rustdesk/libs/hbb_common/src/socket_client.rs

282 lines
7.9 KiB
Rust

use crate::{
config::{Config, NetworkType},
tcp::FramedStream,
udp::FramedSocket,
ResultType,
};
use anyhow::Context;
use std::net::SocketAddr;
use tokio::net::ToSocketAddrs;
use tokio_socks::{IntoTargetAddr, TargetAddr};
#[inline]
pub fn check_port<T: std::string::ToString>(host: T, port: i32) -> String {
let host = host.to_string();
if crate::is_ipv6_str(&host) {
if host.starts_with('[') {
return host;
}
return format!("[{host}]:{port}");
}
if !host.contains(':') {
return format!("{host}:{port}");
}
host
}
#[inline]
pub fn increase_port<T: std::string::ToString>(host: T, offset: i32) -> String {
let host = host.to_string();
if crate::is_ipv6_str(&host) {
if host.starts_with('[') {
let tmp: Vec<&str> = host.split("]:").collect();
if tmp.len() == 2 {
let port: i32 = tmp[1].parse().unwrap_or(0);
if port > 0 {
return format!("{}]:{}", tmp[0], port + offset);
}
}
}
} else if host.contains(':') {
let tmp: Vec<&str> = host.split(':').collect();
if tmp.len() == 2 {
let port: i32 = tmp[1].parse().unwrap_or(0);
if port > 0 {
return format!("{}:{}", tmp[0], port + offset);
}
}
}
host
}
pub fn test_if_valid_server(host: &str) -> String {
let host = check_port(host, 0);
use std::net::ToSocketAddrs;
match Config::get_network_type() {
NetworkType::Direct => match host.to_socket_addrs() {
Err(err) => err.to_string(),
Ok(_) => "".to_owned(),
},
NetworkType::ProxySocks => match &host.into_target_addr() {
Err(err) => err.to_string(),
Ok(_) => "".to_owned(),
},
}
}
pub trait IsResolvedSocketAddr {
fn resolve(&self) -> Option<&SocketAddr>;
}
impl IsResolvedSocketAddr for SocketAddr {
fn resolve(&self) -> Option<&SocketAddr> {
Some(self)
}
}
impl IsResolvedSocketAddr for String {
fn resolve(&self) -> Option<&SocketAddr> {
None
}
}
impl IsResolvedSocketAddr for &str {
fn resolve(&self) -> Option<&SocketAddr> {
None
}
}
#[inline]
pub async fn connect_tcp<
't,
T: IntoTargetAddr<'t> + ToSocketAddrs + IsResolvedSocketAddr + std::fmt::Display,
>(
target: T,
ms_timeout: u64,
) -> ResultType<FramedStream> {
connect_tcp_local(target, None, ms_timeout).await
}
pub async fn connect_tcp_local<
't,
T: IntoTargetAddr<'t> + ToSocketAddrs + IsResolvedSocketAddr + std::fmt::Display,
>(
target: T,
local: Option<SocketAddr>,
ms_timeout: u64,
) -> ResultType<FramedStream> {
if let Some(conf) = Config::get_socks() {
return FramedStream::connect(
conf.proxy.as_str(),
target,
local,
conf.username.as_str(),
conf.password.as_str(),
ms_timeout,
)
.await;
}
if let Some(target) = target.resolve() {
if let Some(local) = local {
if local.is_ipv6() && target.is_ipv4() {
let target = query_nip_io(target).await?;
return FramedStream::new(target, Some(local), ms_timeout).await;
}
}
}
FramedStream::new(target, local, ms_timeout).await
}
#[inline]
pub fn is_ipv4(target: &TargetAddr<'_>) -> bool {
match target {
TargetAddr::Ip(addr) => addr.is_ipv4(),
_ => true,
}
}
#[inline]
pub async fn query_nip_io(addr: &SocketAddr) -> ResultType<SocketAddr> {
tokio::net::lookup_host(format!("{}.nip.io:{}", addr.ip(), addr.port()))
.await?
.find(|x| x.is_ipv6())
.context("Failed to get ipv6 from nip.io")
}
#[inline]
pub fn ipv4_to_ipv6(addr: String, ipv4: bool) -> String {
if !ipv4 && crate::is_ipv4_str(&addr) {
if let Some(ip) = addr.split(':').next() {
return addr.replace(ip, &format!("{ip}.nip.io"));
}
}
addr
}
async fn test_target(target: &str) -> ResultType<SocketAddr> {
if let Ok(Ok(s)) = super::timeout(1000, tokio::net::TcpStream::connect(target)).await {
if let Ok(addr) = s.peer_addr() {
return Ok(addr);
}
}
tokio::net::lookup_host(target)
.await?
.next()
.context(format!("Failed to look up host for {target}"))
}
#[inline]
pub async fn new_udp_for(
target: &str,
ms_timeout: u64,
) -> ResultType<(FramedSocket, TargetAddr<'static>)> {
let (ipv4, target) = if NetworkType::Direct == Config::get_network_type() {
let addr = test_target(target).await?;
(addr.is_ipv4(), addr.into_target_addr()?)
} else {
(true, target.into_target_addr()?)
};
Ok((
new_udp(Config::get_any_listen_addr(ipv4), ms_timeout).await?,
target.to_owned(),
))
}
async fn new_udp<T: ToSocketAddrs>(local: T, ms_timeout: u64) -> ResultType<FramedSocket> {
match Config::get_socks() {
None => Ok(FramedSocket::new(local).await?),
Some(conf) => {
let socket = FramedSocket::new_proxy(
conf.proxy.as_str(),
local,
conf.username.as_str(),
conf.password.as_str(),
ms_timeout,
)
.await?;
Ok(socket)
}
}
}
pub async fn rebind_udp_for(
target: &str,
) -> ResultType<Option<(FramedSocket, TargetAddr<'static>)>> {
if Config::get_network_type() != NetworkType::Direct {
return Ok(None);
}
let addr = test_target(target).await?;
let v4 = addr.is_ipv4();
Ok(Some((
FramedSocket::new(Config::get_any_listen_addr(v4)).await?,
addr.into_target_addr()?.to_owned(),
)))
}
#[cfg(test)]
mod tests {
use std::net::ToSocketAddrs;
use super::*;
#[test]
fn test_nat64() {
test_nat64_async();
}
#[tokio::main(flavor = "current_thread")]
async fn test_nat64_async() {
assert_eq!(ipv4_to_ipv6("1.1.1.1".to_owned(), true), "1.1.1.1");
assert_eq!(ipv4_to_ipv6("1.1.1.1".to_owned(), false), "1.1.1.1.nip.io");
assert_eq!(
ipv4_to_ipv6("1.1.1.1:8080".to_owned(), false),
"1.1.1.1.nip.io:8080"
);
assert_eq!(
ipv4_to_ipv6("rustdesk.com".to_owned(), false),
"rustdesk.com"
);
if ("rustdesk.com:80")
.to_socket_addrs()
.unwrap()
.next()
.unwrap()
.is_ipv6()
{
assert!(query_nip_io(&"1.1.1.1:80".parse().unwrap())
.await
.unwrap()
.is_ipv6());
return;
}
assert!(query_nip_io(&"1.1.1.1:80".parse().unwrap()).await.is_err());
}
#[test]
fn test_test_if_valid_server() {
assert!(!test_if_valid_server("a").is_empty());
// on Linux, "1" is resolved to "0.0.0.1"
assert!(test_if_valid_server("1.1.1.1").is_empty());
assert!(test_if_valid_server("1.1.1.1:1").is_empty());
}
#[test]
fn test_check_port() {
assert_eq!(check_port("[1:2]:12", 32), "[1:2]:12");
assert_eq!(check_port("1:2", 32), "[1:2]:32");
assert_eq!(check_port("z1:2", 32), "z1:2");
assert_eq!(check_port("1.1.1.1", 32), "1.1.1.1:32");
assert_eq!(check_port("1.1.1.1:32", 32), "1.1.1.1:32");
assert_eq!(check_port("test.com:32", 0), "test.com:32");
assert_eq!(increase_port("[1:2]:12", 1), "[1:2]:13");
assert_eq!(increase_port("1.2.2.4:12", 1), "1.2.2.4:13");
assert_eq!(increase_port("1.2.2.4", 1), "1.2.2.4");
assert_eq!(increase_port("test.com", 1), "test.com");
assert_eq!(increase_port("test.com:13", 4), "test.com:17");
assert_eq!(increase_port("1:13", 4), "1:13");
assert_eq!(increase_port("22:1:13", 4), "22:1:13");
assert_eq!(increase_port("z1:2", 1), "z1:3");
}
}