214 lines
7.2 KiB
Rust
214 lines
7.2 KiB
Rust
use common::prepare_test_env::{
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prepare_test_db, run_service_for_stream, run_service_in_background,
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};
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use common::test_utils::Key;
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use common::vm_cli_utils::{create_new_vm, report_node};
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use common::vm_daemon_utils::{mock_vm_daemon, register_vm_node};
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use detee_shared::common_proto::{Empty, Pubkey};
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use detee_shared::general_proto::brain_general_cli_client::BrainGeneralCliClient;
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use detee_shared::general_proto::AirdropReq;
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use detee_shared::vm_proto::brain_vm_daemon_client::BrainVmDaemonClient;
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use futures::StreamExt;
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use itertools::Itertools;
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use std::vec;
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use surreal_brain::constants::VM_NODE;
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use surreal_brain::db::vm::VmNodeWithReports;
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mod common;
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#[tokio::test]
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async fn test_general_balance() {
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// env_logger::builder().filter_level(log::LevelFilter::Trace).init();
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prepare_test_db().await.unwrap();
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let addr = run_service_in_background().await.unwrap();
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let mut client = BrainGeneralCliClient::connect(format!("http://{}", addr)).await.unwrap();
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let key = Key::new();
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let pubkey = key.pubkey.clone();
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let req_data = Pubkey { pubkey };
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let req = key.sign_request(req_data).unwrap();
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let acc_bal = client.get_balance(req).await.unwrap().into_inner();
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assert_eq!(acc_bal.balance, 0);
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assert_eq!(acc_bal.tmp_locked, 0);
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}
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#[tokio::test]
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async fn test_general_airdrop() {
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// env_logger::builder().filter_level(log::LevelFilter::Trace).init();
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prepare_test_db().await.unwrap();
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const AIRDROP_MULTIPLE: u64 = 1_000_000_000;
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let airdrop_amount = 10;
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let addr = run_service_in_background().await.unwrap();
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let mut client = BrainGeneralCliClient::connect(format!("http://{}", addr)).await.unwrap();
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let admin_keys = vec![Key::new(), Key::new(), Key::new()];
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let admin_pub_keys = admin_keys.iter().map(|k| k.pubkey.clone()).join(", ");
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std::env::set_var("ADMIN_PUB_KEYS", admin_pub_keys);
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let user_01_key = Key::new();
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let user_01_pubkey = user_01_key.pubkey.clone();
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let airdrop_req = AirdropReq { pubkey: user_01_pubkey.clone(), tokens: airdrop_amount };
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// user airdroping himself
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let err =
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client.airdrop(user_01_key.sign_request(airdrop_req.clone()).unwrap()).await.err().unwrap();
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assert_eq!(err.message(), "This operation is reserved to admin accounts");
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// other user airdroping
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let err =
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client.airdrop(Key::new().sign_request(airdrop_req.clone()).unwrap()).await.err().unwrap();
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assert_eq!(err.message(), "This operation is reserved to admin accounts");
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let _ = client.airdrop(admin_keys[0].sign_request(airdrop_req.clone()).unwrap()).await.unwrap();
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let bal_req_data = Pubkey { pubkey: user_01_pubkey };
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let bal_req = user_01_key.sign_request(bal_req_data.clone()).unwrap();
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let acc_bal_user_01 = client.get_balance(bal_req).await.unwrap().into_inner();
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assert_eq!(acc_bal_user_01.balance, airdrop_amount * AIRDROP_MULTIPLE);
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assert_eq!(acc_bal_user_01.tmp_locked, 0);
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// second airdrop from same admin
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let _ = client.airdrop(admin_keys[0].sign_request(airdrop_req.clone()).unwrap()).await.unwrap();
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let acc_bal_user_01 = client
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.get_balance(user_01_key.sign_request(bal_req_data.clone()).unwrap())
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.await
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.unwrap()
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.into_inner();
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assert_eq!(acc_bal_user_01.balance, 2 * airdrop_amount * AIRDROP_MULTIPLE);
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// third airdrop from another admin
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let _ = client.airdrop(admin_keys[1].sign_request(airdrop_req.clone()).unwrap()).await.unwrap();
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let acc_bal_user_01 = client
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.get_balance(user_01_key.sign_request(bal_req_data).unwrap())
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.await
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.unwrap()
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.into_inner();
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assert_eq!(acc_bal_user_01.balance, 3 * airdrop_amount * AIRDROP_MULTIPLE);
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// self airdrop
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let airdrop_req = AirdropReq { pubkey: admin_keys[2].pubkey.clone(), tokens: airdrop_amount };
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let _ = client.airdrop(admin_keys[2].sign_request(airdrop_req.clone()).unwrap()).await.unwrap();
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let bal_req_data = Pubkey { pubkey: admin_keys[2].pubkey.clone() };
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let acc_bal_admin_3 = client
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.get_balance(admin_keys[2].sign_request(bal_req_data.clone()).unwrap())
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.await
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.unwrap()
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.into_inner();
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assert_eq!(acc_bal_admin_3.balance, airdrop_amount * AIRDROP_MULTIPLE);
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}
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#[tokio::test]
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async fn test_report_node() {
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let db = prepare_test_db().await.unwrap();
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let brain_channel = run_service_for_stream().await.unwrap();
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let daemon_key = mock_vm_daemon(&brain_channel).await.unwrap();
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let key = Key::new();
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let report_error =
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report_node(&key, &brain_channel, &daemon_key, "uuid", "reason").await.err().unwrap();
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log::info!("Report error: {:?}", report_error);
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assert!(report_error.to_string().contains("No contract found by this ID."));
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let active_vm_id = create_new_vm(&db, &key, &daemon_key, &brain_channel).await.unwrap();
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let reason = String::from("something went wrong on vm");
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let _ = report_node(&key, &brain_channel, &daemon_key, &active_vm_id, &reason)
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.await
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.unwrap()
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.into_inner();
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let vm_nodes: Vec<VmNodeWithReports> = db
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.query(format!(
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"SELECT *, <-report.* as reports FROM {VM_NODE} WHERE id = {VM_NODE}:{daemon_key};"
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))
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.await
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.unwrap()
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.take(0)
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.unwrap();
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let vm_node_with_report = &vm_nodes[0];
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assert!(vm_node_with_report.reports[0].reason == reason);
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}
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#[tokio::test]
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// TODO: register some operators before testing this
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async fn test_list_operators() {
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prepare_test_db().await.unwrap();
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let channel = run_service_for_stream().await.unwrap();
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let mut client = BrainGeneralCliClient::new(channel);
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let key = Key::new();
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let mut grpc_stream =
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client.list_operators(key.sign_request(Empty {}).unwrap()).await.unwrap().into_inner();
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let mut operators = Vec::new();
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while let Some(stream_update) = grpc_stream.next().await {
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match stream_update {
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Ok(op) => {
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operators.push(op);
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}
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Err(e) => {
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panic!("Received error instead of operators: {e:?}");
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}
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}
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}
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assert!(!operators.is_empty())
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}
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#[tokio::test]
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async fn test_inspect_operator() {
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prepare_test_db().await.unwrap();
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let brain_channel = run_service_for_stream().await.unwrap();
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let mut cli_client = BrainGeneralCliClient::new(brain_channel.clone());
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let mut daemon_client = BrainVmDaemonClient::new(brain_channel.clone());
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let key = Key::new();
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let daemon_key = Key::new();
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let operator_key = Key::new();
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let err = cli_client
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.inspect_operator(key.sign_request(Pubkey { pubkey: operator_key.pubkey.clone() }).unwrap())
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.await
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.err()
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.unwrap();
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assert_eq!(err.message(), "The wallet you specified is not an operator");
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// TODO: test with app node also
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register_vm_node(&mut daemon_client, &daemon_key, &operator_key.pubkey).await.unwrap();
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let inspect_response = cli_client
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.inspect_operator(key.sign_request(Pubkey { pubkey: operator_key.pubkey.clone() }).unwrap())
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.await
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.unwrap()
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.into_inner();
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assert!(inspect_response.app_nodes.is_empty());
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assert!(!inspect_response.vm_nodes.is_empty());
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assert_eq!(&inspect_response.vm_nodes[0].operator, &operator_key.pubkey);
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}
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