/* * Copyright (C) 2014-2020 Red Hat * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License as * published by the Free Software Foundation; either version 2 of the * License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA * 02111-1307, USA. * * Written by: * Carlos Garnacho */ #include "config.h" #include #include #ifdef HAVE_LIBWACOM #include #endif #include "core/meta-pad-action-mapper.h" #include "backends/meta-input-device-private.h" #include "backends/meta-logical-monitor.h" #include "backends/meta-monitor.h" #include "core/display-private.h" typedef struct _PadMappingInfo PadMappingInfo; struct _PadMappingInfo { ClutterInputDevice *device; GSettings *settings; guint *group_modes; }; typedef enum { META_PAD_DIRECTION_NONE = -1, META_PAD_DIRECTION_UP = 0, META_PAD_DIRECTION_DOWN, META_PAD_DIRECTION_CW, META_PAD_DIRECTION_CCW, } MetaPadDirection; struct _MetaPadActionMapper { GObject parent_class; GHashTable *pads; ClutterSeat *seat; ClutterVirtualInputDevice *virtual_pad_keyboard; MetaMonitorManager *monitor_manager; /* Pad ring/strip emission */ struct { ClutterInputDevice *pad; MetaPadActionType action; guint number; double value; } last_pad_action_info; }; G_DEFINE_TYPE (MetaPadActionMapper, meta_pad_action_mapper, G_TYPE_OBJECT) static void meta_pad_action_mapper_finalize (GObject *object) { MetaPadActionMapper *mapper = META_PAD_ACTION_MAPPER (object); g_hash_table_unref (mapper->pads); g_object_unref (mapper->monitor_manager); g_clear_object (&mapper->virtual_pad_keyboard); G_OBJECT_CLASS (meta_pad_action_mapper_parent_class)->finalize (object); } static void meta_pad_action_mapper_class_init (MetaPadActionMapperClass *klass) { GObjectClass *object_class = G_OBJECT_CLASS (klass); object_class->finalize = meta_pad_action_mapper_finalize; } static GSettings * lookup_device_settings (ClutterInputDevice *device) { const char *vendor, *product; GSettings *settings; char *path; vendor = clutter_input_device_get_vendor_id (device); product = clutter_input_device_get_product_id (device); path = g_strdup_printf ("/org/gnome/desktop/peripherals/tablets/%s:%s/", vendor, product); settings = g_settings_new_with_path ("org.gnome.desktop.peripherals.tablet", path); g_free (path); return settings; } static PadMappingInfo * pad_mapping_info_new (ClutterInputDevice *pad) { PadMappingInfo *info; info = g_new0 (PadMappingInfo, 1); info->device = pad; info->settings = lookup_device_settings (pad); info->group_modes = g_new0 (guint, clutter_input_device_get_n_mode_groups (pad)); return info; } static void pad_mapping_info_free (PadMappingInfo *info) { g_object_unref (info->settings); g_free (info->group_modes); g_free (info); } static void device_added (ClutterSeat *seat, ClutterInputDevice *device, MetaPadActionMapper *mapper) { PadMappingInfo *info; if (clutter_input_device_get_device_type (device) == CLUTTER_PAD_DEVICE) { info = pad_mapping_info_new (device); g_hash_table_insert (mapper->pads, device, info); } } static void device_removed (ClutterSeat *seat, ClutterInputDevice *device, MetaPadActionMapper *mapper) { g_hash_table_remove (mapper->pads, device); } static void meta_pad_action_mapper_init (MetaPadActionMapper *mapper) { mapper->pads = g_hash_table_new_full (NULL, NULL, NULL, (GDestroyNotify) pad_mapping_info_free); mapper->seat = clutter_backend_get_default_seat (clutter_get_default_backend ()); g_signal_connect (mapper->seat, "device-added", G_CALLBACK (device_added), mapper); g_signal_connect (mapper->seat, "device-removed", G_CALLBACK (device_removed), mapper); } MetaPadActionMapper * meta_pad_action_mapper_new (MetaMonitorManager *monitor_manager) { MetaPadActionMapper *action_mapper; action_mapper = g_object_new (META_TYPE_PAD_ACTION_MAPPER, NULL); g_set_object (&action_mapper->monitor_manager, monitor_manager); return action_mapper; } static GSettings * lookup_pad_action_settings (ClutterInputDevice *device, MetaPadActionType action, guint number, MetaPadDirection direction, int mode) { const char *vendor, *product, *action_type, *detail_type = NULL; GSettings *settings; GString *path; char action_label; vendor = clutter_input_device_get_vendor_id (device); product = clutter_input_device_get_product_id (device); action_label = 'A' + number; switch (action) { case META_PAD_ACTION_BUTTON: action_type = "button"; break; case META_PAD_ACTION_RING: g_assert (direction == META_PAD_DIRECTION_CW || direction == META_PAD_DIRECTION_CCW); action_type = "ring"; detail_type = (direction == META_PAD_DIRECTION_CW) ? "cw" : "ccw"; break; case META_PAD_ACTION_STRIP: g_assert (direction == META_PAD_DIRECTION_UP || direction == META_PAD_DIRECTION_DOWN); action_type = "strip"; detail_type = (direction == META_PAD_DIRECTION_UP) ? "up" : "down"; break; default: return NULL; } path = g_string_new (NULL); g_string_append_printf (path, "/org/gnome/desktop/peripherals/tablets/%s:%s/%s%c", vendor, product, action_type, action_label); if (detail_type) g_string_append_printf (path, "-%s", detail_type); if (mode >= 0) g_string_append_printf (path, "-mode-%d", mode); g_string_append_c (path, '/'); settings = g_settings_new_with_path ("org.gnome.desktop.peripherals.tablet.pad-button", path->str); g_string_free (path, TRUE); return settings; } static GDesktopPadButtonAction meta_pad_action_mapper_get_button_action (MetaPadActionMapper *mapper, ClutterInputDevice *pad, guint button) { GDesktopPadButtonAction action; GSettings *settings; g_return_val_if_fail (META_IS_PAD_ACTION_MAPPER (mapper), G_DESKTOP_PAD_BUTTON_ACTION_NONE); g_return_val_if_fail (CLUTTER_IS_INPUT_DEVICE (pad), G_DESKTOP_PAD_BUTTON_ACTION_NONE); settings = lookup_pad_action_settings (pad, META_PAD_ACTION_BUTTON, button, META_PAD_DIRECTION_NONE, -1); action = g_settings_get_enum (settings, "action"); g_object_unref (settings); return action; } static gboolean cycle_logical_monitors (MetaPadActionMapper *mapper, gboolean skip_all_monitors, MetaLogicalMonitor *current_logical_monitor, MetaLogicalMonitor **next_logical_monitor) { MetaMonitorManager *monitor_manager = mapper->monitor_manager; GList *logical_monitors; /* We cycle between: * - the span of all monitors (current_output = NULL), only for * non-integrated devices. * - each monitor individually. */ logical_monitors = meta_monitor_manager_get_logical_monitors (monitor_manager); if (!current_logical_monitor) { *next_logical_monitor = logical_monitors->data; } else { GList *l; l = g_list_find (logical_monitors, current_logical_monitor); if (l->next) *next_logical_monitor = l->next->data; else if (skip_all_monitors) *next_logical_monitor = logical_monitors->data; else *next_logical_monitor = NULL; } return TRUE; } static MetaMonitor * logical_monitor_find_monitor (MetaLogicalMonitor *logical_monitor, const char *vendor, const char *product, const char *serial) { GList *monitors; GList *l; monitors = meta_logical_monitor_get_monitors (logical_monitor); for (l = monitors; l; l = l->next) { MetaMonitor *monitor = l->data; if (g_strcmp0 (meta_monitor_get_vendor (monitor), vendor) == 0 && g_strcmp0 (meta_monitor_get_product (monitor), product) == 0 && g_strcmp0 (meta_monitor_get_serial (monitor), serial) == 0) return monitor; } return NULL; } static void meta_pad_action_mapper_find_monitor (MetaPadActionMapper *mapper, GSettings *settings, ClutterInputDevice *device, MetaMonitor **out_monitor, MetaLogicalMonitor **out_logical_monitor) { MetaMonitorManager *monitor_manager; MetaMonitor *monitor; guint n_values; GList *logical_monitors; GList *l; char **edid; edid = g_settings_get_strv (settings, "output"); n_values = g_strv_length (edid); if (n_values != 3) { g_warning ("EDID configuration for device '%s' " "is incorrect, must have 3 values", clutter_input_device_get_device_name (device)); goto out; } if (!*edid[0] && !*edid[1] && !*edid[2]) goto out; monitor_manager = mapper->monitor_manager; logical_monitors = meta_monitor_manager_get_logical_monitors (monitor_manager); for (l = logical_monitors; l; l = l->next) { MetaLogicalMonitor *logical_monitor = l->data; monitor = logical_monitor_find_monitor (logical_monitor, edid[0], edid[1], edid[2]); if (monitor) { if (out_monitor) *out_monitor = monitor; if (out_logical_monitor) *out_logical_monitor = logical_monitor; break; } } out: g_strfreev (edid); } static void meta_pad_action_mapper_cycle_tablet_output (MetaPadActionMapper *mapper, ClutterInputDevice *device) { PadMappingInfo *info; MetaLogicalMonitor *logical_monitor = NULL; const char *edid[4] = { 0 }, *pretty_name = NULL; gboolean is_integrated_device = FALSE; #ifdef HAVE_LIBWACOM WacomDevice *wacom_device; #endif g_return_if_fail (META_IS_PAD_ACTION_MAPPER (mapper)); g_return_if_fail (CLUTTER_IS_INPUT_DEVICE (device)); g_return_if_fail (clutter_input_device_get_device_type (device) == CLUTTER_TABLET_DEVICE || clutter_input_device_get_device_type (device) == CLUTTER_PAD_DEVICE); info = g_hash_table_lookup (mapper->pads, device); g_return_if_fail (info != NULL); #ifdef HAVE_LIBWACOM wacom_device = meta_input_device_get_wacom_device (META_INPUT_DEVICE (device)); if (wacom_device) { pretty_name = libwacom_get_name (wacom_device); is_integrated_device = libwacom_get_integration_flags (wacom_device) != WACOM_DEVICE_INTEGRATED_NONE; } #endif meta_pad_action_mapper_find_monitor (mapper, info->settings, device, NULL, &logical_monitor); if (!cycle_logical_monitors (mapper, is_integrated_device, logical_monitor, &logical_monitor)) return; if (logical_monitor) { MetaMonitor *monitor; /* Pick an arbitrary monitor in the logical monitor to represent it. */ monitor = meta_logical_monitor_get_monitors (logical_monitor)->data; edid[0] = meta_monitor_get_vendor (monitor); edid[1] = meta_monitor_get_product (monitor); edid[2] = meta_monitor_get_serial (monitor); } else { edid[0] = ""; edid[1] = ""; edid[2] = ""; } g_settings_set_strv (info->settings, "output", edid); meta_display_show_tablet_mapping_notification (meta_get_display (), device, pretty_name); } gboolean meta_pad_action_mapper_is_button_grabbed (MetaPadActionMapper *mapper, ClutterInputDevice *pad, guint button) { g_return_val_if_fail (META_IS_PAD_ACTION_MAPPER (mapper), FALSE); g_return_val_if_fail (CLUTTER_IS_INPUT_DEVICE (pad), FALSE); g_return_val_if_fail (clutter_input_device_get_device_type (pad) == CLUTTER_PAD_DEVICE, FALSE); return (meta_pad_action_mapper_get_button_action (mapper, pad, button) != G_DESKTOP_PAD_BUTTON_ACTION_NONE); } static void emulate_modifiers (ClutterVirtualInputDevice *device, ClutterModifierType mods, ClutterKeyState state) { guint i; struct { ClutterModifierType mod; guint keyval; } mod_map[] = { { CLUTTER_SHIFT_MASK, CLUTTER_KEY_Shift_L }, { CLUTTER_CONTROL_MASK, CLUTTER_KEY_Control_L }, { CLUTTER_MOD1_MASK, CLUTTER_KEY_Meta_L } }; for (i = 0; i < G_N_ELEMENTS (mod_map); i++) { if ((mods & mod_map[i].mod) == 0) continue; clutter_virtual_input_device_notify_keyval (device, clutter_get_current_event_time (), mod_map[i].keyval, state); } } static void meta_pad_action_mapper_emulate_keybinding (MetaPadActionMapper *mapper, const char *accel, gboolean is_press) { ClutterKeyState state; guint key, mods; if (!accel || !*accel) return; /* FIXME: This is appalling */ gtk_accelerator_parse (accel, &key, &mods); if (!mapper->virtual_pad_keyboard) { ClutterBackend *backend; ClutterSeat *seat; backend = clutter_get_default_backend (); seat = clutter_backend_get_default_seat (backend); mapper->virtual_pad_keyboard = clutter_seat_create_virtual_device (seat, CLUTTER_KEYBOARD_DEVICE); } state = is_press ? CLUTTER_KEY_STATE_PRESSED : CLUTTER_KEY_STATE_RELEASED; if (is_press) emulate_modifiers (mapper->virtual_pad_keyboard, mods, state); clutter_virtual_input_device_notify_keyval (mapper->virtual_pad_keyboard, clutter_get_current_event_time (), key, state); if (!is_press) emulate_modifiers (mapper->virtual_pad_keyboard, mods, state); } static gboolean meta_pad_action_mapper_handle_button (MetaPadActionMapper *mapper, ClutterInputDevice *pad, const ClutterPadButtonEvent *event) { GDesktopPadButtonAction action; int button, group, mode; gboolean is_press; GSettings *settings; char *accel; g_return_val_if_fail (META_IS_PAD_ACTION_MAPPER (mapper), FALSE); g_return_val_if_fail (event->type == CLUTTER_PAD_BUTTON_PRESS || event->type == CLUTTER_PAD_BUTTON_RELEASE, FALSE); button = event->button; mode = event->mode; group = clutter_input_device_get_mode_switch_button_group (pad, button); is_press = event->type == CLUTTER_PAD_BUTTON_PRESS; if (is_press && group >= 0) { guint n_modes = clutter_input_device_get_group_n_modes (pad, group); const char *pretty_name = NULL; PadMappingInfo *info; #ifdef HAVE_LIBWACOM WacomDevice *wacom_device; #endif info = g_hash_table_lookup (mapper->pads, pad); #ifdef HAVE_LIBWACOM wacom_device = meta_input_device_get_wacom_device (META_INPUT_DEVICE (pad)); if (wacom_device) pretty_name = libwacom_get_name (wacom_device); #endif meta_display_notify_pad_group_switch (meta_get_display (), pad, pretty_name, group, mode, n_modes); info->group_modes[group] = mode; } action = meta_pad_action_mapper_get_button_action (mapper, pad, button); switch (action) { case G_DESKTOP_PAD_BUTTON_ACTION_SWITCH_MONITOR: if (is_press) meta_pad_action_mapper_cycle_tablet_output (mapper, pad); return TRUE; case G_DESKTOP_PAD_BUTTON_ACTION_HELP: if (is_press) meta_display_request_pad_osd (meta_get_display (), pad, FALSE); return TRUE; case G_DESKTOP_PAD_BUTTON_ACTION_KEYBINDING: settings = lookup_pad_action_settings (pad, META_PAD_ACTION_BUTTON, button, META_PAD_DIRECTION_NONE, -1); accel = g_settings_get_string (settings, "keybinding"); meta_pad_action_mapper_emulate_keybinding (mapper, accel, is_press); g_object_unref (settings); g_free (accel); return TRUE; case G_DESKTOP_PAD_BUTTON_ACTION_NONE: default: return FALSE; } } static gboolean meta_pad_action_mapper_handle_action (MetaPadActionMapper *mapper, ClutterInputDevice *pad, MetaPadActionType action, guint number, MetaPadDirection direction, guint mode) { GSettings *settings; gboolean handled = FALSE; char *accel; settings = lookup_pad_action_settings (pad, action, number, direction, mode); accel = g_settings_get_string (settings, "keybinding"); if (accel && *accel) { meta_pad_action_mapper_emulate_keybinding (mapper, accel, TRUE); meta_pad_action_mapper_emulate_keybinding (mapper, accel, FALSE); handled = TRUE; } g_object_unref (settings); g_free (accel); return handled; } static gboolean meta_pad_action_mapper_get_action_direction (MetaPadActionMapper *mapper, const ClutterEvent *event, MetaPadDirection *direction) { ClutterInputDevice *pad = clutter_event_get_device (event); MetaPadActionType pad_action; gboolean has_direction = FALSE; MetaPadDirection inc_dir, dec_dir; guint number; double value; *direction = META_PAD_DIRECTION_NONE; switch (event->type) { case CLUTTER_PAD_RING: pad_action = META_PAD_ACTION_RING; number = event->pad_ring.ring_number; value = event->pad_ring.angle; inc_dir = META_PAD_DIRECTION_CW; dec_dir = META_PAD_DIRECTION_CCW; break; case CLUTTER_PAD_STRIP: pad_action = META_PAD_ACTION_STRIP; number = event->pad_strip.strip_number; value = event->pad_strip.value; inc_dir = META_PAD_DIRECTION_DOWN; dec_dir = META_PAD_DIRECTION_UP; break; default: return FALSE; } if (mapper->last_pad_action_info.pad == pad && mapper->last_pad_action_info.action == pad_action && mapper->last_pad_action_info.number == number && value >= 0 && mapper->last_pad_action_info.value >= 0) { *direction = (value - mapper->last_pad_action_info.value) > 0 ? inc_dir : dec_dir; has_direction = TRUE; } mapper->last_pad_action_info.pad = pad; mapper->last_pad_action_info.action = pad_action; mapper->last_pad_action_info.number = number; mapper->last_pad_action_info.value = value; return has_direction; } gboolean meta_pad_action_mapper_handle_event (MetaPadActionMapper *mapper, const ClutterEvent *event) { ClutterInputDevice *pad; MetaPadDirection direction = META_PAD_DIRECTION_NONE; pad = clutter_event_get_source_device ((ClutterEvent *) event); switch (event->type) { case CLUTTER_PAD_BUTTON_PRESS: case CLUTTER_PAD_BUTTON_RELEASE: return meta_pad_action_mapper_handle_button (mapper, pad, &event->pad_button); case CLUTTER_PAD_RING: if (!meta_pad_action_mapper_get_action_direction (mapper, event, &direction)) return FALSE; return meta_pad_action_mapper_handle_action (mapper, pad, META_PAD_ACTION_RING, event->pad_ring.ring_number, direction, event->pad_ring.mode); case CLUTTER_PAD_STRIP: if (!meta_pad_action_mapper_get_action_direction (mapper, event, &direction)) return FALSE; return meta_pad_action_mapper_handle_action (mapper, pad, META_PAD_ACTION_STRIP, event->pad_strip.strip_number, direction, event->pad_strip.mode); default: return FALSE; } } static char * compose_directional_action_label (GSettings *direction1, GSettings *direction2) { char *accel1, *accel2, *str = NULL; accel1 = g_settings_get_string (direction1, "keybinding"); accel2 = g_settings_get_string (direction2, "keybinding"); if (accel1 && *accel1 && accel2 && *accel2) str = g_strdup_printf ("%s / %s", accel1, accel2); g_free (accel1); g_free (accel2); return str; } static char * meta_pad_action_mapper_get_ring_label (MetaPadActionMapper *mapper, ClutterInputDevice *pad, guint number, guint mode) { GSettings *settings1, *settings2; char *label; /* We only allow keybinding actions with those */ settings1 = lookup_pad_action_settings (pad, META_PAD_ACTION_RING, number, META_PAD_DIRECTION_CW, mode); settings2 = lookup_pad_action_settings (pad, META_PAD_ACTION_RING, number, META_PAD_DIRECTION_CCW, mode); label = compose_directional_action_label (settings1, settings2); g_object_unref (settings1); g_object_unref (settings2); return label; } static char * meta_pad_action_mapper_get_strip_label (MetaPadActionMapper *mapper, ClutterInputDevice *pad, guint number, guint mode) { GSettings *settings1, *settings2; char *label; /* We only allow keybinding actions with those */ settings1 = lookup_pad_action_settings (pad, META_PAD_ACTION_STRIP, number, META_PAD_DIRECTION_UP, mode); settings2 = lookup_pad_action_settings (pad, META_PAD_ACTION_STRIP, number, META_PAD_DIRECTION_DOWN, mode); label = compose_directional_action_label (settings1, settings2); g_object_unref (settings1); g_object_unref (settings2); return label; } static char * meta_pad_action_mapper_get_button_label (MetaPadActionMapper *mapper, ClutterInputDevice *pad, guint button) { GDesktopPadButtonAction action; int group; g_return_val_if_fail (META_IS_PAD_ACTION_MAPPER (mapper), NULL); g_return_val_if_fail (CLUTTER_IS_INPUT_DEVICE (pad), NULL); g_return_val_if_fail (clutter_input_device_get_device_type (pad) == CLUTTER_PAD_DEVICE, NULL); group = clutter_input_device_get_mode_switch_button_group (pad, button); if (group >= 0) { /* TRANSLATORS: This string refers to a button that switches between * different modes. */ return g_strdup_printf (_("Mode Switch (Group %d)"), group); } action = meta_pad_action_mapper_get_button_action (mapper, pad, button); switch (action) { case G_DESKTOP_PAD_BUTTON_ACTION_KEYBINDING: { GSettings *settings; char *accel; settings = lookup_pad_action_settings (pad, META_PAD_ACTION_BUTTON, button, META_PAD_DIRECTION_NONE, -1); accel = g_settings_get_string (settings, "keybinding"); g_object_unref (settings); return accel; } case G_DESKTOP_PAD_BUTTON_ACTION_SWITCH_MONITOR: /* TRANSLATORS: This string refers to an action, cycles drawing tablets' * mapping through the available outputs. */ return g_strdup (_("Switch monitor")); case G_DESKTOP_PAD_BUTTON_ACTION_HELP: return g_strdup (_("Show on-screen help")); case G_DESKTOP_PAD_BUTTON_ACTION_NONE: default: return NULL; } } static guint get_current_pad_mode (MetaPadActionMapper *mapper, ClutterInputDevice *pad, MetaPadActionType action_type, guint number) { PadMappingInfo *info; guint group = 0, n_groups; info = g_hash_table_lookup (mapper->pads, pad); n_groups = clutter_input_device_get_n_mode_groups (pad); if (!info->group_modes || n_groups == 0) return 0; if (action_type == META_PAD_ACTION_RING || action_type == META_PAD_ACTION_STRIP) { /* Assume features are evenly distributed in groups */ group = number % n_groups; } return info->group_modes[group]; } char * meta_pad_action_mapper_get_action_label (MetaPadActionMapper *mapper, ClutterInputDevice *pad, MetaPadActionType action_type, guint number) { guint mode; switch (action_type) { case META_PAD_ACTION_BUTTON: return meta_pad_action_mapper_get_button_label (mapper, pad, number); case META_PAD_ACTION_RING: mode = get_current_pad_mode (mapper, pad, action_type, number); return meta_pad_action_mapper_get_ring_label (mapper, pad, number, mode); case META_PAD_ACTION_STRIP: mode = get_current_pad_mode (mapper, pad, action_type, number); return meta_pad_action_mapper_get_strip_label (mapper, pad, number, mode); } return NULL; }