serai/processor/TODO/tests/literal/mod.rs

// TODO

use dockertest::{
  PullPolicy, StartPolicy, LogOptions, LogAction, LogPolicy, LogSource, Image,
  TestBodySpecification, DockerOperations, DockerTest,
};

use serai_db::MemDb;

#[cfg(feature = "bitcoin")]
mod bitcoin {
  use std::sync::Arc;

  use rand_core::OsRng;

  use frost::Participant;

  use bitcoin_serai::bitcoin::{
    secp256k1::{SECP256K1, SecretKey, Message},
    PrivateKey, PublicKey,
    hashes::{HashEngine, Hash, sha256::Hash as Sha256},
    sighash::{SighashCache, EcdsaSighashType},
    absolute::LockTime,
    Amount as BAmount, Sequence, Script, Witness, OutPoint,
    address::Address as BAddress,
    transaction::{Version, Transaction, TxIn, TxOut},
    Network as BNetwork, ScriptBuf,
    opcodes::all::{OP_SHA256, OP_EQUALVERIFY},
  };

  use scale::Encode;
  use sp_application_crypto::Pair;
  use serai_client::{in_instructions::primitives::Shorthand, primitives::insecure_pair_from_name};

  use tokio::{
    time::{timeout, Duration},
    sync::Mutex,
  };

  use super::*;
  use crate::{
    networks::{Network, Bitcoin, Output, OutputType, Block},
    tests::scanner::new_scanner,
    multisigs::scanner::ScannerEvent,
  };

  #[test]
  fn test_dust_constant() {
    struct IsTrue<const V: bool>;
    trait True {}
    impl True for IsTrue<true> {}
    fn check<T: True>() {
      core::hint::black_box(());
    }
    check::<IsTrue<{ Bitcoin::DUST >= bitcoin_serai::wallet::DUST }>>();
  }

  #[test]
  fn test_receive_data_from_input() {
    let docker = spawn_bitcoin();
    docker.run(|ops| async move {
      let btc = bitcoin(&ops).await(MemDb::new()).await;

      // generate a multisig address to receive the coins
      let mut keys = frost::tests::key_gen::<_, <Bitcoin as Network>::Curve>(&mut OsRng)
        .remove(&Participant::new(1).unwrap())
        .unwrap();
      <Bitcoin as Network>::tweak_keys(&mut keys);
      let group_key = keys.group_key();
      let serai_btc_address = <Bitcoin as Network>::external_address(&btc, group_key).await;

      // btc key pair to send from
      let private_key = PrivateKey::new(SecretKey::new(&mut rand_core::OsRng), BNetwork::Regtest);
      let public_key = PublicKey::from_private_key(SECP256K1, &private_key);
      let main_addr = BAddress::p2pkh(public_key, BNetwork::Regtest);

      // get unlocked coins
      let new_block = btc.get_latest_block_number().await.unwrap() + 1;
      btc
        .rpc
        .rpc_call::<Vec<String>>("generatetoaddress", serde_json::json!([100, main_addr]))
        .await
        .unwrap();

      // create a scanner
      let db = MemDb::new();
      let mut scanner = new_scanner(&btc, &db, group_key, &Arc::new(Mutex::new(true))).await;

      // make a transfer instruction & hash it for script.
      let serai_address = insecure_pair_from_name("alice").public();
      let message = Shorthand::transfer(None, serai_address.into()).encode();
      let mut data = Sha256::engine();
      data.input(&message);

      // make the output script => msg_script(OP_SHA256 PUSH MSG_HASH OP_EQUALVERIFY) + any_script
      let mut script = ScriptBuf::builder()
        .push_opcode(OP_SHA256)
        .push_slice(Sha256::from_engine(data).as_byte_array())
        .push_opcode(OP_EQUALVERIFY)
        .into_script();
      // append a regular spend script
      for i in main_addr.script_pubkey().instructions() {
        script.push_instruction(i.unwrap());
      }

      // Create the first transaction
      let tx = btc.get_block(new_block).await.unwrap().txdata.swap_remove(0);
      let mut tx = Transaction {
        version: Version(2),
        lock_time: LockTime::ZERO,
        input: vec![TxIn {
          previous_output: OutPoint { txid: tx.compute_txid(), vout: 0 },
          script_sig: Script::new().into(),
          sequence: Sequence(u32::MAX),
          witness: Witness::default(),
        }],
        output: vec![TxOut {
          value: tx.output[0].value - BAmount::from_sat(10000),
          script_pubkey: ScriptBuf::new_p2wsh(&script.wscript_hash()),
        }],
      };
      tx.input[0].script_sig = Bitcoin::sign_btc_input_for_p2pkh(&tx, 0, &private_key);
      let initial_output_value = tx.output[0].value;

      // send it
      btc.rpc.send_raw_transaction(&tx).await.unwrap();

      // Chain a transaction spending it with the InInstruction embedded in the input
      let mut tx = Transaction {
        version: Version(2),
        lock_time: LockTime::ZERO,
        input: vec![TxIn {
          previous_output: OutPoint { txid: tx.compute_txid(), vout: 0 },
          script_sig: Script::new().into(),
          sequence: Sequence(u32::MAX),
          witness: Witness::new(),
        }],
        output: vec![TxOut {
          value: tx.output[0].value - BAmount::from_sat(10000),
          script_pubkey: serai_btc_address.into(),
        }],
      };

      // add the witness script
      // This is the standard script with an extra argument of the InInstruction
      let mut sig = SECP256K1
        .sign_ecdsa_low_r(
          &Message::from_digest_slice(
            SighashCache::new(&tx)
              .p2wsh_signature_hash(0, &script, initial_output_value, EcdsaSighashType::All)
              .unwrap()
              .to_raw_hash()
              .as_ref(),
          )
          .unwrap(),
          &private_key.inner,
        )
        .serialize_der()
        .to_vec();
      sig.push(1);
      tx.input[0].witness.push(sig);
      tx.input[0].witness.push(public_key.inner.serialize());
      tx.input[0].witness.push(message.clone());
      tx.input[0].witness.push(script);

      // Send it immediately, as Bitcoin allows mempool chaining
      btc.rpc.send_raw_transaction(&tx).await.unwrap();

      // Mine enough confirmations
      let block_number = btc.get_latest_block_number().await.unwrap() + 1;
      for _ in 0 .. <Bitcoin as Network>::CONFIRMATIONS {
        btc.mine_block().await;
      }
      let tx_block = btc.get_block(block_number).await.unwrap();

      // verify that scanner picked up the output
      let outputs =
        match timeout(Duration::from_secs(30), scanner.events.recv()).await.unwrap().unwrap() {
          ScannerEvent::Block { is_retirement_block, block, outputs } => {
            scanner.multisig_completed.send(false).unwrap();
            assert!(!is_retirement_block);
            assert_eq!(block, tx_block.id());
            assert_eq!(outputs.len(), 1);
            assert_eq!(outputs[0].kind(), OutputType::External);
            outputs
          }
          _ => panic!("unexpectedly got eventuality completion"),
        };

      // verify that the amount and message are correct
      assert_eq!(outputs[0].balance().amount.0, tx.output[0].value.to_sat());
      assert_eq!(outputs[0].data(), message);
    });
  }

  fn spawn_bitcoin() -> DockerTest {
    serai_docker_tests::build("bitcoin".to_string());

    let composition = TestBodySpecification::with_image(
      Image::with_repository("serai-dev-bitcoin").pull_policy(PullPolicy::Never),
    )
    .set_start_policy(StartPolicy::Strict)
    .set_log_options(Some(LogOptions {
      action: LogAction::Forward,
      policy: LogPolicy::OnError,
      source: LogSource::Both,
    }))
    .set_publish_all_ports(true);

    let mut test = DockerTest::new().with_network(dockertest::Network::Isolated);
    test.provide_container(composition);
    test
  }

  async fn bitcoin(
    ops: &DockerOperations,
  ) -> impl Fn(MemDb) -> Pin<Box<dyn Send + Future<Output = Bitcoin>>> {
    let handle = ops.handle("serai-dev-bitcoin").host_port(8332).unwrap();
    let url = format!("http://serai:seraidex@{}:{}", handle.0, handle.1);
    let bitcoin = Bitcoin::new(url.clone()).await;
    bitcoin.fresh_chain().await;
    move |_db| Box::pin(Bitcoin::new(url.clone()))
  }

  test_utxo_network!(
    Bitcoin,
    spawn_bitcoin,
    bitcoin,
    bitcoin_key_gen,
    bitcoin_scanner,
    bitcoin_no_deadlock_in_multisig_completed,
    bitcoin_signer,
    bitcoin_wallet,
    bitcoin_addresses,
  );
}

#[cfg(feature = "monero")]
mod monero {
  use super::*;
  use crate::networks::{Network, Monero};

  fn spawn_monero() -> DockerTest {
    serai_docker_tests::build("monero".to_string());

    let composition = TestBodySpecification::with_image(
      Image::with_repository("serai-dev-monero").pull_policy(PullPolicy::Never),
    )
    .set_start_policy(StartPolicy::Strict)
    .set_log_options(Some(LogOptions {
      action: LogAction::Forward,
      policy: LogPolicy::OnError,
      source: LogSource::Both,
    }))
    .set_publish_all_ports(true);

    let mut test = DockerTest::new();
    test.provide_container(composition);
    test
  }

  async fn monero(
    ops: &DockerOperations,
  ) -> impl Fn(MemDb) -> Pin<Box<dyn Send + Future<Output = Monero>>> {
    let handle = ops.handle("serai-dev-monero").host_port(18081).unwrap();
    let url = format!("http://serai:seraidex@{}:{}", handle.0, handle.1);
    let monero = Monero::new(url.clone()).await;
    while monero.get_latest_block_number().await.unwrap() < 150 {
      monero.mine_block().await;
    }
    move |_db| Box::pin(Monero::new(url.clone()))
  }

  test_utxo_network!(
    Monero,
    spawn_monero,
    monero,
    monero_key_gen,
    monero_scanner,
    monero_no_deadlock_in_multisig_completed,
    monero_signer,
    monero_wallet,
    monero_addresses,
  );
}

#[cfg(feature = "ethereum")]
mod ethereum {
  use super::*;

  use ciphersuite::{Ciphersuite, Secp256k1};

  use serai_client::validator_sets::primitives::Session;

  use crate::networks::Ethereum;

  fn spawn_ethereum() -> DockerTest {
    serai_docker_tests::build("ethereum".to_string());

    let composition = TestBodySpecification::with_image(
      Image::with_repository("serai-dev-ethereum").pull_policy(PullPolicy::Never),
    )
    .set_start_policy(StartPolicy::Strict)
    .set_log_options(Some(LogOptions {
      action: LogAction::Forward,
      policy: LogPolicy::OnError,
      source: LogSource::Both,
    }))
    .set_publish_all_ports(true);

    let mut test = DockerTest::new();
    test.provide_container(composition);
    test
  }

  async fn ethereum(
    ops: &DockerOperations,
  ) -> impl Fn(MemDb) -> Pin<Box<dyn Send + Future<Output = Ethereum<MemDb>>>> {
    use std::sync::Arc;
    use ethereum_serai::{
      alloy::{
        primitives::U256,
        simple_request_transport::SimpleRequest,
        rpc_client::ClientBuilder,
        provider::{Provider, RootProvider},
      },
      deployer::Deployer,
    };

    let handle = ops.handle("serai-dev-ethereum").host_port(8545).unwrap();
    let url = format!("http://{}:{}", handle.0, handle.1);
    tokio::time::sleep(core::time::Duration::from_secs(15)).await;

    {
      let provider = Arc::new(RootProvider::new(
        ClientBuilder::default().transport(SimpleRequest::new(url.clone()), true),
      ));
      provider.raw_request::<_, ()>("evm_setAutomine".into(), [false]).await.unwrap();
      provider.raw_request::<_, ()>("anvil_mine".into(), [96]).await.unwrap();

      // Perform deployment
      {
        // Make sure the Deployer constructor returns None, as it doesn't exist yet
        assert!(Deployer::new(provider.clone()).await.unwrap().is_none());

        // Deploy the Deployer
        let tx = Deployer::deployment_tx();

        provider
          .raw_request::<_, ()>(
            "anvil_setBalance".into(),
            [
              tx.recover_signer().unwrap().to_string(),
              (U256::from(tx.tx().gas_limit) * U256::from(tx.tx().gas_price)).to_string(),
            ],
          )
          .await
          .unwrap();

        let (tx, sig, _) = tx.into_parts();
        let mut bytes = vec![];
        tx.encode_with_signature_fields(&sig, &mut bytes);

        let pending_tx = provider.send_raw_transaction(&bytes).await.unwrap();
        provider.raw_request::<_, ()>("anvil_mine".into(), [96]).await.unwrap();
        //tokio::time::sleep(core::time::Duration::from_secs(15)).await;
        let receipt = pending_tx.get_receipt().await.unwrap();
        assert!(receipt.status());

        let _ = Deployer::new(provider.clone())
          .await
          .expect("network error")
          .expect("deployer wasn't deployed");
      }
    }

    move |db| {
      let url = url.clone();
      Box::pin(async move {
        {
          let db = db.clone();
          let url = url.clone();
          // Spawn a task to deploy the proper Router when the time comes
          tokio::spawn(async move {
            let key = loop {
              let Some(key) = crate::key_gen::NetworkKeyDb::get(&db, Session(0)) else {
                tokio::time::sleep(core::time::Duration::from_secs(1)).await;
                continue;
              };
              break ethereum_serai::crypto::PublicKey::new(
                Secp256k1::read_G(&mut key.as_slice()).unwrap(),
              )
              .unwrap();
            };
            let provider = Arc::new(RootProvider::new(
              ClientBuilder::default().transport(SimpleRequest::new(url.clone()), true),
            ));
            let deployer = Deployer::new(provider.clone()).await.unwrap().unwrap();

            let mut tx = deployer.deploy_router(&key);
            tx.gas_limit = 1_000_000u64.into();
            tx.gas_price = 1_000_000_000u64.into();
            let tx = ethereum_serai::crypto::deterministically_sign(&tx);

            provider
              .raw_request::<_, ()>(
                "anvil_setBalance".into(),
                [
                  tx.recover_signer().unwrap().to_string(),
                  (U256::from(tx.tx().gas_limit) * U256::from(tx.tx().gas_price)).to_string(),
                ],
              )
              .await
              .unwrap();

            let (tx, sig, _) = tx.into_parts();
            let mut bytes = vec![];
            tx.encode_with_signature_fields(&sig, &mut bytes);
            let pending_tx = provider.send_raw_transaction(&bytes).await.unwrap();
            provider.raw_request::<_, ()>("anvil_mine".into(), [96]).await.unwrap();
            let receipt = pending_tx.get_receipt().await.unwrap();
            assert!(receipt.status());

            let _router = deployer.find_router(provider.clone(), &key).await.unwrap().unwrap();
          });
        }

        Ethereum::new(db, url.clone(), String::new()).await
      })
    }
  }

  test_network!(
    Ethereum<MemDb>,
    spawn_ethereum,
    ethereum,
    ethereum_key_gen,
    ethereum_scanner,
    ethereum_no_deadlock_in_multisig_completed,
    ethereum_signer,
    ethereum_wallet,
  );
}