///! Load balanced communication with a group of web3 rpc providers use super::blockchain::{BlocksByHashCache, BlocksByNumberCache, Web3ProxyBlock}; use super::consensus::{ConsensusWeb3Rpcs, ShouldWaitForBlock}; use super::one::Web3Rpc; use super::request::{OpenRequestHandle, OpenRequestResult, RequestErrorHandler}; use crate::app::{flatten_handle, AnyhowJoinHandle, Web3ProxyApp}; use crate::config::{BlockAndRpc, TxHashAndRpc, Web3RpcConfig}; use crate::frontend::authorization::{Authorization, RequestMetadata}; use crate::frontend::errors::{Web3ProxyError, Web3ProxyResult}; use crate::frontend::rpc_proxy_ws::ProxyMode; use crate::jsonrpc::{JsonRpcErrorData, JsonRpcRequest}; use crate::response_cache::JsonRpcResponseData; use crate::rpcs::transactions::TxStatus; use anyhow::Context; use arc_swap::ArcSwap; use counter::Counter; use derive_more::From; use ethers::prelude::{ProviderError, TxHash, U64}; use futures::future::try_join_all; use futures::stream::FuturesUnordered; use futures::StreamExt; use hashbrown::{HashMap, HashSet}; use itertools::Itertools; use log::{debug, error, info, trace, warn, Level}; use migration::sea_orm::DatabaseConnection; use ordered_float::OrderedFloat; use quick_cache_ttl::CacheWithTTL; use serde::ser::{SerializeStruct, Serializer}; use serde::Serialize; use serde_json::json; use serde_json::value::RawValue; use std::borrow::Cow; use std::cmp::{min_by_key, Reverse}; use std::fmt::{self, Display}; use std::sync::atomic::Ordering; use std::sync::Arc; use thread_fast_rng::rand::seq::SliceRandom; use tokio::sync::{broadcast, watch}; use tokio::time::{interval, sleep, sleep_until, Duration, Instant, MissedTickBehavior}; /// A collection of web3 connections. Sends requests either the current best server or all servers. #[derive(From)] pub struct Web3Rpcs { pub(crate) name: String, /// if watch_consensus_head_sender is some, Web3Rpc inside self will send blocks here when they get them pub(crate) block_sender: flume::Sender<(Option, Arc)>, /// any requests will be forwarded to one (or more) of these connections pub(crate) by_name: ArcSwap>>, /// notify all http providers to check their blocks at the same time pub(crate) http_interval_sender: Option>>, /// all providers with the same consensus head block. won't update if there is no `self.watch_consensus_head_sender` /// TODO: document that this is a watch sender and not a broadcast! if things get busy, blocks might get missed /// TODO: why is watch_consensus_head_sender in an Option, but this one isn't? /// Geth's subscriptions have the same potential for skipping blocks. pub(crate) watch_consensus_rpcs_sender: watch::Sender>>, /// this head receiver makes it easy to wait until there is a new block pub(super) watch_consensus_head_sender: Option>>, /// keep track of transactions that we have sent through subscriptions pub(super) pending_transaction_cache: Arc>, pub(super) pending_tx_id_receiver: flume::Receiver, pub(super) pending_tx_id_sender: flume::Sender, /// TODO: this map is going to grow forever unless we do some sort of pruning. maybe store pruned in redis? /// all blocks, including orphans pub(super) blocks_by_hash: BlocksByHashCache, /// blocks on the heaviest chain pub(super) blocks_by_number: BlocksByNumberCache, /// the number of rpcs required to agree on consensus for the head block (thundering herd protection) pub(super) min_head_rpcs: usize, /// the soft limit required to agree on consensus for the head block. (thundering herd protection) pub(super) min_sum_soft_limit: u32, /// how far behind the highest known block height we can be before we stop serving requests pub(super) max_block_lag: Option, /// how old our consensus head block we can be before we stop serving requests pub(super) max_block_age: Option, } impl Web3Rpcs { /// Spawn durable connections to multiple Web3 providers. #[allow(clippy::too_many_arguments)] pub async fn spawn( chain_id: u64, db_conn: Option, http_client: Option, max_block_age: Option, max_block_lag: Option, min_head_rpcs: usize, min_sum_soft_limit: u32, name: String, pending_transaction_cache: Arc>, pending_tx_sender: Option>, watch_consensus_head_sender: Option>>, ) -> anyhow::Result<( Arc, AnyhowJoinHandle<()>, watch::Receiver>>, // watch::Receiver>, )> { let (pending_tx_id_sender, pending_tx_id_receiver) = flume::unbounded(); let (block_sender, block_receiver) = flume::unbounded::(); // TODO: query the rpc to get the actual expected block time, or get from config? maybe have this be part of a health check? let expected_block_time_ms = match chain_id { // ethereum 1 => 12_000, // ethereum-goerli 5 => 12_000, // polygon 137 => 2_000, // fantom 250 => 1_000, // arbitrum 42161 => 500, // anything else _ => { warn!( "unexpected chain_id ({}). polling every {} seconds", chain_id, 10 ); 10_000 } }; let http_interval_sender = if http_client.is_some() { let (sender, _) = broadcast::channel(1); // TODO: what interval? follow a websocket also? maybe by watching synced connections with a timeout. will need debounce let mut interval = interval(Duration::from_millis(expected_block_time_ms / 2)); interval.set_missed_tick_behavior(MissedTickBehavior::Delay); let sender = Arc::new(sender); let f = { let sender = sender.clone(); async move { loop { interval.tick().await; // trace!("http interval ready"); if sender.send(()).is_err() { // errors are okay. they mean that all receivers have been dropped, or the rpcs just haven't started yet // TODO: i'm seeing this error a lot more than expected trace!("no http receivers"); }; } } }; // TODO: do something with this handle? tokio::spawn(f); Some(sender) } else { None }; // these blocks don't have full transactions, but they do have rather variable amounts of transaction hashes // TODO: how can we do the weigher this? need to know actual allocated size // TODO: time_to_idle instead? // TODO: limits from config let blocks_by_hash: BlocksByHashCache = Arc::new(CacheWithTTL::new_with_capacity(10_000, Duration::from_secs(30 * 60)).await); // .max_capacity(1024 * 1024 * 1024) // .weigher(|_k, v: &Web3ProxyBlock| { // 1 + v.block.transactions.len().try_into().unwrap_or(u32::MAX) // }) // .time_to_live(Duration::from_secs(30 * 60)) // .build_with_hasher(hashbrown::hash_map::DefaultHashBuilder::default()); // all block numbers are the same size, so no need for weigher // TODO: limits from config // TODO: time_to_idle instead? let blocks_by_number = Arc::new(CacheWithTTL::new_with_capacity(10_000, Duration::from_secs(30 * 60)).await); let (watch_consensus_rpcs_sender, consensus_connections_watcher) = watch::channel(Default::default()); // by_name starts empty. self.apply_server_configs will add to it let by_name = Default::default(); let connections = Arc::new(Self { block_sender, blocks_by_hash, blocks_by_number, by_name, http_interval_sender, max_block_age, max_block_lag, min_head_rpcs, min_sum_soft_limit, name, pending_transaction_cache, pending_tx_id_receiver, pending_tx_id_sender, watch_consensus_head_sender, watch_consensus_rpcs_sender, }); let authorization = Arc::new(Authorization::internal(db_conn)?); let handle = { let connections = connections.clone(); tokio::spawn(connections.subscribe(authorization, block_receiver, pending_tx_sender)) }; Ok((connections, handle, consensus_connections_watcher)) } /// update the rpcs in this group pub async fn apply_server_configs( &self, app: &Web3ProxyApp, rpc_configs: HashMap, ) -> anyhow::Result<()> { // safety checks if rpc_configs.len() < app.config.min_synced_rpcs { // TODO: don't count disabled servers! // TODO: include if this is balanced, private, or 4337 warn!( "Only {}/{} rpcs! Add more rpcs or reduce min_synced_rpcs.", rpc_configs.len(), app.config.min_synced_rpcs ); return Ok(()); } // safety check on sum soft limit // TODO: will need to think about this more once sum_soft_limit is dynamic let sum_soft_limit = rpc_configs.values().fold(0, |acc, x| acc + x.soft_limit); // TODO: require a buffer? anyhow::ensure!( sum_soft_limit >= self.min_sum_soft_limit, "Only {}/{} soft limit! Add more rpcs, increase soft limits, or reduce min_sum_soft_limit.", sum_soft_limit, self.min_sum_soft_limit, ); // turn configs into connections (in parallel) // TODO: move this into a helper function. then we can use it when configs change (will need a remove function too) let mut spawn_handles: FuturesUnordered<_> = rpc_configs .into_iter() .filter_map(|(server_name, server_config)| { if server_config.disabled { info!("{} is disabled", server_name); return None; } let db_conn = app.db_conn(); let http_client = app.http_client.clone(); let vredis_pool = app.vredis_pool.clone(); let block_sender = if self.watch_consensus_head_sender.is_some() { Some(self.block_sender.clone()) } else { None }; let pending_tx_id_sender = Some(self.pending_tx_id_sender.clone()); let blocks_by_hash_cache = self.blocks_by_hash.clone(); let http_interval_sender = self.http_interval_sender.clone(); let chain_id = app.config.chain_id; debug!("spawning {}", server_name); let handle = tokio::spawn(server_config.spawn( server_name, db_conn, vredis_pool, chain_id, http_client, http_interval_sender, blocks_by_hash_cache, block_sender, pending_tx_id_sender, true, )); Some(handle) }) .collect(); while let Some(x) = spawn_handles.next().await { match x { Ok(Ok((rpc, _handle))) => { // web3 connection worked let mut new_by_name = (*self.by_name.load_full()).clone(); let old_rpc = new_by_name.insert(rpc.name.clone(), rpc.clone()); self.by_name.store(Arc::new(new_by_name)); if let Some(old_rpc) = old_rpc { if old_rpc.head_block.as_ref().unwrap().borrow().is_some() { let mut new_head_receiver = rpc.head_block.as_ref().unwrap().subscribe(); debug!("waiting for new {} to sync", rpc); // TODO: maximum wait time or this could block things for too long while new_head_receiver.borrow_and_update().is_none() { new_head_receiver.changed().await?; } } old_rpc.disconnect().await.context("disconnect old rpc")?; } // TODO: what should we do with the new handle? make sure error logs aren't dropped } Ok(Err(err)) => { // if we got an error here, the app can continue on // TODO: include context about which connection failed // TODO: will this retry automatically? i don't think so error!("Unable to create connection. err={:?}", err); } Err(err) => { // something actually bad happened. exit with an error return Err(err.into()); } } } Ok(()) } pub fn get(&self, conn_name: &str) -> Option> { self.by_name.load().get(conn_name).cloned() } pub fn len(&self) -> usize { self.by_name.load().len() } pub fn is_empty(&self) -> bool { self.by_name.load().is_empty() } pub fn min_head_rpcs(&self) -> usize { self.min_head_rpcs } /// subscribe to blocks and transactions from all the backend rpcs. /// blocks are processed by all the `Web3Rpc`s and then sent to the `block_receiver` /// transaction ids from all the `Web3Rpc`s are deduplicated and forwarded to `pending_tx_sender` async fn subscribe( self: Arc, authorization: Arc, block_receiver: flume::Receiver, pending_tx_sender: Option>, ) -> anyhow::Result<()> { let mut futures = vec![]; // setup the transaction funnel // it skips any duplicates (unless they are being orphaned) // fetches new transactions from the notifying rpc // forwards new transacitons to pending_tx_receipt_sender if let Some(pending_tx_sender) = pending_tx_sender.clone() { let clone = self.clone(); let authorization = authorization.clone(); let pending_tx_id_receiver = self.pending_tx_id_receiver.clone(); let handle = tokio::task::spawn(async move { // TODO: set up this future the same as the block funnel while let Ok((pending_tx_id, rpc)) = pending_tx_id_receiver.recv_async().await { let f = clone.clone().process_incoming_tx_id( authorization.clone(), rpc, pending_tx_id, pending_tx_sender.clone(), ); tokio::spawn(f); } Ok(()) }); futures.push(flatten_handle(handle)); } // setup the block funnel if self.watch_consensus_head_sender.is_some() { let connections = Arc::clone(&self); let pending_tx_sender = pending_tx_sender.clone(); let handle = tokio::task::Builder::default() .name("process_incoming_blocks") .spawn(async move { connections .process_incoming_blocks(&authorization, block_receiver, pending_tx_sender) .await })?; futures.push(flatten_handle(handle)); } if futures.is_empty() { // no transaction or block subscriptions. let handle = tokio::task::Builder::default() .name("noop") .spawn(async move { loop { sleep(Duration::from_secs(600)).await; // TODO: "every interval, check that the provider is still connected" } })?; futures.push(flatten_handle(handle)); } if let Err(e) = try_join_all(futures).await { error!("subscriptions over: {:?}", self); return Err(e); } info!("subscriptions over: {:?}", self); Ok(()) } /// Send the same request to all the handles. Returning the most common success or most common error. /// TODO: option to return the fastest response and handles for all the others instead? pub async fn try_send_parallel_requests( &self, active_request_handles: Vec, method: &str, params: Option<&serde_json::Value>, error_level: Level, // TODO: remove this box once i figure out how to do the options ) -> Web3ProxyResult { // TODO: if only 1 active_request_handles, do self.try_send_request? let responses = active_request_handles .into_iter() .map(|active_request_handle| async move { let result: Result, _> = active_request_handle .request(method, &json!(¶ms), error_level.into(), None) .await; result }) .collect::>() .collect::, ProviderError>>>() .await; // TODO: Strings are not great keys, but we can't use RawValue or ProviderError as keys because they don't implement Hash or Eq let mut count_map: HashMap = HashMap::new(); let mut counts: Counter = Counter::new(); let mut any_ok_with_json_result = false; for partial_response in responses { if partial_response.is_ok() { any_ok_with_json_result = true; } // TODO: better key! let s = format!("{:?}", partial_response); if count_map.get(&s).is_none() { count_map.insert(s.clone(), partial_response); } counts.update([s].into_iter()); } for (most_common, _) in counts.most_common_ordered() { let most_common = count_map .remove(&most_common) .expect("most_common key must exist"); match most_common { Ok(x) => { // return the most common success return Ok(x.into()); } Err(err) => { if any_ok_with_json_result { // the most common is an error, but there is an Ok in here somewhere. loop to find it continue; } let err: JsonRpcErrorData = err.try_into()?; return Ok(err.into()); } } } // TODO: what should we do if we get here? i don't think we will unimplemented!("this shouldn't be possible") } async fn _best_available_rpc( &self, authorization: &Arc, potential_rpcs: &[Arc], skip: &mut Vec>, ) -> OpenRequestResult { let mut earliest_retry_at = None; for (rpc_a, rpc_b) in potential_rpcs.iter().circular_tuple_windows() { trace!("{} vs {}", rpc_a, rpc_b); // TODO: cached key to save a read lock // TODO: ties to the server with the smallest block_data_limit let faster_rpc = min_by_key(rpc_a, rpc_b, |x| x.peak_ewma()); trace!("winner: {}", faster_rpc); // add to the skip list in case this one fails skip.push(Arc::clone(faster_rpc)); // just because it has lower latency doesn't mean we are sure to get a connection. there might be rate limits match faster_rpc.try_request_handle(authorization, None).await { Ok(OpenRequestResult::Handle(handle)) => { trace!("opened handle: {}", faster_rpc); return OpenRequestResult::Handle(handle); } Ok(OpenRequestResult::RetryAt(retry_at)) => { trace!( "retry on {} @ {}", faster_rpc, retry_at.duration_since(Instant::now()).as_secs_f32() ); if earliest_retry_at.is_none() { earliest_retry_at = Some(retry_at); } else { earliest_retry_at = earliest_retry_at.min(Some(retry_at)); } } Ok(OpenRequestResult::NotReady) => { // TODO: log a warning? emit a stat? trace!("best_rpc not ready: {}", faster_rpc); } Err(err) => { trace!("No request handle for {}. err={:?}", faster_rpc, err) } } } if let Some(retry_at) = earliest_retry_at { OpenRequestResult::RetryAt(retry_at) } else { OpenRequestResult::NotReady } } pub async fn wait_for_best_rpc( &self, authorization: &Arc, request_metadata: Option<&Arc>, skip_rpcs: &mut Vec>, min_block_needed: Option<&U64>, max_block_needed: Option<&U64>, ) -> Web3ProxyResult { let mut earliest_retry_at: Option = None; if self.watch_consensus_head_sender.is_none() { trace!("this Web3Rpcs is not tracking head blocks. pick any server"); let by_name = self.by_name.load(); let mut potential_rpcs: Vec<_> = by_name .values() .filter(|rpc| !skip_rpcs.contains(rpc)) .filter(|rpc| { min_block_needed .map(|x| rpc.has_block_data(x)) .unwrap_or(true) }) .filter(|rpc| { max_block_needed .map(|x| rpc.has_block_data(x)) .unwrap_or(true) }) .cloned() .collect(); potential_rpcs.shuffle(&mut thread_fast_rng::thread_fast_rng()); match self ._best_available_rpc(authorization, &potential_rpcs, skip_rpcs) .await { OpenRequestResult::Handle(x) => return Ok(OpenRequestResult::Handle(x)), OpenRequestResult::NotReady => {} OpenRequestResult::RetryAt(retry_at) => { if earliest_retry_at.is_none() { earliest_retry_at = Some(retry_at); } else { earliest_retry_at = earliest_retry_at.min(Some(retry_at)); } } } } else { let start = Instant::now(); // TODO: get from config or argument let max_wait = Duration::from_secs(10); let mut watch_consensus_rpcs = self.watch_consensus_rpcs_sender.subscribe(); let mut potential_rpcs = Vec::with_capacity(self.by_name.load().len()); while start.elapsed() < max_wait { let consensus_rpcs = watch_consensus_rpcs.borrow_and_update().clone(); potential_rpcs.clear(); // first check everything that is synced // even though we might be querying an old block that an unsynced server can handle, // it is best to not send queries to a syncing server. that slows down sync and can bloat erigon's disk usage. if let Some(consensus_rpcs) = consensus_rpcs { potential_rpcs.extend( consensus_rpcs .head_rpcs .iter() .filter(|rpc| { consensus_rpcs.rpc_will_work_now( skip_rpcs, min_block_needed, max_block_needed, rpc, ) }) .cloned(), ); potential_rpcs.shuffle(&mut thread_fast_rng::thread_fast_rng()); if potential_rpcs.len() >= self.min_head_rpcs { // we have enough potential rpcs. try to load balance match self ._best_available_rpc(authorization, &potential_rpcs, skip_rpcs) .await { OpenRequestResult::Handle(x) => { return Ok(OpenRequestResult::Handle(x)) } OpenRequestResult::NotReady => {} OpenRequestResult::RetryAt(retry_at) => { if earliest_retry_at.is_none() { earliest_retry_at = Some(retry_at); } else { earliest_retry_at = earliest_retry_at.min(Some(retry_at)); } } } // these rpcs were tried. don't try them again potential_rpcs.clear(); } for next_rpcs in consensus_rpcs.other_rpcs.values() { // we have to collect in order to shuffle let mut more_rpcs: Vec<_> = next_rpcs .iter() .filter(|rpc| { consensus_rpcs.rpc_will_work_now( skip_rpcs, min_block_needed, max_block_needed, rpc, ) }) .cloned() .collect(); // shuffle only the new entries. that way the highest tier still gets preference more_rpcs.shuffle(&mut thread_fast_rng::thread_fast_rng()); potential_rpcs.extend(more_rpcs.into_iter()); if potential_rpcs.len() >= self.min_head_rpcs { // we have enough potential rpcs. try to load balance match self ._best_available_rpc(authorization, &potential_rpcs, skip_rpcs) .await { OpenRequestResult::Handle(x) => { return Ok(OpenRequestResult::Handle(x)) } OpenRequestResult::NotReady => {} OpenRequestResult::RetryAt(retry_at) => { if earliest_retry_at.is_none() { earliest_retry_at = Some(retry_at); } else { earliest_retry_at = earliest_retry_at.min(Some(retry_at)); } } } // these rpcs were tried. don't try them again potential_rpcs.clear(); } } if !potential_rpcs.is_empty() { // even after scanning all the tiers, there are not enough rpcs that can serve this request. try anyways match self ._best_available_rpc(authorization, &potential_rpcs, skip_rpcs) .await { OpenRequestResult::Handle(x) => { return Ok(OpenRequestResult::Handle(x)) } OpenRequestResult::NotReady => {} OpenRequestResult::RetryAt(retry_at) => { if earliest_retry_at.is_none() { earliest_retry_at = Some(retry_at); } else { earliest_retry_at = earliest_retry_at.min(Some(retry_at)); } } } } let waiting_for = min_block_needed.max(max_block_needed); match consensus_rpcs.should_wait_for_block(waiting_for, skip_rpcs) { ShouldWaitForBlock::NeverReady => break, ShouldWaitForBlock::Ready => continue, ShouldWaitForBlock::Wait { .. } => {} } // TODO: select on consensus_rpcs changing and on earliest_retry_at watch_consensus_rpcs.changed().await?; } } } if let Some(request_metadata) = request_metadata { request_metadata.no_servers.fetch_add(1, Ordering::AcqRel); } if let Some(retry_at) = earliest_retry_at { // TODO: log the server that retry_at came from warn!( "no servers in {} ready! Skipped {:?}. Retry in {:?}s", self, skip_rpcs, retry_at.duration_since(Instant::now()).as_secs_f32() ); Ok(OpenRequestResult::RetryAt(retry_at)) } else { warn!("no servers in {} ready! Skipped {:?}", self, skip_rpcs); Ok(OpenRequestResult::NotReady) } } /// get all rpc servers that are not rate limited /// this prefers synced servers, but it will return servers even if they aren't fully in sync. /// This is useful for broadcasting signed transactions. // TODO: better type on this that can return an anyhow::Result // TODO: this is broken pub async fn all_connections( &self, authorization: &Arc, min_block_needed: Option<&U64>, max_block_needed: Option<&U64>, max_count: Option, allow_backups: bool, ) -> Result, Option> { let mut earliest_retry_at = None; let mut max_count = if let Some(max_count) = max_count { max_count } else { self.by_name.load().len() }; trace!("max_count: {}", max_count); let mut selected_rpcs = Vec::with_capacity(max_count); let mut tried = HashSet::new(); let mut synced_rpcs = { let synced_rpcs = self.watch_consensus_rpcs_sender.borrow(); if let Some(synced_rpcs) = synced_rpcs.as_ref() { synced_rpcs.head_rpcs.clone() } else { vec![] } }; // synced connections are all on the same block. sort them by tier with higher soft limits first synced_rpcs.sort_by_cached_key(rpc_sync_status_sort_key); trace!("synced_rpcs: {:#?}", synced_rpcs); // if there aren't enough synced connections, include more connections // TODO: only do this sorting if the synced_rpcs isn't enough let mut all_rpcs: Vec<_> = self.by_name.load().values().cloned().collect(); all_rpcs.sort_by_cached_key(rpc_sync_status_sort_key); trace!("all_rpcs: {:#?}", all_rpcs); for rpc in itertools::chain(synced_rpcs, all_rpcs) { if max_count == 0 { break; } if tried.contains(&rpc) { continue; } trace!("trying {}", rpc); tried.insert(rpc.clone()); if !allow_backups && rpc.backup { warn!("{} is a backup. skipping", rpc); continue; } if let Some(block_needed) = min_block_needed { if !rpc.has_block_data(block_needed) { trace!("{} is missing min_block_needed. skipping", rpc); continue; } } if let Some(block_needed) = max_block_needed { if !rpc.has_block_data(block_needed) { trace!("{} is missing max_block_needed. skipping", rpc); continue; } } // check rate limits and increment our connection counter match rpc.try_request_handle(authorization, None).await { Ok(OpenRequestResult::RetryAt(retry_at)) => { // this rpc is not available. skip it trace!("{} is rate limited. skipping", rpc); earliest_retry_at = earliest_retry_at.min(Some(retry_at)); } Ok(OpenRequestResult::Handle(handle)) => { trace!("{} is available", rpc); max_count -= 1; selected_rpcs.push(handle) } Ok(OpenRequestResult::NotReady) => { warn!("no request handle for {}", rpc) } Err(err) => { warn!("error getting request handle for {}. err={:?}", rpc, err) } } } if !selected_rpcs.is_empty() { return Ok(selected_rpcs); } // return the earliest retry_after (if no rpcs are synced, this will be None) Err(earliest_retry_at) } /// be sure there is a timeout on this or it might loop forever /// TODO: think more about wait_for_sync pub async fn try_send_best_connection( &self, authorization: &Arc, request: &JsonRpcRequest, request_metadata: Option<&Arc>, min_block_needed: Option<&U64>, max_block_needed: Option<&U64>, ) -> Web3ProxyResult { let mut skip_rpcs = vec![]; let mut method_not_available_response = None; let mut watch_consensus_rpcs = self.watch_consensus_rpcs_sender.subscribe(); let start = Instant::now(); // TODO: get from config let max_wait = Duration::from_secs(10); // TODO: the loop here feels somewhat redundant with the loop in best_available_rpc while start.elapsed() < max_wait { match self .wait_for_best_rpc( authorization, request_metadata, &mut skip_rpcs, min_block_needed, max_block_needed, ) .await? { OpenRequestResult::Handle(active_request_handle) => { // save the rpc in case we get an error and want to retry on another server // TODO: look at backend_requests instead let rpc = active_request_handle.clone_connection(); if let Some(request_metadata) = request_metadata { request_metadata.backend_requests.lock().push(rpc.clone()); } let is_backup_response = rpc.backup; // TODO: get the log percent from the user data let response_result: Result, _> = active_request_handle .request( &request.method, &json!(request.params), RequestErrorHandler::Save, None, ) .await; match response_result { Ok(response) => { // TODO: if there are multiple responses being aggregated, this will only use the last server's backup type if let Some(request_metadata) = request_metadata { request_metadata .response_from_backup_rpc .store(is_backup_response, Ordering::Release); } return Ok(response.into()); } Err(error) => { // trace!(?response, "rpc error"); // TODO: separate jsonrpc error and web3 proxy error! if let Some(request_metadata) = request_metadata { request_metadata .error_response .store(true, Ordering::Release); } let error: JsonRpcErrorData = error.try_into()?; // some errors should be retried on other nodes let error_msg = error.message.as_ref(); // different providers do different codes. check all of them // TODO: there's probably more strings to add here let rate_limit_substrings = ["limit", "exceeded", "quota usage"]; for rate_limit_substr in rate_limit_substrings { if error_msg.contains(rate_limit_substr) { warn!("rate limited by {}", skip_rpcs.last().unwrap()); continue; } } match error.code { -32000 => { // TODO: regex? let retry_prefixes = [ "header not found", "header for hash not found", "missing trie node", "node not started", "RPC timeout", ]; for retry_prefix in retry_prefixes { if error_msg.starts_with(retry_prefix) { // TODO: too verbose debug!("retrying on another server"); continue; } } } -32601 => { let error_msg = error.message.as_ref(); // sometimes a provider does not support all rpc methods // we check other connections rather than returning the error // but sometimes the method is something that is actually unsupported, // so we save the response here to return it later // some providers look like this if error_msg.starts_with("the method") && error_msg.ends_with("is not available") { method_not_available_response = Some(error); continue; } // others look like this (this is the example in the official spec) if error_msg == "Method not found" { method_not_available_response = Some(error); continue; } } _ => {} } // let rpc = skip_rpcs // .last() // .expect("there must have been a provider if we got an error"); // TODO: emit a stat. if a server is getting skipped a lot, something is not right // TODO: if we get a TrySendError, reconnect. wait why do we see a trysenderror on a dual provider? shouldn't it be using reqwest // TODO! WRONG! ONLY SET RETRY_AT IF THIS IS A SERVER/CONNECTION ERROR. JSONRPC "error" is FINE // trace!( // "Backend server error on {}! Retrying {:?} on another. err={:?}", // rpc, // request, // error, // ); // if let Some(ref hard_limit_until) = rpc.hard_limit_until { // let retry_at = Instant::now() + Duration::from_secs(1); // hard_limit_until.send_replace(retry_at); // } return Ok(error.into()); } } } OpenRequestResult::RetryAt(retry_at) => { // TODO: move this to a helper function // sleep (TODO: with a lock?) until our rate limits should be available // TODO: if a server catches up sync while we are waiting, we could stop waiting warn!( "All rate limits exceeded. waiting for change in synced servers or {:?}s", retry_at.duration_since(Instant::now()).as_secs_f32() ); // TODO: have a separate column for rate limited? if let Some(request_metadata) = request_metadata { request_metadata.no_servers.fetch_add(1, Ordering::AcqRel); } tokio::select! { _ = sleep_until(retry_at) => { trace!("slept!"); skip_rpcs.pop(); } _ = watch_consensus_rpcs.changed() => { watch_consensus_rpcs.borrow_and_update(); } } } OpenRequestResult::NotReady => { break; } } } // TODO: do we need this here, or do we do it somewhere else? like, the code could change and a try operator in here would skip this increment if let Some(request_metadata) = request_metadata { request_metadata .error_response .store(true, Ordering::Release); } if let Some(err) = method_not_available_response { // TODO: this error response is likely the user's fault. do we actually want it marked as an error? maybe keep user and server error bools? // TODO: emit a stat for unsupported methods? it would be best to block them at the proxy instead of at the backend // TODO: this is too verbose! debug!("{}", serde_json::to_string(&err)?); return Ok(err.into()); } let num_conns = self.by_name.load().len(); let num_skipped = skip_rpcs.len(); let needed = min_block_needed.max(max_block_needed); let head_block_num = watch_consensus_rpcs .borrow() .as_ref() .map(|x| *x.head_block.number()); // TODO: error? warn? debug? trace? if head_block_num.is_none() { error!( "No servers synced (min {:?}, max {:?}, head {:?}) ({} known)", min_block_needed, max_block_needed, head_block_num, num_conns ); } else if head_block_num.as_ref() > needed { // we have synced past the needed block // TODO: this is likely caused by rate limits. make the error message better error!( "No archive servers synced (min {:?}, max {:?}, head {:?}) ({} known)", min_block_needed, max_block_needed, head_block_num, num_conns ); } else { error!( "Requested data is not available (min {:?}, max {:?}, head {:?}) ({} skipped, {} known)", min_block_needed, max_block_needed, head_block_num, num_skipped, num_conns ); // TODO: remove this, or move to trace level // debug!("{}", serde_json::to_string(&request).unwrap()); } // TODO: what error code? // cloudflare gives {"jsonrpc":"2.0","error":{"code":-32043,"message":"Requested data cannot be older than 128 blocks."},"id":1} Ok(JsonRpcErrorData { message: Cow::Borrowed("Requested data is not available"), code: -32043, data: None, } .into()) } /// be sure there is a timeout on this or it might loop forever #[allow(clippy::too_many_arguments)] pub async fn try_send_all_synced_connections( self: &Arc, authorization: &Arc, request: &JsonRpcRequest, request_metadata: Option>, min_block_needed: Option<&U64>, max_block_needed: Option<&U64>, error_level: Level, max_count: Option, always_include_backups: bool, ) -> Web3ProxyResult { let mut watch_consensus_rpcs = self.watch_consensus_rpcs_sender.subscribe(); let start = Instant::now(); // TODO: get from config let max_wait = Duration::from_secs(3); while start.elapsed() < max_wait { match self .all_connections( authorization, min_block_needed, max_block_needed, max_count, always_include_backups, ) .await { Ok(active_request_handles) => { if let Some(request_metadata) = request_metadata { let mut only_backups_used = true; request_metadata.backend_requests.lock().extend( active_request_handles.iter().map(|x| { let rpc = x.clone_connection(); if !rpc.backup { // TODO: its possible we serve from a synced connection though. think about this more only_backups_used = false; } x.clone_connection() }), ); request_metadata .response_from_backup_rpc .store(only_backups_used, Ordering::Release); } return self .try_send_parallel_requests( active_request_handles, request.method.as_ref(), request.params.as_ref(), error_level, ) .await; } Err(None) => { warn!( "No servers in sync on {:?} (block {:?} - {:?})! Retrying", self, min_block_needed, max_block_needed ); if let Some(request_metadata) = &request_metadata { // TODO: if this times out, i think we drop this request_metadata.no_servers.fetch_add(1, Ordering::AcqRel); } watch_consensus_rpcs.changed().await?; watch_consensus_rpcs.borrow_and_update(); continue; } Err(Some(retry_at)) => { // TODO: move this to a helper function // sleep (TODO: with a lock?) until our rate limits should be available // TODO: if a server catches up sync while we are waiting, we could stop waiting warn!("All rate limits exceeded. Sleeping"); if let Some(request_metadata) = &request_metadata { request_metadata.no_servers.fetch_add(1, Ordering::AcqRel); } tokio::select! { _ = sleep_until(retry_at) => {} _ = watch_consensus_rpcs.changed() => { watch_consensus_rpcs.borrow_and_update(); } } continue; } } } Err(Web3ProxyError::NoServersSynced) } pub async fn try_proxy_connection( &self, authorization: &Arc, request: &JsonRpcRequest, request_metadata: Option<&Arc>, min_block_needed: Option<&U64>, max_block_needed: Option<&U64>, ) -> Web3ProxyResult { match authorization.checks.proxy_mode { ProxyMode::Debug | ProxyMode::Best => { self.try_send_best_connection( authorization, request, request_metadata, min_block_needed, max_block_needed, ) .await } ProxyMode::Fastest(_x) => todo!("Fastest"), ProxyMode::Versus => todo!("Versus"), } } } impl Display for Web3Rpcs { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { f.write_str(&self.name) } } impl fmt::Debug for Web3Rpcs { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { // TODO: the default formatter takes forever to write. this is too quiet though f.debug_struct("Web3Rpcs") .field("rpcs", &self.by_name) .finish_non_exhaustive() } } impl Serialize for Web3Rpcs { fn serialize(&self, serializer: S) -> Result where S: Serializer, { let mut state = serializer.serialize_struct("Web3Rpcs", 1)?; { let by_name = self.by_name.load(); let rpcs: Vec<&Web3Rpc> = by_name.values().map(|x| x.as_ref()).collect(); // TODO: coordinate with frontend team to rename "conns" to "rpcs" state.serialize_field("conns", &rpcs)?; } { let consensus_rpcs = self.watch_consensus_rpcs_sender.borrow().clone(); // TODO: rename synced_connections to consensus_rpcs if let Some(consensus_rpcs) = consensus_rpcs.as_ref() { state.serialize_field("synced_connections", consensus_rpcs)?; } else { state.serialize_field("synced_connections", &None::<()>)?; } } // self.blocks_by_hash.sync(); // self.blocks_by_number.sync(); // state.serialize_field("block_hashes_count", &self.blocks_by_hash.entry_count())?; // state.serialize_field("block_hashes_size", &self.blocks_by_hash.weighted_size())?; // state.serialize_field("block_numbers_count", &self.blocks_by_number.entry_count())?; // state.serialize_field("block_numbers_size", &self.blocks_by_number.weighted_size())?; state.end() } } /// sort by block number (descending) and tier (ascending) /// TODO: should this be moved into a `impl Web3Rpc`? /// TODO: i think we still have sorts scattered around the code that should use this /// TODO: take AsRef or something like that? We don't need an Arc here fn rpc_sync_status_sort_key(x: &Arc) -> (Reverse, u64, bool, OrderedFloat) { let head_block = x .head_block .as_ref() .and_then(|x| x.borrow().as_ref().map(|x| *x.number())) .unwrap_or_default(); let tier = x.tier; let peak_ewma = x.peak_ewma(); let backup = x.backup; (Reverse(head_block), tier, backup, peak_ewma) } mod tests { #![allow(unused_imports)] use std::time::{SystemTime, UNIX_EPOCH}; use super::*; use crate::rpcs::consensus::ConsensusFinder; use crate::rpcs::{blockchain::Web3ProxyBlock, provider::Web3Provider}; use arc_swap::ArcSwap; use ethers::types::H256; use ethers::types::{Block, U256}; use latency::PeakEwmaLatency; use log::{trace, LevelFilter}; use parking_lot::RwLock; use tokio::sync::RwLock as AsyncRwLock; #[cfg(test)] fn new_peak_latency() -> PeakEwmaLatency { const NANOS_PER_MILLI: f64 = 1_000_000.0; PeakEwmaLatency::spawn(1_000.0 * NANOS_PER_MILLI, 4, Duration::from_secs(1)) } #[tokio::test] async fn test_sort_connections_by_sync_status() { let block_0 = Block { number: Some(0.into()), hash: Some(H256::random()), ..Default::default() }; let block_1 = Block { number: Some(1.into()), hash: Some(H256::random()), parent_hash: block_0.hash.unwrap(), ..Default::default() }; let block_2 = Block { number: Some(2.into()), hash: Some(H256::random()), parent_hash: block_1.hash.unwrap(), ..Default::default() }; let blocks: Vec<_> = [block_0, block_1, block_2] .into_iter() .map(|x| Web3ProxyBlock::try_new(Arc::new(x)).unwrap()) .collect(); let (tx_a, _) = watch::channel(None); let (tx_b, _) = watch::channel(blocks.get(1).cloned()); let (tx_c, _) = watch::channel(blocks.get(2).cloned()); let (tx_d, _) = watch::channel(None); let (tx_e, _) = watch::channel(blocks.get(1).cloned()); let (tx_f, _) = watch::channel(blocks.get(2).cloned()); let mut rpcs: Vec<_> = [ Web3Rpc { name: "a".to_string(), tier: 0, head_block: Some(tx_a), peak_latency: Some(new_peak_latency()), ..Default::default() }, Web3Rpc { name: "b".to_string(), tier: 0, head_block: Some(tx_b), peak_latency: Some(new_peak_latency()), ..Default::default() }, Web3Rpc { name: "c".to_string(), tier: 0, head_block: Some(tx_c), peak_latency: Some(new_peak_latency()), ..Default::default() }, Web3Rpc { name: "d".to_string(), tier: 1, head_block: Some(tx_d), peak_latency: Some(new_peak_latency()), ..Default::default() }, Web3Rpc { name: "e".to_string(), tier: 1, head_block: Some(tx_e), peak_latency: Some(new_peak_latency()), ..Default::default() }, Web3Rpc { name: "f".to_string(), tier: 1, head_block: Some(tx_f), peak_latency: Some(new_peak_latency()), ..Default::default() }, ] .into_iter() .map(Arc::new) .collect(); rpcs.sort_by_cached_key(rpc_sync_status_sort_key); let names_in_sort_order: Vec<_> = rpcs.iter().map(|x| x.name.as_str()).collect(); assert_eq!(names_in_sort_order, ["c", "f", "b", "e", "a", "d"]); } #[tokio::test] async fn test_server_selection_by_height() { // TODO: do this better. can test_env_logger and tokio test be stacked? let _ = env_logger::builder() .filter_level(LevelFilter::Error) .filter_module("web3_proxy", LevelFilter::Trace) .is_test(true) .try_init(); let now = chrono::Utc::now().timestamp().into(); let lagged_block = Block { hash: Some(H256::random()), number: Some(0.into()), timestamp: now - 1, ..Default::default() }; let head_block = Block { hash: Some(H256::random()), number: Some(1.into()), parent_hash: lagged_block.hash.unwrap(), timestamp: now, ..Default::default() }; let lagged_block = Arc::new(lagged_block); let head_block = Arc::new(head_block); let block_data_limit = u64::MAX; let (tx_synced, _) = watch::channel(None); let head_rpc = Web3Rpc { name: "synced".to_string(), soft_limit: 1_000, automatic_block_limit: false, backup: false, block_data_limit: block_data_limit.into(), tier: 0, head_block: Some(tx_synced), provider: AsyncRwLock::new(Some(Arc::new(Web3Provider::Mock))), peak_latency: Some(new_peak_latency()), ..Default::default() }; let (tx_lagged, _) = watch::channel(None); let lagged_rpc = Web3Rpc { name: "lagged".to_string(), soft_limit: 1_000, automatic_block_limit: false, backup: false, block_data_limit: block_data_limit.into(), tier: 0, head_block: Some(tx_lagged), provider: AsyncRwLock::new(Some(Arc::new(Web3Provider::Mock))), peak_latency: Some(new_peak_latency()), ..Default::default() }; assert!(!head_rpc.has_block_data(lagged_block.number.as_ref().unwrap())); assert!(!head_rpc.has_block_data(head_block.number.as_ref().unwrap())); assert!(!lagged_rpc.has_block_data(lagged_block.number.as_ref().unwrap())); assert!(!lagged_rpc.has_block_data(head_block.number.as_ref().unwrap())); let head_rpc = Arc::new(head_rpc); let lagged_rpc = Arc::new(lagged_rpc); let rpcs_by_name = HashMap::from([ (head_rpc.name.clone(), head_rpc.clone()), (lagged_rpc.name.clone(), lagged_rpc.clone()), ]); let (block_sender, _block_receiver) = flume::unbounded(); let (pending_tx_id_sender, pending_tx_id_receiver) = flume::unbounded(); let (watch_consensus_rpcs_sender, _watch_consensus_rpcs_receiver) = watch::channel(None); let (watch_consensus_head_sender, _watch_consensus_head_receiver) = watch::channel(None); // TODO: make a Web3Rpcs::new let rpcs = Web3Rpcs { block_sender: block_sender.clone(), by_name: ArcSwap::from_pointee(rpcs_by_name), http_interval_sender: None, name: "test".to_string(), watch_consensus_head_sender: Some(watch_consensus_head_sender), watch_consensus_rpcs_sender, pending_transaction_cache: CacheWithTTL::arc_with_capacity( 100, Duration::from_secs(60), ) .await, pending_tx_id_receiver, pending_tx_id_sender, blocks_by_hash: CacheWithTTL::arc_with_capacity(100, Duration::from_secs(60)).await, blocks_by_number: CacheWithTTL::arc_with_capacity(100, Duration::from_secs(60)).await, // TODO: test max_block_age? max_block_age: None, // TODO: test max_block_lag? max_block_lag: None, min_head_rpcs: 1, min_sum_soft_limit: 1, }; let authorization = Arc::new(Authorization::internal(None).unwrap()); let mut consensus_finder = ConsensusFinder::new(None, None); // process None so that rpcs.process_block_from_rpc( &authorization, &mut consensus_finder, None, lagged_rpc.clone(), &None, ) .await .expect("its lagged, but it should still be seen as consensus if its the first to report"); rpcs.process_block_from_rpc( &authorization, &mut consensus_finder, None, head_rpc.clone(), &None, ) .await .unwrap(); // no head block because the rpcs haven't communicated through their channels assert!(rpcs.head_block_hash().is_none()); // all_backend_connections gives all non-backup servers regardless of sync status assert_eq!( rpcs.all_connections(&authorization, None, None, None, false) .await .unwrap() .len(), 2 ); // best_synced_backend_connection which servers to be synced with the head block should not find any nodes let x = rpcs .wait_for_best_rpc( &authorization, None, &mut vec![], Some(head_block.number.as_ref().unwrap()), None, ) .await .unwrap(); dbg!(&x); assert!(matches!(x, OpenRequestResult::NotReady)); // add lagged blocks to the rpcs. both servers should be allowed lagged_rpc .send_head_block_result( Ok(Some(lagged_block.clone())), &block_sender, rpcs.blocks_by_hash.clone(), ) .await .unwrap(); // TODO: this is fragile rpcs.process_block_from_rpc( &authorization, &mut consensus_finder, Some(lagged_block.clone().try_into().unwrap()), lagged_rpc.clone(), &None, ) .await .unwrap(); head_rpc .send_head_block_result( Ok(Some(lagged_block.clone())), &block_sender, rpcs.blocks_by_hash.clone(), ) .await .unwrap(); // TODO: this is fragile rpcs.process_block_from_rpc( &authorization, &mut consensus_finder, Some(lagged_block.clone().try_into().unwrap()), head_rpc.clone(), &None, ) .await .unwrap(); // TODO: how do we spawn this and wait for it to process things? subscribe and watch consensus connections? // rpcs.process_incoming_blocks(&authorization, block_receiver, pending_tx_sender) assert!(head_rpc.has_block_data(lagged_block.number.as_ref().unwrap())); assert!(!head_rpc.has_block_data(head_block.number.as_ref().unwrap())); assert!(lagged_rpc.has_block_data(lagged_block.number.as_ref().unwrap())); assert!(!lagged_rpc.has_block_data(head_block.number.as_ref().unwrap())); assert_eq!(rpcs.num_synced_rpcs(), 2); // add head block to the rpcs. lagged_rpc should not be available head_rpc .send_head_block_result( Ok(Some(head_block.clone())), &block_sender, rpcs.blocks_by_hash.clone(), ) .await .unwrap(); // TODO: this is fragile rpcs.process_block_from_rpc( &authorization, &mut consensus_finder, Some(head_block.clone().try_into().unwrap()), head_rpc.clone(), &None, ) .await .unwrap(); assert_eq!(rpcs.num_synced_rpcs(), 1); assert!(head_rpc.has_block_data(lagged_block.number.as_ref().unwrap())); assert!(head_rpc.has_block_data(head_block.number.as_ref().unwrap())); assert!(lagged_rpc.has_block_data(lagged_block.number.as_ref().unwrap())); assert!(!lagged_rpc.has_block_data(head_block.number.as_ref().unwrap())); // TODO: make sure the handle is for the expected rpc assert!(matches!( rpcs.wait_for_best_rpc(&authorization, None, &mut vec![], None, None) .await, Ok(OpenRequestResult::Handle(_)) )); // TODO: make sure the handle is for the expected rpc assert!(matches!( rpcs.wait_for_best_rpc(&authorization, None, &mut vec![], Some(&0.into()), None) .await, Ok(OpenRequestResult::Handle(_)) )); // TODO: make sure the handle is for the expected rpc assert!(matches!( rpcs.wait_for_best_rpc(&authorization, None, &mut vec![], Some(&1.into()), None) .await, Ok(OpenRequestResult::Handle(_)) )); // future block should not get a handle let future_rpc = rpcs .wait_for_best_rpc(&authorization, None, &mut vec![], Some(&2.into()), None) .await; assert!(matches!(future_rpc, Ok(OpenRequestResult::NotReady))); } #[tokio::test] async fn test_server_selection_by_archive() { // TODO: do this better. can test_env_logger and tokio test be stacked? let _ = env_logger::builder() .filter_level(LevelFilter::Error) .filter_module("web3_proxy", LevelFilter::Trace) .is_test(true) .try_init(); let now = chrono::Utc::now().timestamp().into(); let head_block = Block { hash: Some(H256::random()), number: Some(1_000_000.into()), parent_hash: H256::random(), timestamp: now, ..Default::default() }; let head_block: Web3ProxyBlock = Arc::new(head_block).try_into().unwrap(); let (tx_pruned, _) = watch::channel(Some(head_block.clone())); let pruned_rpc = Web3Rpc { name: "pruned".to_string(), soft_limit: 3_000, automatic_block_limit: false, backup: false, block_data_limit: 64.into(), tier: 1, head_block: Some(tx_pruned), provider: AsyncRwLock::new(Some(Arc::new(Web3Provider::Mock))), ..Default::default() }; let (tx_archive, _) = watch::channel(Some(head_block.clone())); let archive_rpc = Web3Rpc { name: "archive".to_string(), soft_limit: 1_000, automatic_block_limit: false, backup: false, block_data_limit: u64::MAX.into(), tier: 2, head_block: Some(tx_archive), provider: AsyncRwLock::new(Some(Arc::new(Web3Provider::Mock))), ..Default::default() }; assert!(pruned_rpc.has_block_data(head_block.number())); assert!(archive_rpc.has_block_data(head_block.number())); assert!(!pruned_rpc.has_block_data(&1.into())); assert!(archive_rpc.has_block_data(&1.into())); let pruned_rpc = Arc::new(pruned_rpc); let archive_rpc = Arc::new(archive_rpc); let rpcs_by_name = HashMap::from([ (pruned_rpc.name.clone(), pruned_rpc.clone()), (archive_rpc.name.clone(), archive_rpc.clone()), ]); let (block_sender, _) = flume::unbounded(); let (pending_tx_id_sender, pending_tx_id_receiver) = flume::unbounded(); let (watch_consensus_rpcs_sender, _) = watch::channel(None); let (watch_consensus_head_sender, _watch_consensus_head_receiver) = watch::channel(None); // TODO: make a Web3Rpcs::new let rpcs = Web3Rpcs { block_sender, by_name: ArcSwap::from_pointee(rpcs_by_name), http_interval_sender: None, name: "test".to_string(), watch_consensus_head_sender: Some(watch_consensus_head_sender), watch_consensus_rpcs_sender, pending_transaction_cache: CacheWithTTL::arc_with_capacity( 100, Duration::from_secs(120), ) .await, pending_tx_id_receiver, pending_tx_id_sender, blocks_by_hash: CacheWithTTL::arc_with_capacity(100, Duration::from_secs(120)).await, blocks_by_number: CacheWithTTL::arc_with_capacity(100, Duration::from_secs(120)).await, min_head_rpcs: 1, min_sum_soft_limit: 4_000, max_block_age: None, max_block_lag: None, }; let authorization = Arc::new(Authorization::internal(None).unwrap()); let mut connection_heads = ConsensusFinder::new(None, None); // min sum soft limit will require tier 2 rpcs.process_block_from_rpc( &authorization, &mut connection_heads, Some(head_block.clone()), pruned_rpc.clone(), &None, ) .await .unwrap_err(); rpcs.process_block_from_rpc( &authorization, &mut connection_heads, Some(head_block.clone()), archive_rpc.clone(), &None, ) .await .unwrap(); assert_eq!(rpcs.num_synced_rpcs(), 2); // best_synced_backend_connection requires servers to be synced with the head block // TODO: test with and without passing the head_block.number? let best_available_server = rpcs .wait_for_best_rpc( &authorization, None, &mut vec![], Some(head_block.number()), None, ) .await; debug!("best_available_server: {:#?}", best_available_server); assert!(matches!( best_available_server.unwrap(), OpenRequestResult::Handle(_) )); let _best_available_server_from_none = rpcs .wait_for_best_rpc(&authorization, None, &mut vec![], None, None) .await; // assert_eq!(best_available_server, best_available_server_from_none); let best_archive_server = rpcs .wait_for_best_rpc(&authorization, None, &mut vec![], Some(&1.into()), None) .await; match best_archive_server { Ok(OpenRequestResult::Handle(x)) => { assert_eq!(x.clone_connection().name, "archive".to_string()) } x => { error!("unexpected result: {:?}", x); } } } #[tokio::test] async fn test_all_connections() { let _ = env_logger::builder() .filter_level(LevelFilter::Error) .filter_module("web3_proxy", LevelFilter::Trace) .is_test(true) .try_init(); // TODO: use chrono, not SystemTime let now: U256 = SystemTime::now() .duration_since(UNIX_EPOCH) .unwrap() .as_secs() .into(); let block_1 = Block { hash: Some(H256::random()), number: Some(1_000_000.into()), parent_hash: H256::random(), timestamp: now, ..Default::default() }; let block_2 = Block { hash: Some(H256::random()), number: Some(1_000_001.into()), parent_hash: block_1.hash.unwrap(), timestamp: now + 1, ..Default::default() }; let block_1: Web3ProxyBlock = Arc::new(block_1).try_into().unwrap(); let block_2: Web3ProxyBlock = Arc::new(block_2).try_into().unwrap(); let (tx_mock_geth, _) = watch::channel(Some(block_1.clone())); let (tx_mock_erigon_archive, _) = watch::channel(Some(block_2.clone())); let mock_geth = Web3Rpc { name: "mock_geth".to_string(), soft_limit: 1_000, automatic_block_limit: false, backup: false, block_data_limit: 64.into(), tier: 0, head_block: Some(tx_mock_geth), provider: AsyncRwLock::new(Some(Arc::new(Web3Provider::Mock))), peak_latency: Some(new_peak_latency()), ..Default::default() }; let mock_erigon_archive = Web3Rpc { name: "mock_erigon_archive".to_string(), soft_limit: 1_000, automatic_block_limit: false, backup: false, block_data_limit: u64::MAX.into(), tier: 1, head_block: Some(tx_mock_erigon_archive), provider: AsyncRwLock::new(Some(Arc::new(Web3Provider::Mock))), peak_latency: Some(new_peak_latency()), ..Default::default() }; assert!(mock_geth.has_block_data(block_1.number())); assert!(mock_erigon_archive.has_block_data(block_1.number())); assert!(!mock_geth.has_block_data(block_2.number())); assert!(mock_erigon_archive.has_block_data(block_2.number())); let mock_geth = Arc::new(mock_geth); let mock_erigon_archive = Arc::new(mock_erigon_archive); let rpcs_by_name = HashMap::from([ (mock_geth.name.clone(), mock_geth.clone()), ( mock_erigon_archive.name.clone(), mock_erigon_archive.clone(), ), ]); let (block_sender, _) = flume::unbounded(); let (pending_tx_id_sender, pending_tx_id_receiver) = flume::unbounded(); let (watch_consensus_rpcs_sender, _) = watch::channel(None); let (watch_consensus_head_sender, _watch_consensus_head_receiver) = watch::channel(None); // TODO: make a Web3Rpcs::new let rpcs = Web3Rpcs { block_sender, by_name: ArcSwap::from_pointee(rpcs_by_name), http_interval_sender: None, name: "test".to_string(), watch_consensus_head_sender: Some(watch_consensus_head_sender), watch_consensus_rpcs_sender, pending_transaction_cache: CacheWithTTL::arc_with_capacity( 10_000, Duration::from_secs(120), ) .await, pending_tx_id_receiver, pending_tx_id_sender, blocks_by_hash: CacheWithTTL::arc_with_capacity(10_000, Duration::from_secs(120)).await, blocks_by_number: CacheWithTTL::arc_with_capacity(10_000, Duration::from_secs(120)) .await, min_head_rpcs: 1, min_sum_soft_limit: 1_000, max_block_age: None, max_block_lag: None, }; let authorization = Arc::new(Authorization::internal(None).unwrap()); let mut connection_heads = ConsensusFinder::new(None, None); rpcs.process_block_from_rpc( &authorization, &mut connection_heads, Some(block_1.clone()), mock_geth.clone(), &None, ) .await .unwrap(); rpcs.process_block_from_rpc( &authorization, &mut connection_heads, Some(block_2.clone()), mock_erigon_archive.clone(), &None, ) .await .unwrap(); assert_eq!(rpcs.num_synced_rpcs(), 1); // best_synced_backend_connection requires servers to be synced with the head block // TODO: test with and without passing the head_block.number? let head_connections = rpcs .all_connections(&authorization, Some(block_2.number()), None, None, false) .await; debug!("head_connections: {:#?}", head_connections); assert_eq!( head_connections.unwrap().len(), 1, "wrong number of connections" ); let all_connections = rpcs .all_connections(&authorization, Some(block_1.number()), None, None, false) .await; debug!("all_connections: {:#?}", all_connections); assert_eq!( all_connections.unwrap().len(), 2, "wrong number of connections" ); let all_connections = rpcs .all_connections(&authorization, None, None, None, false) .await; debug!("all_connections: {:#?}", all_connections); assert_eq!( all_connections.unwrap().len(), 2, "wrong number of connections" ) } } #[cfg(test)] mod test { use std::cmp::Reverse; #[test] fn test_block_num_sort() { let test_vec = vec![ Reverse(Some(3)), Reverse(Some(2)), Reverse(Some(1)), Reverse(None), ]; let mut sorted_vec = test_vec.clone(); sorted_vec.sort(); assert_eq!(test_vec, sorted_vec); } }