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404 lines
16 KiB
404 lines
16 KiB
4 months ago
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/* Interface for libebl.
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Copyright (C) 2000-2010, 2013, 2014, 2015, 2016, 2017 Red Hat, Inc.
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This file is part of elfutils.
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This file is free software; you can redistribute it and/or modify
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it under the terms of either
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* the GNU Lesser General Public License as published by the Free
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Software Foundation; either version 3 of the License, or (at
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your option) any later version
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or
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* the GNU General Public License as published by the Free
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Software Foundation; either version 2 of the License, or (at
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your option) any later version
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or both in parallel, as here.
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elfutils is distributed in the hope that it will be useful, but
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WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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General Public License for more details.
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You should have received copies of the GNU General Public License and
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the GNU Lesser General Public License along with this program. If
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not, see <http://www.gnu.org/licenses/>. */
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/* This is the interface for the Elfutils Backend Library.
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It is a completely UNSUPPORTED interface. Don't use any libebl
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function directly. These are only for internal elfutils backends
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and tools. There is NO source or binary compatible guarantee. */
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#ifndef _LIBEBL_H
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#define _LIBEBL_H 1
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#include <gelf.h>
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#include "libdw.h"
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#include <stdbool.h>
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#include <stddef.h>
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#include <stdint.h>
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#include "elf-knowledge.h"
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/* Opaque type for the handle. libasm.h defined the same thing. */
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#ifndef _LIBASM_H
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typedef struct ebl Ebl;
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#endif
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#ifdef __cplusplus
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extern "C" {
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#endif
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/* Get backend handle for object associated with ELF handle. */
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extern Ebl *ebl_openbackend (Elf *elf);
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/* Similar but without underlying ELF file. */
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extern Ebl *ebl_openbackend_machine (GElf_Half machine);
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/* Similar but with emulation name given. */
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extern Ebl *ebl_openbackend_emulation (const char *emulation);
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/* Free resources allocated for backend handle. */
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extern void ebl_closebackend (Ebl *bh);
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/* Information about the descriptor. */
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/* Get ELF machine. */
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extern int ebl_get_elfmachine (Ebl *ebl) __pure_attribute__;
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/* Get ELF class. */
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extern int ebl_get_elfclass (Ebl *ebl) __pure_attribute__;
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/* Get ELF data encoding. */
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extern int ebl_get_elfdata (Ebl *ebl) __pure_attribute__;
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/* Function to call the callback functions including default ELF
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handling. */
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/* Return backend name. */
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extern const char *ebl_backend_name (Ebl *ebl);
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/* Return relocation type name. */
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extern const char *ebl_reloc_type_name (Ebl *ebl, int reloc,
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char *buf, size_t len);
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/* Check relocation type. */
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extern bool ebl_reloc_type_check (Ebl *ebl, int reloc);
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/* Check relocation type use. */
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extern bool ebl_reloc_valid_use (Ebl *ebl, int reloc);
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/* Check if relocation type is for simple absolute relocations.
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Return ELF_T_{BYTE,HALF,SWORD,SXWORD} for a simple type, else ELF_T_NUM.
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If the relocation type is an ADD or SUB relocation, set *ADDSUB to 1 or -1,
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resp. */
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extern Elf_Type ebl_reloc_simple_type (Ebl *ebl, int reloc, int *addsub);
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/* Return true if the symbol type is that referencing the GOT. E.g.,
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R_386_GOTPC. */
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extern bool ebl_gotpc_reloc_check (Ebl *ebl, int reloc);
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/* Return segment type name. */
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extern const char *ebl_segment_type_name (Ebl *ebl, int segment,
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char *buf, size_t len);
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/* Return section type name. */
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extern const char *ebl_section_type_name (Ebl *ebl, int section,
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char *buf, size_t len);
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/* Return section name. */
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extern const char *ebl_section_name (Ebl *ebl, int section, int xsection,
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char *buf, size_t len,
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const char *scnnames[], size_t shnum);
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/* Return machine flag names. */
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extern const char *ebl_machine_flag_name (Ebl *ebl, GElf_Word flags,
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char *buf, size_t len);
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/* Check whether machine flag is valid. */
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extern bool ebl_machine_flag_check (Ebl *ebl, GElf_Word flags);
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/* Check whether SHF_MASKPROC flags are valid. */
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extern bool ebl_machine_section_flag_check (Ebl *ebl, GElf_Xword flags);
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/* Check whether the section with the given index, header, and name
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is a special machine section that is valid despite a combination
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of flags or other details that are not generically valid. */
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extern bool ebl_check_special_section (Ebl *ebl, int ndx,
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const GElf_Shdr *shdr, const char *name);
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/* Return symbol type name. */
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extern const char *ebl_symbol_type_name (Ebl *ebl, int symbol,
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char *buf, size_t len);
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/* Return symbol binding name. */
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extern const char *ebl_symbol_binding_name (Ebl *ebl, int binding,
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char *buf, size_t len);
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/* Return dynamic tag name. */
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extern const char *ebl_dynamic_tag_name (Ebl *ebl, int64_t tag,
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char *buf, size_t len);
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/* Check dynamic tag. */
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extern bool ebl_dynamic_tag_check (Ebl *ebl, int64_t tag);
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/* Check whether given symbol's st_value and st_size are OK despite failing
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normal checks. */
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extern bool ebl_check_special_symbol (Ebl *ebl,
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const GElf_Sym *sym, const char *name,
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const GElf_Shdr *destshdr);
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/* Check if this is a data marker symbol. e.g. '$d' symbols for ARM. */
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extern bool ebl_data_marker_symbol (Ebl *ebl, const GElf_Sym *sym,
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const char *sname);
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/* Check whether only valid bits are set on the st_other symbol flag. */
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extern bool ebl_check_st_other_bits (Ebl *ebl, unsigned char st_other);
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/* Return symbolic representation of OS ABI. */
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extern const char *ebl_osabi_name (Ebl *ebl, int osabi, char *buf, size_t len);
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/* Return name of the note section type for a core file. */
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extern const char *ebl_core_note_type_name (Ebl *ebl, uint32_t type, char *buf,
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size_t len);
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/* Return name of the note section type for an object file. */
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extern const char *ebl_object_note_type_name (Ebl *ebl, const char *name,
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uint32_t type, GElf_Word descsz,
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char *buf, size_t len);
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/* Print information about object note if available. */
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extern void ebl_object_note (Ebl *ebl, uint32_t namesz, const char *name,
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uint32_t type, uint32_t descsz, const char *desc);
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/* Check whether an attribute in a .gnu_attributes section is recognized.
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Fills in *TAG_NAME with the name for this tag.
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If VALUE is a known value for that tag, also fills in *VALUE_NAME. */
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extern bool ebl_check_object_attribute (Ebl *ebl, const char *vendor,
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int tag, uint64_t value,
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const char **tag_name,
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const char **value_name);
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/* Check whether a section type is a valid reloc target. */
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extern bool ebl_check_reloc_target_type (Ebl *ebl, Elf64_Word sh_type);
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/* Check section name for being that of a debug informatino section. */
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extern bool ebl_debugscn_p (Ebl *ebl, const char *name);
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/* Check whether given relocation is a copy relocation. */
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extern bool ebl_copy_reloc_p (Ebl *ebl, int reloc);
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/* Check whether given relocation is a no-op relocation. */
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extern bool ebl_none_reloc_p (Ebl *ebl, int reloc);
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/* Check whether given relocation is a relative relocation. */
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extern bool ebl_relative_reloc_p (Ebl *ebl, int reloc);
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/* Check whether section should be stripped. */
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extern bool ebl_section_strip_p (Ebl *ebl,
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const GElf_Shdr *shdr, const char *name,
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bool remove_comment, bool only_remove_debug);
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/* Check if backend uses a bss PLT in this file. */
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extern bool ebl_bss_plt_p (Ebl *ebl);
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/* Return size of entry in SysV-style hash table. */
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extern int ebl_sysvhash_entrysize (Ebl *ebl);
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/* Return location expression to find return value given a
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DW_TAG_subprogram, DW_TAG_subroutine_type, or similar DIE describing
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function itself (whose DW_AT_type attribute describes its return type).
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Returns -1 for a libdw error (see dwarf_errno).
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Returns -2 for an unrecognized type formation.
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Returns zero if the function has no return value (e.g. "void" in C).
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Otherwise, *LOCOPS gets a location expression to find the return value,
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and returns the number of operations in the expression. The pointer is
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permanently allocated at least as long as the Ebl handle is open. */
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extern int ebl_return_value_location (Ebl *ebl,
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Dwarf_Die *functypedie,
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const Dwarf_Op **locops);
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/* Fill in register information given DWARF register numbers.
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If NAME is null, return the maximum REGNO + 1 that has a name.
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Otherwise, store in NAME the name for DWARF register number REGNO
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and return the number of bytes written (including '\0' terminator).
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Return -1 if NAMELEN is too short or REGNO is negative or too large.
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Return 0 if REGNO is unused (a gap in the DWARF number assignment).
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On success, set *SETNAME to a description like "integer" or "FPU"
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fit for "%s registers" title display, and *PREFIX to the string
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that precedes NAME in canonical assembler syntax (e.g. "%" or "$").
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The NAME string contains identifier characters only (maybe just digits). */
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extern ssize_t ebl_register_info (Ebl *ebl,
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int regno, char *name, size_t namelen,
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const char **prefix, const char **setname,
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int *bits, int *type);
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/* Supply the ABI-specified state of DWARF CFI before CIE initial programs.
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The DWARF 3.0 spec says that the default initial states of all registers
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are "undefined", unless otherwise specified by the machine/compiler ABI.
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This default is wrong for every machine with the CFI generated by GCC.
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The EH unwinder does not really distinguish "same_value" and "undefined",
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since it doesn't matter for unwinding (in either case there is no change
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to make for that register). GCC generates CFI that says nothing at all
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about registers it hasn't spilled somewhere. For our unwinder to give
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the true story, the backend must supply an initial state that uses
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"same_value" rules for all the callee-saves registers.
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This can fill in the initial_instructions, initial_instructions_end
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members of *ABI_INFO to point at a CFI instruction stream to process
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before each CIE's initial instructions. It should set the
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data_alignment_factor member if it affects the initial instructions.
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The callback should not use the register rules DW_CFA_expression or
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DW_CFA_val_expression. Defining the CFA using DW_CFA_def_cfa_expression
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is allowed. This is an implementation detail since register rules
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store expressions as offsets from the .eh_frame or .debug_frame data.
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As a shorthand for some common cases, for this instruction stream
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we overload some CFI instructions that cannot be used in a CIE:
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DW_CFA_restore -- Change default rule for all unmentioned
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registers from undefined to same_value.
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This function can also fill in ABI_INFO->return_address_register with the
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DWARF register number that identifies the actual PC in machine state.
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If there is no canonical DWARF register number with that meaning, it's
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left unchanged (callers usually initialize with (Dwarf_Word) -1).
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This value is not used by CFI per se.
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Function returns 0 on success and -1 for error or unsupported by the
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backend. */
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extern int ebl_abi_cfi (Ebl *ebl, Dwarf_CIE *abi_info)
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__nonnull_attribute__ (2);
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/* Register map info. */
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typedef struct
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{
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Dwarf_Half offset; /* Byte offset in register data block. */
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Dwarf_Half regno; /* DWARF register number. */
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uint8_t bits; /* Bits of data for one register. */
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uint8_t pad; /* Bytes of padding after register's data. */
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Dwarf_Half count; /* Consecutive register numbers here. */
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bool pc_register;
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} Ebl_Register_Location;
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/* Non-register data items in core notes. */
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typedef struct
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{
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const char *name; /* Printable identifier. */
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const char *group; /* Identifier for category of related items. */
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Dwarf_Half offset; /* Byte offset in note data. */
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Dwarf_Half count;
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Elf_Type type;
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char format;
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bool thread_identifier;
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bool pc_register;
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} Ebl_Core_Item;
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/* Describe the format of a core file note with the given header and NAME.
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NAME is not guaranteed terminated, it's NHDR->n_namesz raw bytes. */
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extern int ebl_core_note (Ebl *ebl, const GElf_Nhdr *nhdr,
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const char *name, const char *desc,
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GElf_Word *regs_offset, size_t *nregloc,
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const Ebl_Register_Location **reglocs,
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size_t *nitems, const Ebl_Core_Item **items)
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__nonnull_attribute__ (1, 2, 3, 4, 5, 6, 7, 8);
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/* Describe the auxv type number. */
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extern int ebl_auxv_info (Ebl *ebl, GElf_Xword a_type,
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const char **name, const char **format)
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__nonnull_attribute__ (1, 3, 4);
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/* Callback type for ebl_set_initial_registers_tid.
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Register -1 is mapped to PC (if arch PC has no DWARF number).
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If FIRSTREG is -1 then NREGS has to be 1. */
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typedef bool (ebl_tid_registers_t) (int firstreg, unsigned nregs,
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const Dwarf_Word *regs, void *arg)
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__nonnull_attribute__ (3);
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/* Callback to fetch process data from live TID.
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EBL architecture has to have EBL_FRAME_NREGS > 0, otherwise the
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backend doesn't support unwinding and this function call may crash. */
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extern bool ebl_set_initial_registers_tid (Ebl *ebl,
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pid_t tid,
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ebl_tid_registers_t *setfunc,
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void *arg)
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__nonnull_attribute__ (1, 3);
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/* Number of registers to allocate for ebl_set_initial_registers_tid.
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EBL architecture can unwind iff EBL_FRAME_NREGS > 0. */
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extern size_t ebl_frame_nregs (Ebl *ebl)
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__nonnull_attribute__ (1);
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/* Offset to apply to the value of the return_address_register, as
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fetched from a Dwarf CFI. This is used by some backends, where the
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return_address_register actually contains the call address. */
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extern int ebl_ra_offset (Ebl *ebl)
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__nonnull_attribute__ (1);
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/* Mask to use for function symbol or unwind return addresses in case
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the architecture adds some extra non-address bits to it. This is
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different from ebl_resolve_sym_value which only works for actual
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symbol addresses (in non-ET_REL files) that might resolve to an
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address in a different section. ebl_func_addr_mask is called to
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turn a given function value into the a real address or offset (the
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original value might not be a real address). This works for all
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cases where an actual function address (or offset in ET_REL symbol
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tables) is needed. */
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extern GElf_Addr ebl_func_addr_mask (Ebl *ebl);
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/* Convert *REGNO as is in DWARF to a lower range suitable for
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Dwarf_Frame->REGS indexing. */
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extern bool ebl_dwarf_to_regno (Ebl *ebl, unsigned *regno)
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__nonnull_attribute__ (1, 2);
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/* Modify PC as fetched from inferior data into valid PC. */
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extern void ebl_normalize_pc (Ebl *ebl, Dwarf_Addr *pc)
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__nonnull_attribute__ (1, 2);
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/* Callback type for ebl_unwind's parameter getfunc. */
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typedef bool (ebl_tid_registers_get_t) (int firstreg, unsigned nregs,
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Dwarf_Word *regs, void *arg)
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__nonnull_attribute__ (3);
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/* Callback type for ebl_unwind's parameter readfunc. */
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typedef bool (ebl_pid_memory_read_t) (Dwarf_Addr addr, Dwarf_Word *data,
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void *arg)
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__nonnull_attribute__ (3);
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/* Get previous frame state for an existing frame state. Method is called only
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if unwinder could not find CFI for current PC. PC is for the
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existing frame. SETFUNC sets register in the previous frame. GETFUNC gets
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register from the existing frame. Note that GETFUNC vs. SETFUNC act on
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a disjunct set of registers. READFUNC reads memory. ARG has to be passed
|
||
|
for SETFUNC, GETFUNC and READFUNC. *SIGNAL_FRAMEP is initialized to false,
|
||
|
it can be set to true if existing frame is a signal frame. SIGNAL_FRAMEP is
|
||
|
never NULL. */
|
||
|
extern bool ebl_unwind (Ebl *ebl, Dwarf_Addr pc, ebl_tid_registers_t *setfunc,
|
||
|
ebl_tid_registers_get_t *getfunc,
|
||
|
ebl_pid_memory_read_t *readfunc, void *arg,
|
||
|
bool *signal_framep)
|
||
|
__nonnull_attribute__ (1, 3, 4, 5, 7);
|
||
|
|
||
|
/* Returns true if the value can be resolved to an address in an
|
||
|
allocated section, which will be returned in *ADDR
|
||
|
(e.g. function descriptor resolving) */
|
||
|
extern bool ebl_resolve_sym_value (Ebl *ebl, GElf_Addr *addr)
|
||
|
__nonnull_attribute__ (2);
|
||
|
|
||
|
#ifdef __cplusplus
|
||
|
}
|
||
|
#endif
|
||
|
|
||
|
#endif /* libebl.h */
|