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138 lines
9.1 KiB
Markdown
138 lines
9.1 KiB
Markdown
# Yggdrasil
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[![Build Status](https://api.travis-ci.org/yggdrasil-network/yggdrasil-go.svg?branch=master)](https://travis-ci.org/yggdrasil-network/yggdrasil-go)
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## What is it?
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This is a toy implementation of an encrypted IPv6 network, with many good ideas stolen from [cjdns](https://github.com/cjdelisle/cjdns), which was written to test a particular routing scheme that I cobbled together one random Wednesday afternoon.
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It's notably not a shortest path routing scheme, with the goal of scalable name-independent routing on dynamic networks with an internet-like topology.
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It's named Yggdrasil after the world tree from Norse mythology, because that seemed like the obvious name given how it works.
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For a longer, rambling version of this readme with more information, see: [doc](doc/README.md).
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A very early incomplete draft of a [whitepaper](doc/Whitepaper.md) describing the protocol is also available.
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This is a toy / proof-of-principle, so it's not even alpha quality software--any nontrivial update is likely to break backwards compatibility with no possibility for a clean upgrade path.
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You're encouraged to play with it, but I strongly advise against using it for anything mission critical.
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## Building
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1. Install Go (tested on 1.9, I use [godeb](https://github.com/niemeyer/godeb)).
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2. Clone this repository.
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2. `./build`
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Note that you can cross-compile for other platforms and architectures by specifying the `$GOOS` and `$GOARCH` environment variables, for example, `GOOS=windows ./build` or `GOOS=linux GOARCH=mipsle ./build`.
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The build script sets its own `$GOPATH`, so the build environment is self-contained.
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## Running
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To run the program, you'll need permission to create a `tun` device and configure it using `ip`.
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If you don't want to mess with capabilities for the `tun` device, then using `sudo` should work, with the usual security caveats about running a program as root.
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To run with default settings:
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1. `./yggdrasil --autoconf`
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That will generate a new set of keys (and an IP address) each time the program is run.
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The program will bind to all addresses on a random port and listen for incoming connections.
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It will send announcements over IPv6 link-local multicast, and it will attempt to start a connection if it hears an announcement from another device.
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In practice, you probably want to run this instead:
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1. `./yggdrasil --genconf > conf.json`
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2. `./yggdrasil --useconf < conf.json`
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This keeps a persistent set of keys (and by extension, IP address) and gives you the option of editing the configuration file.
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If you want to use it as an overlay network on top of e.g. the internet, then you can do so by adding the remote devices domain/address and port (as a string, e.g. `"1.2.3.4:5678"`) to the list of `Peers` in the configuration file.
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You can control whether or not it peers over TCP or UDP by adding `tcp:` or `udp:` to the start of the string, i.e. `"udp:1.2.3.4:5678"`.
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It is currently configured to accept incoming TCP and UDP connections.
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In the interest of testing the TCP machinery, it's set to create TCP connections for auto-peering (over link-local IPv6), and to use TCP by default if no transport is specified for a manually configured peer.
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### Platforms
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#### Linux
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- Should work out of the box on most Linux distributions with `iproute2` installed.
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- systemd service scripts are included in the `contrib/systemd/` folder so that it runs automatically in the background (using `/etc/yggdrasil.conf` for configuration), copy the service files into `/etc/systemd/system`, copy `yggdrasil` into your `$PATH`, i.e. `/usr/bin`, and then enable the service:
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```
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systemctl enable yggdrasil
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systemctl start yggdrasil
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```
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- Once installed as a systemd service, you can read the `yggdrasil` output:
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```
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systemctl status yggdrasil
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journalctl -u yggdrasil
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```
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#### macOS
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- Tested and working out of the box on macOS 10.13 High Sierra.
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- May work in theory on any macOS version with `utun` support (which was added in macOS 10.7 Lion), although this is untested at present.
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#### Windows
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- Tested and working on Windows 7 and Windows 10, and should work on any recent versions of Windows, but it depends on the [OpenVPN TAP driver](https://openvpn.net/index.php/open-source/downloads.html) being installed first.
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- Has been proven to work with both the [NDIS 5](https://swupdate.openvpn.org/community/releases/tap-windows-9.9.2_3.exe) (`tap-windows-9.9.2_3`) driver and the [NDIS 6](https://swupdate.openvpn.org/community/releases/tap-windows-9.21.2.exe) (`tap-windows-9.21.2`) driver, however there are substantial performance issues with the NDIS 6 driver therefore it is recommended to use the NDIS 5 driver instead.
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- Be aware that connectivity issues can occur on Windows if multiple IPv6 addresses from the `fd00::/8` prefix are assigned to the TAP interface. If this happens, then you may need to manually remove the old/unused addresses from the interface (though the code has a workaround in place to do this automatically in some cases).
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- Yggdrasil can be installed as a Windows service so that it runs automatically in the background. From an Administrator Command Prompt:
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```
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sc create yggdrasil binpath= "\"C:\path\to\yggdrasil.exe\" -useconffile \"C:\path\to\yggdrasil.conf\""
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sc config yggdrasil displayname= "Yggdrasil Service"
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sc config yggdrasil start= "auto"
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sc start yggdrasil
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```
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- Alternatively, if you want the service to autoconfigure instead of using an `yggdrasil.conf`, replace the `sc create` line from above with:
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```
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sc create yggdrasil binpath= "\"C:\path\to\yggdrasil.exe\" -autoconf"
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```
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#### EdgeRouter
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- Tested and working on the EdgeRouter X, using the [vyatta-yggdrasil](https://github.com/neilalexander/vyatta-yggdrasil) wrapper package.
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## Optional: advertise a prefix locally
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Suppose a node has generated the address: `fd00:1111:2222:3333:4444:5555:6666:7777`
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Then the node may also use addresses from the prefix: `fd80:1111:2222:3333::/64` (note the `fd00` changed to `fd80`, a separate `/9` is used for prefixes, but the rest of the first 64 bits are the same).
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To advertise this prefix and a route to `fd00::/8`, the following seems to work for me:
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1. Enable IPv6 forwarding (e.g. `sysctl -w net.ipv6.conf.all.forwarding=1` or add it to sysctl.conf).
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2. `ip addr add fd80:1111:2222:3333::1/64 dev eth0` or similar, to assign an address for the router to use in that prefix, where the LAN is reachable through `eth0`.
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3. Install/run `radvd` with something like the following in `/etc/radvd.conf`:
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```
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interface eth0
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{
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AdvSendAdvert on;
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prefix fd80:1111:2222:3333::/64 {
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AdvOnLink on;
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AdvAutonomous on;
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};
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route fd00::/8 {};
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};
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```
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This is enough to give unsupported devices on my LAN access to the network, with a few security and performance cautions outlined in the [doc](doc/README.md) file.
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## How does it work?
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I'd rather not try to explain in the readme, but I describe it further in the [doc](doc/README.md) file or the very draft of a [whitepaper](doc/Whitepaper.md), so you can check there if you're interested.
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Be warned that it's still not a very good explanation, but it at least gives a high-level overview and links to some relevant work by other people.
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## Obligatory performance propaganda
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A [simplified model](misc/sim/treesim-forward.py) of this routing scheme has been tested in simulation on the 9204-node [skitter](https://www.caida.org/tools/measurement/skitter/) network topology dataset from [caida](https://www.caida.org/), and compared with results in [arxiv:0708.2309](https://arxiv.org/abs/0708.2309).
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Using the routing scheme as implemented in this code, I observe an average multiplicative stretch of 1.08, with an average routing table size of 6 for a name-dependent scheme, and approximately 30 additional (but smaller) entries needed for the name-independent routing table.
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The number of name-dependent routing table entries needed is proportional to node degree, so that 6 is the mean of a distribution with a long tail, but I believe this is an acceptable tradeoff.
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The size of name-dependent routing table entries is relatively large, due to cryptographic signatures associated with routing table updates, but in the absence of cryptographic overhead I believe each entry is otherwise comparable to the BC routing scheme described in the above paper.
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A modified version of this scheme, with the same resource requirements, achieves a multiplicative stretch of 1.02, which drops to 1.01 if source routing is used.
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Both of these optimizations are not present in the current implementation, as the former depends on network state information that I haven't found a way to cryptographically secure, and the latter optimization is both tedious to implement and would make debugging other aspects of the implementation more difficult.
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## License
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This code is released under the terms of the LGPLv3, but with an added exception that was shamelessly taken from [godeb](https://github.com/niemeyer/godeb).
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Under certain circumstances, this exception permits distribution of binaries that are (statically or dynamically) linked with this code, without requiring the distribution of Minimal Corresponding Source or Minimal Application Code.
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For more details, see: [LICENSE](LICENSE).
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