mirror of
https://github.com/LadybirdBrowser/ladybird
synced 2026-05-12 09:56:45 +02:00
1d7825f601
Convert DNS failures and connecting-stage close requests into terminal websocket state changes, and remove websocket entries once they close. This keeps clients from getting stuck in CONNECTING and makes early cancelled or failed websocket attempts terminate like the other close paths.
185 lines
6.7 KiB
C++
185 lines
6.7 KiB
C++
/*
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* Copyright (c) 2018-2020, Andreas Kling <andreas@ladybird.org>
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*
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* SPDX-License-Identifier: BSD-2-Clause
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*/
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#include <LibCore/Promise.h>
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#include <LibCore/System.h>
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#include <LibRequests/Request.h>
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#include <LibRequests/RequestClient.h>
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namespace Requests {
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RequestClient::RequestClient(NonnullOwnPtr<IPC::Transport> transport)
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: IPC::ConnectionToServer<RequestClientEndpoint, RequestServerEndpoint>(*this, move(transport))
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{
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}
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RequestClient::~RequestClient() = default;
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void RequestClient::die()
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{
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for (auto& [id, request] : m_requests) {
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if (request)
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request->did_finish({}, {}, {}, NetworkError::RequestServerDied);
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}
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for (auto& [id, promise] : m_pending_cache_size_estimations)
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promise->reject(Error::from_string_literal("RequestServer process died"));
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m_requests.clear();
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m_pending_cache_size_estimations.clear();
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}
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RefPtr<Request> RequestClient::start_request(ByteString const& method, URL::URL const& url, Optional<HTTP::HeaderList const&> request_headers, ReadonlyBytes request_body, HTTP::CacheMode cache_mode, HTTP::Cookie::IncludeCredentials include_credentials, Core::ProxyData const& proxy_data)
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{
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auto request_id = m_next_request_id++;
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auto headers = request_headers.map([](auto const& headers) { return headers.headers().span(); }).value_or({});
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IPCProxy::async_start_request(request_id, method, url, headers, request_body, cache_mode, include_credentials, proxy_data);
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auto request = Request::create_from_id({}, *this, request_id);
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m_requests.set(request_id, request);
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return request;
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}
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bool RequestClient::stop_request(Badge<Request>, Request& request)
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{
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if (!m_requests.contains(request.id()))
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return false;
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return IPCProxy::stop_request(request.id());
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}
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void RequestClient::ensure_connection(URL::URL const& url, RequestServer::CacheLevel cache_level)
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{
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auto request_id = m_next_request_id++;
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async_ensure_connection(request_id, url, cache_level);
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}
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bool RequestClient::set_certificate(Badge<Request>, Request& request, ByteString certificate, ByteString key)
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{
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if (!m_requests.contains(request.id()))
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return false;
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return IPCProxy::set_certificate(request.id(), move(certificate), move(key));
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}
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NonnullRefPtr<Core::Promise<CacheSizes>> RequestClient::estimate_cache_size_accessed_since(UnixDateTime since)
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{
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auto promise = Core::Promise<CacheSizes>::construct();
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auto cache_size_estimation_id = m_next_cache_size_estimation_id++;
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m_pending_cache_size_estimations.set(cache_size_estimation_id, promise);
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async_estimate_cache_size_accessed_since(cache_size_estimation_id, since);
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return promise;
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}
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void RequestClient::estimated_cache_size(u64 cache_size_estimation_id, CacheSizes sizes)
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{
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if (auto promise = m_pending_cache_size_estimations.take(cache_size_estimation_id); promise.has_value())
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(*promise)->resolve(sizes);
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}
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void RequestClient::request_started(u64 request_id, IPC::File response_file)
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{
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auto request = m_requests.get(request_id);
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if (!request.has_value()) {
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warnln("Received response for non-existent request {}", request_id);
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return;
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}
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auto response_fd = response_file.take_fd();
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request.value()->set_request_fd({}, response_fd);
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}
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void RequestClient::request_finished(u64 request_id, u64 total_size, RequestTimingInfo timing_info, Optional<NetworkError> network_error)
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{
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if (RefPtr<Request> request = m_requests.get(request_id).value_or(nullptr)) {
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request->did_finish({}, total_size, timing_info, network_error);
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m_requests.remove(request_id);
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}
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}
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void RequestClient::headers_became_available(u64 request_id, Vector<HTTP::Header> response_headers, Optional<u32> status_code, Optional<String> reason_phrase)
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{
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if (auto request = m_requests.get(request_id); request.has_value())
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(*request)->did_receive_headers({}, HTTP::HeaderList::create(move(response_headers)), status_code, reason_phrase);
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else
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warnln("Received headers for non-existent request {}", request_id);
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}
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void RequestClient::retrieve_http_cookie(int client_id, u64 request_id, RequestServer::RequestType request_type, URL::URL url)
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{
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String cookie;
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if (on_retrieve_http_cookie)
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cookie = on_retrieve_http_cookie(url);
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async_retrieved_http_cookie(client_id, request_id, request_type, cookie);
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}
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void RequestClient::certificate_requested(u64 request_id)
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{
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if (auto request = m_requests.get(request_id); request.has_value())
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(*request)->did_request_certificates({});
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}
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RefPtr<WebSocket> RequestClient::websocket_connect(URL::URL const& url, ByteString const& origin, Vector<ByteString> const& protocols, Vector<ByteString> const& extensions, HTTP::HeaderList const& request_headers)
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{
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auto websocket_id = m_next_websocket_id++;
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IPCProxy::async_websocket_connect(websocket_id, url, origin, protocols, extensions, request_headers.headers());
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auto connection = WebSocket::create_from_id({}, *this, websocket_id);
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m_websockets.set(websocket_id, connection);
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return connection;
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}
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void RequestClient::websocket_connected(u64 websocket_id)
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{
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if (auto connection = m_websockets.get(websocket_id); connection.has_value())
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(*connection)->did_open({});
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}
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void RequestClient::websocket_received(u64 websocket_id, bool is_text, ByteBuffer data)
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{
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if (auto connection = m_websockets.get(websocket_id); connection.has_value())
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(*connection)->did_receive({}, move(data), is_text);
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}
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void RequestClient::websocket_errored(u64 websocket_id, i32 message)
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{
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if (auto connection = m_websockets.get(websocket_id); connection.has_value())
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(*connection)->did_error({}, message);
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}
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void RequestClient::websocket_closed(u64 websocket_id, u16 code, ByteString reason, bool clean)
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{
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if (auto connection = m_websockets.take(websocket_id); connection.has_value()) {
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(*connection)->set_ready_state(WebSocket::ReadyState::Closed);
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(*connection)->did_close({}, code, move(reason), clean);
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}
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}
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void RequestClient::websocket_ready_state_changed(u64 websocket_id, u32 ready_state)
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{
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VERIFY(ready_state <= static_cast<u32>(WebSocket::ReadyState::Closed));
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if (auto connection = m_websockets.get(websocket_id); connection.has_value())
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(*connection)->set_ready_state(static_cast<WebSocket::ReadyState>(ready_state));
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}
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void RequestClient::websocket_subprotocol(u64 websocket_id, ByteString subprotocol)
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{
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if (auto connection = m_websockets.get(websocket_id); connection.has_value()) {
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(*connection)->set_subprotocol_in_use(move(subprotocol));
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}
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}
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void RequestClient::websocket_certificate_requested(u64 websocket_id)
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{
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if (auto connection = m_websockets.get(websocket_id); connection.has_value())
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(*connection)->did_request_certificates({});
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}
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}
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