brain/tests/grpc_vm_daemon_test.rs

use common::{
    prepare_test_env::{
        connect_stream_client_channel, prepare_test_db, run_service_for_stream_server,
        run_service_in_background,
    },
    test_utils::Key,
};
use detee_shared::vm_proto;
use detee_shared::vm_proto::brain_vm_cli_client::BrainVmCliClient;
use detee_shared::vm_proto::brain_vm_daemon_client::BrainVmDaemonClient;
use detee_shared::vm_proto::RegisterVmNodeReq;
use futures::StreamExt;
use tokio::sync::mpsc;
use tokio_stream::wrappers::ReceiverStream;
use tonic::transport::Channel;

mod common;

#[tokio::test]
async fn test_reg_vm_node() {
    prepare_test_db().await;

    let addr = run_service_in_background().await;
    let client = BrainVmDaemonClient::connect(format!("http://{}", addr)).await.unwrap();

    let operator_wallet = Key::new().pubkey;

    let key = Key::new();

    let vm_contracts = register_vm_node(client, key, operator_wallet).await;

    assert!(vm_contracts.is_empty())
}

async fn register_vm_node(
    mut client: BrainVmDaemonClient<Channel>,
    key: Key,
    operator_wallet: String,
) -> Vec<vm_proto::VmContract> {
    let node_pubkey = key.pubkey.clone();

    let req = RegisterVmNodeReq {
        node_pubkey,
        operator_wallet,
        main_ip: String::from("185.243.218.213"),
        city: String::from("Oslo"),
        country: String::from("Norway"),
        region: String::from("EU"),
        price: 1200,
    };

    let mut grpc_stream =
        client.register_vm_node(key.sign_request(req).unwrap()).await.unwrap().into_inner();

    let mut vm_contracts = Vec::new();
    while let Some(stream_update) = grpc_stream.next().await {
        match stream_update {
            Ok(vm_c) => {
                vm_contracts.push(vm_c);
            }
            Err(e) => {
                panic!("Received error instead of vm_contracts: {e:?}");
            }
        }
    }
    vm_contracts
}

#[tokio::test]
async fn test_brain_message() {
    env_logger::builder().filter_level(log::LevelFilter::Info).init();
    let _ = prepare_test_db().await;

    let (tokio_duplex, addr) = run_service_for_stream_server().await;

    let channel = connect_stream_client_channel(tokio_duplex, addr).await;

    let daemon_client = BrainVmDaemonClient::new(channel.clone());

    let daemon_key = Key::new();

    register_vm_node(daemon_client.clone(), daemon_key.clone(), Key::new().pubkey).await;

    let (tx, brain_msg_rx) = tokio::sync::mpsc::channel(1);

    tokio::spawn(daemon_listener(daemon_client.clone(), daemon_key.clone(), tx));

    let (daemon_msg_tx, rx) = tokio::sync::mpsc::channel(1);
    tokio::spawn(daemon_msg_sender(
        daemon_client.clone(),
        daemon_key.clone(),
        daemon_msg_tx.clone(),
        rx,
    ));

    tokio::spawn(daemon_engine(daemon_msg_tx.clone(), brain_msg_rx));

    tokio::time::sleep(tokio::time::Duration::from_secs(1)).await;

    let mut cli_client = BrainVmCliClient::new(channel);

    let cli_key = Key::new();

    let req = vm_proto::NewVmReq {
        admin_pubkey: cli_key.pubkey.clone(),
        node_pubkey: daemon_key.pubkey.clone(),
        price_per_unit: 1200,
        extra_ports: vec![8080, 8081],
        locked_nano: 0,
        ..Default::default()
    };
    let new_vm_resp =
        cli_client.new_vm(cli_key.sign_request(req).unwrap()).await.unwrap().into_inner();

    assert!(new_vm_resp.error.is_empty());
    assert!(new_vm_resp.uuid.len() == 40);

    let id = ("measurement_args", new_vm_resp.uuid);
    let data_in_db: detee_shared::vm_proto::MeasurementArgs =
        surreal_brain::db::DB.select(id).await.unwrap().unwrap();

    assert_eq!(data_in_db, new_vm_resp.args.unwrap());
}

async fn daemon_listener(
    mut client: BrainVmDaemonClient<Channel>,
    key: Key,
    tx: mpsc::Sender<vm_proto::BrainVmMessage>,
) {
    let mut grpc_stream =
        client.brain_messages(key.sign_stream_auth(vec![]).unwrap()).await.unwrap().into_inner();

    while let Some(Ok(stream_update)) = grpc_stream.next().await {
        log::info!("vm deamon got notified: {:?}", &stream_update);
        let _ = tx.send(stream_update).await;
    }
}
async fn daemon_msg_sender(
    mut client: BrainVmDaemonClient<Channel>,
    key: Key,
    tx: mpsc::Sender<vm_proto::VmDaemonMessage>,
    rx: mpsc::Receiver<vm_proto::VmDaemonMessage>,
) {
    let rx_stream = ReceiverStream::new(rx);
    tx.send(vm_proto::VmDaemonMessage {
        msg: Some(vm_proto::vm_daemon_message::Msg::Auth(key.sign_stream_auth(vec![]).unwrap())),
    })
    .await
    .unwrap();
    client.daemon_messages(rx_stream).await.unwrap();
}

async fn daemon_engine(
    tx: mpsc::Sender<vm_proto::VmDaemonMessage>,
    mut rx: mpsc::Receiver<vm_proto::BrainVmMessage>,
) {
    while let Some(brain_msg) = rx.recv().await {
        match brain_msg.msg {
            Some(vm_proto::brain_vm_message::Msg::NewVmReq(new_vm_req)) => {
                let args = Some(vm_proto::MeasurementArgs {
                    dtrfs_api_endpoint: String::from("184.107.169.199:48865"),
                    exposed_ports: new_vm_req.extra_ports,
                    ovmf_hash: String::from(
                        "0346619257269b9a61ee003e197d521b8e2283483070d163a34940d6a1d40d76",
                    ),
                    ips: vec![],
                });

                let new_vm_resp = vm_proto::NewVmResp {
                    uuid: new_vm_req.uuid.clone(),
                    args,
                    error: String::new(),
                };

                let res_data = vm_proto::VmDaemonMessage {
                    msg: Some(vm_proto::vm_daemon_message::Msg::NewVmResp(new_vm_resp)),
                };
                tx.send(res_data).await.unwrap();
            }
            Some(vm_proto::brain_vm_message::Msg::UpdateVmReq(_update_vm_req)) => {
                todo!()
            }
            Some(vm_proto::brain_vm_message::Msg::DeleteVm(_del_vm_req)) => {
                todo!()
            }
            None => todo!(),
        }
    }
}