// Copyright 2018 The Grin Developers // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. use std::cmp; use std::env; use std::fs::File; use std::io::{BufWriter, Write}; use std::net::SocketAddr; use std::sync::Arc; use crate::conn::{Message, MessageHandler, Response}; use crate::core::core::{self, hash::Hash, CompactBlock}; use crate::util::{RateCounter, RwLock}; use chrono::prelude::Utc; use crate::msg::{ BanReason, GetPeerAddrs, Headers, Locator, PeerAddrs, Ping, Pong, SockAddr, TxHashSetArchive, TxHashSetRequest, Type, }; use crate::types::{Error, NetAdapter}; pub struct Protocol { adapter: Arc, addr: SocketAddr, } impl Protocol { pub fn new(adapter: Arc, addr: SocketAddr) -> Protocol { Protocol { adapter, addr } } } impl MessageHandler for Protocol { fn consume<'a>( &self, mut msg: Message<'a>, writer: &'a mut dyn Write, received_bytes: Arc>, ) -> Result>, Error> { let adapter = &self.adapter; // If we received a msg from a banned peer then log and drop it. // If we are getting a lot of these then maybe we are not cleaning // banned peers up correctly? if adapter.is_banned(self.addr.clone()) { debug!( "handler: consume: peer {:?} banned, received: {:?}, dropping.", self.addr, msg.header.msg_type, ); return Ok(None); } match msg.header.msg_type { Type::Ping => { let ping: Ping = msg.body()?; adapter.peer_difficulty(self.addr, ping.total_difficulty, ping.height); Ok(Some(Response::new( Type::Pong, Pong { total_difficulty: adapter.total_difficulty(), height: adapter.total_height(), }, writer, ))) } Type::Pong => { let pong: Pong = msg.body()?; adapter.peer_difficulty(self.addr, pong.total_difficulty, pong.height); Ok(None) } Type::BanReason => { let ban_reason: BanReason = msg.body()?; error!("handle_payload: BanReason {:?}", ban_reason); Ok(None) } Type::TransactionKernel => { let h: Hash = msg.body()?; debug!( "handle_payload: received tx kernel: {}, msg_len: {}", h, msg.header.msg_len ); adapter.tx_kernel_received(h, self.addr); Ok(None) } Type::GetTransaction => { let h: Hash = msg.body()?; debug!( "handle_payload: GetTransaction: {}, msg_len: {}", h, msg.header.msg_len, ); let tx = adapter.get_transaction(h); if let Some(tx) = tx { Ok(Some(Response::new(Type::Transaction, tx, writer))) } else { Ok(None) } } Type::Transaction => { debug!( "handle_payload: received tx: msg_len: {}", msg.header.msg_len ); let tx: core::Transaction = msg.body()?; adapter.transaction_received(tx, false); Ok(None) } Type::StemTransaction => { debug!( "handle_payload: received stem tx: msg_len: {}", msg.header.msg_len ); let tx: core::Transaction = msg.body()?; adapter.transaction_received(tx, true); Ok(None) } Type::GetBlock => { let h: Hash = msg.body()?; trace!( "handle_payload: GetBlock: {}, msg_len: {}", h, msg.header.msg_len, ); let bo = adapter.get_block(h); if let Some(b) = bo { return Ok(Some(Response::new(Type::Block, b, writer))); } Ok(None) } Type::Block => { debug!( "handle_payload: received block: msg_len: {}", msg.header.msg_len ); let b: core::Block = msg.body()?; // we can't know at this level whether we requested the block or not, // the boolean should be properly set in higher level adapter adapter.block_received(b, self.addr, false); Ok(None) } Type::GetCompactBlock => { let h: Hash = msg.body()?; if let Some(b) = adapter.get_block(h) { let cb: CompactBlock = b.into(); Ok(Some(Response::new(Type::CompactBlock, cb, writer))) } else { Ok(None) } } Type::CompactBlock => { debug!( "handle_payload: received compact block: msg_len: {}", msg.header.msg_len ); let b: core::CompactBlock = msg.body()?; adapter.compact_block_received(b, self.addr); Ok(None) } Type::GetHeaders => { // load headers from the locator let loc: Locator = msg.body()?; let headers = adapter.locate_headers(&loc.hashes); // serialize and send all the headers over Ok(Some(Response::new( Type::Headers, Headers { headers }, writer, ))) } // "header first" block propagation - if we have not yet seen this block // we can go request it from some of our peers Type::Header => { let header: core::BlockHeader = msg.body()?; adapter.header_received(header, self.addr); Ok(None) } Type::Headers => { let mut total_bytes_read = 0; // Read the count (u16) so we now how many headers to read. let (count, bytes_read): (u16, _) = msg.streaming_read()?; total_bytes_read += bytes_read; // Read chunks of headers off the stream and pass them off to the adapter. let chunk_size = 32; for chunk in (0..count).collect::>().chunks(chunk_size) { let mut headers = vec![]; for _ in chunk { let (header, bytes_read) = msg.streaming_read()?; headers.push(header); total_bytes_read += bytes_read; } adapter.headers_received(&headers, self.addr); } // Now check we read the correct total number of bytes off the stream. if total_bytes_read != msg.header.msg_len { return Err(Error::MsgLen); } Ok(None) } Type::GetPeerAddrs => { let get_peers: GetPeerAddrs = msg.body()?; let peer_addrs = adapter.find_peer_addrs(get_peers.capabilities); Ok(Some(Response::new( Type::PeerAddrs, PeerAddrs { peers: peer_addrs.iter().map(|sa| SockAddr(*sa)).collect(), }, writer, ))) } Type::PeerAddrs => { let peer_addrs: PeerAddrs = msg.body()?; adapter.peer_addrs_received(peer_addrs.peers.iter().map(|pa| pa.0).collect()); Ok(None) } Type::TxHashSetRequest => { let sm_req: TxHashSetRequest = msg.body()?; debug!( "handle_payload: txhashset req for {} at {}", sm_req.hash, sm_req.height ); let txhashset = self.adapter.txhashset_read(sm_req.hash); if let Some(txhashset) = txhashset { let file_sz = txhashset.reader.metadata()?.len(); let mut resp = Response::new( Type::TxHashSetArchive, &TxHashSetArchive { height: sm_req.height as u64, hash: sm_req.hash, bytes: file_sz, }, writer, ); resp.add_attachment(txhashset.reader); Ok(Some(resp)) } else { Ok(None) } } Type::TxHashSetArchive => { let sm_arch: TxHashSetArchive = msg.body()?; debug!( "handle_payload: txhashset archive for {} at {}. size={}", sm_arch.hash, sm_arch.height, sm_arch.bytes, ); if !self.adapter.txhashset_receive_ready() { error!( "handle_payload: txhashset archive received but SyncStatus not on TxHashsetDownload", ); return Err(Error::BadMessage); } let download_start_time = Utc::now(); self.adapter .txhashset_download_update(download_start_time, 0, sm_arch.bytes); let mut tmp = env::temp_dir(); tmp.push("txhashset.zip"); let mut save_txhashset_to_file = |file| -> Result<(), Error> { let mut tmp_zip = BufWriter::new(File::create(file)?); let total_size = sm_arch.bytes as usize; let mut downloaded_size: usize = 0; let mut request_size = cmp::min(48_000, total_size); while request_size > 0 { let size = msg.copy_attachment(request_size, &mut tmp_zip)?; downloaded_size += size; request_size = cmp::min(48_000, total_size - downloaded_size); self.adapter.txhashset_download_update( download_start_time, downloaded_size as u64, total_size as u64, ); // Increase received bytes quietly (without affecting the counters). // Otherwise we risk banning a peer as "abusive". { let mut received_bytes = received_bytes.write(); received_bytes.inc_quiet(size as u64); } } tmp_zip.into_inner().unwrap().sync_all()?; Ok(()) }; if let Err(e) = save_txhashset_to_file(tmp.clone()) { error!( "handle_payload: txhashset archive save to file fail. err={:?}", e ); return Err(e); } trace!( "handle_payload: txhashset archive save to file {:?} success", tmp, ); let tmp_zip = File::open(tmp)?; let res = self .adapter .txhashset_write(sm_arch.hash, tmp_zip, self.addr); debug!( "handle_payload: txhashset archive for {} at {}, DONE. Data Ok: {}", sm_arch.hash, sm_arch.height, res ); Ok(None) } _ => { debug!("unknown message type {:?}", msg.header.msg_type); Ok(None) } } } }