body.rs - mozsearch

Enable keyboard shortcuts

use std::ffi::c_void;

use std::mem::ManuallyDrop;

use std::ptr;

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

use http::HeaderMap;

use libc::{c_int, size_t};

use super::task::{hyper_context, hyper_task, hyper_task_return_type, AsTaskType};

use super::{UserDataPointer, HYPER_ITER_CONTINUE};

use crate::body::{Body, Bytes, HttpBody as _};

/// A streaming HTTP body.

pub struct hyper_body(pub(super) Body);

/// A buffer of bytes that is sent or received on a `hyper_body`.

pub struct hyper_buf(pub(crate) Bytes);

pub(crate) struct UserBody {

    data_func: hyper_body_data_callback,

    userdata: *mut c_void,

// ===== Body =====

type hyper_body_foreach_callback = extern "C" fn(*mut c_void, *const hyper_buf) -> c_int;

type hyper_body_data_callback =

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

ffi_fn! {

    /// Create a new "empty" body.

///

    /// If not configured, this body acts as an empty payload.

    fn hyper_body_new() -> *mut hyper_body {

        Box::into_raw(Box::new(hyper_body(Body::empty())))

    } ?= ptr::null_mut()

ffi_fn! {

    /// Free a `hyper_body *`.

    fn hyper_body_free(body: *mut hyper_body) {

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

ffi_fn! {

    /// Return a task that will poll the body for the next buffer of data.

///

    /// The task value may have different types depending on the outcome:

///

    /// - `HYPER_TASK_BUF`: Success, and more data was received.

    /// - `HYPER_TASK_ERROR`: An error retrieving the data.

    /// - `HYPER_TASK_EMPTY`: The body has finished streaming data.

///

    /// This does not consume the `hyper_body *`, so it may be used to again.

    /// However, it MUST NOT be used or freed until the related task completes.

    fn hyper_body_data(body: *mut hyper_body) -> *mut hyper_task {

        // This doesn't take ownership of the Body, so don't allow destructor

        let mut body = ManuallyDrop::new(non_null!(Box::from_raw(body) ?= ptr::null_mut()));

        Box::into_raw(hyper_task::boxed(async move {

            body.0.data().await.map(|res| res.map(hyper_buf))

}))

    } ?= ptr::null_mut()

ffi_fn! {

    /// Return a task that will poll the body and execute the callback with each

    /// body chunk that is received.

///

    /// The `hyper_buf` pointer is only a borrowed reference, it cannot live outside

    /// the execution of the callback. You must make a copy to retain it.

///

    /// The callback should return `HYPER_ITER_CONTINUE` to continue iterating

    /// chunks as they are received, or `HYPER_ITER_BREAK` to cancel.

///

    /// This will consume the `hyper_body *`, you shouldn't use it anymore or free it.

    fn hyper_body_foreach(body: *mut hyper_body, func: hyper_body_foreach_callback, userdata: *mut c_void) -> *mut hyper_task {

        let mut body = non_null!(Box::from_raw(body) ?= ptr::null_mut());

        let userdata = UserDataPointer(userdata);

        Box::into_raw(hyper_task::boxed(async move {

            while let Some(item) = body.0.data().await {

                let chunk = item?;

                if HYPER_ITER_CONTINUE != func(userdata.0, &hyper_buf(chunk)) {

                    return Err(crate::Error::new_user_aborted_by_callback());

            Ok(())

}))

    } ?= ptr::null_mut()

ffi_fn! {

    /// Set userdata on this body, which will be passed to callback functions.

    fn hyper_body_set_userdata(body: *mut hyper_body, userdata: *mut c_void) {

        let b = non_null!(&mut *body ?= ());

        b.0.as_ffi_mut().userdata = userdata;

ffi_fn! {

    /// Set the data callback for this body.

///

    /// The callback is called each time hyper needs to send more data for the

    /// body. It is passed the value from `hyper_body_set_userdata`.

///

    /// If there is data available, the `hyper_buf **` argument should be set

    /// to a `hyper_buf *` containing the data, and `HYPER_POLL_READY` should

    /// be returned.

///

    /// Returning `HYPER_POLL_READY` while the `hyper_buf **` argument points

    /// to `NULL` will indicate the body has completed all data.

///

    /// If there is more data to send, but it isn't yet available, a

    /// `hyper_waker` should be saved from the `hyper_context *` argument, and

    /// `HYPER_POLL_PENDING` should be returned. You must wake the saved waker

    /// to signal the task when data is available.

///

    /// If some error has occurred, you can return `HYPER_POLL_ERROR` to abort

    /// the body.

    fn hyper_body_set_data_func(body: *mut hyper_body, func: hyper_body_data_callback) {

        let b = non_null!{ &mut *body ?= () };

        b.0.as_ffi_mut().data_func = func;

// ===== impl UserBody =====

impl UserBody {

    pub(crate) fn new() -> UserBody {

        UserBody {

            data_func: data_noop,

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

    pub(crate) fn poll_data(&mut self, cx: &mut Context<'_>) -> Poll<Option<crate::Result<Bytes>>> {

        let mut out = std::ptr::null_mut();

        match (self.data_func)(self.userdata, hyper_context::wrap(cx), &mut out) {

            super::task::HYPER_POLL_READY => {

                if out.is_null() {

                    Poll::Ready(None)

                } else {

                    let buf = unsafe { Box::from_raw(out) };

                    Poll::Ready(Some(Ok(buf.0)))

            super::task::HYPER_POLL_PENDING => Poll::Pending,

            super::task::HYPER_POLL_ERROR => {

                Poll::Ready(Some(Err(crate::Error::new_body_write_aborted())))

            unexpected => Poll::Ready(Some(Err(crate::Error::new_body_write(format!(

                "unexpected hyper_body_data_func return code {}",

                unexpected

            ))))),

    pub(crate) fn poll_trailers(

        &mut self,

        _cx: &mut Context<'_>,

    ) -> Poll<crate::Result<Option<HeaderMap>>> {

        Poll::Ready(Ok(None))

/// cbindgen:ignore

extern "C" fn data_noop(

    _userdata: *mut c_void,

    _: *mut hyper_context<'_>,

    _: *mut *mut hyper_buf,

) -> c_int {

    super::task::HYPER_POLL_READY

unsafe impl Send for UserBody {}

unsafe impl Sync for UserBody {}

// ===== Bytes =====

ffi_fn! {

    /// Create a new `hyper_buf *` by copying the provided bytes.

///

    /// This makes an owned copy of the bytes, so the `buf` argument can be

    /// freed or changed afterwards.

///

    /// This returns `NULL` if allocating a new buffer fails.

    fn hyper_buf_copy(buf: *const u8, len: size_t) -> *mut hyper_buf {

        let slice = unsafe {

            std::slice::from_raw_parts(buf, len)

};

        Box::into_raw(Box::new(hyper_buf(Bytes::copy_from_slice(slice))))

    } ?= ptr::null_mut()

ffi_fn! {

    /// Get a pointer to the bytes in this buffer.

///

    /// This should be used in conjunction with `hyper_buf_len` to get the length

    /// of the bytes data.

///

    /// This pointer is borrowed data, and not valid once the `hyper_buf` is

    /// consumed/freed.

    fn hyper_buf_bytes(buf: *const hyper_buf) -> *const u8 {

        unsafe { (*buf).0.as_ptr() }

    } ?= ptr::null()

ffi_fn! {

    /// Get the length of the bytes this buffer contains.

    fn hyper_buf_len(buf: *const hyper_buf) -> size_t {

        unsafe { (*buf).0.len() }

ffi_fn! {

    /// Free this buffer.

    fn hyper_buf_free(buf: *mut hyper_buf) {

        drop(unsafe { Box::from_raw(buf) });

unsafe impl AsTaskType for hyper_buf {

    fn as_task_type(&self) -> hyper_task_return_type {

        hyper_task_return_type::HYPER_TASK_BUF