#include "remote.hh" #include "buffer_manager.hh" #include "buffer_utils.hh" #include "client_manager.hh" #include "command_manager.hh" #include "display_buffer.hh" #include "event_manager.hh" #include "file.hh" #include "hash_map.hh" #include "optional.hh" #include "user_interface.hh" #include #include #include #include #include #include #include #include #include #include namespace Kakoune { enum class MessageType : uint8_t { Unknown, Connect, Command, MenuShow, MenuSelect, MenuHide, InfoShow, InfoHide, Draw, DrawStatus, SetCursor, Refresh, SetOptions, Exit, Key, }; class MsgWriter { public: MsgWriter(RemoteBuffer& buffer, MessageType type) : m_buffer{buffer}, m_start{(uint32_t)buffer.size()} { write_field(type); write_field((uint32_t)0); // message size, to be patched on write } ~MsgWriter() { uint32_t count = (uint32_t)m_buffer.size() - m_start; memcpy(m_buffer.data() + m_start + sizeof(MessageType), &count, sizeof(uint32_t)); } template void write(Args&&... args) { (write_field(std::forward(args)), ...); } private: void write_raw(const char* val, size_t size) { m_buffer.insert(m_buffer.end(), val, val + size); } template void write_field(const T& val) { static_assert(std::is_trivially_copyable::value, ""); write_raw((const char*)&val, sizeof(val)); } void write_field(StringView str) { write_field(str.length()); write_raw(str.data(), (int)str.length()); }; void write_field(const String& str) { write_field(StringView{str}); } template void write_field(ConstArrayView view) { write_field(view.size()); for (auto& val : view) write_field(val); } template void write_field(const Vector& vec) { write_field(ConstArrayView(vec)); } template void write_field(const HashMap& map) { write_field(map.size()); for (auto& val : map) { write_field(val.key); write_field(val.value); } } template void write_field(const Optional& val) { write_field((bool)val); if (val) write_field(*val); } void write_field(Color color) { write_field(color.color); if (color.isRGB()) { write_field(color.r); write_field(color.g); write_field(color.b); } } void write_field(const DisplayAtom& atom) { write_field(atom.content()); write_field(atom.face); } void write_field(const DisplayLine& line) { write_field(line.atoms()); } void write_field(const DisplayBuffer& display_buffer) { write_field(display_buffer.lines()); } private: RemoteBuffer& m_buffer; uint32_t m_start; }; class MsgReader { private: template struct Reader { static T read(MsgReader& reader) { static_assert(std::is_trivially_copyable::value, ""); T res; reader.read(reinterpret_cast(&res), sizeof(T)); return res; } }; template struct Reader> { static Vector read(MsgReader& reader) { uint32_t size = Reader::read(reader); Vector res; res.reserve(size); while (size--) res.push_back(std::move(Reader::read(reader))); return res; } }; template struct Reader> { static HashMap read(MsgReader& reader) { uint32_t size = Reader::read(reader); HashMap res; res.reserve(size); while (size--) { auto key = Reader::read(reader); auto val = Reader::read(reader); res.insert({std::move(key), std::move(val)}); } return res; } }; template struct Reader> { static Optional read(MsgReader& reader) { if (not Reader::read(reader)) return {}; return Reader::read(reader); } }; public: void read_available(int sock) { if (m_write_pos < header_size) { m_stream.resize(header_size); read_from_socket(sock, header_size - m_write_pos); if (m_write_pos == header_size) { if (size() < header_size) throw disconnected{"invalid message received"}; m_stream.resize(size()); } } else read_from_socket(sock, size() - m_write_pos); } bool ready() const { return m_write_pos >= header_size and m_write_pos == size(); } uint32_t size() const { kak_assert(m_write_pos >= header_size); uint32_t res; memcpy(&res, m_stream.data() + sizeof(MessageType), sizeof(uint32_t)); return res; } MessageType type() const { kak_assert(m_write_pos >= header_size); return *reinterpret_cast(m_stream.data()); } void read(char* buffer, size_t size) { if (m_read_pos + size > m_stream.size()) throw disconnected{"tried to read after message end"}; memcpy(buffer, m_stream.data() + m_read_pos, size); m_read_pos += size; } template T read() { return Reader::read(*this); } Optional ancillary_fd() { auto res = m_ancillary_fd; m_ancillary_fd.reset(); return res; } ~MsgReader() { m_ancillary_fd.map(close); } void reset() { m_stream.resize(0); m_write_pos = 0; m_read_pos = header_size; m_ancillary_fd.map(close); } private: void read_from_socket(int sock, size_t size) { kak_assert(m_write_pos + size <= m_stream.size()); iovec io{m_stream.data() + m_write_pos, size}; alignas(cmsghdr) char fdbuf[CMSG_SPACE(sizeof(int))]; msghdr msg{}; msg.msg_iov = &io; msg.msg_iovlen = 1; msg.msg_control = fdbuf; msg.msg_controllen = sizeof(fdbuf); int res = recvmsg(sock, &msg, 0); if (res <= 0) throw disconnected{format("socket read failed: {}", strerror(errno))}; m_write_pos += res; if (cmsghdr* cmsg = CMSG_FIRSTHDR(&msg); cmsg && cmsg->cmsg_level == SOL_SOCKET && cmsg->cmsg_type == SCM_RIGHTS && cmsg->cmsg_len == CMSG_LEN(sizeof(int))) { m_ancillary_fd.map(close); memcpy(&m_ancillary_fd.emplace(), CMSG_DATA(cmsg), sizeof(int)); fcntl(*m_ancillary_fd, F_SETFD, FD_CLOEXEC); } } static constexpr uint32_t header_size = sizeof(MessageType) + sizeof(uint32_t); Vector m_stream; Optional m_ancillary_fd; uint32_t m_write_pos = 0; uint32_t m_read_pos = header_size; }; template<> struct MsgReader::Reader { static String read(MsgReader& reader) { ByteCount length = Reader::read(reader); String res; if (length > 0) { res.force_size((int)length); reader.read(&res[0_byte], (int)length); } return res; } }; template<> struct MsgReader::Reader { static Color read(MsgReader& reader) { Color res; res.color = Reader::read(reader); if (res.isRGB()) { res.r = Reader::read(reader); res.g = Reader::read(reader); res.b = Reader::read(reader); } return res; } }; template<> struct MsgReader::Reader { static DisplayAtom read(MsgReader& reader) { String content = Reader::read(reader); return {std::move(content), Reader::read(reader)}; } }; template<> struct MsgReader::Reader { static DisplayLine read(MsgReader& reader) { return {Reader>::read(reader)}; } }; template<> struct MsgReader::Reader { static DisplayBuffer read(MsgReader& reader) { DisplayBuffer db; db.lines() = Reader>::read(reader); return db; } }; class RemoteUI : public UserInterface { public: RemoteUI(int socket, DisplayCoord dimensions); ~RemoteUI() override; bool is_ok() const override { return m_socket_watcher.fd() != -1; } void menu_show(ConstArrayView choices, DisplayCoord anchor, Face fg, Face bg, MenuStyle style) override; void menu_select(int selected) override; void menu_hide() override; void info_show(const DisplayLine& title, const DisplayLineList& content, DisplayCoord anchor, Face face, InfoStyle style) override; void info_hide() override; void draw(const DisplayBuffer& display_buffer, const Face& default_face, const Face& padding_face) override; void draw_status(const DisplayLine& status_line, const DisplayLine& mode_line, const Face& default_face) override; void set_cursor(CursorMode mode, DisplayCoord coord) override; void refresh(bool force) override; DisplayCoord dimensions() override { return m_dimensions; } void set_on_key(OnKeyCallback callback) override { m_on_key = std::move(callback); } void set_ui_options(const Options& options) override; void exit(int status); private: template void send_message(MessageType type, Args&&... args) { MsgWriter msg{m_send_buffer, type}; msg.write(std::forward(args)...); m_socket_watcher.events() |= FdEvents::Write; } FDWatcher m_socket_watcher; MsgReader m_reader; DisplayCoord m_dimensions; OnKeyCallback m_on_key; RemoteBuffer m_send_buffer; }; static bool send_data(int fd, RemoteBuffer& buffer, Optional ancillary_fd = {}) { while (not buffer.empty() and fd_writable(fd)) { iovec io{buffer.data(), buffer.size()}; alignas(cmsghdr) char fdbuf[CMSG_SPACE(sizeof(int))]; msghdr msg{}; msg.msg_iov = &io; msg.msg_iovlen = 1; if (ancillary_fd) { msg.msg_control = fdbuf; msg.msg_controllen = sizeof(fdbuf); cmsghdr* cmsg = CMSG_FIRSTHDR(&msg); cmsg->cmsg_len = CMSG_LEN(sizeof(int)); cmsg->cmsg_level = SOL_SOCKET; cmsg->cmsg_type = SCM_RIGHTS; memcpy(CMSG_DATA(cmsg), &*ancillary_fd, sizeof(int)); } int res = sendmsg(fd, &msg, 0); if (res <= 0) throw disconnected{format("socket write failed: {}", strerror(errno))}; buffer.erase(buffer.begin(), buffer.begin() + res); } return buffer.empty(); } RemoteUI::RemoteUI(int socket, DisplayCoord dimensions) : m_socket_watcher(socket, FdEvents::Read | FdEvents::Write, EventMode::Urgent, [this](FDWatcher& watcher, FdEvents events, EventMode) { const int sock = watcher.fd(); try { if (events & FdEvents::Write and send_data(sock, m_send_buffer)) m_socket_watcher.events() &= ~FdEvents::Write; while (events & FdEvents::Read and fd_readable(sock)) { m_reader.read_available(sock); if (not m_reader.ready()) continue; if (m_reader.type() != MessageType::Key) { m_socket_watcher.close_fd(); return; } auto key = m_reader.read(); m_reader.reset(); if (key.modifiers == Key::Modifiers::Resize) m_dimensions = key.coord(); m_on_key(key); } } catch (const disconnected& err) { write_to_debug_buffer(format("Error while transfering remote messages: {}", err.what())); m_socket_watcher.close_fd(); } }), m_dimensions(dimensions) { write_to_debug_buffer(format("remote client connected: {}", m_socket_watcher.fd())); } RemoteUI::~RemoteUI() { // Try to send the remaining data if possible, as it might contain the desired exit status try { if (m_socket_watcher.fd() != -1) send_data(m_socket_watcher.fd(), m_send_buffer); } catch (disconnected&) { } write_to_debug_buffer(format("remote client disconnected: {}", m_socket_watcher.fd())); m_socket_watcher.close_fd(); } void RemoteUI::menu_show(ConstArrayView choices, DisplayCoord anchor, Face fg, Face bg, MenuStyle style) { send_message(MessageType::MenuShow, choices, anchor, fg, bg, style); } void RemoteUI::menu_select(int selected) { send_message(MessageType::MenuSelect, selected); } void RemoteUI::menu_hide() { send_message(MessageType::MenuHide); } void RemoteUI::info_show(const DisplayLine& title, const DisplayLineList& content, DisplayCoord anchor, Face face, InfoStyle style) { send_message(MessageType::InfoShow, title, content, anchor, face, style); } void RemoteUI::info_hide() { send_message(MessageType::InfoHide); } void RemoteUI::draw(const DisplayBuffer& display_buffer, const Face& default_face, const Face& padding_face) { send_message(MessageType::Draw, display_buffer, default_face, padding_face); } void RemoteUI::draw_status(const DisplayLine& status_line, const DisplayLine& mode_line, const Face& default_face) { send_message(MessageType::DrawStatus, status_line, mode_line, default_face); } void RemoteUI::set_cursor(CursorMode mode, DisplayCoord coord) { send_message(MessageType::SetCursor, mode, coord); } void RemoteUI::refresh(bool force) { send_message(MessageType::Refresh, force); } void RemoteUI::set_ui_options(const Options& options) { send_message(MessageType::SetOptions, options); } void RemoteUI::exit(int status) { send_message(MessageType::Exit, status); } String get_user_name() { auto pw = getpwuid(geteuid()); if (pw) return pw->pw_name; return getenv("USER"); } String session_directory() { StringView xdg_runtime_dir = getenv("XDG_RUNTIME_DIR"); if (xdg_runtime_dir.empty()) return format("{}/kakoune/{}", tmpdir(), get_user_name()); else return format("{}/kakoune", xdg_runtime_dir); } void make_session_directory() { StringView xdg_runtime_dir = getenv("XDG_RUNTIME_DIR"); if (xdg_runtime_dir.empty()) { // set sticky bit on the shared kakoune directory make_directory(format("{}/kakoune", tmpdir()), 01777); } else if (struct stat st; stat(xdg_runtime_dir.zstr(), &st) == 0 && st.st_uid != geteuid()) throw runtime_error("XDG_RUNTIME_DIR is not owned by current user"); make_directory(session_directory(), 0711); } String session_path(StringView session) { if (contains(session, '/')) throw runtime_error{"session names cannot have slashes"}; return format("{}/{}", session_directory(), session); } static sockaddr_un session_addr(StringView session) { sockaddr_un addr; addr.sun_family = AF_UNIX; strcpy(addr.sun_path, session_path(session).c_str()); return addr; } static int connect_to(StringView session) { int sock = socket(AF_UNIX, SOCK_STREAM, 0); fcntl(sock, F_SETFD, FD_CLOEXEC); sockaddr_un addr = session_addr(session); if (connect(sock, (sockaddr*)&addr, sizeof(addr.sun_path)) == -1) throw disconnected(format("connect to {} failed", addr.sun_path)); return sock; } bool check_session(StringView session) { int sock = socket(AF_UNIX, SOCK_STREAM, 0); auto close_sock = on_scope_end([sock]{ close(sock); }); sockaddr_un addr = session_addr(session); return connect(sock, (sockaddr*)&addr, sizeof(addr.sun_path)) != -1; } RemoteClient::RemoteClient(StringView session, StringView name, std::unique_ptr&& ui, int pid, const EnvVarMap& env_vars, StringView init_command, Optional init_coord, Optional stdin_fd) : m_ui(std::move(ui)) { int sock = connect_to(session); { MsgWriter msg{m_send_buffer, MessageType::Connect}; msg.write(pid, name, init_command, init_coord, m_ui->dimensions(), env_vars); } send_data(sock, m_send_buffer, stdin_fd); m_ui->set_on_key([this](Key key){ MsgWriter msg(m_send_buffer, MessageType::Key); msg.write(key); m_socket_watcher->events() |= FdEvents::Write; }); m_socket_watcher.reset(new FDWatcher{sock, FdEvents::Read | FdEvents::Write, EventMode::Urgent, [this, reader = MsgReader{}](FDWatcher& watcher, FdEvents events, EventMode) mutable { const int sock = watcher.fd(); if (events & FdEvents::Write and send_data(sock, m_send_buffer)) watcher.events() &= ~FdEvents::Write; while (events & FdEvents::Read and not reader.ready() and fd_readable(sock)) { reader.read_available(sock); if (not reader.ready()) continue; auto clear_reader = on_scope_end([&reader] { reader.reset(); }); switch (reader.type()) { case MessageType::MenuShow: { auto choices = reader.read>(); auto anchor = reader.read(); auto fg = reader.read(); auto bg = reader.read(); auto style = reader.read(); m_ui->menu_show(choices, anchor, fg, bg, style); break; } case MessageType::MenuSelect: m_ui->menu_select(reader.read()); break; case MessageType::MenuHide: m_ui->menu_hide(); break; case MessageType::InfoShow: { auto title = reader.read(); auto content = reader.read(); auto anchor = reader.read(); auto face = reader.read(); auto style = reader.read(); m_ui->info_show(title, content, anchor, face, style); break; } case MessageType::InfoHide: m_ui->info_hide(); break; case MessageType::Draw: { auto display_buffer = reader.read(); auto default_face = reader.read(); auto padding_face = reader.read(); m_ui->draw(display_buffer, default_face, padding_face); break; } case MessageType::DrawStatus: { auto status_line = reader.read(); auto mode_line = reader.read(); auto default_face = reader.read(); m_ui->draw_status(status_line, mode_line, default_face); break; } case MessageType::SetCursor: { auto mode = reader.read(); auto coord = reader.read(); m_ui->set_cursor(mode, coord); break; } case MessageType::Refresh: m_ui->refresh(reader.read()); break; case MessageType::SetOptions: m_ui->set_ui_options(reader.read>()); break; case MessageType::Exit: m_exit_status = reader.read(); watcher.close_fd(); return; default: kak_assert(false); } } }}); } bool RemoteClient::is_ui_ok() const { return m_ui->is_ok(); } void send_command(StringView session, StringView command) { int sock = connect_to(session); auto close_sock = on_scope_end([sock]{ close(sock); }); RemoteBuffer buffer; { MsgWriter msg{buffer, MessageType::Command}; msg.write(command); } write(sock, {buffer.data(), buffer.data() + buffer.size()}); } // A client accepter handle a connection until it closes or a nul byte is // recieved. Everything recieved before is considered to be a command. // // * When a nul byte is recieved, the socket is handed to a new Client along // with the command. // * When the connection is closed, the command is run in an empty context. class Server::Accepter { public: Accepter(int socket) : m_socket_watcher(socket, FdEvents::Read, EventMode::Urgent, [this](FDWatcher&, FdEvents, EventMode mode) { handle_available_input(mode); }) {} private: void handle_available_input(EventMode mode) { const int sock = m_socket_watcher.fd(); try { while (not m_reader.ready() and fd_readable(sock)) m_reader.read_available(sock); if (mode != EventMode::Normal or not m_reader.ready()) return; switch (m_reader.type()) { case MessageType::Connect: { auto pid = m_reader.read(); auto name = m_reader.read(); auto init_cmds = m_reader.read(); auto init_coord = m_reader.read>(); auto dimensions = m_reader.read(); auto env_vars = m_reader.read>(); if (auto stdin_fd = m_reader.ancillary_fd()) create_fifo_buffer(generate_buffer_name("*stdin-{}*"), *stdin_fd, Buffer::Flags::None); auto* ui = new RemoteUI{sock, dimensions}; ClientManager::instance().create_client( std::unique_ptr(ui), pid, std::move(name), std::move(env_vars), init_cmds, init_coord, [ui](int status) { ui->exit(status); }); Server::instance().remove_accepter(this); break; } case MessageType::Command: { auto command = m_reader.read(); if (not command.empty()) try { Context context{Context::EmptyContextFlag{}}; CommandManager::instance().execute(command, context); } catch (const runtime_error& e) { write_to_debug_buffer(format("error running command '{}': {}", command, e.what())); } close(sock); Server::instance().remove_accepter(this); break; } default: write_to_debug_buffer("invalid introduction message received"); close(sock); Server::instance().remove_accepter(this); } } catch (const disconnected& err) { write_to_debug_buffer(format("accepting connection failed: {}", err.what())); close(sock); Server::instance().remove_accepter(this); } } FDWatcher m_socket_watcher; MsgReader m_reader; }; Server::Server(String session_name, bool is_daemon) : m_session{std::move(session_name)}, m_is_daemon{is_daemon} { if (not all_of(m_session, is_identifier)) throw runtime_error{format("invalid session name: '{}'", session_name)}; int listen_sock = socket(AF_UNIX, SOCK_STREAM, 0); fcntl(listen_sock, F_SETFD, FD_CLOEXEC); sockaddr_un addr = session_addr(m_session); make_session_directory(); // Do not give any access to the socket to other users by default auto old_mask = umask(0077); auto restore_mask = on_scope_end([old_mask]() { umask(old_mask); }); if (bind(listen_sock, (sockaddr*) &addr, sizeof(sockaddr_un)) == -1) throw runtime_error(format("unable to bind listen socket '{}': {}", addr.sun_path, strerror(errno))); if (listen(listen_sock, 4) == -1) throw runtime_error(format("unable to listen on socket '{}': {}", addr.sun_path, strerror(errno))); auto accepter = [this](FDWatcher& watcher, FdEvents, EventMode) { sockaddr_un client_addr; socklen_t client_addr_len = sizeof(sockaddr_un); int sock = accept(watcher.fd(), (sockaddr*) &client_addr, &client_addr_len); if (sock == -1) throw runtime_error("accept failed"); fcntl(sock, F_SETFD, FD_CLOEXEC); m_accepters.emplace_back(new Accepter{sock}); }; m_listener.reset(new FDWatcher{listen_sock, FdEvents::Read, EventMode::Urgent, accepter}); } bool Server::rename_session(StringView name) { if (not all_of(name, is_identifier)) throw runtime_error{format("invalid session name: '{}'", name)}; String old_socket_file = session_path(m_session); String new_socket_file = session_path(name); if (file_exists(new_socket_file)) return false; if (rename(old_socket_file.c_str(), new_socket_file.c_str()) != 0) return false; m_session = name.str(); return true; } void Server::close_session(bool do_unlink) { if (do_unlink) { String socket_file = session_path(m_session); unlink(socket_file.c_str()); } m_listener->close_fd(); m_listener.reset(); } Server::~Server() { if (m_listener) close_session(); } void Server::remove_accepter(Accepter* accepter) { auto it = find(m_accepters, accepter); kak_assert(it != m_accepters.end()); m_accepters.erase(it); } }