#[macro_use] extern crate derive_deref; #[macro_use] extern crate log; use deno_core::CoreIsolate; use deno_core::CoreIsolateState; use deno_core::Op; use deno_core::ResourceTable; use deno_core::Script; use deno_core::StartupData; use deno_core::ZeroCopyBuf; use futures::future::poll_fn; use futures::prelude::*; use futures::task::Context; use futures::task::Poll; use std::cell::RefCell; use std::convert::TryInto; use std::env; use std::fmt::Debug; use std::io::Error; use std::io::ErrorKind; use std::mem::size_of; use std::net::SocketAddr; use std::pin::Pin; use std::ptr; use std::rc::Rc; use tokio::io::AsyncRead; use tokio::io::AsyncWrite; use tokio::net::TcpListener; use tokio::net::TcpStream; struct Logger; impl log::Log for Logger { fn enabled(&self, metadata: &log::Metadata) -> bool { metadata.level() <= log::max_level() } fn log(&self, record: &log::Record) { if self.enabled(record.metadata()) { println!("{} - {}", record.level(), record.args()); } } fn flush(&self) {} } #[derive(Copy, Clone, Debug, PartialEq)] struct Record { pub promise_id: u32, pub rid: u32, pub result: i32, } type RecordBuf = [u8; size_of::()]; impl From<&[u8]> for Record { fn from(buf: &[u8]) -> Self { assert_eq!(buf.len(), size_of::()); unsafe { *(buf as *const _ as *const RecordBuf) }.into() } } impl From for Record { fn from(buf: RecordBuf) -> Self { unsafe { #[allow(clippy::cast_ptr_alignment)] ptr::read_unaligned(&buf as *const _ as *const Self) } } } impl From for RecordBuf { fn from(record: Record) -> Self { unsafe { ptr::read(&record as *const _ as *const Self) } } } struct Isolate { core_isolate: CoreIsolate, state: State, } #[derive(Clone, Default, Deref)] struct State(Rc>); #[derive(Default)] struct StateInner { resource_table: ResourceTable, } impl Isolate { pub fn new() -> Self { let startup_data = StartupData::Script(Script { source: include_str!("http_bench.js"), filename: "http_bench.js", }); let mut isolate = Self { core_isolate: CoreIsolate::new(startup_data, false), state: Default::default(), }; isolate.register_sync_op("listen", op_listen); isolate.register_op("accept", op_accept); isolate.register_op("read", op_read); isolate.register_op("write", op_write); isolate.register_sync_op("close", op_close); isolate } fn register_sync_op(&mut self, name: &'static str, handler: F) where F: 'static + Fn(State, u32, &mut [ZeroCopyBuf]) -> Result, { let state = self.state.clone(); let core_handler = move |_isolate_state: &mut CoreIsolateState, zero_copy_bufs: &mut [ZeroCopyBuf]| -> Op { assert!(!zero_copy_bufs.is_empty()); let state = state.clone(); let record = Record::from(zero_copy_bufs[0].as_ref()); let is_sync = record.promise_id == 0; assert!(is_sync); let result: i32 = match handler(state, record.rid, &mut zero_copy_bufs[1..]) { Ok(r) => r as i32, Err(_) => -1, }; let buf = RecordBuf::from(Record { result, ..record })[..].into(); Op::Sync(buf) }; self.core_isolate.register_op(name, core_handler); } fn register_op( &mut self, name: &'static str, handler: impl Fn(State, u32, &mut [ZeroCopyBuf]) -> F + Copy + 'static, ) where F: TryFuture, F::Ok: TryInto, >::Error: Debug, { let state = self.state.clone(); let core_handler = move |_isolate_state: &mut CoreIsolateState, zero_copy_bufs: &mut [ZeroCopyBuf]| -> Op { assert!(!zero_copy_bufs.is_empty()); let state = state.clone(); let record = Record::from(zero_copy_bufs[0].as_ref()); let is_sync = record.promise_id == 0; assert!(!is_sync); let mut zero_copy = zero_copy_bufs[1..].to_vec(); let fut = async move { let op = handler(state, record.rid, &mut zero_copy); let result = op .map_ok(|r| r.try_into().expect("op result does not fit in i32")) .unwrap_or_else(|_| -1) .await; RecordBuf::from(Record { result, ..record })[..].into() }; Op::Async(fut.boxed_local()) }; self.core_isolate.register_op(name, core_handler); } } impl Future for Isolate { type Output = ::Output; fn poll(mut self: Pin<&mut Self>, cx: &mut Context) -> Poll { self.core_isolate.poll_unpin(cx) } } fn op_close( state: State, rid: u32, _buf: &mut [ZeroCopyBuf], ) -> Result { debug!("close rid={}", rid); let resource_table = &mut state.borrow_mut().resource_table; resource_table .close(rid) .map(|_| 0) .ok_or_else(bad_resource) } fn op_listen( state: State, _rid: u32, _buf: &mut [ZeroCopyBuf], ) -> Result { debug!("listen"); let addr = "127.0.0.1:4544".parse::().unwrap(); let std_listener = std::net::TcpListener::bind(&addr)?; let listener = TcpListener::from_std(std_listener)?; let resource_table = &mut state.borrow_mut().resource_table; let rid = resource_table.add("tcpListener", Box::new(listener)); Ok(rid) } fn op_accept( state: State, rid: u32, _buf: &mut [ZeroCopyBuf], ) -> impl TryFuture { debug!("accept rid={}", rid); poll_fn(move |cx| { let resource_table = &mut state.borrow_mut().resource_table; let listener = resource_table .get_mut::(rid) .ok_or_else(bad_resource)?; listener.poll_accept(cx).map_ok(|(stream, _addr)| { resource_table.add("tcpStream", Box::new(stream)) }) }) } fn op_read( state: State, rid: u32, bufs: &mut [ZeroCopyBuf], ) -> impl TryFuture { assert_eq!(bufs.len(), 1, "Invalid number of arguments"); let mut buf = bufs[0].clone(); debug!("read rid={}", rid); poll_fn(move |cx| { let resource_table = &mut state.borrow_mut().resource_table; let stream = resource_table .get_mut::(rid) .ok_or_else(bad_resource)?; Pin::new(stream).poll_read(cx, &mut buf) }) } fn op_write( state: State, rid: u32, bufs: &mut [ZeroCopyBuf], ) -> impl TryFuture { assert_eq!(bufs.len(), 1, "Invalid number of arguments"); let buf = bufs[0].clone(); debug!("write rid={}", rid); poll_fn(move |cx| { let resource_table = &mut state.borrow_mut().resource_table; let stream = resource_table .get_mut::(rid) .ok_or_else(bad_resource)?; Pin::new(stream).poll_write(cx, &buf) }) } fn bad_resource() -> Error { Error::new(ErrorKind::NotFound, "bad resource id") } fn main() { log::set_logger(&Logger).unwrap(); log::set_max_level( env::args() .find(|a| a == "-D") .map(|_| log::LevelFilter::Debug) .unwrap_or(log::LevelFilter::Warn), ); // NOTE: `--help` arg will display V8 help and exit deno_core::v8_set_flags(env::args().collect()); let isolate = Isolate::new(); let mut runtime = tokio::runtime::Builder::new() .basic_scheduler() .enable_all() .build() .unwrap(); runtime.block_on(isolate).expect("unexpected isolate error"); } #[test] fn test_record_from() { let expected = Record { promise_id: 1, rid: 3, result: 4, }; let buf = RecordBuf::from(expected); if cfg!(target_endian = "little") { assert_eq!(buf, [1u8, 0, 0, 0, 3, 0, 0, 0, 4, 0, 0, 0]); } let actual = Record::from(buf); assert_eq!(actual, expected); }