1 /* Backend hook signatures internal interface for libebl. 2 Copyright (C) 2000-2011, 2013, 2014 Red Hat, Inc. 3 This file is part of elfutils. 4 5 This file is free software; you can redistribute it and/or modify 6 it under the terms of either 7 8 * the GNU Lesser General Public License as published by the Free 9 Software Foundation; either version 3 of the License, or (at 10 your option) any later version 11 12 or 13 14 * the GNU General Public License as published by the Free 15 Software Foundation; either version 2 of the License, or (at 16 your option) any later version 17 18 or both in parallel, as here. 19 20 elfutils is distributed in the hope that it will be useful, but 21 WITHOUT ANY WARRANTY; without even the implied warranty of 22 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU 23 General Public License for more details. 24 25 You should have received copies of the GNU General Public License and 26 the GNU Lesser General Public License along with this program. If 27 not, see <http://www.gnu.org/licenses/>. */ 28 29 /* Return symbol representaton of object file type. */ 30 const char *EBLHOOK(object_type_name) (int, char *, size_t); 31 32 /* Return symbolic representation of relocation type. */ 33 const char *EBLHOOK(reloc_type_name) (int, char *, size_t); 34 35 /* Check relocation type. */ 36 bool EBLHOOK(reloc_type_check) (int); 37 38 /* Check if relocation type is for simple absolute relocations. */ 39 Elf_Type EBLHOOK(reloc_simple_type) (Ebl *, int); 40 41 /* Check relocation type use. */ 42 bool EBLHOOK(reloc_valid_use) (Elf *, int); 43 44 /* Return true if the symbol type is that referencing the GOT. */ 45 bool EBLHOOK(gotpc_reloc_check) (Elf *, int); 46 47 /* Return symbolic representation of segment type. */ 48 const char *EBLHOOK(segment_type_name) (int, char *, size_t); 49 50 /* Return symbolic representation of section type. */ 51 const char *EBLHOOK(section_type_name) (int, char *, size_t); 52 53 /* Return section name. */ 54 const char *EBLHOOK(section_name) (int, int, char *, size_t); 55 56 /* Return next machine flag name. */ 57 const char *EBLHOOK(machine_flag_name) (GElf_Word *); 58 59 /* Check whether machine flags are valid. */ 60 bool EBLHOOK(machine_flag_check) (GElf_Word); 61 62 /* Check whether SHF_MASKPROC flag bits are valid. */ 63 bool EBLHOOK(machine_section_flag_check) (GElf_Xword); 64 65 /* Check whether the section with the given index, header, and name 66 is a special machine section that is valid despite a combination 67 of flags or other details that are not generically valid. */ 68 bool EBLHOOK(check_special_section) (Ebl *, int, 69 const GElf_Shdr *, const char *); 70 71 /* Return symbolic representation of symbol type. */ 72 const char *EBLHOOK(symbol_type_name) (int, char *, size_t); 73 74 /* Return symbolic representation of symbol binding. */ 75 const char *EBLHOOK(symbol_binding_name) (int, char *, size_t); 76 77 /* Return symbolic representation of dynamic tag. */ 78 const char *EBLHOOK(dynamic_tag_name) (int64_t, char *, size_t); 79 80 /* Check dynamic tag. */ 81 bool EBLHOOK(dynamic_tag_check) (int64_t); 82 83 /* Combine section header flags values. */ 84 GElf_Word EBLHOOK(sh_flags_combine) (GElf_Word, GElf_Word); 85 86 /* Return symbolic representation of OS ABI. */ 87 const char *EBLHOOK(osabi_name) (int, char *, size_t); 88 89 /* Name of a note entry type for core files. */ 90 const char *EBLHOOK(core_note_type_name) (uint32_t, char *, size_t); 91 92 /* Name of a note entry type for object files. */ 93 const char *EBLHOOK(object_note_type_name) (const char *, uint32_t, 94 char *, size_t); 95 96 /* Describe core note format. */ 97 int EBLHOOK(core_note) (const GElf_Nhdr *, const char *, 98 GElf_Word *, size_t *, const Ebl_Register_Location **, 99 size_t *, const Ebl_Core_Item **); 100 101 /* Handle object file note. */ 102 bool EBLHOOK(object_note) (const char *, uint32_t, uint32_t, const char *); 103 104 /* Check object attribute. */ 105 bool EBLHOOK(check_object_attribute) (Ebl *, const char *, int, uint64_t, 106 const char **, const char **); 107 108 /* Check reloc target section type. */ 109 bool EBLHOOK(check_reloc_target_type) (Ebl *, Elf64_Word); 110 111 /* Describe auxv element type. */ 112 int EBLHOOK(auxv_info) (GElf_Xword, const char **, const char **); 113 114 /* Check section name for being that of a debug informatino section. */ 115 bool EBLHOOK(debugscn_p) (const char *); 116 117 /* Check whether given relocation is a copy relocation. */ 118 bool EBLHOOK(copy_reloc_p) (int); 119 120 /* Check whether given relocation is a no-op relocation. */ 121 bool EBLHOOK(none_reloc_p) (int); 122 123 /* Check whether given relocation is a relative relocation. */ 124 bool EBLHOOK(relative_reloc_p) (int); 125 126 /* Check whether given symbol's value is ok despite normal checks. */ 127 bool EBLHOOK(check_special_symbol) (Elf *, GElf_Ehdr *, const GElf_Sym *, 128 const char *, const GElf_Shdr *); 129 130 /* Check whether only valid bits are set on the st_other symbol flag. 131 Standard ST_VISIBILITY have already been masked off. */ 132 bool EBLHOOK(check_st_other_bits) (unsigned char st_other); 133 134 /* Check if backend uses a bss PLT in this file. */ 135 bool EBLHOOK(bss_plt_p) (Elf *); 136 137 /* Return location expression to find return value given the 138 DW_AT_type DIE of a DW_TAG_subprogram DIE. */ 139 int EBLHOOK(return_value_location) (Dwarf_Die *functypedie, 140 const Dwarf_Op **locp); 141 142 /* Return register name information. */ 143 ssize_t EBLHOOK(register_info) (Ebl *ebl, 144 int regno, char *name, size_t namelen, 145 const char **prefix, const char **setname, 146 int *bits, int *type); 147 148 /* Return system call ABI registers. */ 149 int EBLHOOK(syscall_abi) (Ebl *ebl, int *sp, int *pc, 150 int *callno, int args[6]); 151 152 /* Disassembler function. */ 153 int EBLHOOK(disasm) (const uint8_t **startp, const uint8_t *end, 154 GElf_Addr addr, const char *fmt, DisasmOutputCB_t outcb, 155 DisasmGetSymCB_t symcb, void *outcbarg, void *symcbarg); 156 157 /* Supply the machine-specific state of CFI before CIE initial programs. 158 Function returns 0 on success and -1 on error. */ 159 int EBLHOOK(abi_cfi) (Ebl *ebl, Dwarf_CIE *abi_info); 160 161 /* Fetch process data from live TID and call SETFUNC one or more times. 162 Method should be present only when EBL_FRAME_NREGS > 0, otherwise the 163 backend doesn't support unwinding. */ 164 bool EBLHOOK(set_initial_registers_tid) (pid_t tid, 165 ebl_tid_registers_t *setfunc, 166 void *arg); 167 168 /* Convert *REGNO as is in DWARF to a lower range suitable for 169 Dwarf_Frame->REGS indexing. */ 170 bool EBLHOOK(dwarf_to_regno) (Ebl *ebl, unsigned *regno); 171 172 /* Optionally modify *PC as fetched from inferior data into valid PC 173 instruction pointer. */ 174 void EBLHOOK(normalize_pc) (Ebl *ebl, Dwarf_Addr *pc); 175 176 /* Get previous frame state for an existing frame state. Method is called only 177 if unwinder could not find CFI for current PC. PC is for the 178 existing frame. SETFUNC sets register in the previous frame. GETFUNC gets 179 register from the existing frame. Note that GETFUNC vs. SETFUNC act on 180 a disjunct set of registers. READFUNC reads memory. ARG has to be passed 181 for SETFUNC, GETFUNC and READFUNC. *SIGNAL_FRAMEP is initialized to false, 182 it can be set to true if existing frame is a signal frame. SIGNAL_FRAMEP is 183 never NULL. */ 184 bool EBLHOOK(unwind) (Ebl *ebl, Dwarf_Addr pc, ebl_tid_registers_t *setfunc, 185 ebl_tid_registers_get_t *getfunc, 186 ebl_pid_memory_read_t *readfunc, void *arg, 187 bool *signal_framep); 188 189 /* Returns true if the value can be resolved to an address in an 190 allocated section, which will be returned in *ADDR. 191 (e.g. function descriptor resolving) */ 192 bool EBLHOOK(resolve_sym_value) (Ebl *ebl, GElf_Addr *addr); 193 194 /* Destructor for ELF backend handle. */ 195 void EBLHOOK(destr) (struct ebl *); 196