feat(draft): Spot meta

2025-12-06 10:59:55 +00:00 · 2025-11-05 04:07:46 +00:00
7 changed files with 218 additions and 32 deletions
--- a/src/main.rs
+++ b/src/main.rs
@ -18,7 +18,9 @@ use reth_hl::{
        HlNode,
        cli::{Cli, HlNodeArgs},
        rpc::precompile::{HlBlockPrecompileApiServer, HlBlockPrecompileExt},
        spot_meta::init as spot_meta_init,
        storage::tables::Tables,
        types::set_spot_metadata_db,
    },
 };
 use tracing::info;
@ -92,6 +94,16 @@ fn main() -> eyre::Result<()> {
                })
                .apply(|mut builder| {
                    builder.db_mut().create_tables_for::<Tables>().expect("create tables");
                    let chain_id = builder.config().chain.inner.chain().id();
                    let db = builder.db_mut().clone();
                    // Set database handle for on-demand persistence
                    set_spot_metadata_db(db.clone());
                    // Load spot metadata from database and initialize cache
                    spot_meta_init::load_spot_metadata_cache(&db, chain_id);
                    builder
                })
                .launch()
--- a/src/node/cli.rs
+++ b/src/node/cli.rs
@ -1,7 +1,11 @@
 use crate::{
    chainspec::{HlChainSpec, parser::HlChainSpecParser},
    node::{
-        HlNode, consensus::HlConsensus, evm::config::HlEvmConfig, migrate::Migrator,
+        HlNode,
        consensus::HlConsensus,
        evm::config::HlEvmConfig,
        migrate::Migrator,
        spot_meta::init as spot_meta_init,
        storage::tables::Tables,
    },
    pseudo_peer::BlockSourceArgs,
@ -20,10 +24,7 @@ use reth_cli::chainspec::ChainSpecParser;
 use reth_cli_commands::{common::EnvironmentArgs, launcher::FnLauncher};
 use reth_db::{DatabaseEnv, init_db, mdbx::init_db_for};
 use reth_tracing::FileWorkerGuard;
-use std::{
+use std::{fmt::{self}, sync::Arc};
    fmt::{self},
    sync::Arc,
 };
 use tracing::info;
 macro_rules! not_applicable {
@ -194,7 +195,12 @@ where
        let data_dir = env.datadir.clone().resolve_datadir(env.chain.chain());
        let db_path = data_dir.db();
        init_db(db_path.clone(), env.db.database_args())?;
-        init_db_for::<_, Tables>(db_path, env.db.database_args())?;
+        init_db_for::<_, Tables>(db_path.clone(), env.db.database_args())?;
        // Initialize spot metadata in database
        let chain_id = env.chain.chain().id();
        spot_meta_init::init_spot_metadata(db_path, env.db.database_args(), chain_id)?;
        Ok(())
    }
--- a/src/node/spot_meta/init.rs
+++ b/src/node/spot_meta/init.rs
@ -0,0 +1,106 @@
 use crate::node::{
    spot_meta::{SpotId, erc20_contract_to_spot_token},
    storage::tables::{self, SPOT_METADATA_KEY},
    types::reth_compat,
 };
 use alloy_primitives::{Address, Bytes};
 use reth_db::{DatabaseEnv, cursor::{DbCursorRO, DbCursorRW}};
 use reth_db_api::{Database, transaction::{DbTx, DbTxMut}};
 use std::{collections::BTreeMap, sync::Arc};
 use tracing::info;
 /// Load spot metadata from database and initialize cache
 pub fn load_spot_metadata_cache(db: &Arc<DatabaseEnv>, chain_id: u64) {
    // Try to read from database
    let data = match db.view(|tx| -> Result<Option<Vec<u8>>, reth_db::DatabaseError> {
        let mut cursor = tx.cursor_read::<tables::SpotMetadata>()?;
        Ok(cursor.seek_exact(SPOT_METADATA_KEY)?.map(|(_, data)| data.to_vec()))
    }) {
        Ok(Ok(data)) => data,
        Ok(Err(e)) => {
            info!("Failed to read spot metadata from database: {}. Will fetch on-demand from API.", e);
            return;
        }
        Err(e) => {
            info!("Database view error while loading spot metadata: {}. Will fetch on-demand from API.", e);
            return;
        }
    };
    // Check if data exists
    let Some(data) = data else {
        info!(
            "No spot metadata found in database for chain {}. Run 'init-state' to populate, or it will be fetched on-demand from API.",
            chain_id
        );
        return;
    };
    // Deserialize metadata
    let serializable_map = match rmp_serde::from_slice::<BTreeMap<Address, u64>>(&data) {
        Ok(map) => map,
        Err(e) => {
            info!("Failed to deserialize spot metadata: {}. Will fetch on-demand from API.", e);
            return;
        }
    };
    // Convert and initialize cache
    let metadata: BTreeMap<Address, SpotId> = serializable_map
        .into_iter()
        .map(|(addr, index)| (addr, SpotId { index }))
        .collect();
    info!("Loaded spot metadata from database ({} entries)", metadata.len());
    reth_compat::initialize_spot_metadata_cache(metadata);
 }
 /// Initialize spot metadata in database from API
 pub fn init_spot_metadata(
    db_path: impl AsRef<std::path::Path>,
    db_args: reth_db::mdbx::DatabaseArguments,
    chain_id: u64,
 ) -> eyre::Result<()> {
    info!("Initializing spot metadata for chain {}", chain_id);
    let db = Arc::new(reth_db::open_db(db_path.as_ref(), db_args)?);
    // Check if spot metadata already exists
    let exists = db.view(|tx| -> Result<bool, reth_db::DatabaseError> {
        let mut cursor = tx.cursor_read::<tables::SpotMetadata>()?;
        Ok(cursor.seek_exact(SPOT_METADATA_KEY)?.is_some())
    })??;
    if exists {
        info!("Spot metadata already exists in database");
        return Ok(());
    }
    // Fetch from API
    let metadata = match erc20_contract_to_spot_token(chain_id) {
        Ok(m) => m,
        Err(e) => {
            info!("Failed to fetch spot metadata from API: {}. Will be fetched on-demand.", e);
            return Ok(());
        }
    };
    // Serialize and store
    let serializable_map: BTreeMap<Address, u64> =
        metadata.iter().map(|(addr, spot)| (*addr, spot.index)).collect();
    db.update(|tx| -> Result<(), reth_db::DatabaseError> {
        let mut cursor = tx.cursor_write::<tables::SpotMetadata>()?;
        cursor.upsert(
            SPOT_METADATA_KEY,
            &Bytes::from(
                rmp_serde::to_vec(&serializable_map)
                    .expect("Failed to serialize spot metadata"),
            ),
        )?;
        Ok(())
    })??;
    info!("Successfully fetched and stored spot metadata for chain {}", chain_id);
    Ok(())
 }
--- a/src/node/spot_meta/mod.rs
+++ b/src/node/spot_meta/mod.rs
@ -5,6 +5,7 @@ use std::collections::BTreeMap;
 use crate::chainspec::{MAINNET_CHAIN_ID, TESTNET_CHAIN_ID};
 pub mod init;
 mod patch;
 #[derive(Debug, Clone, Serialize, Deserialize)]
@ -25,7 +26,7 @@ pub struct SpotMeta {
 }
 #[derive(Debug, Clone)]
-pub(crate) struct SpotId {
+pub struct SpotId {
    pub index: u64,
 }
--- a/src/node/storage/tables.rs
+++ b/src/node/storage/tables.rs
@ -2,10 +2,21 @@ use alloy_primitives::{BlockNumber, Bytes};
 use reth_db::{TableSet, TableType, TableViewer, table::TableInfo, tables};
 use std::fmt;
 /// Static key used for spot metadata, as the database is unique to each chain.
 /// This may later serve as a versioning key to assist with future database migrations.
 pub const SPOT_METADATA_KEY: u64 = 0;
 tables! {
    /// Read precompile calls for each block.
    table BlockReadPrecompileCalls {
        type Key = BlockNumber;
        type Value = Bytes;
    }
    /// Spot metadata mapping (EVM address to spot token index).
    /// Uses a constant key since the database is chain-specific.
    table SpotMetadata {
        type Key = u64;
        type Value = Bytes;
    }
 }
--- a/src/node/types/mod.rs
+++ b/src/node/types/mod.rs
@ -19,6 +19,9 @@ pub struct ReadPrecompileCalls(pub Vec<ReadPrecompileCall>);
 pub(crate) mod reth_compat;
 // Re-export spot metadata functions
 pub use reth_compat::{initialize_spot_metadata_cache, set_spot_metadata_db};
 #[derive(Debug, Clone, Serialize, Deserialize, Default)]
 pub struct HlExtras {
    pub read_precompile_calls: Option<ReadPrecompileCalls>,
--- a/src/node/types/reth_compat.rs
+++ b/src/node/types/reth_compat.rs
@ -1,12 +1,15 @@
 //! Copy of reth codebase to preserve serialization compatibility
 use crate::chainspec::TESTNET_CHAIN_ID;
 use crate::node::storage::tables::{SPOT_METADATA_KEY, SpotMetadata};
 use alloy_consensus::{Header, Signed, TxEip1559, TxEip2930, TxEip4844, TxEip7702, TxLegacy};
-use alloy_primitives::{Address, BlockHash, Signature, TxKind, U256};
+use alloy_primitives::{Address, BlockHash, Bytes, Signature, TxKind, U256};
 use reth_db::cursor::DbCursorRW;
 use reth_db_api::{Database, transaction::DbTxMut};
 use reth_primitives::TransactionSigned as RethTxSigned;
 use serde::{Deserialize, Serialize};
 use std::{
    collections::BTreeMap,
-    sync::{Arc, LazyLock, RwLock},
+    sync::{Arc, LazyLock, Mutex, RwLock},
 };
 use tracing::info;
@ -82,33 +85,77 @@ pub struct SealedBlock {
    pub body: BlockBody,
 }
-fn system_tx_to_reth_transaction(transaction: &SystemTx, chain_id: u64) -> TxSigned {
+static EVM_MAP: LazyLock<Arc<RwLock<BTreeMap<Address, SpotId>>>> =
-    static EVM_MAP: LazyLock<Arc<RwLock<BTreeMap<Address, SpotId>>>> =
+    LazyLock::new(|| Arc::new(RwLock::new(BTreeMap::new())));
        LazyLock::new(|| Arc::new(RwLock::new(BTreeMap::new())));
    {
        let Transaction::Legacy(tx) = &transaction.tx else {
            panic!("Unexpected transaction type");
        };
        let TxKind::Call(to) = tx.to else {
            panic!("Unexpected contract creation");
        };
        let s = if tx.input.is_empty() {
            U256::from(0x1)
        } else {
            loop {
                if let Some(spot) = EVM_MAP.read().unwrap().get(&to) {
                    break spot.to_s();
                }
-                info!("Contract not found: {to:?} from spot mapping, fetching again...");
+// Optional database handle for persisting on-demand fetches
-                *EVM_MAP.write().unwrap() = erc20_contract_to_spot_token(chain_id).unwrap();
+static DB_HANDLE: LazyLock<Mutex<Option<Arc<reth_db::DatabaseEnv>>>> =
-            }
+    LazyLock::new(|| Mutex::new(None));
-        };
+
-        let signature = Signature::new(U256::from(0x1), s, true);
+/// Set the database handle for persisting spot metadata
-        TxSigned::Default(RethTxSigned::Legacy(Signed::new_unhashed(tx.clone(), signature)))
+pub fn set_spot_metadata_db(db: Arc<reth_db::DatabaseEnv>) {
    *DB_HANDLE.lock().unwrap() = Some(db);
 }
 /// Initialize the spot metadata cache with data loaded from database.
 /// This should be called during node initialization.
 pub fn initialize_spot_metadata_cache(metadata: BTreeMap<Address, SpotId>) {
    *EVM_MAP.write().unwrap() = metadata;
 }
 /// Persist spot metadata to database if handle is available
 fn persist_spot_metadata_to_db(metadata: &BTreeMap<Address, SpotId>) {
    if let Some(db) = DB_HANDLE.lock().unwrap().as_ref() {
        let result = db.update(|tx| -> Result<(), reth_db::DatabaseError> {
            let mut cursor = tx.cursor_write::<SpotMetadata>()?;
            // Serialize to BTreeMap<Address, u64>
            let serializable_map: BTreeMap<Address, u64> =
                metadata.iter().map(|(addr, spot)| (*addr, spot.index)).collect();
            cursor.upsert(
                SPOT_METADATA_KEY,
                &Bytes::from(
                    rmp_serde::to_vec(&serializable_map)
                        .expect("Failed to serialize spot metadata"),
                ),
            )?;
            Ok(())
        });
        match result {
            Ok(_) => info!("Persisted spot metadata to database"),
            Err(e) => info!("Failed to persist spot metadata to database: {}", e),
        }
    }
 }
 fn system_tx_to_reth_transaction(transaction: &SystemTx, chain_id: u64) -> TxSigned {
    let Transaction::Legacy(tx) = &transaction.tx else {
        panic!("Unexpected transaction type");
    };
    let TxKind::Call(to) = tx.to else {
        panic!("Unexpected contract creation");
    };
    let s = if tx.input.is_empty() {
        U256::from(0x1)
    } else {
        loop {
            if let Some(spot) = EVM_MAP.read().unwrap().get(&to) {
                break spot.to_s();
            }
            // Cache miss - fetch from API, update cache, and persist to database
            info!("Contract not found: {to:?} from spot mapping, fetching from API...");
            let metadata = erc20_contract_to_spot_token(chain_id).unwrap();
            *EVM_MAP.write().unwrap() = metadata.clone();
            persist_spot_metadata_to_db(&metadata);
        }
    };
    let signature = Signature::new(U256::from(0x1), s, true);
    TxSigned::Default(RethTxSigned::Legacy(Signed::new_unhashed(tx.clone(), signature)))
 }
 impl SealedBlock {
    pub fn to_reth_block(
        &self,