3d35bd9bd4
There was a problem with aquatic_http with clients announcing less often than requested interval and getting purged, making file transfers less reliable |
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|---|---|---|
| .github/workflows | ||
| aquatic | ||
| aquatic_cli_helpers | ||
| aquatic_common | ||
| aquatic_http | ||
| aquatic_http_load_test | ||
| aquatic_http_protocol | ||
| aquatic_udp | ||
| aquatic_udp_bench | ||
| aquatic_udp_load_test | ||
| aquatic_udp_protocol | ||
| aquatic_ws | ||
| aquatic_ws_load_test | ||
| aquatic_ws_protocol | ||
| documents | ||
| scripts | ||
| .gitignore | ||
| Cargo.lock | ||
| Cargo.toml | ||
| deny.toml | ||
| LICENSE | ||
| README.md | ||
| TODO.md | ||
aquatic
Blazingly fast, multi-threaded BitTorrent tracker written in Rust.
Consists of three sub-implementations for different protocols:
aquatic_udp: BitTorrent over UDP. Implementation achieves double the throughput of opentracker (see benchmarks below)aquatic_http: BitTorrent over HTTP/TLS (experimental)aquatic_ws: WebTorrent (experimental)
Copyright and license
Copyright (c) 2020 Joakim Frostegård
Distributed under Apache 2.0 license (details in LICENSE file.)
Technical overview of tracker design
One or more socket workers open sockets, read and parse requests from peers and send them through channels to request workers. They in turn go through the requests, update internal state as appropriate and generate responses, which are sent back to the socket workers, which serialize them and send them to peers. This design means little waiting for locks on internal state occurs, while network work can be efficiently distributed over multiple threads, making use of SO_REUSEPORT setting.
Installation prerequisites
- Install Rust with rustup (stable is recommended)
- Install cmake with your package manager (e.g.,
apt-get install cmake) - On GNU/Linux, also install the OpenSSL components necessary for dynamic
linking (e.g.,
apt-get install libssl-dev) - Clone the git repository and refer to the next section.
Compile and run
To compile the master executable for all protocols, run:
./scripts/build-aquatic.sh
To start the tracker for a protocol with default settings, run:
./target/release/aquatic udp
./target/release/aquatic http
./target/release/aquatic ws
To print default settings to standard output, pass the "-p" flag to the binary:
./target/release/aquatic udp -p
./target/release/aquatic http -p
./target/release/aquatic ws -p
Note that the configuration files differ between protocols.
To adjust the settings, save the output of the relevant previous command to a
file and make your changes. Then run aquatic with a "-c" argument pointing to
the file, e.g.:
./target/release/aquatic udp -c "/path/to/aquatic-udp-config.toml"
./target/release/aquatic http -c "/path/to/aquatic-http-config.toml"
./target/release/aquatic ws -c "/path/to/aquatic-ws-config.toml"
The configuration file values you will most likely want to adjust are
socket_workers (number of threads reading from and writing to sockets) and
address under the network section (listening address). This goes for all
three protocols.
Some documentation of the various options might be available under
src/lib/config.rs in crates aquatic_udp, aquatic_http, aquatic_ws.
Details on implementations
aquatic_udp: UDP BitTorrent tracker
Aims to implements the UDP BitTorrent protocol, except that it:
- Doesn't care about IP addresses sent in announce requests. The packet source IP is always used.
- Doesn't track of the number of torrent downloads (0 is always sent).
Supports IPv4 and IPv6 (BitTorrent UDP protocol doesn't support IPv6 very well, however.)
Benchmarks
Performance was compared to
opentracker using
aquatic_udp_load_test.
Server responses per second, best result in bold:
| workers | aquatic | opentracker |
|---|---|---|
| 1 | n/a | 177k |
| 2 | 168k | 98k |
| 3 | 187k | 118k |
| 4 | 216k | 127k |
| 6 | 309k | 109k |
| 8 | 408k | 96k |
See documents/aquatic-load-test-2020-04-19.pdf for details on benchmark, and
end of README for more information about load testing.
aquatic_ws: WebTorrent tracker
Aims for compatibility with WebTorrent
clients, including wss protocol support (WebSockets over TLS), with some
exceptions:
- Doesn't track of the number of torrent downloads (0 is always sent).
- Doesn't allow full scrapes, i.e. of all registered info hashes
aquatic_ws is not as well tested as aquatic_udp, but has been
successfully used as the tracker for a file transfer between two webtorrent
peers.
TLS
To run over TLS (wss protocol), a pkcs12 file (.pkx) is needed. It can be
generated from Let's Encrypt certificates as follows, assuming you are in the
directory where they are stored:
openssl pkcs12 -export -out identity.pfx -inkey privkey.pem -in cert.pem -certfile fullchain.pem
Enter a password when prompted. Then move identity.pfx somewhere suitable,
and enter the path into the tracker configuration field tls_pkcs12_path. Set
the password in the field tls_pkcs12_password and set use_tls to true.
aquatic_http: HTTP BitTorrent tracker
Aims for compatibility with the HTTP BitTorrent protocol, as described here, including TLS and scrape request support. There are some exceptions:
- Doesn't track of the number of torrent downloads (0 is always sent).
- Doesn't allow full scrapes, i.e. of all registered info hashes
aquatic_http is a work in progress and hasn't been tested very much yet. It
has however successfully been used as the (non-TLS) tracker for a BitTorrent
file transfer.
Please refer to the aquatic_ws section for information about setting up TLS.
Load testing
There are load test binaries for all protocols. They use a CLI structure
similar to aquatic and support generation and loading of configuration files.
To run, first start the tracker that you want to test. Then run the corresponding load test binary:
./scripts/run-load-test-udp.sh
./scripts/run-load-test-http.sh
./scripts/run-load-test-ws.sh
To fairly compare HTTP performance to opentracker, set keepalive to false in
aquatic_http settings.
Trivia
The tracker is called aquatic because it thrives under a torrent of bits ;-)