kak-tree-sitter 0.4.3

use std::{
  collections::HashMap,
  ffi::CString,
  fs::{self, File, OpenOptions},
  io::{self, Read, Write},
  os::{
    fd::AsRawFd,
    unix::{
      net::UnixStream,
      prelude::{OpenOptionsExt, OsStrExt},
    },
  },
  path::{Path, PathBuf},
  process::Command,
  sync::{
    atomic::{AtomicBool, Ordering},
    Arc,
  },
};

use colored::Colorize;
use kak_tree_sitter_config::Config;
use mio::{net::UnixListener, unix::SourceFd, Events, Interest, Poll, Token, Waker};

use crate::{
  cli::Cli,
  error::OhNo,
  handler::Handler,
  request::{Request, UnidentifiedRequest},
  response::Response,
  session::KakSession,
};

pub struct Server {
  server_state: ServerState,
}

impl Server {
  fn new(config: &Config, is_standalone: bool) -> Result<Self, OhNo> {
    let server_state = ServerState::new(config, is_standalone)?;
    Ok(Self { server_state })
  }

  /// Return whether we run as a server.
  pub fn bootstrap(config: &Config, cli: &Cli) -> Result<(), OhNo> {
    // find a runtime directory to write in
    let runtime_dir = ServerState::runtime_dir()?;
    eprintln!("running in {}", runtime_dir.display());

    // PID file
    let pid_file = runtime_dir.join("pid");

    // check whether a pid file exists and can be read
    if let Ok(pid) = std::fs::read_to_string(&pid_file) {
      let pid = pid.trim();
      eprintln!("checking whether PID {pid} is still up…");

      // if the contained pid corresponds to a running process, stop right away
      // otherwise, remove the files left by the previous instance and continue
      if Command::new("ps")
        .args(["-p", pid])
        .output()
        .is_ok_and(|o| o.status.success())
      {
        eprintln!("kak-tree-sitter already running; not starting a new server");
        return Ok(());
      } else {
        eprintln!("cleaning up previous instance");
        let _ = std::fs::remove_dir_all(&runtime_dir);
      }
    }

    // ensure that the runtime directory exists
    fs::create_dir_all(&runtime_dir).map_err(|err| OhNo::CannotCreateDir {
      dir: runtime_dir.clone(),
      err,
    })?;

    if cli.daemonize {
      // create stdout / stderr files
      let stdout_path = runtime_dir.join("stdout.txt");
      let stderr_path = runtime_dir.join("stderr.txt");
      let stdout = File::create(&stdout_path).map_err(|err| OhNo::CannotCreateFile {
        file: stdout_path,
        err,
      })?;
      let stderr = File::create(&stderr_path).map_err(|err| OhNo::CannotCreateFile {
        file: stderr_path,
        err,
      })?;

      daemonize::Daemonize::new()
        .stdout(stdout)
        .stderr(stderr)
        .pid_file(pid_file)
        .start()
        .map_err(|err| OhNo::CannotStartDaemon {
          err: err.to_string(),
        })?;
    } else {
      fs::write(&pid_file, format!("{}", std::process::id())).map_err(|err| {
        OhNo::CannotWriteFile {
          file: pid_file,
          err,
        }
      })?;
    }

    Server::new(config, !cli.kakoune)?.start()?;

    Ok(())
  }

  fn start(mut self) -> Result<(), OhNo> {
    self.server_state.start()
  }

  pub fn send_request(req: UnidentifiedRequest) -> Result<(), OhNo> {
    // serialize the request
    let serialized = serde_json::to_string(&req).map_err(|err| OhNo::CannotSendRequest {
      err: err.to_string(),
    })?;

    eprintln!("sending unidentified request {req:?}");

    // connect and send the request to the daemon
    UnixStream::connect(ServerState::runtime_dir()?.join("socket"))
      .map_err(|err| OhNo::CannotConnectToServer { err })?
      .write_all(serialized.as_bytes())
      .map_err(|err| OhNo::CannotSendRequest {
        err: err.to_string(),
      })
  }
}

/// Resources requiring a special drop implementation.
#[derive(Debug)]
pub struct ServerResources {
  pub runtime_dir: PathBuf,
}

impl ServerResources {
  fn new(runtime_dir: PathBuf) -> Self {
    Self { runtime_dir }
  }
}

impl Drop for ServerResources {
  fn drop(&mut self) {
    // NOTE (#84): I’m not entirely sure what we should delete, because if KTS crashes for whatever reason, we will want
    // to keep access to the logs…

    // for now, we just remove the pid file so that we don’t cleanup next time we start
    let _ = std::fs::remove_dir_all(self.runtime_dir.join("pid"));
  }
}

pub struct ServerState {
  resources: ServerResources,

  // whether we were started as a standalone server
  is_standalone: bool,

  // readable poll
  poll: Poll,

  // UNIX socket listener
  unix_listener: UnixListener,

  // whether we should shutdown
  shutdown: Arc<AtomicBool>,

  // active command FIFOs; one per session
  cmd_fifos: HashMap<Token, SessionFifo>,

  // next available token
  next_token: Token,

  // available tokens (i.e. dead sessions’ tokens)
  free_tokens: Vec<Token>,

  // request handler
  req_handler: Handler,
}

impl ServerState {
  const WAKER_TOKEN: Token = Token(0);
  const UNIX_LISTENER_TOKEN: Token = Token(1);
  const CMD_FIFO_FIRST_TOKEN: Token = Token(2);

  pub fn new(config: &Config, is_standalone: bool) -> Result<Self, OhNo> {
    let resources = ServerResources::new(Self::runtime_dir()?);
    let poll = Poll::new().map_err(|err| OhNo::CannotStartPoll { err })?;
    let waker = Arc::new(Waker::new(poll.registry(), Self::WAKER_TOKEN)?);
    let mut unix_listener = UnixListener::bind(ServerState::socket_dir()?)
      .map_err(|err| OhNo::CannotStartServer { err })?;
    let shutdown = Arc::new(AtomicBool::new(false));
    let cmd_fifos = HashMap::default();
    let next_token = Self::CMD_FIFO_FIRST_TOKEN;
    let free_tokens = Vec::default();
    let req_handler = Handler::new(config)?;

    // SIGINT handler; we just ask to shutdown the server
    {
      let shutdown = shutdown.clone();
      ctrlc::set_handler(move || {
        log::warn!("received SIGINT");
        shutdown.store(true, Ordering::Relaxed);
        waker.wake().unwrap();
      })?;
    }

    poll
      .registry()
      .register(
        &mut unix_listener,
        Self::UNIX_LISTENER_TOKEN,
        Interest::READABLE,
      )
      .map_err(|err| OhNo::CannotStartPoll { err })?;

    Ok(ServerState {
      is_standalone,
      resources,
      poll,
      unix_listener,
      shutdown,
      cmd_fifos,
      next_token,
      free_tokens,
      req_handler,
    })
  }

  pub fn runtime_dir() -> Result<PathBuf, OhNo> {
    let dir = dirs::runtime_dir()
      .or_else(||
        // macOS doesn’t implement XDG, yay…
        std::env::var("TMPDIR").map(PathBuf::from).ok())
      .ok_or_else(|| OhNo::NoRuntimeDir)?;
    Ok(dir.join("kak-tree-sitter"))
  }

  pub fn socket_dir() -> Result<PathBuf, OhNo> {
    Ok(Self::runtime_dir()?.join("socket"))
  }

  /// Start the server state and wait for events to be dispatched.
  pub fn start(&mut self) -> Result<(), OhNo> {
    log::info!("starting server");

    let mut events = Events::with_capacity(1024);
    loop {
      if self.shutdown.load(Ordering::Relaxed) {
        break;
      }

      log::debug!("waiting on poll…");
      if let Err(err) = self.poll.poll(&mut events, None) {
        if err.kind() == io::ErrorKind::Interrupted {
          log::warn!("mio interrupted");
        } else {
          return Err(OhNo::from(err));
        }
      }

      for event in &events {
        log::trace!("mio event: {event:#?}");

        match event.token() {
          Self::WAKER_TOKEN => {
            log::debug!("waking up mio poll before shutting down");
            break;
          }

          Self::UNIX_LISTENER_TOKEN if event.is_readable() => {
            if let Err(err) = self.accept_unix_request() {
              log::error!("{err}");
            }
          }

          tkn if event.is_readable() => {
            if let Err(err) = self.accept_cmd_fifo_req(tkn) {
              log::error!("{err}");
            }
          }

          _ => (),
        }
      }
    }

    log::info!("shutting down");

    Ok(())
  }

  /// Accept a new request on the UNIX socket.
  fn accept_unix_request(&mut self) -> Result<(), OhNo> {
    let (mut client, _) = self
      .unix_listener
      .accept()
      .map_err(|err| OhNo::UnixConnectionError { err })?;

    log::info!("client connected: {client:?}");

    // read the request and parse it
    let mut req_str = String::new();
    client
      .read_to_string(&mut req_str)
      .map_err(|err| OhNo::InvalidRequest {
        req: req_str.clone(),
        err: err.to_string(),
      })?;
    log::info!("UNIX socket request: {req_str}");

    let req = serde_json::from_str::<UnidentifiedRequest>(&req_str).map_err(|err| {
      OhNo::InvalidRequest {
        req: req_str,
        err: err.to_string(),
      }
    })?;

    self.treat_unidentified_request(req)
  }

  fn treat_unidentified_request(&mut self, req: UnidentifiedRequest) -> Result<(), OhNo> {
    match req {
      UnidentifiedRequest::NewSession { name, client } => {
        let (cmd_fifo_path, buf_fifo_path) = self.add_session_fifo(name.clone())?;
        let resp = Response::Init {
          cmd_fifo_path,
          buf_fifo_path,
        };
        KakSession::new(name).send_response(Some(&client), &resp)?;
      }

      UnidentifiedRequest::SessionExit { name } => self.recycle_session_fifo(name)?,

      UnidentifiedRequest::Shutdown => {
        self.shutdown.store(true, Ordering::Relaxed);
      }
    }

    Ok(())
  }

  /// Take into account a new session by creating a command FIFO for it and associating it with a token.
  fn add_session_fifo(
    &mut self,
    session_name: impl Into<String>,
  ) -> Result<(PathBuf, PathBuf), OhNo> {
    let session_name = session_name.into();

    let cmd_fifo_path = self.create_session_fifo(Path::new("commands"), &session_name)?;
    let cmd_fifo = self.open_nonblocking_fifo(&cmd_fifo_path)?;
    let cmd_token = self.create_session_fifo_token();
    let buffer_fifo_path = self.create_session_fifo(Path::new("buffers"), &session_name)?;

    self
      .poll
      .registry()
      .register(
        &mut SourceFd(&cmd_fifo.as_raw_fd()),
        cmd_token,
        Interest::READABLE,
      )
      .map_err(|err| OhNo::PollEventsError { err })?;

    self.cmd_fifos.insert(
      cmd_token,
      SessionFifo::new(session_name, cmd_fifo, buffer_fifo_path.clone()),
    );

    Ok((cmd_fifo_path, buffer_fifo_path))
  }

  /// Get a new token for a new session.
  fn create_session_fifo_token(&mut self) -> Token {
    self.free_tokens.pop().unwrap_or_else(|| {
      let token = self.next_token;
      self.next_token = Token(self.next_token.0 + 1);
      token
    })
  }

  /// Recycle a session.
  fn recycle_session_fifo(&mut self, session_name: impl AsRef<str>) -> Result<(), OhNo> {
    let session_name = session_name.as_ref();

    log::info!("recycling session {session_name}");
    if let Some((token, session_fifo)) = self
      .cmd_fifos
      .iter()
      .find(|(_, session_fifo)| session_fifo.session_name == session_name)
    {
      let token = *token;
      self
        .poll
        .registry()
        .deregister(&mut SourceFd(&session_fifo.cmd_fifo.as_raw_fd()))?;
      // TODO: remove the FIFO file? do we care?
      self.free_tokens.push(token);
      self.cmd_fifos.remove(&token);
    }

    // only shutdown if were started with an initial session (non standalone)
    if !self.is_standalone && self.cmd_fifos.is_empty() {
      log::info!("{session_name} was the last session alive; stopping the server…");
      self.shutdown.store(true, Ordering::Relaxed);
    }

    Ok(())
  }

  /// Create a FIFO for a given session.
  fn create_session_fifo(&self, prefix: &Path, session_name: &str) -> Result<PathBuf, OhNo> {
    let cmds_dir = self.resources.runtime_dir.join(prefix);
    let cmd_fifo_path = cmds_dir.join(session_name);

    // if the file doesn’t already exist, create it
    if let Ok(false) = cmd_fifo_path.try_exists() {
      // ensure the commands directory exists
      fs::create_dir_all(cmds_dir)?;

      let path = cmd_fifo_path.as_os_str().as_bytes();
      let c_path = CString::new(path).map_err(|err| OhNo::CannotCreateFifo {
        err: err.to_string(),
      })?;

      let c_err = unsafe { libc::mkfifo(c_path.as_ptr(), 0o644) };
      if c_err != 0 {
        return Err(OhNo::CannotCreateFifo {
          err: format!("cannot create FIFO file for session {session_name}"),
        });
      }
    }

    Ok(cmd_fifo_path)
  }

  /// Open a FIFO and obtain a non-blocking [`File`].
  fn open_nonblocking_fifo(&self, path: &Path) -> Result<File, OhNo> {
    let fifo = OpenOptions::new()
      .read(true)
      .custom_flags(libc::O_NONBLOCK)
      .open(path)?;
    Ok(fifo)
  }

  /// Accept a command request on a FIFO identified by a token.
  fn accept_cmd_fifo_req(&mut self, token: Token) -> Result<(), OhNo> {
    if let Some(session_fifo) = self.cmd_fifos.get_mut(&token) {
      log::debug!("waiting for command FIFO…");
      let mut cmd = String::new();

      loop {
        match session_fifo.cmd_fifo.read_to_string(&mut cmd) {
          Err(err) if err.kind() == io::ErrorKind::WouldBlock => {
            log::error!("command FIFO is not ready");
            cmd.clear();
            continue;
          }
          x => x?,
        };

        break;
      }

      log::debug!("command FIFO read");

      let mut session = KakSession::new(&session_fifo.session_name);

      log::info!("FIFO request: {cmd}");
      let req = serde_json::from_str::<Request>(&cmd).map_err(|err| OhNo::InvalidRequest {
        req: cmd,
        err: err.to_string(),
      });

      match req {
        Ok(req) => {
          match self
            .req_handler
            .handle_request(&session, session_fifo, &req)
          {
            Ok(resp) => {
              let client = req.client_name();

              if let Err(err) = session.send_response(client, &resp) {
                log::error!("failure while sending response: {}", format!("{err}").red());
              }
            }
            Err(err) => {
              log::error!("handling request failed: {}", format!("{err}").red());
            }
          }
        }

        Err(err) => {
          log::error!("malformed request: {}", format!("{err}").red());
        }
      }
    }

    Ok(())
  }
}

/// FIFO associated with a session.
#[derive(Debug)]
pub struct SessionFifo {
  session_name: String,
  cmd_fifo: File,
  buffer_fifo_path: PathBuf,
}

impl SessionFifo {
  fn new(session_name: String, cmd_fifo: File, buffer_fifo_path: PathBuf) -> Self {
    Self {
      session_name,
      cmd_fifo,
      buffer_fifo_path,
    }
  }

  pub fn buffer_fifo_path(&self) -> &Path {
    &self.buffer_fifo_path
  }
}