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 2009 Sun Microsystems, Inc. All rights reserved.
24 * Use is subject to license terms.
25 */
26
27 /*
28 * String conversion routines for symbol attributes.
29 */
30 #include <stdio.h>
31 #include <sys/elf_SPARC.h>
32 #include <sys/elf_amd64.h>
33 #include "_conv.h"
34 #include "symbols_msg.h"
35
36 const char *
conv_sym_other(uchar_t other,Conv_inv_buf_t * inv_buf)37 conv_sym_other(uchar_t other, Conv_inv_buf_t *inv_buf)
38 {
39 static const char visibility[7] = {
40 'D', /* STV_DEFAULT */
41 'I', /* STV_INTERNAL */
42 'H', /* STV_HIDDEN */
43 'P', /* STV_PROTECTED */
44 'X', /* STV_EXPORTED */
45 'S', /* STV_SINGLETON */
46 'E' /* STV_ELIMINATE */
47 };
48 uchar_t vis = ELF_ST_VISIBILITY(other);
49 uint_t ndx = 0;
50
51 inv_buf->buf[ndx++] = visibility[vis];
52
53 /*
54 * If unknown bits are present in st_other - throw out a '?'
55 */
56 if (other & ~MSK_SYM_VISIBILITY)
57 inv_buf->buf[ndx++] = '?';
58 inv_buf->buf[ndx++] = '\0';
59
60 return (inv_buf->buf);
61 }
62
63 static const conv_ds_t **
conv_sym_other_vis_strings(Conv_fmt_flags_t fmt_flags)64 conv_sym_other_vis_strings(Conv_fmt_flags_t fmt_flags)
65 {
66 static const Msg vis_def[] = {
67 MSG_STV_DEFAULT_DEF, MSG_STV_INTERNAL_DEF,
68 MSG_STV_HIDDEN_DEF, MSG_STV_PROTECTED_DEF,
69 MSG_STV_EXPORTED_DEF, MSG_STV_SINGLETON_DEF,
70 MSG_STV_ELIMINATE_DEF
71 };
72 static const Msg vis_cf[] = {
73 MSG_STV_DEFAULT_CF, MSG_STV_INTERNAL_CF,
74 MSG_STV_HIDDEN_CF, MSG_STV_PROTECTED_CF,
75 MSG_STV_EXPORTED_CF, MSG_STV_SINGLETON_CF,
76 MSG_STV_ELIMINATE_CF
77 };
78 static const Msg vis_nf[] = {
79 MSG_STV_DEFAULT_NF, MSG_STV_INTERNAL_NF,
80 MSG_STV_HIDDEN_NF, MSG_STV_PROTECTED_NF,
81 MSG_STV_EXPORTED_NF, MSG_STV_SINGLETON_NF,
82 MSG_STV_ELIMINATE_NF
83 };
84 static const conv_ds_msg_t ds_vis_def = {
85 CONV_DS_MSG_INIT(STV_DEFAULT, vis_def) };
86 static const conv_ds_msg_t ds_vis_cf = {
87 CONV_DS_MSG_INIT(STV_DEFAULT, vis_cf) };
88 static const conv_ds_msg_t ds_vis_nf = {
89 CONV_DS_MSG_INIT(STV_DEFAULT, vis_nf) };
90
91 /* Build NULL terminated return arrays for each string style */
92 static const conv_ds_t *ds_def[] = {
93 CONV_DS_ADDR(ds_vis_def), NULL };
94 static const conv_ds_t *ds_cf[] = {
95 CONV_DS_ADDR(ds_vis_cf), NULL };
96 static const conv_ds_t *ds_nf[] = {
97 CONV_DS_ADDR(ds_vis_nf), NULL };
98
99 /* Select the strings to use */
100 switch (CONV_TYPE_FMT_ALT(fmt_flags)) {
101 case CONV_FMT_ALT_CF:
102 return (ds_cf);
103 case CONV_FMT_ALT_NF:
104 return (ds_nf);
105 }
106
107 return (ds_def);
108 }
109
110 const char *
conv_sym_other_vis(uchar_t value,Conv_fmt_flags_t fmt_flags,Conv_inv_buf_t * inv_buf)111 conv_sym_other_vis(uchar_t value, Conv_fmt_flags_t fmt_flags,
112 Conv_inv_buf_t *inv_buf)
113 {
114 return (conv_map_ds(ELFOSABI_NONE, EM_NONE, value,
115 conv_sym_other_vis_strings(fmt_flags), fmt_flags, inv_buf));
116 }
117
118 conv_iter_ret_t
conv_iter_sym_other_vis(Conv_fmt_flags_t fmt_flags,conv_iter_cb_t func,void * uvalue)119 conv_iter_sym_other_vis(Conv_fmt_flags_t fmt_flags, conv_iter_cb_t func,
120 void *uvalue)
121 {
122 return (conv_iter_ds(ELFOSABI_NONE, EM_NONE,
123 conv_sym_other_vis_strings(fmt_flags), func, uvalue));
124 }
125
126 static const conv_ds_t **
conv_sym_info_type_strings(Half mach,Conv_fmt_flags_t fmt_flags)127 conv_sym_info_type_strings(Half mach, Conv_fmt_flags_t fmt_flags)
128 {
129 /*
130 * This routine can return an array with 1 generic array, and
131 * a machine array, plus the NULL termination.
132 */
133 #define MAX_RET 3
134
135 static const Msg types_def[] = {
136 MSG_STT_NOTYPE_DEF, MSG_STT_OBJECT_DEF,
137 MSG_STT_FUNC_DEF, MSG_STT_SECTION_DEF,
138 MSG_STT_FILE_DEF, MSG_STT_COMMON_DEF,
139 MSG_STT_TLS_DEF, MSG_STT_IFUNC_DEF
140 };
141 static const Msg types_cf[] = {
142 MSG_STT_NOTYPE_CF, MSG_STT_OBJECT_CF,
143 MSG_STT_FUNC_CF, MSG_STT_SECTION_CF,
144 MSG_STT_FILE_CF, MSG_STT_COMMON_CF,
145 MSG_STT_TLS_CF, MSG_STT_IFUNC_CF
146 };
147 static const Msg types_nf[] = {
148 MSG_STT_NOTYPE_NF, MSG_STT_OBJECT_NF,
149 MSG_STT_FUNC_NF, MSG_STT_SECTION_NF,
150 MSG_STT_FILE_NF, MSG_STT_COMMON_NF,
151 MSG_STT_TLS_NF, MSG_STT_IFUNC_NF
152 };
153 static const conv_ds_msg_t ds_types_def = {
154 CONV_DS_MSG_INIT(STT_NOTYPE, types_def) };
155 static const conv_ds_msg_t ds_types_cf = {
156 CONV_DS_MSG_INIT(STT_NOTYPE, types_cf) };
157 static const conv_ds_msg_t ds_types_nf = {
158 CONV_DS_MSG_INIT(STT_NOTYPE, types_nf) };
159
160
161 static const Msg sparc_def[] = { MSG_STT_SPARC_REGISTER_DEF };
162 static const Msg sparc_cf[] = { MSG_STT_SPARC_REGISTER_CF };
163 static const Msg sparc_nf[] = { MSG_STT_SPARC_REGISTER_NF };
164 static const conv_ds_msg_t ds_sparc_def = {
165 CONV_DS_MSG_INIT(STT_SPARC_REGISTER, sparc_def) };
166 static const conv_ds_msg_t ds_sparc_cf = {
167 CONV_DS_MSG_INIT(STT_SPARC_REGISTER, sparc_cf) };
168 static const conv_ds_msg_t ds_sparc_nf = {
169 CONV_DS_MSG_INIT(STT_SPARC_REGISTER, sparc_nf) };
170
171
172 static const conv_ds_t *retarr[MAX_RET];
173
174 int retndx = 0;
175 int is_sparc;
176
177 is_sparc = (mach == EM_SPARC) || (mach == EM_SPARCV9) ||
178 (mach == EM_SPARC32PLUS) || (mach == CONV_MACH_ALL);
179
180 switch (CONV_TYPE_FMT_ALT(fmt_flags)) {
181 case CONV_FMT_ALT_CF:
182 retarr[retndx++] = CONV_DS_ADDR(ds_types_cf);
183 if (is_sparc)
184 retarr[retndx++] = CONV_DS_ADDR(ds_sparc_cf);
185 break;
186 case CONV_FMT_ALT_NF:
187 retarr[retndx++] = CONV_DS_ADDR(ds_types_nf);
188 if (is_sparc)
189 retarr[retndx++] = CONV_DS_ADDR(ds_sparc_nf);
190 break;
191 default:
192 retarr[retndx++] = CONV_DS_ADDR(ds_types_def);
193 if (is_sparc)
194 retarr[retndx++] = CONV_DS_ADDR(ds_sparc_def);
195 break;
196 }
197
198 retarr[retndx++] = NULL;
199 assert(retndx <= MAX_RET);
200 return (retarr);
201 }
202
203 const char *
conv_sym_info_type(Half mach,uchar_t type,Conv_fmt_flags_t fmt_flags,Conv_inv_buf_t * inv_buf)204 conv_sym_info_type(Half mach, uchar_t type, Conv_fmt_flags_t fmt_flags,
205 Conv_inv_buf_t *inv_buf)
206 {
207 return (conv_map_ds(ELFOSABI_NONE, mach, type,
208 conv_sym_info_type_strings(mach, fmt_flags), fmt_flags, inv_buf));
209 }
210
211 conv_iter_ret_t
conv_iter_sym_info_type(Half mach,Conv_fmt_flags_t fmt_flags,conv_iter_cb_t func,void * uvalue)212 conv_iter_sym_info_type(Half mach, Conv_fmt_flags_t fmt_flags,
213 conv_iter_cb_t func, void *uvalue)
214 {
215 return (conv_iter_ds(ELFOSABI_NONE, mach,
216 conv_sym_info_type_strings(mach, fmt_flags), func, uvalue));
217 }
218
219 static const conv_ds_t **
conv_sym_info_bind_strings(Conv_fmt_flags_t fmt_flags)220 conv_sym_info_bind_strings(Conv_fmt_flags_t fmt_flags)
221 {
222 static const Msg binds_def[] = {
223 MSG_STB_LOCAL_DEF, MSG_STB_GLOBAL_DEF,
224 MSG_STB_WEAK_DEF
225 };
226 static const Msg binds_cf[] = {
227 MSG_STB_LOCAL_CF, MSG_STB_GLOBAL_CF,
228 MSG_STB_WEAK_CF
229 };
230 static const Msg binds_nf[] = {
231 MSG_STB_LOCAL_NF, MSG_STB_GLOBAL_NF,
232 MSG_STB_WEAK_NF
233 };
234 static const conv_ds_msg_t ds_binds_def = {
235 CONV_DS_MSG_INIT(STB_LOCAL, binds_def) };
236 static const conv_ds_msg_t ds_binds_cf = {
237 CONV_DS_MSG_INIT(STB_LOCAL, binds_cf) };
238 static const conv_ds_msg_t ds_binds_nf = {
239 CONV_DS_MSG_INIT(STB_LOCAL, binds_nf) };
240
241
242 /* Build NULL terminated return arrays for each string style */
243 static const conv_ds_t *ds_def[] = {
244 CONV_DS_ADDR(ds_binds_def), NULL };
245 static const conv_ds_t *ds_cf[] = {
246 CONV_DS_ADDR(ds_binds_cf), NULL };
247 static const conv_ds_t *ds_nf[] = {
248 CONV_DS_ADDR(ds_binds_nf), NULL };
249
250
251 /* Select the strings to use */
252 switch (CONV_TYPE_FMT_ALT(fmt_flags)) {
253 case CONV_FMT_ALT_CF:
254 return (ds_cf);
255 case CONV_FMT_ALT_NF:
256 return (ds_nf);
257 }
258
259 return (ds_def);
260 }
261
262 const char *
conv_sym_info_bind(uchar_t bind,Conv_fmt_flags_t fmt_flags,Conv_inv_buf_t * inv_buf)263 conv_sym_info_bind(uchar_t bind, Conv_fmt_flags_t fmt_flags,
264 Conv_inv_buf_t *inv_buf)
265 {
266 return (conv_map_ds(ELFOSABI_NONE, EM_NONE, bind,
267 conv_sym_info_bind_strings(fmt_flags), fmt_flags, inv_buf));
268 }
269
270 conv_iter_ret_t
conv_iter_sym_info_bind(Conv_fmt_flags_t fmt_flags,conv_iter_cb_t func,void * uvalue)271 conv_iter_sym_info_bind(Conv_fmt_flags_t fmt_flags, conv_iter_cb_t func,
272 void *uvalue)
273 {
274 return (conv_iter_ds(ELFOSABI_NONE, EM_NONE,
275 conv_sym_info_bind_strings(fmt_flags), func, uvalue));
276 }
277
278 static const conv_ds_t **
conv_sym_shndx_strings(Conv_fmt_flags_t fmt_flags)279 conv_sym_shndx_strings(Conv_fmt_flags_t fmt_flags)
280 {
281 #define ALL ELFOSABI_NONE, EM_NONE
282 #define SOL ELFOSABI_SOLARIS, EM_NONE
283 #define AMD ELFOSABI_NONE, EM_AMD64
284
285 /*
286 * There aren't many of these values, and they are sparse,
287 * so rather than separate them into different ranges, I use
288 * a single Val_desc2 array for all of them.
289 */
290 static const Val_desc2 shn_def[] = {
291 { SHN_UNDEF, ALL, MSG_SHN_UNDEF_CFNP },
292 { SHN_BEFORE, ALL, MSG_SHN_BEFORE_CFNP },
293 { SHN_AFTER, ALL, MSG_SHN_AFTER_CFNP },
294 { SHN_AMD64_LCOMMON, AMD, MSG_SHN_AMD64_LCOMMON_DEF },
295 { SHN_SUNW_IGNORE, SOL, MSG_SHN_SUNW_IGNORE_DEF },
296 { SHN_ABS, ALL, MSG_SHN_ABS_CFNP },
297 { SHN_COMMON, ALL, MSG_SHN_COMMON_CFNP },
298 { SHN_XINDEX, ALL, MSG_SHN_XINDEX_CFNP },
299 { 0 }
300 };
301 static const Val_desc2 shn_cf[] = {
302 { SHN_UNDEF, ALL, MSG_SHN_UNDEF_CF },
303 { SHN_BEFORE, ALL, MSG_SHN_BEFORE_CF },
304 { SHN_AFTER, ALL, MSG_SHN_AFTER_CF },
305 { SHN_AMD64_LCOMMON, AMD, MSG_SHN_AMD64_LCOMMON_CF },
306 { SHN_SUNW_IGNORE, SOL, MSG_SHN_SUNW_IGNORE_CF },
307 { SHN_ABS, ALL, MSG_SHN_ABS_CF },
308 { SHN_COMMON, ALL, MSG_SHN_COMMON_CF },
309 { SHN_XINDEX, ALL, MSG_SHN_XINDEX_CF },
310 { 0 }
311 };
312 static const Val_desc2 shn_cfnp[] = {
313 { SHN_UNDEF, ALL, MSG_SHN_UNDEF_CFNP },
314 { SHN_BEFORE, ALL, MSG_SHN_BEFORE_CFNP },
315 { SHN_AFTER, ALL, MSG_SHN_AFTER_CFNP },
316 { SHN_AMD64_LCOMMON, AMD, MSG_SHN_AMD64_LCOMMON_CFNP },
317 { SHN_SUNW_IGNORE, SOL, MSG_SHN_SUNW_IGNORE_CFNP },
318 { SHN_ABS, ALL, MSG_SHN_ABS_CFNP },
319 { SHN_COMMON, ALL, MSG_SHN_COMMON_CFNP },
320 { SHN_XINDEX, ALL, MSG_SHN_XINDEX_CFNP },
321 { 0 }
322 };
323 static const Val_desc2 shn_nf[] = {
324 { SHN_UNDEF, ALL, MSG_SHN_UNDEF_NF },
325 { SHN_BEFORE, ALL, MSG_SHN_BEFORE_NF },
326 { SHN_AFTER, ALL, MSG_SHN_AFTER_NF },
327 { SHN_AMD64_LCOMMON, AMD, MSG_SHN_AMD64_LCOMMON_NF },
328 { SHN_SUNW_IGNORE, SOL, MSG_SHN_SUNW_IGNORE_NF },
329 { SHN_ABS, ALL, MSG_SHN_ABS_NF },
330 { SHN_COMMON, ALL, MSG_SHN_COMMON_NF },
331 { SHN_XINDEX, ALL, MSG_SHN_XINDEX_NF },
332 { 0 }
333 };
334 static const conv_ds_vd2_t ds_shn_def = {
335 CONV_DS_VD2, SHN_UNDEF, SHN_XINDEX, shn_def };
336 static const conv_ds_vd2_t ds_shn_cf = {
337 CONV_DS_VD2, SHN_UNDEF, SHN_XINDEX, shn_cf };
338 static const conv_ds_vd2_t ds_shn_cfnp = {
339 CONV_DS_VD2, SHN_UNDEF, SHN_XINDEX, shn_cfnp };
340 static const conv_ds_vd2_t ds_shn_nf = {
341 CONV_DS_VD2, SHN_UNDEF, SHN_XINDEX, shn_nf };
342
343 /* Build NULL terminated return arrays for each string style */
344 static const conv_ds_t *ds_def[] = {
345 CONV_DS_ADDR(ds_shn_def), NULL };
346 static const conv_ds_t *ds_cf[] = {
347 CONV_DS_ADDR(ds_shn_cf), NULL };
348 static const conv_ds_t *ds_cfnp[] = {
349 CONV_DS_ADDR(ds_shn_cfnp), NULL };
350 static const conv_ds_t *ds_nf[] = {
351 CONV_DS_ADDR(ds_shn_nf), NULL };
352
353 /* Select the strings to use */
354 switch (CONV_TYPE_FMT_ALT(fmt_flags)) {
355 case CONV_FMT_ALT_CF:
356 return (ds_cf);
357 case CONV_FMT_ALT_CFNP:
358 return (ds_cfnp);
359 case CONV_FMT_ALT_NF:
360 return (ds_nf);
361 }
362
363 return (ds_def);
364
365 #undef ALL
366 #undef SOL
367 #undef AMD
368 }
369
370 const char *
conv_sym_shndx(uchar_t osabi,Half mach,Half shndx,Conv_fmt_flags_t fmt_flags,Conv_inv_buf_t * inv_buf)371 conv_sym_shndx(uchar_t osabi, Half mach, Half shndx, Conv_fmt_flags_t fmt_flags,
372 Conv_inv_buf_t *inv_buf)
373 {
374 return (conv_map_ds(osabi, mach, shndx,
375 conv_sym_shndx_strings(fmt_flags), fmt_flags, inv_buf));
376 }
377
378 conv_iter_ret_t
conv_iter_sym_shndx(conv_iter_osabi_t osabi,Half mach,Conv_fmt_flags_t fmt_flags,conv_iter_cb_t func,void * uvalue)379 conv_iter_sym_shndx(conv_iter_osabi_t osabi, Half mach,
380 Conv_fmt_flags_t fmt_flags, conv_iter_cb_t func, void *uvalue)
381 {
382 static const Msg amd64_alias_cf[] = { MSG_SHN_X86_64_LCOMMON_CF };
383 static const conv_ds_msg_t ds_msg_amd64_alias_cf = {
384 CONV_DS_MSG_INIT(SHN_X86_64_LCOMMON, amd64_alias_cf) };
385 static const conv_ds_t *ds_amd64_alias_cf[] = {
386 CONV_DS_ADDR(ds_msg_amd64_alias_cf), NULL };
387
388 static const Msg amd64_alias_cfnp[] = { MSG_SHN_X86_64_LCOMMON_CFNP };
389 static const conv_ds_msg_t ds_msg_amd64_alias_cfnp = {
390 CONV_DS_MSG_INIT(SHN_X86_64_LCOMMON, amd64_alias_cfnp) };
391 static const conv_ds_t *ds_amd64_alias_cfnp[] = {
392 CONV_DS_ADDR(ds_msg_amd64_alias_cfnp), NULL };
393
394 static const Msg amd64_alias_nf[] = { MSG_SHN_X86_64_LCOMMON_NF };
395 static const conv_ds_msg_t ds_msg_amd64_alias_nf = {
396 CONV_DS_MSG_INIT(SHN_X86_64_LCOMMON, amd64_alias_nf) };
397 static const conv_ds_t *ds_amd64_alias_nf[] = {
398 CONV_DS_ADDR(ds_msg_amd64_alias_nf), NULL };
399
400
401 if (conv_iter_ds(osabi, mach, conv_sym_shndx_strings(fmt_flags),
402 func, uvalue) == CONV_ITER_DONE)
403 return (CONV_ITER_DONE);
404
405 /*
406 * SHN_AMD64_LCOMMON is also known as SHN_X86_64_LCOMMON
407 */
408 if (mach == EM_AMD64) {
409 const conv_ds_t **ds;
410
411 switch (CONV_TYPE_FMT_ALT(fmt_flags)) {
412 case CONV_FMT_ALT_CF:
413 ds = ds_amd64_alias_cf;
414 break;
415 case CONV_FMT_ALT_NF:
416 ds = ds_amd64_alias_nf;
417 break;
418 default:
419 ds = ds_amd64_alias_cfnp;
420 break;
421 }
422 return (conv_iter_ds(ELFOSABI_NONE, mach, ds, func, uvalue));
423 }
424
425 return (CONV_ITER_CONT);
426 }
427