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/*
* Copyright (c) 2020, Ali Mohammad Pur <ali.mpfard@gmail.com>
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* 1. Redistributions of source code must retain the above copyright notice, this
* list of conditions and the following disclaimer.
*
* 2. Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
* CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include <LibCore/DateTime.h>
#include <LibCore/Timer.h>
#include <LibCrypto/ASN1/DER.h>
#include <LibCrypto/PK/Code/EMSA_PSS.h>
#include <LibTLS/TLSv12.h>
namespace TLS {
Optional<ByteBuffer> TLSv12::read()
{
if (m_context.application_buffer.size()) {
auto buf = m_context.application_buffer.slice(0, m_context.application_buffer.size());
m_context.application_buffer.clear();
return buf;
}
return {};
}
ByteBuffer TLSv12::read(size_t max_size)
{
if (m_context.application_buffer.size()) {
auto length = min(m_context.application_buffer.size(), max_size);
auto buf = m_context.application_buffer.slice(0, length);
m_context.application_buffer = m_context.application_buffer.slice(length, m_context.application_buffer.size() - length);
return buf;
}
return {};
}
ByteBuffer TLSv12::read_line(size_t max_size)
{
if (!can_read_line())
return {};
auto* start = m_context.application_buffer.data();
auto* newline = (u8*)memchr(m_context.application_buffer.data(), '\n', m_context.application_buffer.size());
ASSERT(newline);
size_t offset = newline - start;
if (offset > max_size)
return {};
auto buffer = ByteBuffer::copy(start, offset);
m_context.application_buffer = m_context.application_buffer.slice(offset + 1, m_context.application_buffer.size() - offset - 1);
return buffer;
}
bool TLSv12::write(const ByteBuffer& buffer)
{
if (m_context.connection_status != ConnectionStatus::Established) {
#ifdef TLS_DEBUG
dbg() << "write request while not connected";
#endif
return false;
}
PacketBuilder builder { MessageType::ApplicationData, m_context.version, buffer.size() };
builder.append(buffer);
auto packet = builder.build();
update_packet(packet);
write_packet(packet);
return true;
}
bool TLSv12::connect(const String& hostname, int port)
{
set_sni(hostname);
return Core::Socket::connect(hostname, port);
}
bool TLSv12::common_connect(const struct sockaddr* saddr, socklen_t length)
{
if (m_context.critical_error)
return false;
if (Core::Socket::is_connected()) {
if (is_established()) {
ASSERT_NOT_REACHED();
} else {
Core::Socket::close(); // reuse?
}
}
Core::Socket::on_connected = [this] {
Core::Socket::on_ready_to_read = [this] {
read_from_socket();
};
auto packet = build_hello();
write_packet(packet);
deferred_invoke([&](auto&) {
m_handshake_timeout_timer = Core::Timer::create_single_shot(
m_max_wait_time_for_handshake_in_seconds * 1000, [&] {
auto timeout_diff = Core::DateTime::now().timestamp() - m_context.handshake_initiation_timestamp;
// If the timeout duration was actually within the max wait time (with a margin of error),
// we're not operating slow, so the server timed out.
// otherwise, it's our fault that the negotiation is taking too long, so extend the timer :P
if (timeout_diff < m_max_wait_time_for_handshake_in_seconds + 1) {
// The server did not respond fast enough,
// time the connection out.
alert(AlertLevel::Critical, AlertDescription::UserCanceled);
m_context.connection_finished = true;
m_context.tls_buffer.clear();
m_context.error_code = Error::TimedOut;
m_context.critical_error = (u8)Error::TimedOut;
check_connection_state(false); // Notify the client.
} else {
// Extend the timer, we are too slow.
m_handshake_timeout_timer->restart(m_max_wait_time_for_handshake_in_seconds * 1000);
}
},
this);
write_into_socket();
m_handshake_timeout_timer->start();
m_context.handshake_initiation_timestamp = Core::DateTime::now().timestamp();
});
m_has_scheduled_write_flush = true;
if (on_tls_connected)
on_tls_connected();
};
bool success = Core::Socket::common_connect(saddr, length);
if (!success)
return false;
return true;
}
void TLSv12::read_from_socket()
{
if (m_context.application_buffer.size() > 0) {
deferred_invoke([&](auto&) { read_from_socket(); });
if (on_tls_ready_to_read)
on_tls_ready_to_read(*this);
}
if (!check_connection_state(true))
return;
consume(Core::Socket::read(4096));
}
void TLSv12::write_into_socket()
{
#ifdef TLS_DEBUG
dbg() << "Flushing cached records: " << m_context.tls_buffer.size() << " established? " << is_established();
#endif
m_has_scheduled_write_flush = false;
if (!check_connection_state(false))
return;
flush();
if (!is_established())
return;
if (!m_context.application_buffer.size()) // hey client, you still have stuff to read...
if (on_tls_ready_to_write)
on_tls_ready_to_write(*this);
}
bool TLSv12::check_connection_state(bool read)
{
if (!Core::Socket::is_open() || !Core::Socket::is_connected() || Core::Socket::eof()) {
// an abrupt closure (the server is a jerk)
#ifdef TLS_DEBUG
dbg() << "Socket not open, assuming abrupt closure";
#endif
m_context.connection_finished = true;
}
if (m_context.critical_error) {
#ifdef TLS_DEBUG
dbg() << "CRITICAL ERROR " << m_context.critical_error << " :(";
#endif
if (on_tls_error)
on_tls_error((AlertDescription)m_context.critical_error);
return false;
}
if (((read && m_context.application_buffer.size() == 0) || !read) && m_context.connection_finished) {
if (m_context.application_buffer.size() == 0) {
if (on_tls_finished)
on_tls_finished();
}
if (m_context.tls_buffer.size()) {
#ifdef TLS_DEBUG
dbg() << "connection closed without finishing data transfer, " << m_context.tls_buffer.size() << " bytes still in buffer & " << m_context.application_buffer.size() << " bytes in application buffer";
#endif
} else {
m_context.connection_finished = false;
#ifdef TLS_DEBUG
dbg() << "FINISHED";
#endif
}
if (!m_context.application_buffer.size()) {
m_context.connection_status = ConnectionStatus::Disconnected;
return false;
}
}
return true;
}
bool TLSv12::flush()
{
auto out_buffer = write_buffer().data();
size_t out_buffer_index { 0 };
size_t out_buffer_length = write_buffer().size();
if (out_buffer_length == 0)
return true;
#ifdef TLS_DEBUG
dbg() << "SENDING...";
print_buffer(out_buffer, out_buffer_length);
#endif
if (Core::Socket::write(&out_buffer[out_buffer_index], out_buffer_length)) {
write_buffer().clear();
return true;
}
if (m_context.send_retries++ == 10) {
// drop the records, we can't send
#ifdef TLS_DEBUG
dbg() << "Dropping " << write_buffer().size() << " bytes worth of TLS records as max retries has been reached";
#endif
write_buffer().clear();
m_context.send_retries = 0;
}
return false;
}
}
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