use crate::Client;
use keyfork_derive_util::{request::*, DerivationPath};
use keyfork_slip10_test_data::test_data;
use std::sync::mpsc::channel;
use std::{os::unix::net::UnixStream, str::FromStr};
use tempdir::TempDir;
use tokio::runtime::Builder;

#[test]
fn secp256k1() {
    let tests = test_data()
        .unwrap()
        .remove(&"secp256k1".to_string())
        .unwrap();

    // note: since client is non async, can't be single threaded
    let rt = Builder::new_multi_thread().enable_io().build().unwrap();
    let tempdir = TempDir::new("keyfork-seed").unwrap();
    for (i, per_seed) in tests.into_iter().enumerate() {
        let mut socket_name = i.to_string();
        socket_name.push_str("-keyforkd.sock");
        let socket_path = tempdir.path().join(socket_name);
        let (tx, rx) = channel();
        let handle = rt.spawn({
            let socket_path = socket_path.clone();
            async move {
                let seed = per_seed.seed.clone();
                let mut server = keyforkd::UnixServer::bind(&socket_path).unwrap();
                tx.send(()).unwrap();
                let service = keyforkd::ServiceBuilder::new()
                    .layer(keyforkd::middleware::BincodeLayer::new())
                    .service(keyforkd::Keyforkd::new(seed));
                server.run(service).await.unwrap();
            }
        });
        rx.recv().unwrap();

        for test in &per_seed.tests {
            let socket = UnixStream::connect(&socket_path).unwrap();
            let mut client = Client::new(socket);
            let chain = DerivationPath::from_str(test.chain).unwrap();
            if chain.len() < 2 {
                continue;
            }
            let req = DerivationRequest::new(
                DerivationAlgorithm::Secp256k1,
                &DerivationPath::from_str(test.chain).unwrap(),
            );
            let response = client.request(&req).unwrap();
            assert_eq!(response.data, test.private_key);
        }

        handle.abort();
    }
}

#[test]
fn ed25519() {
    let tests = test_data().unwrap().remove(&"ed25519".to_string()).unwrap();

    let rt = Builder::new_multi_thread().enable_io().build().unwrap();
    let tempdir = TempDir::new("keyfork-seed").unwrap();
    for (i, per_seed) in tests.into_iter().enumerate() {
        let mut socket_name = i.to_string();
        socket_name.push_str("-keyforkd.sock");
        let socket_path = tempdir.path().join(socket_name);
        let (tx, rx) = channel();
        let handle = rt.spawn({
            let socket_path = socket_path.clone();
            async move {
                let seed = per_seed.seed.clone();
                let mut server = keyforkd::UnixServer::bind(&socket_path).unwrap();
                tx.send(()).unwrap();
                let service = keyforkd::ServiceBuilder::new()
                    .layer(keyforkd::middleware::BincodeLayer::new())
                    .service(keyforkd::Keyforkd::new(seed));
                server.run(service).await.unwrap();
            }
        });
        rx.recv().unwrap();

        for test in &per_seed.tests {
            let socket = UnixStream::connect(&socket_path).unwrap();
            let mut client = Client::new(socket);
            let chain = DerivationPath::from_str(test.chain).unwrap();
            if chain.len() < 2 {
                continue;
            }
            let req = DerivationRequest::new(
                DerivationAlgorithm::Ed25519,
                &DerivationPath::from_str(test.chain).unwrap(),
            );
            let response = client.request(&req).unwrap();
            assert_eq!(response.data, test.private_key);
        }

        handle.abort();
    }
}