/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2007 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" /* * String conversion routine for .dynamic tag entries. */ #include #include #include #include "rtld.h" #include "_conv.h" #include "dynamic_msg.h" /* Instantiate a local copy of conv_map2str() from _conv.h */ DEFINE_conv_map2str #define POSSZ CONV_EXPN_FIELD_DEF_PREFIX_SIZE + \ MSG_DFP_LAZYLOAD_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_DFP_GROUPPERM_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ CONV_INV_STRSIZE + CONV_EXPN_FIELD_DEF_SUFFIX_SIZE const char * conv_dyn_posflag1(Xword flags, int fmt_flags) { static char string[POSSZ]; static Val_desc vda[] = { { DF_P1_LAZYLOAD, MSG_ORIG(MSG_DFP_LAZYLOAD) }, { DF_P1_GROUPPERM, MSG_ORIG(MSG_DFP_GROUPPERM) }, { 0, 0 } }; static CONV_EXPN_FIELD_ARG conv_arg = { string, sizeof (string), vda }; static Val_desc vda_alt[] = { { DF_P1_LAZYLOAD, MSG_ORIG(MSG_DFP_LAZYLOAD_ALT) }, { DF_P1_GROUPPERM, MSG_ORIG(MSG_DFP_GROUPPERM) }, { 0, 0 } }; static CONV_EXPN_FIELD_ARG conv_arg_alt = { string, sizeof (string), vda_alt, NULL, 0, 0, MSG_ORIG(MSG_STR_EMPTY), NULL, MSG_ORIG(MSG_STR_EMPTY) }; CONV_EXPN_FIELD_ARG *arg; if (flags == 0) return (MSG_ORIG(MSG_GBL_ZERO)); arg = (fmt_flags & CONV_FMT_ALTDUMP) ? &conv_arg_alt : &conv_arg; arg->oflags = arg->rflags = flags; (void) conv_expn_field(arg); return ((const char *)string); } #define FLAGSZ CONV_EXPN_FIELD_DEF_PREFIX_SIZE + \ MSG_DF_ORIGIN_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_DF_SYMBOLIC_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_DF_TEXTREL_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_DF_BIND_NOW_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_DF_STATIC_TLS_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ CONV_INV_STRSIZE + CONV_EXPN_FIELD_DEF_SUFFIX_SIZE const char * conv_dyn_flag(Xword flags, int fmt_flags) { static char string[FLAGSZ]; static Val_desc vda[] = { { DF_ORIGIN, MSG_ORIG(MSG_DF_ORIGIN) }, { DF_SYMBOLIC, MSG_ORIG(MSG_DF_SYMBOLIC) }, { DF_TEXTREL, MSG_ORIG(MSG_DF_TEXTREL) }, { DF_BIND_NOW, MSG_ORIG(MSG_DF_BIND_NOW) }, { DF_STATIC_TLS, MSG_ORIG(MSG_DF_STATIC_TLS) }, { 0, 0 } }; static CONV_EXPN_FIELD_ARG conv_arg = { string, sizeof (string), vda }; if (flags == 0) return (MSG_ORIG(MSG_GBL_ZERO)); conv_arg.oflags = conv_arg.rflags = flags; if (fmt_flags & CONV_FMT_ALTDUMP) { conv_arg.prefix = conv_arg.suffix = MSG_ORIG(MSG_STR_EMPTY); } else { conv_arg.prefix = conv_arg.suffix = NULL; } (void) conv_expn_field(&conv_arg); return ((const char *)string); } #define FLAG1SZ CONV_EXPN_FIELD_DEF_PREFIX_SIZE + \ MSG_DF1_NOW_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_DF1_GLOBAL_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_DF1_GROUP_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_DF1_NODELETE_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_DF1_LOADFLTR_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_DF1_INITFIRST_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_DF1_NOOPEN_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_DF1_ORIGIN_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_DF1_DIRECT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_DF1_TRANS_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_DF1_INTERPOSE_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_DF1_NODEFLIB_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_DF1_NODUMP_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_DF1_CONFALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_DF1_ENDFILTEE_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_DF1_DISPRELPND_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_DF1_DISPRELDNE_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_DF1_NODIRECT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_DF1_IGNMULDEF_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_DF1_NOKSYMS_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_DF1_NOHDR_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_DF1_NORELOC_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_DF1_SYMINTPOSE_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_DF1_GLOBAUDIT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ CONV_INV_STRSIZE + CONV_EXPN_FIELD_DEF_SUFFIX_SIZE const char * conv_dyn_flag1(Xword flags) { static char string[FLAG1SZ]; static Val_desc vda[] = { { DF_1_NOW, MSG_ORIG(MSG_DF1_NOW) }, { DF_1_GLOBAL, MSG_ORIG(MSG_DF1_GLOBAL) }, { DF_1_GROUP, MSG_ORIG(MSG_DF1_GROUP) }, { DF_1_NODELETE, MSG_ORIG(MSG_DF1_NODELETE) }, { DF_1_LOADFLTR, MSG_ORIG(MSG_DF1_LOADFLTR) }, { DF_1_INITFIRST, MSG_ORIG(MSG_DF1_INITFIRST) }, { DF_1_NOOPEN, MSG_ORIG(MSG_DF1_NOOPEN) }, { DF_1_ORIGIN, MSG_ORIG(MSG_DF1_ORIGIN) }, { DF_1_DIRECT, MSG_ORIG(MSG_DF1_DIRECT) }, { DF_1_TRANS, MSG_ORIG(MSG_DF1_TRANS) }, { DF_1_INTERPOSE, MSG_ORIG(MSG_DF1_INTERPOSE) }, { DF_1_NODEFLIB, MSG_ORIG(MSG_DF1_NODEFLIB) }, { DF_1_NODUMP, MSG_ORIG(MSG_DF1_NODUMP) }, { DF_1_CONFALT, MSG_ORIG(MSG_DF1_CONFALT) }, { DF_1_ENDFILTEE, MSG_ORIG(MSG_DF1_ENDFILTEE) }, { DF_1_DISPRELDNE, MSG_ORIG(MSG_DF1_DISPRELDNE) }, { DF_1_DISPRELPND, MSG_ORIG(MSG_DF1_DISPRELPND) }, { DF_1_NODIRECT, MSG_ORIG(MSG_DF1_NODIRECT) }, { DF_1_IGNMULDEF, MSG_ORIG(MSG_DF1_IGNMULDEF) }, { DF_1_NOKSYMS, MSG_ORIG(MSG_DF1_NOKSYMS) }, { DF_1_NOHDR, MSG_ORIG(MSG_DF1_NOHDR) }, { DF_1_EDITED, MSG_ORIG(MSG_DF1_EDITED) }, { DF_1_NORELOC, MSG_ORIG(MSG_DF1_NORELOC) }, { DF_1_SYMINTPOSE, MSG_ORIG(MSG_DF1_SYMINTPOSE) }, { DF_1_GLOBAUDIT, MSG_ORIG(MSG_DF1_GLOBAUDIT) }, { 0, 0 } }; static CONV_EXPN_FIELD_ARG conv_arg = { string, sizeof (string), vda }; if (flags == 0) return (MSG_ORIG(MSG_GBL_ZERO)); conv_arg.oflags = conv_arg.rflags = flags; (void) conv_expn_field(&conv_arg); return ((const char *)string); } #define FEATSZ CONV_EXPN_FIELD_DEF_PREFIX_SIZE + \ MSG_DTF_PARINIT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_DTF_CONFEXP_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ CONV_INV_STRSIZE + CONV_EXPN_FIELD_DEF_SUFFIX_SIZE const char * conv_dyn_feature1(Xword flags, int fmt_flags) { static char string[FEATSZ]; static Val_desc vda[] = { { DTF_1_PARINIT, MSG_ORIG(MSG_DTF_PARINIT) }, { DTF_1_CONFEXP, MSG_ORIG(MSG_DTF_CONFEXP) }, { 0, 0 } }; static CONV_EXPN_FIELD_ARG conv_arg = { string, sizeof (string), vda }; if (flags == 0) return (MSG_ORIG(MSG_GBL_ZERO)); conv_arg.oflags = conv_arg.rflags = flags; if (fmt_flags & CONV_FMT_ALTDUMP) { conv_arg.prefix = conv_arg.suffix = MSG_ORIG(MSG_STR_EMPTY); } else { conv_arg.prefix = conv_arg.suffix = NULL; } (void) conv_expn_field(&conv_arg); return ((const char *)string); } const char * conv_dyn_tag(Xword tag, Half mach, int fmt_flags) { static Conv_inv_buf_t string; /* * Dynamic tag values are sparse, cover a wide range, and have * holes. To handle this efficiently, we fall through a series * of tests below, in increasing tag order, returning at the first * match. * * If we fall all the way to the end, the tag is unknown, * and its numeric value is printed. */ /* * Most of the tag values are clustered in contiguous ranges. * Each contiguous range of defined values is handled with * an array that contains the message index corresponding to * each value in that range. The DYN_RANGE macro checks the * tag value against range of values starting at _start_tag. * If there is a match, the index of the appropriate name is * pulled from _array and returned to the caller. */ #define DYN_RANGE(_start_tag, _array) \ if ((tag >= _start_tag) && (tag < (_start_tag + ARRAY_NELTS(_array)))) \ return (MSG_ORIG(_array[tag - _start_tag])); /* * Generic dynamic tags: * - Note hole between DT_FLAGS and DT_PREINIT_ARRAY * - The first range has alternative names for dump, * requiring a second array. */ static const Msg tags_null[] = { MSG_DYN_NULL, MSG_DYN_NEEDED, MSG_DYN_PLTRELSZ, MSG_DYN_PLTGOT, MSG_DYN_HASH, MSG_DYN_STRTAB, MSG_DYN_SYMTAB, MSG_DYN_RELA, MSG_DYN_RELASZ, MSG_DYN_RELAENT, MSG_DYN_STRSZ, MSG_DYN_SYMENT, MSG_DYN_INIT, MSG_DYN_FINI, MSG_DYN_SONAME, MSG_DYN_RPATH, MSG_DYN_SYMBOLIC, MSG_DYN_REL, MSG_DYN_RELSZ, MSG_DYN_RELENT, MSG_DYN_PLTREL, MSG_DYN_DEBUG, MSG_DYN_TEXTREL, MSG_DYN_JMPREL, MSG_DYN_BIND_NOW, MSG_DYN_INIT_ARRAY, MSG_DYN_FINI_ARRAY, MSG_DYN_INIT_ARRAYSZ, MSG_DYN_FINI_ARRAYSZ, MSG_DYN_RUNPATH, MSG_DYN_FLAGS }; static const Msg tags_null_alt[] = { MSG_DYN_NULL, MSG_DYN_NEEDED, MSG_DYN_PLTRELSZ_ALT, MSG_DYN_PLTGOT, MSG_DYN_HASH, MSG_DYN_STRTAB, MSG_DYN_SYMTAB, MSG_DYN_RELA, MSG_DYN_RELASZ, MSG_DYN_RELAENT, MSG_DYN_STRSZ, MSG_DYN_SYMENT, MSG_DYN_INIT, MSG_DYN_FINI, MSG_DYN_SONAME, MSG_DYN_RPATH, MSG_DYN_SYMBOLIC_ALT, MSG_DYN_REL, MSG_DYN_RELSZ, MSG_DYN_RELENT, MSG_DYN_PLTREL, MSG_DYN_DEBUG, MSG_DYN_TEXTREL, MSG_DYN_JMPREL, MSG_DYN_BIND_NOW, MSG_DYN_INIT_ARRAY, MSG_DYN_FINI_ARRAY, MSG_DYN_INIT_ARRAYSZ, MSG_DYN_FINI_ARRAYSZ, MSG_DYN_RUNPATH, MSG_DYN_FLAGS }; static const Msg tags_preinit_array[] = { MSG_DYN_PREINIT_ARRAY, MSG_DYN_PREINIT_ARRAYSZ }; /* * SUNW: DT_LOOS -> DT_HIOS range. Note hole between DT_SUNW_TLSSORTSZ * and DT_SUNW_STRPAD. We handle DT_SUNW_STRPAD as a single value below. */ static const Msg tags_sunw_auxiliary[] = { MSG_DYN_SUNW_AUXILIARY, MSG_DYN_SUNW_RTLDINF, MSG_DYN_SUNW_FILTER, MSG_DYN_SUNW_CAP, MSG_DYN_SUNW_SYMTAB, MSG_DYN_SUNW_SYMSZ, MSG_DYN_SUNW_SORTENT, MSG_DYN_SUNW_SYMSORT, MSG_DYN_SUNW_SYMSORTSZ, MSG_DYN_SUNW_TLSSORT, MSG_DYN_SUNW_TLSSORTSZ }; /* * SUNW: DT_VALRNGLO - DT_VALRNGHI range. */ static const Msg tags_checksum[] = { MSG_DYN_CHECKSUM, MSG_DYN_PLTPADSZ, MSG_DYN_MOVEENT, MSG_DYN_MOVESZ, MSG_DYN_FEATURE_1, MSG_DYN_POSFLAG_1, MSG_DYN_SYMINSZ, MSG_DYN_SYMINENT }; /* * SUNW: DT_ADDRRNGLO - DT_ADDRRNGHI range. */ static const Msg tags_config[] = { MSG_DYN_CONFIG, MSG_DYN_DEPAUDIT, MSG_DYN_AUDIT, MSG_DYN_PLTPAD, MSG_DYN_MOVETAB, MSG_DYN_SYMINFO }; /* * SUNW: generic range. Note hole between DT_VERSYM and DT_RELACOUNT. * We handle DT_VERSYM as a single value below. */ static const Msg tags_relacount[] = { MSG_DYN_RELACOUNT, MSG_DYN_RELCOUNT, MSG_DYN_FLAGS_1, MSG_DYN_VERDEF, MSG_DYN_VERDEFNUM, MSG_DYN_VERNEED, MSG_DYN_VERNEEDNUM }; /* * DT_LOPROC - DT_HIPROC range. */ static const Msg tags_auxiliary[] = { MSG_DYN_AUXILIARY, MSG_DYN_USED, MSG_DYN_FILTER }; if (tag <= DT_FLAGS) return (conv_map2str(string, sizeof (string), tag, fmt_flags, ARRAY_NELTS(tags_null), tags_null, tags_null_alt, NULL)); DYN_RANGE(DT_PREINIT_ARRAY, tags_preinit_array); DYN_RANGE(DT_SUNW_AUXILIARY, tags_sunw_auxiliary); if (tag == DT_SUNW_STRPAD) return (MSG_ORIG(MSG_DYN_SUNW_STRPAD)); DYN_RANGE(DT_CHECKSUM, tags_checksum); DYN_RANGE(DT_CONFIG, tags_config); if (tag == DT_VERSYM) return (MSG_ORIG(MSG_DYN_VERSYM)); DYN_RANGE(DT_RELACOUNT, tags_relacount); DYN_RANGE(DT_AUXILIARY, tags_auxiliary); /* * SUNW: machine specific range. */ if (((mach == EM_SPARC) || (mach == EM_SPARCV9) || (mach == EM_SPARC32PLUS)) && (tag == DT_SPARC_REGISTER)) /* this is so x86 can display a sparc binary */ return (MSG_ORIG(MSG_DYN_REGISTER)); if (tag == DT_DEPRECATED_SPARC_REGISTER) return (MSG_ORIG(MSG_DYN_REGISTER)); /* Unknown item */ return (conv_invalid_val(string, CONV_INV_STRSIZE, tag, fmt_flags)); #undef DYN_RANGE } #define BINDTSZ CONV_EXPN_FIELD_DEF_PREFIX_SIZE + \ MSG_BND_NEEDED_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_BND_REFER_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_BND_FILTER_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ CONV_INV_STRSIZE + CONV_EXPN_FIELD_DEF_SUFFIX_SIZE const char * conv_bnd_type(uint_t flags) { static char string[BINDTSZ]; static Val_desc vda[] = { { BND_NEEDED, MSG_ORIG(MSG_BND_NEEDED) }, { BND_REFER, MSG_ORIG(MSG_BND_REFER) }, { BND_FILTER, MSG_ORIG(MSG_BND_FILTER) }, { 0, 0 } }; static CONV_EXPN_FIELD_ARG conv_arg = { string, sizeof (string), vda }; if (flags == 0) return (MSG_ORIG(MSG_STR_EMPTY)); conv_arg.oflags = conv_arg.rflags = flags; (void) conv_expn_field(&conv_arg); return ((const char *)string); } /* * Note, conv_bnd_obj() is called with either: * LML_FLG_OBJADDED (possibly with LML_FLG_OBJREEVAL added), or * LML_FLG_OBJDELETED, or * LML_FLG_ATEXIT. */ #define BINDOSZ CONV_EXPN_FIELD_DEF_PREFIX_SIZE + \ MSG_BND_ADDED_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_BND_REEVAL_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ CONV_INV_STRSIZE + CONV_EXPN_FIELD_DEF_SUFFIX_SIZE const char * conv_bnd_obj(uint_t flags) { static char string[BINDOSZ]; static Val_desc vda[] = { { LML_FLG_OBJADDED, MSG_ORIG(MSG_BND_ADDED) }, { LML_FLG_OBJREEVAL, MSG_ORIG(MSG_BND_REEVAL) }, { LML_FLG_OBJDELETED, MSG_ORIG(MSG_BND_DELETED) }, { LML_FLG_ATEXIT, MSG_ORIG(MSG_BND_ATEXIT) }, { 0, 0 } }; static CONV_EXPN_FIELD_ARG conv_arg = { string, sizeof (string), vda }; if ((flags & (LML_FLG_OBJADDED | LML_FLG_OBJREEVAL | LML_FLG_OBJDELETED | LML_FLG_ATEXIT)) == 0) return (MSG_ORIG(MSG_BND_REVISIT)); /* * Note, we're not worried about unknown flags for this family, only * the selected flags are of interest, so we leave conv_arg.rflags * set to 0. */ conv_arg.oflags = flags; (void) conv_expn_field(&conv_arg); return ((const char *)string); }