/* * Copyright (c) 2018-2020, Andreas Kling * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include #include namespace Requests { RequestClient::RequestClient(NonnullOwnPtr transport) : IPC::ConnectionToServer(*this, move(transport)) { } RequestClient::~RequestClient() = default; void RequestClient::die() { for (auto& [id, request] : m_requests) { if (request) request->did_finish({}, {}, {}, NetworkError::RequestServerDied); } for (auto& [id, promise] : m_pending_cache_size_estimations) promise->reject(Error::from_string_literal("RequestServer process died")); m_requests.clear(); m_pending_cache_size_estimations.clear(); } RefPtr RequestClient::start_request(ByteString const& method, URL::URL const& url, Optional request_headers, ReadonlyBytes request_body, HTTP::CacheMode cache_mode, HTTP::Cookie::IncludeCredentials include_credentials, Core::ProxyData const& proxy_data) { auto request_id = m_next_request_id++; auto headers = request_headers.map([](auto const& headers) { return headers.headers().span(); }).value_or({}); IPCProxy::async_start_request(request_id, method, url, headers, request_body, cache_mode, include_credentials, proxy_data); auto request = Request::create_from_id({}, *this, request_id); m_requests.set(request_id, request); return request; } bool RequestClient::stop_request(Badge, Request& request) { if (!m_requests.contains(request.id())) return false; return IPCProxy::stop_request(request.id()); } void RequestClient::ensure_connection(URL::URL const& url, RequestServer::CacheLevel cache_level) { auto request_id = m_next_request_id++; async_ensure_connection(request_id, url, cache_level); } bool RequestClient::set_certificate(Badge, Request& request, ByteString certificate, ByteString key) { if (!m_requests.contains(request.id())) return false; return IPCProxy::set_certificate(request.id(), move(certificate), move(key)); } NonnullRefPtr> RequestClient::estimate_cache_size_accessed_since(UnixDateTime since) { auto promise = Core::Promise::construct(); auto cache_size_estimation_id = m_next_cache_size_estimation_id++; m_pending_cache_size_estimations.set(cache_size_estimation_id, promise); async_estimate_cache_size_accessed_since(cache_size_estimation_id, since); return promise; } void RequestClient::estimated_cache_size(u64 cache_size_estimation_id, CacheSizes sizes) { if (auto promise = m_pending_cache_size_estimations.take(cache_size_estimation_id); promise.has_value()) (*promise)->resolve(sizes); } void RequestClient::request_started(u64 request_id, IPC::File response_file) { auto request = m_requests.get(request_id); if (!request.has_value()) { warnln("Received response for non-existent request {}", request_id); return; } auto response_fd = response_file.take_fd(); request.value()->set_request_fd({}, response_fd); } void RequestClient::request_finished(u64 request_id, u64 total_size, RequestTimingInfo timing_info, Optional network_error) { if (RefPtr request = m_requests.get(request_id).value_or(nullptr)) { request->did_finish({}, total_size, timing_info, network_error); m_requests.remove(request_id); } } void RequestClient::headers_became_available(u64 request_id, Vector response_headers, Optional status_code, Optional reason_phrase) { if (auto request = m_requests.get(request_id); request.has_value()) (*request)->did_receive_headers({}, HTTP::HeaderList::create(move(response_headers)), status_code, reason_phrase); else warnln("Received headers for non-existent request {}", request_id); } void RequestClient::retrieve_http_cookie(int client_id, u64 request_id, URL::URL url) { String cookie; if (on_retrieve_http_cookie) cookie = on_retrieve_http_cookie(url); async_retrieved_http_cookie(client_id, request_id, cookie); } void RequestClient::certificate_requested(u64 request_id) { if (auto request = m_requests.get(request_id); request.has_value()) (*request)->did_request_certificates({}); } RefPtr RequestClient::websocket_connect(URL::URL const& url, ByteString const& origin, Vector const& protocols, Vector const& extensions, HTTP::HeaderList const& request_headers) { auto websocket_id = m_next_websocket_id++; IPCProxy::async_websocket_connect(websocket_id, url, origin, protocols, extensions, request_headers.headers()); auto connection = WebSocket::create_from_id({}, *this, websocket_id); m_websockets.set(websocket_id, connection); return connection; } void RequestClient::websocket_connected(u64 websocket_id) { if (auto connection = m_websockets.get(websocket_id); connection.has_value()) (*connection)->did_open({}); } void RequestClient::websocket_received(u64 websocket_id, bool is_text, ByteBuffer data) { if (auto connection = m_websockets.get(websocket_id); connection.has_value()) (*connection)->did_receive({}, move(data), is_text); } void RequestClient::websocket_errored(u64 websocket_id, i32 message) { if (auto connection = m_websockets.get(websocket_id); connection.has_value()) (*connection)->did_error({}, message); } void RequestClient::websocket_closed(u64 websocket_id, u16 code, ByteString reason, bool clean) { if (auto connection = m_websockets.get(websocket_id); connection.has_value()) (*connection)->did_close({}, code, move(reason), clean); } void RequestClient::websocket_ready_state_changed(u64 websocket_id, u32 ready_state) { VERIFY(ready_state <= static_cast(WebSocket::ReadyState::Closed)); if (auto connection = m_websockets.get(websocket_id); connection.has_value()) (*connection)->set_ready_state(static_cast(ready_state)); } void RequestClient::websocket_subprotocol(u64 websocket_id, ByteString subprotocol) { if (auto connection = m_websockets.get(websocket_id); connection.has_value()) { (*connection)->set_subprotocol_in_use(move(subprotocol)); } } void RequestClient::websocket_certificate_requested(u64 websocket_id) { if (auto connection = m_websockets.get(websocket_id); connection.has_value()) (*connection)->did_request_certificates({}); } }