Expand description
Dependencies
ssh-rs = "0.2.1"Connection method:
1. Password:
use ssh_rs::{Session, ssh};
fn main() {
let mut session: Session = ssh::create_session();
session.set_user_and_password("user", "password");
session.connect("ip:port").unwrap();
}2. Public key:
Currently, only RSA-PKCS#1-PEM type encrypted files with the encryption format -----BEGIN RSA PRIVATE KEY----- are supported.
1. Use key file path:
use ssh_rs::{Session, ssh};
use ssh_rs::key_pair::KeyPairType;
fn main() {
let mut session: Session = ssh::create_session();
// pem format key path -> /xxx/xxx/id_rsa
// KeyPairType::SshRsa -> Rsa type algorithm, currently only supports rsa.
session.set_user_and_key_pair_path("user", "pem format key path", KeyPairType::SshRsa).unwrap();
session.connect("ip:port").unwrap();
}2. Use key string:
use ssh_rs::{Session, ssh};
use ssh_rs::key_pair::KeyPairType;
fn main() {
let mut session: Session = ssh::create_session();
// pem format key string:
// -----BEGIN RSA PRIVATE KEY-----
// xxxxxxxxxxxxxxxxxxxxx
// -----END RSA PRIVATE KEY-----
// KeyPairType::SshRsa -> Rsa type algorithm, currently only supports rsa.
session.set_user_and_key_pair("user", "pem format key string", KeyPairType::SshRsa).unwrap();
session.connect("ip:port").unwrap();
}Enable global logging:
use ssh_rs::{Session, ssh};
fn main() {
// is_enable_log Whether to enable global logging
// The default is false(Do not enable)
// Can be set as true (enable)
ssh::is_enable_log(true);
let mut session: Session = ssh::create_session();
session.set_user_and_password("user", "password");
session.connect("ip:port").unwrap();
}Set timeout:
use ssh_rs::{Session, ssh};
fn main() {
let mut session: Session = ssh::create_session();
// set_timeout
// The unit is seconds
// The default timeout is 30 seconds
session.set_timeout(15);
session.set_user_and_password("user", "password");
session.connect("ip:port").unwrap();
}How to use:
Currently only supports exec shell scp these three functions.
1. exec
use ssh_rs::{ChannelExec, Session, ssh};
fn main() {
let mut session: Session = session();
// Usage 1
let exec: ChannelExec = session.open_exec().unwrap();
let vec: Vec<u8> = exec.send_command("ls -all").unwrap();
println!("{}", String::from_utf8(vec).unwrap());
// Usage 2
let channel = session.open_channel().unwrap();
let exec = channel.open_exec().unwrap();
let vec: Vec<u8> = exec.send_command("ls -all").unwrap();
println!("{}", String::from_utf8(vec).unwrap());
// Close session.
session.close().unwrap();
}2. shell
use std::thread::sleep;
use std::time::Duration;
use ssh_rs::{Channel, ChannelShell, Session, ssh};
fn main() {
let mut session: Session = session();
// Usage 1
let mut shell: ChannelShell = session.open_shell().unwrap();
run_shell(&mut shell);
// Usage 2
let channel: Channel = session.open_channel().unwrap();
let mut shell = channel.open_shell().unwrap();
run_shell(&mut shell);
// Close channel.
shell.close().unwrap();
// Close session.
session.close().unwrap();
}
fn run_shell(shell: &mut ChannelShell) {
sleep(Duration::from_millis(500));
let vec = shell.read().unwrap();
println!("{}", String::from_utf8(vec).unwrap());
shell.write(b"ls -all\n").unwrap();
sleep(Duration::from_millis(500));
let vec = shell.read().unwrap();
println!("{}", String::from_utf8(vec).unwrap());
}3. scp
use ssh_rs::{Channel, ChannelScp, Session, ssh};
fn main() {
let mut session: Session = session();
// Usage 1
let scp: ChannelScp = session.open_scp().unwrap();
scp.upload("local path", "remote path").unwrap();
let scp: ChannelScp = session.open_scp().unwrap();
scp.download("local path", "remote path").unwrap();
// Usage 2
let channel: Channel = session.open_channel().unwrap();
let scp: ChannelScp = channel.open_scp().unwrap();
scp.upload("local path", "remote path").unwrap();
let channel: Channel = session.open_channel().unwrap();
let scp: ChannelScp = channel.open_scp().unwrap();
scp.download("local path", "remote path").unwrap();
session.close().unwrap();
}