mirror of
https://github.com/denoland/deno
synced 2024-11-05 18:45:24 +00:00
495 lines
15 KiB
Rust
495 lines
15 KiB
Rust
// Copyright 2018-2019 the Deno authors. All rights reserved. MIT license.
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// Think of Resources as File Descriptors. They are integers that are allocated
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// by the privileged side of Deno to refer to various resources. The simplest
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// example are standard file system files and stdio - but there will be other
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// resources added in the future that might not correspond to operating system
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// level File Descriptors. To avoid confusion we call them "resources" not "file
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// descriptors". This module implements a global resource table. Ops (AKA
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// handlers) look up resources by their integer id here.
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use crate::errors;
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use crate::errors::bad_resource;
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use crate::errors::DenoError;
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use crate::errors::DenoResult;
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use crate::http_body::HttpBody;
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use crate::isolate_state::WorkerChannels;
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use crate::repl::Repl;
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use deno::Buf;
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use futures;
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use futures::Future;
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use futures::Poll;
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use futures::Sink;
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use futures::Stream;
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use hyper;
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use std;
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use std::collections::HashMap;
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use std::io::{Error, Read, Seek, SeekFrom, Write};
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use std::net::{Shutdown, SocketAddr};
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use std::process::ExitStatus;
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use std::sync::atomic::AtomicUsize;
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use std::sync::atomic::Ordering;
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use std::sync::{Arc, Mutex};
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use tokio;
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use tokio::io::{AsyncRead, AsyncWrite};
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use tokio::net::TcpStream;
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use tokio_process;
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pub type ResourceId = u32; // Sometimes referred to RID.
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// These store Deno's file descriptors. These are not necessarily the operating
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// system ones.
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type ResourceTable = HashMap<ResourceId, Repr>;
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#[cfg(not(windows))]
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use std::os::unix::io::FromRawFd;
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#[cfg(windows)]
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use std::os::windows::io::FromRawHandle;
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#[cfg(windows)]
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extern crate winapi;
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lazy_static! {
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// Starts at 3 because stdio is [0-2].
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static ref NEXT_RID: AtomicUsize = AtomicUsize::new(3);
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static ref RESOURCE_TABLE: Mutex<ResourceTable> = Mutex::new({
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let mut m = HashMap::new();
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// TODO Load these lazily during lookup?
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m.insert(0, Repr::Stdin(tokio::io::stdin()));
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m.insert(1, Repr::Stdout({
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#[cfg(not(windows))]
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let stdout = unsafe { std::fs::File::from_raw_fd(1) };
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#[cfg(windows)]
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let stdout = unsafe {
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std::fs::File::from_raw_handle(winapi::um::processenv::GetStdHandle(
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winapi::um::winbase::STD_OUTPUT_HANDLE))
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};
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tokio::fs::File::from_std(stdout)
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}));
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m.insert(2, Repr::Stderr(tokio::io::stderr()));
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m
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});
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}
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// Internal representation of Resource.
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enum Repr {
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Stdin(tokio::io::Stdin),
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Stdout(tokio::fs::File),
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Stderr(tokio::io::Stderr),
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FsFile(tokio::fs::File),
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// Since TcpListener might be closed while there is a pending accept task,
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// we need to track the task so that when the listener is closed,
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// this pending task could be notified and die.
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// Currently TcpListener itself does not take care of this issue.
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// See: https://github.com/tokio-rs/tokio/issues/846
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TcpListener(tokio::net::TcpListener, Option<futures::task::Task>),
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TcpStream(tokio::net::TcpStream),
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HttpBody(HttpBody),
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Repl(Arc<Mutex<Repl>>),
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// Enum size is bounded by the largest variant.
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// Use `Box` around large `Child` struct.
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// https://rust-lang.github.io/rust-clippy/master/index.html#large_enum_variant
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Child(Box<tokio_process::Child>),
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ChildStdin(tokio_process::ChildStdin),
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ChildStdout(tokio_process::ChildStdout),
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ChildStderr(tokio_process::ChildStderr),
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Worker(WorkerChannels),
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}
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/// If the given rid is open, this returns the type of resource, E.G. "worker".
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/// If the rid is closed or was never open, it returns None.
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pub fn get_type(rid: ResourceId) -> Option<String> {
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let table = RESOURCE_TABLE.lock().unwrap();
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table.get(&rid).map(inspect_repr)
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}
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pub fn table_entries() -> Vec<(u32, String)> {
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let table = RESOURCE_TABLE.lock().unwrap();
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table
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.iter()
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.map(|(key, value)| (*key, inspect_repr(&value)))
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.collect()
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}
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#[test]
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fn test_table_entries() {
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let mut entries = table_entries();
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entries.sort();
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assert_eq!(entries[0], (0, String::from("stdin")));
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assert_eq!(entries[1], (1, String::from("stdout")));
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assert_eq!(entries[2], (2, String::from("stderr")));
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}
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fn inspect_repr(repr: &Repr) -> String {
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let h_repr = match repr {
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Repr::Stdin(_) => "stdin",
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Repr::Stdout(_) => "stdout",
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Repr::Stderr(_) => "stderr",
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Repr::FsFile(_) => "fsFile",
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Repr::TcpListener(_, _) => "tcpListener",
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Repr::TcpStream(_) => "tcpStream",
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Repr::HttpBody(_) => "httpBody",
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Repr::Repl(_) => "repl",
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Repr::Child(_) => "child",
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Repr::ChildStdin(_) => "childStdin",
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Repr::ChildStdout(_) => "childStdout",
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Repr::ChildStderr(_) => "childStderr",
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Repr::Worker(_) => "worker",
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};
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String::from(h_repr)
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}
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// Abstract async file interface.
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// Ideally in unix, if Resource represents an OS rid, it will be the same.
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#[derive(Clone, Debug)]
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pub struct Resource {
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pub rid: ResourceId,
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}
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impl Resource {
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// TODO Should it return a Resource instead of net::TcpStream?
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pub fn poll_accept(&mut self) -> Poll<(TcpStream, SocketAddr), Error> {
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let mut table = RESOURCE_TABLE.lock().unwrap();
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let maybe_repr = table.get_mut(&self.rid);
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match maybe_repr {
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None => Err(std::io::Error::new(
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std::io::ErrorKind::Other,
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"Listener has been closed",
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)),
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Some(repr) => match repr {
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Repr::TcpListener(ref mut s, _) => s.poll_accept(),
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_ => panic!("Cannot accept"),
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},
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}
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}
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// close(2) is done by dropping the value. Therefore we just need to remove
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// the resource from the RESOURCE_TABLE.
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pub fn close(&self) {
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let mut table = RESOURCE_TABLE.lock().unwrap();
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let r = table.remove(&self.rid);
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assert!(r.is_some());
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}
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pub fn shutdown(&mut self, how: Shutdown) -> Result<(), DenoError> {
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let mut table = RESOURCE_TABLE.lock().unwrap();
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let maybe_repr = table.get_mut(&self.rid);
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match maybe_repr {
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None => panic!("bad rid"),
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Some(repr) => match repr {
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Repr::TcpStream(ref mut f) => {
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TcpStream::shutdown(f, how).map_err(DenoError::from)
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}
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_ => panic!("Cannot shutdown"),
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},
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}
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}
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}
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impl Read for Resource {
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fn read(&mut self, _buf: &mut [u8]) -> std::io::Result<usize> {
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unimplemented!();
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}
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}
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impl AsyncRead for Resource {
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fn poll_read(&mut self, buf: &mut [u8]) -> Poll<usize, Error> {
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let mut table = RESOURCE_TABLE.lock().unwrap();
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let maybe_repr = table.get_mut(&self.rid);
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match maybe_repr {
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None => panic!("bad rid"),
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Some(repr) => match repr {
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Repr::FsFile(ref mut f) => f.poll_read(buf),
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Repr::Stdin(ref mut f) => f.poll_read(buf),
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Repr::TcpStream(ref mut f) => f.poll_read(buf),
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Repr::HttpBody(ref mut f) => f.poll_read(buf),
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Repr::ChildStdout(ref mut f) => f.poll_read(buf),
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Repr::ChildStderr(ref mut f) => f.poll_read(buf),
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_ => panic!("Cannot read"),
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},
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}
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}
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}
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impl Write for Resource {
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fn write(&mut self, _buf: &[u8]) -> std::io::Result<usize> {
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unimplemented!()
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}
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fn flush(&mut self) -> std::io::Result<()> {
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unimplemented!()
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}
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}
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impl AsyncWrite for Resource {
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fn poll_write(&mut self, buf: &[u8]) -> Poll<usize, Error> {
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let mut table = RESOURCE_TABLE.lock().unwrap();
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let maybe_repr = table.get_mut(&self.rid);
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match maybe_repr {
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None => panic!("bad rid"),
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Some(repr) => match repr {
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Repr::FsFile(ref mut f) => f.poll_write(buf),
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Repr::Stdout(ref mut f) => f.poll_write(buf),
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Repr::Stderr(ref mut f) => f.poll_write(buf),
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Repr::TcpStream(ref mut f) => f.poll_write(buf),
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Repr::ChildStdin(ref mut f) => f.poll_write(buf),
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_ => panic!("Cannot write"),
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},
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}
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}
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fn shutdown(&mut self) -> futures::Poll<(), std::io::Error> {
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unimplemented!()
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}
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}
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fn new_rid() -> ResourceId {
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let next_rid = NEXT_RID.fetch_add(1, Ordering::SeqCst);
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next_rid as ResourceId
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}
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pub fn add_fs_file(fs_file: tokio::fs::File) -> Resource {
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let rid = new_rid();
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let mut tg = RESOURCE_TABLE.lock().unwrap();
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match tg.insert(rid, Repr::FsFile(fs_file)) {
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Some(_) => panic!("There is already a file with that rid"),
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None => Resource { rid },
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}
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}
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pub fn add_tcp_listener(listener: tokio::net::TcpListener) -> Resource {
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let rid = new_rid();
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let mut tg = RESOURCE_TABLE.lock().unwrap();
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let r = tg.insert(rid, Repr::TcpListener(listener, None));
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assert!(r.is_none());
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Resource { rid }
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}
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pub fn add_tcp_stream(stream: tokio::net::TcpStream) -> Resource {
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let rid = new_rid();
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let mut tg = RESOURCE_TABLE.lock().unwrap();
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let r = tg.insert(rid, Repr::TcpStream(stream));
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assert!(r.is_none());
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Resource { rid }
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}
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pub fn add_hyper_body(body: hyper::Body) -> Resource {
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let rid = new_rid();
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let mut tg = RESOURCE_TABLE.lock().unwrap();
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let body = HttpBody::from(body);
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let r = tg.insert(rid, Repr::HttpBody(body));
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assert!(r.is_none());
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Resource { rid }
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}
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pub fn add_repl(repl: Repl) -> Resource {
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let rid = new_rid();
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let mut tg = RESOURCE_TABLE.lock().unwrap();
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let r = tg.insert(rid, Repr::Repl(Arc::new(Mutex::new(repl))));
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assert!(r.is_none());
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Resource { rid }
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}
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pub fn add_worker(wc: WorkerChannels) -> Resource {
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let rid = new_rid();
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let mut tg = RESOURCE_TABLE.lock().unwrap();
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let r = tg.insert(rid, Repr::Worker(wc));
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assert!(r.is_none());
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Resource { rid }
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}
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pub fn worker_post_message(
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rid: ResourceId,
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buf: Buf,
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) -> futures::sink::Send<futures::sync::mpsc::Sender<Buf>> {
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let mut table = RESOURCE_TABLE.lock().unwrap();
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let maybe_repr = table.get_mut(&rid);
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match maybe_repr {
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Some(Repr::Worker(ref mut wc)) => {
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// unwrap here is incorrect, but doing it anyway
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wc.0.clone().send(buf)
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}
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_ => panic!("bad resource"), // futures::future::err(bad_resource()).into(),
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}
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}
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pub struct WorkerReceiver {
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rid: ResourceId,
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}
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// Invert the dumbness that tokio_process causes by making Child itself a future.
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impl Future for WorkerReceiver {
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type Item = Option<Buf>;
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type Error = DenoError;
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fn poll(&mut self) -> Poll<Option<Buf>, DenoError> {
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let mut table = RESOURCE_TABLE.lock().unwrap();
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let maybe_repr = table.get_mut(&self.rid);
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match maybe_repr {
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Some(Repr::Worker(ref mut wc)) => wc.1.poll().map_err(|()| {
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errors::new(errors::ErrorKind::Other, "recv msg error".to_string())
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}),
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_ => Err(bad_resource()),
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}
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}
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}
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pub fn worker_recv_message(rid: ResourceId) -> WorkerReceiver {
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WorkerReceiver { rid }
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}
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#[cfg_attr(feature = "cargo-clippy", allow(stutter))]
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pub struct ChildResources {
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pub child_rid: ResourceId,
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pub stdin_rid: Option<ResourceId>,
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pub stdout_rid: Option<ResourceId>,
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pub stderr_rid: Option<ResourceId>,
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}
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pub fn add_child(mut c: tokio_process::Child) -> ChildResources {
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let child_rid = new_rid();
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let mut tg = RESOURCE_TABLE.lock().unwrap();
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let mut resources = ChildResources {
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child_rid,
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stdin_rid: None,
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stdout_rid: None,
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stderr_rid: None,
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};
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if c.stdin().is_some() {
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let stdin = c.stdin().take().unwrap();
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let rid = new_rid();
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let r = tg.insert(rid, Repr::ChildStdin(stdin));
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assert!(r.is_none());
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resources.stdin_rid = Some(rid);
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}
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if c.stdout().is_some() {
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let stdout = c.stdout().take().unwrap();
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let rid = new_rid();
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let r = tg.insert(rid, Repr::ChildStdout(stdout));
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assert!(r.is_none());
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resources.stdout_rid = Some(rid);
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}
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if c.stderr().is_some() {
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let stderr = c.stderr().take().unwrap();
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let rid = new_rid();
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let r = tg.insert(rid, Repr::ChildStderr(stderr));
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assert!(r.is_none());
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resources.stderr_rid = Some(rid);
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}
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let r = tg.insert(child_rid, Repr::Child(Box::new(c)));
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assert!(r.is_none());
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resources
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}
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pub struct ChildStatus {
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rid: ResourceId,
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}
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// Invert the dumbness that tokio_process causes by making Child itself a future.
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impl Future for ChildStatus {
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type Item = ExitStatus;
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type Error = DenoError;
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fn poll(&mut self) -> Poll<ExitStatus, DenoError> {
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let mut table = RESOURCE_TABLE.lock().unwrap();
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let maybe_repr = table.get_mut(&self.rid);
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match maybe_repr {
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Some(Repr::Child(ref mut child)) => child.poll().map_err(DenoError::from),
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_ => Err(bad_resource()),
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}
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}
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}
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pub fn child_status(rid: ResourceId) -> DenoResult<ChildStatus> {
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let mut table = RESOURCE_TABLE.lock().unwrap();
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let maybe_repr = table.get_mut(&rid);
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match maybe_repr {
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Some(Repr::Child(ref mut _child)) => Ok(ChildStatus { rid }),
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_ => Err(bad_resource()),
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}
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}
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pub fn get_repl(rid: ResourceId) -> DenoResult<Arc<Mutex<Repl>>> {
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let mut table = RESOURCE_TABLE.lock().unwrap();
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let maybe_repr = table.get_mut(&rid);
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match maybe_repr {
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Some(Repr::Repl(ref mut r)) => Ok(r.clone()),
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_ => Err(bad_resource()),
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}
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}
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pub fn lookup(rid: ResourceId) -> Option<Resource> {
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debug!("resource lookup {}", rid);
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let table = RESOURCE_TABLE.lock().unwrap();
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table.get(&rid).map(|_| Resource { rid })
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}
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// TODO(kevinkassimo): revamp this after the following lands:
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// https://github.com/tokio-rs/tokio/pull/785
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pub fn seek(
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resource: Resource,
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offset: i32,
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whence: u32,
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) -> Box<dyn Future<Item = (), Error = DenoError> + Send> {
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let mut table = RESOURCE_TABLE.lock().unwrap();
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// We take ownership of File here.
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// It is put back below while still holding the lock.
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let maybe_repr = table.remove(&resource.rid);
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match maybe_repr {
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None => panic!("bad rid"),
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Some(Repr::FsFile(f)) => {
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// Trait Clone not implemented on tokio::fs::File,
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// so convert to std File first.
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let std_file = f.into_std();
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// Create a copy and immediately put back.
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// We don't want to block other resource ops.
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// try_clone() would yield a copy containing the same
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// underlying fd, so operations on the copy would also
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// affect the one in resource table, and we don't need
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// to write back.
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let maybe_std_file_copy = std_file.try_clone();
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// Insert the entry back with the same rid.
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table.insert(
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resource.rid,
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Repr::FsFile(tokio_fs::File::from_std(std_file)),
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);
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// Translate seek mode to Rust repr.
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let seek_from = match whence {
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0 => SeekFrom::Start(offset as u64),
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1 => SeekFrom::Current(i64::from(offset)),
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2 => SeekFrom::End(i64::from(offset)),
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_ => {
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return Box::new(futures::future::err(errors::new(
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errors::ErrorKind::InvalidSeekMode,
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format!("Invalid seek mode: {}", whence),
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)));
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}
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};
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if maybe_std_file_copy.is_err() {
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return Box::new(futures::future::err(DenoError::from(
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maybe_std_file_copy.unwrap_err(),
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)));
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}
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let mut std_file_copy = maybe_std_file_copy.unwrap();
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Box::new(futures::future::lazy(move || {
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let result = std_file_copy
|
|
.seek(seek_from)
|
|
.map(|_| {})
|
|
.map_err(DenoError::from);
|
|
futures::future::result(result)
|
|
}))
|
|
}
|
|
_ => panic!("cannot seek"),
|
|
}
|
|
}
|