#include #include #include #include #include #include #include //#define DEBUG_LOCAL_SOCKET Lockable>& LocalSocket::all_sockets() { static Lockable>* s_list; if (!s_list) s_list = new Lockable>(); return *s_list; } void LocalSocket::for_each(Function callback) { LOCKER(all_sockets().lock()); for (auto& socket : all_sockets().resource()) callback(socket); } NonnullRefPtr LocalSocket::create(int type) { return adopt(*new LocalSocket(type)); } LocalSocket::LocalSocket(int type) : Socket(AF_LOCAL, type, 0) { LOCKER(all_sockets().lock()); all_sockets().resource().append(this); #ifdef DEBUG_LOCAL_SOCKET kprintf("%s(%u) LocalSocket{%p} created with type=%u\n", current->process().name().characters(), current->pid(), this, type); #endif } LocalSocket::~LocalSocket() { LOCKER(all_sockets().lock()); all_sockets().resource().remove(this); } bool LocalSocket::get_local_address(sockaddr* address, socklen_t* address_size) { // FIXME: Look into what fallback behavior we should have here. if (*address_size != sizeof(sockaddr_un)) return false; memcpy(address, &m_address, sizeof(sockaddr_un)); *address_size = sizeof(sockaddr_un); return true; } bool LocalSocket::get_peer_address(sockaddr* address, socklen_t* address_size) { return get_local_address(address, address_size); } KResult LocalSocket::bind(const sockaddr* address, socklen_t address_size) { ASSERT(setup_state() == SetupState::Unstarted); if (address_size != sizeof(sockaddr_un)) return KResult(-EINVAL); if (address->sa_family != AF_LOCAL) return KResult(-EINVAL); const sockaddr_un& local_address = *reinterpret_cast(address); char safe_address[sizeof(local_address.sun_path) + 1] = { 0 }; memcpy(safe_address, local_address.sun_path, sizeof(local_address.sun_path)); #ifdef DEBUG_LOCAL_SOCKET kprintf("%s(%u) LocalSocket{%p} bind(%s)\n", current->process().name().characters(), current->pid(), this, safe_address); #endif auto result = VFS::the().open(safe_address, O_CREAT | O_EXCL, S_IFSOCK | 0666, current->process().current_directory()); if (result.is_error()) { if (result.error() == -EEXIST) return KResult(-EADDRINUSE); return result.error(); } m_file = move(result.value()); ASSERT(m_file->inode()); m_file->inode()->bind_socket(*this); m_address = local_address; m_bound = true; return KSuccess; } KResult LocalSocket::connect(FileDescription& description, const sockaddr* address, socklen_t address_size, ShouldBlock) { ASSERT(!m_bound); if (address_size != sizeof(sockaddr_un)) return KResult(-EINVAL); if (address->sa_family != AF_LOCAL) return KResult(-EINVAL); const sockaddr_un& local_address = *reinterpret_cast(address); char safe_address[sizeof(local_address.sun_path) + 1] = { 0 }; memcpy(safe_address, local_address.sun_path, sizeof(local_address.sun_path)); #ifdef DEBUG_LOCAL_SOCKET kprintf("%s(%u) LocalSocket{%p} connect(%s)\n", current->process().name().characters(), current->pid(), this, safe_address); #endif auto description_or_error = VFS::the().open(safe_address, 0, 0, current->process().current_directory()); if (description_or_error.is_error()) return KResult(-ECONNREFUSED); m_file = move(description_or_error.value()); ASSERT(m_file->inode()); if (!m_file->inode()->socket()) return KResult(-ECONNREFUSED); m_address = local_address; ASSERT(m_connect_side_fd == &description); m_connect_side_role = Role::Connecting; auto peer = m_file->inode()->socket(); auto result = peer->queue_connection_from(*this); if (result.is_error()) { m_connect_side_role = Role::None; return result; } if (is_connected()) { m_connect_side_role = Role::Connected; return KSuccess; } if (current->block(description) == Thread::BlockResult::InterruptedBySignal) { m_connect_side_role = Role::None; return KResult(-EINTR); } #ifdef DEBUG_LOCAL_SOCKET kprintf("%s(%u) LocalSocket{%p} connect(%s) status is %s\n", current->process().name().characters(), current->pid(), this, safe_address, to_string(setup_state())); #endif if (!is_connected()) { m_connect_side_role = Role::None; return KResult(-ECONNREFUSED); } m_connect_side_role = Role::Connected; return KSuccess; } KResult LocalSocket::listen(int backlog) { LOCKER(lock()); if (type() != SOCK_STREAM) return KResult(-EOPNOTSUPP); set_backlog(backlog); m_connect_side_role = m_role = Role::Listener; #ifdef DEBUG_LOCAL_SOCKET kprintf("LocalSocket{%p} listening with backlog=%d\n", this, backlog); #endif return KSuccess; } void LocalSocket::attach(FileDescription& description) { ASSERT(!m_accept_side_fd_open); if (m_connect_side_role == Role::None) { ASSERT(m_connect_side_fd == nullptr); m_connect_side_fd = &description; } else { ASSERT(m_connect_side_fd != &description); m_accept_side_fd_open = true; } } void LocalSocket::detach(FileDescription& description) { if (m_connect_side_fd == &description) { m_connect_side_fd = nullptr; } else { ASSERT(m_accept_side_fd_open); m_accept_side_fd_open = false; } } bool LocalSocket::can_read(const FileDescription& description) const { auto role = this->role(description); if (role == Role::Listener) return can_accept(); if (role == Role::Accepted) return !has_attached_peer(description) || !m_for_server.is_empty(); if (role == Role::Connected) return !has_attached_peer(description) || !m_for_client.is_empty(); return false; } bool LocalSocket::has_attached_peer(const FileDescription& description) const { auto role = this->role(description); if (role == Role::Accepted) return m_connect_side_fd != nullptr; if (role == Role::Connected) return m_accept_side_fd_open; ASSERT_NOT_REACHED(); } bool LocalSocket::can_write(const FileDescription& description) const { auto role = this->role(description); if (role == Role::Accepted) return !has_attached_peer(description) || m_for_client.bytes_in_write_buffer() < 16384; if (role == Role::Connected) return !has_attached_peer(description) || m_for_server.bytes_in_write_buffer() < 16384; return false; } ssize_t LocalSocket::sendto(FileDescription& description, const void* data, size_t data_size, int, const sockaddr*, socklen_t) { if (!has_attached_peer(description)) return -EPIPE; auto role = this->role(description); if (role == Role::Accepted) return m_for_client.write((const u8*)data, data_size); if (role == Role::Connected) return m_for_server.write((const u8*)data, data_size); ASSERT_NOT_REACHED(); } DoubleBuffer& LocalSocket::buffer_for(FileDescription& description) { auto role = this->role(description); if (role == Role::Accepted) return m_for_server; if (role == Role::Connected) return m_for_client; ASSERT_NOT_REACHED(); } ssize_t LocalSocket::recvfrom(FileDescription& description, void* buffer, size_t buffer_size, int, sockaddr*, socklen_t*) { auto& buffer_for_me = buffer_for(description); if (!description.is_blocking()) { if (buffer_for_me.is_empty()) { if (!has_attached_peer(description)) return 0; return -EAGAIN; } } else if (!can_read(description)) { auto result = current->block(description); if (result == Thread::BlockResult::InterruptedBySignal) return -EINTR; } if (!has_attached_peer(description) && buffer_for_me.is_empty()) return 0; ASSERT(!buffer_for_me.is_empty()); return buffer_for_me.read((u8*)buffer, buffer_size); } StringView LocalSocket::socket_path() const { int len = strnlen(m_address.sun_path, sizeof(m_address.sun_path)); return { m_address.sun_path, len }; } String LocalSocket::absolute_path(const FileDescription& description) const { StringBuilder builder; builder.append("socket:"); builder.append(socket_path()); switch (role(description)) { case Role::Listener: builder.append(" (listening)"); break; case Role::Accepted: builder.appendf(" (accepted from pid %d)", origin_pid()); break; case Role::Connected: builder.appendf(" (connected to pid %d)", acceptor_pid()); break; case Role::Connecting: builder.append(" (connecting)"); break; default: break; } return builder.to_string(); }