1 /*
2 * CDDL HEADER START
3 *
4 * The contents of this file are subject to the terms of the
5 * Common Development and Distribution License (the "License").
6 * You may not use this file except in compliance with the License.
7 *
8 * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9 * or http://www.opensolaris.org/os/licensing.
10 * See the License for the specific language governing permissions
11 * and limitations under the License.
12 *
13 * When distributing Covered Code, include this CDDL HEADER in each
14 * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15 * If applicable, add the following below this CDDL HEADER, with the
16 * fields enclosed by brackets "[]" replaced with your own identifying
17 * information: Portions Copyright [yyyy] [name of copyright owner]
18 *
19 * CDDL HEADER END
20 */
21
22 /*
23 * Copyright 2008 Sun Microsystems, Inc. All rights reserved.
24 * Use is subject to license terms.
25 */
26 /*
27 * Copyright 2012 DEY Storage Systems, Inc. All rights reserved.
28 * Copyright (c) 2013, Joyent, Inc. All rights reserved.
29 */
30
31 #include <stdlib.h>
32 #include <stdio.h>
33 #include <string.h>
34 #include <sys/types.h>
35 #include <unistd.h>
36 #include <sys/corectl.h>
37 #include <msg.h>
38 #include <_elfdump.h>
39 #include <struct_layout.h>
40 #include <conv.h>
41
42
43 /*
44 * This module contains the code that displays data from the note
45 * sections found in Solaris core files. The format of these
46 * note sections are described in the core(4) manpage.
47 */
48
49
50
51
52 /*
53 * Much of the code in this file uses the "%*s" format to set
54 * the left margin indentation. This macro combines the indent
55 * integer argument and the NULL string that follows it.
56 */
57 #define INDENT state->ns_indent, MSG_ORIG(MSG_STR_EMPTY)
58
59 /*
60 * Indent unit, used for each nesting
61 */
62 #define INDENT_STEP 4
63
64 /*
65 * The PRINT_ macros are convenience wrappers on print_num(),
66 * print_subtype(), and print_strbuf(). They reduce code
67 * clutter by hiding the boilerplate arguments.
68 *
69 * Assumptions:
70 * - A variable named "layout" exists in the compilation
71 * environment, referencing the layout information for the
72 * current type.
73 * - The variable "state" references the current note state.
74 */
75 #define PRINT_DEC(_title, _field) \
76 print_num(state, _title, &layout->_field, SL_FMT_NUM_DEC)
77 #define PRINT_DEC_2UP(_title1, _field1, _title2, _field2) \
78 print_num_2up(state, _title1, &layout->_field1, SL_FMT_NUM_DEC, \
79 _title2, &layout->_field2, SL_FMT_NUM_DEC)
80 #define PRINT_HEX(_title, _field) \
81 print_num(state, _title, &layout->_field, SL_FMT_NUM_HEX)
82 #define PRINT_HEX_2UP(_title1, _field1, _title2, _field2) \
83 print_num_2up(state, _title1, &layout->_field1, SL_FMT_NUM_HEX, \
84 _title2, &layout->_field2, SL_FMT_NUM_HEX)
85 #define PRINT_ZHEX(_title, _field) \
86 print_num(state, _title, &layout->_field, SL_FMT_NUM_ZHEX)
87 #define PRINT_ZHEX_2UP(_title1, _field1, _title2, _field2) \
88 print_num_2up(state, _title1, &layout->_field1, SL_FMT_NUM_ZHEX, \
89 _title2, &layout->_field2, SL_FMT_NUM_ZHEX)
90 #define PRINT_SUBTYPE(_title, _field, _func) \
91 print_subtype(state, _title, &layout->_field, _func)
92 #define PRINT_STRBUF(_title, _field) \
93 print_strbuf(state, _title, &layout->_field)
94
95
96
97 /*
98 * Structure used to maintain state data for a core note, or a subregion
99 * (sub-struct) of a core note. These values would otherwise need to be
100 * passed to nearly every routine.
101 */
102 typedef struct {
103 Half ns_mach; /* ELF machine type of core file */
104 const sl_arch_layout_t *ns_arch; /* structure layout def for mach */
105 int ns_swap; /* True if byte swapping is needed */
106 int ns_indent; /* Left margin indentation */
107 int ns_vcol; /* Column where value starts */
108 int ns_t2col; /* Column where 2up title starts */
109 int ns_v2col; /* Column where 2up value starts */
110 const char *ns_data; /* Pointer to struct data area */
111 Word ns_len; /* Length of struct data area */
112 } note_state_t;
113
114 /*
115 * Standard signature for a dump function used to process a note
116 * or a sub-structure within a note.
117 */
118 typedef void (* dump_func_t)(note_state_t *state, const char *title);
119
120
121
122
123
124
125 /*
126 * Some core notes contain string buffers of fixed size
127 * that are expected to contain NULL terminated strings.
128 * If the NULL is there, we can print these strings directly.
129 * However, the potential exists for a corrupt file to have
130 * a non-terminated buffer. This routine examines the given
131 * string, and if the string is terminated, the string itself
132 * is returned. Otherwise, it is copied to a static buffer,
133 * and a pointer to the buffer is returned.
134 */
135 static const char *
136 safe_str(const char *str, size_t n)
137 {
138 static char buf[512];
139 char *s;
140 size_t i;
141
142 if (n == 0)
143 return (MSG_ORIG(MSG_STR_EMPTY));
144
145 for (i = 0; i < n; i++)
146 if (str[i] == '\0')
147 return (str);
148
149 i = (n >= sizeof (buf)) ? (sizeof (buf) - 4) : (n - 1);
150 (void) memcpy(buf, str, i);
151 s = buf + i;
152 if (n >= sizeof (buf)) {
153 *s++ = '.';
154 *s++ = '.';
155 *s++ = '.';
156 }
157 *s = '\0';
158 return (buf);
159 }
160
161 /*
162 * Convenience wrappers on top of the corresponding sl_XXX() functions.
163 */
164 static Word
165 extract_as_word(note_state_t *state, const sl_field_t *fdesc)
166 {
167 return (sl_extract_as_word(state->ns_data, state->ns_swap, fdesc));
168 }
169 static Word
170 extract_as_lword(note_state_t *state, const sl_field_t *fdesc)
171 {
172 return (sl_extract_as_lword(state->ns_data, state->ns_swap, fdesc));
173 }
174 static int
175 extract_as_sword(note_state_t *state, const sl_field_t *fdesc)
176 {
177 return (sl_extract_as_sword(state->ns_data, state->ns_swap, fdesc));
178 }
179 static const char *
180 fmt_num(note_state_t *state, const sl_field_t *fdesc,
181 sl_fmt_num_t fmt_type, sl_fmtbuf_t buf)
182 {
183 return (sl_fmt_num(state->ns_data, state->ns_swap, fdesc,
184 fmt_type, buf));
185 }
186
187
188 /*
189 * Return true of the data for the specified field is available.
190 */
191 inline static int
192 data_present(note_state_t *state, const sl_field_t *fdesc)
193 {
194 return ((fdesc->slf_offset + fdesc->slf_eltlen) <= state->ns_len);
195 }
196
197 /*
198 * indent_enter/exit are used to start/end output for a subitem.
199 * On entry, a title is output, and the indentation level is raised
200 * by one unit. On exit, the indentation level is restrored to its
201 * previous value.
202 */
203 static void
204 indent_enter(note_state_t *state, const char *title,
205 const sl_field_t *first_fdesc)
206 {
207 /*
208 * If the first field offset and extent fall past the end of the
209 * available data, then return without printing a title. That note
210 * is from an older core file that doesn't have all the fields
211 * that we know about.
212 */
213 if (data_present(state, first_fdesc))
214 dbg_print(0, MSG_ORIG(MSG_CNOTE_FMT_TITLE), INDENT, title);
215
216 state->ns_indent += INDENT_STEP;
217 }
218 static void
219 indent_exit(note_state_t *state)
220 {
221 state->ns_indent -= INDENT_STEP;
222 }
223
224
225 /*
226 * print_num outputs a field on one line, in the format:
227 *
228 * title: value
229 */
230 static void
231 print_num(note_state_t *state, const char *title,
232 const sl_field_t *fdesc, sl_fmt_num_t fmt_type)
233 {
234 sl_fmtbuf_t buf;
235
236 /*
237 * If the field offset and extent fall past the end of the
238 * available data, then return without doing anything. That note
239 * is from an older core file that doesn't have all the fields
240 * that we know about.
241 */
242 if (!data_present(state, fdesc))
243 return;
244
245 dbg_print(0, MSG_ORIG(MSG_CNOTE_FMT_LINE), INDENT,
246 state->ns_vcol - state->ns_indent, title,
247 fmt_num(state, fdesc, fmt_type, buf));
248 }
249
250 /*
251 * print_num_2up outputs two fields on one line, in the format:
252 *
253 * title1: value1 title2: value2
254 */
255 static void
256 print_num_2up(note_state_t *state, const char *title1,
257 const sl_field_t *fdesc1, sl_fmt_num_t fmt_type1, const char *title2,
258 const sl_field_t *fdesc2, sl_fmt_num_t fmt_type2)
259 {
260 sl_fmtbuf_t buf1, buf2;
261
262 /*
263 * If the field offset and extent fall past the end of the
264 * available data, then return without doing anything. That note
265 * is from an older core file that doesn't have all the fields
266 * that we know about.
267 */
268 if (!(data_present(state, fdesc1) &&
269 data_present(state, fdesc2)))
270 return;
271
272 dbg_print(0, MSG_ORIG(MSG_CNOTE_FMT_LINE_2UP), INDENT,
273 state->ns_vcol - state->ns_indent, title1,
274 state->ns_t2col - state->ns_vcol,
275 fmt_num(state, fdesc1, fmt_type1, buf1),
276 state->ns_v2col - state->ns_t2col, title2,
277 fmt_num(state, fdesc2, fmt_type2, buf2));
278 }
279
280 /*
281 * print_strbuf outputs a fixed sized character buffer field
282 * on one line, in the format:
283 *
284 * title: value
285 */
286 static void
287 print_strbuf(note_state_t *state, const char *title,
288 const sl_field_t *fdesc)
289 {
290 Word n;
291
292 /*
293 * If we are past the end of the data area, then return
294 * without doing anything. That note is from an older core
295 * file that doesn't have all the fields that we know about.
296 *
297 * Note that we are willing to accept a partial buffer,
298 * so we don't use data_present() for this test.
299 */
300 if (fdesc->slf_offset >= state->ns_len)
301 return;
302
303 /*
304 * We expect the full buffer to be present, but if there
305 * is less than that, we will still proceed. The use of safe_str()
306 * protects us from the effect of printing garbage data.
307 */
308 n = state->ns_len - fdesc->slf_offset;
309 if (n > fdesc->slf_nelts)
310 n = fdesc->slf_nelts;
311
312 dbg_print(0, MSG_ORIG(MSG_CNOTE_FMT_LINE), INDENT,
313 state->ns_vcol - state->ns_indent,
314 title, safe_str(fdesc->slf_offset + state->ns_data, n));
315 }
316
317 /*
318 * print_str outputs an arbitrary string value item
319 * on one line, in the format:
320 *
321 * title: str
322 */
323 static void
324 print_str(note_state_t *state, const char *title, const char *str)
325 {
326 dbg_print(0, MSG_ORIG(MSG_CNOTE_FMT_LINE), INDENT,
327 state->ns_vcol - state->ns_indent, title, str);
328 }
329
330 /*
331 * Used when one dump function needs to call another dump function
332 * in order to display a subitem. This routine constructs a state
333 * block for the sub-region, and then calls the dump function with it.
334 * This limits the amount of data visible to the sub-function to that
335 * for the sub-item.
336 */
337 static void
338 print_subtype(note_state_t *state, const char *title,
339 const sl_field_t *fdesc, dump_func_t dump_func)
340 {
341 note_state_t sub_state;
342
343 /*
344 * If there is no data for the sub-item, return immediately.
345 * Partial data is left to the dump function to handle,
346 * as that can be a sign of an older core file with less data,
347 * which can still be interpreted.
348 */
349 if (fdesc->slf_offset >= state->ns_len)
350 return;
351
352 /*
353 * Construct a state block that reflects the sub-item
354 */
355 sub_state = *state;
356 sub_state.ns_data += fdesc->slf_offset;
357 sub_state.ns_len -= fdesc->slf_offset;
358 if (sub_state.ns_len > fdesc->slf_eltlen)
359 sub_state.ns_len = fdesc->slf_eltlen;
360
361 (* dump_func)(&sub_state, title);
362 }
363
364
365 /*
366 * Output a sequence of array elements, giving each
367 * element an index, in the format:
368 *
369 * [ndx] value
370 *
371 * entry:
372 * state - Current state
373 * base_desc - Field descriptor for 1st element of array
374 * nelts - # of array elements to display
375 * check_nelts - If True (1), nelts is clipped to fdesc->slf_nelts.
376 * If False (1), nelts is not clipped.
377 * title - Name of array
378 */
379 static void
380 print_array(note_state_t *state, const sl_field_t *base_desc,
381 sl_fmt_num_t fmt_type, int nelts, int check_nelts, const char *title)
382 {
383 char index1[MAXNDXSIZE], index2[MAXNDXSIZE];
384 int i;
385 sl_field_t fdesc1, fdesc2;
386
387 if (check_nelts && (check_nelts > base_desc->slf_nelts))
388 nelts = base_desc->slf_nelts;
389 if (nelts == 0)
390 return;
391
392 indent_enter(state, title, base_desc);
393
394 fdesc1 = fdesc2 = *base_desc;
395 for (i = 0; i < nelts; ) {
396 if (i == (nelts - 1)) {
397 /* One final value is left */
398 if (!data_present(state, &fdesc1))
399 break;
400 (void) snprintf(index1, sizeof (index1),
401 MSG_ORIG(MSG_FMT_INDEX2), EC_WORD(i));
402 print_num(state, index1, &fdesc1, fmt_type);
403 fdesc1.slf_offset += fdesc1.slf_eltlen;
404 i++;
405 continue;
406 }
407
408 /* There are at least 2 items left. Show 2 up. */
409 fdesc2.slf_offset = fdesc1.slf_offset + fdesc1.slf_eltlen;
410 if (!(data_present(state, &fdesc1) &&
411 data_present(state, &fdesc2)))
412 break;
413 (void) snprintf(index1, sizeof (index1),
414 MSG_ORIG(MSG_FMT_INDEX2), EC_WORD(i));
415 (void) snprintf(index2, sizeof (index2),
416 MSG_ORIG(MSG_FMT_INDEX2), EC_WORD(i + 1));
417 print_num_2up(state, index1, &fdesc1, fmt_type,
418 index2, &fdesc2, fmt_type);
419 fdesc1.slf_offset += 2 * fdesc1.slf_eltlen;
420 i += 2;
421 }
422
423 indent_exit(state);
424 }
425
426
427 /*
428 * Output information from auxv_t structure.
429 */
430 static void
431 dump_auxv(note_state_t *state, const char *title)
432 {
433 const sl_auxv_layout_t *layout = state->ns_arch->auxv;
434 union {
435 Conv_cap_val_hw1_buf_t hw1;
436 Conv_cap_val_hw2_buf_t hw2;
437 Conv_cnote_auxv_af_buf_t auxv_af;
438 Conv_ehdr_flags_buf_t ehdr_flags;
439 Conv_inv_buf_t inv;
440 } conv_buf;
441 sl_fmtbuf_t buf;
442 int ndx, ndx_start;
443 Word sizeof_auxv;
444
445 sizeof_auxv = layout->sizeof_struct.slf_eltlen;
446
447 indent_enter(state, title, &layout->sizeof_struct);
448
449 /*
450 * Immediate indent_exit() restores the indent level to
451 * that of the title. We include indentation as part of
452 * the index string, which is right justified, and don't
453 * want the usual indentation spacing.
454 */
455 indent_exit(state);
456
457 ndx = 0;
458 while (state->ns_len > sizeof_auxv) {
459 char index[(MAXNDXSIZE * 2) + 1];
460 sl_fmt_num_t num_fmt = SL_FMT_NUM_ZHEX;
461 const char *vstr = NULL;
462 Word w;
463 int type;
464 sl_field_t a_type_next;
465
466 type = extract_as_word(state, &layout->a_type);
467 ndx_start = ndx;
468 switch (type) {
469 case AT_NULL:
470 a_type_next = layout->a_type;
471 a_type_next.slf_offset += sizeof_auxv;
472 while ((state->ns_len - sizeof_auxv) >= sizeof_auxv) {
473 type = extract_as_word(state, &a_type_next);
474 if (type != AT_NULL)
475 break;
476 ndx++;
477 state->ns_data += sizeof_auxv;
478 state->ns_len -= sizeof_auxv;
479 }
480 num_fmt = SL_FMT_NUM_HEX;
481 break;
482
483
484
485 case AT_IGNORE:
486 case AT_SUN_IFLUSH:
487 num_fmt = SL_FMT_NUM_HEX;
488 break;
489
490 case AT_EXECFD:
491 case AT_PHENT:
492 case AT_PHNUM:
493 case AT_PAGESZ:
494 case AT_SUN_UID:
495 case AT_SUN_RUID:
496 case AT_SUN_GID:
497 case AT_SUN_RGID:
498 case AT_SUN_LPAGESZ:
499 num_fmt = SL_FMT_NUM_DEC;
500 break;
501
502 case AT_FLAGS: /* processor flags */
503 w = extract_as_word(state, &layout->a_val);
504 vstr = conv_ehdr_flags(state->ns_mach, w,
505 0, &conv_buf.ehdr_flags);
506 break;
507
508 case AT_SUN_HWCAP:
509 w = extract_as_word(state, &layout->a_val);
510 vstr = conv_cap_val_hw1(w, state->ns_mach,
511 0, &conv_buf.hw1);
512 /*
513 * conv_cap_val_hw1() produces output like:
514 *
515 * 0xfff [ flg1 flg2 0xff]
516 *
517 * where the first hex value is the complete value,
518 * and the second is the leftover bits. We only
519 * want the part in brackets, and failing that,
520 * would rather fall back to formatting the full
521 * value ourselves.
522 */
523 while ((*vstr != '\0') && (*vstr != '['))
524 vstr++;
525 if (*vstr != '[')
526 vstr = NULL;
527 num_fmt = SL_FMT_NUM_HEX;
528 break;
529 case AT_SUN_HWCAP2:
530 w = extract_as_word(state, &layout->a_val);
531 vstr = conv_cap_val_hw2(w, state->ns_mach,
532 0, &conv_buf.hw2);
533 /*
534 * conv_cap_val_hw2() produces output like:
535 *
536 * 0xfff [ flg1 flg2 0xff]
537 *
538 * where the first hex value is the complete value,
539 * and the second is the leftover bits. We only
540 * want the part in brackets, and failing that,
541 * would rather fall back to formatting the full
542 * value ourselves.
543 */
544 while ((*vstr != '\0') && (*vstr != '['))
545 vstr++;
546 if (*vstr != '[')
547 vstr = NULL;
548 num_fmt = SL_FMT_NUM_HEX;
549 break;
550
551
552
553 case AT_SUN_AUXFLAGS:
554 w = extract_as_word(state, &layout->a_val);
555 vstr = conv_cnote_auxv_af(w, 0, &conv_buf.auxv_af);
556 num_fmt = SL_FMT_NUM_HEX;
557 break;
558 }
559
560 if (ndx == ndx_start)
561 (void) snprintf(index, sizeof (index),
562 MSG_ORIG(MSG_FMT_INDEX2), EC_WORD(ndx));
563 else
564 (void) snprintf(index, sizeof (index),
565 MSG_ORIG(MSG_FMT_INDEXRNG),
566 EC_WORD(ndx_start), EC_WORD(ndx));
567
568 if (vstr == NULL)
569 vstr = fmt_num(state, &layout->a_val, num_fmt, buf);
570 dbg_print(0, MSG_ORIG(MSG_CNOTE_FMT_AUXVLINE), INDENT, index,
571 state->ns_vcol - state->ns_indent,
572 conv_cnote_auxv_type(type, CONV_FMT_DECIMAL,
573 &conv_buf.inv), vstr);
574
575 state->ns_data += sizeof_auxv;
576 state->ns_len -= sizeof_auxv;
577 ndx++;
578 }
579 }
580
581
582 /*
583 * Output information from fltset_t structure.
584 */
585 static void
586 dump_fltset(note_state_t *state, const char *title)
587 {
588 #define NELTS 4
589
590 const sl_fltset_layout_t *layout = state->ns_arch->fltset;
591 Conv_cnote_fltset_buf_t buf;
592 sl_field_t fdesc;
593 uint32_t mask[NELTS];
594 int i, nelts;
595
596 if (!data_present(state, &layout->sizeof_struct))
597 return;
598
599 fdesc = layout->word;
600 nelts = fdesc.slf_nelts;
601 if (nelts > NELTS) /* Type has grown? Show what we understand */
602 nelts = NELTS;
603 for (i = 0; i < nelts; i++) {
604 mask[i] = extract_as_word(state, &fdesc);
605 fdesc.slf_offset += fdesc.slf_eltlen;
606 }
607
608 print_str(state, title, conv_cnote_fltset(mask, nelts, 0, &buf));
609
610 #undef NELTS
611 }
612
613
614 /*
615 * Output information from sigset_t structure.
616 */
617 static void
618 dump_sigset(note_state_t *state, const char *title)
619 {
620 #define NELTS 4
621
622 const sl_sigset_layout_t *layout = state->ns_arch->sigset;
623 Conv_cnote_sigset_buf_t buf;
624 sl_field_t fdesc;
625 uint32_t mask[NELTS];
626 int i, nelts;
627
628 if (!data_present(state, &layout->sizeof_struct))
629 return;
630
631 fdesc = layout->sigbits;
632 nelts = fdesc.slf_nelts;
633 if (nelts > NELTS) /* Type has grown? Show what we understand */
634 nelts = NELTS;
635 for (i = 0; i < nelts; i++) {
636 mask[i] = extract_as_word(state, &fdesc);
637 fdesc.slf_offset += fdesc.slf_eltlen;
638 }
639
640 print_str(state, title, conv_cnote_sigset(mask, nelts, 0, &buf));
641
642 #undef NELTS
643 }
644
645
646 /*
647 * Output information from sigaction structure.
648 */
649 static void
650 dump_sigaction(note_state_t *state, const char *title)
651 {
652 const sl_sigaction_layout_t *layout = state->ns_arch->sigaction;
653 Conv_cnote_sa_flags_buf_t conv_buf;
654 Word w;
655
656 indent_enter(state, title, &layout->sa_flags);
657
658 if (data_present(state, &layout->sa_flags)) {
659 w = extract_as_word(state, &layout->sa_flags);
660 print_str(state, MSG_ORIG(MSG_CNOTE_T_SA_FLAGS),
661 conv_cnote_sa_flags(w, 0, &conv_buf));
662 }
663
664 PRINT_ZHEX_2UP(MSG_ORIG(MSG_CNOTE_T_SA_HANDLER), sa_hand,
665 MSG_ORIG(MSG_CNOTE_T_SA_SIGACTION), sa_sigact);
666 PRINT_SUBTYPE(MSG_ORIG(MSG_CNOTE_T_SA_MASK), sa_mask, dump_sigset);
667
668 indent_exit(state);
669 }
670
671
672 /*
673 * Output information from siginfo structure.
674 */
675 static void
676 dump_siginfo(note_state_t *state, const char *title)
677 {
678 const sl_siginfo_layout_t *layout = state->ns_arch->siginfo;
679 Conv_inv_buf_t inv_buf;
680 Word w;
681 int v_si_code, v_si_signo;
682
683 if (!data_present(state, &layout->sizeof_struct))
684 return;
685
686 indent_enter(state, title, &layout->f_si_signo);
687
688 v_si_signo = extract_as_sword(state, &layout->f_si_signo);
689 print_str(state, MSG_ORIG(MSG_CNOTE_T_SI_SIGNO),
690 conv_cnote_signal(v_si_signo, CONV_FMT_DECIMAL, &inv_buf));
691
692 w = extract_as_word(state, &layout->f_si_errno);
693 print_str(state, MSG_ORIG(MSG_CNOTE_T_SI_ERRNO),
694 conv_cnote_errno(w, CONV_FMT_DECIMAL, &inv_buf));
695
696 v_si_code = extract_as_sword(state, &layout->f_si_code);
697 print_str(state, MSG_ORIG(MSG_CNOTE_T_SI_CODE),
698 conv_cnote_si_code(state->ns_mach, v_si_signo, v_si_code,
699 CONV_FMT_DECIMAL, &inv_buf));
700
701 if ((v_si_signo == 0) || (v_si_code == SI_NOINFO)) {
702 indent_exit(state);
703 return;
704 }
705
706 /* User generated signals have (si_code <= 0) */
707 if (v_si_code <= 0) {
708 PRINT_DEC(MSG_ORIG(MSG_CNOTE_T_SI_PID), f_si_pid);
709 PRINT_DEC(MSG_ORIG(MSG_CNOTE_T_SI_UID), f_si_uid);
710 PRINT_DEC(MSG_ORIG(MSG_CNOTE_T_SI_CTID), f_si_ctid);
711 PRINT_DEC(MSG_ORIG(MSG_CNOTE_T_SI_ZONEID), f_si_zoneid);
712 switch (v_si_code) {
713 case SI_QUEUE:
714 case SI_TIMER:
715 case SI_ASYNCIO:
716 case SI_MESGQ:
717 indent_enter(state, MSG_ORIG(MSG_CNOTE_T_SI_VALUE),
718 &layout->f_si_value_int);
719 PRINT_ZHEX(MSG_ORIG(MSG_CNOTE_T_SIVAL_INT),
720 f_si_value_int);
721 PRINT_ZHEX(MSG_ORIG(MSG_CNOTE_T_SIVAL_PTR),
722 f_si_value_ptr);
723 indent_exit(state);
724 break;
725 }
726 indent_exit(state);
727 return;
728 }
729
730 /*
731 * Remaining cases are kernel generated signals. Output any
732 * signal or code specific information.
733 */
734 if (v_si_code == SI_RCTL)
735 PRINT_HEX(MSG_ORIG(MSG_CNOTE_T_SI_ENTITY), f_si_entity);
736 switch (v_si_signo) {
737 case SIGILL:
738 case SIGFPE:
739 case SIGSEGV:
740 case SIGBUS:
741 PRINT_ZHEX(MSG_ORIG(MSG_CNOTE_T_SI_ADDR), f_si_addr);
742 break;
743 case SIGCHLD:
744 PRINT_DEC(MSG_ORIG(MSG_CNOTE_T_SI_PID), f_si_pid);
745 PRINT_DEC(MSG_ORIG(MSG_CNOTE_T_SI_STATUS), f_si_status);
746 break;
747 case SIGPOLL:
748 PRINT_DEC(MSG_ORIG(MSG_CNOTE_T_SI_BAND), f_si_band);
749 break;
750 }
751
752 indent_exit(state);
753 }
754
755
756 /*
757 * Output information from stack_t structure.
758 */
759 static void
760 dump_stack(note_state_t *state, const char *title)
761 {
762 const sl_stack_layout_t *layout = state->ns_arch->stack;
763 Conv_cnote_ss_flags_buf_t conv_buf;
764 Word w;
765
766 indent_enter(state, title, &layout->ss_size);
767
768 print_num_2up(state, MSG_ORIG(MSG_CNOTE_T_SS_SP), &layout->ss_sp,
769 SL_FMT_NUM_ZHEX, MSG_ORIG(MSG_CNOTE_T_SS_SIZE), &layout->ss_size,
770 SL_FMT_NUM_HEX);
771
772 if (data_present(state, &layout->ss_flags)) {
773 w = extract_as_word(state, &layout->ss_flags);
774 print_str(state, MSG_ORIG(MSG_CNOTE_T_SS_FLAGS),
775 conv_cnote_ss_flags(w, 0, &conv_buf));
776 }
777
778 indent_exit(state);
779 }
780
781
782 /*
783 * Output information from sysset_t structure.
784 */
785 static void
786 dump_sysset(note_state_t *state, const char *title)
787 {
788 #define NELTS 16
789
790 const sl_sysset_layout_t *layout = state->ns_arch->sysset;
791 Conv_cnote_sysset_buf_t buf;
792 sl_field_t fdesc;
793 uint32_t mask[NELTS];
794 int i, nelts;
795
796 if (!data_present(state, &layout->sizeof_struct))
797 return;
798
799 fdesc = layout->word;
800 nelts = fdesc.slf_nelts;
801 if (nelts > NELTS) /* Type has grown? Show what we understand */
802 nelts = NELTS;
803 for (i = 0; i < nelts; i++) {
804 mask[i] = extract_as_word(state, &fdesc);
805 fdesc.slf_offset += fdesc.slf_eltlen;
806 }
807
808 print_str(state, title, conv_cnote_sysset(mask, nelts, 0, &buf));
809
810 #undef NELTS
811 }
812
813
814 /*
815 * Output information from timestruc_t structure.
816 */
817 static void
818 dump_timestruc(note_state_t *state, const char *title)
819 {
820 const sl_timestruc_layout_t *layout = state->ns_arch->timestruc;
821
822 indent_enter(state, title, &layout->tv_sec);
823
824 PRINT_DEC_2UP(MSG_ORIG(MSG_CNOTE_T_TV_SEC), tv_sec,
825 MSG_ORIG(MSG_CNOTE_T_TV_NSEC), tv_nsec);
826
827 indent_exit(state);
828 }
829
830
831 /*
832 * Output information from utsname structure.
833 */
834 static void
835 dump_utsname(note_state_t *state, const char *title)
836 {
837 const sl_utsname_layout_t *layout = state->ns_arch->utsname;
838
839 indent_enter(state, title, &layout->sysname);
840
841 PRINT_STRBUF(MSG_ORIG(MSG_CNOTE_T_UTS_SYSNAME), sysname);
842 PRINT_STRBUF(MSG_ORIG(MSG_CNOTE_T_UTS_NODENAME), nodename);
843 PRINT_STRBUF(MSG_ORIG(MSG_CNOTE_T_UTS_RELEASE), release);
844 PRINT_STRBUF(MSG_ORIG(MSG_CNOTE_T_UTS_VERSION), version);
845 PRINT_STRBUF(MSG_ORIG(MSG_CNOTE_T_UTS_MACHINE), machine);
846
847 indent_exit(state);
848 }
849
850
851 /*
852 * Dump register contents
853 */
854 static void
855 dump_prgregset(note_state_t *state, const char *title)
856 {
857 sl_field_t fdesc1, fdesc2;
858 sl_fmtbuf_t buf1, buf2;
859 Conv_inv_buf_t inv_buf1, inv_buf2;
860 Word w;
861
862 fdesc1 = fdesc2 = state->ns_arch->prgregset->elt0;
863 indent_enter(state, title, &fdesc1);
864
865 for (w = 0; w < fdesc1.slf_nelts; ) {
866 if (w == (fdesc1.slf_nelts - 1)) {
867 /* One last register is left */
868 if (!data_present(state, &fdesc1))
869 break;
870 dbg_print(0, MSG_ORIG(MSG_CNOTE_FMT_LINE),
871 INDENT, state->ns_vcol - state->ns_indent,
872 conv_cnote_pr_regname(state->ns_mach, w,
873 CONV_FMT_DECIMAL, &inv_buf1),
874 fmt_num(state, &fdesc1, SL_FMT_NUM_ZHEX, buf1));
875 fdesc1.slf_offset += fdesc1.slf_eltlen;
876 w++;
877 continue;
878 }
879
880 /* There are at least 2 more registers left. Show 2 up */
881 fdesc2.slf_offset = fdesc1.slf_offset + fdesc1.slf_eltlen;
882 if (!(data_present(state, &fdesc1) &&
883 data_present(state, &fdesc2)))
884 break;
885 dbg_print(0, MSG_ORIG(MSG_CNOTE_FMT_LINE_2UP), INDENT,
886 state->ns_vcol - state->ns_indent,
887 conv_cnote_pr_regname(state->ns_mach, w,
888 CONV_FMT_DECIMAL, &inv_buf1),
889 state->ns_t2col - state->ns_vcol,
890 fmt_num(state, &fdesc1, SL_FMT_NUM_ZHEX, buf1),
891 state->ns_v2col - state->ns_t2col,
892 conv_cnote_pr_regname(state->ns_mach, w + 1,
893 CONV_FMT_DECIMAL, &inv_buf2),
894 fmt_num(state, &fdesc2, SL_FMT_NUM_ZHEX, buf2));
895 fdesc1.slf_offset += 2 * fdesc1.slf_eltlen;
896 w += 2;
897 }
898
899 indent_exit(state);
900 }
901
902 /*
903 * Output information from lwpstatus_t structure.
904 */
905 static void
906 dump_lwpstatus(note_state_t *state, const char *title)
907 {
908 const sl_lwpstatus_layout_t *layout = state->ns_arch->lwpstatus;
909 Word w, w2;
910 int32_t i;
911 union {
912 Conv_inv_buf_t inv;
913 Conv_cnote_pr_flags_buf_t flags;
914 } conv_buf;
915
916 indent_enter(state, title, &layout->pr_flags);
917
918 if (data_present(state, &layout->pr_flags)) {
919 w = extract_as_word(state, &layout->pr_flags);
920 print_str(state, MSG_ORIG(MSG_CNOTE_T_PR_FLAGS),
921 conv_cnote_pr_flags(w, 0, &conv_buf.flags));
922 }
923
924 PRINT_DEC(MSG_ORIG(MSG_CNOTE_T_PR_LWPID), pr_lwpid);
925
926 if (data_present(state, &layout->pr_why)) {
927 w = extract_as_word(state, &layout->pr_why);
928 print_str(state, MSG_ORIG(MSG_CNOTE_T_PR_WHY),
929 conv_cnote_pr_why(w, 0, &conv_buf.inv));
930
931 if (data_present(state, &layout->pr_what)) {
932 w2 = extract_as_word(state, &layout->pr_what);
933 print_str(state, MSG_ORIG(MSG_CNOTE_T_PR_WHAT),
934 conv_cnote_pr_what(w, w2, 0, &conv_buf.inv));
935 }
936 }
937
938 if (data_present(state, &layout->pr_cursig)) {
939 w = extract_as_word(state, &layout->pr_cursig);
940 print_str(state, MSG_ORIG(MSG_CNOTE_T_PR_CURSIG),
941 conv_cnote_signal(w, CONV_FMT_DECIMAL, &conv_buf.inv));
942 }
943
944 PRINT_SUBTYPE(MSG_ORIG(MSG_CNOTE_T_PR_INFO), pr_info, dump_siginfo);
945 PRINT_SUBTYPE(MSG_ORIG(MSG_CNOTE_T_PR_LWPPEND), pr_lwppend,
946 dump_sigset);
947 PRINT_SUBTYPE(MSG_ORIG(MSG_CNOTE_T_PR_LWPHOLD), pr_lwphold,
948 dump_sigset);
949 PRINT_SUBTYPE(MSG_ORIG(MSG_CNOTE_T_PR_ACTION), pr_action,
950 dump_sigaction);
951 PRINT_SUBTYPE(MSG_ORIG(MSG_CNOTE_T_PR_ALTSTACK), pr_altstack,
952 dump_stack);
953
954 PRINT_ZHEX(MSG_ORIG(MSG_CNOTE_T_PR_OLDCONTEXT), pr_oldcontext);
955
956 if (data_present(state, &layout->pr_syscall)) {
957 w = extract_as_word(state, &layout->pr_syscall);
958 print_str(state, MSG_ORIG(MSG_CNOTE_T_PR_SYSCALL),
959 conv_cnote_syscall(w, CONV_FMT_DECIMAL, &conv_buf.inv));
960 }
961
962 PRINT_DEC(MSG_ORIG(MSG_CNOTE_T_PR_NSYSARG), pr_nsysarg);
963
964 if (data_present(state, &layout->pr_errno)) {
965 w = extract_as_word(state, &layout->pr_errno);
966 print_str(state, MSG_ORIG(MSG_CNOTE_T_PR_ERRNO),
967 conv_cnote_errno(w, CONV_FMT_DECIMAL, &conv_buf.inv));
968 }
969
970 if (data_present(state, &layout->pr_nsysarg)) {
971 w2 = extract_as_word(state, &layout->pr_nsysarg);
972 print_array(state, &layout->pr_sysarg, SL_FMT_NUM_ZHEX, w2, 1,
973 MSG_ORIG(MSG_CNOTE_T_PR_SYSARG));
974 }
975
976 PRINT_HEX_2UP(MSG_ORIG(MSG_CNOTE_T_PR_RVAL1), pr_rval1,
977 MSG_ORIG(MSG_CNOTE_T_PR_RVAL2), pr_rval2);
978 PRINT_STRBUF(MSG_ORIG(MSG_CNOTE_T_PR_CLNAME), pr_clname);
979 PRINT_SUBTYPE(MSG_ORIG(MSG_CNOTE_T_PR_TSTAMP), pr_tstamp,
980 dump_timestruc);
981 PRINT_SUBTYPE(MSG_ORIG(MSG_CNOTE_T_PR_UTIME), pr_utime, dump_timestruc);
982 PRINT_SUBTYPE(MSG_ORIG(MSG_CNOTE_T_PR_STIME), pr_stime, dump_timestruc);
983
984 if (data_present(state, &layout->pr_errpriv)) {
985 i = extract_as_sword(state, &layout->pr_errpriv);
986 print_str(state, MSG_ORIG(MSG_CNOTE_T_PR_ERRPRIV),
987 conv_cnote_priv(i, CONV_FMT_DECIMAL, &conv_buf.inv));
988 }
989
990 PRINT_ZHEX_2UP(MSG_ORIG(MSG_CNOTE_T_PR_USTACK), pr_ustack,
991 MSG_ORIG(MSG_CNOTE_T_PR_INSTR), pr_instr);
992
993 /*
994 * In order to line up all the values in a single column,
995 * we would have to set vcol to a very high value, which results
996 * in ugly looking output that runs off column 80. So, we use
997 * two levels of vcol, one for the contents so far, and a
998 * higher one for the pr_reg sub-struct.
999 */
1000 state->ns_vcol += 3;
1001 state->ns_t2col += 3;
1002 state->ns_v2col += 2;
1003 PRINT_SUBTYPE(MSG_ORIG(MSG_CNOTE_T_PR_REG), pr_reg, dump_prgregset);
1004 state->ns_vcol -= 3;
1005 state->ns_t2col -= 3;
1006 state->ns_v2col -= 2;
1007
1008 /*
1009 * The floating point register state is complex, and highly
1010 * platform dependent. For now, we simply display it as
1011 * a hex dump. This can be replaced if better information
1012 * is required.
1013 */
1014 if (data_present(state, &layout->pr_fpreg)) {
1015 indent_enter(state, MSG_ORIG(MSG_CNOTE_T_PR_FPREG),
1016 &layout->pr_fpreg);
1017 dump_hex_bytes(layout->pr_fpreg.slf_offset + state->ns_data,
1018 layout->pr_fpreg.slf_eltlen, state->ns_indent, 4, 3);
1019 indent_exit(state);
1020 }
1021
1022 indent_exit(state);
1023 }
1024
1025
1026 /*
1027 * Output information from pstatus_t structure.
1028 */
1029 static void
1030 dump_pstatus(note_state_t *state, const char *title)
1031 {
1032 const sl_pstatus_layout_t *layout = state->ns_arch->pstatus;
1033 Word w;
1034 union {
1035 Conv_inv_buf_t inv;
1036 Conv_cnote_pr_flags_buf_t flags;
1037 } conv_buf;
1038
1039 indent_enter(state, title, &layout->pr_flags);
1040
1041 if (data_present(state, &layout->pr_flags)) {
1042 w = extract_as_word(state, &layout->pr_flags);
1043 print_str(state, MSG_ORIG(MSG_CNOTE_T_PR_FLAGS),
1044 conv_cnote_pr_flags(w, 0, &conv_buf.flags));
1045 }
1046
1047 PRINT_DEC(MSG_ORIG(MSG_CNOTE_T_PR_NLWP), pr_nlwp);
1048 PRINT_DEC_2UP(MSG_ORIG(MSG_CNOTE_T_PR_PID), pr_pid,
1049 MSG_ORIG(MSG_CNOTE_T_PR_PPID), pr_ppid);
1050 PRINT_DEC_2UP(MSG_ORIG(MSG_CNOTE_T_PR_PGID), pr_pgid,
1051 MSG_ORIG(MSG_CNOTE_T_PR_SID), pr_sid);
1052 PRINT_DEC_2UP(MSG_ORIG(MSG_CNOTE_T_PR_ASLWPID), pr_aslwpid,
1053 MSG_ORIG(MSG_CNOTE_T_PR_AGENTID), pr_agentid);
1054 PRINT_SUBTYPE(MSG_ORIG(MSG_CNOTE_T_PR_SIGPEND), pr_sigpend,
1055 dump_sigset);
1056 print_num_2up(state, MSG_ORIG(MSG_CNOTE_T_PR_BRKBASE),
1057 &layout->pr_brkbase, SL_FMT_NUM_ZHEX,
1058 MSG_ORIG(MSG_CNOTE_T_PR_BRKSIZE),
1059 &layout->pr_brksize, SL_FMT_NUM_HEX);
1060 print_num_2up(state, MSG_ORIG(MSG_CNOTE_T_PR_STKBASE),
1061 &layout->pr_stkbase, SL_FMT_NUM_ZHEX,
1062 MSG_ORIG(MSG_CNOTE_T_PR_STKSIZE),
1063 &layout->pr_stksize, SL_FMT_NUM_HEX);
1064 PRINT_SUBTYPE(MSG_ORIG(MSG_CNOTE_T_PR_UTIME), pr_utime, dump_timestruc);
1065 PRINT_SUBTYPE(MSG_ORIG(MSG_CNOTE_T_PR_STIME), pr_stime, dump_timestruc);
1066 PRINT_SUBTYPE(MSG_ORIG(MSG_CNOTE_T_PR_CUTIME), pr_cutime,
1067 dump_timestruc);
1068 PRINT_SUBTYPE(MSG_ORIG(MSG_CNOTE_T_PR_CSTIME), pr_cstime,
1069 dump_timestruc);
1070 PRINT_SUBTYPE(MSG_ORIG(MSG_CNOTE_T_PR_SIGTRACE), pr_sigtrace,
1071 dump_sigset);
1072 PRINT_SUBTYPE(MSG_ORIG(MSG_CNOTE_T_PR_FLTTRACE), pr_flttrace,
1073 dump_fltset);
1074 PRINT_SUBTYPE(MSG_ORIG(MSG_CNOTE_T_PR_SYSENTRY), pr_sysentry,
1075 dump_sysset);
1076 PRINT_SUBTYPE(MSG_ORIG(MSG_CNOTE_T_PR_SYSEXIT), pr_sysexit,
1077 dump_sysset);
1078
1079 if (data_present(state, &layout->pr_dmodel)) {
1080 w = extract_as_word(state, &layout->pr_dmodel);
1081 print_str(state, MSG_ORIG(MSG_CNOTE_T_PR_DMODEL),
1082 conv_cnote_pr_dmodel(w, 0, &conv_buf.inv));
1083 }
1084
1085 PRINT_DEC_2UP(MSG_ORIG(MSG_CNOTE_T_PR_TASKID), pr_taskid,
1086 MSG_ORIG(MSG_CNOTE_T_PR_PROJID), pr_projid);
1087 PRINT_DEC_2UP(MSG_ORIG(MSG_CNOTE_T_PR_NZOMB), pr_nzomb,
1088 MSG_ORIG(MSG_CNOTE_T_PR_ZONEID), pr_zoneid);
1089
1090 /*
1091 * In order to line up all the values in a single column,
1092 * we would have to set vcol to a very high value, which results
1093 * in ugly looking output that runs off column 80. So, we use
1094 * two levels of vcol, one for the contents so far, and a
1095 * higher one for the pr_lwp sub-struct.
1096 */
1097 state->ns_vcol += 5;
1098 state->ns_t2col += 5;
1099 state->ns_v2col += 5;
1100 PRINT_SUBTYPE(MSG_ORIG(MSG_CNOTE_T_PR_LWP), pr_lwp, dump_lwpstatus);
1101 state->ns_vcol -= 5;
1102 state->ns_t2col -= 5;
1103 state->ns_v2col -= 5;
1104
1105 indent_exit(state);
1106 }
1107
1108
1109 /*
1110 * Output information from prstatus_t (<sys/old_procfs.h>) structure.
1111 */
1112 static void
1113 dump_prstatus(note_state_t *state, const char *title)
1114 {
1115 const sl_prstatus_layout_t *layout = state->ns_arch->prstatus;
1116 Word w, w2;
1117 int i;
1118 union {
1119 Conv_inv_buf_t inv;
1120 Conv_cnote_old_pr_flags_buf_t flags;
1121 } conv_buf;
1122
1123 indent_enter(state, title, &layout->pr_flags);
1124
1125 if (data_present(state, &layout->pr_flags)) {
1126 w = extract_as_word(state, &layout->pr_flags);
1127 print_str(state, MSG_ORIG(MSG_CNOTE_T_PR_FLAGS),
1128 conv_cnote_old_pr_flags(w, 0, &conv_buf.flags));
1129 }
1130
1131 if (data_present(state, &layout->pr_why)) {
1132 w = extract_as_word(state, &layout->pr_why);
1133 print_str(state, MSG_ORIG(MSG_CNOTE_T_PR_WHY),
1134 conv_cnote_pr_why(w, 0, &conv_buf.inv));
1135
1136
1137 if (data_present(state, &layout->pr_what)) {
1138 w2 = extract_as_word(state, &layout->pr_what);
1139 print_str(state, MSG_ORIG(MSG_CNOTE_T_PR_WHAT),
1140 conv_cnote_pr_what(w, w2, 0, &conv_buf.inv));
1141 }
1142 }
1143
1144 PRINT_SUBTYPE(MSG_ORIG(MSG_CNOTE_T_PR_INFO), pr_info, dump_siginfo);
1145
1146 if (data_present(state, &layout->pr_cursig)) {
1147 w = extract_as_word(state, &layout->pr_cursig);
1148 print_str(state, MSG_ORIG(MSG_CNOTE_T_PR_CURSIG),
1149 conv_cnote_signal(w, CONV_FMT_DECIMAL, &conv_buf.inv));
1150 }
1151
1152 PRINT_DEC(MSG_ORIG(MSG_CNOTE_T_PR_NLWP), pr_nlwp);
1153 PRINT_SUBTYPE(MSG_ORIG(MSG_CNOTE_T_PR_SIGPEND), pr_sigpend,
1154 dump_sigset);
1155 PRINT_SUBTYPE(MSG_ORIG(MSG_CNOTE_T_PR_SIGHOLD), pr_sighold,
1156 dump_sigset);
1157 PRINT_SUBTYPE(MSG_ORIG(MSG_CNOTE_T_PR_ALTSTACK), pr_altstack,
1158 dump_stack);
1159 PRINT_SUBTYPE(MSG_ORIG(MSG_CNOTE_T_PR_ACTION), pr_action,
1160 dump_sigaction);
1161 PRINT_DEC_2UP(MSG_ORIG(MSG_CNOTE_T_PR_PID), pr_pid,
1162 MSG_ORIG(MSG_CNOTE_T_PR_PPID), pr_ppid);
1163 PRINT_DEC_2UP(MSG_ORIG(MSG_CNOTE_T_PR_PGRP), pr_pgrp,
1164 MSG_ORIG(MSG_CNOTE_T_PR_SID), pr_sid);
1165 PRINT_SUBTYPE(MSG_ORIG(MSG_CNOTE_T_PR_UTIME), pr_utime, dump_timestruc);
1166 PRINT_SUBTYPE(MSG_ORIG(MSG_CNOTE_T_PR_STIME), pr_stime, dump_timestruc);
1167 PRINT_SUBTYPE(MSG_ORIG(MSG_CNOTE_T_PR_CUTIME), pr_cutime,
1168 dump_timestruc);
1169 PRINT_SUBTYPE(MSG_ORIG(MSG_CNOTE_T_PR_CSTIME), pr_cstime,
1170 dump_timestruc);
1171 PRINT_STRBUF(MSG_ORIG(MSG_CNOTE_T_PR_CLNAME), pr_clname);
1172
1173 if (data_present(state, &layout->pr_syscall)) {
1174 w = extract_as_word(state, &layout->pr_syscall);
1175 print_str(state, MSG_ORIG(MSG_CNOTE_T_PR_SYSCALL),
1176 conv_cnote_syscall(w, CONV_FMT_DECIMAL, &conv_buf.inv));
1177 }
1178
1179 PRINT_DEC(MSG_ORIG(MSG_CNOTE_T_PR_NSYSARG), pr_nsysarg);
1180
1181 if (data_present(state, &layout->pr_nsysarg)) {
1182 w2 = extract_as_word(state, &layout->pr_nsysarg);
1183 print_array(state, &layout->pr_sysarg, SL_FMT_NUM_ZHEX, w2, 1,
1184 MSG_ORIG(MSG_CNOTE_T_PR_SYSARG));
1185 }
1186
1187 PRINT_DEC(MSG_ORIG(MSG_CNOTE_T_PR_WHO), pr_who);
1188 PRINT_SUBTYPE(MSG_ORIG(MSG_CNOTE_T_PR_LWPPEND), pr_sigpend,
1189 dump_sigset);
1190 PRINT_ZHEX(MSG_ORIG(MSG_CNOTE_T_PR_OLDCONTEXT), pr_oldcontext);
1191 print_num_2up(state, MSG_ORIG(MSG_CNOTE_T_PR_BRKBASE),
1192 &layout->pr_brkbase, SL_FMT_NUM_ZHEX,
1193 MSG_ORIG(MSG_CNOTE_T_PR_BRKSIZE),
1194 &layout->pr_brksize, SL_FMT_NUM_HEX);
1195 print_num_2up(state, MSG_ORIG(MSG_CNOTE_T_PR_STKBASE),
1196 &layout->pr_stkbase, SL_FMT_NUM_ZHEX,
1197 MSG_ORIG(MSG_CNOTE_T_PR_STKSIZE),
1198 &layout->pr_stksize, SL_FMT_NUM_HEX);
1199 PRINT_DEC(MSG_ORIG(MSG_CNOTE_T_PR_PROCESSOR), pr_processor);
1200
1201 if (data_present(state, &layout->pr_bind)) {
1202 i = extract_as_sword(state, &layout->pr_bind);
1203 print_str(state, MSG_ORIG(MSG_CNOTE_T_PR_BIND),
1204 conv_cnote_psetid(i, CONV_FMT_DECIMAL, &conv_buf.inv));
1205 }
1206
1207 PRINT_ZHEX(MSG_ORIG(MSG_CNOTE_T_PR_INSTR), pr_instr);
1208 PRINT_SUBTYPE(MSG_ORIG(MSG_CNOTE_T_PR_REG), pr_reg, dump_prgregset);
1209
1210 indent_exit(state);
1211 }
1212
1213
1214 /*
1215 * Print percent from 16-bit binary fraction [0 .. 1]
1216 * Round up .01 to .1 to indicate some small percentage (the 0x7000 below).
1217 *
1218 * Note: This routine was copied from ps(1) and then modified.
1219 */
1220 static const char *
1221 prtpct_value(note_state_t *state, const sl_field_t *fdesc,
1222 sl_fmtbuf_t buf)
1223 {
1224 uint_t value; /* need 32 bits to compute with */
1225
1226 value = extract_as_word(state, fdesc);
1227 value = ((value * 1000) + 0x7000) >> 15; /* [0 .. 1000] */
1228 if (value >= 1000)
1229 value = 999;
1230
1231 (void) snprintf(buf, sizeof (sl_fmtbuf_t),
1232 MSG_ORIG(MSG_CNOTE_FMT_PRTPCT), value / 10, value % 10);
1233
1234 return (buf);
1235 }
1236
1237
1238
1239 /*
1240 * Version of prtpct() used for a 2-up display of two adjacent percentages.
1241 */
1242 static void
1243 prtpct_2up(note_state_t *state, const sl_field_t *fdesc1,
1244 const char *title1, const sl_field_t *fdesc2, const char *title2)
1245 {
1246 sl_fmtbuf_t buf1, buf2;
1247
1248 if (!(data_present(state, fdesc1) &&
1249 data_present(state, fdesc2)))
1250 return;
1251
1252 dbg_print(0, MSG_ORIG(MSG_CNOTE_FMT_LINE_2UP), INDENT,
1253 state->ns_vcol - state->ns_indent, title1,
1254 state->ns_t2col - state->ns_vcol,
1255 prtpct_value(state, fdesc1, buf1),
1256 state->ns_v2col - state->ns_t2col, title2,
1257 prtpct_value(state, fdesc2, buf2));
1258 }
1259
1260
1261 /*
1262 * The psinfo_t and prpsinfo_t structs have pr_state and pr_sname
1263 * fields that we wish to print in a 2up format. The pr_state is
1264 * an integer, while pr_sname is a single character.
1265 */
1266 static void
1267 print_state_sname_2up(note_state_t *state,
1268 const sl_field_t *state_fdesc,
1269 const sl_field_t *sname_fdesc)
1270 {
1271 sl_fmtbuf_t buf1, buf2;
1272 int sname;
1273
1274 /*
1275 * If the field slf_offset and extent fall past the end of the
1276 * available data, then return without doing anything. That note
1277 * is from an older core file that doesn't have all the fields
1278 * that we know about.
1279 */
1280 if (!(data_present(state, state_fdesc) &&
1281 data_present(state, sname_fdesc)))
1282 return;
1283
1284 sname = extract_as_sword(state, sname_fdesc);
1285 buf2[0] = sname;
1286 buf2[1] = '\0';
1287
1288 dbg_print(0, MSG_ORIG(MSG_CNOTE_FMT_LINE_2UP), INDENT,
1289 state->ns_vcol - state->ns_indent, MSG_ORIG(MSG_CNOTE_T_PR_STATE),
1290 state->ns_t2col - state->ns_vcol,
1291 fmt_num(state, state_fdesc, SL_FMT_NUM_DEC, buf1),
1292 state->ns_v2col - state->ns_t2col, MSG_ORIG(MSG_CNOTE_T_PR_SNAME),
1293 buf2);
1294 }
1295
1296 /*
1297 * Output information from lwpsinfo_t structure.
1298 */
1299 static void
1300 dump_lwpsinfo(note_state_t *state, const char *title)
1301 {
1302 const sl_lwpsinfo_layout_t *layout = state->ns_arch->lwpsinfo;
1303 Word w;
1304 int32_t i;
1305 union {
1306 Conv_cnote_proc_flag_buf_t proc_flag;
1307 Conv_inv_buf_t inv;
1308 } conv_buf;
1309
1310 indent_enter(state, title, &layout->pr_flag);
1311
1312 if (data_present(state, &layout->pr_flag)) {
1313 w = extract_as_word(state, &layout->pr_flag);
1314 print_str(state, MSG_ORIG(MSG_CNOTE_T_PR_FLAG),
1315 conv_cnote_proc_flag(w, 0, &conv_buf.proc_flag));
1316 }
1317
1318 print_num_2up(state, MSG_ORIG(MSG_CNOTE_T_PR_LWPID), &layout->pr_lwpid,
1319 SL_FMT_NUM_DEC, MSG_ORIG(MSG_CNOTE_T_PR_ADDR), &layout->pr_addr,
1320 SL_FMT_NUM_ZHEX);
1321 PRINT_HEX(MSG_ORIG(MSG_CNOTE_T_PR_WCHAN), pr_wchan);
1322
1323 if (data_present(state, &layout->pr_stype)) {
1324 w = extract_as_word(state, &layout->pr_stype);
1325 print_str(state, MSG_ORIG(MSG_CNOTE_T_PR_STYPE),
1326 conv_cnote_pr_stype(w, CONV_FMT_DECIMAL, &conv_buf.inv));
1327 }
1328
1329 print_state_sname_2up(state, &layout->pr_state, &layout->pr_sname);
1330
1331 PRINT_DEC(MSG_ORIG(MSG_CNOTE_T_PR_NICE), pr_nice);
1332
1333 if (data_present(state, &layout->pr_syscall)) {
1334 w = extract_as_word(state, &layout->pr_syscall);
1335 print_str(state, MSG_ORIG(MSG_CNOTE_T_PR_SYSCALL),
1336 conv_cnote_syscall(w, CONV_FMT_DECIMAL, &conv_buf.inv));
1337 }
1338
1339 PRINT_DEC_2UP(MSG_ORIG(MSG_CNOTE_T_PR_OLDPRI), pr_oldpri,
1340 MSG_ORIG(MSG_CNOTE_T_PR_CPU), pr_cpu);
1341
1342 if (data_present(state, &layout->pr_pri) &&
1343 data_present(state, &layout->pr_pctcpu)) {
1344 sl_fmtbuf_t buf1, buf2;
1345
1346 dbg_print(0, MSG_ORIG(MSG_CNOTE_FMT_LINE_2UP), INDENT,
1347 state->ns_vcol - state->ns_indent,
1348 MSG_ORIG(MSG_CNOTE_T_PR_PRI),
1349 state->ns_t2col - state->ns_vcol,
1350 fmt_num(state, &layout->pr_pri, SL_FMT_NUM_DEC, buf1),
1351 state->ns_v2col - state->ns_t2col,
1352 MSG_ORIG(MSG_CNOTE_T_PR_PCTCPU),
1353 prtpct_value(state, &layout->pr_pctcpu, buf2));
1354 }
1355
1356 PRINT_SUBTYPE(MSG_ORIG(MSG_CNOTE_T_PR_START), pr_start, dump_timestruc);
1357 PRINT_SUBTYPE(MSG_ORIG(MSG_CNOTE_T_PR_TIME), pr_time, dump_timestruc);
1358 PRINT_STRBUF(MSG_ORIG(MSG_CNOTE_T_PR_CLNAME), pr_clname);
1359 PRINT_STRBUF(MSG_ORIG(MSG_CNOTE_T_PR_NAME), pr_name);
1360 PRINT_DEC_2UP(MSG_ORIG(MSG_CNOTE_T_PR_ONPRO), pr_onpro,
1361 MSG_ORIG(MSG_CNOTE_T_PR_BINDPRO), pr_bindpro);
1362
1363 if (data_present(state, &layout->pr_bindpset)) {
1364 i = extract_as_sword(state, &layout->pr_bindpset);
1365 print_str(state, MSG_ORIG(MSG_CNOTE_T_PR_BINDPSET),
1366 conv_cnote_psetid(i, CONV_FMT_DECIMAL, &conv_buf.inv));
1367 }
1368
1369 PRINT_DEC(MSG_ORIG(MSG_CNOTE_T_PR_LGRP), pr_lgrp);
1370
1371 indent_exit(state);
1372 }
1373
1374
1375 /*
1376 * Output information from psinfo_t structure.
1377 */
1378 static void
1379 dump_psinfo(note_state_t *state, const char *title)
1380 {
1381 const sl_psinfo_layout_t *layout = state->ns_arch->psinfo;
1382 Word w;
1383 union {
1384 Conv_cnote_proc_flag_buf_t proc_flag;
1385 Conv_inv_buf_t inv;
1386 } conv_buf;
1387
1388 indent_enter(state, title, &layout->pr_flag);
1389
1390 if (data_present(state, &layout->pr_flag)) {
1391 w = extract_as_word(state, &layout->pr_flag);
1392 print_str(state, MSG_ORIG(MSG_CNOTE_T_PR_FLAG),
1393 conv_cnote_proc_flag(w, 0, &conv_buf.proc_flag));
1394 }
1395
1396 PRINT_DEC(MSG_ORIG(MSG_CNOTE_T_PR_NLWP), pr_nlwp);
1397 PRINT_DEC_2UP(MSG_ORIG(MSG_CNOTE_T_PR_PID), pr_pid,
1398 MSG_ORIG(MSG_CNOTE_T_PR_PPID), pr_ppid);
1399 PRINT_DEC_2UP(MSG_ORIG(MSG_CNOTE_T_PR_PGID), pr_pgid,
1400 MSG_ORIG(MSG_CNOTE_T_PR_SID), pr_sid);
1401 PRINT_DEC_2UP(MSG_ORIG(MSG_CNOTE_T_PR_UID), pr_uid,
1402 MSG_ORIG(MSG_CNOTE_T_PR_EUID), pr_euid);
1403 PRINT_DEC_2UP(MSG_ORIG(MSG_CNOTE_T_PR_GID), pr_gid,
1404 MSG_ORIG(MSG_CNOTE_T_PR_EGID), pr_egid);
1405 print_num_2up(state, MSG_ORIG(MSG_CNOTE_T_PR_ADDR), &layout->pr_addr,
1406 SL_FMT_NUM_ZHEX, MSG_ORIG(MSG_CNOTE_T_PR_SIZE), &layout->pr_size,
1407 SL_FMT_NUM_HEX);
1408 print_num_2up(state, MSG_ORIG(MSG_CNOTE_T_PR_RSSIZE),
1409 &layout->pr_rssize, SL_FMT_NUM_HEX, MSG_ORIG(MSG_CNOTE_T_PR_TTYDEV),
1410 &layout->pr_ttydev, SL_FMT_NUM_DEC);
1411 prtpct_2up(state, &layout->pr_pctcpu, MSG_ORIG(MSG_CNOTE_T_PR_PCTCPU),
1412 &layout->pr_pctmem, MSG_ORIG(MSG_CNOTE_T_PR_PCTMEM));
1413 PRINT_SUBTYPE(MSG_ORIG(MSG_CNOTE_T_PR_START), pr_start, dump_timestruc);
1414 PRINT_SUBTYPE(MSG_ORIG(MSG_CNOTE_T_PR_TIME), pr_time, dump_timestruc);
1415 PRINT_SUBTYPE(MSG_ORIG(MSG_CNOTE_T_PR_CTIME), pr_ctime, dump_timestruc);
1416 PRINT_STRBUF(MSG_ORIG(MSG_CNOTE_T_PR_FNAME), pr_fname);
1417 PRINT_STRBUF(MSG_ORIG(MSG_CNOTE_T_PR_PSARGS), pr_psargs);
1418 print_num_2up(state, MSG_ORIG(MSG_CNOTE_T_PR_WSTAT), &layout->pr_wstat,
1419 SL_FMT_NUM_HEX, MSG_ORIG(MSG_CNOTE_T_PR_ARGC), &layout->pr_argc,
1420 SL_FMT_NUM_DEC);
1421 PRINT_ZHEX_2UP(MSG_ORIG(MSG_CNOTE_T_PR_ARGV), pr_argv,
1422 MSG_ORIG(MSG_CNOTE_T_PR_ENVP), pr_envp);
1423
1424 if (data_present(state, &layout->pr_dmodel)) {
1425 w = extract_as_word(state, &layout->pr_dmodel);
1426 print_str(state, MSG_ORIG(MSG_CNOTE_T_PR_DMODEL),
1427 conv_cnote_pr_dmodel(w, 0, &conv_buf.inv));
1428 }
1429
1430 PRINT_DEC_2UP(MSG_ORIG(MSG_CNOTE_T_PR_TASKID), pr_taskid,
1431 MSG_ORIG(MSG_CNOTE_T_PR_PROJID), pr_projid);
1432 PRINT_DEC_2UP(MSG_ORIG(MSG_CNOTE_T_PR_NZOMB), pr_nzomb,
1433 MSG_ORIG(MSG_CNOTE_T_PR_POOLID), pr_poolid);
1434 PRINT_DEC_2UP(MSG_ORIG(MSG_CNOTE_T_PR_ZONEID), pr_zoneid,
1435 MSG_ORIG(MSG_CNOTE_T_PR_CONTRACT), pr_contract);
1436
1437 PRINT_SUBTYPE(MSG_ORIG(MSG_CNOTE_T_PR_LWP), pr_lwp, dump_lwpsinfo);
1438
1439 indent_exit(state);
1440 }
1441
1442 /*
1443 * Output information from prpsinfo_t structure.
1444 */
1445 static void
1446 dump_prpsinfo(note_state_t *state, const char *title)
1447 {
1448 const sl_prpsinfo_layout_t *layout = state->ns_arch->prpsinfo;
1449 Word w;
1450 union {
1451 Conv_cnote_proc_flag_buf_t proc_flag;
1452 Conv_inv_buf_t inv;
1453 } conv_buf;
1454
1455 indent_enter(state, title, &layout->pr_state);
1456
1457 print_state_sname_2up(state, &layout->pr_state, &layout->pr_sname);
1458 PRINT_DEC_2UP(MSG_ORIG(MSG_CNOTE_T_PR_ZOMB), pr_zomb,
1459 MSG_ORIG(MSG_CNOTE_T_PR_NICE), pr_nice);
1460
1461 if (data_present(state, &layout->pr_flag)) {
1462 w = extract_as_word(state, &layout->pr_flag);
1463 print_str(state, MSG_ORIG(MSG_CNOTE_T_PR_FLAG),
1464 conv_cnote_proc_flag(w, 0, &conv_buf.proc_flag));
1465 }
1466
1467
1468 PRINT_DEC_2UP(MSG_ORIG(MSG_CNOTE_T_PR_UID), pr_uid,
1469 MSG_ORIG(MSG_CNOTE_T_PR_GID), pr_gid);
1470 PRINT_DEC_2UP(MSG_ORIG(MSG_CNOTE_T_PR_PID), pr_pid,
1471 MSG_ORIG(MSG_CNOTE_T_PR_PPID), pr_ppid);
1472 PRINT_DEC_2UP(MSG_ORIG(MSG_CNOTE_T_PR_PGRP), pr_pgrp,
1473 MSG_ORIG(MSG_CNOTE_T_PR_SID), pr_sid);
1474 print_num_2up(state, MSG_ORIG(MSG_CNOTE_T_PR_ADDR), &layout->pr_addr,
1475 SL_FMT_NUM_ZHEX, MSG_ORIG(MSG_CNOTE_T_PR_SIZE), &layout->pr_size,
1476 SL_FMT_NUM_HEX);
1477 PRINT_HEX_2UP(MSG_ORIG(MSG_CNOTE_T_PR_RSSIZE), pr_rssize,
1478 MSG_ORIG(MSG_CNOTE_T_PR_WCHAN), pr_wchan);
1479 PRINT_SUBTYPE(MSG_ORIG(MSG_CNOTE_T_PR_START), pr_start, dump_timestruc);
1480 PRINT_SUBTYPE(MSG_ORIG(MSG_CNOTE_T_PR_TIME), pr_time, dump_timestruc);
1481 PRINT_DEC_2UP(MSG_ORIG(MSG_CNOTE_T_PR_PRI), pr_pri,
1482 MSG_ORIG(MSG_CNOTE_T_PR_OLDPRI), pr_oldpri);
1483 PRINT_DEC(MSG_ORIG(MSG_CNOTE_T_PR_CPU), pr_cpu);
1484 PRINT_DEC_2UP(MSG_ORIG(MSG_CNOTE_T_PR_OTTYDEV), pr_ottydev,
1485 MSG_ORIG(MSG_CNOTE_T_PR_LTTYDEV), pr_lttydev);
1486 PRINT_STRBUF(MSG_ORIG(MSG_CNOTE_T_PR_CLNAME), pr_clname);
1487 PRINT_STRBUF(MSG_ORIG(MSG_CNOTE_T_PR_FNAME), pr_fname);
1488 PRINT_STRBUF(MSG_ORIG(MSG_CNOTE_T_PR_PSARGS), pr_psargs);
1489
1490 if (data_present(state, &layout->pr_syscall)) {
1491 w = extract_as_word(state, &layout->pr_syscall);
1492 print_str(state, MSG_ORIG(MSG_CNOTE_T_PR_SYSCALL),
1493 conv_cnote_syscall(w, CONV_FMT_DECIMAL, &conv_buf.inv));
1494 }
1495
1496 PRINT_SUBTYPE(MSG_ORIG(MSG_CNOTE_T_PR_CTIME), pr_ctime, dump_timestruc);
1497 PRINT_HEX_2UP(MSG_ORIG(MSG_CNOTE_T_PR_BYSIZE), pr_bysize,
1498 MSG_ORIG(MSG_CNOTE_T_PR_BYRSSIZE), pr_byrssize);
1499 print_num_2up(state, MSG_ORIG(MSG_CNOTE_T_PR_ARGC), &layout->pr_argc,
1500 SL_FMT_NUM_DEC, MSG_ORIG(MSG_CNOTE_T_PR_ARGV), &layout->pr_argv,
1501 SL_FMT_NUM_ZHEX);
1502 print_num_2up(state, MSG_ORIG(MSG_CNOTE_T_PR_ENVP), &layout->pr_envp,
1503 SL_FMT_NUM_ZHEX, MSG_ORIG(MSG_CNOTE_T_PR_WSTAT), &layout->pr_wstat,
1504 SL_FMT_NUM_HEX);
1505 prtpct_2up(state, &layout->pr_pctcpu, MSG_ORIG(MSG_CNOTE_T_PR_PCTCPU),
1506 &layout->pr_pctmem, MSG_ORIG(MSG_CNOTE_T_PR_PCTMEM));
1507 PRINT_DEC_2UP(MSG_ORIG(MSG_CNOTE_T_PR_EUID), pr_euid,
1508 MSG_ORIG(MSG_CNOTE_T_PR_EGID), pr_egid);
1509 PRINT_DEC(MSG_ORIG(MSG_CNOTE_T_PR_ASLWPID), pr_aslwpid);
1510
1511 if (data_present(state, &layout->pr_dmodel)) {
1512 w = extract_as_word(state, &layout->pr_dmodel);
1513 print_str(state, MSG_ORIG(MSG_CNOTE_T_PR_DMODEL),
1514 conv_cnote_pr_dmodel(w, 0, &conv_buf.inv));
1515 }
1516
1517 indent_exit(state);
1518 }
1519
1520
1521 /*
1522 * Output information from prcred_t structure.
1523 */
1524 static void
1525 dump_prcred(note_state_t *state, const char *title)
1526 {
1527 const sl_prcred_layout_t *layout = state->ns_arch->prcred;
1528 Word ngroups;
1529
1530 indent_enter(state, title, &layout->pr_euid);
1531
1532 PRINT_DEC_2UP(MSG_ORIG(MSG_CNOTE_T_PR_EUID), pr_euid,
1533 MSG_ORIG(MSG_CNOTE_T_PR_RUID), pr_ruid);
1534 PRINT_DEC_2UP(MSG_ORIG(MSG_CNOTE_T_PR_SUID), pr_suid,
1535 MSG_ORIG(MSG_CNOTE_T_PR_EGID), pr_egid);
1536 PRINT_DEC_2UP(MSG_ORIG(MSG_CNOTE_T_PR_RGID), pr_rgid,
1537 MSG_ORIG(MSG_CNOTE_T_PR_SGID), pr_sgid);
1538 PRINT_DEC(MSG_ORIG(MSG_CNOTE_T_PR_NGROUPS), pr_ngroups);
1539
1540 if (data_present(state, &layout->pr_ngroups)) {
1541 ngroups = extract_as_word(state, &layout->pr_ngroups);
1542 print_array(state, &layout->pr_groups, SL_FMT_NUM_DEC, ngroups,
1543 0, MSG_ORIG(MSG_CNOTE_T_PR_GROUPS));
1544 }
1545
1546 indent_exit(state);
1547 }
1548
1549
1550 /*
1551 * Output information from prpriv_t structure.
1552 */
1553 static void
1554 dump_prpriv(note_state_t *state, const char *title)
1555 {
1556 const sl_prpriv_layout_t *layout = state->ns_arch->prpriv;
1557 Word nsets;
1558
1559 indent_enter(state, title, &layout->pr_nsets);
1560
1561 PRINT_DEC(MSG_ORIG(MSG_CNOTE_T_PR_NSETS), pr_nsets);
1562 PRINT_HEX(MSG_ORIG(MSG_CNOTE_T_PR_SETSIZE), pr_setsize);
1563 PRINT_HEX(MSG_ORIG(MSG_CNOTE_T_PR_INFOSIZE), pr_infosize);
1564
1565 if (data_present(state, &layout->pr_nsets)) {
1566 nsets = extract_as_word(state, &layout->pr_nsets);
1567 print_array(state, &layout->pr_sets, SL_FMT_NUM_ZHEX, nsets,
1568 0, MSG_ORIG(MSG_CNOTE_T_PR_SETS));
1569 }
1570
1571 indent_exit(state);
1572 }
1573
1574 static void
1575 dump_prfdinfo(note_state_t *state, const char *title)
1576 {
1577 const sl_prfdinfo_layout_t *layout = state->ns_arch->prfdinfo;
1578 char buf[1024];
1579 uint32_t fileflags, mode;
1580
1581 indent_enter(state, title, &layout->pr_fd);
1582
1583 PRINT_DEC(MSG_ORIG(MSG_CNOTE_T_PR_FD), pr_fd);
1584 mode = extract_as_word(state, &layout->pr_mode);
1585
1586 print_str(state, MSG_ORIG(MSG_CNOTE_T_PR_MODE),
1587 conv_cnote_filemode(mode, 0, buf, sizeof (buf)));
1588
1589 PRINT_DEC_2UP(MSG_ORIG(MSG_CNOTE_T_PR_UID), pr_uid,
1590 MSG_ORIG(MSG_CNOTE_T_PR_GID), pr_gid);
1591
1592 PRINT_DEC_2UP(MSG_ORIG(MSG_CNOTE_T_PR_MAJOR), pr_major,
1593 MSG_ORIG(MSG_CNOTE_T_PR_MINOR), pr_minor);
1594 PRINT_DEC_2UP(MSG_ORIG(MSG_CNOTE_T_PR_RMAJOR), pr_rmajor,
1595 MSG_ORIG(MSG_CNOTE_T_PR_RMINOR), pr_rminor);
1596
1597 PRINT_DEC(MSG_ORIG(MSG_CNOTE_T_PR_INO), pr_ino);
1598
1599 PRINT_DEC_2UP(MSG_ORIG(MSG_CNOTE_T_PR_SIZE), pr_size,
1600 MSG_ORIG(MSG_CNOTE_T_PR_OFFSET), pr_offset);
1601
1602 fileflags = extract_as_word(state, &layout->pr_fileflags);
1603
1604 print_str(state, MSG_ORIG(MSG_CNOTE_T_PR_FILEFLAGS),
1605 conv_cnote_fileflags(fileflags, 0, buf, sizeof (buf)));
1606
1607 PRINT_DEC(MSG_ORIG(MSG_CNOTE_T_PR_FDFLAGS), pr_fdflags);
1608
1609 PRINT_STRBUF(MSG_ORIG(MSG_CNOTE_T_PR_PATH), pr_path);
1610
1611 indent_exit(state);
1612 }
1613
1614 /*
1615 * Output information from priv_impl_info_t structure.
1616 */
1617 static void
1618 dump_priv_impl_info(note_state_t *state, const char *title)
1619 {
1620 const sl_priv_impl_info_layout_t *layout;
1621
1622 layout = state->ns_arch->priv_impl_info;
1623 indent_enter(state, title, &layout->priv_headersize);
1624
1625 PRINT_HEX_2UP(MSG_ORIG(MSG_CNOTE_T_PRIV_HEADERSIZE), priv_headersize,
1626 MSG_ORIG(MSG_CNOTE_T_PRIV_FLAGS), priv_flags);
1627
1628 print_num_2up(state, MSG_ORIG(MSG_CNOTE_T_PRIV_NSETS),
1629 &layout->priv_nsets, SL_FMT_NUM_DEC,
1630 MSG_ORIG(MSG_CNOTE_T_PRIV_SETSIZE), &layout->priv_setsize,
1631 SL_FMT_NUM_HEX);
1632 print_num_2up(state, MSG_ORIG(MSG_CNOTE_T_PRIV_MAX), &layout->priv_max,
1633 SL_FMT_NUM_DEC, MSG_ORIG(MSG_CNOTE_T_PRIV_INFOSIZE),
1634 &layout->priv_infosize, SL_FMT_NUM_HEX);
1635 PRINT_HEX(MSG_ORIG(MSG_CNOTE_T_PRIV_GLOBALINFOSIZE),
1636 priv_globalinfosize);
1637
1638 indent_exit(state);
1639 }
1640
1641
1642 /*
1643 * Dump information from an asrset_t array. This data
1644 * structure is specific to sparcv9, and does not appear
1645 * on any other platform.
1646 *
1647 * asrset_t is a simple array, defined in <sys/regset.h> as
1648 * typedef int64_t asrset_t[16]; %asr16 - > %asr31
1649 *
1650 * As such, we do not make use of the struct_layout facilities
1651 * for this routine.
1652 */
1653 static void
1654 dump_asrset(note_state_t *state, const char *title)
1655 {
1656 static const sl_field_t ftemplate = { 0, sizeof (int64_t), 16, 0 };
1657 sl_field_t fdesc1, fdesc2;
1658 sl_fmtbuf_t buf1, buf2;
1659 char index1[MAXNDXSIZE * 2], index2[MAXNDXSIZE * 2];
1660 Word w, nelts;
1661
1662 fdesc1 = fdesc2 = ftemplate;
1663
1664 /* We expect 16 values, but will print whatever is actually there */
1665 nelts = state->ns_len / ftemplate.slf_eltlen;
1666 if (nelts == 0)
1667 return;
1668
1669 indent_enter(state, title, &fdesc1);
1670
1671 for (w = 0; w < nelts; ) {
1672 (void) snprintf(index1, sizeof (index1),
1673 MSG_ORIG(MSG_FMT_ASRINDEX), w + 16);
1674
1675 if (w == (nelts - 1)) {
1676 /* One last register is left */
1677 dbg_print(0, MSG_ORIG(MSG_CNOTE_FMT_LINE),
1678 INDENT, state->ns_vcol - state->ns_indent, index1,
1679 fmt_num(state, &fdesc1, SL_FMT_NUM_ZHEX, buf1));
1680 fdesc1.slf_offset += fdesc1.slf_eltlen;
1681 w++;
1682 continue;
1683 }
1684
1685 /* There are at least 2 more registers left. Show 2 up */
1686 (void) snprintf(index2, sizeof (index2),
1687 MSG_ORIG(MSG_FMT_ASRINDEX), w + 17);
1688
1689 fdesc2.slf_offset = fdesc1.slf_offset + fdesc1.slf_eltlen;
1690 dbg_print(0, MSG_ORIG(MSG_CNOTE_FMT_LINE_2UP), INDENT,
1691 state->ns_vcol - state->ns_indent, index1,
1692 state->ns_t2col - state->ns_vcol,
1693 fmt_num(state, &fdesc1, SL_FMT_NUM_ZHEX, buf1),
1694 state->ns_v2col - state->ns_t2col, index2,
1695 fmt_num(state, &fdesc2, SL_FMT_NUM_ZHEX, buf2));
1696 fdesc1.slf_offset += 2 * fdesc1.slf_eltlen;
1697 w += 2;
1698 }
1699
1700 indent_exit(state);
1701 }
1702
1703 corenote_ret_t
1704 corenote(Half mach, int do_swap, Word type,
1705 const char *desc, Word descsz)
1706 {
1707 note_state_t state;
1708
1709 /*
1710 * Get the per-architecture layout definition
1711 */
1712 state.ns_mach = mach;
1713 state.ns_arch = sl_mach(state.ns_mach);
1714 if (sl_mach(state.ns_mach) == NULL)
1715 return (CORENOTE_R_BADARCH);
1716
1717 state.ns_swap = do_swap;
1718 state.ns_indent = 4;
1719 state.ns_t2col = state.ns_v2col = 0;
1720 state.ns_data = desc;
1721 state.ns_len = descsz;
1722
1723 switch (type) {
1724 case NT_PRSTATUS: /* prstatus_t <sys/old_procfs.h> */
1725 state.ns_vcol = 26;
1726 state.ns_t2col = 46;
1727 state.ns_v2col = 60;
1728 dump_prstatus(&state, MSG_ORIG(MSG_CNOTE_DESC_PRSTATUS_T));
1729 return (CORENOTE_R_OK);
1730
1731 case NT_PRFPREG: /* prfpregset_t <sys/procfs_isa.h> */
1732 return (CORENOTE_R_OK_DUMP);
1733
1734 case NT_PRPSINFO: /* prpsinfo_t <sys/old_procfs.h> */
1735 state.ns_vcol = 20;
1736 state.ns_t2col = 41;
1737 state.ns_v2col = 54;
1738 dump_prpsinfo(&state, MSG_ORIG(MSG_CNOTE_DESC_PRPSINFO_T));
1739 return (CORENOTE_R_OK);
1740
1741 case NT_PRXREG: /* prxregset_t <sys/procfs_isa.h> */
1742 return (CORENOTE_R_OK_DUMP);
1743
1744 case NT_PLATFORM: /* string from sysinfo(SI_PLATFORM) */
1745 dbg_print(0, MSG_ORIG(MSG_NOTE_DESC));
1746 dbg_print(0, MSG_ORIG(MSG_FMT_INDENT), safe_str(desc, descsz));
1747 return (CORENOTE_R_OK);
1748
1749 case NT_AUXV: /* auxv_t array <sys/auxv.h> */
1750 state.ns_vcol = 18;
1751 dump_auxv(&state, MSG_ORIG(MSG_CNOTE_DESC_AUXV_T));
1752 return (CORENOTE_R_OK);
1753
1754 case NT_GWINDOWS: /* gwindows_t SPARC only */
1755 return (CORENOTE_R_OK_DUMP);
1756
1757 case NT_ASRS: /* asrset_t <sys/regset> sparcv9 only */
1758 state.ns_vcol = 18;
1759 state.ns_t2col = 38;
1760 state.ns_v2col = 46;
1761 dump_asrset(&state, MSG_ORIG(MSG_CNOTE_DESC_ASRSET_T));
1762 return (CORENOTE_R_OK);
1763
1764 case NT_LDT: /* ssd array <sys/sysi86.h> IA32 only */
1765 return (CORENOTE_R_OK_DUMP);
1766
1767 case NT_PSTATUS: /* pstatus_t <sys/procfs.h> */
1768 state.ns_vcol = 22;
1769 state.ns_t2col = 42;
1770 state.ns_v2col = 54;
1771 dump_pstatus(&state, MSG_ORIG(MSG_CNOTE_DESC_PSTATUS_T));
1772 return (CORENOTE_R_OK);
1773
1774 case NT_PSINFO: /* psinfo_t <sys/procfs.h> */
1775 state.ns_vcol = 25;
1776 state.ns_t2col = 45;
1777 state.ns_v2col = 58;
1778 dump_psinfo(&state, MSG_ORIG(MSG_CNOTE_DESC_PSINFO_T));
1779 return (CORENOTE_R_OK);
1780
1781 case NT_PRCRED: /* prcred_t <sys/procfs.h> */
1782 state.ns_vcol = 20;
1783 state.ns_t2col = 34;
1784 state.ns_v2col = 44;
1785 dump_prcred(&state, MSG_ORIG(MSG_CNOTE_DESC_PRCRED_T));
1786 return (CORENOTE_R_OK);
1787
1788 case NT_UTSNAME: /* struct utsname <sys/utsname.h> */
1789 state.ns_vcol = 18;
1790 dump_utsname(&state, MSG_ORIG(MSG_CNOTE_DESC_STRUCT_UTSNAME));
1791 return (CORENOTE_R_OK);
1792
1793 case NT_LWPSTATUS: /* lwpstatus_t <sys/procfs.h> */
1794 state.ns_vcol = 24;
1795 state.ns_t2col = 44;
1796 state.ns_v2col = 54;
1797 dump_lwpstatus(&state, MSG_ORIG(MSG_CNOTE_DESC_LWPSTATUS_T));
1798 return (CORENOTE_R_OK);
1799
1800 case NT_LWPSINFO: /* lwpsinfo_t <sys/procfs.h> */
1801 state.ns_vcol = 22;
1802 state.ns_t2col = 42;
1803 state.ns_v2col = 54;
1804 dump_lwpsinfo(&state, MSG_ORIG(MSG_CNOTE_DESC_LWPSINFO_T));
1805 return (CORENOTE_R_OK);
1806
1807 case NT_PRPRIV: /* prpriv_t <sys/procfs.h> */
1808 state.ns_vcol = 21;
1809 state.ns_t2col = 34;
1810 state.ns_v2col = 38;
1811 dump_prpriv(&state, MSG_ORIG(MSG_CNOTE_DESC_PRPRIV_T));
1812 return (CORENOTE_R_OK);
1813
1814 case NT_PRPRIVINFO: /* priv_impl_info_t <sys/priv.h> */
1815 state.ns_vcol = 29;
1816 state.ns_t2col = 41;
1817 state.ns_v2col = 56;
1818 dump_priv_impl_info(&state,
1819 MSG_ORIG(MSG_CNOTE_DESC_PRIV_IMPL_INFO_T));
1820 return (CORENOTE_R_OK);
1821
1822 case NT_CONTENT: /* core_content_t <sys/corectl.h> */
1823 if (sizeof (core_content_t) > descsz)
1824 return (CORENOTE_R_BADDATA);
1825 {
1826 static sl_field_t fdesc = { 0, 8, 0, 0 };
1827 Conv_cnote_cc_content_buf_t conv_buf;
1828 core_content_t content;
1829
1830 state.ns_vcol = 8;
1831 indent_enter(&state,
1832 MSG_ORIG(MSG_CNOTE_DESC_CORE_CONTENT_T),
1833 &fdesc);
1834 content = extract_as_lword(&state, &fdesc);
1835 print_str(&state, MSG_ORIG(MSG_STR_EMPTY),
1836 conv_cnote_cc_content(content, 0, &conv_buf));
1837 indent_exit(&state);
1838 }
1839 return (CORENOTE_R_OK);
1840
1841 case NT_ZONENAME: /* string from getzonenamebyid(3C) */
1842 dbg_print(0, MSG_ORIG(MSG_NOTE_DESC));
1843 dbg_print(0, MSG_ORIG(MSG_FMT_INDENT), safe_str(desc, descsz));
1844 return (CORENOTE_R_OK);
1845
1846
1847 case NT_FDINFO:
1848 state.ns_vcol = 22;
1849 state.ns_t2col = 41;
1850 state.ns_v2col = 54;
1851 dump_prfdinfo(&state, MSG_ORIG(MSG_CNOTE_DESC_PRFDINFO_T));
1852 return (CORENOTE_R_OK);
1853
1854 case NT_SPYMASTER:
1855 state.ns_vcol = 25;
1856 state.ns_t2col = 45;
1857 state.ns_v2col = 58;
1858 dump_psinfo(&state, MSG_ORIG(MSG_CNOTE_DESC_PSINFO_T));
1859 return (CORENOTE_R_OK);
1860 }
1861
1862 return (CORENOTE_R_BADTYPE);
1863 }