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https://github.com/denoland/deno.git
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8b90b8e883
- removes global `RESOURCE_TABLE` - resource tables are now created per `Worker` in `State` - renames `CliResource` to `StreamResource` and moves all logic related to it to `cli/ops/io.rs` - removes `cli/resources.rs` - adds `state` argument to `op_read` and `op_write` and consequently adds `stateful_minimal_op` to `State` - IMPORTANT NOTE: workers don't have access to process stdio - this is caused by fact that dropping worker would close stdout for process (because it's constructed from raw handle, which closes underlying file descriptor on drop)
168 lines
4.5 KiB
Rust
168 lines
4.5 KiB
Rust
// Copyright 2018-2019 the Deno authors. All rights reserved. MIT license.
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// Do not add flatbuffer dependencies to this module.
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//! Connects to js/dispatch_minimal.ts sendAsyncMinimal This acts as a faster
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//! alternative to flatbuffers using a very simple list of int32s to lay out
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//! messages. The first i32 is used to determine if a message a flatbuffer
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//! message or a "minimal" message.
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use crate::deno_error::GetErrorKind;
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use crate::msg::ErrorKind;
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use byteorder::{LittleEndian, WriteBytesExt};
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use deno::Buf;
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use deno::CoreOp;
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use deno::ErrBox;
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use deno::Op;
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use deno::PinnedBuf;
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use futures::Future;
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pub type MinimalOp = dyn Future<Item = i32, Error = ErrBox> + Send;
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#[derive(Copy, Clone, Debug, PartialEq)]
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// This corresponds to RecordMinimal on the TS side.
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pub struct Record {
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pub promise_id: i32,
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pub arg: i32,
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pub result: i32,
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}
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impl Into<Buf> for Record {
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fn into(self) -> Buf {
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let vec = vec![self.promise_id, self.arg, self.result];
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let buf32 = vec.into_boxed_slice();
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let ptr = Box::into_raw(buf32) as *mut [u8; 3 * 4];
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unsafe { Box::from_raw(ptr) }
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}
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}
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pub struct ErrorRecord {
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pub promise_id: i32,
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pub arg: i32,
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pub error_code: i32,
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pub error_message: Vec<u8>,
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}
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impl Into<Buf> for ErrorRecord {
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fn into(self) -> Buf {
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let v32: Vec<i32> = vec![self.promise_id, self.arg, self.error_code];
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let mut v8: Vec<u8> = Vec::new();
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for n in v32 {
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v8.write_i32::<LittleEndian>(n).unwrap();
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}
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let mut message = self.error_message;
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// Align to 32bit word, padding with the space character.
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message.resize((message.len() + 3usize) & !3usize, b' ');
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v8.append(&mut message);
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v8.into_boxed_slice()
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}
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}
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#[test]
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fn test_error_record() {
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let expected = vec![
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1, 0, 0, 0, 255, 255, 255, 255, 10, 0, 0, 0, 69, 114, 114, 111, 114, 32,
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32, 32,
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];
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let err_record = ErrorRecord {
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promise_id: 1,
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arg: -1,
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error_code: 10,
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error_message: "Error".to_string().as_bytes().to_owned(),
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};
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let buf: Buf = err_record.into();
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assert_eq!(buf, expected.into_boxed_slice());
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}
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pub fn parse_min_record(bytes: &[u8]) -> Option<Record> {
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if bytes.len() % std::mem::size_of::<i32>() != 0 {
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return None;
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}
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let p = bytes.as_ptr();
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#[allow(clippy::cast_ptr_alignment)]
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let p32 = p as *const i32;
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let s = unsafe { std::slice::from_raw_parts(p32, bytes.len() / 4) };
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if s.len() != 3 {
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return None;
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}
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let ptr = s.as_ptr();
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let ints = unsafe { std::slice::from_raw_parts(ptr, 3) };
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Some(Record {
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promise_id: ints[0],
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arg: ints[1],
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result: ints[2],
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})
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}
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#[test]
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fn test_parse_min_record() {
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let buf = vec![1, 0, 0, 0, 3, 0, 0, 0, 4, 0, 0, 0];
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assert_eq!(
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parse_min_record(&buf),
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Some(Record {
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promise_id: 1,
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arg: 3,
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result: 4,
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})
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);
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let buf = vec![];
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assert_eq!(parse_min_record(&buf), None);
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let buf = vec![5];
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assert_eq!(parse_min_record(&buf), None);
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}
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pub fn minimal_op<D>(d: D) -> impl Fn(&[u8], Option<PinnedBuf>) -> CoreOp
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where
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D: Fn(i32, Option<PinnedBuf>) -> Box<MinimalOp>,
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{
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move |control: &[u8], zero_copy: Option<PinnedBuf>| {
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let mut record = match parse_min_record(control) {
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Some(r) => r,
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None => {
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let error_record = ErrorRecord {
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promise_id: 0,
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arg: -1,
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error_code: ErrorKind::InvalidInput as i32,
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error_message: "Unparsable control buffer"
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.to_string()
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.as_bytes()
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.to_owned(),
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};
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return Op::Sync(error_record.into());
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}
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};
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let is_sync = record.promise_id == 0;
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let rid = record.arg;
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let min_op = d(rid, zero_copy);
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// Convert to CoreOp
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let fut = Box::new(min_op.then(move |result| -> Result<Buf, ()> {
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match result {
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Ok(r) => {
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record.result = r;
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Ok(record.into())
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}
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Err(err) => {
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let error_record = ErrorRecord {
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promise_id: record.promise_id,
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arg: -1,
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error_code: err.kind() as i32,
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error_message: err.to_string().as_bytes().to_owned(),
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};
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Ok(error_record.into())
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}
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}
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}));
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if is_sync {
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// Warning! Possible deadlocks can occur if we try to wait for a future
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// while in a future. The safe but expensive alternative is to use
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// tokio_util::block_on.
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// This block is only exercised for readSync and writeSync, which I think
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// works since they're simple polling futures.
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Op::Sync(fut.wait().unwrap())
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} else {
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Op::Async(fut)
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}
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}
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}
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