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denoland-deno/runtime/ops/io.rs
2021-05-02 19:22:57 -04:00

657 lines
17 KiB
Rust

// Copyright 2018-2021 the Deno authors. All rights reserved. MIT license.
use deno_core::error::null_opbuf;
use deno_core::error::resource_unavailable;
use deno_core::error::AnyError;
use deno_core::error::{bad_resource_id, not_supported};
use deno_core::op_async;
use deno_core::op_sync;
use deno_core::AsyncMutFuture;
use deno_core::AsyncRefCell;
use deno_core::CancelHandle;
use deno_core::CancelTryFuture;
use deno_core::Extension;
use deno_core::OpState;
use deno_core::RcRef;
use deno_core::Resource;
use deno_core::ResourceId;
use deno_core::ZeroCopyBuf;
use std::borrow::Cow;
use std::cell::RefCell;
use std::io::Read;
use std::io::Write;
use std::rc::Rc;
use tokio::io::split;
use tokio::io::AsyncRead;
use tokio::io::AsyncReadExt;
use tokio::io::AsyncWrite;
use tokio::io::AsyncWriteExt;
use tokio::io::ReadHalf;
use tokio::io::WriteHalf;
use tokio::net::tcp;
use tokio::net::TcpStream;
use tokio::process;
use tokio_rustls as tls;
#[cfg(unix)]
use std::os::unix::io::FromRawFd;
#[cfg(unix)]
use tokio::net::unix;
#[cfg(windows)]
use std::os::windows::io::FromRawHandle;
lazy_static::lazy_static! {
/// Due to portability issues on Windows handle to stdout is created from raw
/// file descriptor. The caveat of that approach is fact that when this
/// handle is dropped underlying file descriptor is closed - that is highly
/// not desirable in case of stdout. That's why we store this global handle
/// that is then cloned when obtaining stdio for process. In turn when
/// resource table is dropped storing reference to that handle, the handle
/// itself won't be closed (so Deno.core.print) will still work.
// TODO(ry) It should be possible to close stdout.
static ref STDIN_HANDLE: Option<std::fs::File> = {
#[cfg(not(windows))]
let stdin = unsafe { Some(std::fs::File::from_raw_fd(0)) };
#[cfg(windows)]
let stdin = unsafe {
let handle = winapi::um::processenv::GetStdHandle(
winapi::um::winbase::STD_INPUT_HANDLE,
);
if handle.is_null() {
return None;
}
Some(std::fs::File::from_raw_handle(handle))
};
stdin
};
static ref STDOUT_HANDLE: Option<std::fs::File> = {
#[cfg(not(windows))]
let stdout = unsafe { Some(std::fs::File::from_raw_fd(1)) };
#[cfg(windows)]
let stdout = unsafe {
let handle = winapi::um::processenv::GetStdHandle(
winapi::um::winbase::STD_OUTPUT_HANDLE,
);
if handle.is_null() {
return None;
}
Some(std::fs::File::from_raw_handle(handle))
};
stdout
};
static ref STDERR_HANDLE: Option<std::fs::File> = {
#[cfg(not(windows))]
let stderr = unsafe { Some(std::fs::File::from_raw_fd(2)) };
#[cfg(windows)]
let stderr = unsafe {
let handle = winapi::um::processenv::GetStdHandle(
winapi::um::winbase::STD_ERROR_HANDLE,
);
if handle.is_null() {
return None;
}
Some(std::fs::File::from_raw_handle(handle))
};
stderr
};
}
pub fn init() -> Extension {
Extension::builder()
.ops(vec![
("op_read_async", op_async(op_read_async)),
("op_write_async", op_async(op_write_async)),
("op_read_sync", op_sync(op_read_sync)),
("op_write_sync", op_sync(op_write_sync)),
("op_shutdown", op_async(op_shutdown)),
])
.build()
}
pub fn init_stdio() -> Extension {
Extension::builder()
.state(|state| {
let t = &mut state.resource_table;
let (stdin, stdout, stderr) = get_stdio();
if let Some(stream) = stdin {
t.add(stream);
}
if let Some(stream) = stdout {
t.add(stream);
}
if let Some(stream) = stderr {
t.add(stream);
}
Ok(())
})
.build()
}
pub fn get_stdio() -> (
Option<StdFileResource>,
Option<StdFileResource>,
Option<StdFileResource>,
) {
let stdin = get_stdio_stream(&STDIN_HANDLE, "stdin");
let stdout = get_stdio_stream(&STDOUT_HANDLE, "stdout");
let stderr = get_stdio_stream(&STDERR_HANDLE, "stderr");
(stdin, stdout, stderr)
}
fn get_stdio_stream(
handle: &Option<std::fs::File>,
name: &str,
) -> Option<StdFileResource> {
match handle {
None => None,
Some(file_handle) => match file_handle.try_clone() {
Ok(clone) => {
let tokio_file = tokio::fs::File::from_std(clone);
Some(StdFileResource::stdio(tokio_file, name))
}
Err(_e) => None,
},
}
}
#[cfg(unix)]
use nix::sys::termios;
#[derive(Default)]
pub struct TtyMetadata {
#[cfg(unix)]
pub mode: Option<termios::Termios>,
}
#[derive(Default)]
pub struct FileMetadata {
pub tty: TtyMetadata,
}
#[derive(Debug)]
pub struct WriteOnlyResource<S> {
stream: AsyncRefCell<S>,
}
impl<S: 'static> From<S> for WriteOnlyResource<S> {
fn from(stream: S) -> Self {
Self {
stream: stream.into(),
}
}
}
impl<S> WriteOnlyResource<S>
where
S: AsyncWrite + Unpin + 'static,
{
pub fn borrow_mut(self: &Rc<Self>) -> AsyncMutFuture<S> {
RcRef::map(self, |r| &r.stream).borrow_mut()
}
async fn write(self: &Rc<Self>, buf: &[u8]) -> Result<usize, AnyError> {
let mut stream = self.borrow_mut().await;
let nwritten = stream.write(buf).await?;
Ok(nwritten)
}
async fn shutdown(self: &Rc<Self>) -> Result<(), AnyError> {
let mut stream = self.borrow_mut().await;
stream.shutdown().await?;
Ok(())
}
}
#[derive(Debug)]
pub struct ReadOnlyResource<S> {
stream: AsyncRefCell<S>,
cancel_handle: CancelHandle,
}
impl<S: 'static> From<S> for ReadOnlyResource<S> {
fn from(stream: S) -> Self {
Self {
stream: stream.into(),
cancel_handle: Default::default(),
}
}
}
impl<S> ReadOnlyResource<S>
where
S: AsyncRead + Unpin + 'static,
{
pub fn borrow_mut(self: &Rc<Self>) -> AsyncMutFuture<S> {
RcRef::map(self, |r| &r.stream).borrow_mut()
}
pub fn cancel_handle(self: &Rc<Self>) -> RcRef<CancelHandle> {
RcRef::map(self, |r| &r.cancel_handle)
}
pub fn cancel_read_ops(&self) {
self.cancel_handle.cancel()
}
async fn read(self: &Rc<Self>, buf: &mut [u8]) -> Result<usize, AnyError> {
let mut rd = self.borrow_mut().await;
let nread = rd.read(buf).try_or_cancel(self.cancel_handle()).await?;
Ok(nread)
}
}
/// A full duplex resource has a read and write ends that are completely
/// independent, like TCP/Unix sockets and TLS streams.
#[derive(Debug)]
pub struct FullDuplexResource<R, W> {
rd: AsyncRefCell<R>,
wr: AsyncRefCell<W>,
// When a full-duplex resource is closed, all pending 'read' ops are
// canceled, while 'write' ops are allowed to complete. Therefore only
// 'read' futures should be attached to this cancel handle.
cancel_handle: CancelHandle,
}
impl<R, W> FullDuplexResource<R, W>
where
R: AsyncRead + Unpin + 'static,
W: AsyncWrite + Unpin + 'static,
{
pub fn new((rd, wr): (R, W)) -> Self {
Self {
rd: rd.into(),
wr: wr.into(),
cancel_handle: Default::default(),
}
}
pub fn into_inner(self) -> (R, W) {
(self.rd.into_inner(), self.wr.into_inner())
}
pub fn rd_borrow_mut(self: &Rc<Self>) -> AsyncMutFuture<R> {
RcRef::map(self, |r| &r.rd).borrow_mut()
}
pub fn wr_borrow_mut(self: &Rc<Self>) -> AsyncMutFuture<W> {
RcRef::map(self, |r| &r.wr).borrow_mut()
}
pub fn cancel_handle(self: &Rc<Self>) -> RcRef<CancelHandle> {
RcRef::map(self, |r| &r.cancel_handle)
}
pub fn cancel_read_ops(&self) {
self.cancel_handle.cancel()
}
async fn read(self: &Rc<Self>, buf: &mut [u8]) -> Result<usize, AnyError> {
let mut rd = self.rd_borrow_mut().await;
let nread = rd.read(buf).try_or_cancel(self.cancel_handle()).await?;
Ok(nread)
}
async fn write(self: &Rc<Self>, buf: &[u8]) -> Result<usize, AnyError> {
let mut wr = self.wr_borrow_mut().await;
let nwritten = wr.write(buf).await?;
Ok(nwritten)
}
async fn shutdown(self: &Rc<Self>) -> Result<(), AnyError> {
let mut wr = self.wr_borrow_mut().await;
wr.shutdown().await?;
Ok(())
}
}
pub type FullDuplexSplitResource<S> =
FullDuplexResource<ReadHalf<S>, WriteHalf<S>>;
impl<S> From<S> for FullDuplexSplitResource<S>
where
S: AsyncRead + AsyncWrite + 'static,
{
fn from(stream: S) -> Self {
Self::new(split(stream))
}
}
pub type ChildStdinResource = WriteOnlyResource<process::ChildStdin>;
impl Resource for ChildStdinResource {
fn name(&self) -> Cow<str> {
"childStdin".into()
}
}
pub type ChildStdoutResource = ReadOnlyResource<process::ChildStdout>;
impl Resource for ChildStdoutResource {
fn name(&self) -> Cow<str> {
"childStdout".into()
}
fn close(self: Rc<Self>) {
self.cancel_read_ops();
}
}
pub type ChildStderrResource = ReadOnlyResource<process::ChildStderr>;
impl Resource for ChildStderrResource {
fn name(&self) -> Cow<str> {
"childStderr".into()
}
fn close(self: Rc<Self>) {
self.cancel_read_ops();
}
}
pub type TcpStreamResource =
FullDuplexResource<tcp::OwnedReadHalf, tcp::OwnedWriteHalf>;
impl Resource for TcpStreamResource {
fn name(&self) -> Cow<str> {
"tcpStream".into()
}
fn close(self: Rc<Self>) {
self.cancel_read_ops();
}
}
pub type TlsClientStreamResource =
FullDuplexSplitResource<tls::client::TlsStream<TcpStream>>;
impl Resource for TlsClientStreamResource {
fn name(&self) -> Cow<str> {
"tlsClientStream".into()
}
fn close(self: Rc<Self>) {
self.cancel_read_ops();
}
}
pub type TlsServerStreamResource =
FullDuplexSplitResource<tls::server::TlsStream<TcpStream>>;
impl Resource for TlsServerStreamResource {
fn name(&self) -> Cow<str> {
"tlsServerStream".into()
}
fn close(self: Rc<Self>) {
self.cancel_read_ops();
}
}
#[cfg(unix)]
pub type UnixStreamResource =
FullDuplexResource<unix::OwnedReadHalf, unix::OwnedWriteHalf>;
#[cfg(not(unix))]
struct UnixStreamResource;
#[cfg(not(unix))]
impl UnixStreamResource {
async fn read(self: &Rc<Self>, _buf: &mut [u8]) -> Result<usize, AnyError> {
unreachable!()
}
async fn write(self: &Rc<Self>, _buf: &[u8]) -> Result<usize, AnyError> {
unreachable!()
}
async fn shutdown(self: &Rc<Self>) -> Result<(), AnyError> {
unreachable!()
}
fn cancel_read_ops(&self) {
unreachable!()
}
}
impl Resource for UnixStreamResource {
fn name(&self) -> Cow<str> {
"unixStream".into()
}
fn close(self: Rc<Self>) {
self.cancel_read_ops();
}
}
#[derive(Debug, Default)]
pub struct StdFileResource {
pub fs_file:
Option<AsyncRefCell<(Option<tokio::fs::File>, Option<FileMetadata>)>>,
cancel: CancelHandle,
name: String,
}
impl StdFileResource {
pub fn stdio(fs_file: tokio::fs::File, name: &str) -> Self {
Self {
fs_file: Some(AsyncRefCell::new((
Some(fs_file),
Some(FileMetadata::default()),
))),
name: name.to_string(),
..Default::default()
}
}
pub fn fs_file(fs_file: tokio::fs::File) -> Self {
Self {
fs_file: Some(AsyncRefCell::new((
Some(fs_file),
Some(FileMetadata::default()),
))),
name: "fsFile".to_string(),
..Default::default()
}
}
async fn read(self: &Rc<Self>, buf: &mut [u8]) -> Result<usize, AnyError> {
if self.fs_file.is_some() {
let mut fs_file = RcRef::map(&*self, |r| r.fs_file.as_ref().unwrap())
.borrow_mut()
.await;
let nwritten = fs_file.0.as_mut().unwrap().read(buf).await?;
return Ok(nwritten);
} else {
Err(resource_unavailable())
}
}
async fn write(self: &Rc<Self>, buf: &[u8]) -> Result<usize, AnyError> {
if self.fs_file.is_some() {
let mut fs_file = RcRef::map(&*self, |r| r.fs_file.as_ref().unwrap())
.borrow_mut()
.await;
let nwritten = fs_file.0.as_mut().unwrap().write(buf).await?;
fs_file.0.as_mut().unwrap().flush().await?;
return Ok(nwritten);
} else {
Err(resource_unavailable())
}
}
pub fn with<F, R>(
state: &mut OpState,
rid: ResourceId,
mut f: F,
) -> Result<R, AnyError>
where
F: FnMut(Result<&mut std::fs::File, ()>) -> Result<R, AnyError>,
{
// First we look up the rid in the resource table.
let resource = state
.resource_table
.get::<StdFileResource>(rid)
.ok_or_else(bad_resource_id)?;
// Sync write only works for FsFile. It doesn't make sense to do this
// for non-blocking sockets. So we error out if not FsFile.
if resource.fs_file.is_none() {
return f(Err(()));
}
// The object in the resource table is a tokio::fs::File - but in
// order to do a blocking write on it, we must turn it into a
// std::fs::File. Hopefully this code compiles down to nothing.
let fs_file_resource =
RcRef::map(&resource, |r| r.fs_file.as_ref().unwrap()).try_borrow_mut();
if let Some(mut fs_file) = fs_file_resource {
let tokio_file = fs_file.0.take().unwrap();
match tokio_file.try_into_std() {
Ok(mut std_file) => {
let result = f(Ok(&mut std_file));
// Turn the std_file handle back into a tokio file, put it back
// in the resource table.
let tokio_file = tokio::fs::File::from_std(std_file);
fs_file.0 = Some(tokio_file);
// return the result.
result
}
Err(tokio_file) => {
// This function will return an error containing the file if
// some operation is in-flight.
fs_file.0 = Some(tokio_file);
Err(resource_unavailable())
}
}
} else {
Err(resource_unavailable())
}
}
}
impl Resource for StdFileResource {
fn name(&self) -> Cow<str> {
self.name.as_str().into()
}
fn close(self: Rc<Self>) {
// TODO: do not cancel file I/O when file is writable.
self.cancel.cancel()
}
}
fn op_read_sync(
state: &mut OpState,
rid: ResourceId,
buf: Option<ZeroCopyBuf>,
) -> Result<u32, AnyError> {
let mut buf = buf.ok_or_else(null_opbuf)?;
StdFileResource::with(state, rid, move |r| match r {
Ok(std_file) => std_file
.read(&mut buf)
.map(|n: usize| n as u32)
.map_err(AnyError::from),
Err(_) => Err(not_supported()),
})
}
async fn op_read_async(
state: Rc<RefCell<OpState>>,
rid: ResourceId,
buf: Option<ZeroCopyBuf>,
) -> Result<u32, AnyError> {
let buf = &mut buf.ok_or_else(null_opbuf)?;
let resource = state
.borrow()
.resource_table
.get_any(rid)
.ok_or_else(bad_resource_id)?;
let nread = if let Some(s) = resource.downcast_rc::<ChildStdoutResource>() {
s.read(buf).await?
} else if let Some(s) = resource.downcast_rc::<ChildStderrResource>() {
s.read(buf).await?
} else if let Some(s) = resource.downcast_rc::<TcpStreamResource>() {
s.read(buf).await?
} else if let Some(s) = resource.downcast_rc::<TlsClientStreamResource>() {
s.read(buf).await?
} else if let Some(s) = resource.downcast_rc::<TlsServerStreamResource>() {
s.read(buf).await?
} else if let Some(s) = resource.downcast_rc::<UnixStreamResource>() {
s.read(buf).await?
} else if let Some(s) = resource.downcast_rc::<StdFileResource>() {
s.read(buf).await?
} else {
return Err(not_supported());
};
Ok(nread as u32)
}
fn op_write_sync(
state: &mut OpState,
rid: ResourceId,
buf: Option<ZeroCopyBuf>,
) -> Result<u32, AnyError> {
let buf = buf.ok_or_else(null_opbuf)?;
StdFileResource::with(state, rid, move |r| match r {
Ok(std_file) => std_file
.write(&buf)
.map(|nwritten: usize| nwritten as u32)
.map_err(AnyError::from),
Err(_) => Err(not_supported()),
})
}
async fn op_write_async(
state: Rc<RefCell<OpState>>,
rid: ResourceId,
buf: Option<ZeroCopyBuf>,
) -> Result<u32, AnyError> {
let buf = &buf.ok_or_else(null_opbuf)?;
let resource = state
.borrow()
.resource_table
.get_any(rid)
.ok_or_else(bad_resource_id)?;
let nwritten = if let Some(s) = resource.downcast_rc::<ChildStdinResource>() {
s.write(buf).await?
} else if let Some(s) = resource.downcast_rc::<TcpStreamResource>() {
s.write(buf).await?
} else if let Some(s) = resource.downcast_rc::<TlsClientStreamResource>() {
s.write(buf).await?
} else if let Some(s) = resource.downcast_rc::<TlsServerStreamResource>() {
s.write(buf).await?
} else if let Some(s) = resource.downcast_rc::<UnixStreamResource>() {
s.write(buf).await?
} else if let Some(s) = resource.downcast_rc::<StdFileResource>() {
s.write(buf).await?
} else {
return Err(not_supported());
};
Ok(nwritten as u32)
}
async fn op_shutdown(
state: Rc<RefCell<OpState>>,
rid: ResourceId,
_zero_copy: Option<ZeroCopyBuf>,
) -> Result<(), AnyError> {
let resource = state
.borrow()
.resource_table
.get_any(rid)
.ok_or_else(bad_resource_id)?;
if let Some(s) = resource.downcast_rc::<ChildStdinResource>() {
s.shutdown().await?;
} else if let Some(s) = resource.downcast_rc::<TcpStreamResource>() {
s.shutdown().await?;
} else if let Some(s) = resource.downcast_rc::<TlsClientStreamResource>() {
s.shutdown().await?;
} else if let Some(s) = resource.downcast_rc::<TlsServerStreamResource>() {
s.shutdown().await?;
} else if let Some(s) = resource.downcast_rc::<UnixStreamResource>() {
s.shutdown().await?;
} else {
return Err(not_supported());
}
Ok(())
}