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grin/p2p/src/protocol.rs
jaspervdm 96afc766a1
PIBD segment p2p messages (#3496) 
* Define PIBD segment p2p messages

* Respond to segment requests

* Use specialized (de)ser for output bitmap segments

* Allowed segment height ranges in const
2020-11-25 21:52:09 +01:00

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// Copyright 2020 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 crate::chain;
use crate::conn::MessageHandler;
use crate::core::core::{hash::Hashed, CompactBlock};
use crate::msg::{
Consumed, Headers, Message, Msg, OutputBitmapSegmentResponse, OutputSegmentResponse, PeerAddrs,
Pong, SegmentRequest, SegmentResponse, TxHashSetArchive, Type,
};
use crate::types::{AttachmentMeta, Error, NetAdapter, PeerInfo};
use chrono::prelude::Utc;
use rand::{thread_rng, Rng};
use std::fs::{self, File};
use std::sync::atomic::{AtomicBool, Ordering};
use std::sync::Arc;
pub struct Protocol {
adapter: Arc<dyn NetAdapter>,
peer_info: PeerInfo,
state_sync_requested: Arc<AtomicBool>,
}
impl Protocol {
pub fn new(
adapter: Arc<dyn NetAdapter>,
peer_info: PeerInfo,
state_sync_requested: Arc<AtomicBool>,
) -> Protocol {
Protocol {
adapter,
peer_info,
state_sync_requested,
}
}
}
impl MessageHandler for Protocol {
fn consume(&self, message: Message) -> Result<Consumed, 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.peer_info.addr) {
debug!(
"handler: consume: peer {:?} banned, received: {}, dropping.",
self.peer_info.addr, message,
);
return Ok(Consumed::Disconnect);
}
let consumed = match message {
Message::Attachment(update, _) => {
self.adapter.txhashset_download_update(
update.meta.start_time,
(update.meta.size - update.left) as u64,
update.meta.size as u64,
);
if update.left == 0 {
let meta = update.meta;
trace!(
"handle_payload: txhashset archive save to file {:?} success",
meta.path,
);
let zip = File::open(meta.path.clone())?;
let res =
self.adapter
.txhashset_write(meta.hash.clone(), zip, &self.peer_info)?;
debug!(
"handle_payload: txhashset archive for {} at {}, DONE. Data Ok: {}",
meta.hash, meta.height, !res
);
if let Err(e) = fs::remove_file(meta.path.clone()) {
warn!("fail to remove tmp file: {:?}. err: {}", meta.path, e);
}
}
Consumed::None
}
Message::Ping(ping) => {
adapter.peer_difficulty(self.peer_info.addr, ping.total_difficulty, ping.height);
Consumed::Response(Msg::new(
Type::Pong,
Pong {
total_difficulty: adapter.total_difficulty()?,
height: adapter.total_height()?,
},
self.peer_info.version,
)?)
}
Message::Pong(pong) => {
adapter.peer_difficulty(self.peer_info.addr, pong.total_difficulty, pong.height);
Consumed::None
}
Message::BanReason(ban_reason) => {
error!("handle_payload: BanReason {:?}", ban_reason);
Consumed::Disconnect
}
Message::TransactionKernel(h) => {
debug!("handle_payload: received tx kernel: {}", h);
adapter.tx_kernel_received(h, &self.peer_info)?;
Consumed::None
}
Message::GetTransaction(h) => {
debug!("handle_payload: GetTransaction: {}", h);
let tx = adapter.get_transaction(h);
if let Some(tx) = tx {
Consumed::Response(Msg::new(Type::Transaction, tx, self.peer_info.version)?)
} else {
Consumed::None
}
}
Message::Transaction(tx) => {
debug!("handle_payload: received tx");
adapter.transaction_received(tx, false)?;
Consumed::None
}
Message::StemTransaction(tx) => {
debug!("handle_payload: received stem tx");
adapter.transaction_received(tx, true)?;
Consumed::None
}
Message::GetBlock(h) => {
trace!("handle_payload: GetBlock: {}", h);
let bo = adapter.get_block(h, &self.peer_info);
if let Some(b) = bo {
Consumed::Response(Msg::new(Type::Block, b, self.peer_info.version)?)
} else {
Consumed::None
}
}
Message::Block(b) => {
debug!("handle_payload: received block");
// We default to NONE opts here as we do not know know yet why this block was
// received.
// If we requested this block from a peer due to our node syncing then
// the peer adapter will override opts to reflect this.
adapter.block_received(b.into(), &self.peer_info, chain::Options::NONE)?;
Consumed::None
}
Message::GetCompactBlock(h) => {
if let Some(b) = adapter.get_block(h, &self.peer_info) {
let cb: CompactBlock = b.into();
Consumed::Response(Msg::new(Type::CompactBlock, cb, self.peer_info.version)?)
} else {
Consumed::None
}
}
Message::CompactBlock(b) => {
debug!("handle_payload: received compact block");
adapter.compact_block_received(b.into(), &self.peer_info)?;
Consumed::None
}
Message::GetHeaders(loc) => {
// load headers from the locator
let headers = adapter.locate_headers(&loc.hashes)?;
// serialize and send all the headers over
Consumed::Response(Msg::new(
Type::Headers,
Headers { headers },
self.peer_info.version,
)?)
}
// "header first" block propagation - if we have not yet seen this block
// we can go request it from some of our peers
Message::Header(header) => {
adapter.header_received(header.into(), &self.peer_info)?;
Consumed::None
}
Message::Headers(headers) => {
adapter.headers_received(&headers, &self.peer_info)?;
Consumed::None
}
Message::GetPeerAddrs(get_peers) => {
let peers = adapter.find_peer_addrs(get_peers.capabilities);
Consumed::Response(Msg::new(
Type::PeerAddrs,
PeerAddrs { peers },
self.peer_info.version,
)?)
}
Message::PeerAddrs(peer_addrs) => {
adapter.peer_addrs_received(peer_addrs.peers);
Consumed::None
}
Message::TxHashSetRequest(sm_req) => {
debug!(
"handle_payload: txhashset req for {} at {}",
sm_req.hash, sm_req.height
);
let txhashset_header = self.adapter.txhashset_archive_header()?;
let txhashset_header_hash = txhashset_header.hash();
let txhashset = self.adapter.txhashset_read(txhashset_header_hash);
if let Some(txhashset) = txhashset {
let file_sz = txhashset.reader.metadata()?.len();
let mut resp = Msg::new(
Type::TxHashSetArchive,
&TxHashSetArchive {
height: txhashset_header.height as u64,
hash: txhashset_header_hash,
bytes: file_sz,
},
self.peer_info.version,
)?;
resp.add_attachment(txhashset.reader);
Consumed::Response(resp)
} else {
Consumed::None
}
}
Message::TxHashSetArchive(sm_arch) => {
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);
}
if !self.state_sync_requested.load(Ordering::Relaxed) {
error!("handle_payload: txhashset archive received but from the wrong peer",);
return Err(Error::BadMessage);
}
// Update the sync state requested status
self.state_sync_requested.store(false, Ordering::Relaxed);
let start_time = Utc::now();
self.adapter
.txhashset_download_update(start_time, 0, sm_arch.bytes);
let nonce: u32 = thread_rng().gen_range(0, 1_000_000);
let path = self.adapter.get_tmpfile_pathname(format!(
"txhashset-{}-{}.zip",
start_time.timestamp(),
nonce
));
let file = fs::OpenOptions::new()
.write(true)
.create_new(true)
.open(path.clone())?;
let meta = AttachmentMeta {
size: sm_arch.bytes as usize,
hash: sm_arch.hash,
height: sm_arch.height,
start_time,
path,
};
Consumed::Attachment(Arc::new(meta), file)
}
Message::GetOutputBitmapSegment(req) => {
let SegmentRequest {
block_hash,
identifier,
} = req;
if let Ok((segment, output_root)) =
self.adapter.get_bitmap_segment(block_hash, identifier)
{
Consumed::Response(Msg::new(
Type::OutputBitmapSegment,
OutputBitmapSegmentResponse {
block_hash,
segment: segment.into(),
output_root,
},
self.peer_info.version,
)?)
} else {
Consumed::None
}
}
Message::GetOutputSegment(req) => {
let SegmentRequest {
block_hash,
identifier,
} = req;
if let Ok((segment, output_bitmap_root)) =
self.adapter.get_output_segment(block_hash, identifier)
{
Consumed::Response(Msg::new(
Type::OutputSegment,
OutputSegmentResponse {
response: SegmentResponse {
block_hash,
segment,
},
output_bitmap_root,
},
self.peer_info.version,
)?)
} else {
Consumed::None
}
}
Message::GetRangeProofSegment(req) => {
let SegmentRequest {
block_hash,
identifier,
} = req;
if let Ok(segment) = self.adapter.get_rangeproof_segment(block_hash, identifier) {
Consumed::Response(Msg::new(
Type::RangeProofSegment,
SegmentResponse {
block_hash,
segment,
},
self.peer_info.version,
)?)
} else {
Consumed::None
}
}
Message::GetKernelSegment(req) => {
let SegmentRequest {
block_hash,
identifier,
} = req;
if let Ok(segment) = self.adapter.get_kernel_segment(block_hash, identifier) {
Consumed::Response(Msg::new(
Type::KernelSegment,
SegmentResponse {
block_hash,
segment,
},
self.peer_info.version,
)?)
} else {
Consumed::None
}
}
Message::OutputBitmapSegment(_)
| Message::OutputSegment(_)
| Message::RangeProofSegment(_)
| Message::KernelSegment(_) => Consumed::None,
Message::Unknown(_) => Consumed::None,
};
Ok(consumed)
}
}
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