igd_next/aio/
async_std.rsuse std::collections::HashMap;
use std::net::SocketAddr;
use async_std::{future::timeout, net::UdpSocket};
use async_trait::async_trait;
use futures::prelude::*;
use log::debug;
use super::{Provider, HEADER_NAME, MAX_RESPONSE_SIZE};
use crate::aio::Gateway;
use crate::common::options::{DEFAULT_TIMEOUT, RESPONSE_TIMEOUT};
use crate::common::{messages, parsing, SearchOptions};
use crate::errors::SearchError;
use crate::RequestError;
#[derive(Debug, Clone)]
pub struct AsyncStd;
#[async_trait]
impl Provider for AsyncStd {
async fn send_async(url: &str, action: &str, body: &str) -> Result<String, RequestError> {
Ok(surf::post(url)
.header(HEADER_NAME, action)
.content_type("text/xml")
.body(body)
.recv_string()
.await?)
}
}
pub async fn search_gateway(options: SearchOptions) -> Result<Gateway<AsyncStd>, SearchError> {
let mut socket = UdpSocket::bind(&options.bind_addr).await?;
send_search_request(&mut socket, options.broadcast_address).await?;
let max_search_time = options.timeout.unwrap_or(DEFAULT_TIMEOUT);
let start_search_time = std::time::Instant::now();
while start_search_time.elapsed() < max_search_time {
let search_response = receive_search_response(&mut socket);
let (response_body, from) = match timeout(RESPONSE_TIMEOUT, search_response).await {
Ok(Ok(v)) => v,
Ok(Err(err)) => {
debug!("error while receiving broadcast response: {err}");
continue;
}
Err(_) => {
debug!("timeout while receiving broadcast response");
continue;
}
};
let (addr, root_url) = match handle_broadcast_resp(&from, &response_body) {
Ok(v) => v,
Err(e) => {
debug!("error handling broadcast response: {}", e);
continue;
}
};
let (control_schema_url, control_url) = match get_control_urls(&addr, &root_url).await {
Ok(v) => v,
Err(e) => {
debug!("error getting control URLs: {}", e);
continue;
}
};
let control_schema = match get_control_schemas(&addr, &control_schema_url).await {
Ok(v) => v,
Err(e) => {
debug!("error getting control schemas: {}", e);
continue;
}
};
return Ok(Gateway {
addr,
root_url,
control_url,
control_schema_url,
control_schema,
provider: AsyncStd,
});
}
Err(SearchError::NoResponseWithinTimeout)
}
async fn send_search_request(socket: &mut UdpSocket, addr: SocketAddr) -> Result<(), SearchError> {
debug!(
"sending broadcast request to: {} on interface: {:?}",
addr,
socket.local_addr()
);
socket
.send_to(messages::SEARCH_REQUEST.as_bytes(), &addr)
.map_ok(|_| ())
.map_err(SearchError::from)
.await
}
async fn receive_search_response(socket: &mut UdpSocket) -> Result<(Vec<u8>, SocketAddr), SearchError> {
let mut buff = [0u8; MAX_RESPONSE_SIZE];
let (n, from) = socket.recv_from(&mut buff).map_err(SearchError::from).await?;
debug!("received broadcast response from: {}", from);
Ok((buff[..n].to_vec(), from))
}
fn handle_broadcast_resp(from: &SocketAddr, data: &[u8]) -> Result<(SocketAddr, String), SearchError> {
debug!("handling broadcast response from: {}", from);
let text = std::str::from_utf8(data).map_err(SearchError::from)?;
let (addr, root_url) = parsing::parse_search_result(text)?;
Ok((addr, root_url))
}
async fn get_control_urls(addr: &SocketAddr, path: &str) -> Result<(String, String), SearchError> {
let uri = format!("http://{addr}{path}");
debug!("requesting control url from: {}", uri);
let resp = surf::get(uri).recv_bytes().await?;
debug!("handling control response from: {}", addr);
let c = std::io::Cursor::new(&resp);
parsing::parse_control_urls(c)
}
async fn get_control_schemas(
addr: &SocketAddr,
control_schema_url: &str,
) -> Result<HashMap<String, Vec<String>>, SearchError> {
let uri = format!("http://{addr}{control_schema_url}");
debug!("requesting control schema from: {uri}");
let resp = surf::get(uri).recv_bytes().await?;
debug!("handling schema response from: {addr}");
let c = std::io::Cursor::new(&resp);
parsing::parse_schemas(c)
}