console.log("window is", globalThis.window); console.log("Deno.Buffer is", Deno.Buffer); console.log("Deno.close is", Deno.close); console.log("Deno.copy is", Deno.copy); console.log("Deno.File is", Deno.File); console.log("Deno.fstat is", Deno.fstat); console.log("Deno.fstatSync is", Deno.fstatSync); console.log("Deno.ftruncate is", Deno.ftruncate); console.log("Deno.ftruncateSync is", Deno.ftruncateSync); console.log("Deno.flock is", Deno.flock); console.log("Deno.flockSync is", Deno.flockSync); console.log( "Deno.FsFile.prototype.rid is", Deno.openSync(import.meta.filename).rid, ); console.log("Deno.funlock is", Deno.funlock); console.log("Deno.funlockSync is", Deno.funlockSync); console.log("Deno.iter is", Deno.iter); console.log("Deno.iterSync is", Deno.iterSync); console.log("Deno.metrics is", Deno.metrics); console.log("Deno.readAll is", Deno.readAll); console.log("Deno.readAllSync is", Deno.readAllSync); console.log("Deno.read is", Deno.read); console.log("Deno.readSync is", Deno.readSync); console.log("Deno.resources is", Deno.resources); console.log("Deno.seek is", Deno.seek); console.log("Deno.seekSync is", Deno.seekSync); console.log("Deno.shutdown is", Deno.shutdown); console.log("Deno.writeAll is", Deno.writeAll); console.log("Deno.writeAllSync is", Deno.writeAllSync); console.log("Deno.write is", Deno.write); console.log("Deno.writeSync is", Deno.writeSync); // TCP // Since these tests may run in parallel, ensure this port is unique to this file const tcpPort = 4509; const tcpListener = Deno.listen({ port: tcpPort }); console.log("Deno.Listener.prototype.rid is", tcpListener.rid); const tcpConn = await Deno.connect({ port: tcpPort }); console.log("Deno.Conn.prototype.rid is", tcpConn.rid); tcpConn.close(); tcpListener.close(); // Unix if (Deno.build.os === "windows") { console.log("Deno.UnixConn.prototype.rid is undefined"); } else { const socketPath = "./test.sock"; const unixListener = Deno.listen({ transport: "unix", path: socketPath }); const unixConn = await Deno.connect({ transport: "unix", path: socketPath }); console.log("Deno.UnixConn.prototype.rid is", unixConn.rid); unixConn.close(); unixListener.close(); Deno.removeSync(socketPath); } // TLS // Since these tests may run in parallel, ensure this port is unique to this file const tlsPort = 4510; const cert = Deno.readTextFileSync("../../../testdata/tls/localhost.crt"); const key = Deno.readTextFileSync("../../../testdata/tls/localhost.key"); const tlsListener = Deno.listenTls({ port: tlsPort, cert, key }); console.log("Deno.TlsListener.prototype.rid is", tlsListener.rid); const tlsConn = await Deno.connectTls({ port: tlsPort }); console.log("Deno.TlsConn.prototype.rid is", tlsConn.rid); tlsConn.close(); tlsListener.close(); const watcher = Deno.watchFs("."); console.log("Deno.FsWatcher.prototype.rid is", watcher.rid); watcher.close(); try { new Deno.FsFile(0); } catch (error) { if ( error instanceof TypeError && error.message === "`Deno.FsFile` cannot be constructed, use `Deno.open()` or `Deno.openSync()` instead." ) { console.log("Deno.FsFile constructor is illegal"); } } self.close();