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path: root/Kernel/Net/TCPSocket.cpp
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/*
 * Copyright (c) 2018-2020, Andreas Kling <kling@serenityos.org>
 *
 * SPDX-License-Identifier: BSD-2-Clause
 */

#include <AK/Singleton.h>
#include <AK/Time.h>
#include <Kernel/Debug.h>
#include <Kernel/Devices/RandomDevice.h>
#include <Kernel/FileSystem/FileDescription.h>
#include <Kernel/Locking/MutexProtected.h>
#include <Kernel/Net/EthernetFrameHeader.h>
#include <Kernel/Net/IPv4.h>
#include <Kernel/Net/NetworkAdapter.h>
#include <Kernel/Net/NetworkingManagement.h>
#include <Kernel/Net/Routing.h>
#include <Kernel/Net/TCP.h>
#include <Kernel/Net/TCPSocket.h>
#include <Kernel/Process.h>
#include <Kernel/Random.h>

namespace Kernel {

void TCPSocket::for_each(Function<void(const TCPSocket&)> callback)
{
    sockets_by_tuple().for_each_shared([&](const auto& it) {
        callback(*it.value);
    });
}

void TCPSocket::set_state(State new_state)
{
    dbgln_if(TCP_SOCKET_DEBUG, "TCPSocket({}) state moving from {} to {}", this, to_string(m_state), to_string(new_state));

    auto was_disconnected = protocol_is_disconnected();
    auto previous_role = m_role;

    m_state = new_state;

    if (new_state == State::Established && m_direction == Direction::Outgoing) {
        m_role = Role::Connected;
        [[maybe_unused]] auto rc = set_so_error(KSuccess);
    }

    if (new_state == State::Closed) {
        closing_sockets().with_exclusive([&](auto& table) {
            table.remove(tuple());
        });

        if (m_originator)
            release_to_originator();
    }

    if (previous_role != m_role || was_disconnected != protocol_is_disconnected())
        evaluate_block_conditions();
}

static Singleton<MutexProtected<HashMap<IPv4SocketTuple, RefPtr<TCPSocket>>>> s_socket_closing;

MutexProtected<HashMap<IPv4SocketTuple, RefPtr<TCPSocket>>>& TCPSocket::closing_sockets()
{
    return *s_socket_closing;
}

static Singleton<MutexProtected<HashMap<IPv4SocketTuple, TCPSocket*>>> s_socket_tuples;

MutexProtected<HashMap<IPv4SocketTuple, TCPSocket*>>& TCPSocket::sockets_by_tuple()
{
    return *s_socket_tuples;
}

RefPtr<TCPSocket> TCPSocket::from_tuple(const IPv4SocketTuple& tuple)
{
    return sockets_by_tuple().with_shared([&](const auto& table) -> RefPtr<TCPSocket> {
        auto exact_match = table.get(tuple);
        if (exact_match.has_value())
            return { *exact_match.value() };

        auto address_tuple = IPv4SocketTuple(tuple.local_address(), tuple.local_port(), IPv4Address(), 0);
        auto address_match = table.get(address_tuple);
        if (address_match.has_value())
            return { *address_match.value() };

        auto wildcard_tuple = IPv4SocketTuple(IPv4Address(), tuple.local_port(), IPv4Address(), 0);
        auto wildcard_match = table.get(wildcard_tuple);
        if (wildcard_match.has_value())
            return { *wildcard_match.value() };

        return {};
    });
}
RefPtr<TCPSocket> TCPSocket::create_client(const IPv4Address& new_local_address, u16 new_local_port, const IPv4Address& new_peer_address, u16 new_peer_port)
{
    auto tuple = IPv4SocketTuple(new_local_address, new_local_port, new_peer_address, new_peer_port);
    return sockets_by_tuple().with_exclusive([&](auto& table) -> RefPtr<TCPSocket> {
        if (table.contains(tuple))
            return {};

        auto receive_buffer = create_receive_buffer();
        if (!receive_buffer)
            return {};
        auto result = TCPSocket::create(protocol(), receive_buffer.release_nonnull());
        if (result.is_error())
            return {};

        auto client = result.release_value();
        client->set_setup_state(SetupState::InProgress);
        client->set_local_address(new_local_address);
        client->set_local_port(new_local_port);
        client->set_peer_address(new_peer_address);
        client->set_peer_port(new_peer_port);
        client->set_direction(Direction::Incoming);
        client->set_originator(*this);

        m_pending_release_for_accept.set(tuple, client);
        table.set(tuple, client);

        return { move(client) };
    });
}

void TCPSocket::release_to_originator()
{
    VERIFY(!!m_originator);
    m_originator.strong_ref()->release_for_accept(this);
    m_originator.clear();
}

void TCPSocket::release_for_accept(RefPtr<TCPSocket> socket)
{
    VERIFY(m_pending_release_for_accept.contains(socket->tuple()));
    m_pending_release_for_accept.remove(socket->tuple());
    // FIXME: Should we observe this error somehow?
    [[maybe_unused]] auto rc = queue_connection_from(*socket);
}

TCPSocket::TCPSocket(int protocol, NonnullOwnPtr<DoubleBuffer> receive_buffer, OwnPtr<KBuffer> scratch_buffer)
    : IPv4Socket(SOCK_STREAM, protocol, move(receive_buffer), move(scratch_buffer))
{
    m_last_retransmit_time = kgettimeofday();
}

TCPSocket::~TCPSocket()
{
    sockets_by_tuple().with_exclusive([&](auto& table) {
        table.remove(tuple());
    });

    dequeue_for_retransmit();

    dbgln_if(TCP_SOCKET_DEBUG, "~TCPSocket in state {}", to_string(state()));
}

KResultOr<NonnullRefPtr<TCPSocket>> TCPSocket::create(int protocol, NonnullOwnPtr<DoubleBuffer> receive_buffer)
{
    // Note: Scratch buffer is only used for SOCK_STREAM sockets.
    auto scratch_buffer = KBuffer::try_create_with_size(65536);
    if (!scratch_buffer)
        return ENOMEM;

    auto socket = adopt_ref_if_nonnull(new (nothrow) TCPSocket(protocol, move(receive_buffer), move(scratch_buffer)));
    if (socket)
        return socket.release_nonnull();
    return ENOMEM;
}

KResultOr<size_t> TCPSocket::protocol_receive(ReadonlyBytes raw_ipv4_packet, UserOrKernelBuffer& buffer, size_t buffer_size, [[maybe_unused]] int flags)
{
    auto& ipv4_packet = *reinterpret_cast<const IPv4Packet*>(raw_ipv4_packet.data());
    auto& tcp_packet = *static_cast<const TCPPacket*>(ipv4_packet.payload());
    size_t payload_size = raw_ipv4_packet.size() - sizeof(IPv4Packet) - tcp_packet.header_size();
    dbgln_if(TCP_SOCKET_DEBUG, "payload_size {}, will it fit in {}?", payload_size, buffer_size);
    VERIFY(buffer_size >= payload_size);
    if (!buffer.write(tcp_packet.payload(), payload_size))
        return set_so_error(EFAULT);
    return payload_size;
}

KResultOr<size_t> TCPSocket::protocol_send(const UserOrKernelBuffer& data, size_t data_length)
{
    RoutingDecision routing_decision = route_to(peer_address(), local_address(), bound_interface());
    if (routing_decision.is_zero())
        return set_so_error(EHOSTUNREACH);
    size_t mss = routing_decision.adapter->mtu() - sizeof(IPv4Packet) - sizeof(TCPPacket);
    data_length = min(data_length, mss);
    if (auto result = send_tcp_packet(TCPFlags::PUSH | TCPFlags::ACK, &data, data_length, &routing_decision); result.is_error())
        return result;
    return data_length;
}

KResult TCPSocket::send_ack(bool allow_duplicate)
{
    if (!allow_duplicate && m_last_ack_number_sent == m_ack_number)
        return KSuccess;
    return send_tcp_packet(TCPFlags::ACK);
}

KResult TCPSocket::send_tcp_packet(u16 flags, const UserOrKernelBuffer* payload, size_t payload_size, RoutingDecision* user_routing_decision)
{
    RoutingDecision routing_decision = user_routing_decision ? *user_routing_decision : route_to(peer_address(), local_address(), bound_interface());
    if (routing_decision.is_zero())
        return set_so_error(EHOSTUNREACH);

    auto ipv4_payload_offset = routing_decision.adapter->ipv4_payload_offset();

    const bool has_mss_option = flags == TCPFlags::SYN;
    const size_t options_size = has_mss_option ? sizeof(TCPOptionMSS) : 0;
    const size_t tcp_header_size = sizeof(TCPPacket) + options_size;
    const size_t buffer_size = ipv4_payload_offset + tcp_header_size + payload_size;
    auto packet = routing_decision.adapter->acquire_packet_buffer(buffer_size);
    if (!packet)
        return set_so_error(ENOMEM);
    routing_decision.adapter->fill_in_ipv4_header(*packet, local_address(),
        routing_decision.next_hop, peer_address(), IPv4Protocol::TCP,
        buffer_size - ipv4_payload_offset, ttl());
    memset(packet->buffer->data() + ipv4_payload_offset, 0, sizeof(TCPPacket));
    auto& tcp_packet = *(TCPPacket*)(packet->buffer->data() + ipv4_payload_offset);
    VERIFY(local_port());
    tcp_packet.set_source_port(local_port());
    tcp_packet.set_destination_port(peer_port());
    tcp_packet.set_window_size(NumericLimits<u16>::max());
    tcp_packet.set_sequence_number(m_sequence_number);
    tcp_packet.set_data_offset(tcp_header_size / sizeof(u32));
    tcp_packet.set_flags(flags);

    if (flags & TCPFlags::ACK) {
        m_last_ack_number_sent = m_ack_number;
        m_last_ack_sent_time = kgettimeofday();
        tcp_packet.set_ack_number(m_ack_number);
    }

    if (payload && !payload->read(tcp_packet.payload(), payload_size)) {
        routing_decision.adapter->release_packet_buffer(*packet);
        return set_so_error(EFAULT);
    }

    if (flags & TCPFlags::SYN) {
        ++m_sequence_number;
    } else {
        m_sequence_number += payload_size;
    }

    if (has_mss_option) {
        u16 mss = routing_decision.adapter->mtu() - sizeof(IPv4Packet) - sizeof(TCPPacket);
        TCPOptionMSS mss_option { mss };
        VERIFY(packet->buffer->size() >= ipv4_payload_offset + sizeof(TCPPacket) + sizeof(mss_option));
        memcpy(packet->buffer->data() + ipv4_payload_offset + sizeof(TCPPacket), &mss_option, sizeof(mss_option));
    }

    tcp_packet.set_checksum(compute_tcp_checksum(local_address(), peer_address(), tcp_packet, payload_size));

    routing_decision.adapter->send_packet(packet->bytes());

    m_packets_out++;
    m_bytes_out += buffer_size;
    if (tcp_packet.has_syn() || payload_size > 0) {
        m_unacked_packets.with_exclusive([&](auto& unacked_packets) {
            unacked_packets.packets.append({ m_sequence_number, move(packet), ipv4_payload_offset, *routing_decision.adapter });
            unacked_packets.size += payload_size;
            enqueue_for_retransmit();
        });
    } else {
        routing_decision.adapter->release_packet_buffer(*packet);
    }

    return KSuccess;
}

void TCPSocket::receive_tcp_packet(const TCPPacket& packet, u16 size)
{
    if (packet.has_ack()) {
        u32 ack_number = packet.ack_number();

        dbgln_if(TCP_SOCKET_DEBUG, "TCPSocket: receive_tcp_packet: {}", ack_number);

        int removed = 0;
        m_unacked_packets.with_exclusive([&](auto& unacked_packets) {
            while (!unacked_packets.packets.is_empty()) {
                auto& packet = unacked_packets.packets.first();

                dbgln_if(TCP_SOCKET_DEBUG, "TCPSocket: iterate: {}", packet.ack_number);

                if (packet.ack_number <= ack_number) {
                    auto old_adapter = packet.adapter.strong_ref();
                    if (old_adapter)
                        old_adapter->release_packet_buffer(*packet.buffer);
                    TCPPacket& tcp_packet = *(TCPPacket*)(packet.buffer->buffer->data() + packet.ipv4_payload_offset);
                    auto payload_size = packet.buffer->buffer->data() + packet.buffer->buffer->size() - (u8*)tcp_packet.payload();
                    unacked_packets.size -= payload_size;
                    evaluate_block_conditions();
                    unacked_packets.packets.take_first();
                    removed++;
                } else {
                    break;
                }
            }

            if (unacked_packets.packets.is_empty()) {
                m_retransmit_attempts = 0;
                dequeue_for_retransmit();
            }

            dbgln_if(TCP_SOCKET_DEBUG, "TCPSocket: receive_tcp_packet acknowledged {} packets", removed);
        });
    }

    m_packets_in++;
    m_bytes_in += packet.header_size() + size;
}

bool TCPSocket::should_delay_next_ack() const
{
    // FIXME: We don't know the MSS here so make a reasonable guess.
    const size_t mss = 1500;

    // RFC 1122 says we should send an ACK for every two full-sized segments.
    if (m_ack_number >= m_last_ack_number_sent + 2 * mss)
        return false;

    // RFC 1122 says we should not delay ACKs for more than 500 milliseconds.
    if (kgettimeofday() >= m_last_ack_sent_time + Time::from_milliseconds(500))
        return false;

    return true;
}

NetworkOrdered<u16> TCPSocket::compute_tcp_checksum(const IPv4Address& source, const IPv4Address& destination, const TCPPacket& packet, u16 payload_size)
{
    struct [[gnu::packed]] PseudoHeader {
        IPv4Address source;
        IPv4Address destination;
        u8 zero;
        u8 protocol;
        NetworkOrdered<u16> payload_size;
    };

    PseudoHeader pseudo_header { source, destination, 0, (u8)IPv4Protocol::TCP, packet.header_size() + payload_size };

    u32 checksum = 0;
    auto* w = (const NetworkOrdered<u16>*)&pseudo_header;
    for (size_t i = 0; i < sizeof(pseudo_header) / sizeof(u16); ++i) {
        checksum += w[i];
        if (checksum > 0xffff)
            checksum = (checksum >> 16) + (checksum & 0xffff);
    }
    w = (const NetworkOrdered<u16>*)&packet;
    for (size_t i = 0; i < packet.header_size() / sizeof(u16); ++i) {
        checksum += w[i];
        if (checksum > 0xffff)
            checksum = (checksum >> 16) + (checksum & 0xffff);
    }
    VERIFY(packet.data_offset() * 4 == packet.header_size());
    w = (const NetworkOrdered<u16>*)packet.payload();
    for (size_t i = 0; i < payload_size / sizeof(u16); ++i) {
        checksum += w[i];
        if (checksum > 0xffff)
            checksum = (checksum >> 16) + (checksum & 0xffff);
    }
    if (payload_size & 1) {
        u16 expanded_byte = ((const u8*)packet.payload())[payload_size - 1] << 8;
        checksum += expanded_byte;
        if (checksum > 0xffff)
            checksum = (checksum >> 16) + (checksum & 0xffff);
    }
    return ~(checksum & 0xffff);
}

KResult TCPSocket::protocol_bind()
{
    if (has_specific_local_address() && !m_adapter) {
        m_adapter = NetworkingManagement::the().from_ipv4_address(local_address());
        if (!m_adapter)
            return set_so_error(EADDRNOTAVAIL);
    }

    return KSuccess;
}

KResult TCPSocket::protocol_listen(bool did_allocate_port)
{
    if (!did_allocate_port) {
        bool ok = sockets_by_tuple().with_exclusive([&](auto& table) -> bool {
            if (table.contains(tuple()))
                return false;
            table.set(tuple(), this);
            return true;
        });
        if (!ok)
            return set_so_error(EADDRINUSE);
    }

    set_direction(Direction::Passive);
    set_state(State::Listen);
    set_setup_state(SetupState::Completed);
    return KSuccess;
}

KResult TCPSocket::protocol_connect(FileDescription& description, ShouldBlock should_block)
{
    MutexLocker locker(lock());

    auto routing_decision = route_to(peer_address(), local_address());
    if (routing_decision.is_zero())
        return set_so_error(EHOSTUNREACH);
    if (!has_specific_local_address())
        set_local_address(routing_decision.adapter->ipv4_address());

    if (auto result = allocate_local_port_if_needed(); result.error_or_port.is_error())
        return result.error_or_port.error();

    m_sequence_number = get_good_random<u32>();
    m_ack_number = 0;

    set_setup_state(SetupState::InProgress);
    if (auto result = send_tcp_packet(TCPFlags::SYN); result.is_error())
        return result;
    m_state = State::SynSent;
    m_role = Role::Connecting;
    m_direction = Direction::Outgoing;

    evaluate_block_conditions();

    if (should_block == ShouldBlock::Yes) {
        locker.unlock();
        auto unblock_flags = Thread::FileBlocker::BlockFlags::None;
        if (Thread::current()->block<Thread::ConnectBlocker>({}, description, unblock_flags).was_interrupted())
            return set_so_error(EINTR);
        locker.lock();
        VERIFY(setup_state() == SetupState::Completed);
        if (has_error()) { // TODO: check unblock_flags
            m_role = Role::None;
            if (error() == TCPSocket::Error::RetransmitTimeout)
                return set_so_error(ETIMEDOUT);
            else
                return set_so_error(ECONNREFUSED);
        }
        return KSuccess;
    }

    return set_so_error(EINPROGRESS);
}

KResultOr<u16> TCPSocket::protocol_allocate_local_port()
{
    constexpr u16 first_ephemeral_port = 32768;
    constexpr u16 last_ephemeral_port = 60999;
    constexpr u16 ephemeral_port_range_size = last_ephemeral_port - first_ephemeral_port;
    u16 first_scan_port = first_ephemeral_port + get_good_random<u16>() % ephemeral_port_range_size;

    return sockets_by_tuple().with_exclusive([&](auto& table) -> KResultOr<u16> {
        for (u16 port = first_scan_port;;) {
            IPv4SocketTuple proposed_tuple(local_address(), port, peer_address(), peer_port());

            auto it = table.find(proposed_tuple);
            if (it == table.end()) {
                set_local_port(port);
                table.set(proposed_tuple, this);
                return port;
            }
            ++port;
            if (port > last_ephemeral_port)
                port = first_ephemeral_port;
            if (port == first_scan_port)
                break;
        }
        return set_so_error(EADDRINUSE);
    });
}

bool TCPSocket::protocol_is_disconnected() const
{
    switch (m_state) {
    case State::Closed:
    case State::CloseWait:
    case State::LastAck:
    case State::FinWait1:
    case State::FinWait2:
    case State::Closing:
    case State::TimeWait:
        return true;
    default:
        return false;
    }
}

void TCPSocket::shut_down_for_writing()
{
    if (state() == State::Established) {
        dbgln_if(TCP_SOCKET_DEBUG, " Sending FIN/ACK from Established and moving into FinWait1");
        [[maybe_unused]] auto rc = send_tcp_packet(TCPFlags::FIN | TCPFlags::ACK);
        set_state(State::FinWait1);
    } else {
        dbgln(" Shutting down TCPSocket for writing but not moving to FinWait1 since state is {}", to_string(state()));
    }
}

KResult TCPSocket::close()
{
    MutexLocker socket_locker(lock());
    auto result = IPv4Socket::close();
    if (state() == State::CloseWait) {
        dbgln_if(TCP_SOCKET_DEBUG, " Sending FIN from CloseWait and moving into LastAck");
        [[maybe_unused]] auto rc = send_tcp_packet(TCPFlags::FIN | TCPFlags::ACK);
        set_state(State::LastAck);
    }

    if (state() != State::Closed && state() != State::Listen)
        closing_sockets().with_exclusive([&](auto& table) {
            table.set(tuple(), *this);
        });
    return result;
}

static Singleton<MutexProtected<TCPSocket::RetransmitList>> s_sockets_for_retransmit;

MutexProtected<TCPSocket::RetransmitList>& TCPSocket::sockets_for_retransmit()
{
    return *s_sockets_for_retransmit;
}

void TCPSocket::enqueue_for_retransmit()
{
    sockets_for_retransmit().with_exclusive([&](auto& list) {
        list.append(*this);
    });
}

void TCPSocket::dequeue_for_retransmit()
{
    sockets_for_retransmit().with_exclusive([&](auto& list) {
        list.remove(*this);
    });
}

void TCPSocket::retransmit_packets()
{
    auto now = kgettimeofday();

    // RFC6298 says we should have at least one second between retransmits. According to
    // RFC1122 we must do exponential backoff - even for SYN packets.
    i64 retransmit_interval = 1;
    for (decltype(m_retransmit_attempts) i = 0; i < m_retransmit_attempts; i++)
        retransmit_interval *= 2;

    if (m_last_retransmit_time > now - Time::from_seconds(retransmit_interval))
        return;

    dbgln_if(TCP_SOCKET_DEBUG, "TCPSocket({}) handling retransmit", this);

    m_last_retransmit_time = now;
    ++m_retransmit_attempts;

    if (m_retransmit_attempts > maximum_retransmits) {
        set_state(TCPSocket::State::Closed);
        set_error(TCPSocket::Error::RetransmitTimeout);
        set_setup_state(Socket::SetupState::Completed);
        return;
    }

    auto routing_decision = route_to(peer_address(), local_address(), bound_interface());
    if (routing_decision.is_zero())
        return;

    m_unacked_packets.with_exclusive([&](auto& unacked_packets) {
        for (auto& packet : unacked_packets.packets) {
            packet.tx_counter++;

            if constexpr (TCP_SOCKET_DEBUG) {
                auto& tcp_packet = *(const TCPPacket*)(packet.buffer->buffer->data() + packet.ipv4_payload_offset);
                dbgln("Sending TCP packet from {}:{} to {}:{} with ({}{}{}{}) seq_no={}, ack_no={}, tx_counter={}",
                    local_address(), local_port(),
                    peer_address(), peer_port(),
                    (tcp_packet.has_syn() ? "SYN " : ""),
                    (tcp_packet.has_ack() ? "ACK " : ""),
                    (tcp_packet.has_fin() ? "FIN " : ""),
                    (tcp_packet.has_rst() ? "RST " : ""),
                    tcp_packet.sequence_number(),
                    tcp_packet.ack_number(),
                    packet.tx_counter);
            }

            size_t ipv4_payload_offset = routing_decision.adapter->ipv4_payload_offset();
            if (ipv4_payload_offset != packet.ipv4_payload_offset) {
                // FIXME: Add support for this. This can happen if after a route change
                // we ended up on another adapter which doesn't have the same layer 2 type
                // like the previous adapter.
                VERIFY_NOT_REACHED();
            }

            auto packet_buffer = packet.buffer->bytes();

            routing_decision.adapter->fill_in_ipv4_header(*packet.buffer,
                local_address(), routing_decision.next_hop, peer_address(),
                IPv4Protocol::TCP, packet_buffer.size() - ipv4_payload_offset, ttl());
            routing_decision.adapter->send_packet(packet_buffer);
            m_packets_out++;
            m_bytes_out += packet_buffer.size();
        }
    });
}

bool TCPSocket::can_write(const FileDescription& file_description, size_t size) const
{
    if (!IPv4Socket::can_write(file_description, size))
        return false;

    if (m_state == State::SynSent || m_state == State::SynReceived)
        return false;

    if (!file_description.is_blocking())
        return true;

    return m_unacked_packets.with_shared([&](auto& unacked_packets) {
        return unacked_packets.size + size <= m_send_window_size;
    });
}
}