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/* DWARF 2 support.
   Copyright (C) 1994-2014 Free Software Foundation, Inc.

   Adapted from gdb/dwarf2read.c by Gavin Koch of Cygnus Solutions
   (gavin@cygnus.com).

   From the dwarf2read.c header:
   Adapted by Gary Funck (gary@intrepid.com), Intrepid Technology,
   Inc.  with support from Florida State University (under contract
   with the Ada Joint Program Office), and Silicon Graphics, Inc.
   Initial contribution by Brent Benson, Harris Computer Systems, Inc.,
   based on Fred Fish's (Cygnus Support) implementation of DWARF 1
   support in dwarfread.c

   This file is part of BFD.

   This program is free software; you can redistribute it and/or modify
   it under the terms of the GNU General Public License as published by
   the Free Software Foundation; either version 3 of the License, or (at
   your option) any later version.

   This program is distributed in the hope that it will be useful, but
   WITHOUT ANY WARRANTY; without even the implied warranty of
   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
   General Public License for more details.

   You should have received a copy of the GNU General Public License
   along with this program; if not, write to the Free Software
   Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston,
   MA 02110-1301, USA.  */

#include "sysdep.h"
#include "bfd.h"
#include "libiberty.h"
#include "libbfd.h"
#include "elf-bfd.h"
#include "dwarf2.h"

/* The data in the .debug_line statement prologue looks like this.  */

struct line_head
{
  bfd_vma total_length;
  unsigned short version;
  bfd_vma prologue_length;
  unsigned char minimum_instruction_length;
  unsigned char maximum_ops_per_insn;
  unsigned char default_is_stmt;
  int line_base;
  unsigned char line_range;
  unsigned char opcode_base;
  unsigned char *standard_opcode_lengths;
};

/* Attributes have a name and a value.  */

struct attribute
{
  enum dwarf_attribute name;
  enum dwarf_form form;
  union
  {
    char *str;
    struct dwarf_block *blk;
    bfd_uint64_t val;
    bfd_int64_t sval;
  }
  u;
};

/* Blocks are a bunch of untyped bytes.  */
struct dwarf_block
{
  unsigned int size;
  bfd_byte *data;
};

struct adjusted_section
{
  asection *section;
  bfd_vma adj_vma;
};

struct dwarf2_debug
{
  /* A list of all previously read comp_units.  */
  struct comp_unit *all_comp_units;

  /* Last comp unit in list above.  */
  struct comp_unit *last_comp_unit;

  /* Names of the debug sections.  */
  const struct dwarf_debug_section *debug_sections;

  /* The next unread compilation unit within the .debug_info section.
     Zero indicates that the .debug_info section has not been loaded
     into a buffer yet.  */
  bfd_byte *info_ptr;

  /* Pointer to the end of the .debug_info section memory buffer.  */
  bfd_byte *info_ptr_end;

  /* Pointer to the bfd, section and address of the beginning of the
     section.  The bfd might be different than expected because of
     gnu_debuglink sections.  */
  bfd *bfd_ptr;
  asection *sec;
  bfd_byte *sec_info_ptr;

  /* Support for alternate debug info sections created by the DWZ utility:
     This includes a pointer to an alternate bfd which contains *extra*,
     possibly duplicate debug sections, and pointers to the loaded
     .debug_str and .debug_info sections from this bfd.  */
  bfd *          alt_bfd_ptr;
  bfd_byte *     alt_dwarf_str_buffer;
  bfd_size_type  alt_dwarf_str_size;
  bfd_byte *     alt_dwarf_info_buffer;
  bfd_size_type  alt_dwarf_info_size;

  /* A pointer to the memory block allocated for info_ptr.  Neither
     info_ptr nor sec_info_ptr are guaranteed to stay pointing to the
     beginning of the malloc block.  This is used only to free the
     memory later.  */
  bfd_byte *info_ptr_memory;

  /* Pointer to the symbol table.  */
  asymbol **syms;

  /* Pointer to the .debug_abbrev section loaded into memory.  */
  bfd_byte *dwarf_abbrev_buffer;

  /* Length of the loaded .debug_abbrev section.  */
  bfd_size_type dwarf_abbrev_size;

  /* Buffer for decode_line_info.  */
  bfd_byte *dwarf_line_buffer;

  /* Length of the loaded .debug_line section.  */
  bfd_size_type dwarf_line_size;

  /* Pointer to the .debug_str section loaded into memory.  */
  bfd_byte *dwarf_str_buffer;

  /* Length of the loaded .debug_str section.  */
  bfd_size_type dwarf_str_size;

  /* Pointer to the .debug_ranges section loaded into memory. */
  bfd_byte *dwarf_ranges_buffer;

  /* Length of the loaded .debug_ranges section. */
  bfd_size_type dwarf_ranges_size;

  /* If the most recent call to bfd_find_nearest_line was given an
     address in an inlined function, preserve a pointer into the
     calling chain for subsequent calls to bfd_find_inliner_info to
     use. */
  struct funcinfo *inliner_chain;

  /* Number of sections whose VMA we must adjust.  */
  unsigned int adjusted_section_count;

  /* Array of sections with adjusted VMA.  */
  struct adjusted_section *adjusted_sections;

  /* Number of times find_line is called.  This is used in
     the heuristic for enabling the info hash tables.  */
  int info_hash_count;

#define STASH_INFO_HASH_TRIGGER    100

  /* Hash table mapping symbol names to function infos.  */
  struct info_hash_table *funcinfo_hash_table;

  /* Hash table mapping symbol names to variable infos.  */
  struct info_hash_table *varinfo_hash_table;

  /* Head of comp_unit list in the last hash table update.  */
  struct comp_unit *hash_units_head;

  /* Status of info hash.  */
  int info_hash_status;
#define STASH_INFO_HASH_OFF        0
#define STASH_INFO_HASH_ON         1
#define STASH_INFO_HASH_DISABLED   2

  /* True if we opened bfd_ptr.  */
  bfd_boolean close_on_cleanup;
};

struct arange
{
  struct arange *next;
  bfd_vma low;
  bfd_vma high;
};

/* A minimal decoding of DWARF2 compilation units.  We only decode
   what's needed to get to the line number information.  */

struct comp_unit
{
  /* Chain the previously read compilation units.  */
  struct comp_unit *next_unit;

  /* Likewise, chain the compilation unit read after this one.
     The comp units are stored in reversed reading order.  */
  struct comp_unit *prev_unit;

  /* Keep the bfd convenient (for memory allocation).  */
  bfd *abfd;

  /* The lowest and highest addresses contained in this compilation
     unit as specified in the compilation unit header.  */
  struct arange arange;

  /* The DW_AT_name attribute (for error messages).  */
  char *name;

  /* The abbrev hash table.  */
  struct abbrev_info **abbrevs;

  /* Note that an error was found by comp_unit_find_nearest_line.  */
  int error;

  /* The DW_AT_comp_dir attribute.  */
  char *comp_dir;

  /* TRUE if there is a line number table associated with this comp. unit.  */
  int stmtlist;

  /* Pointer to the current comp_unit so that we can find a given entry
     by its reference.  */
  bfd_byte *info_ptr_unit;

  /* Pointer to the start of the debug section, for DW_FORM_ref_addr.  */
  bfd_byte *sec_info_ptr;

  /* The offset into .debug_line of the line number table.  */
  unsigned long line_offset;

  /* Pointer to the first child die for the comp unit.  */
  bfd_byte *first_child_die_ptr;

  /* The end of the comp unit.  */
  bfd_byte *end_ptr;

  /* The decoded line number, NULL if not yet decoded.  */
  struct line_info_table *line_table;

  /* A list of the functions found in this comp. unit.  */
  struct funcinfo *function_table;

  /* A list of the variables found in this comp. unit.  */
  struct varinfo *variable_table;

  /* Pointer to dwarf2_debug structure.  */
  struct dwarf2_debug *stash;

  /* DWARF format version for this unit - from unit header.  */
  int version;

  /* Address size for this unit - from unit header.  */
  unsigned char addr_size;

  /* Offset size for this unit - from unit header.  */
  unsigned char offset_size;

  /* Base address for this unit - from DW_AT_low_pc attribute of
     DW_TAG_compile_unit DIE */
  bfd_vma base_address;

  /* TRUE if symbols are cached in hash table for faster lookup by name.  */
  bfd_boolean cached;
};

/* This data structure holds the information of an abbrev.  */
struct abbrev_info
{
  unsigned int number;		/* Number identifying abbrev.  */
  enum dwarf_tag tag;		/* DWARF tag.  */
  int has_children;		/* Boolean.  */
  unsigned int num_attrs;	/* Number of attributes.  */
  struct attr_abbrev *attrs;	/* An array of attribute descriptions.  */
  struct abbrev_info *next;	/* Next in chain.  */
};

struct attr_abbrev
{
  enum dwarf_attribute name;
  enum dwarf_form form;
};

/* Map of uncompressed DWARF debug section name to compressed one.  It
   is terminated by NULL uncompressed_name.  */

const struct dwarf_debug_section dwarf_debug_sections[] =
{
  { ".debug_abbrev",		".zdebug_abbrev" },
  { ".debug_aranges",		".zdebug_aranges" },
  { ".debug_frame",		".zdebug_frame" },
  { ".debug_info",		".zdebug_info" },
  { ".debug_info",		".zdebug_info" },
  { ".debug_line",		".zdebug_line" },
  { ".debug_loc",		".zdebug_loc" },
  { ".debug_macinfo",		".zdebug_macinfo" },
  { ".debug_macro",		".zdebug_macro" },
  { ".debug_pubnames",		".zdebug_pubnames" },
  { ".debug_pubtypes",		".zdebug_pubtypes" },
  { ".debug_ranges",		".zdebug_ranges" },
  { ".debug_static_func",	".zdebug_static_func" },
  { ".debug_static_vars",	".zdebug_static_vars" },
  { ".debug_str",		".zdebug_str", },
  { ".debug_str",		".zdebug_str", },
  { ".debug_types",		".zdebug_types" },
  /* GNU DWARF 1 extensions */
  { ".debug_sfnames",		".zdebug_sfnames" },
  { ".debug_srcinfo",		".zebug_srcinfo" },
  /* SGI/MIPS DWARF 2 extensions */
  { ".debug_funcnames",		".zdebug_funcnames" },
  { ".debug_typenames",		".zdebug_typenames" },
  { ".debug_varnames",		".zdebug_varnames" },
  { ".debug_weaknames",		".zdebug_weaknames" },
  { NULL,			NULL },
};

/* NB/ Numbers in this enum must match up with indicies
   into the dwarf_debug_sections[] array above.  */
enum dwarf_debug_section_enum
{
  debug_abbrev = 0,
  debug_aranges,
  debug_frame,
  debug_info,
  debug_info_alt,
  debug_line,
  debug_loc,
  debug_macinfo,
  debug_macro,
  debug_pubnames,
  debug_pubtypes,
  debug_ranges,
  debug_static_func,
  debug_static_vars,
  debug_str,
  debug_str_alt,
  debug_types,
  debug_sfnames,
  debug_srcinfo,
  debug_funcnames,
  debug_typenames,
  debug_varnames,
  debug_weaknames
};

#ifndef ABBREV_HASH_SIZE
#define ABBREV_HASH_SIZE 121
#endif
#ifndef ATTR_ALLOC_CHUNK
#define ATTR_ALLOC_CHUNK 4
#endif

/* Variable and function hash tables.  This is used to speed up look-up
   in lookup_symbol_in_var_table() and lookup_symbol_in_function_table().
   In order to share code between variable and function infos, we use
   a list of untyped pointer for all variable/function info associated with
   a symbol.  We waste a bit of memory for list with one node but that
   simplifies the code.  */

struct info_list_node
{
  struct info_list_node *next;
  void *info;
};

/* Info hash entry.  */
struct info_hash_entry
{
  struct bfd_hash_entry root;
  struct info_list_node *head;
};

struct info_hash_table
{
  struct bfd_hash_table base;
};

/* Function to create a new entry in info hash table. */

static struct bfd_hash_entry *
info_hash_table_newfunc (struct bfd_hash_entry *entry,
			 struct bfd_hash_table *table,
			 const char *string)
{
  struct info_hash_entry *ret = (struct info_hash_entry *) entry;

  /* Allocate the structure if it has not already been allocated by a
     derived class.  */
  if (ret == NULL)
    {
      ret = (struct info_hash_entry *) bfd_hash_allocate (table,
                                                          sizeof (* ret));
      if (ret == NULL)
	return NULL;
    }

  /* Call the allocation method of the base class.  */
  ret = ((struct info_hash_entry *)
	 bfd_hash_newfunc ((struct bfd_hash_entry *) ret, table, string));

  /* Initialize the local fields here.  */
  if (ret)
    ret->head = NULL;

  return (struct bfd_hash_entry *) ret;
}

/* Function to create a new info hash table.  It returns a pointer to the
   newly created table or NULL if there is any error.  We need abfd
   solely for memory allocation.  */

static struct info_hash_table *
create_info_hash_table (bfd *abfd)
{
  struct info_hash_table *hash_table;

  hash_table = ((struct info_hash_table *)
		bfd_alloc (abfd, sizeof (struct info_hash_table)));
  if (!hash_table)
    return hash_table;

  if (!bfd_hash_table_init (&hash_table->base, info_hash_table_newfunc,
			    sizeof (struct info_hash_entry)))
    {
      bfd_release (abfd, hash_table);
      return NULL;
    }

  return hash_table;
}

/* Insert an info entry into an info hash table.  We do not check of
   duplicate entries.  Also, the caller need to guarantee that the
   right type of info in inserted as info is passed as a void* pointer.
   This function returns true if there is no error.  */

static bfd_boolean
insert_info_hash_table (struct info_hash_table *hash_table,
			const char *key,
			void *info,
			bfd_boolean copy_p)
{
  struct info_hash_entry *entry;
  struct info_list_node *node;

  entry = (struct info_hash_entry*) bfd_hash_lookup (&hash_table->base,
						     key, TRUE, copy_p);
  if (!entry)
    return FALSE;

  node = (struct info_list_node *) bfd_hash_allocate (&hash_table->base,
                                                      sizeof (*node));
  if (!node)
    return FALSE;

  node->info = info;
  node->next = entry->head;
  entry->head = node;

  return TRUE;
}

/* Look up an info entry list from an info hash table.  Return NULL
   if there is none. */

static struct info_list_node *
lookup_info_hash_table (struct info_hash_table *hash_table, const char *key)
{
  struct info_hash_entry *entry;

  entry = (struct info_hash_entry*) bfd_hash_lookup (&hash_table->base, key,
						     FALSE, FALSE);
  return entry ? entry->head : NULL;
}

/* Read a section into its appropriate place in the dwarf2_debug
   struct (indicated by SECTION_BUFFER and SECTION_SIZE).  If SYMS is
   not NULL, use bfd_simple_get_relocated_section_contents to read the
   section contents, otherwise use bfd_get_section_contents.  Fail if
   the located section does not contain at least OFFSET bytes.  */

static bfd_boolean
read_section (bfd *           abfd,
	      const struct dwarf_debug_section *sec,
	      asymbol **      syms,
	      bfd_uint64_t    offset,
	      bfd_byte **     section_buffer,
	      bfd_size_type * section_size)
{
  asection *msec;
  const char *section_name = sec->uncompressed_name;

  /* The section may have already been read.  */
  if (*section_buffer == NULL)
    {
      msec = bfd_get_section_by_name (abfd, section_name);
      if (! msec)
	{
	  section_name = sec->compressed_name;
          if (section_name != NULL)
            msec = bfd_get_section_by_name (abfd, section_name);
	}
      if (! msec)
	{
	  (*_bfd_error_handler) (_("Dwarf Error: Can't find %s section."),
                                 sec->uncompressed_name);
	  bfd_set_error (bfd_error_bad_value);
	  return FALSE;
	}

      *section_size = msec->rawsize ? msec->rawsize : msec->size;
      if (syms)
	{
	  *section_buffer
	    = bfd_simple_get_relocated_section_contents (abfd, msec, NULL, syms);
	  if (! *section_buffer)
	    return FALSE;
	}
      else
	{
	  *section_buffer = (bfd_byte *) bfd_malloc (*section_size);
	  if (! *section_buffer)
	    return FALSE;
	  if (! bfd_get_section_contents (abfd, msec, *section_buffer,
					  0, *section_size))
	    return FALSE;
	}
    }

  /* It is possible to get a bad value for the offset into the section
     that the client wants.  Validate it here to avoid trouble later.  */
  if (offset != 0 && offset >= *section_size)
    {
      (*_bfd_error_handler) (_("Dwarf Error: Offset (%lu)"
			       " greater than or equal to %s size (%lu)."),
			     (long) offset, section_name, *section_size);
      bfd_set_error (bfd_error_bad_value);
      return FALSE;
    }

  return TRUE;
}

/* VERBATIM
   The following function up to the END VERBATIM mark are
   copied directly from dwarf2read.c.  */

/* Read dwarf information from a buffer.  */

static unsigned int
read_1_byte (bfd *abfd ATTRIBUTE_UNUSED, bfd_byte *buf)
{
  return bfd_get_8 (abfd, buf);
}

static int
read_1_signed_byte (bfd *abfd ATTRIBUTE_UNUSED, bfd_byte *buf)
{
  return bfd_get_signed_8 (abfd, buf);
}

static unsigned int
read_2_bytes (bfd *abfd, bfd_byte *buf)
{
  return bfd_get_16 (abfd, buf);
}

static unsigned int
read_4_bytes (bfd *abfd, bfd_byte *buf)
{
  return bfd_get_32 (abfd, buf);
}

static bfd_uint64_t
read_8_bytes (bfd *abfd, bfd_byte *buf)
{
  return bfd_get_64 (abfd, buf);
}

static bfd_byte *
read_n_bytes (bfd *abfd ATTRIBUTE_UNUSED,
	      bfd_byte *buf,
	      unsigned int size ATTRIBUTE_UNUSED)
{
  return buf;
}

static char *
read_string (bfd *abfd ATTRIBUTE_UNUSED,
	     bfd_byte *buf,
	     unsigned int *bytes_read_ptr)
{
  /* Return a pointer to the embedded string.  */
  char *str = (char *) buf;

  if (*str == '\0')
    {
      *bytes_read_ptr = 1;
      return NULL;
    }

  *bytes_read_ptr = strlen (str) + 1;
  return str;
}

/* END VERBATIM */

static char *
read_indirect_string (struct comp_unit * unit,
		      bfd_byte *         buf,
		      unsigned int *     bytes_read_ptr)
{
  bfd_uint64_t offset;
  struct dwarf2_debug *stash = unit->stash;
  char *str;

  if (unit->offset_size == 4)
    offset = read_4_bytes (unit->abfd, buf);
  else
    offset = read_8_bytes (unit->abfd, buf);

  *bytes_read_ptr = unit->offset_size;

  if (! read_section (unit->abfd, &stash->debug_sections[debug_str],
                      stash->syms, offset,
		      &stash->dwarf_str_buffer, &stash->dwarf_str_size))
    return NULL;

  str = (char *) stash->dwarf_str_buffer + offset;
  if (*str == '\0')
    return NULL;
  return str;
}

/* Like read_indirect_string but uses a .debug_str located in
   an alternate filepointed to by the .gnu_debuglink section.
   Used to impement DW_FORM_GNU_strp_alt.  */

static char *
read_alt_indirect_string (struct comp_unit * unit,
			  bfd_byte *         buf,
			  unsigned int *     bytes_read_ptr)
{
  bfd_uint64_t offset;
  struct dwarf2_debug *stash = unit->stash;
  char *str;

  if (unit->offset_size == 4)
    offset = read_4_bytes (unit->abfd, buf);
  else
    offset = read_8_bytes (unit->abfd, buf);

  *bytes_read_ptr = unit->offset_size;

  if (stash->alt_bfd_ptr == NULL)
    {
      bfd *  debug_bfd;
      char * debug_filename = bfd_follow_gnu_debugaltlink (unit->abfd, DEBUGDIR);

      if (debug_filename == NULL)
	return NULL;

      if ((debug_bfd = bfd_openr (debug_filename, NULL)) == NULL
	  || ! bfd_check_format (debug_bfd, bfd_object))
	{
	  if (debug_bfd)
	    bfd_close (debug_bfd);

	  /* FIXME: Should we report our failure to follow the debuglink ?  */
	  free (debug_filename);
	  return NULL;
	}
      stash->alt_bfd_ptr = debug_bfd;
    }
  
  if (! read_section (unit->stash->alt_bfd_ptr,
		      stash->debug_sections + debug_str_alt,
		      NULL, /* FIXME: Do we need to load alternate symbols ?  */
		      offset,
		      &stash->alt_dwarf_str_buffer,
		      &stash->alt_dwarf_str_size))
    return NULL;

  str = (char *) stash->alt_dwarf_str_buffer + offset;
  if (*str == '\0')
    return NULL;

  return str;
}

/* Resolve an alternate reference from UNIT at OFFSET.
   Returns a pointer into the loaded alternate CU upon success
   or NULL upon failure.  */

static bfd_byte *
read_alt_indirect_ref (struct comp_unit * unit,
		       bfd_uint64_t       offset)
{
  struct dwarf2_debug *stash = unit->stash;

  if (stash->alt_bfd_ptr == NULL)
    {
      bfd *  debug_bfd;
      char * debug_filename = bfd_follow_gnu_debugaltlink (unit->abfd, DEBUGDIR);

      if (debug_filename == NULL)
	return FALSE;

      if ((debug_bfd = bfd_openr (debug_filename, NULL)) == NULL
	  || ! bfd_check_format (debug_bfd, bfd_object))
	{
	  if (debug_bfd)
	    bfd_close (debug_bfd);

	  /* FIXME: Should we report our failure to follow the debuglink ?  */
	  free (debug_filename);
	  return NULL;
	}
      stash->alt_bfd_ptr = debug_bfd;
    }
  
  if (! read_section (unit->stash->alt_bfd_ptr,
		      stash->debug_sections + debug_info_alt,
		      NULL, /* FIXME: Do we need to load alternate symbols ?  */
		      offset,
		      &stash->alt_dwarf_info_buffer,
		      &stash->alt_dwarf_info_size))
    return NULL;

  return stash->alt_dwarf_info_buffer + offset;
}

static bfd_uint64_t
read_address (struct comp_unit *unit, bfd_byte *buf)
{
  int signed_vma = get_elf_backend_data (unit->abfd)->sign_extend_vma;

  if (signed_vma)
    {
      switch (unit->addr_size)
	{
	case 8:
	  return bfd_get_signed_64 (unit->abfd, buf);
	case 4:
	  return bfd_get_signed_32 (unit->abfd, buf);
	case 2:
	  return bfd_get_signed_16 (unit->abfd, buf);
	default:
	  abort ();
	}
    }
  else
    {
      switch (unit->addr_size)
	{
	case 8:
	  return bfd_get_64 (unit->abfd, buf);
	case 4:
	  return bfd_get_32 (unit->abfd, buf);
	case 2:
	  return bfd_get_16 (unit->abfd, buf);
	default:
	  abort ();
	}
    }
}

/* Lookup an abbrev_info structure in the abbrev hash table.  */

static struct abbrev_info *
lookup_abbrev (unsigned int number, struct abbrev_info **abbrevs)
{
  unsigned int hash_number;
  struct abbrev_info *abbrev;

  hash_number = number % ABBREV_HASH_SIZE;
  abbrev = abbrevs[hash_number];

  while (abbrev)
    {
      if (abbrev->number == number)
	return abbrev;
      else
	abbrev = abbrev->next;
    }

  return NULL;
}

/* In DWARF version 2, the description of the debugging information is
   stored in a separate .debug_abbrev section.  Before we read any
   dies from a section we read in all abbreviations and install them
   in a hash table.  */

static struct abbrev_info**
read_abbrevs (bfd *abfd, bfd_uint64_t offset, struct dwarf2_debug *stash)
{
  struct abbrev_info **abbrevs;
  bfd_byte *abbrev_ptr;
  struct abbrev_info *cur_abbrev;
  unsigned int abbrev_number, bytes_read, abbrev_name;
  unsigned int abbrev_form, hash_number;
  bfd_size_type amt;

  if (! read_section (abfd, &stash->debug_sections[debug_abbrev],
                      stash->syms, offset,
		      &stash->dwarf_abbrev_buffer, &stash->dwarf_abbrev_size))
    return NULL;

  amt = sizeof (struct abbrev_info*) * ABBREV_HASH_SIZE;
  abbrevs = (struct abbrev_info **) bfd_zalloc (abfd, amt);
  if (abbrevs == NULL)
    return NULL;

  abbrev_ptr = stash->dwarf_abbrev_buffer + offset;
  abbrev_number = read_unsigned_leb128 (abfd, abbrev_ptr, &bytes_read);
  abbrev_ptr += bytes_read;

  /* Loop until we reach an abbrev number of 0.  */
  while (abbrev_number)
    {
      amt = sizeof (struct abbrev_info);
      cur_abbrev = (struct abbrev_info *) bfd_zalloc (abfd, amt);
      if (cur_abbrev == NULL)
	return NULL;

      /* Read in abbrev header.  */
      cur_abbrev->number = abbrev_number;
      cur_abbrev->tag = (enum dwarf_tag)
	read_unsigned_leb128 (abfd, abbrev_ptr, &bytes_read);
      abbrev_ptr += bytes_read;
      cur_abbrev->has_children = read_1_byte (abfd, abbrev_ptr);
      abbrev_ptr += 1;

      /* Now read in declarations.  */
      abbrev_name = read_unsigned_leb128 (abfd, abbrev_ptr, &bytes_read);
      abbrev_ptr += bytes_read;
      abbrev_form = read_unsigned_leb128 (abfd, abbrev_ptr, &bytes_read);
      abbrev_ptr += bytes_read;

      while (abbrev_name)
	{
	  if ((cur_abbrev->num_attrs % ATTR_ALLOC_CHUNK) == 0)
	    {
	      struct attr_abbrev *tmp;

	      amt = cur_abbrev->num_attrs + ATTR_ALLOC_CHUNK;
	      amt *= sizeof (struct attr_abbrev);
	      tmp = (struct attr_abbrev *) bfd_realloc (cur_abbrev->attrs, amt);
	      if (tmp == NULL)
		{
		  size_t i;

		  for (i = 0; i < ABBREV_HASH_SIZE; i++)
		    {
		      struct abbrev_info *abbrev = abbrevs[i];

		      while (abbrev)
			{
			  free (abbrev->attrs);
			  abbrev = abbrev->next;
			}
		    }
		  return NULL;
		}
	      cur_abbrev->attrs = tmp;
	    }

	  cur_abbrev->attrs[cur_abbrev->num_attrs].name
	    = (enum dwarf_attribute) abbrev_name;
	  cur_abbrev->attrs[cur_abbrev->num_attrs++].form
	    = (enum dwarf_form) abbrev_form;
	  abbrev_name = read_unsigned_leb128 (abfd, abbrev_ptr, &bytes_read);
	  abbrev_ptr += bytes_read;
	  abbrev_form = read_unsigned_leb128 (abfd, abbrev_ptr, &bytes_read);
	  abbrev_ptr += bytes_read;
	}

      hash_number = abbrev_number % ABBREV_HASH_SIZE;
      cur_abbrev->next = abbrevs[hash_number];
      abbrevs[hash_number] = cur_abbrev;

      /* Get next abbreviation.
	 Under Irix6 the abbreviations for a compilation unit are not
	 always properly terminated with an abbrev number of 0.
	 Exit loop if we encounter an abbreviation which we have
	 already read (which means we are about to read the abbreviations
	 for the next compile unit) or if the end of the abbreviation
	 table is reached.  */
      if ((unsigned int) (abbrev_ptr - stash->dwarf_abbrev_buffer)
	  >= stash->dwarf_abbrev_size)
	break;
      abbrev_number = read_unsigned_leb128 (abfd, abbrev_ptr, &bytes_read);
      abbrev_ptr += bytes_read;
      if (lookup_abbrev (abbrev_number,abbrevs) != NULL)
	break;
    }

  return abbrevs;
}

/* Read an attribute value described by an attribute form.  */

static bfd_byte *
read_attribute_value (struct attribute *attr,
		      unsigned form,
		      struct comp_unit *unit,
		      bfd_byte *info_ptr)
{
  bfd *abfd = unit->abfd;
  unsigned int bytes_read;
  struct dwarf_block *blk;
  bfd_size_type amt;

  attr->form = (enum dwarf_form) form;

  switch (form)
    {
    case DW_FORM_ref_addr:
      /* DW_FORM_ref_addr is an address in DWARF2, and an offset in
	 DWARF3.  */
      if (unit->version == 3 || unit->version == 4)
	{
	  if (unit->offset_size == 4)
	    attr->u.val = read_4_bytes (unit->abfd, info_ptr);
	  else
	    attr->u.val = read_8_bytes (unit->abfd, info_ptr);
	  info_ptr += unit->offset_size;
	  break;
	}
      /* FALLTHROUGH */
    case DW_FORM_addr:
      attr->u.val = read_address (unit, info_ptr);
      info_ptr += unit->addr_size;
      break;
    case DW_FORM_GNU_ref_alt:
    case DW_FORM_sec_offset:
      if (unit->offset_size == 4)
	attr->u.val = read_4_bytes (unit->abfd, info_ptr);
      else
	attr->u.val = read_8_bytes (unit->abfd, info_ptr);
      info_ptr += unit->offset_size;
      break;
    case DW_FORM_block2:
      amt = sizeof (struct dwarf_block);
      blk = (struct dwarf_block *) bfd_alloc (abfd, amt);
      if (blk == NULL)
	return NULL;
      blk->size = read_2_bytes (abfd, info_ptr);
      info_ptr += 2;
      blk->data = read_n_bytes (abfd, info_ptr, blk->size);
      info_ptr += blk->size;
      attr->u.blk = blk;
      break;
    case DW_FORM_block4:
      amt = sizeof (struct dwarf_block);
      blk = (struct dwarf_block *) bfd_alloc (abfd, amt);
      if (blk == NULL)
	return NULL;
      blk->size = read_4_bytes (abfd, info_ptr);
      info_ptr += 4;
      blk->data = read_n_bytes (abfd, info_ptr, blk->size);
      info_ptr += blk->size;
      attr->u.blk = blk;
      break;
    case DW_FORM_data2:
      attr->u.val = read_2_bytes (abfd, info_ptr);
      info_ptr += 2;
      break;
    case DW_FORM_data4:
      attr->u.val = read_4_bytes (abfd, info_ptr);
      info_ptr += 4;
      break;
    case DW_FORM_data8:
      attr->u.val = read_8_bytes (abfd, info_ptr);
      info_ptr += 8;
      break;
    case DW_FORM_string:
      attr->u.str = read_string (abfd, info_ptr, &bytes_read);
      info_ptr += bytes_read;
      break;
    case DW_FORM_strp:
      attr->u.str = read_indirect_string (unit, info_ptr, &bytes_read);
      info_ptr += bytes_read;
      break;
    case DW_FORM_GNU_strp_alt:
      attr->u.str = read_alt_indirect_string (unit, info_ptr, &bytes_read);
      info_ptr += bytes_read;
      break;
    case DW_FORM_exprloc:
    case DW_FORM_block:
      amt = sizeof (struct dwarf_block);
      blk = (struct dwarf_block *) bfd_alloc (abfd, amt);
      if (blk == NULL)
	return NULL;
      blk->size = read_unsigned_leb128 (abfd, info_ptr, &bytes_read);
      info_ptr += bytes_read;
      blk->data = read_n_bytes (abfd, info_ptr, blk->size);
      info_ptr += blk->size;
      attr->u.blk = blk;
      break;
    case DW_FORM_block1:
      amt = sizeof (struct dwarf_block);
      blk = (struct dwarf_block *) bfd_alloc (abfd, amt);
      if (blk == NULL)
	return NULL;
      blk->size = read_1_byte (abfd, info_ptr);
      info_ptr += 1;
      blk->data = read_n_bytes (abfd, info_ptr, blk->size);
      info_ptr += blk->size;
      attr->u.blk = blk;
      break;
    case DW_FORM_data1:
      attr->u.val = read_1_byte (abfd, info_ptr);
      info_ptr += 1;
      break;
    case DW_FORM_flag:
      attr->u.val = read_1_byte (abfd, info_ptr);
      info_ptr += 1;
      break;
    case DW_FORM_flag_present:
      attr->u.val = 1;
      break;
    case DW_FORM_sdata:
      attr->u.sval = read_signed_leb128 (abfd, info_ptr, &bytes_read);
      info_ptr += bytes_read;
      break;
    case DW_FORM_udata:
      attr->u.val = read_unsigned_leb128 (abfd, info_ptr, &bytes_read);
      info_ptr += bytes_read;
      break;
    case DW_FORM_ref1:
      attr->u.val = read_1_byte (abfd, info_ptr);
      info_ptr += 1;
      break;
    case DW_FORM_ref2:
      attr->u.val = read_2_bytes (abfd, info_ptr);
      info_ptr += 2;
      break;
    case DW_FORM_ref4:
      attr->u.val = read_4_bytes (abfd, info_ptr);
      info_ptr += 4;
      break;
    case DW_FORM_ref8:
      attr->u.val = read_8_bytes (abfd, info_ptr);
      info_ptr += 8;
      break;
    case DW_FORM_ref_sig8:
      attr->u.val = read_8_bytes (abfd, info_ptr);
      info_ptr += 8;
      break;
    case DW_FORM_ref_udata:
      attr->u.val = read_unsigned_leb128 (abfd, info_ptr, &bytes_read);
      info_ptr += bytes_read;
      break;
    case DW_FORM_indirect:
      form = read_unsigned_leb128 (abfd, info_ptr, &bytes_read);
      info_ptr += bytes_read;
      info_ptr = read_attribute_value (attr, form, unit, info_ptr);
      break;
    default:
      (*_bfd_error_handler) (_("Dwarf Error: Invalid or unhandled FORM value: %#x."),
			     form);
      bfd_set_error (bfd_error_bad_value);
      return NULL;
    }
  return info_ptr;
}

/* Read an attribute described by an abbreviated attribute.  */

static bfd_byte *
read_attribute (struct attribute *attr,
		struct attr_abbrev *abbrev,
		struct comp_unit *unit,
		bfd_byte *info_ptr)
{
  attr->name = abbrev->name;
  info_ptr = read_attribute_value (attr, abbrev->form, unit, info_ptr);
  return info_ptr;
}

/* Source line information table routines.  */

#define FILE_ALLOC_CHUNK 5
#define DIR_ALLOC_CHUNK 5

struct line_info
{
  struct line_info* prev_line;
  bfd_vma address;
  char *filename;
  unsigned int line;
  unsigned int column;
  unsigned int discriminator;
  unsigned char op_index;
  unsigned char end_sequence;		/* End of (sequential) code sequence.  */
};

struct fileinfo
{
  char *name;
  unsigned int dir;
  unsigned int time;
  unsigned int size;
};

struct line_sequence
{
  bfd_vma               low_pc;
  struct line_sequence* prev_sequence;
  struct line_info*     last_line;  /* Largest VMA.  */
};

struct line_info_table
{
  bfd*                  abfd;
  unsigned int          num_files;
  unsigned int          num_dirs;
  unsigned int          num_sequences;
  char *                comp_dir;
  char **               dirs;
  struct fileinfo*      files;
  struct line_sequence* sequences;
  struct line_info*     lcl_head;   /* Local head; used in 'add_line_info'.  */
};

/* Remember some information about each function.  If the function is
   inlined (DW_TAG_inlined_subroutine) it may have two additional
   attributes, DW_AT_call_file and DW_AT_call_line, which specify the
   source code location where this function was inlined.  */

struct funcinfo
{
  /* Pointer to previous function in list of all functions.  */
  struct funcinfo *prev_func;
  /* Pointer to function one scope higher.  */
  struct funcinfo *caller_func;
  /* Source location file name where caller_func inlines this func.  */
  char *caller_file;
  /* Source location line number where caller_func inlines this func.  */
  int caller_line;
  /* Source location file name.  */
  char *file;
  /* Source location line number.  */
  int line;
  int tag;
  char *name;
  struct arange arange;
  /* Where the symbol is defined.  */
  asection *sec;
};

struct varinfo
{
  /* Pointer to previous variable in list of all variables */
  struct varinfo *prev_var;
  /* Source location file name */
  char *file;
  /* Source location line number */
  int line;
  int tag;
  char *name;
  bfd_vma addr;
  /* Where the symbol is defined */
  asection *sec;
  /* Is this a stack variable? */
  unsigned int stack: 1;
};

/* Return TRUE if NEW_LINE should sort after LINE.  */

static inline bfd_boolean
new_line_sorts_after (struct line_info *new_line, struct line_info *line)
{
  return (new_line->address > line->address
	  || (new_line->address == line->address
	      && (new_line->op_index > line->op_index
		  || (new_line->op_index == line->op_index
		      && new_line->end_sequence < line->end_sequence))));
}


/* Adds a new entry to the line_info list in the line_info_table, ensuring
   that the list is sorted.  Note that the line_info list is sorted from
   highest to lowest VMA (with possible duplicates); that is,
   line_info->prev_line always accesses an equal or smaller VMA.  */

static bfd_boolean
add_line_info (struct line_info_table *table,
	       bfd_vma address,
	       unsigned char op_index,
	       char *filename,
	       unsigned int line,
	       unsigned int column,
	       unsigned int discriminator,
	       int end_sequence)
{
  bfd_size_type amt = sizeof (struct line_info);
  struct line_sequence* seq = table->sequences;
  struct line_info* info = (struct line_info *) bfd_alloc (table->abfd, amt);

  if (info == NULL)
    return FALSE;

  /* Set member data of 'info'.  */
  info->prev_line = NULL;
  info->address = address;
  info->op_index = op_index;
  info->line = line;
  info->column = column;
  info->discriminator = discriminator;
  info->end_sequence = end_sequence;

  if (filename && filename[0])
    {
      info->filename = (char *) bfd_alloc (table->abfd, strlen (filename) + 1);
      if (info->filename == NULL)
	return FALSE;
      strcpy (info->filename, filename);
    }
  else
    info->filename = NULL;

  /* Find the correct location for 'info'.  Normally we will receive
     new line_info data 1) in order and 2) with increasing VMAs.
     However some compilers break the rules (cf. decode_line_info) and
     so we include some heuristics for quickly finding the correct
     location for 'info'. In particular, these heuristics optimize for
     the common case in which the VMA sequence that we receive is a
     list of locally sorted VMAs such as
       p...z a...j  (where a < j < p < z)

     Note: table->lcl_head is used to head an *actual* or *possible*
     sub-sequence within the list (such as a...j) that is not directly
     headed by table->last_line

     Note: we may receive duplicate entries from 'decode_line_info'.  */

  if (seq
      && seq->last_line->address == address
      && seq->last_line->op_index == op_index
      && seq->last_line->end_sequence == end_sequence)
    {
      /* We only keep the last entry with the same address and end
	 sequence.  See PR ld/4986.  */
      if (table->lcl_head == seq->last_line)
	table->lcl_head = info;
      info->prev_line = seq->last_line->prev_line;
      seq->last_line = info;
    }
  else if (!seq || seq->last_line->end_sequence)
    {
      /* Start a new line sequence.  */
      amt = sizeof (struct line_sequence);
      seq = (struct line_sequence *) bfd_malloc (amt);
      if (seq == NULL)
	return FALSE;
      seq->low_pc = address;
      seq->prev_sequence = table->sequences;
      seq->last_line = info;
      table->lcl_head = info;
      table->sequences = seq;
      table->num_sequences++;
    }
  else if (new_line_sorts_after (info, seq->last_line))
    {
      /* Normal case: add 'info' to the beginning of the current sequence.  */
      info->prev_line = seq->last_line;
      seq->last_line = info;

      /* lcl_head: initialize to head a *possible* sequence at the end.  */
      if (!table->lcl_head)
	table->lcl_head = info;
    }
  else if (!new_line_sorts_after (info, table->lcl_head)
	   && (!table->lcl_head->prev_line
	       || new_line_sorts_after (info, table->lcl_head->prev_line)))
    {
      /* Abnormal but easy: lcl_head is the head of 'info'.  */
      info->prev_line = table->lcl_head->prev_line;
      table->lcl_head->prev_line = info;
    }
  else
    {
      /* Abnormal and hard: Neither 'last_line' nor 'lcl_head'
	 are valid heads for 'info'.  Reset 'lcl_head'.  */
      struct line_info* li2 = seq->last_line; /* Always non-NULL.  */
      struct line_info* li1 = li2->prev_line;

      while (li1)
	{
	  if (!new_line_sorts_after (info, li2)
	      && new_line_sorts_after (info, li1))
	    break;

	  li2 = li1; /* always non-NULL */
	  li1 = li1->prev_line;
	}
      table->lcl_head = li2;
      info->prev_line = table->lcl_head->prev_line;
      table->lcl_head->prev_line = info;
      if (address < seq->low_pc)
        seq->low_pc = address;
    }
  return TRUE;
}

/* Extract a fully qualified filename from a line info table.
   The returned string has been malloc'ed and it is the caller's
   responsibility to free it.  */

static char *
concat_filename (struct line_info_table *table, unsigned int file)
{
  char *filename;

  if (file - 1 >= table->num_files)
    {
      /* FILE == 0 means unknown.  */
      if (file)
	(*_bfd_error_handler)
	  (_("Dwarf Error: mangled line number section (bad file number)."));
      return strdup ("<unknown>");
    }

  filename = table->files[file - 1].name;

  if (!IS_ABSOLUTE_PATH (filename))
    {
      char *dir_name = NULL;
      char *subdir_name = NULL;
      char *name;
      size_t len;

      if (table->files[file - 1].dir)
	subdir_name = table->dirs[table->files[file - 1].dir - 1];

      if (!subdir_name || !IS_ABSOLUTE_PATH (subdir_name))
	dir_name = table->comp_dir;

      if (!dir_name)
	{
	  dir_name = subdir_name;
	  subdir_name = NULL;
	}

      if (!dir_name)
	return strdup (filename);

      len = strlen (dir_name) + strlen (filename) + 2;

      if (subdir_name)
	{
	  len += strlen (subdir_name) + 1;
	  name = (char *) bfd_malloc (len);
	  if (name)
	    sprintf (name, "%s/%s/%s", dir_name, subdir_name, filename);
	}
      else
	{
	  name = (char *) bfd_malloc (len);
	  if (name)
	    sprintf (name, "%s/%s", dir_name, filename);
	}

      return name;
    }

  return strdup (filename);
}

static bfd_boolean
arange_add (const struct comp_unit *unit, struct arange *first_arange,
	    bfd_vma low_pc, bfd_vma high_pc)
{
  struct arange *arange;

  /* Ignore empty ranges.  */
  if (low_pc == high_pc)
    return TRUE;

  /* If the first arange is empty, use it.  */
  if (first_arange->high == 0)
    {
      first_arange->low = low_pc;
      first_arange->high = high_pc;
      return TRUE;
    }

  /* Next see if we can cheaply extend an existing range.  */
  arange = first_arange;
  do
    {
      if (low_pc == arange->high)
	{
	  arange->high = high_pc;
	  return TRUE;
	}
      if (high_pc == arange->low)
	{
	  arange->low = low_pc;
	  return TRUE;
	}
      arange = arange->next;
    }
  while (arange);

  /* Need to allocate a new arange and insert it into the arange list.
     Order isn't significant, so just insert after the first arange. */
  arange = (struct arange *) bfd_alloc (unit->abfd, sizeof (*arange));
  if (arange == NULL)
    return FALSE;
  arange->low = low_pc;
  arange->high = high_pc;
  arange->next = first_arange->next;
  first_arange->next = arange;
  return TRUE;
}

/* Compare function for line sequences.  */

static int
compare_sequences (const void* a, const void* b)
{
  const struct line_sequence* seq1 = a;
  const struct line_sequence* seq2 = b;

  /* Sort by low_pc as the primary key.  */
  if (seq1->low_pc < seq2->low_pc)
    return -1;
  if (seq1->low_pc > seq2->low_pc)
    return 1;

  /* If low_pc values are equal, sort in reverse order of
     high_pc, so that the largest region comes first.  */
  if (seq1->last_line->address < seq2->last_line->address)
    return 1;
  if (seq1->last_line->address > seq2->last_line->address)
    return -1;

  if (seq1->last_line->op_index < seq2->last_line->op_index)
    return 1;
  if (seq1->last_line->op_index > seq2->last_line->op_index)
    return -1;

  return 0;
}

/* Sort the line sequences for quick lookup.  */

static bfd_boolean
sort_line_sequences (struct line_info_table* table)
{
  bfd_size_type amt;
  struct line_sequence* sequences;
  struct line_sequence* seq;
  unsigned int n = 0;
  unsigned int num_sequences = table->num_sequences;
  bfd_vma last_high_pc;

  if (num_sequences == 0)
    return TRUE;

  /* Allocate space for an array of sequences.  */
  amt = sizeof (struct line_sequence) * num_sequences;
  sequences = (struct line_sequence *) bfd_alloc (table->abfd, amt);
  if (sequences == NULL)
    return FALSE;

  /* Copy the linked list into the array, freeing the original nodes.  */
  seq = table->sequences;
  for (n = 0; n < num_sequences; n++)
    {
      struct line_sequence* last_seq = seq;

      BFD_ASSERT (seq);
      sequences[n].low_pc = seq->low_pc;
      sequences[n].prev_sequence = NULL;
      sequences[n].last_line = seq->last_line;
      seq = seq->prev_sequence;
      free (last_seq);
    }
  BFD_ASSERT (seq == NULL);

  qsort (sequences, n, sizeof (struct line_sequence), compare_sequences);

  /* Make the list binary-searchable by trimming overlapping entries
     and removing nested entries.  */
  num_sequences = 1;
  last_high_pc = sequences[0].last_line->address;
  for (n = 1; n < table->num_sequences; n++)
    {
      if (sequences[n].low_pc < last_high_pc)
        {
	  if (sequences[n].last_line->address <= last_high_pc)
	    /* Skip nested entries.  */
	    continue;

	  /* Trim overlapping entries.  */
	  sequences[n].low_pc = last_high_pc;
        }
      last_high_pc = sequences[n].last_line->address;
      if (n > num_sequences)
        {
          /* Close up the gap.  */
          sequences[num_sequences].low_pc = sequences[n].low_pc;
          sequences[num_sequences].last_line = sequences[n].last_line;
        }
      num_sequences++;
    }

  table->sequences = sequences;
  table->num_sequences = num_sequences;
  return TRUE;
}

/* Decode the line number information for UNIT.  */

static struct line_info_table*
decode_line_info (struct comp_unit *unit, struct dwarf2_debug *stash)
{
  bfd *abfd = unit->abfd;
  struct line_info_table* table;
  bfd_byte *line_ptr;
  bfd_byte *line_end;
  struct line_head lh;
  unsigned int i, bytes_read, offset_size;
  char *cur_file, *cur_dir;
  unsigned char op_code, extended_op, adj_opcode;
  unsigned int exop_len;
  bfd_size_type amt;

  if (! read_section (abfd, &stash->debug_sections[debug_line],
                      stash->syms, unit->line_offset,
		      &stash->dwarf_line_buffer, &stash->dwarf_line_size))
    return NULL;

  amt = sizeof (struct line_info_table);
  table = (struct line_info_table *) bfd_alloc (abfd, amt);
  if (table == NULL)
    return NULL;
  table->abfd = abfd;
  table->comp_dir = unit->comp_dir;

  table->num_files = 0;
  table->files = NULL;

  table->num_dirs = 0;
  table->dirs = NULL;

  table->num_sequences = 0;
  table->sequences = NULL;

  table->lcl_head = NULL;

  line_ptr = stash->dwarf_line_buffer + unit->line_offset;

  /* Read in the prologue.  */
  lh.total_length = read_4_bytes (abfd, line_ptr);
  line_ptr += 4;
  offset_size = 4;
  if (lh.total_length == 0xffffffff)
    {
      lh.total_length = read_8_bytes (abfd, line_ptr);
      line_ptr += 8;
      offset_size = 8;
    }
  else if (lh.total_length == 0 && unit->addr_size == 8)
    {
      /* Handle (non-standard) 64-bit DWARF2 formats.  */
      lh.total_length = read_4_bytes (abfd, line_ptr);
      line_ptr += 4;
      offset_size = 8;
    }
  line_end = line_ptr + lh.total_length;
  lh.version = read_2_bytes (abfd, line_ptr);
  if (lh.version < 2 || lh.version > 4)
    {
      (*_bfd_error_handler)
	(_("Dwarf Error: Unhandled .debug_line version %d."), lh.version);
      bfd_set_error (bfd_error_bad_value);
      return NULL;
    }
  line_ptr += 2;
  if (offset_size == 4)
    lh.prologue_length = read_4_bytes (abfd, line_ptr);
  else
    lh.prologue_length = read_8_bytes (abfd, line_ptr);
  line_ptr += offset_size;
  lh.minimum_instruction_length = read_1_byte (abfd, line_ptr);
  line_ptr += 1;
  if (lh.version >= 4)
    {
      lh.maximum_ops_per_insn = read_1_byte (abfd, line_ptr);
      line_ptr += 1;
    }
  else
    lh.maximum_ops_per_insn = 1;
  if (lh.maximum_ops_per_insn == 0)
    {
      (*_bfd_error_handler)
	(_("Dwarf Error: Invalid maximum operations per instruction."));
      bfd_set_error (bfd_error_bad_value);
      return NULL;
    }
  lh.default_is_stmt = read_1_byte (abfd, line_ptr);
  line_ptr += 1;
  lh.line_base = read_1_signed_byte (abfd, line_ptr);
  line_ptr += 1;
  lh.line_range = read_1_byte (abfd, line_ptr);
  line_ptr += 1;
  lh.opcode_base = read_1_byte (abfd, line_ptr);
  line_ptr += 1;
  amt = lh.opcode_base * sizeof (unsigned char);
  lh.standard_opcode_lengths = (unsigned char *) bfd_alloc (abfd, amt);

  lh.standard_opcode_lengths[0] = 1;

  for (i = 1; i < lh.opcode_base; ++i)
    {
      lh.standard_opcode_lengths[i] = read_1_byte (abfd, line_ptr);
      line_ptr += 1;
    }

  /* Read directory table.  */
  while ((cur_dir = read_string (abfd, line_ptr, &bytes_read)) != NULL)
    {
      line_ptr += bytes_read;

      if ((table->num_dirs % DIR_ALLOC_CHUNK) == 0)
	{
	  char **tmp;

	  amt = table->num_dirs + DIR_ALLOC_CHUNK;
	  amt *= sizeof (char *);

	  tmp = (char **) bfd_realloc (table->dirs, amt);
	  if (tmp == NULL)
	    goto fail;
	  table->dirs = tmp;
	}

      table->dirs[table->num_dirs++] = cur_dir;
    }

  line_ptr += bytes_read;

  /* Read file name table.  */
  while ((cur_file = read_string (abfd, line_ptr, &bytes_read)) != NULL)
    {
      line_ptr += bytes_read;

      if ((table->num_files % FILE_ALLOC_CHUNK) == 0)
	{
	  struct fileinfo *tmp;

	  amt = table->num_files + FILE_ALLOC_CHUNK;
	  amt *= sizeof (struct fileinfo);

	  tmp = (struct fileinfo *) bfd_realloc (table->files, amt);
	  if (tmp == NULL)
	    goto fail;
	  table->files = tmp;
	}

      table->files[table->num_files].name = cur_file;
      table->files[table->num_files].dir =
	read_unsigned_leb128 (abfd, line_ptr, &bytes_read);
      line_ptr += bytes_read;
      table->files[table->num_files].time =
	read_unsigned_leb128 (abfd, line_ptr, &bytes_read);
      line_ptr += bytes_read;
      table->files[table->num_files].size =
	read_unsigned_leb128 (abfd, line_ptr, &bytes_read);
      line_ptr += bytes_read;
      table->num_files++;
    }

  line_ptr += bytes_read;

  /* Read the statement sequences until there's nothing left.  */
  while (line_ptr < line_end)
    {
      /* State machine registers.  */
      bfd_vma address = 0;
      unsigned char op_index = 0;
      char * filename = table->num_files ? concat_filename (table, 1) : NULL;
      unsigned int line = 1;
      unsigned int column = 0;
      unsigned int discriminator = 0;
      int is_stmt = lh.default_is_stmt;
      int end_sequence = 0;
      /* eraxxon@alumni.rice.edu: Against the DWARF2 specs, some
	 compilers generate address sequences that are wildly out of
	 order using DW_LNE_set_address (e.g. Intel C++ 6.0 compiler
	 for ia64-Linux).  Thus, to determine the low and high
	 address, we must compare on every DW_LNS_copy, etc.  */
      bfd_vma low_pc  = (bfd_vma) -1;
      bfd_vma high_pc = 0;

      /* Decode the table.  */
      while (! end_sequence)
	{
	  op_code = read_1_byte (abfd, line_ptr);
	  line_ptr += 1;

	  if (op_code >= lh.opcode_base)
	    {
	      /* Special operand.  */
	      adj_opcode = op_code - lh.opcode_base;
	      if (lh.maximum_ops_per_insn == 1)
		address += (adj_opcode / lh.line_range
			    * lh.minimum_instruction_length);
	      else
		{
		  address += ((op_index + adj_opcode / lh.line_range)
			      / lh.maximum_ops_per_insn
			      * lh.minimum_instruction_length);
		  op_index = ((op_index + adj_opcode / lh.line_range)
			      % lh.maximum_ops_per_insn);
		}
	      line += lh.line_base + (adj_opcode % lh.line_range);
	      /* Append row to matrix using current values.  */
	      if (!add_line_info (table, address, op_index, filename,
				  line, column, discriminator, 0))
		goto line_fail;
              discriminator = 0;
	      if (address < low_pc)
		low_pc = address;
	      if (address > high_pc)
		high_pc = address;
	    }
	  else switch (op_code)
	    {
	    case DW_LNS_extended_op:
	      exop_len = read_unsigned_leb128 (abfd, line_ptr, &bytes_read);
	      line_ptr += bytes_read;
	      extended_op = read_1_byte (abfd, line_ptr);
	      line_ptr += 1;

	      switch (extended_op)
		{
		case DW_LNE_end_sequence:
		  end_sequence = 1;
		  if (!add_line_info (table, address, op_index, filename, line,
				      column, discriminator, end_sequence))
		    goto line_fail;
                  discriminator = 0;
		  if (address < low_pc)
		    low_pc = address;
		  if (address > high_pc)
		    high_pc = address;
		  if (!arange_add (unit, &unit->arange, low_pc, high_pc))
		    goto line_fail;
		  break;
		case DW_LNE_set_address:
		  address = read_address (unit, line_ptr);
		  op_index = 0;
		  line_ptr += unit->addr_size;
		  break;
		case DW_LNE_define_file:
		  cur_file = read_string (abfd, line_ptr, &bytes_read);
		  line_ptr += bytes_read;
		  if ((table->num_files % FILE_ALLOC_CHUNK) == 0)
		    {
		      struct fileinfo *tmp;

		      amt = table->num_files + FILE_ALLOC_CHUNK;
		      amt *= sizeof (struct fileinfo);
		      tmp = (struct fileinfo *) bfd_realloc (table->files, amt);
		      if (tmp == NULL)
			goto line_fail;
		      table->files = tmp;
		    }
		  table->files[table->num_files].name = cur_file;
		  table->files[table->num_files].dir =
		    read_unsigned_leb128 (abfd, line_ptr, &bytes_read);
		  line_ptr += bytes_read;
		  table->files[table->num_files].time =
		    read_unsigned_leb128 (abfd, line_ptr, &bytes_read);
		  line_ptr += bytes_read;
		  table->files[table->num_files].size =
		    read_unsigned_leb128 (abfd, line_ptr, &bytes_read);
		  line_ptr += bytes_read;
		  table->num_files++;
		  break;
		case DW_LNE_set_discriminator:
		  discriminator =
                      read_unsigned_leb128 (abfd, line_ptr, &bytes_read);
		  line_ptr += bytes_read;
		  break;
		case DW_LNE_HP_source_file_correlation:
		  line_ptr += exop_len - 1;
		  break;
		default:
		  (*_bfd_error_handler)
		    (_("Dwarf Error: mangled line number section."));
		  bfd_set_error (bfd_error_bad_value);
		line_fail:
		  if (filename != NULL)
		    free (filename);
		  goto fail;
		}
	      break;
	    case DW_LNS_copy:
	      if (!add_line_info (table, address, op_index,
				  filename, line, column, discriminator, 0))
		goto line_fail;
              discriminator = 0;
	      if (address < low_pc)
		low_pc = address;
	      if (address > high_pc)
		high_pc = address;
	      break;
	    case DW_LNS_advance_pc:
	      if (lh.maximum_ops_per_insn == 1)
		address += (lh.minimum_instruction_length
			    * read_unsigned_leb128 (abfd, line_ptr,
						    &bytes_read));
	      else
		{
		  bfd_vma adjust = read_unsigned_leb128 (abfd, line_ptr,
							 &bytes_read);
		  address = ((op_index + adjust) / lh.maximum_ops_per_insn
			     * lh.minimum_instruction_length);
		  op_index = (op_index + adjust) % lh.maximum_ops_per_insn;
		}
	      line_ptr += bytes_read;
	      break;
	    case DW_LNS_advance_line:
	      line += read_signed_leb128 (abfd, line_ptr, &bytes_read);
	      line_ptr += bytes_read;
	      break;
	    case DW_LNS_set_file:
	      {
		unsigned int file;

		/* The file and directory tables are 0
		   based, the references are 1 based.  */
		file = read_unsigned_leb128 (abfd, line_ptr, &bytes_read);
		line_ptr += bytes_read;
		if (filename)
		  free (filename);
		filename = concat_filename (table, file);
		break;
	      }
	    case DW_LNS_set_column:
	      column = read_unsigned_leb128 (abfd, line_ptr, &bytes_read);
	      line_ptr += bytes_read;
	      break;
	    case DW_LNS_negate_stmt:
	      is_stmt = (!is_stmt);
	      break;
	    case DW_LNS_set_basic_block:
	      break;
	    case DW_LNS_const_add_pc:
	      if (lh.maximum_ops_per_insn == 1)
		address += (lh.minimum_instruction_length
			    * ((255 - lh.opcode_base) / lh.line_range));
	      else
		{
		  bfd_vma adjust = ((255 - lh.opcode_base) / lh.line_range);
		  address += (lh.minimum_instruction_length
			      * ((op_index + adjust)
				 / lh.maximum_ops_per_insn));
		  op_index = (op_index + adjust) % lh.maximum_ops_per_insn;
		}
	      break;
	    case DW_LNS_fixed_advance_pc:
	      address += read_2_bytes (abfd, line_ptr);
	      op_index = 0;
	      line_ptr += 2;
	      break;
	    default:
	      /* Unknown standard opcode, ignore it.  */
	      for (i = 0; i < lh.standard_opcode_lengths[op_code]; i++)
		{
		  (void) read_unsigned_leb128 (abfd, line_ptr, &bytes_read);
		  line_ptr += bytes_read;
		}
	      break;
	    }
	}

      if (filename)
	free (filename);
    }

  if (sort_line_sequences (table))
    return table;

 fail:
  if (table->sequences != NULL)
    free (table->sequences);
  if (table->files != NULL)
    free (table->files);
  if (table->dirs != NULL)
    free (table->dirs);
  return NULL;
}

/* If ADDR is within TABLE set the output parameters and return the
   range of addresses covered by the entry used to fill them out.
   Otherwise set * FILENAME_PTR to NULL and return 0.
   The parameters FILENAME_PTR, LINENUMBER_PTR and DISCRIMINATOR_PTR
   are pointers to the objects to be filled in.  */

static bfd_vma
lookup_address_in_line_info_table (struct line_info_table *table,
				   bfd_vma addr,
				   const char **filename_ptr,
				   unsigned int *linenumber_ptr,
				   unsigned int *discriminator_ptr)
{
  struct line_sequence *seq = NULL;
  struct line_info *each_line;
  int low, high, mid;

  /* Binary search the array of sequences.  */
  low = 0;
  high = table->num_sequences;
  while (low < high)
    {
      mid = (low + high) / 2;
      seq = &table->sequences[mid];
      if (addr < seq->low_pc)
	high = mid;
      else if (addr >= seq->last_line->address)
	low = mid + 1;
      else
	break;
    }

  if (seq && addr >= seq->low_pc && addr < seq->last_line->address)
    {
      /* Note: seq->last_line should be a descendingly sorted list.  */
      for (each_line = seq->last_line;
           each_line;
           each_line = each_line->prev_line)
        if (addr >= each_line->address)
          break;

      if (each_line
          && !(each_line->end_sequence || each_line == seq->last_line))
        {
          *filename_ptr = each_line->filename;
          *linenumber_ptr = each_line->line;
          if (discriminator_ptr)
            *discriminator_ptr = each_line->discriminator;
          return seq->last_line->address - seq->low_pc;
        }
    }

  *filename_ptr = NULL;
  return 0;
}

/* Read in the .debug_ranges section for future reference.  */

static bfd_boolean
read_debug_ranges (struct comp_unit *unit)
{
  struct dwarf2_debug *stash = unit->stash;
  return read_section (unit->abfd, &stash->debug_sections[debug_ranges],
                       stash->syms, 0,
		       &stash->dwarf_ranges_buffer, &stash->dwarf_ranges_size);
}

/* Function table functions.  */

/* If ADDR is within UNIT's function tables, set FUNCTIONNAME_PTR, and return
   TRUE.  Note that we need to find the function that has the smallest range
   that contains ADDR, to handle inlined functions without depending upon
   them being ordered in TABLE by increasing range.  */

static bfd_boolean
lookup_address_in_function_table (struct comp_unit *unit,
				  bfd_vma addr,
				  struct funcinfo **function_ptr,
				  const char **functionname_ptr)
{
  struct funcinfo* each_func;
  struct funcinfo* best_fit = NULL;
  struct arange *arange;

  for (each_func = unit->function_table;
       each_func;
       each_func = each_func->prev_func)
    {
      for (arange = &each_func->arange;
	   arange;
	   arange = arange->next)
	{
	  if (addr >= arange->low && addr < arange->high)
	    {
	      if (!best_fit
		  || (arange->high - arange->low
		      < best_fit->arange.high - best_fit->arange.low))
		best_fit = each_func;
	    }
	}
    }

  if (best_fit)
    {
      *functionname_ptr = best_fit->name;
      *function_ptr = best_fit;
      return TRUE;
    }
  else
    {
      return FALSE;
    }
}

/* If SYM at ADDR is within function table of UNIT, set FILENAME_PTR
   and LINENUMBER_PTR, and return TRUE.  */

static bfd_boolean
lookup_symbol_in_function_table (struct comp_unit *unit,
				 asymbol *sym,
				 bfd_vma addr,
				 const char **filename_ptr,
				 unsigned int *linenumber_ptr)
{
  struct funcinfo* each_func;
  struct funcinfo* best_fit = NULL;
  struct arange *arange;
  const char *name = bfd_asymbol_name (sym);
  asection *sec = bfd_get_section (sym);

  for (each_func = unit->function_table;
       each_func;
       each_func = each_func->prev_func)
    {
      for (arange = &each_func->arange;
	   arange;
	   arange = arange->next)
	{
	  if ((!each_func->sec || each_func->sec == sec)
	      && addr >= arange->low
	      && addr < arange->high
	      && each_func->name
	      && strcmp (name, each_func->name) == 0
	      && (!best_fit
		  || (arange->high - arange->low
		      < best_fit->arange.high - best_fit->arange.low)))
	    best_fit = each_func;
	}
    }

  if (best_fit)
    {
      best_fit->sec = sec;
      *filename_ptr = best_fit->file;
      *linenumber_ptr = best_fit->line;
      return TRUE;
    }
  else
    return FALSE;
}

/* Variable table functions.  */

/* If SYM is within variable table of UNIT, set FILENAME_PTR and
   LINENUMBER_PTR, and return TRUE.  */

static bfd_boolean
lookup_symbol_in_variable_table (struct comp_unit *unit,
				 asymbol *sym,
				 bfd_vma addr,
				 const char **filename_ptr,
				 unsigned int *linenumber_ptr)
{
  const char *name = bfd_asymbol_name (sym);
  asection *sec = bfd_get_section (sym);
  struct varinfo* each;

  for (each = unit->variable_table; each; each = each->prev_var)
    if (each->stack == 0
	&& each->file != NULL
	&& each->name != NULL
	&& each->addr == addr
	&& (!each->sec || each->sec == sec)
	&& strcmp (name, each->name) == 0)
      break;

  if (each)
    {
      each->sec = sec;
      *filename_ptr = each->file;
      *linenumber_ptr = each->line;
      return TRUE;
    }
  else
    return FALSE;
}

static char *
find_abstract_instance_name (struct comp_unit *unit,
			     struct attribute *attr_ptr)
{
  bfd *abfd = unit->abfd;
  bfd_byte *info_ptr;
  unsigned int abbrev_number, bytes_read, i;
  struct abbrev_info *abbrev;
  bfd_uint64_t die_ref = attr_ptr->u.val;
  struct attribute attr;
  char *name = NULL;

  /* DW_FORM_ref_addr can reference an entry in a different CU. It
     is an offset from the .debug_info section, not the current CU.  */
  if (attr_ptr->form == DW_FORM_ref_addr)
    {
      /* We only support DW_FORM_ref_addr within the same file, so
	 any relocations should be resolved already.  */
      if (!die_ref)
	abort ();

      info_ptr = unit->sec_info_ptr + die_ref;

      /* Now find the CU containing this pointer.  */
      if (info_ptr >= unit->info_ptr_unit && info_ptr < unit->end_ptr)
	;
      else
	{
	  /* Check other CUs to see if they contain the abbrev.  */
	  struct comp_unit * u;

	  for (u = unit->prev_unit; u != NULL; u = u->prev_unit)
	    if (info_ptr >= u->info_ptr_unit && info_ptr < u->end_ptr)
	      break;

	  if (u == NULL)
	    for (u = unit->next_unit; u != NULL; u = u->next_unit)
	      if (info_ptr >= u->info_ptr_unit && info_ptr < u->end_ptr)
		break;

	  if (u)
	    unit = u;
	  /* else FIXME: What do we do now ?  */
	}
    }
  else if (attr_ptr->form == DW_FORM_GNU_ref_alt)
    {
      info_ptr = read_alt_indirect_ref (unit, die_ref);
      if (info_ptr == NULL)
	{
	  (*_bfd_error_handler)
	    (_("Dwarf Error: Unable to read alt ref %u."), die_ref);
	  bfd_set_error (bfd_error_bad_value);
	  return name;
	}
      /* FIXME: Do we need to locate the correct CU, in a similar
	 fashion to the code in the DW_FORM_ref_addr case above ?  */
    }
  else
    info_ptr = unit->info_ptr_unit + die_ref;

  abbrev_number = read_unsigned_leb128 (abfd, info_ptr, &bytes_read);
  info_ptr += bytes_read;

  if (abbrev_number)
    {
      abbrev = lookup_abbrev (abbrev_number, unit->abbrevs);
      if (! abbrev)
	{
	  (*_bfd_error_handler)
	    (_("Dwarf Error: Could not find abbrev number %u."), abbrev_number);
	  bfd_set_error (bfd_error_bad_value);
	}
      else
	{
	  for (i = 0; i < abbrev->num_attrs; ++i)
	    {
	      info_ptr = read_attribute (&attr, &abbrev->attrs[i], unit,
					 info_ptr);
	      if (info_ptr == NULL)
		break;
	      switch (attr.name)
		{
		case DW_AT_name:
		  /* Prefer DW_AT_MIPS_linkage_name or DW_AT_linkage_name
		     over DW_AT_name.  */
		  if (name == NULL)
		    name = attr.u.str;
		  break;
		case DW_AT_specification:
		  name = find_abstract_instance_name (unit, &attr);
		  break;
		case DW_AT_linkage_name:
		case DW_AT_MIPS_linkage_name:
		  name = attr.u.str;
		  break;
		default:
		  break;
		}
	    }
	}
    }
  return name;
}

static bfd_boolean
read_rangelist (struct comp_unit *unit, struct arange *arange,
		bfd_uint64_t offset)
{
  bfd_byte *ranges_ptr;
  bfd_vma base_address = unit->base_address;

  if (! unit->stash->dwarf_ranges_buffer)
    {
      if (! read_debug_ranges (unit))
	return FALSE;
    }
  ranges_ptr = unit->stash->dwarf_ranges_buffer + offset;

  for (;;)
    {
      bfd_vma low_pc;
      bfd_vma high_pc;

      low_pc = read_address (unit, ranges_ptr);
      ranges_ptr += unit->addr_size;
      high_pc = read_address (unit, ranges_ptr);
      ranges_ptr += unit->addr_size;

      if (low_pc == 0 && high_pc == 0)
	break;
      if (low_pc == -1UL && high_pc != -1UL)
	base_address = high_pc;
      else
	{
	  if (!arange_add (unit, arange,
			   base_address + low_pc, base_address + high_pc))
	    return FALSE;
	}
    }
  return TRUE;
}

/* DWARF2 Compilation unit functions.  */

/* Scan over each die in a comp. unit looking for functions to add
   to the function table and variables to the variable table.  */

static bfd_boolean
scan_unit_for_symbols (struct comp_unit *unit)
{
  bfd *abfd = unit->abfd;
  bfd_byte *info_ptr = unit->first_child_die_ptr;
  int nesting_level = 1;
  struct funcinfo **nested_funcs;
  int nested_funcs_size;

  /* Maintain a stack of in-scope functions and inlined functions, which we
     can use to set the caller_func field.  */
  nested_funcs_size = 32;
  nested_funcs = (struct funcinfo **)
    bfd_malloc (nested_funcs_size * sizeof (struct funcinfo *));
  if (nested_funcs == NULL)
    return FALSE;
  nested_funcs[nesting_level] = 0;

  while (nesting_level)
    {
      unsigned int abbrev_number, bytes_read, i;
      struct abbrev_info *abbrev;
      struct attribute attr;
      struct funcinfo *func;
      struct varinfo *var;
      bfd_vma low_pc = 0;
      bfd_vma high_pc = 0;
      bfd_boolean high_pc_relative = FALSE;

      abbrev_number = read_unsigned_leb128 (abfd, info_ptr, &bytes_read);
      info_ptr += bytes_read;

      if (! abbrev_number)
	{
	  nesting_level--;
	  continue;
	}

      abbrev = lookup_abbrev (abbrev_number,unit->abbrevs);
      if (! abbrev)
	{
	  (*_bfd_error_handler)
	    (_("Dwarf Error: Could not find abbrev number %u."),
	     abbrev_number);
	  bfd_set_error (bfd_error_bad_value);
	  goto fail;
	}

      var = NULL;
      if (abbrev->tag == DW_TAG_subprogram
	  || abbrev->tag == DW_TAG_entry_point
	  || abbrev->tag == DW_TAG_inlined_subroutine)
	{
	  bfd_size_type amt = sizeof (struct funcinfo);
	  func = (struct funcinfo *) bfd_zalloc (abfd, amt);
	  if (func == NULL)
	    goto fail;
	  func->tag = abbrev->tag;
	  func->prev_func = unit->function_table;
	  unit->function_table = func;
	  BFD_ASSERT (!unit->cached);

	  if (func->tag == DW_TAG_inlined_subroutine)
	    for (i = nesting_level - 1; i >= 1; i--)
	      if (nested_funcs[i])
		{
		  func->caller_func = nested_funcs[i];
		  break;
		}
	  nested_funcs[nesting_level] = func;
	}
      else
	{
	  func = NULL;
	  if (abbrev->tag == DW_TAG_variable)
	    {
	      bfd_size_type amt = sizeof (struct varinfo);
	      var = (struct varinfo *) bfd_zalloc (abfd, amt);
	      if (var == NULL)
		goto fail;
	      var->tag = abbrev->tag;
	      var->stack = 1;
	      var->prev_var = unit->variable_table;
	      unit->variable_table = var;
	      BFD_ASSERT (!unit->cached);
	    }

	  /* No inline function in scope at this nesting level.  */
	  nested_funcs[nesting_level] = 0;
	}

      for (i = 0; i < abbrev->num_attrs; ++i)
	{
	  info_ptr = read_attribute (&attr, &abbrev->attrs[i], unit, info_ptr);
	  if (info_ptr == NULL)
	    goto fail;

	  if (func)
	    {
	      switch (attr.name)
		{
		case DW_AT_call_file:
		  func->caller_file = concat_filename (unit->line_table,
						       attr.u.val);
		  break;

		case DW_AT_call_line:
		  func->caller_line = attr.u.val;
		  break;

		case DW_AT_abstract_origin:
		case DW_AT_specification:
		  func->name = find_abstract_instance_name (unit, &attr);
		  break;

		case DW_AT_name:
		  /* Prefer DW_AT_MIPS_linkage_name or DW_AT_linkage_name
		     over DW_AT_name.  */
		  if (func->name == NULL)
		    func->name = attr.u.str;
		  break;

		case DW_AT_linkage_name:
		case DW_AT_MIPS_linkage_name:
		  func->name = attr.u.str;
		  break;

		case DW_AT_low_pc:
		  low_pc = attr.u.val;
		  break;

		case DW_AT_high_pc:
		  high_pc = attr.u.val;
		  high_pc_relative = attr.form != DW_FORM_addr;
		  break;

		case DW_AT_ranges:
		  if (!read_rangelist (unit, &func->arange, attr.u.val))
		    goto fail;
		  break;

		case DW_AT_decl_file:
		  func->file = concat_filename (unit->line_table,
						attr.u.val);
		  break;

		case DW_AT_decl_line:
		  func->line = attr.u.val;
		  break;

		default:
		  break;
		}
	    }
	  else if (var)
	    {
	      switch (attr.name)
		{
		case DW_AT_name:
		  var->name = attr.u.str;
		  break;

		case DW_AT_decl_file:
		  var->file = concat_filename (unit->line_table,
					       attr.u.val);
		  break;

		case DW_AT_decl_line:
		  var->line = attr.u.val;
		  break;

		case DW_AT_external:
		  if (attr.u.val != 0)
		    var->stack = 0;
		  break;

		case DW_AT_location:
		  switch (attr.form)
		    {
		    case DW_FORM_block:
		    case DW_FORM_block1:
		    case DW_FORM_block2:
		    case DW_FORM_block4:
		    case DW_FORM_exprloc:
		      if (*attr.u.blk->data == DW_OP_addr)
			{
			  var->stack = 0;

			  /* Verify that DW_OP_addr is the only opcode in the
			     location, in which case the block size will be 1
			     plus the address size.  */
			  /* ??? For TLS variables, gcc can emit
			     DW_OP_addr <addr> DW_OP_GNU_push_tls_address
			     which we don't handle here yet.  */
			  if (attr.u.blk->size == unit->addr_size + 1U)
			    var->addr = bfd_get (unit->addr_size * 8,
						 unit->abfd,
						 attr.u.blk->data + 1);
			}
		      break;

		    default:
		      break;
		    }
		  break;

		default:
		  break;
		}
	    }
	}

      if (high_pc_relative)
	high_pc += low_pc;

      if (func && high_pc != 0)
	{
	  if (!arange_add (unit, &func->arange, low_pc, high_pc))
	    goto fail;
	}

      if (abbrev->has_children)
	{
	  nesting_level++;

	  if (nesting_level >= nested_funcs_size)
	    {
	      struct funcinfo **tmp;

	      nested_funcs_size *= 2;
	      tmp = (struct funcinfo **)
		bfd_realloc (nested_funcs,
			     nested_funcs_size * sizeof (struct funcinfo *));
	      if (tmp == NULL)
		goto fail;
	      nested_funcs = tmp;
	    }
	  nested_funcs[nesting_level] = 0;
	}
    }

  free (nested_funcs);
  return TRUE;

 fail:
  free (nested_funcs);
  return FALSE;
}

/* Parse a DWARF2 compilation unit starting at INFO_PTR.  This
   includes the compilation unit header that proceeds the DIE's, but
   does not include the length field that precedes each compilation
   unit header.  END_PTR points one past the end of this comp unit.
   OFFSET_SIZE is the size of DWARF2 offsets (either 4 or 8 bytes).

   This routine does not read the whole compilation unit; only enough
   to get to the line number information for the compilation unit.  */

static struct comp_unit *
parse_comp_unit (struct dwarf2_debug *stash,
		 bfd_vma unit_length,
		 bfd_byte *info_ptr_unit,
		 unsigned int offset_size)
{
  struct comp_unit* unit;
  unsigned int version;
  bfd_uint64_t abbrev_offset = 0;
  unsigned int addr_size;
  struct abbrev_info** abbrevs;
  unsigned int abbrev_number, bytes_read, i;
  struct abbrev_info *abbrev;
  struct attribute attr;
  bfd_byte *info_ptr = stash->info_ptr;
  bfd_byte *end_ptr = info_ptr + unit_length;
  bfd_size_type amt;
  bfd_vma low_pc = 0;
  bfd_vma high_pc = 0;
  bfd *abfd = stash->bfd_ptr;
  bfd_boolean high_pc_relative = FALSE;

  version = read_2_bytes (abfd, info_ptr);
  info_ptr += 2;
  BFD_ASSERT (offset_size == 4 || offset_size == 8);
  if (offset_size == 4)
    abbrev_offset = read_4_bytes (abfd, info_ptr);
  else
    abbrev_offset = read_8_bytes (abfd, info_ptr);
  info_ptr += offset_size;
  addr_size = read_1_byte (abfd, info_ptr);
  info_ptr += 1;

  if (version != 2 && version != 3 && version != 4)
    {
      (*_bfd_error_handler)
	(_("Dwarf Error: found dwarf version '%u', this reader"
	   " only handles version 2, 3 and 4 information."), version);
      bfd_set_error (bfd_error_bad_value);
      return 0;
    }

  if (addr_size > sizeof (bfd_vma))
    {
      (*_bfd_error_handler)
	(_("Dwarf Error: found address size '%u', this reader"
	   " can not handle sizes greater than '%u'."),
	 addr_size,
	 (unsigned int) sizeof (bfd_vma));
      bfd_set_error (bfd_error_bad_value);
      return 0;
    }

  if (addr_size != 2 && addr_size != 4 && addr_size != 8)
    {
      (*_bfd_error_handler)
	("Dwarf Error: found address size '%u', this reader"
	 " can only handle address sizes '2', '4' and '8'.", addr_size);
      bfd_set_error (bfd_error_bad_value);
      return 0;
    }

  /* Read the abbrevs for this compilation unit into a table.  */
  abbrevs = read_abbrevs (abfd, abbrev_offset, stash);
  if (! abbrevs)
    return 0;

  abbrev_number = read_unsigned_leb128 (abfd, info_ptr, &bytes_read);
  info_ptr += bytes_read;
  if (! abbrev_number)
    {
      (*_bfd_error_handler) (_("Dwarf Error: Bad abbrev number: %u."),
			     abbrev_number);
      bfd_set_error (bfd_error_bad_value);
      return 0;
    }

  abbrev = lookup_abbrev (abbrev_number, abbrevs);
  if (! abbrev)
    {
      (*_bfd_error_handler) (_("Dwarf Error: Could not find abbrev number %u."),
			     abbrev_number);
      bfd_set_error (bfd_error_bad_value);
      return 0;
    }

  amt = sizeof (struct comp_unit);
  unit = (struct comp_unit *) bfd_zalloc (abfd, amt);
  if (unit == NULL)
    return NULL;
  unit->abfd = abfd;
  unit->version = version;
  unit->addr_size = addr_size;
  unit->offset_size = offset_size;
  unit->abbrevs = abbrevs;
  unit->end_ptr = end_ptr;
  unit->stash = stash;
  unit->info_ptr_unit = info_ptr_unit;
  unit->sec_info_ptr = stash->sec_info_ptr;

  for (i = 0; i < abbrev->num_attrs; ++i)
    {
      info_ptr = read_attribute (&attr, &abbrev->attrs[i], unit, info_ptr);
      if (info_ptr == NULL)
	return NULL;

      /* Store the data if it is of an attribute we want to keep in a
	 partial symbol table.  */
      switch (attr.name)
	{
	case DW_AT_stmt_list:
	  unit->stmtlist = 1;
	  unit->line_offset = attr.u.val;
	  break;

	case DW_AT_name:
	  unit->name = attr.u.str;
	  break;

	case DW_AT_low_pc:
	  low_pc = attr.u.val;
	  /* If the compilation unit DIE has a DW_AT_low_pc attribute,
	     this is the base address to use when reading location
	     lists or range lists. */
	  if (abbrev->tag == DW_TAG_compile_unit)
	    unit->base_address = low_pc;
	  break;

	case DW_AT_high_pc:
	  high_pc = attr.u.val;
	  high_pc_relative = attr.form != DW_FORM_addr;
	  break;

	case DW_AT_ranges:
	  if (!read_rangelist (unit, &unit->arange, attr.u.val))
	    return NULL;
	  break;

	case DW_AT_comp_dir:
	  {
	    char *comp_dir = attr.u.str;
	    if (comp_dir)
	      {
		/* Irix 6.2 native cc prepends <machine>.: to the compilation
		   directory, get rid of it.  */
		char *cp = strchr (comp_dir, ':');

		if (cp && cp != comp_dir && cp[-1] == '.' && cp[1] == '/')
		  comp_dir = cp + 1;
	      }
	    unit->comp_dir = comp_dir;
	    break;
	  }

	default:
	  break;
	}
    }
  if (high_pc_relative)
    high_pc += low_pc;
  if (high_pc != 0)
    {
      if (!arange_add (unit, &unit->arange, low_pc, high_pc))
	return NULL;
    }

  unit->first_child_die_ptr = info_ptr;
  return unit;
}

/* Return TRUE if UNIT may contain the address given by ADDR.  When
   there are functions written entirely with inline asm statements, the
   range info in the compilation unit header may not be correct.  We
   need to consult the line info table to see if a compilation unit
   really contains the given address.  */

static bfd_boolean
comp_unit_contains_address (struct comp_unit *unit, bfd_vma addr)
{
  struct arange *arange;

  if (unit->error)
    return FALSE;

  arange = &unit->arange;
  do
    {
      if (addr >= arange->low && addr < arange->high)
	return TRUE;
      arange = arange->next;
    }
  while (arange);

  return FALSE;
}

/* If UNIT contains ADDR, set the output parameters to the values for
   the line containing ADDR.  The output parameters, FILENAME_PTR,
   FUNCTIONNAME_PTR, and LINENUMBER_PTR, are pointers to the objects
   to be filled in.

   Returns the range of addresses covered by the entry that was used
   to fill in *LINENUMBER_PTR or 0 if it was not filled in.  */

static bfd_vma
comp_unit_find_nearest_line (struct comp_unit *unit,
			     bfd_vma addr,
			     const char **filename_ptr,
			     const char **functionname_ptr,
			     unsigned int *linenumber_ptr,
			     unsigned int *discriminator_ptr,
			     struct dwarf2_debug *stash)
{
  bfd_boolean func_p;
  struct funcinfo *function;

  if (unit->error)
    return FALSE;

  if (! unit->line_table)
    {
      if (! unit->stmtlist)
	{
	  unit->error = 1;
	  return FALSE;
	}

      unit->line_table = decode_line_info (unit, stash);

      if (! unit->line_table)
	{
	  unit->error = 1;
	  return FALSE;
	}

      if (unit->first_child_die_ptr < unit->end_ptr
	  && ! scan_unit_for_symbols (unit))
	{
	  unit->error = 1;
	  return FALSE;
	}
    }

  function = NULL;
  func_p = lookup_address_in_function_table (unit, addr,
					     &function, functionname_ptr);
  if (func_p && (function->tag == DW_TAG_inlined_subroutine))
    stash->inliner_chain = function;

  return lookup_address_in_line_info_table (unit->line_table, addr,
					    filename_ptr,
					    linenumber_ptr,
					    discriminator_ptr);
}

/* Check to see if line info is already decoded in a comp_unit.
   If not, decode it.  Returns TRUE if no errors were encountered;
   FALSE otherwise.  */

static bfd_boolean
comp_unit_maybe_decode_line_info (struct comp_unit *unit,
				  struct dwarf2_debug *stash)
{
  if (unit->error)
    return FALSE;

  if (! unit->line_table)
    {
      if (! unit->stmtlist)
	{
	  unit->error = 1;
	  return FALSE;
	}

      unit->line_table = decode_line_info (unit, stash);

      if (! unit->line_table)
	{
	  unit->error = 1;
	  return FALSE;
	}

      if (unit->first_child_die_ptr < unit->end_ptr
	  && ! scan_unit_for_symbols (unit))
	{
	  unit->error = 1;
	  return FALSE;
	}
    }

  return TRUE;
}

/* If UNIT contains SYM at ADDR, set the output parameters to the
   values for the line containing SYM.  The output parameters,
   FILENAME_PTR, and LINENUMBER_PTR, are pointers to the objects to be
   filled in.

   Return TRUE if UNIT contains SYM, and no errors were encountered;
   FALSE otherwise.  */

static bfd_boolean
comp_unit_find_line (struct comp_unit *unit,
		     asymbol *sym,
		     bfd_vma addr,
		     const char **filename_ptr,
		     unsigned int *linenumber_ptr,
		     struct dwarf2_debug *stash)
{
  if (!comp_unit_maybe_decode_line_info (unit, stash))
    return FALSE;

  if (sym->flags & BSF_FUNCTION)
    return lookup_symbol_in_function_table (unit, sym, addr,
					    filename_ptr,
					    linenumber_ptr);

  return lookup_symbol_in_variable_table (unit, sym, addr,
					  filename_ptr,
					  linenumber_ptr);
}

static struct funcinfo *
reverse_funcinfo_list (struct funcinfo *head)
{
  struct funcinfo *rhead;
  struct funcinfo *temp;

  for (rhead = NULL; head; head = temp)
    {
      temp = head->prev_func;
      head->prev_func = rhead;
      rhead = head;
    }
  return rhead;
}

static struct varinfo *
reverse_varinfo_list (struct varinfo *head)
{
  struct varinfo *rhead;
  struct varinfo *temp;

  for (rhead = NULL; head; head = temp)
    {
      temp = head->prev_var;
      head->prev_var = rhead;
      rhead = head;
    }
  return rhead;
}

/* Extract all interesting funcinfos and varinfos of a compilation
   unit into hash tables for faster lookup.  Returns TRUE if no
   errors were enountered; FALSE otherwise.  */

static bfd_boolean
comp_unit_hash_info (struct dwarf2_debug *stash,
		     struct comp_unit *unit,
		     struct info_hash_table *funcinfo_hash_table,
		     struct info_hash_table *varinfo_hash_table)
{
  struct funcinfo* each_func;
  struct varinfo* each_var;
  bfd_boolean okay = TRUE;

  BFD_ASSERT (stash->info_hash_status != STASH_INFO_HASH_DISABLED);

  if (!comp_unit_maybe_decode_line_info (unit, stash))
    return FALSE;

  BFD_ASSERT (!unit->cached);

  /* To preserve the original search order, we went to visit the function
     infos in the reversed order of the list.  However, making the list
     bi-directional use quite a bit of extra memory.  So we reverse
     the list first, traverse the list in the now reversed order and
     finally reverse the list again to get back the original order.  */
  unit->function_table = reverse_funcinfo_list (unit->function_table);
  for (each_func = unit->function_table;
       each_func && okay;
       each_func = each_func->prev_func)
    {
      /* Skip nameless functions. */
      if (each_func->name)
	/* There is no need to copy name string into hash table as
	   name string is either in the dwarf string buffer or
	   info in the stash.  */
	okay = insert_info_hash_table (funcinfo_hash_table, each_func->name,
				       (void*) each_func, FALSE);
    }
  unit->function_table = reverse_funcinfo_list (unit->function_table);
  if (!okay)
    return FALSE;

  /* We do the same for variable infos.  */
  unit->variable_table = reverse_varinfo_list (unit->variable_table);
  for (each_var = unit->variable_table;
       each_var && okay;
       each_var = each_var->prev_var)
    {
      /* Skip stack vars and vars with no files or names.  */
      if (each_var->stack == 0
	  && each_var->file != NULL
	  && each_var->name != NULL)
	/* There is no need to copy name string into hash table as
	   name string is either in the dwarf string buffer or
	   info in the stash.  */
	okay = insert_info_hash_table (varinfo_hash_table, each_var->name,
				       (void*) each_var, FALSE);
    }

  unit->variable_table = reverse_varinfo_list (unit->variable_table);
  unit->cached = TRUE;
  return okay;
}

/* Locate a section in a BFD containing debugging info.  The search starts
   from the section after AFTER_SEC, or from the first section in the BFD if
   AFTER_SEC is NULL.  The search works by examining the names of the
   sections.  There are three permissiable names.  The first two are given
   by DEBUG_SECTIONS[debug_info] (whose standard DWARF2 names are .debug_info
   and .zdebug_info).  The third is a prefix .gnu.linkonce.wi.
   This is a variation on the .debug_info section which has a checksum
   describing the contents appended onto the name.  This allows the linker to
   identify and discard duplicate debugging sections for different
   compilation units.  */
#define GNU_LINKONCE_INFO ".gnu.linkonce.wi."

static asection *
find_debug_info (bfd *abfd, const struct dwarf_debug_section *debug_sections,
                 asection *after_sec)
{
  asection *msec;
  const char *look;

  if (after_sec == NULL)
    {
      look = debug_sections[debug_info].uncompressed_name;
      msec = bfd_get_section_by_name (abfd, look);
      if (msec != NULL)
	return msec;

      look = debug_sections[debug_info].compressed_name;
      if (look != NULL)
	{
	  msec = bfd_get_section_by_name (abfd, look);
	  if (msec != NULL)
	    return msec;
	}

      for (msec = abfd->sections; msec != NULL; msec = msec->next)
	if (CONST_STRNEQ (msec->name, GNU_LINKONCE_INFO))
	  return msec;

      return NULL;
    }

  for (msec = after_sec->next; msec != NULL; msec = msec->next)
    {
      look = debug_sections[debug_info].uncompressed_name;
      if (strcmp (msec->name, look) == 0)
	return msec;

      look = debug_sections[debug_info].compressed_name;
      if (look != NULL && strcmp (msec->name, look) == 0)
	return msec;

      if (CONST_STRNEQ (msec->name, GNU_LINKONCE_INFO))
	return msec;
    }

  return NULL;
}

/* Unset vmas for adjusted sections in STASH.  */

static void
unset_sections (struct dwarf2_debug *stash)
{
  unsigned int i;
  struct adjusted_section *p;

  i = stash->adjusted_section_count;
  p = stash->adjusted_sections;
  for (; i > 0; i--, p++)
    p->section->vma = 0;
}

/* Set unique VMAs for loadable and DWARF sections in ABFD and save
   VMAs in STASH for unset_sections.  */

static bfd_boolean
place_sections (bfd *abfd, struct dwarf2_debug *stash)
{
  struct adjusted_section *p;
  unsigned int i;

  if (stash->adjusted_section_count != 0)
    {
      i = stash->adjusted_section_count;
      p = stash->adjusted_sections;
      for (; i > 0; i--, p++)
	p->section->vma = p->adj_vma;
    }
  else
    {
      asection *sect;
      bfd_vma last_vma = 0, last_dwarf = 0;
      bfd_size_type amt;
      const char *debug_info_name;

      debug_info_name = stash->debug_sections[debug_info].uncompressed_name;
      i = 0;
      for (sect = abfd->sections; sect != NULL; sect = sect->next)
	{
	  bfd_size_type sz;
	  int is_debug_info;

	  if (sect->vma != 0)
	    continue;

	  /* We need to adjust the VMAs of any .debug_info sections.
	     Skip compressed ones, since no relocations could target
	     them - they should not appear in object files anyway.  */
	  if (strcmp (sect->name, debug_info_name) == 0)
	    is_debug_info = 1;
	  else if (CONST_STRNEQ (sect->name, GNU_LINKONCE_INFO))
	    is_debug_info = 1;
	  else
	    is_debug_info = 0;

	  if (!is_debug_info && (sect->flags & SEC_LOAD) == 0)
	    continue;

	  sz = sect->rawsize ? sect->rawsize : sect->size;
	  if (sz == 0)
	    continue;

	  i++;
	}

      amt = i * sizeof (struct adjusted_section);
      p = (struct adjusted_section *) bfd_alloc (abfd, amt);
      if (! p)
	return FALSE;

      stash->adjusted_sections = p;
      stash->adjusted_section_count = i;

      for (sect = abfd->sections; sect != NULL; sect = sect->next)
	{
	  bfd_size_type sz;
	  int is_debug_info;

	  if (sect->vma != 0)
	    continue;

	  /* We need to adjust the VMAs of any .debug_info sections.
	     Skip compressed ones, since no relocations could target
	     them - they should not appear in object files anyway.  */
	  if (strcmp (sect->name, debug_info_name) == 0)
	    is_debug_info = 1;
	  else if (CONST_STRNEQ (sect->name, GNU_LINKONCE_INFO))
	    is_debug_info = 1;
	  else
	    is_debug_info = 0;

	  if (!is_debug_info && (sect->flags & SEC_LOAD) == 0)
	    continue;

	  sz = sect->rawsize ? sect->rawsize : sect->size;
	  if (sz == 0)
	    continue;

	  p->section = sect;
	  if (is_debug_info)
	    {
	      BFD_ASSERT (sect->alignment_power == 0);
	      sect->vma = last_dwarf;
	      last_dwarf += sz;
	    }
	  else if (last_vma != 0)
	    {
	      /* Align the new address to the current section
		 alignment.  */
	      last_vma = ((last_vma
			   + ~((bfd_vma) -1 << sect->alignment_power))
			  & ((bfd_vma) -1 << sect->alignment_power));
	      sect->vma = last_vma;
	      last_vma += sect->vma + sz;
	    }
	  else
	    last_vma += sect->vma + sz;

	  p->adj_vma = sect->vma;

	  p++;
	}
    }

  return TRUE;
}

/* Look up a funcinfo by name using the given info hash table.  If found,
   also update the locations pointed to by filename_ptr and linenumber_ptr.

   This function returns TRUE if a funcinfo that matches the given symbol
   and address is found with any error; otherwise it returns FALSE.  */

static bfd_boolean
info_hash_lookup_funcinfo (struct info_hash_table *hash_table,
			   asymbol *sym,
			   bfd_vma addr,
			   const char **filename_ptr,
			   unsigned int *linenumber_ptr)
{
  struct funcinfo* each_func;
  struct funcinfo* best_fit = NULL;
  struct info_list_node *node;
  struct arange *arange;
  const char *name = bfd_asymbol_name (sym);
  asection *sec = bfd_get_section (sym);

  for (node = lookup_info_hash_table (hash_table, name);
       node;
       node = node->next)
    {
      each_func = (struct funcinfo *) node->info;
      for (arange = &each_func->arange;
	   arange;
	   arange = arange->next)
	{
	  if ((!each_func->sec || each_func->sec == sec)
	      && addr >= arange->low
	      && addr < arange->high
	      && (!best_fit
		  || (arange->high - arange->low
		      < best_fit->arange.high - best_fit->arange.low)))
	    best_fit = each_func;
	}
    }

  if (best_fit)
    {
      best_fit->sec = sec;
      *filename_ptr = best_fit->file;
      *linenumber_ptr = best_fit->line;
      return TRUE;
    }

  return FALSE;
}

/* Look up a varinfo by name using the given info hash table.  If found,
   also update the locations pointed to by filename_ptr and linenumber_ptr.

   This function returns TRUE if a varinfo that matches the given symbol
   and address is found with any error; otherwise it returns FALSE.  */

static bfd_boolean
info_hash_lookup_varinfo (struct info_hash_table *hash_table,
			  asymbol *sym,
			  bfd_vma addr,
			  const char **filename_ptr,
			  unsigned int *linenumber_ptr)
{
  const char *name = bfd_asymbol_name (sym);
  asection *sec = bfd_get_section (sym);
  struct varinfo* each;
  struct info_list_node *node;

  for (node = lookup_info_hash_table (hash_table, name);
       node;
       node = node->next)
    {
      each = (struct varinfo *) node->info;
      if (each->addr == addr
	  && (!each->sec || each->sec == sec))
	{
	  each->sec = sec;
	  *filename_ptr = each->file;
	  *linenumber_ptr = each->line;
	  return TRUE;
	}
    }

  return FALSE;
}

/* Update the funcinfo and varinfo info hash tables if they are
   not up to date.  Returns TRUE if there is no error; otherwise
   returns FALSE and disable the info hash tables.  */

static bfd_boolean
stash_maybe_update_info_hash_tables (struct dwarf2_debug *stash)
{
  struct comp_unit *each;

  /* Exit if hash tables are up-to-date.  */
  if (stash->all_comp_units == stash->hash_units_head)
    return TRUE;

  if (stash->hash_units_head)
    each = stash->hash_units_head->prev_unit;
  else
    each = stash->last_comp_unit;

  while (each)
    {
      if (!comp_unit_hash_info (stash, each, stash->funcinfo_hash_table,
				stash->varinfo_hash_table))
	{
	  stash->info_hash_status = STASH_INFO_HASH_DISABLED;
	  return FALSE;
	}
      each = each->prev_unit;
    }

  stash->hash_units_head = stash->all_comp_units;
  return TRUE;
}

/* Check consistency of info hash tables.  This is for debugging only. */

static void ATTRIBUTE_UNUSED
stash_verify_info_hash_table (struct dwarf2_debug *stash)
{
  struct comp_unit *each_unit;
  struct funcinfo *each_func;
  struct varinfo *each_var;
  struct info_list_node *node;
  bfd_boolean found;

  for (each_unit = stash->all_comp_units;
       each_unit;
       each_unit = each_unit->next_unit)
    {
      for (each_func = each_unit->function_table;
	   each_func;
	   each_func = each_func->prev_func)
	{
	  if (!each_func->name)
	    continue;
	  node = lookup_info_hash_table (stash->funcinfo_hash_table,
					 each_func->name);
	  BFD_ASSERT (node);
	  found = FALSE;
	  while (node && !found)
	    {
	      found = node->info == each_func;
	      node = node->next;
	    }
	  BFD_ASSERT (found);
	}

      for (each_var = each_unit->variable_table;
	   each_var;
	   each_var = each_var->prev_var)
	{
	  if (!each_var->name || !each_var->file || each_var->stack)
	    continue;
	  node = lookup_info_hash_table (stash->varinfo_hash_table,
					 each_var->name);
	  BFD_ASSERT (node);
	  found = FALSE;
	  while (node && !found)
	    {
	      found = node->info == each_var;
	      node = node->next;
	    }
	  BFD_ASSERT (found);
	}
    }
}

/* Check to see if we want to enable the info hash tables, which consume
   quite a bit of memory.  Currently we only check the number times
   bfd_dwarf2_find_line is called.  In the future, we may also want to
   take the number of symbols into account.  */

static void
stash_maybe_enable_info_hash_tables (bfd *abfd, struct dwarf2_debug *stash)
{
  BFD_ASSERT (stash->info_hash_status == STASH_INFO_HASH_OFF);

  if (stash->info_hash_count++ < STASH_INFO_HASH_TRIGGER)
    return;

  /* FIXME: Maybe we should check the reduce_memory_overheads
     and optimize fields in the bfd_link_info structure ?  */

  /* Create hash tables.  */
  stash->funcinfo_hash_table = create_info_hash_table (abfd);
  stash->varinfo_hash_table = create_info_hash_table (abfd);
  if (!stash->funcinfo_hash_table || !stash->varinfo_hash_table)
    {
      /* Turn off info hashes if any allocation above fails.  */
      stash->info_hash_status = STASH_INFO_HASH_DISABLED;
      return;
    }
  /* We need a forced update so that the info hash tables will
     be created even though there is no compilation unit.  That
     happens if STASH_INFO_HASH_TRIGGER is 0.  */
  stash_maybe_update_info_hash_tables (stash);
  stash->info_hash_status = STASH_INFO_HASH_ON;
}

/* Find the file and line associated with a symbol and address using the
   info hash tables of a stash. If there is a match, the function returns
   TRUE and update the locations pointed to by filename_ptr and linenumber_ptr;
   otherwise it returns FALSE.  */

static bfd_boolean
stash_find_line_fast (struct dwarf2_debug *stash,
		      asymbol *sym,
		      bfd_vma addr,
		      const char **filename_ptr,
		      unsigned int *linenumber_ptr)
{
  BFD_ASSERT (stash->info_hash_status == STASH_INFO_HASH_ON);

  if (sym->flags & BSF_FUNCTION)
    return info_hash_lookup_funcinfo (stash->funcinfo_hash_table, sym, addr,
				      filename_ptr, linenumber_ptr);
  return info_hash_lookup_varinfo (stash->varinfo_hash_table, sym, addr,
				   filename_ptr, linenumber_ptr);
}

/* Read debug information from DEBUG_BFD when DEBUG_BFD is specified.
   If DEBUG_BFD is not specified, we read debug information from ABFD
   or its gnu_debuglink. The results will be stored in PINFO.
   The function returns TRUE iff debug information is ready.  */

bfd_boolean
_bfd_dwarf2_slurp_debug_info (bfd *abfd, bfd *debug_bfd,
                              const struct dwarf_debug_section *debug_sections,
                              asymbol **symbols,
                              void **pinfo)
{
  bfd_size_type amt = sizeof (struct dwarf2_debug);
  bfd_size_type total_size;
  asection *msec;
  struct dwarf2_debug *stash = (struct dwarf2_debug *) *pinfo;

  if (stash != NULL)
    return TRUE;

  stash = (struct dwarf2_debug *) bfd_zalloc (abfd, amt);
  if (! stash)
    return FALSE;
  stash->debug_sections = debug_sections;
  stash->syms = symbols;

  *pinfo = stash;

  if (debug_bfd == NULL)
    debug_bfd = abfd;

  msec = find_debug_info (debug_bfd, debug_sections, NULL);
  if (msec == NULL && abfd == debug_bfd)
    {
      char * debug_filename = bfd_follow_gnu_debuglink (abfd, DEBUGDIR);

      if (debug_filename == NULL)
	/* No dwarf2 info, and no gnu_debuglink to follow.
	   Note that at this point the stash has been allocated, but
	   contains zeros.  This lets future calls to this function
	   fail more quickly.  */
	return FALSE;

      if ((debug_bfd = bfd_openr (debug_filename, NULL)) == NULL
	  || ! bfd_check_format (debug_bfd, bfd_object)
	  || (msec = find_debug_info (debug_bfd,
				      debug_sections, NULL)) == NULL)
	{
	  if (debug_bfd)
	    bfd_close (debug_bfd);
	  /* FIXME: Should we report our failure to follow the debuglink ?  */
	  free (debug_filename);
	  return FALSE;
	}
      stash->close_on_cleanup = TRUE;
    }
  stash->bfd_ptr = debug_bfd;

  /* There can be more than one DWARF2 info section in a BFD these
     days.  First handle the easy case when there's only one.  If
     there's more than one, try case two: none of the sections is
     compressed.  In that case, read them all in and produce one
     large stash.  We do this in two passes - in the first pass we
     just accumulate the section sizes, and in the second pass we
     read in the section's contents.  (The allows us to avoid
     reallocing the data as we add sections to the stash.)  If
     some or all sections are compressed, then do things the slow
     way, with a bunch of reallocs.  */

  if (! find_debug_info (debug_bfd, debug_sections, msec))
    {
      /* Case 1: only one info section.  */
      total_size = msec->size;
      if (! read_section (debug_bfd, &stash->debug_sections[debug_info],
			  symbols, 0,
			  &stash->info_ptr_memory, &total_size))
	return FALSE;
    }
  else
    {
      /* Case 2: multiple sections.  */
      for (total_size = 0;
	   msec;
	   msec = find_debug_info (debug_bfd, debug_sections, msec))
	total_size += msec->size;

      stash->info_ptr_memory = (bfd_byte *) bfd_malloc (total_size);
      if (stash->info_ptr_memory == NULL)
	return FALSE;

      total_size = 0;
      for (msec = find_debug_info (debug_bfd, debug_sections, NULL);
	   msec;
	   msec = find_debug_info (debug_bfd, debug_sections, msec))
	{
	  bfd_size_type size;

	  size = msec->size;
	  if (size == 0)
	    continue;

	  if (!(bfd_simple_get_relocated_section_contents
		(debug_bfd, msec, stash->info_ptr_memory + total_size,
		 symbols)))
	    return FALSE;

	  total_size += size;
	}
    }

  stash->info_ptr = stash->info_ptr_memory;
  stash->info_ptr_end = stash->info_ptr + total_size;
  stash->sec = find_debug_info (debug_bfd, debug_sections, NULL);
  stash->sec_info_ptr = stash->info_ptr;
  return TRUE;
}

/* Find the source code location of SYMBOL.  If SYMBOL is NULL
   then find the nearest source code location corresponding to
   the address SECTION + OFFSET.
   Returns TRUE if the line is found without error and fills in
   FILENAME_PTR and LINENUMBER_PTR.  In the case where SYMBOL was
   NULL the FUNCTIONNAME_PTR is also filled in.
   SYMBOLS contains the symbol table for ABFD.
   DEBUG_SECTIONS contains the name of the dwarf debug sections.
   ADDR_SIZE is the number of bytes in the initial .debug_info length
   field and in the abbreviation offset, or zero to indicate that the
   default value should be used.  */

static bfd_boolean
find_line (bfd *abfd,
           const struct dwarf_debug_section *debug_sections,
	   asection *section,
	   bfd_vma offset,
	   asymbol *symbol,
	   asymbol **symbols,
	   const char **filename_ptr,
	   const char **functionname_ptr,
	   unsigned int *linenumber_ptr,
	   unsigned int *discriminator_ptr,
	   unsigned int addr_size,
	   void **pinfo)
{
  /* Read each compilation unit from the section .debug_info, and check
     to see if it contains the address we are searching for.  If yes,
     lookup the address, and return the line number info.  If no, go
     on to the next compilation unit.

     We keep a list of all the previously read compilation units, and
     a pointer to the next un-read compilation unit.  Check the
     previously read units before reading more.  */
  struct dwarf2_debug *stash;
  /* What address are we looking for?  */
  bfd_vma addr;
  struct comp_unit* each;
  bfd_boolean found = FALSE;
  bfd_boolean do_line;

  *filename_ptr = NULL;
  if (functionname_ptr != NULL)
    *functionname_ptr = NULL;
  *linenumber_ptr = 0;
  if (discriminator_ptr)
    *discriminator_ptr = 0;

  if (! _bfd_dwarf2_slurp_debug_info (abfd, NULL,
				      debug_sections, symbols, pinfo))
    return FALSE;

  stash = (struct dwarf2_debug *) *pinfo;

  /* In a relocatable file, 2 functions may have the same address.
     We change the section vma so that they won't overlap.  */
  if ((abfd->flags & (EXEC_P | DYNAMIC)) == 0)
    {
      if (! place_sections (abfd, stash))
	return FALSE;
    }

  do_line = (section == NULL
	     && offset == 0
	     && functionname_ptr == NULL
	     && symbol != NULL);
  if (do_line)
    {
      addr = symbol->value;
      section = bfd_get_section (symbol);
    }
  else if (section != NULL
	   && functionname_ptr != NULL
	   && symbol == NULL)
    addr = offset;
  else
    abort ();

  if (section->output_section)
    addr += section->output_section->vma + section->output_offset;
  else
    addr += section->vma;

  /* A null info_ptr indicates that there is no dwarf2 info
     (or that an error occured while setting up the stash).  */
  if (! stash->info_ptr)
    return FALSE;

  stash->inliner_chain = NULL;

  /* Check the previously read comp. units first.  */
  if (do_line)
    {
      /* The info hash tables use quite a bit of memory.  We may not want to
	 always use them.  We use some heuristics to decide if and when to
	 turn it on.  */
      if (stash->info_hash_status == STASH_INFO_HASH_OFF)
	stash_maybe_enable_info_hash_tables (abfd, stash);

      /* Keep info hash table up to date if they are available.  Note that we
	 may disable the hash tables if there is any error duing update. */
      if (stash->info_hash_status == STASH_INFO_HASH_ON)
	stash_maybe_update_info_hash_tables (stash);

      if (stash->info_hash_status == STASH_INFO_HASH_ON)
	{
	  found = stash_find_line_fast (stash, symbol, addr, filename_ptr,
					linenumber_ptr);
	  if (found)
	    goto done;
	}
      else
	{
	  /* Check the previously read comp. units first.  */
	  for (each = stash->all_comp_units; each; each = each->next_unit)
	    if ((symbol->flags & BSF_FUNCTION) == 0
		|| each->arange.high == 0
		|| comp_unit_contains_address (each, addr))
	      {
		found = comp_unit_find_line (each, symbol, addr, filename_ptr,
					     linenumber_ptr, stash);
		if (found)
		  goto done;
	      }
	}
    }
  else
    {
      bfd_vma min_range = (bfd_vma) -1;
      const char * local_filename = NULL;
      const char * local_functionname = NULL;
      unsigned int local_linenumber = 0;
      unsigned int local_discriminator = 0;

      for (each = stash->all_comp_units; each; each = each->next_unit)
	{
	  bfd_vma range = (bfd_vma) -1;

	  found = ((each->arange.high == 0
		    || comp_unit_contains_address (each, addr))
		   && (range = comp_unit_find_nearest_line (each, addr,
							    & local_filename,
							    & local_functionname,
							    & local_linenumber,
							    & local_discriminator,
							    stash)) != 0);
	  if (found)
	    {
	      /* PRs 15935 15994: Bogus debug information may have provided us
		 with an erroneous match.  We attempt to counter this by
		 selecting the match that has the smallest address range
		 associated with it.  (We are assuming that corrupt debug info
		 will tend to result in extra large address ranges rather than
		 extra small ranges).

		 This does mean that we scan through all of the CUs associated
		 with the bfd each time this function is called.  But this does
		 have the benefit of producing consistent results every time the
		 function is called.  */
	      if (range <= min_range)
		{
		  if (filename_ptr && local_filename)
		    * filename_ptr = local_filename;
		  if (functionname_ptr && local_functionname)
		    * functionname_ptr = local_functionname;
		  if (discriminator_ptr && local_discriminator)
		    * discriminator_ptr = local_discriminator;
		  if (local_linenumber)
		    * linenumber_ptr = local_linenumber;
		  min_range = range;
		}
	    }
	}

      if (* linenumber_ptr)
	{
	  found = TRUE;
	  goto done;
	}
    }

  /* The DWARF2 spec says that the initial length field, and the
     offset of the abbreviation table, should both be 4-byte values.
     However, some compilers do things differently.  */
  if (addr_size == 0)
    addr_size = 4;
  BFD_ASSERT (addr_size == 4 || addr_size == 8);

  /* Read each remaining comp. units checking each as they are read.  */
  while (stash->info_ptr < stash->info_ptr_end)
    {
      bfd_vma length;
      unsigned int offset_size = addr_size;
      bfd_byte *info_ptr_unit = stash->info_ptr;

      length = read_4_bytes (stash->bfd_ptr, stash->info_ptr);
      /* A 0xffffff length is the DWARF3 way of indicating
	 we use 64-bit offsets, instead of 32-bit offsets.  */
      if (length == 0xffffffff)
	{
	  offset_size = 8;
	  length = read_8_bytes (stash->bfd_ptr, stash->info_ptr + 4);
	  stash->info_ptr += 12;
	}
      /* A zero length is the IRIX way of indicating 64-bit offsets,
	 mostly because the 64-bit length will generally fit in 32
	 bits, and the endianness helps.  */
      else if (length == 0)
	{
	  offset_size = 8;
	  length = read_4_bytes (stash->bfd_ptr, stash->info_ptr + 4);
	  stash->info_ptr += 8;
	}
      /* In the absence of the hints above, we assume 32-bit DWARF2
	 offsets even for targets with 64-bit addresses, because:
	   a) most of the time these targets will not have generated
	      more than 2Gb of debug info and so will not need 64-bit
	      offsets,
	 and
	   b) if they do use 64-bit offsets but they are not using
	      the size hints that are tested for above then they are
	      not conforming to the DWARF3 standard anyway.  */
      else if (addr_size == 8)
	{
	  offset_size = 4;
	  stash->info_ptr += 4;
	}
      else
	stash->info_ptr += 4;

      if (length > 0)
	{
	  each = parse_comp_unit (stash, length, info_ptr_unit,
				  offset_size);
	  if (!each)
	    /* The dwarf information is damaged, don't trust it any
	       more.  */
	    break;
	  stash->info_ptr += length;

	  if (stash->all_comp_units)
	    stash->all_comp_units->prev_unit = each;
	  else
	    stash->last_comp_unit = each;

	  each->next_unit = stash->all_comp_units;
	  stash->all_comp_units = each;

	  /* DW_AT_low_pc and DW_AT_high_pc are optional for
	     compilation units.  If we don't have them (i.e.,
	     unit->high == 0), we need to consult the line info table
	     to see if a compilation unit contains the given
	     address.  */
	  if (do_line)
	    found = (((symbol->flags & BSF_FUNCTION) == 0
		      || each->arange.high == 0
		      || comp_unit_contains_address (each, addr))
		     && comp_unit_find_line (each, symbol, addr,
					     filename_ptr,
					     linenumber_ptr,
					     stash));
	  else
	    found = ((each->arange.high == 0
		      || comp_unit_contains_address (each, addr))
		     && comp_unit_find_nearest_line (each, addr,
						     filename_ptr,
						     functionname_ptr,
						     linenumber_ptr,
						     discriminator_ptr,
						     stash)) > 0;

	  if ((bfd_vma) (stash->info_ptr - stash->sec_info_ptr)
	      == stash->sec->size)
	    {
	      stash->sec = find_debug_info (stash->bfd_ptr, debug_sections,
                                            stash->sec);
	      stash->sec_info_ptr = stash->info_ptr;
	    }

	  if (found)
	    goto done;
	}
    }

 done:
  if ((abfd->flags & (EXEC_P | DYNAMIC)) == 0)
    unset_sections (stash);

  return found;
}

/* The DWARF2 version of find_nearest_line.
   Return TRUE if the line is found without error.  */

bfd_boolean
_bfd_dwarf2_find_nearest_line (bfd *abfd,
                               const struct dwarf_debug_section *debug_sections,
			       asection *section,
			       asymbol **symbols,
			       bfd_vma offset,
			       const char **filename_ptr,
			       const char **functionname_ptr,
			       unsigned int *linenumber_ptr,
                               unsigned int *discriminator_ptr,
			       unsigned int addr_size,
			       void **pinfo)
{
  return find_line (abfd, debug_sections, section, offset, NULL, symbols,
                    filename_ptr, functionname_ptr, linenumber_ptr,
                    discriminator_ptr, addr_size, pinfo);
}

/* The DWARF2 version of find_line.
   Return TRUE if the line is found without error.  */

bfd_boolean
_bfd_dwarf2_find_line (bfd *abfd,
		       asymbol **symbols,
		       asymbol *symbol,
		       const char **filename_ptr,
		       unsigned int *linenumber_ptr,
                       unsigned int *discriminator_ptr,
		       unsigned int addr_size,
		       void **pinfo)
{
  return find_line (abfd, dwarf_debug_sections, NULL, 0, symbol, symbols,
                    filename_ptr, NULL, linenumber_ptr, discriminator_ptr,
                    addr_size, pinfo);
}

bfd_boolean
_bfd_dwarf2_find_inliner_info (bfd *abfd ATTRIBUTE_UNUSED,
			       const char **filename_ptr,
			       const char **functionname_ptr,
			       unsigned int *linenumber_ptr,
			       void **pinfo)
{
  struct dwarf2_debug *stash;

  stash = (struct dwarf2_debug *) *pinfo;
  if (stash)
    {
      struct funcinfo *func = stash->inliner_chain;

      if (func && func->caller_func)
	{
	  *filename_ptr = func->caller_file;
	  *functionname_ptr = func->caller_func->name;
	  *linenumber_ptr = func->caller_line;
	  stash->inliner_chain = func->caller_func;
	  return TRUE;
	}
    }

  return FALSE;
}

void
_bfd_dwarf2_cleanup_debug_info (bfd *abfd, void **pinfo)
{
  struct dwarf2_debug *stash = (struct dwarf2_debug *) *pinfo;
  struct comp_unit *each;

  if (abfd == NULL || stash == NULL)
    return;

  for (each = stash->all_comp_units; each; each = each->next_unit)
    {
      struct abbrev_info **abbrevs = each->abbrevs;
      struct funcinfo *function_table = each->function_table;
      struct varinfo *variable_table = each->variable_table;
      size_t i;

      for (i = 0; i < ABBREV_HASH_SIZE; i++)
	{
	  struct abbrev_info *abbrev = abbrevs[i];

	  while (abbrev)
	    {
	      free (abbrev->attrs);
	      abbrev = abbrev->next;
	    }
	}

      if (each->line_table)
	{
	  free (each->line_table->dirs);
	  free (each->line_table->files);
	}

      while (function_table)
	{
	  if (function_table->file)
	    {
	      free (function_table->file);
	      function_table->file = NULL;
	    }

	  if (function_table->caller_file)
	    {
	      free (function_table->caller_file);
	      function_table->caller_file = NULL;
	    }
	  function_table = function_table->prev_func;
	}

      while (variable_table)
	{
	  if (variable_table->file)
	    {
	      free (variable_table->file);
	      variable_table->file = NULL;
	    }

	  variable_table = variable_table->prev_var;
	}
    }

  if (stash->dwarf_abbrev_buffer)
    free (stash->dwarf_abbrev_buffer);
  if (stash->dwarf_line_buffer)
    free (stash->dwarf_line_buffer);
  if (stash->dwarf_str_buffer)
    free (stash->dwarf_str_buffer);
  if (stash->dwarf_ranges_buffer)
    free (stash->dwarf_ranges_buffer);
  if (stash->info_ptr_memory)
    free (stash->info_ptr_memory);
  if (stash->close_on_cleanup)
    bfd_close (stash->bfd_ptr);
  if (stash->alt_dwarf_str_buffer)
    free (stash->alt_dwarf_str_buffer);
  if (stash->alt_dwarf_info_buffer)
    free (stash->alt_dwarf_info_buffer);
  if (stash->alt_bfd_ptr)
    bfd_close (stash->alt_bfd_ptr);
}