2 * Copyright © 2016 Red Hat.
3 * Copyright © 2016 Bas Nieuwenhuizen
5 * based in part on anv driver which is:
6 * Copyright © 2015 Intel Corporation
8 * Permission is hereby granted, free of charge, to any person obtaining a
9 * copy of this software and associated documentation files (the "Software"),
10 * to deal in the Software without restriction, including without limitation
11 * the rights to use, copy, modify, merge, publish, distribute, sublicense,
12 * and/or sell copies of the Software, and to permit persons to whom the
13 * Software is furnished to do so, subject to the following conditions:
15 * The above copyright notice and this permission notice (including the next
16 * paragraph) shall be included in all copies or substantial portions of the
19 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
20 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
21 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
22 * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
23 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
24 * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
30 #include <sys/utsname.h>
32 #include "util/mesa-sha1.h"
36 #include "radv_debug.h"
37 #include "radv_shader.h"
39 #define TRACE_BO_SIZE 4096
41 #define COLOR_RESET "\033[0m"
42 #define COLOR_RED "\033[31m"
43 #define COLOR_GREEN "\033[1;32m"
44 #define COLOR_YELLOW "\033[1;33m"
45 #define COLOR_CYAN "\033[1;36m"
47 /* Trace BO layout (offsets are 4 bytes):
49 * [0]: primary trace ID
50 * [1]: secondary trace ID
51 * [2-3]: 64-bit GFX pipeline pointer
52 * [4-5]: 64-bit COMPUTE pipeline pointer
53 * [6-7]: 64-bit descriptor set #0 pointer
55 * [68-69]: 64-bit descriptor set #31 pointer
59 radv_init_trace(struct radv_device
*device
)
61 struct radeon_winsys
*ws
= device
->ws
;
63 device
->trace_bo
= ws
->buffer_create(ws
, TRACE_BO_SIZE
, 8,
65 RADEON_FLAG_CPU_ACCESS
|
66 RADEON_FLAG_NO_INTERPROCESS_SHARING
,
67 RADV_BO_PRIORITY_UPLOAD_BUFFER
);
68 if (!device
->trace_bo
)
71 device
->trace_id_ptr
= ws
->buffer_map(device
->trace_bo
);
72 if (!device
->trace_id_ptr
)
75 memset(device
->trace_id_ptr
, 0, TRACE_BO_SIZE
);
77 ac_vm_fault_occured(device
->physical_device
->rad_info
.chip_class
,
78 &device
->dmesg_timestamp
, NULL
);
84 radv_dump_trace(struct radv_device
*device
, struct radeon_cmdbuf
*cs
)
86 const char *filename
= getenv("RADV_TRACE_FILE");
87 FILE *f
= fopen(filename
, "w");
90 fprintf(stderr
, "Failed to write trace dump to %s\n", filename
);
94 fprintf(f
, "Trace ID: %x\n", *device
->trace_id_ptr
);
95 device
->ws
->cs_dump(cs
, f
, (const int*)device
->trace_id_ptr
, 2);
100 radv_dump_mmapped_reg(struct radv_device
*device
, FILE *f
, unsigned offset
)
102 struct radeon_winsys
*ws
= device
->ws
;
105 if (ws
->read_registers(ws
, offset
, 1, &value
))
106 ac_dump_reg(f
, device
->physical_device
->rad_info
.chip_class
,
111 radv_dump_debug_registers(struct radv_device
*device
, FILE *f
)
113 struct radeon_info
*info
= &device
->physical_device
->rad_info
;
115 if (info
->drm_major
== 2 && info
->drm_minor
< 42)
116 return; /* no radeon support */
118 fprintf(f
, "Memory-mapped registers:\n");
119 radv_dump_mmapped_reg(device
, f
, R_008010_GRBM_STATUS
);
121 /* No other registers can be read on DRM < 3.1.0. */
122 if (info
->drm_major
< 3 || info
->drm_minor
< 1) {
127 radv_dump_mmapped_reg(device
, f
, R_008008_GRBM_STATUS2
);
128 radv_dump_mmapped_reg(device
, f
, R_008014_GRBM_STATUS_SE0
);
129 radv_dump_mmapped_reg(device
, f
, R_008018_GRBM_STATUS_SE1
);
130 radv_dump_mmapped_reg(device
, f
, R_008038_GRBM_STATUS_SE2
);
131 radv_dump_mmapped_reg(device
, f
, R_00803C_GRBM_STATUS_SE3
);
132 radv_dump_mmapped_reg(device
, f
, R_00D034_SDMA0_STATUS_REG
);
133 radv_dump_mmapped_reg(device
, f
, R_00D834_SDMA1_STATUS_REG
);
134 if (info
->chip_class
<= VI
) {
135 radv_dump_mmapped_reg(device
, f
, R_000E50_SRBM_STATUS
);
136 radv_dump_mmapped_reg(device
, f
, R_000E4C_SRBM_STATUS2
);
137 radv_dump_mmapped_reg(device
, f
, R_000E54_SRBM_STATUS3
);
139 radv_dump_mmapped_reg(device
, f
, R_008680_CP_STAT
);
140 radv_dump_mmapped_reg(device
, f
, R_008674_CP_STALLED_STAT1
);
141 radv_dump_mmapped_reg(device
, f
, R_008678_CP_STALLED_STAT2
);
142 radv_dump_mmapped_reg(device
, f
, R_008670_CP_STALLED_STAT3
);
143 radv_dump_mmapped_reg(device
, f
, R_008210_CP_CPC_STATUS
);
144 radv_dump_mmapped_reg(device
, f
, R_008214_CP_CPC_BUSY_STAT
);
145 radv_dump_mmapped_reg(device
, f
, R_008218_CP_CPC_STALLED_STAT1
);
146 radv_dump_mmapped_reg(device
, f
, R_00821C_CP_CPF_STATUS
);
147 radv_dump_mmapped_reg(device
, f
, R_008220_CP_CPF_BUSY_STAT
);
148 radv_dump_mmapped_reg(device
, f
, R_008224_CP_CPF_STALLED_STAT1
);
153 radv_get_descriptor_name(enum VkDescriptorType type
)
156 case VK_DESCRIPTOR_TYPE_SAMPLER
:
158 case VK_DESCRIPTOR_TYPE_COMBINED_IMAGE_SAMPLER
:
159 return "COMBINED_IMAGE_SAMPLER";
160 case VK_DESCRIPTOR_TYPE_SAMPLED_IMAGE
:
161 return "SAMPLED_IMAGE";
162 case VK_DESCRIPTOR_TYPE_STORAGE_IMAGE
:
163 return "STORAGE_IMAGE";
164 case VK_DESCRIPTOR_TYPE_UNIFORM_TEXEL_BUFFER
:
165 return "UNIFORM_TEXEL_BUFFER";
166 case VK_DESCRIPTOR_TYPE_STORAGE_TEXEL_BUFFER
:
167 return "STORAGE_TEXEL_BUFFER";
168 case VK_DESCRIPTOR_TYPE_UNIFORM_BUFFER
:
169 return "UNIFORM_BUFFER";
170 case VK_DESCRIPTOR_TYPE_STORAGE_BUFFER
:
171 return "STORAGE_BUFFER";
172 case VK_DESCRIPTOR_TYPE_UNIFORM_BUFFER_DYNAMIC
:
173 return "UNIFORM_BUFFER_DYNAMIC";
174 case VK_DESCRIPTOR_TYPE_STORAGE_BUFFER_DYNAMIC
:
175 return "STORAGE_BUFFER_DYNAMIC";
176 case VK_DESCRIPTOR_TYPE_INPUT_ATTACHMENT
:
177 return "INPUT_ATTACHMENT";
184 radv_dump_buffer_descriptor(enum chip_class chip_class
, const uint32_t *desc
,
187 fprintf(f
, COLOR_CYAN
" Buffer:" COLOR_RESET
"\n");
188 for (unsigned j
= 0; j
< 4; j
++)
189 ac_dump_reg(f
, chip_class
, R_008F00_SQ_BUF_RSRC_WORD0
+ j
* 4,
190 desc
[j
], 0xffffffff);
194 radv_dump_image_descriptor(enum chip_class chip_class
, const uint32_t *desc
,
197 fprintf(f
, COLOR_CYAN
" Image:" COLOR_RESET
"\n");
198 for (unsigned j
= 0; j
< 8; j
++)
199 ac_dump_reg(f
, chip_class
, R_008F10_SQ_IMG_RSRC_WORD0
+ j
* 4,
200 desc
[j
], 0xffffffff);
202 fprintf(f
, COLOR_CYAN
" FMASK:" COLOR_RESET
"\n");
203 for (unsigned j
= 0; j
< 8; j
++)
204 ac_dump_reg(f
, chip_class
, R_008F10_SQ_IMG_RSRC_WORD0
+ j
* 4,
205 desc
[8 + j
], 0xffffffff);
209 radv_dump_sampler_descriptor(enum chip_class chip_class
, const uint32_t *desc
,
212 fprintf(f
, COLOR_CYAN
" Sampler state:" COLOR_RESET
"\n");
213 for (unsigned j
= 0; j
< 4; j
++) {
214 ac_dump_reg(f
, chip_class
, R_008F30_SQ_IMG_SAMP_WORD0
+ j
* 4,
215 desc
[j
], 0xffffffff);
220 radv_dump_combined_image_sampler_descriptor(enum chip_class chip_class
,
221 const uint32_t *desc
, FILE *f
)
223 radv_dump_image_descriptor(chip_class
, desc
, f
);
224 radv_dump_sampler_descriptor(chip_class
, desc
+ 16, f
);
228 radv_dump_descriptor_set(enum chip_class chip_class
,
229 struct radv_descriptor_set
*set
, unsigned id
, FILE *f
)
231 const struct radv_descriptor_set_layout
*layout
;
236 layout
= set
->layout
;
238 fprintf(f
, "** descriptor set (%d) **\n", id
);
239 fprintf(f
, "va: 0x%"PRIx64
"\n", set
->va
);
240 fprintf(f
, "size: %d\n", set
->size
);
241 fprintf(f
, "mapped_ptr:\n");
243 for (i
= 0; i
< set
->size
/ 4; i
++) {
244 fprintf(f
, "\t[0x%x] = 0x%08x\n", i
, set
->mapped_ptr
[i
]);
248 fprintf(f
, "\t*** layout ***\n");
249 fprintf(f
, "\tbinding_count: %d\n", layout
->binding_count
);
250 fprintf(f
, "\tsize: %d\n", layout
->size
);
251 fprintf(f
, "\tshader_stages: %x\n", layout
->shader_stages
);
252 fprintf(f
, "\tdynamic_shader_stages: %x\n",
253 layout
->dynamic_shader_stages
);
254 fprintf(f
, "\tbuffer_count: %d\n", layout
->buffer_count
);
255 fprintf(f
, "\tdynamic_offset_count: %d\n",
256 layout
->dynamic_offset_count
);
259 for (i
= 0; i
< set
->layout
->binding_count
; i
++) {
261 set
->mapped_ptr
+ layout
->binding
[i
].offset
/ 4;
263 fprintf(f
, "\t\t**** binding layout (%d) ****\n", i
);
264 fprintf(f
, "\t\ttype: %s\n",
265 radv_get_descriptor_name(layout
->binding
[i
].type
));
266 fprintf(f
, "\t\tarray_size: %d\n",
267 layout
->binding
[i
].array_size
);
268 fprintf(f
, "\t\toffset: %d\n",
269 layout
->binding
[i
].offset
);
270 fprintf(f
, "\t\tbuffer_offset: %d\n",
271 layout
->binding
[i
].buffer_offset
);
272 fprintf(f
, "\t\tdynamic_offset_offset: %d\n",
273 layout
->binding
[i
].dynamic_offset_offset
);
274 fprintf(f
, "\t\tdynamic_offset_count: %d\n",
275 layout
->binding
[i
].dynamic_offset_count
);
276 fprintf(f
, "\t\tsize: %d\n",
277 layout
->binding
[i
].size
);
278 fprintf(f
, "\t\timmutable_samplers_offset: %d\n",
279 layout
->binding
[i
].immutable_samplers_offset
);
280 fprintf(f
, "\t\timmutable_samplers_equal: %d\n",
281 layout
->binding
[i
].immutable_samplers_equal
);
284 switch (layout
->binding
[i
].type
) {
285 case VK_DESCRIPTOR_TYPE_UNIFORM_BUFFER
:
286 case VK_DESCRIPTOR_TYPE_STORAGE_BUFFER
:
287 case VK_DESCRIPTOR_TYPE_UNIFORM_TEXEL_BUFFER
:
288 case VK_DESCRIPTOR_TYPE_STORAGE_TEXEL_BUFFER
:
289 radv_dump_buffer_descriptor(chip_class
, desc
, f
);
291 case VK_DESCRIPTOR_TYPE_STORAGE_IMAGE
:
292 case VK_DESCRIPTOR_TYPE_SAMPLED_IMAGE
:
293 case VK_DESCRIPTOR_TYPE_INPUT_ATTACHMENT
:
294 radv_dump_image_descriptor(chip_class
, desc
, f
);
296 case VK_DESCRIPTOR_TYPE_COMBINED_IMAGE_SAMPLER
:
297 radv_dump_combined_image_sampler_descriptor(chip_class
, desc
, f
);
299 case VK_DESCRIPTOR_TYPE_SAMPLER
:
300 radv_dump_sampler_descriptor(chip_class
, desc
, f
);
302 case VK_DESCRIPTOR_TYPE_UNIFORM_BUFFER_DYNAMIC
:
303 case VK_DESCRIPTOR_TYPE_STORAGE_BUFFER_DYNAMIC
:
307 assert(!"unknown descriptor type");
316 radv_dump_descriptors(struct radv_pipeline
*pipeline
, FILE *f
)
318 struct radv_device
*device
= pipeline
->device
;
319 enum chip_class chip_class
= device
->physical_device
->rad_info
.chip_class
;
320 uint64_t *ptr
= (uint64_t *)device
->trace_id_ptr
;
323 fprintf(f
, "List of descriptors:\n");
324 for (i
= 0; i
< MAX_SETS
; i
++) {
325 struct radv_descriptor_set
*set
=
326 (struct radv_descriptor_set
*)ptr
[i
+ 3];
328 radv_dump_descriptor_set(chip_class
, set
, i
, f
);
332 struct radv_shader_inst
{
333 char text
[160]; /* one disasm line */
334 unsigned offset
; /* instruction offset */
335 unsigned size
; /* instruction size = 4 or 8 */
338 /* Split a disassembly string into lines and add them to the array pointed
339 * to by "instructions". */
340 static void si_add_split_disasm(const char *disasm
,
343 struct radv_shader_inst
*instructions
)
345 struct radv_shader_inst
*last_inst
= *num
? &instructions
[*num
- 1] : NULL
;
348 while ((next
= strchr(disasm
, '\n'))) {
349 struct radv_shader_inst
*inst
= &instructions
[*num
];
350 unsigned len
= next
- disasm
;
352 assert(len
< ARRAY_SIZE(inst
->text
));
353 memcpy(inst
->text
, disasm
, len
);
355 inst
->offset
= last_inst
? last_inst
->offset
+ last_inst
->size
: 0;
357 const char *semicolon
= strchr(disasm
, ';');
359 /* More than 16 chars after ";" means the instruction is 8 bytes long. */
360 inst
->size
= next
- semicolon
> 16 ? 8 : 4;
362 snprintf(inst
->text
+ len
, ARRAY_SIZE(inst
->text
) - len
,
363 " [PC=0x%"PRIx64
", off=%u, size=%u]",
364 start_addr
+ inst
->offset
, inst
->offset
, inst
->size
);
373 radv_dump_annotated_shader(struct radv_shader_variant
*shader
,
374 gl_shader_stage stage
, struct ac_wave_info
*waves
,
375 unsigned num_waves
, FILE *f
)
377 uint64_t start_addr
, end_addr
;
383 start_addr
= radv_buffer_get_va(shader
->bo
) + shader
->bo_offset
;
384 end_addr
= start_addr
+ shader
->code_size
;
386 /* See if any wave executes the shader. */
387 for (i
= 0; i
< num_waves
; i
++) {
388 if (start_addr
<= waves
[i
].pc
&& waves
[i
].pc
<= end_addr
)
393 return; /* the shader is not being executed */
395 /* Remember the first found wave. The waves are sorted according to PC. */
399 /* Get the list of instructions.
400 * Buffer size / 4 is the upper bound of the instruction count.
402 unsigned num_inst
= 0;
403 struct radv_shader_inst
*instructions
=
404 calloc(shader
->code_size
/ 4, sizeof(struct radv_shader_inst
));
406 si_add_split_disasm(shader
->disasm_string
,
407 start_addr
, &num_inst
, instructions
);
409 fprintf(f
, COLOR_YELLOW
"%s - annotated disassembly:" COLOR_RESET
"\n",
410 radv_get_shader_name(shader
, stage
));
412 /* Print instructions with annotations. */
413 for (i
= 0; i
< num_inst
; i
++) {
414 struct radv_shader_inst
*inst
= &instructions
[i
];
416 fprintf(f
, "%s\n", inst
->text
);
418 /* Print which waves execute the instruction right now. */
419 while (num_waves
&& start_addr
+ inst
->offset
== waves
->pc
) {
421 " " COLOR_GREEN
"^ SE%u SH%u CU%u "
422 "SIMD%u WAVE%u EXEC=%016"PRIx64
" ",
423 waves
->se
, waves
->sh
, waves
->cu
, waves
->simd
,
424 waves
->wave
, waves
->exec
);
426 if (inst
->size
== 4) {
427 fprintf(f
, "INST32=%08X" COLOR_RESET
"\n",
430 fprintf(f
, "INST64=%08X %08X" COLOR_RESET
"\n",
431 waves
->inst_dw0
, waves
->inst_dw1
);
434 waves
->matched
= true;
445 radv_dump_annotated_shaders(struct radv_pipeline
*pipeline
,
446 VkShaderStageFlagBits active_stages
, FILE *f
)
448 struct ac_wave_info waves
[AC_MAX_WAVES_PER_CHIP
];
449 unsigned num_waves
= ac_get_wave_info(waves
);
451 fprintf(f
, COLOR_CYAN
"The number of active waves = %u" COLOR_RESET
454 /* Dump annotated active graphics shaders. */
455 while (active_stages
) {
456 int stage
= u_bit_scan(&active_stages
);
458 radv_dump_annotated_shader(pipeline
->shaders
[stage
],
459 stage
, waves
, num_waves
, f
);
462 /* Print waves executing shaders that are not currently bound. */
465 for (i
= 0; i
< num_waves
; i
++) {
466 if (waves
[i
].matched
)
470 fprintf(f
, COLOR_CYAN
471 "Waves not executing currently-bound shaders:"
475 fprintf(f
, " SE%u SH%u CU%u SIMD%u WAVE%u EXEC=%016"PRIx64
476 " INST=%08X %08X PC=%"PRIx64
"\n",
477 waves
[i
].se
, waves
[i
].sh
, waves
[i
].cu
, waves
[i
].simd
,
478 waves
[i
].wave
, waves
[i
].exec
, waves
[i
].inst_dw0
,
479 waves
[i
].inst_dw1
, waves
[i
].pc
);
486 radv_dump_shader(struct radv_pipeline
*pipeline
,
487 struct radv_shader_variant
*shader
, gl_shader_stage stage
,
493 fprintf(f
, "%s:\n\n", radv_get_shader_name(shader
, stage
));
496 unsigned char sha1
[21];
499 _mesa_sha1_compute(shader
->spirv
, shader
->spirv_size
, sha1
);
500 _mesa_sha1_format(sha1buf
, sha1
);
502 fprintf(f
, "SPIRV (sha1: %s):\n", sha1buf
);
503 radv_print_spirv(shader
->spirv
, shader
->spirv_size
, f
);
507 fprintf(f
, "NIR:\n");
508 nir_print_shader(shader
->nir
, f
);
511 fprintf(f
, "LLVM IR:\n%s\n", shader
->llvm_ir_string
);
512 fprintf(f
, "DISASM:\n%s\n", shader
->disasm_string
);
514 radv_shader_dump_stats(pipeline
->device
, shader
, stage
, f
);
518 radv_dump_shaders(struct radv_pipeline
*pipeline
,
519 VkShaderStageFlagBits active_stages
, FILE *f
)
521 /* Dump active graphics shaders. */
522 while (active_stages
) {
523 int stage
= u_bit_scan(&active_stages
);
525 radv_dump_shader(pipeline
, pipeline
->shaders
[stage
], stage
, f
);
530 radv_dump_pipeline_state(struct radv_pipeline
*pipeline
,
531 VkShaderStageFlagBits active_stages
, FILE *f
)
533 radv_dump_shaders(pipeline
, active_stages
, f
);
534 radv_dump_annotated_shaders(pipeline
, active_stages
, f
);
535 radv_dump_descriptors(pipeline
, f
);
539 radv_dump_graphics_state(struct radv_pipeline
*graphics_pipeline
,
540 struct radv_pipeline
*compute_pipeline
, FILE *f
)
542 VkShaderStageFlagBits active_stages
;
544 if (graphics_pipeline
) {
545 active_stages
= graphics_pipeline
->active_stages
;
546 radv_dump_pipeline_state(graphics_pipeline
, active_stages
, f
);
549 if (compute_pipeline
) {
550 active_stages
= VK_SHADER_STAGE_COMPUTE_BIT
;
551 radv_dump_pipeline_state(compute_pipeline
, active_stages
, f
);
556 radv_dump_compute_state(struct radv_pipeline
*compute_pipeline
, FILE *f
)
558 VkShaderStageFlagBits active_stages
= VK_SHADER_STAGE_COMPUTE_BIT
;
560 if (!compute_pipeline
)
563 radv_dump_pipeline_state(compute_pipeline
, active_stages
, f
);
566 static struct radv_pipeline
*
567 radv_get_saved_graphics_pipeline(struct radv_device
*device
)
569 uint64_t *ptr
= (uint64_t *)device
->trace_id_ptr
;
571 return (struct radv_pipeline
*)ptr
[1];
574 static struct radv_pipeline
*
575 radv_get_saved_compute_pipeline(struct radv_device
*device
)
577 uint64_t *ptr
= (uint64_t *)device
->trace_id_ptr
;
579 return (struct radv_pipeline
*)ptr
[2];
583 radv_dump_dmesg(FILE *f
)
588 p
= popen("dmesg | tail -n60", "r");
592 fprintf(f
, "\nLast 60 lines of dmesg:\n\n");
593 while (fgets(line
, sizeof(line
), p
))
601 radv_dump_enabled_options(struct radv_device
*device
, FILE *f
)
605 if (device
->instance
->debug_flags
) {
606 fprintf(f
, "Enabled debug options: ");
608 mask
= device
->instance
->debug_flags
;
610 int i
= u_bit_scan64(&mask
);
611 fprintf(f
, "%s, ", radv_get_debug_option_name(i
));
616 if (device
->instance
->perftest_flags
) {
617 fprintf(f
, "Enabled perftest options: ");
619 mask
= device
->instance
->perftest_flags
;
621 int i
= u_bit_scan64(&mask
);
622 fprintf(f
, "%s, ", radv_get_perftest_option_name(i
));
629 radv_dump_device_name(struct radv_device
*device
, FILE *f
)
631 struct radeon_info
*info
= &device
->physical_device
->rad_info
;
632 char kernel_version
[128] = {};
633 struct utsname uname_data
;
634 const char *chip_name
;
636 chip_name
= device
->ws
->get_chip_name(device
->ws
);
638 if (uname(&uname_data
) == 0)
639 snprintf(kernel_version
, sizeof(kernel_version
),
640 " / %s", uname_data
.release
);
642 fprintf(f
, "Device name: %s (%s DRM %i.%i.%i%s, LLVM "
643 MESA_LLVM_VERSION_STRING
")\n\n",
644 chip_name
, device
->physical_device
->name
,
645 info
->drm_major
, info
->drm_minor
, info
->drm_patchlevel
,
650 radv_gpu_hang_occured(struct radv_queue
*queue
, enum ring_type ring
)
652 struct radeon_winsys
*ws
= queue
->device
->ws
;
654 if (!ws
->ctx_wait_idle(queue
->hw_ctx
, ring
, queue
->queue_idx
))
661 radv_check_gpu_hangs(struct radv_queue
*queue
, struct radeon_cmdbuf
*cs
)
663 struct radv_pipeline
*graphics_pipeline
, *compute_pipeline
;
664 struct radv_device
*device
= queue
->device
;
668 ring
= radv_queue_family_to_ring(queue
->queue_family_index
);
670 bool hang_occurred
= radv_gpu_hang_occured(queue
, ring
);
671 bool vm_fault_occurred
= false;
672 if (queue
->device
->instance
->debug_flags
& RADV_DEBUG_VM_FAULTS
)
673 vm_fault_occurred
= ac_vm_fault_occured(device
->physical_device
->rad_info
.chip_class
,
674 &device
->dmesg_timestamp
, &addr
);
675 if (!hang_occurred
&& !vm_fault_occurred
)
678 graphics_pipeline
= radv_get_saved_graphics_pipeline(device
);
679 compute_pipeline
= radv_get_saved_compute_pipeline(device
);
681 fprintf(stderr
, "GPU hang report:\n\n");
682 radv_dump_device_name(device
, stderr
);
684 radv_dump_enabled_options(device
, stderr
);
685 radv_dump_dmesg(stderr
);
687 if (vm_fault_occurred
) {
688 fprintf(stderr
, "VM fault report.\n\n");
689 fprintf(stderr
, "Failing VM page: 0x%08"PRIx64
"\n\n", addr
);
692 radv_dump_debug_registers(device
, stderr
);
696 radv_dump_graphics_state(graphics_pipeline
, compute_pipeline
,
700 radv_dump_compute_state(compute_pipeline
, stderr
);
707 radv_dump_trace(queue
->device
, cs
);
712 radv_print_spirv(uint32_t *data
, uint32_t size
, FILE *fp
)
714 char path
[] = "/tmp/fileXXXXXX";
715 char line
[2048], command
[128];
719 /* Dump the binary into a temporary file. */
724 if (write(fd
, data
, size
) == -1)
727 sprintf(command
, "spirv-dis %s", path
);
729 /* Disassemble using spirv-dis if installed. */
730 p
= popen(command
, "r");
732 while (fgets(line
, sizeof(line
), p
))
733 fprintf(fp
, "%s", line
);