#include #include #include #include #include #include #include #include #include namespace { Glib::RefPtr loop; bool verbose = false; bool non_blocking = false; bool use_udp = false; bool use_source = false; bool use_ipv6 = false; int cancel_timeout = 0; bool stop_thread = false; std::mutex mutex_thread; std::condition_variable cond_thread; class ClientOptionGroup : public Glib::OptionGroup { public: ClientOptionGroup() : Glib::OptionGroup("client_group", "", "") { Glib::OptionEntry entry; entry.set_long_name("cancel"); entry.set_short_name('c'); entry.set_description("Cancel any op after the specified amount of seconds"); add_entry(entry, cancel_timeout); entry.set_long_name("udp"); entry.set_short_name('u'); entry.set_description("Use UDP instead of TCP"); add_entry(entry, use_udp); entry.set_long_name("verbose"); entry.set_short_name('v'); entry.set_description("Be verbose"); add_entry(entry, verbose); entry.set_long_name("non-blocking"); entry.set_short_name('n'); entry.set_description("Enable non-blocking I/O"); add_entry(entry, non_blocking); entry.set_long_name("use-source"); entry.set_short_name('s'); entry.set_description("Use Gio::SocketSource to wait for non-blocking I/O"); add_entry(entry, use_source); entry.set_long_name("use-ipv6"); entry.set_short_name('6'); entry.set_description("Use IPv6 address family"); add_entry(entry, use_ipv6); } }; Glib::ustring socket_address_to_string(const Glib::RefPtr& address) { Glib::RefPtr inet_address; Glib::ustring str, res; int port; auto isockaddr = Glib::RefPtr::cast_dynamic(address); if (!isockaddr) return Glib::ustring(); inet_address = isockaddr->get_address(); str = inet_address->to_string(); port = isockaddr->get_port(); res = Glib::ustring::compose("%1:%2", str, port); return res; } static bool source_ready(Glib::IOCondition /*condition*/) { loop->quit(); return false; } static void ensure_condition(const Glib::RefPtr& socket, const Glib::ustring& where, const Glib::RefPtr& cancellable, Glib::IOCondition condition) { if (!non_blocking) return; if (use_source) { auto source = socket->create_source(condition, cancellable); source->connect(sigc::ptr_fun(&source_ready)); source->attach(); loop->run(); } else { try { socket->condition_wait(condition, cancellable); } catch (const Gio::Error& error) { std::cerr << Glib::ustring::compose("condition wait error for %1: %2\n", where, error.what()); exit(1); } } } static void cancel_thread(Glib::RefPtr cancellable) { std::unique_lock lock(mutex_thread); if (!cond_thread.wait_for( lock, std::chrono::seconds(cancel_timeout), []() { return stop_thread; })) { // !stop_thread, i.e. timeout std::cout << "Cancelling\n"; cancellable->cancel(); } } class JoinAndDelete { public: void operator()(std::thread* thread) { stop_thread = true; cond_thread.notify_all(); thread->join(); delete thread; } }; } // end anonymous namespace int main(int argc, char* argv[]) { Glib::RefPtr socket; Glib::RefPtr src_address; Glib::RefPtr address; Gio::SocketType socket_type; Gio::SocketFamily socket_family; Glib::RefPtr cancellable; Glib::RefPtr enumerator; Glib::RefPtr connectable; Gio::init(); Glib::OptionContext option_context(" [:port] - Test Gio::Socket client stuff"); option_context.set_summary("Default port: 7777\n" "For a local test with socket-server:\n" " ./socket-client [option...] localhost\n" "or, if that fails\n" " ./socket-client [option...] 127.0.0.1 (IPv4)\n" " ./socket-client [option...] ::1 (IPv6)"); ClientOptionGroup option_group; option_context.set_main_group(option_group); try { option_context.parse(argc, argv); } catch (const Glib::Error& error) { std::cerr << Glib::ustring::compose("%1: %2\n", argv[0], error.what()); return 1; } if (argc != 2) { const auto error_message = "Need to specify hostname"; std::cerr << Glib::ustring::compose("%1: %2\n", argv[0], error_message); return 1; } std::unique_ptr thread; if (cancel_timeout) { cancellable = Gio::Cancellable::create(); thread.reset(new std::thread(&cancel_thread, cancellable)); } loop = Glib::MainLoop::create(); socket_type = use_udp ? Gio::SOCKET_TYPE_DATAGRAM : Gio::SOCKET_TYPE_STREAM; socket_family = use_ipv6 ? Gio::SOCKET_FAMILY_IPV6 : Gio::SOCKET_FAMILY_IPV4; try { socket = Gio::Socket::create(socket_family, socket_type, Gio::SOCKET_PROTOCOL_DEFAULT); } catch (const Gio::Error& error) { std::cerr << Glib::ustring::compose("%1: %2\n", argv[0], error.what()); return 1; } try { connectable = Gio::NetworkAddress::parse(argv[1], 7777); } catch (const Gio::Error& error) { std::cerr << Glib::ustring::compose("%1: %2\n", argv[0], error.what()); return 1; } enumerator = connectable->enumerate(); while (true) { try { address = enumerator->next(cancellable); if (!address) { std::cerr << Glib::ustring::compose("%1: No more addresses to try\n", argv[0]); return 1; } } catch (const Gio::Error& error) { std::cerr << Glib::ustring::compose("%1: %2\n", argv[0], error.what()); return 1; } try { socket->connect(address, cancellable); break; } catch (const Gio::Error& error) { std::cerr << Glib::ustring::compose("%1: Connection to %2 failed: %3, trying next\n", argv[0], socket_address_to_string(address), error.what()); } } std::cout << Glib::ustring::compose("Connected to %1\n", socket_address_to_string(address)); /* TODO: Test non-blocking connect */ if (non_blocking) socket->set_blocking(false); try { src_address = socket->get_local_address(); } catch (const Gio::Error& error) { std::cerr << Glib::ustring::compose("Error getting local address: %1\n", error.what()); return 1; } std::cout << Glib::ustring::compose("local address: %1\n", socket_address_to_string(src_address)); while (true) { gchar buffer[4096] = {}; gssize size; gsize to_send; if (!std::cin.getline(buffer, sizeof buffer - 1)) break; to_send = strlen(buffer); buffer[to_send++] = '\n'; buffer[to_send] = '\0'; while (to_send > 0) { ensure_condition(socket, "send", cancellable, Glib::IO_OUT); try { if (use_udp) size = socket->send_to(address, buffer, to_send, cancellable); else size = socket->send(buffer, to_send, cancellable); } catch (const Gio::Error& error) { if (error.code() == Gio::Error::WOULD_BLOCK) { std::cout << "socket send would block, handling\n"; continue; } else { std::cerr << Glib::ustring::compose("Error sending to socket: %1\n", error.what()); return 1; } } std::cout << Glib::ustring::compose("sent %1 bytes of data\n", size); if (size == 0) { std::cerr << "Unexpected short write\n"; return 1; } to_send -= size; } ensure_condition(socket, "receive", cancellable, Glib::IO_IN); try { if (use_udp) size = socket->receive_from(src_address, buffer, sizeof buffer, cancellable); else size = socket->receive(buffer, sizeof buffer, cancellable); } catch (const Gio::Error& error) { std::cerr << Glib::ustring::compose("Error receiving from socket: %1\n", error.what()); return 1; } if (size == 0) break; std::cout << Glib::ustring::compose("received %1 bytes of data", size); if (use_udp) std::cout << Glib::ustring::compose(" from %1", socket_address_to_string(src_address)); std::cout << std::endl; if (verbose) g_print("-------------------------\n" "%.*s" "-------------------------\n", (int)size, buffer); } std::cout << "closing socket\n"; try { socket->close(); } catch (const Gio::Error& error) { std::cerr << Glib::ustring::compose("Error closing master socket: %1\n", error.what()); return 1; } return 0; }