aosp12/external/igt-gpu-tools/tests/kms_rotation_crc.c

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2023-01-09 17:11:35 +08:00
/*
* Copyright © 2013,2014 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 "igt.h"
#include <math.h>
#define MAX_FENCES 32
#define MAXMULTIPLANESAMOUNT 2
struct p_struct {
igt_plane_t *plane;
struct igt_fb fb;
};
enum p_pointorigo {
p_top = 1 << 0,
p_bottom = 1 << 1,
p_left = 1 << 2,
p_right = 1 << 3
};
struct p_point{
enum p_pointorigo origo;
float_t x;
float_t y;
};
typedef struct {
int gfx_fd;
igt_display_t display;
struct igt_fb fb;
struct igt_fb fb_reference;
struct igt_fb fb_unrotated;
struct igt_fb fb_flip;
igt_crc_t ref_crc;
igt_crc_t flip_crc;
igt_pipe_crc_t *pipe_crc;
igt_rotation_t rotation;
int pos_x;
int pos_y;
uint32_t override_fmt;
uint64_t override_tiling;
int devid;
struct p_struct *multiplaneoldview;
struct p_point planepos[MAXMULTIPLANESAMOUNT];
} data_t;
typedef struct {
float r;
float g;
float b;
} rgb_color_t;
static void set_color(rgb_color_t *color, float r, float g, float b)
{
color->r = r;
color->g = g;
color->b = b;
}
static void rotate_colors(rgb_color_t *tl, rgb_color_t *tr, rgb_color_t *br,
rgb_color_t *bl, igt_rotation_t rotation)
{
rgb_color_t bl_tmp, br_tmp, tl_tmp, tr_tmp;
if (rotation & IGT_REFLECT_X) {
igt_swap(*tl, *tr);
igt_swap(*bl, *br);
}
if (rotation & IGT_ROTATION_90) {
bl_tmp = *bl;
br_tmp = *br;
tl_tmp = *tl;
tr_tmp = *tr;
*tl = tr_tmp;
*bl = tl_tmp;
*tr = br_tmp;
*br = bl_tmp;
} else if (rotation & IGT_ROTATION_180) {
igt_swap(*tl, *br);
igt_swap(*tr, *bl);
} else if (rotation & IGT_ROTATION_270) {
bl_tmp = *bl;
br_tmp = *br;
tl_tmp = *tl;
tr_tmp = *tr;
*tl = bl_tmp;
*bl = br_tmp;
*tr = tl_tmp;
*br = tr_tmp;
}
}
#define RGB_COLOR(color) \
color.r, color.g, color.b
static void
paint_squares(data_t *data, igt_rotation_t rotation,
struct igt_fb *fb, float o)
{
cairo_t *cr;
unsigned int w = fb->width;
unsigned int h = fb->height;
rgb_color_t tl, tr, bl, br;
igt_assert_f(!(w&1), "rotation image must be even width, now attempted %d\n", w);
igt_assert_f(!(h&1), "rotation image must be even height, now attempted %d\n", h);
cr = igt_get_cairo_ctx(data->gfx_fd, fb);
set_color(&tl, o, 0.0f, 0.0f);
set_color(&tr, 0.0f, o, 0.0f);
set_color(&br, o, o, o);
set_color(&bl, 0.0f, 0.0f, o);
rotate_colors(&tl, &tr, &br, &bl, rotation);
igt_paint_color(cr, 0, 0, w / 2, h / 2, RGB_COLOR(tl));
igt_paint_color(cr, w / 2, 0, w / 2, h / 2, RGB_COLOR(tr));
igt_paint_color(cr, 0, h / 2, w / 2, h / 2, RGB_COLOR(bl));
igt_paint_color(cr, w / 2, h / 2, w / 2, h / 2, RGB_COLOR(br));
igt_put_cairo_ctx(data->gfx_fd, fb, cr);
}
static void remove_fbs(data_t *data)
{
igt_remove_fb(data->gfx_fd, &data->fb);
igt_remove_fb(data->gfx_fd, &data->fb_reference);
igt_remove_fb(data->gfx_fd, &data->fb_unrotated);
igt_remove_fb(data->gfx_fd, &data->fb_flip);
}
static void cleanup_crtc(data_t *data)
{
igt_display_t *display = &data->display;
igt_pipe_crc_free(data->pipe_crc);
data->pipe_crc = NULL;
remove_fbs(data);
igt_display_reset(display);
}
static void prepare_crtc(data_t *data, igt_output_t *output, enum pipe pipe,
igt_plane_t *plane, bool start_crc)
{
igt_display_t *display = &data->display;
cleanup_crtc(data);
igt_output_set_pipe(output, pipe);
igt_plane_set_rotation(plane, IGT_ROTATION_0);
/* create the pipe_crc object for this pipe */
igt_pipe_crc_free(data->pipe_crc);
igt_display_commit2(display, COMMIT_ATOMIC);
data->pipe_crc = igt_pipe_crc_new(data->gfx_fd, pipe, INTEL_PIPE_CRC_SOURCE_AUTO);
if (start_crc)
igt_pipe_crc_start(data->pipe_crc);
}
enum rectangle_type {
rectangle,
square,
portrait,
landscape,
num_rectangle_types /* must be last */
};
static void prepare_fbs(data_t *data, igt_output_t *output,
igt_plane_t *plane, enum rectangle_type rect, uint32_t format)
{
drmModeModeInfo *mode;
igt_display_t *display = &data->display;
unsigned int w, h, ref_w, ref_h, min_w, min_h;
uint64_t tiling = data->override_tiling ?: LOCAL_DRM_FORMAT_MOD_NONE;
uint32_t pixel_format = data->override_fmt ?: DRM_FORMAT_XRGB8888;
const float flip_opacity = 0.75;
remove_fbs(data);
igt_plane_set_rotation(plane, IGT_ROTATION_0);
mode = igt_output_get_mode(output);
if (plane->type != DRM_PLANE_TYPE_CURSOR) {
w = mode->hdisplay;
h = mode->vdisplay;
min_w = 256;
min_h = 256;
} else {
pixel_format = data->override_fmt ?: DRM_FORMAT_ARGB8888;
w = h = 256;
min_w = min_h = 64;
}
switch (rect) {
case rectangle:
break;
case square:
w = h = min(h, w);
break;
case portrait:
w = min_w;
break;
case landscape:
h = min_h;
break;
case num_rectangle_types:
igt_assert(0);
}
ref_w = w;
ref_h = h;
/*
* For 90/270, we will use create smaller fb so that the rotated
* frame can fit in
*/
if (data->rotation & (IGT_ROTATION_90 | IGT_ROTATION_270)) {
tiling = data->override_tiling ?: LOCAL_I915_FORMAT_MOD_Y_TILED;
igt_swap(w, h);
}
/*
* Create a reference software rotated flip framebuffer.
*/
igt_create_fb(data->gfx_fd, ref_w, ref_h, pixel_format, tiling,
&data->fb_flip);
paint_squares(data, data->rotation, &data->fb_flip,
flip_opacity);
igt_plane_set_fb(plane, &data->fb_flip);
if (plane->type != DRM_PLANE_TYPE_CURSOR)
igt_plane_set_position(plane, data->pos_x, data->pos_y);
igt_display_commit2(display, COMMIT_ATOMIC);
igt_pipe_crc_get_current(display->drm_fd, data->pipe_crc, &data->flip_crc);
/*
* Prepare the non-rotated flip fb.
*/
igt_remove_fb(data->gfx_fd, &data->fb_flip);
igt_create_fb(data->gfx_fd, w, h, pixel_format, tiling,
&data->fb_flip);
paint_squares(data, IGT_ROTATION_0, &data->fb_flip,
flip_opacity);
/*
* Create a reference CRC for a software-rotated fb.
*/
igt_create_fb(data->gfx_fd, ref_w, ref_h, pixel_format,
data->override_tiling ?: LOCAL_DRM_FORMAT_MOD_NONE, &data->fb_reference);
paint_squares(data, data->rotation, &data->fb_reference, 1.0);
igt_plane_set_fb(plane, &data->fb_reference);
if (plane->type != DRM_PLANE_TYPE_CURSOR)
igt_plane_set_position(plane, data->pos_x, data->pos_y);
igt_display_commit2(display, COMMIT_ATOMIC);
igt_pipe_crc_get_current(display->drm_fd, data->pipe_crc, &data->ref_crc);
/*
* Prepare the non-rotated reference fb.
*/
igt_create_fb(data->gfx_fd, ref_w, ref_h, pixel_format, tiling, &data->fb_unrotated);
paint_squares(data, IGT_ROTATION_0, &data->fb_unrotated, 1.0);
igt_plane_set_fb(plane, &data->fb_unrotated);
igt_plane_set_rotation(plane, IGT_ROTATION_0);
if (plane->type != DRM_PLANE_TYPE_CURSOR)
igt_plane_set_position(plane, data->pos_x, data->pos_y);
igt_display_commit2(display, COMMIT_ATOMIC);
/*
* Prepare the plane with an non-rotated fb let the hw rotate it.
*/
igt_create_fb(data->gfx_fd, w, h, pixel_format, tiling, &data->fb);
paint_squares(data, IGT_ROTATION_0, &data->fb, 1.0);
igt_plane_set_fb(plane, &data->fb);
if (plane->type != DRM_PLANE_TYPE_CURSOR)
igt_plane_set_position(plane, data->pos_x, data->pos_y);
}
static void test_single_case(data_t *data, enum pipe pipe,
igt_output_t *output, igt_plane_t *plane,
enum rectangle_type rect,
uint32_t format, bool test_bad_format)
{
igt_display_t *display = &data->display;
igt_crc_t crc_output;
int ret;
igt_debug("Testing case %i on pipe %s, format %s\n", rect, kmstest_pipe_name(pipe), igt_format_str(format));
prepare_fbs(data, output, plane, rect, format);
igt_plane_set_rotation(plane, data->rotation);
if (data->rotation & (IGT_ROTATION_90 | IGT_ROTATION_270))
igt_plane_set_size(plane, data->fb.height, data->fb.width);
ret = igt_display_try_commit2(display, COMMIT_ATOMIC);
if (test_bad_format) {
igt_assert_eq(ret, -EINVAL);
return;
}
/* Verify commit was ok. */
igt_assert_eq(ret, 0);
/* Check CRC */
igt_pipe_crc_get_current(display->drm_fd, data->pipe_crc, &crc_output);
igt_assert_crc_equal(&data->ref_crc, &crc_output);
/*
* If flips are requested flip to a different fb and
* check CRC against that one as well.
*/
if (data->fb_flip.fb_id) {
igt_plane_set_fb(plane, &data->fb_flip);
if (data->rotation == IGT_ROTATION_90 || data->rotation == IGT_ROTATION_270)
igt_plane_set_size(plane, data->fb.height, data->fb.width);
if (plane->type != DRM_PLANE_TYPE_PRIMARY) {
igt_display_commit_atomic(display, DRM_MODE_PAGE_FLIP_EVENT | DRM_MODE_ATOMIC_NONBLOCK, NULL);
} else {
ret = drmModePageFlip(data->gfx_fd,
output->config.crtc->crtc_id,
data->fb_flip.fb_id,
DRM_MODE_PAGE_FLIP_EVENT,
NULL);
igt_assert_eq(ret, 0);
}
kmstest_wait_for_pageflip(data->gfx_fd);
igt_pipe_crc_get_current(display->drm_fd, data->pipe_crc, &crc_output);
igt_assert_crc_equal(&data->flip_crc,
&crc_output);
}
}
static void test_plane_rotation(data_t *data, int plane_type, bool test_bad_format)
{
igt_display_t *display = &data->display;
igt_output_t *output;
enum pipe pipe;
if (plane_type == DRM_PLANE_TYPE_CURSOR)
igt_require(display->has_cursor_plane);
igt_display_require_output(display);
for_each_pipe_with_valid_output(display, pipe, output) {
igt_plane_t *plane;
int i, j;
if (IS_CHERRYVIEW(data->devid) && pipe != PIPE_B)
continue;
igt_output_set_pipe(output, pipe);
plane = igt_output_get_plane_type(output, plane_type);
igt_require(igt_plane_has_prop(plane, IGT_PLANE_ROTATION));
prepare_crtc(data, output, pipe, plane, true);
for (i = 0; i < num_rectangle_types; i++) {
/* Unsupported on i915 */
if (plane_type == DRM_PLANE_TYPE_CURSOR &&
i != square)
continue;
/* Only support partial covering primary plane on gen9+ */
if (plane_type == DRM_PLANE_TYPE_PRIMARY &&
i != rectangle && intel_gen(intel_get_drm_devid(data->gfx_fd)) < 9)
continue;
if (!data->override_fmt) {
for (j = 0; j < plane->drm_plane->count_formats; j++) {
uint32_t format = plane->drm_plane->formats[j];
if (!igt_fb_supported_format(format))
continue;
test_single_case(data, pipe, output, plane, i,
format, test_bad_format);
}
} else {
test_single_case(data, pipe, output, plane, i,
data->override_fmt, test_bad_format);
}
}
igt_pipe_crc_stop(data->pipe_crc);
}
}
typedef struct {
int32_t x1, y1;
uint64_t width, height, tiling, planetype, format;
igt_rotation_t rotation_sw, rotation_hw;
} planeinfos;
static bool get_multiplane_crc(data_t *data, igt_output_t *output,
igt_crc_t *crc_output, planeinfos *planeinfo,
int numplanes)
{
uint32_t w, h;
igt_display_t *display = &data->display;
struct p_struct *planes, *oldplanes;
int c, ret;
oldplanes = data->multiplaneoldview;
planes = calloc(sizeof(*planes), numplanes);
for (c = 0; c < numplanes; c++) {
planes[c].plane = igt_output_get_plane_type(output,
planeinfo[c].planetype);
/*
* make plane and fb width and height always divisible by 4
* due to NV12 support and Intel hw workarounds.
*/
w = planeinfo[c].width & ~3;
h = planeinfo[c].height & ~3;
if (planeinfo[c].rotation_sw & (IGT_ROTATION_90 | IGT_ROTATION_270))
igt_swap(w, h);
if (!igt_plane_has_format_mod(planes[c].plane,
planeinfo[c].format,
planeinfo[c].tiling))
return false;
igt_create_fb(data->gfx_fd, w, h, planeinfo[c].format,
planeinfo[c].tiling, &planes[c].fb);
paint_squares(data, planeinfo[c].rotation_sw, &planes[c].fb, 1.0f);
igt_plane_set_fb(planes[c].plane, &planes[c].fb);
if (planeinfo[c].rotation_hw & (IGT_ROTATION_90 | IGT_ROTATION_270))
igt_plane_set_size(planes[c].plane, h, w);
igt_plane_set_position(planes[c].plane, planeinfo[c].x1, planeinfo[c].y1);
igt_plane_set_rotation(planes[c].plane, planeinfo[c].rotation_hw);
}
ret = igt_display_try_commit2(display, COMMIT_ATOMIC);
igt_assert_eq(ret, 0);
igt_pipe_crc_get_current(data->gfx_fd, data->pipe_crc, crc_output);
for (c = 0; c < numplanes && oldplanes; c++)
igt_remove_fb(data->gfx_fd, &oldplanes[c].fb);
free(oldplanes);
data->multiplaneoldview = (void*)planes;
return true;
}
static void pointlocation(data_t *data, planeinfos *p, drmModeModeInfo *mode,
int c)
{
if (data->planepos[c].origo & p_right) {
p[c].x1 = (int32_t)(data->planepos[c].x * mode->hdisplay
+ mode->hdisplay);
p[c].x1 &= ~3;
/*
* At this point is handled surface on right side. If display
* mode is not divisible by 4 but with 2 point location is
* fixed to match requirements. Because of YUV planes here is
* intentionally ignored bit 1.
*/
p[c].x1 -= mode->hdisplay & 2;
} else {
p[c].x1 = (int32_t)(data->planepos[c].x * mode->hdisplay);
p[c].x1 &= ~3;
}
if (data->planepos[c].origo & p_bottom) {
p[c].y1 = (int32_t)(data->planepos[c].y * mode->vdisplay
+ mode->vdisplay);
p[c].y1 &= ~3;
p[c].y1 -= mode->vdisplay & 2;
} else {
p[c].y1 = (int32_t)(data->planepos[c].y * mode->vdisplay);
p[c].y1 &= ~3;
}
}
/*
* Here is pipe parameter which is now used only for first pipe.
* It is left here if this test ever was wanted to be run on
* different pipes.
*/
static void test_multi_plane_rotation(data_t *data, enum pipe pipe)
{
igt_display_t *display = &data->display;
igt_output_t *output;
igt_crc_t retcrc_sw, retcrc_hw;
planeinfos p[2];
int c;
struct p_struct *oldplanes;
drmModeModeInfo *mode;
static const struct {
igt_rotation_t rotation;
float_t width;
float_t height;
uint64_t tiling;
} planeconfigs[] = {
{IGT_ROTATION_0, .2f, .4f, LOCAL_DRM_FORMAT_MOD_NONE },
{IGT_ROTATION_0, .2f, .4f, LOCAL_I915_FORMAT_MOD_X_TILED },
{IGT_ROTATION_0, .2f, .4f, LOCAL_I915_FORMAT_MOD_Y_TILED },
{IGT_ROTATION_0, .2f, .4f, LOCAL_I915_FORMAT_MOD_Yf_TILED },
{IGT_ROTATION_90, .2f, .4f, LOCAL_I915_FORMAT_MOD_Y_TILED },
{IGT_ROTATION_90, .2f, .4f, LOCAL_I915_FORMAT_MOD_Yf_TILED },
{IGT_ROTATION_180, .2f, .4f, LOCAL_DRM_FORMAT_MOD_NONE },
{IGT_ROTATION_180, .2f, .4f, LOCAL_I915_FORMAT_MOD_X_TILED },
{IGT_ROTATION_180, .2f, .4f, LOCAL_I915_FORMAT_MOD_Y_TILED },
{IGT_ROTATION_180, .2f, .4f, LOCAL_I915_FORMAT_MOD_Yf_TILED },
{IGT_ROTATION_270, .2f, .4f, LOCAL_I915_FORMAT_MOD_Y_TILED },
{IGT_ROTATION_270, .2f, .4f, LOCAL_I915_FORMAT_MOD_Yf_TILED },
};
/*
* These are those modes which are tested. For testing feel interesting
* case with tiling are 2 bpp, 4 bpp and NV12.
*/
static const uint32_t formatlist[] = {DRM_FORMAT_RGB565,
DRM_FORMAT_XRGB8888, DRM_FORMAT_NV12};
for_each_valid_output_on_pipe(display, pipe, output) {
int i, j, k, l;
igt_output_set_pipe(output, pipe);
mode = igt_output_get_mode(output);
igt_display_require_output(display);
igt_display_commit2(display, COMMIT_ATOMIC);
data->pipe_crc = igt_pipe_crc_new(data->gfx_fd, pipe,
INTEL_PIPE_CRC_SOURCE_AUTO);
igt_pipe_crc_start(data->pipe_crc);
for (i = 0; i < ARRAY_SIZE(planeconfigs); i++) {
p[0].planetype = DRM_PLANE_TYPE_PRIMARY;
p[0].width = (uint64_t)(planeconfigs[i].width * mode->hdisplay);
p[0].height = (uint64_t)(planeconfigs[i].height * mode->vdisplay);
p[0].tiling = planeconfigs[i].tiling;
pointlocation(data, (planeinfos *)&p, mode, 0);
for (k = 0; k < ARRAY_SIZE(formatlist); k++) {
p[0].format = formatlist[k];
for (j = 0; j < ARRAY_SIZE(planeconfigs); j++) {
p[1].planetype = DRM_PLANE_TYPE_OVERLAY;
p[1].width = (uint64_t)(planeconfigs[j].width * mode->hdisplay);
p[1].height = (uint64_t)(planeconfigs[j].height * mode->vdisplay);
p[1].tiling = planeconfigs[j].tiling;
pointlocation(data, (planeinfos *)&p,
mode, 1);
for (l = 0; l < ARRAY_SIZE(formatlist); l++) {
p[1].format = formatlist[l];
/*
* RGB565 90/270 degrees rotation is supported
* from gen11 onwards.
*/
if (p[0].format == DRM_FORMAT_RGB565 &&
(planeconfigs[i].rotation & (IGT_ROTATION_90 | IGT_ROTATION_270))
&& intel_gen(data->devid) < 11)
continue;
if (p[1].format == DRM_FORMAT_RGB565 &&
(planeconfigs[j].rotation & (IGT_ROTATION_90 | IGT_ROTATION_270))
&& intel_gen(data->devid) < 11)
continue;
p[0].rotation_sw = planeconfigs[i].rotation;
p[0].rotation_hw = IGT_ROTATION_0;
p[1].rotation_sw = planeconfigs[j].rotation;
p[1].rotation_hw = IGT_ROTATION_0;
if (!get_multiplane_crc(data, output, &retcrc_sw,
(planeinfos *)&p, MAXMULTIPLANESAMOUNT))
continue;
igt_swap(p[0].rotation_sw, p[0].rotation_hw);
igt_swap(p[1].rotation_sw, p[1].rotation_hw);
if (!get_multiplane_crc(data, output, &retcrc_hw,
(planeinfos *)&p, MAXMULTIPLANESAMOUNT))
continue;
igt_assert_crc_equal(&retcrc_sw, &retcrc_hw);
}
}
}
}
igt_pipe_crc_stop(data->pipe_crc);
igt_pipe_crc_free(data->pipe_crc);
igt_output_set_pipe(output, PIPE_ANY);
}
/*
* Old fbs are deleted only after new ones are set on planes.
* This is done to speed up the test
*/
oldplanes = data->multiplaneoldview;
for (c = 0; c < MAXMULTIPLANESAMOUNT && oldplanes; c++)
igt_remove_fb(data->gfx_fd, &oldplanes[c].fb);
free(oldplanes);
data->multiplaneoldview = NULL;
data->pipe_crc = NULL;
}
static void test_plane_rotation_exhaust_fences(data_t *data,
enum pipe pipe,
igt_output_t *output,
igt_plane_t *plane)
{
igt_display_t *display = &data->display;
uint64_t tiling = LOCAL_I915_FORMAT_MOD_Y_TILED;
uint32_t format = DRM_FORMAT_XRGB8888;
int fd = data->gfx_fd;
drmModeModeInfo *mode;
struct igt_fb fb[MAX_FENCES+1] = {};
uint64_t size;
unsigned int stride, w, h;
uint64_t total_aperture_size, total_fbs_size;
int i;
igt_require(igt_plane_has_prop(plane, IGT_PLANE_ROTATION));
prepare_crtc(data, output, pipe, plane, false);
mode = igt_output_get_mode(output);
w = mode->hdisplay;
h = mode->vdisplay;
igt_calc_fb_size(fd, w, h, format, tiling, &size, &stride);
/*
* Make sure there is atleast 90% of the available GTT space left
* for creating (MAX_FENCES+1) framebuffers.
*/
total_fbs_size = size * (MAX_FENCES + 1);
total_aperture_size = gem_available_aperture_size(fd);
igt_require(total_fbs_size < total_aperture_size * 0.9);
for (i = 0; i < MAX_FENCES + 1; i++) {
igt_create_fb(fd, w, h, format, tiling, &fb[i]);
igt_plane_set_fb(plane, &fb[i]);
igt_plane_set_rotation(plane, IGT_ROTATION_0);
igt_display_commit2(display, COMMIT_ATOMIC);
igt_plane_set_rotation(plane, IGT_ROTATION_90);
igt_plane_set_size(plane, h, w);
igt_display_commit2(display, COMMIT_ATOMIC);
}
for (i = 0; i < MAX_FENCES + 1; i++)
igt_remove_fb(fd, &fb[i]);
}
static const char *plane_test_str(unsigned plane)
{
switch (plane) {
case DRM_PLANE_TYPE_PRIMARY:
return "primary";
case DRM_PLANE_TYPE_OVERLAY:
return "sprite";
case DRM_PLANE_TYPE_CURSOR:
return "cursor";
default:
igt_assert(0);
}
}
static const char *rot_test_str(igt_rotation_t rot)
{
switch (rot) {
case IGT_ROTATION_0:
return "0";
case IGT_ROTATION_90:
return "90";
case IGT_ROTATION_180:
return "180";
case IGT_ROTATION_270:
return "270";
default:
igt_assert(0);
}
}
static const char *tiling_test_str(uint64_t tiling)
{
switch (tiling) {
case LOCAL_I915_FORMAT_MOD_X_TILED:
return "x-tiled";
case LOCAL_I915_FORMAT_MOD_Y_TILED:
return "y-tiled";
case LOCAL_I915_FORMAT_MOD_Yf_TILED:
return "yf-tiled";
default:
igt_assert(0);
}
}
igt_main
{
struct rot_subtest {
unsigned plane;
igt_rotation_t rot;
} *subtest, subtests[] = {
{ DRM_PLANE_TYPE_PRIMARY, IGT_ROTATION_90 },
{ DRM_PLANE_TYPE_PRIMARY, IGT_ROTATION_180 },
{ DRM_PLANE_TYPE_PRIMARY, IGT_ROTATION_270 },
{ DRM_PLANE_TYPE_OVERLAY, IGT_ROTATION_90 },
{ DRM_PLANE_TYPE_OVERLAY, IGT_ROTATION_180 },
{ DRM_PLANE_TYPE_OVERLAY, IGT_ROTATION_270 },
{ DRM_PLANE_TYPE_CURSOR, IGT_ROTATION_180 },
{ 0, 0}
};
struct reflect_x {
uint64_t tiling;
igt_rotation_t rot;
} *reflect_x, reflect_x_subtests[] = {
{ LOCAL_I915_FORMAT_MOD_X_TILED, IGT_ROTATION_0 },
{ LOCAL_I915_FORMAT_MOD_X_TILED, IGT_ROTATION_180 },
{ LOCAL_I915_FORMAT_MOD_Y_TILED, IGT_ROTATION_0 },
{ LOCAL_I915_FORMAT_MOD_Y_TILED, IGT_ROTATION_90 },
{ LOCAL_I915_FORMAT_MOD_Y_TILED, IGT_ROTATION_180 },
{ LOCAL_I915_FORMAT_MOD_Y_TILED, IGT_ROTATION_270 },
{ LOCAL_I915_FORMAT_MOD_Yf_TILED, IGT_ROTATION_0 },
{ LOCAL_I915_FORMAT_MOD_Yf_TILED, IGT_ROTATION_90 },
{ LOCAL_I915_FORMAT_MOD_Yf_TILED, IGT_ROTATION_180 },
{ LOCAL_I915_FORMAT_MOD_Yf_TILED, IGT_ROTATION_270 },
{ 0, 0 }
};
data_t data = {};
int gen = 0;
igt_skip_on_simulation();
igt_fixture {
data.gfx_fd = drm_open_driver_master(DRIVER_INTEL);
data.devid = intel_get_drm_devid(data.gfx_fd);
gen = intel_gen(data.devid);
kmstest_set_vt_graphics_mode();
igt_require_pipe_crc(data.gfx_fd);
igt_display_require(&data.display, data.gfx_fd);
}
for (subtest = subtests; subtest->rot; subtest++) {
igt_subtest_f("%s-rotation-%s",
plane_test_str(subtest->plane),
rot_test_str(subtest->rot)) {
igt_require(!(subtest->rot &
(IGT_ROTATION_90 | IGT_ROTATION_270)) ||
gen >= 9);
data.rotation = subtest->rot;
test_plane_rotation(&data, subtest->plane, false);
}
}
igt_subtest_f("sprite-rotation-90-pos-100-0") {
igt_require(gen >= 9);
data.rotation = IGT_ROTATION_90;
data.pos_x = 100,
data.pos_y = 0;
test_plane_rotation(&data, DRM_PLANE_TYPE_OVERLAY, false);
}
data.pos_x = 0,
data.pos_y = 0;
igt_subtest_f("bad-pixel-format") {
/* gen11 enables RGB565 rotation for 90/270 degrees.
* so apart from this, any other gen11+ pixel format
* can be used which doesn't support 90/270 degree
* rotation */
igt_require(gen >= 9);
data.rotation = IGT_ROTATION_90;
data.override_fmt = gen < 11 ? DRM_FORMAT_RGB565 : DRM_FORMAT_Y212;
test_plane_rotation(&data, DRM_PLANE_TYPE_PRIMARY, true);
}
data.override_fmt = 0;
igt_subtest_f("bad-tiling") {
igt_require(gen >= 9);
data.rotation = IGT_ROTATION_90;
data.override_tiling = LOCAL_I915_FORMAT_MOD_X_TILED;
test_plane_rotation(&data, DRM_PLANE_TYPE_PRIMARY, true);
}
data.override_tiling = 0;
for (reflect_x = reflect_x_subtests; reflect_x->tiling; reflect_x++) {
igt_subtest_f("primary-%s-reflect-x-%s",
tiling_test_str(reflect_x->tiling),
rot_test_str(reflect_x->rot)) {
igt_require(gen >= 10 ||
(IS_CHERRYVIEW(data.devid) && reflect_x->rot == IGT_ROTATION_0
&& reflect_x->tiling == LOCAL_I915_FORMAT_MOD_X_TILED));
data.rotation = (IGT_REFLECT_X | reflect_x->rot);
data.override_tiling = reflect_x->tiling;
test_plane_rotation(&data, DRM_PLANE_TYPE_PRIMARY, false);
}
}
igt_subtest_f("multiplane-rotation") {
igt_require(gen >= 9);
cleanup_crtc(&data);
data.planepos[0].origo = p_top | p_left;
data.planepos[0].x = .2f;
data.planepos[0].y = .1f;
data.planepos[1].origo = p_top | p_right;
data.planepos[1].x = -.4f;
data.planepos[1].y = .1f;
test_multi_plane_rotation(&data, 0);
}
igt_subtest_f("multiplane-rotation-cropping-top") {
igt_require(gen >= 9);
cleanup_crtc(&data);
data.planepos[0].origo = p_top | p_left;
data.planepos[0].x = -.05f;
data.planepos[0].y = -.15f;
data.planepos[1].origo = p_top | p_right;
data.planepos[1].x = -.15f;
data.planepos[1].y = -.15f;
test_multi_plane_rotation(&data, 0);
}
igt_subtest_f("multiplane-rotation-cropping-bottom") {
igt_require(gen >= 9);
cleanup_crtc(&data);
data.planepos[0].origo = p_bottom | p_left;
data.planepos[0].x = -.05f;
data.planepos[0].y = -.20f;
data.planepos[1].origo = p_bottom | p_right;
data.planepos[1].x = -.15f;
data.planepos[1].y = -.20f;
test_multi_plane_rotation(&data, 0);
}
/*
* exhaust-fences should be last test, if it fails we may OOM in
* the following subtests otherwise.
*/
igt_subtest_f("exhaust-fences") {
enum pipe pipe;
igt_output_t *output;
igt_require(gen >= 9);
igt_display_require_output(&data.display);
for_each_pipe_with_valid_output(&data.display, pipe, output) {
igt_plane_t *primary = &data.display.pipes[pipe].planes[0];
test_plane_rotation_exhaust_fences(&data, pipe, output, primary);
break;
}
}
igt_fixture {
igt_display_fini(&data.display);
}
}