2 * Copyright © 2016 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
33 #include <util/macros.h>
35 #include "gen_decoder.h"
37 #include "genxml/genX_xml.h"
39 #define XML_BUFFER_SIZE 4096
41 #define MAKE_GEN(major, minor) ( ((major) << 8) | (minor) )
47 struct gen_group
*commands
[256];
49 struct gen_group
*structs
[256];
51 struct gen_group
*registers
[256];
53 struct gen_enum
*enums
[256];
61 struct parser_context
{
67 struct gen_group
*group
;
68 struct gen_enum
*enoom
;
71 struct gen_field
*fields
[128];
74 struct gen_value
*values
[256];
76 struct gen_spec
*spec
;
80 gen_group_get_name(struct gen_group
*group
)
86 gen_group_get_opcode(struct gen_group
*group
)
92 gen_spec_find_struct(struct gen_spec
*spec
, const char *name
)
94 for (int i
= 0; i
< spec
->nstructs
; i
++)
95 if (strcmp(spec
->structs
[i
]->name
, name
) == 0)
96 return spec
->structs
[i
];
102 gen_spec_find_register(struct gen_spec
*spec
, uint32_t offset
)
104 for (int i
= 0; i
< spec
->nregisters
; i
++)
105 if (spec
->registers
[i
]->register_offset
== offset
)
106 return spec
->registers
[i
];
112 gen_spec_find_register_by_name(struct gen_spec
*spec
, const char *name
)
114 for (int i
= 0; i
< spec
->nregisters
; i
++) {
115 if (strcmp(spec
->registers
[i
]->name
, name
) == 0)
116 return spec
->registers
[i
];
123 gen_spec_find_enum(struct gen_spec
*spec
, const char *name
)
125 for (int i
= 0; i
< spec
->nenums
; i
++)
126 if (strcmp(spec
->enums
[i
]->name
, name
) == 0)
127 return spec
->enums
[i
];
133 gen_spec_get_gen(struct gen_spec
*spec
)
138 static void __attribute__((noreturn
))
139 fail(struct location
*loc
, const char *msg
, ...)
144 fprintf(stderr
, "%s:%d: error: ",
145 loc
->filename
, loc
->line_number
);
146 vfprintf(stderr
, msg
, ap
);
147 fprintf(stderr
, "\n");
153 fail_on_null(void *p
)
156 fprintf(stderr
, "aubinator: out of memory\n");
164 xstrdup(const char *s
)
166 return fail_on_null(strdup(s
));
178 return fail_on_null(zalloc(s
));
181 static struct gen_group
*
182 create_group(struct parser_context
*ctx
, const char *name
, const char **atts
)
184 struct gen_group
*group
;
186 group
= xzalloc(sizeof(*group
));
188 group
->name
= xstrdup(name
);
190 group
->spec
= ctx
->spec
;
191 group
->group_offset
= 0;
192 group
->group_count
= 0;
197 static struct gen_enum
*
198 create_enum(struct parser_context
*ctx
, const char *name
, const char **atts
)
202 e
= xzalloc(sizeof(*e
));
204 e
->name
= xstrdup(name
);
212 get_group_offset_count(struct parser_context
*ctx
, const char *name
,
213 const char **atts
, uint32_t *offset
, uint32_t *count
)
218 for (i
= 0; atts
[i
]; i
+= 2) {
219 if (strcmp(atts
[i
], "count") == 0)
220 *count
= strtoul(atts
[i
+ 1], &p
, 0);
221 else if (strcmp(atts
[i
], "start") == 0)
222 *offset
= strtoul(atts
[i
+ 1], &p
, 0);
228 get_register_offset(const char **atts
, uint32_t *offset
)
233 for (i
= 0; atts
[i
]; i
+= 2) {
234 if (strcmp(atts
[i
], "num") == 0)
235 *offset
= strtoul(atts
[i
+ 1], &p
, 0);
241 get_start_end_pos(int *start
, int *end
)
243 /* start value has to be mod with 32 as we need the relative
244 * start position in the first DWord. For the end position, add
245 * the length of the field to the start position to get the
246 * relative postion in the 64 bit address.
248 if (*end
- *start
> 32) {
249 int len
= *end
- *start
;
250 *start
= *start
% 32;
253 *start
= *start
% 32;
260 static inline uint64_t
261 mask(int start
, int end
)
265 v
= ~0ULL >> (63 - end
+ start
);
270 static inline uint64_t
271 field(uint64_t value
, int start
, int end
)
273 get_start_end_pos(&start
, &end
);
274 return (value
& mask(start
, end
)) >> (start
);
277 static inline uint64_t
278 field_address(uint64_t value
, int start
, int end
)
280 /* no need to right shift for address/offset */
281 get_start_end_pos(&start
, &end
);
282 return (value
& mask(start
, end
));
285 static struct gen_type
286 string_to_type(struct parser_context
*ctx
, const char *s
)
292 if (strcmp(s
, "int") == 0)
293 return (struct gen_type
) { .kind
= GEN_TYPE_INT
};
294 else if (strcmp(s
, "uint") == 0)
295 return (struct gen_type
) { .kind
= GEN_TYPE_UINT
};
296 else if (strcmp(s
, "bool") == 0)
297 return (struct gen_type
) { .kind
= GEN_TYPE_BOOL
};
298 else if (strcmp(s
, "float") == 0)
299 return (struct gen_type
) { .kind
= GEN_TYPE_FLOAT
};
300 else if (strcmp(s
, "address") == 0)
301 return (struct gen_type
) { .kind
= GEN_TYPE_ADDRESS
};
302 else if (strcmp(s
, "offset") == 0)
303 return (struct gen_type
) { .kind
= GEN_TYPE_OFFSET
};
304 else if (sscanf(s
, "u%d.%d", &i
, &f
) == 2)
305 return (struct gen_type
) { .kind
= GEN_TYPE_UFIXED
, .i
= i
, .f
= f
};
306 else if (sscanf(s
, "s%d.%d", &i
, &f
) == 2)
307 return (struct gen_type
) { .kind
= GEN_TYPE_SFIXED
, .i
= i
, .f
= f
};
308 else if (g
= gen_spec_find_struct(ctx
->spec
, s
), g
!= NULL
)
309 return (struct gen_type
) { .kind
= GEN_TYPE_STRUCT
, .gen_struct
= g
};
310 else if (e
= gen_spec_find_enum(ctx
->spec
, s
), e
!= NULL
)
311 return (struct gen_type
) { .kind
= GEN_TYPE_ENUM
, .gen_enum
= e
};
312 else if (strcmp(s
, "mbo") == 0)
313 return (struct gen_type
) { .kind
= GEN_TYPE_MBO
};
315 fail(&ctx
->loc
, "invalid type: %s", s
);
318 static struct gen_field
*
319 create_field(struct parser_context
*ctx
, const char **atts
)
321 struct gen_field
*field
;
325 field
= xzalloc(sizeof(*field
));
327 for (i
= 0; atts
[i
]; i
+= 2) {
328 if (strcmp(atts
[i
], "name") == 0)
329 field
->name
= xstrdup(atts
[i
+ 1]);
330 else if (strcmp(atts
[i
], "start") == 0)
331 field
->start
= ctx
->group
->group_offset
+strtoul(atts
[i
+ 1], &p
, 0);
332 else if (strcmp(atts
[i
], "end") == 0) {
333 field
->end
= ctx
->group
->group_offset
+strtoul(atts
[i
+ 1], &p
, 0);
334 if (ctx
->group
->group_offset
)
335 ctx
->group
->group_offset
= field
->end
+1;
336 } else if (strcmp(atts
[i
], "type") == 0)
337 field
->type
= string_to_type(ctx
, atts
[i
+ 1]);
338 else if (strcmp(atts
[i
], "default") == 0 &&
339 field
->start
>= 16 && field
->end
<= 31) {
340 field
->has_default
= true;
341 field
->default_value
= strtoul(atts
[i
+ 1], &p
, 0);
348 static struct gen_value
*
349 create_value(struct parser_context
*ctx
, const char **atts
)
351 struct gen_value
*value
= xzalloc(sizeof(*value
));
353 for (int i
= 0; atts
[i
]; i
+= 2) {
354 if (strcmp(atts
[i
], "name") == 0)
355 value
->name
= xstrdup(atts
[i
+ 1]);
356 else if (strcmp(atts
[i
], "value") == 0)
357 value
->value
= strtoul(atts
[i
+ 1], NULL
, 0);
364 start_element(void *data
, const char *element_name
, const char **atts
)
366 struct parser_context
*ctx
= data
;
368 const char *name
= NULL
;
369 const char *gen
= NULL
;
371 ctx
->loc
.line_number
= XML_GetCurrentLineNumber(ctx
->parser
);
373 for (i
= 0; atts
[i
]; i
+= 2) {
374 if (strcmp(atts
[i
], "name") == 0)
376 else if (strcmp(atts
[i
], "gen") == 0)
380 if (strcmp(element_name
, "genxml") == 0) {
382 fail(&ctx
->loc
, "no platform name given");
384 fail(&ctx
->loc
, "no gen given");
386 ctx
->platform
= xstrdup(name
);
388 int n
= sscanf(gen
, "%d.%d", &major
, &minor
);
390 fail(&ctx
->loc
, "invalid gen given: %s", gen
);
394 ctx
->spec
->gen
= MAKE_GEN(major
, minor
);
395 } else if (strcmp(element_name
, "instruction") == 0 ||
396 strcmp(element_name
, "struct") == 0) {
397 ctx
->group
= create_group(ctx
, name
, atts
);
398 } else if (strcmp(element_name
, "register") == 0) {
399 ctx
->group
= create_group(ctx
, name
, atts
);
400 get_register_offset(atts
, &ctx
->group
->register_offset
);
401 } else if (strcmp(element_name
, "group") == 0) {
402 get_group_offset_count(ctx
, name
, atts
, &ctx
->group
->group_offset
,
403 &ctx
->group
->group_count
);
404 } else if (strcmp(element_name
, "field") == 0) {
406 ctx
->fields
[ctx
->nfields
++] = create_field(ctx
, atts
);
407 if (ctx
->group
->group_count
)
408 ctx
->group
->group_count
--;
409 } while (ctx
->group
->group_count
> 0);
410 } else if (strcmp(element_name
, "enum") == 0) {
411 ctx
->enoom
= create_enum(ctx
, name
, atts
);
412 } else if (strcmp(element_name
, "value") == 0) {
413 ctx
->values
[ctx
->nvalues
++] = create_value(ctx
, atts
);
418 end_element(void *data
, const char *name
)
420 struct parser_context
*ctx
= data
;
421 struct gen_spec
*spec
= ctx
->spec
;
423 if (strcmp(name
, "instruction") == 0 ||
424 strcmp(name
, "struct") == 0 ||
425 strcmp(name
, "register") == 0) {
426 size_t size
= ctx
->nfields
* sizeof(ctx
->fields
[0]);
427 struct gen_group
*group
= ctx
->group
;
429 group
->fields
= xzalloc(size
);
430 group
->nfields
= ctx
->nfields
;
431 memcpy(group
->fields
, ctx
->fields
, size
);
435 for (int i
= 0; i
< group
->nfields
; i
++) {
436 if (group
->fields
[i
]->start
>= 16 &&
437 group
->fields
[i
]->end
<= 31 &&
438 group
->fields
[i
]->has_default
) {
439 group
->opcode_mask
|=
440 mask(group
->fields
[i
]->start
% 32, group
->fields
[i
]->end
% 32);
442 group
->fields
[i
]->default_value
<< group
->fields
[i
]->start
;
446 if (strcmp(name
, "instruction") == 0)
447 spec
->commands
[spec
->ncommands
++] = group
;
448 else if (strcmp(name
, "struct") == 0)
449 spec
->structs
[spec
->nstructs
++] = group
;
450 else if (strcmp(name
, "register") == 0)
451 spec
->registers
[spec
->nregisters
++] = group
;
452 } else if (strcmp(name
, "group") == 0) {
453 ctx
->group
->group_offset
= 0;
454 ctx
->group
->group_count
= 0;
455 } else if (strcmp(name
, "field") == 0) {
456 assert(ctx
->nfields
> 0);
457 struct gen_field
*field
= ctx
->fields
[ctx
->nfields
- 1];
458 size_t size
= ctx
->nvalues
* sizeof(ctx
->values
[0]);
459 field
->inline_enum
.values
= xzalloc(size
);
460 field
->inline_enum
.nvalues
= ctx
->nvalues
;
461 memcpy(field
->inline_enum
.values
, ctx
->values
, size
);
463 } else if (strcmp(name
, "enum") == 0) {
464 struct gen_enum
*e
= ctx
->enoom
;
465 size_t size
= ctx
->nvalues
* sizeof(ctx
->values
[0]);
466 e
->values
= xzalloc(size
);
467 e
->nvalues
= ctx
->nvalues
;
468 memcpy(e
->values
, ctx
->values
, size
);
471 spec
->enums
[spec
->nenums
++] = e
;
476 character_data(void *data
, const XML_Char
*s
, int len
)
481 devinfo_to_gen(const struct gen_device_info
*devinfo
)
483 int value
= 10 * devinfo
->gen
;
485 if (devinfo
->is_baytrail
|| devinfo
->is_haswell
)
491 static uint32_t zlib_inflate(const void *compressed_data
,
492 uint32_t compressed_len
,
495 struct z_stream_s zstream
;
498 memset(&zstream
, 0, sizeof(zstream
));
500 zstream
.next_in
= (unsigned char *)compressed_data
;
501 zstream
.avail_in
= compressed_len
;
503 if (inflateInit(&zstream
) != Z_OK
)
507 zstream
.next_out
= out
;
508 zstream
.avail_out
= 4096;
511 switch (inflate(&zstream
, Z_SYNC_FLUSH
)) {
517 inflateEnd(&zstream
);
521 if (zstream
.avail_out
)
524 out
= realloc(out
, 2*zstream
.total_out
);
526 inflateEnd(&zstream
);
530 zstream
.next_out
= (unsigned char *)out
+ zstream
.total_out
;
531 zstream
.avail_out
= zstream
.total_out
;
534 inflateEnd(&zstream
);
536 return zstream
.total_out
;
540 gen_spec_load(const struct gen_device_info
*devinfo
)
542 struct parser_context ctx
;
545 uint32_t text_offset
= 0, text_length
= 0, total_length
;
546 uint32_t gen_10
= devinfo_to_gen(devinfo
);
548 for (int i
= 0; i
< ARRAY_SIZE(genxml_files_table
); i
++) {
549 if (genxml_files_table
[i
].gen_10
== gen_10
) {
550 text_offset
= genxml_files_table
[i
].offset
;
551 text_length
= genxml_files_table
[i
].length
;
556 if (text_length
== 0) {
557 fprintf(stderr
, "unable to find gen (%u) data\n", gen_10
);
561 memset(&ctx
, 0, sizeof ctx
);
562 ctx
.parser
= XML_ParserCreate(NULL
);
563 XML_SetUserData(ctx
.parser
, &ctx
);
564 if (ctx
.parser
== NULL
) {
565 fprintf(stderr
, "failed to create parser\n");
569 XML_SetElementHandler(ctx
.parser
, start_element
, end_element
);
570 XML_SetCharacterDataHandler(ctx
.parser
, character_data
);
572 ctx
.spec
= xzalloc(sizeof(*ctx
.spec
));
574 total_length
= zlib_inflate(compress_genxmls
,
575 sizeof(compress_genxmls
),
576 (void **) &text_data
);
577 assert(text_offset
+ text_length
<= total_length
);
579 buf
= XML_GetBuffer(ctx
.parser
, text_length
);
580 memcpy(buf
, &text_data
[text_offset
], text_length
);
582 if (XML_ParseBuffer(ctx
.parser
, text_length
, true) == 0) {
584 "Error parsing XML at line %ld col %ld byte %ld/%u: %s\n",
585 XML_GetCurrentLineNumber(ctx
.parser
),
586 XML_GetCurrentColumnNumber(ctx
.parser
),
587 XML_GetCurrentByteIndex(ctx
.parser
), text_length
,
588 XML_ErrorString(XML_GetErrorCode(ctx
.parser
)));
589 XML_ParserFree(ctx
.parser
);
594 XML_ParserFree(ctx
.parser
);
601 gen_spec_load_from_path(const struct gen_device_info
*devinfo
,
604 struct parser_context ctx
;
605 size_t len
, filename_len
= strlen(path
) + 20;
606 char *filename
= malloc(filename_len
);
610 len
= snprintf(filename
, filename_len
, "%s/gen%i.xml",
611 path
, devinfo_to_gen(devinfo
));
612 assert(len
< filename_len
);
614 input
= fopen(filename
, "r");
616 fprintf(stderr
, "failed to open xml description\n");
621 memset(&ctx
, 0, sizeof ctx
);
622 ctx
.parser
= XML_ParserCreate(NULL
);
623 XML_SetUserData(ctx
.parser
, &ctx
);
624 if (ctx
.parser
== NULL
) {
625 fprintf(stderr
, "failed to create parser\n");
631 XML_SetElementHandler(ctx
.parser
, start_element
, end_element
);
632 XML_SetCharacterDataHandler(ctx
.parser
, character_data
);
633 ctx
.loc
.filename
= filename
;
634 ctx
.spec
= xzalloc(sizeof(*ctx
.spec
));
637 buf
= XML_GetBuffer(ctx
.parser
, XML_BUFFER_SIZE
);
638 len
= fread(buf
, 1, XML_BUFFER_SIZE
, input
);
640 fprintf(stderr
, "fread: %m\n");
645 if (XML_ParseBuffer(ctx
.parser
, len
, len
== 0) == 0) {
647 "Error parsing XML at line %ld col %ld: %s\n",
648 XML_GetCurrentLineNumber(ctx
.parser
),
649 XML_GetCurrentColumnNumber(ctx
.parser
),
650 XML_ErrorString(XML_GetErrorCode(ctx
.parser
)));
657 XML_ParserFree(ctx
.parser
);
666 gen_spec_find_instruction(struct gen_spec
*spec
, const uint32_t *p
)
668 for (int i
= 0; i
< spec
->ncommands
; i
++) {
669 uint32_t opcode
= *p
& spec
->commands
[i
]->opcode_mask
;
670 if (opcode
== spec
->commands
[i
]->opcode
)
671 return spec
->commands
[i
];
678 gen_group_get_length(struct gen_group
*group
, const uint32_t *p
)
681 uint32_t type
= field(h
, 29, 31);
685 uint32_t opcode
= field(h
, 23, 28);
689 return field(h
, 0, 7) + 2;
693 case 3: /* Render */ {
694 uint32_t subtype
= field(h
, 27, 28);
695 uint32_t opcode
= field(h
, 24, 26);
699 return field(h
, 0, 7) + 2;
709 return field(h
, 0, 7) + 2;
711 return field(h
, 0, 15) + 2;
717 return field(h
, 0, 7) + 2;
728 gen_field_iterator_init(struct gen_field_iterator
*iter
,
729 struct gen_group
*group
,
736 iter
->print_colors
= print_colors
;
740 gen_get_enum_name(struct gen_enum
*e
, uint64_t value
)
742 for (int i
= 0; i
< e
->nvalues
; i
++) {
743 if (e
->values
[i
]->value
== value
) {
744 return e
->values
[i
]->name
;
751 gen_field_iterator_next(struct gen_field_iterator
*iter
)
758 if (iter
->i
== iter
->group
->nfields
)
761 iter
->field
= iter
->group
->fields
[iter
->i
++];
762 iter
->name
= iter
->field
->name
;
763 iter
->dword
= iter
->field
->start
/ 32;
764 iter
->struct_desc
= NULL
;
766 if ((iter
->field
->end
- iter
->field
->start
) > 32)
767 v
.qw
= ((uint64_t) iter
->p
[iter
->dword
+1] << 32) | iter
->p
[iter
->dword
];
769 v
.qw
= iter
->p
[iter
->dword
];
771 const char *enum_name
= NULL
;
773 switch (iter
->field
->type
.kind
) {
774 case GEN_TYPE_UNKNOWN
:
776 uint64_t value
= field(v
.qw
, iter
->field
->start
, iter
->field
->end
);
777 snprintf(iter
->value
, sizeof(iter
->value
), "%"PRId64
, value
);
778 enum_name
= gen_get_enum_name(&iter
->field
->inline_enum
, value
);
781 case GEN_TYPE_UINT
: {
782 uint64_t value
= field(v
.qw
, iter
->field
->start
, iter
->field
->end
);
783 snprintf(iter
->value
, sizeof(iter
->value
), "%"PRIu64
, value
);
784 enum_name
= gen_get_enum_name(&iter
->field
->inline_enum
, value
);
787 case GEN_TYPE_BOOL
: {
788 const char *true_string
=
789 iter
->print_colors
? "\e[0;35mtrue\e[0m" : "true";
790 snprintf(iter
->value
, sizeof(iter
->value
), "%s",
791 field(v
.qw
, iter
->field
->start
, iter
->field
->end
) ?
792 true_string
: "false");
796 snprintf(iter
->value
, sizeof(iter
->value
), "%f", v
.f
);
798 case GEN_TYPE_ADDRESS
:
799 case GEN_TYPE_OFFSET
:
800 snprintf(iter
->value
, sizeof(iter
->value
), "0x%08"PRIx64
,
801 field_address(v
.qw
, iter
->field
->start
, iter
->field
->end
));
803 case GEN_TYPE_STRUCT
:
804 snprintf(iter
->value
, sizeof(iter
->value
), "<struct %s>",
805 iter
->field
->type
.gen_struct
->name
);
807 gen_spec_find_struct(iter
->group
->spec
,
808 iter
->field
->type
.gen_struct
->name
);
810 case GEN_TYPE_UFIXED
:
811 snprintf(iter
->value
, sizeof(iter
->value
), "%f",
812 (float) field(v
.qw
, iter
->field
->start
,
813 iter
->field
->end
) / (1 << iter
->field
->type
.f
));
815 case GEN_TYPE_SFIXED
:
816 /* FIXME: Sign extend extracted field. */
817 snprintf(iter
->value
, sizeof(iter
->value
), "%s", "foo");
821 case GEN_TYPE_ENUM
: {
822 uint64_t value
= field(v
.qw
, iter
->field
->start
, iter
->field
->end
);
823 snprintf(iter
->value
, sizeof(iter
->value
),
825 enum_name
= gen_get_enum_name(iter
->field
->type
.gen_enum
, value
);
831 int length
= strlen(iter
->value
);
832 snprintf(iter
->value
+ length
, sizeof(iter
->value
) - length
,
840 print_dword_header(FILE *outfile
,
841 struct gen_field_iterator
*iter
, uint64_t offset
)
843 fprintf(outfile
, "0x%08"PRIx64
": 0x%08x : Dword %d\n",
844 offset
+ 4 * iter
->dword
, iter
->p
[iter
->dword
], iter
->dword
);
848 is_header_field(struct gen_group
*group
, struct gen_field
*field
)
852 if (field
->start
> 32)
855 bits
= (1U << (field
->end
- field
->start
+ 1)) - 1;
856 bits
<<= field
->start
;
858 return (group
->opcode_mask
& bits
) != 0;
862 gen_print_group(FILE *outfile
, struct gen_group
*group
,
863 uint64_t offset
, const uint32_t *p
, bool color
)
865 struct gen_field_iterator iter
;
868 gen_field_iterator_init(&iter
, group
, p
, color
);
869 while (gen_field_iterator_next(&iter
)) {
870 if (last_dword
!= iter
.dword
) {
871 print_dword_header(outfile
, &iter
, offset
);
872 last_dword
= iter
.dword
;
874 if (!is_header_field(group
, iter
.field
)) {
875 fprintf(outfile
, " %s: %s\n", iter
.name
, iter
.value
);
876 if (iter
.struct_desc
) {
877 uint64_t struct_offset
= offset
+ 4 * iter
.dword
;
878 print_dword_header(outfile
, &iter
, struct_offset
);
879 gen_print_group(outfile
, iter
.struct_desc
, struct_offset
,
880 &p
[iter
.dword
], color
);