usr/src/common/elfcap/elfcap.c - illumos-gate - Gitiles

 /*
  * 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 (c) 2004, 2010, Oracle and/or its affiliates. All rights reserved.
  * Copyright (c) 2017, Joyent, Inc.
  */

 /* LINTLIBRARY */

 /*
  * String conversion routine for hardware capabilities types.
  */
 #include	<strings.h>
 #include	<stdio.h>
 #include	<ctype.h>
 #include	<sys/machelf.h>
 #include	<sys/elf.h>
 #include	<sys/auxv_SPARC.h>
 #include	<sys/auxv_386.h>
 #include	<elfcap.h>

 /*
  * Given a literal string, generate an initialization for an
  * elfcap_str_t value.
  */
 #define	STRDESC(_str) { _str, sizeof (_str) - 1 }

 /*
  * The items in the elfcap_desc_t arrays are required to be
  * ordered so that the array index is related to the
  * c_val field as:
  *
  *	array[ndx].c_val = 2^ndx
  *
  * meaning that
  *
  *	array[0].c_val = 2^0 = 1
  *	array[1].c_val = 2^1 = 2
  *	array[2].c_val = 2^2 = 4
  *	.
  *	.
  *	.
  *
  * Since 0 is not a valid value for the c_val field, we use it to
  * mark an array entry that is a placeholder. This can happen if there
  * is a hole in the assigned bits.
  *
  * The RESERVED_ELFCAP_DESC macro is used to reserve such holes.
  */
 #define	RESERVED_ELFCAP_DESC { 0, { NULL, 0 }, { NULL, 0 }, { NULL, 0 } }

 /*
  * Define separators for output string processing. This must be kept in
  * sync with the elfcap_fmt_t values in elfcap.h.
  */
 static const elfcap_str_t format[] = {
 	STRDESC(" "),			/* ELFCAP_FMT_SNGSPACE */
 	STRDESC("  "),			/* ELFCAP_FMT_DBLSPACE */
 	STRDESC(" | ")			/* ELFCAP_FMT_PIPSPACE */
 };
 #define	FORMAT_NELTS	(sizeof (format) / sizeof (format[0]))


 /*
  * Define all known software capabilities in all the supported styles.
  * Order the capabilities by their numeric value. See SF1_SUNW_
  * values in sys/elf.h.
  */
 static const elfcap_desc_t sf1[ELFCAP_NUM_SF1] = {
 	{						/* 0x00000001 */
 		SF1_SUNW_FPKNWN, STRDESC("SF1_SUNW_FPKNWN"),
 		STRDESC("FPKNWN"), STRDESC("fpknwn")
 	},
 	{						/* 0x00000002 */
 		SF1_SUNW_FPUSED, STRDESC("SF1_SUNW_FPUSED"),
 		STRDESC("FPUSED"), STRDESC("fpused"),
 	},
 	{						/* 0x00000004 */
 		SF1_SUNW_ADDR32, STRDESC("SF1_SUNW_ADDR32"),
 		STRDESC("ADDR32"), STRDESC("addr32"),
 	}
 };


 /*
  * Order the SPARC hardware capabilities to match their numeric value.  See
  * AV_SPARC_ values in sys/auxv_SPARC.h.
  */
 static const elfcap_desc_t hw1_sparc[ELFCAP_NUM_HW1_SPARC] = {
 	{						/* 0x00000001 */
 		AV_SPARC_MUL32, STRDESC("AV_SPARC_MUL32"),
 		STRDESC("MUL32"), STRDESC("mul32"),
 	},
 	{						/* 0x00000002 */
 		AV_SPARC_DIV32, STRDESC("AV_SPARC_DIV32"),
 		STRDESC("DIV32"), STRDESC("div32"),
 	},
 	{						/* 0x00000004 */
 		AV_SPARC_FSMULD, STRDESC("AV_SPARC_FSMULD"),
 		STRDESC("FSMULD"), STRDESC("fsmuld"),
 	},
 	{						/* 0x00000008 */
 		AV_SPARC_V8PLUS, STRDESC("AV_SPARC_V8PLUS"),
 		STRDESC("V8PLUS"), STRDESC("v8plus"),
 	},
 	{						/* 0x00000010 */
 		AV_SPARC_POPC, STRDESC("AV_SPARC_POPC"),
 		STRDESC("POPC"), STRDESC("popc"),
 	},
 	{						/* 0x00000020 */
 		AV_SPARC_VIS, STRDESC("AV_SPARC_VIS"),
 		STRDESC("VIS"), STRDESC("vis"),
 	},
 	{						/* 0x00000040 */
 		AV_SPARC_VIS2, STRDESC("AV_SPARC_VIS2"),
 		STRDESC("VIS2"), STRDESC("vis2"),
 	},
 	{						/* 0x00000080 */
 		AV_SPARC_ASI_BLK_INIT, STRDESC("AV_SPARC_ASI_BLK_INIT"),
 		STRDESC("ASI_BLK_INIT"), STRDESC("asi_blk_init"),
 	},
 	{						/* 0x00000100 */
 		AV_SPARC_FMAF, STRDESC("AV_SPARC_FMAF"),
 		STRDESC("FMAF"), STRDESC("fmaf"),
 	},
 	RESERVED_ELFCAP_DESC,				/* 0x00000200 */
 	{						/* 0x00000400 */
 		AV_SPARC_VIS3, STRDESC("AV_SPARC_VIS3"),
 		STRDESC("VIS3"), STRDESC("vis3"),
 	},
 	{						/* 0x00000800 */
 		AV_SPARC_HPC, STRDESC("AV_SPARC_HPC"),
 		STRDESC("HPC"), STRDESC("hpc"),
 	},
 	{						/* 0x00001000 */
 		AV_SPARC_RANDOM, STRDESC("AV_SPARC_RANDOM"),
 		STRDESC("RANDOM"), STRDESC("random"),
 	},
 	{						/* 0x00002000 */
 		AV_SPARC_TRANS, STRDESC("AV_SPARC_TRANS"),
 		STRDESC("TRANS"), STRDESC("trans"),
 	},
 	{						/* 0x00004000 */
 		AV_SPARC_FJFMAU, STRDESC("AV_SPARC_FJFMAU"),
 		STRDESC("FJFMAU"), STRDESC("fjfmau"),
 	},
 	{						/* 0x00008000 */
 		AV_SPARC_IMA, STRDESC("AV_SPARC_IMA"),
 		STRDESC("IMA"), STRDESC("ima"),
 	},
 	{						/* 0x00010000 */
 		AV_SPARC_ASI_CACHE_SPARING,
 		STRDESC("AV_SPARC_ASI_CACHE_SPARING"),
 		STRDESC("CSPARE"), STRDESC("cspare"),
 	}
 };


 /*
  * Order the Intel hardware capabilities to match their numeric value.  See
  * AV_386_ values in sys/auxv_386.h.
  */
 static const elfcap_desc_t hw1_386[ELFCAP_NUM_HW1_386] = {
 	{						/* 0x00000001 */
 		AV_386_FPU, STRDESC("AV_386_FPU"),
 		STRDESC("FPU"), STRDESC("fpu"),
 	},
 	{						/* 0x00000002 */
 		AV_386_TSC, STRDESC("AV_386_TSC"),
 		STRDESC("TSC"), STRDESC("tsc"),
 	},
 	{						/* 0x00000004 */
 		AV_386_CX8, STRDESC("AV_386_CX8"),
 		STRDESC("CX8"), STRDESC("cx8"),
 	},
 	{						/* 0x00000008 */
 		AV_386_SEP, STRDESC("AV_386_SEP"),
 		STRDESC("SEP"), STRDESC("sep"),
 	},
 	{						/* 0x00000010 */
 		AV_386_AMD_SYSC, STRDESC("AV_386_AMD_SYSC"),
 		STRDESC("AMD_SYSC"), STRDESC("amd_sysc"),
 	},
 	{						/* 0x00000020 */
 		AV_386_CMOV, STRDESC("AV_386_CMOV"),
 		STRDESC("CMOV"), STRDESC("cmov"),
 	},
 	{						/* 0x00000040 */
 		AV_386_MMX, STRDESC("AV_386_MMX"),
 		STRDESC("MMX"), STRDESC("mmx"),
 	},
 	{						/* 0x00000080 */
 		AV_386_AMD_MMX, STRDESC("AV_386_AMD_MMX"),
 		STRDESC("AMD_MMX"), STRDESC("amd_mmx"),
 	},
 	{						/* 0x00000100 */
 		AV_386_AMD_3DNow, STRDESC("AV_386_AMD_3DNow"),
 		STRDESC("AMD_3DNow"), STRDESC("amd_3dnow"),
 	},
 	{						/* 0x00000200 */
 		AV_386_AMD_3DNowx, STRDESC("AV_386_AMD_3DNowx"),
 		STRDESC("AMD_3DNowx"), STRDESC("amd_3dnowx"),
 	},
 	{						/* 0x00000400 */
 		AV_386_FXSR, STRDESC("AV_386_FXSR"),
 		STRDESC("FXSR"), STRDESC("fxsr"),
 	},
 	{						/* 0x00000800 */
 		AV_386_SSE, STRDESC("AV_386_SSE"),
 		STRDESC("SSE"), STRDESC("sse"),
 	},
 	{						/* 0x00001000 */
 		AV_386_SSE2, STRDESC("AV_386_SSE2"),
 		STRDESC("SSE2"), STRDESC("sse2"),
 	},
 	/* 0x02000 withdrawn - do not assign */
 	{						/* 0x00004000 */
 		AV_386_SSE3, STRDESC("AV_386_SSE3"),
 		STRDESC("SSE3"), STRDESC("sse3"),
 	},
 	/* 0x08000 withdrawn - do not assign */
 	{						/* 0x00010000 */
 		AV_386_CX16, STRDESC("AV_386_CX16"),
 		STRDESC("CX16"), STRDESC("cx16"),
 	},
 	{						/* 0x00020000 */
 		AV_386_AHF, STRDESC("AV_386_AHF"),
 		STRDESC("AHF"), STRDESC("ahf"),
 	},
 	{						/* 0x00040000 */
 		AV_386_TSCP, STRDESC("AV_386_TSCP"),
 		STRDESC("TSCP"), STRDESC("tscp"),
 	},
 	{						/* 0x00080000 */
 		AV_386_AMD_SSE4A, STRDESC("AV_386_AMD_SSE4A"),
 		STRDESC("AMD_SSE4A"), STRDESC("amd_sse4a"),
 	},
 	{						/* 0x00100000 */
 		AV_386_POPCNT, STRDESC("AV_386_POPCNT"),
 		STRDESC("POPCNT"), STRDESC("popcnt"),
 	},
 	{						/* 0x00200000 */
 		AV_386_AMD_LZCNT, STRDESC("AV_386_AMD_LZCNT"),
 		STRDESC("AMD_LZCNT"), STRDESC("amd_lzcnt"),
 	},
 	{						/* 0x00400000 */
 		AV_386_SSSE3, STRDESC("AV_386_SSSE3"),
 		STRDESC("SSSE3"), STRDESC("ssse3"),
 	},
 	{						/* 0x00800000 */
 		AV_386_SSE4_1, STRDESC("AV_386_SSE4_1"),
 		STRDESC("SSE4.1"), STRDESC("sse4.1"),
 	},
 	{						/* 0x01000000 */
 		AV_386_SSE4_2, STRDESC("AV_386_SSE4_2"),
 		STRDESC("SSE4.2"), STRDESC("sse4.2"),
 	},
 	{						/* 0x02000000 */
 		AV_386_MOVBE, STRDESC("AV_386_MOVBE"),
 		STRDESC("MOVBE"), STRDESC("movbe"),
 	},
 	{						/* 0x04000000 */
 		AV_386_AES, STRDESC("AV_386_AES"),
 		STRDESC("AES"), STRDESC("aes"),
 	},
 	{						/* 0x08000000 */
 		AV_386_PCLMULQDQ, STRDESC("AV_386_PCLMULQDQ"),
 		STRDESC("PCLMULQDQ"), STRDESC("pclmulqdq"),
 	},
 	{						/* 0x10000000 */
 		AV_386_XSAVE, STRDESC("AV_386_XSAVE"),
 		STRDESC("XSAVE"), STRDESC("xsave"),
 	},
 	{						/* 0x20000000 */
 		AV_386_AVX, STRDESC("AV_386_AVX"),
 		STRDESC("AVX"), STRDESC("avx"),
 	},
 	{						/* 0x40000000 */
 		AV_386_VMX, STRDESC("AV_386_VMX"),
 		STRDESC("VMX"), STRDESC("vmx"),
 	},
 	{						/* 0x80000000 */
 		AV_386_AMD_SVM, STRDESC("AV_386_AMD_SVM"),
 		STRDESC("AMD_SVM"), STRDESC("amd_svm"),
 	}
 };

 static const elfcap_desc_t hw2_386[ELFCAP_NUM_HW2_386] = {
 	{						/* 0x00000001 */
 		AV_386_2_F16C, STRDESC("AV_386_2_F16C"),
 		STRDESC("F16C"), STRDESC("f16c"),
 	},
 	{						/* 0x00000002 */
 		AV_386_2_RDRAND, STRDESC("AV_386_2_RDRAND"),
 		STRDESC("RDRAND"), STRDESC("rdrand"),
 	},
 	{						/* 0x00000004 */
 		AV_386_2_BMI1, STRDESC("AV_386_2_BMI1"),
 		STRDESC("BMI1"), STRDESC("bmi1"),
 	},
 	{						/* 0x00000008 */
 		AV_386_2_BMI2, STRDESC("AV_386_2_BMI2"),
 		STRDESC("BMI2"), STRDESC("bmi2"),
 	},
 	{						/* 0x00000010 */
 		AV_386_2_FMA, STRDESC("AV_386_2_FMA"),
 		STRDESC("FMA"), STRDESC("fma"),
 	},
 	{						/* 0x00000020 */
 		AV_386_2_AVX2, STRDESC("AV_386_2_AVX2"),
 		STRDESC("AVX2"), STRDESC("avx2"),
 	},
 	{						/* 0x00000040 */
 		AV_386_2_ADX, STRDESC("AV_386_2_ADX"),
 		STRDESC("ADX"), STRDESC("adx"),
 	},
 	{						/* 0x00000080 */
 		AV_386_2_RDSEED, STRDESC("AV_386_2_RDSEED"),
 		STRDESC("RDSEED"), STRDESC("rdseed"),
 	},
 	{						/* 0x00000100 */
 		AV_386_2_AVX512F, STRDESC("AV_386_2_AVX512F"),
 		STRDESC("AVX512F"), STRDESC("avx512f"),
 	},
 	{						/* 0x00000200 */
 		AV_386_2_AVX512DQ, STRDESC("AV_386_2_AVX512DQ"),
 		STRDESC("AVX512DQ"), STRDESC("avx512dq"),
 	},
 	{						/* 0x00000400 */
 		AV_386_2_AVX512IFMA, STRDESC("AV_386_2_AVX512IFMA"),
 		STRDESC("AVX512IFMA"), STRDESC("avx512ifma"),
 	},
 	{						/* 0x00000800 */
 		AV_386_2_AVX512PF, STRDESC("AV_386_2_AVX512PF"),
 		STRDESC("AVX512PF"), STRDESC("avx512pf"),
 	},
 	{						/* 0x00001000 */
 		AV_386_2_AVX512ER, STRDESC("AV_386_2_AVX512ER"),
 		STRDESC("AVX512ER"), STRDESC("avx512er"),
 	},
 	{						/* 0x00002000 */
 		AV_386_2_AVX512CD, STRDESC("AV_386_2_AVX512CD"),
 		STRDESC("AVX512CD"), STRDESC("avx512cd"),
 	},
 	{						/* 0x00004000 */
 		AV_386_2_AVX512BW, STRDESC("AV_386_2_AVX512BW"),
 		STRDESC("AVX512BW"), STRDESC("avx512bw"),
 	},
 	{						/* 0x00008000 */
 		AV_386_2_AVX512VL, STRDESC("AV_386_2_AVX512VL"),
 		STRDESC("AVX512VL"), STRDESC("avx512vl"),
 	},
 	{						/* 0x00010000 */
 		AV_386_2_AVX512VBMI, STRDESC("AV_386_2_AVX512VBMI"),
 		STRDESC("AVX512VBMI"), STRDESC("avx512vbmi"),
 	},
 	{						/* 0x00020000 */
 		AV_386_2_AVX512VPOPCDQ, STRDESC("AV_386_2_AVX512VPOPCDQ"),
 		STRDESC("AVX512VPOPCDQ"), STRDESC("avx512_vpopcntdq"),
 	},
 	{						/* 0x00040000 */
 		AV_386_2_AVX512_4NNIW, STRDESC("AV_386_2_AVX512_4NNIW"),
 		STRDESC("AVX512_4NNIW"), STRDESC("avx512_4nniw"),
 	},
 	{						/* 0x00080000 */
 		AV_386_2_AVX512_4FMAPS, STRDESC("AV_386_2_AVX512_4FMAPS"),
 		STRDESC("AVX512_4FMAPS"), STRDESC("avx512_4fmaps"),
 	},
 	{						/* 0x00100000 */
 		AV_386_2_SHA, STRDESC("AV_386_2_SHA"),
 		STRDESC("SHA"), STRDESC("sha"),
 	}
 };

 /*
  * Concatenate a token to the string buffer.  This can be a capabilities token
  * or a separator token.
  */
 static elfcap_err_t
 token(char **ostr, size_t *olen, const elfcap_str_t *nstr)
 {
 	if (*olen < nstr->s_len)
 		return (ELFCAP_ERR_BUFOVFL);

 	(void) strcat(*ostr, nstr->s_str);
 	*ostr += nstr->s_len;
 	*olen -= nstr->s_len;

 	return (ELFCAP_ERR_NONE);
 }

 static elfcap_err_t
 get_str_desc(elfcap_style_t style, const elfcap_desc_t *cdp,
     const elfcap_str_t **ret_str)
 {
 	switch (ELFCAP_STYLE_MASK(style)) {
 	case ELFCAP_STYLE_FULL:
 		*ret_str = &cdp->c_full;
 		break;
 	case ELFCAP_STYLE_UC:
 		*ret_str = &cdp->c_uc;
 		break;
 	case ELFCAP_STYLE_LC:
 		*ret_str = &cdp->c_lc;
 		break;
 	default:
 		return (ELFCAP_ERR_INVSTYLE);
 	}

 	return (ELFCAP_ERR_NONE);
 }


 /*
  * Expand a capabilities value into the strings defined in the associated
  * capabilities descriptor.
  */
 static elfcap_err_t
 expand(elfcap_style_t style, elfcap_mask_t val, const elfcap_desc_t *cdp,
     uint_t cnum, char *str, size_t slen, elfcap_fmt_t fmt)
 {
 	uint_t			cnt;
 	int			follow = 0, err;
 	const elfcap_str_t	*nstr;

 	if (val == 0)
 		return (ELFCAP_ERR_NONE);

 	for (cnt = cnum; cnt > 0; cnt--) {
 		uint_t mask = cdp[cnt - 1].c_val;

 		if ((val & mask) != 0) {
 			if (follow++ && ((err = token(&str, &slen,
 			    &format[fmt])) != ELFCAP_ERR_NONE))
 				return (err);

 			err = get_str_desc(style, &cdp[cnt - 1], &nstr);
 			if (err != ELFCAP_ERR_NONE)
 				return (err);
 			if ((err = token(&str, &slen, nstr)) != ELFCAP_ERR_NONE)
 				return (err);

 			val = val & ~mask;
 		}
 	}

 	/*
 	 * If there are any unknown bits remaining display the numeric value.
 	 */
 	if (val) {
 		if (follow && ((err = token(&str, &slen, &format[fmt])) !=
 		    ELFCAP_ERR_NONE))
 			return (err);

 		(void) snprintf(str, slen, "0x%x", val);
 	}
 	return (ELFCAP_ERR_NONE);
 }

 /*
  * Expand a CA_SUNW_HW_1 value.
  */
 elfcap_err_t
 elfcap_hw1_to_str(elfcap_style_t style, elfcap_mask_t val, char *str,
     size_t len, elfcap_fmt_t fmt, ushort_t mach)
 {
 	/*
 	 * Initialize the string buffer, and validate the format request.
 	 */
 	*str = '\0';
 	if ((fmt < 0) || (fmt >= FORMAT_NELTS))
 		return (ELFCAP_ERR_INVFMT);

 	if ((mach == EM_386) || (mach == EM_IA_64) || (mach == EM_AMD64))
 		return (expand(style, val, &hw1_386[0], ELFCAP_NUM_HW1_386,
 		    str, len, fmt));

 	if ((mach == EM_SPARC) || (mach == EM_SPARC32PLUS) ||
 	    (mach == EM_SPARCV9))
 		return (expand(style, val, hw1_sparc, ELFCAP_NUM_HW1_SPARC,
 		    str, len, fmt));

 	return (ELFCAP_ERR_UNKMACH);
 }

 /*
  * Expand a CA_SUNW_HW_2 value.
  */
 elfcap_err_t
 elfcap_hw2_to_str(elfcap_style_t style, elfcap_mask_t val, char *str,
     size_t len, elfcap_fmt_t fmt, ushort_t mach)
 {
 	/*
 	 * Initialize the string buffer, and validate the format request.
 	 */
 	*str = '\0';
 	if ((fmt < 0) || (fmt >= FORMAT_NELTS))
 		return (ELFCAP_ERR_INVFMT);

 	if ((mach == EM_386) || (mach == EM_IA_64) || (mach == EM_AMD64))
 		return (expand(style, val, &hw2_386[0], ELFCAP_NUM_HW2_386,
 		    str, len, fmt));

 	return (expand(style, val, NULL, 0, str, len, fmt));
 }

 /*
  * Expand a CA_SUNW_SF_1 value.  Note, that at present these capabilities are
  * common across all platforms.  The use of "mach" is therefore redundant, but
  * is retained for compatibility with the interface of elfcap_hw1_to_str(), and
  * possible future expansion.
  */
 elfcap_err_t
 /* ARGSUSED4 */
 elfcap_sf1_to_str(elfcap_style_t style, elfcap_mask_t val, char *str,
     size_t len, elfcap_fmt_t fmt, ushort_t mach)
 {
 	/*
 	 * Initialize the string buffer, and validate the format request.
 	 */
 	*str = '\0';
 	if ((fmt < 0) || (fmt >= FORMAT_NELTS))
 		return (ELFCAP_ERR_INVFMT);

 	return (expand(style, val, &sf1[0], ELFCAP_NUM_SF1, str, len, fmt));
 }

 /*
  * Given a capability tag type and value, map it to a string representation.
  */
 elfcap_err_t
 elfcap_tag_to_str(elfcap_style_t style, uint64_t tag, elfcap_mask_t val,
     char *str, size_t len, elfcap_fmt_t fmt, ushort_t mach)
 {
 	switch (tag) {
 	case CA_SUNW_HW_1:
 		return (elfcap_hw1_to_str(style, val, str, len, fmt, mach));

 	case CA_SUNW_SF_1:
 		return (elfcap_sf1_to_str(style, val, str, len, fmt, mach));

 	case CA_SUNW_HW_2:
 		return (elfcap_hw2_to_str(style, val, str, len, fmt, mach));

 	}

 	return (ELFCAP_ERR_UNKTAG);
 }

 /*
  * Determine a capabilities value from a capabilities string.
  */
 static elfcap_mask_t
 value(elfcap_style_t style, const char *str, const elfcap_desc_t *cdp,
     uint_t cnum)
 {
 	const elfcap_str_t	*nstr;
 	uint_t	num;
 	int	err;

 	for (num = 0; num < cnum; num++) {
 		/*
 		 * Skip "reserved" bits. These are unassigned bits in the
 		 * middle of the assigned range.
 		 */
 		if (cdp[num].c_val == 0)
 			continue;

 		if ((err = get_str_desc(style, &cdp[num], &nstr)) != 0)
 			return (err);
 		if (style & ELFCAP_STYLE_F_ICMP) {
 			if (strcasecmp(str, nstr->s_str) == 0)
 				return (cdp[num].c_val);
 		} else {
 			if (strcmp(str, nstr->s_str) == 0)
 				return (cdp[num].c_val);
 		}
 	}

 	return (0);
 }

 elfcap_mask_t
 elfcap_sf1_from_str(elfcap_style_t style, const char *str, ushort_t mach)
 {
 	return (value(style, str, &sf1[0], ELFCAP_NUM_SF1));
 }

 elfcap_mask_t
 elfcap_hw1_from_str(elfcap_style_t style, const char *str, ushort_t mach)
 {
 	if ((mach == EM_386) || (mach == EM_IA_64) || (mach == EM_AMD64))
 		return (value(style, str, &hw1_386[0], ELFCAP_NUM_HW1_386));

 	if ((mach == EM_SPARC) || (mach == EM_SPARC32PLUS) ||
 	    (mach == EM_SPARCV9))
 		return (value(style, str, hw1_sparc, ELFCAP_NUM_HW1_SPARC));

 	return (0);
 }
 elfcap_mask_t
 elfcap_hw2_from_str(elfcap_style_t style, const char *str, ushort_t mach)
 {
 	if ((mach == EM_386) || (mach == EM_IA_64) || (mach == EM_AMD64))
 		return (value(style, str, &hw2_386[0], ELFCAP_NUM_HW2_386));

 	return (0);
 }

 /*
  * Given a capability tag type and value, return the capabilities values
  * contained in the string.
  */
 elfcap_mask_t
 elfcap_tag_from_str(elfcap_style_t style, uint64_t tag, const char *str,
     ushort_t mach)
 {
 	switch (tag) {
 	case CA_SUNW_HW_1:
 		return (elfcap_hw1_from_str(style, str, mach));

 	case CA_SUNW_SF_1:
 		return (elfcap_sf1_from_str(style, str, mach));

 	case CA_SUNW_HW_2:
 		return (elfcap_hw2_from_str(style, str, mach));
 	}

 	return (0);
 }

 /*
  * These functions allow the caller to get direct access to the
  * cap descriptors.
  */
 const elfcap_desc_t *
 elfcap_getdesc_hw1_sparc(void)
 {
 	return (hw1_sparc);
 }

 const elfcap_desc_t *
 elfcap_getdesc_hw1_386(void)
 {
 	return (hw1_386);
 }

 const elfcap_desc_t *
 elfcap_getdesc_sf1(void)
 {
 	return (sf1);
 }
	/*
	* 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 (c) 2004, 2010, Oracle and/or its affiliates. All rights reserved.
	* Copyright (c) 2017, Joyent, Inc.
	*/

	/* LINTLIBRARY */

	/*
	* String conversion routine for hardware capabilities types.
	*/
	#include <strings.h>
	#include <stdio.h>
	#include <ctype.h>
	#include <sys/machelf.h>
	#include <sys/elf.h>
	#include <sys/auxv_SPARC.h>
	#include <sys/auxv_386.h>
	#include <elfcap.h>

	/*
	* Given a literal string, generate an initialization for an
	* elfcap_str_t value.
	*/
	#define STRDESC(_str) { _str, sizeof (_str) - 1 }

	/*
	* The items in the elfcap_desc_t arrays are required to be
	* ordered so that the array index is related to the
	* c_val field as:
	*
	* array[ndx].c_val = 2^ndx
	*
	* meaning that
	*
	* array[0].c_val = 2^0 = 1
	* array[1].c_val = 2^1 = 2
	* array[2].c_val = 2^2 = 4
	* .
	* .
	* .
	*
	* Since 0 is not a valid value for the c_val field, we use it to
	* mark an array entry that is a placeholder. This can happen if there
	* is a hole in the assigned bits.
	*
	* The RESERVED_ELFCAP_DESC macro is used to reserve such holes.
	*/
	#define RESERVED_ELFCAP_DESC { 0, { NULL, 0 }, { NULL, 0 }, { NULL, 0 } }

	/*
	* Define separators for output string processing. This must be kept in
	* sync with the elfcap_fmt_t values in elfcap.h.
	*/
	static const elfcap_str_t format[] = {
	STRDESC(" "), /* ELFCAP_FMT_SNGSPACE */
	STRDESC(" "), /* ELFCAP_FMT_DBLSPACE */
	STRDESC(" \| ") /* ELFCAP_FMT_PIPSPACE */
	};
	#define FORMAT_NELTS (sizeof (format) / sizeof (format[0]))



	/*
	* Define all known software capabilities in all the supported styles.
	* Order the capabilities by their numeric value. See SF1_SUNW_
	* values in sys/elf.h.
	*/
	static const elfcap_desc_t sf1[ELFCAP_NUM_SF1] = {
	{ /* 0x00000001 */
	SF1_SUNW_FPKNWN, STRDESC("SF1_SUNW_FPKNWN"),
	STRDESC("FPKNWN"), STRDESC("fpknwn")
	},
	{ /* 0x00000002 */
	SF1_SUNW_FPUSED, STRDESC("SF1_SUNW_FPUSED"),
	STRDESC("FPUSED"), STRDESC("fpused"),
	},
	{ /* 0x00000004 */
	SF1_SUNW_ADDR32, STRDESC("SF1_SUNW_ADDR32"),
	STRDESC("ADDR32"), STRDESC("addr32"),
	}
	};



	/*
	* Order the SPARC hardware capabilities to match their numeric value. See
	* AV_SPARC_ values in sys/auxv_SPARC.h.
	*/
	static const elfcap_desc_t hw1_sparc[ELFCAP_NUM_HW1_SPARC] = {
	{ /* 0x00000001 */
	AV_SPARC_MUL32, STRDESC("AV_SPARC_MUL32"),
	STRDESC("MUL32"), STRDESC("mul32"),
	},
	{ /* 0x00000002 */
	AV_SPARC_DIV32, STRDESC("AV_SPARC_DIV32"),
	STRDESC("DIV32"), STRDESC("div32"),
	},
	{ /* 0x00000004 */
	AV_SPARC_FSMULD, STRDESC("AV_SPARC_FSMULD"),
	STRDESC("FSMULD"), STRDESC("fsmuld"),
	},
	{ /* 0x00000008 */
	AV_SPARC_V8PLUS, STRDESC("AV_SPARC_V8PLUS"),
	STRDESC("V8PLUS"), STRDESC("v8plus"),
	},
	{ /* 0x00000010 */
	AV_SPARC_POPC, STRDESC("AV_SPARC_POPC"),
	STRDESC("POPC"), STRDESC("popc"),
	},
	{ /* 0x00000020 */
	AV_SPARC_VIS, STRDESC("AV_SPARC_VIS"),
	STRDESC("VIS"), STRDESC("vis"),
	},
	{ /* 0x00000040 */
	AV_SPARC_VIS2, STRDESC("AV_SPARC_VIS2"),
	STRDESC("VIS2"), STRDESC("vis2"),
	},
	{ /* 0x00000080 */
	AV_SPARC_ASI_BLK_INIT, STRDESC("AV_SPARC_ASI_BLK_INIT"),
	STRDESC("ASI_BLK_INIT"), STRDESC("asi_blk_init"),
	},
	{ /* 0x00000100 */
	AV_SPARC_FMAF, STRDESC("AV_SPARC_FMAF"),
	STRDESC("FMAF"), STRDESC("fmaf"),
	},
	RESERVED_ELFCAP_DESC, /* 0x00000200 */
	{ /* 0x00000400 */
	AV_SPARC_VIS3, STRDESC("AV_SPARC_VIS3"),
	STRDESC("VIS3"), STRDESC("vis3"),
	},
	{ /* 0x00000800 */
	AV_SPARC_HPC, STRDESC("AV_SPARC_HPC"),
	STRDESC("HPC"), STRDESC("hpc"),
	},
	{ /* 0x00001000 */
	AV_SPARC_RANDOM, STRDESC("AV_SPARC_RANDOM"),
	STRDESC("RANDOM"), STRDESC("random"),
	},
	{ /* 0x00002000 */
	AV_SPARC_TRANS, STRDESC("AV_SPARC_TRANS"),
	STRDESC("TRANS"), STRDESC("trans"),
	},
	{ /* 0x00004000 */
	AV_SPARC_FJFMAU, STRDESC("AV_SPARC_FJFMAU"),
	STRDESC("FJFMAU"), STRDESC("fjfmau"),
	},
	{ /* 0x00008000 */
	AV_SPARC_IMA, STRDESC("AV_SPARC_IMA"),
	STRDESC("IMA"), STRDESC("ima"),
	},
	{ /* 0x00010000 */
	AV_SPARC_ASI_CACHE_SPARING,
	STRDESC("AV_SPARC_ASI_CACHE_SPARING"),
	STRDESC("CSPARE"), STRDESC("cspare"),
	}
	};



	/*
	* Order the Intel hardware capabilities to match their numeric value. See
	* AV_386_ values in sys/auxv_386.h.
	*/
	static const elfcap_desc_t hw1_386[ELFCAP_NUM_HW1_386] = {
	{ /* 0x00000001 */
	AV_386_FPU, STRDESC("AV_386_FPU"),
	STRDESC("FPU"), STRDESC("fpu"),
	},
	{ /* 0x00000002 */
	AV_386_TSC, STRDESC("AV_386_TSC"),
	STRDESC("TSC"), STRDESC("tsc"),
	},
	{ /* 0x00000004 */
	AV_386_CX8, STRDESC("AV_386_CX8"),
	STRDESC("CX8"), STRDESC("cx8"),
	},
	{ /* 0x00000008 */
	AV_386_SEP, STRDESC("AV_386_SEP"),
	STRDESC("SEP"), STRDESC("sep"),
	},
	{ /* 0x00000010 */
	AV_386_AMD_SYSC, STRDESC("AV_386_AMD_SYSC"),
	STRDESC("AMD_SYSC"), STRDESC("amd_sysc"),
	},
	{ /* 0x00000020 */
	AV_386_CMOV, STRDESC("AV_386_CMOV"),
	STRDESC("CMOV"), STRDESC("cmov"),
	},
	{ /* 0x00000040 */
	AV_386_MMX, STRDESC("AV_386_MMX"),
	STRDESC("MMX"), STRDESC("mmx"),
	},
	{ /* 0x00000080 */
	AV_386_AMD_MMX, STRDESC("AV_386_AMD_MMX"),
	STRDESC("AMD_MMX"), STRDESC("amd_mmx"),
	},
	{ /* 0x00000100 */
	AV_386_AMD_3DNow, STRDESC("AV_386_AMD_3DNow"),
	STRDESC("AMD_3DNow"), STRDESC("amd_3dnow"),
	},
	{ /* 0x00000200 */
	AV_386_AMD_3DNowx, STRDESC("AV_386_AMD_3DNowx"),
	STRDESC("AMD_3DNowx"), STRDESC("amd_3dnowx"),
	},
	{ /* 0x00000400 */
	AV_386_FXSR, STRDESC("AV_386_FXSR"),
	STRDESC("FXSR"), STRDESC("fxsr"),
	},
	{ /* 0x00000800 */
	AV_386_SSE, STRDESC("AV_386_SSE"),
	STRDESC("SSE"), STRDESC("sse"),
	},
	{ /* 0x00001000 */
	AV_386_SSE2, STRDESC("AV_386_SSE2"),
	STRDESC("SSE2"), STRDESC("sse2"),
	},
	/* 0x02000 withdrawn - do not assign */
	{ /* 0x00004000 */
	AV_386_SSE3, STRDESC("AV_386_SSE3"),
	STRDESC("SSE3"), STRDESC("sse3"),
	},
	/* 0x08000 withdrawn - do not assign */
	{ /* 0x00010000 */
	AV_386_CX16, STRDESC("AV_386_CX16"),
	STRDESC("CX16"), STRDESC("cx16"),
	},
	{ /* 0x00020000 */
	AV_386_AHF, STRDESC("AV_386_AHF"),
	STRDESC("AHF"), STRDESC("ahf"),
	},
	{ /* 0x00040000 */
	AV_386_TSCP, STRDESC("AV_386_TSCP"),
	STRDESC("TSCP"), STRDESC("tscp"),
	},
	{ /* 0x00080000 */
	AV_386_AMD_SSE4A, STRDESC("AV_386_AMD_SSE4A"),
	STRDESC("AMD_SSE4A"), STRDESC("amd_sse4a"),
	},
	{ /* 0x00100000 */
	AV_386_POPCNT, STRDESC("AV_386_POPCNT"),
	STRDESC("POPCNT"), STRDESC("popcnt"),
	},
	{ /* 0x00200000 */
	AV_386_AMD_LZCNT, STRDESC("AV_386_AMD_LZCNT"),
	STRDESC("AMD_LZCNT"), STRDESC("amd_lzcnt"),
	},
	{ /* 0x00400000 */
	AV_386_SSSE3, STRDESC("AV_386_SSSE3"),
	STRDESC("SSSE3"), STRDESC("ssse3"),
	},
	{ /* 0x00800000 */
	AV_386_SSE4_1, STRDESC("AV_386_SSE4_1"),
	STRDESC("SSE4.1"), STRDESC("sse4.1"),
	},
	{ /* 0x01000000 */
	AV_386_SSE4_2, STRDESC("AV_386_SSE4_2"),
	STRDESC("SSE4.2"), STRDESC("sse4.2"),
	},
	{ /* 0x02000000 */
	AV_386_MOVBE, STRDESC("AV_386_MOVBE"),
	STRDESC("MOVBE"), STRDESC("movbe"),
	},
	{ /* 0x04000000 */
	AV_386_AES, STRDESC("AV_386_AES"),
	STRDESC("AES"), STRDESC("aes"),
	},
	{ /* 0x08000000 */
	AV_386_PCLMULQDQ, STRDESC("AV_386_PCLMULQDQ"),
	STRDESC("PCLMULQDQ"), STRDESC("pclmulqdq"),
	},
	{ /* 0x10000000 */
	AV_386_XSAVE, STRDESC("AV_386_XSAVE"),
	STRDESC("XSAVE"), STRDESC("xsave"),
	},
	{ /* 0x20000000 */
	AV_386_AVX, STRDESC("AV_386_AVX"),
	STRDESC("AVX"), STRDESC("avx"),
	},
	{ /* 0x40000000 */
	AV_386_VMX, STRDESC("AV_386_VMX"),
	STRDESC("VMX"), STRDESC("vmx"),
	},
	{ /* 0x80000000 */
	AV_386_AMD_SVM, STRDESC("AV_386_AMD_SVM"),
	STRDESC("AMD_SVM"), STRDESC("amd_svm"),
	}
	};

	static const elfcap_desc_t hw2_386[ELFCAP_NUM_HW2_386] = {
	{ /* 0x00000001 */
	AV_386_2_F16C, STRDESC("AV_386_2_F16C"),
	STRDESC("F16C"), STRDESC("f16c"),
	},
	{ /* 0x00000002 */
	AV_386_2_RDRAND, STRDESC("AV_386_2_RDRAND"),
	STRDESC("RDRAND"), STRDESC("rdrand"),
	},
	{ /* 0x00000004 */
	AV_386_2_BMI1, STRDESC("AV_386_2_BMI1"),
	STRDESC("BMI1"), STRDESC("bmi1"),
	},
	{ /* 0x00000008 */
	AV_386_2_BMI2, STRDESC("AV_386_2_BMI2"),
	STRDESC("BMI2"), STRDESC("bmi2"),
	},
	{ /* 0x00000010 */
	AV_386_2_FMA, STRDESC("AV_386_2_FMA"),
	STRDESC("FMA"), STRDESC("fma"),
	},
	{ /* 0x00000020 */
	AV_386_2_AVX2, STRDESC("AV_386_2_AVX2"),
	STRDESC("AVX2"), STRDESC("avx2"),
	},
	{ /* 0x00000040 */
	AV_386_2_ADX, STRDESC("AV_386_2_ADX"),
	STRDESC("ADX"), STRDESC("adx"),
	},
	{ /* 0x00000080 */
	AV_386_2_RDSEED, STRDESC("AV_386_2_RDSEED"),
	STRDESC("RDSEED"), STRDESC("rdseed"),
	},
	{ /* 0x00000100 */
	AV_386_2_AVX512F, STRDESC("AV_386_2_AVX512F"),
	STRDESC("AVX512F"), STRDESC("avx512f"),
	},
	{ /* 0x00000200 */
	AV_386_2_AVX512DQ, STRDESC("AV_386_2_AVX512DQ"),
	STRDESC("AVX512DQ"), STRDESC("avx512dq"),
	},
	{ /* 0x00000400 */
	AV_386_2_AVX512IFMA, STRDESC("AV_386_2_AVX512IFMA"),
	STRDESC("AVX512IFMA"), STRDESC("avx512ifma"),
	},
	{ /* 0x00000800 */
	AV_386_2_AVX512PF, STRDESC("AV_386_2_AVX512PF"),
	STRDESC("AVX512PF"), STRDESC("avx512pf"),
	},
	{ /* 0x00001000 */
	AV_386_2_AVX512ER, STRDESC("AV_386_2_AVX512ER"),
	STRDESC("AVX512ER"), STRDESC("avx512er"),
	},
	{ /* 0x00002000 */
	AV_386_2_AVX512CD, STRDESC("AV_386_2_AVX512CD"),
	STRDESC("AVX512CD"), STRDESC("avx512cd"),
	},
	{ /* 0x00004000 */
	AV_386_2_AVX512BW, STRDESC("AV_386_2_AVX512BW"),
	STRDESC("AVX512BW"), STRDESC("avx512bw"),
	},
	{ /* 0x00008000 */
	AV_386_2_AVX512VL, STRDESC("AV_386_2_AVX512VL"),
	STRDESC("AVX512VL"), STRDESC("avx512vl"),
	},
	{ /* 0x00010000 */
	AV_386_2_AVX512VBMI, STRDESC("AV_386_2_AVX512VBMI"),
	STRDESC("AVX512VBMI"), STRDESC("avx512vbmi"),
	},
	{ /* 0x00020000 */
	AV_386_2_AVX512VPOPCDQ, STRDESC("AV_386_2_AVX512VPOPCDQ"),
	STRDESC("AVX512VPOPCDQ"), STRDESC("avx512_vpopcntdq"),
	},
	{ /* 0x00040000 */
	AV_386_2_AVX512_4NNIW, STRDESC("AV_386_2_AVX512_4NNIW"),
	STRDESC("AVX512_4NNIW"), STRDESC("avx512_4nniw"),
	},
	{ /* 0x00080000 */
	AV_386_2_AVX512_4FMAPS, STRDESC("AV_386_2_AVX512_4FMAPS"),
	STRDESC("AVX512_4FMAPS"), STRDESC("avx512_4fmaps"),
	},
	{ /* 0x00100000 */
	AV_386_2_SHA, STRDESC("AV_386_2_SHA"),
	STRDESC("SHA"), STRDESC("sha"),
	}
	};

	/*
	* Concatenate a token to the string buffer. This can be a capabilities token
	* or a separator token.
	*/
	static elfcap_err_t
	token(char *ostr, size_t olen, const elfcap_str_t *nstr)
	{
	if (*olen < nstr->s_len)
	return (ELFCAP_ERR_BUFOVFL);

	(void) strcat(*ostr, nstr->s_str);
	*ostr += nstr->s_len;
	*olen -= nstr->s_len;

	return (ELFCAP_ERR_NONE);
	}

	static elfcap_err_t
	get_str_desc(elfcap_style_t style, const elfcap_desc_t *cdp,
	const elfcap_str_t **ret_str)
	{
	switch (ELFCAP_STYLE_MASK(style)) {
	case ELFCAP_STYLE_FULL:
	*ret_str = &cdp->c_full;
	break;
	case ELFCAP_STYLE_UC:
	*ret_str = &cdp->c_uc;
	break;
	case ELFCAP_STYLE_LC:
	*ret_str = &cdp->c_lc;
	break;
	default:
	return (ELFCAP_ERR_INVSTYLE);
	}

	return (ELFCAP_ERR_NONE);
	}


	/*
	* Expand a capabilities value into the strings defined in the associated
	* capabilities descriptor.
	*/
	static elfcap_err_t
	expand(elfcap_style_t style, elfcap_mask_t val, const elfcap_desc_t *cdp,
	uint_t cnum, char *str, size_t slen, elfcap_fmt_t fmt)
	{
	uint_t cnt;
	int follow = 0, err;
	const elfcap_str_t *nstr;

	if (val == 0)
	return (ELFCAP_ERR_NONE);

	for (cnt = cnum; cnt > 0; cnt--) {
	uint_t mask = cdp[cnt - 1].c_val;

	if ((val & mask) != 0) {
	if (follow++ && ((err = token(&str, &slen,
	&format[fmt])) != ELFCAP_ERR_NONE))
	return (err);

	err = get_str_desc(style, &cdp[cnt - 1], &nstr);
	if (err != ELFCAP_ERR_NONE)
	return (err);
	if ((err = token(&str, &slen, nstr)) != ELFCAP_ERR_NONE)
	return (err);

	val = val & ~mask;
	}
	}

	/*
	* If there are any unknown bits remaining display the numeric value.
	*/
	if (val) {
	if (follow && ((err = token(&str, &slen, &format[fmt])) !=
	ELFCAP_ERR_NONE))
	return (err);

	(void) snprintf(str, slen, "0x%x", val);
	}
	return (ELFCAP_ERR_NONE);
	}

	/*
	* Expand a CA_SUNW_HW_1 value.
	*/
	elfcap_err_t
	elfcap_hw1_to_str(elfcap_style_t style, elfcap_mask_t val, char *str,
	size_t len, elfcap_fmt_t fmt, ushort_t mach)
	{
	/*
	* Initialize the string buffer, and validate the format request.
	*/
	*str = '\0';
	if ((fmt < 0) \|\| (fmt >= FORMAT_NELTS))
	return (ELFCAP_ERR_INVFMT);

	if ((mach == EM_386) \|\| (mach == EM_IA_64) \|\| (mach == EM_AMD64))
	return (expand(style, val, &hw1_386[0], ELFCAP_NUM_HW1_386,
	str, len, fmt));

	if ((mach == EM_SPARC) \|\| (mach == EM_SPARC32PLUS) \|\|
	(mach == EM_SPARCV9))
	return (expand(style, val, hw1_sparc, ELFCAP_NUM_HW1_SPARC,
	str, len, fmt));

	return (ELFCAP_ERR_UNKMACH);
	}

	/*
	* Expand a CA_SUNW_HW_2 value.
	*/
	elfcap_err_t
	elfcap_hw2_to_str(elfcap_style_t style, elfcap_mask_t val, char *str,
	size_t len, elfcap_fmt_t fmt, ushort_t mach)
	{
	/*
	* Initialize the string buffer, and validate the format request.
	*/
	*str = '\0';
	if ((fmt < 0) \|\| (fmt >= FORMAT_NELTS))
	return (ELFCAP_ERR_INVFMT);

	if ((mach == EM_386) \|\| (mach == EM_IA_64) \|\| (mach == EM_AMD64))
	return (expand(style, val, &hw2_386[0], ELFCAP_NUM_HW2_386,
	str, len, fmt));

	return (expand(style, val, NULL, 0, str, len, fmt));
	}

	/*
	* Expand a CA_SUNW_SF_1 value. Note, that at present these capabilities are
	* common across all platforms. The use of "mach" is therefore redundant, but
	* is retained for compatibility with the interface of elfcap_hw1_to_str(), and
	* possible future expansion.
	*/
	elfcap_err_t
	/* ARGSUSED4 */
	elfcap_sf1_to_str(elfcap_style_t style, elfcap_mask_t val, char *str,
	size_t len, elfcap_fmt_t fmt, ushort_t mach)
	{
	/*
	* Initialize the string buffer, and validate the format request.
	*/
	*str = '\0';
	if ((fmt < 0) \|\| (fmt >= FORMAT_NELTS))
	return (ELFCAP_ERR_INVFMT);

	return (expand(style, val, &sf1[0], ELFCAP_NUM_SF1, str, len, fmt));
	}

	/*
	* Given a capability tag type and value, map it to a string representation.
	*/
	elfcap_err_t
	elfcap_tag_to_str(elfcap_style_t style, uint64_t tag, elfcap_mask_t val,
	char *str, size_t len, elfcap_fmt_t fmt, ushort_t mach)
	{
	switch (tag) {
	case CA_SUNW_HW_1:
	return (elfcap_hw1_to_str(style, val, str, len, fmt, mach));

	case CA_SUNW_SF_1:
	return (elfcap_sf1_to_str(style, val, str, len, fmt, mach));

	case CA_SUNW_HW_2:
	return (elfcap_hw2_to_str(style, val, str, len, fmt, mach));

	}

	return (ELFCAP_ERR_UNKTAG);
	}

	/*
	* Determine a capabilities value from a capabilities string.
	*/
	static elfcap_mask_t
	value(elfcap_style_t style, const char str, const elfcap_desc_t cdp,
	uint_t cnum)
	{
	const elfcap_str_t *nstr;
	uint_t num;
	int err;

	for (num = 0; num < cnum; num++) {
	/*
	* Skip "reserved" bits. These are unassigned bits in the
	* middle of the assigned range.
	*/
	if (cdp[num].c_val == 0)
	continue;

	if ((err = get_str_desc(style, &cdp[num], &nstr)) != 0)
	return (err);
	if (style & ELFCAP_STYLE_F_ICMP) {
	if (strcasecmp(str, nstr->s_str) == 0)
	return (cdp[num].c_val);
	} else {
	if (strcmp(str, nstr->s_str) == 0)
	return (cdp[num].c_val);
	}
	}

	return (0);
	}

	elfcap_mask_t
	elfcap_sf1_from_str(elfcap_style_t style, const char *str, ushort_t mach)
	{
	return (value(style, str, &sf1[0], ELFCAP_NUM_SF1));
	}

	elfcap_mask_t
	elfcap_hw1_from_str(elfcap_style_t style, const char *str, ushort_t mach)
	{
	if ((mach == EM_386) \|\| (mach == EM_IA_64) \|\| (mach == EM_AMD64))
	return (value(style, str, &hw1_386[0], ELFCAP_NUM_HW1_386));

	if ((mach == EM_SPARC) \|\| (mach == EM_SPARC32PLUS) \|\|
	(mach == EM_SPARCV9))
	return (value(style, str, hw1_sparc, ELFCAP_NUM_HW1_SPARC));

	return (0);
	}
	elfcap_mask_t
	elfcap_hw2_from_str(elfcap_style_t style, const char *str, ushort_t mach)
	{
	if ((mach == EM_386) \|\| (mach == EM_IA_64) \|\| (mach == EM_AMD64))
	return (value(style, str, &hw2_386[0], ELFCAP_NUM_HW2_386));

	return (0);
	}

	/*
	* Given a capability tag type and value, return the capabilities values
	* contained in the string.
	*/
	elfcap_mask_t
	elfcap_tag_from_str(elfcap_style_t style, uint64_t tag, const char *str,
	ushort_t mach)
	{
	switch (tag) {
	case CA_SUNW_HW_1:
	return (elfcap_hw1_from_str(style, str, mach));

	case CA_SUNW_SF_1:
	return (elfcap_sf1_from_str(style, str, mach));

	case CA_SUNW_HW_2:
	return (elfcap_hw2_from_str(style, str, mach));
	}

	return (0);
	}

	/*
	* These functions allow the caller to get direct access to the
	* cap descriptors.
	*/
	const elfcap_desc_t *
	elfcap_getdesc_hw1_sparc(void)
	{
	return (hw1_sparc);
	}

	const elfcap_desc_t *
	elfcap_getdesc_hw1_386(void)
	{
	return (hw1_386);
	}

	const elfcap_desc_t *
	elfcap_getdesc_sf1(void)
	{
	return (sf1);
	}