/* * 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 "igt_vec.h" #include #define MAX_FENCES 32 #define MAXMULTIPLANESAMOUNT 2 #define TEST_MAX_WIDTH 640 #define TEST_MAX_HEIGHT 480 #define MAX_TESTED_MODES 8 #define MULTIPLANE_REFERENCE 0 #define MULTIPLANE_ROTATED 1 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; }; enum rectangle_type { rectangle, square, portrait, landscape, num_rectangle_types /* must be last */ }; typedef struct { int gfx_fd; igt_display_t display; struct igt_fb fb; struct igt_fb fb_reference; 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_modifier; int devid; struct p_struct *multiplaneoldview; struct p_point planepos[MAXMULTIPLANESAMOUNT]; bool use_native_resolution; bool extended; int output_crc_in_use, max_crc_in_use; struct crc_rect_tag { int mode; bool valid; igt_crc_t ref_crc; igt_crc_t flip_crc; } crc_rect[MAX_TESTED_MODES][num_rectangle_types]; igt_fb_t last_on_screen; } 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(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); } 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); /* defer crtc cleanup + crtc active for later on amd - not valid * to enable CRTC without a plane active */ if (!is_amdgpu_device(data->gfx_fd)) igt_display_commit2(display, COMMIT_ATOMIC); data->pipe_crc = igt_pipe_crc_new(data->gfx_fd, pipe, INTEL_PIPE_CRC_SOURCE_AUTO); if (!is_amdgpu_device(data->gfx_fd) && start_crc) igt_pipe_crc_start(data->pipe_crc); } #define TEST_WIDTH(km) \ min_t((km)->hdisplay, (km)->hdisplay, TEST_MAX_WIDTH) #define TEST_HEIGHT(km) \ min_t((km)->vdisplay, (km)->vdisplay, TEST_MAX_HEIGHT) 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 modifier = data->override_modifier ?: DRM_FORMAT_MOD_LINEAR; 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) { if (data->use_native_resolution) { w = mode->hdisplay; h = mode->vdisplay; } else { w = TEST_WIDTH(mode); h = TEST_HEIGHT(mode); } 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 (igt_rotation_90_or_270(data->rotation)) { modifier = data->override_modifier ?: I915_FORMAT_MOD_Y_TILED; igt_swap(w, h); } /* * Just try here if requested modifier format is generally available, * if one format fail it will skip entire subtest. */ igt_require(igt_display_has_format_mod(display, pixel_format, modifier)); if (!data->crc_rect[data->output_crc_in_use][rect].valid) { /* * Create a reference software rotated flip framebuffer. */ igt_create_fb(data->gfx_fd, ref_w, ref_h, pixel_format, modifier, &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); if (is_amdgpu_device(data->gfx_fd)) { igt_pipe_crc_collect_crc( data->pipe_crc, &data->crc_rect[data->output_crc_in_use][rect].flip_crc); } else { igt_pipe_crc_get_current( display->drm_fd, data->pipe_crc, &data->crc_rect[data->output_crc_in_use][rect].flip_crc); igt_remove_fb(data->gfx_fd, &data->fb_flip); } /* * Create a reference CRC for a software-rotated fb. */ igt_create_fb(data->gfx_fd, ref_w, ref_h, pixel_format, data->override_modifier ?: DRM_FORMAT_MOD_LINEAR, &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); if (is_amdgpu_device(data->gfx_fd)) { igt_pipe_crc_collect_crc( data->pipe_crc, &data->crc_rect[data->output_crc_in_use][rect].ref_crc); igt_remove_fb(data->gfx_fd, &data->fb_flip); } else { igt_pipe_crc_get_current( display->drm_fd, data->pipe_crc, &data->crc_rect[data->output_crc_in_use][rect].ref_crc); } data->crc_rect[data->output_crc_in_use][rect].valid = true; } data->last_on_screen = data->fb_flip; /* * Prepare the non-rotated flip fb. */ igt_create_fb(data->gfx_fd, w, h, pixel_format, modifier, &data->fb_flip); paint_squares(data, IGT_ROTATION_0, &data->fb_flip, flip_opacity); /* * Prepare the plane with an non-rotated fb let the hw rotate it. */ igt_create_fb(data->gfx_fd, w, h, pixel_format, modifier, &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 (igt_rotation_90_or_270(data->rotation)) igt_plane_set_size(plane, data->fb.height, data->fb.width); ret = igt_display_try_commit2(display, COMMIT_ATOMIC); /* * Remove this last fb after it was taken out from screen * to avoid unnecessary delays. */ igt_remove_fb(data->gfx_fd, &data->last_on_screen); if (test_bad_format) { igt_pipe_crc_drain(data->pipe_crc); igt_assert_eq(ret, -EINVAL); return; } /* Verify commit was ok. */ igt_assert_eq(ret, 0); /* Check CRC */ if (is_amdgpu_device(data->gfx_fd)) { igt_pipe_crc_collect_crc(data->pipe_crc, &crc_output); } else { igt_pipe_crc_get_current(display->drm_fd, data->pipe_crc, &crc_output); } igt_assert_crc_equal( &data->crc_rect[data->output_crc_in_use][rect].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 (igt_rotation_90_or_270(data->rotation)) 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); if (is_amdgpu_device(data->gfx_fd)) { igt_pipe_crc_collect_crc(data->pipe_crc, &crc_output); } else { igt_pipe_crc_get_current(display->drm_fd, data->pipe_crc, &crc_output); } igt_assert_crc_equal(&data->crc_rect[data->output_crc_in_use][rect].flip_crc, &crc_output); } } static bool test_format(data_t *data, struct igt_vec *tested_formats, uint32_t format) { if (!igt_fb_supported_format(format)) return false; if (!is_i915_device(data->gfx_fd) || data->extended) return true; format = igt_reduce_format(format); /* only test each format "class" once */ if (igt_vec_index(tested_formats, &format) >= 0) return false; igt_vec_push(tested_formats, &format); return true; } static void test_plane_rotation(data_t *data, int plane_type, bool test_bad_format) { igt_display_t *display = &data->display; drmModeModeInfo *mode; igt_output_t *output; enum pipe pipe; int pipe_count = 0, connected_outputs = 0; if (is_amdgpu_device(data->gfx_fd)) igt_require(plane_type != DRM_PLANE_TYPE_OVERLAY && plane_type != DRM_PLANE_TYPE_CURSOR); if (plane_type == DRM_PLANE_TYPE_CURSOR) igt_require(display->has_cursor_plane); igt_display_require_output(display); for_each_connected_output(&data->display, output) connected_outputs++; for_each_pipe_with_valid_output(display, pipe, output) { igt_plane_t *plane; int i, j, c; mode = igt_output_get_mode(output); /* * Find mode which is in use in connector. If this is mode * which was not run on earlier we'll end up on zeroed * struct crc_rect and recalculate reference crcs. */ for (data->output_crc_in_use = 0; data->output_crc_in_use < data->max_crc_in_use && data->crc_rect[data->output_crc_in_use][0].mode != mode->vdisplay; data->output_crc_in_use++) ; /* * This is if there was different mode on different connector * and this mode was not run on before. */ if (data->crc_rect[data->output_crc_in_use][0].mode != mode->vdisplay) { data->crc_rect[data->output_crc_in_use][0].mode = mode->vdisplay; data->max_crc_in_use++; if (data->max_crc_in_use >= MAX_TESTED_MODES) data->max_crc_in_use = MAX_TESTED_MODES - 1; } for (c = 0; c < num_rectangle_types; c++) data->crc_rect[data->output_crc_in_use][c].valid = false; /* restricting the execution to 2 pipes to reduce execution time*/ if (pipe_count == 2 * connected_outputs && !data->extended) break; pipe_count++; 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)); igt_require(igt_plane_has_rotation(plane, data->rotation)); /* CHV can't rotate and reflect simultaneously */ igt_require(!is_i915_device(data->gfx_fd) || !IS_CHERRYVIEW(data->devid) || data->rotation != (IGT_ROTATION_180 | IGT_REFLECT_X)); 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 (is_amdgpu_device(data->gfx_fd) || (plane_type == DRM_PLANE_TYPE_PRIMARY && is_i915_device(data->gfx_fd) && intel_display_ver( intel_get_drm_devid(data->gfx_fd)) < 9)) { if (i != rectangle) continue; else data->use_native_resolution = true; } else { data->use_native_resolution = false; } if (!data->override_fmt) { struct igt_vec tested_formats; igt_vec_init(&tested_formats, sizeof(uint32_t)); for (j = 0; j < plane->drm_plane->count_formats; j++) { uint32_t format = plane->drm_plane->formats[j]; if (!test_format(data, &tested_formats, format)) continue; test_single_case(data, pipe, output, plane, i, format, test_bad_format); } igt_vec_fini(&tested_formats); } else { test_single_case(data, pipe, output, plane, i, data->override_fmt, test_bad_format); } } if (is_i915_device(data->gfx_fd)) { igt_pipe_crc_stop(data->pipe_crc); } } } typedef struct { int32_t x1, y1; uint64_t width, height, modifier, format; igt_plane_t *plane; igt_rotation_t rotation_sw, rotation_hw; } planeinfos; static bool setup_multiplane(data_t *data, planeinfos *planeinfo, struct igt_fb *fbleft, struct igt_fb *fbright) { uint32_t w, h; struct igt_fb *planes[2] = {fbleft, fbright}; int c; for (c = 0; c < ARRAY_SIZE(planes); c++) { /* * 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 (igt_rotation_90_or_270(planeinfo[c].rotation_sw)) igt_swap(w, h); if (!igt_plane_has_format_mod(planeinfo[c].plane, planeinfo[c].format, planeinfo[c].modifier)) return false; /* * was this hw/sw rotation ran already or need to create * new fb? */ if (planes[c]->fb_id == 0) { igt_create_fb(data->gfx_fd, w, h, planeinfo[c].format, planeinfo[c].modifier, planes[c]); paint_squares(data, planeinfo[c].rotation_sw, planes[c], 1.0f); } igt_plane_set_fb(planeinfo[c].plane, planes[c]); if (igt_rotation_90_or_270(planeinfo[c].rotation_hw)) igt_plane_set_size(planeinfo[c].plane, h, w); igt_plane_set_position(planeinfo[c].plane, planeinfo[c].x1, planeinfo[c].y1); igt_plane_set_rotation(planeinfo[c].plane, planeinfo[c].rotation_hw); } 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 * TEST_WIDTH(mode) + 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 * TEST_WIDTH(mode)); p[c].x1 &= ~3; } if (data->planepos[c].origo & p_bottom) { p[c].y1 = (int32_t)(data->planepos[c].y * TEST_HEIGHT(mode) + mode->vdisplay); p[c].y1 &= ~3; p[c].y1 -= mode->vdisplay & 2; } else { p[c].y1 = (int32_t)(data->planepos[c].y * TEST_HEIGHT(mode)); p[c].y1 &= ~3; } } /* * count trailing zeroes */ #define ctz __builtin_ctz /* * 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 used_w, used_h, lastroundirotation = 0, lastroundjrotation = 0, lastroundjformat = 0, c, d; drmModeModeInfo *mode; bool have_crc; // flag if can use previously logged crc for comparison igt_crc_t crclog[16] = {}; //4 * 4 rotation crc storage for packed formats char *str1, *str2; // for debug printouts /* * These are those modes which are tested. For testing feel interesting * case with modifier are 2 bpp, 4 bpp and NV12. */ static const uint32_t formatlist[] = {DRM_FORMAT_RGB565, DRM_FORMAT_XRGB8888, DRM_FORMAT_NV12, DRM_FORMAT_P010}; static struct { igt_rotation_t rotation; float_t width; float_t height; uint64_t modifier; struct igt_fb fbs[ARRAY_SIZE(formatlist)][2]; } planeconfigs[] = { {IGT_ROTATION_0, .2f, .4f, DRM_FORMAT_MOD_LINEAR }, {IGT_ROTATION_0, .2f, .4f, I915_FORMAT_MOD_X_TILED }, {IGT_ROTATION_0, .2f, .4f, I915_FORMAT_MOD_Y_TILED }, {IGT_ROTATION_0, .2f, .4f, I915_FORMAT_MOD_Yf_TILED }, {IGT_ROTATION_90, .2f, .4f, I915_FORMAT_MOD_Y_TILED }, {IGT_ROTATION_90, .2f, .4f, I915_FORMAT_MOD_Yf_TILED }, {IGT_ROTATION_180, .2f, .4f, DRM_FORMAT_MOD_LINEAR }, {IGT_ROTATION_180, .2f, .4f, I915_FORMAT_MOD_X_TILED }, {IGT_ROTATION_180, .2f, .4f, I915_FORMAT_MOD_Y_TILED }, {IGT_ROTATION_180, .2f, .4f, I915_FORMAT_MOD_Yf_TILED }, {IGT_ROTATION_270, .2f, .4f, I915_FORMAT_MOD_Y_TILED }, {IGT_ROTATION_270, .2f, .4f, I915_FORMAT_MOD_Yf_TILED }, }; for_each_valid_output_on_pipe(display, pipe, output) { int i, j, k, l, flipsw, fliphw; igt_output_set_pipe(output, pipe); mode = igt_output_get_mode(output); igt_display_require_output(display); igt_display_commit2(display, COMMIT_ATOMIC); used_w = TEST_WIDTH(mode); used_h = TEST_HEIGHT(mode); p[0].plane = igt_output_get_plane_type(output, DRM_PLANE_TYPE_PRIMARY); p[1].plane = igt_output_get_plane_type(output, DRM_PLANE_TYPE_OVERLAY); 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].width = (uint64_t)(planeconfigs[i].width * used_w); p[0].height = (uint64_t)(planeconfigs[i].height * used_h); p[0].modifier = planeconfigs[i].modifier; 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].width = (uint64_t)(planeconfigs[j].width * used_w); p[1].height = (uint64_t)(planeconfigs[j].height * used_h); p[1].modifier = planeconfigs[j].modifier; 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 && igt_rotation_90_or_270(planeconfigs[i].rotation) && intel_display_ver(data->devid) < 11) continue; if (p[1].format == DRM_FORMAT_RGB565 && igt_rotation_90_or_270(planeconfigs[j].rotation) && intel_display_ver(data->devid) < 11) continue; if (!igt_plane_has_rotation(p[0].plane, planeconfigs[i].rotation)) continue; if (!igt_plane_has_rotation(p[1].plane, planeconfigs[j].rotation)) continue; /* * if using packed formats crc's will be * same and can store them so there's * no need to redo comparison image and * just use stored crc. */ if (!igt_format_is_yuv_semiplanar(p[0].format) && !igt_format_is_yuv_semiplanar(p[1].format) && crclog[ctz(planeconfigs[i].rotation) | (ctz(planeconfigs[j].rotation) << 2)].frame != 0) { retcrc_sw = crclog[ctz(planeconfigs[i].rotation) | (ctz(planeconfigs[j].rotation) << 2)]; have_crc = true; } else if((p[0].format == DRM_FORMAT_NV12 || p[0].format == DRM_FORMAT_P010) && p[1].format != DRM_FORMAT_NV12 && p[1].format != DRM_FORMAT_P010 && lastroundjformat != DRM_FORMAT_NV12 && lastroundjformat != DRM_FORMAT_P010 && planeconfigs[i].rotation == lastroundirotation && planeconfigs[j].rotation == lastroundjrotation) { /* * With NV12 can benefit from * previous crc if rotations * stay same. If both planes * have NV12 in use we need to * skip that case. * If last round right plane * had NV12 need to skip this. */ have_crc = true; } else { /* * here will be created * comparison image and get crc * if didn't have stored crc * or planar format is in use. * have_crc flag will control * crc comparison part. */ 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 (!setup_multiplane(data, (planeinfos *)&p, &planeconfigs[i].fbs[k][MULTIPLANE_REFERENCE], &planeconfigs[j].fbs[l][MULTIPLANE_REFERENCE])) continue; igt_display_commit_atomic(display, DRM_MODE_ATOMIC_ALLOW_MODESET, NULL); flipsw = kmstest_get_vblank(data->gfx_fd, pipe, 0) + 1; have_crc = false; } /* * create hw rotated image and * get vblank where interesting * crc will be at, grab crc bit later */ p[0].rotation_sw = IGT_ROTATION_0; p[0].rotation_hw = planeconfigs[i].rotation; p[1].rotation_sw = IGT_ROTATION_0; p[1].rotation_hw = planeconfigs[j].rotation; if (!setup_multiplane(data, (planeinfos *)&p, &planeconfigs[i].fbs[k][MULTIPLANE_ROTATED], &planeconfigs[j].fbs[l][MULTIPLANE_ROTATED])) continue; igt_display_commit_atomic(display, DRM_MODE_ATOMIC_ALLOW_MODESET, NULL); fliphw = kmstest_get_vblank(data->gfx_fd, pipe, 0) + 1; if (!have_crc) { igt_pipe_crc_get_for_frame(data->gfx_fd, data->pipe_crc, flipsw, &retcrc_sw); if (!igt_format_is_yuv_semiplanar(p[0].format) &&!igt_format_is_yuv_semiplanar(p[1].format)) crclog[ctz(planeconfigs[i].rotation) | (ctz(planeconfigs[j].rotation) << 2)] = retcrc_sw; } igt_pipe_crc_get_for_frame(data->gfx_fd, data->pipe_crc, fliphw, &retcrc_hw); str1 = igt_crc_to_string(&retcrc_sw); str2 = igt_crc_to_string(&retcrc_hw); igt_debug("crc %.8s vs %.8s -- %.4s - %.4s crc buffered:%s rot1 %d rot2 %d\n", str1, str2, (char *) &p[0].format, (char *) &p[1].format, have_crc?"yes":" no", (int[]) {0, 90, 180, 270} [ctz(planeconfigs[i].rotation)], (int[]) {0, 90, 180, 270} [ctz(planeconfigs[j].rotation)]); free(str1); free(str2); igt_assert_crc_equal(&retcrc_sw, &retcrc_hw); lastroundjformat = p[1].format; lastroundirotation = planeconfigs[i].rotation; lastroundjrotation = planeconfigs[j].rotation; } } } } igt_pipe_crc_stop(data->pipe_crc); igt_pipe_crc_free(data->pipe_crc); igt_plane_set_fb(p[0].plane, NULL); igt_plane_set_fb(p[1].plane, NULL); igt_display_commit_atomic(display, DRM_MODE_ATOMIC_ALLOW_MODESET, NULL); for (i = 0; i < ARRAY_SIZE(crclog); i++) crclog[i].frame = 0; lastroundjformat = 0; lastroundirotation = 0; lastroundjrotation = 0; igt_output_set_pipe(output, PIPE_NONE); } data->pipe_crc = NULL; for (c = 0; c < ARRAY_SIZE(planeconfigs); c++) { for (d = 0; d < ARRAY_SIZE(formatlist); d++) { igt_remove_fb(data->gfx_fd, &planeconfigs[c].fbs[d][MULTIPLANE_REFERENCE]); igt_remove_fb(data->gfx_fd, &planeconfigs[c].fbs[d][MULTIPLANE_ROTATED]); } } } 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 modifier = 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)); igt_require(igt_plane_has_rotation(plane, IGT_ROTATION_0 | IGT_ROTATION_90)); igt_require(gem_available_fences(display->drm_fd) > 0); 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, modifier, &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, modifier, &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 *modifier_test_str(uint64_t modifier) { switch (modifier) { case I915_FORMAT_MOD_X_TILED: return "x-tiled"; case I915_FORMAT_MOD_Y_TILED: return "y-tiled"; case I915_FORMAT_MOD_Yf_TILED: return "yf-tiled"; case I915_FORMAT_MOD_4_TILED: return "4-tiled"; default: igt_assert(0); } } static int opt_handler(int opt, int opt_index, void *_data) { data_t *data = _data; switch (opt) { case 'e': data->extended = true; break; } return IGT_OPT_HANDLER_SUCCESS; } static const struct option long_opts[] = { { .name = "extended", .has_arg = false, .val = 'e', }, {} }; static const char help_str[] = " --extended\t\tRun the extended tests\n"; static data_t data; igt_main_args("", long_opts, help_str, opt_handler, &data) { 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 modifier; igt_rotation_t rot; } *reflect_x, reflect_x_subtests[] = { { I915_FORMAT_MOD_X_TILED, IGT_ROTATION_0 }, { I915_FORMAT_MOD_X_TILED, IGT_ROTATION_180 }, { I915_FORMAT_MOD_Y_TILED, IGT_ROTATION_0 }, { I915_FORMAT_MOD_Y_TILED, IGT_ROTATION_90 }, { I915_FORMAT_MOD_Y_TILED, IGT_ROTATION_180 }, { I915_FORMAT_MOD_Y_TILED, IGT_ROTATION_270 }, { I915_FORMAT_MOD_Yf_TILED, IGT_ROTATION_0 }, { I915_FORMAT_MOD_Yf_TILED, IGT_ROTATION_90 }, { I915_FORMAT_MOD_Yf_TILED, IGT_ROTATION_180 }, { I915_FORMAT_MOD_Yf_TILED, IGT_ROTATION_270 }, { I915_FORMAT_MOD_4_TILED, IGT_ROTATION_0 }, { I915_FORMAT_MOD_4_TILED, IGT_ROTATION_180 }, { 0, 0 } }; int gen = 0; igt_fixture { data.gfx_fd = drm_open_driver_master(DRIVER_ANY); if (is_i915_device(data.gfx_fd)) { data.devid = intel_get_drm_devid(data.gfx_fd); gen = intel_display_ver(data.devid); } kmstest_set_vt_graphics_mode(); igt_require_pipe_crc(data.gfx_fd); igt_display_require(&data.display, data.gfx_fd); igt_require(data.display.is_atomic); } igt_describe("Rotation test with 90/270 degree for primary and sprite planes of gen9+"); for (subtest = subtests; subtest->rot; subtest++) { igt_subtest_f("%s-rotation-%s", plane_test_str(subtest->plane), rot_test_str(subtest->rot)) { if (is_amdgpu_device(data.gfx_fd)) { data.override_fmt = DRM_FORMAT_XRGB8888; if (igt_rotation_90_or_270(subtest->rot)) data.override_modifier = AMD_FMT_MOD | AMD_FMT_MOD_SET(TILE, AMD_FMT_MOD_TILE_GFX9_64K_S) | AMD_FMT_MOD_SET(TILE_VERSION, AMD_FMT_MOD_TILE_VER_GFX9); else data.override_modifier = DRM_FORMAT_MOD_LINEAR; } data.rotation = subtest->rot; test_plane_rotation(&data, subtest->plane, false); } } igt_describe("Rotation test with 90 degree for a plane of gen9+ with given position"); igt_subtest_f("sprite-rotation-90-pos-100-0") { 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_describe("Checking unsupported pixel format for gen9+ with 90 degree of rotation"); 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 */ 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_describe("Checking unsupported tiling for gen9+ with 90 degree of rotation"); igt_subtest_f("bad-tiling") { data.rotation = IGT_ROTATION_90; data.override_modifier = I915_FORMAT_MOD_X_TILED; test_plane_rotation(&data, DRM_PLANE_TYPE_PRIMARY, true); } data.override_modifier = 0; igt_describe("Tiling and Rotation test for gen 10+ for primary plane"); for (reflect_x = reflect_x_subtests; reflect_x->modifier; reflect_x++) { igt_subtest_f("primary-%s-reflect-x-%s", modifier_test_str(reflect_x->modifier), rot_test_str(reflect_x->rot)) { data.rotation = (IGT_REFLECT_X | reflect_x->rot); data.override_modifier = reflect_x->modifier; test_plane_rotation(&data, DRM_PLANE_TYPE_PRIMARY, false); } } igt_describe("Rotation test on both planes by making them fully visible"); 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_describe("Rotation test on both planes by cropping left/top corner of primary plane and" "right/top corner of sprite plane"); 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_describe("Rotation test on both planes by cropping left/bottom corner of primary plane" "and right/bottom corner of sprite plane"); 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_describe("This test intends to check for fence leaks exhaustively"); igt_subtest_f("exhaust-fences") { enum pipe pipe; igt_output_t *output; 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); } }