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e948dbfcc1b8fd60f2e50388530be39df245e56b
Easytier/easytier/src/easytier-core.rs
T
Sijie.Sun e948dbfcc1 Feat/web (Patchset 4) (#460) 
support basic functions in frontend
1. create/del network
2. inspect network running status
2024-11-08 23:33:17 +08:00

817 lines
24 KiB
Rust
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#![allow(dead_code)]
#[macro_use]
extern crate rust_i18n;
use std::{
net::{Ipv4Addr, SocketAddr},
path::PathBuf,
};
use anyhow::Context;
use clap::Parser;
use tokio::net::TcpSocket;
use easytier::{
common::{
config::{
ConfigLoader, ConsoleLoggerConfig, FileLoggerConfig, NetworkIdentity, PeerConfig,
TomlConfigLoader, VpnPortalConfig,
},
constants::EASYTIER_VERSION,
global_ctx::{EventBusSubscriber, GlobalCtxEvent},
scoped_task::ScopedTask,
},
launcher, proto,
tunnel::udp::UdpTunnelConnector,
utils::{init_logger, setup_panic_handler},
web_client,
};
#[cfg(target_os = "windows")]
windows_service::define_windows_service!(ffi_service_main, win_service_main);
#[cfg(feature = "mimalloc")]
use mimalloc_rust::GlobalMiMalloc;
#[cfg(feature = "mimalloc")]
#[global_allocator]
static GLOBAL_MIMALLOC: GlobalMiMalloc = GlobalMiMalloc;
#[derive(Parser, Debug)]
#[command(name = "easytier-core", author, version = EASYTIER_VERSION , about, long_about = None)]
struct Cli {
#[arg(
short = 'w',
long,
help = t!("core_clap.config_server").to_string()
)]
config_server: Option<String>,
#[arg(
short,
long,
help = t!("core_clap.config_file").to_string()
)]
config_file: Option<PathBuf>,
#[arg(
long,
help = t!("core_clap.network_name").to_string(),
default_value = "default"
)]
network_name: String,
#[arg(
long,
help = t!("core_clap.network_secret").to_string(),
default_value = ""
)]
network_secret: String,
#[arg(
short,
long,
help = t!("core_clap.ipv4").to_string()
)]
ipv4: Option<String>,
#[arg(
short,
long,
help = t!("core_clap.dhcp").to_string()
)]
dhcp: bool,
#[arg(
short,
long,
help = t!("core_clap.peers").to_string(),
num_args = 0..
)]
peers: Vec<String>,
#[arg(
short,
long,
help = t!("core_clap.external_node").to_string()
)]
external_node: Option<String>,
#[arg(
short = 'n',
long,
help = t!("core_clap.proxy_networks").to_string()
)]
proxy_networks: Vec<String>,
#[arg(
short,
long,
help = t!("core_clap.rpc_portal").to_string(),
default_value = "0"
)]
rpc_portal: String,
#[arg(
short,
long,
help = t!("core_clap.listeners").to_string(),
default_values_t = ["11010".to_string()],
num_args = 0..
)]
listeners: Vec<String>,
#[arg(
long,
help = t!("core_clap.no_listener").to_string(),
default_value = "false"
)]
no_listener: bool,
#[arg(
long,
help = t!("core_clap.console_log_level").to_string()
)]
console_log_level: Option<String>,
#[arg(
long,
help = t!("core_clap.file_log_level").to_string()
)]
file_log_level: Option<String>,
#[arg(
long,
help = t!("core_clap.file_log_dir").to_string()
)]
file_log_dir: Option<String>,
#[arg(
long,
help = t!("core_clap.hostname").to_string()
)]
hostname: Option<String>,
#[arg(
short = 'm',
long,
help = t!("core_clap.instance_name").to_string(),
default_value = "default"
)]
instance_name: String,
#[arg(
long,
help = t!("core_clap.vpn_portal").to_string()
)]
vpn_portal: Option<String>,
#[arg(
long,
help = t!("core_clap.default_protocol").to_string()
)]
default_protocol: Option<String>,
#[arg(
short = 'u',
long,
help = t!("core_clap.disable_encryption").to_string(),
default_value = "false"
)]
disable_encryption: bool,
#[arg(
long,
help = t!("core_clap.multi_thread").to_string(),
default_value = "false"
)]
multi_thread: bool,
#[arg(
long,
help = t!("core_clap.disable_ipv6").to_string(),
default_value = "false"
)]
disable_ipv6: bool,
#[arg(
long,
help = t!("core_clap.dev_name").to_string()
)]
dev_name: Option<String>,
#[arg(
long,
help = t!("core_clap.mtu").to_string()
)]
mtu: Option<u16>,
#[arg(
long,
help = t!("core_clap.latency_first").to_string(),
default_value = "false"
)]
latency_first: bool,
#[arg(
long,
help = t!("core_clap.exit_nodes").to_string(),
num_args = 0..
)]
exit_nodes: Vec<Ipv4Addr>,
#[arg(
long,
help = t!("core_clap.enable_exit_node").to_string(),
default_value = "false"
)]
enable_exit_node: bool,
#[arg(
long,
help = t!("core_clap.no_tun").to_string(),
default_value = "false"
)]
no_tun: bool,
#[arg(
long,
help = t!("core_clap.use_smoltcp").to_string(),
default_value = "false"
)]
use_smoltcp: bool,
#[arg(
long,
help = t!("core_clap.manual_routes").to_string(),
num_args = 0..
)]
manual_routes: Option<Vec<String>>,
#[arg(
long,
help = t!("core_clap.relay_network_whitelist").to_string(),
num_args = 0..
)]
relay_network_whitelist: Option<Vec<String>>,
#[arg(
long,
help = t!("core_clap.disable_p2p").to_string(),
default_value = "false"
)]
disable_p2p: bool,
#[arg(
long,
help = t!("core_clap.disable_udp_hole_punching").to_string(),
default_value = "false"
)]
disable_udp_hole_punching: bool,
#[arg(
long,
help = t!("core_clap.relay_all_peer_rpc").to_string(),
default_value = "false"
)]
relay_all_peer_rpc: bool,
#[cfg(feature = "socks5")]
#[arg(
long,
help = t!("core_clap.socks5").to_string()
)]
socks5: Option<u16>,
#[arg(
long,
help = t!("core_clap.ipv6_listener").to_string()
)]
ipv6_listener: Option<String>,
}
rust_i18n::i18n!("locales", fallback = "en");
impl Cli {
fn parse_listeners(no_listener: bool, listeners: Vec<String>) -> Vec<String> {
let proto_port_offset = vec![("tcp", 0), ("udp", 0), ("wg", 1), ("ws", 1), ("wss", 2)];
if no_listener || listeners.is_empty() {
return vec![];
}
let origin_listners = listeners;
let mut listeners: Vec<String> = Vec::new();
if origin_listners.len() == 1 {
if let Ok(port) = origin_listners[0].parse::<u16>() {
for (proto, offset) in proto_port_offset {
listeners.push(format!("{}://0.0.0.0:{}", proto, port + offset));
}
return listeners;
}
}
for l in &origin_listners {
let proto_port: Vec<&str> = l.split(':').collect();
if proto_port.len() > 2 {
if let Ok(url) = l.parse::<url::Url>() {
listeners.push(url.to_string());
} else {
panic!("failed to parse listener: {}", l);
}
} else {
let Some((proto, offset)) = proto_port_offset
.iter()
.find(|(proto, _)| *proto == proto_port[0])
else {
panic!("unknown protocol: {}", proto_port[0]);
};
let port = if proto_port.len() == 2 {
proto_port[1].parse::<u16>().unwrap()
} else {
11010 + offset
};
listeners.push(format!("{}://0.0.0.0:{}", proto, port));
}
}
listeners
}
fn check_tcp_available(port: u16) -> Option<SocketAddr> {
let s = format!("0.0.0.0:{}", port).parse::<SocketAddr>().unwrap();
TcpSocket::new_v4().unwrap().bind(s).map(|_| s).ok()
}
fn parse_rpc_portal(rpc_portal: String) -> SocketAddr {
if let Ok(port) = rpc_portal.parse::<u16>() {
if port == 0 {
// check tcp 15888 first
for i in 15888..15900 {
if let Some(s) = Cli::check_tcp_available(i) {
return s;
}
}
return "0.0.0.0:0".parse().unwrap();
}
return format!("0.0.0.0:{}", port).parse().unwrap();
}
rpc_portal.parse().unwrap()
}
}
impl From<Cli> for TomlConfigLoader {
fn from(cli: Cli) -> Self {
if let Some(config_file) = &cli.config_file {
println!(
"NOTICE: loading config file: {:?}, will ignore all command line flags\n",
config_file
);
return TomlConfigLoader::new(config_file)
.with_context(|| format!("failed to load config file: {:?}", cli.config_file))
.unwrap();
}
let cfg = TomlConfigLoader::default();
cfg.set_hostname(cli.hostname);
cfg.set_network_identity(NetworkIdentity::new(cli.network_name, cli.network_secret));
cfg.set_dhcp(cli.dhcp);
if let Some(ipv4) = &cli.ipv4 {
cfg.set_ipv4(Some(
ipv4.parse()
.with_context(|| format!("failed to parse ipv4 address: {}", ipv4))
.unwrap(),
))
}
cfg.set_peers(
cli.peers
.iter()
.map(|s| PeerConfig {
uri: s
.parse()
.with_context(|| format!("failed to parse peer uri: {}", s))
.unwrap(),
})
.collect(),
);
cfg.set_listeners(
Cli::parse_listeners(cli.no_listener, cli.listeners)
.into_iter()
.map(|s| s.parse().unwrap())
.collect(),
);
for n in cli.proxy_networks.iter() {
cfg.add_proxy_cidr(
n.parse()
.with_context(|| format!("failed to parse proxy network: {}", n))
.unwrap(),
);
}
cfg.set_rpc_portal(Cli::parse_rpc_portal(cli.rpc_portal));
if let Some(external_nodes) = cli.external_node {
let mut old_peers = cfg.get_peers();
old_peers.push(PeerConfig {
uri: external_nodes
.parse()
.with_context(|| {
format!("failed to parse external node uri: {}", external_nodes)
})
.unwrap(),
});
cfg.set_peers(old_peers);
}
if cli.console_log_level.is_some() {
cfg.set_console_logger_config(ConsoleLoggerConfig {
level: cli.console_log_level,
});
}
if cli.file_log_dir.is_some() || cli.file_log_level.is_some() {
cfg.set_file_logger_config(FileLoggerConfig {
level: cli.file_log_level.clone(),
dir: cli.file_log_dir.clone(),
file: Some(format!("easytier-{}", cli.instance_name)),
});
}
cfg.set_inst_name(cli.instance_name);
if let Some(vpn_portal) = cli.vpn_portal {
let url: url::Url = vpn_portal
.parse()
.with_context(|| format!("failed to parse vpn portal url: {}", vpn_portal))
.unwrap();
cfg.set_vpn_portal_config(VpnPortalConfig {
client_cidr: url.path()[1..]
.parse()
.with_context(|| {
format!("failed to parse vpn portal client cidr: {}", url.path())
})
.unwrap(),
wireguard_listen: format!("{}:{}", url.host_str().unwrap(), url.port().unwrap())
.parse()
.with_context(|| {
format!(
"failed to parse vpn portal wireguard listen address: {}",
url.host_str().unwrap()
)
})
.unwrap(),
});
}
if let Some(manual_routes) = cli.manual_routes {
cfg.set_routes(Some(
manual_routes
.iter()
.map(|s| {
s.parse()
.with_context(|| format!("failed to parse route: {}", s))
.unwrap()
})
.collect(),
));
}
#[cfg(feature = "socks5")]
if let Some(socks5_proxy) = cli.socks5 {
cfg.set_socks5_portal(Some(
format!("socks5://0.0.0.0:{}", socks5_proxy)
.parse()
.unwrap(),
));
}
let mut f = cfg.get_flags();
if cli.default_protocol.is_some() {
f.default_protocol = cli.default_protocol.as_ref().unwrap().clone();
}
f.enable_encryption = !cli.disable_encryption;
f.enable_ipv6 = !cli.disable_ipv6;
f.latency_first = cli.latency_first;
f.dev_name = cli.dev_name.unwrap_or_default();
if let Some(mtu) = cli.mtu {
f.mtu = mtu as u32;
}
f.enable_exit_node = cli.enable_exit_node;
f.no_tun = cli.no_tun || cfg!(not(feature = "tun"));
f.use_smoltcp = cli.use_smoltcp;
if let Some(wl) = cli.relay_network_whitelist {
f.foreign_network_whitelist = wl.join(" ");
}
f.disable_p2p = cli.disable_p2p;
f.relay_all_peer_rpc = cli.relay_all_peer_rpc;
if let Some(ipv6_listener) = cli.ipv6_listener {
f.ipv6_listener = ipv6_listener
.parse()
.with_context(|| format!("failed to parse ipv6 listener: {}", ipv6_listener))
.unwrap();
}
f.multi_thread = cli.multi_thread;
cfg.set_flags(f);
cfg.set_exit_nodes(cli.exit_nodes.clone());
cfg
}
}
fn print_event(msg: String) {
println!(
"{}: {}",
chrono::Local::now().format("%Y-%m-%d %H:%M:%S"),
msg
);
}
fn peer_conn_info_to_string(p: proto::cli::PeerConnInfo) -> String {
format!(
"my_peer_id: {}, dst_peer_id: {}, tunnel_info: {:?}",
p.my_peer_id, p.peer_id, p.tunnel
)
}
#[tracing::instrument]
pub fn handle_event(mut events: EventBusSubscriber) -> tokio::task::JoinHandle<()> {
tokio::spawn(async move {
while let Ok(e) = events.recv().await {
match e {
GlobalCtxEvent::PeerAdded(p) => {
print_event(format!("new peer added. peer_id: {}", p));
}
GlobalCtxEvent::PeerRemoved(p) => {
print_event(format!("peer removed. peer_id: {}", p));
}
GlobalCtxEvent::PeerConnAdded(p) => {
print_event(format!(
"new peer connection added. conn_info: {}",
peer_conn_info_to_string(p)
));
}
GlobalCtxEvent::PeerConnRemoved(p) => {
print_event(format!(
"peer connection removed. conn_info: {}",
peer_conn_info_to_string(p)
));
}
GlobalCtxEvent::ListenerAddFailed(p, msg) => {
print_event(format!(
"listener add failed. listener: {}, msg: {}",
p, msg
));
}
GlobalCtxEvent::ListenerAcceptFailed(p, msg) => {
print_event(format!(
"listener accept failed. listener: {}, msg: {}",
p, msg
));
}
GlobalCtxEvent::ListenerAdded(p) => {
if p.scheme() == "ring" {
continue;
}
print_event(format!("new listener added. listener: {}", p));
}
GlobalCtxEvent::ConnectionAccepted(local, remote) => {
print_event(format!(
"new connection accepted. local: {}, remote: {}",
local, remote
));
}
GlobalCtxEvent::ConnectionError(local, remote, err) => {
print_event(format!(
"connection error. local: {}, remote: {}, err: {}",
local, remote, err
));
}
GlobalCtxEvent::TunDeviceReady(dev) => {
print_event(format!("tun device ready. dev: {}", dev));
}
GlobalCtxEvent::TunDeviceError(err) => {
print_event(format!("tun device error. err: {}", err));
}
GlobalCtxEvent::Connecting(dst) => {
print_event(format!("connecting to peer. dst: {}", dst));
}
GlobalCtxEvent::ConnectError(dst, ip_version, err) => {
print_event(format!(
"connect to peer error. dst: {}, ip_version: {}, err: {}",
dst, ip_version, err
));
}
GlobalCtxEvent::VpnPortalClientConnected(portal, client_addr) => {
print_event(format!(
"vpn portal client connected. portal: {}, client_addr: {}",
portal, client_addr
));
}
GlobalCtxEvent::VpnPortalClientDisconnected(portal, client_addr) => {
print_event(format!(
"vpn portal client disconnected. portal: {}, client_addr: {}",
portal, client_addr
));
}
GlobalCtxEvent::DhcpIpv4Changed(old, new) => {
print_event(format!("dhcp ip changed. old: {:?}, new: {:?}", old, new));
}
GlobalCtxEvent::DhcpIpv4Conflicted(ip) => {
print_event(format!("dhcp ip conflict. ip: {:?}", ip));
}
}
}
})
}
#[cfg(target_os = "windows")]
fn win_service_event_loop(
stop_notify: std::sync::Arc<tokio::sync::Notify>,
inst: launcher::NetworkInstance,
status_handle: windows_service::service_control_handler::ServiceStatusHandle,
) {
use std::time::Duration;
use tokio::runtime::Runtime;
use windows_service::service::*;
std::thread::spawn(move || {
let rt = Runtime::new().unwrap();
rt.block_on(async move {
tokio::select! {
res = inst.wait() => {
if let Some(e) = res {
status_handle.set_service_status(ServiceStatus {
service_type: ServiceType::OWN_PROCESS,
current_state: ServiceState::Stopped,
controls_accepted: ServiceControlAccept::empty(),
checkpoint: 0,
wait_hint: Duration::default(),
exit_code: ServiceExitCode::ServiceSpecific(1u32),
process_id: None
}).unwrap();
panic!("launcher error: {:?}", e);
}
},
_ = stop_notify.notified() => {
status_handle.set_service_status(ServiceStatus {
service_type: ServiceType::OWN_PROCESS,
current_state: ServiceState::Stopped,
controls_accepted: ServiceControlAccept::empty(),
checkpoint: 0,
wait_hint: Duration::default(),
exit_code: ServiceExitCode::Win32(0),
process_id: None
}).unwrap();
std::process::exit(0);
}
}
});
});
}
#[cfg(target_os = "windows")]
fn win_service_main(_: Vec<std::ffi::OsString>) {
use std::sync::Arc;
use std::time::Duration;
use tokio::sync::Notify;
use windows_service::service::*;
use windows_service::service_control_handler::*;
let cli = Cli::parse();
let cfg = TomlConfigLoader::from(cli);
init_logger(&cfg, false).unwrap();
let stop_notify_send = Arc::new(Notify::new());
let stop_notify_recv = Arc::clone(&stop_notify_send);
let event_handler = move |control_event| -> ServiceControlHandlerResult {
match control_event {
ServiceControl::Interrogate => ServiceControlHandlerResult::NoError,
ServiceControl::Stop => {
stop_notify_send.notify_one();
ServiceControlHandlerResult::NoError
}
_ => ServiceControlHandlerResult::NotImplemented,
}
};
let status_handle = register(String::new(), event_handler).expect("register service fail");
let next_status = ServiceStatus {
service_type: ServiceType::OWN_PROCESS,
current_state: ServiceState::Running,
controls_accepted: ServiceControlAccept::STOP,
exit_code: ServiceExitCode::Win32(0),
checkpoint: 0,
wait_hint: Duration::default(),
process_id: None,
};
let mut inst = launcher::NetworkInstance::new(cfg).set_fetch_node_info(false);
inst.start().unwrap();
status_handle
.set_service_status(next_status)
.expect("set service status fail");
win_service_event_loop(stop_notify_recv, inst, status_handle);
}
#[tokio::main]
async fn main() {
let locale = sys_locale::get_locale().unwrap_or_else(|| String::from("en-US"));
rust_i18n::set_locale(&locale);
#[cfg(target_os = "windows")]
match windows_service::service_dispatcher::start(String::new(), ffi_service_main) {
Ok(_) => std::thread::park(),
Err(e) => {
let should_panic = if let windows_service::Error::Winapi(ref io_error) = e {
io_error.raw_os_error() != Some(0x427) // ERROR_FAILED_SERVICE_CONTROLLER_CONNECT
} else {
true
};
if should_panic {
panic!("SCM start an error: {}", e);
}
}
};
let cli = Cli::parse();
setup_panic_handler();
if cli.config_server.is_some() {
let config_server_url_s = cli.config_server.clone().unwrap();
let config_server_url = match url::Url::parse(&config_server_url_s) {
Ok(u) => u,
Err(_) => format!(
"udp://config-server.easytier.top:22020/{}",
config_server_url_s
)
.parse()
.unwrap(),
};
let mut c_url = config_server_url.clone();
c_url.set_path("");
let token = config_server_url
.path_segments()
.and_then(|mut x| x.next())
.map(|x| x.to_string())
.unwrap_or_default();
println!(
"Entering config client mode...\n server: {}\n token: {}",
c_url, token,
);
if token.is_empty() {
panic!("empty token");
}
let _wc = web_client::WebClient::new(UdpTunnelConnector::new(c_url), token.to_string());
tokio::signal::ctrl_c().await.unwrap();
return;
}
let cfg = TomlConfigLoader::from(cli);
init_logger(&cfg, false).unwrap();
println!("Starting easytier with config:");
println!("############### TOML ###############\n");
println!("{}", cfg.dump());
println!("-----------------------------------");
let mut l = launcher::NetworkInstance::new(cfg).set_fetch_node_info(false);
let _t = ScopedTask::from(handle_event(l.start().unwrap()));
if let Some(e) = l.wait().await {
panic!("launcher error: {:?}", e);
}
}
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