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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/StringBuilder.h>
#include <AK/StringView.h>
#include <Kernel/API/Ioctl.h>
#include <Kernel/API/POSIX/errno.h>
#include <Kernel/Debug.h>
#include <Kernel/FileSystem/OpenFileDescription.h>
#include <Kernel/Net/ARP.h>
#include <Kernel/Net/ICMP.h>
#include <Kernel/Net/IPv4.h>
#include <Kernel/Net/IPv4Socket.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/Net/UDP.h>
#include <Kernel/Net/UDPSocket.h>
#include <Kernel/Process.h>
#include <Kernel/UnixTypes.h>
namespace Kernel {
static Singleton<MutexProtected<IPv4Socket::List>> s_all_sockets;
using BlockFlags = Thread::OpenFileDescriptionBlocker::BlockFlags;
MutexProtected<IPv4Socket::List>& IPv4Socket::all_sockets()
{
return *s_all_sockets;
}
ErrorOr<NonnullOwnPtr<DoubleBuffer>> IPv4Socket::try_create_receive_buffer()
{
return DoubleBuffer::try_create("IPv4Socket: Receive buffer"sv, 256 * KiB);
}
ErrorOr<NonnullRefPtr<Socket>> IPv4Socket::create(int type, int protocol)
{
auto receive_buffer = TRY(IPv4Socket::try_create_receive_buffer());
if (type == SOCK_STREAM)
return TRY(TCPSocket::try_create(protocol, move(receive_buffer)));
if (type == SOCK_DGRAM)
return TRY(UDPSocket::try_create(protocol, move(receive_buffer)));
if (type == SOCK_RAW) {
auto raw_socket = adopt_ref_if_nonnull(new (nothrow) IPv4Socket(type, protocol, move(receive_buffer), {}));
if (raw_socket)
return raw_socket.release_nonnull();
return ENOMEM;
}
return EINVAL;
}
IPv4Socket::IPv4Socket(int type, int protocol, NonnullOwnPtr<DoubleBuffer> receive_buffer, OwnPtr<KBuffer> optional_scratch_buffer)
: Socket(AF_INET, type, protocol)
, m_receive_buffer(move(receive_buffer))
, m_scratch_buffer(move(optional_scratch_buffer))
{
dbgln_if(IPV4_SOCKET_DEBUG, "IPv4Socket({}) created with type={}, protocol={}", this, type, protocol);
m_buffer_mode = type == SOCK_STREAM ? BufferMode::Bytes : BufferMode::Packets;
if (m_buffer_mode == BufferMode::Bytes) {
VERIFY(m_scratch_buffer);
}
all_sockets().with_exclusive([&](auto& table) {
table.append(*this);
});
}
IPv4Socket::~IPv4Socket()
{
all_sockets().with_exclusive([&](auto& table) {
table.remove(*this);
});
}
void IPv4Socket::get_local_address(sockaddr* address, socklen_t* address_size)
{
sockaddr_in local_address = { AF_INET, htons(m_local_port), { m_local_address.to_in_addr_t() }, { 0 } };
memcpy(address, &local_address, min(static_cast<size_t>(*address_size), sizeof(sockaddr_in)));
*address_size = sizeof(sockaddr_in);
}
void IPv4Socket::get_peer_address(sockaddr* address, socklen_t* address_size)
{
sockaddr_in peer_address = { AF_INET, htons(m_peer_port), { m_peer_address.to_in_addr_t() }, { 0 } };
memcpy(address, &peer_address, min(static_cast<size_t>(*address_size), sizeof(sockaddr_in)));
*address_size = sizeof(sockaddr_in);
}
ErrorOr<void> IPv4Socket::bind(Credentials const& credentials, Userspace<sockaddr const*> user_address, socklen_t address_size)
{
VERIFY(setup_state() == SetupState::Unstarted);
if (address_size != sizeof(sockaddr_in))
return set_so_error(EINVAL);
sockaddr_in address {};
SOCKET_TRY(copy_from_user(&address, user_address, sizeof(sockaddr_in)));
if (address.sin_family != AF_INET)
return set_so_error(EINVAL);
auto requested_local_port = ntohs(address.sin_port);
if (!credentials.is_superuser()) {
if (requested_local_port > 0 && requested_local_port < 1024) {
dbgln("UID {} attempted to bind {} to port {}", credentials.uid(), class_name(), requested_local_port);
return set_so_error(EACCES);
}
}
m_local_address = IPv4Address((u8 const*)&address.sin_addr.s_addr);
m_local_port = requested_local_port;
dbgln_if(IPV4_SOCKET_DEBUG, "IPv4Socket::bind {}({}) to {}:{}", class_name(), this, m_local_address, m_local_port);
return protocol_bind();
}
ErrorOr<void> IPv4Socket::listen(size_t backlog)
{
MutexLocker locker(mutex());
auto result = allocate_local_port_if_needed();
if (result.error_or_port.is_error() && result.error_or_port.error().code() != ENOPROTOOPT)
return result.error_or_port.release_error();
set_backlog(backlog);
set_role(Role::Listener);
evaluate_block_conditions();
dbgln_if(IPV4_SOCKET_DEBUG, "IPv4Socket({}) listening with backlog={}", this, backlog);
return protocol_listen(result.did_allocate);
}
ErrorOr<void> IPv4Socket::connect(Credentials const&, OpenFileDescription& description, Userspace<sockaddr const*> address, socklen_t address_size)
{
if (address_size != sizeof(sockaddr_in))
return set_so_error(EINVAL);
u16 sa_family_copy;
auto* user_address = reinterpret_cast<sockaddr const*>(address.unsafe_userspace_ptr());
SOCKET_TRY(copy_from_user(&sa_family_copy, &user_address->sa_family, sizeof(u16)));
if (sa_family_copy != AF_INET)
return set_so_error(EINVAL);
if (m_role == Role::Connected)
return set_so_error(EISCONN);
sockaddr_in safe_address {};
SOCKET_TRY(copy_from_user(&safe_address, (sockaddr_in const*)user_address, sizeof(sockaddr_in)));
m_peer_address = IPv4Address((u8 const*)&safe_address.sin_addr.s_addr);
if (m_peer_address == IPv4Address { 0, 0, 0, 0 })
m_peer_address = IPv4Address { 127, 0, 0, 1 };
m_peer_port = ntohs(safe_address.sin_port);
return protocol_connect(description);
}
bool IPv4Socket::can_read(OpenFileDescription const&, u64) const
{
if (m_role == Role::Listener)
return can_accept();
if (protocol_is_disconnected())
return true;
return m_can_read;
}
bool IPv4Socket::can_write(OpenFileDescription const&, u64) const
{
return true;
}
PortAllocationResult IPv4Socket::allocate_local_port_if_needed()
{
MutexLocker locker(mutex());
if (m_local_port)
return { m_local_port, false };
auto port_or_error = protocol_allocate_local_port();
if (port_or_error.is_error())
return { port_or_error.release_error(), false };
m_local_port = port_or_error.release_value();
return { m_local_port, true };
}
ErrorOr<size_t> IPv4Socket::sendto(OpenFileDescription&, UserOrKernelBuffer const& data, size_t data_length, [[maybe_unused]] int flags, Userspace<sockaddr const*> addr, socklen_t addr_length)
{
MutexLocker locker(mutex());
if (addr && addr_length != sizeof(sockaddr_in))
return set_so_error(EINVAL);
if (addr) {
sockaddr_in ia {};
SOCKET_TRY(copy_from_user(&ia, Userspace<sockaddr_in const*>(addr.ptr())));
if (ia.sin_family != AF_INET) {
dmesgln("sendto: Bad address family: {} is not AF_INET", ia.sin_family);
return set_so_error(EAFNOSUPPORT);
}
m_peer_address = IPv4Address((u8 const*)&ia.sin_addr.s_addr);
m_peer_port = ntohs(ia.sin_port);
}
if (!is_connected() && m_peer_address.is_zero())
return set_so_error(EPIPE);
auto allow_using_gateway = ((flags & MSG_DONTROUTE) || m_routing_disabled) ? AllowUsingGateway::No : AllowUsingGateway::Yes;
auto adapter = bound_interface().with([](auto& bound_device) -> RefPtr<NetworkAdapter> { return bound_device; });
auto routing_decision = route_to(m_peer_address, m_local_address, adapter, allow_using_gateway);
if (routing_decision.is_zero())
return set_so_error(EHOSTUNREACH);
if (m_local_address.to_u32() == 0)
m_local_address = routing_decision.adapter->ipv4_address();
if (auto result = allocate_local_port_if_needed(); result.error_or_port.is_error() && result.error_or_port.error().code() != ENOPROTOOPT)
return result.error_or_port.release_error();
dbgln_if(IPV4_SOCKET_DEBUG, "sendto: destination={}:{}", m_peer_address, m_peer_port);
if (type() == SOCK_RAW) {
auto ipv4_payload_offset = routing_decision.adapter->ipv4_payload_offset();
data_length = min(data_length, routing_decision.adapter->mtu() - ipv4_payload_offset);
auto packet = routing_decision.adapter->acquire_packet_buffer(ipv4_payload_offset + data_length);
if (!packet)
return set_so_error(ENOMEM);
routing_decision.adapter->fill_in_ipv4_header(*packet, local_address(), routing_decision.next_hop,
m_peer_address, (IPv4Protocol)protocol(), data_length, m_type_of_service, m_ttl);
if (auto result = data.read(packet->buffer->data() + ipv4_payload_offset, data_length); result.is_error()) {
routing_decision.adapter->release_packet_buffer(*packet);
return set_so_error(result.release_error());
}
routing_decision.adapter->send_packet(packet->bytes());
routing_decision.adapter->release_packet_buffer(*packet);
return data_length;
}
auto nsent_or_error = protocol_send(data, data_length);
if (!nsent_or_error.is_error())
Thread::current()->did_ipv4_socket_write(nsent_or_error.value());
return nsent_or_error;
}
ErrorOr<size_t> IPv4Socket::receive_byte_buffered(OpenFileDescription& description, UserOrKernelBuffer& buffer, size_t buffer_length, int flags, Userspace<sockaddr*>, Userspace<socklen_t*>, bool blocking)
{
MutexLocker locker(mutex());
VERIFY(m_receive_buffer);
if (m_receive_buffer->is_empty()) {
if (protocol_is_disconnected())
return 0;
if (!blocking)
return set_so_error(EAGAIN);
locker.unlock();
auto unblocked_flags = BlockFlags::None;
auto res = Thread::current()->block<Thread::ReadBlocker>({}, description, unblocked_flags);
locker.lock();
if (!has_flag(unblocked_flags, BlockFlags::Read)) {
if (res.was_interrupted())
return set_so_error(EINTR);
// Unblocked due to timeout.
return set_so_error(EAGAIN);
}
}
ErrorOr<size_t> nreceived_or_error { 0 };
if (flags & MSG_PEEK)
nreceived_or_error = m_receive_buffer->peek(buffer, buffer_length);
else
nreceived_or_error = m_receive_buffer->read(buffer, buffer_length);
if (!nreceived_or_error.is_error() && nreceived_or_error.value() > 0 && !(flags & MSG_PEEK))
Thread::current()->did_ipv4_socket_read(nreceived_or_error.value());
set_can_read(!m_receive_buffer->is_empty());
return nreceived_or_error;
}
ErrorOr<size_t> IPv4Socket::receive_packet_buffered(OpenFileDescription& description, UserOrKernelBuffer& buffer, size_t buffer_length, int flags, Userspace<sockaddr*> addr, Userspace<socklen_t*> addr_length, Time& packet_timestamp, bool blocking)
{
MutexLocker locker(mutex());
ReceivedPacket taken_packet;
ReceivedPacket* packet { nullptr };
{
if (m_receive_queue.is_empty()) {
// FIXME: Shouldn't this return ENOTCONN instead of EOF?
// But if so, we still need to deliver at least one EOF read to userspace.. right?
if (protocol_is_disconnected())
return 0;
if (!blocking)
return set_so_error(EAGAIN);
}
if (!m_receive_queue.is_empty()) {
if (flags & MSG_PEEK) {
packet = &m_receive_queue.first();
} else {
taken_packet = m_receive_queue.take_first();
packet = &taken_packet;
}
set_can_read(!m_receive_queue.is_empty());
dbgln_if(IPV4_SOCKET_DEBUG, "IPv4Socket({}): recvfrom without blocking {} bytes, packets in queue: {}",
this,
packet->data->size(),
m_receive_queue.size());
}
}
if (!packet) {
if (protocol_is_disconnected()) {
dbgln("IPv4Socket({}) is protocol-disconnected, returning 0 in recvfrom!", this);
return 0;
}
locker.unlock();
auto unblocked_flags = BlockFlags::None;
auto res = Thread::current()->block<Thread::ReadBlocker>({}, description, unblocked_flags);
locker.lock();
if (!has_flag(unblocked_flags, BlockFlags::Read)) {
if (res.was_interrupted())
return set_so_error(EINTR);
// Unblocked due to timeout.
return set_so_error(EAGAIN);
}
VERIFY(m_can_read);
VERIFY(!m_receive_queue.is_empty());
if (flags & MSG_PEEK) {
packet = &m_receive_queue.first();
} else {
taken_packet = m_receive_queue.take_first();
packet = &taken_packet;
}
set_can_read(!m_receive_queue.is_empty());
dbgln_if(IPV4_SOCKET_DEBUG, "IPv4Socket({}): recvfrom with blocking {} bytes, packets in queue: {}",
this,
packet->data->size(),
m_receive_queue.size());
}
VERIFY(packet->data);
packet_timestamp = packet->timestamp;
if (addr) {
dbgln_if(IPV4_SOCKET_DEBUG, "Incoming packet is from: {}:{}", packet->peer_address, packet->peer_port);
sockaddr_in out_addr {};
memcpy(&out_addr.sin_addr, &packet->peer_address, sizeof(IPv4Address));
out_addr.sin_port = htons(packet->peer_port);
out_addr.sin_family = AF_INET;
Userspace<sockaddr_in*> dest_addr = addr.ptr();
SOCKET_TRY(copy_to_user(dest_addr, &out_addr));
socklen_t out_length = sizeof(sockaddr_in);
VERIFY(addr_length);
SOCKET_TRY(copy_to_user(addr_length, &out_length));
}
if (type() == SOCK_RAW) {
size_t bytes_written = min(packet->data->size(), buffer_length);
SOCKET_TRY(buffer.write(packet->data->data(), bytes_written));
return bytes_written;
}
return protocol_receive(packet->data->bytes(), buffer, buffer_length, flags);
}
ErrorOr<size_t> IPv4Socket::recvfrom(OpenFileDescription& description, UserOrKernelBuffer& buffer, size_t buffer_length, int flags, Userspace<sockaddr*> user_addr, Userspace<socklen_t*> user_addr_length, Time& packet_timestamp, bool blocking)
{
if (user_addr_length) {
socklen_t addr_length;
SOCKET_TRY(copy_from_user(&addr_length, user_addr_length.unsafe_userspace_ptr()));
if (addr_length < sizeof(sockaddr_in))
return set_so_error(EINVAL);
}
dbgln_if(IPV4_SOCKET_DEBUG, "recvfrom: type={}, local_port={}", type(), local_port());
ErrorOr<size_t> total_nreceived = 0;
do {
auto offset_buffer = buffer.offset(total_nreceived.value());
auto offset_buffer_length = buffer_length - total_nreceived.value();
ErrorOr<size_t> nreceived = 0;
if (buffer_mode() == BufferMode::Bytes)
nreceived = receive_byte_buffered(description, offset_buffer, offset_buffer_length, flags, user_addr, user_addr_length, blocking);
else
nreceived = receive_packet_buffered(description, offset_buffer, offset_buffer_length, flags, user_addr, user_addr_length, packet_timestamp, blocking);
if (nreceived.is_error())
total_nreceived = move(nreceived);
else
total_nreceived.value() += nreceived.value();
} while ((flags & MSG_WAITALL) && !total_nreceived.is_error() && total_nreceived.value() < buffer_length);
if (!total_nreceived.is_error())
Thread::current()->did_ipv4_socket_read(total_nreceived.value());
return total_nreceived;
}
bool IPv4Socket::did_receive(IPv4Address const& source_address, u16 source_port, ReadonlyBytes packet, Time const& packet_timestamp)
{
MutexLocker locker(mutex());
if (is_shut_down_for_reading())
return false;
auto packet_size = packet.size();
if (buffer_mode() == BufferMode::Bytes) {
VERIFY(m_receive_buffer);
size_t space_in_receive_buffer = m_receive_buffer->space_for_writing();
if (packet_size > space_in_receive_buffer) {
dbgln("IPv4Socket({}): did_receive refusing packet since buffer is full.", this);
VERIFY(m_can_read);
return false;
}
auto scratch_buffer = UserOrKernelBuffer::for_kernel_buffer(m_scratch_buffer->data());
auto nreceived_or_error = protocol_receive(packet, scratch_buffer, m_scratch_buffer->size(), 0);
if (nreceived_or_error.is_error())
return false;
auto nwritten_or_error = m_receive_buffer->write(scratch_buffer, nreceived_or_error.value());
if (nwritten_or_error.is_error())
return false;
set_can_read(!m_receive_buffer->is_empty());
} else {
if (m_receive_queue.size() > 2000) {
dbgln("IPv4Socket({}): did_receive refusing packet since queue is full.", this);
return false;
}
auto data_or_error = KBuffer::try_create_with_bytes("IPv4Socket: Packet buffer"sv, packet);
if (data_or_error.is_error()) {
dbgln("IPv4Socket: did_receive unable to allocate storage for incoming packet.");
return false;
}
auto result = m_receive_queue.try_append({ source_address, source_port, packet_timestamp, data_or_error.release_value() });
if (result.is_error()) {
dbgln("IPv4Socket: Dropped incoming packet because appending to the receive queue failed.");
return false;
}
set_can_read(true);
}
m_bytes_received += packet_size;
if constexpr (IPV4_SOCKET_DEBUG) {
if (buffer_mode() == BufferMode::Bytes)
dbgln("IPv4Socket({}): did_receive {} bytes, total_received={}", this, packet_size, m_bytes_received);
else
dbgln("IPv4Socket({}): did_receive {} bytes, total_received={}, packets in queue: {}",
this,
packet_size,
m_bytes_received,
m_receive_queue.size());
}
return true;
}
ErrorOr<NonnullOwnPtr<KString>> IPv4Socket::pseudo_path(OpenFileDescription const&) const
{
if (m_role == Role::None)
return KString::try_create("socket"sv);
StringBuilder builder;
TRY(builder.try_append("socket:"sv));
TRY(builder.try_appendff("{}:{}", TRY(m_local_address.to_string()), m_local_port));
if (m_role == Role::Accepted || m_role == Role::Connected)
TRY(builder.try_appendff(" / {}:{}", TRY(m_peer_address.to_string()), m_peer_port));
switch (m_role) {
case Role::Listener:
TRY(builder.try_append(" (listening)"sv));
break;
case Role::Accepted:
TRY(builder.try_append(" (accepted)"sv));
break;
case Role::Connected:
TRY(builder.try_append(" (connected)"sv));
break;
case Role::Connecting:
TRY(builder.try_append(" (connecting)"sv));
break;
default:
VERIFY_NOT_REACHED();
}
return KString::try_create(builder.string_view());
}
ErrorOr<void> IPv4Socket::setsockopt(int level, int option, Userspace<void const*> user_value, socklen_t user_value_size)
{
if (level != IPPROTO_IP)
return Socket::setsockopt(level, option, user_value, user_value_size);
MutexLocker locker(mutex());
switch (option) {
case IP_TTL: {
if (user_value_size < sizeof(int))
return EINVAL;
int value;
TRY(copy_from_user(&value, static_ptr_cast<int const*>(user_value)));
if (value < 0 || value > 255)
return EINVAL;
m_ttl = value;
return {};
}
case IP_TOS: {
if (user_value_size < sizeof(int))
return EINVAL;
int value;
TRY(copy_from_user(&value, static_ptr_cast<int const*>(user_value)));
if (value < 0 || value > 255)
return EINVAL;
m_type_of_service = value;
return {};
}
case IP_MULTICAST_LOOP: {
if (user_value_size != 1)
return EINVAL;
u8 value;
TRY(copy_from_user(&value, static_ptr_cast<u8 const*>(user_value)));
if (value != 0 && value != 1)
return EINVAL;
m_multicast_loop = value;
return {};
}
case IP_ADD_MEMBERSHIP: {
if (user_value_size != sizeof(ip_mreq))
return EINVAL;
ip_mreq mreq;
TRY(copy_from_user(&mreq, static_ptr_cast<ip_mreq const*>(user_value)));
if (mreq.imr_interface.s_addr != INADDR_ANY)
return ENOTSUP;
IPv4Address address { (u8 const*)&mreq.imr_multiaddr.s_addr };
if (!m_multicast_memberships.contains_slow(address))
m_multicast_memberships.append(address);
return {};
}
case IP_DROP_MEMBERSHIP: {
if (user_value_size != sizeof(ip_mreq))
return EINVAL;
ip_mreq mreq;
TRY(copy_from_user(&mreq, static_ptr_cast<ip_mreq const*>(user_value)));
if (mreq.imr_interface.s_addr != INADDR_ANY)
return ENOTSUP;
IPv4Address address { (u8 const*)&mreq.imr_multiaddr.s_addr };
m_multicast_memberships.remove_first_matching([&address](auto& a) { return a == address; });
return {};
}
default:
return ENOPROTOOPT;
}
}
ErrorOr<void> IPv4Socket::getsockopt(OpenFileDescription& description, int level, int option, Userspace<void*> value, Userspace<socklen_t*> value_size)
{
if (level != IPPROTO_IP)
return Socket::getsockopt(description, level, option, value, value_size);
MutexLocker locker(mutex());
socklen_t size;
TRY(copy_from_user(&size, value_size.unsafe_userspace_ptr()));
switch (option) {
case IP_TTL: {
if (size < sizeof(int))
return EINVAL;
int ttl = m_ttl;
TRY(copy_to_user(static_ptr_cast<int*>(value), (int*)&ttl));
size = sizeof(int);
return copy_to_user(value_size, &size);
}
case IP_TOS: {
if (size < sizeof(int))
return EINVAL;
int type_of_service = m_type_of_service;
TRY(copy_to_user(static_ptr_cast<int*>(value), (int*)&type_of_service));
size = sizeof(int);
return copy_to_user(value_size, &size);
}
case IP_MULTICAST_LOOP: {
if (size < 1)
return EINVAL;
TRY(copy_to_user(static_ptr_cast<u8*>(value), (u8 const*)&m_multicast_loop));
size = 1;
return copy_to_user(value_size, &size);
}
default:
return ENOPROTOOPT;
}
}
ErrorOr<void> IPv4Socket::ioctl(OpenFileDescription&, unsigned request, Userspace<void*> arg)
{
TRY(Process::current().require_promise(Pledge::inet));
MutexLocker locker(mutex());
auto ioctl_route = [request, arg]() -> ErrorOr<void> {
auto user_route = static_ptr_cast<rtentry*>(arg);
rtentry route;
TRY(copy_from_user(&route, user_route));
Userspace<const char*> user_rt_dev((FlatPtr)route.rt_dev);
auto ifname = TRY(try_copy_kstring_from_user(user_rt_dev, IFNAMSIZ));
auto adapter = NetworkingManagement::the().lookup_by_name(ifname->view());
if (!adapter)
return ENODEV;
switch (request) {
case SIOCADDRT: {
auto current_process_credentials = Process::current().credentials();
if (!current_process_credentials->is_superuser())
return EPERM;
if (route.rt_gateway.sa_family != AF_INET)
return EAFNOSUPPORT;
if (!(route.rt_flags & RTF_UP))
return EINVAL; // FIXME: Find the correct value to return
auto destination = IPv4Address(((sockaddr_in&)route.rt_dst).sin_addr.s_addr);
auto gateway = IPv4Address(((sockaddr_in&)route.rt_gateway).sin_addr.s_addr);
auto genmask = IPv4Address(((sockaddr_in&)route.rt_genmask).sin_addr.s_addr);
return update_routing_table(destination, gateway, genmask, route.rt_flags, adapter, UpdateTable::Set);
}
case SIOCDELRT:
auto current_process_credentials = Process::current().credentials();
if (!current_process_credentials->is_superuser())
return EPERM;
if (route.rt_gateway.sa_family != AF_INET)
return EAFNOSUPPORT;
auto destination = IPv4Address(((sockaddr_in&)route.rt_dst).sin_addr.s_addr);
auto gateway = IPv4Address(((sockaddr_in&)route.rt_gateway).sin_addr.s_addr);
auto genmask = IPv4Address(((sockaddr_in&)route.rt_genmask).sin_addr.s_addr);
return update_routing_table(destination, gateway, genmask, route.rt_flags, adapter, UpdateTable::Delete);
}
return EINVAL;
};
auto ioctl_arp = [request, arg]() -> ErrorOr<void> {
auto user_req = static_ptr_cast<arpreq*>(arg);
arpreq arp_req;
TRY(copy_from_user(&arp_req, user_req));
auto current_process_credentials = Process::current().credentials();
switch (request) {
case SIOCSARP:
if (!current_process_credentials->is_superuser())
return EPERM;
if (arp_req.arp_pa.sa_family != AF_INET)
return EAFNOSUPPORT;
update_arp_table(IPv4Address(((sockaddr_in&)arp_req.arp_pa).sin_addr.s_addr), *(MACAddress*)&arp_req.arp_ha.sa_data[0], UpdateTable::Set);
return {};
case SIOCDARP:
if (!current_process_credentials->is_superuser())
return EPERM;
if (arp_req.arp_pa.sa_family != AF_INET)
return EAFNOSUPPORT;
update_arp_table(IPv4Address(((sockaddr_in&)arp_req.arp_pa).sin_addr.s_addr), *(MACAddress*)&arp_req.arp_ha.sa_data[0], UpdateTable::Delete);
return {};
}
return EINVAL;
};
auto ioctl_interface = [request, arg]() -> ErrorOr<void> {
auto user_ifr = static_ptr_cast<ifreq*>(arg);
ifreq ifr;
TRY(copy_from_user(&ifr, user_ifr));
if (request == SIOCGIFNAME) {
// NOTE: Network devices are 1-indexed since index 0 denotes an invalid device
if (ifr.ifr_index == 0)
return EINVAL;
size_t index = 1;
Optional<StringView> result {};
NetworkingManagement::the().for_each([&ifr, &index, &result](auto& adapter) {
if (index == ifr.ifr_index)
result = adapter.name();
++index;
});
if (result.has_value()) {
auto name = result.release_value();
auto succ = name.copy_characters_to_buffer(ifr.ifr_name, IFNAMSIZ);
if (!succ) {
return EFAULT;
}
return copy_to_user(user_ifr, &ifr);
}
return ENODEV;
}
char namebuf[IFNAMSIZ + 1];
memcpy(namebuf, ifr.ifr_name, IFNAMSIZ);
namebuf[sizeof(namebuf) - 1] = '\0';
if (request == SIOCGIFINDEX) {
StringView name { namebuf, strlen(namebuf) };
size_t index = 1;
Optional<size_t> result {};
NetworkingManagement::the().for_each([&name, &index, &result](auto& adapter) {
if (adapter.name() == name)
result = index;
++index;
});
if (result.has_value()) {
ifr.ifr_index = result.release_value();
return copy_to_user(user_ifr, &ifr);
}
return ENODEV;
}
auto adapter = NetworkingManagement::the().lookup_by_name({ namebuf, strlen(namebuf) });
if (!adapter)
return ENODEV;
auto current_process_credentials = Process::current().credentials();
switch (request) {
case SIOCSIFADDR:
if (!current_process_credentials->is_superuser())
return EPERM;
if (ifr.ifr_addr.sa_family != AF_INET)
return EAFNOSUPPORT;
adapter->set_ipv4_address(IPv4Address(((sockaddr_in&)ifr.ifr_addr).sin_addr.s_addr));
return {};
case SIOCSIFNETMASK:
if (!current_process_credentials->is_superuser())
return EPERM;
if (ifr.ifr_addr.sa_family != AF_INET)
return EAFNOSUPPORT;
adapter->set_ipv4_netmask(IPv4Address(((sockaddr_in&)ifr.ifr_netmask).sin_addr.s_addr));
return {};
case SIOCGIFADDR: {
auto ip4_addr = adapter->ipv4_address().to_u32();
auto& socket_address_in = reinterpret_cast<sockaddr_in&>(ifr.ifr_addr);
socket_address_in.sin_family = AF_INET;
socket_address_in.sin_addr.s_addr = ip4_addr;
return copy_to_user(user_ifr, &ifr);
}
case SIOCGIFNETMASK: {
auto ip4_netmask = adapter->ipv4_netmask().to_u32();
auto& socket_address_in = reinterpret_cast<sockaddr_in&>(ifr.ifr_addr);
socket_address_in.sin_family = AF_INET;
// NOTE: NOT ifr_netmask.
socket_address_in.sin_addr.s_addr = ip4_netmask;
return copy_to_user(user_ifr, &ifr);
}
case SIOCGIFHWADDR: {
auto mac_address = adapter->mac_address();
switch (adapter->adapter_type()) {
case NetworkAdapter::Type::Loopback:
ifr.ifr_hwaddr.sa_family = ARPHRD_LOOPBACK;
break;
case NetworkAdapter::Type::Ethernet:
ifr.ifr_hwaddr.sa_family = ARPHRD_ETHER;
break;
default:
VERIFY_NOT_REACHED();
}
mac_address.copy_to(Bytes { ifr.ifr_hwaddr.sa_data, sizeof(ifr.ifr_hwaddr.sa_data) });
return copy_to_user(user_ifr, &ifr);
}
case SIOCGIFBRDADDR: {
// Broadcast address is basically the reverse of the netmask, i.e.
// instead of zeroing out the end, you OR with 1 instead.
auto ip4_netmask = adapter->ipv4_netmask().to_u32();
auto broadcast_addr = adapter->ipv4_address().to_u32() | ~ip4_netmask;
auto& socket_address_in = reinterpret_cast<sockaddr_in&>(ifr.ifr_addr);
socket_address_in.sin_family = AF_INET;
socket_address_in.sin_addr.s_addr = broadcast_addr;
return copy_to_user(user_ifr, &ifr);
}
case SIOCGIFMTU: {
auto ip4_metric = adapter->mtu();
ifr.ifr_addr.sa_family = AF_INET;
ifr.ifr_metric = ip4_metric;
return copy_to_user(user_ifr, &ifr);
}
case SIOCGIFFLAGS: {
// FIXME: stub!
constexpr short flags = 1;
ifr.ifr_addr.sa_family = AF_INET;
ifr.ifr_flags = flags;
return copy_to_user(user_ifr, &ifr);
}
case SIOCGIFCONF: {
// FIXME: stub!
return EINVAL;
}
}
return EINVAL;
};
switch (request) {
case SIOCSIFADDR:
case SIOCSIFNETMASK:
case SIOCGIFADDR:
case SIOCGIFHWADDR:
case SIOCGIFNETMASK:
case SIOCGIFBRDADDR:
case SIOCGIFMTU:
case SIOCGIFFLAGS:
case SIOCGIFCONF:
case SIOCGIFNAME:
case SIOCGIFINDEX:
return ioctl_interface();
case SIOCADDRT:
case SIOCDELRT:
return ioctl_route();
case SIOCSARP:
case SIOCDARP:
return ioctl_arp();
case FIONREAD: {
int readable = 0;
if (buffer_mode() == BufferMode::Bytes) {
readable = static_cast<int>(m_receive_buffer->immediately_readable());
} else {
if (m_receive_queue.size() != 0u) {
readable = static_cast<int>(TRY(protocol_size(m_receive_queue.first().data->bytes())));
}
}
return copy_to_user(static_ptr_cast<int*>(arg), &readable);
}
}
return EINVAL;
}
ErrorOr<void> IPv4Socket::close()
{
[[maybe_unused]] auto rc = shutdown(SHUT_RDWR);
return {};
}
void IPv4Socket::shut_down_for_reading()
{
Socket::shut_down_for_reading();
set_can_read(true);
}
void IPv4Socket::set_can_read(bool value)
{
m_can_read = value;
if (value)
evaluate_block_conditions();
}
void IPv4Socket::drop_receive_buffer()
{
m_receive_buffer = nullptr;
}
}
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