src/libdw/libdwP.h - fp2-dev/platform/external/elfutils - Gitiles

 /* Internal definitions for libdwarf.
    Copyright (C) 2002-2011 Red Hat, Inc.
    This file is part of Red Hat elfutils.
    Written by Ulrich Drepper <drepper@redhat.com>, 2002.

    Red Hat elfutils 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; version 2 of the License.

    Red Hat elfutils 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 Red Hat elfutils; if not, write to the Free Software Foundation,
    Inc., 51 Franklin Street, Fifth Floor, Boston MA 02110-1301 USA.

    In addition, as a special exception, Red Hat, Inc. gives You the
    additional right to link the code of Red Hat elfutils with code licensed
    under any Open Source Initiative certified open source license
    (http://www.opensource.org/licenses/index.php) which requires the
    distribution of source code with any binary distribution and to
    distribute linked combinations of the two.  Non-GPL Code permitted under
    this exception must only link to the code of Red Hat elfutils through
    those well defined interfaces identified in the file named EXCEPTION
    found in the source code files (the "Approved Interfaces").  The files
    of Non-GPL Code may instantiate templates or use macros or inline
    functions from the Approved Interfaces without causing the resulting
    work to be covered by the GNU General Public License.  Only Red Hat,
    Inc. may make changes or additions to the list of Approved Interfaces.
    Red Hat's grant of this exception is conditioned upon your not adding
    any new exceptions.  If you wish to add a new Approved Interface or
    exception, please contact Red Hat.  You must obey the GNU General Public
    License in all respects for all of the Red Hat elfutils code and other
    code used in conjunction with Red Hat elfutils except the Non-GPL Code
    covered by this exception.  If you modify this file, you may extend this
    exception to your version of the file, but you are not obligated to do
    so.  If you do not wish to provide this exception without modification,
    you must delete this exception statement from your version and license
    this file solely under the GPL without exception.

    Red Hat elfutils is an included package of the Open Invention Network.
    An included package of the Open Invention Network is a package for which
    Open Invention Network licensees cross-license their patents.  No patent
    license is granted, either expressly or impliedly, by designation as an
    included package.  Should you wish to participate in the Open Invention
    Network licensing program, please visit www.openinventionnetwork.com
    <http://www.openinventionnetwork.com>.  */

 #ifndef _LIBDWP_H
 #define _LIBDWP_H 1

 #include <libintl.h>
 #include <stdbool.h>

 #include <libdw.h>


 /* gettext helper macros.  */
 #define _(Str) dgettext ("elfutils", Str)


 /* Known location expressions already decoded.  */
 struct loc_s
 {
   void *addr;
   Dwarf_Op *loc;
   size_t nloc;
 };

 /* Known DW_OP_implicit_value blocks already decoded.
    This overlaps struct loc_s exactly, but only the
    first member really has to match.  */
 struct loc_block_s
 {
   void *addr;
   unsigned char *data;
   size_t length;
 };

 /* Valid indeces for the section data.  */
 enum
   {
     IDX_debug_info = 0,
     IDX_debug_types,
     IDX_debug_abbrev,
     IDX_debug_aranges,
     IDX_debug_line,
     IDX_debug_frame,
     IDX_debug_loc,
     IDX_debug_pubnames,
     IDX_debug_str,
     IDX_debug_macinfo,
     IDX_debug_ranges,
     IDX_last
   };


 /* Error values.  */
 enum
 {
   DWARF_E_NOERROR = 0,
   DWARF_E_UNKNOWN_ERROR,
   DWARF_E_INVALID_ACCESS,
   DWARF_E_NO_REGFILE,
   DWARF_E_IO_ERROR,
   DWARF_E_INVALID_ELF,
   DWARF_E_NO_DWARF,
   DWARF_E_NOELF,
   DWARF_E_GETEHDR_ERROR,
   DWARF_E_NOMEM,
   DWARF_E_UNIMPL,
   DWARF_E_INVALID_CMD,
   DWARF_E_INVALID_VERSION,
   DWARF_E_INVALID_FILE,
   DWARF_E_NO_ENTRY,
   DWARF_E_INVALID_DWARF,
   DWARF_E_NO_STRING,
   DWARF_E_NO_ADDR,
   DWARF_E_NO_CONSTANT,
   DWARF_E_NO_REFERENCE,
   DWARF_E_INVALID_REFERENCE,
   DWARF_E_NO_DEBUG_LINE,
   DWARF_E_INVALID_DEBUG_LINE,
   DWARF_E_TOO_BIG,
   DWARF_E_VERSION,
   DWARF_E_INVALID_DIR_IDX,
   DWARF_E_ADDR_OUTOFRANGE,
   DWARF_E_NO_LOCLIST,
   DWARF_E_NO_BLOCK,
   DWARF_E_INVALID_LINE_IDX,
   DWARF_E_INVALID_ARANGE_IDX,
   DWARF_E_NO_MATCH,
   DWARF_E_NO_FLAG,
   DWARF_E_INVALID_OFFSET,
   DWARF_E_NO_DEBUG_RANGES,
   DWARF_E_INVALID_CFI,
 };


 #include "dwarf_sig8_hash.h"

 /* This is the structure representing the debugging state.  */
 struct Dwarf
 {
   /* The underlying ELF file.  */
   Elf *elf;

   /* The section data.  */
   Elf_Data *sectiondata[IDX_last];

 #if USE_ZLIB
   /* The 1 << N bit is set if sectiondata[N] is malloc'd decompressed data.  */
   unsigned int sectiondata_gzip_mask:IDX_last;
 #endif

   /* True if the file has a byte order different from the host.  */
   bool other_byte_order;

   /* If true, we allocated the ELF descriptor ourselves.  */
   bool free_elf;

   /* Information for traversing the .debug_pubnames section.  This is
      an array and separately allocated with malloc.  */
   struct pubnames_s
   {
     Dwarf_Off cu_offset;
     Dwarf_Off set_start;
     unsigned int cu_header_size;
     int address_len;
   } *pubnames_sets;
   size_t pubnames_nsets;

   /* Search tree for the CUs.  */
   void *cu_tree;
   Dwarf_Off next_cu_offset;

   /* Search tree and sig8 hash table for .debug_types type units.  */
   void *tu_tree;
   Dwarf_Off next_tu_offset;
   Dwarf_Sig8_Hash sig8_hash;

   /* Address ranges.  */
   Dwarf_Aranges *aranges;

   /* Cached info from the CFI section.  */
   struct Dwarf_CFI_s *cfi;

   /* Internal memory handling.  This is basically a simplified
      reimplementation of obstacks.  Unfortunately the standard obstack
      implementation is not usable in libraries.  */
   struct libdw_memblock
   {
     size_t size;
     size_t remaining;
     struct libdw_memblock *prev;
     char mem[0];
   } *mem_tail;

   /* Default size of allocated memory blocks.  */
   size_t mem_default_size;

   /* Registered OOM handler.  */
   Dwarf_OOM oom_handler;
 };


 /* Abbreviation representation.  */
 struct Dwarf_Abbrev
 {
   Dwarf_Off offset;
   unsigned char *attrp;
   unsigned int attrcnt;
   unsigned int code;
   unsigned int tag;
   bool has_children;
 };

 #include "dwarf_abbrev_hash.h"


 /* Files in line information records.  */
 struct Dwarf_Files_s
   {
     struct Dwarf_CU *cu;
     unsigned int ndirs;
     unsigned int nfiles;
     struct Dwarf_Fileinfo_s
     {
       char *name;
       Dwarf_Word mtime;
       Dwarf_Word length;
     } info[0];
     /* nfiles of those, followed by char *[ndirs].  */
   };
 typedef struct Dwarf_Fileinfo_s Dwarf_Fileinfo;


 /* Representation of a row in the line table.  */

 struct Dwarf_Line_s
 {
   Dwarf_Files *files;

   Dwarf_Addr addr;
   unsigned int file;
   int line;
   unsigned short int column;
   unsigned int is_stmt:1;
   unsigned int basic_block:1;
   unsigned int end_sequence:1;
   unsigned int prologue_end:1;
   unsigned int epilogue_begin:1;
   /* The remaining bit fields are not flags, but hold values presumed to be
      small.  All the flags and other bit fields should add up to 48 bits
      to give the whole struct a nice round size.  */
   unsigned int op_index:8;
   unsigned int isa:8;
   unsigned int discriminator:24;
 };

 struct Dwarf_Lines_s
 {
   size_t nlines;
   struct Dwarf_Line_s info[0];
 };

 /* Representation of address ranges.  */
 struct Dwarf_Aranges_s
 {
   Dwarf *dbg;
   size_t naranges;

   struct Dwarf_Arange_s
   {
     Dwarf_Addr addr;
     Dwarf_Word length;
     Dwarf_Off offset;
   } info[0];
 };


 /* CU representation.  */
 struct Dwarf_CU
 {
   Dwarf *dbg;
   Dwarf_Off start;
   Dwarf_Off end;
   uint8_t address_size;
   uint8_t offset_size;
   uint16_t version;

   /* Zero if this is a normal CU.  Nonzero if it is a type unit.  */
   size_t type_offset;
   uint64_t type_sig8;

   /* Hash table for the abbreviations.  */
   Dwarf_Abbrev_Hash abbrev_hash;
   /* Offset of the first abbreviation.  */
   size_t orig_abbrev_offset;
   /* Offset past last read abbreviation.  */
   size_t last_abbrev_offset;

   /* The srcline information.  */
   Dwarf_Lines *lines;

   /* The source file information.  */
   Dwarf_Files *files;

   /* Known location lists.  */
   void *locs;
 };

 /* Compute the offset of a CU's first DIE from its offset.  This
    is either:
         LEN       VER     OFFSET    ADDR
       4-bytes + 2-bytes + 4-bytes + 1-byte  for 32-bit dwarf
      12-bytes + 2-bytes + 8-bytes + 1-byte  for 64-bit dwarf
    or in .debug_types, 			     SIGNATURE TYPE-OFFSET
       4-bytes + 2-bytes + 4-bytes + 1-byte + 8-bytes + 4-bytes  for 32-bit
      12-bytes + 2-bytes + 8-bytes + 1-byte + 8-bytes + 8-bytes  for 64-bit

    Note the trick in the computation.  If the offset_size is 4
    the '- 4' term changes the '3 *' into a '2 *'.  If the
    offset_size is 8 it accounts for the 4-byte escape value
    used at the start of the length.  */
 #define DIE_OFFSET_FROM_CU_OFFSET(cu_offset, offset_size, type_unit)	\
   ((type_unit) ? ((cu_offset) + 4 * (offset_size) - 4 + 3 + 8)		\
    : ((cu_offset) + 3 * (offset_size) - 4 + 3))

 #define CUDIE(fromcu)							      \
   ((Dwarf_Die)								      \
    {									      \
      .cu = (fromcu),							      \
      .addr = ((char *) cu_data (fromcu)->d_buf				      \
 	      + DIE_OFFSET_FROM_CU_OFFSET ((fromcu)->start,		      \
 					   (fromcu)->offset_size,	      \
 					   (fromcu)->type_offset != 0))	      \
    })									      \


 /* Macro information.  */
 struct Dwarf_Macro_s
 {
   unsigned int opcode;
   Dwarf_Word param1;
   union
   {
     Dwarf_Word u;
     const char *s;
   } param2;
 };


 /* We have to include the file at this point because the inline
    functions access internals of the Dwarf structure.  */
 #include "memory-access.h"


 /* Set error value.  */
 extern void __libdw_seterrno (int value) internal_function;


 /* Memory handling, the easy parts.  This macro does not do any locking.  */
 #define libdw_alloc(dbg, type, tsize, cnt) \
   ({ struct libdw_memblock *_tail = (dbg)->mem_tail;			      \
      size_t _required = (tsize) * (cnt);				      \
      type *_result = (type *) (_tail->mem + (_tail->size - _tail->remaining));\
      size_t _padding = ((__alignof (type)				      \
 			 - ((uintptr_t) _result & (__alignof (type) - 1)))    \
 			& (__alignof (type) - 1));			      \
      if (unlikely (_tail->remaining < _required + _padding))		      \
        _result = (type *) __libdw_allocate (dbg, _required, __alignof (type));\
      else								      \
        {								      \
 	 _required += _padding;						      \
 	 _result = (type *) ((char *) _result + _padding);		      \
 	 _tail->remaining -= _required;					      \
        }								      \
      _result; })

 #define libdw_typed_alloc(dbg, type) \
   libdw_alloc (dbg, type, sizeof (type), 1)

 /* Callback to allocate more.  */
 extern void *__libdw_allocate (Dwarf *dbg, size_t minsize, size_t align)
      __attribute__ ((__malloc__)) __nonnull_attribute__ (1);

 /* Default OOM handler.  */
 extern void __libdw_oom (void) __attribute ((noreturn, visibility ("hidden")));

 #if USE_ZLIB
 extern void __libdw_free_zdata (Dwarf *dwarf) internal_function;
 #else
 # define __libdw_free_zdata(dwarf)	((void) (dwarf))
 #endif

 /* Allocate the internal data for a unit not seen before.  */
 extern struct Dwarf_CU *__libdw_intern_next_unit (Dwarf *dbg, bool debug_types)
      __nonnull_attribute__ (1) internal_function;

 /* Find CU for given offset.  */
 extern struct Dwarf_CU *__libdw_findcu (Dwarf *dbg, Dwarf_Off offset, bool tu)
      __nonnull_attribute__ (1) internal_function;

 /* Return tag of given DIE.  */
 extern Dwarf_Abbrev *__libdw_findabbrev (struct Dwarf_CU *cu,
 					 unsigned int code)
      __nonnull_attribute__ (1) internal_function;

 /* Get abbreviation at given offset.  */
 extern Dwarf_Abbrev *__libdw_getabbrev (Dwarf *dbg, struct Dwarf_CU *cu,
 					Dwarf_Off offset, size_t *lengthp,
 					Dwarf_Abbrev *result)
      __nonnull_attribute__ (1) internal_function;

 /* Helper functions for form handling.  */
 extern size_t __libdw_form_val_len (Dwarf *dbg, struct Dwarf_CU *cu,
 				    unsigned int form,
 				    const unsigned char *valp)
      __nonnull_attribute__ (1, 2, 4) internal_function;

 /* Helper function for DW_FORM_ref* handling.  */
 extern int __libdw_formref (Dwarf_Attribute *attr, Dwarf_Off *return_offset)
      __nonnull_attribute__ (1, 2) internal_function;


 /* Helper function to locate attribute.  */
 extern unsigned char *__libdw_find_attr (Dwarf_Die *die,
 					 unsigned int search_name,
 					 unsigned int *codep,
 					 unsigned int *formp)
      __nonnull_attribute__ (1) internal_function;

 /* Helper function to access integer attribute.  */
 extern int __libdw_attr_intval (Dwarf_Die *die, int *valp, int attval)
      __nonnull_attribute__ (1, 2) internal_function;

 /* Helper function to walk scopes.  */
 struct Dwarf_Die_Chain
 {
   Dwarf_Die die;
   struct Dwarf_Die_Chain *parent;
   bool prune;			/* The PREVISIT function can set this.  */
 };
 extern int __libdw_visit_scopes (unsigned int depth,
 				 struct Dwarf_Die_Chain *root,
 				 int (*previsit) (unsigned int depth,
 						  struct Dwarf_Die_Chain *,
 						  void *arg),
 				 int (*postvisit) (unsigned int depth,
 						   struct Dwarf_Die_Chain *,
 						   void *arg),
 				 void *arg)
   __nonnull_attribute__ (2, 3) internal_function;

 /* Parse a DWARF Dwarf_Block into an array of Dwarf_Op's,
    and cache the result (via tsearch).  */
 extern int __libdw_intern_expression (Dwarf *dbg,
 				      bool other_byte_order,
 				      unsigned int address_size,
 				      unsigned int ref_size,
 				      void **cache, const Dwarf_Block *block,
 				      bool cfap, bool valuep,
 				      Dwarf_Op **llbuf, size_t *listlen,
 				      int sec_index)
   __nonnull_attribute__ (5, 6, 9, 10) internal_function;

 extern Dwarf_Die *__libdw_offdie (Dwarf *dbg, Dwarf_Off offset,
 				  Dwarf_Die *result, bool debug_types)
   internal_function;


 /* Return error code of last failing function call.  This value is kept
    separately for each thread.  */
 extern int __dwarf_errno_internal (void);


 /* Reader hooks.  */

 /* Relocation hooks return -1 on error (in that case the error code
    must already have been set), 0 if there is no relocation and 1 if a
    relocation was present.*/

 static inline int
 __libdw_relocate_address (Dwarf *dbg __attribute__ ((unused)),
 			  int sec_index __attribute__ ((unused)),
 			  const void *addr __attribute__ ((unused)),
 			  int width __attribute__ ((unused)),
 			  Dwarf_Addr *val __attribute__ ((unused)))
 {
   return 0;
 }

 static inline int
 __libdw_relocate_offset (Dwarf *dbg __attribute__ ((unused)),
 			 int sec_index __attribute__ ((unused)),
 			 const void *addr __attribute__ ((unused)),
 			 int width __attribute__ ((unused)),
 			 Dwarf_Off *val __attribute__ ((unused)))
 {
   return 0;
 }

 static inline Elf_Data *
 __libdw_checked_get_data (Dwarf *dbg, int sec_index)
 {
   Elf_Data *data = dbg->sectiondata[sec_index];
   if (unlikely (data == NULL)
       || unlikely (data->d_buf == NULL))
     {
       __libdw_seterrno (DWARF_E_INVALID_DWARF);
       return NULL;
     }
   return data;
 }

 static inline int
 __libdw_offset_in_section (Dwarf *dbg, int sec_index,
 			   Dwarf_Off offset, size_t size)
 {
   Elf_Data *data = __libdw_checked_get_data (dbg, sec_index);
   if (data == NULL)
     return -1;
   if (unlikely (offset > data->d_size)
       || unlikely (data->d_size - offset < size))
     {
       __libdw_seterrno (DWARF_E_INVALID_OFFSET);
       return -1;
     }

   return 0;
 }

 static inline bool
 __libdw_in_section (Dwarf *dbg, int sec_index,
 		    const void *addr, size_t size)
 {
   Elf_Data *data = __libdw_checked_get_data (dbg, sec_index);
   if (data == NULL)
     return false;
   if (unlikely (addr < data->d_buf)
       || unlikely (data->d_size - (addr - data->d_buf) < size))
     {
       __libdw_seterrno (DWARF_E_INVALID_OFFSET);
       return false;
     }

   return true;
 }

 #define READ_AND_RELOCATE(RELOC_HOOK, VAL)				\
   ({									\
     if (!__libdw_in_section (dbg, sec_index, addr, width))		\
       return -1;							\
 									\
     const unsigned char *orig_addr = addr;				\
     if (width == 4)							\
       VAL = read_4ubyte_unaligned_inc (dbg, addr);			\
     else								\
       VAL = read_8ubyte_unaligned_inc (dbg, addr);			\
 									\
     int status = RELOC_HOOK (dbg, sec_index, orig_addr, width, &VAL);	\
     if (status < 0)							\
       return status;							\
     status > 0;								\
    })

 static inline int
 __libdw_read_address_inc (Dwarf *dbg,
 			  int sec_index, const unsigned char **addrp,
 			  int width, Dwarf_Addr *ret)
 {
   const unsigned char *addr = *addrp;
   READ_AND_RELOCATE (__libdw_relocate_address, (*ret));
   *addrp = addr;
   return 0;
 }

 static inline int
 __libdw_read_address (Dwarf *dbg,
 		      int sec_index, const unsigned char *addr,
 		      int width, Dwarf_Addr *ret)
 {
   READ_AND_RELOCATE (__libdw_relocate_address, (*ret));
   return 0;
 }

 static inline int
 __libdw_read_offset_inc (Dwarf *dbg,
 			 int sec_index, const unsigned char **addrp,
 			 int width, Dwarf_Off *ret, int sec_ret,
 			 size_t size)
 {
   const unsigned char *addr = *addrp;
   READ_AND_RELOCATE (__libdw_relocate_offset, (*ret));
   *addrp = addr;
   return __libdw_offset_in_section (dbg, sec_ret, *ret, size);
 }

 static inline int
 __libdw_read_offset (Dwarf *dbg,
 		     int sec_index, const unsigned char *addr,
 		     int width, Dwarf_Off *ret, int sec_ret,
 		     size_t size)
 {
   READ_AND_RELOCATE (__libdw_relocate_offset, (*ret));
   return __libdw_offset_in_section (dbg, sec_ret, *ret, size);
 }

 static inline size_t
 cu_sec_idx (struct Dwarf_CU *cu)
 {
   return cu->type_offset == 0 ? IDX_debug_info : IDX_debug_types;
 }

 static inline Elf_Data *
 cu_data (struct Dwarf_CU *cu)
 {
   return cu->dbg->sectiondata[cu_sec_idx (cu)];
 }

 /* Read up begin/end pair and increment read pointer.
     - If it's normal range record, set up *BEGINP and *ENDP and return 0.
     - If it's base address selection record, set up *BASEP and return 1.
     - If it's end of rangelist, don't set anything and return 2
     - If an error occurs, don't set anything and return <0.  */
 int __libdw_read_begin_end_pair_inc (Dwarf *dbg, int sec_index,
 				     unsigned char **addr, int width,
 				     Dwarf_Addr *beginp, Dwarf_Addr *endp,
 				     Dwarf_Addr *basep)
   internal_function;

 unsigned char * __libdw_formptr (Dwarf_Attribute *attr, int sec_index,
 				 int err_nodata, unsigned char **endpp,
 				 Dwarf_Off *offsetp)
   internal_function;


 /* Aliases to avoid PLTs.  */
 INTDECL (dwarf_aggregate_size)
 INTDECL (dwarf_attr)
 INTDECL (dwarf_attr_integrate)
 INTDECL (dwarf_begin_elf)
 INTDECL (dwarf_child)
 INTDECL (dwarf_dieoffset)
 INTDECL (dwarf_diename)
 INTDECL (dwarf_end)
 INTDECL (dwarf_entrypc)
 INTDECL (dwarf_errmsg)
 INTDECL (dwarf_formaddr)
 INTDECL (dwarf_formblock)
 INTDECL (dwarf_formref_die)
 INTDECL (dwarf_formsdata)
 INTDECL (dwarf_formstring)
 INTDECL (dwarf_formudata)
 INTDECL (dwarf_getarange_addr)
 INTDECL (dwarf_getarangeinfo)
 INTDECL (dwarf_getaranges)
 INTDECL (dwarf_getsrcfiles)
 INTDECL (dwarf_getsrclines)
 INTDECL (dwarf_hasattr)
 INTDECL (dwarf_haschildren)
 INTDECL (dwarf_haspc)
 INTDECL (dwarf_highpc)
 INTDECL (dwarf_lowpc)
 INTDECL (dwarf_nextcu)
 INTDECL (dwarf_next_unit)
 INTDECL (dwarf_offdie)
 INTDECL (dwarf_ranges)
 INTDECL (dwarf_siblingof)
 INTDECL (dwarf_srclang)
 INTDECL (dwarf_tag)

 #endif	/* libdwP.h */
	/* Internal definitions for libdwarf.
	Copyright (C) 2002-2011 Red Hat, Inc.
	This file is part of Red Hat elfutils.
	Written by Ulrich Drepper <drepper@redhat.com>, 2002.

	Red Hat elfutils 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; version 2 of the License.

	Red Hat elfutils 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 Red Hat elfutils; if not, write to the Free Software Foundation,
	Inc., 51 Franklin Street, Fifth Floor, Boston MA 02110-1301 USA.

	In addition, as a special exception, Red Hat, Inc. gives You the
	additional right to link the code of Red Hat elfutils with code licensed
	under any Open Source Initiative certified open source license
	(http://www.opensource.org/licenses/index.php) which requires the
	distribution of source code with any binary distribution and to
	distribute linked combinations of the two. Non-GPL Code permitted under
	this exception must only link to the code of Red Hat elfutils through
	those well defined interfaces identified in the file named EXCEPTION
	found in the source code files (the "Approved Interfaces"). The files
	of Non-GPL Code may instantiate templates or use macros or inline
	functions from the Approved Interfaces without causing the resulting
	work to be covered by the GNU General Public License. Only Red Hat,
	Inc. may make changes or additions to the list of Approved Interfaces.
	Red Hat's grant of this exception is conditioned upon your not adding
	any new exceptions. If you wish to add a new Approved Interface or
	exception, please contact Red Hat. You must obey the GNU General Public
	License in all respects for all of the Red Hat elfutils code and other
	code used in conjunction with Red Hat elfutils except the Non-GPL Code
	covered by this exception. If you modify this file, you may extend this
	exception to your version of the file, but you are not obligated to do
	so. If you do not wish to provide this exception without modification,
	you must delete this exception statement from your version and license
	this file solely under the GPL without exception.

	Red Hat elfutils is an included package of the Open Invention Network.
	An included package of the Open Invention Network is a package for which
	Open Invention Network licensees cross-license their patents. No patent
	license is granted, either expressly or impliedly, by designation as an
	included package. Should you wish to participate in the Open Invention
	Network licensing program, please visit www.openinventionnetwork.com
	<http://www.openinventionnetwork.com>. */

	#ifndef _LIBDWP_H
	#define _LIBDWP_H 1

	#include <libintl.h>
	#include <stdbool.h>

	#include <libdw.h>


	/* gettext helper macros. */
	#define _(Str) dgettext ("elfutils", Str)


	/* Known location expressions already decoded. */
	struct loc_s
	{
	void *addr;
	Dwarf_Op *loc;
	size_t nloc;
	};

	/* Known DW_OP_implicit_value blocks already decoded.
	This overlaps struct loc_s exactly, but only the
	first member really has to match. */
	struct loc_block_s
	{
	void *addr;
	unsigned char *data;
	size_t length;
	};

	/* Valid indeces for the section data. */
	enum
	{
	IDX_debug_info = 0,
	IDX_debug_types,
	IDX_debug_abbrev,
	IDX_debug_aranges,
	IDX_debug_line,
	IDX_debug_frame,
	IDX_debug_loc,
	IDX_debug_pubnames,
	IDX_debug_str,
	IDX_debug_macinfo,
	IDX_debug_ranges,
	IDX_last
	};


	/* Error values. */
	enum
	{
	DWARF_E_NOERROR = 0,
	DWARF_E_UNKNOWN_ERROR,
	DWARF_E_INVALID_ACCESS,
	DWARF_E_NO_REGFILE,
	DWARF_E_IO_ERROR,
	DWARF_E_INVALID_ELF,
	DWARF_E_NO_DWARF,
	DWARF_E_NOELF,
	DWARF_E_GETEHDR_ERROR,
	DWARF_E_NOMEM,
	DWARF_E_UNIMPL,
	DWARF_E_INVALID_CMD,
	DWARF_E_INVALID_VERSION,
	DWARF_E_INVALID_FILE,
	DWARF_E_NO_ENTRY,
	DWARF_E_INVALID_DWARF,
	DWARF_E_NO_STRING,
	DWARF_E_NO_ADDR,
	DWARF_E_NO_CONSTANT,
	DWARF_E_NO_REFERENCE,
	DWARF_E_INVALID_REFERENCE,
	DWARF_E_NO_DEBUG_LINE,
	DWARF_E_INVALID_DEBUG_LINE,
	DWARF_E_TOO_BIG,
	DWARF_E_VERSION,
	DWARF_E_INVALID_DIR_IDX,
	DWARF_E_ADDR_OUTOFRANGE,
	DWARF_E_NO_LOCLIST,
	DWARF_E_NO_BLOCK,
	DWARF_E_INVALID_LINE_IDX,
	DWARF_E_INVALID_ARANGE_IDX,
	DWARF_E_NO_MATCH,
	DWARF_E_NO_FLAG,
	DWARF_E_INVALID_OFFSET,
	DWARF_E_NO_DEBUG_RANGES,
	DWARF_E_INVALID_CFI,
	};


	#include "dwarf_sig8_hash.h"

	/* This is the structure representing the debugging state. */
	struct Dwarf
	{
	/* The underlying ELF file. */
	Elf *elf;

	/* The section data. */
	Elf_Data *sectiondata[IDX_last];

	#if USE_ZLIB
	/* The 1 << N bit is set if sectiondata[N] is malloc'd decompressed data. */
	unsigned int sectiondata_gzip_mask:IDX_last;
	#endif

	/* True if the file has a byte order different from the host. */
	bool other_byte_order;

	/* If true, we allocated the ELF descriptor ourselves. */
	bool free_elf;

	/* Information for traversing the .debug_pubnames section. This is
	an array and separately allocated with malloc. */
	struct pubnames_s
	{
	Dwarf_Off cu_offset;
	Dwarf_Off set_start;
	unsigned int cu_header_size;
	int address_len;
	} *pubnames_sets;
	size_t pubnames_nsets;

	/* Search tree for the CUs. */
	void *cu_tree;
	Dwarf_Off next_cu_offset;

	/* Search tree and sig8 hash table for .debug_types type units. */
	void *tu_tree;
	Dwarf_Off next_tu_offset;
	Dwarf_Sig8_Hash sig8_hash;

	/* Address ranges. */
	Dwarf_Aranges *aranges;

	/* Cached info from the CFI section. */
	struct Dwarf_CFI_s *cfi;

	/* Internal memory handling. This is basically a simplified
	reimplementation of obstacks. Unfortunately the standard obstack
	implementation is not usable in libraries. */
	struct libdw_memblock
	{
	size_t size;
	size_t remaining;
	struct libdw_memblock *prev;
	char mem[0];
	} *mem_tail;

	/* Default size of allocated memory blocks. */
	size_t mem_default_size;

	/* Registered OOM handler. */
	Dwarf_OOM oom_handler;
	};


	/* Abbreviation representation. */
	struct Dwarf_Abbrev
	{
	Dwarf_Off offset;
	unsigned char *attrp;
	unsigned int attrcnt;
	unsigned int code;
	unsigned int tag;
	bool has_children;
	};

	#include "dwarf_abbrev_hash.h"


	/* Files in line information records. */
	struct Dwarf_Files_s
	{
	struct Dwarf_CU *cu;
	unsigned int ndirs;
	unsigned int nfiles;
	struct Dwarf_Fileinfo_s
	{
	char *name;
	Dwarf_Word mtime;
	Dwarf_Word length;
	} info[0];
	/* nfiles of those, followed by char [ndirs]. /
	};
	typedef struct Dwarf_Fileinfo_s Dwarf_Fileinfo;


	/* Representation of a row in the line table. */

	struct Dwarf_Line_s
	{
	Dwarf_Files *files;

	Dwarf_Addr addr;
	unsigned int file;
	int line;
	unsigned short int column;
	unsigned int is_stmt:1;
	unsigned int basic_block:1;
	unsigned int end_sequence:1;
	unsigned int prologue_end:1;
	unsigned int epilogue_begin:1;
	/* The remaining bit fields are not flags, but hold values presumed to be
	small. All the flags and other bit fields should add up to 48 bits
	to give the whole struct a nice round size. */
	unsigned int op_index:8;
	unsigned int isa:8;
	unsigned int discriminator:24;
	};

	struct Dwarf_Lines_s
	{
	size_t nlines;
	struct Dwarf_Line_s info[0];
	};

	/* Representation of address ranges. */
	struct Dwarf_Aranges_s
	{
	Dwarf *dbg;
	size_t naranges;

	struct Dwarf_Arange_s
	{
	Dwarf_Addr addr;
	Dwarf_Word length;
	Dwarf_Off offset;
	} info[0];
	};


	/* CU representation. */
	struct Dwarf_CU
	{
	Dwarf *dbg;
	Dwarf_Off start;
	Dwarf_Off end;
	uint8_t address_size;
	uint8_t offset_size;
	uint16_t version;

	/* Zero if this is a normal CU. Nonzero if it is a type unit. */
	size_t type_offset;
	uint64_t type_sig8;

	/* Hash table for the abbreviations. */
	Dwarf_Abbrev_Hash abbrev_hash;
	/* Offset of the first abbreviation. */
	size_t orig_abbrev_offset;
	/* Offset past last read abbreviation. */
	size_t last_abbrev_offset;

	/* The srcline information. */
	Dwarf_Lines *lines;

	/* The source file information. */
	Dwarf_Files *files;

	/* Known location lists. */
	void *locs;
	};

	/* Compute the offset of a CU's first DIE from its offset. This
	is either:
	LEN VER OFFSET ADDR
	4-bytes + 2-bytes + 4-bytes + 1-byte for 32-bit dwarf
	12-bytes + 2-bytes + 8-bytes + 1-byte for 64-bit dwarf
	or in .debug_types, SIGNATURE TYPE-OFFSET
	4-bytes + 2-bytes + 4-bytes + 1-byte + 8-bytes + 4-bytes for 32-bit
	12-bytes + 2-bytes + 8-bytes + 1-byte + 8-bytes + 8-bytes for 64-bit

	Note the trick in the computation. If the offset_size is 4
	the '- 4' term changes the '3 ' into a '2 '. If the
	offset_size is 8 it accounts for the 4-byte escape value
	used at the start of the length. */
	#define DIE_OFFSET_FROM_CU_OFFSET(cu_offset, offset_size, type_unit) \
	((type_unit) ? ((cu_offset) + 4 * (offset_size) - 4 + 3 + 8) \
	: ((cu_offset) + 3 * (offset_size) - 4 + 3))

	#define CUDIE(fromcu) \
	((Dwarf_Die) \
	{ \
	.cu = (fromcu), \
	.addr = ((char *) cu_data (fromcu)->d_buf \
	+ DIE_OFFSET_FROM_CU_OFFSET ((fromcu)->start, \
	(fromcu)->offset_size, \
	(fromcu)->type_offset != 0)) \
	}) \


	/* Macro information. */
	struct Dwarf_Macro_s
	{
	unsigned int opcode;
	Dwarf_Word param1;
	union
	{
	Dwarf_Word u;
	const char *s;
	} param2;
	};


	/* We have to include the file at this point because the inline
	functions access internals of the Dwarf structure. */
	#include "memory-access.h"


	/* Set error value. */
	extern void __libdw_seterrno (int value) internal_function;


	/* Memory handling, the easy parts. This macro does not do any locking. */
	#define libdw_alloc(dbg, type, tsize, cnt) \
	({ struct libdw_memblock *_tail = (dbg)->mem_tail; \
	size_t _required = (tsize) * (cnt); \
	type _result = (type ) (_tail->mem + (_tail->size - _tail->remaining));\
	size_t _padding = ((__alignof (type) \
	- ((uintptr_t) _result & (__alignof (type) - 1))) \
	& (__alignof (type) - 1)); \
	if (unlikely (_tail->remaining < _required + _padding)) \
	_result = (type *) __libdw_allocate (dbg, _required, __alignof (type));\
	else \
	{ \
	_required += _padding; \
	_result = (type ) ((char ) _result + _padding); \
	_tail->remaining -= _required; \
	} \
	_result; })

	#define libdw_typed_alloc(dbg, type) \
	libdw_alloc (dbg, type, sizeof (type), 1)

	/* Callback to allocate more. */
	extern void __libdw_allocate (Dwarf dbg, size_t minsize, size_t align)
	__attribute__ ((__malloc__)) __nonnull_attribute__ (1);

	/* Default OOM handler. */
	extern void __libdw_oom (void) __attribute ((noreturn, visibility ("hidden")));

	#if USE_ZLIB
	extern void __libdw_free_zdata (Dwarf *dwarf) internal_function;
	#else
	# define __libdw_free_zdata(dwarf) ((void) (dwarf))
	#endif

	/* Allocate the internal data for a unit not seen before. */
	extern struct Dwarf_CU __libdw_intern_next_unit (Dwarf dbg, bool debug_types)
	__nonnull_attribute__ (1) internal_function;

	/* Find CU for given offset. */
	extern struct Dwarf_CU __libdw_findcu (Dwarf dbg, Dwarf_Off offset, bool tu)
	__nonnull_attribute__ (1) internal_function;

	/* Return tag of given DIE. */
	extern Dwarf_Abbrev __libdw_findabbrev (struct Dwarf_CU cu,
	unsigned int code)
	__nonnull_attribute__ (1) internal_function;

	/* Get abbreviation at given offset. */
	extern Dwarf_Abbrev __libdw_getabbrev (Dwarf dbg, struct Dwarf_CU *cu,
	Dwarf_Off offset, size_t *lengthp,
	Dwarf_Abbrev *result)
	__nonnull_attribute__ (1) internal_function;

	/* Helper functions for form handling. */
	extern size_t __libdw_form_val_len (Dwarf dbg, struct Dwarf_CU cu,
	unsigned int form,
	const unsigned char *valp)
	__nonnull_attribute__ (1, 2, 4) internal_function;

	/* Helper function for DW_FORM_ref* handling. */
	extern int __libdw_formref (Dwarf_Attribute attr, Dwarf_Off return_offset)
	__nonnull_attribute__ (1, 2) internal_function;


	/* Helper function to locate attribute. */
	extern unsigned char __libdw_find_attr (Dwarf_Die die,
	unsigned int search_name,
	unsigned int *codep,
	unsigned int *formp)
	__nonnull_attribute__ (1) internal_function;

	/* Helper function to access integer attribute. */
	extern int __libdw_attr_intval (Dwarf_Die die, int valp, int attval)
	__nonnull_attribute__ (1, 2) internal_function;

	/* Helper function to walk scopes. */
	struct Dwarf_Die_Chain
	{
	Dwarf_Die die;
	struct Dwarf_Die_Chain *parent;
	bool prune; /* The PREVISIT function can set this. */
	};
	extern int __libdw_visit_scopes (unsigned int depth,
	struct Dwarf_Die_Chain *root,
	int (*previsit) (unsigned int depth,
	struct Dwarf_Die_Chain *,
	void *arg),
	int (*postvisit) (unsigned int depth,
	struct Dwarf_Die_Chain *,
	void *arg),
	void *arg)
	__nonnull_attribute__ (2, 3) internal_function;

	/* Parse a DWARF Dwarf_Block into an array of Dwarf_Op's,
	and cache the result (via tsearch). */
	extern int __libdw_intern_expression (Dwarf *dbg,
	bool other_byte_order,
	unsigned int address_size,
	unsigned int ref_size,
	void *cache, const Dwarf_Block block,
	bool cfap, bool valuep,
	Dwarf_Op *llbuf, size_t listlen,
	int sec_index)
	__nonnull_attribute__ (5, 6, 9, 10) internal_function;

	extern Dwarf_Die __libdw_offdie (Dwarf dbg, Dwarf_Off offset,
	Dwarf_Die *result, bool debug_types)
	internal_function;


	/* Return error code of last failing function call. This value is kept
	separately for each thread. */
	extern int __dwarf_errno_internal (void);


	/* Reader hooks. */

	/* Relocation hooks return -1 on error (in that case the error code
	must already have been set), 0 if there is no relocation and 1 if a
	relocation was present.*/

	static inline int
	__libdw_relocate_address (Dwarf *dbg __attribute__ ((unused)),
	int sec_index __attribute__ ((unused)),
	const void *addr __attribute__ ((unused)),
	int width __attribute__ ((unused)),
	Dwarf_Addr *val __attribute__ ((unused)))
	{
	return 0;
	}

	static inline int
	__libdw_relocate_offset (Dwarf *dbg __attribute__ ((unused)),
	int sec_index __attribute__ ((unused)),
	const void *addr __attribute__ ((unused)),
	int width __attribute__ ((unused)),
	Dwarf_Off *val __attribute__ ((unused)))
	{
	return 0;
	}

	static inline Elf_Data *
	__libdw_checked_get_data (Dwarf *dbg, int sec_index)
	{
	Elf_Data *data = dbg->sectiondata[sec_index];
	if (unlikely (data == NULL)
	\|\| unlikely (data->d_buf == NULL))
	{
	__libdw_seterrno (DWARF_E_INVALID_DWARF);
	return NULL;
	}
	return data;
	}

	static inline int
	__libdw_offset_in_section (Dwarf *dbg, int sec_index,
	Dwarf_Off offset, size_t size)
	{
	Elf_Data *data = __libdw_checked_get_data (dbg, sec_index);
	if (data == NULL)
	return -1;
	if (unlikely (offset > data->d_size)
	\|\| unlikely (data->d_size - offset < size))
	{
	__libdw_seterrno (DWARF_E_INVALID_OFFSET);
	return -1;
	}

	return 0;
	}

	static inline bool
	__libdw_in_section (Dwarf *dbg, int sec_index,
	const void *addr, size_t size)
	{
	Elf_Data *data = __libdw_checked_get_data (dbg, sec_index);
	if (data == NULL)
	return false;
	if (unlikely (addr < data->d_buf)
	\|\| unlikely (data->d_size - (addr - data->d_buf) < size))
	{
	__libdw_seterrno (DWARF_E_INVALID_OFFSET);
	return false;
	}

	return true;
	}

	#define READ_AND_RELOCATE(RELOC_HOOK, VAL) \
	({ \
	if (!__libdw_in_section (dbg, sec_index, addr, width)) \
	return -1; \
	\
	const unsigned char *orig_addr = addr; \
	if (width == 4) \
	VAL = read_4ubyte_unaligned_inc (dbg, addr); \
	else \
	VAL = read_8ubyte_unaligned_inc (dbg, addr); \
	\
	int status = RELOC_HOOK (dbg, sec_index, orig_addr, width, &VAL); \
	if (status < 0) \
	return status; \
	status > 0; \
	})

	static inline int
	__libdw_read_address_inc (Dwarf *dbg,
	int sec_index, const unsigned char **addrp,
	int width, Dwarf_Addr *ret)
	{
	const unsigned char addr = addrp;
	READ_AND_RELOCATE (__libdw_relocate_address, (*ret));
	*addrp = addr;
	return 0;
	}

	static inline int
	__libdw_read_address (Dwarf *dbg,
	int sec_index, const unsigned char *addr,
	int width, Dwarf_Addr *ret)
	{
	READ_AND_RELOCATE (__libdw_relocate_address, (*ret));
	return 0;
	}

	static inline int
	__libdw_read_offset_inc (Dwarf *dbg,
	int sec_index, const unsigned char **addrp,
	int width, Dwarf_Off *ret, int sec_ret,
	size_t size)
	{
	const unsigned char addr = addrp;
	READ_AND_RELOCATE (__libdw_relocate_offset, (*ret));
	*addrp = addr;
	return __libdw_offset_in_section (dbg, sec_ret, *ret, size);
	}

	static inline int
	__libdw_read_offset (Dwarf *dbg,
	int sec_index, const unsigned char *addr,
	int width, Dwarf_Off *ret, int sec_ret,
	size_t size)
	{
	READ_AND_RELOCATE (__libdw_relocate_offset, (*ret));
	return __libdw_offset_in_section (dbg, sec_ret, *ret, size);
	}

	static inline size_t
	cu_sec_idx (struct Dwarf_CU *cu)
	{
	return cu->type_offset == 0 ? IDX_debug_info : IDX_debug_types;
	}

	static inline Elf_Data *
	cu_data (struct Dwarf_CU *cu)
	{
	return cu->dbg->sectiondata[cu_sec_idx (cu)];
	}

	/* Read up begin/end pair and increment read pointer.
	- If it's normal range record, set up BEGINP and ENDP and return 0.
	- If it's base address selection record, set up *BASEP and return 1.
	- If it's end of rangelist, don't set anything and return 2
	- If an error occurs, don't set anything and return <0. */
	int __libdw_read_begin_end_pair_inc (Dwarf *dbg, int sec_index,
	unsigned char **addr, int width,
	Dwarf_Addr beginp, Dwarf_Addr endp,
	Dwarf_Addr *basep)
	internal_function;

	unsigned char * __libdw_formptr (Dwarf_Attribute *attr, int sec_index,
	int err_nodata, unsigned char **endpp,
	Dwarf_Off *offsetp)
	internal_function;



	/* Aliases to avoid PLTs. */
	INTDECL (dwarf_aggregate_size)
	INTDECL (dwarf_attr)
	INTDECL (dwarf_attr_integrate)
	INTDECL (dwarf_begin_elf)
	INTDECL (dwarf_child)
	INTDECL (dwarf_dieoffset)
	INTDECL (dwarf_diename)
	INTDECL (dwarf_end)
	INTDECL (dwarf_entrypc)
	INTDECL (dwarf_errmsg)
	INTDECL (dwarf_formaddr)
	INTDECL (dwarf_formblock)
	INTDECL (dwarf_formref_die)
	INTDECL (dwarf_formsdata)
	INTDECL (dwarf_formstring)
	INTDECL (dwarf_formudata)
	INTDECL (dwarf_getarange_addr)
	INTDECL (dwarf_getarangeinfo)
	INTDECL (dwarf_getaranges)
	INTDECL (dwarf_getsrcfiles)
	INTDECL (dwarf_getsrclines)
	INTDECL (dwarf_hasattr)
	INTDECL (dwarf_haschildren)
	INTDECL (dwarf_haspc)
	INTDECL (dwarf_highpc)
	INTDECL (dwarf_lowpc)
	INTDECL (dwarf_nextcu)
	INTDECL (dwarf_next_unit)
	INTDECL (dwarf_offdie)
	INTDECL (dwarf_ranges)
	INTDECL (dwarf_siblingof)
	INTDECL (dwarf_srclang)
	INTDECL (dwarf_tag)

	#endif /* libdwP.h */