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use anyhow::{Result, anyhow};
use auto_hash_map::AutoSet;
use futures::{StreamExt, TryStreamExt};
use hyper::{
Request, Response,
header::{CONTENT_ENCODING, CONTENT_LENGTH, HeaderName},
http::HeaderValue,
};
use mime::Mime;
use tokio_util::io::{ReaderStream, StreamReader};
use turbo_tasks::{
CollectiblesSource, OperationVc, ReadRef, ResolvedVc, TransientInstance, Vc, apply_effects,
util::SharedError,
};
use turbo_tasks_bytes::Bytes;
use turbo_tasks_fs::FileContent;
use turbopack_core::{
asset::AssetContent,
issue::{IssueReporter, IssueSeverity, handle_issues},
version::VersionedContent,
};
use crate::source::{
Body, ContentSource, ContentSourceSideEffect, HeaderList, ProxyResult,
request::SourceRequest,
resolve::{ResolveSourceRequestResult, resolve_source_request},
};
#[turbo_tasks::value(serialization = "none")]
enum GetFromSourceResult {
Static {
content: ReadRef<FileContent>,
status_code: u16,
headers: ReadRef<HeaderList>,
header_overwrites: ReadRef<HeaderList>,
},
HttpProxy(ReadRef<ProxyResult>),
NotFound,
}
/// Resolves a [SourceRequest] within a [super::ContentSource], returning the
/// corresponding content as a
#[turbo_tasks::function(operation)]
async fn get_from_source_operation(
source: OperationVc<Box<dyn ContentSource>>,
request: TransientInstance<SourceRequest>,
) -> Result<Vc<GetFromSourceResult>> {
Ok(
match &*resolve_source_request(source, request).connect().await? {
ResolveSourceRequestResult::Static(static_content_vc, header_overwrites) => {
let static_content = static_content_vc.await?;
if let AssetContent::File(file) = &*static_content.content.content().await? {
GetFromSourceResult::Static {
content: file.await?,
status_code: static_content.status_code,
headers: static_content.headers.await?,
header_overwrites: header_overwrites.await?,
}
} else {
GetFromSourceResult::NotFound
}
}
ResolveSourceRequestResult::HttpProxy(proxy) => {
GetFromSourceResult::HttpProxy(proxy.connect().await?)
}
ResolveSourceRequestResult::NotFound => GetFromSourceResult::NotFound,
}
.cell(),
)
}
/// Processes an HTTP request within a given content source and returns the
/// response.
pub async fn process_request_with_content_source(
source: OperationVc<Box<dyn ContentSource>>,
request: Request<hyper::Body>,
issue_reporter: Vc<Box<dyn IssueReporter>>,
) -> Result<(
Response<hyper::Body>,
AutoSet<ResolvedVc<Box<dyn ContentSourceSideEffect>>>,
)> {
let original_path = request.uri().path().to_string();
let request = http_request_to_source_request(request).await?;
let result_op = get_from_source_operation(source, TransientInstance::new(request));
let resolved_result = result_op.resolve_strongly_consistent().await?;
apply_effects(result_op).await?;
let side_effects: AutoSet<ResolvedVc<Box<dyn ContentSourceSideEffect>>> =
result_op.peek_collectibles();
handle_issues(
result_op,
issue_reporter,
IssueSeverity::Fatal,
Some(&original_path),
Some("get_from_source_operation"),
)
.await?;
match &*resolved_result.await? {
GetFromSourceResult::Static {
content,
status_code,
headers,
header_overwrites,
} => {
if let FileContent::Content(file) = &**content {
let mut response = Response::builder().status(*status_code);
let header_map = response.headers_mut().expect("headers must be defined");
for (header_name, header_value) in headers {
header_map.append(
HeaderName::try_from(header_name.as_str())?,
hyper::header::HeaderValue::try_from(header_value.as_str())?,
);
}
for (header_name, header_value) in header_overwrites.iter() {
header_map.insert(
HeaderName::try_from(header_name.as_str())?,
hyper::header::HeaderValue::try_from(header_value.as_str())?,
);
}
// naively checking if content is `compressible`.
let mut should_compress = false;
let should_compress_predicate = |mime: &Mime| {
matches!(
(mime.type_(), mime.subtype(), mime.suffix()),
(_, mime::PLAIN, _)
| (_, mime::JSON, _)
| (mime::TEXT, _, _)
| (mime::APPLICATION, mime::XML, _)
| (mime::APPLICATION, mime::JAVASCRIPT, _)
| (_, _, Some(mime::XML))
| (_, _, Some(mime::JSON))
| (_, _, Some(mime::TEXT))
)
};
if let Some(content_type) = file.content_type() {
header_map.append(
"content-type",
hyper::header::HeaderValue::try_from(content_type.to_string())?,
);
should_compress = should_compress_predicate(content_type);
} else if let hyper::header::Entry::Vacant(entry) = header_map.entry("content-type")
{
let guess = mime_guess::from_path(&original_path).first_or_octet_stream();
should_compress = should_compress_predicate(&guess);
// If a text type, application/javascript, or application/json was
// guessed, use a utf-8 charset as we most likely generated it as
// such.
entry.insert(hyper::header::HeaderValue::try_from(
if (guess.type_() == mime::TEXT
|| guess.subtype() == mime::JAVASCRIPT
|| guess.subtype() == mime::JSON)
&& guess.get_param("charset").is_none()
{
guess.to_string() + "; charset=utf-8"
} else {
guess.to_string()
},
)?);
}
if !header_map.contains_key("cache-control") {
// The dev server contents might change at any time, we can't cache them.
header_map.append(
"cache-control",
hyper::header::HeaderValue::try_from("must-revalidate")?,
);
}
let content = file.content();
let response = if should_compress {
header_map.insert(CONTENT_ENCODING, HeaderValue::from_static("gzip"));
// Grab ropereader stream, coerce anyhow::Error to std::io::Error
let stream_ext = content.read().into_stream().map_err(std::io::Error::other);
let gzipped_stream =
ReaderStream::new(async_compression::tokio::bufread::GzipEncoder::new(
StreamReader::new(stream_ext),
));
response.body(hyper::Body::wrap_stream(gzipped_stream))?
} else {
header_map.insert(
CONTENT_LENGTH,
hyper::header::HeaderValue::try_from(content.len().to_string())?,
);
response.body(hyper::Body::wrap_stream(content.read()))?
};
return Ok((response, side_effects));
}
}
GetFromSourceResult::HttpProxy(proxy_result) => {
let mut response = Response::builder().status(proxy_result.status);
let headers = response.headers_mut().expect("headers must be defined");
for (name, value) in &proxy_result.headers {
headers.append(
HeaderName::from_bytes(name.as_bytes())?,
hyper::header::HeaderValue::from_str(value)?,
);
}
return Ok((
response.body(hyper::Body::wrap_stream(proxy_result.body.read()))?,
side_effects,
));
}
GetFromSourceResult::NotFound => {}
}
Ok((
Response::builder().status(404).body(hyper::Body::empty())?,
side_effects,
))
}
async fn http_request_to_source_request(request: Request<hyper::Body>) -> Result<SourceRequest> {
let (parts, body) = request.into_parts();
// For simplicity, we fully consume the body now and early return if there were
// any errors.
let bytes: Vec<_> = body
.map(|bytes| {
bytes.map_or_else(
|e| Err(SharedError::new(anyhow!(e))),
// The outer Ok is consumed by try_collect, but the Body type requires a Result, so
// we need to double wrap.
|b| Ok(Ok(Bytes::from(b))),
)
})
.try_collect::<Vec<_>>()
.await?;
Ok(SourceRequest {
method: parts.method.to_string(),
uri: parts.uri,
headers: parts.headers,
body: Body::new(bytes),
})
}
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