xref: /external/elfutils/0.153/libdw/cfi.h

/* Internal definitions for libdw CFI interpreter.
   Copyright (C) 2009-2010 Red Hat, Inc.
   This file is part of Red Hat elfutils.

   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
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   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
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#ifndef _UNWINDP_H
#define _UNWINDP_H 1

#include "libdwP.h"
#include "libelfP.h"
struct ebl;

/* Cached CIE representation.  */
struct dwarf_cie
{
  Dwarf_Off offset;	 /* Our position, as seen in FDEs' CIE_pointer.  */

  Dwarf_Word code_alignment_factor;
  Dwarf_Sword data_alignment_factor;
  Dwarf_Word return_address_register;

  size_t fde_augmentation_data_size;

  // play out to initial state
  const uint8_t *initial_instructions;
  const uint8_t *initial_instructions_end;

  const Dwarf_Frame *initial_state;

  uint8_t fde_encoding;		/* DW_EH_PE_* for addresses in FDEs.  */
  uint8_t lsda_encoding;    /* DW_EH_PE_* for LSDA in FDE augmentation.  */

  bool sized_augmentation_data;	/* Saw 'z': FDEs have self-sized data.  */
  bool signal_frame;		/* Saw 'S': FDE is for a signal frame.  */
};

/* Cached FDE representation.  */
struct dwarf_fde
{
  struct dwarf_cie *cie;

  /* This FDE describes PC values in [start, end).  */
  Dwarf_Addr start;
  Dwarf_Addr end;

  const uint8_t *instructions;
  const uint8_t *instructions_end;
};

/* This holds everything we cache about the CFI from each ELF file's
   .debug_frame or .eh_frame section.  */
struct Dwarf_CFI_s
{
  /* Dwarf handle we came from.  If null, this is .eh_frame data.  */
  Dwarf *dbg;
#define CFI_IS_EH(cfi)	((cfi)->dbg == NULL)

  /* Data of the .debug_frame or .eh_frame section.  */
  Elf_Data_Scn *data;
  const unsigned char *e_ident;	/* For EI_DATA and EI_CLASS.  */

  Dwarf_Addr frame_vaddr;  /* DW_EH_PE_pcrel, address of frame section.  */
  Dwarf_Addr textrel;		/* DW_EH_PE_textrel base address.  */
  Dwarf_Addr datarel;		/* DW_EH_PE_datarel base address.  */

  /* Location of next unread entry in the section.  */
  Dwarf_Off next_offset;

  /* Search tree for the CIEs, indexed by CIE_pointer (section offset).  */
  void *cie_tree;

  /* Search tree for the FDEs, indexed by PC address.  */
  void *fde_tree;

  /* Search tree for parsed DWARF expressions, indexed by raw pointer.  */
  void *expr_tree;

  /* Backend hook.  */
  struct ebl *ebl;

  /* Binary search table in .eh_frame_hdr section.  */
  const uint8_t *search_table;
  Dwarf_Addr search_table_vaddr;
  size_t search_table_entries;
  uint8_t search_table_encoding;

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

  /* Default rule for registers not previously mentioned
     is same_value, not undefined.  */
  bool default_same_value;
};


enum dwarf_frame_rule
  {
    reg_unspecified,		/* Uninitialized state.  */
    reg_undefined,		/* DW_CFA_undefined */
    reg_same_value,		/* DW_CFA_same_value */
    reg_offset,			/* DW_CFA_offset_extended et al */
    reg_val_offset,		/* DW_CFA_val_offset et al */
    reg_register,		/* DW_CFA_register */
    reg_expression,		/* DW_CFA_expression */
    reg_val_expression,		/* DW_CFA_val_expression */
  };

/* This describes what we know about an individual register.  */
struct dwarf_frame_register
{
  enum dwarf_frame_rule rule:3;

  /* The meaning of the value bits depends on the rule:

	Rule			Value
	----			-----
	undefined		unused
	same_value		unused
	offset(N)		N	(register saved at CFA + value)
	val_offset(N)		N	(register = CFA + value)
	register(R)		R	(register = register #value)
	expression(E)		section offset of DW_FORM_block containing E
					(register saved at address E computes)
	val_expression(E)	section offset of DW_FORM_block containing E
					(register = value E computes)
  */
  Dwarf_Sword value:(sizeof (Dwarf_Sword) * 8 - 3);
};

/* This holds everything we know about the state of the frame
   at a particular PC location described by an FDE.  */
struct Dwarf_Frame_s
{
  /* This frame description covers PC values in [start, end).  */
  Dwarf_Addr start;
  Dwarf_Addr end;

  Dwarf_CFI *cache;

  /* Previous state saved by DW_CFA_remember_state, or .cie->initial_state,
     or NULL in an initial_state pseudo-frame.  */
  Dwarf_Frame *prev;

  /* The FDE that generated this frame state.  This points to its CIE,
     which has the return_address_register and signal_frame flag.  */
  struct dwarf_fde *fde;

  /* The CFA is unknown, is R+N, or is computed by a DWARF expression.
     A bogon in the CFI can indicate an invalid/incalculable rule.
     We store that as cfa_invalid rather than barfing when processing it,
     so callers can ignore the bogon unless they really need that CFA.  */
  enum { cfa_undefined, cfa_offset, cfa_expr, cfa_invalid } cfa_rule;
  union
  {
    Dwarf_Op offset;
    Dwarf_Block expr;
  } cfa_data;
  /* We store an offset rule as a DW_OP_bregx operation.  */
#define cfa_val_reg	cfa_data.offset.number
#define cfa_val_offset	cfa_data.offset.number2

  size_t nregs;
  struct dwarf_frame_register regs[];
};


/* Clean up the data structure and all it points to.  */
extern void __libdw_destroy_frame_cache (Dwarf_CFI *cache)
  __nonnull_attribute__ (1) internal_function;

/* Enter a CIE encountered while reading through for FDEs.  */
extern void __libdw_intern_cie (Dwarf_CFI *cache, Dwarf_Off offset,
				const Dwarf_CIE *info)
  __nonnull_attribute__ (1, 3) internal_function;

/* Look up a CIE_pointer for random access.  */
extern struct dwarf_cie *__libdw_find_cie (Dwarf_CFI *cache, Dwarf_Off offset)
  __nonnull_attribute__ (1) internal_function;


/* Look for an FDE covering the given PC address.  */
extern struct dwarf_fde *__libdw_find_fde (Dwarf_CFI *cache,
					   Dwarf_Addr address)
  __nonnull_attribute__ (1) internal_function;

/* Look for an FDE by its offset in the section.  */
extern struct dwarf_fde *__libdw_fde_by_offset (Dwarf_CFI *cache,
						Dwarf_Off offset)
  __nonnull_attribute__ (1) internal_function;

/* Process the FDE that contains the given PC address,
   to yield the frame state when stopped there.
   The return value is a DWARF_E_* error code.  */
extern int __libdw_frame_at_address (Dwarf_CFI *cache, struct dwarf_fde *fde,
				     Dwarf_Addr address, Dwarf_Frame **frame)
  __nonnull_attribute__ (1, 2, 4) internal_function;


/* Dummy struct for memory-access.h macros.  */
#define BYTE_ORDER_DUMMY(var, e_ident)					      \
  const struct { bool other_byte_order; } var =				      \
    { ((BYTE_ORDER == LITTLE_ENDIAN && e_ident[EI_DATA] == ELFDATA2MSB)       \
       || (BYTE_ORDER == BIG_ENDIAN && e_ident[EI_DATA] == ELFDATA2LSB)) }


INTDECL (dwarf_next_cfi)
INTDECL (dwarf_getcfi)
INTDECL (dwarf_getcfi_elf)
INTDECL (dwarf_cfi_end)
INTDECL (dwarf_cfi_addrframe)

#endif	/* unwindP.h */