ladybird/Kernel/Net/IPv4Socket.cpp

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#include <AK/StringBuilder.h>
#include <Kernel/FileSystem/FileDescription.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/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>
#include <LibC/errno_numbers.h>
#include <LibC/sys/ioctl_numbers.h>
//#define IPV4_SOCKET_DEBUG
Lockable<HashTable<IPv4Socket*>>& IPv4Socket::all_sockets()
{
static Lockable<HashTable<IPv4Socket*>>* s_table;
if (!s_table)
s_table = new Lockable<HashTable<IPv4Socket*>>;
return *s_table;
}
NonnullRefPtr<IPv4Socket> IPv4Socket::create(int type, int protocol)
{
if (type == SOCK_STREAM)
return TCPSocket::create(protocol);
if (type == SOCK_DGRAM)
return UDPSocket::create(protocol);
return adopt(*new IPv4Socket(type, protocol));
}
IPv4Socket::IPv4Socket(int type, int protocol)
: Socket(AF_INET, type, protocol)
{
#ifdef IPV4_SOCKET_DEBUG
kprintf("%s(%u) IPv4Socket{%p} created with type=%u, protocol=%d\n", current->process().name().characters(), current->pid(), this, type, protocol);
#endif
LOCKER(all_sockets().lock());
all_sockets().resource().set(this);
}
IPv4Socket::~IPv4Socket()
{
LOCKER(all_sockets().lock());
all_sockets().resource().remove(this);
}
bool IPv4Socket::get_local_address(sockaddr* address, socklen_t* address_size)
{
// FIXME: Look into what fallback behavior we should have here.
if (*address_size < sizeof(sockaddr_in))
return false;
auto& ia = (sockaddr_in&)*address;
ia.sin_family = AF_INET;
ia.sin_port = htons(m_local_port);
memcpy(&ia.sin_addr, &m_local_address, sizeof(IPv4Address));
*address_size = sizeof(sockaddr_in);
return true;
}
bool IPv4Socket::get_peer_address(sockaddr* address, socklen_t* address_size)
{
// FIXME: Look into what fallback behavior we should have here.
if (*address_size < sizeof(sockaddr_in))
return false;
auto& ia = (sockaddr_in&)*address;
ia.sin_family = AF_INET;
ia.sin_port = htons(m_peer_port);
memcpy(&ia.sin_addr, &m_peer_address, sizeof(IPv4Address));
*address_size = sizeof(sockaddr_in);
return true;
}
KResult IPv4Socket::bind(const sockaddr* address, socklen_t address_size)
{
ASSERT(setup_state() == SetupState::Unstarted);
if (address_size != sizeof(sockaddr_in))
return KResult(-EINVAL);
if (address->sa_family != AF_INET)
return KResult(-EINVAL);
auto& ia = *(const sockaddr_in*)address;
auto requested_local_port = ntohs(ia.sin_port);
if (!current->process().is_superuser()) {
if (requested_local_port < 1024) {
dbg() << current->process() << " (uid " << current->process().uid() << ") attempted to bind " << class_name() << " to port " << requested_local_port;
return KResult(-EACCES);
}
}
m_local_address = IPv4Address((const u8*)&ia.sin_addr.s_addr);
m_local_port = requested_local_port;
#ifdef IPV4_SOCKET_DEBUG
dbgprintf("IPv4Socket::bind %s{%p} to %s:%u\n", class_name(), this, m_local_address.to_string().characters(), m_local_port);
#endif
return protocol_bind();
}
KResult IPv4Socket::listen(int backlog)
{
int rc = allocate_local_port_if_needed();
if (rc < 0)
return KResult(-EADDRINUSE);
set_backlog(backlog);
m_role = Role::Listener;
#ifdef IPV4_SOCKET_DEBUG
kprintf("IPv4Socket{%p} listening with backlog=%d\n", this, backlog);
#endif
return protocol_listen();
}
KResult IPv4Socket::connect(FileDescription& description, const sockaddr* address, socklen_t address_size, ShouldBlock should_block)
{
if (address_size != sizeof(sockaddr_in))
return KResult(-EINVAL);
if (address->sa_family != AF_INET)
return KResult(-EINVAL);
if (m_role == Role::Connected)
return KResult(-EISCONN);
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auto& ia = *(const sockaddr_in*)address;
m_peer_address = IPv4Address((const u8*)&ia.sin_addr.s_addr);
m_peer_port = ntohs(ia.sin_port);
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return protocol_connect(description, should_block);
}
void IPv4Socket::attach(FileDescription&)
{
}
void IPv4Socket::detach(FileDescription&)
{
}
bool IPv4Socket::can_read(const FileDescription&) const
{
if (m_role == Role::Listener)
return can_accept();
if (protocol_is_disconnected())
return true;
return m_can_read;
}
bool IPv4Socket::can_write(const FileDescription&) const
{
return is_connected();
}
int IPv4Socket::allocate_local_port_if_needed()
{
if (m_local_port)
return m_local_port;
int port = protocol_allocate_local_port();
if (port < 0)
return port;
m_local_port = (u16)port;
return port;
}
ssize_t IPv4Socket::sendto(FileDescription&, const void* data, size_t data_length, int flags, const sockaddr* addr, socklen_t addr_length)
{
(void)flags;
if (addr && addr_length != sizeof(sockaddr_in))
return -EINVAL;
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if (addr) {
if (addr->sa_family != AF_INET) {
kprintf("sendto: Bad address family: %u is not AF_INET!\n", addr->sa_family);
return -EAFNOSUPPORT;
}
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auto& ia = *(const sockaddr_in*)addr;
m_peer_address = IPv4Address((const u8*)&ia.sin_addr.s_addr);
m_peer_port = ntohs(ia.sin_port);
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}
auto routing_decision = route_to(m_peer_address, m_local_address);
if (routing_decision.is_zero())
return -EHOSTUNREACH;
if (m_local_address.to_u32() == 0)
m_local_address = routing_decision.adapter->ipv4_address();
int rc = allocate_local_port_if_needed();
if (rc < 0)
return rc;
#ifdef IPV4_SOCKET_DEBUG
kprintf("sendto: destination=%s:%u\n", m_peer_address.to_string().characters(), m_peer_port);
#endif
if (type() == SOCK_RAW) {
routing_decision.adapter->send_ipv4(routing_decision.next_hop, m_peer_address, (IPv4Protocol)protocol(), (const u8*)data, data_length, m_ttl);
return data_length;
}
int nsent = protocol_send(data, data_length);
if (nsent > 0)
current->did_ipv4_socket_write(nsent);
return nsent;
}
ssize_t IPv4Socket::recvfrom(FileDescription& description, void* buffer, size_t buffer_length, int flags, sockaddr* addr, socklen_t* addr_length)
{
(void)flags;
if (addr_length && *addr_length < sizeof(sockaddr_in))
return -EINVAL;
#ifdef IPV4_SOCKET_DEBUG
kprintf("recvfrom: type=%d, local_port=%u\n", type(), local_port());
#endif
ReceivedPacket packet;
{
LOCKER(lock());
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 (!description.is_blocking())
return -EAGAIN;
}
if (!m_receive_queue.is_empty()) {
packet = m_receive_queue.take_first();
m_can_read = !m_receive_queue.is_empty();
#ifdef IPV4_SOCKET_DEBUG
kprintf("IPv4Socket(%p): recvfrom without blocking %d bytes, packets in queue: %zu\n", this, packet.data.value().size(), m_receive_queue.size_slow());
#endif
}
}
if (!packet.data.has_value()) {
if (protocol_is_disconnected()) {
kprintf("IPv4Socket{%p} is protocol-disconnected, returning 0 in recvfrom!\n", this);
return 0;
}
load_receive_deadline();
auto res = current->block<Thread::ReceiveBlocker>(description);
LOCKER(lock());
if (!m_can_read) {
if (res == Thread::BlockResult::InterruptedBySignal)
return -EINTR;
// Unblocked due to timeout.
return -EAGAIN;
}
ASSERT(m_can_read);
ASSERT(!m_receive_queue.is_empty());
packet = m_receive_queue.take_first();
m_can_read = !m_receive_queue.is_empty();
#ifdef IPV4_SOCKET_DEBUG
kprintf("IPv4Socket(%p): recvfrom with blocking %d bytes, packets in queue: %zu\n", this, packet.data.value().size(), m_receive_queue.size_slow());
#endif
}
ASSERT(packet.data.has_value());
auto& ipv4_packet = *(const IPv4Packet*)(packet.data.value().data());
if (addr) {
#ifdef IPV4_SOCKET_DEBUG
dbgprintf("Incoming packet is from: %s:%u\n", packet.peer_address.to_string().characters(), packet.peer_port);
#endif
auto& ia = *(sockaddr_in*)addr;
memcpy(&ia.sin_addr, &packet.peer_address, sizeof(IPv4Address));
ia.sin_port = htons(packet.peer_port);
ia.sin_family = AF_INET;
ASSERT(addr_length);
*addr_length = sizeof(sockaddr_in);
}
if (type() == SOCK_RAW) {
ASSERT(buffer_length >= ipv4_packet.payload_size());
memcpy(buffer, ipv4_packet.payload(), ipv4_packet.payload_size());
return ipv4_packet.payload_size();
}
int nreceived = protocol_receive(packet.data.value(), buffer, buffer_length, flags);
if (nreceived > 0)
current->did_ipv4_socket_read(nreceived);
return nreceived;
}
bool IPv4Socket::did_receive(const IPv4Address& source_address, u16 source_port, KBuffer&& packet)
{
LOCKER(lock());
if (m_receive_queue.size_slow() > 2000) {
kprintf("IPv4Socket(%p): did_receive refusing packet since queue is full.\n", this);
return false;
}
auto packet_size = packet.size();
m_receive_queue.append({ source_address, source_port, move(packet) });
m_can_read = true;
m_bytes_received += packet_size;
#ifdef IPV4_SOCKET_DEBUG
kprintf("IPv4Socket(%p): did_receive %d bytes, total_received=%u, packets in queue: %zu\n", this, packet_size, m_bytes_received, m_receive_queue.size_slow());
#endif
return true;
}
String IPv4Socket::absolute_path(const FileDescription&) const
{
if (m_role == Role::None)
return "socket";
StringBuilder builder;
builder.append("socket:");
builder.appendf("%s:%d", m_local_address.to_string().characters(), m_local_port);
if (m_role == Role::Accepted || m_role == Role::Connected)
builder.appendf(" / %s:%d", m_peer_address.to_string().characters(), m_peer_port);
switch (m_role) {
case Role::Listener:
builder.append(" (listening)");
break;
case Role::Accepted:
builder.append(" (accepted)");
break;
case Role::Connected:
builder.append(" (connected)");
break;
case Role::Connecting:
builder.append(" (connecting)");
break;
default:
ASSERT_NOT_REACHED();
}
return builder.to_string();
}
KResult IPv4Socket::setsockopt(int level, int option, const void* value, socklen_t value_size)
{
if (level != IPPROTO_IP)
return Socket::setsockopt(level, option, value, value_size);
switch (option) {
case IP_TTL:
if (value_size < sizeof(int))
return KResult(-EINVAL);
if (*(const int*)value < 0 || *(const int*)value > 255)
return KResult(-EINVAL);
m_ttl = (u8)*(const int*)value;
return KSuccess;
default:
return KResult(-ENOPROTOOPT);
}
}
KResult IPv4Socket::getsockopt(FileDescription& description, int level, int option, void* value, socklen_t* value_size)
{
if (level != IPPROTO_IP)
return Socket::getsockopt(description, level, option, value, value_size);
switch (option) {
case IP_TTL:
if (*value_size < sizeof(int))
return KResult(-EINVAL);
*(int*)value = m_ttl;
return KSuccess;
default:
return KResult(-ENOPROTOOPT);
}
}
int IPv4Socket::ioctl(FileDescription&, unsigned request, unsigned arg)
{
auto* ifr = (ifreq*)arg;
if (!current->process().validate_read_typed(ifr))
return -EFAULT;
char namebuf[IFNAMSIZ + 1];
memcpy(namebuf, ifr->ifr_name, IFNAMSIZ);
namebuf[sizeof(namebuf) - 1] = '\0';
auto adapter = NetworkAdapter::lookup_by_name(namebuf);
if (!adapter)
return -ENODEV;
switch (request) {
case SIOCSIFADDR:
if (!current->process().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 0;
case SIOCGIFADDR:
if (!current->process().validate_write_typed(ifr))
return -EFAULT;
ifr->ifr_addr.sa_family = AF_INET;
((sockaddr_in&)ifr->ifr_addr).sin_addr.s_addr = adapter->ipv4_address().to_u32();
return 0;
case SIOCGIFHWADDR:
if (!current->process().validate_write_typed(ifr))
return -EFAULT;
ifr->ifr_hwaddr.sa_family = AF_INET;
{
auto mac_address = adapter->mac_address();
memcpy(ifr->ifr_hwaddr.sa_data, &mac_address, sizeof(MACAddress));
}
return 0;
}
return -EINVAL;
}