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, Version 1.0 only 6 * (the "License"). You may not use this file except in compliance 7 * with the License. 8 * 9 * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE 10 * or http://www.opensolaris.org/os/licensing. 11 * See the License for the specific language governing permissions 12 * and limitations under the License. 13 * 14 * When distributing Covered Code, include this CDDL HEADER in each 15 * file and include the License file at usr/src/OPENSOLARIS.LICENSE. 16 * If applicable, add the following below this CDDL HEADER, with the 17 * fields enclosed by brackets "[]" replaced with your own identifying 18 * information: Portions Copyright [yyyy] [name of copyright owner] 19 * 20 * CDDL HEADER END 21 */ 22 23 /* 24 * Copyright 2006 Sun Microsystems, Inc. All rights reserved. 25 * Use is subject to license terms. 26 */ 27 /* 28 * Copyright (c) 2013, Joyent, Inc. All rights reserved. 29 */ 30 31 #include <sys/sysmacros.h> 32 #include <sys/param.h> 33 #include <sys/mman.h> 34 #include <ctf_impl.h> 35 #include <sys/debug.h> 36 37 /* 38 * This static string is used as the template for initially populating a 39 * dynamic container's string table. We always store \0 in the first byte, 40 * and we use the generic string "PARENT" to mark this container's parent 41 * if one is associated with the container using ctf_import(). 42 */ 43 static const char _CTF_STRTAB_TEMPLATE[] = "\0PARENT"; 44 45 /* 46 * To create an empty CTF container, we just declare a zeroed header and call 47 * ctf_bufopen() on it. If ctf_bufopen succeeds, we mark the new container r/w 48 * and initialize the dynamic members. We set dtstrlen to 1 to reserve the 49 * first byte of the string table for a \0 byte, and we start assigning type 50 * IDs at 1 because type ID 0 is used as a sentinel. 51 */ 52 ctf_file_t * 53 ctf_create(int *errp) 54 { 55 static const ctf_header_t hdr = { { CTF_MAGIC, CTF_VERSION, 0 } }; 56 57 const ulong_t hashlen = 128; 58 ctf_dtdef_t **hash = ctf_alloc(hashlen * sizeof (ctf_dtdef_t *)); 59 ctf_sect_t cts; 60 ctf_file_t *fp; 61 62 if (hash == NULL) 63 return (ctf_set_open_errno(errp, EAGAIN)); 64 65 cts.cts_name = _CTF_SECTION; 66 cts.cts_type = SHT_PROGBITS; 67 cts.cts_flags = 0; 68 cts.cts_data = (void *)&hdr; 69 cts.cts_size = sizeof (hdr); 70 cts.cts_entsize = 1; 71 cts.cts_offset = 0; 72 73 if ((fp = ctf_bufopen(&cts, NULL, NULL, errp)) == NULL) { 74 ctf_free(hash, hashlen * sizeof (ctf_dtdef_t *)); 75 return (NULL); 76 } 77 78 fp->ctf_flags |= LCTF_RDWR; 79 fp->ctf_dthashlen = hashlen; 80 bzero(hash, hashlen * sizeof (ctf_dtdef_t *)); 81 fp->ctf_dthash = hash; 82 fp->ctf_dtstrlen = sizeof (_CTF_STRTAB_TEMPLATE); 83 fp->ctf_dtnextid = 1; 84 fp->ctf_dtoldid = 0; 85 86 return (fp); 87 } 88 89 static uchar_t * 90 ctf_copy_smembers(ctf_dtdef_t *dtd, uint_t soff, uchar_t *t) 91 { 92 ctf_dmdef_t *dmd = ctf_list_next(&dtd->dtd_u.dtu_members); 93 ctf_member_t ctm; 94 95 for (; dmd != NULL; dmd = ctf_list_next(dmd)) { 96 if (dmd->dmd_name) { 97 ctm.ctm_name = soff; 98 soff += strlen(dmd->dmd_name) + 1; 99 } else 100 ctm.ctm_name = 0; 101 102 ctm.ctm_type = (ushort_t)dmd->dmd_type; 103 ctm.ctm_offset = (ushort_t)dmd->dmd_offset; 104 105 bcopy(&ctm, t, sizeof (ctm)); 106 t += sizeof (ctm); 107 } 108 109 return (t); 110 } 111 112 static uchar_t * 113 ctf_copy_lmembers(ctf_dtdef_t *dtd, uint_t soff, uchar_t *t) 114 { 115 ctf_dmdef_t *dmd = ctf_list_next(&dtd->dtd_u.dtu_members); 116 ctf_lmember_t ctlm; 117 118 for (; dmd != NULL; dmd = ctf_list_next(dmd)) { 119 if (dmd->dmd_name) { 120 ctlm.ctlm_name = soff; 121 soff += strlen(dmd->dmd_name) + 1; 122 } else 123 ctlm.ctlm_name = 0; 124 125 ctlm.ctlm_type = (ushort_t)dmd->dmd_type; 126 ctlm.ctlm_pad = 0; 127 ctlm.ctlm_offsethi = CTF_OFFSET_TO_LMEMHI(dmd->dmd_offset); 128 ctlm.ctlm_offsetlo = CTF_OFFSET_TO_LMEMLO(dmd->dmd_offset); 129 130 bcopy(&ctlm, t, sizeof (ctlm)); 131 t += sizeof (ctlm); 132 } 133 134 return (t); 135 } 136 137 static uchar_t * 138 ctf_copy_emembers(ctf_dtdef_t *dtd, uint_t soff, uchar_t *t) 139 { 140 ctf_dmdef_t *dmd = ctf_list_next(&dtd->dtd_u.dtu_members); 141 ctf_enum_t cte; 142 143 for (; dmd != NULL; dmd = ctf_list_next(dmd)) { 144 cte.cte_name = soff; 145 cte.cte_value = dmd->dmd_value; 146 soff += strlen(dmd->dmd_name) + 1; 147 bcopy(&cte, t, sizeof (cte)); 148 t += sizeof (cte); 149 } 150 151 return (t); 152 } 153 154 static uchar_t * 155 ctf_copy_membnames(ctf_dtdef_t *dtd, uchar_t *s) 156 { 157 ctf_dmdef_t *dmd = ctf_list_next(&dtd->dtd_u.dtu_members); 158 size_t len; 159 160 for (; dmd != NULL; dmd = ctf_list_next(dmd)) { 161 if (dmd->dmd_name == NULL) 162 continue; /* skip anonymous members */ 163 len = strlen(dmd->dmd_name) + 1; 164 bcopy(dmd->dmd_name, s, len); 165 s += len; 166 } 167 168 return (s); 169 } 170 171 /* 172 * Only types of dyanmic CTF containers contain reference counts. These 173 * containers are marked RD/WR. Because of that we basically make this a no-op 174 * for compatability with non-dynamic CTF sections. This is also a no-op for 175 * types which are not dynamic types. It is the responsibility of the caller to 176 * make sure it is a valid type. We help that caller out on debug builds. 177 * 178 * Note that the reference counts are not maintained for types that are not 179 * within this container. In other words if we have a type in a parent, that 180 * will not have its reference count increased. On the flip side, the parent 181 * will not be allowed to remove dynamic types if it has children. 182 */ 183 static void 184 ctf_ref_inc(ctf_file_t *fp, ctf_id_t tid) 185 { 186 ctf_dtdef_t *dtd = ctf_dtd_lookup(fp, tid); 187 188 if (dtd == NULL) 189 return; 190 191 if (!(fp->ctf_flags & LCTF_RDWR)) 192 return; 193 194 dtd->dtd_ref++; 195 } 196 197 /* 198 * Just as with ctf_ref_inc, this is a no-op on non-writeable containers and the 199 * caller should ensure that this is already a valid type. 200 */ 201 static void 202 ctf_ref_dec(ctf_file_t *fp, ctf_id_t tid) 203 { 204 ctf_dtdef_t *dtd = ctf_dtd_lookup(fp, tid); 205 206 if (dtd == NULL) 207 return; 208 209 if (!(fp->ctf_flags & LCTF_RDWR)) 210 return; 211 212 ASSERT(dtd->dtd_ref >= 1); 213 dtd->dtd_ref--; 214 } 215 216 /* 217 * If the specified CTF container is writable and has been modified, reload 218 * this container with the updated type definitions. In order to make this 219 * code and the rest of libctf as simple as possible, we perform updates by 220 * taking the dynamic type definitions and creating an in-memory CTF file 221 * containing the definitions, and then call ctf_bufopen() on it. This not 222 * only leverages ctf_bufopen(), but also avoids having to bifurcate the rest 223 * of the library code with different lookup paths for static and dynamic 224 * type definitions. We are therefore optimizing greatly for lookup over 225 * update, which we assume will be an uncommon operation. We perform one 226 * extra trick here for the benefit of callers and to keep our code simple: 227 * ctf_bufopen() will return a new ctf_file_t, but we want to keep the fp 228 * constant for the caller, so after ctf_bufopen() returns, we use bcopy to 229 * swap the interior of the old and new ctf_file_t's, and then free the old. 230 * 231 * Note that the lists of dynamic types stays around and the resulting container 232 * is still writeable. Furthermore, the reference counts that are on the dtd's 233 * are still valid. 234 */ 235 int 236 ctf_update(ctf_file_t *fp) 237 { 238 ctf_file_t ofp, *nfp; 239 ctf_header_t hdr; 240 ctf_dtdef_t *dtd; 241 ctf_sect_t cts; 242 243 uchar_t *s, *s0, *t; 244 size_t size; 245 void *buf; 246 int err; 247 248 if (!(fp->ctf_flags & LCTF_RDWR)) 249 return (ctf_set_errno(fp, ECTF_RDONLY)); 250 251 if (!(fp->ctf_flags & LCTF_DIRTY)) 252 return (0); /* no update required */ 253 254 /* 255 * Fill in an initial CTF header. We will leave the label, object, 256 * and function sections empty and only output a header, type section, 257 * and string table. The type section begins at a 4-byte aligned 258 * boundary past the CTF header itself (at relative offset zero). 259 */ 260 bzero(&hdr, sizeof (hdr)); 261 hdr.cth_magic = CTF_MAGIC; 262 hdr.cth_version = CTF_VERSION; 263 264 if (fp->ctf_flags & LCTF_CHILD) 265 hdr.cth_parname = 1; /* i.e. _CTF_STRTAB_TEMPLATE[1] */ 266 267 /* 268 * Iterate through the dynamic type definition list and compute the 269 * size of the CTF type section we will need to generate. 270 */ 271 for (size = 0, dtd = ctf_list_next(&fp->ctf_dtdefs); 272 dtd != NULL; dtd = ctf_list_next(dtd)) { 273 274 uint_t kind = CTF_INFO_KIND(dtd->dtd_data.ctt_info); 275 uint_t vlen = CTF_INFO_VLEN(dtd->dtd_data.ctt_info); 276 277 if (dtd->dtd_data.ctt_size != CTF_LSIZE_SENT) 278 size += sizeof (ctf_stype_t); 279 else 280 size += sizeof (ctf_type_t); 281 282 switch (kind) { 283 case CTF_K_INTEGER: 284 case CTF_K_FLOAT: 285 size += sizeof (uint_t); 286 break; 287 case CTF_K_ARRAY: 288 size += sizeof (ctf_array_t); 289 break; 290 case CTF_K_FUNCTION: 291 size += sizeof (ushort_t) * (vlen + (vlen & 1)); 292 break; 293 case CTF_K_STRUCT: 294 case CTF_K_UNION: 295 if (dtd->dtd_data.ctt_size < CTF_LSTRUCT_THRESH) 296 size += sizeof (ctf_member_t) * vlen; 297 else 298 size += sizeof (ctf_lmember_t) * vlen; 299 break; 300 case CTF_K_ENUM: 301 size += sizeof (ctf_enum_t) * vlen; 302 break; 303 } 304 } 305 306 /* 307 * Fill in the string table offset and size, compute the size of the 308 * entire CTF buffer we need, and then allocate a new buffer and 309 * bcopy the finished header to the start of the buffer. 310 */ 311 hdr.cth_stroff = hdr.cth_typeoff + size; 312 hdr.cth_strlen = fp->ctf_dtstrlen; 313 size = sizeof (ctf_header_t) + hdr.cth_stroff + hdr.cth_strlen; 314 315 if ((buf = ctf_data_alloc(size)) == MAP_FAILED) 316 return (ctf_set_errno(fp, EAGAIN)); 317 318 bcopy(&hdr, buf, sizeof (ctf_header_t)); 319 t = (uchar_t *)buf + sizeof (ctf_header_t); 320 s = s0 = (uchar_t *)buf + sizeof (ctf_header_t) + hdr.cth_stroff; 321 322 bcopy(_CTF_STRTAB_TEMPLATE, s, sizeof (_CTF_STRTAB_TEMPLATE)); 323 s += sizeof (_CTF_STRTAB_TEMPLATE); 324 325 /* 326 * We now take a final lap through the dynamic type definition list and 327 * copy the appropriate type records and strings to the output buffer. 328 */ 329 for (dtd = ctf_list_next(&fp->ctf_dtdefs); 330 dtd != NULL; dtd = ctf_list_next(dtd)) { 331 332 uint_t kind = CTF_INFO_KIND(dtd->dtd_data.ctt_info); 333 uint_t vlen = CTF_INFO_VLEN(dtd->dtd_data.ctt_info); 334 335 ctf_array_t cta; 336 uint_t encoding; 337 size_t len; 338 339 if (dtd->dtd_name != NULL) { 340 dtd->dtd_data.ctt_name = (uint_t)(s - s0); 341 len = strlen(dtd->dtd_name) + 1; 342 bcopy(dtd->dtd_name, s, len); 343 s += len; 344 } else 345 dtd->dtd_data.ctt_name = 0; 346 347 if (dtd->dtd_data.ctt_size != CTF_LSIZE_SENT) 348 len = sizeof (ctf_stype_t); 349 else 350 len = sizeof (ctf_type_t); 351 352 bcopy(&dtd->dtd_data, t, len); 353 t += len; 354 355 switch (kind) { 356 case CTF_K_INTEGER: 357 case CTF_K_FLOAT: 358 if (kind == CTF_K_INTEGER) { 359 encoding = CTF_INT_DATA( 360 dtd->dtd_u.dtu_enc.cte_format, 361 dtd->dtd_u.dtu_enc.cte_offset, 362 dtd->dtd_u.dtu_enc.cte_bits); 363 } else { 364 encoding = CTF_FP_DATA( 365 dtd->dtd_u.dtu_enc.cte_format, 366 dtd->dtd_u.dtu_enc.cte_offset, 367 dtd->dtd_u.dtu_enc.cte_bits); 368 } 369 bcopy(&encoding, t, sizeof (encoding)); 370 t += sizeof (encoding); 371 break; 372 373 case CTF_K_ARRAY: 374 cta.cta_contents = (ushort_t) 375 dtd->dtd_u.dtu_arr.ctr_contents; 376 cta.cta_index = (ushort_t) 377 dtd->dtd_u.dtu_arr.ctr_index; 378 cta.cta_nelems = dtd->dtd_u.dtu_arr.ctr_nelems; 379 bcopy(&cta, t, sizeof (cta)); 380 t += sizeof (cta); 381 break; 382 383 case CTF_K_FUNCTION: { 384 ushort_t *argv = (ushort_t *)(uintptr_t)t; 385 uint_t argc; 386 387 for (argc = 0; argc < vlen; argc++) 388 *argv++ = (ushort_t)dtd->dtd_u.dtu_argv[argc]; 389 390 if (vlen & 1) 391 *argv++ = 0; /* pad to 4-byte boundary */ 392 393 t = (uchar_t *)argv; 394 break; 395 } 396 397 case CTF_K_STRUCT: 398 case CTF_K_UNION: 399 if (dtd->dtd_data.ctt_size < CTF_LSTRUCT_THRESH) 400 t = ctf_copy_smembers(dtd, (uint_t)(s - s0), t); 401 else 402 t = ctf_copy_lmembers(dtd, (uint_t)(s - s0), t); 403 s = ctf_copy_membnames(dtd, s); 404 break; 405 406 case CTF_K_ENUM: 407 t = ctf_copy_emembers(dtd, (uint_t)(s - s0), t); 408 s = ctf_copy_membnames(dtd, s); 409 break; 410 } 411 } 412 413 /* 414 * Finally, we are ready to ctf_bufopen() the new container. If this 415 * is successful, we then switch nfp and fp and free the old container. 416 */ 417 ctf_data_protect(buf, size); 418 cts.cts_name = _CTF_SECTION; 419 cts.cts_type = SHT_PROGBITS; 420 cts.cts_flags = 0; 421 cts.cts_data = buf; 422 cts.cts_size = size; 423 cts.cts_entsize = 1; 424 cts.cts_offset = 0; 425 426 if ((nfp = ctf_bufopen(&cts, NULL, NULL, &err)) == NULL) { 427 ctf_data_free(buf, size); 428 return (ctf_set_errno(fp, err)); 429 } 430 431 (void) ctf_setmodel(nfp, ctf_getmodel(fp)); 432 (void) ctf_import(nfp, fp->ctf_parent); 433 434 nfp->ctf_refcnt = fp->ctf_refcnt; 435 nfp->ctf_flags |= fp->ctf_flags & ~LCTF_DIRTY; 436 nfp->ctf_data.cts_data = NULL; /* force ctf_data_free() on close */ 437 nfp->ctf_dthash = fp->ctf_dthash; 438 nfp->ctf_dthashlen = fp->ctf_dthashlen; 439 nfp->ctf_dtdefs = fp->ctf_dtdefs; 440 nfp->ctf_dtstrlen = fp->ctf_dtstrlen; 441 nfp->ctf_dtnextid = fp->ctf_dtnextid; 442 nfp->ctf_dtoldid = fp->ctf_dtnextid - 1; 443 nfp->ctf_specific = fp->ctf_specific; 444 445 fp->ctf_dthash = NULL; 446 fp->ctf_dthashlen = 0; 447 bzero(&fp->ctf_dtdefs, sizeof (ctf_list_t)); 448 449 bcopy(fp, &ofp, sizeof (ctf_file_t)); 450 bcopy(nfp, fp, sizeof (ctf_file_t)); 451 bcopy(&ofp, nfp, sizeof (ctf_file_t)); 452 453 /* 454 * Initialize the ctf_lookup_by_name top-level dictionary. We keep an 455 * array of type name prefixes and the corresponding ctf_hash to use. 456 * NOTE: This code must be kept in sync with the code in ctf_bufopen(). 457 */ 458 fp->ctf_lookups[0].ctl_hash = &fp->ctf_structs; 459 fp->ctf_lookups[1].ctl_hash = &fp->ctf_unions; 460 fp->ctf_lookups[2].ctl_hash = &fp->ctf_enums; 461 fp->ctf_lookups[3].ctl_hash = &fp->ctf_names; 462 463 nfp->ctf_refcnt = 1; /* force nfp to be freed */ 464 ctf_close(nfp); 465 466 return (0); 467 } 468 469 void 470 ctf_dtd_insert(ctf_file_t *fp, ctf_dtdef_t *dtd) 471 { 472 ulong_t h = dtd->dtd_type & (fp->ctf_dthashlen - 1); 473 474 dtd->dtd_hash = fp->ctf_dthash[h]; 475 fp->ctf_dthash[h] = dtd; 476 ctf_list_append(&fp->ctf_dtdefs, dtd); 477 } 478 479 void 480 ctf_dtd_delete(ctf_file_t *fp, ctf_dtdef_t *dtd) 481 { 482 ulong_t h = dtd->dtd_type & (fp->ctf_dthashlen - 1); 483 ctf_dtdef_t *p, **q = &fp->ctf_dthash[h]; 484 ctf_dmdef_t *dmd, *nmd; 485 size_t len; 486 int kind, i; 487 488 for (p = *q; p != NULL; p = p->dtd_hash) { 489 if (p != dtd) 490 q = &p->dtd_hash; 491 else 492 break; 493 } 494 495 if (p != NULL) 496 *q = p->dtd_hash; 497 498 kind = CTF_INFO_KIND(dtd->dtd_data.ctt_info); 499 switch (kind) { 500 case CTF_K_STRUCT: 501 case CTF_K_UNION: 502 case CTF_K_ENUM: 503 for (dmd = ctf_list_next(&dtd->dtd_u.dtu_members); 504 dmd != NULL; dmd = nmd) { 505 if (dmd->dmd_name != NULL) { 506 len = strlen(dmd->dmd_name) + 1; 507 ctf_free(dmd->dmd_name, len); 508 fp->ctf_dtstrlen -= len; 509 } 510 if (kind != CTF_K_ENUM) 511 ctf_ref_dec(fp, dmd->dmd_type); 512 nmd = ctf_list_next(dmd); 513 ctf_free(dmd, sizeof (ctf_dmdef_t)); 514 } 515 break; 516 case CTF_K_FUNCTION: 517 ctf_ref_dec(fp, dtd->dtd_data.ctt_type); 518 for (i = 0; i < CTF_INFO_VLEN(dtd->dtd_data.ctt_info); i++) 519 if (dtd->dtd_u.dtu_argv[i] != 0) 520 ctf_ref_dec(fp, dtd->dtd_u.dtu_argv[i]); 521 ctf_free(dtd->dtd_u.dtu_argv, sizeof (ctf_id_t) * 522 CTF_INFO_VLEN(dtd->dtd_data.ctt_info)); 523 break; 524 case CTF_K_ARRAY: 525 ctf_ref_dec(fp, dtd->dtd_u.dtu_arr.ctr_contents); 526 ctf_ref_dec(fp, dtd->dtd_u.dtu_arr.ctr_index); 527 break; 528 case CTF_K_TYPEDEF: 529 ctf_ref_dec(fp, dtd->dtd_data.ctt_type); 530 break; 531 case CTF_K_POINTER: 532 case CTF_K_VOLATILE: 533 case CTF_K_CONST: 534 case CTF_K_RESTRICT: 535 ctf_ref_dec(fp, dtd->dtd_data.ctt_type); 536 break; 537 } 538 539 if (dtd->dtd_name) { 540 len = strlen(dtd->dtd_name) + 1; 541 ctf_free(dtd->dtd_name, len); 542 fp->ctf_dtstrlen -= len; 543 } 544 545 ctf_list_delete(&fp->ctf_dtdefs, dtd); 546 ctf_free(dtd, sizeof (ctf_dtdef_t)); 547 } 548 549 ctf_dtdef_t * 550 ctf_dtd_lookup(ctf_file_t *fp, ctf_id_t type) 551 { 552 ulong_t h = type & (fp->ctf_dthashlen - 1); 553 ctf_dtdef_t *dtd; 554 555 if (fp->ctf_dthash == NULL) 556 return (NULL); 557 558 for (dtd = fp->ctf_dthash[h]; dtd != NULL; dtd = dtd->dtd_hash) { 559 if (dtd->dtd_type == type) 560 break; 561 } 562 563 return (dtd); 564 } 565 566 /* 567 * Discard all of the dynamic type definitions that have been added to the 568 * container since the last call to ctf_update(). We locate such types by 569 * scanning the list and deleting elements that have type IDs greater than 570 * ctf_dtoldid, which is set by ctf_update(), above. Note that to work properly 571 * with our reference counting schemes, we must delete the dynamic list in 572 * reverse. 573 */ 574 int 575 ctf_discard(ctf_file_t *fp) 576 { 577 ctf_dtdef_t *dtd, *ntd; 578 579 if (!(fp->ctf_flags & LCTF_RDWR)) 580 return (ctf_set_errno(fp, ECTF_RDONLY)); 581 582 if (!(fp->ctf_flags & LCTF_DIRTY)) 583 return (0); /* no update required */ 584 585 for (dtd = ctf_list_prev(&fp->ctf_dtdefs); dtd != NULL; dtd = ntd) { 586 if (dtd->dtd_type <= fp->ctf_dtoldid) 587 continue; /* skip types that have been committed */ 588 589 ntd = ctf_list_prev(dtd); 590 ctf_dtd_delete(fp, dtd); 591 } 592 593 fp->ctf_dtnextid = fp->ctf_dtoldid + 1; 594 fp->ctf_flags &= ~LCTF_DIRTY; 595 596 return (0); 597 } 598 599 static ctf_id_t 600 ctf_add_generic(ctf_file_t *fp, uint_t flag, const char *name, ctf_dtdef_t **rp) 601 { 602 ctf_dtdef_t *dtd; 603 ctf_id_t type; 604 char *s = NULL; 605 606 if (flag != CTF_ADD_NONROOT && flag != CTF_ADD_ROOT) 607 return (ctf_set_errno(fp, EINVAL)); 608 609 if (!(fp->ctf_flags & LCTF_RDWR)) 610 return (ctf_set_errno(fp, ECTF_RDONLY)); 611 612 if (CTF_INDEX_TO_TYPE(fp->ctf_dtnextid, 1) > CTF_MAX_TYPE) 613 return (ctf_set_errno(fp, ECTF_FULL)); 614 615 if ((dtd = ctf_alloc(sizeof (ctf_dtdef_t))) == NULL) 616 return (ctf_set_errno(fp, EAGAIN)); 617 618 if (name != NULL && (s = ctf_strdup(name)) == NULL) { 619 ctf_free(dtd, sizeof (ctf_dtdef_t)); 620 return (ctf_set_errno(fp, EAGAIN)); 621 } 622 623 type = fp->ctf_dtnextid++; 624 type = CTF_INDEX_TO_TYPE(type, (fp->ctf_flags & LCTF_CHILD)); 625 626 bzero(dtd, sizeof (ctf_dtdef_t)); 627 dtd->dtd_name = s; 628 dtd->dtd_type = type; 629 630 if (s != NULL) 631 fp->ctf_dtstrlen += strlen(s) + 1; 632 633 ctf_dtd_insert(fp, dtd); 634 fp->ctf_flags |= LCTF_DIRTY; 635 636 *rp = dtd; 637 return (type); 638 } 639 640 /* 641 * When encoding integer sizes, we want to convert a byte count in the range 642 * 1-8 to the closest power of 2 (e.g. 3->4, 5->8, etc). The clp2() function 643 * is a clever implementation from "Hacker's Delight" by Henry Warren, Jr. 644 */ 645 static size_t 646 clp2(size_t x) 647 { 648 x--; 649 650 x |= (x >> 1); 651 x |= (x >> 2); 652 x |= (x >> 4); 653 x |= (x >> 8); 654 x |= (x >> 16); 655 656 return (x + 1); 657 } 658 659 static ctf_id_t 660 ctf_add_encoded(ctf_file_t *fp, uint_t flag, 661 const char *name, const ctf_encoding_t *ep, uint_t kind) 662 { 663 ctf_dtdef_t *dtd; 664 ctf_id_t type; 665 666 if (ep == NULL) 667 return (ctf_set_errno(fp, EINVAL)); 668 669 if ((type = ctf_add_generic(fp, flag, name, &dtd)) == CTF_ERR) 670 return (CTF_ERR); /* errno is set for us */ 671 672 dtd->dtd_data.ctt_info = CTF_TYPE_INFO(kind, flag, 0); 673 dtd->dtd_data.ctt_size = clp2(P2ROUNDUP(ep->cte_bits, NBBY) / NBBY); 674 dtd->dtd_u.dtu_enc = *ep; 675 676 return (type); 677 } 678 679 static ctf_id_t 680 ctf_add_reftype(ctf_file_t *fp, uint_t flag, ctf_id_t ref, uint_t kind) 681 { 682 ctf_dtdef_t *dtd; 683 ctf_id_t type; 684 685 if (ref == CTF_ERR || ref < 0 || ref > CTF_MAX_TYPE) 686 return (ctf_set_errno(fp, EINVAL)); 687 688 if ((type = ctf_add_generic(fp, flag, NULL, &dtd)) == CTF_ERR) 689 return (CTF_ERR); /* errno is set for us */ 690 691 ctf_ref_inc(fp, ref); 692 693 dtd->dtd_data.ctt_info = CTF_TYPE_INFO(kind, flag, 0); 694 dtd->dtd_data.ctt_type = (ushort_t)ref; 695 696 return (type); 697 } 698 699 ctf_id_t 700 ctf_add_integer(ctf_file_t *fp, uint_t flag, 701 const char *name, const ctf_encoding_t *ep) 702 { 703 return (ctf_add_encoded(fp, flag, name, ep, CTF_K_INTEGER)); 704 } 705 706 ctf_id_t 707 ctf_add_float(ctf_file_t *fp, uint_t flag, 708 const char *name, const ctf_encoding_t *ep) 709 { 710 return (ctf_add_encoded(fp, flag, name, ep, CTF_K_FLOAT)); 711 } 712 713 ctf_id_t 714 ctf_add_pointer(ctf_file_t *fp, uint_t flag, ctf_id_t ref) 715 { 716 return (ctf_add_reftype(fp, flag, ref, CTF_K_POINTER)); 717 } 718 719 ctf_id_t 720 ctf_add_array(ctf_file_t *fp, uint_t flag, const ctf_arinfo_t *arp) 721 { 722 ctf_dtdef_t *dtd; 723 ctf_id_t type; 724 ctf_file_t *fpd; 725 726 if (arp == NULL) 727 return (ctf_set_errno(fp, EINVAL)); 728 729 fpd = fp; 730 if (ctf_lookup_by_id(&fpd, arp->ctr_contents) == NULL && 731 ctf_dtd_lookup(fp, arp->ctr_contents) == NULL) 732 return (ctf_set_errno(fp, ECTF_BADID)); 733 734 fpd = fp; 735 if (ctf_lookup_by_id(&fpd, arp->ctr_index) == NULL && 736 ctf_dtd_lookup(fp, arp->ctr_index) == NULL) 737 return (ctf_set_errno(fp, ECTF_BADID)); 738 739 if ((type = ctf_add_generic(fp, flag, NULL, &dtd)) == CTF_ERR) 740 return (CTF_ERR); /* errno is set for us */ 741 742 dtd->dtd_data.ctt_info = CTF_TYPE_INFO(CTF_K_ARRAY, flag, 0); 743 dtd->dtd_data.ctt_size = 0; 744 dtd->dtd_u.dtu_arr = *arp; 745 ctf_ref_inc(fp, arp->ctr_contents); 746 ctf_ref_inc(fp, arp->ctr_index); 747 748 return (type); 749 } 750 751 int 752 ctf_set_array(ctf_file_t *fp, ctf_id_t type, const ctf_arinfo_t *arp) 753 { 754 ctf_file_t *fpd; 755 ctf_dtdef_t *dtd = ctf_dtd_lookup(fp, type); 756 757 if (!(fp->ctf_flags & LCTF_RDWR)) 758 return (ctf_set_errno(fp, ECTF_RDONLY)); 759 760 if (dtd == NULL || CTF_INFO_KIND(dtd->dtd_data.ctt_info) != CTF_K_ARRAY) 761 return (ctf_set_errno(fp, ECTF_BADID)); 762 763 fpd = fp; 764 if (ctf_lookup_by_id(&fpd, arp->ctr_contents) == NULL && 765 ctf_dtd_lookup(fp, arp->ctr_contents) == NULL) 766 return (ctf_set_errno(fp, ECTF_BADID)); 767 768 fpd = fp; 769 if (ctf_lookup_by_id(&fpd, arp->ctr_index) == NULL && 770 ctf_dtd_lookup(fp, arp->ctr_index) == NULL) 771 return (ctf_set_errno(fp, ECTF_BADID)); 772 773 ctf_ref_dec(fp, dtd->dtd_u.dtu_arr.ctr_contents); 774 ctf_ref_dec(fp, dtd->dtd_u.dtu_arr.ctr_index); 775 fp->ctf_flags |= LCTF_DIRTY; 776 dtd->dtd_u.dtu_arr = *arp; 777 ctf_ref_inc(fp, arp->ctr_contents); 778 ctf_ref_inc(fp, arp->ctr_index); 779 780 return (0); 781 } 782 783 ctf_id_t 784 ctf_add_function(ctf_file_t *fp, uint_t flag, 785 const ctf_funcinfo_t *ctc, const ctf_id_t *argv) 786 { 787 ctf_dtdef_t *dtd; 788 ctf_id_t type; 789 uint_t vlen; 790 int i; 791 ctf_id_t *vdat = NULL; 792 ctf_file_t *fpd; 793 794 if (ctc == NULL || (ctc->ctc_flags & ~CTF_FUNC_VARARG) != 0 || 795 (ctc->ctc_argc != 0 && argv == NULL)) 796 return (ctf_set_errno(fp, EINVAL)); 797 798 vlen = ctc->ctc_argc; 799 if (ctc->ctc_flags & CTF_FUNC_VARARG) 800 vlen++; /* add trailing zero to indicate varargs (see below) */ 801 802 if (vlen > CTF_MAX_VLEN) 803 return (ctf_set_errno(fp, EOVERFLOW)); 804 805 fpd = fp; 806 if (ctf_lookup_by_id(&fpd, ctc->ctc_return) == NULL && 807 ctf_dtd_lookup(fp, ctc->ctc_return) == NULL) 808 return (ctf_set_errno(fp, ECTF_BADID)); 809 810 for (i = 0; i < ctc->ctc_argc; i++) { 811 fpd = fp; 812 if (ctf_lookup_by_id(&fpd, argv[i]) == NULL && 813 ctf_dtd_lookup(fp, argv[i]) == NULL) 814 return (ctf_set_errno(fp, ECTF_BADID)); 815 } 816 817 if (vlen != 0 && (vdat = ctf_alloc(sizeof (ctf_id_t) * vlen)) == NULL) 818 return (ctf_set_errno(fp, EAGAIN)); 819 820 if ((type = ctf_add_generic(fp, flag, NULL, &dtd)) == CTF_ERR) { 821 ctf_free(vdat, sizeof (ctf_id_t) * vlen); 822 return (CTF_ERR); /* errno is set for us */ 823 } 824 825 dtd->dtd_data.ctt_info = CTF_TYPE_INFO(CTF_K_FUNCTION, flag, vlen); 826 dtd->dtd_data.ctt_type = (ushort_t)ctc->ctc_return; 827 828 ctf_ref_inc(fp, ctc->ctc_return); 829 for (i = 0; i < ctc->ctc_argc; i++) 830 ctf_ref_inc(fp, argv[i]); 831 832 bcopy(argv, vdat, sizeof (ctf_id_t) * ctc->ctc_argc); 833 if (ctc->ctc_flags & CTF_FUNC_VARARG) 834 vdat[vlen - 1] = 0; /* add trailing zero to indicate varargs */ 835 dtd->dtd_u.dtu_argv = vdat; 836 837 return (type); 838 } 839 840 ctf_id_t 841 ctf_add_struct(ctf_file_t *fp, uint_t flag, const char *name) 842 { 843 ctf_hash_t *hp = &fp->ctf_structs; 844 ctf_helem_t *hep = NULL; 845 ctf_dtdef_t *dtd; 846 ctf_id_t type; 847 848 if (name != NULL) 849 hep = ctf_hash_lookup(hp, fp, name, strlen(name)); 850 851 if (hep != NULL && ctf_type_kind(fp, hep->h_type) == CTF_K_FORWARD) 852 dtd = ctf_dtd_lookup(fp, type = hep->h_type); 853 else if ((type = ctf_add_generic(fp, flag, name, &dtd)) == CTF_ERR) 854 return (CTF_ERR); /* errno is set for us */ 855 856 dtd->dtd_data.ctt_info = CTF_TYPE_INFO(CTF_K_STRUCT, flag, 0); 857 dtd->dtd_data.ctt_size = 0; 858 859 return (type); 860 } 861 862 ctf_id_t 863 ctf_add_union(ctf_file_t *fp, uint_t flag, const char *name) 864 { 865 ctf_hash_t *hp = &fp->ctf_unions; 866 ctf_helem_t *hep = NULL; 867 ctf_dtdef_t *dtd; 868 ctf_id_t type; 869 870 if (name != NULL) 871 hep = ctf_hash_lookup(hp, fp, name, strlen(name)); 872 873 if (hep != NULL && ctf_type_kind(fp, hep->h_type) == CTF_K_FORWARD) 874 dtd = ctf_dtd_lookup(fp, type = hep->h_type); 875 else if ((type = ctf_add_generic(fp, flag, name, &dtd)) == CTF_ERR) 876 return (CTF_ERR); /* errno is set for us */ 877 878 dtd->dtd_data.ctt_info = CTF_TYPE_INFO(CTF_K_UNION, flag, 0); 879 dtd->dtd_data.ctt_size = 0; 880 881 return (type); 882 } 883 884 ctf_id_t 885 ctf_add_enum(ctf_file_t *fp, uint_t flag, const char *name) 886 { 887 ctf_hash_t *hp = &fp->ctf_enums; 888 ctf_helem_t *hep = NULL; 889 ctf_dtdef_t *dtd; 890 ctf_id_t type; 891 892 if (name != NULL) 893 hep = ctf_hash_lookup(hp, fp, name, strlen(name)); 894 895 if (hep != NULL && ctf_type_kind(fp, hep->h_type) == CTF_K_FORWARD) 896 dtd = ctf_dtd_lookup(fp, type = hep->h_type); 897 else if ((type = ctf_add_generic(fp, flag, name, &dtd)) == CTF_ERR) 898 return (CTF_ERR); /* errno is set for us */ 899 900 dtd->dtd_data.ctt_info = CTF_TYPE_INFO(CTF_K_ENUM, flag, 0); 901 dtd->dtd_data.ctt_size = fp->ctf_dmodel->ctd_int; 902 903 return (type); 904 } 905 906 ctf_id_t 907 ctf_add_forward(ctf_file_t *fp, uint_t flag, const char *name, uint_t kind) 908 { 909 ctf_hash_t *hp; 910 ctf_helem_t *hep; 911 ctf_dtdef_t *dtd; 912 ctf_id_t type; 913 914 switch (kind) { 915 case CTF_K_STRUCT: 916 hp = &fp->ctf_structs; 917 break; 918 case CTF_K_UNION: 919 hp = &fp->ctf_unions; 920 break; 921 case CTF_K_ENUM: 922 hp = &fp->ctf_enums; 923 break; 924 default: 925 return (ctf_set_errno(fp, ECTF_NOTSUE)); 926 } 927 928 /* 929 * If the type is already defined or exists as a forward tag, just 930 * return the ctf_id_t of the existing definition. 931 */ 932 if (name != NULL && (hep = ctf_hash_lookup(hp, 933 fp, name, strlen(name))) != NULL) 934 return (hep->h_type); 935 936 if ((type = ctf_add_generic(fp, flag, name, &dtd)) == CTF_ERR) 937 return (CTF_ERR); /* errno is set for us */ 938 939 dtd->dtd_data.ctt_info = CTF_TYPE_INFO(CTF_K_FORWARD, flag, 0); 940 dtd->dtd_data.ctt_type = kind; 941 942 return (type); 943 } 944 945 ctf_id_t 946 ctf_add_typedef(ctf_file_t *fp, uint_t flag, const char *name, ctf_id_t ref) 947 { 948 ctf_dtdef_t *dtd; 949 ctf_id_t type; 950 ctf_file_t *fpd; 951 952 fpd = fp; 953 if (ref == CTF_ERR || (ctf_lookup_by_id(&fpd, ref) == NULL && 954 ctf_dtd_lookup(fp, ref) == NULL)) 955 return (ctf_set_errno(fp, EINVAL)); 956 957 if ((type = ctf_add_generic(fp, flag, name, &dtd)) == CTF_ERR) 958 return (CTF_ERR); /* errno is set for us */ 959 960 dtd->dtd_data.ctt_info = CTF_TYPE_INFO(CTF_K_TYPEDEF, flag, 0); 961 dtd->dtd_data.ctt_type = (ushort_t)ref; 962 ctf_ref_inc(fp, ref); 963 964 return (type); 965 } 966 967 ctf_id_t 968 ctf_add_volatile(ctf_file_t *fp, uint_t flag, ctf_id_t ref) 969 { 970 return (ctf_add_reftype(fp, flag, ref, CTF_K_VOLATILE)); 971 } 972 973 ctf_id_t 974 ctf_add_const(ctf_file_t *fp, uint_t flag, ctf_id_t ref) 975 { 976 return (ctf_add_reftype(fp, flag, ref, CTF_K_CONST)); 977 } 978 979 ctf_id_t 980 ctf_add_restrict(ctf_file_t *fp, uint_t flag, ctf_id_t ref) 981 { 982 return (ctf_add_reftype(fp, flag, ref, CTF_K_RESTRICT)); 983 } 984 985 int 986 ctf_add_enumerator(ctf_file_t *fp, ctf_id_t enid, const char *name, int value) 987 { 988 ctf_dtdef_t *dtd = ctf_dtd_lookup(fp, enid); 989 ctf_dmdef_t *dmd; 990 991 uint_t kind, vlen, root; 992 char *s; 993 994 if (name == NULL) 995 return (ctf_set_errno(fp, EINVAL)); 996 997 if (!(fp->ctf_flags & LCTF_RDWR)) 998 return (ctf_set_errno(fp, ECTF_RDONLY)); 999 1000 if (dtd == NULL) 1001 return (ctf_set_errno(fp, ECTF_BADID)); 1002 1003 kind = CTF_INFO_KIND(dtd->dtd_data.ctt_info); 1004 root = CTF_INFO_ISROOT(dtd->dtd_data.ctt_info); 1005 vlen = CTF_INFO_VLEN(dtd->dtd_data.ctt_info); 1006 1007 if (kind != CTF_K_ENUM) 1008 return (ctf_set_errno(fp, ECTF_NOTENUM)); 1009 1010 if (vlen == CTF_MAX_VLEN) 1011 return (ctf_set_errno(fp, ECTF_DTFULL)); 1012 1013 for (dmd = ctf_list_next(&dtd->dtd_u.dtu_members); 1014 dmd != NULL; dmd = ctf_list_next(dmd)) { 1015 if (strcmp(dmd->dmd_name, name) == 0) 1016 return (ctf_set_errno(fp, ECTF_DUPMEMBER)); 1017 } 1018 1019 if ((dmd = ctf_alloc(sizeof (ctf_dmdef_t))) == NULL) 1020 return (ctf_set_errno(fp, EAGAIN)); 1021 1022 if ((s = ctf_strdup(name)) == NULL) { 1023 ctf_free(dmd, sizeof (ctf_dmdef_t)); 1024 return (ctf_set_errno(fp, EAGAIN)); 1025 } 1026 1027 dmd->dmd_name = s; 1028 dmd->dmd_type = CTF_ERR; 1029 dmd->dmd_offset = 0; 1030 dmd->dmd_value = value; 1031 1032 dtd->dtd_data.ctt_info = CTF_TYPE_INFO(kind, root, vlen + 1); 1033 ctf_list_append(&dtd->dtd_u.dtu_members, dmd); 1034 1035 fp->ctf_dtstrlen += strlen(s) + 1; 1036 fp->ctf_flags |= LCTF_DIRTY; 1037 1038 return (0); 1039 } 1040 1041 int 1042 ctf_add_member(ctf_file_t *fp, ctf_id_t souid, const char *name, ctf_id_t type) 1043 { 1044 ctf_dtdef_t *dtd = ctf_dtd_lookup(fp, souid); 1045 ctf_dmdef_t *dmd; 1046 1047 ssize_t msize, malign, ssize; 1048 uint_t kind, vlen, root; 1049 char *s = NULL; 1050 1051 if (!(fp->ctf_flags & LCTF_RDWR)) 1052 return (ctf_set_errno(fp, ECTF_RDONLY)); 1053 1054 if (dtd == NULL) 1055 return (ctf_set_errno(fp, ECTF_BADID)); 1056 1057 kind = CTF_INFO_KIND(dtd->dtd_data.ctt_info); 1058 root = CTF_INFO_ISROOT(dtd->dtd_data.ctt_info); 1059 vlen = CTF_INFO_VLEN(dtd->dtd_data.ctt_info); 1060 1061 if (kind != CTF_K_STRUCT && kind != CTF_K_UNION) 1062 return (ctf_set_errno(fp, ECTF_NOTSOU)); 1063 1064 if (vlen == CTF_MAX_VLEN) 1065 return (ctf_set_errno(fp, ECTF_DTFULL)); 1066 1067 if (name != NULL) { 1068 for (dmd = ctf_list_next(&dtd->dtd_u.dtu_members); 1069 dmd != NULL; dmd = ctf_list_next(dmd)) { 1070 if (dmd->dmd_name != NULL && 1071 strcmp(dmd->dmd_name, name) == 0) 1072 return (ctf_set_errno(fp, ECTF_DUPMEMBER)); 1073 } 1074 } 1075 1076 if ((msize = ctf_type_size(fp, type)) == CTF_ERR || 1077 (malign = ctf_type_align(fp, type)) == CTF_ERR) 1078 return (CTF_ERR); /* errno is set for us */ 1079 1080 if ((dmd = ctf_alloc(sizeof (ctf_dmdef_t))) == NULL) 1081 return (ctf_set_errno(fp, EAGAIN)); 1082 1083 if (name != NULL && (s = ctf_strdup(name)) == NULL) { 1084 ctf_free(dmd, sizeof (ctf_dmdef_t)); 1085 return (ctf_set_errno(fp, EAGAIN)); 1086 } 1087 1088 dmd->dmd_name = s; 1089 dmd->dmd_type = type; 1090 dmd->dmd_value = -1; 1091 1092 if (kind == CTF_K_STRUCT && vlen != 0) { 1093 ctf_dmdef_t *lmd = ctf_list_prev(&dtd->dtd_u.dtu_members); 1094 ctf_id_t ltype = ctf_type_resolve(fp, lmd->dmd_type); 1095 size_t off = lmd->dmd_offset; 1096 1097 ctf_encoding_t linfo; 1098 ssize_t lsize; 1099 1100 if (ctf_type_encoding(fp, ltype, &linfo) != CTF_ERR) 1101 off += linfo.cte_bits; 1102 else if ((lsize = ctf_type_size(fp, ltype)) != CTF_ERR) 1103 off += lsize * NBBY; 1104 1105 /* 1106 * Round up the offset of the end of the last member to the 1107 * next byte boundary, convert 'off' to bytes, and then round 1108 * it up again to the next multiple of the alignment required 1109 * by the new member. Finally, convert back to bits and store 1110 * the result in dmd_offset. Technically we could do more 1111 * efficient packing if the new member is a bit-field, but 1112 * we're the "compiler" and ANSI says we can do as we choose. 1113 */ 1114 off = roundup(off, NBBY) / NBBY; 1115 off = roundup(off, MAX(malign, 1)); 1116 dmd->dmd_offset = off * NBBY; 1117 ssize = off + msize; 1118 } else { 1119 dmd->dmd_offset = 0; 1120 ssize = ctf_get_ctt_size(fp, &dtd->dtd_data, NULL, NULL); 1121 ssize = MAX(ssize, msize); 1122 } 1123 1124 if (ssize > CTF_MAX_SIZE) { 1125 dtd->dtd_data.ctt_size = CTF_LSIZE_SENT; 1126 dtd->dtd_data.ctt_lsizehi = CTF_SIZE_TO_LSIZE_HI(ssize); 1127 dtd->dtd_data.ctt_lsizelo = CTF_SIZE_TO_LSIZE_LO(ssize); 1128 } else 1129 dtd->dtd_data.ctt_size = (ushort_t)ssize; 1130 1131 dtd->dtd_data.ctt_info = CTF_TYPE_INFO(kind, root, vlen + 1); 1132 ctf_list_append(&dtd->dtd_u.dtu_members, dmd); 1133 1134 if (s != NULL) 1135 fp->ctf_dtstrlen += strlen(s) + 1; 1136 1137 ctf_ref_inc(fp, type); 1138 fp->ctf_flags |= LCTF_DIRTY; 1139 return (0); 1140 } 1141 1142 /* 1143 * This removes a type from the dynamic section. This will fail if the type is 1144 * referenced by another type. Note that the CTF ID is never reused currently by 1145 * CTF. Note that if this container is a parent container then we just outright 1146 * refuse to remove the type. There currently is no notion of searching for the 1147 * ctf_dtdef_t in parent containers. If there is, then this constraint could 1148 * become finer grained. 1149 */ 1150 int 1151 ctf_delete_type(ctf_file_t *fp, ctf_id_t type) 1152 { 1153 ctf_file_t *fpd; 1154 ctf_dtdef_t *dtd = ctf_dtd_lookup(fp, type); 1155 1156 if (!(fp->ctf_flags & LCTF_RDWR)) 1157 return (ctf_set_errno(fp, ECTF_RDONLY)); 1158 1159 /* 1160 * We want to give as useful an errno as possible. That means that we 1161 * want to distinguish between a type which does not exist and one for 1162 * which the type is not dynamic. 1163 */ 1164 fpd = fp; 1165 if (ctf_lookup_by_id(&fpd, type) == NULL && 1166 ctf_dtd_lookup(fp, type) == NULL) 1167 return (CTF_ERR); /* errno is set for us */ 1168 1169 if (dtd == NULL) 1170 return (ctf_set_errno(fp, ECTF_NOTDYN)); 1171 1172 if (dtd->dtd_ref != 0 || fp->ctf_refcnt > 1) 1173 return (ctf_set_errno(fp, ECTF_REFERENCED)); 1174 1175 ctf_dtd_delete(fp, dtd); 1176 fp->ctf_flags |= LCTF_DIRTY; 1177 return (0); 1178 } 1179 1180 static int 1181 enumcmp(const char *name, int value, void *arg) 1182 { 1183 ctf_bundle_t *ctb = arg; 1184 int bvalue; 1185 1186 return (ctf_enum_value(ctb->ctb_file, ctb->ctb_type, 1187 name, &bvalue) == CTF_ERR || value != bvalue); 1188 } 1189 1190 static int 1191 enumadd(const char *name, int value, void *arg) 1192 { 1193 ctf_bundle_t *ctb = arg; 1194 1195 return (ctf_add_enumerator(ctb->ctb_file, ctb->ctb_type, 1196 name, value) == CTF_ERR); 1197 } 1198 1199 /*ARGSUSED*/ 1200 static int 1201 membcmp(const char *name, ctf_id_t type, ulong_t offset, void *arg) 1202 { 1203 ctf_bundle_t *ctb = arg; 1204 ctf_membinfo_t ctm; 1205 1206 return (ctf_member_info(ctb->ctb_file, ctb->ctb_type, 1207 name, &ctm) == CTF_ERR || ctm.ctm_offset != offset); 1208 } 1209 1210 static int 1211 membadd(const char *name, ctf_id_t type, ulong_t offset, void *arg) 1212 { 1213 ctf_bundle_t *ctb = arg; 1214 ctf_dmdef_t *dmd; 1215 char *s = NULL; 1216 1217 if ((dmd = ctf_alloc(sizeof (ctf_dmdef_t))) == NULL) 1218 return (ctf_set_errno(ctb->ctb_file, EAGAIN)); 1219 1220 if (name != NULL && (s = ctf_strdup(name)) == NULL) { 1221 ctf_free(dmd, sizeof (ctf_dmdef_t)); 1222 return (ctf_set_errno(ctb->ctb_file, EAGAIN)); 1223 } 1224 1225 /* 1226 * For now, dmd_type is copied as the src_fp's type; it is reset to an 1227 * equivalent dst_fp type by a final loop in ctf_add_type(), below. 1228 */ 1229 dmd->dmd_name = s; 1230 dmd->dmd_type = type; 1231 dmd->dmd_offset = offset; 1232 dmd->dmd_value = -1; 1233 1234 ctf_list_append(&ctb->ctb_dtd->dtd_u.dtu_members, dmd); 1235 1236 if (s != NULL) 1237 ctb->ctb_file->ctf_dtstrlen += strlen(s) + 1; 1238 1239 ctb->ctb_file->ctf_flags |= LCTF_DIRTY; 1240 return (0); 1241 } 1242 1243 /* 1244 * The ctf_add_type routine is used to copy a type from a source CTF container 1245 * to a dynamic destination container. This routine operates recursively by 1246 * following the source type's links and embedded member types. If the 1247 * destination container already contains a named type which has the same 1248 * attributes, then we succeed and return this type but no changes occur. 1249 */ 1250 ctf_id_t 1251 ctf_add_type(ctf_file_t *dst_fp, ctf_file_t *src_fp, ctf_id_t src_type) 1252 { 1253 ctf_id_t dst_type = CTF_ERR; 1254 uint_t dst_kind = CTF_K_UNKNOWN; 1255 1256 const ctf_type_t *tp; 1257 const char *name; 1258 uint_t kind, flag, vlen; 1259 1260 ctf_bundle_t src, dst; 1261 ctf_encoding_t src_en, dst_en; 1262 ctf_arinfo_t src_ar, dst_ar; 1263 1264 ctf_dtdef_t *dtd; 1265 ctf_funcinfo_t ctc; 1266 ssize_t size; 1267 1268 ctf_hash_t *hp; 1269 ctf_helem_t *hep; 1270 1271 if (dst_fp == src_fp) 1272 return (src_type); 1273 1274 if (!(dst_fp->ctf_flags & LCTF_RDWR)) 1275 return (ctf_set_errno(dst_fp, ECTF_RDONLY)); 1276 1277 if ((tp = ctf_lookup_by_id(&src_fp, src_type)) == NULL) 1278 return (ctf_set_errno(dst_fp, ctf_errno(src_fp))); 1279 1280 name = ctf_strptr(src_fp, tp->ctt_name); 1281 kind = LCTF_INFO_KIND(src_fp, tp->ctt_info); 1282 flag = LCTF_INFO_ROOT(src_fp, tp->ctt_info); 1283 vlen = LCTF_INFO_VLEN(src_fp, tp->ctt_info); 1284 1285 switch (kind) { 1286 case CTF_K_STRUCT: 1287 hp = &dst_fp->ctf_structs; 1288 break; 1289 case CTF_K_UNION: 1290 hp = &dst_fp->ctf_unions; 1291 break; 1292 case CTF_K_ENUM: 1293 hp = &dst_fp->ctf_enums; 1294 break; 1295 default: 1296 hp = &dst_fp->ctf_names; 1297 break; 1298 } 1299 1300 /* 1301 * If the source type has a name and is a root type (visible at the 1302 * top-level scope), lookup the name in the destination container and 1303 * verify that it is of the same kind before we do anything else. 1304 */ 1305 if ((flag & CTF_ADD_ROOT) && name[0] != '\0' && 1306 (hep = ctf_hash_lookup(hp, dst_fp, name, strlen(name))) != NULL) { 1307 dst_type = (ctf_id_t)hep->h_type; 1308 dst_kind = ctf_type_kind(dst_fp, dst_type); 1309 } 1310 1311 /* 1312 * If an identically named dst_type exists, fail with ECTF_CONFLICT 1313 * unless dst_type is a forward declaration and src_type is a struct, 1314 * union, or enum (i.e. the definition of the previous forward decl). 1315 */ 1316 if (dst_type != CTF_ERR && dst_kind != kind && ( 1317 dst_kind != CTF_K_FORWARD || (kind != CTF_K_ENUM && 1318 kind != CTF_K_STRUCT && kind != CTF_K_UNION))) 1319 return (ctf_set_errno(dst_fp, ECTF_CONFLICT)); 1320 1321 /* 1322 * If the non-empty name was not found in the appropriate hash, search 1323 * the list of pending dynamic definitions that are not yet committed. 1324 * If a matching name and kind are found, assume this is the type that 1325 * we are looking for. This is necessary to permit ctf_add_type() to 1326 * operate recursively on entities such as a struct that contains a 1327 * pointer member that refers to the same struct type. 1328 */ 1329 if (dst_type == CTF_ERR && name[0] != '\0') { 1330 for (dtd = ctf_list_prev(&dst_fp->ctf_dtdefs); dtd != NULL && 1331 dtd->dtd_type > dst_fp->ctf_dtoldid; 1332 dtd = ctf_list_prev(dtd)) { 1333 if (CTF_INFO_KIND(dtd->dtd_data.ctt_info) == kind && 1334 dtd->dtd_name != NULL && 1335 strcmp(dtd->dtd_name, name) == 0) 1336 return (dtd->dtd_type); 1337 } 1338 } 1339 1340 src.ctb_file = src_fp; 1341 src.ctb_type = src_type; 1342 src.ctb_dtd = NULL; 1343 1344 dst.ctb_file = dst_fp; 1345 dst.ctb_type = dst_type; 1346 dst.ctb_dtd = NULL; 1347 1348 /* 1349 * Now perform kind-specific processing. If dst_type is CTF_ERR, then 1350 * we add a new type with the same properties as src_type to dst_fp. 1351 * If dst_type is not CTF_ERR, then we verify that dst_type has the 1352 * same attributes as src_type. We recurse for embedded references. 1353 */ 1354 switch (kind) { 1355 case CTF_K_INTEGER: 1356 case CTF_K_FLOAT: 1357 if (ctf_type_encoding(src_fp, src_type, &src_en) != 0) 1358 return (ctf_set_errno(dst_fp, ctf_errno(src_fp))); 1359 1360 if (dst_type != CTF_ERR) { 1361 if (ctf_type_encoding(dst_fp, dst_type, &dst_en) != 0) 1362 return (CTF_ERR); /* errno is set for us */ 1363 1364 if (bcmp(&src_en, &dst_en, sizeof (ctf_encoding_t))) 1365 return (ctf_set_errno(dst_fp, ECTF_CONFLICT)); 1366 1367 } else if (kind == CTF_K_INTEGER) { 1368 dst_type = ctf_add_integer(dst_fp, flag, name, &src_en); 1369 } else 1370 dst_type = ctf_add_float(dst_fp, flag, name, &src_en); 1371 break; 1372 1373 case CTF_K_POINTER: 1374 case CTF_K_VOLATILE: 1375 case CTF_K_CONST: 1376 case CTF_K_RESTRICT: 1377 src_type = ctf_type_reference(src_fp, src_type); 1378 src_type = ctf_add_type(dst_fp, src_fp, src_type); 1379 1380 if (src_type == CTF_ERR) 1381 return (CTF_ERR); /* errno is set for us */ 1382 1383 dst_type = ctf_add_reftype(dst_fp, flag, src_type, kind); 1384 break; 1385 1386 case CTF_K_ARRAY: 1387 if (ctf_array_info(src_fp, src_type, &src_ar) == CTF_ERR) 1388 return (ctf_set_errno(dst_fp, ctf_errno(src_fp))); 1389 1390 src_ar.ctr_contents = 1391 ctf_add_type(dst_fp, src_fp, src_ar.ctr_contents); 1392 src_ar.ctr_index = 1393 ctf_add_type(dst_fp, src_fp, src_ar.ctr_index); 1394 src_ar.ctr_nelems = src_ar.ctr_nelems; 1395 1396 if (src_ar.ctr_contents == CTF_ERR || 1397 src_ar.ctr_index == CTF_ERR) 1398 return (CTF_ERR); /* errno is set for us */ 1399 1400 if (dst_type != CTF_ERR) { 1401 if (ctf_array_info(dst_fp, dst_type, &dst_ar) != 0) 1402 return (CTF_ERR); /* errno is set for us */ 1403 1404 if (bcmp(&src_ar, &dst_ar, sizeof (ctf_arinfo_t))) 1405 return (ctf_set_errno(dst_fp, ECTF_CONFLICT)); 1406 } else 1407 dst_type = ctf_add_array(dst_fp, flag, &src_ar); 1408 break; 1409 1410 case CTF_K_FUNCTION: 1411 ctc.ctc_return = ctf_add_type(dst_fp, src_fp, tp->ctt_type); 1412 ctc.ctc_argc = 0; 1413 ctc.ctc_flags = 0; 1414 1415 if (ctc.ctc_return == CTF_ERR) 1416 return (CTF_ERR); /* errno is set for us */ 1417 1418 dst_type = ctf_add_function(dst_fp, flag, &ctc, NULL); 1419 break; 1420 1421 case CTF_K_STRUCT: 1422 case CTF_K_UNION: { 1423 ctf_dmdef_t *dmd; 1424 int errs = 0; 1425 1426 /* 1427 * Technically to match a struct or union we need to check both 1428 * ways (src members vs. dst, dst members vs. src) but we make 1429 * this more optimal by only checking src vs. dst and comparing 1430 * the total size of the structure (which we must do anyway) 1431 * which covers the possibility of dst members not in src. 1432 * This optimization can be defeated for unions, but is so 1433 * pathological as to render it irrelevant for our purposes. 1434 */ 1435 if (dst_type != CTF_ERR && dst_kind != CTF_K_FORWARD) { 1436 if (ctf_type_size(src_fp, src_type) != 1437 ctf_type_size(dst_fp, dst_type)) 1438 return (ctf_set_errno(dst_fp, ECTF_CONFLICT)); 1439 1440 if (ctf_member_iter(src_fp, src_type, membcmp, &dst)) 1441 return (ctf_set_errno(dst_fp, ECTF_CONFLICT)); 1442 1443 break; 1444 } 1445 1446 /* 1447 * Unlike the other cases, copying structs and unions is done 1448 * manually so as to avoid repeated lookups in ctf_add_member 1449 * and to ensure the exact same member offsets as in src_type. 1450 */ 1451 dst_type = ctf_add_generic(dst_fp, flag, name, &dtd); 1452 if (dst_type == CTF_ERR) 1453 return (CTF_ERR); /* errno is set for us */ 1454 1455 dst.ctb_type = dst_type; 1456 dst.ctb_dtd = dtd; 1457 1458 if (ctf_member_iter(src_fp, src_type, membadd, &dst) != 0) 1459 errs++; /* increment errs and fail at bottom of case */ 1460 1461 if ((size = ctf_type_size(src_fp, src_type)) > CTF_MAX_SIZE) { 1462 dtd->dtd_data.ctt_size = CTF_LSIZE_SENT; 1463 dtd->dtd_data.ctt_lsizehi = CTF_SIZE_TO_LSIZE_HI(size); 1464 dtd->dtd_data.ctt_lsizelo = CTF_SIZE_TO_LSIZE_LO(size); 1465 } else 1466 dtd->dtd_data.ctt_size = (ushort_t)size; 1467 1468 dtd->dtd_data.ctt_info = CTF_TYPE_INFO(kind, flag, vlen); 1469 1470 /* 1471 * Make a final pass through the members changing each dmd_type 1472 * (a src_fp type) to an equivalent type in dst_fp. We pass 1473 * through all members, leaving any that fail set to CTF_ERR. 1474 */ 1475 for (dmd = ctf_list_next(&dtd->dtd_u.dtu_members); 1476 dmd != NULL; dmd = ctf_list_next(dmd)) { 1477 if ((dmd->dmd_type = ctf_add_type(dst_fp, src_fp, 1478 dmd->dmd_type)) == CTF_ERR) 1479 errs++; 1480 } 1481 1482 if (errs) 1483 return (CTF_ERR); /* errno is set for us */ 1484 1485 /* 1486 * Now that we know that we can't fail, we go through and bump 1487 * all the reference counts on the member types. 1488 */ 1489 for (dmd = ctf_list_next(&dtd->dtd_u.dtu_members); 1490 dmd != NULL; dmd = ctf_list_next(dmd)) 1491 ctf_ref_inc(dst_fp, dmd->dmd_type); 1492 break; 1493 } 1494 1495 case CTF_K_ENUM: 1496 if (dst_type != CTF_ERR && dst_kind != CTF_K_FORWARD) { 1497 if (ctf_enum_iter(src_fp, src_type, enumcmp, &dst) || 1498 ctf_enum_iter(dst_fp, dst_type, enumcmp, &src)) 1499 return (ctf_set_errno(dst_fp, ECTF_CONFLICT)); 1500 } else { 1501 dst_type = ctf_add_enum(dst_fp, flag, name); 1502 if ((dst.ctb_type = dst_type) == CTF_ERR || 1503 ctf_enum_iter(src_fp, src_type, enumadd, &dst)) 1504 return (CTF_ERR); /* errno is set for us */ 1505 } 1506 break; 1507 1508 case CTF_K_FORWARD: 1509 if (dst_type == CTF_ERR) { 1510 dst_type = ctf_add_forward(dst_fp, 1511 flag, name, CTF_K_STRUCT); /* assume STRUCT */ 1512 } 1513 break; 1514 1515 case CTF_K_TYPEDEF: 1516 src_type = ctf_type_reference(src_fp, src_type); 1517 src_type = ctf_add_type(dst_fp, src_fp, src_type); 1518 1519 if (src_type == CTF_ERR) 1520 return (CTF_ERR); /* errno is set for us */ 1521 1522 /* 1523 * If dst_type is not CTF_ERR at this point, we should check if 1524 * ctf_type_reference(dst_fp, dst_type) != src_type and if so 1525 * fail with ECTF_CONFLICT. However, this causes problems with 1526 * <sys/types.h> typedefs that vary based on things like if 1527 * _ILP32x then pid_t is int otherwise long. We therefore omit 1528 * this check and assume that if the identically named typedef 1529 * already exists in dst_fp, it is correct or equivalent. 1530 */ 1531 if (dst_type == CTF_ERR) { 1532 dst_type = ctf_add_typedef(dst_fp, flag, 1533 name, src_type); 1534 } 1535 break; 1536 1537 default: 1538 return (ctf_set_errno(dst_fp, ECTF_CORRUPT)); 1539 } 1540 1541 return (dst_type); 1542 } 1543