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/*
* Copyright © 2013 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.
*
* Authors:
* Paulo Zanoni <paulo.r.zanoni@intel.com>
*
*/
#include <stdio.h>
#include <stdint.h>
#include <stdbool.h>
#include <string.h>
#include <unistd.h>
#include <fcntl.h>
#include <dirent.h>
#include <sys/ioctl.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <linux/i2c.h>
#include <linux/i2c-dev.h>
#include "drm.h"
#include "drmtest.h"
#include "intel_batchbuffer.h"
#include "intel_gpu_tools.h"
#include "i915_drm.h"
#define MSR_PC8_RES 0x630
#define MSR_PC9_RES 0x631
#define MSR_PC10_RES 0x632
#define MAX_CONNECTORS 32
#define MAX_ENCODERS 32
#define MAX_CRTCS 16
enum screen_type {
SCREEN_TYPE_LPSP,
SCREEN_TYPE_NON_LPSP,
SCREEN_TYPE_ANY,
};
enum residency_wait {
WAIT,
DONT_WAIT,
};
int drm_fd, msr_fd;
struct mode_set_data ms_data;
/* Stuff used when creating FBs and mode setting. */
struct mode_set_data {
drmModeResPtr res;
drmModeConnectorPtr connectors[MAX_CONNECTORS];
drmModePropertyBlobPtr edids[MAX_CONNECTORS];
drm_intel_bufmgr *bufmgr;
uint32_t devid;
};
/* Stuff we query at different times so we can compare. */
struct compare_data {
drmModeResPtr res;
drmModeEncoderPtr encoders[MAX_ENCODERS];
drmModeConnectorPtr connectors[MAX_CONNECTORS];
drmModeCrtcPtr crtcs[MAX_CRTCS];
drmModePropertyBlobPtr edids[MAX_CONNECTORS];
};
struct compare_registers {
/* We know these are lost */
uint32_t arb_mode;
uint32_t tilectl;
/* Stuff touched at init_clock_gating, so we can make sure we
* don't need to call it when reiniting. */
uint32_t gen6_ucgctl2;
uint32_t gen7_l3cntlreg1;
uint32_t transa_chicken1;
uint32_t deier;
uint32_t gtier;
uint32_t ddi_buf_trans_a_1;
uint32_t ddi_buf_trans_b_5;
uint32_t ddi_buf_trans_c_10;
uint32_t ddi_buf_trans_d_15;
uint32_t ddi_buf_trans_e_20;
};
/* If the read fails, then the machine doesn't support PC8+ residencies. */
static bool supports_pc8_plus_residencies(void)
{
int rc;
uint64_t val;
rc = pread(msr_fd, &val, sizeof(uint64_t), MSR_PC8_RES);
if (rc != sizeof(val))
return false;
rc = pread(msr_fd, &val, sizeof(uint64_t), MSR_PC9_RES);
if (rc != sizeof(val))
return false;
rc = pread(msr_fd, &val, sizeof(uint64_t), MSR_PC10_RES);
if (rc != sizeof(val))
return false;
return true;
}
static uint64_t get_residency(uint32_t type)
{
int rc;
uint64_t ret;
rc = pread(msr_fd, &ret, sizeof(uint64_t), type);
igt_assert(rc == sizeof(ret));
return ret;
}
static bool pc8_plus_residency_changed(unsigned int timeout_sec)
{
unsigned int i;
uint64_t res_pc8, res_pc9, res_pc10;
int to_sleep = 100 * 1000;
res_pc8 = get_residency(MSR_PC8_RES);
res_pc9 = get_residency(MSR_PC9_RES);
res_pc10 = get_residency(MSR_PC10_RES);
for (i = 0; i < timeout_sec * 1000 * 1000; i += to_sleep) {
if (res_pc8 != get_residency(MSR_PC8_RES) ||
res_pc9 != get_residency(MSR_PC9_RES) ||
res_pc10 != get_residency(MSR_PC10_RES)) {
return true;
}
usleep(to_sleep);
}
return false;
}
/* Checks not only if PC8+ is allowed, but also if we're reaching it.
* We call this when we expect this function to return quickly since PC8 is
* actually enabled, so the 30s timeout we use shouldn't matter. */
static bool pc8_plus_enabled(void)
{
return pc8_plus_residency_changed(30);
}
/* We call this when we expect PC8+ to be actually disabled, so we should not
* return until the 5s timeout expires. In other words: in the "happy case",
* every time we call this function the program will take 5s more to finish. */
static bool pc8_plus_disabled(void)
{
return !pc8_plus_residency_changed(5);
}
static void disable_all_screens(struct mode_set_data *data)
{
int i, rc;
for (i = 0; i < data->res->count_crtcs; i++) {
rc = drmModeSetCrtc(drm_fd, data->res->crtcs[i], -1, 0, 0,
NULL, 0, NULL);
igt_assert(rc == 0);
}
}
static uint32_t create_fb(struct mode_set_data *data, int width, int height)
{
struct kmstest_fb fb;
cairo_t *cr;
uint32_t buffer_id;
buffer_id = kmstest_create_fb(drm_fd, width, height, 32, 24, false,
&fb);
cr = kmstest_get_cairo_ctx(drm_fd, &fb);
kmstest_paint_test_pattern(cr, width, height);
return buffer_id;
}
static bool enable_one_screen_with_type(struct mode_set_data *data,
enum screen_type type)
{
uint32_t crtc_id = 0, buffer_id = 0, connector_id = 0;
drmModeModeInfoPtr mode = NULL;
int i, rc;
for (i = 0; i < data->res->count_connectors; i++) {
drmModeConnectorPtr c = data->connectors[i];
if (type == SCREEN_TYPE_LPSP &&
c->connector_type != DRM_MODE_CONNECTOR_eDP)
continue;
if (type == SCREEN_TYPE_NON_LPSP &&
c->connector_type == DRM_MODE_CONNECTOR_eDP)
continue;
if (c->connection == DRM_MODE_CONNECTED && c->count_modes) {
connector_id = c->connector_id;
mode = &c->modes[0];
break;
}
}
if (connector_id == 0)
return false;
crtc_id = data->res->crtcs[0];
buffer_id = create_fb(data, mode->hdisplay, mode->vdisplay);
igt_assert(crtc_id);
igt_assert(buffer_id);
igt_assert(connector_id);
igt_assert(mode);
rc = drmModeSetCrtc(drm_fd, crtc_id, buffer_id, 0, 0, &connector_id,
1, mode);
igt_assert(rc == 0);
return true;
}
static void enable_one_screen(struct mode_set_data *data)
{
igt_assert(enable_one_screen_with_type(data, SCREEN_TYPE_ANY));
}
static drmModePropertyBlobPtr get_connector_edid(drmModeConnectorPtr connector,
int index)
{
unsigned int i;
drmModeObjectPropertiesPtr props;
drmModePropertyBlobPtr ret = NULL;
props = drmModeObjectGetProperties(drm_fd, connector->connector_id,
DRM_MODE_OBJECT_CONNECTOR);
for (i = 0; i < props->count_props; i++) {
drmModePropertyPtr prop = drmModeGetProperty(drm_fd,
props->props[i]);
if (strcmp(prop->name, "EDID") == 0) {
igt_assert(prop->flags & DRM_MODE_PROP_BLOB);
igt_assert(prop->count_blobs == 0);
ret = drmModeGetPropertyBlob(drm_fd,
props->prop_values[i]);
}
drmModeFreeProperty(prop);
}
drmModeFreeObjectProperties(props);
return ret;
}
static void init_mode_set_data(struct mode_set_data *data)
{
int i;
data->res = drmModeGetResources(drm_fd);
igt_assert(data->res);
igt_assert(data->res->count_connectors <= MAX_CONNECTORS);
for (i = 0; i < data->res->count_connectors; i++) {
data->connectors[i] = drmModeGetConnector(drm_fd,
data->res->connectors[i]);
data->edids[i] = get_connector_edid(data->connectors[i], i);
}
data->bufmgr = drm_intel_bufmgr_gem_init(drm_fd, 4096);
data->devid = intel_get_drm_devid(drm_fd);
do_or_die(igt_set_vt_graphics_mode());
drm_intel_bufmgr_gem_enable_reuse(data->bufmgr);
}
static void fini_mode_set_data(struct mode_set_data *data)
{
int i;
drm_intel_bufmgr_destroy(data->bufmgr);
for (i = 0; i < data->res->count_connectors; i++) {
drmModeFreeConnector(data->connectors[i]);
drmModeFreePropertyBlob(data->edids[i]);
}
drmModeFreeResources(data->res);
}
static void get_drm_info(struct compare_data *data)
{
int i;
data->res = drmModeGetResources(drm_fd);
igt_assert(data->res);
igt_assert(data->res->count_connectors <= MAX_CONNECTORS);
igt_assert(data->res->count_encoders <= MAX_ENCODERS);
igt_assert(data->res->count_crtcs <= MAX_CRTCS);
for (i = 0; i < data->res->count_connectors; i++) {
data->connectors[i] = drmModeGetConnector(drm_fd,
data->res->connectors[i]);
data->edids[i] = get_connector_edid(data->connectors[i], i);
}
for (i = 0; i < data->res->count_encoders; i++)
data->encoders[i] = drmModeGetEncoder(drm_fd,
data->res->encoders[i]);
for (i = 0; i < data->res->count_crtcs; i++)
data->crtcs[i] = drmModeGetCrtc(drm_fd, data->res->crtcs[i]);
}
static void get_registers(struct compare_registers *data)
{
intel_register_access_init(intel_get_pci_device(), 0);
data->arb_mode = INREG(0x4030);
data->tilectl = INREG(0x101000);
data->gen6_ucgctl2 = INREG(0x9404);
data->gen7_l3cntlreg1 = INREG(0xB0C1);
data->transa_chicken1 = INREG(0xF0060);
data->deier = INREG(0x4400C);
data->gtier = INREG(0x4401C);
data->ddi_buf_trans_a_1 = INREG(0x64E00);
data->ddi_buf_trans_b_5 = INREG(0x64E70);
data->ddi_buf_trans_c_10 = INREG(0x64EE0);
data->ddi_buf_trans_d_15 = INREG(0x64F58);
data->ddi_buf_trans_e_20 = INREG(0x64FCC);
intel_register_access_fini();
}
static void free_drm_info(struct compare_data *data)
{
int i;
for (i = 0; i < data->res->count_connectors; i++) {
drmModeFreeConnector(data->connectors[i]);
drmModeFreePropertyBlob(data->edids[i]);
}
for (i = 0; i < data->res->count_encoders; i++)
drmModeFreeEncoder(data->encoders[i]);
for (i = 0; i < data->res->count_crtcs; i++)
drmModeFreeCrtc(data->crtcs[i]);
drmModeFreeResources(data->res);
}
#define COMPARE(d1, d2, data) igt_assert(d1->data == d2->data)
#define COMPARE_ARRAY(d1, d2, size, data) do { \
for (i = 0; i < size; i++) \
igt_assert(d1->data[i] == d2->data[i]); \
} while (0)
static void assert_drm_resources_equal(struct compare_data *d1,
struct compare_data *d2)
{
COMPARE(d1, d2, res->count_connectors);
COMPARE(d1, d2, res->count_encoders);
COMPARE(d1, d2, res->count_crtcs);
COMPARE(d1, d2, res->min_width);
COMPARE(d1, d2, res->max_width);
COMPARE(d1, d2, res->min_height);
COMPARE(d1, d2, res->max_height);
}
static void assert_modes_equal(drmModeModeInfoPtr m1, drmModeModeInfoPtr m2)
{
COMPARE(m1, m2, clock);
COMPARE(m1, m2, hdisplay);
COMPARE(m1, m2, hsync_start);
COMPARE(m1, m2, hsync_end);
COMPARE(m1, m2, htotal);
COMPARE(m1, m2, hskew);
COMPARE(m1, m2, vdisplay);
COMPARE(m1, m2, vsync_start);
COMPARE(m1, m2, vsync_end);
COMPARE(m1, m2, vtotal);
COMPARE(m1, m2, vscan);
COMPARE(m1, m2, vrefresh);
COMPARE(m1, m2, flags);
COMPARE(m1, m2, type);
igt_assert(strcmp(m1->name, m2->name) == 0);
}
static void assert_drm_connectors_equal(drmModeConnectorPtr c1,
drmModeConnectorPtr c2)
{
int i;
COMPARE(c1, c2, connector_id);
COMPARE(c1, c2, connector_type);
COMPARE(c1, c2, connector_type_id);
COMPARE(c1, c2, mmWidth);
COMPARE(c1, c2, mmHeight);
COMPARE(c1, c2, count_modes);
COMPARE(c1, c2, count_props);
COMPARE(c1, c2, count_encoders);
COMPARE_ARRAY(c1, c2, c1->count_props, props);
COMPARE_ARRAY(c1, c2, c1->count_encoders, encoders);
for (i = 0; i < c1->count_modes; i++)
assert_modes_equal(&c1->modes[0], &c2->modes[0]);
}
static void assert_drm_encoders_equal(drmModeEncoderPtr e1,
drmModeEncoderPtr e2)
{
COMPARE(e1, e2, encoder_id);
COMPARE(e1, e2, encoder_type);
COMPARE(e1, e2, possible_crtcs);
COMPARE(e1, e2, possible_clones);
}
static void assert_drm_crtcs_equal(drmModeCrtcPtr c1, drmModeCrtcPtr c2)
{
COMPARE(c1, c2, crtc_id);
}
static void assert_drm_edids_equal(drmModePropertyBlobPtr e1,
drmModePropertyBlobPtr e2)
{
if (!e1 && !e2)
return;
igt_assert(e1 && e2);
COMPARE(e1, e2, id);
COMPARE(e1, e2, length);
igt_assert(memcmp(e1->data, e2->data, e1->length) == 0);
}
static void compare_registers(struct compare_registers *d1,
struct compare_registers *d2)
{
COMPARE(d1, d2, gen6_ucgctl2);
COMPARE(d1, d2, gen7_l3cntlreg1);
COMPARE(d1, d2, transa_chicken1);
COMPARE(d1, d2, arb_mode);
COMPARE(d1, d2, tilectl);
COMPARE(d1, d2, arb_mode);
COMPARE(d1, d2, tilectl);
COMPARE(d1, d2, gtier);
COMPARE(d1, d2, ddi_buf_trans_a_1);
COMPARE(d1, d2, ddi_buf_trans_b_5);
COMPARE(d1, d2, ddi_buf_trans_c_10);
COMPARE(d1, d2, ddi_buf_trans_d_15);
COMPARE(d1, d2, ddi_buf_trans_e_20);
}
static void assert_drm_infos_equal(struct compare_data *d1,
struct compare_data *d2)
{
int i;
assert_drm_resources_equal(d1, d2);
for (i = 0; i < d1->res->count_connectors; i++) {
assert_drm_connectors_equal(d1->connectors[i],
d2->connectors[i]);
assert_drm_edids_equal(d1->edids[i], d2->edids[i]);
}
for (i = 0; i < d1->res->count_encoders; i++)
assert_drm_encoders_equal(d1->encoders[i], d2->encoders[i]);
for (i = 0; i < d1->res->count_crtcs; i++)
assert_drm_crtcs_equal(d1->crtcs[i], d2->crtcs[i]);
}
static void blt_color_fill(struct intel_batchbuffer *batch,
drm_intel_bo *buf,
const unsigned int pages)
{
const unsigned short height = pages/4;
const unsigned short width = 4096;
BEGIN_BATCH(5);
OUT_BATCH(COLOR_BLT_CMD | COLOR_BLT_WRITE_ALPHA | COLOR_BLT_WRITE_RGB);
OUT_BATCH((3 << 24) | /* 32 Bit Color */
0xF0 | /* Raster OP copy background register */
0); /* Dest pitch is 0 */
OUT_BATCH(width << 16 | height);
OUT_RELOC(buf, I915_GEM_DOMAIN_RENDER, I915_GEM_DOMAIN_RENDER, 0);
OUT_BATCH(rand()); /* random pattern */
ADVANCE_BATCH();
}
static void test_batch(struct mode_set_data *data)
{
struct intel_batchbuffer *batch;
int64_t timeout_ns = 1000 * 1000 * 1000 * 2;
drm_intel_bo *dst;
int i, rc;
dst = drm_intel_bo_alloc(data->bufmgr, "dst", (8 << 20), 4096);
batch = intel_batchbuffer_alloc(data->bufmgr,
intel_get_drm_devid(drm_fd));
for (i = 0; i < 1000; i++)
blt_color_fill(batch, dst, ((8 << 20) >> 12));
rc = drm_intel_gem_bo_wait(dst, timeout_ns);
igt_assert(!rc);
intel_batchbuffer_free(batch);
}
/* We could check the checksum too, but just the header is probably enough. */
static bool edid_is_valid(const unsigned char *edid)
{
char edid_header[] = {
0x0, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x0,
};
return (memcmp(edid, edid_header, sizeof(edid_header)) == 0);
}
static int count_drm_valid_edids(struct mode_set_data *data)
{
int i, ret = 0;
for (i = 0; i < data->res->count_connectors; i++)
if (data->edids[i] && edid_is_valid(data->edids[i]->data))
ret++;
return ret;
}
static bool i2c_edid_is_valid(int fd)
{
int rc;
unsigned char edid[128] = {};
struct i2c_msg msgs[] = {
{ /* Start at 0. */
.addr = 0x50,
.flags = 0,
.len = 1,
.buf = edid,
}, { /* Now read the EDID. */
.addr = 0x50,
.flags = I2C_M_RD,
.len = 128,
.buf = edid,
}
};
struct i2c_rdwr_ioctl_data msgset = {
.msgs = msgs,
.nmsgs = 2,
};
rc = ioctl(fd, I2C_RDWR, &msgset);
return (rc >= 0) ? edid_is_valid(edid) : false;
}
static int count_i2c_valid_edids(void)
{
int fd, ret = 0;
DIR *dir;
struct dirent *dirent;
char full_name[32];
dir = opendir("/dev/");
igt_assert(dir);
while ((dirent = readdir(dir))) {
if (strncmp(dirent->d_name, "i2c-", 4) == 0) {
snprintf(full_name, 32, "/dev/%s", dirent->d_name);
fd = open(full_name, O_RDWR);
igt_assert(fd != -1);
if (i2c_edid_is_valid(fd))
ret++;
close(fd);
}
}
closedir(dir);
return ret;
}
static bool test_i2c(struct mode_set_data *data)
{
int i2c_edids = count_i2c_valid_edids();
int drm_edids = count_drm_valid_edids(data);
return i2c_edids == drm_edids;
}
static void setup_environment(void)
{
drm_fd = drm_open_any();
igt_assert(drm_fd >= 0);
init_mode_set_data(&ms_data);
/* Only Haswell supports the PC8 feature. */
igt_require_f(IS_HASWELL(ms_data.devid),
"PC8+ feature only supported on Haswell.\n");
/* Make sure our Kernel supports MSR and the module is loaded. */
msr_fd = open("/dev/cpu/0/msr", O_RDONLY);
igt_assert_f(msr_fd >= 0,
"Can't open /dev/cpu/0/msr.\n");
/* Non-ULT machines don't support PC8+. */
igt_require_f(supports_pc8_plus_residencies(),
"Machine doesn't support PC8+ residencies.\n");
}
static void basic_subtest(void)
{
/* Make sure PC8+ residencies move! */
disable_all_screens(&ms_data);
igt_assert_f(pc8_plus_enabled(),
"Machine is not reaching PC8+ states, please check its "
"configuration.\n");
/* Make sure PC8+ residencies stop! */
enable_one_screen(&ms_data);
igt_assert_f(pc8_plus_disabled(),
"PC8+ residency didn't stop with screen enabled.\n");
}
static void modeset_subtest(enum screen_type type, int rounds,
enum residency_wait wait)
{
int i;
for (i = 0; i < rounds; i++) {
disable_all_screens(&ms_data);
if (wait == WAIT)
igt_assert(pc8_plus_enabled());
/* If we skip this line it's because the type of screen we want
* is not connected. */
igt_require(enable_one_screen_with_type(&ms_data, type));
if (wait == WAIT)
igt_assert(pc8_plus_disabled());
}
}
static void teardown_environment(void)
{
fini_mode_set_data(&ms_data);
drmClose(drm_fd);
close(msr_fd);
}
/* Test of the DRM resources reported by the IOCTLs are still the same. This
* ensures we still see the monitors with the same eyes. We get the EDIDs and
* compare them, which ensures we use DP AUX or GMBUS depending on what's
* connected. */
static void drm_resources_equal_subtest(void)
{
struct compare_data pre_pc8, during_pc8, post_pc8;
enable_one_screen(&ms_data);
igt_assert(pc8_plus_disabled());
get_drm_info(&pre_pc8);
igt_assert(pc8_plus_disabled());
disable_all_screens(&ms_data);
igt_assert(pc8_plus_enabled());
get_drm_info(&during_pc8);
igt_assert(pc8_plus_enabled());
enable_one_screen(&ms_data);
igt_assert(pc8_plus_disabled());
get_drm_info(&post_pc8);
igt_assert(pc8_plus_disabled());
assert_drm_infos_equal(&pre_pc8, &during_pc8);
assert_drm_infos_equal(&pre_pc8, &post_pc8);
free_drm_info(&pre_pc8);
free_drm_info(&during_pc8);
free_drm_info(&post_pc8);
}
/* Make sure interrupts are working. */
static void batch_subtest(void)
{
enable_one_screen(&ms_data);
igt_assert(pc8_plus_disabled());
disable_all_screens(&ms_data);
igt_assert(pc8_plus_enabled());
test_batch(&ms_data);
igt_assert(pc8_plus_enabled());
}
/* Try to use raw I2C, which also needs interrupts. */
static void i2c_subtest(void)
{
int i2c_dev_files = 0;
DIR *dev_dir;
struct dirent *dirent;
/* Make sure the /dev/i2c-* files exist. */
dev_dir = opendir("/dev");
igt_assert(dev_dir);
while ((dirent = readdir(dev_dir))) {
if (strncmp(dirent->d_name, "i2c-", 4) == 0)
i2c_dev_files++;
}
closedir(dev_dir);
igt_require(i2c_dev_files);
enable_one_screen(&ms_data);
igt_assert(pc8_plus_disabled());
disable_all_screens(&ms_data);
igt_assert(pc8_plus_enabled());
igt_assert(test_i2c(&ms_data));
igt_assert(pc8_plus_enabled());
enable_one_screen(&ms_data);
}
/* Make us enter/leave PC8+ many times. */
static void stress_test(void)
{
int i;
for (i = 0; i < 100; i++) {
disable_all_screens(&ms_data);
igt_assert(pc8_plus_enabled());
test_batch(&ms_data);
igt_assert(pc8_plus_enabled());
}
}
/* Just reading/writing registers from outside the Kernel is not really a safe
* thing to do on Haswell, so don't do this test on the default case. */
static void register_compare_subtest(void)
{
struct compare_registers pre_pc8, post_pc8;
enable_one_screen(&ms_data);
igt_assert(pc8_plus_disabled());
get_registers(&pre_pc8);
igt_assert(pc8_plus_disabled());
disable_all_screens(&ms_data);
igt_assert(pc8_plus_enabled());
enable_one_screen(&ms_data);
igt_assert(pc8_plus_disabled());
/* Wait for the registers to be restored. */
sleep(1);
get_registers(&post_pc8);
igt_assert(pc8_plus_disabled());
compare_registers(&pre_pc8, &post_pc8);
}
int main(int argc, char *argv[])
{
bool do_register_compare = false;
if (argc > 1 && strcmp(argv[1], "--do-register-compare") == 0)
do_register_compare = true;
igt_subtest_init(argc, argv);
/* Skip instead of failing in case the machine is not prepared to reach
* PC8+. We don't want bug reports from cases where the machine is just
* not properly configured. */
igt_fixture
setup_environment();
igt_subtest("basic")
basic_subtest();
igt_subtest("drm-resources-equal")
drm_resources_equal_subtest();
igt_subtest("modeset-lpsp")
modeset_subtest(SCREEN_TYPE_LPSP, 1, WAIT);
igt_subtest("modeset-non-lpsp")
modeset_subtest(SCREEN_TYPE_NON_LPSP, 1, WAIT);
igt_subtest("batch")
batch_subtest();
igt_subtest("i2c")
i2c_subtest();
igt_subtest("stress-test")
stress_test();
igt_subtest("modeset-non-lpsp-stress")
modeset_subtest(SCREEN_TYPE_NON_LPSP, 50, WAIT);
igt_subtest("modeset-lpsp-stress-no-wait")
modeset_subtest(SCREEN_TYPE_LPSP, 50, DONT_WAIT);
igt_subtest("modeset-non-lpsp-stress-no-wait")
modeset_subtest(SCREEN_TYPE_NON_LPSP, 50, DONT_WAIT);
igt_subtest("register-compare") {
igt_require(do_register_compare);
register_compare_subtest();
}
igt_fixture
teardown_environment();
igt_exit();
}
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