12de3b87aSKai Wang /*-
22de3b87aSKai Wang * Copyright (c) 2007 John Birrell (jb@freebsd.org)
32de3b87aSKai Wang * Copyright (c) 2009-2011 Kai Wang
42de3b87aSKai Wang * All rights reserved.
52de3b87aSKai Wang *
62de3b87aSKai Wang * Redistribution and use in source and binary forms, with or without
72de3b87aSKai Wang * modification, are permitted provided that the following conditions
82de3b87aSKai Wang * are met:
92de3b87aSKai Wang * 1. Redistributions of source code must retain the above copyright
102de3b87aSKai Wang * notice, this list of conditions and the following disclaimer.
112de3b87aSKai Wang * 2. Redistributions in binary form must reproduce the above copyright
122de3b87aSKai Wang * notice, this list of conditions and the following disclaimer in the
132de3b87aSKai Wang * documentation and/or other materials provided with the distribution.
142de3b87aSKai Wang *
152de3b87aSKai Wang * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
162de3b87aSKai Wang * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
172de3b87aSKai Wang * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
182de3b87aSKai Wang * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
192de3b87aSKai Wang * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
202de3b87aSKai Wang * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
212de3b87aSKai Wang * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
222de3b87aSKai Wang * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
232de3b87aSKai Wang * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
242de3b87aSKai Wang * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
252de3b87aSKai Wang * SUCH DAMAGE.
262de3b87aSKai Wang */
272de3b87aSKai Wang
282de3b87aSKai Wang #include "_libdwarf.h"
292de3b87aSKai Wang
30*b6b6f9ccSEd Maste ELFTC_VCSID("$Id: libdwarf_abbrev.c 3420 2016-02-27 02:14:05Z emaste $");
312de3b87aSKai Wang
322de3b87aSKai Wang int
_dwarf_abbrev_add(Dwarf_CU cu,uint64_t entry,uint64_t tag,uint8_t children,uint64_t aboff,Dwarf_Abbrev * abp,Dwarf_Error * error)332de3b87aSKai Wang _dwarf_abbrev_add(Dwarf_CU cu, uint64_t entry, uint64_t tag, uint8_t children,
342de3b87aSKai Wang uint64_t aboff, Dwarf_Abbrev *abp, Dwarf_Error *error)
352de3b87aSKai Wang {
362de3b87aSKai Wang Dwarf_Abbrev ab;
372de3b87aSKai Wang Dwarf_Debug dbg;
382de3b87aSKai Wang
392de3b87aSKai Wang dbg = cu != NULL ? cu->cu_dbg : NULL;
402de3b87aSKai Wang
412de3b87aSKai Wang if ((ab = malloc(sizeof(struct _Dwarf_Abbrev))) == NULL) {
422de3b87aSKai Wang DWARF_SET_ERROR(dbg, error, DW_DLE_MEMORY);
432de3b87aSKai Wang return (DW_DLE_MEMORY);
442de3b87aSKai Wang }
452de3b87aSKai Wang
462de3b87aSKai Wang /* Initialise the abbrev structure. */
472de3b87aSKai Wang ab->ab_entry = entry;
482de3b87aSKai Wang ab->ab_tag = tag;
492de3b87aSKai Wang ab->ab_children = children;
502de3b87aSKai Wang ab->ab_offset = aboff;
512de3b87aSKai Wang ab->ab_length = 0; /* fill in later. */
522de3b87aSKai Wang ab->ab_atnum = 0; /* fill in later. */
532de3b87aSKai Wang
542de3b87aSKai Wang /* Initialise the list of attribute definitions. */
552de3b87aSKai Wang STAILQ_INIT(&ab->ab_attrdef);
562de3b87aSKai Wang
572de3b87aSKai Wang /* Add the abbrev to the hash table of the compilation unit. */
582de3b87aSKai Wang if (cu != NULL)
592de3b87aSKai Wang HASH_ADD(ab_hh, cu->cu_abbrev_hash, ab_entry,
602de3b87aSKai Wang sizeof(ab->ab_entry), ab);
612de3b87aSKai Wang
622de3b87aSKai Wang *abp = ab;
632de3b87aSKai Wang return (DW_DLE_NONE);
642de3b87aSKai Wang }
652de3b87aSKai Wang
662de3b87aSKai Wang int
_dwarf_attrdef_add(Dwarf_Debug dbg,Dwarf_Abbrev ab,uint64_t attr,uint64_t form,uint64_t adoff,Dwarf_AttrDef * adp,Dwarf_Error * error)672de3b87aSKai Wang _dwarf_attrdef_add(Dwarf_Debug dbg, Dwarf_Abbrev ab, uint64_t attr,
682de3b87aSKai Wang uint64_t form, uint64_t adoff, Dwarf_AttrDef *adp, Dwarf_Error *error)
692de3b87aSKai Wang {
702de3b87aSKai Wang Dwarf_AttrDef ad;
712de3b87aSKai Wang
722de3b87aSKai Wang if (ab == NULL) {
732de3b87aSKai Wang DWARF_SET_ERROR(dbg, error, DW_DLE_ARGUMENT);
742de3b87aSKai Wang return (DW_DLE_ARGUMENT);
752de3b87aSKai Wang }
762de3b87aSKai Wang
772de3b87aSKai Wang if ((ad = malloc(sizeof(struct _Dwarf_AttrDef))) == NULL) {
782de3b87aSKai Wang DWARF_SET_ERROR(dbg, error, DW_DLE_MEMORY);
792de3b87aSKai Wang return (DW_DLE_MEMORY);
802de3b87aSKai Wang }
812de3b87aSKai Wang
822de3b87aSKai Wang /* Initialise the attribute definition structure. */
832de3b87aSKai Wang ad->ad_attrib = attr;
842de3b87aSKai Wang ad->ad_form = form;
852de3b87aSKai Wang ad->ad_offset = adoff;
862de3b87aSKai Wang
872de3b87aSKai Wang /* Add the attribute definition to the list in the abbrev. */
882de3b87aSKai Wang STAILQ_INSERT_TAIL(&ab->ab_attrdef, ad, ad_next);
892de3b87aSKai Wang
902de3b87aSKai Wang /* Increase number of attribute counter. */
912de3b87aSKai Wang ab->ab_atnum++;
922de3b87aSKai Wang
932de3b87aSKai Wang if (adp != NULL)
942de3b87aSKai Wang *adp = ad;
952de3b87aSKai Wang
962de3b87aSKai Wang return (DW_DLE_NONE);
972de3b87aSKai Wang }
982de3b87aSKai Wang
992de3b87aSKai Wang int
_dwarf_abbrev_parse(Dwarf_Debug dbg,Dwarf_CU cu,Dwarf_Unsigned * offset,Dwarf_Abbrev * abp,Dwarf_Error * error)1002de3b87aSKai Wang _dwarf_abbrev_parse(Dwarf_Debug dbg, Dwarf_CU cu, Dwarf_Unsigned *offset,
1012de3b87aSKai Wang Dwarf_Abbrev *abp, Dwarf_Error *error)
1022de3b87aSKai Wang {
1032de3b87aSKai Wang Dwarf_Section *ds;
1042de3b87aSKai Wang uint64_t attr;
1052de3b87aSKai Wang uint64_t entry;
1062de3b87aSKai Wang uint64_t form;
1072de3b87aSKai Wang uint64_t aboff;
1082de3b87aSKai Wang uint64_t adoff;
1092de3b87aSKai Wang uint64_t tag;
1102de3b87aSKai Wang uint8_t children;
1112de3b87aSKai Wang int ret;
1122de3b87aSKai Wang
1132de3b87aSKai Wang assert(abp != NULL);
1142de3b87aSKai Wang
1152de3b87aSKai Wang ds = _dwarf_find_section(dbg, ".debug_abbrev");
116*b6b6f9ccSEd Maste if (ds == NULL || *offset >= ds->ds_size)
1172de3b87aSKai Wang return (DW_DLE_NO_ENTRY);
1182de3b87aSKai Wang
1192de3b87aSKai Wang aboff = *offset;
1202de3b87aSKai Wang
1212de3b87aSKai Wang entry = _dwarf_read_uleb128(ds->ds_data, offset);
1222de3b87aSKai Wang if (entry == 0) {
1232de3b87aSKai Wang /* Last entry. */
1242de3b87aSKai Wang ret = _dwarf_abbrev_add(cu, entry, 0, 0, aboff, abp,
1252de3b87aSKai Wang error);
1262de3b87aSKai Wang if (ret == DW_DLE_NONE) {
1272de3b87aSKai Wang (*abp)->ab_length = 1;
1282de3b87aSKai Wang return (ret);
1292de3b87aSKai Wang } else
1302de3b87aSKai Wang return (ret);
1312de3b87aSKai Wang }
1322de3b87aSKai Wang tag = _dwarf_read_uleb128(ds->ds_data, offset);
1332de3b87aSKai Wang children = dbg->read(ds->ds_data, offset, 1);
1342de3b87aSKai Wang if ((ret = _dwarf_abbrev_add(cu, entry, tag, children, aboff,
1352de3b87aSKai Wang abp, error)) != DW_DLE_NONE)
1362de3b87aSKai Wang return (ret);
1372de3b87aSKai Wang
1382de3b87aSKai Wang /* Parse attribute definitions. */
1392de3b87aSKai Wang do {
1402de3b87aSKai Wang adoff = *offset;
1412de3b87aSKai Wang attr = _dwarf_read_uleb128(ds->ds_data, offset);
1422de3b87aSKai Wang form = _dwarf_read_uleb128(ds->ds_data, offset);
1432de3b87aSKai Wang if (attr != 0)
1442de3b87aSKai Wang if ((ret = _dwarf_attrdef_add(dbg, *abp, attr,
1452de3b87aSKai Wang form, adoff, NULL, error)) != DW_DLE_NONE)
1462de3b87aSKai Wang return (ret);
1472de3b87aSKai Wang } while (attr != 0);
1482de3b87aSKai Wang
1492de3b87aSKai Wang (*abp)->ab_length = *offset - aboff;
1502de3b87aSKai Wang
1512de3b87aSKai Wang return (ret);
1522de3b87aSKai Wang }
1532de3b87aSKai Wang
1542de3b87aSKai Wang int
_dwarf_abbrev_find(Dwarf_CU cu,uint64_t entry,Dwarf_Abbrev * abp,Dwarf_Error * error)1552de3b87aSKai Wang _dwarf_abbrev_find(Dwarf_CU cu, uint64_t entry, Dwarf_Abbrev *abp,
1562de3b87aSKai Wang Dwarf_Error *error)
1572de3b87aSKai Wang {
1582de3b87aSKai Wang Dwarf_Abbrev ab;
1592de3b87aSKai Wang Dwarf_Section *ds;
1602de3b87aSKai Wang Dwarf_Unsigned offset;
1612de3b87aSKai Wang int ret;
1622de3b87aSKai Wang
1632de3b87aSKai Wang if (entry == 0)
1642de3b87aSKai Wang return (DW_DLE_NO_ENTRY);
1652de3b87aSKai Wang
1662de3b87aSKai Wang /* Check if the desired abbrev entry is already in the hash table. */
1672de3b87aSKai Wang HASH_FIND(ab_hh, cu->cu_abbrev_hash, &entry, sizeof(entry), ab);
1682de3b87aSKai Wang if (ab != NULL) {
1692de3b87aSKai Wang *abp = ab;
1702de3b87aSKai Wang return (DW_DLE_NONE);
1712de3b87aSKai Wang }
1722de3b87aSKai Wang
1732de3b87aSKai Wang if (cu->cu_abbrev_loaded) {
1742de3b87aSKai Wang return (DW_DLE_NO_ENTRY);
1752de3b87aSKai Wang }
1762de3b87aSKai Wang
1772de3b87aSKai Wang /* Load and search the abbrev table. */
1782de3b87aSKai Wang ds = _dwarf_find_section(cu->cu_dbg, ".debug_abbrev");
1794a85c691SEd Maste if (ds == NULL)
1804a85c691SEd Maste return (DW_DLE_NO_ENTRY);
1814a85c691SEd Maste
1822de3b87aSKai Wang offset = cu->cu_abbrev_offset_cur;
1832de3b87aSKai Wang while (offset < ds->ds_size) {
1842de3b87aSKai Wang ret = _dwarf_abbrev_parse(cu->cu_dbg, cu, &offset, &ab, error);
1852de3b87aSKai Wang if (ret != DW_DLE_NONE)
1862de3b87aSKai Wang return (ret);
1872de3b87aSKai Wang if (ab->ab_entry == entry) {
1882de3b87aSKai Wang cu->cu_abbrev_offset_cur = offset;
1892de3b87aSKai Wang *abp = ab;
1902de3b87aSKai Wang return (DW_DLE_NONE);
1912de3b87aSKai Wang }
1922de3b87aSKai Wang if (ab->ab_entry == 0) {
1932de3b87aSKai Wang cu->cu_abbrev_offset_cur = offset;
1942de3b87aSKai Wang cu->cu_abbrev_loaded = 1;
1952de3b87aSKai Wang break;
1962de3b87aSKai Wang }
1972de3b87aSKai Wang }
1982de3b87aSKai Wang
1992de3b87aSKai Wang return (DW_DLE_NO_ENTRY);
2002de3b87aSKai Wang }
2012de3b87aSKai Wang
2022de3b87aSKai Wang void
_dwarf_abbrev_cleanup(Dwarf_CU cu)2032de3b87aSKai Wang _dwarf_abbrev_cleanup(Dwarf_CU cu)
2042de3b87aSKai Wang {
2052de3b87aSKai Wang Dwarf_Abbrev ab, tab;
2062de3b87aSKai Wang Dwarf_AttrDef ad, tad;
2072de3b87aSKai Wang
2082de3b87aSKai Wang assert(cu != NULL);
2092de3b87aSKai Wang
2102de3b87aSKai Wang HASH_ITER(ab_hh, cu->cu_abbrev_hash, ab, tab) {
2112de3b87aSKai Wang HASH_DELETE(ab_hh, cu->cu_abbrev_hash, ab);
2122de3b87aSKai Wang STAILQ_FOREACH_SAFE(ad, &ab->ab_attrdef, ad_next, tad) {
2132de3b87aSKai Wang STAILQ_REMOVE(&ab->ab_attrdef, ad, _Dwarf_AttrDef,
2142de3b87aSKai Wang ad_next);
2152de3b87aSKai Wang free(ad);
2162de3b87aSKai Wang }
2172de3b87aSKai Wang free(ab);
2182de3b87aSKai Wang }
2192de3b87aSKai Wang }
2202de3b87aSKai Wang
2212de3b87aSKai Wang int
_dwarf_abbrev_gen(Dwarf_P_Debug dbg,Dwarf_Error * error)2222de3b87aSKai Wang _dwarf_abbrev_gen(Dwarf_P_Debug dbg, Dwarf_Error *error)
2232de3b87aSKai Wang {
2242de3b87aSKai Wang Dwarf_CU cu;
2252de3b87aSKai Wang Dwarf_Abbrev ab;
2262de3b87aSKai Wang Dwarf_AttrDef ad;
2272de3b87aSKai Wang Dwarf_P_Section ds;
2282de3b87aSKai Wang int ret;
2292de3b87aSKai Wang
2302de3b87aSKai Wang cu = STAILQ_FIRST(&dbg->dbg_cu);
2312de3b87aSKai Wang if (cu == NULL)
2322de3b87aSKai Wang return (DW_DLE_NONE);
2332de3b87aSKai Wang
2342de3b87aSKai Wang /* Create .debug_abbrev section. */
2352de3b87aSKai Wang if ((ret = _dwarf_section_init(dbg, &ds, ".debug_abbrev", 0, error)) !=
2362de3b87aSKai Wang DW_DLE_NONE)
2372de3b87aSKai Wang return (ret);
2382de3b87aSKai Wang
2392de3b87aSKai Wang for (ab = cu->cu_abbrev_hash; ab != NULL; ab = ab->ab_hh.next) {
2402de3b87aSKai Wang RCHECK(WRITE_ULEB128(ab->ab_entry));
2412de3b87aSKai Wang RCHECK(WRITE_ULEB128(ab->ab_tag));
2422de3b87aSKai Wang RCHECK(WRITE_VALUE(ab->ab_children, 1));
2432de3b87aSKai Wang STAILQ_FOREACH(ad, &ab->ab_attrdef, ad_next) {
2442de3b87aSKai Wang RCHECK(WRITE_ULEB128(ad->ad_attrib));
2452de3b87aSKai Wang RCHECK(WRITE_ULEB128(ad->ad_form));
2462de3b87aSKai Wang }
2472de3b87aSKai Wang /* Signal end of attribute spec list. */
2482de3b87aSKai Wang RCHECK(WRITE_ULEB128(0));
2492de3b87aSKai Wang RCHECK(WRITE_ULEB128(0));
2502de3b87aSKai Wang }
2512de3b87aSKai Wang /* End of abbreviation for this CU. */
2522de3b87aSKai Wang RCHECK(WRITE_ULEB128(0));
2532de3b87aSKai Wang
2542de3b87aSKai Wang /* Notify the creation of .debug_abbrev ELF section. */
2552de3b87aSKai Wang RCHECK(_dwarf_section_callback(dbg, ds, SHT_PROGBITS, 0, 0, 0, error));
2562de3b87aSKai Wang
2572de3b87aSKai Wang return (DW_DLE_NONE);
2582de3b87aSKai Wang
2592de3b87aSKai Wang gen_fail:
2602de3b87aSKai Wang
2612de3b87aSKai Wang _dwarf_section_free(dbg, &ds);
2622de3b87aSKai Wang
2632de3b87aSKai Wang return (ret);
2642de3b87aSKai Wang }
265