use std::sync::Arc;
use std::net::{SocketAddr, IpAddr};
use v1::traits::Network as NetworkRpc;
use v1::types::{AddNodeOperation, NodeInfo};
use jsonrpc_core::Error;
use jsonrpc_macros::Trailing;
use v1::helpers::errors;
use p2p;

pub trait NetworkApi : Send + Sync + 'static {
	fn add_node(&self, socket_addr: SocketAddr) -> Result<(), p2p::NodeTableError>;
	fn remove_node(&self, socket_addr: SocketAddr) -> Result<(), p2p::NodeTableError>;
	fn connect(&self, socket_addr: SocketAddr);
	fn node_info(&self, node_addr: IpAddr) -> Result<NodeInfo, p2p::NodeTableError>;
	fn nodes_info(&self) -> Vec<NodeInfo>;
	fn connection_count(&self) -> usize;
}

impl<T> NetworkRpc for NetworkClient<T> where T: NetworkApi {
	fn add_node(&self, node: String, operation: AddNodeOperation) -> Result<(), Error> {
		let addr = try!(node.parse().map_err(
			|_| errors::invalid_params("node", "Invalid socket address format, should be ip:port (127.0.0.1:8008)")));
		match operation {
			AddNodeOperation::Add => {
				self.api.add_node(addr).map_err(|_| errors::node_already_added())
			},
			AddNodeOperation::Remove => {
				self.api.remove_node(addr).map_err(|_| errors::node_not_added())
			},
			AddNodeOperation::OneTry => {
				self.api.connect(addr);
				Ok(())
			}
		}
	}

	fn node_info(&self, _dns: bool, node_addr: Trailing<String>) -> Result<Vec<NodeInfo>, Error> {
		let node_addr: Option<String> = node_addr.into();
		Ok(
			match node_addr {
				None => self.api.nodes_info(),
				Some(node_addr) => {
					let addr = try!(node_addr.parse().map_err(
						|_| errors::invalid_params("node", "Invalid ip address format, should be ip address (127.0.0.1)")));
					let node_info = try!(
						self.api.node_info(addr)
							.map_err(|_| errors::node_not_added())
					);
					vec![node_info]
				},
			}
		)
	}

	fn connection_count(&self) -> Result<usize, Error> {
		Ok(self.api.connection_count())
	}
}

pub struct NetworkClient<T: NetworkApi> {
	api: T,
}

impl<T> NetworkClient<T> where T: NetworkApi {
	pub fn new(api: T) -> Self {
		NetworkClient {
			api: api,
		}
	}
}

pub struct NetworkClientCore {
	p2p: Arc<p2p::Context>,
}

impl NetworkClientCore {
	pub fn new(p2p: Arc<p2p::Context>) -> Self {
		NetworkClientCore { p2p: p2p }
	}
}

impl NetworkApi for NetworkClientCore {
	fn add_node(&self, socket_addr: SocketAddr) -> Result<(), p2p::NodeTableError> {
		self.p2p.add_node(socket_addr)
	}

	fn remove_node(&self, socket_addr: SocketAddr) -> Result<(), p2p::NodeTableError> {
		self.p2p.remove_node(socket_addr)
	}

	fn connect(&self, socket_addr: SocketAddr) {
		p2p::Context::connect_normal(self.p2p.clone(), socket_addr);
	}

	fn node_info(&self, node_addr: IpAddr) -> Result<NodeInfo, p2p::NodeTableError> {
		let exact_node = try!(
			self.p2p.nodes()
				.iter()
				.find(|n| n.address().ip() == node_addr)
				.cloned()
				.ok_or(p2p::NodeTableError::NoAddressInTable)
		);

		let peers: Vec<p2p::PeerInfo> = self.p2p.connections().info()
			.into_iter()
			.filter(|p| p.address == exact_node.address()).collect();

		Ok(
			NodeInfo {
				addednode: format!("{}", exact_node.address()),
				connected: !peers.is_empty(),
				addresses: peers.into_iter().map(|p| p.into()).collect(),
			}
		)
	}

	fn nodes_info(&self) -> Vec<NodeInfo> {
		let peers: Vec<p2p::PeerInfo> = self.p2p.connections().info();

		self.p2p.nodes().iter().map(|n| {
			let node_peers: Vec<p2p::PeerInfo> = peers.iter().filter(|p| p.address == n.address()).cloned().collect();
			NodeInfo {
				addednode: format!("{}", n.address()),
				connected: !node_peers.is_empty(),
				addresses: node_peers.into_iter().map(|p| p.into()).collect(),
			}
		}).collect()
	}

	fn connection_count(&self) -> usize {
		self.p2p.connections().count()
	}
}