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ladybird/Libraries/LibWeb/Compression/DecompressionStream.cpp
Timothy Flynn a9ddd427cb LibWeb: Move ReadableStream AOs into their own file 
The main streams AO file has gotten very large, and is a bit difficult
to navigate. In an effort to improve DX, this migrates ReadableStream
AOs to their own file. And the helper classes used for the tee and pipe-
to operations are also in their own files.
2025-04-18 06:55:40 -04:00

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/*
* Copyright (c) 2024, Tim Flynn <trflynn89@ladybird.org>
* Copyright (c) 2025, Altomani Gianluca <altomanigianluca@gmail.com>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <LibCompress/Deflate.h>
#include <LibCompress/Gzip.h>
#include <LibCompress/Zlib.h>
#include <LibJS/Runtime/ArrayBuffer.h>
#include <LibJS/Runtime/Realm.h>
#include <LibJS/Runtime/TypedArray.h>
#include <LibWeb/Bindings/DecompressionStreamPrototype.h>
#include <LibWeb/Bindings/ExceptionOrUtils.h>
#include <LibWeb/Bindings/Intrinsics.h>
#include <LibWeb/Compression/DecompressionStream.h>
#include <LibWeb/Streams/TransformStream.h>
#include <LibWeb/WebIDL/AbstractOperations.h>
namespace Web::Compression {
GC_DEFINE_ALLOCATOR(DecompressionStream);
// https://compression.spec.whatwg.org/#dom-decompressionstream-decompressionstream
WebIDL::ExceptionOr<GC::Ref<DecompressionStream>> DecompressionStream::construct_impl(JS::Realm& realm, Bindings::CompressionFormat format)
{
// 1. If format is unsupported in DecompressionStream, then throw a TypeError.
// 2. Set this's format to format.
auto input_stream = make<AllocatingMemoryStream>();
auto decompressor = [&, input_stream = MaybeOwned<Stream> { *input_stream }]() mutable -> ErrorOr<Decompressor> {
switch (format) {
case Bindings::CompressionFormat::Deflate:
return TRY(Compress::ZlibDecompressor::create(move(input_stream)));
case Bindings::CompressionFormat::DeflateRaw:
return TRY(Compress::DeflateDecompressor::create(move(input_stream)));
case Bindings::CompressionFormat::Gzip:
return TRY(Compress::GzipDecompressor::create((move(input_stream))));
}
VERIFY_NOT_REACHED();
}();
if (decompressor.is_error())
return WebIDL::SimpleException { WebIDL::SimpleExceptionType::TypeError, MUST(String::formatted("Unable to create decompressor: {}", decompressor.error())) };
// 5. Set this's transform to a new TransformStream.
// NOTE: We do this first so that we may store it as nonnull in the GenericTransformStream.
auto stream = realm.create<DecompressionStream>(realm, realm.create<Streams::TransformStream>(realm), decompressor.release_value(), move(input_stream));
// 3. Let transformAlgorithm be an algorithm which takes a chunk argument and runs the decompress and enqueue a chunk
// algorithm with this and chunk.
auto transform_algorithm = GC::create_function(realm.heap(), [stream](JS::Value chunk) -> GC::Ref<WebIDL::Promise> {
auto& realm = stream->realm();
auto& vm = realm.vm();
if (auto result = stream->decompress_and_enqueue_chunk(chunk); result.is_error()) {
auto throw_completion = Bindings::exception_to_throw_completion(vm, result.exception());
return WebIDL::create_rejected_promise(realm, throw_completion.release_value());
}
return WebIDL::create_resolved_promise(realm, JS::js_undefined());
});
// 4. Let flushAlgorithm be an algorithm which takes no argument and runs the decompress flush and enqueue algorithm with this.
auto flush_algorithm = GC::create_function(realm.heap(), [stream]() -> GC::Ref<WebIDL::Promise> {
auto& realm = stream->realm();
auto& vm = realm.vm();
if (auto result = stream->decompress_flush_and_enqueue(); result.is_error()) {
auto throw_completion = Bindings::exception_to_throw_completion(vm, result.exception());
return WebIDL::create_rejected_promise(realm, throw_completion.release_value());
}
return WebIDL::create_resolved_promise(realm, JS::js_undefined());
});
// 6. Set up this's transform with transformAlgorithm set to transformAlgorithm and flushAlgorithm set to flushAlgorithm.
stream->m_transform->set_up(transform_algorithm, flush_algorithm);
return stream;
}
DecompressionStream::DecompressionStream(JS::Realm& realm, GC::Ref<Streams::TransformStream> transform, Decompressor decompressor, NonnullOwnPtr<AllocatingMemoryStream> input_stream)
: Bindings::PlatformObject(realm)
, Streams::GenericTransformStreamMixin(transform)
, m_decompressor(move(decompressor))
, m_input_stream(move(input_stream))
{
}
DecompressionStream::~DecompressionStream() = default;
void DecompressionStream::initialize(JS::Realm& realm)
{
Base::initialize(realm);
WEB_SET_PROTOTYPE_FOR_INTERFACE(DecompressionStream);
}
void DecompressionStream::visit_edges(JS::Cell::Visitor& visitor)
{
Base::visit_edges(visitor);
Streams::GenericTransformStreamMixin::visit_edges(visitor);
}
// https://compression.spec.whatwg.org/#decompress-and-enqueue-a-chunk
WebIDL::ExceptionOr<void> DecompressionStream::decompress_and_enqueue_chunk(JS::Value chunk)
{
auto& realm = this->realm();
// 1. If chunk is not a BufferSource type, then throw a TypeError.
if (!WebIDL::is_buffer_source_type(chunk))
return WebIDL::SimpleException { WebIDL::SimpleExceptionType::TypeError, "Chunk is not a BufferSource type"sv };
// 2. Let buffer be the result of decompressing chunk with ds's format and context. If this results in an error,
// then throw a TypeError.
auto maybe_buffer = [&]() -> ErrorOr<ByteBuffer> {
auto chunk_buffer = TRY(WebIDL::get_buffer_source_copy(chunk.as_object()));
TRY(m_input_stream->write_until_depleted(move(chunk_buffer)));
auto decompressed = TRY(ByteBuffer::create_uninitialized(4096));
auto size = TRY(m_decompressor.visit([&](auto const& decompressor) -> ErrorOr<size_t> {
return TRY(decompressor->read_some(decompressed.bytes())).size();
}));
return decompressed.slice(0, size);
}();
if (maybe_buffer.is_error())
return WebIDL::SimpleException { WebIDL::SimpleExceptionType::TypeError, MUST(String::formatted("Unable to decompress chunk: {}", maybe_buffer.error())) };
auto buffer = maybe_buffer.release_value();
// 3. If buffer is empty, return.
if (buffer.is_empty())
return {};
// 4. Split buffer into one or more non-empty pieces and convert them into Uint8Arrays.
auto array_buffer = JS::ArrayBuffer::create(realm, move(buffer));
auto array = JS::Uint8Array::create(realm, array_buffer->byte_length(), *array_buffer);
// 5. For each Uint8Array array, enqueue array in ds's transform.
m_transform->enqueue(array);
return {};
}
// https://compression.spec.whatwg.org/#decompress-flush-and-enqueue
WebIDL::ExceptionOr<void> DecompressionStream::decompress_flush_and_enqueue()
{
auto& realm = this->realm();
// 1. Let buffer be the result of decompressing an empty input with ds's format and context, with the finish flag.
auto maybe_buffer = m_decompressor.visit([&](auto const& decompressor) -> ErrorOr<ByteBuffer> {
return TRY(decompressor->read_until_eof());
});
if (maybe_buffer.is_error())
return WebIDL::SimpleException { WebIDL::SimpleExceptionType::TypeError, MUST(String::formatted("Unable to compress flush: {}", maybe_buffer.error())) };
auto buffer = maybe_buffer.release_value();
// 2. If the end of the compressed input has not been reached, then throw a TypeError.
if (m_decompressor.visit([](auto const& decompressor) { return !decompressor->is_eof(); }))
return WebIDL::SimpleException { WebIDL::SimpleExceptionType::TypeError, "End of compressed input has not been reached"sv };
// 3. If buffer is empty, return.
if (buffer.is_empty())
return {};
// 4. Split buffer into one or more non-empty pieces and convert them into Uint8Arrays.
auto array_buffer = JS::ArrayBuffer::create(realm, move(buffer));
auto array = JS::Uint8Array::create(realm, array_buffer->byte_length(), *array_buffer);
// 5. For each Uint8Array array, enqueue array in ds's transform.
m_transform->enqueue(array);
return {};
}
}
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