/*
 * Copyright © 2019 Intel Corporation
 *
 * 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 <fcntl.h>
#include <limits.h>
#include <stdlib.h>
#include <string.h>
#include <sys/ioctl.h>
#include <sys/stat.h>
#include <sys/types.h>
#include <unistd.h>
#include <signal.h>

#include "i915/gem.h"
#include "i915/gem_create.h"
#include "i915/perf.h"
#include "igt.h"
#include "igt_device_scan.h"
#include "igt_kmod.h"
#include "igt_sysfs.h"
#include "sw_sync.h"
/**
 * TEST: core hotunplug
 * Description: Examine behavior of a driver on device hot unplug
 * Category: Core
 * Mega feature: General Core features
 * Sub-category: driver
 * Functionality: device hotplug
 * Feature: SMI, core
 * Test category: functionality test
 *
 * SUBTEST: hotrebind
 * Description: Check if the driver can be cleanly rebound to a device with a
 *		still open hot unbound driver instance
 *
 * SUBTEST: hotrebind-lateclose
 * Description: Check if a hot unbound driver instance still open after hot
 *		rebind can be cleanly released
 *
 * SUBTEST: hotreplug
 * Description: Check if a hot unplugged and still open device can be cleanly
 *		restored
 *
 * SUBTEST: hotreplug-lateclose
 * Description: Check if an instance of a still open while hot replugged device
 *		can be cleanly released
 *
 * SUBTEST: hotunbind-rebind
 * Description: Check if the driver can be cleanly unbound from an open device,
 *		then released and rebound
 *
 * SUBTEST: hotunplug-rescan
 * Description: Check if an open device can be cleanly unplugged, then released
 *		and restored
 *
 * SUBTEST: unbind-rebind
 * Description: Check if the driver can be cleanly unbound from a device
 *		believed to be closed, then rebound
 *
 * SUBTEST: unplug-rescan
 * Description: Check if a device believed to be closed can be cleanly
 *		unplugged, then restored
 */

IGT_TEST_DESCRIPTION("Examine behavior of a driver on device hot unplug");

struct hotunplug {
	struct {
		int drm;
		int drm_hc;	/* for health check */
		int sysfs_dev;
		int sysfs_bus;
		int sysfs_drv;
	} fd;	/* >= 0: valid fd, == -1: closed, < -1: close failed */
	const char *dev_bus_addr;
	const char *failure;
	bool need_healthcheck;
	bool has_intel_perf;
 	char *snd_driver;
	int chipset;
};

/* Helpers */

#define local_debug(fmt, msg...)			       \
({							       \
	igt_debug(fmt, msg);				       \
	igt_kmsg(KMSG_DEBUG "%s: " fmt, igt_test_name(), msg); \
})

/**
 * Subtests must be able to close examined devices completely.  Don't
 * use drm_open_driver() since in case of an i915 device it opens it
 * twice and keeps a second file descriptor open for exit handler use.
 */
static int local_drm_open_driver(bool render, const char *when, const char *why)
{
	int fd_drm;

	local_debug("%sopening %s device%s\n", when, render ? "render" : "DRM",
		    why);

	fd_drm = render ? __drm_open_driver_render(DRIVER_ANY) :
			  __drm_open_driver(DRIVER_ANY);
	igt_assert_fd(fd_drm);

	return fd_drm;
}

static int local_close(int fd, const char *warning)
{
	errno = 0;
	if (igt_warn_on_f(close(fd), "%s\n", warning))
		return -errno;	/* (never -1) */

	return -1;	/* success - return 'closed' */
}

static int close_device(int fd_drm, const char *when, const char *which)
{
	if (fd_drm < 0)	/* not open - return current status */
		return fd_drm;

	local_debug("%sclosing %sdevice instance\n", when, which);
	errno = 0;
	if (igt_warn_on_f(__drm_close_driver(fd_drm), "Device close failed\n"))
		return -errno;	/* (never -1) */

	return -1;	/* success */
}

static int close_sysfs(int fd_sysfs_dev)
{
	if (fd_sysfs_dev < 0)	/* not open - return current status */
		return fd_sysfs_dev;

	return local_close(fd_sysfs_dev, "Device sysfs node close failed");
}

static void prepare(struct hotunplug *priv)
{
	const char *filter = igt_device_filter_get(0), *sysfs_path;

	igt_assert(filter);

	priv->dev_bus_addr = strrchr(filter, '/');
	igt_assert(priv->dev_bus_addr++);

	sysfs_path = strchr(filter, ':');
	igt_assert(sysfs_path++);

	igt_assert_eq(priv->fd.sysfs_dev, -1);
	priv->fd.sysfs_dev = open(sysfs_path, O_DIRECTORY);
	igt_assert_fd(priv->fd.sysfs_dev);

	priv->fd.sysfs_drv = openat(priv->fd.sysfs_dev, "driver", O_DIRECTORY);
	igt_assert_fd(priv->fd.sysfs_drv);

	priv->fd.sysfs_bus = openat(priv->fd.sysfs_dev, "subsystem/devices",
				    O_DIRECTORY);
	igt_assert_fd(priv->fd.sysfs_bus);

	priv->fd.sysfs_dev = close_sysfs(priv->fd.sysfs_dev);
}

/* Unbind the driver from the device */
static void driver_unbind(struct hotunplug *priv, const char *prefix,
			  int timeout)
{
	/*
	 * FIXME: on some devices, the audio driver (snd_hda_intel)
	 * binds into the i915 driver. On such hardware, kernel warnings
	 * and errors may happen if i915 is unbind/removed before removing
	 * first the audio driver.
	 * So, add a logic that unloads the audio driver before trying to
	 * unbind i915 driver, reloading it when binding again.
	 */
	if (igt_audio_driver_unload(&priv->snd_driver)) {
		igt_skip("Audio driver %s in use, skipping test\n",
			 priv->snd_driver);
	} else if (priv->snd_driver) {
		igt_info("Unloaded audio driver %s\n", priv->snd_driver);
	}

	local_debug("%sunbinding the driver from the device\n", prefix);
	priv->failure = "Driver unbind failure!";

	igt_set_timeout(timeout, "Driver unbind timeout!");
	igt_assert_f(igt_sysfs_set(priv->fd.sysfs_drv, "unbind",
				   priv->dev_bus_addr),
		     "Driver unbind failure (%s)!\n", priv->dev_bus_addr);
	igt_reset_timeout();

	igt_assert_f(faccessat(priv->fd.sysfs_drv, priv->dev_bus_addr, F_OK, 0),
		     "Unbound device still present (%s)\n", priv->dev_bus_addr);
}

/* Re-bind the driver to the device */
static void driver_bind(struct hotunplug *priv, int timeout)
{
	local_debug("%s\n", "rebinding the driver to the device");
	priv->failure = "Driver re-bind failure!";

	igt_set_timeout(timeout, "Driver re-bind timeout!");
	igt_assert_f(igt_sysfs_set(priv->fd.sysfs_drv, "bind",
				   priv->dev_bus_addr),
		     "Driver re-bind failure (%s)!\n", priv->dev_bus_addr);
	igt_reset_timeout();

	igt_fail_on_f(faccessat(priv->fd.sysfs_drv, priv->dev_bus_addr,
				F_OK, 0),
		      "Rebound device not present (%s)!\n", priv->dev_bus_addr);

	if (priv->snd_driver) {
		igt_info("Realoading %s\n", priv->snd_driver);
		igt_kmod_load(priv->snd_driver, NULL);
		free(priv->snd_driver);
		priv->snd_driver = NULL;
	}
}

/* Remove (virtually unplug) the device from its bus */
static void device_unplug(struct hotunplug *priv, const char *prefix,
			  int timeout)
{
	igt_require(priv->fd.sysfs_dev == -1);

	/*
	 * FIXME: on some devices, the audio driver (snd_hda_intel)
	 * binds into the i915 driver. On such hardware, kernel warnings
	 * and errors may happen if i915 is unbind/removed before removing
	 * first the audio driver.
	 * So, add a logic that unloads the audio driver before trying to
	 * unbind i915 driver, reloading it when binding again.
	 */
	if (igt_audio_driver_unload(&priv->snd_driver)) {
		igt_skip("Audio driver %s in use, skipping test\n",
			 priv->snd_driver);
	} else if (priv->snd_driver) {
		igt_info("Unloaded audio driver %s\n", priv->snd_driver);
	}

	priv->fd.sysfs_dev = openat(priv->fd.sysfs_bus, priv->dev_bus_addr,
				    O_DIRECTORY);
	igt_assert_fd(priv->fd.sysfs_dev);

	local_debug("%sunplugging the device\n", prefix);
	priv->failure = "Device unplug failure!";

	igt_set_timeout(timeout, "Device unplug timeout!");
	igt_assert_f(igt_sysfs_set(priv->fd.sysfs_dev, "remove", "1"),
		     "Device unplug failure\n!");
	igt_reset_timeout();

	priv->fd.sysfs_dev = close_sysfs(priv->fd.sysfs_dev);
	igt_assert_eq(priv->fd.sysfs_dev, -1);

	igt_assert_f(faccessat(priv->fd.sysfs_bus, priv->dev_bus_addr, F_OK, 0),
		     "Unplugged device still present (%s)\n", priv->dev_bus_addr);
}

/* Re-discover the device by rescanning its bus */
static void bus_rescan(struct hotunplug *priv, int timeout)
{
	local_debug("%s\n", "rediscovering the device");
	priv->failure = "Bus rescan failure!";

	igt_set_timeout(timeout, "Bus rescan timeout!");
	igt_assert_f(igt_sysfs_set(priv->fd.sysfs_bus, "../rescan", "1"),
		       "Bus rescan failure!\n");
	igt_reset_timeout();

	igt_fail_on_f(faccessat(priv->fd.sysfs_bus, priv->dev_bus_addr,
				F_OK, 0),
		      "Fakely unplugged device not rediscovered (%s)!\n", priv->dev_bus_addr);

	if (priv->snd_driver) {
		igt_info("Realoading %s\n", priv->snd_driver);
		igt_kmod_load(priv->snd_driver, NULL);
		free(priv->snd_driver);
		priv->snd_driver = NULL;
	}
}

static void cleanup(struct hotunplug *priv)
{
	priv->fd.drm = close_device(priv->fd.drm, "post ", "exercised ");
	priv->fd.drm_hc = close_device(priv->fd.drm_hc, "post ",
							"health checked ");
	/* pass device close errors to next sections via priv->fd.drm */
	if (priv->fd.drm_hc < -1) {
		priv->fd.drm = priv->fd.drm_hc;
		priv->fd.drm_hc = -1;
	}

	priv->fd.sysfs_dev = close_sysfs(priv->fd.sysfs_dev);
}

static bool local_i915_is_wedged(int i915)
{
	int err = 0;

	if (ioctl(i915, DRM_IOCTL_I915_GEM_THROTTLE))
		err = -errno;
	return err == -EIO;
}

static int merge_fences(int old, int new)
{
	int merge;

	if (new == -1)
		return old;

	if (old == -1)
		return new;

	merge = sync_fence_merge(old, new);
	/* Assume fence close errors don't affect device close status */
	igt_ignore_warn(local_close(old, "old fence close failed"));
	igt_ignore_warn(local_close(new, "new fence close failed"));

	return merge;
}

static int local_i915_healthcheck(int i915, const char *prefix)
{
	const uint32_t bbe = MI_BATCH_BUFFER_END;
	struct drm_i915_gem_exec_object2 obj = { };
	struct drm_i915_gem_execbuffer2 execbuf = {
		.buffers_ptr = to_user_pointer(&obj),
		.buffer_count = 1,
	};
	const struct intel_execution_engine2 *engine;
	const intel_ctx_t *ctx;
	int fence = -1, err = 0, status = 1;

	local_debug("%s%s\n", prefix, "running i915 GPU healthcheck");
	if (igt_warn_on_f(local_i915_is_wedged(i915), "GPU found wedged\n"))
		return -EIO;

	/* Assume gem_create()/gem_write() failures are unrecoverable */
	obj.handle = gem_create(i915, 4096);
	gem_write(i915, obj.handle, 0, &bbe, sizeof(bbe));

	/* As soon as a fence is open, don't fail before closing it */
	ctx = intel_ctx_create_all_physical(i915);
	for_each_ctx_engine(i915, ctx, engine) {
		execbuf.rsvd1 = ctx->id;
		execbuf.flags = engine->flags | I915_EXEC_FENCE_OUT;
		err = __gem_execbuf_wr(i915, &execbuf);
		if (igt_warn_on_f(err < 0, "__gem_execbuf_wr() returned %d\n",
				  err))
			break;

		fence = merge_fences(fence, execbuf.rsvd2 >> 32);
		if (igt_warn_on_f(fence < 0, "merge_fences() returned %d\n",
				  fence)) {
			err = fence;
			break;
		}
	}
	intel_ctx_destroy(i915, ctx);
	if (fence >= 0) {
		status = sync_fence_wait(fence, -1);
		if (igt_warn_on_f(status < 0, "sync_fence_wait() returned %d\n",
				  status))
			err = status;
		if (!err)
			status = sync_fence_status(fence);

		/* Assume fence close errors don't affect device close status */
		igt_ignore_warn(local_close(fence, "fence close failed"));
	}

	/* Assume gem_close() failure is unrecoverable */
	gem_close(i915, obj.handle);

	if (err < 0)
		return err;
	if (igt_warn_on_f(status != 1, "sync_fence_status() returned %d\n",
			  status))
		return -1;

	if (igt_warn_on_f(local_i915_is_wedged(i915), "GPU turned wedged\n"))
		return -EIO;

	return 0;
}

static int local_i915_recover(int i915)
{
	if (!local_i915_healthcheck(i915, "re-"))
		return 0;

	local_debug("%s\n", "forcing i915 GPU reset");
	igt_force_gpu_reset(i915);

	return local_i915_healthcheck(i915, "post-");
}

static bool local_i915_perf_healthcheck(int i915)
{
	struct intel_perf *intel_perf;

	intel_perf = intel_perf_for_fd(i915, 0);
	if (intel_perf)
		intel_perf_free(intel_perf);
	return intel_perf;
}

#define FLAG_RENDER	(1 << 0)
#define FLAG_RECOVER	(1 << 1)
static void node_healthcheck(struct hotunplug *priv, unsigned flags)
{
	bool render = flags & FLAG_RENDER;
	/* preserve potentially dirty device status stored in priv->fd.drm */
	bool closed = priv->fd.drm_hc == -1;
	int fd_drm;

	priv->failure = render ? "Render device reopen failure!" :
				 "DRM device reopen failure!";
	fd_drm = local_drm_open_driver(render, "re", " for health check");
	if (closed)	/* store fd for cleanup if not dirty */
		priv->fd.drm_hc = fd_drm;

	if (priv->chipset == DRIVER_INTEL) {
		/* don't report library failed asserts as healthcheck failure */
		priv->failure = "Unrecoverable test failure";
		if (local_i915_healthcheck(fd_drm, "") &&
		    (!(flags & FLAG_RECOVER) || local_i915_recover(fd_drm)))
			priv->failure = "GPU healthcheck failure!";
		else
			priv->failure = NULL;

	} else {
		/* no device specific healthcheck, rely on reopen result */
		priv->failure = NULL;
	}

	if (!priv->failure) {
		char path[200];

		local_debug("%s\n", "running device sysfs healthcheck");
		priv->failure = "Device sysfs healthcheck failure!";
		if (igt_sysfs_path(fd_drm, path, sizeof(path))) {
			priv->failure = "Device debugfs healthckeck failure!";
			if (igt_debugfs_path(fd_drm, path, sizeof(path)))
				priv->failure = NULL;
		}
	}

	if (!priv->failure && priv->has_intel_perf) {
		local_debug("%s\n", "running i915 device perf healthcheck");
		priv->failure = "Device perf healthckeck failure!";
		if (local_i915_perf_healthcheck(fd_drm))
			priv->failure = NULL;
	}

	fd_drm = close_device(fd_drm, "", "health checked ");
	if (closed || fd_drm < -1)	/* update status for post_healthcheck */
		priv->fd.drm_hc = fd_drm;
}

static bool healthcheck(struct hotunplug *priv, bool recover)
{
	/* give devtmpfs some time to recreate device nodes before we continue */
	sleep(1);

	/* device name may have changed, rebuild IGT device list */
	igt_devices_scan();

	node_healthcheck(priv, recover ? FLAG_RECOVER : 0);
	if (!priv->failure)
		node_healthcheck(priv,
				 FLAG_RENDER | (recover ? FLAG_RECOVER : 0));

	return !priv->failure;
}

static void pre_check(struct hotunplug *priv)
{
	igt_require(priv->fd.drm == -1);

	if (priv->need_healthcheck) {
		igt_require_f(healthcheck(priv, false), "%s\n", priv->failure);
		priv->need_healthcheck = false;

		igt_require(priv->fd.drm_hc == -1);
	}
}

static void recover(struct hotunplug *priv)
{
	bool late_close = priv->fd.drm >= 0;

	cleanup(priv);

	if (!priv->failure && late_close)
		igt_ignore_warn(healthcheck(priv, false));

	/* unbind the driver from a possibly hot rebound unhealthy device */
	if (!faccessat(priv->fd.sysfs_drv, priv->dev_bus_addr, F_OK, 0) &&
	    priv->fd.drm == -1 && priv->fd.drm_hc == -1 && priv->failure)
		driver_unbind(priv, "post ", 60);

	if (faccessat(priv->fd.sysfs_bus, priv->dev_bus_addr, F_OK, 0))
		bus_rescan(priv, 60);

	else if (faccessat(priv->fd.sysfs_drv, priv->dev_bus_addr, F_OK, 0))
		driver_bind(priv, 60);

	if (priv->failure)
		igt_assert_f(healthcheck(priv, true), "%s\n", priv->failure);
}

static void post_healthcheck(struct hotunplug *priv)
{
	igt_abort_on_f(priv->failure, "%s\n", priv->failure);

	cleanup(priv);
}

static void set_filter_from_device(int fd)
{
	const char *filter_type = "sys:";
	char filter[strlen(filter_type) + PATH_MAX + 1];
	char *dst = stpcpy(filter, filter_type);
	char path[PATH_MAX + 1];

	igt_assert(igt_sysfs_path(fd, path, PATH_MAX));
	igt_ignore_warn(strncat(path, "/device", PATH_MAX - strlen(path)));
	igt_assert(realpath(path, dst));

	igt_device_filter_free_all();
	igt_assert_eq(igt_device_filter_add(filter), 1);
}

/* Subtests */

static void unbind_rebind(struct hotunplug *priv)
{
	pre_check(priv);

	driver_unbind(priv, "", 0);

	driver_bind(priv, 0);

	igt_assert_f(healthcheck(priv, false), "%s\n", priv->failure);
}

static void unplug_rescan(struct hotunplug *priv)
{
	pre_check(priv);

	device_unplug(priv, "", 0);

	bus_rescan(priv, 0);

	igt_assert_f(healthcheck(priv, false), "%s\n", priv->failure);
}

static void hotunbind_rebind(struct hotunplug *priv)
{
	pre_check(priv);

	priv->fd.drm = local_drm_open_driver(false, "", " for hot unbind");

	driver_unbind(priv, "hot ", 0);

	priv->fd.drm = close_device(priv->fd.drm, "late ", "unbound ");
	igt_assert_eq(priv->fd.drm, -1);

	driver_bind(priv, 0);

	igt_assert_f(healthcheck(priv, false), "%s\n", priv->failure);
}

static void hotunplug_rescan(struct hotunplug *priv)
{
	pre_check(priv);

	priv->fd.drm = local_drm_open_driver(false, "", " for hot unplug");

	device_unplug(priv, "hot ", 0);

	priv->fd.drm = close_device(priv->fd.drm, "late ", "removed ");
	igt_assert_eq(priv->fd.drm, -1);

	bus_rescan(priv, 0);

	igt_assert_f(healthcheck(priv, false), "%s\n", priv->failure);
}

static void hotrebind(struct hotunplug *priv)
{
	pre_check(priv);

	priv->fd.drm = local_drm_open_driver(false, "", " for hot rebind");

	driver_unbind(priv, "hot ", 60);

	driver_bind(priv, 0);

	igt_assert_f(healthcheck(priv, false), "%s\n", priv->failure);
}

static void hotreplug(struct hotunplug *priv)
{
	pre_check(priv);

	priv->fd.drm = local_drm_open_driver(false, "", " for hot replug");

	device_unplug(priv, "hot ", 60);

	bus_rescan(priv, 0);

	igt_assert_f(healthcheck(priv, false), "%s\n", priv->failure);
}

static void hotrebind_lateclose(struct hotunplug *priv)
{
	pre_check(priv);

	priv->fd.drm = local_drm_open_driver(false, "", " for hot rebind");

	driver_unbind(priv, "hot ", 60);

	driver_bind(priv, 0);

	priv->fd.drm = close_device(priv->fd.drm, "late ", "unbound ");
	igt_assert_eq(priv->fd.drm, -1);

	igt_assert_f(healthcheck(priv, false), "%s\n", priv->failure);
}

static void hotreplug_lateclose(struct hotunplug *priv)
{
	pre_check(priv);

	priv->fd.drm = local_drm_open_driver(false, "", " for hot replug");

	device_unplug(priv, "hot ", 60);

	bus_rescan(priv, 0);

	priv->fd.drm = close_device(priv->fd.drm, "late ", "removed ");
	igt_assert_eq(priv->fd.drm, -1);

	igt_assert_f(healthcheck(priv, false), "%s\n", priv->failure);
}

/* Main */

igt_main
{
	struct hotunplug priv = {
		.fd		= { .drm = -1, .drm_hc = -1, .sysfs_dev = -1, },
		.failure	= NULL,
		.need_healthcheck = true,
		.has_intel_perf = false,
		.snd_driver	= NULL,
		.chipset	= DRIVER_ANY,
	};

	igt_fixture {
		int fd_drm;
		char driver[32] = {};

		fd_drm = __drm_open_driver(DRIVER_ANY);
		igt_skip_on_f(fd_drm < 0, "No known DRM device found\n");

		priv.chipset = drm_get_chipset(fd_drm);
		/* Make sure it opens the same driver */
		__get_drm_device_name(fd_drm, driver, sizeof(driver) - 1);
		__set_forced_driver(driver);
		igt_info("DRM driver: %s\n", driver);

		if (is_i915_device(fd_drm)) {
			gem_quiescent_gpu(fd_drm);
			igt_require_gem(fd_drm);

			priv.has_intel_perf = local_i915_perf_healthcheck(fd_drm);
		}

		/* Make sure subtests always reopen the same device */
		set_filter_from_device(fd_drm);

		igt_assert_eq(close_device(fd_drm, "", "selected "), -1);

		fd_drm = __drm_open_driver_render(priv.chipset);
		igt_skip_on_f(fd_drm < 0, "No known DRM render device found\n");
		igt_assert_eq(close_device(fd_drm, "", "selected render "), -1);

		prepare(&priv);
	}

	igt_subtest_group {
		igt_describe("Check if the driver can be cleanly unbound from a device believed to be closed, then rebound");
		igt_subtest("unbind-rebind")
			unbind_rebind(&priv);

		igt_fixture
			recover(&priv);
	}

	igt_fixture
		post_healthcheck(&priv);

	igt_subtest_group {
		igt_describe("Check if a device believed to be closed can be cleanly unplugged, then restored");
		igt_subtest("unplug-rescan")
			unplug_rescan(&priv);

		igt_fixture
			recover(&priv);
	}

	igt_fixture
		post_healthcheck(&priv);

	igt_subtest_group {
		igt_describe("Check if the driver can be cleanly unbound from an open device, then released and rebound");
		igt_subtest("hotunbind-rebind")
			hotunbind_rebind(&priv);

		igt_fixture
			recover(&priv);
	}

	igt_fixture
		post_healthcheck(&priv);

	igt_subtest_group {
		igt_describe("Check if an open device can be cleanly unplugged, then released and restored");
		igt_subtest("hotunplug-rescan")
			hotunplug_rescan(&priv);

		igt_fixture
			recover(&priv);
	}

	igt_fixture
		post_healthcheck(&priv);

	igt_subtest_group {
		igt_describe("Check if the driver can be cleanly rebound to a device with a still open hot unbound driver instance");
		igt_subtest("hotrebind")
			hotrebind(&priv);

		igt_fixture
			recover(&priv);
	}

	igt_fixture
		post_healthcheck(&priv);

	igt_subtest_group {
		igt_describe("Check if a hot unplugged and still open device can be cleanly restored");
		igt_subtest("hotreplug")
			hotreplug(&priv);

		igt_fixture
			recover(&priv);
	}

	igt_fixture
		post_healthcheck(&priv);

	igt_subtest_group {
		igt_describe("Check if a hot unbound driver instance still open after hot rebind can be cleanly released");
		igt_subtest("hotrebind-lateclose")
			hotrebind_lateclose(&priv);

		igt_fixture
			recover(&priv);
	}

	igt_fixture
		post_healthcheck(&priv);

	igt_subtest_group {
		igt_describe("Check if an instance of a still open while hot replugged device can be cleanly released");
		igt_subtest("hotreplug-lateclose")
			hotreplug_lateclose(&priv);

		igt_fixture
			recover(&priv);
	}

	igt_fixture {
		post_healthcheck(&priv);

		igt_ignore_warn(close(priv.fd.sysfs_bus));
		igt_ignore_warn(close(priv.fd.sysfs_drv));
	}
}