logos-execution-zone/integration_tests/tests/cross_zone_ping.rs

#![expect(
    clippy::tests_outside_test_module,
    clippy::arithmetic_side_effects,
    reason = "We don't care about these in tests"
)]

//! End-to-end cross-zone round trip: a ping submitted on zone A is delivered by
//! zone B's watcher to `ping_receiver` on zone B, which records the payload.
//!
//! Two sequencers share one Bedrock node (no indexers): zone A publishes the
//! ping to Bedrock, zone B's watcher reads zone A's finalized blocks, injects the
//! inbox dispatch, and zone B's sequencer delivers it. This is the M3 milestone,
//! sequencer-trusted, with no indexer re-derivation (that is M4).

use std::{net::SocketAddr, time::Duration};

use anyhow::{Context as _, Result};
use common::transaction::LeeTransaction;
use cross_zone_outbox_core::outbox_pda;
use integration_tests::{
    config::{self, SequencerPartialConfig},
    setup::{setup_bedrock_node, setup_sequencer},
};
use lee::{AccountId, PublicTransaction, program::Program, public_transaction::Message};
use lee_core::program::ProgramId;
use ping_core::{ReceiverInstruction, SenderInstruction, ping_record_pda};
use sequencer_core::config::{CrossZoneConfig, CrossZonePeer};
use sequencer_service_rpc::{RpcClient as _, SequencerClient, SequencerClientBuilder};
use tokio::test;

const DELIVERY_TIMEOUT: Duration = Duration::from_secs(480);
const PING_PAYLOAD: &[u8] = b"hello-cross-zone";

#[test]
async fn ping_crosses_from_zone_a_to_zone_b() -> Result<()> {
    // Declared first so it outlives both zones (drops run in reverse order).
    let (_bedrock, bedrock_addr) = setup_bedrock_node()
        .await
        .context("Failed to set up shared Bedrock node")?;

    let partial = SequencerPartialConfig::default();
    let channel_a = config::bedrock_channel_id();
    let channel_b = config::bedrock_channel_id_b();
    let zone_a: [u8; 32] = *channel_a.as_ref();
    let zone_b: [u8; 32] = *channel_b.as_ref();

    let receiver_id = Program::ping_receiver().id();

    // Zone B watches zone A and allows delivery only to ping_receiver.
    let cross_zone = CrossZoneConfig {
        peers: vec![CrossZonePeer {
            channel_id: zone_a,
            allowed_targets: vec![receiver_id],
            expected_block_signing_pubkey: None,
        }],
    };

    let (seq_a, _seq_a_home) = setup_sequencer(partial, bedrock_addr, vec![], channel_a, None)
        .await
        .context("Failed to set up zone A sequencer")?;
    let (seq_b, _seq_b_home) =
        setup_sequencer(partial, bedrock_addr, vec![], channel_b, Some(cross_zone))
            .await
            .context("Failed to set up zone B sequencer")?;

    // Submit the ping on zone A, addressed to ping_receiver on zone B.
    let ping = build_ping_tx(zone_b, receiver_id);
    sequencer_client(seq_a.addr())?
        .send_transaction(ping)
        .await
        .context("Failed to submit ping on zone A")?;

    // Wait until zone B's sequencer records the delivered payload.
    let record_id = ping_record_pda(receiver_id);
    let delivered = wait_for_delivery(sequencer_client(seq_b.addr())?, record_id).await?;

    assert_eq!(
        delivered, PING_PAYLOAD,
        "Zone B must record the payload delivered from zone A"
    );
    Ok(())
}

/// Builds a top-level ping_sender transaction that chains into the outbox to emit
/// a message carrying a `ping_receiver::Record` instruction for the target zone.
fn build_ping_tx(target_zone: [u8; 32], receiver_id: ProgramId) -> LeeTransaction {
    let outbox_id = Program::cross_zone_outbox().id();
    let ordinal = 0;

    // The payload is the ping_receiver instruction, serialized as risc0 words in
    // little-endian bytes (the contract the inbox reverses when forwarding).
    let words = risc0_zkvm::serde::to_vec(&ReceiverInstruction::Record {
        payload: PING_PAYLOAD.to_vec(),
    })
    .expect("serialize ping instruction");
    let payload: Vec<u8> = words.iter().flat_map(|word| word.to_le_bytes()).collect();

    let send = SenderInstruction::Send {
        outbox_program_id: outbox_id,
        target_zone,
        target_program_id: receiver_id,
        target_accounts: vec![ping_record_pda(receiver_id).into_value()],
        payload,
        ordinal,
    };

    let outbox_account = outbox_pda(outbox_id, &target_zone, ordinal);
    let message = Message::try_new(
        Program::ping_sender().id(),
        vec![outbox_account],
        vec![],
        send,
    )
    .expect("build ping message");
    LeeTransaction::Public(PublicTransaction::new(
        message,
        lee::public_transaction::WitnessSet::from_raw_parts(vec![]),
    ))
}

fn sequencer_client(addr: SocketAddr) -> Result<SequencerClient> {
    let url = config::addr_to_url(config::UrlProtocol::Http, addr)
        .context("Failed to build sequencer URL")?;
    SequencerClientBuilder::default()
        .build(url)
        .context("Failed to build sequencer client")
}

/// Polls zone B's sequencer until the ping record PDA holds a payload.
async fn wait_for_delivery(client: SequencerClient, record_id: AccountId) -> Result<Vec<u8>> {
    let wait = async {
        loop {
            let account = client.get_account(record_id).await?;
            let data = account.data.into_inner();
            if !data.is_empty() {
                return Ok::<Vec<u8>, anyhow::Error>(data);
            }
            tokio::time::sleep(Duration::from_secs(3)).await;
        }
    };
    tokio::time::timeout(DELIVERY_TIMEOUT, wait)
        .await
        .context("Zone B did not record the cross-zone payload in time")?
}