#![allow(unused_imports)]
use crate::compression::CompressionLevel;
use crate::{
compression_utils::{AsyncReadBody, BodyIntoStream, DecorateAsyncRead, WrapBody},
BoxError,
};
#[cfg(feature = "compression-br")]
use async_compression::tokio::bufread::BrotliEncoder;
#[cfg(feature = "compression-gzip")]
use async_compression::tokio::bufread::GzipEncoder;
#[cfg(feature = "compression-deflate")]
use async_compression::tokio::bufread::ZlibEncoder;
#[cfg(feature = "compression-zstd")]
use async_compression::tokio::bufread::ZstdEncoder;
use bytes::{Buf, Bytes};
use futures_util::ready;
use http::HeaderMap;
use http_body::Body;
use pin_project_lite::pin_project;
use std::{
io,
marker::PhantomData,
pin::Pin,
task::{Context, Poll},
};
use tokio_util::io::StreamReader;
use super::pin_project_cfg::pin_project_cfg;
pin_project! {
pub struct CompressionBody<B>
where
B: Body,
{
#[pin]
pub(crate) inner: BodyInner<B>,
}
}
impl<B> Default for CompressionBody<B>
where
B: Body + Default,
{
fn default() -> Self {
Self {
inner: BodyInner::Identity {
inner: B::default(),
},
}
}
}
impl<B> CompressionBody<B>
where
B: Body,
{
pub(crate) fn new(inner: BodyInner<B>) -> Self {
Self { inner }
}
pub fn get_ref(&self) -> &B {
match &self.inner {
#[cfg(feature = "compression-gzip")]
BodyInner::Gzip { inner } => inner.read.get_ref().get_ref().get_ref().get_ref(),
#[cfg(feature = "compression-deflate")]
BodyInner::Deflate { inner } => inner.read.get_ref().get_ref().get_ref().get_ref(),
#[cfg(feature = "compression-br")]
BodyInner::Brotli { inner } => inner.read.get_ref().get_ref().get_ref().get_ref(),
#[cfg(feature = "compression-zstd")]
BodyInner::Zstd { inner } => inner.read.get_ref().get_ref().get_ref().get_ref(),
BodyInner::Identity { inner } => inner,
}
}
pub fn get_mut(&mut self) -> &mut B {
match &mut self.inner {
#[cfg(feature = "compression-gzip")]
BodyInner::Gzip { inner } => inner.read.get_mut().get_mut().get_mut().get_mut(),
#[cfg(feature = "compression-deflate")]
BodyInner::Deflate { inner } => inner.read.get_mut().get_mut().get_mut().get_mut(),
#[cfg(feature = "compression-br")]
BodyInner::Brotli { inner } => inner.read.get_mut().get_mut().get_mut().get_mut(),
#[cfg(feature = "compression-zstd")]
BodyInner::Zstd { inner } => inner.read.get_mut().get_mut().get_mut().get_mut(),
BodyInner::Identity { inner } => inner,
}
}
pub fn get_pin_mut(self: Pin<&mut Self>) -> Pin<&mut B> {
match self.project().inner.project() {
#[cfg(feature = "compression-gzip")]
BodyInnerProj::Gzip { inner } => inner
.project()
.read
.get_pin_mut()
.get_pin_mut()
.get_pin_mut()
.get_pin_mut(),
#[cfg(feature = "compression-deflate")]
BodyInnerProj::Deflate { inner } => inner
.project()
.read
.get_pin_mut()
.get_pin_mut()
.get_pin_mut()
.get_pin_mut(),
#[cfg(feature = "compression-br")]
BodyInnerProj::Brotli { inner } => inner
.project()
.read
.get_pin_mut()
.get_pin_mut()
.get_pin_mut()
.get_pin_mut(),
#[cfg(feature = "compression-zstd")]
BodyInnerProj::Zstd { inner } => inner
.project()
.read
.get_pin_mut()
.get_pin_mut()
.get_pin_mut()
.get_pin_mut(),
BodyInnerProj::Identity { inner } => inner,
}
}
pub fn into_inner(self) -> B {
match self.inner {
#[cfg(feature = "compression-gzip")]
BodyInner::Gzip { inner } => inner
.read
.into_inner()
.into_inner()
.into_inner()
.into_inner(),
#[cfg(feature = "compression-deflate")]
BodyInner::Deflate { inner } => inner
.read
.into_inner()
.into_inner()
.into_inner()
.into_inner(),
#[cfg(feature = "compression-br")]
BodyInner::Brotli { inner } => inner
.read
.into_inner()
.into_inner()
.into_inner()
.into_inner(),
#[cfg(feature = "compression-zstd")]
BodyInner::Zstd { inner } => inner
.read
.into_inner()
.into_inner()
.into_inner()
.into_inner(),
BodyInner::Identity { inner } => inner,
}
}
}
#[cfg(feature = "compression-gzip")]
type GzipBody<B> = WrapBody<GzipEncoder<B>>;
#[cfg(feature = "compression-deflate")]
type DeflateBody<B> = WrapBody<ZlibEncoder<B>>;
#[cfg(feature = "compression-br")]
type BrotliBody<B> = WrapBody<BrotliEncoder<B>>;
#[cfg(feature = "compression-zstd")]
type ZstdBody<B> = WrapBody<ZstdEncoder<B>>;
pin_project_cfg! {
#[project = BodyInnerProj]
pub(crate) enum BodyInner<B>
where
B: Body,
{
#[cfg(feature = "compression-gzip")]
Gzip {
#[pin]
inner: GzipBody<B>,
},
#[cfg(feature = "compression-deflate")]
Deflate {
#[pin]
inner: DeflateBody<B>,
},
#[cfg(feature = "compression-br")]
Brotli {
#[pin]
inner: BrotliBody<B>,
},
#[cfg(feature = "compression-zstd")]
Zstd {
#[pin]
inner: ZstdBody<B>,
},
Identity {
#[pin]
inner: B,
},
}
}
impl<B: Body> BodyInner<B> {
#[cfg(feature = "compression-gzip")]
pub(crate) fn gzip(inner: WrapBody<GzipEncoder<B>>) -> Self {
Self::Gzip { inner }
}
#[cfg(feature = "compression-deflate")]
pub(crate) fn deflate(inner: WrapBody<ZlibEncoder<B>>) -> Self {
Self::Deflate { inner }
}
#[cfg(feature = "compression-br")]
pub(crate) fn brotli(inner: WrapBody<BrotliEncoder<B>>) -> Self {
Self::Brotli { inner }
}
#[cfg(feature = "compression-zstd")]
pub(crate) fn zstd(inner: WrapBody<ZstdEncoder<B>>) -> Self {
Self::Zstd { inner }
}
pub(crate) fn identity(inner: B) -> Self {
Self::Identity { inner }
}
}
impl<B> Body for CompressionBody<B>
where
B: Body,
B::Error: Into<BoxError>,
{
type Data = Bytes;
type Error = BoxError;
fn poll_data(
self: Pin<&mut Self>,
cx: &mut Context<'_>,
) -> Poll<Option<Result<Self::Data, Self::Error>>> {
match self.project().inner.project() {
#[cfg(feature = "compression-gzip")]
BodyInnerProj::Gzip { inner } => inner.poll_data(cx),
#[cfg(feature = "compression-deflate")]
BodyInnerProj::Deflate { inner } => inner.poll_data(cx),
#[cfg(feature = "compression-br")]
BodyInnerProj::Brotli { inner } => inner.poll_data(cx),
#[cfg(feature = "compression-zstd")]
BodyInnerProj::Zstd { inner } => inner.poll_data(cx),
BodyInnerProj::Identity { inner } => match ready!(inner.poll_data(cx)) {
Some(Ok(mut buf)) => {
let bytes = buf.copy_to_bytes(buf.remaining());
Poll::Ready(Some(Ok(bytes)))
}
Some(Err(err)) => Poll::Ready(Some(Err(err.into()))),
None => Poll::Ready(None),
},
}
}
fn poll_trailers(
self: Pin<&mut Self>,
cx: &mut Context<'_>,
) -> Poll<Result<Option<HeaderMap>, Self::Error>> {
match self.project().inner.project() {
#[cfg(feature = "compression-gzip")]
BodyInnerProj::Gzip { inner } => inner.poll_trailers(cx),
#[cfg(feature = "compression-deflate")]
BodyInnerProj::Deflate { inner } => inner.poll_trailers(cx),
#[cfg(feature = "compression-br")]
BodyInnerProj::Brotli { inner } => inner.poll_trailers(cx),
#[cfg(feature = "compression-zstd")]
BodyInnerProj::Zstd { inner } => inner.poll_trailers(cx),
BodyInnerProj::Identity { inner } => inner.poll_trailers(cx).map_err(Into::into),
}
}
}
#[cfg(feature = "compression-gzip")]
impl<B> DecorateAsyncRead for GzipEncoder<B>
where
B: Body,
{
type Input = AsyncReadBody<B>;
type Output = GzipEncoder<Self::Input>;
fn apply(input: Self::Input, quality: CompressionLevel) -> Self::Output {
GzipEncoder::with_quality(input, quality.into_async_compression())
}
fn get_pin_mut(pinned: Pin<&mut Self::Output>) -> Pin<&mut Self::Input> {
pinned.get_pin_mut()
}
}
#[cfg(feature = "compression-deflate")]
impl<B> DecorateAsyncRead for ZlibEncoder<B>
where
B: Body,
{
type Input = AsyncReadBody<B>;
type Output = ZlibEncoder<Self::Input>;
fn apply(input: Self::Input, quality: CompressionLevel) -> Self::Output {
ZlibEncoder::with_quality(input, quality.into_async_compression())
}
fn get_pin_mut(pinned: Pin<&mut Self::Output>) -> Pin<&mut Self::Input> {
pinned.get_pin_mut()
}
}
#[cfg(feature = "compression-br")]
impl<B> DecorateAsyncRead for BrotliEncoder<B>
where
B: Body,
{
type Input = AsyncReadBody<B>;
type Output = BrotliEncoder<Self::Input>;
fn apply(input: Self::Input, quality: CompressionLevel) -> Self::Output {
let level = match quality {
CompressionLevel::Default => async_compression::Level::Precise(4),
other => other.into_async_compression(),
};
BrotliEncoder::with_quality(input, level)
}
fn get_pin_mut(pinned: Pin<&mut Self::Output>) -> Pin<&mut Self::Input> {
pinned.get_pin_mut()
}
}
#[cfg(feature = "compression-zstd")]
impl<B> DecorateAsyncRead for ZstdEncoder<B>
where
B: Body,
{
type Input = AsyncReadBody<B>;
type Output = ZstdEncoder<Self::Input>;
fn apply(input: Self::Input, quality: CompressionLevel) -> Self::Output {
ZstdEncoder::with_quality(input, quality.into_async_compression())
}
fn get_pin_mut(pinned: Pin<&mut Self::Output>) -> Pin<&mut Self::Input> {
pinned.get_pin_mut()
}
}