vendor/russh/examples/client_exec_interactive.rs

///
/// Run this example with:
/// cargo run --example client_exec_interactive -- -k <private key path> <host> <command>
///
use std::convert::TryFrom;
use std::env;
use std::path::{Path, PathBuf};
use std::sync::Arc;
use std::time::Duration;

use anyhow::Result;
use async_trait::async_trait;
use clap::Parser;
use log::info;
use russh::keys::*;
use russh::*;
use termion::raw::IntoRawMode;
use tokio::io::{AsyncReadExt, AsyncWriteExt};
use tokio::net::ToSocketAddrs;

#[tokio::main]
async fn main() -> Result<()> {
    env_logger::builder()
        .filter_level(log::LevelFilter::Info)
        .init();

    // CLI options are defined later in this file
    let cli = Cli::parse();

    info!("Connecting to {}:{}", cli.host, cli.port);
    info!("Key path: {:?}", cli.private_key);
    info!("OpenSSH Certificate path: {:?}", cli.openssh_certificate);

    // Session is a wrapper around a russh client, defined down below
    let mut ssh = Session::connect(
        cli.private_key,
        cli.username.unwrap_or("root".to_string()),
        cli.openssh_certificate,
        (cli.host, cli.port),
    )
    .await?;
    info!("Connected");

    let code = {
        // We're using `termion` to put the terminal into raw mode, so that we can
        // display the output of interactive applications correctly
        let _raw_term = std::io::stdout().into_raw_mode()?;
        ssh.call(
            &cli.command
                .into_iter()
                .map(|x| shell_escape::escape(x.into())) // arguments are escaped manually since the SSH protocol doesn't support quoting
                .collect::<Vec<_>>()
                .join(" "),
        )
        .await?
    };

    println!("Exitcode: {:?}", code);
    ssh.close().await?;
    Ok(())
}

struct Client {}

// More SSH event handlers
// can be defined in this trait
// In this example, we're only using Channel, so these aren't needed.
#[async_trait]
impl client::Handler for Client {
    type Error = russh::Error;

    async fn check_server_key(
        &mut self,
        _server_public_key: &key::PublicKey,
    ) -> Result<bool, Self::Error> {
        Ok(true)
    }
}

/// This struct is a convenience wrapper
/// around a russh client
/// that handles the input/output event loop
pub struct Session {
    session: client::Handle<Client>,
}

impl Session {
    async fn connect<P: AsRef<Path>, A: ToSocketAddrs>(
        key_path: P,
        user: impl Into<String>,
        openssh_cert_path: Option<P>,
        addrs: A,
    ) -> Result<Self> {
        let key_pair = load_secret_key(key_path, None)?;

        // load ssh certificate
        let mut openssh_cert = None;
        if openssh_cert_path.is_some() {
            openssh_cert = Some(load_openssh_certificate(openssh_cert_path.unwrap())?);
        }

        let config = client::Config {
            inactivity_timeout: Some(Duration::from_secs(5)),
            ..<_>::default()
        };

        let config = Arc::new(config);
        let sh = Client {};

        let mut session = client::connect(config, addrs, sh).await?;

        // use publickey authentication, with or without certificate
        if openssh_cert.is_none() {
            let auth_res = session
                .authenticate_publickey(user, Arc::new(key_pair))
                .await?;

            if !auth_res {
                anyhow::bail!("Authentication (with publickey) failed");
            }
        } else {
            let auth_res = session
                .authenticate_openssh_cert(user, Arc::new(key_pair), openssh_cert.unwrap())
                .await?;

            if !auth_res {
                anyhow::bail!("Authentication (with publickey+cert) failed");
            }
        }

        Ok(Self { session })
    }

    async fn call(&mut self, command: &str) -> Result<u32> {
        let mut channel = self.session.channel_open_session().await?;

        // This example doesn't terminal resizing after the connection is established
        let (w, h) = termion::terminal_size()?;

        // Request an interactive PTY from the server
        channel
            .request_pty(
                false,
                &env::var("TERM").unwrap_or("xterm".into()),
                w as u32,
                h as u32,
                0,
                0,
                &[], // ideally you want to pass the actual terminal modes here
            )
            .await?;
        channel.exec(true, command).await?;

        let code;
        let mut stdin = tokio_fd::AsyncFd::try_from(0)?;
        let mut stdout = tokio_fd::AsyncFd::try_from(1)?;
        let mut buf = vec![0; 1024];
        let mut stdin_closed = false;

        loop {
            // Handle one of the possible events:
            tokio::select! {
                // There's terminal input available from the user
                r = stdin.read(&mut buf), if !stdin_closed => {
                    match r {
                        Ok(0) => {
                            stdin_closed = true;
                            channel.eof().await?;
                        },
                        // Send it to the server
                        Ok(n) => channel.data(&buf[..n]).await?,
                        Err(e) => return Err(e.into()),
                    };
                },
                // There's an event available on the session channel
                Some(msg) = channel.wait() => {
                    match msg {
                        // Write data to the terminal
                        ChannelMsg::Data { ref data } => {
                            stdout.write_all(data).await?;
                            stdout.flush().await?;
                        }
                        // The command has returned an exit code
                        ChannelMsg::ExitStatus { exit_status } => {
                            code = exit_status;
                            if !stdin_closed {
                                channel.eof().await?;
                            }
                            break;
                        }
                        _ => {}
                    }
                },
            }
        }
        Ok(code)
    }

    async fn close(&mut self) -> Result<()> {
        self.session
            .disconnect(Disconnect::ByApplication, "", "English")
            .await?;
        Ok(())
    }
}

#[derive(clap::Parser)]
#[clap(trailing_var_arg = true)]
pub struct Cli {
    #[clap(index = 1)]
    host: String,

    #[clap(long, short, default_value_t = 22)]
    port: u16,

    #[clap(long, short)]
    username: Option<String>,

    #[clap(long, short = 'k')]
    private_key: PathBuf,

    #[clap(long, short = 'o')]
    openssh_certificate: Option<PathBuf>,

    #[clap(multiple = true, index = 2, required = true)]
    command: Vec<String>,
}
chore: checkpoint before Python removal 2026-03-26 22:33:59 +00:00			`///`
			`/// Run this example with:`
			`/// cargo run --example client_exec_interactive -- -k <private key path> <host> <command>`
			`///`
			`use std::convert::TryFrom;`
			`use std::env;`
			`use std::path::{Path, PathBuf};`
			`use std::sync::Arc;`
			`use std::time::Duration;`

			`use anyhow::Result;`
			`use async_trait::async_trait;`
			`use clap::Parser;`
			`use log::info;`
			`use russh::keys::*;`
			`use russh::*;`
			`use termion::raw::IntoRawMode;`
			`use tokio::io::{AsyncReadExt, AsyncWriteExt};`
			`use tokio::net::ToSocketAddrs;`

			`#[tokio::main]`
			`async fn main() -> Result<()> {`
			`env_logger::builder()`
			`.filter_level(log::LevelFilter::Info)`
			`.init();`

			`// CLI options are defined later in this file`
			`let cli = Cli::parse();`

			`info!("Connecting to {}:{}", cli.host, cli.port);`
			`info!("Key path: {:?}", cli.private_key);`
			`info!("OpenSSH Certificate path: {:?}", cli.openssh_certificate);`

			`// Session is a wrapper around a russh client, defined down below`
			`let mut ssh = Session::connect(`
			`cli.private_key,`
			`cli.username.unwrap_or("root".to_string()),`
			`cli.openssh_certificate,`
			`(cli.host, cli.port),`
			`)`
			`.await?;`
			`info!("Connected");`

			`let code = {`
			// We're using `termion` to put the terminal into raw mode, so that we can
			`// display the output of interactive applications correctly`
			`let _raw_term = std::io::stdout().into_raw_mode()?;`
			`ssh.call(`
			`&cli.command`
			`.into_iter()`
			`.map(\|x\| shell_escape::escape(x.into())) // arguments are escaped manually since the SSH protocol doesn't support quoting`
			`.collect::<Vec<_>>()`
			`.join(" "),`
			`)`
			`.await?`
			`};`

			`println!("Exitcode: {:?}", code);`
			`ssh.close().await?;`
			`Ok(())`
			`}`

			`struct Client {}`

			`// More SSH event handlers`
			`// can be defined in this trait`
			`// In this example, we're only using Channel, so these aren't needed.`
			`#[async_trait]`
			`impl client::Handler for Client {`
			`type Error = russh::Error;`

			`async fn check_server_key(`
			`&mut self,`
			`_server_public_key: &key::PublicKey,`
			`) -> Result<bool, Self::Error> {`
			`Ok(true)`
			`}`
			`}`

			`/// This struct is a convenience wrapper`
			`/// around a russh client`
			`/// that handles the input/output event loop`
			`pub struct Session {`
			`session: client::Handle<Client>,`
			`}`

			`impl Session {`
			`async fn connect<P: AsRef<Path>, A: ToSocketAddrs>(`
			`key_path: P,`
			`user: impl Into<String>,`
			`openssh_cert_path: Option<P>,`
			`addrs: A,`
			`) -> Result<Self> {`
			`let key_pair = load_secret_key(key_path, None)?;`

			`// load ssh certificate`
			`let mut openssh_cert = None;`
			`if openssh_cert_path.is_some() {`
			`openssh_cert = Some(load_openssh_certificate(openssh_cert_path.unwrap())?);`
			`}`

			`let config = client::Config {`
			`inactivity_timeout: Some(Duration::from_secs(5)),`
			`..<_>::default()`
			`};`

			`let config = Arc::new(config);`
			`let sh = Client {};`

			`let mut session = client::connect(config, addrs, sh).await?;`

			`// use publickey authentication, with or without certificate`
			`if openssh_cert.is_none() {`
			`let auth_res = session`
			`.authenticate_publickey(user, Arc::new(key_pair))`
			`.await?;`

			`if !auth_res {`
			`anyhow::bail!("Authentication (with publickey) failed");`
			`}`
			`} else {`
			`let auth_res = session`
			`.authenticate_openssh_cert(user, Arc::new(key_pair), openssh_cert.unwrap())`
			`.await?;`

			`if !auth_res {`
			`anyhow::bail!("Authentication (with publickey+cert) failed");`
			`}`
			`}`

			`Ok(Self { session })`
			`}`

			`async fn call(&mut self, command: &str) -> Result<u32> {`
			`let mut channel = self.session.channel_open_session().await?;`

			`// This example doesn't terminal resizing after the connection is established`
			`let (w, h) = termion::terminal_size()?;`

			`// Request an interactive PTY from the server`
			`channel`
			`.request_pty(`
			`false,`
			`&env::var("TERM").unwrap_or("xterm".into()),`
			`w as u32,`
			`h as u32,`
			`0,`
			`0,`
			`&[], // ideally you want to pass the actual terminal modes here`
			`)`
			`.await?;`
			`channel.exec(true, command).await?;`

			`let code;`
			`let mut stdin = tokio_fd::AsyncFd::try_from(0)?;`
			`let mut stdout = tokio_fd::AsyncFd::try_from(1)?;`
			`let mut buf = vec![0; 1024];`
			`let mut stdin_closed = false;`

			`loop {`
			`// Handle one of the possible events:`
			`tokio::select! {`
			`// There's terminal input available from the user`
			`r = stdin.read(&mut buf), if !stdin_closed => {`
			`match r {`
			`Ok(0) => {`
			`stdin_closed = true;`
			`channel.eof().await?;`
			`},`
			`// Send it to the server`
			`Ok(n) => channel.data(&buf[..n]).await?,`
			`Err(e) => return Err(e.into()),`
			`};`
			`},`
			`// There's an event available on the session channel`
			`Some(msg) = channel.wait() => {`
			`match msg {`
			`// Write data to the terminal`
			`ChannelMsg::Data { ref data } => {`
			`stdout.write_all(data).await?;`
			`stdout.flush().await?;`
			`}`
			`// The command has returned an exit code`
			`ChannelMsg::ExitStatus { exit_status } => {`
			`code = exit_status;`
			`if !stdin_closed {`
			`channel.eof().await?;`
			`}`
			`break;`
			`}`
			`_ => {}`
			`}`
			`},`
			`}`
			`}`
			`Ok(code)`
			`}`

			`async fn close(&mut self) -> Result<()> {`
			`self.session`
			`.disconnect(Disconnect::ByApplication, "", "English")`
			`.await?;`
			`Ok(())`
			`}`
			`}`

			`#[derive(clap::Parser)]`
			`#[clap(trailing_var_arg = true)]`
			`pub struct Cli {`
			`#[clap(index = 1)]`
			`host: String,`

			`#[clap(long, short, default_value_t = 22)]`
			`port: u16,`

			`#[clap(long, short)]`
			`username: Option<String>,`

			`#[clap(long, short = 'k')]`
			`private_key: PathBuf,`

			`#[clap(long, short = 'o')]`
			`openssh_certificate: Option<PathBuf>,`

			`#[clap(multiple = true, index = 2, required = true)]`
			`command: Vec<String>,`
			`}`