// This file Copyright © 2007-2022 Mnemosyne LLC. // It may be used under GPLv2 (SPDX: GPL-2.0-only), GPLv3 (SPDX: GPL-3.0-only), // or any future license endorsed by Mnemosyne LLC. // License text can be found in the licenses/ folder. #include /* USHRT_MAX, INT_MAX */ #include #include #include #include #include #include #include #include #include "FreeSpaceLabel.h" #include "HigWorkarea.h" #include "Prefs.h" #include "PrefsDialog.h" #include "Session.h" #include "Utils.h" /** *** **/ class PrefsDialog::Impl { public: Impl(PrefsDialog& dialog, Glib::RefPtr const& core); ~Impl(); TR_DISABLE_COPY_MOVE(Impl) private: Gtk::Widget* speedPage(); Gtk::Widget* downloadingPage(); Gtk::Widget* seedingPage(); Gtk::Widget* privacyPage(); Gtk::Widget* networkPage(); Gtk::Widget* desktopPage(); Gtk::Widget* remotePage(); void on_core_prefs_changed(tr_quark const key); void response_cb(int response); private: PrefsDialog& dialog_; Glib::RefPtr const core_; sigc::connection core_prefs_tag_; FreeSpaceLabel* freespace_label_ = nullptr; #if 0 Gtk::Label* port_label_ = nullptr; Gtk::Button* port_button_ = nullptr; Gtk::SpinButton* port_spin_ = nullptr; #endif }; /** *** **/ void PrefsDialog::Impl::response_cb(int response) { if (response == Gtk::RESPONSE_HELP) { gtr_open_uri(gtr_get_help_uri() + "/html/preferences.html"); } if (response == Gtk::RESPONSE_CLOSE) { dialog_.hide(); } } namespace { Gtk::CheckButton* new_check_button(Glib::ustring const& mnemonic, tr_quark const key, Glib::RefPtr const& core) { auto* w = Gtk::make_managed(mnemonic, true); w->set_active(gtr_pref_flag_get(key)); w->signal_toggled().connect([w, key, core]() { core->set_pref(key, w->get_active()); }); return w; } auto const IdleDataKey = Glib::Quark("idle-data"); bool spun_cb_idle(Gtk::SpinButton* spin, tr_quark const key, Glib::RefPtr const& core, bool isDouble) { bool keep_waiting = true; /* has the user stopped making changes? */ if (auto* last_change = static_cast(spin->get_data(IdleDataKey)); last_change->elapsed() > 0.33) { /* update the core */ if (isDouble) { double const value = spin->get_value(); core->set_pref(key, value); } else { int const value = spin->get_value_as_int(); core->set_pref(key, value); } /* cleanup */ spin->set_data(IdleDataKey, nullptr); keep_waiting = false; spin->unreference(); } return keep_waiting; } void spun_cb(Gtk::SpinButton* w, tr_quark const key, Glib::RefPtr const& core, bool isDouble) { /* user may be spinning through many values, so let's hold off for a moment to keep from flooding the core with changes */ auto* last_change = static_cast(w->get_data(IdleDataKey)); if (last_change == nullptr) { last_change = new Glib::Timer(); w->set_data(IdleDataKey, last_change, [](gpointer p) { delete static_cast(p); }); w->reference(); Glib::signal_timeout().connect_seconds([w, key, core, isDouble]() { return spun_cb_idle(w, key, core, isDouble); }, 1); } last_change->start(); } Gtk::SpinButton* new_spin_button(tr_quark const key, Glib::RefPtr const& core, int low, int high, int step) { auto* w = Gtk::make_managed(Gtk::Adjustment::create(gtr_pref_int_get(key), low, high, step)); w->set_digits(0); w->signal_value_changed().connect([w, key, core]() { spun_cb(w, key, core, false); }); return w; } Gtk::SpinButton* new_spin_button_double( tr_quark const key, Glib::RefPtr const& core, double low, double high, double step) { auto* w = Gtk::make_managed(Gtk::Adjustment::create(gtr_pref_double_get(key), low, high, step)); w->set_digits(2); w->signal_value_changed().connect([w, key, core]() { spun_cb(w, key, core, true); }); return w; } void entry_changed_cb(Gtk::Entry* w, tr_quark const key, Glib::RefPtr const& core) { core->set_pref(key, w->get_text()); } Gtk::Entry* new_entry(tr_quark const key, Glib::RefPtr const& core) { auto* w = Gtk::make_managed(); if (auto const value = gtr_pref_string_get(key); !value.empty()) { w->set_text(value); } w->signal_changed().connect([w, key, core]() { entry_changed_cb(w, key, core); }); return w; } void chosen_cb(Gtk::FileChooser* w, tr_quark const key, Glib::RefPtr const& core) { core->set_pref(key, w->get_filename()); } Gtk::FileChooserButton* new_path_chooser_button(tr_quark const key, Glib::RefPtr const& core) { auto* w = Gtk::make_managed(Gtk::FILE_CHOOSER_ACTION_SELECT_FOLDER); if (auto const path = gtr_pref_string_get(key); !path.empty()) { w->set_filename(path); } w->signal_selection_changed().connect([w, key, core]() { chosen_cb(w, key, core); }); return w; } Gtk::FileChooserButton* new_file_chooser_button(tr_quark const key, Glib::RefPtr const& core) { auto* w = Gtk::make_managed(Gtk::FILE_CHOOSER_ACTION_OPEN); if (auto const path = gtr_pref_string_get(key); !path.empty()) { w->set_filename(path); } w->signal_selection_changed().connect([w, key, core]() { chosen_cb(w, key, core); }); return w; } void target_cb(Gtk::ToggleButton* tb, Gtk::Widget* target) { target->set_sensitive(tb->get_active()); } } // namespace /**** ***** Download Tab ****/ Gtk::Widget* PrefsDialog::Impl::downloadingPage() { guint row = 0; auto* t = Gtk::make_managed(); t->add_section_title(row, C_("Gerund", "Adding")); { auto* l = new_check_button(_("Automatically add .torrent files _from:"), TR_KEY_watch_dir_enabled, core_); auto* w = new_path_chooser_button(TR_KEY_watch_dir, core_); w->set_sensitive(gtr_pref_flag_get(TR_KEY_watch_dir_enabled)); l->signal_toggled().connect([l, w]() { target_cb(l, w); }); t->add_row_w(row, *l, *w); } t->add_wide_control(row, *new_check_button(_("Show the Torrent Options _dialog"), TR_KEY_show_options_window, core_)); t->add_wide_control(row, *new_check_button(_("_Start added torrents"), TR_KEY_start_added_torrents, core_)); t->add_wide_control( row, *new_check_button(_("Mo_ve .torrent file to the trash"), TR_KEY_trash_original_torrent_files, core_)); t->add_row(row, _("Save to _Location:"), *new_path_chooser_button(TR_KEY_download_dir, core_)); freespace_label_ = Gtk::make_managed(core_); freespace_label_->set_halign(Gtk::ALIGN_END); freespace_label_->set_valign(Gtk::ALIGN_CENTER); t->add_wide_control(row, *freespace_label_); t->add_section_divider(row); t->add_section_title(row, _("Download Queue")); t->add_row(row, _("Ma_ximum active downloads:"), *new_spin_button(TR_KEY_download_queue_size, core_, 0, INT_MAX, 1)); t->add_row( row, _("Downloads sharing data in the last _N minutes are active:"), *new_spin_button(TR_KEY_queue_stalled_minutes, core_, 1, INT_MAX, 15)); t->add_section_divider(row); t->add_section_title(row, _("Incomplete")); t->add_wide_control( row, *new_check_button(_("Append \"._part\" to incomplete files' names"), TR_KEY_rename_partial_files, core_)); { auto* l = new_check_button(_("Keep _incomplete torrents in:"), TR_KEY_incomplete_dir_enabled, core_); auto* w = new_path_chooser_button(TR_KEY_incomplete_dir, core_); w->set_sensitive(gtr_pref_flag_get(TR_KEY_incomplete_dir_enabled)); l->signal_toggled().connect([l, w]() { target_cb(l, w); }); t->add_row_w(row, *l, *w); } { auto* l = new_check_button(_("Call scrip_t when torrent is completed:"), TR_KEY_script_torrent_done_enabled, core_); auto* w = new_file_chooser_button(TR_KEY_script_torrent_done_filename, core_); w->set_sensitive(gtr_pref_flag_get(TR_KEY_script_torrent_done_enabled)); l->signal_toggled().connect([l, w]() { target_cb(l, w); }); t->add_row_w(row, *l, *w); } return t; } /**** ***** Torrent Tab ****/ Gtk::Widget* PrefsDialog::Impl::seedingPage() { guint row = 0; auto* t = Gtk::make_managed(); t->add_section_title(row, _("Limits")); { auto* w = new_check_button(_("Stop seeding at _ratio:"), TR_KEY_ratio_limit_enabled, core_); auto* w2 = new_spin_button_double(TR_KEY_ratio_limit, core_, 0, 1000, .05); w2->set_sensitive(gtr_pref_flag_get(TR_KEY_ratio_limit_enabled)); w->signal_toggled().connect([w, w2]() { target_cb(w, w2); }); t->add_row_w(row, *w, *w2); } { auto* w = new_check_button(_("Stop seeding if idle for _N minutes:"), TR_KEY_idle_seeding_limit_enabled, core_); auto* w2 = new_spin_button(TR_KEY_idle_seeding_limit, core_, 1, 40320, 5); w2->set_sensitive(gtr_pref_flag_get(TR_KEY_idle_seeding_limit_enabled)); w->signal_toggled().connect([w, w2]() { target_cb(w, w2); }); t->add_row_w(row, *w, *w2); } return t; } /**** ***** Desktop Tab ****/ Gtk::Widget* PrefsDialog::Impl::desktopPage() { guint row = 0; auto* t = Gtk::make_managed(); t->add_section_title(row, _("Desktop")); t->add_wide_control( row, *new_check_button(_("_Inhibit hibernation when torrents are active"), TR_KEY_inhibit_desktop_hibernation, core_)); t->add_wide_control( row, *new_check_button(_("Show Transmission icon in the _notification area"), TR_KEY_show_notification_area_icon, core_)); t->add_section_divider(row); t->add_section_title(row, _("Notification")); t->add_wide_control( row, *new_check_button(_("Show a notification when torrents are a_dded"), TR_KEY_torrent_added_notification_enabled, core_)); t->add_wide_control( row, *new_check_button(_("Show a notification when torrents _finish"), TR_KEY_torrent_complete_notification_enabled, core_)); t->add_wide_control( row, *new_check_button(_("Play a _sound when torrents finish"), TR_KEY_torrent_complete_sound_enabled, core_)); return t; } /**** ***** Peer Tab ****/ namespace { struct blocklist_data { blocklist_data() = default; ~blocklist_data(); TR_DISABLE_COPY_MOVE(blocklist_data) sigc::connection updateBlocklistTag; Gtk::Button* updateBlocklistButton = nullptr; std::unique_ptr updateBlocklistDialog; Gtk::Label* label = nullptr; Gtk::CheckButton* check = nullptr; Glib::RefPtr core; }; void updateBlocklistText(Gtk::Label* w, Glib::RefPtr const& core) { int const n = tr_blocklistGetRuleCount(core->get_session()); w->set_markup( gtr_sprintf("%s", gtr_sprintf(ngettext("Blocklist contains %'d rule", "Blocklist contains %'d rules", n), n))); } /* prefs dialog is being destroyed, so stop listening to blocklist updates */ blocklist_data::~blocklist_data() { if (updateBlocklistTag.connected()) { updateBlocklistTag.disconnect(); } } /* user hit "close" in the blocklist-update dialog */ void onBlocklistUpdateResponse(std::shared_ptr const& data) { data->updateBlocklistButton->set_sensitive(true); data->updateBlocklistDialog.reset(); data->updateBlocklistTag.disconnect(); } /* core says the blocklist was updated */ void onBlocklistUpdated(Glib::RefPtr const& core, int n, blocklist_data* data) { bool const success = n >= 0; int const count = n >= 0 ? n : tr_blocklistGetRuleCount(core->get_session()); data->updateBlocklistButton->set_sensitive(true); data->updateBlocklistDialog->set_message(success ? _("Update succeeded!") : _("Unable to update."), true); data->updateBlocklistDialog->set_secondary_text( gtr_sprintf(ngettext("Blocklist has %'d rule.", "Blocklist has %'d rules.", count), count)); updateBlocklistText(data->label, core); } /* user pushed a button to update the blocklist */ void onBlocklistUpdate(Gtk::Button* w, std::shared_ptr const& data) { data->updateBlocklistDialog = std::make_unique( *static_cast(w->get_toplevel()), _("Update Blocklist"), false, Gtk::MESSAGE_INFO, Gtk::BUTTONS_CLOSE); data->updateBlocklistButton->set_sensitive(false); data->updateBlocklistDialog->set_secondary_text(_("Getting new blocklist…")); data->updateBlocklistDialog->signal_response().connect([data](int /*response*/) { onBlocklistUpdateResponse(data); }); data->updateBlocklistDialog->show(); data->core->blocklist_update(); data->updateBlocklistTag = data->core->signal_blocklist_updated().connect( [data](auto n) { onBlocklistUpdated(data->core, n, data.get()); }); } void on_blocklist_url_changed(Gtk::Editable* e, Gtk::Button* button) { auto const url = e->get_chars(0, -1); button->set_sensitive(tr_urlIsValid(url.c_str())); } void onIntComboChanged(Gtk::ComboBox* combo_box, tr_quark const key, Glib::RefPtr const& core) { core->set_pref(key, gtr_combo_box_get_active_enum(*combo_box)); } Gtk::ComboBox* new_encryption_combo(Glib::RefPtr const& core, tr_quark const key) { auto* w = gtr_combo_box_new_enum({ { _("Allow encryption"), TR_CLEAR_PREFERRED }, { _("Prefer encryption"), TR_ENCRYPTION_PREFERRED }, { _("Require encryption"), TR_ENCRYPTION_REQUIRED }, }); gtr_combo_box_set_active_enum(*w, gtr_pref_int_get(key)); w->signal_changed().connect([w, key, core]() { onIntComboChanged(w, key, core); }); return w; } } // namespace Gtk::Widget* PrefsDialog::Impl::privacyPage() { guint row = 0; auto const data = std::make_shared(); data->core = core_; auto* t = Gtk::make_managed(); t->add_section_title(row, _("Privacy")); t->add_row(row, _("_Encryption mode:"), *new_encryption_combo(core_, TR_KEY_encryption)); t->add_section_divider(row); t->add_section_title(row, _("Blocklist")); data->check = new_check_button(_("Enable _blocklist:"), TR_KEY_blocklist_enabled, core_); auto* e = new_entry(TR_KEY_blocklist_url, core_); e->set_size_request(300, -1); t->add_row_w(row, *data->check, *e); data->check->signal_toggled().connect([data, e]() { target_cb(data->check, e); }); target_cb(data->check, e); data->label = Gtk::make_managed(); data->label->set_halign(Gtk::ALIGN_START); data->label->set_valign(Gtk::ALIGN_CENTER); updateBlocklistText(data->label, core_); auto* h = Gtk::make_managed(Gtk::ORIENTATION_HORIZONTAL, GUI_PAD_BIG); h->pack_start(*data->label, true, true, 0); data->updateBlocklistButton = Gtk::make_managed(_("_Update"), true); data->updateBlocklistButton->set_data("session", core_->get_session()); data->updateBlocklistButton->signal_clicked().connect([data]() { onBlocklistUpdate(data->updateBlocklistButton, data); }); target_cb(data->check, data->updateBlocklistButton); h->pack_start(*data->updateBlocklistButton, false, false, 0); data->check->signal_toggled().connect([data]() { target_cb(data->check, data->label); }); target_cb(data->check, data->label); t->add_wide_control(row, *h); e->signal_changed().connect([data, e]() { on_blocklist_url_changed(e, data->updateBlocklistButton); }); on_blocklist_url_changed(e, data->updateBlocklistButton); auto* update_check = new_check_button(_("Enable _automatic updates"), TR_KEY_blocklist_updates_enabled, core_); t->add_wide_control(row, *update_check); data->check->signal_toggled().connect([data, update_check]() { target_cb(data->check, update_check); }); target_cb(data->check, update_check); return t; } /**** ***** Remote Tab ****/ namespace { class WhitelistModelColumns : public Gtk::TreeModelColumnRecord { public: WhitelistModelColumns() { add(address); } Gtk::TreeModelColumn address; }; WhitelistModelColumns const whitelist_cols; Glib::RefPtr whitelist_tree_model_new(std::string const& whitelist) { auto const store = Gtk::ListStore::create(whitelist_cols); std::istringstream stream(whitelist); std::string s; while (std::getline(stream, s, ',')) { s = gtr_str_strip(s); if (s.empty()) { continue; } auto const iter = store->append(); (*iter)[whitelist_cols.address] = s; } return store; } struct remote_page { Glib::RefPtr core; Gtk::TreeView* view; Glib::RefPtr store; Gtk::Button* remove_button; std::vector widgets; std::vector auth_widgets; std::vector whitelist_widgets; Gtk::ToggleButton* rpc_tb; Gtk::ToggleButton* auth_tb; Gtk::ToggleButton* whitelist_tb; }; void refreshWhitelist(std::shared_ptr const& page) { std::ostringstream gstr; for (auto const& row : page->store->children()) { gstr << row.get_value(whitelist_cols.address) << ","; } auto str = gstr.str(); if (!str.empty()) { str.resize(str.size() - 1); /* remove the trailing comma */ } page->core->set_pref(TR_KEY_rpc_whitelist, str); } void onAddressEdited(Glib::ustring const& path, Glib::ustring const& address, std::shared_ptr const& page) { if (auto const iter = page->store->get_iter(path); iter) { (*iter)[whitelist_cols.address] = address; } refreshWhitelist(page); } void onAddWhitelistClicked(std::shared_ptr const& page) { auto const iter = page->store->append(); (*iter)[whitelist_cols.address] = "0.0.0.0"; page->view->set_cursor(page->store->get_path(iter), *page->view->get_column(0), true); } void onRemoveWhitelistClicked(std::shared_ptr const& page) { auto const sel = page->view->get_selection(); if (auto const iter = sel->get_selected(); iter) { page->store->erase(iter); refreshWhitelist(page); } } void refreshRPCSensitivity(std::shared_ptr const& page) { bool const rpc_active = page->rpc_tb->get_active(); bool const auth_active = page->auth_tb->get_active(); bool const whitelist_active = page->whitelist_tb->get_active(); auto const sel = page->view->get_selection(); auto const have_addr = sel->get_selected(); auto const n_rules = page->store->children().size(); for (auto* const widget : page->widgets) { widget->set_sensitive(rpc_active); } for (auto* const widget : page->auth_widgets) { widget->set_sensitive(rpc_active && auth_active); } for (auto* const widget : page->whitelist_widgets) { widget->set_sensitive(rpc_active && whitelist_active); } page->remove_button->set_sensitive(rpc_active && whitelist_active && have_addr && n_rules > 1); } void onLaunchClutchCB() { gtr_open_uri(gtr_sprintf("http://localhost:%d/", (int)gtr_pref_int_get(TR_KEY_rpc_port))); } } // namespace Gtk::Widget* PrefsDialog::Impl::remotePage() { guint row = 0; auto const page = std::make_shared(); page->core = core_; auto* t = Gtk::make_managed(); t->add_section_title(row, _("Remote Control")); /* "enabled" checkbutton */ page->rpc_tb = new_check_button(_("Allow _remote access"), TR_KEY_rpc_enabled, core_); page->rpc_tb->signal_clicked().connect([page]() { refreshRPCSensitivity(page); }); auto* h1 = Gtk::make_managed(Gtk::ORIENTATION_HORIZONTAL, GUI_PAD_BIG); h1->pack_start(*page->rpc_tb, true, true, 0); auto* open_button = Gtk::make_managed(_("_Open web client"), true); page->widgets.push_back(open_button); open_button->signal_clicked().connect(&onLaunchClutchCB); h1->pack_start(*open_button, false, false, 0); t->add_wide_control(row, *h1); /* port */ auto* port_spin = new_spin_button(TR_KEY_rpc_port, core_, 0, USHRT_MAX, 1); page->widgets.push_back(port_spin); page->widgets.push_back(t->add_row(row, _("HTTP _port:"), *port_spin)); /* require authentication */ page->auth_tb = new_check_button(_("Use _authentication"), TR_KEY_rpc_authentication_required, core_); t->add_wide_control(row, *page->auth_tb); page->widgets.push_back(page->auth_tb); page->auth_tb->signal_clicked().connect([page]() { refreshRPCSensitivity(page); }); /* username */ auto* username_entry = new_entry(TR_KEY_rpc_username, core_); page->auth_widgets.push_back(username_entry); page->auth_widgets.push_back(t->add_row(row, _("_Username:"), *username_entry)); /* password */ auto* password_entry = new_entry(TR_KEY_rpc_password, core_); password_entry->set_visibility(false); page->auth_widgets.push_back(password_entry); page->auth_widgets.push_back(t->add_row(row, _("Pass_word:"), *password_entry)); /* require authentication */ page->whitelist_tb = new_check_button(_("Only allow these IP a_ddresses:"), TR_KEY_rpc_whitelist_enabled, core_); t->add_wide_control(row, *page->whitelist_tb); page->widgets.push_back(page->whitelist_tb); page->whitelist_tb->signal_clicked().connect([page]() { refreshRPCSensitivity(page); }); /* access control list */ { page->store = whitelist_tree_model_new(gtr_pref_string_get(TR_KEY_rpc_whitelist)); page->view = Gtk::make_managed(page->store); page->view->signal_button_release_event().connect([page](GdkEventButton* event) { return on_tree_view_button_released(page->view, event); }); page->whitelist_widgets.push_back(page->view); page->view->set_tooltip_text(_("IP addresses may use wildcards, such as 192.168.*.*")); auto const sel = page->view->get_selection(); sel->signal_changed().connect([page]() { refreshRPCSensitivity(page); }); page->view->set_headers_visible(true); auto* view_frame = Gtk::make_managed(); view_frame->set_shadow_type(Gtk::SHADOW_IN); view_frame->add(*page->view); /* ip address column */ auto* r = Gtk::make_managed(); r->signal_edited().connect([page](auto const& path, auto const& new_text) { onAddressEdited(path, new_text, page); }); r->property_editable() = true; auto* c = Gtk::make_managed("", *r); c->add_attribute(r->property_text(), whitelist_cols.address); c->set_expand(true); page->view->append_column(*c); page->view->set_headers_visible(false); auto* w = t->add_row(row, _("Addresses:"), *view_frame); w->set_halign(Gtk::ALIGN_START); w->set_valign(Gtk::ALIGN_START); w->set_margin_top(GUI_PAD); w->set_margin_bottom(GUI_PAD); page->whitelist_widgets.push_back(w); auto* h2 = Gtk::make_managed(Gtk::ORIENTATION_HORIZONTAL, GUI_PAD); page->remove_button = Gtk::make_managed(_("_Remove"), true); page->remove_button->signal_clicked().connect([page]() { onRemoveWhitelistClicked(page); }); refreshRPCSensitivity(page); h2->pack_start(*page->remove_button, true, true, 0); auto* add_button = Gtk::make_managed(_("_Add"), true); page->whitelist_widgets.push_back(add_button); add_button->signal_clicked().connect([page]() { onAddWhitelistClicked(page); }); h2->set_halign(Gtk::ALIGN_END); h2->set_valign(Gtk::ALIGN_CENTER); h2->pack_start(*add_button, true, true, 0); t->add_wide_control(row, *h2); } refreshRPCSensitivity(page); return t; } /**** ***** Bandwidth Tab ****/ namespace { struct BandwidthPage { std::vector sched_widgets; }; void refreshSchedSensitivity(std::shared_ptr const& p) { bool const sched_enabled = gtr_pref_flag_get(TR_KEY_alt_speed_time_enabled); for (auto* const w : p->sched_widgets) { w->set_sensitive(sched_enabled); } } Gtk::ComboBox* new_time_combo(Glib::RefPtr const& core, tr_quark const key) { class TimeModelColumns : public Gtk::TreeModelColumnRecord { public: TimeModelColumns() { add(offset); add(title); } Gtk::TreeModelColumn offset; Gtk::TreeModelColumn title; }; static TimeModelColumns const time_cols; /* build a store at 15 minute intervals */ auto store = Gtk::ListStore::create(time_cols); for (int i = 0; i < 60 * 24; i += 15) { auto const iter = store->append(); (*iter)[time_cols.offset] = i; (*iter)[time_cols.title] = gtr_sprintf("%02d:%02d", i / 60, i % 60); } /* build the widget */ auto* w = Gtk::make_managed(static_cast const&>(store)); w->set_wrap_width(4); auto* r = Gtk::make_managed(); w->pack_start(*r, true); w->add_attribute(r->property_text(), time_cols.title); w->set_active(gtr_pref_int_get(key) / 15); w->signal_changed().connect( [w, key, core]() { if (auto const iter = w->get_active(); iter) { core->set_pref(key, iter->get_value(time_cols.offset)); } }); return w; } Gtk::ComboBox* new_week_combo(Glib::RefPtr const& core, tr_quark const key) { auto* w = gtr_combo_box_new_enum({ { _("Every Day"), TR_SCHED_ALL }, { _("Weekdays"), TR_SCHED_WEEKDAY }, { _("Weekends"), TR_SCHED_WEEKEND }, { _("Sunday"), TR_SCHED_SUN }, { _("Monday"), TR_SCHED_MON }, { _("Tuesday"), TR_SCHED_TUES }, { _("Wednesday"), TR_SCHED_WED }, { _("Thursday"), TR_SCHED_THURS }, { _("Friday"), TR_SCHED_FRI }, { _("Saturday"), TR_SCHED_SAT }, }); gtr_combo_box_set_active_enum(*w, gtr_pref_int_get(key)); w->signal_changed().connect([w, key, core]() { onIntComboChanged(w, key, core); }); return w; } } // namespace Gtk::Widget* PrefsDialog::Impl::speedPage() { guint row = 0; auto page = std::make_shared(); auto* t = Gtk::make_managed(); t->add_section_title(row, _("Speed Limits")); { auto* w = new_check_button(gtr_sprintf(_("_Upload (%s):"), _(speed_K_str)), TR_KEY_speed_limit_up_enabled, core_); auto* w2 = new_spin_button(TR_KEY_speed_limit_up, core_, 0, INT_MAX, 5); w2->set_sensitive(gtr_pref_flag_get(TR_KEY_speed_limit_up_enabled)); w->signal_toggled().connect([w, w2]() { target_cb(w, w2); }); t->add_row_w(row, *w, *w2); } { auto* w = new_check_button(gtr_sprintf(_("_Download (%s):"), _(speed_K_str)), TR_KEY_speed_limit_down_enabled, core_); auto* w2 = new_spin_button(TR_KEY_speed_limit_down, core_, 0, INT_MAX, 5); w2->set_sensitive(gtr_pref_flag_get(TR_KEY_speed_limit_down_enabled)); w->signal_toggled().connect([w, w2]() { target_cb(w, w2); }); t->add_row_w(row, *w, *w2); } t->add_section_divider(row); { auto* h = Gtk::make_managed(Gtk::ORIENTATION_HORIZONTAL, GUI_PAD); auto* w = Gtk::make_managed(gtr_sprintf("%s", _("Alternative Speed Limits"))); w->set_halign(Gtk::ALIGN_START); w->set_valign(Gtk::ALIGN_CENTER); w->set_use_markup(true); h->pack_start(*w, false, false, 0); h->pack_start(*Gtk::make_managed("alt-speed-on", Gtk::ICON_SIZE_MENU), false, false, 0); t->add_section_title_widget(row, *h); } { auto* w = Gtk::make_managed( gtr_sprintf("%s", _("Override normal speed limits manually or at scheduled times"))); w->set_use_markup(true); w->set_halign(Gtk::ALIGN_START); w->set_valign(Gtk::ALIGN_CENTER); t->add_wide_control(row, *w); } t->add_row( row, gtr_sprintf(_("U_pload (%s):"), _(speed_K_str)), *new_spin_button(TR_KEY_alt_speed_up, core_, 0, INT_MAX, 5)); t->add_row( row, gtr_sprintf(_("Do_wnload (%s):"), _(speed_K_str)), *new_spin_button(TR_KEY_alt_speed_down, core_, 0, INT_MAX, 5)); { auto* h = Gtk::make_managed(Gtk::ORIENTATION_HORIZONTAL, 0); auto* start_combo = new_time_combo(core_, TR_KEY_alt_speed_time_begin); page->sched_widgets.push_back(start_combo); h->pack_start(*start_combo, true, true, 0); auto* to_label = Gtk::make_managed(_(" _to "), true); page->sched_widgets.push_back(to_label); h->pack_start(*to_label, false, false, 0); auto* end_combo = new_time_combo(core_, TR_KEY_alt_speed_time_end); to_label->set_mnemonic_widget(*end_combo); page->sched_widgets.push_back(end_combo); h->pack_start(*end_combo, true, true, 0); auto* w = new_check_button(_("_Scheduled times:"), TR_KEY_alt_speed_time_enabled, core_); w->signal_toggled().connect([page]() { refreshSchedSensitivity(page); }); t->add_row_w(row, *w, *h); } auto* week_combo = new_week_combo(core_, TR_KEY_alt_speed_time_day); page->sched_widgets.push_back(week_combo); page->sched_widgets.push_back(t->add_row(row, _("_On days:"), *week_combo)); refreshSchedSensitivity(page); return t; } /**** ***** Network Tab ****/ namespace { struct network_page_data { network_page_data() = default; ~network_page_data(); TR_DISABLE_COPY_MOVE(network_page_data) Glib::RefPtr core; Gtk::Label* portLabel = nullptr; Gtk::Button* portButton = nullptr; Gtk::SpinButton* portSpin = nullptr; sigc::connection portTag; sigc::connection prefsTag; }; void onCorePrefsChanged(tr_quark const key, network_page_data* data) { if (key == TR_KEY_peer_port) { gtr_label_set_text(*data->portLabel, _("Status unknown")); data->portButton->set_sensitive(true); data->portSpin->set_sensitive(true); } } network_page_data::~network_page_data() { if (prefsTag.connected()) { prefsTag.disconnect(); } if (portTag.connected()) { portTag.disconnect(); } } void onPortTested(bool isOpen, network_page_data* data) { data->portLabel->set_markup(isOpen ? _("Port is open") : _("Port is closed")); data->portButton->set_sensitive(true); data->portSpin->set_sensitive(true); } void onPortTest(std::shared_ptr const& data) { data->portButton->set_sensitive(false); data->portSpin->set_sensitive(false); data->portLabel->set_markup(_("Testing TCP port…")); if (!data->portTag.connected()) { data->portTag = data->core->signal_port_tested().connect([data](bool is_open) { onPortTested(is_open, data.get()); }); } data->core->port_test(); } } // namespace Gtk::Widget* PrefsDialog::Impl::networkPage() { guint row = 0; /* register to stop listening to core prefs changes when the page is destroyed */ auto const data = std::make_shared(); data->core = core_; /* build the page */ auto* t = Gtk::make_managed(); t->add_section_title(row, _("Listening Port")); data->portSpin = new_spin_button(TR_KEY_peer_port, core_, 1, USHRT_MAX, 1); t->add_row(row, _("_Port used for incoming connections:"), *data->portSpin); auto* h = Gtk::make_managed(Gtk::ORIENTATION_HORIZONTAL, GUI_PAD_BIG); data->portLabel = Gtk::make_managed(_("Status unknown")); data->portLabel->set_halign(Gtk::ALIGN_START); data->portLabel->set_valign(Gtk::ALIGN_CENTER); h->pack_start(*data->portLabel, true, true, 0); data->portButton = Gtk::make_managed(_("Te_st Port"), true); h->pack_end(*data->portButton, false, false, 0); data->portButton->signal_clicked().connect([data]() { onPortTest(data); }); t->add_row(row, {}, *h); data->prefsTag = core_->signal_prefs_changed().connect([data](auto key) { onCorePrefsChanged(key, data.get()); }); t->add_wide_control( row, *new_check_button( _("Pick a _random port every time Transmission is started"), TR_KEY_peer_port_random_on_start, core_)); t->add_wide_control( row, *new_check_button(_("Use UPnP or NAT-PMP port _forwarding from my router"), TR_KEY_port_forwarding_enabled, core_)); t->add_section_divider(row); t->add_section_title(row, _("Peer Limits")); t->add_row(row, _("Maximum peers per _torrent:"), *new_spin_button(TR_KEY_peer_limit_per_torrent, core_, 1, FD_SETSIZE, 5)); t->add_row(row, _("Maximum peers _overall:"), *new_spin_button(TR_KEY_peer_limit_global, core_, 1, FD_SETSIZE, 5)); t->add_section_divider(row); t->add_section_title(row, _("Options")); Gtk::CheckButton* w; #ifdef WITH_UTP w = new_check_button(_("Enable _uTP for peer communication"), TR_KEY_utp_enabled, core_); w->set_tooltip_text(_("uTP is a tool for reducing network congestion.")); t->add_wide_control(row, *w); #endif w = new_check_button(_("Use PE_X to find more peers"), TR_KEY_pex_enabled, core_); w->set_tooltip_text(_("PEX is a tool for exchanging peer lists with the peers you're connected to.")); t->add_wide_control(row, *w); w = new_check_button(_("Use _DHT to find more peers"), TR_KEY_dht_enabled, core_); w->set_tooltip_text(_("DHT is a tool for finding peers without a tracker.")); t->add_wide_control(row, *w); w = new_check_button(_("Use _Local Peer Discovery to find more peers"), TR_KEY_lpd_enabled, core_); w->set_tooltip_text(_("LPD is a tool for finding peers on your local network.")); t->add_wide_control(row, *w); return t; } /**** ***** ****/ PrefsDialog::Impl::~Impl() { if (core_prefs_tag_.connected()) { core_prefs_tag_.disconnect(); } } void PrefsDialog::Impl::on_core_prefs_changed(tr_quark const key) { #if 0 if (key == TR_KEY_peer_port) { port_label_->set_text(_("Status unknown")); port_button_->set_sensitive(true); port_spin_->set_sensitive(true); } #endif if (key == TR_KEY_download_dir) { char const* downloadDir = tr_sessionGetDownloadDir(core_->get_session()); freespace_label_->set_dir(downloadDir); } } std::unique_ptr PrefsDialog::create(Gtk::Window& parent, Glib::RefPtr const& core) { return std::unique_ptr(new PrefsDialog(parent, core)); } PrefsDialog::PrefsDialog(Gtk::Window& parent, Glib::RefPtr const& core) : Gtk::Dialog(_("Transmission Preferences"), parent) , impl_(std::make_unique(*this, core)) { set_modal(true); } PrefsDialog::~PrefsDialog() = default; PrefsDialog::Impl::Impl(PrefsDialog& dialog, Glib::RefPtr const& core) : dialog_(dialog) , core_(core) { static tr_quark const prefs_quarks[] = { TR_KEY_peer_port, TR_KEY_download_dir }; core_prefs_tag_ = core_->signal_prefs_changed().connect(sigc::mem_fun(*this, &Impl::on_core_prefs_changed)); dialog_.add_button(_("_Help"), Gtk::RESPONSE_HELP); dialog_.add_button(_("_Close"), Gtk::RESPONSE_CLOSE); dialog_.set_role("transmission-preferences-dialog"); dialog_.set_border_width(GUI_PAD); auto* n = Gtk::make_managed(); n->set_border_width(GUI_PAD); n->append_page(*speedPage(), _("Speed")); n->append_page(*downloadingPage(), C_("Gerund", "Downloading")); n->append_page(*seedingPage(), C_("Gerund", "Seeding")); n->append_page(*privacyPage(), _("Privacy")); n->append_page(*networkPage(), _("Network")); n->append_page(*desktopPage(), _("Desktop")); n->append_page(*remotePage(), _("Remote")); /* init from prefs keys */ for (auto const key : prefs_quarks) { on_core_prefs_changed(key); } dialog_.signal_response().connect(sigc::mem_fun(*this, &Impl::response_cb)); gtr_dialog_set_content(dialog_, *n); }