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[/] [openrisc/] [trunk/] [gnu-old/] [gdb-7.1/] [include/] [aout/] [aout64.h] - Blame information for rev 828

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1 227 jeremybenn
/* `a.out' object-file definitions, including extensions to 64-bit fields
2
 
3
   Copyright 1999, 2000, 2001, 2003, 2009 Free Software Foundation, Inc.
4
 
5
   This program is free software; you can redistribute it and/or modify
6
   it under the terms of the GNU General Public License as published by
7
   the Free Software Foundation; either version 2 of the License, or
8
   (at your option) any later version.
9
 
10
   This program is distributed in the hope that it will be useful,
11
   but WITHOUT ANY WARRANTY; without even the implied warranty of
12
   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
13
   GNU General Public License for more details.
14
 
15
   You should have received a copy of the GNU General Public License
16
   along with this program; if not, write to the Free Software
17
   Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston, MA 02110-1301, USA.  */
18
 
19
#ifndef __A_OUT_64_H__
20
#define __A_OUT_64_H__
21
 
22
#ifndef BYTES_IN_WORD
23
#define BYTES_IN_WORD 4
24
#endif
25
 
26
/* This is the layout on disk of the 32-bit or 64-bit exec header.  */
27
 
28
#ifndef external_exec
29
struct external_exec
30
{
31
  bfd_byte e_info[4];               /* Magic number and stuff.  */
32
  bfd_byte e_text[BYTES_IN_WORD];   /* Length of text section in bytes.  */
33
  bfd_byte e_data[BYTES_IN_WORD];   /* Length of data section in bytes.  */
34
  bfd_byte e_bss[BYTES_IN_WORD];    /* Length of bss area in bytes.  */
35
  bfd_byte e_syms[BYTES_IN_WORD];   /* Length of symbol table in bytes.  */
36
  bfd_byte e_entry[BYTES_IN_WORD];  /* Start address.  */
37
  bfd_byte e_trsize[BYTES_IN_WORD]; /* Length of text relocation info.  */
38
  bfd_byte e_drsize[BYTES_IN_WORD]; /* Length of data relocation info.  */
39
};
40
 
41
#define EXEC_BYTES_SIZE (4 + BYTES_IN_WORD * 7)
42
 
43
/* Magic numbers for a.out files.  */
44
 
45
#if ARCH_SIZE==64
46
#define OMAGIC 0x1001           /* Code indicating object file.  */
47
#define ZMAGIC 0x1002           /* Code indicating demand-paged executable.  */
48
#define NMAGIC 0x1003           /* Code indicating pure executable.  */
49
 
50
/* There is no 64-bit QMAGIC as far as I know.  */
51
 
52
#define N_BADMAG(x)       (N_MAGIC(x) != OMAGIC         \
53
                        && N_MAGIC(x) != NMAGIC         \
54
                        && N_MAGIC(x) != ZMAGIC)
55
#else
56
#define OMAGIC 0407             /* Object file or impure executable.  */
57
#define NMAGIC 0410             /* Code indicating pure executable.  */
58
#define ZMAGIC 0413             /* Code indicating demand-paged executable.  */
59
#define BMAGIC 0415             /* Used by a b.out object.  */
60
 
61
/* This indicates a demand-paged executable with the header in the text.
62
   It is used by 386BSD (and variants) and Linux, at least.  */
63
#ifndef QMAGIC
64
#define QMAGIC 0314
65
#endif
66
# ifndef N_BADMAG
67
#  define N_BADMAG(x)     (N_MAGIC(x) != OMAGIC         \
68
                        && N_MAGIC(x) != NMAGIC         \
69
                        && N_MAGIC(x) != ZMAGIC \
70
                        && N_MAGIC(x) != QMAGIC)
71
# endif /* N_BADMAG */
72
#endif
73
 
74
#endif
75
 
76
#ifdef QMAGIC
77
#define N_IS_QMAGIC(x) (N_MAGIC (x) == QMAGIC)
78
#else
79
#define N_IS_QMAGIC(x) (0)
80
#endif
81
 
82
/* The difference between TARGET_PAGE_SIZE and N_SEGSIZE is that TARGET_PAGE_SIZE is
83
   the finest granularity at which you can page something, thus it
84
   controls the padding (if any) before the text segment of a ZMAGIC
85
   file.  N_SEGSIZE is the resolution at which things can be marked as
86
   read-only versus read/write, so it controls the padding between the
87
   text segment and the data segment (in memory; on disk the padding
88
   between them is TARGET_PAGE_SIZE).  TARGET_PAGE_SIZE and N_SEGSIZE are the same
89
   for most machines, but different for sun3.  */
90
 
91
/* By default, segment size is constant.  But some machines override this
92
   to be a function of the a.out header (e.g. machine type).  */
93
 
94
#ifndef N_SEGSIZE
95
#define N_SEGSIZE(x)    SEGMENT_SIZE
96
#endif
97
 
98
/* Virtual memory address of the text section.
99
   This is getting very complicated.  A good reason to discard a.out format
100
   for something that specifies these fields explicitly.  But til then...
101
 
102
   * OMAGIC and NMAGIC files:
103
       (object files: text for "relocatable addr 0" right after the header)
104
       start at 0, offset is EXEC_BYTES_SIZE, size as stated.
105
   * The text address, offset, and size of ZMAGIC files depend
106
     on the entry point of the file:
107
     * entry point below TEXT_START_ADDR:
108
       (hack for SunOS shared libraries)
109
       start at 0, offset is 0, size as stated.
110
     * If N_HEADER_IN_TEXT(x) is true (which defaults to being the
111
       case when the entry point is EXEC_BYTES_SIZE or further into a page):
112
       no padding is needed; text can start after exec header.  Sun
113
       considers the text segment of such files to include the exec header;
114
       for BFD's purposes, we don't, which makes more work for us.
115
       start at TEXT_START_ADDR + EXEC_BYTES_SIZE, offset is EXEC_BYTES_SIZE,
116
       size as stated minus EXEC_BYTES_SIZE.
117
     * If N_HEADER_IN_TEXT(x) is false (which defaults to being the case when
118
       the entry point is less than EXEC_BYTES_SIZE into a page (e.g. page
119
       aligned)): (padding is needed so that text can start at a page boundary)
120
       start at TEXT_START_ADDR, offset TARGET_PAGE_SIZE, size as stated.
121
 
122
    Specific configurations may want to hardwire N_HEADER_IN_TEXT,
123
    for efficiency or to allow people to play games with the entry point.
124
    In that case, you would #define N_HEADER_IN_TEXT(x) as 1 for sunos,
125
    and as 0 for most other hosts (Sony News, Vax Ultrix, etc).
126
    (Do this in the appropriate bfd target file.)
127
    (The default is a heuristic that will break if people try changing
128
    the entry point, perhaps with the ld -e flag.)
129
 
130
    * QMAGIC is always like a ZMAGIC for which N_HEADER_IN_TEXT is true,
131
    and for which the starting address is TARGET_PAGE_SIZE (or should this be
132
    SEGMENT_SIZE?) (TEXT_START_ADDR only applies to ZMAGIC, not to QMAGIC).  */
133
 
134
/* This macro is only relevant for ZMAGIC files; QMAGIC always has the header
135
   in the text.  */
136
#ifndef N_HEADER_IN_TEXT
137
#define N_HEADER_IN_TEXT(x) \
138
  (((x).a_entry & (TARGET_PAGE_SIZE-1)) >= EXEC_BYTES_SIZE)
139
#endif
140
 
141
/* Sun shared libraries, not linux.  This macro is only relevant for ZMAGIC
142
   files.  */
143
#ifndef N_SHARED_LIB
144
#define N_SHARED_LIB(x) (0)
145
#endif
146
 
147
/* Returning 0 not TEXT_START_ADDR for OMAGIC and NMAGIC is based on
148
   the assumption that we are dealing with a .o file, not an
149
   executable.  This is necessary for OMAGIC (but means we don't work
150
   right on the output from ld -N); more questionable for NMAGIC.  */
151
 
152
#ifndef N_TXTADDR
153
#define N_TXTADDR(x) \
154
    (/* The address of a QMAGIC file is always one page in,             \
155
        with the header in the text.  */                                \
156
     N_IS_QMAGIC (x)                                                    \
157
     ? (bfd_vma) TARGET_PAGE_SIZE + EXEC_BYTES_SIZE                     \
158
     : (N_MAGIC (x) != ZMAGIC                                           \
159
        ? (bfd_vma) 0    /* Object file or NMAGIC.  */                   \
160
        : (N_SHARED_LIB (x)                                             \
161
           ? (bfd_vma) 0                                         \
162
           : (N_HEADER_IN_TEXT (x)                                      \
163
              ? (bfd_vma) TEXT_START_ADDR + EXEC_BYTES_SIZE             \
164
              : (bfd_vma) TEXT_START_ADDR))))
165
#endif
166
 
167
/* If N_HEADER_IN_TEXT is not true for ZMAGIC, there is some padding
168
   to make the text segment start at a certain boundary.  For most
169
   systems, this boundary is TARGET_PAGE_SIZE.  But for Linux, in the
170
   time-honored tradition of crazy ZMAGIC hacks, it is 1024 which is
171
   not what TARGET_PAGE_SIZE needs to be for QMAGIC.  */
172
 
173
#ifndef ZMAGIC_DISK_BLOCK_SIZE
174
#define ZMAGIC_DISK_BLOCK_SIZE TARGET_PAGE_SIZE
175
#endif
176
 
177
#define N_DISK_BLOCK_SIZE(x) \
178
  (N_MAGIC(x) == ZMAGIC ? ZMAGIC_DISK_BLOCK_SIZE : TARGET_PAGE_SIZE)
179
 
180
/* Offset in an a.out of the start of the text section. */
181
#ifndef N_TXTOFF
182
#define N_TXTOFF(x)                                                     \
183
    (/* For {O,N,Q}MAGIC, no padding.  */                               \
184
     N_MAGIC (x) != ZMAGIC                                              \
185
     ? EXEC_BYTES_SIZE                                                  \
186
     : (N_SHARED_LIB (x)                                                \
187
        ? 0                                                              \
188
        : (N_HEADER_IN_TEXT (x)                                         \
189
           ? EXEC_BYTES_SIZE            /* No padding.  */              \
190
           : ZMAGIC_DISK_BLOCK_SIZE     /* A page of padding.  */)))
191
#endif
192
/* Size of the text section.  It's always as stated, except that we
193
   offset it to `undo' the adjustment to N_TXTADDR and N_TXTOFF
194
   for ZMAGIC files that nominally include the exec header
195
   as part of the first page of text.  (BFD doesn't consider the
196
   exec header to be part of the text segment.)  */
197
#ifndef N_TXTSIZE
198
#define N_TXTSIZE(x) \
199
  (/* For QMAGIC, we don't consider the header part of the text section.  */\
200
   N_IS_QMAGIC (x)                                                      \
201
   ? (x).a_text - EXEC_BYTES_SIZE                                       \
202
   : ((N_MAGIC (x) != ZMAGIC || N_SHARED_LIB (x))                       \
203
      ? (x).a_text                                                      \
204
      : (N_HEADER_IN_TEXT (x)                                           \
205
         ? (x).a_text - EXEC_BYTES_SIZE /* No padding.  */              \
206
         : (x).a_text                   /* A page of padding.  */ )))
207
#endif
208
/* The address of the data segment in virtual memory.
209
   It is the text segment address, plus text segment size, rounded
210
   up to a N_SEGSIZE boundary for pure or pageable files.  */
211
#ifndef N_DATADDR
212
#define N_DATADDR(x) \
213
  (N_MAGIC (x) == OMAGIC                                                \
214
   ? (N_TXTADDR (x) + N_TXTSIZE (x))                                    \
215
   : (N_SEGSIZE (x) + ((N_TXTADDR (x) + N_TXTSIZE (x) - 1)              \
216
                       & ~ (bfd_vma) (N_SEGSIZE (x) - 1))))
217
#endif
218
/* The address of the BSS segment -- immediately after the data segment.  */
219
 
220
#define N_BSSADDR(x)    (N_DATADDR (x) + (x).a_data)
221
 
222
/* Offsets of the various portions of the file after the text segment.  */
223
 
224
/* For {Q,Z}MAGIC, there is padding to make the data segment start on
225
   a page boundary.  Most of the time the a_text field (and thus
226
   N_TXTSIZE) already contains this padding.  It is possible that for
227
   BSDI and/or 386BSD it sometimes doesn't contain the padding, and
228
   perhaps we should be adding it here.  But this seems kind of
229
   questionable and probably should be BSDI/386BSD-specific if we do
230
   do it.
231
 
232
   For NMAGIC (at least for hp300 BSD, probably others), there is
233
   padding in memory only, not on disk, so we must *not* ever pad here
234
   for NMAGIC.  */
235
 
236
#ifndef N_DATOFF
237
#define N_DATOFF(x)     (N_TXTOFF (x) + N_TXTSIZE (x))
238
#endif
239
#ifndef N_TRELOFF
240
#define N_TRELOFF(x)    (N_DATOFF (x) + (x).a_data)
241
#endif
242
#ifndef N_DRELOFF
243
#define N_DRELOFF(x)    (N_TRELOFF (x) + (x).a_trsize)
244
#endif
245
#ifndef N_SYMOFF
246
#define N_SYMOFF(x)     (N_DRELOFF (x) + (x).a_drsize)
247
#endif
248
#ifndef N_STROFF
249
#define N_STROFF(x)     (N_SYMOFF (x) + (x).a_syms)
250
#endif
251
 
252
/* Symbols */
253
#ifndef external_nlist
254
struct external_nlist
255
{
256
  bfd_byte e_strx[BYTES_IN_WORD];       /* Index into string table of name.  */
257
  bfd_byte e_type[1];                   /* Type of symbol.  */
258
  bfd_byte e_other[1];                  /* Misc info (usually empty).  */
259
  bfd_byte e_desc[2];                   /* Description field.  */
260
  bfd_byte e_value[BYTES_IN_WORD];      /* Value of symbol.  */
261
};
262
#define EXTERNAL_NLIST_SIZE (BYTES_IN_WORD+4+BYTES_IN_WORD)
263
#endif
264
 
265
struct internal_nlist
266
{
267
  unsigned long n_strx;                 /* Index into string table of name.  */
268
  unsigned char n_type;                 /* Type of symbol.  */
269
  unsigned char n_other;                /* Misc info (usually empty).  */
270
  unsigned short n_desc;                /* Description field.  */
271
  bfd_vma n_value;                      /* Value of symbol.  */
272
};
273
 
274
/* The n_type field is the symbol type, containing:  */
275
 
276
#define N_UNDF  0        /* Undefined symbol.  */
277
#define N_ABS   2       /* Absolute symbol -- defined at particular addr.  */
278
#define N_TEXT  4       /* Text sym -- defined at offset in text seg.  */
279
#define N_DATA  6       /* Data sym -- defined at offset in data seg.  */
280
#define N_BSS   8       /* BSS  sym -- defined at offset in zero'd seg.  */
281
#define N_COMM  0x12    /* Common symbol (visible after shared lib dynlink).  */
282
#define N_FN    0x1f    /* File name of .o file.  */
283
#define N_FN_SEQ 0x0C   /* N_FN from Sequent compilers (sigh).  */
284
/* Note: N_EXT can only be usefully OR-ed with N_UNDF, N_ABS, N_TEXT,
285
   N_DATA, or N_BSS.  When the low-order bit of other types is set,
286
   (e.g. N_WARNING versus N_FN), they are two different types.  */
287
#define N_EXT   1       /* External symbol (as opposed to local-to-this-file).  */
288
#define N_TYPE  0x1e
289
#define N_STAB  0xe0    /* If any of these bits are on, it's a debug symbol.  */
290
 
291
#define N_INDR 0x0a
292
 
293
/* The following symbols refer to set elements.
294
   All the N_SET[ATDB] symbols with the same name form one set.
295
   Space is allocated for the set in the text section, and each set
296
   elements value is stored into one word of the space.
297
   The first word of the space is the length of the set (number of elements).
298
 
299
   The address of the set is made into an N_SETV symbol
300
   whose name is the same as the name of the set.
301
   This symbol acts like a N_DATA global symbol
302
   in that it can satisfy undefined external references.  */
303
 
304
/* These appear as input to LD, in a .o file.  */
305
#define N_SETA  0x14            /* Absolute set element symbol.  */
306
#define N_SETT  0x16            /* Text set element symbol.  */
307
#define N_SETD  0x18            /* Data set element symbol.  */
308
#define N_SETB  0x1A            /* Bss set element symbol.  */
309
 
310
/* This is output from LD.  */
311
#define N_SETV  0x1C            /* Pointer to set vector in data area.  */
312
 
313
/* Warning symbol. The text gives a warning message, the next symbol
314
   in the table will be undefined. When the symbol is referenced, the
315
   message is printed.  */
316
 
317
#define N_WARNING 0x1e
318
 
319
/* Weak symbols.  These are a GNU extension to the a.out format.  The
320
   semantics are those of ELF weak symbols.  Weak symbols are always
321
   externally visible.  The N_WEAK? values are squeezed into the
322
   available slots.  The value of a N_WEAKU symbol is 0.  The values
323
   of the other types are the definitions.  */
324
#define N_WEAKU 0x0d            /* Weak undefined symbol.  */
325
#define N_WEAKA 0x0e            /* Weak absolute symbol.  */
326
#define N_WEAKT 0x0f            /* Weak text symbol.  */
327
#define N_WEAKD 0x10            /* Weak data symbol.  */
328
#define N_WEAKB 0x11            /* Weak bss symbol.  */
329
 
330
/* Relocations
331
 
332
  There are two types of relocation flavours for a.out systems,
333
  standard and extended. The standard form is used on systems where the
334
  instruction has room for all the bits of an offset to the operand, whilst
335
  the extended form is used when an address operand has to be split over n
336
  instructions. Eg, on the 68k, each move instruction can reference
337
  the target with a displacement of 16 or 32 bits. On the sparc, move
338
  instructions use an offset of 14 bits, so the offset is stored in
339
  the reloc field, and the data in the section is ignored.  */
340
 
341
/* This structure describes a single relocation to be performed.
342
   The text-relocation section of the file is a vector of these structures,
343
   all of which apply to the text section.
344
   Likewise, the data-relocation section applies to the data section.  */
345
 
346
struct reloc_std_external
347
{
348
  bfd_byte r_address[BYTES_IN_WORD];    /* Offset of of data to relocate.  */
349
  bfd_byte r_index[3];                  /* Symbol table index of symbol.  */
350
  bfd_byte r_type[1];                   /* Relocation type.  */
351
};
352
 
353
#define RELOC_STD_BITS_PCREL_BIG        ((unsigned int) 0x80)
354
#define RELOC_STD_BITS_PCREL_LITTLE     ((unsigned int) 0x01)
355
 
356
#define RELOC_STD_BITS_LENGTH_BIG       ((unsigned int) 0x60)
357
#define RELOC_STD_BITS_LENGTH_SH_BIG    5
358
#define RELOC_STD_BITS_LENGTH_LITTLE    ((unsigned int) 0x06)
359
#define RELOC_STD_BITS_LENGTH_SH_LITTLE 1
360
 
361
#define RELOC_STD_BITS_EXTERN_BIG       ((unsigned int) 0x10)
362
#define RELOC_STD_BITS_EXTERN_LITTLE    ((unsigned int) 0x08)
363
 
364
#define RELOC_STD_BITS_BASEREL_BIG      ((unsigned int) 0x08)
365
#define RELOC_STD_BITS_BASEREL_LITTLE   ((unsigned int) 0x10)
366
 
367
#define RELOC_STD_BITS_JMPTABLE_BIG     ((unsigned int) 0x04)
368
#define RELOC_STD_BITS_JMPTABLE_LITTLE  ((unsigned int) 0x20)
369
 
370
#define RELOC_STD_BITS_RELATIVE_BIG     ((unsigned int) 0x02)
371
#define RELOC_STD_BITS_RELATIVE_LITTLE  ((unsigned int) 0x40)
372
 
373
#define RELOC_STD_SIZE  (BYTES_IN_WORD + 3 + 1)         /* Bytes per relocation entry.  */
374
 
375
struct reloc_std_internal
376
{
377
  bfd_vma r_address;            /* Address (within segment) to be relocated.  */
378
  /* The meaning of r_symbolnum depends on r_extern.  */
379
  unsigned int r_symbolnum:24;
380
  /* Nonzero means value is a pc-relative offset
381
     and it should be relocated for changes in its own address
382
     as well as for changes in the symbol or section specified.  */
383
  unsigned int r_pcrel:1;
384
  /* Length (as exponent of 2) of the field to be relocated.
385
     Thus, a value of 2 indicates 1<<2 bytes.  */
386
  unsigned int r_length:2;
387
  /* 1 => relocate with value of symbol.
388
     r_symbolnum is the index of the symbol
389
     in files the symbol table.
390
 
391
     r_symbolnum is N_TEXT, N_DATA, N_BSS or N_ABS
392
     (the N_EXT bit may be set also, but signifies nothing).  */
393
  unsigned int r_extern:1;
394
  /* The next three bits are for SunOS shared libraries, and seem to
395
     be undocumented.  */
396
  unsigned int r_baserel:1;     /* Linkage table relative.  */
397
  unsigned int r_jmptable:1;    /* pc-relative to jump table.  */
398
  unsigned int r_relative:1;    /* "relative relocation".  */
399
  /* unused */
400
  unsigned int r_pad:1;         /* Padding -- set to zero.  */
401
};
402
 
403
 
404
/* EXTENDED RELOCS.   */
405
 
406
struct reloc_ext_external
407
{
408
  bfd_byte r_address[BYTES_IN_WORD];    /* Offset of of data to relocate.  */
409
  bfd_byte r_index[3];                  /* Symbol table index of symbol.  */
410
  bfd_byte r_type[1];                   /* Relocation type.  */
411
  bfd_byte r_addend[BYTES_IN_WORD];     /* Datum addend.  */
412
};
413
 
414
#ifndef RELOC_EXT_BITS_EXTERN_BIG
415
#define RELOC_EXT_BITS_EXTERN_BIG       ((unsigned int) 0x80)
416
#endif
417
 
418
#ifndef RELOC_EXT_BITS_EXTERN_LITTLE
419
#define RELOC_EXT_BITS_EXTERN_LITTLE    ((unsigned int) 0x01)
420
#endif
421
 
422
#ifndef RELOC_EXT_BITS_TYPE_BIG
423
#define RELOC_EXT_BITS_TYPE_BIG         ((unsigned int) 0x1F)
424
#endif
425
 
426
#ifndef RELOC_EXT_BITS_TYPE_SH_BIG
427
#define RELOC_EXT_BITS_TYPE_SH_BIG      0
428
#endif
429
 
430
#ifndef RELOC_EXT_BITS_TYPE_LITTLE
431
#define RELOC_EXT_BITS_TYPE_LITTLE      ((unsigned int) 0xF8)
432
#endif
433
 
434
#ifndef RELOC_EXT_BITS_TYPE_SH_LITTLE
435
#define RELOC_EXT_BITS_TYPE_SH_LITTLE   3
436
#endif
437
 
438
/* Bytes per relocation entry.  */
439
#define RELOC_EXT_SIZE  (BYTES_IN_WORD + 3 + 1 + BYTES_IN_WORD)
440
 
441
enum reloc_type
442
{
443
  /* Simple relocations.  */
444
  RELOC_8,                      /* data[0:7] = addend + sv              */
445
  RELOC_16,                     /* data[0:15] = addend + sv             */
446
  RELOC_32,                     /* data[0:31] = addend + sv             */
447
  /* PC-rel displacement.  */
448
  RELOC_DISP8,                  /* data[0:7] = addend - pc + sv         */
449
  RELOC_DISP16,                 /* data[0:15] = addend - pc + sv        */
450
  RELOC_DISP32,                 /* data[0:31] = addend - pc + sv        */
451
  /* Special.  */
452
  RELOC_WDISP30,                /* data[0:29] = (addend + sv - pc)>>2   */
453
  RELOC_WDISP22,                /* data[0:21] = (addend + sv - pc)>>2   */
454
  RELOC_HI22,                   /* data[0:21] = (addend + sv)>>10       */
455
  RELOC_22,                     /* data[0:21] = (addend + sv)           */
456
  RELOC_13,                     /* data[0:12] = (addend + sv)           */
457
  RELOC_LO10,                   /* data[0:9] = (addend + sv)            */
458
  RELOC_SFA_BASE,
459
  RELOC_SFA_OFF13,
460
  /* P.I.C. (base-relative).  */
461
  RELOC_BASE10,                 /* Not sure - maybe we can do this the */
462
  RELOC_BASE13,                 /* right way now */
463
  RELOC_BASE22,
464
  /* For some sort of pc-rel P.I.C. (?)  */
465
  RELOC_PC10,
466
  RELOC_PC22,
467
  /* P.I.C. jump table.  */
468
  RELOC_JMP_TBL,
469
  /* Reputedly for shared libraries somehow.  */
470
  RELOC_SEGOFF16,
471
  RELOC_GLOB_DAT,
472
  RELOC_JMP_SLOT,
473
  RELOC_RELATIVE,
474
 
475
  RELOC_11,
476
  RELOC_WDISP2_14,
477
  RELOC_WDISP19,
478
  RELOC_HHI22,                  /* data[0:21] = (addend + sv) >> 42     */
479
  RELOC_HLO10,                  /* data[0:9] = (addend + sv) >> 32      */
480
 
481
  /* 29K relocation types.  */
482
  RELOC_JUMPTARG,
483
  RELOC_CONST,
484
  RELOC_CONSTH,
485
 
486
  /* All the new ones I can think of, for sparc v9.  */
487
  RELOC_64,                     /* data[0:63] = addend + sv             */
488
  RELOC_DISP64,                 /* data[0:63] = addend - pc + sv        */
489
  RELOC_WDISP21,                /* data[0:20] = (addend + sv - pc)>>2   */
490
  RELOC_DISP21,                 /* data[0:20] = addend - pc + sv        */
491
  RELOC_DISP14,                 /* data[0:13] = addend - pc + sv        */
492
  /* Q .
493
     What are the other ones,
494
     Since this is a clean slate, can we throw away the ones we dont
495
     understand ? Should we sort the values ? What about using a
496
     microcode format like the 68k ?  */
497
  NO_RELOC
498
  };
499
 
500
 
501
struct reloc_internal
502
{
503
  bfd_vma r_address;            /* Offset of of data to relocate.  */
504
  long  r_index;                /* Symbol table index of symbol.  */
505
  enum reloc_type r_type;       /* Relocation type.  */
506
  bfd_vma r_addend;             /* Datum addend.  */
507
};
508
 
509
/* Q.
510
   Should the length of the string table be 4 bytes or 8 bytes ?
511
 
512
   Q.
513
   What about archive indexes ?  */
514
 
515
#endif                          /* __A_OUT_64_H__ */

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