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https://github.com/denoland/deno.git
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5270c43e41
1. Boxed `File` and `FileSystem` to allow more easily passing this through the CLI code (as shown within this pr). 2. `StdFileResource` is now `FileResource`. `FileResource` now contains an `Rc<dyn File>`.
429 lines
15 KiB
Rust
429 lines
15 KiB
Rust
// Copyright 2018-2023 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 which refer to various rust objects that need
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// to be persisted between various ops. For example, network sockets are
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// resources. Resources may or may not correspond to a real operating system
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// file descriptor (hence the different name).
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use crate::error::bad_resource_id;
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use crate::error::not_supported;
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use crate::io::BufMutView;
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use crate::io::BufView;
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use crate::io::WriteOutcome;
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use anyhow::Error;
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use futures::Future;
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use std::any::type_name;
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use std::any::Any;
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use std::any::TypeId;
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use std::borrow::Cow;
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use std::collections::BTreeMap;
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use std::iter::Iterator;
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use std::pin::Pin;
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use std::rc::Rc;
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/// Returned by resource read/write/shutdown methods
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pub type AsyncResult<T> = Pin<Box<dyn Future<Output = Result<T, Error>>>>;
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/// Resources are Rust objects that are attached to a [deno_core::JsRuntime].
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/// They are identified in JS by a numeric ID (the resource ID, or rid).
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/// Resources can be created in ops. Resources can also be retrieved in ops by
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/// their rid. Resources are not thread-safe - they can only be accessed from
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/// the thread that the JsRuntime lives on.
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///
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/// Resources are reference counted in Rust. This means that they can be
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/// cloned and passed around. When the last reference is dropped, the resource
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/// is automatically closed. As long as the resource exists in the resource
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/// table, the reference count is at least 1.
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///
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/// ### Readable
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///
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/// Readable resources are resources that can have data read from. Examples of
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/// this are files, sockets, or HTTP streams.
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///
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/// Readables can be read from from either JS or Rust. In JS one can use
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/// `Deno.core.read()` to read from a single chunk of data from a readable. In
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/// Rust one can directly call `read()` or `read_byob()`. The Rust side code is
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/// used to implement ops like `op_slice`.
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///
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/// A distinction can be made between readables that produce chunks of data
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/// themselves (they allocate the chunks), and readables that fill up
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/// bring-your-own-buffers (BYOBs). The former is often the case for framed
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/// protocols like HTTP, while the latter is often the case for kernel backed
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/// resources like files and sockets.
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///
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/// All readables must implement `read()`. If resources can support an optimized
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/// path for BYOBs, they should also implement `read_byob()`. For kernel backed
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/// resources it often makes sense to implement `read_byob()` first, and then
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/// implement `read()` as an operation that allocates a new chunk with
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/// `len == limit`, then calls `read_byob()`, and then returns a chunk sliced to
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/// the number of bytes read. Kernel backed resources can use the
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/// [deno_core::impl_readable_byob] macro to implement optimized `read_byob()`
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/// and `read()` implementations from a single `Self::read()` method.
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///
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/// ### Writable
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///
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/// Writable resources are resources that can have data written to. Examples of
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/// this are files, sockets, or HTTP streams.
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///
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/// Writables can be written to from either JS or Rust. In JS one can use
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/// `Deno.core.write()` to write to a single chunk of data to a writable. In
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/// Rust one can directly call `write()`. The latter is used to implement ops
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/// like `op_slice`.
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pub trait Resource: Any + 'static {
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/// Returns a string representation of the resource which is made available
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/// to JavaScript code through `op_resources`. The default implementation
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/// returns the Rust type name, but specific resource types may override this
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/// trait method.
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fn name(&self) -> Cow<str> {
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type_name::<Self>().into()
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}
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/// Read a single chunk of data from the resource. This operation returns a
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/// `BufView` that represents the data that was read. If a zero length buffer
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/// is returned, it indicates that the resource has reached EOF.
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///
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/// If this method is not implemented, the default implementation will error
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/// with a "not supported" error.
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///
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/// If a readable can provide an optimized path for BYOBs, it should also
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/// implement `read_byob()`.
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fn read(self: Rc<Self>, limit: usize) -> AsyncResult<BufView> {
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_ = limit;
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Box::pin(futures::future::err(not_supported()))
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}
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/// Read a single chunk of data from the resource into the provided `BufMutView`.
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///
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/// This operation returns the number of bytes read. If zero bytes are read,
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/// it indicates that the resource has reached EOF.
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///
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/// If this method is not implemented explicitly, the default implementation
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/// will call `read()` and then copy the data into the provided buffer. For
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/// readable resources that can provide an optimized path for BYOBs, it is
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/// strongly recommended to override this method.
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fn read_byob(
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self: Rc<Self>,
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mut buf: BufMutView,
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) -> AsyncResult<(usize, BufMutView)> {
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Box::pin(async move {
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let read = self.read(buf.len()).await?;
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let nread = read.len();
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buf[..nread].copy_from_slice(&read);
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Ok((nread, buf))
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})
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}
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/// Write a single chunk of data to the resource. The operation may not be
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/// able to write the entire chunk, in which case it should return the number
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/// of bytes written. Additionally it should return the `BufView` that was
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/// passed in.
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///
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/// If this method is not implemented, the default implementation will error
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/// with a "not supported" error.
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fn write(self: Rc<Self>, buf: BufView) -> AsyncResult<WriteOutcome> {
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_ = buf;
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Box::pin(futures::future::err(not_supported()))
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}
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/// Write an entire chunk of data to the resource. Unlike `write()`, this will
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/// ensure the entire chunk is written. If the operation is not able to write
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/// the entire chunk, an error is to be returned.
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///
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/// By default this method will call `write()` repeatedly until the entire
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/// chunk is written. Resources that can write the entire chunk in a single
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/// operation using an optimized path should override this method.
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fn write_all(self: Rc<Self>, view: BufView) -> AsyncResult<()> {
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Box::pin(async move {
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let mut view = view;
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let this = self;
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while !view.is_empty() {
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let resp = this.clone().write(view).await?;
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match resp {
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WriteOutcome::Partial {
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nwritten,
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view: new_view,
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} => {
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view = new_view;
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view.advance_cursor(nwritten);
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}
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WriteOutcome::Full { .. } => break,
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}
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}
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Ok(())
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})
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}
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/// The same as [`read_byob()`][Resource::read_byob], but synchronous.
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fn read_byob_sync(self: Rc<Self>, data: &mut [u8]) -> Result<usize, Error> {
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_ = data;
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Err(not_supported())
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}
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/// The same as [`write()`][Resource::write], but synchronous.
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fn write_sync(self: Rc<Self>, data: &[u8]) -> Result<usize, Error> {
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_ = data;
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Err(not_supported())
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}
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/// The shutdown method can be used to asynchronously close the resource. It
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/// is not automatically called when the resource is dropped or closed.
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///
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/// If this method is not implemented, the default implementation will error
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/// with a "not supported" error.
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fn shutdown(self: Rc<Self>) -> AsyncResult<()> {
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Box::pin(futures::future::err(not_supported()))
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}
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/// Resources may implement the `close()` trait method if they need to do
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/// resource specific clean-ups, such as cancelling pending futures, after a
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/// resource has been removed from the resource table.
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fn close(self: Rc<Self>) {}
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/// Resources backed by a file descriptor can let ops know to allow for
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/// low-level optimizations.
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#[cfg(unix)]
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fn backing_fd(self: Rc<Self>) -> Option<std::os::unix::prelude::RawFd> {
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None
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}
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/// Resources backed by a file descriptor can let ops know to allow for
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/// low-level optimizations.
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#[cfg(windows)]
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fn backing_fd(self: Rc<Self>) -> Option<std::os::windows::io::RawHandle> {
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None
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}
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fn size_hint(&self) -> (u64, Option<u64>) {
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(0, None)
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}
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}
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impl dyn Resource {
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#[inline(always)]
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fn is<T: Resource>(&self) -> bool {
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self.type_id() == TypeId::of::<T>()
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}
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#[inline(always)]
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#[allow(clippy::needless_lifetimes)]
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pub fn downcast_rc<'a, T: Resource>(self: &'a Rc<Self>) -> Option<&'a Rc<T>> {
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if self.is::<T>() {
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let ptr = self as *const Rc<_> as *const Rc<T>;
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// TODO(piscisaureus): safety comment
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#[allow(clippy::undocumented_unsafe_blocks)]
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Some(unsafe { &*ptr })
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} else {
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None
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}
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}
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}
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/// A `ResourceId` is an integer value referencing a resource. It could be
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/// considered to be the Deno equivalent of a `file descriptor` in POSIX like
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/// operating systems. Elsewhere in the code base it is commonly abbreviated
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/// to `rid`.
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// TODO: use `u64` instead?
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pub type ResourceId = u32;
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/// Map-like data structure storing Deno's resources (equivalent to file
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/// descriptors).
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///
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/// Provides basic methods for element access. A resource can be of any type.
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/// Different types of resources can be stored in the same map, and provided
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/// with a name for description.
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///
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/// Each resource is identified through a _resource ID (rid)_, which acts as
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/// the key in the map.
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#[derive(Default)]
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pub struct ResourceTable {
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index: BTreeMap<ResourceId, Rc<dyn Resource>>,
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next_rid: ResourceId,
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}
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impl ResourceTable {
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/// Inserts resource into the resource table, which takes ownership of it.
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///
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/// The resource type is erased at runtime and must be statically known
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/// when retrieving it through `get()`.
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///
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/// Returns a unique resource ID, which acts as a key for this resource.
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pub fn add<T: Resource>(&mut self, resource: T) -> ResourceId {
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self.add_rc(Rc::new(resource))
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}
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/// Inserts a `Rc`-wrapped resource into the resource table.
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///
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/// The resource type is erased at runtime and must be statically known
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/// when retrieving it through `get()`.
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///
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/// Returns a unique resource ID, which acts as a key for this resource.
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pub fn add_rc<T: Resource>(&mut self, resource: Rc<T>) -> ResourceId {
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let resource = resource as Rc<dyn Resource>;
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self.add_rc_dyn(resource)
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}
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pub fn add_rc_dyn(&mut self, resource: Rc<dyn Resource>) -> ResourceId {
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let rid = self.next_rid;
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let removed_resource = self.index.insert(rid, resource);
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assert!(removed_resource.is_none());
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self.next_rid += 1;
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rid
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}
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/// Returns true if any resource with the given `rid` exists.
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pub fn has(&self, rid: ResourceId) -> bool {
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self.index.contains_key(&rid)
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}
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/// Returns a reference counted pointer to the resource of type `T` with the
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/// given `rid`. If `rid` is not present or has a type different than `T`,
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/// this function returns `None`.
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pub fn get<T: Resource>(&self, rid: ResourceId) -> Result<Rc<T>, Error> {
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self
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.index
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.get(&rid)
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.and_then(|rc| rc.downcast_rc::<T>())
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.map(Clone::clone)
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.ok_or_else(bad_resource_id)
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}
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pub fn get_any(&self, rid: ResourceId) -> Result<Rc<dyn Resource>, Error> {
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self
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.index
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.get(&rid)
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.map(Clone::clone)
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.ok_or_else(bad_resource_id)
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}
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/// Replaces a resource with a new resource.
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///
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/// Panics if the resource does not exist.
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pub fn replace<T: Resource>(&mut self, rid: ResourceId, resource: T) {
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let result = self
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.index
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.insert(rid, Rc::new(resource) as Rc<dyn Resource>);
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assert!(result.is_some());
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}
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/// Removes a resource of type `T` from the resource table and returns it.
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/// If a resource with the given `rid` exists but its type does not match `T`,
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/// it is not removed from the resource table. Note that the resource's
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/// `close()` method is *not* called.
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///
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/// Also note that there might be a case where
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/// the returned `Rc<T>` is referenced by other variables. That is, we cannot
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/// assume that `Rc::strong_count(&returned_rc)` is always equal to 1 on success.
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/// In particular, be really careful when you want to extract the inner value of
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/// type `T` from `Rc<T>`.
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pub fn take<T: Resource>(&mut self, rid: ResourceId) -> Result<Rc<T>, Error> {
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let resource = self.get::<T>(rid)?;
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self.index.remove(&rid);
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Ok(resource)
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}
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/// Removes a resource from the resource table and returns it. Note that the
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/// resource's `close()` method is *not* called.
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///
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/// Also note that there might be a
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/// case where the returned `Rc<T>` is referenced by other variables. That is,
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/// we cannot assume that `Rc::strong_count(&returned_rc)` is always equal to 1
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/// on success. In particular, be really careful when you want to extract the
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/// inner value of type `T` from `Rc<T>`.
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pub fn take_any(
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&mut self,
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rid: ResourceId,
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) -> Result<Rc<dyn Resource>, Error> {
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self.index.remove(&rid).ok_or_else(bad_resource_id)
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}
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/// Removes the resource with the given `rid` from the resource table. If the
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/// only reference to this resource existed in the resource table, this will
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/// cause the resource to be dropped. However, since resources are reference
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/// counted, therefore pending ops are not automatically cancelled. A resource
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/// may implement the `close()` method to perform clean-ups such as canceling
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/// ops.
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pub fn close(&mut self, rid: ResourceId) -> Result<(), Error> {
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self
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.index
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.remove(&rid)
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.ok_or_else(bad_resource_id)
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.map(|resource| resource.close())
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}
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/// Returns an iterator that yields a `(id, name)` pair for every resource
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/// that's currently in the resource table. This can be used for debugging
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/// purposes or to implement the `op_resources` op. Note that the order in
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/// which items appear is not specified.
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///
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/// # Example
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///
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/// ```
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/// # use deno_core::ResourceTable;
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/// # let resource_table = ResourceTable::default();
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/// let resource_names = resource_table.names().collect::<Vec<_>>();
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/// ```
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pub fn names(&self) -> impl Iterator<Item = (ResourceId, Cow<str>)> {
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self
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.index
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.iter()
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.map(|(&id, resource)| (id, resource.name()))
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}
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}
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#[macro_export]
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macro_rules! impl_readable_byob {
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() => {
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fn read(self: Rc<Self>, limit: usize) -> AsyncResult<$crate::BufView> {
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Box::pin(async move {
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let mut vec = vec![0; limit];
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let nread = self.read(&mut vec).await?;
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if nread != vec.len() {
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vec.truncate(nread);
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}
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let view = $crate::BufView::from(vec);
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Ok(view)
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})
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}
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fn read_byob(
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self: Rc<Self>,
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mut buf: $crate::BufMutView,
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) -> AsyncResult<(usize, $crate::BufMutView)> {
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Box::pin(async move {
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let nread = self.read(buf.as_mut()).await?;
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Ok((nread, buf))
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})
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}
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};
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}
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#[macro_export]
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macro_rules! impl_writable {
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(__write) => {
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fn write(
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self: Rc<Self>,
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view: $crate::BufView,
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) -> AsyncResult<$crate::WriteOutcome> {
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Box::pin(async move {
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let nwritten = self.write(&view).await?;
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Ok($crate::WriteOutcome::Partial { nwritten, view })
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})
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}
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};
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(__write_all) => {
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fn write_all(self: Rc<Self>, view: $crate::BufView) -> AsyncResult<()> {
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Box::pin(async move {
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self.write_all(&view).await?;
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Ok(())
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})
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}
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};
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() => {
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$crate::impl_writable!(__write);
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};
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(with_all) => {
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$crate::impl_writable!(__write);
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$crate::impl_writable!(__write_all);
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};
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}
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