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libinput/test/test-path.c
Peter Hutterer 5d66edc9f4 test: prefix all test source files with "test-" 
They weren't originally prefixed but the various tests were, but now that we
only have one test runner binary anyway, the prefix helps sorting the files
easily within e.g. gcov results.

Signed-off-by: Peter Hutterer <peter.hutterer@who-t.net>
2017-01-16 08:59:00 +10:00

964 lines
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/*
* Copyright © 2013 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.
*/
#include <config.h>
#include <check.h>
#include <errno.h>
#include <fcntl.h>
#include <libinput.h>
#include <stdio.h>
#include <sys/stat.h>
#include <unistd.h>
#include "litest.h"
static int open_func_count = 0;
static int close_func_count = 0;
static int open_restricted(const char *path, int flags, void *data)
{
int fd;
open_func_count++;
fd = open(path, flags);
return fd < 0 ? -errno : fd;
}
static void close_restricted(int fd, void *data)
{
close_func_count++;
close(fd);
}
static const struct libinput_interface simple_interface = {
.open_restricted = open_restricted,
.close_restricted = close_restricted,
};
START_TEST(path_create_NULL)
{
struct libinput *li;
open_func_count = 0;
close_func_count = 0;
li = libinput_path_create_context(NULL, NULL);
ck_assert(li == NULL);
li = libinput_path_create_context(&simple_interface, NULL);
ck_assert(li != NULL);
libinput_unref(li);
ck_assert_int_eq(open_func_count, 0);
ck_assert_int_eq(close_func_count, 0);
open_func_count = 0;
close_func_count = 0;
}
END_TEST
START_TEST(path_create_invalid)
{
struct libinput *li;
struct libinput_device *device;
const char *path = "/tmp";
open_func_count = 0;
close_func_count = 0;
li = libinput_path_create_context(&simple_interface, NULL);
ck_assert(li != NULL);
device = libinput_path_add_device(li, path);
ck_assert(device == NULL);
ck_assert_int_eq(open_func_count, 0);
ck_assert_int_eq(close_func_count, 0);
libinput_unref(li);
ck_assert_int_eq(close_func_count, 0);
open_func_count = 0;
close_func_count = 0;
}
END_TEST
START_TEST(path_create_invalid_kerneldev)
{
struct libinput *li;
struct libinput_device *device;
const char *path = "/dev/uinput";
open_func_count = 0;
close_func_count = 0;
li = libinput_path_create_context(&simple_interface, NULL);
ck_assert(li != NULL);
device = libinput_path_add_device(li, path);
ck_assert(device == NULL);
ck_assert_int_eq(open_func_count, 1);
ck_assert_int_eq(close_func_count, 1);
libinput_unref(li);
ck_assert_int_eq(close_func_count, 1);
open_func_count = 0;
close_func_count = 0;
}
END_TEST
START_TEST(path_create_invalid_file)
{
struct libinput *li;
struct libinput_device *device;
char path[] = "/tmp/litest_path_XXXXXX";
int fd;
umask(002);
fd = mkstemp(path);
ck_assert_int_ge(fd, 0);
close(fd);
open_func_count = 0;
close_func_count = 0;
li = libinput_path_create_context(&simple_interface, NULL);
unlink(path);
ck_assert(li != NULL);
device = libinput_path_add_device(li, path);
ck_assert(device == NULL);
ck_assert_int_eq(open_func_count, 0);
ck_assert_int_eq(close_func_count, 0);
libinput_unref(li);
ck_assert_int_eq(close_func_count, 0);
open_func_count = 0;
close_func_count = 0;
}
END_TEST
START_TEST(path_create_destroy)
{
struct libinput *li;
struct libinput_device *device;
struct libevdev_uinput *uinput;
int rc;
void *userdata = &rc;
uinput = litest_create_uinput_device("test device", NULL,
EV_KEY, BTN_LEFT,
EV_KEY, BTN_RIGHT,
EV_REL, REL_X,
EV_REL, REL_Y,
-1);
li = libinput_path_create_context(&simple_interface, userdata);
ck_assert(li != NULL);
ck_assert(libinput_get_user_data(li) == userdata);
device = libinput_path_add_device(li,
libevdev_uinput_get_devnode(uinput));
ck_assert(device != NULL);
ck_assert_int_eq(open_func_count, 1);
libevdev_uinput_destroy(uinput);
libinput_unref(li);
ck_assert_int_eq(close_func_count, 1);
open_func_count = 0;
close_func_count = 0;
}
END_TEST
START_TEST(path_set_user_data)
{
struct libinput *li;
int data1, data2;
li = libinput_path_create_context(&simple_interface, &data1);
ck_assert(li != NULL);
ck_assert(libinput_get_user_data(li) == &data1);
libinput_set_user_data(li, &data2);
ck_assert(libinput_get_user_data(li) == &data2);
libinput_unref(li);
}
END_TEST
START_TEST(path_added_seat)
{
struct litest_device *dev = litest_current_device();
struct libinput *li = dev->libinput;
struct libinput_event *event;
struct libinput_device *device;
struct libinput_seat *seat;
const char *seat_name;
enum libinput_event_type type;
libinput_dispatch(li);
event = libinput_get_event(li);
ck_assert(event != NULL);
type = libinput_event_get_type(event);
ck_assert_int_eq(type, LIBINPUT_EVENT_DEVICE_ADDED);
device = libinput_event_get_device(event);
seat = libinput_device_get_seat(device);
ck_assert(seat != NULL);
seat_name = libinput_seat_get_logical_name(seat);
ck_assert_str_eq(seat_name, "default");
libinput_event_destroy(event);
}
END_TEST
START_TEST(path_seat_change)
{
struct litest_device *dev = litest_current_device();
struct libinput *li = dev->libinput;
struct libinput_event *event;
struct libinput_device *device;
struct libinput_seat *seat1, *seat2;
const char *seat1_name;
const char *seat2_name = "new seat";
int rc;
libinput_dispatch(li);
event = libinput_get_event(li);
ck_assert_int_eq(libinput_event_get_type(event),
LIBINPUT_EVENT_DEVICE_ADDED);
device = libinput_event_get_device(event);
libinput_device_ref(device);
seat1 = libinput_device_get_seat(device);
libinput_seat_ref(seat1);
seat1_name = libinput_seat_get_logical_name(seat1);
libinput_event_destroy(event);
litest_drain_events(li);
rc = libinput_device_set_seat_logical_name(device,
seat2_name);
ck_assert_int_eq(rc, 0);
libinput_dispatch(li);
event = libinput_get_event(li);
ck_assert(event != NULL);
ck_assert_int_eq(libinput_event_get_type(event),
LIBINPUT_EVENT_DEVICE_REMOVED);
ck_assert(libinput_event_get_device(event) == device);
libinput_event_destroy(event);
event = libinput_get_event(li);
ck_assert(event != NULL);
ck_assert_int_eq(libinput_event_get_type(event),
LIBINPUT_EVENT_DEVICE_ADDED);
ck_assert(libinput_event_get_device(event) != device);
libinput_device_unref(device);
device = libinput_event_get_device(event);
seat2 = libinput_device_get_seat(device);
ck_assert_str_ne(libinput_seat_get_logical_name(seat2),
seat1_name);
ck_assert_str_eq(libinput_seat_get_logical_name(seat2),
seat2_name);
libinput_event_destroy(event);
libinput_seat_unref(seat1);
/* litest: swap the new device in, so cleanup works */
libinput_device_unref(dev->libinput_device);
libinput_device_ref(device);
dev->libinput_device = device;
}
END_TEST
START_TEST(path_added_device)
{
struct litest_device *dev = litest_current_device();
struct libinput *li = dev->libinput;
struct libinput_event *event;
struct libinput_device *device;
libinput_dispatch(li);
while ((event = libinput_get_event(li))) {
enum libinput_event_type type;
type = libinput_event_get_type(event);
if (type == LIBINPUT_EVENT_DEVICE_ADDED) {
break;
}
libinput_event_destroy(event);
}
ck_assert(event != NULL);
device = libinput_event_get_device(event);
ck_assert(device != NULL);
libinput_event_destroy(event);
}
END_TEST
START_TEST(path_add_device)
{
struct litest_device *dev = litest_current_device();
struct libinput *li = dev->libinput;
struct libinput_event *event;
struct libinput_device *device;
const char *sysname1 = NULL, *sysname2 = NULL;
libinput_dispatch(li);
while ((event = libinput_get_event(li))) {
enum libinput_event_type type;
type = libinput_event_get_type(event);
if (type == LIBINPUT_EVENT_DEVICE_ADDED) {
ck_assert(sysname1 == NULL);
device = libinput_event_get_device(event);
ck_assert(device != NULL);
sysname1 = libinput_device_get_sysname(device);
}
libinput_event_destroy(event);
}
device = libinput_path_add_device(li,
libevdev_uinput_get_devnode(dev->uinput));
ck_assert(device != NULL);
libinput_dispatch(li);
while ((event = libinput_get_event(li))) {
enum libinput_event_type type;
type = libinput_event_get_type(event);
if (type == LIBINPUT_EVENT_DEVICE_ADDED) {
ck_assert(sysname2 == NULL);
device = libinput_event_get_device(event);
ck_assert(device != NULL);
sysname2 = libinput_device_get_sysname(device);
}
libinput_event_destroy(event);
}
ck_assert_str_eq(sysname1, sysname2);
libinput_event_destroy(event);
}
END_TEST
START_TEST(path_add_invalid_path)
{
struct libinput *li;
struct libinput_event *event;
struct libinput_device *device;
li = litest_create_context();
litest_disable_log_handler(li);
device = libinput_path_add_device(li, "/tmp/");
litest_restore_log_handler(li);
ck_assert(device == NULL);
libinput_dispatch(li);
while ((event = libinput_get_event(li)))
ck_abort();
libinput_unref(li);
}
END_TEST
START_TEST(path_device_sysname)
{
struct litest_device *dev = litest_current_device();
struct libinput_event *ev;
struct libinput_device *device;
const char *sysname;
libinput_dispatch(dev->libinput);
while ((ev = libinput_get_event(dev->libinput))) {
if (libinput_event_get_type(ev) != LIBINPUT_EVENT_DEVICE_ADDED)
continue;
device = libinput_event_get_device(ev);
sysname = libinput_device_get_sysname(device);
ck_assert(sysname != NULL && strlen(sysname) > 1);
ck_assert(strchr(sysname, '/') == NULL);
ck_assert_int_eq(strncmp(sysname, "event", 5), 0);
libinput_event_destroy(ev);
}
}
END_TEST
START_TEST(path_remove_device)
{
struct litest_device *dev = litest_current_device();
struct libinput *li = dev->libinput;
struct libinput_event *event;
struct libinput_device *device;
int remove_event = 0;
device = libinput_path_add_device(li,
libevdev_uinput_get_devnode(dev->uinput));
ck_assert(device != NULL);
litest_drain_events(li);
libinput_path_remove_device(device);
libinput_dispatch(li);
while ((event = libinput_get_event(li))) {
enum libinput_event_type type;
type = libinput_event_get_type(event);
if (type == LIBINPUT_EVENT_DEVICE_REMOVED)
remove_event++;
libinput_event_destroy(event);
}
ck_assert_int_eq(remove_event, 1);
}
END_TEST
START_TEST(path_double_remove_device)
{
struct litest_device *dev = litest_current_device();
struct libinput *li = dev->libinput;
struct libinput_event *event;
struct libinput_device *device;
int remove_event = 0;
device = libinput_path_add_device(li,
libevdev_uinput_get_devnode(dev->uinput));
ck_assert(device != NULL);
litest_drain_events(li);
libinput_path_remove_device(device);
libinput_path_remove_device(device);
libinput_dispatch(li);
while ((event = libinput_get_event(li))) {
enum libinput_event_type type;
type = libinput_event_get_type(event);
if (type == LIBINPUT_EVENT_DEVICE_REMOVED)
remove_event++;
libinput_event_destroy(event);
}
ck_assert_int_eq(remove_event, 1);
}
END_TEST
START_TEST(path_suspend)
{
struct libinput *li;
struct libinput_device *device;
struct libevdev_uinput *uinput;
int rc;
void *userdata = &rc;
uinput = litest_create_uinput_device("test device", NULL,
EV_KEY, BTN_LEFT,
EV_KEY, BTN_RIGHT,
EV_REL, REL_X,
EV_REL, REL_Y,
-1);
li = libinput_path_create_context(&simple_interface, userdata);
ck_assert(li != NULL);
device = libinput_path_add_device(li,
libevdev_uinput_get_devnode(uinput));
ck_assert(device != NULL);
libinput_suspend(li);
libinput_resume(li);
libevdev_uinput_destroy(uinput);
libinput_unref(li);
open_func_count = 0;
close_func_count = 0;
}
END_TEST
START_TEST(path_double_suspend)
{
struct libinput *li;
struct libinput_device *device;
struct libevdev_uinput *uinput;
int rc;
void *userdata = &rc;
uinput = litest_create_uinput_device("test device", NULL,
EV_KEY, BTN_LEFT,
EV_KEY, BTN_RIGHT,
EV_REL, REL_X,
EV_REL, REL_Y,
-1);
li = libinput_path_create_context(&simple_interface, userdata);
ck_assert(li != NULL);
device = libinput_path_add_device(li,
libevdev_uinput_get_devnode(uinput));
ck_assert(device != NULL);
libinput_suspend(li);
libinput_suspend(li);
libinput_resume(li);
libevdev_uinput_destroy(uinput);
libinput_unref(li);
open_func_count = 0;
close_func_count = 0;
}
END_TEST
START_TEST(path_double_resume)
{
struct libinput *li;
struct libinput_device *device;
struct libevdev_uinput *uinput;
int rc;
void *userdata = &rc;
uinput = litest_create_uinput_device("test device", NULL,
EV_KEY, BTN_LEFT,
EV_KEY, BTN_RIGHT,
EV_REL, REL_X,
EV_REL, REL_Y,
-1);
li = libinput_path_create_context(&simple_interface, userdata);
ck_assert(li != NULL);
device = libinput_path_add_device(li,
libevdev_uinput_get_devnode(uinput));
ck_assert(device != NULL);
libinput_suspend(li);
libinput_resume(li);
libinput_resume(li);
libevdev_uinput_destroy(uinput);
libinput_unref(li);
open_func_count = 0;
close_func_count = 0;
}
END_TEST
START_TEST(path_add_device_suspend_resume)
{
struct libinput *li;
struct libinput_device *device;
struct libinput_event *event;
struct libevdev_uinput *uinput1, *uinput2;
int rc;
int nevents;
void *userdata = &rc;
uinput1 = litest_create_uinput_device("test device", NULL,
EV_KEY, BTN_LEFT,
EV_KEY, BTN_RIGHT,
EV_REL, REL_X,
EV_REL, REL_Y,
-1);
uinput2 = litest_create_uinput_device("test device 2", NULL,
EV_KEY, BTN_LEFT,
EV_KEY, BTN_RIGHT,
EV_REL, REL_X,
EV_REL, REL_Y,
-1);
li = libinput_path_create_context(&simple_interface, userdata);
ck_assert(li != NULL);
device = libinput_path_add_device(li,
libevdev_uinput_get_devnode(uinput1));
ck_assert(device != NULL);
device = libinput_path_add_device(li,
libevdev_uinput_get_devnode(uinput2));
libinput_dispatch(li);
nevents = 0;
while ((event = libinput_get_event(li))) {
enum libinput_event_type type;
type = libinput_event_get_type(event);
ck_assert_int_eq(type, LIBINPUT_EVENT_DEVICE_ADDED);
libinput_event_destroy(event);
nevents++;
}
ck_assert_int_eq(nevents, 2);
libinput_suspend(li);
libinput_dispatch(li);
nevents = 0;
while ((event = libinput_get_event(li))) {
enum libinput_event_type type;
type = libinput_event_get_type(event);
ck_assert_int_eq(type, LIBINPUT_EVENT_DEVICE_REMOVED);
libinput_event_destroy(event);
nevents++;
}
ck_assert_int_eq(nevents, 2);
libinput_resume(li);
libinput_dispatch(li);
nevents = 0;
while ((event = libinput_get_event(li))) {
enum libinput_event_type type;
type = libinput_event_get_type(event);
ck_assert_int_eq(type, LIBINPUT_EVENT_DEVICE_ADDED);
libinput_event_destroy(event);
nevents++;
}
ck_assert_int_eq(nevents, 2);
libevdev_uinput_destroy(uinput1);
libevdev_uinput_destroy(uinput2);
libinput_unref(li);
open_func_count = 0;
close_func_count = 0;
}
END_TEST
START_TEST(path_add_device_suspend_resume_fail)
{
struct libinput *li;
struct libinput_device *device;
struct libinput_event *event;
struct libevdev_uinput *uinput1, *uinput2;
int rc;
int nevents;
void *userdata = &rc;
uinput1 = litest_create_uinput_device("test device", NULL,
EV_KEY, BTN_LEFT,
EV_KEY, BTN_RIGHT,
EV_REL, REL_X,
EV_REL, REL_Y,
-1);
uinput2 = litest_create_uinput_device("test device 2", NULL,
EV_KEY, BTN_LEFT,
EV_KEY, BTN_RIGHT,
EV_REL, REL_X,
EV_REL, REL_Y,
-1);
li = libinput_path_create_context(&simple_interface, userdata);
ck_assert(li != NULL);
device = libinput_path_add_device(li,
libevdev_uinput_get_devnode(uinput1));
ck_assert(device != NULL);
device = libinput_path_add_device(li,
libevdev_uinput_get_devnode(uinput2));
ck_assert(device != NULL);
libinput_dispatch(li);
nevents = 0;
while ((event = libinput_get_event(li))) {
enum libinput_event_type type;
type = libinput_event_get_type(event);
ck_assert_int_eq(type, LIBINPUT_EVENT_DEVICE_ADDED);
libinput_event_destroy(event);
nevents++;
}
ck_assert_int_eq(nevents, 2);
libinput_suspend(li);
libinput_dispatch(li);
nevents = 0;
while ((event = libinput_get_event(li))) {
enum libinput_event_type type;
type = libinput_event_get_type(event);
ck_assert_int_eq(type, LIBINPUT_EVENT_DEVICE_REMOVED);
libinput_event_destroy(event);
nevents++;
}
ck_assert_int_eq(nevents, 2);
/* now drop one of the devices */
libevdev_uinput_destroy(uinput1);
rc = libinput_resume(li);
ck_assert_int_eq(rc, -1);
libinput_dispatch(li);
nevents = 0;
while ((event = libinput_get_event(li))) {
enum libinput_event_type type;
type = libinput_event_get_type(event);
/* We expect one device being added, second one fails,
* causing a removed event for the first one */
if (type != LIBINPUT_EVENT_DEVICE_ADDED &&
type != LIBINPUT_EVENT_DEVICE_REMOVED)
ck_abort();
libinput_event_destroy(event);
nevents++;
}
ck_assert_int_eq(nevents, 2);
libevdev_uinput_destroy(uinput2);
libinput_unref(li);
open_func_count = 0;
close_func_count = 0;
}
END_TEST
START_TEST(path_add_device_suspend_resume_remove_device)
{
struct libinput *li;
struct libinput_device *device;
struct libinput_event *event;
struct libevdev_uinput *uinput1, *uinput2;
int rc;
int nevents;
void *userdata = &rc;
uinput1 = litest_create_uinput_device("test device", NULL,
EV_KEY, BTN_LEFT,
EV_KEY, BTN_RIGHT,
EV_REL, REL_X,
EV_REL, REL_Y,
-1);
uinput2 = litest_create_uinput_device("test device 2", NULL,
EV_KEY, BTN_LEFT,
EV_KEY, BTN_RIGHT,
EV_REL, REL_X,
EV_REL, REL_Y,
-1);
li = libinput_path_create_context(&simple_interface, userdata);
ck_assert(li != NULL);
device = libinput_path_add_device(li,
libevdev_uinput_get_devnode(uinput1));
ck_assert(device != NULL);
device = libinput_path_add_device(li,
libevdev_uinput_get_devnode(uinput2));
libinput_device_ref(device);
libinput_dispatch(li);
nevents = 0;
while ((event = libinput_get_event(li))) {
enum libinput_event_type type;
type = libinput_event_get_type(event);
ck_assert_int_eq(type, LIBINPUT_EVENT_DEVICE_ADDED);
libinput_event_destroy(event);
nevents++;
}
ck_assert_int_eq(nevents, 2);
libinput_suspend(li);
libinput_dispatch(li);
nevents = 0;
while ((event = libinput_get_event(li))) {
enum libinput_event_type type;
type = libinput_event_get_type(event);
ck_assert_int_eq(type, LIBINPUT_EVENT_DEVICE_REMOVED);
libinput_event_destroy(event);
nevents++;
}
ck_assert_int_eq(nevents, 2);
/* now drop and remove one of the devices */
libevdev_uinput_destroy(uinput2);
libinput_path_remove_device(device);
libinput_device_unref(device);
rc = libinput_resume(li);
ck_assert_int_eq(rc, 0);
libinput_dispatch(li);
nevents = 0;
while ((event = libinput_get_event(li))) {
enum libinput_event_type type;
type = libinput_event_get_type(event);
ck_assert_int_eq(type, LIBINPUT_EVENT_DEVICE_ADDED);
libinput_event_destroy(event);
nevents++;
}
ck_assert_int_eq(nevents, 1);
libevdev_uinput_destroy(uinput1);
libinput_unref(li);
open_func_count = 0;
close_func_count = 0;
}
END_TEST
START_TEST(path_seat_recycle)
{
struct libinput *li;
struct libevdev_uinput *uinput;
int rc;
void *userdata = &rc;
struct libinput_event *ev;
struct libinput_device *device;
struct libinput_seat *saved_seat = NULL;
struct libinput_seat *seat;
int data = 0;
int found = 0;
void *user_data;
uinput = litest_create_uinput_device("test device", NULL,
EV_KEY, BTN_LEFT,
EV_KEY, BTN_RIGHT,
EV_REL, REL_X,
EV_REL, REL_Y,
-1);
li = libinput_path_create_context(&simple_interface, userdata);
ck_assert(li != NULL);
device = libinput_path_add_device(li,
libevdev_uinput_get_devnode(uinput));
ck_assert(device != NULL);
libinput_dispatch(li);
while ((ev = libinput_get_event(li))) {
switch (libinput_event_get_type(ev)) {
case LIBINPUT_EVENT_DEVICE_ADDED:
if (saved_seat)
break;
device = libinput_event_get_device(ev);
ck_assert(device != NULL);
saved_seat = libinput_device_get_seat(device);
libinput_seat_set_user_data(saved_seat, &data);
libinput_seat_ref(saved_seat);
break;
default:
break;
}
libinput_event_destroy(ev);
}
ck_assert(saved_seat != NULL);
libinput_suspend(li);
litest_drain_events(li);
libinput_resume(li);
libinput_dispatch(li);
while ((ev = libinput_get_event(li))) {
switch (libinput_event_get_type(ev)) {
case LIBINPUT_EVENT_DEVICE_ADDED:
device = libinput_event_get_device(ev);
ck_assert(device != NULL);
seat = libinput_device_get_seat(device);
user_data = libinput_seat_get_user_data(seat);
if (user_data == &data) {
found = 1;
ck_assert(seat == saved_seat);
}
break;
default:
break;
}
libinput_event_destroy(ev);
}
ck_assert(found == 1);
libinput_unref(li);
libevdev_uinput_destroy(uinput);
}
END_TEST
void
litest_setup_tests_path(void)
{
litest_add_no_device("path:create", path_create_NULL);
litest_add_no_device("path:create", path_create_invalid);
litest_add_no_device("path:create", path_create_invalid_file);
litest_add_no_device("path:create", path_create_invalid_kerneldev);
litest_add_no_device("path:create", path_create_destroy);
litest_add_no_device("path:create", path_set_user_data);
litest_add_no_device("path:suspend", path_suspend);
litest_add_no_device("path:suspend", path_double_suspend);
litest_add_no_device("path:suspend", path_double_resume);
litest_add_no_device("path:suspend", path_add_device_suspend_resume);
litest_add_no_device("path:suspend", path_add_device_suspend_resume_fail);
litest_add_no_device("path:suspend", path_add_device_suspend_resume_remove_device);
litest_add_for_device("path:seat", path_added_seat, LITEST_SYNAPTICS_CLICKPAD_X220);
litest_add_for_device("path:seat", path_seat_change, LITEST_SYNAPTICS_CLICKPAD_X220);
litest_add("path:device events", path_added_device, LITEST_ANY, LITEST_ANY);
litest_add("path:device events", path_device_sysname, LITEST_ANY, LITEST_ANY);
litest_add_for_device("path:device events", path_add_device, LITEST_SYNAPTICS_CLICKPAD_X220);
litest_add_no_device("path:device events", path_add_invalid_path);
litest_add_for_device("path:device events", path_remove_device, LITEST_SYNAPTICS_CLICKPAD_X220);
litest_add_for_device("path:device events", path_double_remove_device, LITEST_SYNAPTICS_CLICKPAD_X220);
litest_add_no_device("path:seat", path_seat_recycle);
}
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