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	/**********************************************************************

	addr2line.c -

	$Author$

	Copyright (C) 2010 Shinichiro Hamaji

	**********************************************************************/

	#if defined(__clang__)
	#pragma clang diagnostic ignored "-Wgnu-empty-initializer"
	#pragma clang diagnostic ignored "-Wgcc-compat"
	#endif

	#include "ruby/internal/config.h"
	#include "ruby/defines.h"
	#include "ruby/missing.h"
	#include "addr2line.h"

	#include <stdio.h>
	#include <errno.h>

	#ifdef HAVE_LIBPROC_H
	#include <libproc.h>
	#endif

	#include "ruby/internal/stdbool.h"

	#if defined(USE_ELF) \|\| defined(HAVE_MACH_O_LOADER_H)

	#include <fcntl.h>
	#include <limits.h>
	#include <stdio.h>
	#include <stdint.h>
	#include <stdlib.h>
	#include <string.h>
	#include <sys/mman.h>
	#include <sys/types.h>
	#include <sys/stat.h>
	#include <unistd.h>

	/* Make alloca work the best possible way. */
	#ifdef __GNUC__
	# ifndef alloca
	# define alloca __builtin_alloca
	# endif
	#else
	# ifdef HAVE_ALLOCA_H
	# include <alloca.h>
	# else
	# ifdef _AIX
	#pragma alloca
	# else
	# ifndef alloca /* predefined by HP cc +Olibcalls */
	void *alloca();
	# endif
	# endif /* AIX */
	# endif /* HAVE_ALLOCA_H */
	#endif /* __GNUC__ */

	#ifdef HAVE_DLADDR
	# include <dlfcn.h>
	#endif

	#ifdef HAVE_MACH_O_LOADER_H
	# include <crt_externs.h>
	# include <mach-o/fat.h>
	# include <mach-o/loader.h>
	# include <mach-o/nlist.h>
	# include <mach-o/stab.h>
	#endif

	#ifdef USE_ELF
	# ifdef __OpenBSD__
	# include <elf_abi.h>
	# else
	# include <elf.h>
	# endif

	#ifndef ElfW
	# if SIZEOF_VOIDP == 8
	# define ElfW(x) Elf64##_##x
	# else
	# define ElfW(x) Elf32##_##x
	# endif
	#endif
	#ifndef ELF_ST_TYPE
	# if SIZEOF_VOIDP == 8
	# define ELF_ST_TYPE ELF64_ST_TYPE
	# else
	# define ELF_ST_TYPE ELF32_ST_TYPE
	# endif
	#endif
	#endif

	#ifdef SHF_COMPRESSED
	# if defined(ELFCOMPRESS_ZLIB) && defined(HAVE_LIBZ)
	/* FreeBSD 11.0 lacks ELFCOMPRESS_ZLIB */
	# include <zlib.h>
	# define SUPPORT_COMPRESSED_DEBUG_LINE
	# endif
	#else /* compatibility with glibc < 2.22 */
	# define SHF_COMPRESSED 0
	#endif

	#ifndef PATH_MAX
	#define PATH_MAX 4096
	#endif

	#define DW_LNS_copy 0x01
	#define DW_LNS_advance_pc 0x02
	#define DW_LNS_advance_line 0x03
	#define DW_LNS_set_file 0x04
	#define DW_LNS_set_column 0x05
	#define DW_LNS_negate_stmt 0x06
	#define DW_LNS_set_basic_block 0x07
	#define DW_LNS_const_add_pc 0x08
	#define DW_LNS_fixed_advance_pc 0x09
	#define DW_LNS_set_prologue_end 0x0a /* DWARF3 */
	#define DW_LNS_set_epilogue_begin 0x0b /* DWARF3 */
	#define DW_LNS_set_isa 0x0c /* DWARF3 */

	/* Line number extended opcode name. */
	#define DW_LNE_end_sequence 0x01
	#define DW_LNE_set_address 0x02
	#define DW_LNE_define_file 0x03
	#define DW_LNE_set_discriminator 0x04 /* DWARF4 */

	PRINTF_ARGS(static int kprintf(const char *fmt, ...), 1, 2);

	typedef struct line_info {
	const char *dirname;
	const char *filename;
	const char path; / object path */
	int line;

	uintptr_t base_addr;
	uintptr_t saddr;
	const char sname; / function name */

	struct line_info *next;
	} line_info_t;

	struct dwarf_section {
	char *ptr;
	size_t size;
	uint64_t flags;
	};

	typedef struct obj_info {
	const char path; / object path */
	char *mapped;
	size_t mapped_size;
	void *uncompressed;
	uintptr_t base_addr;
	uintptr_t vmaddr;
	struct dwarf_section debug_abbrev;
	struct dwarf_section debug_info;
	struct dwarf_section debug_line;
	struct dwarf_section debug_ranges;
	struct dwarf_section debug_rnglists;
	struct dwarf_section debug_str;
	struct obj_info *next;
	} obj_info_t;

	#define DWARF_SECTION_COUNT 6

	static struct dwarf_section *
	obj_dwarf_section_at(obj_info_t *obj, int n)
	{
	struct dwarf_section *ary[] = {
	&obj->debug_abbrev,
	&obj->debug_info,
	&obj->debug_line,
	&obj->debug_ranges,
	&obj->debug_rnglists,
	&obj->debug_str
	};
	if (n < 0 \|\| DWARF_SECTION_COUNT <= n) {
	abort();
	}
	return ary[n];
	}

	struct debug_section_definition {
	const char *name;
	struct dwarf_section *dwarf;
	};

	/* Avoid consuming stack as this module may be used from signal handler */
	static char binary_filename[PATH_MAX + 1];

	static unsigned long
	uleb128(const char **p)
	{
	unsigned long r = 0;
	int s = 0;
	for (;;) {
	unsigned char b = (unsigned char)(p)++;
	if (b < 0x80) {
	r += (unsigned long)b << s;
	break;
	}
	r += (b & 0x7f) << s;
	s += 7;
	}
	return r;
	}

	static long
	sleb128(const char **p)
	{
	long r = 0;
	int s = 0;
	for (;;) {
	unsigned char b = (unsigned char)(p)++;
	if (b < 0x80) {
	if (b & 0x40) {
	r -= (0x80 - b) << s;
	}
	else {
	r += (b & 0x3f) << s;
	}
	break;
	}
	r += (b & 0x7f) << s;
	s += 7;
	}
	return r;
	}

	static const char *
	get_nth_dirname(unsigned long dir, const char *p)
	{
	if (!dir--) {
	return "";
	}
	while (dir--) {
	while (*p) p++;
	p++;
	if (!*p) {
	kprintf("Unexpected directory number %lu in %s\n",
	dir, binary_filename);
	return "";
	}
	}
	return p;
	}

	static void
	fill_filename(int file, const char include_directories, const char filenames, line_info_t line, obj_info_t obj)
	{
	int i;
	const char *p = filenames;
	const char *filename;
	unsigned long dir;
	for (i = 1; i <= file; i++) {
	filename = p;
	if (!*p) {
	/* Need to output binary file name? */
	kprintf("Unexpected file number %d in %s at %tx\n",
	file, binary_filename, filenames - obj->mapped);
	return;
	}
	while (*p) p++;
	p++;
	dir = uleb128(&p);
	/* last modified. */
	uleb128(&p);
	/* size of the file. */
	uleb128(&p);

	if (i == file) {
	line->filename = filename;
	line->dirname = get_nth_dirname(dir, include_directories);
	}
	}
	}

	static void
	fill_line(int num_traces, void **traces, uintptr_t addr, int file, int line,
	const char include_directories, const char filenames,
	obj_info_t obj, line_info_t lines, int offset)
	{
	int i;
	addr += obj->base_addr - obj->vmaddr;
	for (i = offset; i < num_traces; i++) {
	uintptr_t a = (uintptr_t)traces[i];
	/* We assume one line code doesn't result >100 bytes of native code.
	We may want more reliable way eventually... */
	if (addr < a && a < addr + 100) {
	fill_filename(file, include_directories, filenames, &lines[i], obj);
	lines[i].line = line;
	}
	}
	}

	struct LineNumberProgramHeader {
	uint64_t unit_length;
	uint16_t version;
	uint8_t format; /* 4 or 8 */
	uint64_t header_length;
	uint8_t minimum_instruction_length;
	uint8_t maximum_operations_per_instruction;
	uint8_t default_is_stmt;
	int8_t line_base;
	uint8_t line_range;
	uint8_t opcode_base;
	/* uint8_t standard_opcode_lengths[opcode_base-1]; */
	const char *include_directories;
	const char *filenames;
	const char *cu_start;
	const char *cu_end;
	};

	static int
	parse_debug_line_header(const char *pp, struct LineNumberProgramHeader header)
	{
	const char p = pp;
	header->unit_length = (uint32_t )p;
	p += sizeof(uint32_t);

	header->format = 4;
	if (header->unit_length == 0xffffffff) {
	header->unit_length = (uint64_t )p;
	p += sizeof(uint64_t);
	header->format = 8;
	}

	header->cu_end = p + header->unit_length;

	header->version = (uint16_t )p;
	p += sizeof(uint16_t);
	if (header->version > 4) return -1;

	header->header_length = header->format == 4 ? (uint32_t )p : (uint64_t )p;
	p += header->format;
	header->cu_start = p + header->header_length;

	header->minimum_instruction_length = (uint8_t )p++;

	if (header->version >= 4) {
	/* maximum_operations_per_instruction = (uint8_t )p; */
	if (p != 1) return -1; / For non-VLIW architectures, this field is 1 */
	p++;
	}

	header->default_is_stmt = (uint8_t )p++;
	header->line_base = (int8_t )p++;
	header->line_range = (uint8_t )p++;
	header->opcode_base = (uint8_t )p++;
	/* header->standard_opcode_lengths = (uint8_t )p - 1; /
	p += header->opcode_base - 1;

	header->include_directories = p;

	/* temporary measure for compress-debug-sections */
	if (p >= header->cu_end) return -1;

	/* skip include directories */
	while (*p) {
	p = memchr(p, '\0', header->cu_end - p);
	if (!p) return -1;
	p++;
	}
	p++;

	header->filenames = p;

	*pp = header->cu_start;

	return 0;
	}

	static int
	parse_debug_line_cu(int num_traces, void traces, const char debug_line,
	obj_info_t obj, line_info_t lines, int offset)
	{
	const char p = (const char )*debug_line;
	struct LineNumberProgramHeader header;

	/* The registers. */
	unsigned long addr = 0;
	unsigned int file = 1;
	unsigned int line = 1;
	/* unsigned int column = 0; */
	int is_stmt;
	/* int basic_block = 0; */
	/* int end_sequence = 0; */
	/* int prologue_end = 0; */
	/* int epilogue_begin = 0; */
	/* unsigned int isa = 0; */

	if (parse_debug_line_header(&p, &header))
	return -1;
	is_stmt = header.default_is_stmt;

	#define FILL_LINE() \
	do { \
	fill_line(num_traces, traces, addr, file, line, \
	header.include_directories, \
	header.filenames, \
	obj, lines, offset); \
	/basic_block = prologue_end = epilogue_begin = 0;/ \
	} while (0)

	while (p < header.cu_end) {
	unsigned long a;
	unsigned char op = *p++;
	switch (op) {
	case DW_LNS_copy:
	FILL_LINE();
	break;
	case DW_LNS_advance_pc:
	a = uleb128(&p) * header.minimum_instruction_length;
	addr += a;
	break;
	case DW_LNS_advance_line: {
	long a = sleb128(&p);
	line += a;
	break;
	}
	case DW_LNS_set_file:
	file = (unsigned int)uleb128(&p);
	break;
	case DW_LNS_set_column:
	/column = (unsigned int)/(void)uleb128(&p);
	break;
	case DW_LNS_negate_stmt:
	is_stmt = !is_stmt;
	break;
	case DW_LNS_set_basic_block:
	/basic_block = 1; /
	break;
	case DW_LNS_const_add_pc:
	a = ((255UL - header.opcode_base) / header.line_range) *
	header.minimum_instruction_length;
	addr += a;
	break;
	case DW_LNS_fixed_advance_pc:
	a = (uint16_t )p;
	p += sizeof(uint16_t);
	addr += a;
	break;
	case DW_LNS_set_prologue_end:
	/* prologue_end = 1; */
	break;
	case DW_LNS_set_epilogue_begin:
	/* epilogue_begin = 1; */
	break;
	case DW_LNS_set_isa:
	/* isa = (unsigned int)*/(void)uleb128(&p);
	break;
	case 0:
	a = uleb128(&p);
	op = *p++;
	switch (op) {
	case DW_LNE_end_sequence:
	/* end_sequence = 1; */
	FILL_LINE();
	addr = 0;
	file = 1;
	line = 1;
	/* column = 0; */
	is_stmt = header.default_is_stmt;
	/* end_sequence = 0; */
	/* isa = 0; */
	break;
	case DW_LNE_set_address:
	addr = (unsigned long )p;
	p += sizeof(unsigned long);
	break;
	case DW_LNE_define_file:
	kprintf("Unsupported operation in %s\n",
	binary_filename);
	break;
	case DW_LNE_set_discriminator:
	/* TODO:currently ignore */
	uleb128(&p);
	break;
	default:
	kprintf("Unknown extended opcode: %d in %s\n",
	op, binary_filename);
	}
	break;
	default: {
	uint8_t adjusted_opcode = op - header.opcode_base;
	uint8_t operation_advance = adjusted_opcode / header.line_range;
	/* NOTE: this code doesn't support VLIW */
	addr += operation_advance * header.minimum_instruction_length;
	line += header.line_base + (adjusted_opcode % header.line_range);
	FILL_LINE();
	}
	}
	}
	debug_line = (char )p;
	return 0;
	}

	static int
	parse_debug_line(int num_traces, void **traces,
	const char *debug_line, unsigned long size,
	obj_info_t obj, line_info_t lines, int offset)
	{
	const char *debug_line_end = debug_line + size;
	while (debug_line < debug_line_end) {
	if (parse_debug_line_cu(num_traces, traces, &debug_line, obj, lines, offset))
	return -1;
	}
	if (debug_line != debug_line_end) {
	kprintf("Unexpected size of .debug_line in %s\n",
	binary_filename);
	}
	return 0;
	}

	/* read file and fill lines */
	static uintptr_t
	fill_lines(int num_traces, void **traces, int check_debuglink,
	obj_info_t *objp, line_info_t lines, int offset);

	static void
	append_obj(obj_info_t **objp)
	{
	obj_info_t *newobj = calloc(1, sizeof(obj_info_t));
	if (objp) (objp)->next = newobj;
	*objp = newobj;
	}

	#ifdef USE_ELF
	/* Ideally we should check 4 paths to follow gnu_debuglink:
	*
	* - /usr/lib/debug/.build-id/ab/cdef1234.debug
	* - /usr/bin/ruby.debug
	* - /usr/bin/.debug/ruby.debug
	* - /usr/lib/debug/usr/bin/ruby.debug.
	*
	* but we handle only two cases for now as the two formats are
	* used by some linux distributions.
	*
	* See GDB's info for detail.
	* https://sourceware.org/gdb/onlinedocs/gdb/Separate-Debug-Files.html
	*/

	// check the path pattern of "/usr/lib/debug/usr/bin/ruby.debug"
	static void
	follow_debuglink(const char debuglink, int num_traces, void *traces,
	obj_info_t *objp, line_info_t lines, int offset)
	{
	static const char global_debug_dir[] = "/usr/lib/debug";
	const size_t global_debug_dir_len = sizeof(global_debug_dir) - 1;
	char *p;
	obj_info_t o1 = objp, *o2;
	size_t len;

	p = strrchr(binary_filename, '/');
	if (!p) {
	return;
	}
	p[1] = '\0';

	len = strlen(binary_filename);
	if (len >= PATH_MAX - global_debug_dir_len)
	len = PATH_MAX - global_debug_dir_len - 1;
	memmove(binary_filename + global_debug_dir_len, binary_filename, len);
	memcpy(binary_filename, global_debug_dir, global_debug_dir_len);
	len += global_debug_dir_len;
	strlcpy(binary_filename + len, debuglink, PATH_MAX - len);

	append_obj(objp);
	o2 = *objp;
	o2->base_addr = o1->base_addr;
	o2->path = o1->path;
	fill_lines(num_traces, traces, 0, objp, lines, offset);
	}

	// check the path pattern of "/usr/lib/debug/.build-id/ab/cdef1234.debug"
	static void
	follow_debuglink_build_id(const char build_id, size_t build_id_size, int num_traces, void *traces,
	obj_info_t *objp, line_info_t lines, int offset)
	{
	static const char global_debug_dir[] = "/usr/lib/debug/.build-id/";
	const size_t global_debug_dir_len = sizeof(global_debug_dir) - 1;
	char *p;
	obj_info_t o1 = objp, *o2;
	size_t i;

	if (PATH_MAX < global_debug_dir_len + 1 + build_id_size * 2 + 6) return;

	memcpy(binary_filename, global_debug_dir, global_debug_dir_len);
	p = binary_filename + global_debug_dir_len;
	for (i = 0; i < build_id_size; i++) {
	static const char tbl[] = "0123456789abcdef";
	unsigned char n = build_id[i];
	*p++ = tbl[n / 16];
	*p++ = tbl[n % 16];
	if (i == 0) *p++ = '/';
	}
	strcpy(p, ".debug");

	append_obj(objp);
	o2 = *objp;
	o2->base_addr = o1->base_addr;
	o2->path = o1->path;
	fill_lines(num_traces, traces, 0, objp, lines, offset);
	}
	#endif

	enum
	{
	DW_TAG_compile_unit = 0x11,
	DW_TAG_inlined_subroutine = 0x1d,
	DW_TAG_subprogram = 0x2e,
	};

	/* Attributes encodings */
	enum
	{
	DW_AT_sibling = 0x01,
	DW_AT_location = 0x02,
	DW_AT_name = 0x03,
	/* Reserved 0x04 */
	/* Reserved 0x05 */
	/* Reserved 0x06 */
	/* Reserved 0x07 */
	/* Reserved 0x08 */
	DW_AT_ordering = 0x09,
	/* Reserved 0x0a */
	DW_AT_byte_size = 0x0b,
	/* Reserved 0x0c */
	DW_AT_bit_size = 0x0d,
	/* Reserved 0x0e */
	/* Reserved 0x0f */
	DW_AT_stmt_list = 0x10,
	DW_AT_low_pc = 0x11,
	DW_AT_high_pc = 0x12,
	DW_AT_language = 0x13,
	/* Reserved 0x14 */
	DW_AT_discr = 0x15,
	DW_AT_discr_value = 0x16,
	DW_AT_visibility = 0x17,
	DW_AT_import = 0x18,
	DW_AT_string_length = 0x19,
	DW_AT_common_reference = 0x1a,
	DW_AT_comp_dir = 0x1b,
	DW_AT_const_value = 0x1c,
	DW_AT_containing_type = 0x1d,
	DW_AT_default_value = 0x1e,
	/* Reserved 0x1f */
	DW_AT_inline = 0x20,
	DW_AT_is_optional = 0x21,
	DW_AT_lower_bound = 0x22,
	/* Reserved 0x23 */
	/* Reserved 0x24 */
	DW_AT_producer = 0x25,
	/* Reserved 0x26 */
	DW_AT_prototyped = 0x27,
	/* Reserved 0x28 */
	/* Reserved 0x29 */
	DW_AT_return_addr = 0x2a,
	/* Reserved 0x2b */
	DW_AT_start_scope = 0x2c,
	/* Reserved 0x2d */
	DW_AT_bit_stride = 0x2e,
	DW_AT_upper_bound = 0x2f,
	/* Reserved 0x30 */
	DW_AT_abstract_origin = 0x31,
	DW_AT_accessibility = 0x32,
	DW_AT_address_class = 0x33,
	DW_AT_artificial = 0x34,
	DW_AT_base_types = 0x35,
	DW_AT_calling_convention = 0x36,
	DW_AT_count = 0x37,
	DW_AT_data_member_location = 0x38,
	DW_AT_decl_column = 0x39,
	DW_AT_decl_file = 0x3a,
	DW_AT_decl_line = 0x3b,
	DW_AT_declaration = 0x3c,
	DW_AT_discr_list = 0x3d,
	DW_AT_encoding = 0x3e,
	DW_AT_external = 0x3f,
	DW_AT_frame_base = 0x40,
	DW_AT_friend = 0x41,
	DW_AT_identifier_case = 0x42,
	/* Reserved 0x43 */
	DW_AT_namelist_item = 0x44,
	DW_AT_priority = 0x45,
	DW_AT_segment = 0x46,
	DW_AT_specification = 0x47,
	DW_AT_static_link = 0x48,
	DW_AT_type = 0x49,
	DW_AT_use_location = 0x4a,
	DW_AT_variable_parameter = 0x4b,
	DW_AT_virtuality = 0x4c,
	DW_AT_vtable_elem_location = 0x4d,
	DW_AT_allocated = 0x4e,
	DW_AT_associated = 0x4f,
	DW_AT_data_location = 0x50,
	DW_AT_byte_stride = 0x51,
	DW_AT_entry_pc = 0x52,
	DW_AT_use_UTF8 = 0x53,
	DW_AT_extension = 0x54,
	DW_AT_ranges = 0x55,
	DW_AT_trampoline = 0x56,
	DW_AT_call_column = 0x57,
	DW_AT_call_file = 0x58,
	DW_AT_call_line = 0x59,
	DW_AT_description = 0x5a,
	DW_AT_binary_scale = 0x5b,
	DW_AT_decimal_scale = 0x5c,
	DW_AT_small = 0x5d,
	DW_AT_decimal_sign = 0x5e,
	DW_AT_digit_count = 0x5f,
	DW_AT_picture_string = 0x60,
	DW_AT_mutable = 0x61,
	DW_AT_threads_scaled = 0x62,
	DW_AT_explicit = 0x63,
	DW_AT_object_pointer = 0x64,
	DW_AT_endianity = 0x65,
	DW_AT_elemental = 0x66,
	DW_AT_pure = 0x67,
	DW_AT_recursive = 0x68,
	DW_AT_signature = 0x69,
	DW_AT_main_subprogram = 0x6a,
	DW_AT_data_bit_offset = 0x6b,
	DW_AT_const_expr = 0x6c,
	DW_AT_enum_class = 0x6d,
	DW_AT_linkage_name = 0x6e,
	DW_AT_string_length_bit_size = 0x6f,
	DW_AT_string_length_byte_size = 0x70,
	DW_AT_rank = 0x71,
	DW_AT_str_offsets_base = 0x72,
	DW_AT_addr_base = 0x73,
	DW_AT_rnglists_base = 0x74,
	/* Reserved 0x75 */
	DW_AT_dwo_name = 0x76,
	DW_AT_reference = 0x77,
	DW_AT_rvalue_reference = 0x78,
	DW_AT_macros = 0x79,
	DW_AT_call_all_calls = 0x7a,
	DW_AT_call_all_source_calls = 0x7b,
	DW_AT_call_all_tail_calls = 0x7c,
	DW_AT_call_return_pc = 0x7d,
	DW_AT_call_value = 0x7e,
	DW_AT_call_origin = 0x7f,
	DW_AT_call_parameter = 0x80,
	DW_AT_call_pc = 0x81,
	DW_AT_call_tail_call = 0x82,
	DW_AT_call_target = 0x83,
	DW_AT_call_target_clobbered = 0x84,
	DW_AT_call_data_location = 0x85,
	DW_AT_call_data_value = 0x86,
	DW_AT_noreturn = 0x87,
	DW_AT_alignment = 0x88,
	DW_AT_export_symbols = 0x89,
	DW_AT_deleted = 0x8a,
	DW_AT_defaulted = 0x8b,
	DW_AT_loclists_base = 0x8c,
	DW_AT_lo_user = 0x2000,
	DW_AT_hi_user = 0x3fff
	};

	/* Attribute form encodings */
	enum
	{
	DW_FORM_addr = 0x01,
	/* Reserved 0x02 */
	DW_FORM_block2 = 0x03,
	DW_FORM_block4 = 0x04,
	DW_FORM_data2 = 0x05,
	DW_FORM_data4 = 0x06,
	DW_FORM_data8 = 0x07,
	DW_FORM_string = 0x08,
	DW_FORM_block = 0x09,
	DW_FORM_block1 = 0x0a,
	DW_FORM_data1 = 0x0b,
	DW_FORM_flag = 0x0c,
	DW_FORM_sdata = 0x0d,
	DW_FORM_strp = 0x0e,
	DW_FORM_udata = 0x0f,
	DW_FORM_ref_addr = 0x10,
	DW_FORM_ref1 = 0x11,
	DW_FORM_ref2 = 0x12,
	DW_FORM_ref4 = 0x13,
	DW_FORM_ref8 = 0x14,
	DW_FORM_ref_udata = 0x15,
	DW_FORM_indirect = 0x16,
	DW_FORM_sec_offset = 0x17,
	DW_FORM_exprloc = 0x18,
	DW_FORM_flag_present = 0x19,
	DW_FORM_strx = 0x1a,
	DW_FORM_addrx = 0x1b,
	DW_FORM_ref_sup4 = 0x1c,
	DW_FORM_strp_sup = 0x1d,
	DW_FORM_data16 = 0x1e,
	DW_FORM_line_strp = 0x1f,
	DW_FORM_ref_sig8 = 0x20,
	DW_FORM_implicit_const = 0x21,
	DW_FORM_loclistx = 0x22,
	DW_FORM_rnglistx = 0x23,
	DW_FORM_ref_sup8 = 0x24,
	DW_FORM_strx1 = 0x25,
	DW_FORM_strx2 = 0x26,
	DW_FORM_strx3 = 0x27,
	DW_FORM_strx4 = 0x28,
	DW_FORM_addrx1 = 0x29,
	DW_FORM_addrx2 = 0x2a,
	DW_FORM_addrx3 = 0x2b,
	DW_FORM_addrx4 = 0x2c
	};

	/* Range list entry encodings */
	enum {
	DW_RLE_end_of_list = 0x00,
	DW_RLE_base_addressx = 0x01,
	DW_RLE_startx_endx = 0x02,
	DW_RLE_startx_length = 0x03,
	DW_RLE_offset_pair = 0x04,
	DW_RLE_base_address = 0x05,
	DW_RLE_start_end = 0x06,
	DW_RLE_start_length = 0x07
	};

	enum {
	VAL_none = 0,
	VAL_cstr = 1,
	VAL_data = 2,
	VAL_uint = 3,
	VAL_int = 4
	};

	# define ABBREV_TABLE_SIZE 256
	typedef struct {
	obj_info_t *obj;
	const char *file;
	const char *current_cu;
	uint64_t current_low_pc;
	const char *debug_line_cu_end;
	const char *debug_line_files;
	const char *debug_line_directories;
	const char *p;
	const char *cu_end;
	const char *pend;
	const char *q0;
	const char *q;
	int format; // 4 or 8
	uint8_t address_size;
	int level;
	const char *abbrev_table[ABBREV_TABLE_SIZE];
	} DebugInfoReader;

	typedef struct {
	ptrdiff_t pos;
	int tag;
	int has_children;
	} DIE;

	typedef struct {
	union {
	const char *ptr;
	uint64_t uint64;
	int64_t int64;
	} as;
	uint64_t off;
	uint64_t at;
	uint64_t form;
	size_t size;
	int type;
	} DebugInfoValue;

	/* TODO: Big Endian */
	#define MERGE_2INTS(a,b,sz) (((uint64_t)(b)<<sz)\|(a))

	static uint16_t
	get_uint16(const uint8_t *p)
	{
	return (uint16_t)MERGE_2INTS(p[0],p[1],8);
	}

	static uint32_t
	get_uint32(const uint8_t *p)
	{
	return (uint32_t)MERGE_2INTS(get_uint16(p),get_uint16(p+2),16);
	}

	static uint64_t
	get_uint64(const uint8_t *p)
	{
	return MERGE_2INTS(get_uint32(p),get_uint32(p+4),32);
	}

	static uint8_t
	read_uint8(const char **ptr)
	{
	const char p = ptr;
	*ptr = (p + 1);
	return (uint8_t)*p;
	}

	static uint16_t
	read_uint16(const char **ptr)
	{
	const char p = ptr;
	*ptr = (p + 2);
	return get_uint16((const uint8_t *)p);
	}

	static uint32_t
	read_uint24(const char **ptr)
	{
	const char p = ptr;
	*ptr = (p + 3);
	return ((uint8_t)p << 16) \| get_uint16((const uint8_t )p+1);
	}

	static uint32_t
	read_uint32(const char **ptr)
	{
	const char p = ptr;
	*ptr = (p + 4);
	return get_uint32((const uint8_t *)p);
	}

	static uint64_t
	read_uint64(const char **ptr)
	{
	const unsigned char p = (const unsigned char )*ptr;
	ptr = (char )(p + 8);
	return get_uint64(p);
	}

	static uintptr_t
	read_uintptr(const char **ptr)
	{
	const unsigned char p = (const unsigned char )*ptr;
	ptr = (char )(p + SIZEOF_VOIDP);
	#if SIZEOF_VOIDP == 8
	return get_uint64(p);
	#else
	return get_uint32(p);
	#endif
	}

	static uint64_t
	read_uint(DebugInfoReader *reader)
	{
	if (reader->format == 4) {
	return read_uint32(&reader->p);
	} else { /* 64 bit */
	return read_uint64(&reader->p);
	}
	}

	static uint64_t
	read_uleb128(DebugInfoReader *reader)
	{
	return uleb128(&reader->p);
	}

	static int64_t
	read_sleb128(DebugInfoReader *reader)
	{
	return sleb128(&reader->p);
	}

	static void
	debug_info_reader_init(DebugInfoReader reader, obj_info_t obj)
	{
	reader->file = obj->mapped;
	reader->obj = obj;
	reader->p = obj->debug_info.ptr;
	reader->pend = obj->debug_info.ptr + obj->debug_info.size;
	reader->debug_line_cu_end = obj->debug_line.ptr;
	reader->current_low_pc = 0;
	}

	static void
	di_skip_die_attributes(const char **p)
	{
	for (;;) {
	uint64_t at = uleb128(p);
	uint64_t form = uleb128(p);
	if (!at && !form) break;
	switch (form) {
	default:
	break;
	case DW_FORM_implicit_const:
	sleb128(p);
	break;
	}
	}
	}

	static void
	di_read_debug_abbrev_cu(DebugInfoReader *reader)
	{
	uint64_t prev = 0;
	const char *p = reader->q0;
	for (;;) {
	uint64_t abbrev_number = uleb128(&p);
	if (abbrev_number <= prev) break;
	if (abbrev_number < ABBREV_TABLE_SIZE) {
	reader->abbrev_table[abbrev_number] = p;
	}
	prev = abbrev_number;
	uleb128(&p); /* tag */
	p++; /* has_children */
	di_skip_die_attributes(&p);
	}
	}

	static int
	di_read_debug_line_cu(DebugInfoReader *reader)
	{
	const char *p;
	struct LineNumberProgramHeader header;

	p = (const char *)reader->debug_line_cu_end;
	if (parse_debug_line_header(&p, &header))
	return -1;

	reader->debug_line_cu_end = (char *)header.cu_end;
	reader->debug_line_directories = (char *)header.include_directories;
	reader->debug_line_files = (char *)header.filenames;

	return 0;
	}

	static void
	set_uint_value(DebugInfoValue *v, uint64_t n)
	{
	v->as.uint64 = n;
	v->type = VAL_uint;
	}

	static void
	set_int_value(DebugInfoValue *v, int64_t n)
	{
	v->as.int64 = n;
	v->type = VAL_int;
	}

	static void
	set_cstr_value(DebugInfoValue v, const char s)
	{
	v->as.ptr = s;
	v->off = 0;
	v->type = VAL_cstr;
	}

	static void
	set_cstrp_value(DebugInfoValue v, const char s, uint64_t off)
	{
	v->as.ptr = s;
	v->off = off;
	v->type = VAL_cstr;
	}

	static void
	set_data_value(DebugInfoValue v, const char s)
	{
	v->as.ptr = s;
	v->type = VAL_data;
	}

	static const char *
	get_cstr_value(DebugInfoValue *v)
	{
	if (v->as.ptr) {
	return v->as.ptr + v->off;
	} else {
	return NULL;
	}
	}

	static void
	debug_info_reader_read_value(DebugInfoReader reader, uint64_t form, DebugInfoValue v)
	{
	switch (form) {
	case DW_FORM_addr:
	if (reader->address_size == 4) {
	set_uint_value(v, read_uint32(&reader->p));
	} else if (reader->address_size == 8) {
	set_uint_value(v, read_uint64(&reader->p));
	} else {
	fprintf(stderr,"unknown address_size:%d", reader->address_size);
	abort();
	}
	break;
	case DW_FORM_block2:
	v->size = read_uint16(&reader->p);
	set_data_value(v, reader->p);
	reader->p += v->size;
	break;
	case DW_FORM_block4:
	v->size = read_uint32(&reader->p);
	set_data_value(v, reader->p);
	reader->p += v->size;
	break;
	case DW_FORM_data2:
	set_uint_value(v, read_uint16(&reader->p));
	break;
	case DW_FORM_data4:
	set_uint_value(v, read_uint32(&reader->p));
	break;
	case DW_FORM_data8:
	set_uint_value(v, read_uint64(&reader->p));
	break;
	case DW_FORM_string:
	v->size = strlen(reader->p);
	set_cstr_value(v, reader->p);
	reader->p += v->size + 1;
	break;
	case DW_FORM_block:
	v->size = uleb128(&reader->p);
	set_data_value(v, reader->p);
	reader->p += v->size;
	break;
	case DW_FORM_block1:
	v->size = read_uint8(&reader->p);
	set_data_value(v, reader->p);
	reader->p += v->size;
	break;
	case DW_FORM_data1:
	set_uint_value(v, read_uint8(&reader->p));
	break;
	case DW_FORM_flag:
	set_uint_value(v, read_uint8(&reader->p));
	break;
	case DW_FORM_sdata:
	set_int_value(v, read_sleb128(reader));
	break;
	case DW_FORM_strp:
	set_cstrp_value(v, reader->obj->debug_str.ptr, read_uint(reader));
	break;
	case DW_FORM_udata:
	set_uint_value(v, read_uleb128(reader));
	break;
	case DW_FORM_ref_addr:
	if (reader->format == 4) {
	set_uint_value(v, read_uint32(&reader->p));
	} else if (reader->format == 8) {
	set_uint_value(v, read_uint64(&reader->p));
	} else {
	fprintf(stderr,"unknown format:%d", reader->format);
	abort();
	}
	break;
	case DW_FORM_ref1:
	set_uint_value(v, read_uint8(&reader->p));
	break;
	case DW_FORM_ref2:
	set_uint_value(v, read_uint16(&reader->p));
	break;
	case DW_FORM_ref4:
	set_uint_value(v, read_uint32(&reader->p));
	break;
	case DW_FORM_ref8:
	set_uint_value(v, read_uint64(&reader->p));
	break;
	case DW_FORM_ref_udata:
	set_uint_value(v, uleb128(&reader->p));
	break;
	case DW_FORM_indirect:
	/* TODO: read the referred value */
	set_uint_value(v, uleb128(&reader->p));
	break;
	case DW_FORM_sec_offset:
	set_uint_value(v, read_uint(reader)); /* offset */
	/* addrptr: debug_addr */
	/* lineptr: debug_line */
	/* loclist: debug_loclists */
	/* loclistptr: debug_loclists */
	/* macptr: debug_macro */
	/* rnglist: debug_rnglists */
	/* rnglistptr: debug_rnglists */
	/* stroffsetsptr: debug_str_offsets */
	break;
	case DW_FORM_exprloc:
	v->size = (size_t)read_uleb128(reader);
	set_data_value(v, reader->p);
	reader->p += v->size;
	break;
	case DW_FORM_flag_present:
	set_uint_value(v, 1);
	break;
	case DW_FORM_strx:
	set_uint_value(v, uleb128(&reader->p));
	break;
	case DW_FORM_addrx:
	/* TODO: read .debug_addr */
	set_uint_value(v, uleb128(&reader->p));
	break;
	case DW_FORM_ref_sup4:
	set_uint_value(v, read_uint32(&reader->p));
	break;
	case DW_FORM_strp_sup:
	set_uint_value(v, read_uint(reader));
	/* p = reader->sup_file + reader->sup_str->sh_offset + ret; /
	break;
	case DW_FORM_data16:
	v->size = 16;
	set_data_value(v, reader->p);
	reader->p += v->size;
	break;
	case DW_FORM_line_strp:
	set_uint_value(v, read_uint(reader));
	/* p = reader->file + reader->line->sh_offset + ret; /
	break;
	case DW_FORM_ref_sig8:
	set_uint_value(v, read_uint64(&reader->p));
	break;
	case DW_FORM_implicit_const:
	set_int_value(v, sleb128(&reader->q));
	break;
	case DW_FORM_loclistx:
	set_uint_value(v, read_uleb128(reader));
	break;
	case DW_FORM_rnglistx:
	set_uint_value(v, read_uleb128(reader));
	break;
	case DW_FORM_ref_sup8:
	set_uint_value(v, read_uint64(&reader->p));
	break;
	case DW_FORM_strx1:
	set_uint_value(v, read_uint8(&reader->p));
	break;
	case DW_FORM_strx2:
	set_uint_value(v, read_uint16(&reader->p));
	break;
	case DW_FORM_strx3:
	set_uint_value(v, read_uint24(&reader->p));
	break;
	case DW_FORM_strx4:
	set_uint_value(v, read_uint32(&reader->p));
	break;
	case DW_FORM_addrx1:
	set_uint_value(v, read_uint8(&reader->p));
	break;
	case DW_FORM_addrx2:
	set_uint_value(v, read_uint16(&reader->p));
	break;
	case DW_FORM_addrx3:
	set_uint_value(v, read_uint24(&reader->p));
	break;
	case DW_FORM_addrx4:
	set_uint_value(v, read_uint32(&reader->p));
	break;
	case 0:
	goto fail;
	break;
	}
	return;

	fail:
	fprintf(stderr, "%d: unsupported form: %#"PRIx64"\n", __LINE__, form);
	exit(1);
	}

	/* find abbrev in current compilation unit */
	static const char *
	di_find_abbrev(DebugInfoReader *reader, uint64_t abbrev_number)
	{
	const char *p;
	if (abbrev_number < ABBREV_TABLE_SIZE) {
	return reader->abbrev_table[abbrev_number];
	}
	p = reader->abbrev_table[ABBREV_TABLE_SIZE-1];
	/* skip 255th record */
	uleb128(&p); /* tag */
	p++; /* has_children */
	di_skip_die_attributes(&p);
	for (uint64_t n = uleb128(&p); abbrev_number != n; n = uleb128(&p)) {
	if (n == 0) {
	fprintf(stderr,"%d: Abbrev Number %"PRId64" not found\n",__LINE__, abbrev_number);
	exit(1);
	}
	uleb128(&p); /* tag */
	p++; /* has_children */
	di_skip_die_attributes(&p);
	}
	return p;
	}

	#if 0
	static void
	hexdump0(const unsigned char *p, size_t n)
	{
	size_t i;
	fprintf(stderr, " 0 1 2 3 4 5 6 7 8 9 A B C D E F\n");
	for (i=0; i < n; i++){
	switch (i & 15) {
	case 0:
	fprintf(stderr, "%02zd: %02X ", i/16, p[i]);
	break;
	case 15:
	fprintf(stderr, "%02X\n", p[i]);
	break;
	default:
	fprintf(stderr, "%02X ", p[i]);
	break;
	}
	}
	if ((i & 15) != 15) {
	fprintf(stderr, "\n");
	}
	}
	#define hexdump(p,n) hexdump0((const unsigned char *)p, n)

	static void
	div_inspect(DebugInfoValue *v)
	{
	switch (v->type) {
	case VAL_uint:
	fprintf(stderr,"%d: type:%d size:%zx v:%"PRIx64"\n",__LINE__,v->type,v->size,v->as.uint64);
	break;
	case VAL_int:
	fprintf(stderr,"%d: type:%d size:%zx v:%"PRId64"\n",__LINE__,v->type,v->size,(int64_t)v->as.uint64);
	break;
	case VAL_cstr:
	fprintf(stderr,"%d: type:%d size:%zx v:'%s'\n",__LINE__,v->type,v->size,v->as.ptr);
	break;
	case VAL_data:
	fprintf(stderr,"%d: type:%d size:%zx v:\n",__LINE__,v->type,v->size);
	hexdump(v->as.ptr, 16);
	break;
	}
	}
	#endif

	static DIE *
	di_read_die(DebugInfoReader reader, DIE die)
	{
	uint64_t abbrev_number = uleb128(&reader->p);
	if (abbrev_number == 0) {
	reader->level--;
	return NULL;
	}

	reader->q = di_find_abbrev(reader, abbrev_number);

	die->pos = reader->p - reader->obj->debug_info.ptr - 1;
	die->tag = (int)uleb128(&reader->q); /* tag */
	die->has_children = reader->q++; / has_children */
	if (die->has_children) {
	reader->level++;
	}
	return die;
	}

	static DebugInfoValue *
	di_read_record(DebugInfoReader reader, DebugInfoValue vp)
	{
	uint64_t at = uleb128(&reader->q);
	uint64_t form = uleb128(&reader->q);
	if (!at \|\| !form) return NULL;
	vp->at = at;
	vp->form = form;
	debug_info_reader_read_value(reader, form, vp);
	return vp;
	}

	static void
	di_skip_records(DebugInfoReader *reader)
	{
	for (;;) {
	DebugInfoValue v = {{}};
	uint64_t at = uleb128(&reader->q);
	uint64_t form = uleb128(&reader->q);
	if (!at \|\| !form) return;
	debug_info_reader_read_value(reader, form, &v);
	}
	}

	typedef struct {
	uint64_t low_pc;
	uint64_t high_pc;
	uint64_t ranges;
	bool low_pc_set;
	bool high_pc_set;
	bool ranges_set;
	} ranges_t;

	static void
	ranges_set(ranges_t ptr, DebugInfoValue v)
	{
	switch (v->at) {
	case DW_AT_low_pc:
	ptr->low_pc = v->as.uint64;
	ptr->low_pc_set = true;
	break;
	case DW_AT_high_pc:
	if (v->form == DW_FORM_addr) {
	ptr->high_pc = v->as.uint64;
	}
	else {
	ptr->high_pc = ptr->low_pc + v->as.uint64;
	}
	ptr->high_pc_set = true;
	break;
	case DW_AT_ranges:
	ptr->ranges = v->as.uint64;
	ptr->ranges_set = true;
	break;
	}
	}

	static uint64_t
	read_dw_form_addr(DebugInfoReader reader, const char *ptr)
	{
	const char p = ptr;
	*ptr = p + reader->address_size;
	if (reader->address_size == 4) {
	return read_uint32(&p);
	} else if (reader->address_size == 8) {
	return read_uint64(&p);
	} else {
	fprintf(stderr,"unknown address_size:%d", reader->address_size);
	abort();
	}
	}

	static uintptr_t
	ranges_include(DebugInfoReader reader, ranges_t ptr, uint64_t addr)
	{
	if (ptr->high_pc_set) {
	if (ptr->ranges_set \|\| !ptr->low_pc_set) {
	exit(1);
	}
	if (ptr->low_pc <= addr && addr <= ptr->high_pc) {
	return (uintptr_t)ptr->low_pc;
	}
	}
	else if (ptr->ranges_set) {
	/* TODO: support base address selection entry */
	const char *p;
	uint64_t base = ptr->low_pc_set ? ptr->low_pc : reader->current_low_pc;
	bool base_valid = true;
	if (reader->obj->debug_rnglists.ptr) {
	p = reader->obj->debug_rnglists.ptr + ptr->ranges;
	for (;;) {
	uint8_t rle = read_uint8(&p);
	uintptr_t from = 0, to = 0;
	if (rle == DW_RLE_end_of_list) break;
	switch (rle) {
	case DW_RLE_base_addressx:
	uleb128(&p);
	base_valid = false; /* not supported yet */
	break;
	case DW_RLE_startx_endx:
	uleb128(&p);
	uleb128(&p);
	break;
	case DW_RLE_startx_length:
	uleb128(&p);
	uleb128(&p);
	break;
	case DW_RLE_offset_pair:
	if (!base_valid) break;
	from = (uintptr_t)base + uleb128(&p);
	to = (uintptr_t)base + uleb128(&p);
	break;
	case DW_RLE_base_address:
	base = read_dw_form_addr(reader, &p);
	base_valid = true;
	break;
	case DW_RLE_start_end:
	from = (uintptr_t)read_dw_form_addr(reader, &p);
	to = (uintptr_t)read_dw_form_addr(reader, &p);
	break;
	case DW_RLE_start_length:
	from = (uintptr_t)read_dw_form_addr(reader, &p);
	to = from + uleb128(&p);
	break;
	}
	if (from <= addr && addr < to) {
	return from;
	}
	}
	return false;
	}
	p = reader->obj->debug_ranges.ptr + ptr->ranges;
	for (;;) {
	uintptr_t from = read_uintptr(&p);
	uintptr_t to = read_uintptr(&p);
	if (!from && !to) break;
	if (from == UINTPTR_MAX) {
	/* base address selection entry */
	base = to;
	}
	else if (base + from <= addr && addr < base + to) {
	return (uintptr_t)base + from;
	}
	}
	}
	else if (ptr->low_pc_set) {
	if (ptr->low_pc == addr) {
	return (uintptr_t)ptr->low_pc;
	}
	}
	return false;
	}

	#if 0
	static void
	ranges_inspect(DebugInfoReader reader, ranges_t ptr)
	{
	if (ptr->high_pc_set) {
	if (ptr->ranges_set \|\| !ptr->low_pc_set) {
	fprintf(stderr,"low_pc_set:%d high_pc_set:%d ranges_set:%d\n",ptr->low_pc_set,ptr->high_pc_set,ptr->ranges_set);
	exit(1);
	}
	fprintf(stderr,"low_pc:%"PRIx64" high_pc:%"PRIx64"\n",ptr->low_pc,ptr->high_pc);
	}
	else if (ptr->ranges_set) {
	char *p = reader->obj->debug_ranges.ptr + ptr->ranges;
	fprintf(stderr,"low_pc:%"PRIx64" ranges:%"PRIx64" %lx ",ptr->low_pc,ptr->ranges, p-reader->obj->mapped);
	for (;;) {
	uintptr_t from = read_uintptr(&p);
	uintptr_t to = read_uintptr(&p);
	if (!from && !to) break;
	fprintf(stderr,"%"PRIx64"-%"PRIx64" ",ptr->low_pc+from,ptr->low_pc+to);
	}
	fprintf(stderr,"\n");
	}
	else if (ptr->low_pc_set) {
	fprintf(stderr,"low_pc:%"PRIx64"\n",ptr->low_pc);
	}
	else {
	fprintf(stderr,"empty\n");
	}
	}
	#endif

	static int
	di_read_cu(DebugInfoReader *reader)
	{
	uint64_t unit_length;
	uint16_t version;
	uint64_t debug_abbrev_offset;
	reader->format = 4;
	reader->current_cu = reader->p;
	unit_length = read_uint32(&reader->p);
	if (unit_length == 0xffffffff) {
	unit_length = read_uint64(&reader->p);
	reader->format = 8;
	}
	reader->cu_end = reader->p + unit_length;
	version = read_uint16(&reader->p);
	if (version > 5) {
	return -1;
	}
	else if (version == 5) {
	/* unit_type = */ read_uint8(&reader->p);
	reader->address_size = read_uint8(&reader->p);
	debug_abbrev_offset = read_uint(reader);
	}
	else {
	debug_abbrev_offset = read_uint(reader);
	reader->address_size = read_uint8(&reader->p);
	}
	reader->q0 = reader->obj->debug_abbrev.ptr + debug_abbrev_offset;

	reader->level = 0;
	di_read_debug_abbrev_cu(reader);
	if (di_read_debug_line_cu(reader)) return -1;

	#if defined(__GNUC__) && !defined(__clang__) && !defined(__INTEL_COMPILER_BUILD_DATE)
	/* Though DWARF specifies "the applicable base address defaults to the base
	address of the compilation unit", but GCC seems to use zero as default */
	#else
	do {
	DIE die;

	if (!di_read_die(reader, &die)) continue;

	if (die.tag != DW_TAG_compile_unit) {
	di_skip_records(reader);
	break;
	}

	/* enumerate abbrev */
	for (;;) {
	DebugInfoValue v = {{}};
	if (!di_read_record(reader, &v)) break;
	switch (v.at) {
	case DW_AT_low_pc:
	reader->current_low_pc = v.as.uint64;
	break;
	}
	}
	} while (0);
	#endif
	return 0;
	}

	static void
	read_abstract_origin(DebugInfoReader reader, uint64_t form, uint64_t abstract_origin, line_info_t line)
	{
	const char *p = reader->p;
	const char *q = reader->q;
	int level = reader->level;
	DIE die;

	switch (form) {
	case DW_FORM_ref1:
	case DW_FORM_ref2:
	case DW_FORM_ref4:
	case DW_FORM_ref8:
	case DW_FORM_ref_udata:
	reader->p = reader->current_cu + abstract_origin;
	break;
	case DW_FORM_ref_addr:
	goto finish; /* not supported yet */
	case DW_FORM_ref_sig8:
	goto finish; /* not supported yet */
	case DW_FORM_ref_sup4:
	case DW_FORM_ref_sup8:
	goto finish; /* not supported yet */
	default:
	goto finish;
	}
	if (!di_read_die(reader, &die)) goto finish;

	/* enumerate abbrev */
	for (;;) {
	DebugInfoValue v = {{}};
	if (!di_read_record(reader, &v)) break;
	switch (v.at) {
	case DW_AT_name:
	line->sname = get_cstr_value(&v);
	break;
	}
	}

	finish:
	reader->p = p;
	reader->q = q;
	reader->level = level;
	}

	static void
	debug_info_read(DebugInfoReader reader, int num_traces, void *traces,
	line_info_t *lines, int offset) {
	while (reader->p < reader->cu_end) {
	DIE die;
	ranges_t ranges = {};
	line_info_t line = {};

	if (!di_read_die(reader, &die)) continue;
	/* fprintf(stderr,"%d:%tx: <%d>\n",__LINE__,die.pos,reader->level,die.tag); */

	if (die.tag != DW_TAG_subprogram && die.tag != DW_TAG_inlined_subroutine) {
	skip_die:
	di_skip_records(reader);
	continue;
	}

	/* enumerate abbrev */
	for (;;) {
	DebugInfoValue v = {{}};
	/* ptrdiff_t pos = reader->p - reader->p0; */
	if (!di_read_record(reader, &v)) break;
	/* fprintf(stderr,"\n%d:%tx: AT:%lx FORM:%lx\n",__LINE__,pos,v.at,v.form); */
	/* div_inspect(&v); */
	switch (v.at) {
	case DW_AT_name:
	line.sname = get_cstr_value(&v);
	break;
	case DW_AT_call_file:
	fill_filename((int)v.as.uint64, reader->debug_line_directories, reader->debug_line_files, &line, reader->obj);
	break;
	case DW_AT_call_line:
	line.line = (int)v.as.uint64;
	break;
	case DW_AT_low_pc:
	case DW_AT_high_pc:
	case DW_AT_ranges:
	ranges_set(&ranges, &v);
	break;
	case DW_AT_declaration:
	goto skip_die;
	case DW_AT_inline:
	/* 1 or 3 */
	break; /* goto skip_die; */
	case DW_AT_abstract_origin:
	read_abstract_origin(reader, v.form, v.as.uint64, &line);
	break; /* goto skip_die; */
	}
	}
	/* ranges_inspect(reader, &ranges); */
	/* fprintf(stderr,"%d:%tx: %x ",__LINE__,diepos,die.tag); */
	for (int i=offset; i < num_traces; i++) {
	uintptr_t addr = (uintptr_t)traces[i];
	uintptr_t offset = addr - reader->obj->base_addr + reader->obj->vmaddr;
	uintptr_t saddr = ranges_include(reader, &ranges, offset);
	if (saddr) {
	/* fprintf(stderr, "%d:%tx: %d %lx->%lx %x %s: %s/%s %d %s %s %s\n",__LINE__,die.pos, i,addr,offset, die.tag,line.sname,line.dirname,line.filename,line.line,reader->obj->path,line.sname,lines[i].sname); */
	if (lines[i].sname) {
	line_info_t *lp = malloc(sizeof(line_info_t));
	memcpy(lp, &lines[i], sizeof(line_info_t));
	lines[i].next = lp;
	lp->dirname = line.dirname;
	lp->filename = line.filename;
	lp->line = line.line;
	lp->saddr = 0;
	}
	lines[i].path = reader->obj->path;
	lines[i].base_addr = line.base_addr;
	lines[i].sname = line.sname;
	lines[i].saddr = saddr + reader->obj->base_addr - reader->obj->vmaddr;
	}
	}
	}
	}

	#ifdef USE_ELF
	static unsigned long
	uncompress_debug_section(ElfW(Shdr) shdr, char file, char **ptr)
	{
	*ptr = NULL;
	#ifdef SUPPORT_COMPRESSED_DEBUG_LINE
	ElfW(Chdr) chdr = (ElfW(Chdr) )(file + shdr->sh_offset);
	unsigned long destsize = chdr->ch_size;
	int ret = 0;

	if (chdr->ch_type != ELFCOMPRESS_ZLIB) {
	/* unsupported compression type */
	return 0;
	}

	*ptr = malloc(destsize);
	if (!*ptr) return 0;
	ret = uncompress((Bytef )ptr, &destsize,
	(const Bytef*)chdr + sizeof(ElfW(Chdr)),
	shdr->sh_size - sizeof(ElfW(Chdr)));
	if (ret != Z_OK) goto fail;
	return destsize;

	fail:
	free(*ptr);
	*ptr = NULL;
	#endif
	return 0;
	}

	/* read file and fill lines */
	static uintptr_t
	fill_lines(int num_traces, void **traces, int check_debuglink,
	obj_info_t *objp, line_info_t lines, int offset)
	{
	int i, j;
	char *shstr;
	ElfW(Ehdr) *ehdr;
	ElfW(Shdr) shdr, shstr_shdr;
	ElfW(Shdr) *gnu_debuglink_shdr = NULL;
	ElfW(Shdr) *note_gnu_build_id = NULL;
	int fd;
	off_t filesize;
	char *file;
	ElfW(Shdr) symtab_shdr = NULL, strtab_shdr = NULL;
	ElfW(Shdr) dynsym_shdr = NULL, dynstr_shdr = NULL;
	obj_info_t obj = objp;
	uintptr_t dladdr_fbase = 0;

	fd = open(binary_filename, O_RDONLY);
	if (fd < 0) {
	goto fail;
	}
	filesize = lseek(fd, 0, SEEK_END);
	if (filesize < 0) {
	int e = errno;
	close(fd);
	kprintf("lseek: %s\n", strerror(e));
	goto fail;
	}
	#if SIZEOF_OFF_T > SIZEOF_SIZE_T
	if (filesize > (off_t)SIZE_MAX) {
	close(fd);
	kprintf("Too large file %s\n", binary_filename);
	goto fail;
	}
	#endif
	lseek(fd, 0, SEEK_SET);
	/* async-signal unsafe */
	file = (char *)mmap(NULL, (size_t)filesize, PROT_READ, MAP_SHARED, fd, 0);
	if (file == MAP_FAILED) {
	int e = errno;
	close(fd);
	kprintf("mmap: %s\n", strerror(e));
	goto fail;
	}
	close(fd);

	ehdr = (ElfW(Ehdr) *)file;
	if (memcmp(ehdr->e_ident, "\177ELF", 4) != 0) {
	/*
	* Huh? Maybe filename was overridden by setproctitle() and
	* it match non-elf file.
	*/
	goto fail;
	}
	obj->mapped = file;
	obj->mapped_size = (size_t)filesize;

	shdr = (ElfW(Shdr) *)(file + ehdr->e_shoff);

	shstr_shdr = shdr + ehdr->e_shstrndx;
	shstr = file + shstr_shdr->sh_offset;

	for (i = 0; i < ehdr->e_shnum; i++) {
	char *section_name = shstr + shdr[i].sh_name;
	switch (shdr[i].sh_type) {
	case SHT_STRTAB:
	if (!strcmp(section_name, ".strtab")) {
	strtab_shdr = shdr + i;
	}
	else if (!strcmp(section_name, ".dynstr")) {
	dynstr_shdr = shdr + i;
	}
	break;
	case SHT_SYMTAB:
	/* if (!strcmp(section_name, ".symtab")) */
	symtab_shdr = shdr + i;
	break;
	case SHT_DYNSYM:
	/* if (!strcmp(section_name, ".dynsym")) */
	dynsym_shdr = shdr + i;
	break;
	case SHT_NOTE:
	if (!strcmp(section_name, ".note.gnu.build-id")) {
	note_gnu_build_id = shdr + i;
	}
	break;
	case SHT_PROGBITS:
	if (!strcmp(section_name, ".gnu_debuglink")) {
	gnu_debuglink_shdr = shdr + i;
	}
	else {
	const char *debug_section_names[] = {
	".debug_abbrev",
	".debug_info",
	".debug_line",
	".debug_ranges",
	".debug_rnglists",
	".debug_str"
	};

	for (j=0; j < DWARF_SECTION_COUNT; j++) {
	struct dwarf_section *s = obj_dwarf_section_at(obj, j);

	if (strcmp(section_name, debug_section_names[j]) != 0)
	continue;

	s->ptr = file + shdr[i].sh_offset;
	s->size = shdr[i].sh_size;
	s->flags = shdr[i].sh_flags;
	if (s->flags & SHF_COMPRESSED) {
	s->size = uncompress_debug_section(&shdr[i], file, &s->ptr);
	if (!s->size) goto fail;
	}
	break;
	}
	}
	break;
	}
	}

	if (offset == -1) {
	/* main executable */
	offset = 0;
	if (dynsym_shdr && dynstr_shdr) {
	char *strtab = file + dynstr_shdr->sh_offset;
	ElfW(Sym) symtab = (ElfW(Sym) )(file + dynsym_shdr->sh_offset);
	int symtab_count = (int)(dynsym_shdr->sh_size / sizeof(ElfW(Sym)));
	void *handle = dlopen(NULL, RTLD_NOW\|RTLD_LOCAL);
	if (handle) {
	for (j = 0; j < symtab_count; j++) {
	ElfW(Sym) *sym = &symtab[j];
	Dl_info info;
	void *s;
	if (ELF_ST_TYPE(sym->st_info) != STT_FUNC \|\| sym->st_size == 0) continue;
	s = dlsym(handle, strtab + sym->st_name);
	if (s && dladdr(s, &info)) {
	obj->base_addr = dladdr_fbase;
	dladdr_fbase = (uintptr_t)info.dli_fbase;
	break;
	}
	}
	dlclose(handle);
	}
	if (ehdr->e_type == ET_EXEC) {
	obj->base_addr = 0;
	}
	else {
	/* PIE (position-independent executable) */
	obj->base_addr = dladdr_fbase;
	}
	}
	}

	if (obj->debug_info.ptr && obj->debug_abbrev.ptr) {
	DebugInfoReader reader;
	debug_info_reader_init(&reader, obj);
	i = 0;
	while (reader.p < reader.pend) {
	/* fprintf(stderr, "%d:%tx: CU[%d]\n", __LINE__, reader.p - reader.obj->debug_info.ptr, i++); */
	if (di_read_cu(&reader)) goto use_symtab;
	debug_info_read(&reader, num_traces, traces, lines, offset);
	}
	}
	else {
	/* This file doesn't have dwarf, use symtab or dynsym */
	use_symtab:
	if (!symtab_shdr) {
	/* This file doesn't have symtab, use dynsym instead */
	symtab_shdr = dynsym_shdr;
	strtab_shdr = dynstr_shdr;
	}

	if (symtab_shdr && strtab_shdr) {
	char *strtab = file + strtab_shdr->sh_offset;
	ElfW(Sym) symtab = (ElfW(Sym) )(file + symtab_shdr->sh_offset);
	int symtab_count = (int)(symtab_shdr->sh_size / sizeof(ElfW(Sym)));
	for (j = 0; j < symtab_count; j++) {
	ElfW(Sym) *sym = &symtab[j];
	uintptr_t saddr = (uintptr_t)sym->st_value + obj->base_addr;
	if (ELF_ST_TYPE(sym->st_info) != STT_FUNC) continue;
	for (i = offset; i < num_traces; i++) {
	uintptr_t d = (uintptr_t)traces[i] - saddr;
	if (lines[i].line > 0 \|\| d > (uintptr_t)sym->st_size)
	continue;
	/* fill symbol name and addr from .symtab */
	if (!lines[i].sname) lines[i].sname = strtab + sym->st_name;
	lines[i].saddr = saddr;
	lines[i].path = obj->path;
	lines[i].base_addr = obj->base_addr;
	}
	}
	}
	}

	if (!obj->debug_line.ptr) {
	/* This file doesn't have .debug_line section,
	let's check .gnu_debuglink section instead. */
	if (gnu_debuglink_shdr && check_debuglink) {
	follow_debuglink(file + gnu_debuglink_shdr->sh_offset,
	num_traces, traces,
	objp, lines, offset);
	}
	if (note_gnu_build_id && check_debuglink) {
	ElfW(Nhdr) nhdr = (ElfW(Nhdr)) (file + note_gnu_build_id->sh_offset);
	const char build_id = (char )(nhdr + 1) + nhdr->n_namesz;
	follow_debuglink_build_id(build_id, nhdr->n_descsz,
	num_traces, traces,
	objp, lines, offset);
	}
	goto finish;
	}

	if (parse_debug_line(num_traces, traces,
	obj->debug_line.ptr,
	obj->debug_line.size,
	obj, lines, offset) == -1)
	goto fail;

	finish:
	return dladdr_fbase;
	fail:
	return (uintptr_t)-1;
	}
	#else /* Mach-O */
	/* read file and fill lines */
	static uintptr_t
	fill_lines(int num_traces, void **traces, int check_debuglink,
	obj_info_t *objp, line_info_t lines, int offset)
	{
	# ifdef __LP64__
	# define LP(x) x##_64
	# else
	# define LP(x) x
	# endif
	int fd;
	off_t filesize;
	char file, p = NULL;
	obj_info_t obj = objp;
	struct LP(mach_header) *header;
	uintptr_t dladdr_fbase = 0;

	{
	char *s = binary_filename;
	char *base = strrchr(binary_filename, '/')+1;
	size_t max = PATH_MAX;
	size_t size = strlen(binary_filename);
	size_t basesize = size - (base - binary_filename);
	s += size;
	max -= size;
	p = s;
	size = strlcpy(s, ".dSYM/Contents/Resources/DWARF/", max);
	if (size == 0) goto fail;
	s += size;
	max -= size;
	if (max <= basesize) goto fail;
	memcpy(s, base, basesize);
	s[basesize] = 0;

	fd = open(binary_filename, O_RDONLY);
	if (fd < 0) {
	p = 0; / binary_filename becomes original file name */
	fd = open(binary_filename, O_RDONLY);
	if (fd < 0) {
	goto fail;
	}
	}
	}

	filesize = lseek(fd, 0, SEEK_END);
	if (filesize < 0) {
	int e = errno;
	close(fd);
	kprintf("lseek: %s\n", strerror(e));
	goto fail;
	}
	#if SIZEOF_OFF_T > SIZEOF_SIZE_T
	if (filesize > (off_t)SIZE_MAX) {
	close(fd);
	kprintf("Too large file %s\n", binary_filename);
	goto fail;
	}
	#endif
	lseek(fd, 0, SEEK_SET);
	/* async-signal unsafe */
	file = (char *)mmap(NULL, (size_t)filesize, PROT_READ, MAP_SHARED, fd, 0);
	if (file == MAP_FAILED) {
	int e = errno;
	close(fd);
	kprintf("mmap: %s\n", strerror(e));
	goto fail;
	}
	close(fd);

	obj->mapped = file;
	obj->mapped_size = (size_t)filesize;

	header = (struct LP(mach_header) *)file;
	if (header->magic == LP(MH_MAGIC)) {
	/* non universal binary */
	p = file;
	}
	else if (header->magic == FAT_CIGAM) {
	struct LP(mach_header) *mhp = _NSGetMachExecuteHeader();
	struct fat_header fat = (struct fat_header )file;
	char q = file + sizeof(fat);
	uint32_t nfat_arch = __builtin_bswap32(fat->nfat_arch);
	/* fprintf(stderr,"%d: fat:%s %d\n",__LINE__, binary_filename,nfat_arch); */
	for (uint32_t i = 0; i < nfat_arch; i++) {
	struct fat_arch arch = (struct fat_arch )q;
	cpu_type_t cputype = __builtin_bswap32(arch->cputype);
	cpu_subtype_t cpusubtype = __builtin_bswap32(arch->cpusubtype);
	uint32_t offset = __builtin_bswap32(arch->offset);
	/* fprintf(stderr,"%d: fat %d %x/%x %x/%x\n",__LINE__, i, mhp->cputype,mhp->cpusubtype, cputype,cpusubtype); */
	if (mhp->cputype == cputype &&
	(cpu_subtype_t)(mhp->cpusubtype & ~CPU_SUBTYPE_MASK) == cpusubtype) {
	p = file + offset;
	file = p;
	header = (struct LP(mach_header) *)p;
	if (header->magic == LP(MH_MAGIC)) {
	goto found_mach_header;
	}
	break;
	}
	q += sizeof(*arch);
	}
	kprintf("'%s' is not a Mach-O universal binary file!\n",binary_filename);
	close(fd);
	goto fail;
	}
	else {
	kprintf("'%s' is not a "
	# ifdef __LP64__
	"64"
	# else
	"32"
	# endif
	"-bit Mach-O file!\n",binary_filename);
	close(fd);
	goto fail;
	}
	found_mach_header:
	p += sizeof(*header);

	for (uint32_t i = 0; i < (uint32_t)header->ncmds; i++) {
	struct load_command lcmd = (struct load_command )p;
	switch (lcmd->cmd) {
	case LP(LC_SEGMENT):
	{
	static const char *debug_section_names[] = {
	"__debug_abbrev",
	"__debug_info",
	"__debug_line",
	"__debug_ranges",
	"__debug_rnglists",
	"__debug_str"
	};
	struct LP(segment_command) scmd = (struct LP(segment_command) )lcmd;
	if (strcmp(scmd->segname, "__TEXT") == 0) {
	obj->vmaddr = scmd->vmaddr;
	}
	else if (strcmp(scmd->segname, "__DWARF") == 0) {
	p += sizeof(struct LP(segment_command));
	for (uint64_t i = 0; i < scmd->nsects; i++) {
	struct LP(section) sect = (struct LP(section) )p;
	p += sizeof(struct LP(section));
	for (int j=0; j < DWARF_SECTION_COUNT; j++) {
	struct dwarf_section *s = obj_dwarf_section_at(obj, j);

	if (strcmp(sect->sectname, debug_section_names[j]) != 0)
	continue;

	s->ptr = file + sect->offset;
	s->size = sect->size;
	s->flags = sect->flags;
	if (s->flags & SHF_COMPRESSED) {
	goto fail;
	}
	break;
	}
	}
	}
	}
	break;

	case LC_SYMTAB:
	{
	struct symtab_command cmd = (struct symtab_command )lcmd;
	struct LP(nlist) nl = (struct LP(nlist) )(file + cmd->symoff);
	char strtab = file + cmd->stroff, sname = 0;
	uint32_t j;
	uintptr_t saddr = 0;
	/* kprintf("[%2d]: %x/symtab %p\n", i, cmd->cmd, p); */
	for (j = 0; j < cmd->nsyms; j++) {
	uintptr_t symsize, d;
	struct LP(nlist) *e = &nl[j];
	/* kprintf("[%2d][%4d]: %02x/%x/%x: %s %llx\n", i, j, e->n_type,e->n_sect,e->n_desc,strtab+e->n_un.n_strx,e->n_value); */
	if (e->n_type != N_FUN) continue;
	if (e->n_sect) {
	saddr = (uintptr_t)e->n_value + obj->base_addr - obj->vmaddr;
	sname = strtab + e->n_un.n_strx;
	/* kprintf("[%2d][%4d]: %02x/%x/%x: %s %llx\n", i, j, e->n_type,e->n_sect,e->n_desc,strtab+e->n_un.n_strx,e->n_value); */
	continue;
	}
	for (int k = offset; k < num_traces; k++) {
	d = (uintptr_t)traces[k] - saddr;
	symsize = e->n_value;
	/* kprintf("%lx %lx %lx\n",saddr,symsize,traces[k]); */
	if (lines[k].line > 0 \|\| d > (uintptr_t)symsize)
	continue;
	/* fill symbol name and addr from .symtab */
	if (!lines[k].sname) lines[k].sname = sname;
	lines[k].saddr = saddr;
	lines[k].path = obj->path;
	lines[k].base_addr = obj->base_addr;
	}
	}
	}
	}
	p += lcmd->cmdsize;
	}

	if (obj->debug_info.ptr && obj->debug_abbrev.ptr) {
	DebugInfoReader reader;
	debug_info_reader_init(&reader, obj);
	while (reader.p < reader.pend) {
	if (di_read_cu(&reader)) goto fail;
	debug_info_read(&reader, num_traces, traces, lines, offset);
	}
	}

	if (parse_debug_line(num_traces, traces,
	obj->debug_line.ptr,
	obj->debug_line.size,
	obj, lines, offset) == -1)
	goto fail;

	return dladdr_fbase;
	fail:
	return (uintptr_t)-1;
	}
	#endif

	#define HAVE_MAIN_EXE_PATH
	#if defined(__FreeBSD__) \|\| defined(__DragonFly__)
	# include <sys/sysctl.h>
	#endif
	/* ssize_t main_exe_path(void)
	*
	* store the path of the main executable to `binary_filename`,
	* and returns strlen(binary_filename).
	* it is NUL terminated.
	*/
	#if defined(__linux__) \|\| defined(__NetBSD__)
	static ssize_t
	main_exe_path(void)
	{
	# if defined(__linux__)
	# define PROC_SELF_EXE "/proc/self/exe"
	# elif defined(__NetBSD__)
	# define PROC_SELF_EXE "/proc/curproc/exe"
	# endif
	ssize_t len = readlink(PROC_SELF_EXE, binary_filename, PATH_MAX);
	if (len < 0) return 0;
	binary_filename[len] = 0;
	return len;
	}
	#elif defined(__FreeBSD__) \|\| defined(__DragonFly__)
	static ssize_t
	main_exe_path(void)
	{
	int mib[4] = {CTL_KERN, KERN_PROC, KERN_PROC_PATHNAME, -1};
	size_t len = PATH_MAX;
	int err = sysctl(mib, 4, binary_filename, &len, NULL, 0);
	if (err) {
	kprintf("Can't get the path of ruby");
	return -1;
	}
	len--; /* sysctl sets strlen+1 */
	return len;
	}
	#elif defined(HAVE_LIBPROC_H)
	static ssize_t
	main_exe_path(void)
	{
	int len = proc_pidpath(getpid(), binary_filename, PATH_MAX);
	if (len == 0) return 0;
	binary_filename[len] = 0;
	return len;
	}
	#else
	#undef HAVE_MAIN_EXE_PATH
	#endif

	static void
	print_line0(line_info_t line, void address)
	{
	uintptr_t addr = (uintptr_t)address;
	uintptr_t d = addr - line->saddr;
	if (!address) {
	/* inlined */
	if (line->dirname && line->dirname[0]) {
	kprintf("%s(%s) %s/%s:%d\n", line->path, line->sname, line->dirname, line->filename, line->line);
	}
	else {
	kprintf("%s(%s) %s:%d\n", line->path, line->sname, line->filename, line->line);
	}
	}
	else if (!line->path) {
	kprintf("[0x%"PRIxPTR"]\n", addr);
	}
	else if (!line->saddr \|\| !line->sname) {
	kprintf("%s(0x%"PRIxPTR") [0x%"PRIxPTR"]\n", line->path, addr-line->base_addr, addr);
	}
	else if (line->line <= 0) {
	kprintf("%s(%s+0x%"PRIxPTR") [0x%"PRIxPTR"]\n", line->path, line->sname,
	d, addr);
	}
	else if (!line->filename) {
	kprintf("%s(%s+0x%"PRIxPTR") [0x%"PRIxPTR"] ???:%d\n", line->path, line->sname,
	d, addr, line->line);
	}
	else if (line->dirname && line->dirname[0]) {
	kprintf("%s(%s+0x%"PRIxPTR") [0x%"PRIxPTR"] %s/%s:%d\n", line->path, line->sname,
	d, addr, line->dirname, line->filename, line->line);
	}
	else {
	kprintf("%s(%s+0x%"PRIxPTR") [0x%"PRIxPTR"] %s:%d\n", line->path, line->sname,
	d, addr, line->filename, line->line);
	}
	}

	static void
	print_line(line_info_t line, void address)
	{
	print_line0(line, address);
	if (line->next) {
	print_line(line->next, NULL);
	}
	}

	void
	rb_dump_backtrace_with_lines(int num_traces, void **traces)
	{
	int i;
	/* async-signal unsafe */
	line_info_t lines = (line_info_t )calloc(num_traces, sizeof(line_info_t));
	obj_info_t *obj = NULL;
	/* 2 is NULL + main executable */
	void dladdr_fbases = (void )calloc(num_traces+2, sizeof(void *));
	#ifdef HAVE_MAIN_EXE_PATH
	char main_path = NULL; / used on printing backtrace */
	ssize_t len;
	if ((len = main_exe_path()) > 0) {
	main_path = (char *)alloca(len + 1);
	if (main_path) {
	uintptr_t addr;
	memcpy(main_path, binary_filename, len+1);
	append_obj(&obj);
	obj->path = main_path;
	addr = fill_lines(num_traces, traces, 1, &obj, lines, -1);
	if (addr != (uintptr_t)-1) {
	dladdr_fbases[0] = (void *)addr;
	}
	}
	}
	#endif

	/* fill source lines by reading dwarf */
	for (i = 0; i < num_traces; i++) {
	Dl_info info;
	if (lines[i].line) continue;
	if (dladdr(traces[i], &info)) {
	const char *path;
	void **p;

	/* skip symbols which is in already checked objects */
	/* if the binary is strip-ed, this may effect */
	for (p=dladdr_fbases; *p; p++) {
	if (*p == info.dli_fbase) {
	lines[i].path = info.dli_fname;
	lines[i].sname = info.dli_sname;
	goto next_line;
	}
	}
	*p = info.dli_fbase;

	append_obj(&obj);
	obj->base_addr = (uintptr_t)info.dli_fbase;
	path = info.dli_fname;
	obj->path = path;
	lines[i].path = path;
	lines[i].sname = info.dli_sname;
	lines[i].saddr = (uintptr_t)info.dli_saddr;
	strlcpy(binary_filename, path, PATH_MAX);
	if (fill_lines(num_traces, traces, 1, &obj, lines, i) == (uintptr_t)-1)
	break;
	}
	next_line:
	continue;
	}

	/* output */
	for (i = 0; i < num_traces; i++) {
	print_line(&lines[i], traces[i]);

	/* FreeBSD's backtrace may show _start and so on */
	if (lines[i].sname && strcmp("main", lines[i].sname) == 0)
	break;
	}

	/* free */
	while (obj) {
	obj_info_t *o = obj;
	for (i=0; i < DWARF_SECTION_COUNT; i++) {
	struct dwarf_section *s = obj_dwarf_section_at(obj, i);
	if (s->flags & SHF_COMPRESSED) {
	free(s->ptr);
	}
	}
	if (obj->mapped_size) {
	munmap(obj->mapped, obj->mapped_size);
	}
	obj = o->next;
	free(o);
	}
	for (i = 0; i < num_traces; i++) {
	line_info_t *line = lines[i].next;
	while (line) {
	line_info_t *l = line;
	line = line->next;
	free(l);
	}
	}
	free(lines);
	free(dladdr_fbases);
	}

	/* From FreeBSD's lib/libstand/printf.c */
	/*-
	* Copyright (c) 1986, 1988, 1991, 1993
	* The Regents of the University of California. All rights reserved.
	* (c) UNIX System Laboratories, Inc.
	* All or some portions of this file are derived from material licensed
	* to the University of California by American Telephone and Telegraph
	* Co. or Unix System Laboratories, Inc. and are reproduced herein with
	* the permission of UNIX System Laboratories, Inc.
	*
	* Redistribution and use in source and binary forms, with or without
	* modification, are permitted provided that the following conditions
	* are met:
	* 1. Redistributions of source code must retain the above copyright
	* notice, this list of conditions and the following disclaimer.
	* 2. Redistributions in binary form must reproduce the above copyright
	* notice, this list of conditions and the following disclaimer in the
	* documentation and/or other materials provided with the distribution.
	* 4. Neither the name of the University nor the names of its contributors
	* may be used to endorse or promote products derived from this software
	* without specific prior written permission.
	*
	* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
	* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
	* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
	* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
	* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
	* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
	* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
	* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
	* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
	* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
	* SUCH DAMAGE.
	*
	* @(#)subr_prf.c 8.3 (Berkeley) 1/21/94
	*/

	#include <stdarg.h>
	#define MAXNBUF (sizeof(intmax_t) * CHAR_BIT + 1)
	static inline int toupper(int c) { return ('A' <= c && c <= 'Z') ? (c&0x5f) : c; }
	#define hex2ascii(hex) (hex2ascii_data[hex])
	static const char hex2ascii_data[] = "0123456789abcdefghijklmnopqrstuvwxyz";
	static inline int imax(int a, int b) { return (a > b ? a : b); }
	static int kvprintf(char const fmt, void (func)(int), void *arg, int radix, va_list ap);

	static void putce(int c)
	{
	char s[1];
	ssize_t ret;

	s[0] = (char)c;
	ret = write(2, s, 1);
	(void)ret;
	}

	static int
	kprintf(const char *fmt, ...)
	{
	va_list ap;
	int retval;

	va_start(ap, fmt);
	retval = kvprintf(fmt, putce, NULL, 10, ap);
	va_end(ap);
	return retval;
	}

	/*
	* Put a NUL-terminated ASCII number (base <= 36) in a buffer in reverse
	* order; return an optional length and a pointer to the last character
	* written in the buffer (i.e., the first character of the string).
	* The buffer pointed to by `nbuf' must have length >= MAXNBUF.
	*/
	static char *
	ksprintn(char nbuf, uintmax_t num, int base, int lenp, int upper)
	{
	char *p, c;

	p = nbuf;
	*p = '\0';
	do {
	c = hex2ascii(num % base);
	*++p = upper ? toupper(c) : c;
	} while (num /= base);
	if (lenp)
	*lenp = (int)(p - nbuf);
	return (p);
	}

	/*
	* Scaled down version of printf(3).
	*
	* Two additional formats:
	*
	* The format %b is supported to decode error registers.
	* Its usage is:
	*
	* printf("reg=%b\n", regval, "<base><arg>*");
	*
	* where <base> is the output base expressed as a control character, e.g.
	* \10 gives octal; \20 gives hex. Each arg is a sequence of characters,
	* the first of which gives the bit number to be inspected (origin 1), and
	* the next characters (up to a control character, i.e. a character <= 32),
	* give the name of the register. Thus:
	*
	* kvprintf("reg=%b\n", 3, "\10\2BITTWO\1BITONE\n");
	*
	* would produce output:
	*
	* reg=3<BITTWO,BITONE>
	*
	* XXX: %D -- Hexdump, takes pointer and separator string:
	* ("%6D", ptr, ":") -> XX:XX:XX:XX:XX:XX
	* ("%*D", len, ptr, " " -> XX XX XX XX ...
	*/
	static int
	kvprintf(char const fmt, void (func)(int), void *arg, int radix, va_list ap)
	{
	#define PCHAR(c) {int cc=(c); if (func) (func)(cc); else d++ = cc; retval++; }
	char nbuf[MAXNBUF];
	char *d;
	const char p, percent, *q;
	unsigned char *up;
	int ch, n;
	uintmax_t num;
	int base, lflag, qflag, tmp, width, ladjust, sharpflag, neg, sign, dot;
	int cflag, hflag, jflag, tflag, zflag;
	int dwidth, upper;
	char padc;
	int stop = 0, retval = 0;

	num = 0;
	if (!func)
	d = (char *) arg;
	else
	d = NULL;

	if (fmt == NULL)
	fmt = "(fmt null)\n";

	if (radix < 2 \|\| radix > 36)
	radix = 10;

	for (;;) {
	padc = ' ';
	width = 0;
	while ((ch = (unsigned char)*fmt++) != '%' \|\| stop) {
	if (ch == '\0')
	return (retval);
	PCHAR(ch);
	}
	percent = fmt - 1;
	qflag = 0; lflag = 0; ladjust = 0; sharpflag = 0; neg = 0;
	sign = 0; dot = 0; dwidth = 0; upper = 0;
	cflag = 0; hflag = 0; jflag = 0; tflag = 0; zflag = 0;
	reswitch: switch (ch = (unsigned char)*fmt++) {
	case '.':
	dot = 1;
	goto reswitch;
	case '#':
	sharpflag = 1;
	goto reswitch;
	case '+':
	sign = 1;
	goto reswitch;
	case '-':
	ladjust = 1;
	goto reswitch;
	case '%':
	PCHAR(ch);
	break;
	case '*':
	if (!dot) {
	width = va_arg(ap, int);
	if (width < 0) {
	ladjust = !ladjust;
	width = -width;
	}
	} else {
	dwidth = va_arg(ap, int);
	}
	goto reswitch;
	case '0':
	if (!dot) {
	padc = '0';
	goto reswitch;
	}
	case '1': case '2': case '3': case '4':
	case '5': case '6': case '7': case '8': case '9':
	for (n = 0;; ++fmt) {
	n = n * 10 + ch - '0';
	ch = *fmt;
	if (ch < '0' \|\| ch > '9')
	break;
	}
	if (dot)
	dwidth = n;
	else
	width = n;
	goto reswitch;
	case 'b':
	num = (unsigned int)va_arg(ap, int);
	p = va_arg(ap, char *);
	for (q = ksprintn(nbuf, num, p++, NULL, 0); q;)
	PCHAR(*q--);

	if (num == 0)
	break;

	for (tmp = 0; *p;) {
	n = *p++;
	if (num & (1 << (n - 1))) {
	PCHAR(tmp ? ',' : '<');
	for (; (n = *p) > ' '; ++p)
	PCHAR(n);
	tmp = 1;
	} else
	for (; *p > ' '; ++p)
	continue;
	}
	if (tmp)
	PCHAR('>');
	break;
	case 'c':
	PCHAR(va_arg(ap, int));
	break;
	case 'D':
	up = va_arg(ap, unsigned char *);
	p = va_arg(ap, char *);
	if (!width)
	width = 16;
	while(width--) {
	PCHAR(hex2ascii(*up >> 4));
	PCHAR(hex2ascii(*up & 0x0f));
	up++;
	if (width)
	for (q=p;*q;q++)
	PCHAR(*q);
	}
	break;
	case 'd':
	case 'i':
	base = 10;
	sign = 1;
	goto handle_sign;
	case 'h':
	if (hflag) {
	hflag = 0;
	cflag = 1;
	} else
	hflag = 1;
	goto reswitch;
	case 'j':
	jflag = 1;
	goto reswitch;
	case 'l':
	if (lflag) {
	lflag = 0;
	qflag = 1;
	} else
	lflag = 1;
	goto reswitch;
	case 'n':
	if (jflag)
	(va_arg(ap, intmax_t )) = retval;
	else if (qflag)
	(va_arg(ap, int64_t )) = retval;
	else if (lflag)
	(va_arg(ap, long )) = retval;
	else if (zflag)
	(va_arg(ap, size_t )) = retval;
	else if (hflag)
	(va_arg(ap, short )) = retval;
	else if (cflag)
	(va_arg(ap, char )) = retval;
	else
	(va_arg(ap, int )) = retval;
	break;
	case 'o':
	base = 8;
	goto handle_nosign;
	case 'p':
	base = 16;
	sharpflag = (width == 0);
	sign = 0;
	num = (uintptr_t)va_arg(ap, void *);
	goto number;
	case 'q':
	qflag = 1;
	goto reswitch;
	case 'r':
	base = radix;
	if (sign)
	goto handle_sign;
	goto handle_nosign;
	case 's':
	p = va_arg(ap, char *);
	if (p == NULL)
	p = "(null)";
	if (!dot)
	n = (int)strlen (p);
	else
	for (n = 0; n < dwidth && p[n]; n++)
	continue;

	width -= n;

	if (!ladjust && width > 0)
	while (width--)
	PCHAR(padc);
	while (n--)
	PCHAR(*p++);
	if (ladjust && width > 0)
	while (width--)
	PCHAR(padc);
	break;
	case 't':
	tflag = 1;
	goto reswitch;
	case 'u':
	base = 10;
	goto handle_nosign;
	case 'X':
	upper = 1;
	case 'x':
	base = 16;
	goto handle_nosign;
	case 'y':
	base = 16;
	sign = 1;
	goto handle_sign;
	case 'z':
	zflag = 1;
	goto reswitch;
	handle_nosign:
	sign = 0;
	if (jflag)
	num = va_arg(ap, uintmax_t);
	else if (qflag)
	num = va_arg(ap, uint64_t);
	else if (tflag)
	num = va_arg(ap, ptrdiff_t);
	else if (lflag)
	num = va_arg(ap, unsigned long);
	else if (zflag)
	num = va_arg(ap, size_t);
	else if (hflag)
	num = (unsigned short)va_arg(ap, int);
	else if (cflag)
	num = (unsigned char)va_arg(ap, int);
	else
	num = va_arg(ap, unsigned int);
	goto number;
	handle_sign:
	if (jflag)
	num = va_arg(ap, intmax_t);
	else if (qflag)
	num = va_arg(ap, int64_t);
	else if (tflag)
	num = va_arg(ap, ptrdiff_t);
	else if (lflag)
	num = va_arg(ap, long);
	else if (zflag)
	num = va_arg(ap, ssize_t);
	else if (hflag)
	num = (short)va_arg(ap, int);
	else if (cflag)
	num = (char)va_arg(ap, int);
	else
	num = va_arg(ap, int);
	number:
	if (sign && (intmax_t)num < 0) {
	neg = 1;
	num = -(intmax_t)num;
	}
	p = ksprintn(nbuf, num, base, &n, upper);
	tmp = 0;
	if (sharpflag && num != 0) {
	if (base == 8)
	tmp++;
	else if (base == 16)
	tmp += 2;
	}
	if (neg)
	tmp++;

	if (!ladjust && padc == '0')
	dwidth = width - tmp;
	width -= tmp + imax(dwidth, n);
	dwidth -= n;
	if (!ladjust)
	while (width-- > 0)
	PCHAR(' ');
	if (neg)
	PCHAR('-');
	if (sharpflag && num != 0) {
	if (base == 8) {
	PCHAR('0');
	} else if (base == 16) {
	PCHAR('0');
	PCHAR('x');
	}
	}
	while (dwidth-- > 0)
	PCHAR('0');

	while (*p)
	PCHAR(*p--);

	if (ladjust)
	while (width-- > 0)
	PCHAR(' ');

	break;
	default:
	while (percent < fmt)
	PCHAR(*percent++);
	/*
	* Since we ignore an formatting argument it is no
	* longer safe to obey the remaining formatting
	* arguments as the arguments will no longer match
	* the format specs.
	*/
	stop = 1;
	break;
	}
	}
	#undef PCHAR
	}
	#else /* defined(USE_ELF) */
	#error not supported
	#endif

Jul	OCT	Jan
	01
2020	2021	2022

ruby / ruby Public

ruby/addr2line.c