mirror of
https://github.com/LadybirdBrowser/ladybird.git
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323 lines
11 KiB
C++
323 lines
11 KiB
C++
/*
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* Copyright (c) 2020, Ali Mohammad Pur <mpfard@serenityos.org>
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*
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* SPDX-License-Identifier: BSD-2-Clause
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*/
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#include <AK/Debug.h>
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#include <LibCore/DateTime.h>
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#include <LibCore/EventLoop.h>
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#include <LibCore/Promise.h>
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#include <LibCore/Timer.h>
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#include <LibTLS/TLSv12.h>
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// Each record can hold at most 18432 bytes, leaving some headroom and rounding down to
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// a nice number gives us a maximum of 16 KiB for user-supplied application data,
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// which will be sent as a single record containing a single ApplicationData message.
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constexpr static size_t MaximumApplicationDataChunkSize = 16 * KiB;
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namespace TLS {
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ErrorOr<Bytes> TLSv12::read_some(Bytes bytes)
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{
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m_eof = false;
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auto size_to_read = min(bytes.size(), m_context.application_buffer.size());
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if (size_to_read == 0) {
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m_eof = true;
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return Bytes {};
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}
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m_context.application_buffer.transfer(bytes, size_to_read);
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return Bytes { bytes.data(), size_to_read };
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}
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ErrorOr<size_t> TLSv12::write_some(ReadonlyBytes bytes)
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{
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if (m_context.connection_status != ConnectionStatus::Established) {
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dbgln_if(TLS_DEBUG, "write request while not connected");
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return AK::Error::from_string_literal("TLS write request while not connected");
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}
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for (size_t offset = 0; offset < bytes.size(); offset += MaximumApplicationDataChunkSize) {
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PacketBuilder builder { ContentType::APPLICATION_DATA, m_context.options.version, bytes.size() - offset };
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builder.append(bytes.slice(offset, min(bytes.size() - offset, MaximumApplicationDataChunkSize)));
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auto packet = builder.build();
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update_packet(packet);
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write_packet(packet);
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}
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return bytes.size();
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}
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ErrorOr<NonnullOwnPtr<TLSv12>> TLSv12::connect(ByteString const& host, u16 port, Options options)
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{
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auto promise = Core::Promise<Empty>::construct();
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OwnPtr<Core::Socket> tcp_socket = TRY(Core::TCPSocket::connect(host, port));
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TRY(tcp_socket->set_blocking(false));
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auto tls_socket = make<TLSv12>(move(tcp_socket), move(options));
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tls_socket->set_sni(host);
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tls_socket->on_connected = [&] {
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promise->resolve({});
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};
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tls_socket->on_tls_error = [&](auto alert) {
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tls_socket->try_disambiguate_error();
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promise->reject(AK::Error::from_string_view(enum_to_string(alert)));
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};
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TRY(promise->await());
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tls_socket->on_tls_error = nullptr;
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tls_socket->on_connected = nullptr;
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tls_socket->m_context.should_expect_successful_read = true;
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return tls_socket;
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}
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ErrorOr<NonnullOwnPtr<TLSv12>> TLSv12::connect(ByteString const& host, Core::Socket& underlying_stream, Options options)
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{
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auto promise = Core::Promise<Empty>::construct();
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TRY(underlying_stream.set_blocking(false));
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auto tls_socket = make<TLSv12>(&underlying_stream, move(options));
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tls_socket->set_sni(host);
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tls_socket->on_connected = [&] {
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promise->resolve({});
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};
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tls_socket->on_tls_error = [&](auto alert) {
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tls_socket->try_disambiguate_error();
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promise->reject(AK::Error::from_string_view(enum_to_string(alert)));
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};
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TRY(promise->await());
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tls_socket->on_tls_error = nullptr;
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tls_socket->on_connected = nullptr;
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tls_socket->m_context.should_expect_successful_read = true;
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return tls_socket;
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}
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void TLSv12::setup_connection()
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{
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Core::deferred_invoke([this] {
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auto& stream = underlying_stream();
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stream.on_ready_to_read = [this] {
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auto result = read_from_socket();
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if (result.is_error())
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dbgln("Read error: {}", result.error());
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};
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m_handshake_timeout_timer = Core::Timer::create_single_shot(
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m_max_wait_time_for_handshake_in_seconds * 1000, [&] {
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dbgln("Handshake timeout :(");
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auto timeout_diff = Core::DateTime::now().timestamp() - m_context.handshake_initiation_timestamp;
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// If the timeout duration was actually within the max wait time (with a margin of error),
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// we're not operating slow, so the server timed out.
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// otherwise, it's our fault that the negotiation is taking too long, so extend the timer :P
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if (timeout_diff < m_max_wait_time_for_handshake_in_seconds + 1) {
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// The server did not respond fast enough,
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// time the connection out.
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alert(AlertLevel::FATAL, AlertDescription::USER_CANCELED);
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m_context.tls_buffer.clear();
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m_context.error_code = Error::TimedOut;
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m_context.critical_error = (u8)Error::TimedOut;
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check_connection_state(false); // Notify the client.
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} else {
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// Extend the timer, we are too slow.
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m_handshake_timeout_timer->restart(m_max_wait_time_for_handshake_in_seconds * 1000);
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}
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});
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auto packet = build_hello();
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write_packet(packet);
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write_into_socket();
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m_handshake_timeout_timer->start();
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m_context.handshake_initiation_timestamp = Core::DateTime::now().timestamp();
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});
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m_has_scheduled_write_flush = true;
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}
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void TLSv12::notify_client_for_app_data()
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{
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if (m_context.application_buffer.size() > 0) {
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if (on_ready_to_read)
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on_ready_to_read();
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} else {
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if (m_context.connection_finished && !m_context.has_invoked_finish_or_error_callback) {
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m_context.has_invoked_finish_or_error_callback = true;
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if (on_tls_finished)
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on_tls_finished();
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}
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}
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m_has_scheduled_app_data_flush = false;
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}
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ErrorOr<void> TLSv12::read_from_socket()
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{
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// If there's anything before we consume stuff, let the client know
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// since we won't be consuming things if the connection is terminated.
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notify_client_for_app_data();
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ScopeGuard notify_guard {
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[this] {
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// If anything new shows up, tell the client about the event.
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notify_client_for_app_data();
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}
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};
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if (!check_connection_state(true))
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return {};
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u8 buffer[16 * KiB];
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Bytes bytes { buffer, array_size(buffer) };
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Bytes read_bytes {};
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auto& stream = underlying_stream();
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do {
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auto result = stream.read_some(bytes);
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if (result.is_error()) {
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if (result.error().is_errno() && result.error().code() != EINTR) {
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if (result.error().code() != EAGAIN)
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dbgln("TLS Socket read failed, error: {}", result.error());
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break;
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}
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continue;
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}
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read_bytes = result.release_value();
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consume(read_bytes);
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} while (!read_bytes.is_empty() && !m_context.critical_error);
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if (m_context.should_expect_successful_read && read_bytes.is_empty()) {
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// read_some() returned an empty span, this is either an EOF (from improper closure)
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// or some sort of weird even that is showing itself as an EOF.
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// To guard against servers closing the connection weirdly or just improperly, make sure
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// to check the connection state here and send the appropriate notifications.
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stream.close();
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check_connection_state(true);
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}
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return {};
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}
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void TLSv12::write_into_socket()
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{
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dbgln_if(TLS_DEBUG, "Flushing cached records: {} established? {}", m_context.tls_buffer.size(), is_established());
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m_has_scheduled_write_flush = false;
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if (!check_connection_state(false))
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return;
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MUST(flush());
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}
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bool TLSv12::check_connection_state(bool read)
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{
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if (m_context.connection_finished)
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return false;
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if (m_context.close_notify)
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m_context.connection_finished = true;
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auto& stream = underlying_stream();
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if (!stream.is_open()) {
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// an abrupt closure (the server is a jerk)
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dbgln_if(TLS_DEBUG, "Socket not open, assuming abrupt closure");
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m_context.connection_finished = true;
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m_context.connection_status = ConnectionStatus::Disconnected;
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close();
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m_context.has_invoked_finish_or_error_callback = true;
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if (on_ready_to_read)
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on_ready_to_read(); // Notify the client about the weird event.
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if (on_tls_finished)
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on_tls_finished();
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return false;
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}
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if (read && stream.is_eof()) {
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if (m_context.application_buffer.size() == 0 && m_context.connection_status != ConnectionStatus::Disconnected) {
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m_context.has_invoked_finish_or_error_callback = true;
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if (on_tls_finished)
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on_tls_finished();
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}
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return false;
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}
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if (m_context.critical_error) {
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dbgln_if(TLS_DEBUG, "CRITICAL ERROR {} :(", m_context.critical_error);
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m_context.has_invoked_finish_or_error_callback = true;
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if (on_tls_error)
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on_tls_error((AlertDescription)m_context.critical_error);
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m_context.connection_finished = true;
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m_context.connection_status = ConnectionStatus::Disconnected;
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close();
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return false;
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}
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if (((read && m_context.application_buffer.size() == 0) || !read) && m_context.connection_finished) {
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if (m_context.application_buffer.size() == 0 && m_context.connection_status != ConnectionStatus::Disconnected) {
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m_context.has_invoked_finish_or_error_callback = true;
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if (on_tls_finished)
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on_tls_finished();
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}
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if (m_context.tls_buffer.size()) {
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dbgln_if(TLS_DEBUG, "connection closed without finishing data transfer, {} bytes still in buffer and {} bytes in application buffer",
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m_context.tls_buffer.size(),
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m_context.application_buffer.size());
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}
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if (!m_context.application_buffer.size()) {
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return false;
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}
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}
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return true;
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}
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ErrorOr<bool> TLSv12::flush()
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{
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auto out_bytes = m_context.tls_buffer.bytes();
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if (out_bytes.is_empty())
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return true;
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if constexpr (TLS_DEBUG) {
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dbgln("SENDING...");
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print_buffer(out_bytes);
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}
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auto& stream = underlying_stream();
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Optional<AK::Error> error;
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size_t written;
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do {
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auto result = stream.write_some(out_bytes);
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if (result.is_error()) {
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if (result.error().code() != EINTR && result.error().code() != EAGAIN) {
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error = result.release_error();
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dbgln("TLS Socket write error: {}", *error);
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break;
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}
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continue;
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}
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written = result.value();
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out_bytes = out_bytes.slice(written);
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} while (!out_bytes.is_empty());
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if (out_bytes.is_empty() && !error.has_value()) {
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m_context.tls_buffer.clear();
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return true;
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}
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if (m_context.send_retries++ == 10) {
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// drop the records, we can't send
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dbgln_if(TLS_DEBUG, "Dropping {} bytes worth of TLS records as max retries has been reached", m_context.tls_buffer.size());
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m_context.tls_buffer.clear();
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m_context.send_retries = 0;
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}
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return false;
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}
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void TLSv12::close()
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{
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if (underlying_stream().is_open())
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alert(AlertLevel::FATAL, AlertDescription::CLOSE_NOTIFY);
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// bye bye.
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m_context.connection_status = ConnectionStatus::Disconnected;
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}
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}
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