Crates.io | squalo |
lib.rs | squalo |
version | 0.1.6 |
source | src |
created_at | 2021-02-24 16:40:50.658634 |
updated_at | 2021-03-05 13:16:11.473587 |
description | 🦈 Minimal, elegant, fast, async Kraken exchange WebSockets API client | Written in Rust |
homepage | |
repository | https://github.com/xonoxitron/squalo |
max_upload_size | |
id | 360050 |
size | 72,216 |
squalo
library aims to interface your software with the Kraken exchange WebSockets API in no time.
The Kraken exchange allows WebSockets API
interaction with both public
and private
data.
Only for the private
one, you need to issue an API-Key
and an API-Secret
to the squalo
library, in order to generate authentication token for signed subscriptions on WebSockets
endpoints.
If you are not familiar with, please have a look at WebSockets API - FAQ for a general overview, or at WebSockets API document.
Add this to your Cargo.toml
:
[dependencies]
squalo = {version = 0.1.6}
and then add this to your code
:
use squalo;
squalo::print_crate_info();
Description: prints crate
information (name, description, version, author and repository).
squalo::set_kraken_api_credentials(api_key: String, api_secret: String);
Description: sets Kraken API
credentials for private
data access.
Required:
String
String
squalo::get_websockets_token().await;
Description: retrieves a WebSockets API token
with a signed
request from a Kraken REST API
endpoint.
Output: returns a WebSockets API token
in the String
format.
squalo::create_communication_channel();
Description: returns a couple of objects, an UnboundedSender
(tx) and an UnboundedReceiver
(rx) both used for bidirectional interoperation with the WebSocket client
.
squalo::attach_websockets_stream(callback: fn(&str), stream_type: String, receiver: UnboundedReceiver<Message>);
Description: spawns a thread
which initializes a WebSocket client
(accordingly with the stream_type
). The receiver
bridges the gap with the incoming data stream
and the callback
.
Required:
fn
(eg: fn callback(data: &str) { println("data: {}", data); })String
(eg "public" or "private")UnboundedReceiver<Message>
(retrieved from the squalo::create_communication_channel()
method)Output: any incoming message forwared from the WebSockets stream
to the issued callback
comes in stringified JSON
format (parse accordingly with the outcome shape).
squalo::send_message(transmitter: UnboundedSender<Message>, payload: String);
Description: fowards a message
to the spawned thread
handling the WebSocket client
that will write the payload
to the stream.
The example below shows how easy is to implement squalo
from zero knowledge.
use squalo;
fn callback(data: &str) {
println!("data: {}", data);
}
#[tokio::main]
async fn main() {
// printing crate information
squalo::print_crate_info();
// enveloping payload pointing at public endpoint
let payload1 =
r#"{"event":"subscribe", "subscription":{"name":"trade"}, "pair":["XRP/EUR", "ETH/USD"]}"#
.to_string();
// creating communication channel for the websockets client
let (tx1, rx1) = squalo::create_communication_channel();
// attaching websockets to the public data stream
squalo::attach_websockets_stream(callback, "public".to_string(), rx1);
// transmitting payload to the websockets client
squalo::send_message(tx1.to_owned(), payload1);
// issuing credentials that enables private data interaction
squalo::set_kraken_api_credentials(
"YOUR_KRAKEN_API_KEY_HERE".to_string(),
"YOUR_KRAKEN_API_SECRET".to_string(),
);
// requesting a websockets token
let token = squalo::get_websockets_token().await;
// enveloping message pointing at a private endpoint
let payload2 = format!(
r#"{{"event":"subscribe", "subscription":{{"name":"ownTrades", "token":"{}"}}}}"#,
token
);
// creating communication channel for the websockets client
let (tx2, rx2) = squalo::create_communication_channel();
// attaching websockets to private data stream
squalo::attach_websockets_stream(callback, "private".to_string(), rx2);
// transmitting payload to the websockets client
squalo::send_message(tx2.to_owned(), payload2);
// enveloping the "ping" payload
let ping = r#"{"event":"ping"}"#.to_string();
// holding the main thread execution
loop {
// sleeping thread for 1 second
std::thread::sleep(std::time::Duration::from_millis(1000));
// transmitting ping payload to the first client (public)
squalo::send_message(tx1.to_owned(), ping.to_owned());
// transmitting ping payload to the second client (private)
squalo::send_message(tx2.to_owned(), ping.to_owned());
}
}
This software comes without any kind of warranties.
I will not be liable for any damages related to the use or the misuse of this software.
You are the sole responsible.