# Chihaya [![Build Status](https://api.travis-ci.org/chihaya/chihaya.svg?branch=master)](https://travis-ci.org/chihaya/chihaya) Chihaya is a high-performance [BitTorrent tracker] written in the Go programming language. It is still heavily under development and the current `master` branch should probably not be used in production (unless you know what you're doing). Features include: - Public tracker feature-set with full compatibility with what exists of the BitTorrent spec - Private tracker feature-set with compatibility for a [Gazelle]-like deployment (WIP) - Low resource consumption, and fast, asynchronous request processing - Full IPv6 support, including handling for dual-stacked peers - Extensive metrics for visibility into the tracker and swarm's performance - Ability to prioritize peers in local subnets to reduce backbone contention - Pluggable backend driver that can coordinate with an external database [BitTorrent tracker]: http://en.wikipedia.org/wiki/BitTorrent_tracker [gazelle]: https://github.com/whatcd/gazelle ## When would I use Chihaya? Chihaya is a meant for every kind of BitTorrent tracker deployment. Chihaya has been used to replace instances of [opentracker] and also instances of [ocelot]. Chihaya handles torrent announces and scrapes in memory, but using a backend driver, can also asynchronously provide deltas to maintain a set of persistent data without throttling a database (this most useful for private tracker use-cases). [opentracker]: http://erdgeist.org/arts/software/opentracker [ocelot]: https://github.com/WhatCD/Ocelot ## Building & Installing Chihaya requires Go 1.4, [Godep], and a [Go environment] previously setup. [Godep]: https://github.com/tools/godep [Go environment]: https://golang.org/doc/code.html ```sh $ export GOPATH=$PWD/chihaya $ git clone github.com/chihaya/chihaya chihaya/src/github.com/chihaya/chihaya $ godep go install chihaya/src/github.com/chihaya/cmd/chihaya ``` ### Testing Chihaya has end-to-end test coverage for announces in addition to unit tests for isolated components. To run the tests, use: ```sh $ cd $GOPATH/src/github.com/chihaya/chihaya $ godep go test -v ./... ``` There is also a set of benchmarks for performance-critical sections of Chihaya. These can be run similarly: ```sh $ cd $GOPATH/src/github.com/chihaya/chihaya $ godep go test -v ./... -bench . ``` ## Configuration Copy [`example_config.json`](https://github.com/chihaya/chihaya/blob/master/example_config.json) to your choice of location, and update the values as required. The available keys and their default values are as follows: - `private_enabled: false` – if this is a private tracker - `freeleech_enabled: false` – for private trackers, whether download stats should be counted for users - `purge_inactive_torrents: true` – if torrents should be forgotten after some time - `announce: "30m"` – the announce "interval" value sent to clients - `min_announce: "15m"` – the announce "min_interval" value sent to clients - `default_num_want: 50` – the default number of peers to return if the client has not specified - `torrent_map_shards: 1` – number of torrent maps to use (leave this at 1 in general) - `allow_ip_spoofing: true` – if peers are allowed to set their own IP, this must be enabled for dual-stack IP support - `dual_stacked_peers: true` – if peers may have both an IPv4 and IPv6 address, otherwise only one IP per peer will be used - `real_ip_header: ""` – optionally an HTTP header where the upstream IP is stored, for example `X-Forwarded-For` or `X-Real-IP` - `respect_af: false` – if responses should only include peers of the same address family as the announcing peer - `client_whitelist_enabled: false` – if peer IDs should be matched against the whitelist - `client_whitelist: []` – list of peer ID prefixes to allow - `http_listen_addr: ""` – listen address for the HTTP server - `http_request_timeout: "10s"` - `http_read_timeout: "10s"` - `http_write_timeout: "10s"` - `http_listen_limit: 0` - `udp_listen_addr: ""` – listen address for the UDP server - `udp_read_buffer_size: undefined` – size of the UDP socket's kernel read buffer - `driver: "noop"` - `stats_buffer_size: 0` - `include_mem_stats: true` - `verbose_mem_stats: false` - `mem_stats_interval: "5s"`