io.rs - mozsearch

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use std::ffi::c_void;

use std::pin::Pin;

use std::task::{Context, Poll};

use libc::size_t;

use tokio::io::{AsyncRead, AsyncWrite};

use super::task::hyper_context;

/// Sentinel value to return from a read or write callback that the operation

/// is pending.

pub const HYPER_IO_PENDING: size_t = 0xFFFFFFFF;

/// Sentinel value to return from a read or write callback that the operation

/// has errored.

pub const HYPER_IO_ERROR: size_t = 0xFFFFFFFE;

type hyper_io_read_callback =

    extern "C" fn(*mut c_void, *mut hyper_context<'_>, *mut u8, size_t) -> size_t;

type hyper_io_write_callback =

    extern "C" fn(*mut c_void, *mut hyper_context<'_>, *const u8, size_t) -> size_t;

/// An IO object used to represent a socket or similar concept.

pub struct hyper_io {

    read: hyper_io_read_callback,

    write: hyper_io_write_callback,

    userdata: *mut c_void,

ffi_fn! {

    /// Create a new IO type used to represent a transport.

///

    /// The read and write functions of this transport should be set with

    /// `hyper_io_set_read` and `hyper_io_set_write`.

    fn hyper_io_new() -> *mut hyper_io {

        Box::into_raw(Box::new(hyper_io {

            read: read_noop,

            write: write_noop,

            userdata: std::ptr::null_mut(),

}))

    } ?= std::ptr::null_mut()

ffi_fn! {

    /// Free an unused `hyper_io *`.

///

    /// This is typically only useful if you aren't going to pass ownership

    /// of the IO handle to hyper, such as with `hyper_clientconn_handshake()`.

    fn hyper_io_free(io: *mut hyper_io) {

        drop(non_null!(Box::from_raw(io) ?= ()));

ffi_fn! {

    /// Set the user data pointer for this IO to some value.

///

    /// This value is passed as an argument to the read and write callbacks.

    fn hyper_io_set_userdata(io: *mut hyper_io, data: *mut c_void) {

        non_null!(&mut *io ?= ()).userdata = data;

ffi_fn! {

    /// Set the read function for this IO transport.

///

    /// Data that is read from the transport should be put in the `buf` pointer,

    /// up to `buf_len` bytes. The number of bytes read should be the return value.

///

    /// It is undefined behavior to try to access the bytes in the `buf` pointer,

    /// unless you have already written them yourself. It is also undefined behavior

    /// to return that more bytes have been written than actually set on the `buf`.

///

    /// If there is no data currently available, a waker should be claimed from

    /// the `ctx` and registered with whatever polling mechanism is used to signal

    /// when data is available later on. The return value should be

    /// `HYPER_IO_PENDING`.

///

    /// If there is an irrecoverable error reading data, then `HYPER_IO_ERROR`

    /// should be the return value.

    fn hyper_io_set_read(io: *mut hyper_io, func: hyper_io_read_callback) {

        non_null!(&mut *io ?= ()).read = func;

ffi_fn! {

    /// Set the write function for this IO transport.

///

    /// Data from the `buf` pointer should be written to the transport, up to

    /// `buf_len` bytes. The number of bytes written should be the return value.

///

    /// If no data can currently be written, the `waker` should be cloned and

    /// registered with whatever polling mechanism is used to signal when data

    /// is available later on. The return value should be `HYPER_IO_PENDING`.

///

    /// Yeet.

///

    /// If there is an irrecoverable error reading data, then `HYPER_IO_ERROR`

    /// should be the return value.

    fn hyper_io_set_write(io: *mut hyper_io, func: hyper_io_write_callback) {

        non_null!(&mut *io ?= ()).write = func;

/// cbindgen:ignore

extern "C" fn read_noop(

    _userdata: *mut c_void,

    _: *mut hyper_context<'_>,

    _buf: *mut u8,

    _buf_len: size_t,

) -> size_t {

/// cbindgen:ignore

extern "C" fn write_noop(

    _userdata: *mut c_void,

    _: *mut hyper_context<'_>,

    _buf: *const u8,

    _buf_len: size_t,

) -> size_t {

impl AsyncRead for hyper_io {

    fn poll_read(

        self: Pin<&mut Self>,

        cx: &mut Context<'_>,

        buf: &mut tokio::io::ReadBuf<'_>,

    ) -> Poll<std::io::Result<()>> {

        let buf_ptr = unsafe { buf.unfilled_mut() }.as_mut_ptr() as *mut u8;

        let buf_len = buf.remaining();

        match (self.read)(self.userdata, hyper_context::wrap(cx), buf_ptr, buf_len) {

            HYPER_IO_PENDING => Poll::Pending,

            HYPER_IO_ERROR => Poll::Ready(Err(std::io::Error::new(

                std::io::ErrorKind::Other,

                "io error",

            ))),

            ok => {

                // We have to trust that the user's read callback actually

                // filled in that many bytes... :(

                unsafe { buf.assume_init(ok) };

                buf.advance(ok);

                Poll::Ready(Ok(()))

impl AsyncWrite for hyper_io {

    fn poll_write(

        self: Pin<&mut Self>,

        cx: &mut Context<'_>,

        buf: &[u8],

    ) -> Poll<std::io::Result<usize>> {

        let buf_ptr = buf.as_ptr();

        let buf_len = buf.len();

        match (self.write)(self.userdata, hyper_context::wrap(cx), buf_ptr, buf_len) {

            HYPER_IO_PENDING => Poll::Pending,

            HYPER_IO_ERROR => Poll::Ready(Err(std::io::Error::new(

                std::io::ErrorKind::Other,

                "io error",

            ))),

            ok => Poll::Ready(Ok(ok)),

    fn poll_flush(self: Pin<&mut Self>, _: &mut Context<'_>) -> Poll<std::io::Result<()>> {

        Poll::Ready(Ok(()))

    fn poll_shutdown(self: Pin<&mut Self>, _: &mut Context<'_>) -> Poll<std::io::Result<()>> {

        Poll::Ready(Ok(()))

unsafe impl Send for hyper_io {}

unsafe impl Sync for hyper_io {}