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// Copyright 2021 Parity Technologies (UK) Ltd.
// This file is part of Substrate.

// Substrate is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.

// Substrate is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
// GNU General Public License for more details.

// You should have received a copy of the GNU General Public License
// along with Substrate.  If not, see <http://www.gnu.org/licenses/>.

//! Bitswap server for substrate.
//!
//! Allows querying transactions by hash over standard bitswap protocol
//! Only supports bitswap 1.2.0.
//! CID is expected to reference 256-bit Blake2b transaction hash.

use std::collections::VecDeque;
use std::io;
use std::sync::Arc;
use std::task::{Context, Poll};
use cid::Version;
use codec::Encode;
use core::pin::Pin;
use futures::Future;
use futures::io::{AsyncRead, AsyncWrite};
use libp2p::core::{
	connection::ConnectionId, Multiaddr, PeerId,
	upgrade, InboundUpgrade, OutboundUpgrade, UpgradeInfo,
};
use libp2p::swarm::{
	NetworkBehaviour, NetworkBehaviourAction, NotifyHandler, PollParameters,
	ProtocolsHandler, IntoProtocolsHandler, OneShotHandler,
};
use log::{error, debug, trace};
use prost::Message;
use sp_runtime::traits::{Block as BlockT};
use unsigned_varint::{encode as varint_encode};
use crate::chain::Client;
use crate::schema::bitswap::{
	Message as BitswapMessage,
	message::{wantlist::WantType, Block as MessageBlock, BlockPresenceType, BlockPresence},
};

const LOG_TARGET: &str = "bitswap";

// Undocumented, but according to JS the bitswap messages have a max size of 512*1024 bytes
// https://github.com/ipfs/js-ipfs-bitswap/blob/
// d8f80408aadab94c962f6b88f343eb9f39fa0fcc/src/decision-engine/index.js#L16
// We set it to the same value as max substrate protocol message
const MAX_PACKET_SIZE: usize = 16 * 1024 * 1024;

// Max number of queued responses before denying requests.
const MAX_RESPONSE_QUEUE: usize = 20;
// Max number of blocks per wantlist
const MAX_WANTED_BLOCKS: usize = 16;

const PROTOCOL_NAME: &'static [u8] = b"/ipfs/bitswap/1.2.0";

type FutureResult<T, E> = Pin<Box<dyn Future<Output = Result<T, E>> + Send>>;

/// Bitswap protocol config
#[derive(Clone, Copy, Debug, Default)]
pub struct BitswapConfig;

impl UpgradeInfo for BitswapConfig {
	type Info = &'static [u8];
	type InfoIter = std::iter::Once<Self::Info>;

	fn protocol_info(&self) -> Self::InfoIter {
		std::iter::once(PROTOCOL_NAME)
	}
}

impl<TSocket> InboundUpgrade<TSocket> for BitswapConfig
where
	TSocket: AsyncRead + AsyncWrite + Send + Unpin + 'static,
{
	type Output = BitswapMessage;
	type Error = BitswapError;
	type Future = FutureResult<Self::Output, Self::Error>;

	fn upgrade_inbound(self, mut socket: TSocket, _info: Self::Info) -> Self::Future {
		Box::pin(async move {
			let packet = upgrade::read_one(&mut socket, MAX_PACKET_SIZE).await?;
			let message: BitswapMessage = Message::decode(packet.as_slice())?;
			Ok(message)
		})
	}
}

impl UpgradeInfo for BitswapMessage {
	type Info = &'static [u8];
	type InfoIter = std::iter::Once<Self::Info>;

	fn protocol_info(&self) -> Self::InfoIter {
		std::iter::once(PROTOCOL_NAME)
	}
}

impl<TSocket> OutboundUpgrade<TSocket> for BitswapMessage
where
	TSocket: AsyncRead + AsyncWrite + Send + Unpin + 'static,
{
	type Output = ();
	type Error = io::Error;
	type Future = FutureResult<Self::Output, Self::Error>;

	fn upgrade_outbound(self, mut socket: TSocket, _info: Self::Info) -> Self::Future {
		Box::pin(async move {
			let mut data = Vec::with_capacity(self.encoded_len());
			self.encode(&mut data)?;
			upgrade::write_one(&mut socket, data).await
		})
	}
}

/// Internal protocol handler event.
#[derive(Debug)]
pub enum HandlerEvent {
	/// We received a `BitswapMessage` from a remote.
	Request(BitswapMessage),
	/// We successfully sent a `BitswapMessage`.
	ResponseSent,
}

impl From<BitswapMessage> for HandlerEvent {
	fn from(message: BitswapMessage) -> Self {
		Self::Request(message)
	}
}

impl From<()> for HandlerEvent {
	fn from(_: ()) -> Self {
		Self::ResponseSent
	}
}

/// Prefix represents all metadata of a CID, without the actual content.
#[derive(PartialEq, Eq, Clone, Debug)]
struct Prefix {
	/// The version of CID.
	pub version: Version,
	/// The codec of CID.
	pub codec: u64,
	/// The multihash type of CID.
	pub mh_type: u64,
	/// The multihash length of CID.
	pub mh_len: u8,
}

impl Prefix {
	/// Convert the prefix to encoded bytes.
	pub fn to_bytes(&self) -> Vec<u8> {
		let mut res = Vec::with_capacity(4);
		let mut buf = varint_encode::u64_buffer();
		let version = varint_encode::u64(self.version.into(), &mut buf);
		res.extend_from_slice(version);
		let mut buf = varint_encode::u64_buffer();
		let codec = varint_encode::u64(self.codec.into(), &mut buf);
		res.extend_from_slice(codec);
		let mut buf = varint_encode::u64_buffer();
		let mh_type = varint_encode::u64(self.mh_type.into(), &mut buf);
		res.extend_from_slice(mh_type);
		let mut buf = varint_encode::u64_buffer();
		let mh_len = varint_encode::u64(self.mh_len as u64, &mut buf);
		res.extend_from_slice(mh_len);
		res
	}
}

/// Network behaviour that handles sending and receiving IPFS blocks.
pub struct Bitswap<B> {
	client: Arc<dyn Client<B>>,
	ready_blocks: VecDeque<(PeerId, BitswapMessage)>,
}

impl<B: BlockT> Bitswap<B> {
	/// Create a new instance of the bitswap protocol handler.
	pub fn new(client: Arc<dyn Client<B>>) -> Self {
		Bitswap {
			client,
			ready_blocks: Default::default(),
		}
	}
}

impl<B: BlockT> NetworkBehaviour for Bitswap<B> {
	type ProtocolsHandler = OneShotHandler<BitswapConfig, BitswapMessage, HandlerEvent>;
	type OutEvent = void::Void;

	fn new_handler(&mut self) -> Self::ProtocolsHandler {
		Default::default()
	}

	fn addresses_of_peer(&mut self, _peer: &PeerId) -> Vec<Multiaddr> {
		Vec::new()
	}

	fn inject_connected(&mut self, _peer: &PeerId) {
	}

	fn inject_disconnected(&mut self, _peer: &PeerId) {
	}

	fn inject_event(&mut self, peer: PeerId, _connection: ConnectionId, message: HandlerEvent) {
		let request = match message {
			HandlerEvent::ResponseSent => return,
			HandlerEvent::Request(msg) => msg,
		};
		trace!(target: LOG_TARGET, "Received request: {:?} from {}", request, peer);
		if self.ready_blocks.len() > MAX_RESPONSE_QUEUE {
			debug!(target: LOG_TARGET, "Ignored request: queue is full");
			return;
		}
		let mut response = BitswapMessage {
			wantlist: None,
			blocks: Default::default(),
			payload: Default::default(),
			block_presences: Default::default(),
			pending_bytes: 0,
		};
		let wantlist = match request.wantlist {
			Some(wantlist) => wantlist,
			None => {
				debug!(
					target: LOG_TARGET,
					"Unexpected bitswap message from {}",
					peer,
				);
				return;
			}
		};
		if wantlist.entries.len() > MAX_WANTED_BLOCKS {
			trace!(target: LOG_TARGET, "Ignored request: too many entries");
			return;
		}
		for entry in wantlist.entries {
			let cid = match cid::Cid::read_bytes(entry.block.as_slice()) {
				Ok(cid) => cid,
				Err(e) => {
					trace!(target: LOG_TARGET, "Bad CID {:?}: {:?}", entry.block, e);
					continue;
				}
			};
			if cid.version() != cid::Version::V1
				|| cid.hash().code() != u64::from(cid::multihash::Code::Blake2b256)
				|| cid.hash().size() != 32
			{
				debug!(target: LOG_TARGET, "Ignoring unsupported CID {}: {}", peer, cid);
				continue
			}
			let mut hash = B::Hash::default();
			hash.as_mut().copy_from_slice(&cid.hash().digest()[0..32]);
			let extrinsic = match self.client.extrinsic(&hash) {
				Ok(ex) => ex,
				Err(e) => {
					error!(target: LOG_TARGET, "Error retrieving extrinsic {}: {}", hash, e);
					None
				}
			};
			match extrinsic {
				Some(extrinsic) => {
					trace!(target: LOG_TARGET, "Found CID {:?}, hash {:?}", cid, hash);
					if entry.want_type == WantType::Block as i32 {
						let prefix = Prefix {
							version: cid.version(),
							codec: cid.codec(),
							mh_type: cid.hash().code(),
							mh_len: cid.hash().size(),
						};
						response.payload.push(MessageBlock {
							prefix: prefix.to_bytes(),
							data: extrinsic.encode(),
						});
					} else {
						response.block_presences.push(BlockPresence {
							r#type: BlockPresenceType::Have as i32,
							cid: cid.to_bytes(),
						});
					}
				},
				None => {
					trace!(target: LOG_TARGET, "Missing CID {:?}, hash {:?}", cid, hash);
					if entry.send_dont_have {
						response.block_presences.push(BlockPresence {
							r#type: BlockPresenceType::DontHave as i32,
							cid: cid.to_bytes(),
						});
					}
				}
			}
		}
		trace!(target: LOG_TARGET, "Response: {:?}", response);
		self.ready_blocks.push_back((peer, response));
	}

	fn poll(&mut self, _ctx: &mut Context, _: &mut impl PollParameters) -> Poll<
		NetworkBehaviourAction<
			<<Self::ProtocolsHandler as IntoProtocolsHandler>::Handler as ProtocolsHandler>::InEvent,
			Self::OutEvent,
		>,
	> {
		if let Some((peer_id, message)) = self.ready_blocks.pop_front() {
			return Poll::Ready(NetworkBehaviourAction::NotifyHandler {
				peer_id: peer_id.clone(),
				handler: NotifyHandler::Any,
				event: message,
			})
		}
		Poll::Pending
	}
}

/// Bitswap protocol error.
#[derive(derive_more::Display, derive_more::From)]
pub enum BitswapError {
	/// Protobuf decoding error.
	#[display(fmt = "Failed to decode request: {}.", _0)]
	DecodeProto(prost::DecodeError),
	/// Protobuf encoding error.
	#[display(fmt = "Failed to encode response: {}.", _0)]
	EncodeProto(prost::EncodeError),
	/// Client backend error.
	Client(sp_blockchain::Error),
	/// Error parsing CID
	BadCid(cid::Error),
	/// Packet read error.
	Read(upgrade::ReadOneError),
	/// Error sending response.
	#[display(fmt = "Failed to send response.")]
	SendResponse,
}