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1 /* Interface for libebl.
2    Copyright (C) 2000-2010, 2013, 2014, 2015 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 
30 /* This is the interface for the Elfutils Backend Library.
31    It is a completely UNSUPPORTED interface.  Don't use any libebl
32    function directly.  These are only for internal elfutils backends
33    and tools.  There is NO source or binary compatible guarantee.
34 
35    The ABI of the backend modules is not guaranteed.  Really, no guarantee
36    whatsoever.  We are enforcing this in the code.  The modules and their
37    users must match.  No third-party EBL module are supported or allowed.
38    The only reason there are separate modules is to not have the code for
39    all architectures in all the binaries.  */
40 
41 
42 #ifndef _LIBEBL_H
43 #define _LIBEBL_H 1
44 
45 #include <gelf.h>
46 #include "libdw.h"
47 #include <stdbool.h>
48 #include <stddef.h>
49 #include <stdint.h>
50 
51 #include "elf-knowledge.h"
52 
53 
54 /* Opaque type for the handle.  */
55 typedef struct ebl Ebl;
56 
57 
58 #ifdef __cplusplus
59 extern "C" {
60 #endif
61 
62 /* Get backend handle for object associated with ELF handle.  */
63 extern Ebl *ebl_openbackend (Elf *elf);
64 /* Similar but without underlying ELF file.  */
65 extern Ebl *ebl_openbackend_machine (GElf_Half machine);
66 /* Similar but with emulation name given.  */
67 extern Ebl *ebl_openbackend_emulation (const char *emulation);
68 
69 /* Free resources allocated for backend handle.  */
70 extern void ebl_closebackend (Ebl *bh);
71 
72 
73 /* Information about the descriptor.  */
74 
75 /* Get ELF machine.  */
76 extern int ebl_get_elfmachine (Ebl *ebl) __attribute__ ((__pure__));
77 
78 /* Get ELF class.  */
79 extern int ebl_get_elfclass (Ebl *ebl) __attribute__ ((__pure__));
80 
81 /* Get ELF data encoding.  */
82 extern int ebl_get_elfdata (Ebl *ebl) __attribute__ ((__pure__));
83 
84 
85 /* Function to call the callback functions including default ELF
86    handling.  */
87 
88 /* Return backend name.  */
89 extern const char *ebl_backend_name (Ebl *ebl);
90 
91 /* Return relocation type name.  */
92 extern const char *ebl_object_type_name (Ebl *ebl, int object,
93 					 char *buf, size_t len);
94 
95 /* Return relocation type name.  */
96 extern const char *ebl_reloc_type_name (Ebl *ebl, int reloc,
97 					char *buf, size_t len);
98 
99 /* Check relocation type.  */
100 extern bool ebl_reloc_type_check (Ebl *ebl, int reloc);
101 
102 /* Check relocation type use.  */
103 extern bool ebl_reloc_valid_use (Ebl *ebl, int reloc);
104 
105 /* Check if relocation type is for simple absolute relocations.
106    Return ELF_T_{BYTE,HALF,SWORD,SXWORD} for a simple type, else ELF_T_NUM.  */
107 extern Elf_Type ebl_reloc_simple_type (Ebl *ebl, int reloc);
108 
109 /* Return true if the symbol type is that referencing the GOT.  E.g.,
110    R_386_GOTPC.  */
111 extern bool ebl_gotpc_reloc_check (Ebl *ebl, int reloc);
112 
113 /* Return segment type name.  */
114 extern const char *ebl_segment_type_name (Ebl *ebl, int segment,
115 					  char *buf, size_t len);
116 
117 /* Return section type name.  */
118 extern const char *ebl_section_type_name (Ebl *ebl, int section,
119 					  char *buf, size_t len);
120 
121 /* Return section name.  */
122 extern const char *ebl_section_name (Ebl *ebl, int section, int xsection,
123 				     char *buf, size_t len,
124 				     const char *scnnames[], size_t shnum);
125 
126 /* Return machine flag names.  */
127 extern const char *ebl_machine_flag_name (Ebl *ebl, GElf_Word flags,
128 					  char *buf, size_t len);
129 
130 /* Check whether machine flag is valid.  */
131 extern bool ebl_machine_flag_check (Ebl *ebl, GElf_Word flags);
132 
133 /* Check whether SHF_MASKPROC flags are valid.  */
134 extern bool ebl_machine_section_flag_check (Ebl *ebl, GElf_Xword flags);
135 
136 /* Check whether the section with the given index, header, and name
137    is a special machine section that is valid despite a combination
138    of flags or other details that are not generically valid.  */
139 extern bool ebl_check_special_section (Ebl *ebl, int ndx,
140 				       const GElf_Shdr *shdr, const char *name);
141 
142 /* Return symbol type name.  */
143 extern const char *ebl_symbol_type_name (Ebl *ebl, int symbol,
144 					 char *buf, size_t len);
145 
146 /* Return symbol binding name.  */
147 extern const char *ebl_symbol_binding_name (Ebl *ebl, int binding,
148 					    char *buf, size_t len);
149 
150 /* Return dynamic tag name.  */
151 extern const char *ebl_dynamic_tag_name (Ebl *ebl, int64_t tag,
152 					 char *buf, size_t len);
153 
154 /* Check dynamic tag.  */
155 extern bool ebl_dynamic_tag_check (Ebl *ebl, int64_t tag);
156 
157 /* Check whether given symbol's st_value and st_size are OK despite failing
158    normal checks.  */
159 extern bool ebl_check_special_symbol (Ebl *ebl, GElf_Ehdr *ehdr,
160 				      const GElf_Sym *sym, const char *name,
161 				      const GElf_Shdr *destshdr);
162 
163 /* Check whether only valid bits are set on the st_other symbol flag.  */
164 extern bool ebl_check_st_other_bits (Ebl *ebl, unsigned char st_other);
165 
166 /* Return combined section header flags value.  */
167 extern GElf_Word ebl_sh_flags_combine (Ebl *ebl, GElf_Word flags1,
168 				       GElf_Word flags2);
169 
170 /* Return symbolic representation of OS ABI.  */
171 extern const char *ebl_osabi_name (Ebl *ebl, int osabi, char *buf, size_t len);
172 
173 
174 /* Return name of the note section type for a core file.  */
175 extern const char *ebl_core_note_type_name (Ebl *ebl, uint32_t type, char *buf,
176 					    size_t len);
177 
178 /* Return name of the note section type for an object file.  */
179 extern const char *ebl_object_note_type_name (Ebl *ebl, const char *name,
180 					      uint32_t type, char *buf,
181 					      size_t len);
182 
183 /* Print information about object note if available.  */
184 extern void ebl_object_note (Ebl *ebl, const char *name, uint32_t type,
185 			     uint32_t descsz, const char *desc);
186 
187 /* Check whether an attribute in a .gnu_attributes section is recognized.
188    Fills in *TAG_NAME with the name for this tag.
189    If VALUE is a known value for that tag, also fills in *VALUE_NAME.  */
190 extern bool ebl_check_object_attribute (Ebl *ebl, const char *vendor,
191 					int tag, uint64_t value,
192 					const char **tag_name,
193 					const char **value_name);
194 
195 /* Check whether a section type is a valid reloc target.  */
196 extern bool ebl_check_reloc_target_type (Ebl *ebl, Elf64_Word sh_type);
197 
198 
199 /* Check section name for being that of a debug informatino section.  */
200 extern bool ebl_debugscn_p (Ebl *ebl, const char *name);
201 
202 /* Check whether given relocation is a copy relocation.  */
203 extern bool ebl_copy_reloc_p (Ebl *ebl, int reloc);
204 
205 /* Check whether given relocation is a no-op relocation.  */
206 extern bool ebl_none_reloc_p (Ebl *ebl, int reloc);
207 
208 /* Check whether given relocation is a relative relocation.  */
209 extern bool ebl_relative_reloc_p (Ebl *ebl, int reloc);
210 
211 /* Check whether section should be stripped.  */
212 extern bool ebl_section_strip_p (Ebl *ebl, const GElf_Ehdr *ehdr,
213 				 const GElf_Shdr *shdr, const char *name,
214 				 bool remove_comment, bool only_remove_debug);
215 
216 /* Check if backend uses a bss PLT in this file.  */
217 extern bool ebl_bss_plt_p (Ebl *ebl);
218 
219 /* Return size of entry in SysV-style hash table.  */
220 extern int ebl_sysvhash_entrysize (Ebl *ebl);
221 
222 /* Return location expression to find return value given a
223    DW_TAG_subprogram, DW_TAG_subroutine_type, or similar DIE describing
224    function itself (whose DW_AT_type attribute describes its return type).
225    Returns -1 for a libdw error (see dwarf_errno).
226    Returns -2 for an unrecognized type formation.
227    Returns zero if the function has no return value (e.g. "void" in C).
228    Otherwise, *LOCOPS gets a location expression to find the return value,
229    and returns the number of operations in the expression.  The pointer is
230    permanently allocated at least as long as the Ebl handle is open.  */
231 extern int ebl_return_value_location (Ebl *ebl,
232 				      Dwarf_Die *functypedie,
233 				      const Dwarf_Op **locops);
234 
235 /* Fill in register information given DWARF register numbers.
236    If NAME is null, return the maximum REGNO + 1 that has a name.
237    Otherwise, store in NAME the name for DWARF register number REGNO
238    and return the number of bytes written (including '\0' terminator).
239    Return -1 if NAMELEN is too short or REGNO is negative or too large.
240    Return 0 if REGNO is unused (a gap in the DWARF number assignment).
241    On success, set *SETNAME to a description like "integer" or "FPU"
242    fit for "%s registers" title display, and *PREFIX to the string
243    that precedes NAME in canonical assembler syntax (e.g. "%" or "$").
244    The NAME string contains identifier characters only (maybe just digits).  */
245 extern ssize_t ebl_register_info (Ebl *ebl,
246 				  int regno, char *name, size_t namelen,
247 				  const char **prefix, const char **setname,
248 				  int *bits, int *type);
249 
250 /* Fill in the DWARF register numbers for the registers used in system calls.
251    The SP and PC are what kernel reports call the user stack pointer and PC.
252    The CALLNO and ARGS are the system call number and incoming arguments.
253    Each of these is filled with the DWARF register number corresponding,
254    or -1 if there is none.  Returns zero when the information is available.  */
255 extern int ebl_syscall_abi (Ebl *ebl, int *sp, int *pc,
256 			    int *callno, int args[6]);
257 
258 /* Supply the ABI-specified state of DWARF CFI before CIE initial programs.
259 
260    The DWARF 3.0 spec says that the default initial states of all registers
261    are "undefined", unless otherwise specified by the machine/compiler ABI.
262 
263    This default is wrong for every machine with the CFI generated by GCC.
264    The EH unwinder does not really distinguish "same_value" and "undefined",
265    since it doesn't matter for unwinding (in either case there is no change
266    to make for that register).  GCC generates CFI that says nothing at all
267    about registers it hasn't spilled somewhere.  For our unwinder to give
268    the true story, the backend must supply an initial state that uses
269    "same_value" rules for all the callee-saves registers.
270 
271    This can fill in the initial_instructions, initial_instructions_end
272    members of *ABI_INFO to point at a CFI instruction stream to process
273    before each CIE's initial instructions.  It should set the
274    data_alignment_factor member if it affects the initial instructions.
275 
276    The callback should not use the register rules DW_CFA_expression or
277    DW_CFA_val_expression.  Defining the CFA using DW_CFA_def_cfa_expression
278    is allowed.  This is an implementation detail since register rules
279    store expressions as offsets from the .eh_frame or .debug_frame data.
280 
281    As a shorthand for some common cases, for this instruction stream
282    we overload some CFI instructions that cannot be used in a CIE:
283 
284 	DW_CFA_restore		-- Change default rule for all unmentioned
285 				   registers from undefined to same_value.
286 
287    This function can also fill in ABI_INFO->return_address_register with the
288    DWARF register number that identifies the actual PC in machine state.
289    If there is no canonical DWARF register number with that meaning, it's
290    left unchanged (callers usually initialize with (Dwarf_Word) -1).
291    This value is not used by CFI per se.
292 
293    Function returns 0 on success and -1 for error or unsupported by the
294    backend.  */
295 extern int ebl_abi_cfi (Ebl *ebl, Dwarf_CIE *abi_info)
296   __nonnull_attribute__ (2);
297 
298 /* ELF string table handling.  */
299 struct Ebl_Strtab;
300 struct Ebl_Strent;
301 
302 /* Create new ELF string table object in memory.  */
303 extern struct Ebl_Strtab *ebl_strtabinit (bool nullstr);
304 
305 /* Free resources allocated for ELF string table ST.  */
306 extern void ebl_strtabfree (struct Ebl_Strtab *st);
307 
308 /* Add string STR (length LEN is != 0) to ELF string table ST.  */
309 extern struct Ebl_Strent *ebl_strtabadd (struct Ebl_Strtab *st,
310 					 const char *str, size_t len);
311 
312 /* Finalize string table ST and store size and memory location information
313    in DATA.  */
314 extern void ebl_strtabfinalize (struct Ebl_Strtab *st, Elf_Data *data);
315 
316 /* Get offset in string table for string associated with SE.  */
317 extern size_t ebl_strtaboffset (struct Ebl_Strent *se);
318 
319 /* Return the string associated with SE.  */
320 extern const char *ebl_string (struct Ebl_Strent *se);
321 
322 
323 /* ELF wide char string table handling.  */
324 struct Ebl_WStrtab;
325 struct Ebl_WStrent;
326 
327 /* Create new ELF wide char string table object in memory.  */
328 extern struct Ebl_WStrtab *ebl_wstrtabinit (bool nullstr);
329 
330 /* Free resources allocated for ELF wide char string table ST.  */
331 extern void ebl_wstrtabfree (struct Ebl_WStrtab *st);
332 
333 /* Add string STR (length LEN is != 0) to ELF string table ST.  */
334 extern struct Ebl_WStrent *ebl_wstrtabadd (struct Ebl_WStrtab *st,
335 					   const wchar_t *str, size_t len);
336 
337 /* Finalize string table ST and store size and memory location information
338    in DATA.  */
339 extern void ebl_wstrtabfinalize (struct Ebl_WStrtab *st, Elf_Data *data);
340 
341 /* Get offset in wide char string table for string associated with SE.  */
342 extern size_t ebl_wstrtaboffset (struct Ebl_WStrent *se);
343 
344 
345 /* Generic string table handling.  */
346 struct Ebl_GStrtab;
347 struct Ebl_GStrent;
348 
349 /* Create new string table object in memory.  */
350 extern struct Ebl_GStrtab *ebl_gstrtabinit (unsigned int width, bool nullstr);
351 
352 /* Free resources allocated for string table ST.  */
353 extern void ebl_gstrtabfree (struct Ebl_GStrtab *st);
354 
355 /* Add string STR (length LEN is != 0) to string table ST.  */
356 extern struct Ebl_GStrent *ebl_gstrtabadd (struct Ebl_GStrtab *st,
357 					   const char *str, size_t len);
358 
359 /* Finalize string table ST and store size and memory location information
360    in DATA.  */
361 extern void ebl_gstrtabfinalize (struct Ebl_GStrtab *st, Elf_Data *data);
362 
363 /* Get offset in wide char string table for string associated with SE.  */
364 extern size_t ebl_gstrtaboffset (struct Ebl_GStrent *se);
365 
366 
367 /* Register map info. */
368 typedef struct
369 {
370   Dwarf_Half offset;		/* Byte offset in register data block.  */
371   Dwarf_Half regno;		/* DWARF register number.  */
372   uint8_t bits;			/* Bits of data for one register.  */
373   uint8_t pad;			/* Bytes of padding after register's data.  */
374   Dwarf_Half count;		/* Consecutive register numbers here.  */
375   bool pc_register;
376 } Ebl_Register_Location;
377 
378 /* Non-register data items in core notes.  */
379 typedef struct
380 {
381   const char *name;		/* Printable identifier.  */
382   const char *group;		/* Identifier for category of related items.  */
383   Dwarf_Half offset;		/* Byte offset in note data.  */
384   Dwarf_Half count;
385   Elf_Type type;
386   char format;
387   bool thread_identifier;
388   bool pc_register;
389 } Ebl_Core_Item;
390 
391 /* Describe the format of a core file note with the given header and NAME.
392    NAME is not guaranteed terminated, it's NHDR->n_namesz raw bytes.  */
393 extern int ebl_core_note (Ebl *ebl, const GElf_Nhdr *nhdr, const char *name,
394 			  GElf_Word *regs_offset, size_t *nregloc,
395 			  const Ebl_Register_Location **reglocs,
396 			  size_t *nitems, const Ebl_Core_Item **items)
397   __nonnull_attribute__ (1, 2, 3, 4, 5, 6, 7, 8);
398 
399 /* Describe the auxv type number.  */
400 extern int ebl_auxv_info (Ebl *ebl, GElf_Xword a_type,
401 			  const char **name, const char **format)
402   __nonnull_attribute__ (1, 3, 4);
403 
404 /* Callback type for ebl_set_initial_registers_tid.
405    Register -1 is mapped to PC (if arch PC has no DWARF number).
406    If FIRSTREG is -1 then NREGS has to be 1.  */
407 typedef bool (ebl_tid_registers_t) (int firstreg, unsigned nregs,
408 				    const Dwarf_Word *regs, void *arg)
409   __nonnull_attribute__ (3);
410 
411 /* Callback to fetch process data from live TID.
412    EBL architecture has to have EBL_FRAME_NREGS > 0, otherwise the
413    backend doesn't support unwinding and this function call may crash.  */
414 extern bool ebl_set_initial_registers_tid (Ebl *ebl,
415 					   pid_t tid,
416 					   ebl_tid_registers_t *setfunc,
417 					   void *arg)
418   __nonnull_attribute__ (1, 3);
419 
420 /* Number of registers to allocate for ebl_set_initial_registers_tid.
421    EBL architecture can unwind iff EBL_FRAME_NREGS > 0.  */
422 extern size_t ebl_frame_nregs (Ebl *ebl)
423   __nonnull_attribute__ (1);
424 
425 /* Offset to apply to the value of the return_address_register, as
426    fetched from a Dwarf CFI.  This is used by some backends, where the
427    return_address_register actually contains the call address.  */
428 extern int ebl_ra_offset (Ebl *ebl)
429   __nonnull_attribute__ (1);
430 
431 /* Mask to use for function symbol or unwind return addresses in case
432    the architecture adds some extra non-address bits to it.  This is
433    different from ebl_resolve_sym_value which only works for actual
434    symbol addresses (in non-ET_REL files) that might resolve to an
435    address in a different section.  ebl_func_addr_mask is called to
436    turn a given function value into the a real address or offset (the
437    original value might not be a real address).  This works for all
438    cases where an actual function address (or offset in ET_REL symbol
439    tables) is needed.  */
440 extern GElf_Addr ebl_func_addr_mask (Ebl *ebl);
441 
442 /* Convert *REGNO as is in DWARF to a lower range suitable for
443    Dwarf_Frame->REGS indexing.  */
444 extern bool ebl_dwarf_to_regno (Ebl *ebl, unsigned *regno)
445   __nonnull_attribute__ (1, 2);
446 
447 /* Modify PC as fetched from inferior data into valid PC.  */
448 extern void ebl_normalize_pc (Ebl *ebl, Dwarf_Addr *pc)
449   __nonnull_attribute__ (1, 2);
450 
451 /* Callback type for ebl_unwind's parameter getfunc.  */
452 typedef bool (ebl_tid_registers_get_t) (int firstreg, unsigned nregs,
453 					Dwarf_Word *regs, void *arg)
454   __nonnull_attribute__ (3);
455 
456 /* Callback type for ebl_unwind's parameter readfunc.  */
457 typedef bool (ebl_pid_memory_read_t) (Dwarf_Addr addr, Dwarf_Word *data,
458 				      void *arg)
459   __nonnull_attribute__ (3);
460 
461 /* Get previous frame state for an existing frame state.  Method is called only
462    if unwinder could not find CFI for current PC.  PC is for the
463    existing frame.  SETFUNC sets register in the previous frame.  GETFUNC gets
464    register from the existing frame.  Note that GETFUNC vs. SETFUNC act on
465    a disjunct set of registers.  READFUNC reads memory.  ARG has to be passed
466    for SETFUNC, GETFUNC and READFUNC.  *SIGNAL_FRAMEP is initialized to false,
467    it can be set to true if existing frame is a signal frame.  SIGNAL_FRAMEP is
468    never NULL.  */
469 extern bool ebl_unwind (Ebl *ebl, Dwarf_Addr pc, ebl_tid_registers_t *setfunc,
470 			ebl_tid_registers_get_t *getfunc,
471 			ebl_pid_memory_read_t *readfunc, void *arg,
472 			bool *signal_framep)
473   __nonnull_attribute__ (1, 3, 4, 5, 7);
474 
475 /* Returns true if the value can be resolved to an address in an
476    allocated section, which will be returned in *ADDR
477    (e.g. function descriptor resolving)  */
478 extern bool ebl_resolve_sym_value (Ebl *ebl, GElf_Addr *addr)
479    __nonnull_attribute__ (2);
480 
481 #ifdef __cplusplus
482 }
483 #endif
484 
485 #endif	/* libebl.h */
486