dist/libdwarf/libdwarf_rw.c

1.2.8.2  tls /*	$NetBSD: libdwarf_rw.c,v 1.2.8.2 2014/08/19 23:46:45 tls Exp $	*/
1.2.8.2  tls
1.2.8.2  tls /*-
1.2.8.2  tls  * Copyright (c) 2007 John Birrell (jb (at) freebsd.org)
1.2.8.2  tls  * Copyright (c) 2010 Kai Wang
1.2.8.2  tls  * All rights reserved.
1.2.8.2  tls  *
1.2.8.2  tls  * Redistribution and use in source and binary forms, with or without
1.2.8.2  tls  * modification, are permitted provided that the following conditions
1.2.8.2  tls  * are met:
1.2.8.2  tls  * 1. Redistributions of source code must retain the above copyright
1.2.8.2  tls  *    notice, this list of conditions and the following disclaimer.
1.2.8.2  tls  * 2. Redistributions in binary form must reproduce the above copyright
1.2.8.2  tls  *    notice, this list of conditions and the following disclaimer in the
1.2.8.2  tls  *    documentation and/or other materials provided with the distribution.
1.2.8.2  tls  *
1.2.8.2  tls  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
1.2.8.2  tls  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
1.2.8.2  tls  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
1.2.8.2  tls  * ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
1.2.8.2  tls  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
1.2.8.2  tls  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
1.2.8.2  tls  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
1.2.8.2  tls  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
1.2.8.2  tls  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
1.2.8.2  tls  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
1.2.8.2  tls  * SUCH DAMAGE.
1.2.8.2  tls  */
1.2.8.2  tls
1.2.8.2  tls #include "_libdwarf.h"
1.2.8.2  tls
1.2.8.2  tls __RCSID("$NetBSD: libdwarf_rw.c,v 1.2.8.2 2014/08/19 23:46:45 tls Exp $");
1.2.8.2  tls ELFTC_VCSID("Id: libdwarf_rw.c 2952 2013-06-26 19:09:40Z kaiwang27 ");
1.2.8.2  tls
1.2.8.2  tls uint64_t
1.2.8.2  tls _dwarf_read_lsb(uint8_t *data, uint64_t *offsetp, int bytes_to_read)
1.2.8.2  tls {
1.2.8.2  tls 	uint64_t ret;
1.2.8.2  tls 	uint8_t *src;
1.2.8.2  tls
1.2.8.2  tls 	src = data + *offsetp;
1.2.8.2  tls
1.2.8.2  tls 	ret = 0;
1.2.8.2  tls 	switch (bytes_to_read) {
1.2.8.2  tls 	case 8:
1.2.8.2  tls 		ret |= ((uint64_t) src[4]) << 32 | ((uint64_t) src[5]) << 40;
1.2.8.2  tls 		ret |= ((uint64_t) src[6]) << 48 | ((uint64_t) src[7]) << 56;
1.2.8.2  tls 	case 4:
1.2.8.2  tls 		ret |= ((uint64_t) src[2]) << 16 | ((uint64_t) src[3]) << 24;
1.2.8.2  tls 	case 2:
1.2.8.2  tls 		ret |= ((uint64_t) src[1]) << 8;
1.2.8.2  tls 	case 1:
1.2.8.2  tls 		ret |= src[0];
1.2.8.2  tls 		break;
1.2.8.2  tls 	default:
1.2.8.2  tls 		return (0);
1.2.8.2  tls 	}
1.2.8.2  tls
1.2.8.2  tls 	*offsetp += bytes_to_read;
1.2.8.2  tls
1.2.8.2  tls 	return (ret);
1.2.8.2  tls }
1.2.8.2  tls
1.2.8.2  tls uint64_t
1.2.8.2  tls _dwarf_decode_lsb(uint8_t **data, int bytes_to_read)
1.2.8.2  tls {
1.2.8.2  tls 	uint64_t ret;
1.2.8.2  tls 	uint8_t *src;
1.2.8.2  tls
1.2.8.2  tls 	src = *data;
1.2.8.2  tls
1.2.8.2  tls 	ret = 0;
1.2.8.2  tls 	switch (bytes_to_read) {
1.2.8.2  tls 	case 8:
1.2.8.2  tls 		ret |= ((uint64_t) src[4]) << 32 | ((uint64_t) src[5]) << 40;
1.2.8.2  tls 		ret |= ((uint64_t) src[6]) << 48 | ((uint64_t) src[7]) << 56;
1.2.8.2  tls 	case 4:
1.2.8.2  tls 		ret |= ((uint64_t) src[2]) << 16 | ((uint64_t) src[3]) << 24;
1.2.8.2  tls 	case 2:
1.2.8.2  tls 		ret |= ((uint64_t) src[1]) << 8;
1.2.8.2  tls 	case 1:
1.2.8.2  tls 		ret |= src[0];
1.2.8.2  tls 		break;
1.2.8.2  tls 	default:
1.2.8.2  tls 		return (0);
1.2.8.2  tls 	}
1.2.8.2  tls
1.2.8.2  tls 	*data += bytes_to_read;
1.2.8.2  tls
1.2.8.2  tls 	return (ret);
1.2.8.2  tls }
1.2.8.2  tls
1.2.8.2  tls uint64_t
1.2.8.2  tls _dwarf_read_msb(uint8_t *data, uint64_t *offsetp, int bytes_to_read)
1.2.8.2  tls {
1.2.8.2  tls 	uint64_t ret;
1.2.8.2  tls 	uint8_t *src;
1.2.8.2  tls
1.2.8.2  tls 	src = data + *offsetp;
1.2.8.2  tls
1.2.8.2  tls 	switch (bytes_to_read) {
1.2.8.2  tls 	case 1:
1.2.8.2  tls 		ret = src[0];
1.2.8.2  tls 		break;
1.2.8.2  tls 	case 2:
1.2.8.2  tls 		ret = src[1] | ((uint64_t) src[0]) << 8;
1.2.8.2  tls 		break;
1.2.8.2  tls 	case 4:
1.2.8.2  tls 		ret = src[3] | ((uint64_t) src[2]) << 8;
1.2.8.2  tls 		ret |= ((uint64_t) src[1]) << 16 | ((uint64_t) src[0]) << 24;
1.2.8.2  tls 		break;
1.2.8.2  tls 	case 8:
1.2.8.2  tls 		ret = src[7] | ((uint64_t) src[6]) << 8;
1.2.8.2  tls 		ret |= ((uint64_t) src[5]) << 16 | ((uint64_t) src[4]) << 24;
1.2.8.2  tls 		ret |= ((uint64_t) src[3]) << 32 | ((uint64_t) src[2]) << 40;
1.2.8.2  tls 		ret |= ((uint64_t) src[1]) << 48 | ((uint64_t) src[0]) << 56;
1.2.8.2  tls 		break;
1.2.8.2  tls 	default:
1.2.8.2  tls 		return (0);
1.2.8.2  tls 	}
1.2.8.2  tls
1.2.8.2  tls 	*offsetp += bytes_to_read;
1.2.8.2  tls
1.2.8.2  tls 	return (ret);
1.2.8.2  tls }
1.2.8.2  tls
1.2.8.2  tls uint64_t
1.2.8.2  tls _dwarf_decode_msb(uint8_t **data, int bytes_to_read)
1.2.8.2  tls {
1.2.8.2  tls 	uint64_t ret;
1.2.8.2  tls 	uint8_t *src;
1.2.8.2  tls
1.2.8.2  tls 	src = *data;
1.2.8.2  tls
1.2.8.2  tls 	ret = 0;
1.2.8.2  tls 	switch (bytes_to_read) {
1.2.8.2  tls 	case 1:
1.2.8.2  tls 		ret = src[0];
1.2.8.2  tls 		break;
1.2.8.2  tls 	case 2:
1.2.8.2  tls 		ret = src[1] | ((uint64_t) src[0]) << 8;
1.2.8.2  tls 		break;
1.2.8.2  tls 	case 4:
1.2.8.2  tls 		ret = src[3] | ((uint64_t) src[2]) << 8;
1.2.8.2  tls 		ret |= ((uint64_t) src[1]) << 16 | ((uint64_t) src[0]) << 24;
1.2.8.2  tls 		break;
1.2.8.2  tls 	case 8:
1.2.8.2  tls 		ret = src[7] | ((uint64_t) src[6]) << 8;
1.2.8.2  tls 		ret |= ((uint64_t) src[5]) << 16 | ((uint64_t) src[4]) << 24;
1.2.8.2  tls 		ret |= ((uint64_t) src[3]) << 32 | ((uint64_t) src[2]) << 40;
1.2.8.2  tls 		ret |= ((uint64_t) src[1]) << 48 | ((uint64_t) src[0]) << 56;
1.2.8.2  tls 		break;
1.2.8.2  tls 	default:
1.2.8.2  tls 		return (0);
1.2.8.2  tls 		break;
1.2.8.2  tls 	}
1.2.8.2  tls
1.2.8.2  tls 	*data += bytes_to_read;
1.2.8.2  tls
1.2.8.2  tls 	return (ret);
1.2.8.2  tls }
1.2.8.2  tls
1.2.8.2  tls void
1.2.8.2  tls _dwarf_write_lsb(uint8_t *data, uint64_t *offsetp, uint64_t value,
1.2.8.2  tls     int bytes_to_write)
1.2.8.2  tls {
1.2.8.2  tls 	uint8_t *dst;
1.2.8.2  tls
1.2.8.2  tls 	dst = data + *offsetp;
1.2.8.2  tls
1.2.8.2  tls 	switch (bytes_to_write) {
1.2.8.2  tls 	case 8:
1.2.8.2  tls 		dst[7] = (value >> 56) & 0xff;
1.2.8.2  tls 		dst[6] = (value >> 48) & 0xff;
1.2.8.2  tls 		dst[5] = (value >> 40) & 0xff;
1.2.8.2  tls 		dst[4] = (value >> 32) & 0xff;
1.2.8.2  tls 	case 4:
1.2.8.2  tls 		dst[3] = (value >> 24) & 0xff;
1.2.8.2  tls 		dst[2] = (value >> 16) & 0xff;
1.2.8.2  tls 	case 2:
1.2.8.2  tls 		dst[1] = (value >> 8) & 0xff;
1.2.8.2  tls 	case 1:
1.2.8.2  tls 		dst[0] = value & 0xff;
1.2.8.2  tls 		break;
1.2.8.2  tls 	default:
1.2.8.2  tls 		return;
1.2.8.2  tls 	}
1.2.8.2  tls
1.2.8.2  tls 	*offsetp += bytes_to_write;
1.2.8.2  tls }
1.2.8.2  tls
1.2.8.2  tls int
1.2.8.2  tls _dwarf_write_lsb_alloc(uint8_t **block, uint64_t *size, uint64_t *offsetp,
1.2.8.2  tls     uint64_t value, int bytes_to_write, Dwarf_Error *error)
1.2.8.2  tls {
1.2.8.2  tls
1.2.8.2  tls 	assert(*size > 0);
1.2.8.2  tls
1.2.8.2  tls 	while (*offsetp + bytes_to_write > *size) {
1.2.8.2  tls 		*size *= 2;
1.2.8.2  tls 		*block = realloc(*block, (size_t) *size);
1.2.8.2  tls 		if (*block == NULL) {
1.2.8.2  tls 			DWARF_SET_ERROR(NULL, error, DW_DLE_MEMORY);
1.2.8.2  tls 			return (DW_DLE_MEMORY);
1.2.8.2  tls 		}
1.2.8.2  tls 	}
1.2.8.2  tls
1.2.8.2  tls 	_dwarf_write_lsb(*block, offsetp, value, bytes_to_write);
1.2.8.2  tls
1.2.8.2  tls 	return (DW_DLE_NONE);
1.2.8.2  tls }
1.2.8.2  tls
1.2.8.2  tls void
1.2.8.2  tls _dwarf_write_msb(uint8_t *data, uint64_t *offsetp, uint64_t value,
1.2.8.2  tls     int bytes_to_write)
1.2.8.2  tls {
1.2.8.2  tls 	uint8_t *dst;
1.2.8.2  tls
1.2.8.2  tls 	dst = data + *offsetp;
1.2.8.2  tls
1.2.8.2  tls 	switch (bytes_to_write) {
1.2.8.2  tls 	case 8:
1.2.8.2  tls 		dst[7] = value & 0xff;
1.2.8.2  tls 		dst[6] = (value >> 8) & 0xff;
1.2.8.2  tls 		dst[5] = (value >> 16) & 0xff;
1.2.8.2  tls 		dst[4] = (value >> 24) & 0xff;
1.2.8.2  tls 		value >>= 32;
1.2.8.2  tls 	case 4:
1.2.8.2  tls 		dst[3] = value & 0xff;
1.2.8.2  tls 		dst[2] = (value >> 8) & 0xff;
1.2.8.2  tls 		value >>= 16;
1.2.8.2  tls 	case 2:
1.2.8.2  tls 		dst[1] = value & 0xff;
1.2.8.2  tls 		value >>= 8;
1.2.8.2  tls 	case 1:
1.2.8.2  tls 		dst[0] = value & 0xff;
1.2.8.2  tls 		break;
1.2.8.2  tls 	default:
1.2.8.2  tls 		return;
1.2.8.2  tls 	}
1.2.8.2  tls
1.2.8.2  tls 	*offsetp += bytes_to_write;
1.2.8.2  tls }
1.2.8.2  tls
1.2.8.2  tls int
1.2.8.2  tls _dwarf_write_msb_alloc(uint8_t **block, uint64_t *size, uint64_t *offsetp,
1.2.8.2  tls     uint64_t value, int bytes_to_write, Dwarf_Error *error)
1.2.8.2  tls {
1.2.8.2  tls
1.2.8.2  tls 	assert(*size > 0);
1.2.8.2  tls
1.2.8.2  tls 	while (*offsetp + bytes_to_write > *size) {
1.2.8.2  tls 		*size *= 2;
1.2.8.2  tls 		*block = realloc(*block, (size_t) *size);
1.2.8.2  tls 		if (*block == NULL) {
1.2.8.2  tls 			DWARF_SET_ERROR(NULL, error, DW_DLE_MEMORY);
1.2.8.2  tls 			return (DW_DLE_MEMORY);
1.2.8.2  tls 		}
1.2.8.2  tls 	}
1.2.8.2  tls
1.2.8.2  tls 	_dwarf_write_msb(*block, offsetp, value, bytes_to_write);
1.2.8.2  tls
1.2.8.2  tls 	return (DW_DLE_NONE);
1.2.8.2  tls }
1.2.8.2  tls
1.2.8.2  tls int64_t
1.2.8.2  tls _dwarf_read_sleb128(uint8_t *data, uint64_t *offsetp)
1.2.8.2  tls {
1.2.8.2  tls 	int64_t ret = 0;
1.2.8.2  tls 	uint8_t b;
1.2.8.2  tls 	int shift = 0;
1.2.8.2  tls 	uint8_t *src;
1.2.8.2  tls
1.2.8.2  tls 	src = data + *offsetp;
1.2.8.2  tls
1.2.8.2  tls 	do {
1.2.8.2  tls 		b = *src++;
1.2.8.2  tls 		ret |= ((b & 0x7f) << shift);
1.2.8.2  tls 		(*offsetp)++;
1.2.8.2  tls 		shift += 7;
1.2.8.2  tls 	} while ((b & 0x80) != 0);
1.2.8.2  tls
1.2.8.2  tls 	if (shift < 64 && (b & 0x40) != 0)
1.2.8.2  tls 		ret |= (-1 << shift);
1.2.8.2  tls
1.2.8.2  tls 	return (ret);
1.2.8.2  tls }
1.2.8.2  tls
1.2.8.2  tls int
1.2.8.2  tls _dwarf_write_sleb128(uint8_t *data, uint8_t *end, int64_t val)
1.2.8.2  tls {
1.2.8.2  tls 	uint8_t *p;
1.2.8.2  tls
1.2.8.2  tls 	p = data;
1.2.8.2  tls
1.2.8.2  tls 	for (;;) {
1.2.8.2  tls 		if (p >= end)
1.2.8.2  tls 			return (-1);
1.2.8.2  tls 		*p = val & 0x7f;
1.2.8.2  tls 		val >>= 7;
1.2.8.2  tls 		if ((val == 0 && (*p & 0x40) == 0) ||
1.2.8.2  tls 		    (val == -1 && (*p & 0x40) != 0)) {
1.2.8.2  tls 			p++;
1.2.8.2  tls 			break;
1.2.8.2  tls 		}
1.2.8.2  tls 		*p++ |= 0x80;
1.2.8.2  tls 	}
1.2.8.2  tls
1.2.8.2  tls 	return (p - data);
1.2.8.2  tls }
1.2.8.2  tls
1.2.8.2  tls int
1.2.8.2  tls _dwarf_write_sleb128_alloc(uint8_t **block, uint64_t *size, uint64_t *offsetp,
1.2.8.2  tls     int64_t val, Dwarf_Error *error)
1.2.8.2  tls {
1.2.8.2  tls 	int len;
1.2.8.2  tls
1.2.8.2  tls 	assert(*size > 0);
1.2.8.2  tls
1.2.8.2  tls 	while ((len = _dwarf_write_sleb128(*block + *offsetp, *block + *size,
1.2.8.2  tls 	    val)) < 0) {
1.2.8.2  tls 		*size *= 2;
1.2.8.2  tls 		*block = realloc(*block, (size_t) *size);
1.2.8.2  tls 		if (*block == NULL) {
1.2.8.2  tls 			DWARF_SET_ERROR(NULL, error, DW_DLE_MEMORY);
1.2.8.2  tls 			return (DW_DLE_MEMORY);
1.2.8.2  tls 		}
1.2.8.2  tls 	}
1.2.8.2  tls
1.2.8.2  tls 	*offsetp += len;
1.2.8.2  tls
1.2.8.2  tls 	return (DW_DLE_NONE);
1.2.8.2  tls }
1.2.8.2  tls
1.2.8.2  tls uint64_t
1.2.8.2  tls _dwarf_read_uleb128(uint8_t *data, uint64_t *offsetp)
1.2.8.2  tls {
1.2.8.2  tls 	uint64_t ret = 0;
1.2.8.2  tls 	uint8_t b;
1.2.8.2  tls 	int shift = 0;
1.2.8.2  tls 	uint8_t *src;
1.2.8.2  tls
1.2.8.2  tls 	src = data + *offsetp;
1.2.8.2  tls
1.2.8.2  tls 	do {
1.2.8.2  tls 		b = *src++;
1.2.8.2  tls 		ret |= ((b & 0x7f) << shift);
1.2.8.2  tls 		(*offsetp)++;
1.2.8.2  tls 		shift += 7;
1.2.8.2  tls 	} while ((b & 0x80) != 0);
1.2.8.2  tls
1.2.8.2  tls 	return (ret);
1.2.8.2  tls }
1.2.8.2  tls
1.2.8.2  tls int
1.2.8.2  tls _dwarf_write_uleb128(uint8_t *data, uint8_t *end, uint64_t val)
1.2.8.2  tls {
1.2.8.2  tls 	uint8_t *p;
1.2.8.2  tls
1.2.8.2  tls 	p = data;
1.2.8.2  tls
1.2.8.2  tls 	do {
1.2.8.2  tls 		if (p >= end)
1.2.8.2  tls 			return (-1);
1.2.8.2  tls 		*p = val & 0x7f;
1.2.8.2  tls 		val >>= 7;
1.2.8.2  tls 		if (val > 0)
1.2.8.2  tls 			*p |= 0x80;
1.2.8.2  tls 		p++;
1.2.8.2  tls 	} while (val > 0);
1.2.8.2  tls
1.2.8.2  tls 	return (p - data);
1.2.8.2  tls }
1.2.8.2  tls
1.2.8.2  tls int
1.2.8.2  tls _dwarf_write_uleb128_alloc(uint8_t **block, uint64_t *size, uint64_t *offsetp,
1.2.8.2  tls     uint64_t val, Dwarf_Error *error)
1.2.8.2  tls {
1.2.8.2  tls 	int len;
1.2.8.2  tls
1.2.8.2  tls 	assert(*size > 0);
1.2.8.2  tls
1.2.8.2  tls 	while ((len = _dwarf_write_uleb128(*block + *offsetp, *block + *size,
1.2.8.2  tls 	    val)) < 0) {
1.2.8.2  tls 		*size *= 2;
1.2.8.2  tls 		*block = realloc(*block, (size_t) *size);
1.2.8.2  tls 		if (*block == NULL) {
1.2.8.2  tls 			DWARF_SET_ERROR(NULL, error, DW_DLE_MEMORY);
1.2.8.2  tls 			return (DW_DLE_MEMORY);
1.2.8.2  tls 		}
1.2.8.2  tls 	}
1.2.8.2  tls
1.2.8.2  tls 	*offsetp += len;
1.2.8.2  tls
1.2.8.2  tls 	return (DW_DLE_NONE);
1.2.8.2  tls }
1.2.8.2  tls
1.2.8.2  tls int64_t
1.2.8.2  tls _dwarf_decode_sleb128(uint8_t **dp)
1.2.8.2  tls {
1.2.8.2  tls 	int64_t ret = 0;
1.2.8.2  tls 	uint8_t b;
1.2.8.2  tls 	int shift = 0;
1.2.8.2  tls
1.2.8.2  tls 	uint8_t *src = *dp;
1.2.8.2  tls
1.2.8.2  tls 	do {
1.2.8.2  tls 		b = *src++;
1.2.8.2  tls 		ret |= ((b & 0x7f) << shift);
1.2.8.2  tls 		shift += 7;
1.2.8.2  tls 	} while ((b & 0x80) != 0);
1.2.8.2  tls
1.2.8.2  tls 	if (shift < 64 && (b & 0x40) != 0)
1.2.8.2  tls 		ret |= (-1 << shift);
1.2.8.2  tls
1.2.8.2  tls 	*dp = src;
1.2.8.2  tls
1.2.8.2  tls 	return (ret);
1.2.8.2  tls }
1.2.8.2  tls
1.2.8.2  tls uint64_t
1.2.8.2  tls _dwarf_decode_uleb128(uint8_t **dp)
1.2.8.2  tls {
1.2.8.2  tls 	uint64_t ret = 0;
1.2.8.2  tls 	uint8_t b;
1.2.8.2  tls 	int shift = 0;
1.2.8.2  tls
1.2.8.2  tls 	uint8_t *src = *dp;
1.2.8.2  tls
1.2.8.2  tls 	do {
1.2.8.2  tls 		b = *src++;
1.2.8.2  tls 		ret |= ((b & 0x7f) << shift);
1.2.8.2  tls 		shift += 7;
1.2.8.2  tls 	} while ((b & 0x80) != 0);
1.2.8.2  tls
1.2.8.2  tls 	*dp = src;
1.2.8.2  tls
1.2.8.2  tls 	return (ret);
1.2.8.2  tls }
1.2.8.2  tls
1.2.8.2  tls char *
1.2.8.2  tls _dwarf_read_string(void *data, Dwarf_Unsigned size, uint64_t *offsetp)
1.2.8.2  tls {
1.2.8.2  tls 	char *ret, *src;
1.2.8.2  tls
1.2.8.2  tls 	ret = src = (char *) data + *offsetp;
1.2.8.2  tls
1.2.8.2  tls 	while (*src != '\0' && *offsetp < size) {
1.2.8.2  tls 		src++;
1.2.8.2  tls 		(*offsetp)++;
1.2.8.2  tls 	}
1.2.8.2  tls
1.2.8.2  tls 	if (*src == '\0' && *offsetp < size)
1.2.8.2  tls 		(*offsetp)++;
1.2.8.2  tls
1.2.8.2  tls 	return (ret);
1.2.8.2  tls }
1.2.8.2  tls
1.2.8.2  tls void
1.2.8.2  tls _dwarf_write_string(void *data, uint64_t *offsetp, char *string)
1.2.8.2  tls {
1.2.8.2  tls 	char *dst;
1.2.8.2  tls
1.2.8.2  tls 	dst = (char *) data + *offsetp;
1.2.8.2  tls 	strcpy(dst, string);
1.2.8.2  tls 	(*offsetp) += strlen(string) + 1;
1.2.8.2  tls }
1.2.8.2  tls
1.2.8.2  tls int
1.2.8.2  tls _dwarf_write_string_alloc(uint8_t **block, uint64_t *size, uint64_t *offsetp,
1.2.8.2  tls     char *string, Dwarf_Error *error)
1.2.8.2  tls {
1.2.8.2  tls 	size_t len;
1.2.8.2  tls
1.2.8.2  tls 	assert(*size > 0);
1.2.8.2  tls
1.2.8.2  tls 	len = strlen(string) + 1;
1.2.8.2  tls 	while (*offsetp + len > *size) {
1.2.8.2  tls 		*size *= 2;
1.2.8.2  tls 		*block = realloc(*block, (size_t) *size);
1.2.8.2  tls 		if (*block == NULL) {
1.2.8.2  tls 			DWARF_SET_ERROR(NULL, error, DW_DLE_MEMORY);
1.2.8.2  tls 			return (DW_DLE_MEMORY);
1.2.8.2  tls 		}
1.2.8.2  tls 	}
1.2.8.2  tls
1.2.8.2  tls 	_dwarf_write_string(*block, offsetp, string);
1.2.8.2  tls
1.2.8.2  tls 	return (DW_DLE_NONE);
1.2.8.2  tls }
1.2.8.2  tls
1.2.8.2  tls uint8_t *
1.2.8.2  tls _dwarf_read_block(void *data, uint64_t *offsetp, uint64_t length)
1.2.8.2  tls {
1.2.8.2  tls 	uint8_t *ret, *src;
1.2.8.2  tls
1.2.8.2  tls 	ret = src = (uint8_t *) data + *offsetp;
1.2.8.2  tls
1.2.8.2  tls 	(*offsetp) += length;
1.2.8.2  tls
1.2.8.2  tls 	return (ret);
1.2.8.2  tls }
1.2.8.2  tls
1.2.8.2  tls void
1.2.8.2  tls _dwarf_write_block(void *data, uint64_t *offsetp, uint8_t *blk,
1.2.8.2  tls     uint64_t length)
1.2.8.2  tls {
1.2.8.2  tls 	uint8_t *dst;
1.2.8.2  tls
1.2.8.2  tls 	dst = (uint8_t *) data + *offsetp;
1.2.8.2  tls 	memcpy(dst, blk, length);
1.2.8.2  tls 	(*offsetp) += length;
1.2.8.2  tls }
1.2.8.2  tls
1.2.8.2  tls int
1.2.8.2  tls _dwarf_write_block_alloc(uint8_t **block, uint64_t *size, uint64_t *offsetp,
1.2.8.2  tls     uint8_t *blk, uint64_t length, Dwarf_Error *error)
1.2.8.2  tls {
1.2.8.2  tls
1.2.8.2  tls 	assert(*size > 0);
1.2.8.2  tls
1.2.8.2  tls 	while (*offsetp + length > *size) {
1.2.8.2  tls 		*size *= 2;
1.2.8.2  tls 		*block = realloc(*block, (size_t) *size);
1.2.8.2  tls 		if (*block == NULL) {
1.2.8.2  tls 			DWARF_SET_ERROR(NULL, error, DW_DLE_MEMORY);
1.2.8.2  tls 			return (DW_DLE_MEMORY);
1.2.8.2  tls 		}
1.2.8.2  tls 	}
1.2.8.2  tls
1.2.8.2  tls 	_dwarf_write_block(*block, offsetp, blk, length);
1.2.8.2  tls
1.2.8.2  tls 	return (DW_DLE_NONE);
1.2.8.2  tls }
1.2.8.2  tls
1.2.8.2  tls void
1.2.8.2  tls _dwarf_write_padding(void *data, uint64_t *offsetp, uint8_t byte,
1.2.8.2  tls     uint64_t length)
1.2.8.2  tls {
1.2.8.2  tls 	uint8_t *dst;
1.2.8.2  tls
1.2.8.2  tls 	dst = (uint8_t *) data + *offsetp;
1.2.8.2  tls 	memset(dst, byte, length);
1.2.8.2  tls 	(*offsetp) += length;
1.2.8.2  tls }
1.2.8.2  tls
1.2.8.2  tls int
1.2.8.2  tls _dwarf_write_padding_alloc(uint8_t **block, uint64_t *size, uint64_t *offsetp,
1.2.8.2  tls     uint8_t byte, uint64_t cnt, Dwarf_Error *error)
1.2.8.2  tls {
1.2.8.2  tls 	assert(*size > 0);
1.2.8.2  tls
1.2.8.2  tls 	while (*offsetp + cnt > *size) {
1.2.8.2  tls 		*size *= 2;
1.2.8.2  tls 		*block = realloc(*block, (size_t) *size);
1.2.8.2  tls 		if (*block == NULL) {
1.2.8.2  tls 			DWARF_SET_ERROR(NULL, error, DW_DLE_MEMORY);
1.2.8.2  tls 			return (DW_DLE_MEMORY);
1.2.8.2  tls 		}
1.2.8.2  tls 	}
1.2.8.2  tls
1.2.8.2  tls 	_dwarf_write_padding(*block, offsetp, byte, cnt);
1.2.8.2  tls
1.2.8.2  tls 	return (DW_DLE_NONE);
1.2.8.2  tls }