFIXLENGTH INTERFACE
|
||
Linux iproute2 `ip route add' NETWORK_ADDRESS`/'PREFIXLENGTH `dev' INTERFACE
|
||
FreeBSD `route add -inet6' NETWORK_ADDRESS`/'PREFIXLENGTH LOCAL_ADDRESS
|
||
OpenBSD `route add -inet6' NETWORK_ADDRESS LOCAL_ADDRESS `-prefixlen' PREFIXLENGTH
|
||
NetBSD `route add -inet6' NETWORK_ADDRESS LOCAL_ADDRESS `-prefixlen' PREFIXLENGTH
|
||
Solaris `route add -inet6' NETWORK_ADDRESS`/'PREFIXLENGTH LOCAL_ADDRESS `-interface'
|
||
Darwin (MacOS/X) ?
|
||
Windows `netsh interface ipv6 add route' NETWORK ADDRESS/PREFIXLENGTH INTERFACE
|
||
|
||
|
||
File: tinc.info, Node: About us, Next: Concept Index, Prev: Platform specific information, Up: Top
|
||
|
||
9 About us
|
||
**********
|
||
|
||
* Menu:
|
||
|
||
* Contact information::
|
||
* Authors::
|
||
|
||
|
||
File: tinc.info, Node: Contact information, Next: Authors, Up: About us
|
||
|
||
9.1 Contact information
|
||
=======================
|
||
|
||
Tinc's website is at `http://www.tinc-vpn.org/', this server is located
|
||
in the Netherlands.
|
||
|
||
We have an IRC channel on the FreeNode and OFTC IRC networks.
|
||
Connect to irc.freenode.net (http://www.freenode.net/) or irc.oftc.net
|
||
(http://www.oftc.net/) and join channel #tinc.
|
||
|
||
|
||
File: tinc.info, Node: Authors, Prev: Contact information, Up: About us
|
||
|
||
9.2 Authors
|
||
===========
|
||
|
||
Ivo Timmermans (zarq)
|
||
|
||
Guus Sliepen (guus) (<guus@tinc-vpn.org>)
|
||
|
||
We have received a lot of valuable input from users. With their
|
||
help, tinc has become the flexible and robust tool that it is today.
|
||
We have composed a list of contributions, in the file called `THANKS' in
|
||
the source distribution.
|
||
|
||
|
||
File: tinc.info, Node: Concept Index, Prev: About us, Up: Top
|
||
|
||
Concept Index
|
||
*************
|
||
|
||
|