Rust implementation of dtn Bundle Protocol Version 7 (RFC 9171)
This library only handles encoding and decoding of bundles, not transmission or other processing of the data. A full daemon using this library can be found here: https://github.com/dtn7/dtn7-rs
Through the provided FFI interface, this library can also be used from C/C++, nodejs or flutter.
A simple benchmark is shipped with the library. It (de)serializes Bundles with a primary block, bundle age block and a payload block with the contents (b"ABC"
). This benchmark can be used to compare the rust implementation to the golang, python or java implementations.
cargo run --release --example benchmark
Finished release [optimized] target(s) in 0.29s
Running `target/release/examples/benchmark`
Creating 100000 bundles with CRC_NO: 510059 bundles/second
Creating 100000 bundles with CRC_16: 293399 bundles/second
Creating 100000 bundles with CRC_32: 291399 bundles/second
Encoding 100000 bundles with CRC_NO: 1090996 bundles/second
Encoding 100000 bundles with CRC_16: 436836 bundles/second
Encoding 100000 bundles with CRC_32: 432774 bundles/second
Loading 100000 bundles with CRC_NO: 564817 bundles/second
Loading 100000 bundles with CRC_16: 473768 bundles/second
Loading 100000 bundles with CRC_32: 462013 bundles/second
These numbers were generated on a MBP 13" 2018 with i5 CPU and 16GB of ram.
For debugging a small helper tool is shipped providing basic functionality such as:
- random bundle generation (as hex and raw bytes)
- encoding of standard bundles (as hex and raw bytes)
- decoding of bundles (from hex and raw bytes)
- exporting raw payload of decoded bundles
- time conversion helpers
Some examples are given in the following shell session:
$ cargo install bp7
[...]
$ bp7
usage "bp7" <cmd> [args]
encode <manifest> <payloadfile | - > [-x] - encode bundle and output raw bytes or hex string (-x)
decode <hexstring | - > [-p] - decode bundle or payload only (-p)
dtntime [dtntimestamp] - prints current time as dtntimestamp or prints dtntime human readable
d2u [dtntimestamp] - converts dtntime to unixstimestamp
rnd [-r] - return a random bundle either hexencoded or raw bytes (-r)
benchmark - run a simple benchmark encoding/decoding bundles
$ bp7 rnd
dtn://node81/files-680971330872-0
9f88071a000200040082016e2f2f6e6f646531382f7e74656c6582016e2f2f6e6f646538312f66696c657382016e2f2f6e6f646538312f66696c6573821b0000009e8d0de538001a0036ee80850a020000448218200085010100004443414243ff
$ bp7 decode 9f88071a000200040082016e2f2f6e6f646531382f7e74656c6582016e2f2f6e6f646538312f66696c657382016e2f2f6e6f646538312f66696c6573821b0000009e8d0de538001a0036ee80850a020000448218200085010100004443414243ff
[src/main.rs:101] &bndl = Bundle {
primary: PrimaryBlock {
version: 7,
bundle_control_flags: 131076,
crc: CrcNo,
destination: Dtn(
1,
DtnAddress(
"//node18/~tele",
),
),
source: Dtn(
1,
DtnAddress(
"//node81/files",
),
),
report_to: Dtn(
1,
DtnAddress(
"//node81/files",
),
),
creation_timestamp: CreationTimestamp(
680971330872,
0,
),
lifetime: 3600s,
fragmentation_offset: 0,
total_data_length: 0,
},
canonicals: [
CanonicalBlock {
block_type: 10,
block_number: 2,
block_control_flags: 0,
crc: CrcNo,
data: HopCount(
32,
0,
),
},
CanonicalBlock {
block_type: 1,
block_number: 1,
block_control_flags: 0,
crc: CrcNo,
data: Data(
[
65,
66,
67,
],
),
},
],
}
$ echo -e "source=dtn://node1/bla\ndestination=dtn://node2/incoming\nlifetime=1h" > /tmp/out.manifest
$ echo "hallo welt" | bp7 encode /tmp/out.manifest - -x
9f880700008201702f2f6e6f6465322f696e636f6d696e6782016b2f2f6e6f6465312f626c61820100821b0000009e8d137d23001a0036ee8085010100004c4b68616c6c6f2077656c740aff
$ bp7 decode 9f880700008201702f2f6e6f6465322f696e636f6d696e6782016b2f2f6e6f6465312f626c61820100821b0000009e8d137d23001a0036ee8085010100004c4b68616c6c6f2077656c740aff -p
hallo welt
The generated hex string can also be directly discplayed as raw cbor on the awesome cbor.me website, e.g. http://cbor.me/?bytes=9f88071a000200040082016e2f2f6e6f646531382f7e74656c6582016e2f2f6e6f646538312f66696c657382016e2f2f6e6f646538312f66696c6573821b0000009e8d0de538001a0036ee80850a020000448218200085010100004443414243ff
This library only handles encoding and decoding of bundles, not transmission or other processing of the data.
The library can be used as a shared library or statically linked into other apps.
With the help of cbindgen
(cargo install cbindgen
) the header file for this crate can be generated:
$ cbindgen -c cbindgen.toml > target/bp7.h
Example usages for Linux with C calling bp7
as well as nodejs can be found in examples/ffi
.
The library should build for wasm even though only very few functions get exported. The example benchmark can also be used in the browser through the cargo-web
crate:
cargo web start --target wasm32-unknown-unknown --example benchmark --release
Results should be shown in the javascript console on http://127.0.0.1:8000.
The performance is quite similar to the native performance:
Creating 100000 bundles with CRC_NO: 441696 bundles/second
Creating 100000 bundles with CRC_16: 416484 bundles/second
Creating 100000 bundles with CRC_32: 405022 bundles/second
Encoding 100000 bundles with CRC_NO: 1647039 bundles/second
Encoding 100000 bundles with CRC_16: 908059 bundles/second
Encoding 100000 bundles with CRC_32: 867603 bundles/second
Loading 100000 bundles with CRC_NO: 401727 bundles/second
Loading 100000 bundles with CRC_16: 388394 bundles/second
Loading 100000 bundles with CRC_32: 384186 bundles/second
Some functions can easily be used from javascript (cargo web deploy --release
):
Rust.bp7.then(function(bp7) {
var b = bp7.rnd_bundle_now();
var enc = bp7.encode_to_cbor(b);
var payload = bp7.payload_from_bundle(b)
console.log(payload);
console.log(String.fromCharCode.apply(null, payload));
console.log(bp7.cbor_is_administrative_record(enc));
console.log(bp7.sender_from_cbor(enc));
console.log(bp7.recipient_from_bundle(b));
console.log(bp7.valid_bundle(b));
});
Note that at the moment all functions have a variant working on the binary bundle and one working on the decoded bundle struct.
If you use this software in a scientific publication, please cite the following paper:
@INPROCEEDINGS{baumgaertner2019bdtn7,
author={L. {Baumgärtner} and J. {Höchst} and T. {Meuser}},
booktitle={2019 International Conference on Information and Communication Technologies for Disaster Management (ICT-DM)},
title={B-DTN7: Browser-based Disruption-tolerant Networking via Bundle Protocol 7},
year={2019},
volume={},
number={},
pages={1-8},
keywords={Protocols;Browsers;Software;Convergence;Servers;Synchronization;Wireless fidelity},
doi={10.1109/ICT-DM47966.2019.9032944},
ISSN={2469-8822},
month={Dec},
}
Licensed under either of Apache License, Version 2.0 or MIT license at your option.
Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in bp7-rs by you, as defined in the Apache-2.0 license, shall be dual licensed as above, without any additional terms or conditions.