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bumble_fork/rust/src/cli/l2cap/client_bridge.rs
Gabriel White-Vega 9732eb8836 Address PR feedback
2023-09-06 09:47:08 -04:00

192 lines
6.3 KiB
Rust
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// Copyright 2023 Google LLC
//
// 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.
/// L2CAP CoC client bridge: connects to a BLE device, then waits for an inbound
/// TCP connection on a specified port number. When a TCP client connects, an
/// L2CAP CoC channel connection to the BLE device is established, and the data
/// is bridged in both directions, with flow control.
/// When the TCP connection is closed by the client, the L2CAP CoC channel is
/// disconnected, but the connection to the BLE device remains, ready for a new
/// TCP client to connect.
/// When the L2CAP CoC channel is closed, the TCP connection is closed as well.
use crate::cli::l2cap::{
proxy_l2cap_rx_to_tcp_tx, proxy_tcp_rx_to_l2cap_tx, run_future_with_current_task_locals,
BridgeData,
};
use bumble::wrapper::{
device::{Connection, Device},
hci::HciConstant,
};
use futures::executor::block_on;
use owo_colors::OwoColorize;
use pyo3::{PyResult, Python};
use std::{net::SocketAddr, sync::Arc};
use tokio::{
join,
net::{TcpListener, TcpStream},
sync::{mpsc, Mutex},
};
pub struct Args {
pub psm: u16,
pub max_credits: Option<u16>,
pub mtu: Option<u16>,
pub mps: Option<u16>,
pub bluetooth_address: String,
pub tcp_host: String,
pub tcp_port: u16,
}
pub async fn start(args: &Args, device: &mut Device) -> PyResult<()> {
println!(
"{}",
format!("### Connecting to {}...", args.bluetooth_address).yellow()
);
let mut ble_connection = device.connect(&args.bluetooth_address).await?;
ble_connection.on_disconnection(|_py, reason| {
let disconnection_info = match HciConstant::error_name(reason) {
Ok(info_string) => info_string,
Err(py_err) => format!("failed to get disconnection error name ({})", py_err),
};
println!(
"{} {}",
"@@@ Bluetooth disconnection: ".red(),
disconnection_info,
);
Ok(())
})?;
// Start the TCP server.
let listener = TcpListener::bind(format!("{}:{}", args.tcp_host, args.tcp_port))
.await
.expect("failed to bind tcp to address");
println!(
"{}",
format!(
"### Listening for TCP connections on port {}",
args.tcp_port
)
.magenta()
);
let psm = args.psm;
let max_credits = args.max_credits;
let mtu = args.mtu;
let mps = args.mps;
let ble_connection = Arc::new(Mutex::new(ble_connection));
// Ensure Python event loop is available to l2cap `disconnect`
let _ = run_future_with_current_task_locals(async move {
while let Ok((tcp_stream, addr)) = listener.accept().await {
let ble_connection = ble_connection.clone();
let _ = run_future_with_current_task_locals(proxy_data_between_tcp_and_l2cap(
ble_connection,
tcp_stream,
addr,
psm,
max_credits,
mtu,
mps,
));
}
Ok(())
});
Ok(())
}
async fn proxy_data_between_tcp_and_l2cap(
ble_connection: Arc<Mutex<Connection>>,
tcp_stream: TcpStream,
addr: SocketAddr,
psm: u16,
max_credits: Option<u16>,
mtu: Option<u16>,
mps: Option<u16>,
) -> PyResult<()> {
println!("{}", format!("<<< TCP connection from {}", addr).magenta());
println!(
"{}",
format!(">>> Opening L2CAP channel on PSM = {}", psm).yellow()
);
let mut l2cap_channel = match ble_connection
.lock()
.await
.open_l2cap_channel(psm, max_credits, mtu, mps)
.await
{
Ok(channel) => channel,
Err(e) => {
println!("{}", format!("!!! Connection failed: {e}").red());
// TCP stream will get dropped after returning, automatically shutting it down.
return Err(e);
}
};
let channel_info = l2cap_channel
.debug_string()
.unwrap_or_else(|e| format!("failed to get l2cap channel info ({e})"));
println!("{}{}", "*** L2CAP channel: ".cyan(), channel_info);
let (l2cap_to_tcp_tx, l2cap_to_tcp_rx) = mpsc::channel::<BridgeData>(10);
// Set l2cap callback (`set_sink`) for when data is received.
let l2cap_to_tcp_tx_clone = l2cap_to_tcp_tx.clone();
l2cap_channel
.set_sink(move |_py, sdu| {
block_on(l2cap_to_tcp_tx_clone.send(BridgeData::Data(sdu.into())))
.expect("failed to channel data to tcp");
Ok(())
})
.expect("failed to set sink for l2cap connection");
// Set l2cap callback for when the channel is closed.
l2cap_channel
.on_close(move |_py| {
println!("{}", "*** L2CAP channel closed".red());
block_on(l2cap_to_tcp_tx.send(BridgeData::CloseSignal))
.expect("failed to channel close signal to tcp");
Ok(())
})
.expect("failed to set on_close callback for l2cap channel");
let l2cap_channel = Arc::new(Mutex::new(Some(l2cap_channel)));
let (tcp_reader, tcp_writer) = tcp_stream.into_split();
// Do tcp stuff when something happens on the l2cap channel.
let handle_l2cap_data_future =
proxy_l2cap_rx_to_tcp_tx(l2cap_to_tcp_rx, tcp_writer, l2cap_channel.clone());
// Do l2cap stuff when something happens on tcp.
let handle_tcp_data_future = proxy_tcp_rx_to_l2cap_tx(tcp_reader, l2cap_channel.clone(), true);
let (handle_l2cap_result, handle_tcp_result) =
join!(handle_l2cap_data_future, handle_tcp_data_future);
if let Err(e) = handle_l2cap_result {
println!("!!! Error: {e}");
}
if let Err(e) = handle_tcp_result {
println!("!!! Error: {e}");
}
Python::with_gil(|_| {
// Must hold GIL at least once while/after dropping for Python heap object to ensure
// de-allocation.
drop(l2cap_channel);
});
Ok(())
}
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