#include #include #include #include #include #include #include #include //#define SOCKET_DEBUG KResultOr> Socket::create(int domain, int type, int protocol) { (void)protocol; switch (domain) { case AF_LOCAL: return LocalSocket::create(type & SOCK_TYPE_MASK); case AF_INET: return IPv4Socket::create(type & SOCK_TYPE_MASK, protocol); default: return KResult(-EAFNOSUPPORT); } } Socket::Socket(int domain, int type, int protocol) : m_domain(domain) , m_type(type) , m_protocol(protocol) { auto& process = current->process(); m_origin = { process.pid(), process.uid(), process.gid() }; } Socket::~Socket() { } void Socket::set_setup_state(SetupState new_setup_state) { #ifdef SOCKET_DEBUG kprintf("%s(%u) Socket{%p} setup state moving from %s to %s\n", current->process().name().characters(), current->pid(), this, to_string(m_setup_state), to_string(new_setup_state)); #endif m_setup_state = new_setup_state; } RefPtr Socket::accept() { LOCKER(m_lock); if (m_pending.is_empty()) return nullptr; #ifdef SOCKET_DEBUG kprintf("%s(%u) Socket{%p} de-queueing connection\n", current->process().name().characters(), current->pid(), this); #endif auto client = m_pending.take_first(); ASSERT(!client->is_connected()); auto& process = current->process(); client->m_acceptor = { process.pid(), process.uid(), process.gid() }; client->m_connected = true; client->m_role = Role::Accepted; return client; } KResult Socket::queue_connection_from(NonnullRefPtr peer) { #ifdef SOCKET_DEBUG kprintf("%s(%u) Socket{%p} queueing connection\n", current->process().name().characters(), current->pid(), this); #endif LOCKER(m_lock); if (m_pending.size() >= m_backlog) return KResult(-ECONNREFUSED); m_pending.append(peer); return KSuccess; } KResult Socket::setsockopt(int level, int option, const void* value, socklen_t value_size) { ASSERT(level == SOL_SOCKET); switch (option) { case SO_SNDTIMEO: if (value_size != sizeof(timeval)) return KResult(-EINVAL); m_send_timeout = *(const timeval*)value; return KSuccess; case SO_RCVTIMEO: if (value_size != sizeof(timeval)) return KResult(-EINVAL); m_receive_timeout = *(const timeval*)value; return KSuccess; default: kprintf("%s(%u): setsockopt() at SOL_SOCKET with unimplemented option %d\n", current->process().name().characters(), current->process().pid(), option); return KResult(-ENOPROTOOPT); } } KResult Socket::getsockopt(FileDescription&, int level, int option, void* value, socklen_t* value_size) { ASSERT(level == SOL_SOCKET); switch (option) { case SO_SNDTIMEO: if (*value_size < sizeof(timeval)) return KResult(-EINVAL); *(timeval*)value = m_send_timeout; *value_size = sizeof(timeval); return KSuccess; case SO_RCVTIMEO: if (*value_size < sizeof(timeval)) return KResult(-EINVAL); *(timeval*)value = m_receive_timeout; *value_size = sizeof(timeval); return KSuccess; case SO_ERROR: if (*value_size < sizeof(int)) return KResult(-EINVAL); kprintf("%s(%u): getsockopt() SO_ERROR: WARNING! I have no idea what the real error is, so I'll just stick my fingers in my ears and pretend there is none! %d\n", current->process().name().characters(), option); *(int*)value = 0; *value_size = sizeof(int); return KSuccess; default: kprintf("%s(%u): getsockopt() at SOL_SOCKET with unimplemented option %d\n", current->process().name().characters(), option); return KResult(-ENOPROTOOPT); } } void Socket::load_receive_deadline() { kgettimeofday(m_receive_deadline); m_receive_deadline.tv_sec += m_receive_timeout.tv_sec; m_receive_deadline.tv_usec += m_receive_timeout.tv_usec; m_receive_deadline.tv_sec += (m_send_timeout.tv_usec / 1000000) * 1; m_receive_deadline.tv_usec %= 1000000; } void Socket::load_send_deadline() { kgettimeofday(m_send_deadline); m_send_deadline.tv_sec += m_send_timeout.tv_sec; m_send_deadline.tv_usec += m_send_timeout.tv_usec; m_send_deadline.tv_sec += (m_send_timeout.tv_usec / 1000000) * 1; m_send_deadline.tv_usec %= 1000000; } ssize_t Socket::read(FileDescription& description, u8* buffer, ssize_t size) { return recvfrom(description, buffer, size, 0, nullptr, 0); } ssize_t Socket::write(FileDescription& description, const u8* data, ssize_t size) { return sendto(description, data, size, 0, nullptr, 0); }