2 * Copyright © 2007 Intel Corporation
4 * Permission is hereby granted, free of charge, to any person obtaining a
5 * copy of this software and associated documentation files (the "Software"),
6 * to deal in the Software without restriction, including without limitation
7 * the rights to use, copy, modify, merge, publish, distribute, sublicense,
8 * and/or sell copies of the Software, and to permit persons to whom the
9 * Software is furnished to do so, subject to the following conditions:
11 * The above copyright notice and this permission notice (including the next
12 * paragraph) shall be included in all copies or substantial portions of the
15 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
16 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
17 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
18 * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
19 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
20 * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
24 * Eric Anholt <eric@anholt.net>
28 #include "main/mtypes.h"
30 #include "brw_context.h"
31 #include "brw_defines.h"
34 * Prints out a header, the contents, and the message associated with
35 * the hardware state data given.
37 * \param name Name of the state object
38 * \param data Pointer to the base of the state object
39 * \param hw_offset Hardware offset of the base of the state data.
40 * \param index Index of the DWORD being output.
43 state_out(const char *name
, void *data
, uint32_t hw_offset
, int index
,
48 fprintf(stderr
, "%8s: 0x%08x: 0x%08x: ",
49 name
, hw_offset
+ index
* 4, ((uint32_t *)data
)[index
]);
51 vfprintf(stderr
, fmt
, va
);
55 /** Generic, undecoded state buffer debug printout */
57 state_struct_out(const char *name
, drm_intel_bo
*buffer
, unsigned int state_size
)
64 drm_intel_bo_map(buffer
, GL_FALSE
);
65 for (i
= 0; i
< state_size
/ 4; i
++) {
66 state_out(name
, buffer
->virtual, buffer
->offset
, i
,
69 drm_intel_bo_unmap(buffer
);
73 get_965_surfacetype(unsigned int surfacetype
)
75 switch (surfacetype
) {
79 case 3: return "CUBE";
80 case 4: return "BUFFER";
81 case 7: return "NULL";
82 default: return "unknown";
87 get_965_surface_format(unsigned int surface_format
)
89 switch (surface_format
) {
90 case 0x000: return "r32g32b32a32_float";
91 case 0x0c1: return "b8g8r8a8_unorm";
92 case 0x100: return "b5g6r5_unorm";
93 case 0x102: return "b5g5r5a1_unorm";
94 case 0x104: return "b4g4r4a4_unorm";
95 default: return "unknown";
99 static void dump_wm_surface_state(struct brw_context
*brw
)
103 for (i
= 0; i
< brw
->wm
.nr_surfaces
; i
++) {
104 drm_intel_bo
*surf_bo
= brw
->wm
.surf_bo
[i
];
105 unsigned int surfoff
;
106 struct brw_surface_state
*surf
;
109 if (surf_bo
== NULL
) {
110 fprintf(stderr
, "WM SURF%d: NULL\n", i
);
113 drm_intel_bo_map(surf_bo
, GL_FALSE
);
114 surfoff
= surf_bo
->offset
+ brw
->wm
.surf_offset
[i
];
115 surf
= (struct brw_surface_state
*)(surf_bo
->virtual + brw
->wm
.surf_offset
[i
]);
117 sprintf(name
, "WM SURF%d", i
);
118 state_out(name
, surf
, surfoff
, 0, "%s %s\n",
119 get_965_surfacetype(surf
->ss0
.surface_type
),
120 get_965_surface_format(surf
->ss0
.surface_format
));
121 state_out(name
, surf
, surfoff
, 1, "offset\n");
122 state_out(name
, surf
, surfoff
, 2, "%dx%d size, %d mips\n",
123 surf
->ss2
.width
+ 1, surf
->ss2
.height
+ 1, surf
->ss2
.mip_count
);
124 state_out(name
, surf
, surfoff
, 3, "pitch %d, %stiled\n",
125 surf
->ss3
.pitch
+ 1, surf
->ss3
.tiled_surface
? "" : "not ");
126 state_out(name
, surf
, surfoff
, 4, "mip base %d\n",
128 state_out(name
, surf
, surfoff
, 5, "x,y offset: %d,%d\n",
129 surf
->ss5
.x_offset
, surf
->ss5
.y_offset
);
131 drm_intel_bo_unmap(surf_bo
);
136 static void dump_wm_sampler_state(struct brw_context
*brw
)
138 struct gl_context
*ctx
= &brw
->intel
.ctx
;
141 if (!brw
->wm
.sampler_bo
) {
142 fprintf(stderr
, "WM_SAMPLER: NULL\n");
146 drm_intel_bo_map(brw
->wm
.sampler_bo
, GL_FALSE
);
147 for (i
= 0; i
< BRW_MAX_TEX_UNIT
; i
++) {
149 struct brw_sampler_state
*samp
;
150 struct brw_sampler_default_color
*sdc
;
153 if (!ctx
->Texture
.Unit
[i
]._ReallyEnabled
) {
154 fprintf(stderr
, "WM SAMP%d: disabled\n", i
);
158 offset
= brw
->wm
.sampler_bo
->offset
+
159 i
* sizeof(struct brw_sampler_state
);
160 samp
= (struct brw_sampler_state
*)(brw
->wm
.sampler_bo
->virtual +
161 i
* sizeof(struct brw_sampler_state
));
163 sprintf(name
, "WM SAMP%d", i
);
164 state_out(name
, samp
, offset
, 0, "filtering\n");
165 state_out(name
, samp
, offset
, 1, "wrapping, lod\n");
166 state_out(name
, samp
, offset
, 2, "default color pointer\n");
167 state_out(name
, samp
, offset
, 3, "chroma key, aniso\n");
169 sprintf(name
, " WM SDC%d", i
);
171 drm_intel_bo_map(brw
->wm
.sdc_bo
[i
], GL_FALSE
);
172 sdc
= (struct brw_sampler_default_color
*)(brw
->wm
.sdc_bo
[i
]->virtual);
173 state_out(name
, sdc
, brw
->wm
.sdc_bo
[i
]->offset
, 0, "r\n");
174 state_out(name
, sdc
, brw
->wm
.sdc_bo
[i
]->offset
, 1, "g\n");
175 state_out(name
, sdc
, brw
->wm
.sdc_bo
[i
]->offset
, 2, "b\n");
176 state_out(name
, sdc
, brw
->wm
.sdc_bo
[i
]->offset
, 3, "a\n");
177 drm_intel_bo_unmap(brw
->wm
.sdc_bo
[i
]);
179 drm_intel_bo_unmap(brw
->wm
.sampler_bo
);
182 static void dump_sf_viewport_state(struct brw_context
*brw
)
184 const char *name
= "SF VP";
185 struct brw_sf_viewport
*vp
;
188 if (brw
->sf
.vp_bo
== NULL
)
191 drm_intel_bo_map(brw
->sf
.vp_bo
, GL_FALSE
);
193 vp
= brw
->sf
.vp_bo
->virtual;
194 vp_off
= brw
->sf
.vp_bo
->offset
;
196 state_out(name
, vp
, vp_off
, 0, "m00 = %f\n", vp
->viewport
.m00
);
197 state_out(name
, vp
, vp_off
, 1, "m11 = %f\n", vp
->viewport
.m11
);
198 state_out(name
, vp
, vp_off
, 2, "m22 = %f\n", vp
->viewport
.m22
);
199 state_out(name
, vp
, vp_off
, 3, "m30 = %f\n", vp
->viewport
.m30
);
200 state_out(name
, vp
, vp_off
, 4, "m31 = %f\n", vp
->viewport
.m31
);
201 state_out(name
, vp
, vp_off
, 5, "m32 = %f\n", vp
->viewport
.m32
);
203 state_out(name
, vp
, vp_off
, 6, "top left = %d,%d\n",
204 vp
->scissor
.xmin
, vp
->scissor
.ymin
);
205 state_out(name
, vp
, vp_off
, 7, "bottom right = %d,%d\n",
206 vp
->scissor
.xmax
, vp
->scissor
.ymax
);
208 drm_intel_bo_unmap(brw
->sf
.vp_bo
);
211 static void dump_clip_viewport_state(struct brw_context
*brw
)
213 const char *name
= "CLIP VP";
214 struct brw_clipper_viewport
*vp
;
217 if (brw
->clip
.vp_bo
== NULL
)
220 drm_intel_bo_map(brw
->clip
.vp_bo
, GL_FALSE
);
222 vp
= brw
->clip
.vp_bo
->virtual;
223 vp_off
= brw
->clip
.vp_bo
->offset
;
225 state_out(name
, vp
, vp_off
, 0, "xmin = %f\n", vp
->xmin
);
226 state_out(name
, vp
, vp_off
, 1, "xmax = %f\n", vp
->xmax
);
227 state_out(name
, vp
, vp_off
, 2, "ymin = %f\n", vp
->ymin
);
228 state_out(name
, vp
, vp_off
, 3, "ymax = %f\n", vp
->ymax
);
229 drm_intel_bo_unmap(brw
->clip
.vp_bo
);
232 static void dump_cc_viewport_state(struct brw_context
*brw
)
234 const char *name
= "CC VP";
235 struct brw_cc_viewport
*vp
;
238 if (brw
->cc
.vp_bo
== NULL
)
241 drm_intel_bo_map(brw
->cc
.vp_bo
, GL_FALSE
);
243 vp
= brw
->cc
.vp_bo
->virtual;
244 vp_off
= brw
->cc
.vp_bo
->offset
;
246 state_out(name
, vp
, vp_off
, 0, "min_depth = %f\n", vp
->min_depth
);
247 state_out(name
, vp
, vp_off
, 1, "max_depth = %f\n", vp
->max_depth
);
248 drm_intel_bo_unmap(brw
->cc
.vp_bo
);
251 static void dump_depth_stencil_state(struct brw_context
*brw
)
253 const char *name
= "DEPTH STENCIL";
254 struct gen6_depth_stencil_state
*ds
;
257 if (brw
->cc
.depth_stencil_state_bo
== NULL
)
260 drm_intel_bo_map(brw
->cc
.depth_stencil_state_bo
, GL_FALSE
);
262 ds
= brw
->cc
.depth_stencil_state_bo
->virtual;
263 ds_off
= brw
->cc
.depth_stencil_state_bo
->offset
;
265 state_out(name
, ds
, ds_off
, 0, "stencil %sable, func %d, write %sable\n",
266 ds
->ds0
.stencil_enable
? "en" : "dis",
267 ds
->ds0
.stencil_func
,
268 ds
->ds0
.stencil_write_enable
? "en" : "dis");
269 state_out(name
, ds
, ds_off
, 1, "stencil test mask 0x%x, write mask 0x%x\n",
270 ds
->ds1
.stencil_test_mask
, ds
->ds1
.stencil_write_mask
);
271 state_out(name
, ds
, ds_off
, 2, "depth test %sable, func %d, write %sable\n",
272 ds
->ds2
.depth_test_enable
? "en" : "dis",
273 ds
->ds2
.depth_test_func
,
274 ds
->ds2
.depth_write_enable
? "en" : "dis");
275 drm_intel_bo_unmap(brw
->cc
.depth_stencil_state_bo
);
278 static void dump_cc_state(struct brw_context
*brw
)
280 const char *name
= "CC";
281 struct gen6_color_calc_state
*cc
;
284 if (brw
->cc
.state_bo
== NULL
)
287 drm_intel_bo_map(brw
->cc
.state_bo
, GL_FALSE
);
288 cc
= brw
->cc
.state_bo
->virtual;
289 cc_off
= brw
->cc
.state_bo
->offset
;
291 state_out(name
, cc
, cc_off
, 0, "alpha test format %s, round disable %d, stencil ref %d,"
292 "bf stencil ref %d\n",
293 cc
->cc0
.alpha_test_format
? "FLOAT32" : "UNORM8",
294 cc
->cc0
.round_disable
,
296 cc
->cc0
.bf_stencil_ref
);
297 state_out(name
, cc
, cc_off
, 1, "\n");
298 state_out(name
, cc
, cc_off
, 2, "constant red %f\n", cc
->constant_r
);
299 state_out(name
, cc
, cc_off
, 3, "constant green %f\n", cc
->constant_g
);
300 state_out(name
, cc
, cc_off
, 4, "constant blue %f\n", cc
->constant_b
);
301 state_out(name
, cc
, cc_off
, 5, "constant alpha %f\n", cc
->constant_a
);
303 drm_intel_bo_unmap(brw
->cc
.state_bo
);
307 static void dump_blend_state(struct brw_context
*brw
)
309 const char *name
= "BLEND";
310 struct gen6_blend_state
*blend
;
313 if (brw
->cc
.blend_state_bo
== NULL
)
316 drm_intel_bo_map(brw
->cc
.blend_state_bo
, GL_FALSE
);
318 blend
= brw
->cc
.blend_state_bo
->virtual;
319 blend_off
= brw
->cc
.blend_state_bo
->offset
;
321 state_out(name
, blend
, blend_off
, 0, "\n");
322 state_out(name
, blend
, blend_off
, 1, "\n");
324 drm_intel_bo_unmap(brw
->cc
.blend_state_bo
);
328 static void brw_debug_prog(const char *name
, drm_intel_bo
*prog
)
336 drm_intel_bo_map(prog
, GL_FALSE
);
338 data
= prog
->virtual;
340 for (i
= 0; i
< prog
->size
/ 4 / 4; i
++) {
341 fprintf(stderr
, "%8s: 0x%08x: 0x%08x 0x%08x 0x%08x 0x%08x\n",
342 name
, (unsigned int)prog
->offset
+ i
* 4 * 4,
343 data
[i
* 4], data
[i
* 4 + 1], data
[i
* 4 + 2], data
[i
* 4 + 3]);
344 /* Stop at the end of the program. It'd be nice to keep track of the actual
345 * intended program size instead of guessing like this.
347 if (data
[i
* 4 + 0] == 0 &&
348 data
[i
* 4 + 1] == 0 &&
349 data
[i
* 4 + 2] == 0 &&
350 data
[i
* 4 + 3] == 0)
354 drm_intel_bo_unmap(prog
);
359 * Print additional debug information associated with the batchbuffer
360 * when DEBUG_BATCH is set.
362 * For 965, this means mapping the state buffers that would have been referenced
363 * by the batchbuffer and dumping them.
365 * The buffer offsets printed rely on the buffer containing the last offset
366 * it was validated at.
368 void brw_debug_batch(struct intel_context
*intel
)
370 struct brw_context
*brw
= brw_context(&intel
->ctx
);
372 state_struct_out("WM bind", brw
->wm
.bind_bo
, 4 * brw
->wm
.nr_surfaces
);
373 dump_wm_surface_state(brw
);
374 dump_wm_sampler_state(brw
);
377 state_struct_out("VS", brw
->vs
.state_bo
, sizeof(struct brw_vs_unit_state
));
378 brw_debug_prog("VS prog", brw
->vs
.prog_bo
);
381 state_struct_out("GS", brw
->gs
.state_bo
, sizeof(struct brw_gs_unit_state
));
382 brw_debug_prog("GS prog", brw
->gs
.prog_bo
);
384 if (intel
->gen
< 6) {
385 state_struct_out("SF", brw
->sf
.state_bo
, sizeof(struct brw_sf_unit_state
));
386 brw_debug_prog("SF prog", brw
->sf
.prog_bo
);
388 dump_sf_viewport_state(brw
);
391 state_struct_out("WM", brw
->wm
.state_bo
, sizeof(struct brw_wm_unit_state
));
392 brw_debug_prog("WM prog", brw
->wm
.prog_bo
);
394 if (intel
->gen
>= 6) {
395 dump_cc_viewport_state(brw
);
396 dump_clip_viewport_state(brw
);
397 dump_depth_stencil_state(brw
);
399 dump_blend_state(brw
);