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|
/*
* Copyright © 2011, 2012 Intel Corporation
* 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 EVDEV_H
#define EVDEV_H
#include "config.h"
#include <stdbool.h>
#include <stdarg.h>
#include "linux/input.h"
#include <libevdev/libevdev.h>
#include "libinput-private.h"
#include "timer.h"
#include "filter.h"
#include "quirks.h"
/* The fake resolution value for abs devices without resolution */
#define EVDEV_FAKE_RESOLUTION 1
enum evdev_event_type {
EVDEV_NONE,
EVDEV_ABSOLUTE_TOUCH_DOWN = bit(0),
EVDEV_ABSOLUTE_MOTION = bit(1),
EVDEV_ABSOLUTE_TOUCH_UP = bit(2),
EVDEV_ABSOLUTE_MT = bit(3),
EVDEV_WHEEL = bit(4),
EVDEV_KEY = bit(5),
EVDEV_RELATIVE_MOTION = bit(6),
EVDEV_BUTTON = bit(7),
};
enum evdev_device_seat_capability {
EVDEV_DEVICE_POINTER = bit(0),
EVDEV_DEVICE_KEYBOARD = bit(1),
EVDEV_DEVICE_TOUCH = bit(2),
EVDEV_DEVICE_TABLET = bit(3),
EVDEV_DEVICE_TABLET_PAD = bit(4),
EVDEV_DEVICE_GESTURE = bit(5),
EVDEV_DEVICE_SWITCH = bit(6),
};
enum evdev_device_tags {
EVDEV_TAG_EXTERNAL_MOUSE = bit(0),
EVDEV_TAG_INTERNAL_TOUCHPAD = bit(1),
EVDEV_TAG_EXTERNAL_TOUCHPAD = bit(2),
EVDEV_TAG_TRACKPOINT = bit(3),
EVDEV_TAG_KEYBOARD = bit(4),
EVDEV_TAG_LID_SWITCH = bit(5),
EVDEV_TAG_INTERNAL_KEYBOARD = bit(6),
EVDEV_TAG_EXTERNAL_KEYBOARD = bit(7),
EVDEV_TAG_TABLET_MODE_SWITCH = bit(8),
EVDEV_TAG_TABLET_TOUCHPAD = bit(9),
};
enum evdev_middlebutton_state {
MIDDLEBUTTON_IDLE,
MIDDLEBUTTON_LEFT_DOWN,
MIDDLEBUTTON_RIGHT_DOWN,
MIDDLEBUTTON_MIDDLE,
MIDDLEBUTTON_LEFT_UP_PENDING,
MIDDLEBUTTON_RIGHT_UP_PENDING,
MIDDLEBUTTON_IGNORE_LR,
MIDDLEBUTTON_IGNORE_L,
MIDDLEBUTTON_IGNORE_R,
MIDDLEBUTTON_PASSTHROUGH,
};
enum evdev_middlebutton_event {
MIDDLEBUTTON_EVENT_L_DOWN,
MIDDLEBUTTON_EVENT_R_DOWN,
MIDDLEBUTTON_EVENT_OTHER,
MIDDLEBUTTON_EVENT_L_UP,
MIDDLEBUTTON_EVENT_R_UP,
MIDDLEBUTTON_EVENT_TIMEOUT,
MIDDLEBUTTON_EVENT_ALL_UP,
};
/**
* model flags are used as shortcut for quirks that need to be checked
* multiple times in timing-sensitive paths. For quirks that need to be
* checked only once, use the quirk directly.
*/
enum evdev_device_model {
EVDEV_MODEL_DEFAULT = 0,
EVDEV_MODEL_WACOM_TOUCHPAD = bit(1),
EVDEV_MODEL_SYNAPTICS_SERIAL_TOUCHPAD = bit(2),
EVDEV_MODEL_ALPS_SERIAL_TOUCHPAD = bit(3),
EVDEV_MODEL_LENOVO_T450_TOUCHPAD = bit(4),
EVDEV_MODEL_APPLE_TOUCHPAD_ONEBUTTON = bit(5),
EVDEV_MODEL_LENOVO_SCROLLPOINT = bit(6),
/* udev tags, not true quirks */
EVDEV_MODEL_TEST_DEVICE = bit(20),
EVDEV_MODEL_TRACKBALL = bit(21),
EVDEV_MODEL_LENOVO_X220_TOUCHPAD_FW81 = bit(22),
};
enum evdev_button_scroll_state {
BUTTONSCROLL_IDLE,
BUTTONSCROLL_BUTTON_DOWN, /* button is down */
BUTTONSCROLL_READY, /* ready for scroll events */
BUTTONSCROLL_SCROLLING, /* have sent scroll events */
};
enum evdev_button_scroll_lock_state {
BUTTONSCROLL_LOCK_DISABLED,
BUTTONSCROLL_LOCK_IDLE,
BUTTONSCROLL_LOCK_FIRSTDOWN,
BUTTONSCROLL_LOCK_FIRSTUP,
BUTTONSCROLL_LOCK_SECONDDOWN,
};
enum evdev_debounce_state {
/**
* Initial state, no debounce but monitoring events
*/
DEBOUNCE_INIT,
/**
* Bounce detected, future events need debouncing
*/
DEBOUNCE_NEEDED,
/**
* Debounce is enabled, but no event is currently being filtered
*/
DEBOUNCE_ON,
/**
* Debounce is enabled and we are currently filtering an event
*/
DEBOUNCE_ACTIVE,
};
enum evdev_arbitration_state {
ARBITRATION_NOT_ACTIVE,
ARBITRATION_IGNORE_ALL,
ARBITRATION_IGNORE_RECT,
};
struct evdev_device {
struct libinput_device base;
struct libinput_source *source;
struct evdev_dispatch *dispatch;
struct libevdev *evdev;
struct udev_device *udev_device;
char *output_name;
const char *devname;
char *log_prefix_name;
char *sysname;
bool was_removed;
int fd;
enum evdev_device_seat_capability seat_caps;
enum evdev_device_tags tags;
bool is_mt;
bool is_suspended;
int dpi; /* HW resolution */
double trackpoint_multiplier; /* trackpoint constant multiplier */
bool use_velocity_averaging; /* whether averaging should be applied on velocity calculation */
struct ratelimit syn_drop_limit; /* ratelimit for SYN_DROPPED logging */
struct ratelimit delay_warning_limit; /* ratelimit for delayd processing logging */
struct ratelimit nonpointer_rel_limit; /* ratelimit for REL_* events from non-pointer devices */
uint32_t model_flags;
struct mtdev *mtdev;
struct {
const struct input_absinfo *absinfo_x, *absinfo_y;
bool is_fake_resolution;
int apply_calibration;
struct matrix calibration;
struct matrix default_calibration; /* from LIBINPUT_CALIBRATION_MATRIX */
struct matrix usermatrix; /* as supplied by the caller */
struct device_coords dimensions;
struct {
struct device_coords min, max;
struct ratelimit range_warn_limit;
} warning_range;
} abs;
struct {
struct libinput_timer timer;
struct libinput_device_config_scroll_method config;
/* Currently enabled method, button */
enum libinput_config_scroll_method method;
uint32_t button;
uint64_t button_down_time;
/* set during device init, used at runtime to delay changes
* until all buttons are up */
enum libinput_config_scroll_method want_method;
uint32_t want_button;
/* Checks if buttons are down and commits the setting */
void (*change_scroll_method)(struct evdev_device *device);
enum evdev_button_scroll_state button_scroll_state;
double threshold;
double direction_lock_threshold;
uint32_t direction;
struct normalized_coords buildup;
struct libinput_device_config_natural_scroll config_natural;
/* set during device init if we want natural scrolling,
* used at runtime to enable/disable the feature */
bool natural_scrolling_enabled;
/* set during device init to invert direction of
* horizontal scrolling */
bool invert_horizontal_scrolling;
/* angle per REL_WHEEL click in degrees */
struct wheel_angle wheel_click_angle;
enum evdev_button_scroll_lock_state lock_state;
bool want_lock_enabled;
bool lock_enabled;
} scroll;
struct {
struct libinput_device_config_accel config;
struct motion_filter *filter;
} pointer;
/* Key counter used for multiplexing button events internally in
* libinput. */
uint8_t key_count[KEY_CNT];
struct {
struct libinput_device_config_left_handed config;
/* left-handed currently enabled */
bool enabled;
/* set during device init if we want left_handed config,
* used at runtime to delay the effect until buttons are up */
bool want_enabled;
/* Checks if buttons are down and commits the setting */
void (*change_to_enabled)(struct evdev_device *device);
} left_handed;
struct {
struct libinput_device_config_middle_emulation config;
/* middle-button emulation enabled */
bool enabled;
bool enabled_default;
bool want_enabled;
enum evdev_middlebutton_state state;
struct libinput_timer timer;
uint32_t button_mask;
uint64_t first_event_time;
} middlebutton;
};
static inline struct evdev_device *
evdev_device(struct libinput_device *device)
{
return container_of(device, struct evdev_device, base);
}
#define EVDEV_UNHANDLED_DEVICE ((struct evdev_device *) 1)
struct evdev_dispatch;
struct evdev_dispatch_interface {
/* Process an evdev input event. */
void (*process)(struct evdev_dispatch *dispatch,
struct evdev_device *device,
struct input_event *event,
uint64_t time);
/* Device is being suspended */
void (*suspend)(struct evdev_dispatch *dispatch,
struct evdev_device *device);
/* Device is being removed (may be NULL) */
void (*remove)(struct evdev_dispatch *dispatch);
/* Destroy an event dispatch handler and free all its resources. */
void (*destroy)(struct evdev_dispatch *dispatch);
/* A new device was added */
void (*device_added)(struct evdev_device *device,
struct evdev_device *added_device);
/* A device was removed */
void (*device_removed)(struct evdev_device *device,
struct evdev_device *removed_device);
/* A device was suspended */
void (*device_suspended)(struct evdev_device *device,
struct evdev_device *suspended_device);
/* A device was resumed */
void (*device_resumed)(struct evdev_device *device,
struct evdev_device *resumed_device);
/* Called immediately after the LIBINPUT_EVENT_DEVICE_ADDED event
* was sent */
void (*post_added)(struct evdev_device *device,
struct evdev_dispatch *dispatch);
/* For touch arbitration, called on the device that should
* enable/disable touch capabilities.
*/
void (*touch_arbitration_toggle)(struct evdev_dispatch *dispatch,
struct evdev_device *device,
enum evdev_arbitration_state which,
const struct phys_rect *rect, /* may be NULL */
uint64_t now);
/* Called when touch arbitration is on, updates the area where touch
* arbitration should apply.
*/
void (*touch_arbitration_update_rect)(struct evdev_dispatch *dispatch,
struct evdev_device *device,
const struct phys_rect *rect,
uint64_t now);
/* Return the state of the given switch */
enum libinput_switch_state
(*get_switch_state)(struct evdev_dispatch *dispatch,
enum libinput_switch which);
void (*left_handed_toggle)(struct evdev_dispatch *dispatch,
struct evdev_device *device,
bool left_handed_enabled);
};
enum evdev_dispatch_type {
DISPATCH_FALLBACK,
DISPATCH_TOUCHPAD,
DISPATCH_TABLET,
DISPATCH_TABLET_PAD,
DISPATCH_TOTEM,
};
struct evdev_dispatch {
enum evdev_dispatch_type dispatch_type;
struct evdev_dispatch_interface *interface;
struct {
struct libinput_device_config_send_events config;
enum libinput_config_send_events_mode current_mode;
} sendevents;
};
static inline void
evdev_verify_dispatch_type(struct evdev_dispatch *dispatch,
enum evdev_dispatch_type type)
{
if (dispatch->dispatch_type != type)
abort();
}
struct evdev_device *
evdev_device_create(struct libinput_seat *seat,
struct udev_device *device);
static inline struct libinput *
evdev_libinput_context(const struct evdev_device *device)
{
return device->base.seat->libinput;
}
static inline bool
evdev_device_has_model_quirk(struct evdev_device *device,
enum quirk model_quirk)
{
struct quirks_context *quirks;
struct quirks *q;
bool result = false;
assert(quirk_get_name(model_quirk) != NULL);
quirks = evdev_libinput_context(device)->quirks;
q = quirks_fetch_for_device(quirks, device->udev_device);
quirks_get_bool(q, model_quirk, &result);
quirks_unref(q);
return result;
}
void
evdev_transform_absolute(struct evdev_device *device,
struct device_coords *point);
void
evdev_transform_relative(struct evdev_device *device,
struct device_coords *point);
void
evdev_init_calibration(struct evdev_device *device,
struct libinput_device_config_calibration *calibration);
void
evdev_read_calibration_prop(struct evdev_device *device);
int
evdev_read_fuzz_prop(struct evdev_device *device, unsigned int code);
enum switch_reliability
evdev_read_switch_reliability_prop(struct evdev_device *device);
void
evdev_init_sendevents(struct evdev_device *device,
struct evdev_dispatch *dispatch);
void
evdev_device_init_pointer_acceleration(struct evdev_device *device,
struct motion_filter *filter);
struct evdev_dispatch *
evdev_touchpad_create(struct evdev_device *device);
struct evdev_dispatch *
evdev_mt_touchpad_create(struct evdev_device *device);
struct evdev_dispatch *
evdev_tablet_create(struct evdev_device *device);
struct evdev_dispatch *
evdev_tablet_pad_create(struct evdev_device *device);
struct evdev_dispatch *
evdev_lid_switch_dispatch_create(struct evdev_device *device);
struct evdev_dispatch *
fallback_dispatch_create(struct libinput_device *libinput_device);
struct evdev_dispatch *
evdev_totem_create(struct evdev_device *device);
bool
evdev_is_fake_mt_device(struct evdev_device *device);
int
evdev_need_mtdev(struct evdev_device *device);
void
evdev_device_led_update(struct evdev_device *device, enum libinput_led leds);
int
evdev_device_get_keys(struct evdev_device *device, char *keys, size_t size);
const char *
evdev_device_get_output(struct evdev_device *device);
const char *
evdev_device_get_sysname(struct evdev_device *device);
const char *
evdev_device_get_name(struct evdev_device *device);
unsigned int
evdev_device_get_id_product(struct evdev_device *device);
unsigned int
evdev_device_get_id_vendor(struct evdev_device *device);
struct udev_device *
evdev_device_get_udev_device(struct evdev_device *device);
void
evdev_device_set_default_calibration(struct evdev_device *device,
const float calibration[6]);
void
evdev_device_calibrate(struct evdev_device *device,
const float calibration[6]);
bool
evdev_device_has_capability(struct evdev_device *device,
enum libinput_device_capability capability);
int
evdev_device_get_size(const struct evdev_device *device,
double *w,
double *h);
int
evdev_device_has_button(struct evdev_device *device, uint32_t code);
int
evdev_device_has_key(struct evdev_device *device, uint32_t code);
int
evdev_device_get_touch_count(struct evdev_device *device);
int
evdev_device_has_switch(struct evdev_device *device,
enum libinput_switch sw);
int
evdev_device_tablet_pad_has_key(struct evdev_device *device,
uint32_t code);
int
evdev_device_tablet_pad_get_num_buttons(struct evdev_device *device);
int
evdev_device_tablet_pad_get_num_rings(struct evdev_device *device);
int
evdev_device_tablet_pad_get_num_strips(struct evdev_device *device);
int
evdev_device_tablet_pad_get_num_mode_groups(struct evdev_device *device);
struct libinput_tablet_pad_mode_group *
evdev_device_tablet_pad_get_mode_group(struct evdev_device *device,
unsigned int index);
enum libinput_switch_state
evdev_device_switch_get_state(struct evdev_device *device,
enum libinput_switch sw);
double
evdev_device_transform_x(struct evdev_device *device,
double x,
uint32_t width);
double
evdev_device_transform_y(struct evdev_device *device,
double y,
uint32_t height);
void
evdev_device_suspend(struct evdev_device *device);
int
evdev_device_resume(struct evdev_device *device);
void
evdev_notify_suspended_device(struct evdev_device *device);
void
evdev_notify_resumed_device(struct evdev_device *device);
void
evdev_pointer_notify_button(struct evdev_device *device,
uint64_t time,
unsigned int button,
enum libinput_button_state state);
void
evdev_pointer_notify_physical_button(struct evdev_device *device,
uint64_t time,
int button,
enum libinput_button_state state);
void
evdev_init_natural_scroll(struct evdev_device *device);
void
evdev_init_button_scroll(struct evdev_device *device,
void (*change_scroll_method)(struct evdev_device *));
void
evdev_set_button_scroll_lock_enabled(struct evdev_device *device,
bool enabled);
int
evdev_update_key_down_count(struct evdev_device *device,
int code,
int pressed);
void
evdev_notify_axis_legacy_wheel(struct evdev_device *device,
uint64_t time,
uint32_t axes,
const struct normalized_coords *delta_in,
const struct discrete_coords *discrete_in);
void
evdev_notify_axis_wheel(struct evdev_device *device,
uint64_t time,
uint32_t axes,
const struct normalized_coords *delta_in,
const struct wheel_v120 *v120_in);
void
evdev_notify_axis_finger(struct evdev_device *device,
uint64_t time,
uint32_t axes,
const struct normalized_coords *delta_in);
void
evdev_notify_axis_continous(struct evdev_device *device,
uint64_t time,
uint32_t axes,
const struct normalized_coords *delta_in);
void
evdev_post_scroll(struct evdev_device *device,
uint64_t time,
enum libinput_pointer_axis_source source,
const struct normalized_coords *delta);
void
evdev_stop_scroll(struct evdev_device *device,
uint64_t time,
enum libinput_pointer_axis_source source);
void
evdev_device_remove(struct evdev_device *device);
void
evdev_device_destroy(struct evdev_device *device);
bool
evdev_middlebutton_filter_button(struct evdev_device *device,
uint64_t time,
int button,
enum libinput_button_state state);
void
evdev_init_middlebutton(struct evdev_device *device,
bool enabled,
bool want_config);
enum libinput_config_middle_emulation_state
evdev_middlebutton_get(struct libinput_device *device);
int
evdev_middlebutton_is_available(struct libinput_device *device);
enum libinput_config_middle_emulation_state
evdev_middlebutton_get_default(struct libinput_device *device);
static inline double
evdev_convert_to_mm(const struct input_absinfo *absinfo, double v)
{
double value = v - absinfo->minimum;
return value/absinfo->resolution;
}
static inline struct phys_coords
evdev_convert_xy_to_mm(const struct evdev_device *device, int x, int y)
{
struct phys_coords mm;
mm.x = evdev_convert_to_mm(device->abs.absinfo_x, x);
mm.y = evdev_convert_to_mm(device->abs.absinfo_y, y);
return mm;
}
void
evdev_init_left_handed(struct evdev_device *device,
void (*change_to_left_handed)(struct evdev_device *));
bool
evdev_tablet_has_left_handed(struct evdev_device *device);
static inline uint32_t
evdev_to_left_handed(struct evdev_device *device,
uint32_t button)
{
if (device->left_handed.enabled) {
if (button == BTN_LEFT)
return BTN_RIGHT;
else if (button == BTN_RIGHT)
return BTN_LEFT;
}
return button;
}
/**
* Apply a hysteresis filtering to the coordinate in, based on the current
* hysteresis center and the margin. If 'in' is within 'margin' of center,
* return the center (and thus filter the motion). If 'in' is outside,
* return a point on the edge of the new margin (which is an ellipse, usually
* a circle). So for a point x in the space outside c + margin we return r:
* ,---. ,---.
* | c | x → | r x
* `---' `---'
*
* The effect of this is that initial small motions are filtered. Once we
* move into one direction we lag the real coordinates by 'margin' but any
* movement that continues into that direction will always be just outside
* margin - we get responsive movement. Once we move back into the other
* direction, the first movements are filtered again.
*
* Returning the edge rather than the point avoids cursor jumps, as the
* first reachable coordinate is the point next to the center (center + 1).
* Otherwise, the center has a dead zone of size margin around it and the
* first reachable point is the margin edge.
*
* @param in The input coordinate
* @param center Current center of the hysteresis
* @param margin Hysteresis width (on each side)
*
* @return The new center of the hysteresis
*/
static inline struct device_coords
evdev_hysteresis(const struct device_coords *in,
const struct device_coords *center,
const struct device_coords *margin)
{
int dx = in->x - center->x;
int dy = in->y - center->y;
int dx2 = dx * dx;
int dy2 = dy * dy;
int a = margin->x;
int b = margin->y;
double normalized_finger_distance, finger_distance, margin_distance;
double lag_x, lag_y;
struct device_coords result;
if (!a || !b)
return *in;
/*
* Basic equation for an ellipse of radii a,b:
* x²/a² + y²/b² = 1
* But we start by making a scaled ellipse passing through the
* relative finger location (dx,dy). So the scale of this ellipse is
* the ratio of finger_distance to margin_distance:
* dx²/a² + dy²/b² = normalized_finger_distance²
*/
normalized_finger_distance = sqrt((double)dx2 / (a * a) +
(double)dy2 / (b * b));
/* Which means anything less than 1 is within the elliptical margin */
if (normalized_finger_distance < 1.0)
return *center;
finger_distance = sqrt(dx2 + dy2);
margin_distance = finger_distance / normalized_finger_distance;
/*
* Now calculate the x,y coordinates on the edge of the margin ellipse
* where it intersects the finger vector. Shortcut: We achieve this by
* finding the point with the same gradient as dy/dx.
*/
if (dx) {
double gradient = (double)dy / dx;
lag_x = margin_distance / sqrt(gradient * gradient + 1);
lag_y = sqrt((margin_distance + lag_x) *
(margin_distance - lag_x));
} else { /* Infinite gradient */
lag_x = 0.0;
lag_y = margin_distance;
}
/*
* 'result' is the centre of an ellipse (radii a,b) which has been
* dragged by the finger moving inside it to 'in'. The finger is now
* touching the margin ellipse at some point: (±lag_x,±lag_y)
*/
result.x = (dx >= 0) ? in->x - lag_x : in->x + lag_x;
result.y = (dy >= 0) ? in->y - lag_y : in->y + lag_y;
return result;
}
LIBINPUT_ATTRIBUTE_PRINTF(3, 4)
static inline void
evdev_log_msg(struct evdev_device *device,
enum libinput_log_priority priority,
const char *format,
...)
{
va_list args;
char buf[1024];
if (!is_logged(evdev_libinput_context(device), priority))
return;
/* Anything info and above is user-visible, use the device name */
snprintf(buf,
sizeof(buf),
"%-7s - %s%s%s",
evdev_device_get_sysname(device),
(priority > LIBINPUT_LOG_PRIORITY_DEBUG) ? device->log_prefix_name : "",
(priority > LIBINPUT_LOG_PRIORITY_DEBUG) ? ": " : "",
format);
va_start(args, format);
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wformat-nonliteral"
log_msg_va(evdev_libinput_context(device), priority, buf, args);
#pragma GCC diagnostic pop
va_end(args);
}
LIBINPUT_ATTRIBUTE_PRINTF(4, 5)
static inline void
evdev_log_msg_ratelimit(struct evdev_device *device,
struct ratelimit *ratelimit,
enum libinput_log_priority priority,
const char *format,
...)
{
va_list args;
char buf[1024];
enum ratelimit_state state;
if (!is_logged(evdev_libinput_context(device), priority))
return;
state = ratelimit_test(ratelimit);
if (state == RATELIMIT_EXCEEDED)
return;
/* Anything info and above is user-visible, use the device name */
snprintf(buf,
sizeof(buf),
"%-7s - %s%s%s",
evdev_device_get_sysname(device),
(priority > LIBINPUT_LOG_PRIORITY_DEBUG) ? device->log_prefix_name : "",
(priority > LIBINPUT_LOG_PRIORITY_DEBUG) ? ": " : "",
format);
va_start(args, format);
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wformat-nonliteral"
log_msg_va(evdev_libinput_context(device), priority, buf, args);
#pragma GCC diagnostic pop
va_end(args);
if (state == RATELIMIT_THRESHOLD) {
struct human_time ht = to_human_time(ratelimit->interval);
evdev_log_msg(device,
priority,
"WARNING: log rate limit exceeded (%d msgs per %d%s). "
"Discarding future messages.\n",
ratelimit->burst,
ht.value,
ht.unit);
}
}
#define evdev_log_debug(d_, ...) evdev_log_msg((d_), LIBINPUT_LOG_PRIORITY_DEBUG, __VA_ARGS__)
#define evdev_log_info(d_, ...) evdev_log_msg((d_), LIBINPUT_LOG_PRIORITY_INFO, __VA_ARGS__)
#define evdev_log_error(d_, ...) evdev_log_msg((d_), LIBINPUT_LOG_PRIORITY_ERROR, __VA_ARGS__)
#define evdev_log_bug_kernel(d_, ...) evdev_log_msg((d_), LIBINPUT_LOG_PRIORITY_ERROR, "kernel bug: " __VA_ARGS__)
#define evdev_log_bug_libinput(d_, ...) evdev_log_msg((d_), LIBINPUT_LOG_PRIORITY_ERROR, "libinput bug: " __VA_ARGS__)
#define evdev_log_bug_client(d_, ...) evdev_log_msg((d_), LIBINPUT_LOG_PRIORITY_ERROR, "client bug: " __VA_ARGS__)
#define evdev_log_debug_ratelimit(d_, r_, ...) \
evdev_log_msg_ratelimit((d_), (r_), LIBINPUT_LOG_PRIORITY_DEBUG, __VA_ARGS__)
#define evdev_log_info_ratelimit(d_, r_, ...) \
evdev_log_msg_ratelimit((d_), (r_), LIBINPUT_LOG_PRIORITY_INFO, __VA_ARGS__)
#define evdev_log_error_ratelimit(d_, r_, ...) \
evdev_log_msg_ratelimit((d_), (r_), LIBINPUT_LOG_PRIORITY_ERROR, __VA_ARGS__)
#define evdev_log_bug_kernel_ratelimit(d_, r_, ...) \
evdev_log_msg_ratelimit((d_), (r_), LIBINPUT_LOG_PRIORITY_ERROR, "kernel bug: " __VA_ARGS__)
#define evdev_log_bug_libinput_ratelimit(d_, r_, ...) \
evdev_log_msg_ratelimit((d_), (r_), LIBINPUT_LOG_PRIORITY_ERROR, "libinput bug: " __VA_ARGS__)
#define evdev_log_bug_client_ratelimit(d_, r_, ...) \
evdev_log_msg_ratelimit((d_), (r_), LIBINPUT_LOG_PRIORITY_ERROR, "client bug: " __VA_ARGS__)
/**
* Convert the pair of delta coordinates in device space to mm.
*/
static inline struct phys_coords
evdev_device_unit_delta_to_mm(const struct evdev_device* device,
const struct device_coords *units)
{
struct phys_coords mm = { 0, 0 };
const struct input_absinfo *absx, *absy;
if (device->abs.absinfo_x == NULL ||
device->abs.absinfo_y == NULL) {
log_bug_libinput(evdev_libinput_context(device),
"%s: is not an abs device\n",
device->devname);
return mm;
}
absx = device->abs.absinfo_x;
absy = device->abs.absinfo_y;
mm.x = 1.0 * units->x/absx->resolution;
mm.y = 1.0 * units->y/absy->resolution;
return mm;
}
/**
* Convert the pair of coordinates in device space to mm. This takes the
* axis min into account, i.e. a unit of min is equivalent to 0 mm.
*/
static inline struct phys_coords
evdev_device_units_to_mm(const struct evdev_device* device,
const struct device_coords *units)
{
struct phys_coords mm = { 0, 0 };
const struct input_absinfo *absx, *absy;
if (device->abs.absinfo_x == NULL ||
device->abs.absinfo_y == NULL) {
log_bug_libinput(evdev_libinput_context(device),
"%s: is not an abs device\n",
device->devname);
return mm;
}
absx = device->abs.absinfo_x;
absy = device->abs.absinfo_y;
mm.x = (units->x - absx->minimum)/absx->resolution;
mm.y = (units->y - absy->minimum)/absy->resolution;
return mm;
}
/**
* Convert the pair of coordinates in mm to device units. This takes the
* axis min into account, i.e. 0 mm is equivalent to the min.
*/
static inline struct device_coords
evdev_device_mm_to_units(const struct evdev_device *device,
const struct phys_coords *mm)
{
struct device_coords units = { 0, 0 };
const struct input_absinfo *absx, *absy;
if (device->abs.absinfo_x == NULL ||
device->abs.absinfo_y == NULL) {
log_bug_libinput(evdev_libinput_context(device),
"%s: is not an abs device\n",
device->devname);
return units;
}
absx = device->abs.absinfo_x;
absy = device->abs.absinfo_y;
units.x = mm->x * absx->resolution + absx->minimum;
units.y = mm->y * absy->resolution + absy->minimum;
return units;
}
static inline struct device_coord_rect
evdev_phys_rect_to_units(const struct evdev_device *device,
const struct phys_rect *mm)
{
struct device_coord_rect units = {0};
const struct input_absinfo *absx, *absy;
if (device->abs.absinfo_x == NULL ||
device->abs.absinfo_y == NULL) {
log_bug_libinput(evdev_libinput_context(device),
"%s: is not an abs device\n",
device->devname);
return units;
}
absx = device->abs.absinfo_x;
absy = device->abs.absinfo_y;
units.x = mm->x * absx->resolution + absx->minimum;
units.y = mm->y * absy->resolution + absy->minimum;
units.w = mm->w * absx->resolution;
units.h = mm->h * absy->resolution;
return units;
}
static inline void
evdev_device_init_abs_range_warnings(struct evdev_device *device)
{
const struct input_absinfo *x, *y;
int width, height;
x = device->abs.absinfo_x;
y = device->abs.absinfo_y;
width = device->abs.dimensions.x;
height = device->abs.dimensions.y;
device->abs.warning_range.min.x = x->minimum - 0.05 * width;
device->abs.warning_range.min.y = y->minimum - 0.05 * height;
device->abs.warning_range.max.x = x->maximum + 0.05 * width;
device->abs.warning_range.max.y = y->maximum + 0.05 * height;
/* One warning every 5 min is enough */
ratelimit_init(&device->abs.warning_range.range_warn_limit,
s2us(3000),
1);
}
static inline void
evdev_device_check_abs_axis_range(struct evdev_device *device,
unsigned int code,
int value)
{
int min, max;
switch(code) {
case ABS_X:
case ABS_MT_POSITION_X:
min = device->abs.warning_range.min.x;
max = device->abs.warning_range.max.x;
break;
case ABS_Y:
case ABS_MT_POSITION_Y:
min = device->abs.warning_range.min.y;
max = device->abs.warning_range.max.y;
break;
default:
return;
}
if (value < min || value > max) {
log_info_ratelimit(evdev_libinput_context(device),
&device->abs.warning_range.range_warn_limit,
"Axis %#x value %d is outside expected range [%d, %d]\n"
"See %s/absolute_coordinate_ranges.html for details\n",
code, value, min, max,
HTTP_DOC_LINK);
}
}
struct evdev_paired_keyboard {
struct list link;
struct evdev_device *device;
struct libinput_event_listener listener;
};
static inline void
evdev_paired_keyboard_destroy(struct evdev_paired_keyboard *kbd)
{
kbd->device = NULL;
libinput_device_remove_event_listener(&kbd->listener);
list_remove(&kbd->link);
free(kbd);
}
#endif /* EVDEV_H */
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