/* * Copyright © 2013 Jonas Ådahl * Copyright © 2013-2015 Red Hat, Inc. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice (including the next * paragraph) shall be included in all copies or substantial portions of the * Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER * DEALINGS IN THE SOFTWARE. */ #ifndef LIBINPUT_PRIVATE_H #define LIBINPUT_PRIVATE_H #include #include #include "linux/input.h" #include "libinput.h" #include "libinput-util.h" struct libinput_source; /* A coordinate pair in device coordinates */ struct device_coords { int x, y; }; /* * A coordinate pair in device coordinates, capable of holding non discrete * values, this is necessary e.g. when device coordinates get averaged. */ struct device_float_coords { double x, y; }; /* A dpi-normalized coordinate pair */ struct normalized_coords { double x, y; }; /* A discrete step pair (mouse wheels) */ struct discrete_coords { int x, y; }; /* A pair of coordinates normalized to a [0,1] or [-1, 1] range */ struct normalized_range_coords { double x, y; }; /* A threshold with an upper and lower limit */ struct threshold { int upper; int lower; }; struct tablet_axes { struct device_coords point; double distance; double pressure; struct normalized_range_coords tilt; double rotation; double slider; double wheel; int wheel_discrete; }; struct libinput_interface_backend { int (*resume)(struct libinput *libinput); void (*suspend)(struct libinput *libinput); void (*destroy)(struct libinput *libinput); int (*device_change_seat)(struct libinput_device *device, const char *seat_name); }; struct libinput { int epoll_fd; struct list source_destroy_list; struct list seat_list; struct { struct list list; struct libinput_source *source; int fd; } timer; struct libinput_event **events; size_t events_count; size_t events_len; size_t events_in; size_t events_out; struct list tool_list; const struct libinput_interface *interface; const struct libinput_interface_backend *interface_backend; libinput_log_handler log_handler; enum libinput_log_priority log_priority; void *user_data; int refcount; struct list device_group_list; }; typedef void (*libinput_seat_destroy_func) (struct libinput_seat *seat); struct libinput_seat { struct libinput *libinput; struct list link; struct list devices_list; void *user_data; int refcount; libinput_seat_destroy_func destroy; char *physical_name; char *logical_name; uint32_t slot_map; uint32_t button_count[KEY_CNT]; }; struct libinput_device_config_tap { int (*count)(struct libinput_device *device); enum libinput_config_status (*set_enabled)(struct libinput_device *device, enum libinput_config_tap_state enable); enum libinput_config_tap_state (*get_enabled)(struct libinput_device *device); enum libinput_config_tap_state (*get_default)(struct libinput_device *device); enum libinput_config_status (*set_draglock_enabled)(struct libinput_device *device, enum libinput_config_drag_lock_state); enum libinput_config_drag_lock_state (*get_draglock_enabled)(struct libinput_device *device); enum libinput_config_drag_lock_state (*get_default_draglock_enabled)(struct libinput_device *device); }; struct libinput_device_config_calibration { int (*has_matrix)(struct libinput_device *device); enum libinput_config_status (*set_matrix)(struct libinput_device *device, const float matrix[6]); int (*get_matrix)(struct libinput_device *device, float matrix[6]); int (*get_default_matrix)(struct libinput_device *device, float matrix[6]); }; struct libinput_device_config_send_events { uint32_t (*get_modes)(struct libinput_device *device); enum libinput_config_status (*set_mode)(struct libinput_device *device, enum libinput_config_send_events_mode mode); enum libinput_config_send_events_mode (*get_mode)(struct libinput_device *device); enum libinput_config_send_events_mode (*get_default_mode)(struct libinput_device *device); }; struct libinput_device_config_accel { int (*available)(struct libinput_device *device); enum libinput_config_status (*set_speed)(struct libinput_device *device, double speed); double (*get_speed)(struct libinput_device *device); double (*get_default_speed)(struct libinput_device *device); uint32_t (*get_profiles)(struct libinput_device *device); enum libinput_config_status (*set_profile)(struct libinput_device *device, enum libinput_config_accel_profile); enum libinput_config_accel_profile (*get_profile)(struct libinput_device *device); enum libinput_config_accel_profile (*get_default_profile)(struct libinput_device *device); }; struct libinput_device_config_natural_scroll { int (*has)(struct libinput_device *device); enum libinput_config_status (*set_enabled)(struct libinput_device *device, int enabled); int (*get_enabled)(struct libinput_device *device); int (*get_default_enabled)(struct libinput_device *device); }; struct libinput_device_config_left_handed { int (*has)(struct libinput_device *device); enum libinput_config_status (*set)(struct libinput_device *device, int left_handed); int (*get)(struct libinput_device *device); int (*get_default)(struct libinput_device *device); }; struct libinput_device_config_scroll_method { uint32_t (*get_methods)(struct libinput_device *device); enum libinput_config_status (*set_method)(struct libinput_device *device, enum libinput_config_scroll_method method); enum libinput_config_scroll_method (*get_method)(struct libinput_device *device); enum libinput_config_scroll_method (*get_default_method)(struct libinput_device *device); enum libinput_config_status (*set_button)(struct libinput_device *device, uint32_t button); uint32_t (*get_button)(struct libinput_device *device); uint32_t (*get_default_button)(struct libinput_device *device); }; struct libinput_device_config_click_method { uint32_t (*get_methods)(struct libinput_device *device); enum libinput_config_status (*set_method)(struct libinput_device *device, enum libinput_config_click_method method); enum libinput_config_click_method (*get_method)(struct libinput_device *device); enum libinput_config_click_method (*get_default_method)(struct libinput_device *device); }; struct libinput_device_config_middle_emulation { int (*available)(struct libinput_device *device); enum libinput_config_status (*set)( struct libinput_device *device, enum libinput_config_middle_emulation_state); enum libinput_config_middle_emulation_state (*get)( struct libinput_device *device); enum libinput_config_middle_emulation_state (*get_default)( struct libinput_device *device); }; struct libinput_device_config_dwt { int (*is_available)(struct libinput_device *device); enum libinput_config_status (*set_enabled)( struct libinput_device *device, enum libinput_config_dwt_state enable); enum libinput_config_dwt_state (*get_enabled)( struct libinput_device *device); enum libinput_config_dwt_state (*get_default_enabled)( struct libinput_device *device); }; struct libinput_device_config { struct libinput_device_config_tap *tap; struct libinput_device_config_calibration *calibration; struct libinput_device_config_send_events *sendevents; struct libinput_device_config_accel *accel; struct libinput_device_config_natural_scroll *natural_scroll; struct libinput_device_config_left_handed *left_handed; struct libinput_device_config_scroll_method *scroll_method; struct libinput_device_config_click_method *click_method; struct libinput_device_config_middle_emulation *middle_emulation; struct libinput_device_config_dwt *dwt; }; struct libinput_device_group { int refcount; void *user_data; char *identifier; /* unique identifier or NULL for singletons */ struct list link; }; struct libinput_device { struct libinput_seat *seat; struct libinput_device_group *group; struct list link; struct list event_listeners; void *user_data; int refcount; struct libinput_device_config config; }; enum libinput_tablet_tool_axis { LIBINPUT_TABLET_TOOL_AXIS_X = 1, LIBINPUT_TABLET_TOOL_AXIS_Y = 2, LIBINPUT_TABLET_TOOL_AXIS_DISTANCE = 3, LIBINPUT_TABLET_TOOL_AXIS_PRESSURE = 4, LIBINPUT_TABLET_TOOL_AXIS_TILT_X = 5, LIBINPUT_TABLET_TOOL_AXIS_TILT_Y = 6, LIBINPUT_TABLET_TOOL_AXIS_ROTATION_Z = 7, LIBINPUT_TABLET_TOOL_AXIS_SLIDER = 8, LIBINPUT_TABLET_TOOL_AXIS_REL_WHEEL = 9, }; #define LIBINPUT_TABLET_TOOL_AXIS_MAX LIBINPUT_TABLET_TOOL_AXIS_REL_WHEEL struct libinput_tablet_tool { struct list link; uint32_t serial; uint32_t tool_id; enum libinput_tablet_tool_type type; unsigned char axis_caps[NCHARS(LIBINPUT_TABLET_TOOL_AXIS_MAX + 1)]; unsigned char buttons[NCHARS(KEY_MAX) + 1]; int refcount; void *user_data; /* The pressure threshold assumes a pressure_offset of 0 */ struct threshold pressure_threshold; int pressure_offset; /* in device coordinates */ bool has_pressure_offset; }; struct libinput_event { enum libinput_event_type type; struct libinput_device *device; }; struct libinput_event_listener { struct list link; void (*notify_func)(uint64_t time, struct libinput_event *ev, void *notify_func_data); void *notify_func_data; }; typedef void (*libinput_source_dispatch_t)(void *data); #define log_debug(li_, ...) log_msg((li_), LIBINPUT_LOG_PRIORITY_DEBUG, __VA_ARGS__) #define log_info(li_, ...) log_msg((li_), LIBINPUT_LOG_PRIORITY_INFO, __VA_ARGS__) #define log_error(li_, ...) log_msg((li_), LIBINPUT_LOG_PRIORITY_ERROR, __VA_ARGS__) #define log_bug_kernel(li_, ...) log_msg((li_), LIBINPUT_LOG_PRIORITY_ERROR, "kernel bug: " __VA_ARGS__) #define log_bug_libinput(li_, ...) log_msg((li_), LIBINPUT_LOG_PRIORITY_ERROR, "libinput bug: " __VA_ARGS__) #define log_bug_client(li_, ...) log_msg((li_), LIBINPUT_LOG_PRIORITY_ERROR, "client bug: " __VA_ARGS__) #define log_debug_ratelimit(li_, r_, ...) log_msg_ratelimit((li_), (r_), LIBINPUT_LOG_PRIORITY_DEBUG, __VA_ARGS__) #define log_info_ratelimit(li_, r_, ...) log_msg_ratelimit((li_), (r_), LIBINPUT_LOG_PRIORITY_INFO, __VA_ARGS__) #define log_error_ratelimit(li_, r_, ...) log_msg_ratelimit((li_), (r_), LIBINPUT_LOG_PRIORITY_ERROR, __VA_ARGS__) #define log_bug_kernel_ratelimit(li_, r_, ...) log_msg_ratelimit((li_), (r_), LIBINPUT_LOG_PRIORITY_ERROR, "kernel bug: " __VA_ARGS__) #define log_bug_libinput_ratelimit(li_, r_, ...) log_msg_ratelimit((li_), (r_), LIBINPUT_LOG_PRIORITY_ERROR, "libinput bug: " __VA_ARGS__) #define log_bug_client_ratelimit(li_, r_, ...) log_msg_ratelimit((li_), (r_), LIBINPUT_LOG_PRIORITY_ERROR, "client bug: " __VA_ARGS__) void log_msg_ratelimit(struct libinput *libinput, struct ratelimit *ratelimit, enum libinput_log_priority priority, const char *format, ...) LIBINPUT_ATTRIBUTE_PRINTF(4, 5); void log_msg(struct libinput *libinput, enum libinput_log_priority priority, const char *format, ...) LIBINPUT_ATTRIBUTE_PRINTF(3, 4); void log_msg_va(struct libinput *libinput, enum libinput_log_priority priority, const char *format, va_list args) LIBINPUT_ATTRIBUTE_PRINTF(3, 0); int libinput_init(struct libinput *libinput, const struct libinput_interface *interface, const struct libinput_interface_backend *interface_backend, void *user_data); struct libinput_source * libinput_add_fd(struct libinput *libinput, int fd, libinput_source_dispatch_t dispatch, void *data); void libinput_remove_source(struct libinput *libinput, struct libinput_source *source); int open_restricted(struct libinput *libinput, const char *path, int flags); void close_restricted(struct libinput *libinput, int fd); bool ignore_litest_test_suite_device(struct udev_device *device); void libinput_seat_init(struct libinput_seat *seat, struct libinput *libinput, const char *physical_name, const char *logical_name, libinput_seat_destroy_func destroy); void libinput_device_init(struct libinput_device *device, struct libinput_seat *seat); struct libinput_device_group * libinput_device_group_create(struct libinput *libinput, const char *identifier); struct libinput_device_group * libinput_device_group_find_group(struct libinput *libinput, const char *identifier); void libinput_device_set_device_group(struct libinput_device *device, struct libinput_device_group *group); void libinput_device_add_event_listener(struct libinput_device *device, struct libinput_event_listener *listener, void (*notify_func)( uint64_t time, struct libinput_event *event, void *notify_func_data), void *notify_func_data); void libinput_device_remove_event_listener(struct libinput_event_listener *listener); void notify_added_device(struct libinput_device *device); void notify_removed_device(struct libinput_device *device); void keyboard_notify_key(struct libinput_device *device, uint64_t time, uint32_t key, enum libinput_key_state state); void pointer_notify_motion(struct libinput_device *device, uint64_t time, const struct normalized_coords *delta, const struct device_float_coords *raw); void pointer_notify_motion_absolute(struct libinput_device *device, uint64_t time, const struct device_coords *point); void pointer_notify_button(struct libinput_device *device, uint64_t time, int32_t button, enum libinput_button_state state); void pointer_notify_axis(struct libinput_device *device, uint64_t time, uint32_t axes, enum libinput_pointer_axis_source source, const struct normalized_coords *delta, const struct discrete_coords *discrete); void touch_notify_touch_down(struct libinput_device *device, uint64_t time, int32_t slot, int32_t seat_slot, const struct device_coords *point); void touch_notify_touch_motion(struct libinput_device *device, uint64_t time, int32_t slot, int32_t seat_slot, const struct device_coords *point); void touch_notify_touch_up(struct libinput_device *device, uint64_t time, int32_t slot, int32_t seat_slot); void gesture_notify_swipe(struct libinput_device *device, uint64_t time, enum libinput_event_type type, int finger_count, const struct normalized_coords *delta, const struct normalized_coords *unaccel); void gesture_notify_swipe_end(struct libinput_device *device, uint64_t time, int finger_count, int cancelled); void gesture_notify_pinch(struct libinput_device *device, uint64_t time, enum libinput_event_type type, const struct normalized_coords *delta, const struct normalized_coords *unaccel, double scale, double angle); void gesture_notify_pinch_end(struct libinput_device *device, uint64_t time, double scale, int cancelled); void touch_notify_frame(struct libinput_device *device, uint64_t time); void tablet_notify_axis(struct libinput_device *device, uint64_t time, struct libinput_tablet_tool *tool, enum libinput_tablet_tool_tip_state tip_state, unsigned char *changed_axes, const struct tablet_axes *axes); void tablet_notify_proximity(struct libinput_device *device, uint64_t time, struct libinput_tablet_tool *tool, enum libinput_tablet_tool_proximity_state state, unsigned char *changed_axes, const struct tablet_axes *axes); void tablet_notify_tip(struct libinput_device *device, uint64_t time, struct libinput_tablet_tool *tool, enum libinput_tablet_tool_tip_state tip_state, unsigned char *changed_axes, const struct tablet_axes *axes); void tablet_notify_button(struct libinput_device *device, uint64_t time, struct libinput_tablet_tool *tool, enum libinput_tablet_tool_tip_state tip_state, const struct tablet_axes *axes, int32_t button, enum libinput_button_state state); static inline uint64_t libinput_now(struct libinput *libinput) { struct timespec ts = { 0, 0 }; if (clock_gettime(CLOCK_MONOTONIC, &ts) != 0) { log_error(libinput, "clock_gettime failed: %s\n", strerror(errno)); return 0; } return s2us(ts.tv_sec) + ns2us(ts.tv_nsec); } static inline struct device_float_coords device_delta(struct device_coords a, struct device_coords b) { struct device_float_coords delta; delta.x = a.x - b.x; delta.y = a.y - b.y; return delta; } static inline struct device_float_coords device_average(struct device_coords a, struct device_coords b) { struct device_float_coords average; average.x = (a.x + b.x) / 2.0; average.y = (a.y + b.y) / 2.0; return average; } static inline struct device_float_coords device_float_delta(struct device_float_coords a, struct device_float_coords b) { struct device_float_coords delta; delta.x = a.x - b.x; delta.y = a.y - b.y; return delta; } static inline struct device_float_coords device_float_average(struct device_float_coords a, struct device_float_coords b) { struct device_float_coords average; average.x = (a.x + b.x) / 2.0; average.y = (a.y + b.y) / 2.0; return average; } static inline double normalized_length(struct normalized_coords norm) { return hypot(norm.x, norm.y); } static inline int normalized_is_zero(struct normalized_coords norm) { return norm.x == 0.0 && norm.y == 0.0; } enum directions { N = 1 << 0, NE = 1 << 1, E = 1 << 2, SE = 1 << 3, S = 1 << 4, SW = 1 << 5, W = 1 << 6, NW = 1 << 7, UNDEFINED_DIRECTION = 0xff }; static inline int normalized_get_direction(struct normalized_coords norm) { int dir = UNDEFINED_DIRECTION; int d1, d2; double r; if (fabs(norm.x) < 2.0 && fabs(norm.y) < 2.0) { if (norm.x > 0.0 && norm.y > 0.0) dir = S | SE | E; else if (norm.x > 0.0 && norm.y < 0.0) dir = N | NE | E; else if (norm.x < 0.0 && norm.y > 0.0) dir = S | SW | W; else if (norm.x < 0.0 && norm.y < 0.0) dir = N | NW | W; else if (norm.x > 0.0) dir = NE | E | SE; else if (norm.x < 0.0) dir = NW | W | SW; else if (norm.y > 0.0) dir = SE | S | SW; else if (norm.y < 0.0) dir = NE | N | NW; } else { /* Calculate r within the interval [0 to 8) * * r = [0 .. 2π] where 0 is North * d_f = r / 2π ([0 .. 1)) * d_8 = 8 * d_f */ r = atan2(norm.y, norm.x); r = fmod(r + 2.5*M_PI, 2*M_PI); r *= 4*M_1_PI; /* Mark one or two close enough octants */ d1 = (int)(r + 0.9) % 8; d2 = (int)(r + 0.1) % 8; dir = (1 << d1) | (1 << d2); } return dir; } #endif /* LIBINPUT_PRIVATE_H */