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wasmtime/crates/wasi-common/src/pipe.rs
Pat Hickey 0f5bdc6497 only wasi_cap_std_sync and wasi_tokio need to define WasiCtxBuilders (#2917) 
* wasmtime-wasi: re-exporting this WasiCtxBuilder was shadowing the right one

wasi-common's WasiCtxBuilder is really only useful wasi_cap_std_sync and
wasi_tokio to implement their own Builder on top of.

This re-export of wasi-common's is 1. not useful and 2. shadow's the
re-export of the right one in sync::*.

* wasi-common: eliminate WasiCtxBuilder, make the builder methods on WasiCtx instead

* delete wasi-common::WasiCtxBuilder altogether

just put those methods directly on &mut WasiCtx.

As a bonus, the sync and tokio WasiCtxBuilder::build functions
are no longer fallible!

* bench fixes

* more test fixes
2021-05-21 12:59:39 -05:00

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// This is mostly stubs
#![allow(unused_variables, dead_code)]
//! Virtual pipes.
//!
//! These types provide easy implementations of `WasiFile` that mimic much of the behavior of Unix
//! pipes. These are particularly helpful for redirecting WASI stdio handles to destinations other
//! than OS files.
//!
//! Some convenience constructors are included for common backing types like `Vec<u8>` and `String`,
//! but the virtual pipes can be instantiated with any `Read` or `Write` type.
//!
use crate::{
file::{Advice, FdFlags, FileType, Filestat, WasiFile},
Error, ErrorExt, SystemTimeSpec,
};
use std::any::Any;
use std::convert::TryInto;
use std::io::{self, Read, Write};
use std::sync::{Arc, RwLock};
/// A virtual pipe read end.
///
/// A variety of `From` impls are provided so that common pipe types are easy to create. For example:
///
/// ```no_run
/// # use std::rc::Rc;
/// # use std::cell::RefCell;
/// use wasi_common::{pipe::ReadPipe, WasiCtx, Table};
/// let stdin = ReadPipe::from("hello from stdin!");
/// // Brint these instances from elsewhere (e.g. wasi-cap-std-sync):
/// let random = todo!();
/// let clocks = todo!();
/// let sched = todo!();
/// let table = Rc::new(RefCell::new(Table::new()));
/// let mut ctx = WasiCtx::new(random, clocks, sched, table);
/// ctx.set_stdin(Box::new(stdin.clone()));
/// ```
#[derive(Debug)]
pub struct ReadPipe<R: Read> {
reader: Arc<RwLock<R>>,
}
impl<R: Read> Clone for ReadPipe<R> {
fn clone(&self) -> Self {
Self {
reader: self.reader.clone(),
}
}
}
impl<R: Read> ReadPipe<R> {
/// Create a new pipe from a `Read` type.
///
/// All `Handle` read operations delegate to reading from this underlying reader.
pub fn new(r: R) -> Self {
Self::from_shared(Arc::new(RwLock::new(r)))
}
/// Create a new pipe from a shareable `Read` type.
///
/// All `Handle` read operations delegate to reading from this underlying reader.
pub fn from_shared(reader: Arc<RwLock<R>>) -> Self {
Self { reader }
}
/// Try to convert this `ReadPipe<R>` back to the underlying `R` type.
///
/// This will fail with `Err(self)` if multiple references to the underlying `R` exist.
pub fn try_into_inner(mut self) -> Result<R, Self> {
match Arc::try_unwrap(self.reader) {
Ok(rc) => Ok(RwLock::into_inner(rc).unwrap()),
Err(reader) => {
self.reader = reader;
Err(self)
}
}
}
fn borrow(&self) -> std::sync::RwLockWriteGuard<R> {
RwLock::write(&self.reader).unwrap()
}
}
impl From<Vec<u8>> for ReadPipe<io::Cursor<Vec<u8>>> {
fn from(r: Vec<u8>) -> Self {
Self::new(io::Cursor::new(r))
}
}
impl From<&[u8]> for ReadPipe<io::Cursor<Vec<u8>>> {
fn from(r: &[u8]) -> Self {
Self::from(r.to_vec())
}
}
impl From<String> for ReadPipe<io::Cursor<String>> {
fn from(r: String) -> Self {
Self::new(io::Cursor::new(r))
}
}
impl From<&str> for ReadPipe<io::Cursor<String>> {
fn from(r: &str) -> Self {
Self::from(r.to_string())
}
}
#[wiggle::async_trait]
impl<R: Read + Any + Send + Sync> WasiFile for ReadPipe<R> {
fn as_any(&self) -> &dyn Any {
self
}
async fn datasync(&self) -> Result<(), Error> {
Ok(()) // trivial: no implementation needed
}
async fn sync(&self) -> Result<(), Error> {
Ok(()) // trivial
}
async fn get_filetype(&self) -> Result<FileType, Error> {
Ok(FileType::Pipe)
}
async fn get_fdflags(&self) -> Result<FdFlags, Error> {
Ok(FdFlags::empty())
}
async fn set_fdflags(&mut self, _fdflags: FdFlags) -> Result<(), Error> {
Err(Error::badf())
}
async fn get_filestat(&self) -> Result<Filestat, Error> {
Ok(Filestat {
device_id: 0,
inode: 0,
filetype: self.get_filetype().await?,
nlink: 0,
size: 0, // XXX no way to get a size out of a Read :(
atim: None,
mtim: None,
ctim: None,
})
}
async fn set_filestat_size(&self, _size: u64) -> Result<(), Error> {
Err(Error::badf())
}
async fn advise(&self, offset: u64, len: u64, advice: Advice) -> Result<(), Error> {
Err(Error::badf())
}
async fn allocate(&self, offset: u64, len: u64) -> Result<(), Error> {
Err(Error::badf())
}
async fn read_vectored<'a>(&self, bufs: &mut [io::IoSliceMut<'a>]) -> Result<u64, Error> {
let n = self.borrow().read_vectored(bufs)?;
Ok(n.try_into()?)
}
async fn read_vectored_at<'a>(
&self,
bufs: &mut [io::IoSliceMut<'a>],
offset: u64,
) -> Result<u64, Error> {
Err(Error::badf())
}
async fn write_vectored<'a>(&self, bufs: &[io::IoSlice<'a>]) -> Result<u64, Error> {
Err(Error::badf())
}
async fn write_vectored_at<'a>(
&self,
bufs: &[io::IoSlice<'a>],
offset: u64,
) -> Result<u64, Error> {
Err(Error::badf())
}
async fn seek(&self, pos: std::io::SeekFrom) -> Result<u64, Error> {
Err(Error::badf())
}
async fn peek(&self, buf: &mut [u8]) -> Result<u64, Error> {
Err(Error::badf())
}
async fn set_times(
&self,
atime: Option<SystemTimeSpec>,
mtime: Option<SystemTimeSpec>,
) -> Result<(), Error> {
Err(Error::badf())
}
async fn num_ready_bytes(&self) -> Result<u64, Error> {
Ok(0)
}
async fn readable(&mut self) -> Result<(), Error> {
Err(Error::badf())
}
async fn writable(&mut self) -> Result<(), Error> {
Err(Error::badf())
}
}
/// A virtual pipe write end.
///
/// ```no_run
/// # use std::rc::Rc;
/// # use std::cell::RefCell;
/// use wasi_common::{pipe::WritePipe, WasiCtx, Table};
/// let stdout = WritePipe::new_in_memory();
/// // Brint these instances from elsewhere (e.g. wasi-cap-std-sync):
/// let random = todo!();
/// let clocks = todo!();
/// let sched = todo!();
/// let table = Rc::new(RefCell::new(Table::new()));
/// let mut ctx = WasiCtx::new(random, clocks, sched, table);
/// ctx.set_stdout(Box::new(stdout.clone()));
/// // use ctx in an instance, then make sure it is dropped:
/// drop(ctx);
/// let contents: Vec<u8> = stdout.try_into_inner().expect("sole remaining reference to WritePipe").into_inner();
/// println!("contents of stdout: {:?}", contents);
/// ```
#[derive(Debug)]
pub struct WritePipe<W: Write> {
writer: Arc<RwLock<W>>,
}
impl<W: Write> Clone for WritePipe<W> {
fn clone(&self) -> Self {
Self {
writer: self.writer.clone(),
}
}
}
impl<W: Write> WritePipe<W> {
/// Create a new pipe from a `Write` type.
///
/// All `Handle` write operations delegate to writing to this underlying writer.
pub fn new(w: W) -> Self {
Self::from_shared(Arc::new(RwLock::new(w)))
}
/// Create a new pipe from a shareable `Write` type.
///
/// All `Handle` write operations delegate to writing to this underlying writer.
pub fn from_shared(writer: Arc<RwLock<W>>) -> Self {
Self { writer }
}
/// Try to convert this `WritePipe<W>` back to the underlying `W` type.
///
/// This will fail with `Err(self)` if multiple references to the underlying `W` exist.
pub fn try_into_inner(mut self) -> Result<W, Self> {
match Arc::try_unwrap(self.writer) {
Ok(rc) => Ok(RwLock::into_inner(rc).unwrap()),
Err(writer) => {
self.writer = writer;
Err(self)
}
}
}
fn borrow(&self) -> std::sync::RwLockWriteGuard<W> {
RwLock::write(&self.writer).unwrap()
}
}
impl WritePipe<io::Cursor<Vec<u8>>> {
/// Create a new writable virtual pipe backed by a `Vec<u8>` buffer.
pub fn new_in_memory() -> Self {
Self::new(io::Cursor::new(vec![]))
}
}
#[wiggle::async_trait]
impl<W: Write + Any + Send + Sync> WasiFile for WritePipe<W> {
fn as_any(&self) -> &dyn Any {
self
}
async fn datasync(&self) -> Result<(), Error> {
Ok(())
}
async fn sync(&self) -> Result<(), Error> {
Ok(())
}
async fn get_filetype(&self) -> Result<FileType, Error> {
Ok(FileType::Pipe)
}
async fn get_fdflags(&self) -> Result<FdFlags, Error> {
Ok(FdFlags::APPEND)
}
async fn set_fdflags(&mut self, _fdflags: FdFlags) -> Result<(), Error> {
Err(Error::badf())
}
async fn get_filestat(&self) -> Result<Filestat, Error> {
Ok(Filestat {
device_id: 0,
inode: 0,
filetype: self.get_filetype().await?,
nlink: 0,
size: 0, // XXX no way to get a size out of a Write :(
atim: None,
mtim: None,
ctim: None,
})
}
async fn set_filestat_size(&self, _size: u64) -> Result<(), Error> {
Err(Error::badf())
}
async fn advise(&self, offset: u64, len: u64, advice: Advice) -> Result<(), Error> {
Err(Error::badf())
}
async fn allocate(&self, offset: u64, len: u64) -> Result<(), Error> {
Err(Error::badf())
}
async fn read_vectored<'a>(&self, bufs: &mut [io::IoSliceMut<'a>]) -> Result<u64, Error> {
Err(Error::badf())
}
async fn read_vectored_at<'a>(
&self,
bufs: &mut [io::IoSliceMut<'a>],
offset: u64,
) -> Result<u64, Error> {
Err(Error::badf())
}
async fn write_vectored<'a>(&self, bufs: &[io::IoSlice<'a>]) -> Result<u64, Error> {
let n = self.borrow().write_vectored(bufs)?;
Ok(n.try_into()?)
}
async fn write_vectored_at<'a>(
&self,
bufs: &[io::IoSlice<'a>],
offset: u64,
) -> Result<u64, Error> {
Err(Error::badf())
}
async fn seek(&self, pos: std::io::SeekFrom) -> Result<u64, Error> {
Err(Error::badf())
}
async fn peek(&self, buf: &mut [u8]) -> Result<u64, Error> {
Err(Error::badf())
}
async fn set_times(
&self,
atime: Option<SystemTimeSpec>,
mtime: Option<SystemTimeSpec>,
) -> Result<(), Error> {
Err(Error::badf())
}
async fn num_ready_bytes(&self) -> Result<u64, Error> {
Ok(0)
}
async fn readable(&mut self) -> Result<(), Error> {
Err(Error::badf())
}
async fn writable(&mut self) -> Result<(), Error> {
Err(Error::badf())
}
}
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