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Implement calculation of monotonic network times for Bitcoin and Monero

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This commit is contained in:
Luke Parker 2023-11-09 05:17:34 -05:00
parent 43ae6794db
commit 19187d2c30
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5 changed files with 93 additions and 15 deletions
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7
processor/src/main.rs
View file

@ -244,6 +244,9 @@ async fn handle_coordinator_msg<D: Db, N: Network, Co: Coordinator>(
// assert!(substrate_mutable.existing.as_ref().is_none());
// Wait until a network's block's time exceeds Serai's time
// These time calls are extremely expensive for what they do, yet they only run when
// confirming the first key pair, before any network activity has occurred, so they
// should be fine
// If the latest block number is 10, then the block indexed by 1 has 10 confirms
// 10 + 1 - 10 = 1
@ -251,7 +254,7 @@ async fn handle_coordinator_msg<D: Db, N: Network, Co: Coordinator>(
while {
block_i =
(get_latest_block_number(network).await + 1).saturating_sub(N::CONFIRMATIONS);
get_block(network, block_i).await.time() < context.serai_time
get_block(network, block_i).await.time(network).await < context.serai_time
} {
info!(
"serai confirmed the first key pair for a set. {} {}",
@ -267,7 +270,7 @@ async fn handle_coordinator_msg<D: Db, N: Network, Co: Coordinator>(
// which... should be impossible
// Yet a prevented panic is a prevented panic
while (earliest > 0) &&
(get_block(network, earliest - 1).await.time() >= context.serai_time)
(get_block(network, earliest - 1).await.time(network).await >= context.serai_time)
{
earliest -= 1;
}

32
processor/src/networks/bitcoin.rs
View file

@ -256,6 +256,7 @@ impl SignableTransactionTrait for SignableTransaction {
}
}
#[async_trait]
impl BlockTrait<Bitcoin> for Block {
type Id = [u8; 32];
fn id(&self) -> Self::Id {
@ -270,10 +271,31 @@ impl BlockTrait<Bitcoin> for Block {
hash
}
// TODO: Don't use this block's time, use the network time at this block
// TODO: Confirm network time is monotonic, enabling its usage here
fn time(&self) -> u64 {
self.header.time.into()
async fn time(&self, rpc: &Bitcoin) -> u64 {
// Use the network median time defined in BIP-0113 since the in-block time isn't guaranteed to
// be monotonic
let mut timestamps = vec![u64::from(self.header.time)];
let mut parent = self.parent();
// BIP-0113 uses a median of the prior 11 blocks
while timestamps.len() < 11 {
let mut parent_block;
while {
parent_block = rpc.rpc.get_block(&parent).await;
parent_block.is_err()
} {
log::error!("couldn't get parent block when trying to get block time: {parent_block:?}");
sleep(Duration::from_secs(5)).await;
}
let parent_block = parent_block.unwrap();
timestamps.push(u64::from(parent_block.header.time));
parent = parent_block.parent();
if parent == [0; 32] {
break;
}
}
timestamps.sort();
timestamps[timestamps.len() / 2]
}
}
@ -325,7 +347,7 @@ impl Bitcoin {
let mut res = Rpc::new(url.clone()).await;
while let Err(e) = res {
log::error!("couldn't connect to Bitcoin node: {e:?}");
tokio::time::sleep(Duration::from_secs(5)).await;
sleep(Duration::from_secs(5)).await;
res = Rpc::new(url.clone()).await;
}
Bitcoin { rpc: res.unwrap() }

7
processor/src/networks/mod.rs
View file

@ -181,13 +181,16 @@ impl<E: Eventuality> Default for EventualitiesTracker<E> {
}
}
#[async_trait]
pub trait Block<N: Network>: Send + Sync + Sized + Clone + Debug {
// This is currently bounded to being 32 bytes.
type Id: 'static + Id;
fn id(&self) -> Self::Id;
fn parent(&self) -> Self::Id;
// The monotonic network time at this block.
fn time(&self) -> u64;
/// The monotonic network time at this block.
///
/// This call is presumed to be expensive and should only be called sparingly.
async fn time(&self, rpc: &N) -> u64;
}
// The post-fee value of an expected branch.

46
processor/src/networks/monero.rs
View file

@ -156,6 +156,7 @@ impl SignableTransactionTrait for SignableTransaction {
}
}
#[async_trait]
impl BlockTrait<Monero> for Block {
type Id = [u8; 32];
fn id(&self) -> Self::Id {
@ -166,9 +167,48 @@ impl BlockTrait<Monero> for Block {
self.header.previous
}
// TODO: Check Monero enforces this to be monotonic and sane
fn time(&self) -> u64 {
self.header.timestamp
async fn time(&self, rpc: &Monero) -> u64 {
// Constant from Monero
const BLOCKCHAIN_TIMESTAMP_CHECK_WINDOW: u64 = 60;
// If Monero doesn't have enough blocks to build a window, it doesn't define a network time
if (u64::try_from(self.number()).unwrap() + 1) < BLOCKCHAIN_TIMESTAMP_CHECK_WINDOW {
// Use the block number as the time
return self.number().try_into().unwrap();
}
let mut timestamps = vec![self.header.timestamp];
let mut parent = self.parent();
while u64::try_from(timestamps.len()).unwrap() < BLOCKCHAIN_TIMESTAMP_CHECK_WINDOW {
let mut parent_block;
while {
parent_block = rpc.rpc.get_block(parent).await;
parent_block.is_err()
} {
log::error!("couldn't get parent block when trying to get block time: {parent_block:?}");
sleep(Duration::from_secs(5)).await;
}
let parent_block = parent_block.unwrap();
timestamps.push(parent_block.header.timestamp);
parent = parent_block.parent();
if parent_block.number() == 0 {
break;
}
}
timestamps.sort();
// Because 60 has two medians, Monero's epee picks the in-between value, calculated by the
// following formula (from the "get_mid" function)
let n = timestamps.len() / 2;
let a = timestamps[n - 1];
let b = timestamps[n];
#[rustfmt::skip] // Enables Ctrl+F'ing for everything after the `= `
let res = (a/2) + (b/2) + ((a - 2*(a/2)) + (b - 2*(b/2)))/2;
// Techniaslly, res may be 1 if all prior blocks had a timestamp by 0, which would break
// monotonicity with our above definition of height as time
// Ensure monotonicity by increasing this value by the window size
res + BLOCKCHAIN_TIMESTAMP_CHECK_WINDOW
}
}

16
tests/full-stack/src/tests/mint_and_burn.rs
View file

@ -1,5 +1,5 @@
use std::{
sync::{Arc, Mutex},
sync::{OnceLock, Arc, Mutex},
time::{Duration, Instant},
collections::HashSet,
};
@ -40,6 +40,11 @@ async fn mint_and_burn_test() {
producer: &mut usize,
count: usize,
) {
static MINE_BLOCKS_CALL: OnceLock<tokio::sync::Mutex<()>> = OnceLock::new();
// Only let one instance of this function run at a time
let _lock = MINE_BLOCKS_CALL.get_or_init(|| tokio::sync::Mutex::new(())).lock().await;
// Pick a block producer via a round robin
let producer_handles = &handles[*producer];
*producer += 1;
@ -177,8 +182,8 @@ async fn mint_and_burn_test() {
// Bound execution to 60m
keep_mining && (Instant::now().duration_since(start) < Duration::from_secs(60 * 60))
} {
// Mine a block every 5s
tokio::time::sleep(Duration::from_secs(5)).await;
// Mine a block every 3s
tokio::time::sleep(Duration::from_secs(3)).await;
mine_blocks(&handles, &ops, &mut producer, 1).await;
}
})
@ -228,6 +233,11 @@ async fn mint_and_burn_test() {
(key_pair(false, NetworkId::Bitcoin).await, key_pair(true, NetworkId::Monero).await)
};
// Because the initial keys only become active when the network's time matches the Serai
// time, the Serai time is real yet the network time may be significantly delayed due to
// potentially being a median, mine a bunch of blocks now
mine_blocks(&handles, &ops, &mut 0, 100).await;
// Create a Serai address to receive the sriBTC/sriXMR to
let (serai_pair, serai_addr) = {
let mut name = [0; 4];