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/*
* Copyright (c) 2018-2020, Andreas Kling <kling@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/Debug.h>
#include <LibCompress/Gzip.h>
#include <LibCompress/Zlib.h>
#include <LibCore/Event.h>
#include <LibCore/TCPSocket.h>
#include <LibHTTP/HttpResponse.h>
#include <LibHTTP/Job.h>
#include <stdio.h>
#include <unistd.h>
namespace HTTP {
static ByteBuffer handle_content_encoding(const ByteBuffer& buf, const String& content_encoding)
{
dbgln_if(JOB_DEBUG, "Job::handle_content_encoding: buf has content_encoding={}", content_encoding);
if (content_encoding == "gzip") {
if (!Compress::GzipDecompressor::is_likely_compressed(buf)) {
dbgln("Job::handle_content_encoding: buf is not gzip compressed!");
}
dbgln_if(JOB_DEBUG, "Job::handle_content_encoding: buf is gzip compressed!");
auto uncompressed = Compress::GzipDecompressor::decompress_all(buf);
if (!uncompressed.has_value()) {
dbgln("Job::handle_content_encoding: Gzip::decompress() failed. Returning original buffer.");
return buf;
}
if constexpr (JOB_DEBUG) {
dbgln("Job::handle_content_encoding: Gzip::decompress() successful.");
dbgln(" Input size: {}", buf.size());
dbgln(" Output size: {}", uncompressed.value().size());
}
return uncompressed.value();
} else if (content_encoding == "deflate") {
dbgln_if(JOB_DEBUG, "Job::handle_content_encoding: buf is deflate compressed!");
// Even though the content encoding is "deflate", it's actually deflate with the zlib wrapper.
// https://tools.ietf.org/html/rfc7230#section-4.2.2
auto uncompressed = Compress::Zlib::decompress_all(buf);
if (!uncompressed.has_value()) {
// From the RFC:
// "Note: Some non-conformant implementations send the "deflate"
// compressed data without the zlib wrapper."
dbgln_if(JOB_DEBUG, "Job::handle_content_encoding: Zlib::decompress_all() failed. Trying DeflateDecompressor::decompress_all()");
uncompressed = Compress::DeflateDecompressor::decompress_all(buf);
if (!uncompressed.has_value()) {
dbgln("Job::handle_content_encoding: DeflateDecompressor::decompress_all() failed, returning original buffer.");
return buf;
}
}
if constexpr (JOB_DEBUG) {
dbgln("Job::handle_content_encoding: Deflate decompression successful.");
dbgln(" Input size: {}", buf.size());
dbgln(" Output size: {}", uncompressed.value().size());
}
return uncompressed.value();
}
return buf;
}
Job::Job(const HttpRequest& request, OutputStream& output_stream)
: Core::NetworkJob(output_stream)
, m_request(request)
{
}
Job::~Job()
{
}
void Job::flush_received_buffers()
{
if (!m_can_stream_response || m_buffered_size == 0)
return;
dbgln_if(JOB_DEBUG, "Job: Flushing received buffers: have {} bytes in {} buffers", m_buffered_size, m_received_buffers.size());
for (size_t i = 0; i < m_received_buffers.size(); ++i) {
auto& payload = m_received_buffers[i];
auto written = do_write(payload);
m_buffered_size -= written;
if (written == payload.size()) {
// FIXME: Make this a take-first-friendly object?
m_received_buffers.take_first();
--i;
continue;
}
VERIFY(written < payload.size());
payload = payload.slice(written, payload.size() - written);
break;
}
dbgln_if(JOB_DEBUG, "Job: Flushing received buffers done: have {} bytes in {} buffers", m_buffered_size, m_received_buffers.size());
}
void Job::on_socket_connected()
{
register_on_ready_to_write([&] {
if (m_sent_data)
return;
m_sent_data = true;
auto raw_request = m_request.to_raw_request();
if constexpr (JOB_DEBUG) {
dbgln("Job: raw_request:");
dbgln("{}", String::copy(raw_request));
}
bool success = write(raw_request);
if (!success)
deferred_invoke([this] { did_fail(Core::NetworkJob::Error::TransmissionFailed); });
});
register_on_ready_to_read([&] {
if (is_cancelled())
return;
if (m_state == State::Finished) {
// We have everything we want, at this point, we can either get an EOF, or a bunch of extra newlines
// (unless "Connection: close" isn't specified)
// So just ignore everything after this.
return;
}
if (m_state == State::InStatus) {
if (!can_read_line())
return;
auto line = read_line(PAGE_SIZE);
if (line.is_null()) {
dbgln("Job: Expected HTTP status");
return deferred_invoke([this] { did_fail(Core::NetworkJob::Error::TransmissionFailed); });
}
auto parts = line.split_view(' ');
if (parts.size() < 3) {
dbgln("Job: Expected 3-part HTTP status, got '{}'", line);
return deferred_invoke([this] { did_fail(Core::NetworkJob::Error::ProtocolFailed); });
}
auto code = parts[1].to_uint();
if (!code.has_value()) {
dbgln("Job: Expected numeric HTTP status");
return deferred_invoke([this] { did_fail(Core::NetworkJob::Error::ProtocolFailed); });
}
m_code = code.value();
m_state = State::InHeaders;
return;
}
if (m_state == State::InHeaders || m_state == State::Trailers) {
if (!can_read_line())
return;
auto line = read_line(PAGE_SIZE);
if (line.is_null()) {
if (m_state == State::Trailers) {
// Some servers like to send two ending chunks
// use this fact as an excuse to ignore anything after the last chunk
// that is not a valid trailing header.
return finish_up();
}
dbgln("Job: Expected HTTP header");
return did_fail(Core::NetworkJob::Error::ProtocolFailed);
}
if (line.is_empty()) {
if (m_state == State::Trailers) {
return finish_up();
} else {
if (on_headers_received)
on_headers_received(m_headers, m_code > 0 ? m_code : Optional<u32> {});
m_state = State::InBody;
}
return;
}
auto parts = line.split_view(':');
if (parts.is_empty()) {
if (m_state == State::Trailers) {
// Some servers like to send two ending chunks
// use this fact as an excuse to ignore anything after the last chunk
// that is not a valid trailing header.
return finish_up();
}
dbgln("Job: Expected HTTP header with key/value");
return deferred_invoke([this] { did_fail(Core::NetworkJob::Error::ProtocolFailed); });
}
auto name = parts[0];
if (line.length() < name.length() + 2) {
if (m_state == State::Trailers) {
// Some servers like to send two ending chunks
// use this fact as an excuse to ignore anything after the last chunk
// that is not a valid trailing header.
return finish_up();
}
dbgln("Job: Malformed HTTP header: '{}' ({})", line, line.length());
return deferred_invoke([this] { did_fail(Core::NetworkJob::Error::ProtocolFailed); });
}
auto value = line.substring(name.length() + 2, line.length() - name.length() - 2);
m_headers.set(name, value);
if (name.equals_ignoring_case("Content-Encoding")) {
// Assume that any content-encoding means that we can't decode it as a stream :(
dbgln_if(JOB_DEBUG, "Content-Encoding {} detected, cannot stream output :(", value);
m_can_stream_response = false;
}
dbgln_if(JOB_DEBUG, "Job: [{}] = '{}'", name, value);
return;
}
VERIFY(m_state == State::InBody);
VERIFY(can_read());
read_while_data_available([&] {
auto read_size = 64 * KiB;
if (m_current_chunk_remaining_size.has_value()) {
read_chunk_size:;
auto remaining = m_current_chunk_remaining_size.value();
if (remaining == -1) {
// read size
auto size_data = read_line(PAGE_SIZE);
if (m_should_read_chunk_ending_line) {
VERIFY(size_data.is_empty());
m_should_read_chunk_ending_line = false;
return IterationDecision::Continue;
}
auto size_lines = size_data.view().lines();
dbgln_if(JOB_DEBUG, "Job: Received a chunk with size '{}'", size_data);
if (size_lines.size() == 0) {
dbgln("Job: Reached end of stream");
finish_up();
return IterationDecision::Break;
} else {
auto chunk = size_lines[0].split_view(';', true);
String size_string = chunk[0];
char* endptr;
auto size = strtoul(size_string.characters(), &endptr, 16);
if (*endptr) {
// invalid number
deferred_invoke([this] { did_fail(Core::NetworkJob::Error::TransmissionFailed); });
return IterationDecision::Break;
}
if (size == 0) {
// This is the last chunk
// '0' *[; chunk-ext-name = chunk-ext-value]
// We're going to ignore _all_ chunk extensions
read_size = 0;
m_current_chunk_total_size = 0;
m_current_chunk_remaining_size = 0;
dbgln_if(JOB_DEBUG, "Job: Received the last chunk with extensions '{}'", size_string.substring_view(1, size_string.length() - 1));
} else {
m_current_chunk_total_size = size;
m_current_chunk_remaining_size = size;
read_size = size;
dbgln_if(JOB_DEBUG, "Job: Chunk of size '{}' started", size);
}
}
} else {
read_size = remaining;
dbgln_if(JOB_DEBUG, "Job: Resuming chunk with '{}' bytes left over", remaining);
}
} else {
auto transfer_encoding = m_headers.get("Transfer-Encoding");
if (transfer_encoding.has_value()) {
// Note: Some servers add extra spaces around 'chunked', see #6302.
auto encoding = transfer_encoding.value().trim_whitespace();
dbgln_if(JOB_DEBUG, "Job: This content has transfer encoding '{}'", encoding);
if (encoding.equals_ignoring_case("chunked")) {
m_current_chunk_remaining_size = -1;
goto read_chunk_size;
} else {
dbgln("Job: Unknown transfer encoding '{}', the result will likely be wrong!", encoding);
}
}
}
auto payload = receive(read_size);
if (payload.is_empty()) {
if (eof()) {
finish_up();
return IterationDecision::Break;
}
if (should_fail_on_empty_payload()) {
deferred_invoke([this] { did_fail(Core::NetworkJob::Error::ProtocolFailed); });
return IterationDecision::Break;
}
}
m_received_buffers.append(payload);
m_buffered_size += payload.size();
m_received_size += payload.size();
flush_received_buffers();
if (m_current_chunk_remaining_size.has_value()) {
auto size = m_current_chunk_remaining_size.value() - payload.size();
dbgln_if(JOB_DEBUG, "Job: We have {} bytes left over in this chunk", size);
if (size == 0) {
dbgln_if(JOB_DEBUG, "Job: Finished a chunk of {} bytes", m_current_chunk_total_size.value());
if (m_current_chunk_total_size.value() == 0) {
m_state = State::Trailers;
return IterationDecision::Break;
}
// we've read everything, now let's get the next chunk
size = -1;
if (can_read_line()) {
auto line = read_line(PAGE_SIZE);
VERIFY(line.is_empty());
} else {
m_should_read_chunk_ending_line = true;
}
}
m_current_chunk_remaining_size = size;
}
auto content_length_header = m_headers.get("Content-Length");
Optional<u32> content_length {};
if (content_length_header.has_value()) {
auto length = content_length_header.value().to_uint();
if (length.has_value())
content_length = length.value();
}
deferred_invoke([this, content_length] { did_progress(content_length, m_received_size); });
if (content_length.has_value()) {
auto length = content_length.value();
if (m_received_size >= length) {
m_received_size = length;
finish_up();
return IterationDecision::Break;
}
}
return IterationDecision::Continue;
});
if (!is_established()) {
dbgln_if(JOB_DEBUG, "Connection appears to have closed, finishing up");
finish_up();
}
});
}
void Job::timer_event(Core::TimerEvent& event)
{
event.accept();
finish_up();
if (m_buffered_size == 0)
stop_timer();
}
void Job::finish_up()
{
VERIFY(!m_has_scheduled_finish);
m_state = State::Finished;
if (!m_can_stream_response) {
auto flattened_buffer = ByteBuffer::create_uninitialized(m_received_size).release_value(); // FIXME: Handle possible OOM situation.
u8* flat_ptr = flattened_buffer.data();
for (auto& received_buffer : m_received_buffers) {
memcpy(flat_ptr, received_buffer.data(), received_buffer.size());
flat_ptr += received_buffer.size();
}
m_received_buffers.clear();
// For the time being, we cannot stream stuff with content-encoding set to _anything_.
// FIXME: LibCompress exposes a streaming interface, so this can be resolved
auto content_encoding = m_headers.get("Content-Encoding");
if (content_encoding.has_value()) {
flattened_buffer = handle_content_encoding(flattened_buffer, content_encoding.value());
}
m_buffered_size = flattened_buffer.size();
m_received_buffers.append(move(flattened_buffer));
m_can_stream_response = true;
}
flush_received_buffers();
if (m_buffered_size != 0) {
// We have to wait for the client to consume all the downloaded data
// before we can actually call `did_finish`. in a normal flow, this should
// never be hit since the client is reading as we are writing, unless there
// are too many concurrent downloads going on.
dbgln_if(JOB_DEBUG, "Flush finished with {} bytes remaining, will try again later", m_buffered_size);
if (!has_timer())
start_timer(50);
return;
}
m_has_scheduled_finish = true;
auto response = HttpResponse::create(m_code, move(m_headers));
deferred_invoke([this, response = move(response)] {
did_finish(response);
});
}
}
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