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File greetd-0.10.3.obscpio of Package greetd
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07070100000005000081A40000000000000000000000016662E6E5000000D4000000000000000000000000000000000000001900000000greetd-0.10.3/Cargo.toml[profile.dev] panic = "abort" [profile.release] lto = "fat" panic = "abort" opt-level = 'z' incremental = false codegen-units = 1 [workspace] members = ["inish", "greetd_ipc", "greetd", "agreety", "fakegreet"] 07070100000006000081A40000000000000000000000016662E6E50000894D000000000000000000000000000000000000001600000000greetd-0.10.3/LICENSE GNU GENERAL PUBLIC LICENSE Version 3, 29 June 2007 Copyright (C) 2007 Free Software Foundation, Inc. <https://fsf.org/> Everyone is permitted to copy and distribute verbatim copies of this license document, but changing it is not allowed. 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Also add information on how to contact you by electronic and paper mail. If the program does terminal interaction, make it output a short notice like this when it starts in an interactive mode: <program> Copyright (C) <year> <name of author> This program comes with ABSOLUTELY NO WARRANTY; for details type `show w'. This is free software, and you are welcome to redistribute it under certain conditions; type `show c' for details. The hypothetical commands `show w' and `show c' should show the appropriate parts of the General Public License. Of course, your program's commands might be different; for a GUI interface, you would use an "about box". You should also get your employer (if you work as a programmer) or school, if any, to sign a "copyright disclaimer" for the program, if necessary. For more information on this, and how to apply and follow the GNU GPL, see <https://www.gnu.org/licenses/>. The GNU General Public License does not permit incorporating your program into proprietary programs. If your program is a subroutine library, you may consider it more useful to permit linking proprietary applications with the library. If this is what you want to do, use the GNU Lesser General Public License instead of this License. But first, please read <https://www.gnu.org/licenses/why-not-lgpl.html>. 07070100000007000081A40000000000000000000000016662E6E500000D35000000000000000000000000000000000000001800000000greetd-0.10.3/README.md# greetd greetd is a minimal and flexible login manager daemon that makes no assumptions about what you want to launch. Use [gtkgreet](https://git.sr.ht/~kennylevinsen/gtkgreet) to launch [sway](https://github.com/swaywm/sway) if you want a fully graphical session, or use `agreety` to launch a shell if you want a drop-in replacement for `agetty(8)` and `login(1)`. If you can run it from your shell in a TTY, greetd can start it. If it can be taught to speak a simple JSON-based IPC protocol, then it can be a greeter. See the [wiki](https://man.sr.ht/~kennylevinsen/greetd) for FAQ, guides for common configurations, and troubleshooting information. ## List of known greetd greeters - agreety - The simple, text-based greeter living in this repo is a simple example. - [gtkgreet](https://git.sr.ht/~kennylevinsen/gtkgreet) - The flagship graphical, GTK based greeter (xdg-shell or wlr-layer-shell, to be used with something like `sway`) - [qtgreet](https://gitlab.com/marcusbritanicus/QtGreet) - Qt-based greeter (using wlr-layer-shell, to be used with something like `sway`) - [dlm](https://git.sr.ht/~kennylevinsen/dlm) - Dumb Login Manager (using fbdev) - [ddlm](https://github.com/deathowl/ddlm) - Deathowl's dummy login manager (using fbdev) - [wlgreet](https://git.sr.ht/~kennylevinsen/wlgreet) - Wayland greeter (using wlr-layer-shell, to be used with something like `sway`) - [tuigreet](https://github.com/apognu/tuigreet) - Console UI greeter (using tui-rs) - [ReGreet](https://github.com/rharish101/ReGreet) - Clean and customizable GTK4 based greeter (to be used with something like `sway`) - [marine_greetdm](https://github.com/Decodetalkers/marine_greetdm) - A cli greeter, by rustyline and without gui. It can configure enviroment variables for special desktops. - [greetd-qmlgreet](https://github.com/Decodetalkers/greetd-qmlgreet) - Qt6 qml greetd (using ext-session-shell, to be used with something like `river` and `sway`) - [Phog](https://gitlab.com/mobian1/phog) - A greetd-compatible greeter for mobile devices like Purism's Librem 5 and Pine64's PinePhone. Patches expanding the list welcome. ## Installation The below will install greetd, agreety and the default configuration. This looks *just* like `agetty(8)` and `login(1)`. See the manpages and the wiki for information on how to do more interesting things. ### From packages #### Arch Linux greetd and a few greeters are available in AUR for Arch Linux. #### Gentoo ```sh emerge gui-libs/greetd ``` ### Manually from source ```sh # Compile greetd and agreety. cargo build --release # Put things into place sudo cp target/release/{greetd,agreety} /usr/local/bin/ sudo cp greetd.service /etc/systemd/system/greetd.service mkdir /etc/greetd cp config.toml /etc/greetd/config.toml # Create the greeter user sudo useradd -M -G video greeter sudo chmod -R go+r /etc/greetd/ # Look in the configuration file `/etc/greetd/config.toml` and edit as appropriate. # When done, enable and start greetd systemctl enable --now greetd ``` ## How do I write my own greeter? All you need is an application that can speak the greetd IPC protocol, which is documented in `greetd-ipc(7)`. See gtkgreet or agreety for inspiration. # How to discuss Go to #kennylevinsen @ irc.libera.chat to discuss, or use [~kennylevinsen/greetd-devel@lists.sr.ht](https://lists.sr.ht/~kennylevinsen/greetd-devel). 07070100000008000041ED0000000000000000000000026662E6E500000000000000000000000000000000000000000000001600000000greetd-0.10.3/agreety07070100000009000081A40000000000000000000000016662E6E500000188000000000000000000000000000000000000002100000000greetd-0.10.3/agreety/Cargo.toml[package] name = "agreety" version = "0.10.3" authors = ["Kenny Levinsen"] edition = "2018" license = "GPL-3.0-only" homepage = "https://kl.wtf/projects/agreety" repository = "https://git.sr.ht/~kennylevinsen/greetd/" [dependencies] greetd_ipc = { path = "../greetd_ipc", features = ["sync-codec"]} inish = { path = "../inish"} rpassword = "5.0" getopts = "0.2" enquote = "1.1" nix = "0.27" 0707010000000A000041ED0000000000000000000000026662E6E500000000000000000000000000000000000000000000001A00000000greetd-0.10.3/agreety/src0707010000000B000081A40000000000000000000000016662E6E500001728000000000000000000000000000000000000002200000000greetd-0.10.3/agreety/src/main.rsuse std::{ env, fs, io::{self, BufRead}, os::unix::net::UnixStream, }; use enquote::unquote; use getopts::Options; use nix::sys::utsname::uname; use rpassword::prompt_password_stderr; use greetd_ipc::{codec::SyncCodec, AuthMessageType, ErrorType, Request, Response}; fn maybe_unquote(s: &str) -> Result<String, Box<dyn std::error::Error>> { Ok(match s.chars().next() { Some('"') | Some('\'') => unquote(s)?, _ => s.to_string(), }) } fn prompt_stderr(prompt: &str) -> Result<String, Box<dyn std::error::Error>> { let stdin = io::stdin(); let mut stdin_iter = stdin.lock().lines(); eprint!("{}", prompt); Ok(stdin_iter.next().ok_or("no input")??) } fn get_distro_name() -> Result<String, Box<dyn std::error::Error>> { let os_release = fs::read_to_string("/etc/os-release")?; let parsed = inish::parse(&os_release)?; let general = parsed.get("").ok_or("no general section")?; maybe_unquote(general.get("PRETTY_NAME").ok_or("no pretty name")?) } fn get_issue() -> Result<String, Box<dyn std::error::Error>> { let vtnr: usize = env::var("XDG_VTNR") .unwrap_or_else(|_| "0".to_string()) .parse() .expect("unable to parse VTNR"); let uts = uname()?; Ok(fs::read_to_string("/etc/issue")? .replace( "\\S", &get_distro_name().unwrap_or_else(|_| "Linux".to_string()), ) .replace("\\l", &format!("tty{}", vtnr)) .replace("\\s", uts.sysname().to_str().unwrap()) .replace("\\r", uts.release().to_str().unwrap()) .replace("\\v", uts.version().to_str().unwrap()) .replace("\\n", uts.nodename().to_str().unwrap()) .replace("\\m", uts.machine().to_str().unwrap()) .replace("\\\\", "\\")) } enum LoginResult { Success, Failure, } fn login(node: &str, cmd: &mut Option<String>) -> Result<LoginResult, Box<dyn std::error::Error>> { let username = loop { let username = prompt_stderr(&format!("{} login: ", node))?; if let Some(u) = username.strip_prefix('!') { *cmd = Some(u.to_string()); eprintln!("Login command changed to: {u}"); continue; } break username; }; let mut stream = UnixStream::connect(env::var("GREETD_SOCK")?)?; let mut next_request = Request::CreateSession { username }; let mut starting = false; loop { next_request.write_to(&mut stream)?; match Response::read_from(&mut stream)? { Response::AuthMessage { auth_message, auth_message_type, } => { let response = match auth_message_type { AuthMessageType::Visible => Some(prompt_stderr(&auth_message)?), AuthMessageType::Secret => Some(prompt_password_stderr(&auth_message)?), AuthMessageType::Info => { eprintln!("info: {}", auth_message); None } AuthMessageType::Error => { eprintln!("error: {}", auth_message); None } }; next_request = Request::PostAuthMessageResponse { response }; } Response::Success => { if starting { return Ok(LoginResult::Success); } else { starting = true; let command = match cmd { Some(cmd) => cmd.clone(), None => prompt_stderr("Command: ")?, }; next_request = Request::StartSession { env: vec![], cmd: vec![command.to_string()], } } } Response::Error { error_type, description, } => { Request::CancelSession.write_to(&mut stream)?; match error_type { ErrorType::AuthError => return Ok(LoginResult::Failure), ErrorType::Error => { return Err(format!("login error: {:?}", description).into()) } } } } } } fn print_usage(program: &str, opts: Options) { let brief = format!("Usage: {} [options]", program); print!("{}", opts.usage(&brief)); } fn main() { let args: Vec<String> = env::args().collect(); let program = args[0].clone(); let mut opts = Options::new(); opts.optflag("h", "help", "print this help menu"); opts.optopt("c", "cmd", "command to run", "COMMAND"); opts.optopt( "f", "max-failures", "maximum number of accepted failures", "FAILURES", ); let matches = match opts.parse(&args[1..]) { Ok(m) => m, Err(f) => { println!("{}", f); print_usage(&program, opts); std::process::exit(1); } }; if matches.opt_present("h") { print_usage(&program, opts); std::process::exit(0); } let mut cmd = matches.opt_default("cmd", ""); let max_failures: usize = match matches.opt_get("max-failures") { Ok(v) => v.unwrap_or(5), Err(e) => { eprintln!("unable to parse max failures: {}", e); std::process::exit(1) } }; if let Ok(issue) = get_issue() { print!("{}", issue); } let uts = uname().unwrap(); for _ in 0..max_failures { match login(uts.nodename().to_str().unwrap(), &mut cmd) { Ok(LoginResult::Success) => break, Ok(LoginResult::Failure) => eprintln!("Login incorrect\n"), Err(e) => { eprintln!("error: {}", e); std::process::exit(1); } } } } 0707010000000C000081A40000000000000000000000016662E6E500000218000000000000000000000000000000000000001A00000000greetd-0.10.3/config.toml[terminal] # The VT to run the greeter on. Can be "next", "current" or a number # designating the VT. vt = 1 # The default session, also known as the greeter. [default_session] # `agreety` is the bundled agetty/login-lookalike. You can replace `/bin/sh` # with whatever you want started, such as `sway`. command = "agreety --cmd /bin/sh" # The user to run the command as. The privileges this user must have depends # on the greeter. A graphical greeter may for example require the user to be # in the `video` group. user = "greeter" 0707010000000D000041ED0000000000000000000000026662E6E500000000000000000000000000000000000000000000001800000000greetd-0.10.3/fakegreet0707010000000E000081A40000000000000000000000016662E6E500000013000000000000000000000000000000000000002300000000greetd-0.10.3/fakegreet/.gitignore/target **/*.rs.bk 0707010000000F000081A40000000000000000000000016662E6E5000001C7000000000000000000000000000000000000002300000000greetd-0.10.3/fakegreet/Cargo.toml[package] name = "fakegreet" version = "0.10.3" authors = ["Kenny Levinsen"] edition = "2018" license = "GPL-3.0-only" homepage = "https://kl.wtf/projects/greetd" repository = "https://git.sr.ht/~kennylevinsen/greetd/" [dependencies] serde = { version = "1.0", features = ["derive"] } greetd_ipc = { path = "../greetd_ipc", features = ["tokio-codec"] } tokio = { version = "1.5", features = ["process", "macros", "time", "net", "rt"] } thiserror = "1.0" 07070100000010000041ED0000000000000000000000026662E6E500000000000000000000000000000000000000000000001C00000000greetd-0.10.3/fakegreet/src07070100000011000081A40000000000000000000000016662E6E500000532000000000000000000000000000000000000002500000000greetd-0.10.3/fakegreet/src/error.rsuse std::convert::From; use serde::{Deserialize, Serialize}; use thiserror::Error as ThisError; #[derive(Debug, ThisError, Clone, Deserialize, Serialize)] pub enum Error { #[error("{0}")] Error(String), #[error("authentication error: {0}")] AuthError(String), #[error("protocol error: {0}")] ProtocolError(String), #[error("i/o error: {0}")] Io(String), #[error("configuration error: {0}")] ConfigError(String), } impl From<Box<dyn std::error::Error>> for Error { fn from(error: Box<dyn std::error::Error>) -> Self { Error::Error(format!("{}", error)) } } impl From<std::io::Error> for Error { fn from(error: std::io::Error) -> Self { Error::Io(format!("{}", error)) } } impl From<greetd_ipc::codec::Error> for Error { fn from(error: greetd_ipc::codec::Error) -> Self { match error { greetd_ipc::codec::Error::Serialization(s) => Error::ProtocolError(s), greetd_ipc::codec::Error::Io(s) => Error::Io(s), greetd_ipc::codec::Error::Eof => Error::Io("EOF".to_string()), } } } impl From<String> for Error { fn from(error: String) -> Self { Error::Error(error) } } impl From<&str> for Error { fn from(error: &str) -> Self { Error::Error(error.to_string()) } } 07070100000012000081A40000000000000000000000016662E6E500001617000000000000000000000000000000000000002400000000greetd-0.10.3/fakegreet/src/main.rsmod error; use std::{cell::RefCell, env, rc::Rc, time::Duration}; use tokio::{ net::{UnixListener, UnixStream}, process::Command, task, time::sleep, }; use crate::error::Error; use greetd_ipc::{ codec::{Error as CodecError, TokioCodec}, AuthMessageType, ErrorType, Request, Response, }; fn wrap_result<T>(res: Result<T, Error>) -> Response { match res { Ok(_) => Response::Success, Err(Error::AuthError(msg)) => Response::Error { error_type: ErrorType::AuthError, description: msg, }, Err(e) => Response::Error { error_type: ErrorType::Error, description: format!("{}", e), }, } } struct InnerContext { user: Option<String>, password: Option<String>, ok: bool, } struct Context { inner: RefCell<InnerContext>, } impl Context { fn new() -> Context { Context { inner: RefCell::new(InnerContext { user: None, password: None, ok: false, }), } } async fn create_session(&self, username: String) -> Result<(), Error> { self.inner.borrow_mut().user = Some(username); Ok(()) } async fn get_question(&self) -> Result<Option<(AuthMessageType, String)>, Error> { let s = self.inner.borrow(); if s.ok { Ok(None) } else if s.user.is_none() { Ok(Some((AuthMessageType::Visible, "User:".to_string()))) } else if s.password.is_none() { Ok(Some((AuthMessageType::Secret, "Password:".to_string()))) } else { Ok(Some((AuthMessageType::Visible, "7 + 2:".to_string()))) } } async fn post_response(&self, response: Option<String>) -> Result<(), Error> { let mut s = self.inner.borrow_mut(); if s.ok { return Err(Error::Error("wat".to_string())); } if s.user.is_none() { s.user = response; } else if s.password.is_none() { s.password = response; } else { if s.user != Some("user".to_string()) || s.password != Some("password".to_string()) || response != Some("9".to_string()) { sleep(Duration::from_millis(2000)).await; return Err(Error::AuthError("nope".to_string())); } s.ok = true; } Ok(()) } async fn start(&self, _cmd: Vec<String>) -> Result<(), Error> { if !self.inner.borrow().ok { return Err(Error::Error("not yet dammit".to_string())); } sleep(Duration::from_millis(5000)).await; Ok(()) } async fn cancel(&self) -> Result<(), Error> { let mut s = self.inner.borrow_mut(); s.user = None; s.password = None; s.ok = false; Ok(()) } } async fn client_get_question(ctx: &Context) -> Response { match ctx.get_question().await { Ok(Some((auth_message_type, auth_message))) => Response::AuthMessage { auth_message_type, auth_message, }, res => wrap_result(res), } } async fn client_handler(ctx: &Context, mut s: UnixStream) -> Result<(), Error> { loop { let req = match Request::read_from(&mut s).await { Ok(req) => req, Err(CodecError::Eof) => return Ok(()), Err(e) => return Err(e.into()), }; println!("req: {:?}", req); let resp = match req { Request::CreateSession { username } => match ctx.create_session(username).await { Ok(()) => client_get_question(ctx).await, res => wrap_result(res), }, Request::PostAuthMessageResponse { response } => { match ctx.post_response(response).await { Ok(()) => client_get_question(ctx).await, res => wrap_result(res), } } Request::StartSession { cmd, env: _ } => wrap_result(ctx.start(cmd).await), Request::CancelSession => wrap_result(ctx.cancel().await), }; if let Response::Error { .. } = resp { ctx.cancel().await?; } println!("resp: {:?}", resp); resp.write_to(&mut s).await?; } } pub async fn server() -> Result<(), Error> { let mut path = env::current_dir()?; let current_dir = format!( "{}/greetd.sock", std::fs::canonicalize(&path).unwrap().to_str().unwrap(), ); path.push("greetd.sock"); std::env::set_var("GREETD_SOCK", ¤t_dir); let _ = std::fs::remove_file(&path); let listener = UnixListener::bind(&path).map_err(|e| format!("unable to open listener: {}", e))?; let arg = env::args().nth(1).expect("need argument"); let _ = Command::new("sh").arg("-c").arg(arg).spawn()?; let ctx = Rc::new(Context::new()); loop { match listener.accept().await { Ok((stream, _)) => { let ctx = ctx.clone(); task::spawn_local(async move { if let Err(e) = client_handler(&ctx, stream).await { eprintln!("client loop failed: {}", e); } }); } Err(err) => return Err(format!("accept: {}", err).into()), } } } #[tokio::main(flavor = "current_thread")] async fn main() { let res = task::LocalSet::new() .run_until(async move { server().await }) .await; if let Err(e) = res { eprintln!("error: {}", e); } } 07070100000013000041ED0000000000000000000000026662E6E500000000000000000000000000000000000000000000001500000000greetd-0.10.3/greetd07070100000014000081ED0000000000000000000000016662E6E500000172000000000000000000000000000000000000001D00000000greetd-0.10.3/greetd.service[Unit] Description=Greeter daemon After=systemd-user-sessions.service plymouth-quit-wait.service After=getty@tty1.service Conflicts=getty@tty1.service [Service] Type=simple ExecStart=greetd IgnoreSIGPIPE=no SendSIGHUP=yes TimeoutStopSec=30s KeyringMode=shared Restart=always RestartSec=1 StartLimitBurst=5 StartLimitInterval=30 [Install] Alias=display-manager.service 07070100000015000081A40000000000000000000000016662E6E500000013000000000000000000000000000000000000002000000000greetd-0.10.3/greetd/.gitignore/target **/*.rs.bk 07070100000016000081A40000000000000000000000016662E6E5000002C0000000000000000000000000000000000000002000000000greetd-0.10.3/greetd/Cargo.toml[package] name = "greetd" version = "0.10.3" authors = ["Kenny Levinsen"] edition = "2018" license = "GPL-3.0-only" homepage = "https://kl.wtf/projects/greetd" repository = "https://git.sr.ht/~kennylevinsen/greetd/" [features] debug = [] [dependencies] nix = { version = "0.27", features = ["ioctl", "signal", "user", "fs", "mman"] } pam-sys = "0.5.6" serde = { version = "1.0", features = ["derive"] } serde_json = "1.0" greetd_ipc = { path = "../greetd_ipc", features = ["tokio-codec"] } inish = { path = "../inish" } libc = "0.2" tokio = { version = "1", features = ["net", "sync", "macros", "signal", "rt", "io-util", "time"] } getopts = "0.2" thiserror = "1.0" async-trait = "0.1" enquote = "1.1" 07070100000017000041ED0000000000000000000000026662E6E500000000000000000000000000000000000000000000001900000000greetd-0.10.3/greetd/src07070100000018000041ED0000000000000000000000026662E6E500000000000000000000000000000000000000000000002000000000greetd-0.10.3/greetd/src/config07070100000019000081A40000000000000000000000016662E6E500003850000000000000000000000000000000000000002700000000greetd-0.10.3/greetd/src/config/mod.rsuse std::{default::Default, env, fs::read_to_string, str::FromStr}; use enquote::unquote; use getopts::Options; use super::error::Error; const RUNFILE: &str = "/run/greetd.run"; const GENERAL_SERVICE: &str = "greetd"; const GREETER_SERVICE: &str = "greetd-greeter"; #[derive(Debug, Eq, PartialEq, Default)] pub enum VtSelection { Next, Current, #[default] None, Specific(usize), } impl FromStr for VtSelection { type Err = String; fn from_str(s: &str) -> Result<Self, Self::Err> { match s { "none" | "\"none\"" => Ok(VtSelection::None), "current" | "\"current\"" => Ok(VtSelection::Current), "next" | "\"next\"" => Ok(VtSelection::Next), v => v .parse() .map(VtSelection::Specific) .map_err(|e| format!("could not parse vt number: {}", e)), } } } #[derive(Debug, Eq, PartialEq, Default)] pub struct ConfigSession { pub command: String, pub user: String, pub service: String, } #[derive(Debug, Eq, PartialEq, Default)] pub struct ConfigInternal { pub session_worker: usize, } #[derive(Debug, Eq, PartialEq, Default)] pub struct ConfigTerminal { pub vt: VtSelection, pub switch: bool, } #[derive(Debug, Eq, PartialEq)] pub struct ConfigGeneral { pub source_profile: bool, pub runfile: String, pub service: String, } impl Default for ConfigGeneral { fn default() -> Self { ConfigGeneral { source_profile: true, runfile: RUNFILE.to_string(), service: GENERAL_SERVICE.to_string(), } } } #[derive(Debug, Eq, PartialEq, Default)] pub struct ConfigFile { pub terminal: ConfigTerminal, pub general: ConfigGeneral, pub default_session: ConfigSession, pub initial_session: Option<ConfigSession>, } #[derive(Debug, Eq, PartialEq)] pub struct Config { pub file: ConfigFile, pub internal: ConfigInternal, } fn print_usage(program: &str, opts: Options) { let brief = format!("Usage: {} [options]", program); println!("{}", opts.usage(&brief)); println!("For more details, see greetd(1)."); } fn maybe_unquote(s: &str) -> Result<String, Error> { Ok(match s.chars().next() { Some('"') | Some('\'') => unquote(s).map_err(|e| Error::ConfigError(format!("{}", e)))?, _ => s.to_string(), }) } fn parse_config(config_str: &str) -> Result<ConfigFile, Error> { let config = inish::parse(config_str)?; let general = match config.get("general") { Some(section) => { let runfilestr = section.get("runfile").unwrap_or(&RUNFILE); let runfile = maybe_unquote(runfilestr) .map_err(|e| format!("unable to read general.runfile: {}", e))?; let servicestr = section.get("service").unwrap_or(&GENERAL_SERVICE); let service = maybe_unquote(servicestr) .map_err(|e| format!("unable to read general.service: {}", e))?; ConfigGeneral { source_profile: section .get("source_profile") .unwrap_or(&"true") .parse() .map_err(|e| format!("could not parse source_profile: {}", e))?, runfile, service, } } None => Default::default(), }; let default_session = match config.get("default_session") { Some(section) => { let commandstr = section .get("command") .ok_or("default_session contains no command")?; let command = maybe_unquote(commandstr) .map_err(|e| format!("unable to read default_session.command: {}", e))?; let userstr = section.get("user").unwrap_or(&"greeter"); let user = maybe_unquote(userstr) .map_err(|e| format!("unable to read default_session.user: {}", e))?; let servicestr = section.get("service").unwrap_or(&GREETER_SERVICE); let service = maybe_unquote(servicestr) .map_err(|e| format!("unable to read default_session.service: {}", e))?; Ok(ConfigSession { command, user, service, }) } None => Err("no default_session specified"), }?; let initial_session = match config.get("initial_session") { Some(section) => { let commandstr = section .get("command") .ok_or("initial_session contains no command")?; let command = maybe_unquote(commandstr) .map_err(|e| format!("unable to read initial_session.command: {}", e))?; let userstr = section .get("user") .ok_or("initial_session contains no user")?; let user = maybe_unquote(userstr) .map_err(|e| format!("unable to read initial_session.user: {}", e))?; let generalservicestr = general.service.as_str(); let servicestr = section.get("service").unwrap_or(&generalservicestr); let service = maybe_unquote(servicestr) .map_err(|e| format!("unable to read initial_session.service: {}", e))?; Some(ConfigSession { command, user, service, }) } None => None, }; let terminal = match config.get("terminal") { Some(section) => Ok(ConfigTerminal { vt: maybe_unquote(section.get("vt").ok_or("VT not specified")?) .map_err(|e| format!("unable to read terminal.vt: {}", e))? .as_str() .parse()?, switch: section .get("switch") .unwrap_or(&"true") .parse() .map_err(|e| format!("could not parse switch: {}", e))?, }), None => Err("no terminal specified"), }?; Ok(ConfigFile { initial_session, default_session, general, terminal, }) } pub fn read_config() -> Result<Config, Error> { let args: Vec<String> = env::args().collect(); let program = args[0].clone(); let mut opts = Options::new(); opts.optflag("h", "help", "print this help menu"); opts.optopt("s", "socket-path", "socket path to use", "SOCKET_PATH"); opts.optopt("c", "config", "config file to use", "CONFIG_FILE"); opts.optopt("", "vt", "use the specified vt", "VT"); opts.optopt( "w", "session-worker", "start a session worker (internal)", "FD", ); let matches = match opts.parse(&args[1..]) { Ok(m) => m, Err(f) => return Err(format!("could not parse arguments: {}", f).into()), }; if matches.opt_present("h") { print_usage(&program, opts); std::process::exit(0); } let internal = ConfigInternal { session_worker: matches .opt_get("session-worker") .expect("unable to parse session-worker") .unwrap_or(0), }; if internal.session_worker > 0 { return Ok(Config { file: Default::default(), internal, }); } let config_str = match matches.opt_str("config") { Some(v) => read_to_string(v), None => read_to_string("/etc/greetd/greetd.conf") .or_else(|_| read_to_string("/etc/greetd/config.toml")), }?; let mut file = parse_config(&config_str)?; if let Some(vt) = matches.opt_str("vt") { file.terminal.vt = vt.parse()? }; if file.default_session.command.is_empty() { return Err(Error::ConfigError( "no default session user specified".to_string(), )); } if file.default_session.user.is_empty() { return Err(Error::ConfigError( "no default session user specified".to_string(), )); } if let Some(s) = &file.initial_session { if s.user.is_empty() { return Err(Error::ConfigError( "initial session enabled but contained no user".to_string(), )); } if s.command.is_empty() { return Err(Error::ConfigError( "initial session enabled but contained no command".to_string(), )); } } Ok(Config { file, internal }) } #[cfg(test)] mod tests { use super::*; #[test] fn minimal_config() { let config = parse_config( " [terminal] vt = 1 [default_session] command = \"agreety\" ", ) .expect("config didn't parse"); assert_eq!( config, ConfigFile { terminal: ConfigTerminal { vt: VtSelection::Specific(1), switch: true, }, default_session: ConfigSession { command: "agreety".to_string(), user: "greeter".to_string(), service: "greetd-greeter".to_string(), }, general: Default::default(), initial_session: None, } ); } #[test] fn initial_session() { let config = parse_config( " [terminal]\nvt = 1\n[default_session]\ncommand = \"agreety\" [initial_session] command = \"sway\" user = \"john\" ", ) .expect("config didn't parse"); assert_eq!( config, ConfigFile { terminal: ConfigTerminal { vt: VtSelection::Specific(1), switch: true, }, default_session: ConfigSession { command: "agreety".to_string(), user: "greeter".to_string(), service: "greetd-greeter".to_string(), }, general: Default::default(), initial_session: Some(ConfigSession { command: "sway".to_string(), user: "john".to_string(), service: "greetd".to_string(), }), } ); } #[test] fn general() { let config = parse_config( " [terminal]\nvt = 1\n[default_session]\ncommand = \"agreety\" [general] source_profile = false runfile = \"/path/to/greetd.state\" ", ) .expect("config didn't parse"); assert_eq!( config, ConfigFile { terminal: ConfigTerminal { vt: VtSelection::Specific(1), switch: true, }, default_session: ConfigSession { command: "agreety".to_string(), user: "greeter".to_string(), service: "greetd-greeter".to_string(), }, general: ConfigGeneral { source_profile: false, runfile: "/path/to/greetd.state".to_string(), service: "greetd".to_string(), }, initial_session: None, } ); } #[test] fn invalid_general() { assert!(parse_config( " [terminal]\nvt = 1\n[default_session]\ncommand = \"agreety\" [general] source_profile = fals ", ) .is_err()) } #[test] fn terminal() { let config = parse_config( " [default_session]\ncommand = \"agreety\" [terminal] vt = 1 ", ) .expect("config didn't parse"); assert_eq!( config, ConfigFile { terminal: ConfigTerminal { vt: VtSelection::Specific(1), switch: true, }, default_session: ConfigSession { command: "agreety".to_string(), user: "greeter".to_string(), service: "greetd-greeter".to_string(), }, general: Default::default(), initial_session: None, } ); let config = parse_config( " [default_session]\ncommand = \"agreety\" [terminal] vt = next ", ) .expect("config didn't parse"); assert_eq!( config, ConfigFile { terminal: ConfigTerminal { vt: VtSelection::Next, switch: true, }, default_session: ConfigSession { command: "agreety".to_string(), user: "greeter".to_string(), service: "greetd-greeter".to_string(), }, general: Default::default(), initial_session: None, } ); let config = parse_config( " [default_session]\ncommand = \"agreety\" [terminal] vt = current ", ) .expect("config didn't parse"); assert_eq!( config, ConfigFile { terminal: ConfigTerminal { vt: VtSelection::Current, switch: true, }, default_session: ConfigSession { command: "agreety".to_string(), user: "greeter".to_string(), service: "greetd-greeter".to_string(), }, general: Default::default(), initial_session: None, } ); } #[test] fn invalid_initial_session() { assert!(parse_config( " [terminal]\nvt = 1\n[default_session]\ncommand = \"agreety\" [initial_session] " ) .is_err()); assert!(parse_config( " [terminal]\nvt = 1\n[default_session]\ncommand = \"agreety\" [initial_session] command = \"sway\" " ) .is_err()); assert!(parse_config( " [terminal]\nvt = 1\n[default_session]\ncommand = \"agreety\" [initial_session] user = \"user\" " ) .is_err()); } #[test] fn invalid_default_session() { assert!(parse_config( " [terminal]\nvt = 1 [default_session] " ) .is_err()); assert!(parse_config( " [terminal]\nvt = 1 [default_session] user = \"john\" " ) .is_err()); } } 0707010000001A000081A40000000000000000000000016662E6E500003888000000000000000000000000000000000000002400000000greetd-0.10.3/greetd/src/context.rsuse std::{ fs::File, path::Path, time::{Duration, Instant}, }; use nix::{ sys::wait::{waitpid, WaitPidFlag, WaitStatus}, unistd::alarm, }; use tokio::{sync::RwLock, time::sleep}; use crate::{ error::Error, scrambler::Scrambler, session::{ interface::{Session, SessionChild, SessionState}, worker::{AuthMessageType as SessAuthMessageType, SessionClass, TerminalMode}, }, }; use greetd_ipc::AuthMessageType; struct SessionChildSet { child: SessionChild, time: Instant, is_greeter: bool, } struct SessionSet { session: Session, time: Instant, } struct ContextInner { current: Option<SessionChildSet>, scheduled: Option<SessionSet>, configuring: Option<SessionSet>, } /// Context keeps track of running sessions and start new ones. pub struct Context { inner: RwLock<ContextInner>, greeter_bin: String, greeter_user: String, greeter_service: String, pam_service: String, term_mode: TerminalMode, source_profile: bool, runfile: String, listener_path: String, } impl Context { pub fn new( greeter_bin: String, greeter_user: String, greeter_service: String, pam_service: String, term_mode: TerminalMode, source_profile: bool, runfile: String, listener_path: String, ) -> Context { Context { inner: RwLock::new(ContextInner { current: None, scheduled: None, configuring: None, }), greeter_bin, greeter_user, greeter_service, pam_service, term_mode, source_profile, runfile, listener_path, } } /// Directly start an unauthenticated session, bypassing the normal /// scheduling. This function does not take the inner lock, and can thus /// be used while it is held. async fn start_unauthenticated_session( &self, class: SessionClass, user: &str, service: &str, cmd: Vec<String>, ) -> Result<SessionChild, Error> { let mut scheduled_session = Session::new_external()?; scheduled_session .initiate( service, class, user, false, &self.term_mode, self.source_profile, &self.listener_path, ) .await?; loop { match scheduled_session.get_state().await { Ok(SessionState::Ready) => break, Ok(SessionState::Question(_, _)) => scheduled_session.post_response(None).await?, Err(err) => return Err(format!("session start failed: {}", err).into()), } } scheduled_session.send_args(cmd, vec![]).await?; scheduled_session.start().await } /// Directly start a greeter session, bypassing the normal scheduling. This /// function does not take the inner lock, and can thus be used while it is /// held. async fn start_greeter(&self) -> Result<SessionChild, Error> { self.start_unauthenticated_session( SessionClass::Greeter, &self.greeter_user, &self.greeter_service, vec![self.greeter_bin.to_string()], ) .await } /// Directly start a greeter session, bypassing the normal scheduling. pub async fn greet(&self) -> Result<(), Error> { { let inner = self.inner.read().await; if inner.current.is_some() { return Err("session already active".into()); } } let mut inner = self.inner.write().await; inner.current = Some(SessionChildSet { child: self.start_greeter().await?, time: Instant::now(), is_greeter: true, }); Ok(()) } /// Check if this is the first time greetd starts since boot, or if it restarted for any reason pub fn is_first_run(&self) -> bool { !Path::new(&self.runfile).exists() } /// Create runfile used to check if greetd was already started since boot pub fn create_runfile(&self) { if let Err(err) = File::create(&self.runfile) { eprintln!("could not create runfile: {}", err); } } /// Directly start an initial session, bypassing the normal scheduling. pub async fn start_user_session(&self, user: &str, cmd: Vec<String>) -> Result<(), Error> { { let inner = self.inner.read().await; if inner.current.is_some() { return Err("session already active".into()); } } let mut inner = self.inner.write().await; inner.current = Some(SessionChildSet { child: self .start_unauthenticated_session(SessionClass::User, user, &self.pam_service, cmd) .await?, time: Instant::now(), is_greeter: false, }); Ok(()) } /// Create a new session for configuration. pub async fn create_session(&self, username: String) -> Result<(), Error> { { let inner = self.inner.read().await; if inner.current.is_none() { return Err("session not active".into()); } if inner.configuring.is_some() { return Err("a session is already being configured".into()); } if inner.scheduled.is_some() { return Err("a session is already scheduled".into()); } } let mut session_set = SessionSet { session: Session::new_external()?, time: Instant::now(), }; session_set .session .initiate( &self.pam_service, SessionClass::User, &username, true, &self.term_mode, self.source_profile, &self.listener_path, ) .await?; let mut session = Some(session_set); let mut inner = self.inner.write().await; std::mem::swap(&mut session, &mut inner.configuring); drop(inner); // If there was a session under configuration, cancel it. if let Some(mut s) = session { s.session.cancel().await?; } Ok(()) } /// Cancel the session being configured. pub async fn cancel(&self) -> Result<(), Error> { let mut inner = self.inner.write().await; if let Some(mut s) = inner.configuring.take() { s.session.cancel().await?; } Ok(()) } /// Retrieve a question from the session under configuration. pub async fn get_question(&self) -> Result<Option<(AuthMessageType, String)>, Error> { let mut inner = self.inner.write().await; match &mut inner.configuring { Some(s) => match s.session.get_state().await? { SessionState::Ready => Ok(None), SessionState::Question(style, string) => Ok(Some(( match style { SessAuthMessageType::Visible => AuthMessageType::Visible, SessAuthMessageType::Secret => AuthMessageType::Secret, SessAuthMessageType::Info => AuthMessageType::Info, SessAuthMessageType::Error => AuthMessageType::Error, }, string, ))), }, None => Err("no session under configuration".into()), } } /// Answer a question to the session under configuration. pub async fn post_response(&self, answer: Option<String>) -> Result<(), Error> { let mut inner = self.inner.write().await; match &mut inner.configuring { Some(s) => match s.session.get_state().await? { SessionState::Ready => Err("session has no pending questions".into()), _ => s.session.post_response(answer).await, }, None => { if let Some(mut answer) = answer { answer.scramble(); } return Err("no session under configuration".into()); } } } /// Schedule the session under configuration with the provided arguments. pub async fn start(&self, cmd: Vec<String>, env: Vec<String>) -> Result<(), Error> { let mut session = self.inner.write().await.configuring.take(); match &mut session { Some(s) => match s.session.get_state().await? { SessionState::Ready => { // Send our arguments to the session. s.session.send_args(cmd, env).await?; let mut inner = self.inner.write().await; std::mem::swap(&mut session, &mut inner.scheduled); drop(inner); // If there was a scheduled session, cancel it. if let Some(mut p) = session { p.session.cancel().await?; } // We give the greeter 5 seconds to prove itself well-behaved before // we lose patience and shoot it in the back repeatedly. This is all // handled by our alarm handler. alarm::set(5); Ok(()) } SessionState::Question(..) => Err("session is not ready".into()), }, None => Err("no session active".into()), } } /// Notify the Context of an alarm. pub async fn alarm(&self) -> Result<(), Error> { // Keep trying to terminate the greeter until it gives up. let mut inner = self.inner.write().await; if let Some(mut p) = inner.scheduled.take() { if let Some(g) = inner.current.take() { if p.time.elapsed() > Duration::from_secs(10) { // We're out of patience. g.child.kill(); } else { // Let's try to give it a gentle nudge. g.child.term(); } inner.current = Some(g); inner.scheduled = Some(p); alarm::set(1); return Ok(()); } drop(inner); let s = match p.session.start().await { Ok(s) => s, Err(e) => return Err(format!("session start failed: {}", e).into()), }; let mut inner = self.inner.write().await; inner.current = Some(SessionChildSet { child: s, time: Instant::now(), is_greeter: false, }); } Ok(()) } /// Notify the Context that it needs to check its children for termination. /// This should be called on SIGCHLD. pub async fn check_children(&self) -> Result<(), Error> { loop { match waitpid(None, Some(WaitPidFlag::WNOHANG)) { // No scheduled exits. Ok(WaitStatus::StillAlive) => break Ok(()), // We got an exit, see if it's something we need to clean up. Ok(WaitStatus::Exited(pid, ..)) | Ok(WaitStatus::Signaled(pid, ..)) => { let mut inner = self.inner.write().await; let (was_greeter, sesion_length) = match &inner.current { Some(s) if s.child.owns_pid(pid) => { let res = (s.is_greeter, s.time.elapsed()); inner.current = None; res } _ => continue, }; match inner.scheduled.take() { Some(mut scheduled) => { // Our greeter finally bit the dust so we can // start our scheduled session. drop(inner); let s = match scheduled.session.start().await { Ok(s) => s, Err(e) => return Err(format!("session start failed: {}", e).into()), }; let mut inner = self.inner.write().await; inner.current = Some(SessionChildSet { child: s, time: Instant::now(), is_greeter: false, }); } None => { if was_greeter { return Err("greeter exited without creating a session".into()); } if sesion_length < Duration::from_secs(1) { sleep(Duration::from_secs(1)).await; } inner.current = Some(SessionChildSet { child: self.start_greeter().await?, time: Instant::now(), is_greeter: true, }); } } } // Useless status. Ok(_) => continue, // Interrupted. Err(nix::errno::Errno::EINTR) => continue, // We do not have any children right now. Err(nix::errno::Errno::ECHILD) => break Ok(()), // Uh, what? Err(e) => panic!("waitpid returned an unexpected error: {}", e), } } } /// Notify the Context that we want to terminate. This should be called on /// SIGTERM. pub async fn terminate(&self) -> Result<(), Error> { let mut inner = self.inner.write().await; if let Some(mut sess) = inner.configuring.take() { let _ = sess.session.cancel().await; } if let Some(mut sess) = inner.scheduled.take() { let _ = sess.session.cancel().await; } if let Some(sess) = inner.current.take() { sess.child.term(); } Ok(()) } } 0707010000001B000081A40000000000000000000000016662E6E50000076E000000000000000000000000000000000000002200000000greetd-0.10.3/greetd/src/error.rsuse std::convert::From; use serde::{Deserialize, Serialize}; use thiserror::Error as ThisError; #[derive(Debug, ThisError, Clone, Deserialize, Serialize)] pub enum Error { #[error("{0}")] Error(String), #[error("authentication error: {0}")] AuthError(String), #[error("protocol error: {0}")] ProtocolError(String), #[error("i/o error: {0}")] Io(String), #[error("configuration error: {0}")] ConfigError(String), } impl From<Box<dyn std::error::Error>> for Error { fn from(error: Box<dyn std::error::Error>) -> Self { Error::Error(format!("{}", error)) } } impl From<std::io::Error> for Error { fn from(error: std::io::Error) -> Self { Error::Io(format!("{}", error)) } } impl From<crate::pam::PamError> for Error { fn from(error: crate::pam::PamError) -> Self { Error::AuthError(error.to_string()) } } impl From<greetd_ipc::codec::Error> for Error { fn from(error: greetd_ipc::codec::Error) -> Self { match error { greetd_ipc::codec::Error::Serialization(s) => Error::ProtocolError(s), greetd_ipc::codec::Error::Io(s) => Error::Io(s), greetd_ipc::codec::Error::Eof => Error::Io("EOF".to_string()), } } } impl From<String> for Error { fn from(error: String) -> Self { Error::Error(error) } } impl From<&str> for Error { fn from(error: &str) -> Self { Error::Error(error.to_string()) } } impl From<serde_json::error::Error> for Error { fn from(error: serde_json::error::Error) -> Self { Error::ProtocolError(error.to_string()) } } impl From<nix::Error> for Error { fn from(error: nix::Error) -> Self { Error::Error(error.to_string()) } } impl From<std::ffi::NulError> for Error { fn from(error: std::ffi::NulError) -> Self { Error::Error(error.to_string()) } } 0707010000001C000081A40000000000000000000000016662E6E5000005BA000000000000000000000000000000000000002100000000greetd-0.10.3/greetd/src/main.rsmod config; mod context; mod error; mod pam; mod scrambler; mod server; mod session; mod terminal; use std::os::unix::{ io::{FromRawFd, RawFd}, net::UnixDatagram, }; use nix::{ fcntl::{fcntl, FcntlArg, FdFlag}, sys::mman::{mlockall, MlockAllFlags}, }; use tokio::task; use crate::{error::Error, session::worker}; async fn session_worker_main(config: config::Config) -> Result<(), Error> { let raw_fd = config.internal.session_worker as RawFd; let mut cur_flags = FdFlag::from_bits_retain(fcntl(raw_fd, FcntlArg::F_GETFD)?); cur_flags.insert(FdFlag::FD_CLOEXEC); fcntl(raw_fd, FcntlArg::F_SETFD(cur_flags))?; let sock = unsafe { UnixDatagram::from_raw_fd(raw_fd) }; worker::main(&sock) } #[tokio::main(flavor = "current_thread")] async fn main() { let config = match config::read_config() { Ok(config) => config, Err(e) => { eprintln!("{}", e); std::process::exit(1); } }; if cfg!(feature = "debug") { eprintln!("config: {:?}", config); } mlockall(MlockAllFlags::all()).expect("unable to lock pages"); let res = task::LocalSet::new() .run_until(async move { if config.internal.session_worker > 0 { session_worker_main(config).await } else { server::main(config).await } }) .await; if let Err(e) = res { eprintln!("error: {}", e); } } 0707010000001D000041ED0000000000000000000000026662E6E500000000000000000000000000000000000000000000001D00000000greetd-0.10.3/greetd/src/pam0707010000001E000081A40000000000000000000000016662E6E50000055F000000000000000000000000000000000000002900000000greetd-0.10.3/greetd/src/pam/converse.rs/// A trait representing the PAM authentification conversation /// /// PAM authentification is done as a conversation mechanism, in which PAM /// asks several questions and the client (your code) answers them. This trait /// is a representation of such a conversation, which one method for each message /// PAM can send you. /// /// This is the trait to implement if you want to customize the conversation with /// PAM. If you just want a simple login/password authentication, you can use the /// `PasswordConv` implementation provided by this crate. pub trait Converse { /// PAM requests a value that should be echoed to the user as they type it /// /// This would typically be the username. The exact question is provided as the /// `msg` argument if you wish to display it to your user. fn prompt_echo(&self, msg: &str) -> ::std::result::Result<String, ()>; /// PAM requests a value that should be typed blindly by the user /// /// This would typically be the password. The exact question is provided as the /// `msg` argument if you wish to display it to your user. fn prompt_blind(&self, msg: &str) -> ::std::result::Result<String, ()>; /// This is an informational message from PAM fn info(&self, msg: &str) -> Result<(), ()>; /// This is an error message from PAM fn error(&self, msg: &str) -> Result<(), ()>; } 0707010000001F000081A40000000000000000000000016662E6E500000426000000000000000000000000000000000000002400000000greetd-0.10.3/greetd/src/pam/env.rsuse std::ffi::CStr; use libc::c_char; use pam_sys::{getenvlist, raw, PamHandle}; pub struct PamEnvList { ptr: *const *const c_char, } pub fn get_pam_env(handle: &mut PamHandle) -> Option<PamEnvList> { let env = getenvlist(handle); if !env.is_null() { Some(PamEnvList { ptr: env }) } else { None } } impl<'a> PamEnvList { pub fn to_vec(&'a self) -> Vec<&'a CStr> { let mut vec = Vec::new(); let mut idx = 0; loop { let env_ptr: *const *const c_char = unsafe { self.ptr.offset(idx) }; if unsafe { !(*env_ptr).is_null() } { idx += 1; let env = unsafe { CStr::from_ptr(*env_ptr) }; vec.push(env); } else { // Reached the end of the env array -> break out of the loop break; } } vec } } #[cfg(target_os = "linux")] impl Drop for PamEnvList { fn drop(&mut self) { unsafe { raw::pam_misc_drop_env(self.ptr as *mut *mut c_char) }; } } 07070100000020000081A40000000000000000000000016662E6E500000DAD000000000000000000000000000000000000002400000000greetd-0.10.3/greetd/src/pam/ffi.rsuse std::{ffi::CStr, mem, pin::Pin}; use libc::{c_char, c_int, c_void, calloc, free, memcpy, size_t}; use pam_sys::{PamConversation, PamMessage, PamMessageStyle, PamResponse, PamReturnCode}; use super::converse::Converse; use crate::scrambler::Scrambler; pub struct PamConvHandlerWrapper<'a> { pub handler: Pin<Box<dyn Converse + 'a>>, } pub fn make_conversation(conv: &mut PamConvHandlerWrapper) -> PamConversation { PamConversation { conv: Some(converse), data_ptr: conv as *mut PamConvHandlerWrapper as *mut c_void, } } unsafe fn to_cstr(mut s: String) -> *mut c_char { let a = calloc(1, s.len() + 1) as *mut c_char; if a.is_null() { panic!("unable to allocate C string"); } memcpy(a as *mut c_void, s.as_ptr() as *const c_void, s.len()); s.scramble(); return a; } pub extern "C" fn converse( num_msg: c_int, msg: *mut *mut PamMessage, out_resp: *mut *mut PamResponse, appdata_ptr: *mut c_void, ) -> c_int { // allocate space for responses let resp = unsafe { calloc(num_msg as usize, mem::size_of::<PamResponse>() as size_t) as *mut PamResponse }; if resp.is_null() { return PamReturnCode::BUF_ERR as c_int; } let wrapper = unsafe { &*(appdata_ptr as *const PamConvHandlerWrapper) }; let mut result: PamReturnCode = PamReturnCode::SUCCESS; for i in 0..num_msg as isize { // get indexed values let m: &mut PamMessage = unsafe { &mut **(msg.offset(i)) }; let r: &mut PamResponse = unsafe { &mut *(resp.offset(i)) }; let msg = unsafe { CStr::from_ptr(m.msg) }; let msg = match msg.to_str() { Ok(m) => m, Err(_) => { result = PamReturnCode::CONV_ERR; break; } }; // match on msg_style match PamMessageStyle::from(m.msg_style) { PamMessageStyle::PROMPT_ECHO_ON => { if let Ok(handler_response) = wrapper.handler.prompt_echo(msg) { r.resp = unsafe { to_cstr(handler_response) }; } else { result = PamReturnCode::CONV_ERR; } } PamMessageStyle::PROMPT_ECHO_OFF => { if let Ok(handler_response) = wrapper.handler.prompt_blind(msg) { r.resp = unsafe { to_cstr(handler_response) }; } else { result = PamReturnCode::CONV_ERR; } } PamMessageStyle::ERROR_MSG => { if wrapper.handler.error(msg).is_err() { result = PamReturnCode::CONV_ERR; } } PamMessageStyle::TEXT_INFO => { if wrapper.handler.info(msg).is_err() { result = PamReturnCode::CONV_ERR; } } } if result != PamReturnCode::SUCCESS { break; } } // free allocated memory if an error occured if result != PamReturnCode::SUCCESS { // Free any strdup'd response strings for i in 0..num_msg as isize { let r: &mut PamResponse = unsafe { &mut *(resp.offset(i)) }; if !r.resp.is_null() { unsafe { free(r.resp as *mut c_void) }; } } // Free the response array unsafe { free(resp as *mut c_void) }; } else { unsafe { *out_resp = resp }; } result as c_int } 07070100000021000081A40000000000000000000000016662E6E5000003CC000000000000000000000000000000000000002400000000greetd-0.10.3/greetd/src/pam/mod.rspub mod converse; mod env; mod ffi; pub mod session; use thiserror::Error as ThisError; use pam_sys::PamReturnCode; #[derive(Debug, ThisError)] pub enum PamError { #[error("{0}")] Error(String), #[error("{0}")] AuthError(String), #[error("abort error: {0}")] AbortError(String), } impl PamError { pub fn from_rc(prefix: &str, rc: PamReturnCode) -> PamError { match rc { PamReturnCode::ABORT => PamError::AbortError(format!("{}: {:?}", prefix, rc)), PamReturnCode::AUTH_ERR | PamReturnCode::MAXTRIES | PamReturnCode::CRED_EXPIRED | PamReturnCode::ACCT_EXPIRED | PamReturnCode::CRED_INSUFFICIENT | PamReturnCode::USER_UNKNOWN | PamReturnCode::PERM_DENIED | PamReturnCode::SERVICE_ERR => PamError::AuthError(format!("{}: {:?}", prefix, rc)), _ => PamError::Error(format!("{}: {:?}", prefix, rc)), } } } 07070100000022000081A40000000000000000000000016662E6E5000011A5000000000000000000000000000000000000002800000000greetd-0.10.3/greetd/src/pam/session.rsuse std::{ ffi::{CStr, CString}, os::raw::c_char, pin::Pin, ptr, }; use libc::c_void; use pam_sys::{PamFlag, PamHandle, PamItemType, PamReturnCode}; use super::{ converse::Converse, env::{get_pam_env, PamEnvList}, ffi::{make_conversation, PamConvHandlerWrapper}, PamError, }; pub struct PamSession<'a> { handle: &'a mut PamHandle, #[allow(unused)] lifetime_extender: Pin<Box<PamConvHandlerWrapper<'a>>>, last_code: PamReturnCode, } impl<'a> PamSession<'a> { pub fn start( service: &str, user: &str, pam_conv: Pin<Box<dyn Converse + 'a>>, ) -> Result<PamSession<'a>, PamError> { let mut pch = Box::pin(PamConvHandlerWrapper { handler: pam_conv }); let conv = make_conversation(&mut pch); let mut pam_handle: *mut PamHandle = ptr::null_mut(); match pam_sys::start(service, Some(user), &conv, &mut pam_handle) { PamReturnCode::SUCCESS => Ok(PamSession { handle: unsafe { &mut *pam_handle }, lifetime_extender: pch, last_code: PamReturnCode::SUCCESS, }), rc => Err(PamError::from_rc("pam_start", rc)), } } pub fn authenticate(&mut self, flags: PamFlag) -> Result<(), PamError> { self.last_code = pam_sys::authenticate(self.handle, flags); match self.last_code { PamReturnCode::SUCCESS => Ok(()), rc => Err(PamError::from_rc("pam_authenticate", rc)), } } pub fn acct_mgmt(&mut self, flags: PamFlag) -> Result<(), PamError> { self.last_code = pam_sys::acct_mgmt(self.handle, flags); match self.last_code { PamReturnCode::SUCCESS => Ok(()), rc => Err(PamError::from_rc("pam_acct_mgmt", rc)), } } pub fn setcred(&mut self, flags: PamFlag) -> Result<(), PamError> { self.last_code = pam_sys::setcred(self.handle, flags); match self.last_code { PamReturnCode::SUCCESS => Ok(()), rc => Err(PamError::from_rc("pam_setcred", rc)), } } pub fn open_session(&mut self, flags: PamFlag) -> Result<(), PamError> { self.last_code = pam_sys::open_session(self.handle, flags); match self.last_code { PamReturnCode::SUCCESS => Ok(()), rc => Err(PamError::from_rc("pam_open_session", rc)), } } pub fn close_session(&mut self, flags: PamFlag) -> Result<(), PamError> { self.last_code = pam_sys::close_session(self.handle, flags); match self.last_code { PamReturnCode::SUCCESS => Ok(()), rc => Err(PamError::from_rc("pam_close_session", rc)), } } pub fn putenv(&mut self, v: &str) -> Result<(), PamError> { self.last_code = pam_sys::putenv(self.handle, v); match self.last_code { PamReturnCode::SUCCESS => Ok(()), rc => Err(PamError::from_rc("pam_putenv", rc)), } } pub fn set_item(&mut self, item: PamItemType, value: &str) -> Result<(), PamError> { let s = CString::new(value).unwrap(); self.last_code = PamReturnCode::from(unsafe { // pam_set_item is exposed in a weird way in pam_sys::wrapped, so // we use the raw version here instead pam_sys::raw::pam_set_item(self.handle, item as i32, s.as_ptr() as *const c_void) }); match self.last_code { PamReturnCode::SUCCESS => Ok(()), rc => Err(PamError::from_rc("pam_set_item", rc)), } } pub fn get_user(&mut self) -> Result<String, PamError> { let mut p: *const c_char = ptr::null_mut(); self.last_code = pam_sys::get_user(self.handle, &mut p, ptr::null()); match self.last_code { PamReturnCode::SUCCESS => { Ok((unsafe { CStr::from_ptr(p) }).to_str().unwrap().to_string()) } rc => Err(PamError::from_rc("pam_get_user", rc)), } } pub fn getenvlist(&mut self) -> Result<PamEnvList, PamError> { match get_pam_env(self.handle) { Some(v) => Ok(v), None => Err(PamError::Error( "unable to retrieve environment".to_string(), )), } } pub fn end(&mut self) -> Result<(), PamError> { match pam_sys::end(self.handle, self.last_code) { PamReturnCode::SUCCESS => Ok(()), rc => Err(PamError::from_rc("pam_end", rc)), } } } 07070100000023000081A40000000000000000000000016662E6E5000003D9000000000000000000000000000000000000002600000000greetd-0.10.3/greetd/src/scrambler.rsuse std::{default::Default, ffi::CString}; /// Scrambling overwrites a buffers content with the default value. Useful to /// avoid leaving behind a heap littered with old secrets. pub trait Scrambler { fn scramble(&mut self); } impl<T: Default> Scrambler for Vec<T> { fn scramble(&mut self) { let cap = self.capacity(); self.truncate(0); for _ in 0..cap { self.push(Default::default()) } self.truncate(0); } } impl Scrambler for String { fn scramble(&mut self) { let v = unsafe { self.as_mut_vec() }; for idx in 0..v.len() { v[idx] = 0 } self.truncate(0); } } impl Scrambler for CString { fn scramble(&mut self) { unsafe { let ptr = self.as_ptr(); let mut offset = 0; while *ptr.offset(offset) != 0 { *(ptr.offset(offset) as *mut i8) = 0; offset += 1; } } } } 07070100000024000081A40000000000000000000000016662E6E500002909000000000000000000000000000000000000002300000000greetd-0.10.3/greetd/src/server.rsuse std::{path::Path, rc::Rc}; use nix::unistd::{chown, getpid, Gid, Uid}; use tokio::{ net::{UnixListener, UnixStream}, signal::unix::{signal, SignalKind}, task, }; use crate::{ config::{Config, VtSelection}, context::Context, error::Error, session::worker::TerminalMode, terminal::{self, Terminal}, }; use greetd_ipc::{ codec::{Error as CodecError, TokioCodec}, ErrorType, Request, Response, }; fn reset_vt(term_mode: &TerminalMode) -> Result<(), Error> { match term_mode { TerminalMode::Terminal { path, vt, .. } => { let term = Terminal::open(path)?; term.kd_setmode(terminal::KdMode::Text)?; term.vt_setactivate(*vt)?; } TerminalMode::Stdin => (), } Ok(()) } fn wait_vt(term_mode: &TerminalMode) -> Result<(), Error> { match term_mode { TerminalMode::Terminal { path, vt, .. } => { let term = Terminal::open(path)?; term.vt_waitactive(*vt)?; } TerminalMode::Stdin => (), } Ok(()) } fn wrap_result<T>(res: Result<T, Error>) -> Response { match res { Ok(_) => Response::Success, Err(Error::AuthError(msg)) => Response::Error { error_type: ErrorType::AuthError, description: msg, }, Err(e) => Response::Error { error_type: ErrorType::Error, description: format!("{}", e), }, } } async fn client_get_question(ctx: &Context) -> Response { match ctx.get_question().await { Ok(Some((auth_message_type, auth_message))) => Response::AuthMessage { auth_message_type, auth_message, }, res => wrap_result(res), } } async fn client_handler(ctx: &Context, mut s: UnixStream) -> Result<(), Error> { loop { let req = match Request::read_from(&mut s).await { Ok(req) => req, Err(CodecError::Eof) => return Ok(()), Err(e) => return Err(e.into()), }; let resp = match req { Request::CreateSession { username } => match ctx.create_session(username).await { Ok(()) => client_get_question(ctx).await, res => wrap_result(res), }, Request::PostAuthMessageResponse { response } => { match ctx.post_response(response).await { Ok(()) => client_get_question(ctx).await, res => wrap_result(res), } } Request::StartSession { cmd, env } => wrap_result(ctx.start(cmd, env).await), Request::CancelSession => wrap_result(ctx.cancel().await), }; resp.write_to(&mut s).await?; } } // Return a TTY path and the TTY/VT number, based on the configured target. // // If the target is VtSelection::Current, return the path to the TTY // referenced by stdin and the TTY number it is connected to if possible. If // the referenced TTY is a PTY, fail. Otherwise, open tty0, get the current VT // number, and return the path to that TTY and VT. // // If the target is VtSelection::Next, open tty0 and request the next VT // number. Return the TTY and VT // // If the target is VtSelection::Specific, simply return the specified TTY and // VT. // // If the target is VtSelection::None, return nothing. fn get_tty(config: &Config) -> Result<TerminalMode, Error> { const TTY_PREFIX: &str = "/dev/tty"; const PTS_PREFIX: &str = "/dev/pts"; let term = match config.file.terminal.vt { VtSelection::Current => { let term = Terminal::stdin(); match term.ttyname() { // We have a usable terminal, so let's decipher and return that Ok(term_name) if term_name.starts_with(TTY_PREFIX) && term_name.len() > TTY_PREFIX.len() => { let vt = term_name[TTY_PREFIX.len()..] .parse() .map_err(|e| Error::Error(format!("unable to parse tty number: {}", e)))?; TerminalMode::Terminal { path: term_name, vt, switch: false, } } Ok(term_name) if term_name.starts_with(PTS_PREFIX) => { return Err("cannot use current VT when started from a psuedo terminal".into()) } // We don't have a usable terminal, so we have to jump through some hoops _ => { let sys_term = Terminal::open("/dev/tty0") .map_err(|e| format!("unable to open terminal: {}", e))?; let vt = sys_term .vt_get_current() .map_err(|e| format!("unable to get current VT: {}", e))?; TerminalMode::Terminal { path: format!("/dev/tty{}", vt), vt, switch: false, } } } } VtSelection::Next => { let term = Terminal::open("/dev/tty0") .map_err(|e| format!("unable to open terminal: {}", e))?; let vt = term .vt_get_next() .map_err(|e| format!("unable to get next VT: {}", e))?; TerminalMode::Terminal { path: format!("/dev/tty{}", vt), vt, switch: config.file.terminal.switch, } } VtSelection::None => TerminalMode::Stdin, VtSelection::Specific(vt) => TerminalMode::Terminal { path: format!("/dev/tty{}", vt), vt, switch: config.file.terminal.switch, }, }; return Ok(term); } // Listener is a convenience wrapper for creating the UnixListener we need, and // for providing cleanup on Drop. struct Listener(UnixListener); impl Listener { fn create(uid: Uid, gid: Gid) -> Result<(String, Listener), Error> { let path = format!("/run/greetd-{}.sock", getpid().as_raw()); let _ = std::fs::remove_file(&path); let listener = UnixListener::bind(&path).map_err(|e| format!("unable to open listener: {}", e))?; chown(path.as_str(), Some(uid), Some(gid)) .map_err(|e| format!("unable to chown greetd socket at {}: {}", path, e))?; Ok((path, Listener(listener))) } } impl Drop for Listener { fn drop(&mut self) { let addr = match self.0.local_addr() { Ok(addr) => addr, Err(_) => return, }; if let Some(path) = addr.as_pathname() { let _ = std::fs::remove_file(path); } } } pub async fn main(config: Config) -> Result<(), Error> { let service = if Path::new(&format!("/etc/pam.d/{}", config.file.general.service)).exists() { &config.file.general.service } else if Path::new(&format!("/usr/lib/pam.d/{}", config.file.general.service)).exists() { &config.file.general.service } else { return Err(format!("PAM '{}' service missing", config.file.general.service).into()); }; let greeter_service = if Path::new(&format!( "/etc/pam.d/{}", config.file.default_session.service )) .exists() { &config.file.default_session.service } else if Path::new(&format!( "/usr/lib/pam.d/{}", config.file.default_session.service )) .exists() { &config.file.default_session.service } else { service }; let u = nix::unistd::User::from_name(&config.file.default_session.user)?.ok_or(format!( "configured default session user '{}' not found", &config.file.default_session.user ))?; let (listener_path, listener) = Listener::create(u.uid, u.gid)?; let term_mode = get_tty(&config)?; if !config.file.terminal.switch { wait_vt(&term_mode).map_err(|e| format!("unable to wait VT: {}", e))?; } let ctx = Rc::new(Context::new( config.file.default_session.command, config.file.default_session.user, greeter_service.to_string(), service.to_string(), term_mode.clone(), config.file.general.source_profile, config.file.general.runfile, listener_path, )); if let (Some(s), true) = (config.file.initial_session, ctx.is_first_run()) { if let Err(e) = ctx.start_user_session(&s.user, vec![s.command]).await { eprintln!("unable to start greeter: {}", e); reset_vt(&term_mode).map_err(|e| format!("unable to reset VT: {}", e))?; std::process::exit(1); } } else if let Err(e) = ctx.greet().await { eprintln!("unable to start greeter: {}", e); reset_vt(&term_mode).map_err(|e| format!("unable to reset VT: {}", e))?; std::process::exit(1); } ctx.create_runfile(); let mut alarm = signal(SignalKind::alarm()).expect("unable to listen for SIGALRM"); let mut child = signal(SignalKind::child()).expect("unable to listen for SIGCHLD"); let mut term = signal(SignalKind::terminate()).expect("unable to listen for SIGTERM"); let mut int = signal(SignalKind::interrupt()).expect("unable to listen for SIGINT"); loop { tokio::select! { _ = child.recv() => ctx.check_children().await.map_err(|e| format!("check_children: {}", e))?, _ = alarm.recv() => ctx.alarm().await.map_err(|e| format!("alarm: {}", e))?, _ = term.recv() => { ctx.terminate().await.map_err(|e| format!("terminate: {}", e))?; break; } _ = int.recv() => { ctx.terminate().await.map_err(|e| format!("terminate: {}", e))?; break; } stream = listener.0.accept() => match stream { Ok((stream, _)) => { let client_ctx = ctx.clone(); task::spawn_local(async move { if let Err(e) = client_handler(&client_ctx, stream).await { client_ctx.cancel().await.expect("unable to cancel session"); eprintln!("client loop failed: {}", e); } }); }, Err(err) => return Err(format!("accept: {}", err).into()), } } } Ok(()) } 07070100000025000041ED0000000000000000000000026662E6E500000000000000000000000000000000000000000000002100000000greetd-0.10.3/greetd/src/session07070100000026000081A40000000000000000000000016662E6E5000007A1000000000000000000000000000000000000002900000000greetd-0.10.3/greetd/src/session/conv.rsuse super::worker::{AuthMessageType, ParentToSessionChild, SessionChildToParent}; use crate::pam::converse::Converse; /// SessionConv is a PAM conversation implementation that forwards questions /// over a socket. pub struct SessionConv<'a> { sock: &'a std::os::unix::net::UnixDatagram, } impl<'a> SessionConv<'a> { fn question(&self, msg: &str, style: AuthMessageType) -> Result<Option<String>, ()> { let mut data = [0; 10240]; let msg = SessionChildToParent::PamMessage { style, msg: msg.to_string(), }; msg.send(self.sock) .map_err(|e| eprintln!("pam_conv: {}", e))?; let msg = ParentToSessionChild::recv(self.sock, &mut data) .map_err(|e| eprintln!("pam_conv: {}", e))?; match msg { ParentToSessionChild::PamResponse { resp, .. } => Ok(resp), ParentToSessionChild::Cancel => Err(()), _ => Err(()), } } /// Create a new `PasswordConv` handler pub fn new(sock: &'a std::os::unix::net::UnixDatagram) -> SessionConv { SessionConv { sock } } } impl<'a> Converse for SessionConv<'a> { fn prompt_echo(&self, msg: &str) -> Result<String, ()> { match self.question(msg, AuthMessageType::Visible) { Ok(Some(response)) => Ok(response), _ => Err(()), } } fn prompt_blind(&self, msg: &str) -> Result<String, ()> { match self.question(msg, AuthMessageType::Secret) { Ok(Some(response)) => Ok(response), _ => Err(()), } } fn info(&self, msg: &str) -> Result<(), ()> { match self.question(msg, AuthMessageType::Info) { Ok(None) => Ok(()), _ => Err(()), } } fn error(&self, msg: &str) -> Result<(), ()> { match self.question(msg, AuthMessageType::Error) { Ok(None) => Ok(()), _ => Err(()), } } } 07070100000027000081A40000000000000000000000016662E6E500001EFF000000000000000000000000000000000000002E00000000greetd-0.10.3/greetd/src/session/interface.rsuse std::{ ffi::CString, os::unix::{io::AsRawFd, net::UnixDatagram}, }; use nix::{ fcntl::{fcntl, FcntlArg, FdFlag}, sys::signal::Signal, unistd::{execv, fork, ForkResult, Pid}, }; use async_trait::async_trait; use tokio::net::UnixDatagram as TokioUnixDatagram; use super::worker::{ AuthMessageType, ParentToSessionChild, SessionChildToParent, SessionClass, TerminalMode, }; use crate::{error::Error, scrambler::Scrambler}; #[async_trait] trait AsyncRecv<T: Sized> { async fn recv(sock: &mut TokioUnixDatagram) -> Result<T, Error>; } #[async_trait] trait AsyncSend { async fn send(&self, sock: &mut TokioUnixDatagram) -> Result<(), Error>; } #[async_trait] impl<'a> AsyncSend for ParentToSessionChild<'a> { async fn send(&self, sock: &mut TokioUnixDatagram) -> Result<(), Error> { let mut out = serde_json::to_vec(self).map_err(|e| format!("unable to serialize message: {}", e))?; sock.send(&out) .await .map_err(|e| format!("unable to send message: {}", e))?; out.scramble(); Ok(()) } } #[async_trait] impl AsyncRecv<SessionChildToParent> for SessionChildToParent { async fn recv(sock: &mut TokioUnixDatagram) -> Result<SessionChildToParent, Error> { let mut data = [0; 10240]; let len = sock .recv(&mut data[..]) .await .map_err(|e| format!("unable to recieve message: {}", e))?; let msg = serde_json::from_slice(&data[..len]) .map_err(|e| format!("unable to deserialize message: {}", e))?; Ok(msg) } } /// SessionChild tracks the processes spawned by a session pub struct SessionChild { pub task: Pid, pub sub_task: Pid, } impl SessionChild { /// Check if this session has this pid. pub fn owns_pid(&self, pid: Pid) -> bool { self.task == pid } /// Send SIGTERM to the session child. pub fn term(&self) { let _ = nix::sys::signal::kill(self.sub_task, Signal::SIGTERM); } /// Send SIGKILL to the session child. pub fn kill(&self) { let _ = nix::sys::signal::kill(self.sub_task, Signal::SIGKILL); let _ = nix::sys::signal::kill(self.task, Signal::SIGKILL); } } #[derive(Debug)] pub enum SessionState { Question(AuthMessageType, String), Ready, } /// A device to initiate a logged in PAM session. pub struct Session { task: Pid, sock: TokioUnixDatagram, last_msg: Option<SessionChildToParent>, } impl Session { /// Create a session started as an external process. pub fn new_external() -> Result<Session, Error> { // Pipe used to communicate the true PID of the final child. let (parentfd, childfd) = UnixDatagram::pair().map_err(|e| format!("could not create pipe: {}", e))?; let raw_child = childfd.as_raw_fd(); let mut cur_flags = FdFlag::from_bits_retain(fcntl(raw_child, FcntlArg::F_GETFD)?); cur_flags.remove(FdFlag::FD_CLOEXEC); fcntl(raw_child, FcntlArg::F_SETFD(cur_flags))?; let cur_exe = std::env::current_exe()?; let bin = CString::new(cur_exe.to_str().expect("unable to get current exe name"))?; let child = match unsafe { fork() }.map_err(|e| format!("unable to fork: {}", e))? { ForkResult::Parent { child, .. } => child, ForkResult::Child => { execv( &bin, &[ &bin, &CString::new("--session-worker").unwrap(), &CString::new(format!("{}", raw_child as usize)).unwrap(), ], ) .expect("unable to exec"); unreachable!("after exec"); } }; Ok(Session { task: child, sock: TokioUnixDatagram::from_std(parentfd)?, last_msg: None, }) } /// Initiates the session, which will cause authentication to begin. pub async fn initiate( &mut self, service: &str, class: SessionClass, user: &str, authenticate: bool, term_mode: &TerminalMode, source_profile: bool, listener_path: &str, ) -> Result<(), Error> { let msg = ParentToSessionChild::InitiateLogin { service: service, class: class, user: user, authenticate, tty: term_mode.clone(), source_profile, listener_path: listener_path, }; msg.send(&mut self.sock).await?; Ok(()) } /// Return the current state of this session. pub async fn get_state(&mut self) -> Result<SessionState, Error> { let msg = match self.last_msg.take() { Some(msg) => msg, None => SessionChildToParent::recv(&mut self.sock).await?, }; self.last_msg = Some(msg.clone()); match msg { SessionChildToParent::PamMessage { style, msg } => { Ok(SessionState::Question(style, msg)) } SessionChildToParent::Success => Ok(SessionState::Ready), SessionChildToParent::Error(e) => Err(e), msg => panic!( "expected PamMessage, Success or Error from session worker, got: {:?}", msg ), } } /// Cancel the session. pub async fn cancel(&mut self) -> Result<(), Error> { self.last_msg = None; ParentToSessionChild::Cancel.send(&mut self.sock).await?; Ok(()) } /// Send a response to an authentication question, or None to cancel the /// authentication attempt. pub async fn post_response(&mut self, answer: Option<String>) -> Result<(), Error> { self.last_msg = None; let r = ParentToSessionChild::PamResponse { resp: answer }; r.send(&mut self.sock).await?; if let ParentToSessionChild::PamResponse { resp: Some(mut resp), } = r { resp.scramble(); } Ok(()) } /// /// Send the arguments that will be used to start the session. /// pub async fn send_args(&mut self, cmd: Vec<String>, env: Vec<String>) -> Result<(), Error> { let msg = ParentToSessionChild::Args { env, cmd }; msg.send(&mut self.sock).await?; let msg = SessionChildToParent::recv(&mut self.sock).await?; self.last_msg = Some(msg.clone()); match msg { SessionChildToParent::Success => Ok(()), SessionChildToParent::Error(e) => Err(e), msg => panic!( "expected Success or Error from session worker, got: {:?}", msg ), } } /// /// Start the session. /// pub async fn start(&mut self) -> Result<SessionChild, Error> { let msg = ParentToSessionChild::Start; msg.send(&mut self.sock).await?; let sub_task = loop { match SessionChildToParent::recv(&mut self.sock).await? { SessionChildToParent::Error(e) => return Err(e), SessionChildToParent::FinalChildPid(raw_pid) => { break Pid::from_raw(raw_pid as i32) } SessionChildToParent::PamMessage { .. } => { // pam_conv after start, ignore ParentToSessionChild::PamResponse { resp: None } .send(&mut self.sock) .await?; continue; } msg => panic!( "expected Error or FinalChildPid from session worker, got: {:?}", msg ), }; }; self.sock.shutdown(std::net::Shutdown::Both)?; Ok(SessionChild { task: self.task, sub_task, }) } } 07070100000028000081A40000000000000000000000016662E6E50000003C000000000000000000000000000000000000002800000000greetd-0.10.3/greetd/src/session/mod.rspub mod conv; pub mod interface; mod prctl; pub mod worker; 07070100000029000081A40000000000000000000000016662E6E500000181000000000000000000000000000000000000002A00000000greetd-0.10.3/greetd/src/session/prctl.rsuse nix::{errno::Errno, Result}; pub const PRCTL_SET_PDEATHSIG: i32 = 1; #[allow(non_camel_case_types)] pub enum PrctlOption { SET_PDEATHSIG(i32), } pub fn prctl(option: PrctlOption) -> Result<()> { Errno::result(match option { PrctlOption::SET_PDEATHSIG(sig) => unsafe { libc::prctl(PRCTL_SET_PDEATHSIG, sig, 0, 0, 0) }, }) .map(drop) } 0707010000002A000081A40000000000000000000000016662E6E50000292B000000000000000000000000000000000000002B00000000greetd-0.10.3/greetd/src/session/worker.rsuse std::{env, ffi::CString, os::unix::net::UnixDatagram}; use nix::{ sys::wait::waitpid, unistd::{execve, fork, initgroups, setgid, setsid, setuid, ForkResult}, }; use pam_sys::{PamFlag, PamItemType}; use serde::{Deserialize, Serialize}; use super::{ conv::SessionConv, prctl::{prctl, PrctlOption}, }; use crate::{error::Error, pam::session::PamSession, terminal}; #[derive(Clone, Debug, Serialize, Deserialize)] pub enum AuthMessageType { Visible, Secret, Info, Error, } #[derive(Clone, Debug, Serialize, Deserialize)] pub enum TerminalMode { Terminal { path: String, vt: usize, switch: bool, }, Stdin, } #[derive(Clone, Debug, Serialize, Deserialize)] pub enum SessionClass { Greeter, User, } impl SessionClass { fn as_str(&self) -> &str { match self { SessionClass::Greeter => "greeter", SessionClass::User => "user", } } } #[derive(Clone, Debug, Serialize, Deserialize)] pub enum ParentToSessionChild<'a> { InitiateLogin { service: &'a str, class: SessionClass, user: &'a str, authenticate: bool, tty: TerminalMode, source_profile: bool, listener_path: &'a str, }, PamResponse { resp: Option<String>, }, Args { env: Vec<String>, cmd: Vec<String>, }, Start, Cancel, } impl<'a> ParentToSessionChild<'a> { pub fn recv( sock: &UnixDatagram, data: &'a mut [u8; 10240], ) -> Result<ParentToSessionChild<'a>, Error> { let len = sock.recv(&mut data[..])?; let msg = serde_json::from_slice(&data[..len])?; Ok(msg) } } #[derive(Clone, Debug, Serialize, Deserialize)] pub enum SessionChildToParent { Success, Error(Error), PamMessage { style: AuthMessageType, msg: String }, FinalChildPid(u64), } impl SessionChildToParent { pub fn send(&self, sock: &UnixDatagram) -> Result<(), Error> { let out = serde_json::to_vec(self)?; sock.send(&out)?; Ok(()) } } /// The entry point for the session worker process. The session worker is /// responsible for the entirety of the session setup and execution. It is /// started by Session::start. fn worker(sock: &UnixDatagram) -> Result<(), Error> { let mut data = [0; 10240]; let (service, class, user, authenticate, tty, source_profile, listener_path) = match ParentToSessionChild::recv(sock, &mut data)? { ParentToSessionChild::InitiateLogin { service, class, user, authenticate, tty, source_profile, listener_path, } => ( service, class, user, authenticate, tty, source_profile, listener_path, ), ParentToSessionChild::Cancel => return Err("cancelled".into()), msg => return Err(format!("expected InitiateLogin or Cancel, got: {:?}", msg).into()), }; let conv = Box::pin(SessionConv::new(sock)); let mut pam = PamSession::start(service, user, conv)?; if authenticate { pam.authenticate(PamFlag::NONE)?; } pam.acct_mgmt(PamFlag::NONE)?; // Not the credentials you think. pam.setcred(PamFlag::ESTABLISH_CRED)?; // Mark authentication as a success. SessionChildToParent::Success.send(sock)?; // Add GREETD_SOCK if this is a greeter session - we do this early as we are about to reuse the // buffer, invalidating our borrow. if let SessionClass::Greeter = class { pam.putenv(&format!("GREETD_SOCK={}", &listener_path))?; } // Fetch our arguments from the parent. let (env, cmd) = match ParentToSessionChild::recv(sock, &mut data)? { ParentToSessionChild::Args { env, cmd } => (env, cmd), ParentToSessionChild::Cancel => return Err("cancelled".into()), msg => return Err(format!("expected Args or Cancel, got: {:?}", msg).into()), }; SessionChildToParent::Success.send(sock)?; // Await start request from our parent. match ParentToSessionChild::recv(sock, &mut data)? { ParentToSessionChild::Start => (), ParentToSessionChild::Cancel => return Err("cancelled".into()), msg => return Err(format!("expected Start or Cancel, got: {:?}", msg).into()), }; let pam_username = pam.get_user()?; let user = nix::unistd::User::from_name(&pam_username)?.ok_or("unable to get user info")?; // Make this process a session leader. setsid().map_err(|e| format!("unable to become session leader: {}", e))?; match tty { TerminalMode::Stdin => (), TerminalMode::Terminal { path, vt, switch } => { // Tell PAM what TTY we're targetting, which is used by logind. pam.set_item(PamItemType::TTY, &format!("tty{}", vt))?; pam.putenv(&format!("XDG_VTNR={}", vt))?; // Opening our target terminal. let target_term = terminal::Terminal::open(&path)?; // Set the target VT mode to text for compatibility. Other login managers // set this to graphics, but that disallows start of textual applications, // which greetd aims to support. target_term.kd_setmode(terminal::KdMode::Text)?; // Clear TTY so that it will be empty when we switch to it. target_term.term_clear()?; // A bit more work if a VT switch is required. if switch && vt != target_term.vt_get_current()? { // Perform a switch to the target VT, simultaneously resetting it to // VT_AUTO. target_term.vt_setactivate(vt)?; } // Connect std(in|out|err), and make this our controlling TTY. target_term.term_connect_pipes()?; target_term.term_take_ctty()?; } } // PAM has to be provided a bunch of environment variables before // open_session. We pass any environment variables from our greeter // through here as well. This allows them to affect PAM (more // specifically, pam_systemd.so), as well as make it easier to gather // and set all environment variables later. let prepared_env = [ "XDG_SEAT=seat0".to_string(), format!("XDG_SESSION_CLASS={}", class.as_str()), format!("USER={}", user.name), format!("LOGNAME={}", user.name), format!("HOME={}", user.dir.to_string_lossy()), format!("SHELL={}", user.shell.to_string_lossy()), format!( "TERM={}", env::var("TERM").unwrap_or_else(|_| "linux".to_string()) ), ]; for e in env.iter().chain(prepared_env.iter()) { pam.putenv(e)?; } // Session time! pam.open_session(PamFlag::NONE)?; // We are done with PAM, clear variables that the child will not need. _ = pam.putenv(&"XDG_SESSION_CLASS"); // Prepare some strings in C format that we'll need. let cusername = CString::new(user.name)?; let command = if source_profile { format!( "[ -f /etc/profile ] && . /etc/profile; [ -f $HOME/.profile ] && . $HOME/.profile; exec {}", cmd.join(" ") ) } else { format!("exec {}", cmd.join(" ")) }; // Extract PAM environment for use with execve below. let pamenvlist = pam.getenvlist()?; let envvec = pamenvlist.to_vec(); // PAM is weird and gets upset if you exec from the process that opened // the session, registering it automatically as a log-out. Thus, we must // exec in a new child. let child = match unsafe { fork() }.map_err(|e| format!("unable to fork: {}", e))? { ForkResult::Parent { child, .. } => child, ForkResult::Child => { // It is important that we do *not* return from here by // accidentally using '?'. The process *must* exit from within // this match arm. // Drop privileges to target user initgroups(&cusername, user.gid).expect("unable to init groups"); setgid(user.gid).expect("unable to set GID"); setuid(user.uid).expect("unable to set UID"); // Set our parent death signal. setuid/setgid above resets the // death signal, which is why we do this here. prctl(PrctlOption::SET_PDEATHSIG(libc::SIGTERM)).expect("unable to set death signal"); // Change working directory if let Err(e) = env::set_current_dir(user.dir) { eprintln!("unable to set working directory: {}", e); } // Run let cpath = CString::new("/bin/sh").unwrap(); execve( &cpath, &[ &cpath, &CString::new("-c").unwrap(), &CString::new(command).unwrap(), ], &envvec, ) .expect("unable to exec"); unreachable!("after exec"); } }; // Signal the inner PID to the parent process. SessionChildToParent::FinalChildPid(child.as_raw() as u64).send(sock)?; sock.shutdown(std::net::Shutdown::Both)?; // Set our parent death signal. setsid above resets the signal, hence our // late assignment, which is why we do this here. prctl(PrctlOption::SET_PDEATHSIG(libc::SIGTERM))?; // Wait for process to terminate, handling EINTR as necessary. loop { match waitpid(child, None) { Err(nix::errno::Errno::EINTR) => continue, Err(e) => { eprintln!("session: waitpid on inner child failed: {}", e); break; } Ok(_) => break, } } // Close the session. This step requires root privileges to run, as it // will result in various forms of login teardown (including unmounting // home folders, telling logind that the session ended, etc.). This is // why we cannot drop privileges in this process, but must do it in the // inner-most child. pam.close_session(PamFlag::NONE)?; pam.setcred(PamFlag::DELETE_CRED)?; pam.end()?; Ok(()) } pub fn main(sock: &UnixDatagram) -> Result<(), Error> { if let Err(e) = worker(sock) { SessionChildToParent::Error(e.clone()).send(sock)?; Err(e) } else { Ok(()) } } 0707010000002B000041ED0000000000000000000000026662E6E500000000000000000000000000000000000000000000002200000000greetd-0.10.3/greetd/src/terminal0707010000002C000081A40000000000000000000000016662E6E5000004EC000000000000000000000000000000000000002B00000000greetd-0.10.3/greetd/src/terminal/ioctl.rsuse nix::{ioctl_read_bad, ioctl_write_int_bad, ioctl_write_ptr_bad}; pub const KDSETMODE: u16 = 0x4B3A; pub const KDTEXT: i32 = 0x00; pub const KDGRAPHICS: i32 = 0x01; pub const VT_OPENQRY: u16 = 0x5600; pub const VT_SETMODE: u16 = 0x5602; pub const VT_GETSTATE: u16 = 0x5603; pub const VT_ACTIVATE: u16 = 0x5606; pub const VT_WAITACTIVE: u16 = 0x5607; pub const VT_SETACTIVATE: u16 = 0x560F; pub const VT_AUTO: u8 = 0; pub const TIOCSCTTY: u16 = 0x540E; ioctl_write_int_bad!(kd_setmode, KDSETMODE); ioctl_write_int_bad!(vt_activate, VT_ACTIVATE); ioctl_write_int_bad!(vt_waitactive, VT_WAITACTIVE); ioctl_write_ptr_bad!(vt_setmode, VT_SETMODE, vt_mode); ioctl_write_ptr_bad!(vt_setactivate, VT_SETACTIVATE, vt_setactivate); ioctl_read_bad!(vt_openqry, VT_OPENQRY, i64); ioctl_read_bad!(vt_getstate, VT_GETSTATE, vt_state); ioctl_write_int_bad!(term_tiocsctty, TIOCSCTTY); #[allow(dead_code)] #[repr(C)] pub struct vt_mode { pub mode: u8, pub waitv: u8, pub relsig: u16, pub acqsig: u16, pub frsig: u16, } #[allow(dead_code)] #[repr(C)] pub struct vt_setactivate { pub console: u64, pub mode: vt_mode, } #[allow(dead_code)] #[repr(C)] pub struct vt_state { pub v_active: u16, pub v_signal: u16, pub v_state: u16, } 0707010000002D000081A40000000000000000000000016662E6E500001E53000000000000000000000000000000000000002900000000greetd-0.10.3/greetd/src/terminal/mod.rsmod ioctl; use crate::error::Error; use nix::{ fcntl::{open, OFlag}, sys::stat::Mode, unistd::{close, dup2, write}, }; use std::{ffi::CStr, os::unix::io::RawFd}; #[allow(dead_code)] pub enum KdMode { Text, Graphics, } impl KdMode { fn to_const(&self) -> i32 { match self { KdMode::Text => ioctl::KDTEXT, KdMode::Graphics => ioctl::KDGRAPHICS, } } } pub struct Terminal { fd: RawFd, autoclose: bool, } impl Drop for Terminal { fn drop(&mut self) { if self.autoclose { close(self.fd).unwrap(); } } } fn ttyname_r(fd: RawFd) -> Result<String, Error> { let mut arr: [u8; 32] = [0; 32]; let res = unsafe { libc::ttyname_r( fd as libc::c_int, &mut arr[0] as *mut u8 as *mut libc::c_char, 31, ) }; if res != 0 { return Err("ttyname_r failed".into()); } let len = unsafe { libc::strnlen(&arr[0] as *const u8 as *const libc::c_char, 31) }; let s = CStr::from_bytes_with_nul(&arr[..len + 1]) .map_err(|e| Error::Error(format!("ttyname_r result conversion failed: {}", e)))?; Ok(s.to_str() .map_err(|e| Error::Error(format!("ttyname_r result conversion failed: {}", e)))? .to_string()) } impl Terminal { /// Open the terminal file for the specified terminal number. pub fn open(terminal: &str) -> Result<Terminal, Error> { let res = open( terminal, OFlag::O_RDWR | OFlag::O_NOCTTY, Mode::from_bits_truncate(0o666), ); match res { Ok(fd) => Ok(Terminal { fd, autoclose: true, }), Err(e) => return Err(format!("terminal: unable to open: {}", e).into()), } } /// Open the terminal from stdin pub fn stdin() -> Terminal { Terminal { fd: 0 as RawFd, autoclose: false, } } /// Returns the name of the TTY pub fn ttyname(&self) -> Result<String, Error> { ttyname_r(self.fd) } /// Set the kernel display to either graphics or text mode. Graphivs mode /// disables the kernel console on this VT, and also disables blanking /// between VT switches if both source and target VT is in graphics mode. pub fn kd_setmode(&self, mode: KdMode) -> Result<(), Error> { let mode = mode.to_const(); let ret = unsafe { ioctl::kd_setmode(self.fd, mode) }; if let Err(v) = ret { Err(format!("terminal: unable to set kernel display mode: {}", v).into()) } else { Ok(()) } } /// Switches to the specified VT and waits for completion of switch. fn vt_activate(&self, target_vt: usize) -> Result<(), Error> { if let Err(v) = unsafe { ioctl::vt_activate(self.fd, target_vt as i32) } { return Err(format!("terminal: unable to activate: {}", v).into()); } if let Err(v) = unsafe { ioctl::vt_waitactive(self.fd, target_vt as i32) } { return Err(format!("terminal: unable to wait for activation: {}", v).into()); } Ok(()) } /// Waits for specified VT to become active. pub fn vt_waitactive(&self, target_vt: usize) -> Result<(), Error> { if let Err(v) = unsafe { ioctl::vt_waitactive(self.fd, target_vt as i32) } { return Err(format!("terminal: unable to wait for activation: {}", v).into()); } Ok(()) } /// Set the VT mode to VT_AUTO with everything cleared. fn vt_mode_clean(&self) -> Result<(), Error> { let mode = ioctl::vt_mode { mode: ioctl::VT_AUTO, waitv: 0, relsig: 0, acqsig: 0, frsig: 0, }; let res = unsafe { ioctl::vt_setmode(self.fd, &mode) }; if let Err(v) = res { Err(format!("terminal: unable to set vt mode: {}", v).into()) } else { Ok(()) } } /// Set a VT mode, switch to the VT and wait for its activation. On Linux, /// this will use VT_SETACTIVATE, which will both set the mode and switch /// to the VT under the kernel console lock. On other platforms, /// VT_SETMODE followed by VT_ACTIVATE is used. For all platforms, /// VT_WAITACTIVE is used to wait for shell activation. pub fn vt_setactivate(&self, target_vt: usize) -> Result<(), Error> { if cfg!(target_os = "linux") { let arg = ioctl::vt_setactivate { console: target_vt as u64, mode: ioctl::vt_mode { mode: ioctl::VT_AUTO, waitv: 0, relsig: 0, acqsig: 0, frsig: 0, }, }; if let Err(v) = unsafe { ioctl::vt_setactivate(self.fd, &arg) } { return Err(format!("terminal: unable to setactivate: {}", v).into()); } if let Err(v) = unsafe { ioctl::vt_waitactive(self.fd, target_vt as i32) } { return Err(format!("terminal: unable to wait for activation: {}", v).into()); } } else { self.vt_mode_clean()?; self.vt_activate(target_vt)?; } Ok(()) } /// Retrieves the current VT number. pub fn vt_get_current(&self) -> Result<usize, Error> { let mut state = ioctl::vt_state { v_active: 0, v_signal: 0, v_state: 0, }; let res = unsafe { ioctl::vt_getstate(self.fd, &mut state as *mut ioctl::vt_state) }; if let Err(v) = res { Err(format!("terminal: unable to get current vt: {}", v).into()) } else if state.v_active < 1 { Err(format!("terminal: current vt invalid: {}", state.v_active).into()) } else { Ok(state.v_active as usize) } } /// Find the next unallocated VT, allocate it and return the number. Note /// that allocation does not mean exclusivity, and another process may take /// and use the VT before you get to it. pub fn vt_get_next(&self) -> Result<usize, Error> { let mut next_vt: i64 = 0; let res = unsafe { ioctl::vt_openqry(self.fd, &mut next_vt as *mut i64) }; if let Err(v) = res { Err(format!("terminal: unable to get next vt: {}", v).into()) } else if next_vt < 1 { Err(format!("terminal: next vt invalid: {}", next_vt).into()) } else { Ok(next_vt as usize) } } /// Hook up stdin, stdout and stderr of the current process ot this /// terminal. pub fn term_connect_pipes(&self) -> Result<(), Error> { let res = dup2(self.fd, 0) .and_then(|_| dup2(self.fd, 1)) .and_then(|_| dup2(self.fd, 2)); if let Err(v) = res { Err(format!("terminal: unable to connect pipes: {}", v).into()) } else { Ok(()) } } /// Clear this terminal by sending the appropciate escape codes to it. Only /// affects text mode. pub fn term_clear(&self) -> Result<(), Error> { let res = write(self.fd, b"\x1B[H\x1B[2J"); if let Err(v) = res { Err(format!("terminal: unable to clear: {}", v).into()) } else { Ok(()) } } // Forcibly take control of the terminal referred to by this fd. pub fn term_take_ctty(&self) -> Result<(), Error> { let res = unsafe { ioctl::term_tiocsctty(self.fd, 1) }; match res { Err(e) => Err(format!("terminal: unable to take controlling terminal: {}", e).into()), Ok(_) => Ok(()), } } } 0707010000002E000041ED0000000000000000000000026662E6E500000000000000000000000000000000000000000000001900000000greetd-0.10.3/greetd_ipc0707010000002F000081A40000000000000000000000016662E6E5000002C5000000000000000000000000000000000000002400000000greetd-0.10.3/greetd_ipc/Cargo.toml[package] name = "greetd_ipc" version = "0.10.3" authors = ["Kenny Levinsen"] edition = "2018" license = "GPL-3.0-only" homepage = "https://kl.wtf/projects/greetd" repository = "https://git.sr.ht/~kennylevinsen/greetd/" description = "An implementation of the greetd IPC protocol" keywords = ["greetd"] [package.metadata.docs.rs] all-features = true [features] codec = ["thiserror"] sync-codec = ["codec"] tokio-codec = ["codec", "tokio", "async-trait"] [dependencies] serde = { version = "1.0", features = ["derive"] } serde_json = "1.0" tokio = { version = "1", features = ["io-util"], optional = true } async-trait = { version = "0.1", optional = true } thiserror = { version = "1.0", optional = true } 070701000000300000A1FF00000000000000000000000166611C890000000A000000000000000000000000000000000000002100000000greetd-0.10.3/greetd_ipc/LICENSE../LICENSE07070100000031000041ED0000000000000000000000026662E6E500000000000000000000000000000000000000000000001D00000000greetd-0.10.3/greetd_ipc/src07070100000032000041ED0000000000000000000000026662E6E500000000000000000000000000000000000000000000002300000000greetd-0.10.3/greetd_ipc/src/codec07070100000033000081A40000000000000000000000016662E6E500000581000000000000000000000000000000000000002A00000000greetd-0.10.3/greetd_ipc/src/codec/mod.rs//! Reader/writer codecs for Request/Response. //! //! This is implemented in the form of two traits, SyncCodec and TokioCodec, //! which operate on the `std` and `tokio` implementations of reader/writer //! traits. The former is intended as the name suggests for synchronous //! operation, while the latter is for asynchronous operation when using tokio. //! //! These codecs are hidden behind the `sync-codec` and `tokio-codec` features, //! respectively. These features also implicitly enable the `codec` feature, //! which controls the entire `codec` module. //! use thiserror::Error as ThisError; #[derive(Debug, ThisError)] pub enum Error { #[error("serialization error: {0}")] Serialization(String), #[error("i/o error: {0}")] Io(String), #[error("EOF")] Eof, } impl From<serde_json::error::Error> for Error { fn from(error: serde_json::error::Error) -> Self { Error::Serialization(error.to_string()) } } impl From<std::io::Error> for Error { fn from(error: std::io::Error) -> Self { Error::Io(format!("{}", error)) } } #[cfg_attr(docsrs, doc(cfg(feature = "sync-codec")))] #[cfg(feature = "sync-codec")] mod sync; #[cfg(feature = "sync-codec")] pub use self::sync::SyncCodec; #[cfg_attr(docsrs, doc(cfg(feature = "tokio-codec")))] #[cfg(feature = "tokio-codec")] mod tokio; #[cfg(feature = "tokio-codec")] pub use self::tokio::TokioCodec; 07070100000034000081A40000000000000000000000016662E6E500000A3A000000000000000000000000000000000000002B00000000greetd-0.10.3/greetd_ipc/src/codec/sync.rs//! Synchronous reader/writer implementation, operating on an implementor of std::io::{Read, Write}. //! //! # Example //! //! ```no_run //! use std::env; //! use std::os::unix::net::UnixStream; //! use greetd_ipc::{Request, Response}; //! use greetd_ipc::codec::SyncCodec; //! //! fn main() -> Result<(), Box<dyn std::error::Error>> { //! let mut stream = UnixStream::connect(env::var("GREETD_SOCK")?)?; //! Request::CreateSession { username: "john".to_string() }.write_to(&mut stream)?; //! let resp = Response::read_from(&mut stream)?; //! Ok(()) //! } //! ``` use crate::{codec::Error, Request, Response}; use std::io::{Read, Write}; /// Reader/writer implementation over std::io::{Read,Write}. pub trait SyncCodec { fn read_from<T: Read>(stream: &mut T) -> Result<Self, Error> where Self: std::marker::Sized; fn write_to<T: Write>(&self, stream: &mut T) -> Result<(), Error>; } impl SyncCodec for Request { fn read_from<T: Read>(stream: &mut T) -> Result<Self, Error> { let mut len_bytes = [0; 4]; stream .read_exact(&mut len_bytes) .map_err(|e| match e.kind() { std::io::ErrorKind::UnexpectedEof => Error::Eof, _ => e.into(), })?; let len = u32::from_ne_bytes(len_bytes); let mut resp_buf = vec![0; len as usize]; stream.read_exact(&mut resp_buf)?; serde_json::from_slice(&resp_buf).map_err(|e| e.into()) } fn write_to<T: Write>(&self, stream: &mut T) -> Result<(), Error> { let body_bytes = serde_json::to_vec(self)?; let len_bytes = (body_bytes.len() as u32).to_ne_bytes(); stream.write_all(&len_bytes)?; stream.write_all(&body_bytes)?; Ok(()) } } impl SyncCodec for Response { fn read_from<T: Read>(stream: &mut T) -> Result<Self, Error> { let mut len_bytes = [0; 4]; stream .read_exact(&mut len_bytes) .map_err(|e| match e.kind() { std::io::ErrorKind::UnexpectedEof => Error::Eof, _ => e.into(), })?; let len = u32::from_ne_bytes(len_bytes); let mut resp_buf = vec![0; len as usize]; stream.read_exact(&mut resp_buf)?; serde_json::from_slice(&resp_buf).map_err(|e| e.into()) } fn write_to<T: Write>(&self, stream: &mut T) -> Result<(), Error> { let body_bytes = serde_json::to_vec(self)?; let len_bytes = (body_bytes.len() as u32).to_ne_bytes(); stream.write_all(&len_bytes)?; stream.write_all(&body_bytes)?; Ok(()) } } 07070100000035000081A40000000000000000000000016662E6E500000CD2000000000000000000000000000000000000002C00000000greetd-0.10.3/greetd_ipc/src/codec/tokio.rs//! Asynchronous reader/writer implementation, operating on an implementor of tokio::io::{AsyncReadExt, AsyncWriteExt}. //! //! # Example //! //! ```no_run //! use std::env; //! use tokio::net::UnixStream; //! use greetd_ipc::{Request, Response}; //! use greetd_ipc::codec::TokioCodec; //! //! #[tokio::main(flavor = "current_thread")] //! async fn main() -> Result<(), Box<dyn std::error::Error>> { //! let mut stream = UnixStream::connect(env::var("GREETD_SOCK")?).await?; //! Request::CreateSession { username: "john".to_string() }.write_to(&mut stream).await?; //! let resp = Response::read_from(&mut stream).await?; //! Ok(()) //! } //! ``` use crate::{codec::Error, Request, Response}; use async_trait::async_trait; use tokio::io::{AsyncReadExt, AsyncWriteExt}; /// Reader/writer implementation over tokio::io::{AsyncReadExt, AsyncWriteExt}. #[async_trait] pub trait TokioCodec { async fn read_from<T: AsyncReadExt + std::marker::Unpin + Send>( stream: &mut T, ) -> Result<Self, Error> where Self: std::marker::Sized; async fn write_to<T: AsyncWriteExt + std::marker::Unpin + Send>( &self, stream: &mut T, ) -> Result<(), Error>; } #[async_trait] impl TokioCodec for Request { async fn read_from<T: AsyncReadExt + std::marker::Unpin + Send>( stream: &mut T, ) -> Result<Self, Error> { let mut len_bytes = [0; 4]; stream .read_exact(&mut len_bytes) .await .map_err(|e| match e.kind() { std::io::ErrorKind::UnexpectedEof => Error::Eof, _ => e.into(), })?; let len = u32::from_ne_bytes(len_bytes); let mut body_bytes = vec![0; len as usize]; stream.read_exact(&mut body_bytes).await?; let body = serde_json::from_slice(&body_bytes)?; Ok(body) } async fn write_to<T: AsyncWriteExt + std::marker::Unpin + Send>( &self, stream: &mut T, ) -> Result<(), Error> { let body_bytes = serde_json::to_vec(self)?; let len_bytes = (body_bytes.len() as u32).to_ne_bytes(); stream.write_all(&len_bytes).await?; stream.write_all(&body_bytes).await?; Ok(()) } } #[async_trait] impl TokioCodec for Response { async fn read_from<T: AsyncReadExt + std::marker::Unpin + Send>( stream: &mut T, ) -> Result<Self, Error> { let mut len_bytes = [0; 4]; stream .read_exact(&mut len_bytes) .await .map_err(|e| match e.kind() { std::io::ErrorKind::UnexpectedEof => Error::Eof, _ => e.into(), })?; let len = u32::from_ne_bytes(len_bytes); let mut body_bytes = vec![0; len as usize]; stream.read_exact(&mut body_bytes).await?; let body = serde_json::from_slice(&body_bytes)?; Ok(body) } async fn write_to<T: AsyncWriteExt + std::marker::Unpin + Send>( &self, stream: &mut T, ) -> Result<(), Error> { let body_bytes = serde_json::to_vec(self)?; let len_bytes = (body_bytes.len() as u32).to_ne_bytes(); stream.write_all(&len_bytes).await?; stream.write_all(&body_bytes).await?; Ok(()) } } 07070100000036000081A40000000000000000000000016662E6E50000147D000000000000000000000000000000000000002400000000greetd-0.10.3/greetd_ipc/src/lib.rs//! # `greetd` IPC protocol library //! //! This library implements the [greetd](https://git.sr.ht/~kennylevinsen/greetd) IPC protocol. //! //! The library exposes a [Request](enum.Request.html) and a //! [Response](enum.Response.html) enum, representing the valid protocol //! messages. Furthermore, codec implementations are available to serialize //! these to/from both sync and async readers/writers. The availability of //! these are controlled by feature flags. //! //! Additional types are part of the different request and response values. //! //! See `agreety` for a simple example use of this library. //! //! # Format //! //! The message format is as follows: //! //! ```text //! +----------+-------------------+ //! | len: u32 | JSON payload: str | //! +----------+-------------------+ //! ``` //! //! Length is in native byte-order. The JSON payload is a variant of the //! Request or Response enums. //! //! # Request and response types //! //! See [Request](enum.Request.html) and [Response](enum.Response.html) for //! information about the request and response types, as well as their //! serialization. //! #![cfg_attr(docsrs, feature(doc_cfg))] use serde::{Deserialize, Serialize}; #[cfg(feature = "codec")] #[cfg_attr(docsrs, doc(cfg(feature = "codec")))] pub mod codec; /// A request from a greeter to greetd. The request type is internally tagged /// with the"type" field, with the type written in snake_case. /// /// Example serialization: /// /// ```json /// { /// "type": "create_session", /// "username": "bob" /// } /// ``` #[derive(Debug, Deserialize, Serialize)] #[serde(rename_all = "snake_case")] #[serde(tag = "type")] pub enum Request { /// CreateSession initiates a login attempt for the given user. /// CreateSession returns either a Response::AuthMessage, /// Response::Success or Response::Failure. /// /// If an auth message is returned, it should be answered with a /// Request::PostAuthMessageResponse. If a success is returned, the session /// can then be started with Request::StartSession. /// /// If a login flow needs to be aborted at any point, send /// Request::CancelSession. Note that the session is cancelled /// automatically on error. CreateSession { username: String }, /// PostAuthMessageResponse responds to the last auth message, and returns /// either a Response::AuthMessage, Response::Success or Response::Failure. /// /// If an auth message is returned, it should be answered with a /// Request::PostAuthMessageResponse. If a success is returned, the session /// can then be started with Request::StartSession. PostAuthMessageResponse { response: Option<String> }, /// Start a successfully logged in session. This will fail if the session /// has pending messages or has encountered an error. StartSession { cmd: Vec<String>, #[serde(default)] env: Vec<String>, }, /// Cancel a session. This can only be done if the session has not been /// started. Cancel does not have to be called if an error has been /// encountered in its setup or login flow. CancelSession, } /// An error type for Response::Error. Serialized as snake_case. #[derive(Debug, Deserialize, Serialize)] #[serde(rename_all = "snake_case")] pub enum ErrorType { /// A generic error. See the error description for more details. Error, /// An error caused by failed authentication. AuthError, } /// A message type for a Response::AuthMessage. Serialized as snake_case. #[derive(Debug, Deserialize, Serialize)] #[serde(rename_all = "snake_case")] pub enum AuthMessageType { /// A question whose answer should be visible during input. Visible, /// A question whose answer should be kept secret during input. Secret, /// An information message. Info, /// An error message. Error, } /// A response from greetd to a greeter. The request type is internally tagged /// with the"type" field, with the type written in snake_case. /// /// Example serialization: /// /// ```json /// { /// "type": "auth_message", /// "message": "Password:", /// "message_type": "secret" /// } /// ``` #[derive(Debug, Deserialize, Serialize)] #[serde(tag = "type")] #[serde(rename_all = "snake_case")] pub enum Response { /// The request was successful. Success, /// The request failed. See the type and/or description for more /// information about this failure. Error { error_type: ErrorType, description: String, }, /// An authentication message needs to be answered to continue through the /// authentication flow. /// /// An authentication message can consist of anything. While it will /// commonly just be a request for the users' password, it could also ask /// for TOTP codes, or whether or not you felt sad when Littlefoot's mother /// died in the original "Land Before Time". It is therefore important that /// no assumptions are made about the questions that will be asked, and /// attempts to automatically answer these questions should not be made. AuthMessage { auth_message_type: AuthMessageType, auth_message: String, }, } 07070100000037000041ED0000000000000000000000026662E6E500000000000000000000000000000000000000000000001400000000greetd-0.10.3/inish07070100000038000081A40000000000000000000000016662E6E500000072000000000000000000000000000000000000001F00000000greetd-0.10.3/inish/Cargo.toml[package] name = "inish" version = "0.1.0" authors = ["Kenny Levinsen"] edition = "2018" license = "GPL-3.0-only" 07070100000039000041ED0000000000000000000000026662E6E500000000000000000000000000000000000000000000001800000000greetd-0.10.3/inish/src0707010000003A000081A40000000000000000000000016662E6E500000DED000000000000000000000000000000000000001F00000000greetd-0.10.3/inish/src/lib.rsuse std::{collections::HashMap, error::Error}; fn parse_field<'a>(line: &'a str) -> Result<(&'a str, &'a str), Box<dyn Error>> { let split = match line.find('=') { Some(v) => v, None => return Err("expected equals sign on line, but found none".into()), }; let (key, value) = line.split_at(split); let (key, value) = (key.trim(), value.trim_matches('=').trim()); Ok((key, value)) } type InishSection<'a> = HashMap<&'a str, &'a str>; type Inish<'a> = HashMap<&'a str, InishSection<'a>>; pub fn parse<'a>(s: &'a str) -> Result<Inish<'a>, Box<dyn Error>> { let mut sections: Inish<'a> = HashMap::new(); let mut current_section = HashMap::new(); let mut current_section_name = ""; for line in s.lines() { let line = line.trim(); let mut chars = line.chars(); let start = chars.next(); let end = chars.last(); match (start, end) { (Some('#'), _) => continue, (Some('['), Some(']')) => { sections.insert(current_section_name, current_section); current_section = HashMap::new(); let len = line.bytes().count(); current_section_name = line[1..len - 1].trim(); } (Some('['), v) => { return Err(format!( "expected Some(']') to terminate section name, but got {:?}", v ) .into()); } _ if line.is_empty() => continue, _ => { let (key, value) = parse_field(line)?; current_section.insert(key, value); } } } sections.insert(current_section_name, current_section); Ok(sections) } #[cfg(test)] mod tests { use super::*; #[test] fn sections() { let config = parse( " [section_a] [section_b] ", ) .expect("config didn't parse"); if !config.contains_key("section_a") { panic!("named section did not exist"); } if !config.contains_key("section_b") { panic!("named section did not exist"); } if !config.contains_key("") { panic!("unnamed section did not exist"); } } #[test] fn fields() { let config = parse( " field_outside = 'hello' [section_a] field_a = 1234 ", ) .expect("config didn't parse"); let section_a = match config.get("section_a") { Some(v) => v, None => panic!("named section did not exist"), }; assert_eq!(section_a.get("field_a"), Some(&"1234")); let section_unnamed = match config.get("") { Some(v) => v, None => panic!("unnamed section did not exist"), }; assert_eq!(section_unnamed.get("field_outside"), Some(&"'hello'")); } #[test] fn whitespaces() { let config = parse( " field outside = 'hello' [ section a ] field a = 1234 ", ) .expect("config didn't parse"); let section_a = match config.get("section a") { Some(v) => v, None => panic!("named section did not exist"), }; assert_eq!(section_a.get("field a"), Some(&"1234")); let section_unnamed = match config.get("") { Some(v) => v, None => panic!("unnamed section did not exist"), }; assert_eq!(section_unnamed.get("field outside"), Some(&"'hello'")); } } 0707010000003B000041ED0000000000000000000000026662E6E500000000000000000000000000000000000000000000001200000000greetd-0.10.3/man0707010000003C000081A40000000000000000000000016662E6E500000367000000000000000000000000000000000000001B00000000greetd-0.10.3/man/MakefileSCDOC=$(shell pkg-config --variable=scdoc scdoc) PREFIX?=/usr/local MANDIR?=$(PREFIX)/share/man DESTDIR?= agreety.1: agreety-1.scd $(SCDOC) < agreety-1.scd > agreety.1 greetd.1: greetd-1.scd $(SCDOC) < greetd-1.scd > greetd.1 greetd.5: greetd-5.scd $(SCDOC) < greetd-5.scd > greetd.5 greetd-ipc.7: greetd-ipc-7.scd $(SCDOC) < greetd-ipc-7.scd > greetd-ipc.7 all: agreety.1 greetd.1 greetd.5 greetd-ipc.7 install: mkdir -p $(DESTDIR)$(MANDIR)/man1 mkdir -p $(DESTDIR)$(MANDIR)/man5 mkdir -p $(DESTDIR)$(MANDIR)/man7 install -m644 agreety.1 $(DESTDIR)$(MANDIR)/man1/agreety.1 install -m644 greetd.1 $(DESTDIR)$(MANDIR)/man1/greetd.1 install -m644 greetd.5 $(DESTDIR)$(MANDIR)/man5/greetd.5 install -m644 greetd-ipc.7 $(DESTDIR)$(MANDIR)/man7/greetd-ipc.7 clean: rm -f agreety.1 greetd.1 greetd.5 greetd-ipc.7 .DEFAULT_GOAL=all .PHONY: all install clean 0707010000003D000081A40000000000000000000000016662E6E50000031C000000000000000000000000000000000000002000000000greetd-0.10.3/man/agreety-1.scdagreety(1) # NAME agreety - A text-based greeter for greetd # SYNOPSIS *agreety* [options] # OPTIONS *-h, --help* Show help message and quit. *-c, --cmd <command>* Specifies the command to run on successful login. agreety will ask if none is specified. *-f, --max-failures <num>* Specifies the maximum number of login failures to accept before terminating. Defaults to 5. # DESCRIPTION agreety is a very simple text-based greeter, with an appearance similar to *agetty*(8) and *login*(1). It is bundled with *greetd*(1). To use agreety, configure it as your greeter in your greetd config file. # AUTHORS Maintained by Kenny Levinsen <contact@kl.wtf>. For more information about greetd development, see https://git.sr.ht/~kennylevinsen/greetd. # SEE ALSO *greetd*(1) *greetd*(5)0707010000003E000081A40000000000000000000000016662E6E500000900000000000000000000000000000000000000001F00000000greetd-0.10.3/man/greetd-1.scdgreetd(1) # NAME greetd - A login manager daemon # SYNOPSIS *greetd* [options] # OPTIONS *-h, --help* Show help message and quit. *-c, --config <config>* Specifies the configuration file to use. *--vt <vt>* The VT to use, overwriting the value from the configuration file. This can be useful when starting an instance per VT if greetd cannot deduce the intended VT from an associated controlling terminal. # DESCRIPTION greetd was created to fill the need for a simple login manager that makes no assumptions about the applications it starts, thus being equally suitable for starting console sessions, Wayland sessions, or something else entirely. greetd does not itself interact with the user, but relies on an external greeter process like agreety(1) to handle that aspect. # OPERATION greetd operates on *sessions*. A greeter creates a session, attempts to authenticate a user in it, and finally, uses it start an arbitrary application. There are two types of preconfigured sessions: The default session, also known as the *greeter*, and the optional initial session, serving the purpose of "auto-login". The initial session, if configured, is started once when greetd launches. The default session is started on launch if an initial session is not configured, and started again whenever no session is running, such as when the user logs out. An IPC socket is exposed to this greeter, as reported by *GREETD_SOCK*. The greeter can use this to create, authenticate and finally start a session. For more information about the IPC layer, see greetd-ipc(7). Once the greeter has requested the start of a session and terminated itself, greetd will start the new session. Once this session terminates, the process starts over. greetd makes no assumptions about any sessions, including the greeter. They can be text-based, running in the active console, or full-on graphical environments. # CONFIGURATION greetd looks for a configuration file in /etc/greetd/config.toml by default. This can be overriden with a command-line argument. For information on the config file format, see greetd(5). # AUTHORS Maintained by Kenny Levinsen <contact@kl.wtf>. For more information about greetd development, see https://git.sr.ht/~kennylevinsen/greetd. # SEE ALSO *greetd*(5) *greetd-ipc*(7) 0707010000003F000081A40000000000000000000000016662E6E500000E68000000000000000000000000000000000000001F00000000greetd-0.10.3/man/greetd-5.scdgreetd(5) # NAME greetd - configuration file # DESCRIPTION greetd uses a simple TOML configuration file to define its behavior. # CONFIGURATION The configuration is divided into *sections*. Sections are delimited like so: ``` [section_name] config_key = value ``` Configuration keys can be integer literals, or quote-delimited strings. The configuration sections are described below. ## terminal This section contains terminal configuration. *vt* = num|"next"|"current" The VT to run on. Can be the number of a specific VT, "next" to select the next available VT, or "current" to stay wherever greetd was started. The specific VT is evaluated at startup, and does not change during the execution of greetd. If using the current or a specific VT, you must ensure that there are no other users of that VT. If using systemd with autovt and getty, conflict avoidance can be handled in the service unit with "Conflicts=getty@ttyN.service", where N is the VT number. Use of a specific VT with appropriate conflict avoidance is recommended. *switch* = true|false Whether or not to switch to *vt*. If set to false and *vt* is not currently active VT, greetd will wait for *vt* to become active, before doing anything including starting greeter. If set to true, greetd will switch current VT to *vt*, Default is true. ## general This section contains general configuration that does not fit in other sections nor deserved its own section. *source_profile* = true|false Whether or not to source ~/.profile and /etc/profile if present when running commands. Defaults to true. *runfile* = path-to-runfile Location of greetd's runfile that is created during the first run to prevent the initial session from being run again on session termination or on greetd restart. This file should be in a location that is cleared during a reboot. ## default_session This section describes the default session, also referred to as the *greeter*. *command* = command-line The command-line that greetd will run to start the default session, e.g. "agreety -c sway". The default session is automatically started when no other session is running, such as when a user session terminates or when greetd is initially started with no initial session configured. The command-line is run by *sh*(1), and as such accepts standard POSIX shell syntax. See *greetd-ipc*(7) for information on how a greeter can create sessions. *user* = user The user to use for running the greeter. Defaults to "greeter". ## initial_session This optional section describes the initial session, commonly referred to as "auto-login". The initial session will only be executed during the first run of greetd since boot in order to ensure signing out works properly and to prevent security issues whenever greetd or the greeter exit. This is checked through the presence of the runfile. *command* = command-line The command-line that greetd will run to start the initial session, e.g. "sway". The initial session will be started exactly once when greetd is initially launched. The command-line is run by *sh*(1), and as such accepts standard POSIX shell syntax. *user* = user The user to use for running the initial session. # EXAMPLES ## Regular setup with agreety and sway ``` [terminal] vt = 1 [default_session] command = "agreety -c sway" ``` ## Auto-login ``` [terminal] vt = 1 [default_session] command = "agreety -c sway" [initial_session] command = "sway" user = "john" ``` # AUTHORS Maintained by Kenny Levinsen <contact@kl.wtf>. For more information about greetd development, see https://git.sr.ht/~kennylevinsen/greetd. # SEE ALSO *greetd*(1) *greetd-ipc*(7) 07070100000040000081A40000000000000000000000016662E6E500000CD7000000000000000000000000000000000000002300000000greetd-0.10.3/man/greetd-ipc-7.scdgreetd-ipc(7) # NAME greetd-ipc - IPC protocol for greetd # DESCRIPTION This details the interprocess communication (IPC) protocol for *greetd*(1). This IPC protocol can be used to create and manage sessions under greetd. The IPC protocol uses a UNIX socket as a method of communication. The path to the socket is stored in the environment variable _GREETD_SOCK_. # MESSAGE AND REPLY FORMAT The format for messages and replies is: ``` <payload-length> <payload> ``` Where ``` <payload-length> is a 32-bit integer in native byte order <payload> is a UTF-8-encoded JSON string. ``` For example, sending the "create_session" command would look like the following hexdump: ``` 00000000 2c 00 00 00 7b 22 74 79 70 65 22 3a 20 22 63 72 |,...{"type": "cr| 00000010 65 61 74 65 5f 73 65 73 73 69 6f 6e 22 2c 20 22 |eate_session", "| 00000020 75 73 65 72 6e 61 6d 65 22 3a 20 22 6d 65 22 7d |username": "me"}| ``` # MESSAGES ## Requests [[ *MESSAGE TYPE* :[ *FIELDS* :< *PURPOSE* | create_session : username (string) : Creates a session and initiates a login attempted for the given user. The session is ready to be started if a success is returned. | post_auth_message_response : response (string, optional) : Answers an authentication message. If the message was informative (info, error), then a response does not need to be set in this message. The session is ready to be started if a success is returned. | start_session : cmd (array of strings), env (array of strings) : Requests for the session to be started using the provided command line, adding the supplied environment to that created by PAM. The session will start after the greeter process terminates. | cancel_session : : Cancels the session that is currently under configuration. ## Responses [[ *MESSAGE TYPE* :[ *FIELDS* :< *PURPOSE* |[ success : : Indicates that the request succeeded. | error : error_type (enum as string), description (string) : Indicates that the request failed. | auth_message : auth_message_type (enum as string), auth_message (string) : Indicates that an authentication message needs to be answered to continue through the authentication flow. There are no limits on the number and type of messages that may be required for authentication to succeed, and a greeter should not make any assumptions about the messages. Must be answered with either post_auth_message_response or cancel_session. ## Authentication message type enums [[ *AUTH MESSAGE TYPE* :[ *PURPOSE* | visible : Indicates that input from the user should be visible when they answer this question. | secret : Indicates that input from the user should be considered secret when they answer this question. | info : Indicates that this message is informative, not a question. | error : Indicates that this message is an error, not a question. ## Error enums [[ *ERROR TYPE* :[ *PURPOSE* | auth_error : Indicates that authentication failed. This is not a fatal error, and is likely caused by incorrect credentials. Handle as appropriate. | error : A general error. See the error description for more information. # AUTHORS Maintained by Kenny Levinsen <contact@kl.wtf>. For more information about greetd development, see https://git.sr.ht/~kennylevinsen/greetd. # SEE ALSO *greetd*(1)07070100000041000081A40000000000000000000000016662E6E500000037000000000000000000000000000000000000001B00000000greetd-0.10.3/rustfmt.tomlunstable_features = true imports_granularity = "Crate" 07070100000000000000000000000000000000000000010000000000000000000000000000000000000000000000000000000B00000000TRAILER!!!375 blocks
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