src/connectivity/network/testing/netemul/runner/test/easy_netstack_cfg/src/main.rs - fuchsia - Git at Google

 // Copyright 2019 The Fuchsia Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 use {
     anyhow::{format_err, Context as _, Error},
     argh::FromArgs,
     fidl_fuchsia_net_stack::StackMarker,
     fidl_fuchsia_netemul_sync::{BusMarker, BusProxy, SyncManagerMarker},
     fuchsia_async as fasync,
     fuchsia_component::client,
     fuchsia_syslog::fx_log_info,
     std::io::{Read, Write},
     std::net::{SocketAddr, TcpListener, TcpStream},
 };

 const BUS_NAME: &str = "test-bus";
 const SERVER_NAME: &str = "server";
 const CLIENT_NAME: &str = "client";
 const HELLO_MSG_REQ: &str = "Hello World from Client!";
 const HELLO_MSG_RSP: &str = "Hello World from Server!";
 const SERVER_IP: &str = "192.168.0.1";
 const PORT: i32 = 8080;

 pub struct BusConnection {
     bus: BusProxy,
 }

 impl BusConnection {
     pub fn new(client: &str) -> Result<BusConnection, Error> {
         let busm = client::connect_to_service::<SyncManagerMarker>()
             .context("SyncManager not available")?;
         let (bus, busch) = fidl::endpoints::create_proxy::<BusMarker>()?;
         busm.bus_subscribe(BUS_NAME, client, busch)?;
         Ok(BusConnection { bus })
     }

     pub async fn wait_for_client(&mut self, expect: &'static str) -> Result<(), Error> {
         let _ = self.bus.wait_for_clients(&mut vec![expect].drain(..), 0).await?;
         Ok(())
     }
 }

 async fn run_server() -> Result<(), Error> {
     let listener =
         TcpListener::bind(&format!("{}:{}", SERVER_IP, PORT)).context("Can't bind to address")?;
     fx_log_info!("Waiting for connections...");

     let _bus = BusConnection::new(SERVER_NAME)?;

     let (mut stream, remote) = listener.accept().context("Accept failed")?;
     fx_log_info!("Accepted connection from {}", remote);
     let mut buffer = [0; 512];
     let rd = stream.read(&mut buffer).context("read failed")?;

     let req = String::from_utf8_lossy(&buffer[0..rd]);
     if req != HELLO_MSG_REQ {
         return Err(format_err!("Got unexpected request from client: {}", req));
     }
     fx_log_info!("Got request {}", req);
     stream.write(HELLO_MSG_RSP.as_bytes()).context("write failed")?;
     stream.flush().context("flush failed")?;
     Ok(())
 }

 async fn run_client(gateway: Option<String>) -> Result<(), Error> {
     if let Some(gateway) = gateway {
         let gw_addr: fidl_fuchsia_net::IpAddress = fidl_fuchsia_net_ext::IpAddress(
             gateway.parse::<std::net::IpAddr>().context("failed to parse gateway address")?,
         )
         .into();
         test_gateway(gw_addr).await.context("test_gateway failed")?;
     }

     fx_log_info!("Waiting for server...");
     let mut bus = BusConnection::new(CLIENT_NAME)?;
     let () = bus.wait_for_client(SERVER_NAME).await?;
     fx_log_info!("Connecting to server...");
     let addr: SocketAddr = format!("{}:{}", SERVER_IP, PORT).parse()?;
     let mut stream = TcpStream::connect(&addr).context("Tcp connection failed")?;
     let request = HELLO_MSG_REQ.as_bytes();
     stream.write(request)?;
     stream.flush()?;

     let mut buffer = [0; 512];
     let rd = stream.read(&mut buffer)?;
     let rsp = String::from_utf8_lossy(&buffer[0..rd]);
     fx_log_info!("Got response {}", rsp);
     if rsp != HELLO_MSG_RSP {
         return Err(format_err!("Got unexpected echo from server: {}", rsp));
     }
     Ok(())
 }

 async fn test_gateway(gw_addr: fidl_fuchsia_net::IpAddress) -> Result<(), Error> {
     let stack =
         client::connect_to_service::<StackMarker>().context("failed to connect to netstack")?;
     let response =
         stack.get_forwarding_table().await.context("failed to call get_forwarding_table")?;
     let found = response.iter().any(|entry| {
         let fidl_fuchsia_net_ext::IpAddress(entry_addr) = entry.subnet.addr.into();
         if let fidl_fuchsia_net_stack::ForwardingDestination::NextHop(gw) = entry.destination {
             entry_addr.is_unspecified() && entry.subnet.prefix_len == 0 && gw == gw_addr
         } else {
             false
         }
     });
     if found {
         fx_log_info!("Found default route for gateway");
         Ok(())
     } else {
         let fidl_fuchsia_net_ext::IpAddress(gw) = gw_addr.into();
         let unspecified = match gw {
             std::net::IpAddr::V4(_) => std::net::IpAddr::V4(std::net::Ipv4Addr::UNSPECIFIED),
             std::net::IpAddr::V6(_) => std::net::IpAddr::V6(std::net::Ipv6Addr::UNSPECIFIED),
         };
         Err(format_err!("could not find {}/0 next hop {} in {:?}", unspecified, gw, response))
     }
 }

 #[derive(FromArgs, Debug)]
 /// Easy netstack configuration test.
 struct Opt {
     /// whether the test is run as a child
     #[argh(switch, short = 'c')]
     is_child: bool,
     /// an optional gateway to test
     #[argh(option, short = 'g')]
     gateway: Option<String>,
 }

 fn main() -> Result<(), Error> {
     fuchsia_syslog::init_with_tags(&["easy-netstack-cfg"])?;
     fx_log_info!("Started");

     let opt: Opt = argh::from_env();
     let mut executor = fasync::Executor::new().context("Error creating executor")?;
     executor.run_singlethreaded(async {
         if opt.is_child {
             run_client(opt.gateway).await
         } else {
             run_server().await
         }
     })
 }
	// Copyright 2019 The Fuchsia Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	use {
	anyhow::{format_err, Context as _, Error},
	argh::FromArgs,
	fidl_fuchsia_net_stack::StackMarker,
	fidl_fuchsia_netemul_sync::{BusMarker, BusProxy, SyncManagerMarker},
	fuchsia_async as fasync,
	fuchsia_component::client,
	fuchsia_syslog::fx_log_info,
	std::io::{Read, Write},
	std::net::{SocketAddr, TcpListener, TcpStream},
	};

	const BUS_NAME: &str = "test-bus";
	const SERVER_NAME: &str = "server";
	const CLIENT_NAME: &str = "client";
	const HELLO_MSG_REQ: &str = "Hello World from Client!";
	const HELLO_MSG_RSP: &str = "Hello World from Server!";
	const SERVER_IP: &str = "192.168.0.1";
	const PORT: i32 = 8080;

	pub struct BusConnection {
	bus: BusProxy,
	}

	impl BusConnection {
	pub fn new(client: &str) -> Result<BusConnection, Error> {
	let busm = client::connect_to_service::<SyncManagerMarker>()
	.context("SyncManager not available")?;
	let (bus, busch) = fidl::endpoints::create_proxy::<BusMarker>()?;
	busm.bus_subscribe(BUS_NAME, client, busch)?;
	Ok(BusConnection { bus })
	}

	pub async fn wait_for_client(&mut self, expect: &'static str) -> Result<(), Error> {
	let _ = self.bus.wait_for_clients(&mut vec![expect].drain(..), 0).await?;
	Ok(())
	}
	}

	async fn run_server() -> Result<(), Error> {
	let listener =
	TcpListener::bind(&format!("{}:{}", SERVER_IP, PORT)).context("Can't bind to address")?;
	fx_log_info!("Waiting for connections...");

	let _bus = BusConnection::new(SERVER_NAME)?;

	let (mut stream, remote) = listener.accept().context("Accept failed")?;
	fx_log_info!("Accepted connection from {}", remote);
	let mut buffer = [0; 512];
	let rd = stream.read(&mut buffer).context("read failed")?;

	let req = String::from_utf8_lossy(&buffer[0..rd]);
	if req != HELLO_MSG_REQ {
	return Err(format_err!("Got unexpected request from client: {}", req));
	}
	fx_log_info!("Got request {}", req);
	stream.write(HELLO_MSG_RSP.as_bytes()).context("write failed")?;
	stream.flush().context("flush failed")?;
	Ok(())
	}

	async fn run_client(gateway: Option<String>) -> Result<(), Error> {
	if let Some(gateway) = gateway {
	let gw_addr: fidl_fuchsia_net::IpAddress = fidl_fuchsia_net_ext::IpAddress(
	gateway.parse::<std::net::IpAddr>().context("failed to parse gateway address")?,
	)
	.into();
	test_gateway(gw_addr).await.context("test_gateway failed")?;
	}

	fx_log_info!("Waiting for server...");
	let mut bus = BusConnection::new(CLIENT_NAME)?;
	let () = bus.wait_for_client(SERVER_NAME).await?;
	fx_log_info!("Connecting to server...");
	let addr: SocketAddr = format!("{}:{}", SERVER_IP, PORT).parse()?;
	let mut stream = TcpStream::connect(&addr).context("Tcp connection failed")?;
	let request = HELLO_MSG_REQ.as_bytes();
	stream.write(request)?;
	stream.flush()?;

	let mut buffer = [0; 512];
	let rd = stream.read(&mut buffer)?;
	let rsp = String::from_utf8_lossy(&buffer[0..rd]);
	fx_log_info!("Got response {}", rsp);
	if rsp != HELLO_MSG_RSP {
	return Err(format_err!("Got unexpected echo from server: {}", rsp));
	}
	Ok(())
	}

	async fn test_gateway(gw_addr: fidl_fuchsia_net::IpAddress) -> Result<(), Error> {
	let stack =
	client::connect_to_service::<StackMarker>().context("failed to connect to netstack")?;
	let response =
	stack.get_forwarding_table().await.context("failed to call get_forwarding_table")?;
	let found = response.iter().any(\|entry\| {
	let fidl_fuchsia_net_ext::IpAddress(entry_addr) = entry.subnet.addr.into();
	if let fidl_fuchsia_net_stack::ForwardingDestination::NextHop(gw) = entry.destination {
	entry_addr.is_unspecified() && entry.subnet.prefix_len == 0 && gw == gw_addr
	} else {
	false
	}
	});
	if found {
	fx_log_info!("Found default route for gateway");
	Ok(())
	} else {
	let fidl_fuchsia_net_ext::IpAddress(gw) = gw_addr.into();
	let unspecified = match gw {
	std::net::IpAddr::V4(_) => std::net::IpAddr::V4(std::net::Ipv4Addr::UNSPECIFIED),
	std::net::IpAddr::V6(_) => std::net::IpAddr::V6(std::net::Ipv6Addr::UNSPECIFIED),
	};
	Err(format_err!("could not find {}/0 next hop {} in {:?}", unspecified, gw, response))
	}
	}

	#[derive(FromArgs, Debug)]
	/// Easy netstack configuration test.
	struct Opt {
	/// whether the test is run as a child
	#[argh(switch, short = 'c')]
	is_child: bool,
	/// an optional gateway to test
	#[argh(option, short = 'g')]
	gateway: Option<String>,
	}

	fn main() -> Result<(), Error> {
	fuchsia_syslog::init_with_tags(&["easy-netstack-cfg"])?;
	fx_log_info!("Started");

	let opt: Opt = argh::from_env();
	let mut executor = fasync::Executor::new().context("Error creating executor")?;
	executor.run_singlethreaded(async {
	if opt.is_child {
	run_client(opt.gateway).await
	} else {
	run_server().await
	}
	})
	}