use crate::server::utils::{get_free_port, wait_for_port}; use mktemp::Temp; use std::io::{self, Cursor, Read}; use std::process::{Child, Stdio}; use thiserror::Error; use zip::{result::ZipError, ZipArchive}; #[derive(Debug, Error)] pub enum Error { #[error("Grammalecte-server failed to launch process")] StartServerProcess(#[source] io::Error), #[error("Get an available port failed")] GetFreePort(#[source] io::Error), #[error("Port {port} did not open in time!")] WaitPortOpen { port: u16 }, #[error("Create temporary directory failed")] CreateTempDir(#[source] io::Error), #[error("Zip archive loading failed")] ZipArchiveLoading(#[source] ZipError), #[error("Access file by index failed")] ZipFileIndex(#[source] ZipError), #[error("Create directory for files from zip")] CreateDirectoryForZipFile(#[source] io::Error), #[error("Read file from zip archive")] ZipFileReadToEnd(#[source] io::Error), #[error("Write file from archive on disk")] WriteFile(#[source] io::Error), } pub struct EmbeddedServer { _srv_dir: Temp, port: u16, child: Child, } impl EmbeddedServer { /// Start embedded Grammalecte server on a random free port pub fn start() -> Result { Self::start_listen_on_port(get_free_port()) } /// Start embedded Grammalecte server on a given port pub fn start_listen_on_port(port: u16) -> Result { log::info!("Will start server"); // First, unpack server let dest = mktemp::Temp::new_dir().map_err(Error::CreateTempDir)?; let cursor = Cursor::new(include_bytes!("GrammalecteDist.zip")); let mut zip = ZipArchive::new(cursor).map_err(Error::ZipArchiveLoading)?; for i in 0..zip.len() { let mut file = zip.by_index(i).map_err(Error::ZipFileIndex)?; if file.is_dir() { log::debug!("Create directory: {}", file.name()); std::fs::create_dir_all(dest.join(file.name())) .map_err(Error::CreateDirectoryForZipFile)?; } else { log::debug!("Decompress file: {}", file.name()); let mut buff = Vec::with_capacity(file.size() as usize); file.read_to_end(&mut buff) .map_err(Error::ZipFileReadToEnd)?; std::fs::write(dest.join(file.name()), buff).map_err(Error::WriteFile)?; } } log::info!("Will start to listen on port {}", port); let server_file = dest .join("grammalecte/grammalecte-server.py") .to_string_lossy() .to_string(); log::info!("Will execute file {}", server_file); // Start server let child = std::process::Command::new("/usr/bin/python3") .arg(server_file) .arg("-p") .arg(port.to_string()) .stdout(Stdio::null()) .stderr(Stdio::null()) .spawn() .map_err(Error::StartServerProcess)?; wait_for_port(port)?; Ok(Self { _srv_dir: dest, port, child, }) } /// Get embedde instance base URL pub fn base_url(&self) -> String { format!("http://localhost:{}", self.port) } } impl Drop for EmbeddedServer { fn drop(&mut self) { let _ = self.child.kill(); } } mod utils { use std::time::Duration; use super::Error; /// Get a free port pub fn get_free_port() -> u16 { let mut port = 0; while !(2000..=64000).contains(&port) { port = rand::random::() % 64000; } while port_scanner::scan_port(port) { port += 1; } port } pub fn wait_for_port(port: u16) -> Result<(), Error> { for _ in 0..50 { if port_scanner::scan_port(port) { return Ok(()); } std::thread::sleep(Duration::from_millis(100)); } Err(Error::WaitPortOpen { port }) } }