OpenCores
URL https://opencores.org/ocsvn/open8_urisc/open8_urisc/trunk

Subversion Repositories open8_urisc

[/] [open8_urisc/] [trunk/] [gnu/] [binutils/] [bfd/] [vms-lib.c] - Blame information for rev 299

Go to most recent revision | Details | Compare with Previous | View Log

Line No. Rev Author Line
1 14 khays
/* BFD back-end for VMS archive files.
2
 
3 148 khays
   Copyright 2010, 2011 Free Software Foundation, Inc.
4 14 khays
   Written by Tristan Gingold <gingold@adacore.com>, AdaCore.
5
 
6
   This file is part of BFD, the Binary File Descriptor library.
7
 
8
   This program is free software; you can redistribute it and/or modify
9
   it under the terms of the GNU General Public License as published by
10
   the Free Software Foundation; either version 3 of the License, or
11
   (at your option) any later version.
12
 
13
   This program is distributed in the hope that it will be useful,
14
   but WITHOUT ANY WARRANTY; without even the implied warranty of
15
   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
16
   GNU General Public License for more details.
17
 
18
   You should have received a copy of the GNU General Public License
19
   along with this program; if not, write to the Free Software
20
   Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston,
21
   MA 02110-1301, USA.  */
22
 
23
#include "sysdep.h"
24
#include "bfd.h"
25
#include "libbfd.h"
26
#include "safe-ctype.h"
27
#include "bfdver.h"
28
#include "vms.h"
29
#include "vms/lbr.h"
30
#include "vms/dcx.h"
31
 
32
/* The standard VMS disk block size.  */
33
#ifndef VMS_BLOCK_SIZE
34
#define VMS_BLOCK_SIZE 512
35
#endif
36
 
37
/* Maximum key length (which is also the maximum symbol length in archive).  */
38
#define MAX_KEYLEN 129
39
 
40
/* DCX Submaps.  */
41
 
42
struct dcxsbm_desc
43
{
44
  unsigned char min_char;
45
  unsigned char max_char;
46
  unsigned char *flags;
47
  unsigned char *nodes;
48
  unsigned short *next;
49
};
50
 
51
/* Kind of library.  Used to filter in archive_p.  */
52
 
53
enum vms_lib_kind
54
  {
55
    vms_lib_vax,
56
    vms_lib_alpha,
57
    vms_lib_ia64,
58
    vms_lib_txt
59
  };
60
 
61
/* Back-end private data.  */
62
 
63
struct lib_tdata
64
{
65
  /* Standard tdata for an archive.  But we don't use many fields.  */
66
  struct artdata artdata;
67
 
68
  /* Major version.  */
69
  unsigned char ver;
70
 
71
  /* Type of the archive.  */
72
  unsigned char type;
73
 
74
  /* Kind of archive.  Summary of its type.  */
75
  enum vms_lib_kind kind;
76
 
77
  /* Total size of the mhd (element header).  */
78
  unsigned int mhd_size;
79
 
80
  /* Creation date.  */
81
  unsigned int credat_lo;
82
  unsigned int credat_hi;
83
 
84
  /* Vector of modules (archive elements), already sorted.  */
85
  unsigned int nbr_modules;
86
  struct carsym *modules;
87
  bfd **cache;
88
 
89
  /* DCX (decompression) data.  */
90
  unsigned int nbr_dcxsbm;
91
  struct dcxsbm_desc *dcxsbm;
92
};
93
 
94
#define bfd_libdata(bfd) ((struct lib_tdata *)((bfd)->tdata.any))
95
 
96
/* End-Of-Text pattern.  This is a special record to mark the end of file.  */
97
 
98
static const unsigned char eotdesc[] = { 0x03, 0x00, 0x77, 0x00, 0x77, 0x00 };
99
 
100
/* Describe the current state of carsym entries while building the archive
101
   table of content.  Things are simple with Alpha archives as the number
102
   of entries is known, but with IA64 archives a entry can make a reference
103
   to severals members.  Therefore we must be able to extend the table on the
104
   fly, but it should be allocated on the bfd - which doesn't support realloc.
105
   To reduce the overhead, the table is initially allocated in the BFD's
106
   objalloc and extended if necessary on the heap.  In the later case, it
107
   is finally copied to the BFD's objalloc so that it will automatically be
108
   freed.  */
109
 
110
struct carsym_mem
111
{
112
  /* The table of content.  */
113
  struct carsym *idx;
114
 
115
  /* Number of entries used in the table.  */
116
  unsigned int nbr;
117
 
118
  /* Maximum number of entries.  */
119
  unsigned int max;
120
 
121
  /* If true, the table was reallocated on the heap.  If false, it is still
122
     in the BFD's objalloc.  */
123
  bfd_boolean realloced;
124
};
125
 
126
/* Simply add a name to the index.  */
127
 
128
static bfd_boolean
129
vms_add_index (struct carsym_mem *cs, char *name,
130
               unsigned int idx_vbn, unsigned int idx_off)
131
{
132
  if (cs->nbr == cs->max)
133
    {
134
      struct carsym *n;
135
 
136
      cs->max = 2 * cs->max + 32;
137
 
138
      if (!cs->realloced)
139
        {
140
          n = bfd_malloc2 (cs->max, sizeof (struct carsym));
141
          if (n == NULL)
142
            return FALSE;
143
          memcpy (n, cs->idx, cs->nbr * sizeof (struct carsym));
144
          /* And unfortunately we can't free cs->idx.  */
145
        }
146
      else
147
        {
148
          n = bfd_realloc_or_free (cs->idx, cs->nbr * sizeof (struct carsym));
149
          if (n == NULL)
150
            return FALSE;
151
        }
152
      cs->idx = n;
153
      cs->realloced = TRUE;
154
    }
155
  cs->idx[cs->nbr].file_offset = (idx_vbn - 1) * VMS_BLOCK_SIZE + idx_off;
156
  cs->idx[cs->nbr].name = name;
157
  cs->nbr++;
158
  return TRUE;
159
}
160
 
161
/* Follow all member of a lns list (pointed by RFA) and add indexes for
162
   NAME.  Return FALSE in case of error.  */
163
 
164
static bfd_boolean
165
vms_add_indexes_from_list (bfd *abfd, struct carsym_mem *cs, char *name,
166
                           struct vms_rfa *rfa)
167
{
168
  struct vms_lns lns;
169
  unsigned int vbn;
170
  file_ptr off;
171
 
172
  while (1)
173
    {
174
      vbn = bfd_getl32 (rfa->vbn);
175
      if (vbn == 0)
176
        return TRUE;
177
 
178
      /* Read the LHS.  */
179
      off = (vbn - 1) * VMS_BLOCK_SIZE + bfd_getl16 (rfa->offset);
180
      if (bfd_seek (abfd, off, SEEK_SET) != 0
181
          || bfd_bread (&lns, sizeof (lns), abfd) != sizeof (lns))
182
        return FALSE;
183
 
184
      if (!vms_add_index (cs, name,
185
                          bfd_getl32 (lns.modrfa.vbn),
186
                          bfd_getl16 (lns.modrfa.offset)))
187
        return FALSE;
188
 
189
      rfa = &lns.nxtrfa;
190
    }
191
}
192
 
193
/* Read block VBN from ABFD and store it into BLK.  Return FALSE in case of error.  */
194
 
195
static bfd_boolean
196
vms_read_block (bfd *abfd, unsigned int vbn, void *blk)
197
{
198
  file_ptr off;
199
 
200
  off = (vbn - 1) * VMS_BLOCK_SIZE;
201
  if (bfd_seek (abfd, off, SEEK_SET) != 0
202
      || bfd_bread (blk, VMS_BLOCK_SIZE, abfd) != VMS_BLOCK_SIZE)
203
    return FALSE;
204
 
205
  return TRUE;
206
}
207
 
208
/* Write the content of BLK to block VBN of ABFD.  Return FALSE in case of error.  */
209
 
210
static bfd_boolean
211
vms_write_block (bfd *abfd, unsigned int vbn, void *blk)
212
{
213
  file_ptr off;
214
 
215
  off = (vbn - 1) * VMS_BLOCK_SIZE;
216
  if (bfd_seek (abfd, off, SEEK_SET) != 0
217
      || bfd_bwrite (blk, VMS_BLOCK_SIZE, abfd) != VMS_BLOCK_SIZE)
218
    return FALSE;
219
 
220
  return TRUE;
221
}
222
 
223
/* Read index block VBN and put the entry in **IDX (which is updated).
224
   If the entry is indirect, recurse.  */
225
 
226
static bfd_boolean
227
vms_traverse_index (bfd *abfd, unsigned int vbn, struct carsym_mem *cs)
228
{
229
  struct vms_indexdef indexdef;
230
  file_ptr off;
231
  unsigned char *p;
232
  unsigned char *endp;
233
 
234
  /* Read the index block.  */
235
  BFD_ASSERT (sizeof (indexdef) == VMS_BLOCK_SIZE);
236
  if (!vms_read_block (abfd, vbn, &indexdef))
237
    return FALSE;
238
 
239
  /* Traverse it.  */
240
  p = &indexdef.keys[0];
241
  endp = p + bfd_getl16 (indexdef.used);
242
  while (p < endp)
243
    {
244
      unsigned int idx_vbn;
245
      unsigned int idx_off;
246
      unsigned int keylen;
247
      unsigned char *keyname;
248
      unsigned int flags;
249
 
250
      /* Extract key length.  */
251
      if (bfd_libdata (abfd)->ver == LBR_MAJORID)
252
        {
253
          struct vms_idx *ridx = (struct vms_idx *)p;
254
 
255
          idx_vbn = bfd_getl32 (ridx->rfa.vbn);
256
          idx_off = bfd_getl16 (ridx->rfa.offset);
257
 
258
          keylen = ridx->keylen;
259
          flags = 0;
260
          keyname = ridx->keyname;
261
        }
262
      else if (bfd_libdata (abfd)->ver == LBR_ELFMAJORID)
263
        {
264
          struct vms_elfidx *ridx = (struct vms_elfidx *)p;
265
 
266
          idx_vbn = bfd_getl32 (ridx->rfa.vbn);
267
          idx_off = bfd_getl16 (ridx->rfa.offset);
268
 
269
          keylen = bfd_getl16 (ridx->keylen);
270
          flags = ridx->flags;
271
          keyname = ridx->keyname;
272
        }
273
      else
274
        return FALSE;
275
 
276
      /* Illegal value.  */
277
      if (idx_vbn == 0)
278
        return FALSE;
279
 
280 166 khays
      /* Point to the next index entry.  */
281
      p = keyname + keylen;
282
 
283 14 khays
      if (idx_off == RFADEF__C_INDEX)
284
        {
285
          /* Indirect entry.  Recurse.  */
286
          if (!vms_traverse_index (abfd, idx_vbn, cs))
287
            return FALSE;
288
        }
289
      else
290
        {
291
          /* Add a new entry.  */
292
          char *name;
293
 
294
          if (flags & ELFIDX__SYMESC)
295
            {
296
              /* Extended key name.  */
297
              unsigned int noff = 0;
298
              unsigned int koff;
299
              unsigned int kvbn;
300
              struct vms_kbn *kbn;
301
              unsigned char kblk[VMS_BLOCK_SIZE];
302
 
303
              /* Sanity check.  */
304
              if (keylen != sizeof (struct vms_kbn))
305
                return FALSE;
306
 
307
              kbn = (struct vms_kbn *)keyname;
308
              keylen = bfd_getl16 (kbn->keylen);
309
 
310
              name = bfd_alloc (abfd, keylen + 1);
311
              if (name == NULL)
312
                return FALSE;
313
              kvbn = bfd_getl32 (kbn->rfa.vbn);
314
              koff = bfd_getl16 (kbn->rfa.offset);
315
 
316
              /* Read the key, chunk by chunk.  */
317
              do
318
                {
319
                  unsigned int klen;
320
 
321
                  if (!vms_read_block (abfd, kvbn, kblk))
322
                    return FALSE;
323
                  kbn = (struct vms_kbn *)(kblk + koff);
324
                  klen = bfd_getl16 (kbn->keylen);
325
                  kvbn = bfd_getl32 (kbn->rfa.vbn);
326
                  koff = bfd_getl16 (kbn->rfa.offset);
327
 
328
                  memcpy (name + noff, kbn + 1, klen);
329
                  noff += klen;
330
                }
331
              while (kvbn != 0);
332
 
333
              /* Sanity check.  */
334
              if (noff != keylen)
335
                return FALSE;
336
            }
337
          else
338
            {
339
              /* Usual key name.  */
340
              name = bfd_alloc (abfd, keylen + 1);
341
              if (name == NULL)
342
                return FALSE;
343
 
344
              memcpy (name, keyname, keylen);
345
            }
346
          name[keylen] = 0;
347
 
348
          if (flags & ELFIDX__LISTRFA)
349
            {
350
              struct vms_lhs lhs;
351
 
352
              /* Read the LHS.  */
353
              off = (idx_vbn - 1) * VMS_BLOCK_SIZE + idx_off;
354
              if (bfd_seek (abfd, off, SEEK_SET) != 0
355
                  || bfd_bread (&lhs, sizeof (lhs), abfd) != sizeof (lhs))
356
                return FALSE;
357
 
358
              /* FIXME: this adds extra entries that were not accounted.  */
359
              if (!vms_add_indexes_from_list (abfd, cs, name, &lhs.ng_g_rfa))
360
                return FALSE;
361
              if (!vms_add_indexes_from_list (abfd, cs, name, &lhs.ng_wk_rfa))
362
                return FALSE;
363
              if (!vms_add_indexes_from_list (abfd, cs, name, &lhs.g_g_rfa))
364
                return FALSE;
365
              if (!vms_add_indexes_from_list (abfd, cs, name, &lhs.g_wk_rfa))
366
                return FALSE;
367
            }
368
          else
369
            {
370
              if (!vms_add_index (cs, name, idx_vbn, idx_off))
371
                return FALSE;
372
            }
373
        }
374
    }
375
 
376
  return TRUE;
377
}
378
 
379
/* Read index #IDX, which must have NBREL entries.  */
380
 
381
static struct carsym *
382
vms_lib_read_index (bfd *abfd, int idx, unsigned int *nbrel)
383
{
384
  struct vms_idd idd;
385
  unsigned int flags;
386
  unsigned int vbn;
387
  struct carsym *csbuf;
388
  struct carsym_mem csm;
389
 
390
  /* Read index desription.  */
391
  if (bfd_seek (abfd, LHD_IDXDESC + idx * IDD_LENGTH, SEEK_SET) != 0
392
      || bfd_bread (&idd, sizeof (idd), abfd) != sizeof (idd))
393
    return NULL;
394
 
395
  /* Sanity checks.  */
396
  flags = bfd_getl16 (idd.flags);
397
  if (!(flags & IDD__FLAGS_ASCII)
398
      || !(flags & IDD__FLAGS_VARLENIDX))
399
    return NULL;
400
 
401
  csbuf = bfd_alloc (abfd, *nbrel * sizeof (struct carsym));
402
  if (csbuf == NULL)
403
    return NULL;
404
 
405
  csm.max = *nbrel;
406
  csm.nbr = 0;
407
  csm.realloced = FALSE;
408
  csm.idx = csbuf;
409
 
410
  /* Note: if the index is empty, there is no block to traverse.  */
411
  vbn = bfd_getl32 (idd.vbn);
412
  if (vbn != 0 && !vms_traverse_index (abfd, vbn, &csm))
413
    {
414
      if (csm.realloced && csm.idx != NULL)
415
        free (csm.idx);
416
 
417
      /* Note: in case of error, we can free what was allocated on the
418
         BFD's objalloc.  */
419
      bfd_release (abfd, csbuf);
420
      return NULL;
421
    }
422
 
423
  if (csm.realloced)
424
    {
425
      /* There are more entries than the first estimate.  Allocate on
426
         the BFD's objalloc.  */
427
      csbuf = bfd_alloc (abfd, csm.nbr * sizeof (struct carsym));
428
      if (csbuf == NULL)
429
        return NULL;
430
      memcpy (csbuf, csm.idx, csm.nbr * sizeof (struct carsym));
431
      free (csm.idx);
432
      *nbrel = csm.nbr;
433
    }
434
  return csbuf;
435
}
436
 
437
/* Standard function.  */
438
 
439
static const bfd_target *
440
_bfd_vms_lib_archive_p (bfd *abfd, enum vms_lib_kind kind)
441
{
442
  struct vms_lhd lhd;
443
  unsigned int sanity;
444
  unsigned int majorid;
445
  struct lib_tdata *tdata_hold;
446
  struct lib_tdata *tdata;
447
  unsigned int dcxvbn;
448
  unsigned int nbr_ent;
449
 
450
  /* Read header.  */
451
  if (bfd_bread (&lhd, sizeof (lhd), abfd) != sizeof (lhd))
452
    {
453
      if (bfd_get_error () != bfd_error_system_call)
454
        bfd_set_error (bfd_error_wrong_format);
455
      return NULL;
456
    }
457
 
458
  /* Check sanity (= magic) number.  */
459
  sanity = bfd_getl32 (lhd.sanity);
460
  if (!(sanity == LHD_SANEID3
461
        || sanity == LHD_SANEID6
462
        || sanity == LHD_SANEID_DCX))
463
    {
464
      bfd_set_error (bfd_error_wrong_format);
465
      return NULL;
466
    }
467
  majorid = bfd_getl32 (lhd.majorid);
468
 
469
  /* Check archive kind.  */
470
  switch (kind)
471
    {
472
    case vms_lib_alpha:
473
      if ((lhd.type != LBR__C_TYP_EOBJ && lhd.type != LBR__C_TYP_ESHSTB)
474
          || majorid != LBR_MAJORID
475
          || lhd.nindex != 2)
476
        {
477
          bfd_set_error (bfd_error_wrong_format);
478
          return NULL;
479
        }
480
      break;
481
    case vms_lib_ia64:
482
      if ((lhd.type != LBR__C_TYP_IOBJ && lhd.type != LBR__C_TYP_ISHSTB)
483
          || majorid != LBR_ELFMAJORID
484
          || lhd.nindex != 2)
485
        {
486
          bfd_set_error (bfd_error_wrong_format);
487
          return NULL;
488
        }
489
      break;
490
    case vms_lib_txt:
491
      if ((lhd.type != LBR__C_TYP_TXT
492
           && lhd.type != LBR__C_TYP_MLB
493
           && lhd.type != LBR__C_TYP_HLP)
494
          || majorid != LBR_MAJORID
495
          || lhd.nindex != 1)
496
        {
497
          bfd_set_error (bfd_error_wrong_format);
498
          return NULL;
499
        }
500
      break;
501
    default:
502
      abort ();
503
    }
504
 
505
  /* Allocate and initialize private data.  */
506
  tdata_hold = bfd_libdata (abfd);
507
  tdata = (struct lib_tdata *) bfd_zalloc (abfd, sizeof (struct lib_tdata));
508
  if (tdata == NULL)
509
    return NULL;
510
  abfd->tdata.any = (void *)tdata;
511
  tdata->ver = majorid;
512
  tdata->mhd_size = MHD__C_USRDAT + lhd.mhdusz;
513
  tdata->type = lhd.type;
514
  tdata->kind = kind;
515
  tdata->credat_lo = bfd_getl32 (lhd.credat + 0);
516
  tdata->credat_hi = bfd_getl32 (lhd.credat + 4);
517
 
518
  /* Read indexes.  */
519
  tdata->nbr_modules = bfd_getl32 (lhd.modcnt);
520
  tdata->artdata.symdef_count = bfd_getl32 (lhd.idxcnt) - tdata->nbr_modules;
521
  nbr_ent = tdata->nbr_modules;
522
  tdata->modules = vms_lib_read_index (abfd, 0, &nbr_ent);
523
  if (tdata->modules == NULL || nbr_ent != tdata->nbr_modules)
524
    goto err;
525
  if (lhd.nindex == 2)
526
    {
527
      nbr_ent = tdata->artdata.symdef_count;
528
      tdata->artdata.symdefs = vms_lib_read_index (abfd, 1, &nbr_ent);
529
      if (tdata->artdata.symdefs == NULL)
530
        goto err;
531
      /* Only IA64 archives may have more entries in the index that what
532
         was declared.  */
533
      if (nbr_ent != tdata->artdata.symdef_count
534
          && kind != vms_lib_ia64)
535
        goto err;
536
      tdata->artdata.symdef_count = nbr_ent;
537
    }
538
  tdata->cache = bfd_zalloc (abfd, sizeof (bfd *) * tdata->nbr_modules);
539
  if (tdata->cache == NULL)
540
    goto err;
541
 
542
  /* Read DCX submaps.  */
543
  dcxvbn = bfd_getl32 (lhd.dcxmapvbn);
544
  if (dcxvbn != 0)
545
    {
546
      unsigned char buf_reclen[4];
547
      unsigned int reclen;
548
      unsigned char *buf;
549
      struct vms_dcxmap *map;
550
      unsigned int sbm_off;
551
      unsigned int i;
552
 
553
      if (bfd_seek (abfd, (dcxvbn - 1) * VMS_BLOCK_SIZE, SEEK_SET) != 0
554
          || bfd_bread (buf_reclen, sizeof (buf_reclen), abfd)
555
          != sizeof (buf_reclen))
556
        goto err;
557
      reclen = bfd_getl32 (buf_reclen);
558
      buf = bfd_malloc (reclen);
559
      if (buf == NULL)
560
        goto err;
561
      if (bfd_bread (buf, reclen, abfd) != reclen)
562
        {
563
          free (buf);
564
          goto err;
565
        }
566
      map = (struct vms_dcxmap *)buf;
567
      tdata->nbr_dcxsbm = bfd_getl16 (map->nsubs);
568
      sbm_off = bfd_getl16 (map->sub0);
569
      tdata->dcxsbm = (struct dcxsbm_desc *)bfd_alloc
570
        (abfd, tdata->nbr_dcxsbm * sizeof (struct dcxsbm_desc));
571
      for (i = 0; i < tdata->nbr_dcxsbm; i++)
572
        {
573
          struct vms_dcxsbm *sbm = (struct vms_dcxsbm *) (buf + sbm_off);
574
          struct dcxsbm_desc *sbmdesc = &tdata->dcxsbm[i];
575
          unsigned int sbm_len;
576
          unsigned int sbm_sz;
577
          unsigned int off;
578
          unsigned char *data = (unsigned char *)sbm;
579
          unsigned char *buf1;
580
          unsigned int l, j;
581
 
582
          sbm_sz = bfd_getl16 (sbm->size);
583
          sbm_off += sbm_sz;
584
          BFD_ASSERT (sbm_off <= reclen);
585
 
586
          sbmdesc->min_char = sbm->min_char;
587
          BFD_ASSERT (sbmdesc->min_char == 0);
588
          sbmdesc->max_char = sbm->max_char;
589
          sbm_len = sbmdesc->max_char - sbmdesc->min_char + 1;
590
          l = (2 * sbm_len + 7) / 8;
591
          BFD_ASSERT
592
            (sbm_sz >= sizeof (struct vms_dcxsbm) + l + 3 * sbm_len
593
             || (tdata->nbr_dcxsbm == 1
594
                 && sbm_sz >= sizeof (struct vms_dcxsbm) + l + sbm_len));
595
          sbmdesc->flags = (unsigned char *)bfd_alloc (abfd, l);
596
          memcpy (sbmdesc->flags, data + bfd_getl16 (sbm->flags), l);
597
          sbmdesc->nodes = (unsigned char *)bfd_alloc (abfd, 2 * sbm_len);
598
          memcpy (sbmdesc->nodes, data + bfd_getl16 (sbm->nodes), 2 * sbm_len);
599
          off = bfd_getl16 (sbm->next);
600
          if (off != 0)
601
            {
602
              /* Read the 'next' array.  */
603
              sbmdesc->next = (unsigned short *)bfd_alloc
604
                (abfd, sbm_len * sizeof (unsigned short));
605
              buf1 = data + off;
606
              for (j = 0; j < sbm_len; j++)
607
                sbmdesc->next[j] = bfd_getl16 (buf1 + j * 2);
608
            }
609
          else
610
            {
611
              /* There is no next array if there is only one submap.  */
612
              BFD_ASSERT (tdata->nbr_dcxsbm == 1);
613
              sbmdesc->next = NULL;
614
            }
615
        }
616
      free (buf);
617
    }
618
  else
619
    {
620
      tdata->nbr_dcxsbm = 0;
621
    }
622
 
623
  /* The map is always present.  Also mark shared image library.  */
624
  abfd->has_armap = TRUE;
625
  if (tdata->type == LBR__C_TYP_ESHSTB || tdata->type == LBR__C_TYP_ISHSTB)
626
    abfd->is_thin_archive = TRUE;
627
 
628
  return abfd->xvec;
629
 
630
 err:
631
  bfd_release (abfd, tdata);
632
  abfd->tdata.any = (void *)tdata_hold;;
633
  return NULL;
634
}
635
 
636
/* Standard function for alpha libraries.  */
637
 
638
const bfd_target *
639
_bfd_vms_lib_alpha_archive_p (bfd *abfd)
640
{
641
  return _bfd_vms_lib_archive_p (abfd, vms_lib_alpha);
642
}
643
 
644
/* Standard function for ia64 libraries.  */
645
 
646
const bfd_target *
647
_bfd_vms_lib_ia64_archive_p (bfd *abfd)
648
{
649
  return _bfd_vms_lib_archive_p (abfd, vms_lib_ia64);
650
}
651
 
652
/* Standard function for text libraries.  */
653
 
654
static const bfd_target *
655
_bfd_vms_lib_txt_archive_p (bfd *abfd)
656
{
657
  return _bfd_vms_lib_archive_p (abfd, vms_lib_txt);
658
}
659
 
660
/* Standard bfd function.  */
661
 
662
static bfd_boolean
663
_bfd_vms_lib_mkarchive (bfd *abfd, enum vms_lib_kind kind)
664
{
665
  struct lib_tdata *tdata;
666
 
667
  tdata = (struct lib_tdata *) bfd_zalloc (abfd, sizeof (struct lib_tdata));
668
  if (tdata == NULL)
669
    return FALSE;
670
 
671
  abfd->tdata.any = (void *)tdata;
672
  vms_get_time (&tdata->credat_hi, &tdata->credat_lo);
673
 
674
  tdata->kind = kind;
675
  switch (kind)
676
    {
677
    case vms_lib_alpha:
678
      tdata->ver = LBR_MAJORID;
679
      tdata->mhd_size = offsetof (struct vms_mhd, pad1);
680
      tdata->type = LBR__C_TYP_EOBJ;
681
      break;
682
    case vms_lib_ia64:
683
      tdata->ver = LBR_ELFMAJORID;
684
      tdata->mhd_size = sizeof (struct vms_mhd);
685
      tdata->type = LBR__C_TYP_IOBJ;
686
      break;
687
    default:
688
      abort ();
689
    }
690
 
691
  tdata->nbr_modules = 0;
692
  tdata->artdata.symdef_count = 0;
693
  tdata->modules = NULL;
694
  tdata->artdata.symdefs = NULL;
695
  tdata->cache = NULL;
696
 
697
  return TRUE;
698
}
699
 
700
bfd_boolean
701
_bfd_vms_lib_alpha_mkarchive (bfd *abfd)
702
{
703
  return _bfd_vms_lib_mkarchive (abfd, vms_lib_alpha);
704
}
705
 
706
bfd_boolean
707
_bfd_vms_lib_ia64_mkarchive (bfd *abfd)
708
{
709
  return _bfd_vms_lib_mkarchive (abfd, vms_lib_ia64);
710
}
711
 
712
/* Find NAME in the symbol index.  Return the index.  */
713
 
714
symindex
715
_bfd_vms_lib_find_symbol (bfd *abfd, const char *name)
716
{
717
  struct lib_tdata *tdata = bfd_libdata (abfd);
718
  carsym *syms = tdata->artdata.symdefs;
719
  int lo, hi;
720
 
721
  /* Open-coded binary search for speed.  */
722
  lo = 0;
723
  hi = tdata->artdata.symdef_count - 1;
724
 
725
  while (lo <= hi)
726
    {
727
      int mid = lo + (hi - lo) / 2;
728
      int diff;
729
 
730
      diff = (char)(name[0] - syms[mid].name[0]);
731
      if (diff == 0)
732
        diff = strcmp (name, syms[mid].name);
733
      if (diff == 0)
734
        return mid;
735
      else if (diff < 0)
736
        hi = mid - 1;
737
      else
738
        lo = mid + 1;
739
    }
740
  return BFD_NO_MORE_SYMBOLS;
741
}
742
 
743
/* IO vector for archive member.  Need that because members are not linearly
744
   stored in archives.  */
745
 
746
struct vms_lib_iovec
747
{
748
  /* Current offset.  */
749
  ufile_ptr where;
750
 
751
  /* Length of the module, when known.  */
752
  ufile_ptr file_len;
753
 
754
  /* Current position in the record from bfd_bread point of view (ie, after
755
     decompression).  0 means that no data byte have been read, -2 and -1
756
     are reserved for the length word.  */
757
  int rec_pos;
758
#define REC_POS_NL   -4
759
#define REC_POS_PAD  -3
760
#define REC_POS_LEN0 -2
761
#define REC_POS_LEN1 -1
762
 
763
  /* Record length.  */
764
  unsigned short rec_len;
765
  /* Number of bytes to read in the current record.  */
766
  unsigned short rec_rem;
767
  /* Offset of the next block.  */
768
  file_ptr next_block;
769
  /* Current *data* offset in the data block.  */
770
  unsigned short blk_off;
771
 
772
  /* Offset of the first block.  Extracted from the index.  */
773
  file_ptr first_block;
774
 
775
  /* Initial next_block.  Extracted when the MHD is read.  */
776
  file_ptr init_next_block;
777
  /* Initial blk_off, once the MHD is read.  */
778
  unsigned short init_blk_off;
779
 
780
  /* Used to store any 3 byte record, which could be the EOF pattern.  */
781
  unsigned char pattern[4];
782
 
783
  /* DCX.  */
784
  struct dcxsbm_desc *dcxsbms;
785
  /* Current submap.  */
786
  struct dcxsbm_desc *dcx_sbm;
787
  /* Current offset in the submap.  */
788
  unsigned int dcx_offset;
789
  int dcx_pos;
790
 
791
  /* Compressed buffer.  */
792
  unsigned char *dcx_buf;
793
  /* Size of the buffer.  Used to resize.  */
794
  unsigned int dcx_max;
795
  /* Number of valid bytes in the buffer.  */
796
  unsigned int dcx_rlen;
797
};
798
 
799
/* Return the current position.  */
800
 
801
static file_ptr
802
vms_lib_btell (struct bfd *abfd)
803
{
804
  struct vms_lib_iovec *vec = (struct vms_lib_iovec *) abfd->iostream;
805
  return vec->where;
806
}
807
 
808
/* Read the header of the next data block if all bytes of the current block
809
   have been read.  */
810
 
811
static bfd_boolean
812
vms_lib_read_block (struct bfd *abfd)
813
{
814
  struct vms_lib_iovec *vec = (struct vms_lib_iovec *) abfd->iostream;
815
 
816
  if (vec->blk_off == DATA__LENGTH)
817
    {
818
      unsigned char hdr[DATA__DATA];
819
 
820
      /* Read next block.  */
821
      if (bfd_seek (abfd->my_archive, vec->next_block, SEEK_SET) != 0)
822
        return FALSE;
823
      if (bfd_bread (hdr, sizeof (hdr), abfd->my_archive) != sizeof (hdr))
824
        return FALSE;
825
      vec->next_block = (bfd_getl32 (hdr + 2) - 1) * VMS_BLOCK_SIZE;
826
      vec->blk_off = sizeof (hdr);
827
    }
828
  return TRUE;
829
}
830
 
831
/* Read NBYTES from ABFD into BUF if not NULL.  If BUF is NULL, bytes are
832
   not stored.  Read linearly from the library, but handle blocks.  This
833
   function does not handle records nor EOF.  */
834
 
835
static file_ptr
836
vms_lib_bread_raw (struct bfd *abfd, unsigned char *buf, file_ptr nbytes)
837
{
838
  struct vms_lib_iovec *vec = (struct vms_lib_iovec *) abfd->iostream;
839
  file_ptr res;
840
 
841
  res = 0;
842
  while (nbytes > 0)
843
    {
844
      unsigned int l;
845
 
846
      /* Be sure the current data block is read.  */
847
      if (!vms_lib_read_block (abfd))
848
        return -1;
849
 
850
      /* Do not read past the data block, do not read more than requested.  */
851
      l = DATA__LENGTH - vec->blk_off;
852
      if (l > nbytes)
853
        l = nbytes;
854
      if (l == 0)
855
        return 0;
856
      if (buf != NULL)
857
        {
858
          /* Really read into BUF.  */
859
          if (bfd_bread (buf, l, abfd->my_archive) != l)
860
            return -1;
861
        }
862
      else
863
        {
864
          /* Make as if we are reading.  */
865
          if (bfd_seek (abfd->my_archive, l, SEEK_CUR) != 0)
866
            return -1;
867
        }
868
 
869
      if (buf != NULL)
870
        buf += l;
871
      vec->blk_off += l;
872
      nbytes -= l;
873
      res += l;
874
    }
875
  return res;
876
}
877
 
878
/* Decompress NBYTES from VEC.  Store the bytes into BUF if not NULL.  */
879
 
880
static file_ptr
881
vms_lib_dcx (struct vms_lib_iovec *vec, unsigned char *buf, file_ptr nbytes)
882
{
883
  struct dcxsbm_desc *sbm;
884
  unsigned int i;
885
  unsigned int offset;
886
  unsigned int j;
887
  file_ptr res = 0;
888
 
889
  /* The loop below expect to deliver at least one byte.  */
890
  if (nbytes == 0)
891
    return 0;
892
 
893
  /* Get the current state.  */
894
  sbm = vec->dcx_sbm;
895
  offset = vec->dcx_offset;
896
  j = vec->dcx_pos & 7;
897
 
898
  for (i = vec->dcx_pos >> 3; i < vec->dcx_rlen; i++)
899
    {
900
      unsigned char b = vec->dcx_buf[i];
901
 
902
      for (; j < 8; j++)
903
        {
904
          if (b & (1 << j))
905
            offset++;
906
          if (!(sbm->flags[offset >> 3] & (1 << (offset & 7))))
907
            {
908
              unsigned int n_offset = sbm->nodes[offset];
909
              if (n_offset == 0)
910
                {
911
                  /* End of buffer.  Stay where we are.  */
912
                  vec->dcx_pos = (i << 3) + j;
913
                  if (b & (1 << j))
914
                    offset--;
915
                  vec->dcx_offset = offset;
916
                  vec->dcx_sbm = sbm;
917
                  return res;
918
                }
919
              offset = 2 * n_offset;
920
            }
921
          else
922
            {
923
              unsigned char v = sbm->nodes[offset];
924
 
925
              if (sbm->next != NULL)
926
                sbm = vec->dcxsbms + sbm->next[v];
927
              offset = 0;
928
              res++;
929
 
930
              if (buf)
931
                {
932
                  *buf++ = v;
933
                  nbytes--;
934
 
935
                  if (nbytes == 0)
936
                    {
937
                      vec->dcx_pos = (i << 3) + j + 1;
938
                      vec->dcx_offset = offset;
939
                      vec->dcx_sbm = sbm;
940
 
941
                      return res;
942
                    }
943
                }
944
            }
945
        }
946
      j = 0;
947
    }
948
  return -1;
949
}
950
 
951
/* Standard IOVEC function.  */
952
 
953
static file_ptr
954
vms_lib_bread (struct bfd *abfd, void *vbuf, file_ptr nbytes)
955
{
956
  struct vms_lib_iovec *vec = (struct vms_lib_iovec *) abfd->iostream;
957
  file_ptr res;
958
  file_ptr chunk;
959
  unsigned char *buf = (unsigned char *)vbuf;
960
 
961
  /* Do not read past the end.  */
962
  if (vec->where >= vec->file_len)
963
    return 0;
964
 
965
  res = 0;
966
  while (nbytes > 0)
967
    {
968
      if (vec->rec_rem == 0)
969
        {
970
          unsigned char blen[2];
971
 
972
          /* Read record length.  */
973
          if (vms_lib_bread_raw (abfd, blen, sizeof (blen)) != sizeof (blen))
974
            return -1;
975
          vec->rec_len = bfd_getl16 (blen);
976
          if (bfd_libdata (abfd->my_archive)->kind == vms_lib_txt)
977
            {
978
              /* Discard record size and align byte.  */
979
              vec->rec_pos = 0;
980
              vec->rec_rem = vec->rec_len;
981
            }
982
          else
983
            {
984
              /* Prepend record size.  */
985
              vec->rec_pos = REC_POS_LEN0;
986
              vec->rec_rem = (vec->rec_len + 1) & ~1;   /* With align byte.  */
987
            }
988
          if (vec->rec_len == 3)
989
            {
990
              /* Possibly end of file.  Check the pattern.  */
991
              if (vms_lib_bread_raw (abfd, vec->pattern, 4) != 4)
992
                return -1;
993
              if (!memcmp (vec->pattern, eotdesc + 2, 3))
994
                {
995
                  /* This is really an EOF.  */
996
                  vec->where += res;
997
                  vec->file_len = vec->where;
998
                  return res;
999
                }
1000
            }
1001
 
1002
          if (vec->dcxsbms != NULL)
1003
            {
1004
              /* This is a compressed member.  */
1005
              unsigned int len;
1006
              file_ptr elen;
1007
 
1008
              /* Be sure there is enough room for the expansion.  */
1009
              len = (vec->rec_len + 1) & ~1;
1010
              if (len > vec->dcx_max)
1011
                {
1012
                  while (len > vec->dcx_max)
1013
                    vec->dcx_max *= 2;
1014
                  vec->dcx_buf = bfd_alloc (abfd, vec->dcx_max);
1015
                  if (vec->dcx_buf == NULL)
1016
                    return -1;
1017
                }
1018
 
1019
              /* Read the compressed record.  */
1020
              vec->dcx_rlen = len;
1021
              if (vec->rec_len == 3)
1022
                {
1023
                  /* Already read.  */
1024
                  memcpy (vec->dcx_buf, vec->pattern, 3);
1025
                }
1026
              else
1027
                {
1028
                  elen = vms_lib_bread_raw (abfd, vec->dcx_buf, len);
1029
                  if (elen != len)
1030
                    return -1;
1031
                }
1032
 
1033
              /* Dummy expansion to get the expanded length.  */
1034
              vec->dcx_offset = 0;
1035
              vec->dcx_sbm = vec->dcxsbms;
1036
              vec->dcx_pos = 0;
1037
              elen = vms_lib_dcx (vec, NULL, 0x10000);
1038
              if (elen < 0)
1039
                return -1;
1040
              vec->rec_len = elen;
1041
              vec->rec_rem = elen;
1042
 
1043
              /* Reset the state.  */
1044
              vec->dcx_offset = 0;
1045
              vec->dcx_sbm = vec->dcxsbms;
1046
              vec->dcx_pos = 0;
1047
            }
1048
        }
1049
      if (vec->rec_pos < 0)
1050
        {
1051
          unsigned char c;
1052
          switch (vec->rec_pos)
1053
            {
1054
            case REC_POS_LEN0:
1055
              c = vec->rec_len & 0xff;
1056
              vec->rec_pos = REC_POS_LEN1;
1057
              break;
1058
            case REC_POS_LEN1:
1059
              c = (vec->rec_len >> 8) & 0xff;
1060
              vec->rec_pos = 0;
1061
              break;
1062
            case REC_POS_PAD:
1063
              c = 0;
1064
              vec->rec_rem = 0;
1065
              break;
1066
            case REC_POS_NL:
1067
              c = '\n';
1068
              vec->rec_rem = 0;
1069
              break;
1070
            default:
1071
              abort ();
1072
            }
1073
          if (buf != NULL)
1074
            {
1075
              *buf = c;
1076
              buf++;
1077
            }
1078
          nbytes--;
1079
          res++;
1080
          continue;
1081
        }
1082
 
1083
      if (nbytes > vec->rec_rem)
1084
        chunk = vec->rec_rem;
1085
      else
1086
        chunk = nbytes;
1087
 
1088
      if (vec->dcxsbms != NULL)
1089
        {
1090
          /* Optimize the stat() case: no need to decompress again as we
1091
             know the length.  */
1092
          if (!(buf == NULL && chunk == vec->rec_rem))
1093
            chunk = vms_lib_dcx (vec, buf, chunk);
1094
        }
1095
      else
1096
        {
1097
          if (vec->rec_len == 3)
1098
            {
1099
              if (buf != NULL)
1100
                memcpy (buf, vec->pattern + vec->rec_pos, chunk);
1101
            }
1102
          else
1103
            chunk = vms_lib_bread_raw (abfd, buf, chunk);
1104
        }
1105
      if (chunk < 0)
1106
        return -1;
1107
      res += chunk;
1108
      if (buf != NULL)
1109
        buf += chunk;
1110
      nbytes -= chunk;
1111
      vec->rec_pos += chunk;
1112
      vec->rec_rem -= chunk;
1113
 
1114
      if (vec->rec_rem == 0)
1115
        {
1116
          /* End of record reached.  */
1117
          if (bfd_libdata (abfd->my_archive)->kind == vms_lib_txt)
1118
            {
1119
              if ((vec->rec_len & 1) == 1
1120
                  && vec->rec_len != 3
1121
                  && vec->dcxsbms == NULL)
1122
                {
1123
                  /* Eat the pad byte.  */
1124
                  unsigned char pad;
1125
                  if (vms_lib_bread_raw (abfd, &pad, 1) != 1)
1126
                    return -1;
1127
                }
1128
              vec->rec_pos = REC_POS_NL;
1129
              vec->rec_rem = 1;
1130
            }
1131
          else
1132
            {
1133
              if ((vec->rec_len & 1) == 1 && vec->dcxsbms != NULL)
1134
                {
1135
                  vec->rec_pos = REC_POS_PAD;
1136
                  vec->rec_rem = 1;
1137
                }
1138
            }
1139
        }
1140
    }
1141
  vec->where += res;
1142
  return res;
1143
}
1144
 
1145
/* Standard function, but we currently only handle the rewind case.  */
1146
 
1147
static int
1148
vms_lib_bseek (struct bfd *abfd, file_ptr offset, int whence)
1149
{
1150
  struct vms_lib_iovec *vec = (struct vms_lib_iovec *) abfd->iostream;
1151
 
1152
  if (whence == SEEK_SET && offset == 0)
1153
    {
1154
      vec->where = 0;
1155
      vec->rec_rem = 0;
1156
      vec->dcx_pos = -1;
1157
      vec->blk_off = vec->init_blk_off;
1158
      vec->next_block = vec->init_next_block;
1159
 
1160
      if (bfd_seek (abfd->my_archive, vec->first_block, SEEK_SET) != 0)
1161
        return -1;
1162
    }
1163
  else
1164
    abort ();
1165
  return 0;
1166
}
1167
 
1168
static file_ptr
1169
vms_lib_bwrite (struct bfd *abfd ATTRIBUTE_UNUSED,
1170
              const void *where ATTRIBUTE_UNUSED,
1171
              file_ptr nbytes ATTRIBUTE_UNUSED)
1172
{
1173
  return -1;
1174
}
1175
 
1176
static int
1177
vms_lib_bclose (struct bfd *abfd)
1178
{
1179
  abfd->iostream = NULL;
1180
  return 0;
1181
}
1182
 
1183
static int
1184
vms_lib_bflush (struct bfd *abfd ATTRIBUTE_UNUSED)
1185
{
1186
  return 0;
1187
}
1188
 
1189
static int
1190
vms_lib_bstat (struct bfd *abfd ATTRIBUTE_UNUSED,
1191
               struct stat *sb ATTRIBUTE_UNUSED)
1192
{
1193
  /* Not supported.  */
1194
  return 0;
1195
}
1196
 
1197
static void *
1198
vms_lib_bmmap (struct bfd *abfd ATTRIBUTE_UNUSED,
1199 161 khays
               void *addr ATTRIBUTE_UNUSED,
1200
               bfd_size_type len ATTRIBUTE_UNUSED,
1201
               int prot ATTRIBUTE_UNUSED,
1202
               int flags ATTRIBUTE_UNUSED,
1203
               file_ptr offset ATTRIBUTE_UNUSED,
1204
               void **map_addr ATTRIBUTE_UNUSED,
1205
               bfd_size_type *map_len ATTRIBUTE_UNUSED)
1206 14 khays
{
1207
  return (void *) -1;
1208
}
1209
 
1210
static const struct bfd_iovec vms_lib_iovec = {
1211
  &vms_lib_bread, &vms_lib_bwrite, &vms_lib_btell, &vms_lib_bseek,
1212
  &vms_lib_bclose, &vms_lib_bflush, &vms_lib_bstat, &vms_lib_bmmap
1213
};
1214
 
1215
/* Open a library module.  FILEPOS is the position of the module header.  */
1216
 
1217
static bfd_boolean
1218
vms_lib_bopen (bfd *el, file_ptr filepos)
1219
{
1220
  struct vms_lib_iovec *vec;
1221
  unsigned char buf[256];
1222
  struct vms_mhd *mhd;
1223
  struct lib_tdata *tdata = bfd_libdata (el->my_archive);
1224
  unsigned int len;
1225
 
1226
  /* Allocate and initialized the iovec.  */
1227
  vec = bfd_zalloc (el, sizeof (*vec));
1228
  if (vec == NULL)
1229
    return FALSE;
1230
 
1231
  el->iostream = vec;
1232
  el->iovec = &vms_lib_iovec;
1233
 
1234
  /* File length is not known.  */
1235
  vec->file_len = -1;
1236
 
1237
  /* Read the first data block.  */
1238
  vec->next_block = filepos & ~(VMS_BLOCK_SIZE - 1);
1239
  vec->blk_off = DATA__LENGTH;
1240
  if (!vms_lib_read_block (el))
1241
    return FALSE;
1242
 
1243
  /* Prepare to read the first record.  */
1244
  vec->blk_off = filepos & (VMS_BLOCK_SIZE - 1);
1245
  vec->rec_rem = 0;
1246
  if (bfd_seek (el->my_archive, filepos, SEEK_SET) != 0)
1247
    return FALSE;
1248
 
1249
  /* Read Record length + MHD + align byte.  */
1250
  len = tdata->mhd_size;
1251
  if (vms_lib_bread_raw (el, buf, 2) != 2)
1252
    return FALSE;
1253
  if (bfd_getl16 (buf) != len)
1254
    return FALSE;
1255
  len = (len + 1) & ~1;
1256
  BFD_ASSERT (len <= sizeof (buf));
1257
  if (vms_lib_bread_raw (el, buf, len) != len)
1258
    return FALSE;
1259
 
1260
  /* Get info from mhd.  */
1261
  mhd = (struct vms_mhd *)buf;
1262
  /* Check id.  */
1263
  if (mhd->id != MHD__C_MHDID)
1264
    return FALSE;
1265
  if (len >= MHD__C_MHDLEN + 1)
1266
    el->selective_search = (mhd->objstat & MHD__M_SELSRC) ? 1 : 0;
1267
  el->mtime = vms_rawtime_to_time_t (mhd->datim);
1268
  el->mtime_set = TRUE;
1269
 
1270
  /* Reinit the iovec so that seek() will point to the first record after
1271
     the mhd.  */
1272
  vec->where = 0;
1273
  vec->init_blk_off = vec->blk_off;
1274
  vec->init_next_block = vec->next_block;
1275
  vec->first_block = bfd_tell (el->my_archive);
1276
  vec->dcxsbms = bfd_libdata (el->my_archive)->dcxsbm;
1277
 
1278
  if (vec->dcxsbms != NULL)
1279
    {
1280
      /* Handle DCX.  */
1281
      vec->dcx_max = 10 * 1024;
1282
      vec->dcx_buf = bfd_alloc (el, vec->dcx_max);
1283
      vec->dcx_pos = -1;
1284
      if (vec->dcx_buf == NULL)
1285
        return -1;
1286
    }
1287
  return TRUE;
1288
}
1289
 
1290
/* Get member MODIDX.  Return NULL in case of error.  */
1291
 
1292
static bfd *
1293
_bfd_vms_lib_get_module (bfd *abfd, unsigned int modidx)
1294
{
1295
  struct lib_tdata *tdata = bfd_libdata (abfd);
1296
  bfd *res;
1297
  file_ptr file_off;
1298
 
1299
  /* Sanity check.  */
1300
  if (modidx >= tdata->nbr_modules)
1301
    return NULL;
1302
 
1303
  /* Already loaded.  */
1304
  if (tdata->cache[modidx])
1305
    return tdata->cache[modidx];
1306
 
1307
  /* Build it.  */
1308
  file_off = tdata->modules[modidx].file_offset;
1309
  if (tdata->type != LBR__C_TYP_IOBJ)
1310
    {
1311
      res = _bfd_create_empty_archive_element_shell (abfd);
1312
      if (res == NULL)
1313
        return NULL;
1314
 
1315
      /* Special reader to deal with data blocks.  */
1316
      if (!vms_lib_bopen (res, file_off))
1317
        return NULL;
1318
    }
1319
  else
1320
    {
1321
      char buf[256];
1322
      struct vms_mhd *mhd;
1323
      struct areltdata *arelt;
1324
 
1325
      /* Sanity check.  The MHD must be big enough to contain module size.  */
1326
      if (tdata->mhd_size < offsetof (struct vms_mhd, modsize) + 4)
1327
        return NULL;
1328
 
1329
      /* Read the MHD now.  */
1330
      if (bfd_seek (abfd, file_off, SEEK_SET) != 0)
1331
        return NULL;
1332
      if (bfd_bread (buf, tdata->mhd_size, abfd) != tdata->mhd_size)
1333
        return NULL;
1334
 
1335
      res = _bfd_create_empty_archive_element_shell (abfd);
1336
      if (res == NULL)
1337
        return NULL;
1338
      arelt = bfd_zalloc (res, sizeof (*arelt));
1339
      if (arelt == NULL)
1340
        return NULL;
1341
      res->arelt_data = arelt;
1342
 
1343
      /* Get info from mhd.  */
1344
      mhd = (struct vms_mhd *)buf;
1345
      if (mhd->id != MHD__C_MHDID)
1346
        return NULL;
1347
      if (tdata->mhd_size >= offsetof (struct vms_mhd, objstat) + 1)
1348
        res->selective_search = (mhd->objstat & MHD__M_SELSRC) ? 1 : 0;
1349
      res->mtime = vms_rawtime_to_time_t (mhd->datim);
1350
      res->mtime_set = TRUE;
1351
 
1352
      arelt->parsed_size = bfd_getl32 (mhd->modsize);
1353
 
1354
      /* No need for a special reader as members are stored linearly.
1355
         Just skip the MHD.  */
1356
      res->origin = file_off + tdata->mhd_size;
1357
    }
1358
 
1359
  res->filename = tdata->modules[modidx].name;
1360
 
1361
  tdata->cache[modidx] = res;
1362
 
1363
  return res;
1364
}
1365
 
1366
/* Standard function: get member at IDX.  */
1367
 
1368
bfd *
1369
_bfd_vms_lib_get_elt_at_index (bfd *abfd, symindex symidx)
1370
{
1371
  struct lib_tdata *tdata = bfd_libdata (abfd);
1372
  file_ptr file_off;
1373
  unsigned int modidx;
1374
 
1375
  /* Check symidx.  */
1376
  if (symidx > tdata->artdata.symdef_count)
1377
    return NULL;
1378
  file_off = tdata->artdata.symdefs[symidx].file_offset;
1379
 
1380
  /* Linear-scan.  */
1381
  for (modidx = 0; modidx < tdata->nbr_modules; modidx++)
1382
    {
1383
      if (tdata->modules[modidx].file_offset == file_off)
1384
        break;
1385
    }
1386
  if (modidx >= tdata->nbr_modules)
1387
    return NULL;
1388
 
1389
  return _bfd_vms_lib_get_module (abfd, modidx);
1390
}
1391
 
1392
/* Elements of an imagelib are stubs.  You can get the real image with this
1393
   function.  */
1394
 
1395
bfd *
1396
_bfd_vms_lib_get_imagelib_file (bfd *el)
1397
{
1398
  bfd *archive = el->my_archive;
1399
  const char *modname = el->filename;
1400
  int modlen = strlen (modname);
1401
  char *filename;
1402
  int j;
1403
  bfd *res;
1404
 
1405
  /* Convert module name to lower case and append '.exe'.  */
1406
  filename = bfd_alloc (el, modlen + 5);
1407
  if (filename == NULL)
1408
    return NULL;
1409
  for (j = 0; j < modlen; j++)
1410
    if (ISALPHA (modname[j]))
1411
      filename[j] = TOLOWER (modname[j]);
1412
    else
1413
      filename[j] = modname[j];
1414
  memcpy (filename + modlen, ".exe", 5);
1415
 
1416
  filename = _bfd_append_relative_path (archive, filename);
1417
  if (filename == NULL)
1418
    return NULL;
1419
  res = bfd_openr (filename, NULL);
1420
 
1421
  if (res == NULL)
1422
    {
1423
      (*_bfd_error_handler)(_("could not open shared image '%s' from '%s'"),
1424
                            filename, archive->filename);
1425
      bfd_release (archive, filename);
1426
      return NULL;
1427
    }
1428
 
1429
  /* FIXME: put it in a cache ?  */
1430
  return res;
1431
}
1432
 
1433
/* Standard function.  */
1434
 
1435
bfd *
1436
_bfd_vms_lib_openr_next_archived_file (bfd *archive,
1437
                                       bfd *last_file)
1438
{
1439
  unsigned int idx;
1440
  bfd *res;
1441
 
1442
  if (!last_file)
1443
    idx = 0;
1444
  else
1445
    idx = last_file->proxy_origin + 1;
1446
 
1447
  if (idx >= bfd_libdata (archive)->nbr_modules)
1448
    {
1449
      bfd_set_error (bfd_error_no_more_archived_files);
1450
      return NULL;
1451
    }
1452
 
1453
  res = _bfd_vms_lib_get_module (archive, idx);
1454
  if (res == NULL)
1455
    return res;
1456
  res->proxy_origin = idx;
1457
  return res;
1458
}
1459
 
1460
/* Standard function.  Just compute the length.  */
1461
 
1462
int
1463
_bfd_vms_lib_generic_stat_arch_elt (bfd *abfd, struct stat *st)
1464
{
1465
  struct lib_tdata *tdata;
1466
 
1467
  /* Sanity check.  */
1468
  if (abfd->my_archive == NULL)
1469
    {
1470
      bfd_set_error (bfd_error_invalid_operation);
1471
      return -1;
1472
    }
1473
 
1474
  tdata = bfd_libdata (abfd->my_archive);
1475
  if (tdata->type != LBR__C_TYP_IOBJ)
1476
    {
1477
      struct vms_lib_iovec *vec = (struct vms_lib_iovec *) abfd->iostream;
1478
 
1479
      if (vec->file_len == (ufile_ptr)-1)
1480
        {
1481
          if (vms_lib_bseek (abfd, 0, SEEK_SET) != 0)
1482
            return -1;
1483
 
1484
          /* Compute length.  */
1485
          while (vms_lib_bread (abfd, NULL, 1 << 20) > 0)
1486
            ;
1487
        }
1488
      st->st_size = vec->file_len;
1489
    }
1490
  else
1491
    {
1492
      st->st_size = ((struct areltdata *)abfd->arelt_data)->parsed_size;
1493
    }
1494
 
1495
  if (abfd->mtime_set)
1496
    st->st_mtime = abfd->mtime;
1497
  else
1498
    st->st_mtime = 0;
1499
  st->st_uid = 0;
1500
  st->st_gid = 0;
1501
  st->st_mode = 0644;
1502
 
1503
  return 0;
1504
}
1505
 
1506
/* Internal representation of an index entry.  */
1507
 
1508
struct lib_index
1509
{
1510
  /* Corresponding archive member.  */
1511
  bfd *abfd;
1512
 
1513
  /* Number of reference to this entry.  */
1514
  unsigned int ref;
1515
 
1516
  /* Length of the key.  */
1517
  unsigned short namlen;
1518
 
1519
  /* Key.  */
1520
  const char *name;
1521
};
1522
 
1523
/* Used to sort index entries.  */
1524
 
1525
static int
1526
lib_index_cmp (const void *lv, const void *rv)
1527
{
1528
  const struct lib_index *l = lv;
1529
  const struct lib_index *r = rv;
1530
 
1531
  return strcmp (l->name, r->name);
1532
}
1533
 
1534
/* Maximum number of index blocks level.  */
1535
 
1536
#define MAX_LEVEL 10
1537
 
1538
/* Get the size of an index entry.  */
1539
 
1540
static unsigned int
1541
get_idxlen (struct lib_index *idx, bfd_boolean is_elfidx)
1542
{
1543
  if (is_elfidx)
1544
    {
1545 166 khays
      /* 9 is the size of struct vms_elfidx without keyname.  */
1546 14 khays
      if (idx->namlen > MAX_KEYLEN)
1547 166 khays
        return 9 + sizeof (struct vms_kbn);
1548 14 khays
      else
1549
        return 9 + idx->namlen;
1550
    }
1551
  else
1552 166 khays
    {
1553
      /* 7 is the size of struct vms_idx without keyname.  */
1554
      return 7 + idx->namlen;
1555
    }
1556 14 khays
}
1557
 
1558 166 khays
/* Write the index composed by NBR symbols contained in IDX.
1559
   VBN is the first vbn to be used, and will contain on return the last vbn.
1560 14 khays
   Can be called with ABFD set to NULL just to size the index.
1561 166 khays
   If not null, TOPVBN will be assigned to the vbn of the root index tree.
1562
   IS_ELFIDX is true for elfidx (ie ia64) indexes layout.
1563 14 khays
   Return TRUE on success.  */
1564
 
1565
static bfd_boolean
1566
vms_write_index (bfd *abfd,
1567
                 struct lib_index *idx, unsigned int nbr, unsigned int *vbn,
1568
                 unsigned int *topvbn, bfd_boolean is_elfidx)
1569
{
1570
  unsigned int i;
1571
  int j;
1572
  int level;
1573
  struct vms_indexdef *rblk[MAX_LEVEL];
1574
  struct idxblk
1575
  {
1576
    unsigned int vbn;
1577
    unsigned short len;
1578
    unsigned short lastlen;
1579
  } blk[MAX_LEVEL];
1580
 
1581
  /* The kbn blocks are used to store long symbol names.  */
1582
  unsigned int kbn_sz = 0;   /* Number of bytes available in the kbn block.  */
1583
  unsigned int kbn_vbn = 0;  /* VBN of the kbn block.  */
1584
  unsigned char *kbn_blk = NULL; /* Contents of the kbn block.  */
1585
 
1586
  if (nbr == 0)
1587
    {
1588
      /* No entries.  Very easy to handle.  */
1589
      if (topvbn != NULL)
1590
        *topvbn = 0;
1591
      return TRUE;
1592
    }
1593
 
1594
  if (abfd == NULL)
1595
    {
1596
      /* Sort the index the first time this function is called.  */
1597
      qsort (idx, nbr, sizeof (struct lib_index), lib_index_cmp);
1598
    }
1599
 
1600
  /* Allocate first index block.  */
1601
  level = 1;
1602
  if (abfd != NULL)
1603
    rblk[0] = bfd_zmalloc (sizeof (struct vms_indexdef));
1604
  blk[0].vbn = (*vbn)++;
1605
  blk[0].len = 0;
1606
  blk[0].lastlen = 0;
1607
 
1608
  for (i = 0; i < nbr; i++, idx++)
1609
    {
1610
      unsigned int idxlen;
1611
      int flush = 0;
1612
      unsigned int key_vbn = 0;
1613
      unsigned int key_off = 0;
1614
 
1615
      idxlen = get_idxlen (idx, is_elfidx);
1616
 
1617
      if (is_elfidx && idx->namlen >= MAX_KEYLEN)
1618
        {
1619
          /* If the key (ie name) is too long, write it in the kbn block.  */
1620
          unsigned int kl = idx->namlen;
1621
          unsigned int kl_chunk;
1622
          const char *key = idx->name;
1623
 
1624
          /* Write the key in the kbn, chunk after chunk.  */
1625
          do
1626
            {
1627
              if (kbn_sz < sizeof (struct vms_kbn))
1628
                {
1629
                  /* Not enough room in the kbn block.  */
1630
                  if (abfd != NULL)
1631
                    {
1632
                      /* Write it to the disk (if there is one).  */
1633
                      if (kbn_vbn != 0)
1634
                        {
1635
                          if (vms_write_block (abfd, kbn_vbn, kbn_blk) != TRUE)
1636
                            return FALSE;
1637
                        }
1638
                      else
1639
                        {
1640
                          kbn_blk = bfd_malloc (VMS_BLOCK_SIZE);
1641
                          if (kbn_blk == NULL)
1642
                            return FALSE;
1643
                        }
1644
                      *(unsigned short *)kbn_blk = 0;
1645
                    }
1646 166 khays
                  /* Allocate a new block for the keys.  */
1647 14 khays
                  kbn_vbn = (*vbn)++;
1648
                  kbn_sz = VMS_BLOCK_SIZE - 2;
1649
                }
1650 166 khays
              /* Size of the chunk written to the current key block.  */
1651 14 khays
              if (kl + sizeof (struct vms_kbn) > kbn_sz)
1652
                kl_chunk = kbn_sz - sizeof (struct vms_kbn);
1653
              else
1654
                kl_chunk = kl;
1655
 
1656
              if (kbn_blk != NULL)
1657
                {
1658
                  struct vms_kbn *kbn;
1659
 
1660
                  kbn = (struct vms_kbn *)(kbn_blk + VMS_BLOCK_SIZE - kbn_sz);
1661
 
1662
                  if (key_vbn == 0)
1663
                    {
1664
                      /* Save the rfa of the first chunk.  */
1665
                      key_vbn = kbn_vbn;
1666
                      key_off = VMS_BLOCK_SIZE - kbn_sz;
1667
                    }
1668
 
1669
                  bfd_putl16 (kl_chunk, kbn->keylen);
1670
                  if (kl_chunk == kl)
1671
                    {
1672
                      /* No next chunk.  */
1673
                      bfd_putl32 (0, kbn->rfa.vbn);
1674
                      bfd_putl16 (0, kbn->rfa.offset);
1675
                    }
1676
                  else
1677
                    {
1678
                      /* Next chunk will be at the start of the next block.  */
1679
                      bfd_putl32 (*vbn, kbn->rfa.vbn);
1680
                      bfd_putl16 (2, kbn->rfa.offset);
1681
                    }
1682
                  memcpy ((char *)(kbn + 1), key, kl_chunk);
1683
                  key += kl_chunk;
1684
                }
1685
              kl -= kl_chunk;
1686
              kl_chunk = (kl_chunk + 1) & ~1;     /* Always align.  */
1687
              kbn_sz -= kl_chunk + sizeof (struct vms_kbn);
1688
            }
1689
          while (kl > 0);
1690
        }
1691
 
1692
      /* Check if a block might overflow.  In this case we will flush this
1693
         block and all the blocks below it.  */
1694
      for (j = 0; j < level; j++)
1695
        if (blk[j].len + blk[j].lastlen + idxlen > INDEXDEF__BLKSIZ)
1696
          flush = j + 1;
1697
 
1698
      for (j = 0; j < level; j++)
1699
        {
1700
          if (j < flush)
1701
            {
1702
              /* There is not enough room to write the new entry in this
1703
                 block or in a parent block.  */
1704
 
1705
              if (j + 1 == level)
1706
                {
1707
                  BFD_ASSERT (level < MAX_LEVEL);
1708
 
1709
                  /* Need to create a parent.  */
1710
                  if (abfd != NULL)
1711
                    {
1712
                      rblk[level] = bfd_zmalloc (sizeof (struct vms_indexdef));
1713
                      bfd_putl32 (*vbn, rblk[j]->parent);
1714
                    }
1715
                  blk[level].vbn = (*vbn)++;
1716
                  blk[level].len = 0;
1717
                  blk[level].lastlen = 0;
1718
 
1719
                  level++;
1720
                }
1721
 
1722
              /* Update parent block: write the new entry.  */
1723
              if (abfd != NULL)
1724
                {
1725
                  struct vms_rfa *rfa;
1726
 
1727
                  /* Copy the whole entry.  */
1728
                  memcpy (rblk[j + 1]->keys + blk[j + 1].len,
1729
                          rblk[j]->keys + blk[j].len,
1730
                          blk[j].lastlen);
1731
                  /* Fix the entry (which in always the first field of an
1732
                     entry.  */
1733
                  rfa = (struct vms_rfa *)(rblk[j + 1]->keys + blk[j + 1].len);
1734
                  bfd_putl32 (blk[j].vbn, rfa->vbn);
1735
                  bfd_putl16 (RFADEF__C_INDEX, rfa->offset);
1736
                }
1737
 
1738
              if (j + 1 == flush)
1739
                {
1740
                  /* And allocate it.  Do it only on the block that won't be
1741
                     flushed (so that the parent of the parent can be
1742
                     updated too).  */
1743
                  blk[j + 1].len += blk[j].lastlen;
1744
                  blk[j + 1].lastlen = 0;
1745
                }
1746
 
1747
              /* Write this block on the disk.  */
1748
              if (abfd != NULL)
1749
                {
1750
                  bfd_putl16 (blk[j].len + blk[j].lastlen, rblk[j]->used);
1751
                  if (vms_write_block (abfd, blk[j].vbn, rblk[j]) != TRUE)
1752
                    return FALSE;
1753
                }
1754
 
1755
              /* Reset this block.  */
1756
              blk[j].len = 0;
1757
              blk[j].lastlen = 0;
1758
              blk[j].vbn = (*vbn)++;
1759
            }
1760
 
1761
          /* Append it to the block.  */
1762
          if (j == 0)
1763
            {
1764
              blk[j].len += blk[j].lastlen;
1765
 
1766
              if (abfd != NULL)
1767
                {
1768
                  struct vms_rfa *rfa;
1769
 
1770
                  rfa = (struct vms_rfa *)(rblk[j]->keys + blk[j].len);
1771
                  bfd_putl32 ((idx->abfd->proxy_origin / VMS_BLOCK_SIZE) + 1,
1772
                              rfa->vbn);
1773
                  bfd_putl16
1774
                    ((idx->abfd->proxy_origin % VMS_BLOCK_SIZE)
1775
                     + (is_elfidx ? 0 : DATA__DATA),
1776
                     rfa->offset);
1777
 
1778
                  if (is_elfidx)
1779
                    {
1780
                      /* Use elfidx format.  */
1781
                      struct vms_elfidx *en = (struct vms_elfidx *)rfa;
1782
 
1783
                      en->flags = 0;
1784
                      if (key_vbn != 0)
1785
                        {
1786
                          /* Long symbol name.  */
1787
                          struct vms_kbn *k = (struct vms_kbn *)(en->keyname);
1788
                          bfd_putl16 (sizeof (struct vms_kbn), en->keylen);
1789
                          bfd_putl16 (idx->namlen, k->keylen);
1790
                          bfd_putl32 (key_vbn, k->rfa.vbn);
1791
                          bfd_putl16 (key_off, k->rfa.offset);
1792
                          en->flags |= ELFIDX__SYMESC;
1793
                        }
1794
                      else
1795
                        {
1796
                          bfd_putl16 (idx->namlen, en->keylen);
1797
                          memcpy (en->keyname, idx->name, idx->namlen);
1798
                        }
1799
                    }
1800
                  else
1801
                    {
1802
                      /* Use idx format.  */
1803
                      struct vms_idx *en = (struct vms_idx *)rfa;
1804
                      en->keylen = idx->namlen;
1805
                      memcpy (en->keyname, idx->name, idx->namlen);
1806
                    }
1807
                }
1808
            }
1809
 
1810
          blk[j].lastlen = idxlen;
1811
        }
1812
    }
1813
 
1814
  if (topvbn != NULL)
1815
    *topvbn = blk[level - 1].vbn;
1816
 
1817
  if (abfd == NULL)
1818
    return TRUE;
1819
 
1820
  /* Flush.  */
1821
  for (j = 1; j < level; j++)
1822
    {
1823
      /* Update parent block: write the new entry.  */
1824
      unsigned char *en;
1825
      unsigned char *par;
1826
      struct vms_rfa *rfa;
1827
 
1828
      en = rblk[j - 1]->keys + blk[j - 1].len;
1829
      par = rblk[j]->keys + blk[j].len;
1830
      memcpy (par, en, blk[j - 1].lastlen);
1831
      rfa = (struct vms_rfa *)par;
1832
      bfd_putl32 (blk[j - 1].vbn, rfa->vbn);
1833
      bfd_putl16 (RFADEF__C_INDEX, rfa->offset);
1834
    }
1835
 
1836
  for (j = 0; j < level; j++)
1837
    {
1838
      /* Write this block on the disk.  */
1839
      bfd_putl16 (blk[j].len + blk[j].lastlen, rblk[j]->used);
1840
      if (vms_write_block (abfd, blk[j].vbn, rblk[j]) != TRUE)
1841
        return FALSE;
1842
 
1843
      free (rblk[j]);
1844
    }
1845
 
1846
  /* Write the last kbn (if any).  */
1847
  if (kbn_vbn != 0)
1848
    {
1849
      if (vms_write_block (abfd, kbn_vbn, kbn_blk) != TRUE)
1850
        return FALSE;
1851
    }
1852
 
1853
  return TRUE;
1854
}
1855
 
1856
/* Append data to the data block DATA.  Force write if PAD is true.  */
1857
 
1858
static bfd_boolean
1859
vms_write_data_block (bfd *arch, struct vms_datadef *data, file_ptr *off,
1860
                      const unsigned char *buf, unsigned int len, int pad)
1861
{
1862
  while (len > 0 || pad)
1863
    {
1864
      unsigned int doff = *off & (VMS_BLOCK_SIZE - 1);
1865
      unsigned int remlen = (DATA__LENGTH - DATA__DATA) - doff;
1866
      unsigned int l;
1867
 
1868
      l = (len > remlen) ? remlen : len;
1869
      memcpy (data->data + doff, buf, l);
1870
      buf += l;
1871
      len -= l;
1872
      doff += l;
1873
      *off += l;
1874
 
1875
      if (doff == (DATA__LENGTH - DATA__DATA) || (len == 0 && pad))
1876
        {
1877
          data->recs = 0;
1878
          data->fill_1 = 0;
1879
          bfd_putl32 ((*off / VMS_BLOCK_SIZE) + 2, data->link);
1880
 
1881
          if (bfd_bwrite (data, sizeof (*data), arch) != sizeof (*data))
1882
            return FALSE;
1883
 
1884
          *off += DATA__LENGTH - doff;
1885
 
1886
          if (len == 0)
1887
            break;
1888
        }
1889
    }
1890
  return TRUE;
1891
}
1892
 
1893
/* Build the symbols index.  */
1894
 
1895
static bfd_boolean
1896
_bfd_vms_lib_build_map (unsigned int nbr_modules,
1897
                        struct lib_index *modules,
1898
                        unsigned int *res_cnt,
1899
                        struct lib_index **res)
1900
{
1901
  unsigned int i;
1902
  asymbol **syms = NULL;
1903
  long syms_max = 0;
1904
  struct lib_index *map = NULL;
1905
  unsigned int map_max = 1024;          /* Fine initial default.  */
1906
  unsigned int map_count = 0;
1907
 
1908
  map = (struct lib_index *) bfd_malloc (map_max * sizeof (struct lib_index));
1909
  if (map == NULL)
1910
    goto error_return;
1911
 
1912
  /* Gather symbols.  */
1913
  for (i = 0; i < nbr_modules; i++)
1914
    {
1915
      long storage;
1916
      long symcount;
1917
      long src_count;
1918
      bfd *current = modules[i].abfd;
1919
 
1920
      if ((bfd_get_file_flags (current) & HAS_SYMS) == 0)
1921
        continue;
1922
 
1923
      storage = bfd_get_symtab_upper_bound (current);
1924
      if (storage < 0)
1925
        goto error_return;
1926
 
1927
      if (storage != 0)
1928
        {
1929
          if (storage > syms_max)
1930
            {
1931
              if (syms_max > 0)
1932
                free (syms);
1933
              syms_max = storage;
1934
              syms = (asymbol **) bfd_malloc (syms_max);
1935
              if (syms == NULL)
1936
                goto error_return;
1937
            }
1938
          symcount = bfd_canonicalize_symtab (current, syms);
1939
          if (symcount < 0)
1940
            goto error_return;
1941
 
1942
          /* Now map over all the symbols, picking out the ones we
1943
             want.  */
1944
          for (src_count = 0; src_count < symcount; src_count++)
1945
            {
1946
              flagword flags = (syms[src_count])->flags;
1947
              asection *sec = syms[src_count]->section;
1948
 
1949
              if ((flags & BSF_GLOBAL
1950
                   || flags & BSF_WEAK
1951
                   || flags & BSF_INDIRECT
1952
                   || bfd_is_com_section (sec))
1953
                  && ! bfd_is_und_section (sec))
1954
                {
1955
                  struct lib_index *new_map;
1956
 
1957
                  /* This symbol will go into the archive header.  */
1958
                  if (map_count == map_max)
1959
                    {
1960
                      map_max *= 2;
1961
                      new_map = (struct lib_index *)
1962
                        bfd_realloc (map, map_max * sizeof (struct lib_index));
1963
                      if (new_map == NULL)
1964
                        goto error_return;
1965
                      map = new_map;
1966
                    }
1967
 
1968
                  map[map_count].abfd = current;
1969
                  map[map_count].namlen = strlen (syms[src_count]->name);
1970
                  map[map_count].name = syms[src_count]->name;
1971
                  map_count++;
1972
                  modules[i].ref++;
1973
                }
1974
            }
1975
        }
1976
    }
1977
 
1978
  *res_cnt = map_count;
1979
  *res = map;
1980
  return TRUE;
1981
 
1982
 error_return:
1983
  if (syms_max > 0)
1984
    free (syms);
1985
  if (map != NULL)
1986
    free (map);
1987
  return FALSE;
1988
}
1989
 
1990
/* Do the hard work: write an archive on the disk.  */
1991
 
1992
bfd_boolean
1993
_bfd_vms_lib_write_archive_contents (bfd *arch)
1994
{
1995
  bfd *current;
1996
  unsigned int nbr_modules;
1997
  struct lib_index *modules;
1998
  unsigned int nbr_symbols;
1999
  struct lib_index *symbols;
2000
  struct lib_tdata *tdata = bfd_libdata (arch);
2001
  unsigned int i;
2002
  file_ptr off;
2003
  unsigned int nbr_mod_iblk;
2004
  unsigned int nbr_sym_iblk;
2005
  unsigned int vbn;
2006
  unsigned int mod_idx_vbn;
2007
  unsigned int sym_idx_vbn;
2008
  bfd_boolean is_elfidx = tdata->kind == vms_lib_ia64;
2009
 
2010
  /* Count the number of modules (and do a first sanity check).  */
2011
  nbr_modules = 0;
2012
  for (current = arch->archive_head;
2013
       current != NULL;
2014
       current = current->archive_next)
2015
    {
2016
      /* This check is checking the bfds for the objects we're reading
2017
         from (which are usually either an object file or archive on
2018
         disk), not the archive entries we're writing to.  We don't
2019
         actually create bfds for the archive members, we just copy
2020
         them byte-wise when we write out the archive.  */
2021
      if (bfd_write_p (current) || !bfd_check_format (current, bfd_object))
2022
        {
2023
          bfd_set_error (bfd_error_invalid_operation);
2024
          goto input_err;
2025
        }
2026
 
2027
      nbr_modules++;
2028
    }
2029
 
2030
  /* Build the modules list.  */
2031
  BFD_ASSERT (tdata->modules == NULL);
2032
  modules = bfd_alloc (arch, nbr_modules * sizeof (struct lib_index));
2033
  if (modules == NULL)
2034
    return FALSE;
2035
 
2036
  for (current = arch->archive_head, i = 0;
2037
       current != NULL;
2038
       current = current->archive_next, i++)
2039
    {
2040
      int nl;
2041
 
2042
      modules[i].abfd = current;
2043
      modules[i].name = vms_get_module_name (current->filename, FALSE);
2044
      modules[i].ref = 1;
2045
 
2046
      /* FIXME: silently truncate long names ?  */
2047
      nl = strlen (modules[i].name);
2048
      modules[i].namlen = (nl > MAX_KEYLEN ? MAX_KEYLEN : nl);
2049
    }
2050
 
2051
  /* Create the module index.  */
2052
  vbn = 0;
2053
  if (!vms_write_index (NULL, modules, nbr_modules, &vbn, NULL, is_elfidx))
2054
    return FALSE;
2055
  nbr_mod_iblk = vbn;
2056
 
2057
  /* Create symbol index.  */
2058
  if (!_bfd_vms_lib_build_map (nbr_modules, modules, &nbr_symbols, &symbols))
2059
    return FALSE;
2060
 
2061
  vbn = 0;
2062
  if (!vms_write_index (NULL, symbols, nbr_symbols, &vbn, NULL, is_elfidx))
2063
    return FALSE;
2064
  nbr_sym_iblk = vbn;
2065
 
2066
  /* Write modules and remember their position.  */
2067
  off = (1 + nbr_mod_iblk + nbr_sym_iblk) * VMS_BLOCK_SIZE;
2068
 
2069
  if (bfd_seek (arch, off, SEEK_SET) != 0)
2070
    return FALSE;
2071
 
2072
  for (i = 0; i < nbr_modules; i++)
2073
    {
2074
      struct vms_datadef data;
2075
      unsigned char blk[VMS_BLOCK_SIZE];
2076
      struct vms_mhd *mhd;
2077
      unsigned int sz;
2078
 
2079
      current = modules[i].abfd;
2080
      current->proxy_origin = off;
2081
 
2082
      if (is_elfidx)
2083
        sz = 0;
2084
      else
2085
        {
2086
          /* Write the MHD as a record (ie, size first).  */
2087
          sz = 2;
2088
          bfd_putl16 (tdata->mhd_size, blk);
2089
        }
2090
      mhd = (struct vms_mhd *)(blk + sz);
2091
      memset (mhd, 0, sizeof (struct vms_mhd));
2092
      mhd->lbrflag = 0;
2093
      mhd->id = MHD__C_MHDID;
2094
      mhd->objidlng = 4;
2095
      memcpy (mhd->objid, "V1.0", 4);
2096
      bfd_putl32 (modules[i].ref, mhd->refcnt);
2097
      /* FIXME: datim.  */
2098
 
2099
      sz += tdata->mhd_size;
2100
      sz = (sz + 1) & ~1;
2101
 
2102
      /* Rewind the member to be put into the archive.  */
2103
      if (bfd_seek (current, 0, SEEK_SET) != 0)
2104
        goto input_err;
2105
 
2106
      /* Copy the member into the archive.  */
2107
      if (is_elfidx)
2108
        {
2109
          unsigned int modsize = 0;
2110
          bfd_size_type amt;
2111
          file_ptr off_hdr = off;
2112
 
2113
          /* Read to complete the first block.  */
2114
          amt = bfd_bread (blk + sz, VMS_BLOCK_SIZE - sz, current);
2115
          if (amt == (bfd_size_type)-1)
2116
            goto input_err;
2117
          modsize = amt;
2118
          if (amt < VMS_BLOCK_SIZE - sz)
2119
            {
2120
              /* The member size is less than a block.  Pad the block.  */
2121
              memset (blk + sz + amt, 0, VMS_BLOCK_SIZE - sz - amt);
2122
            }
2123
          bfd_putl32 (modsize, mhd->modsize);
2124
 
2125
          /* Write the first block (which contains an mhd).  */
2126
          if (bfd_bwrite (blk, VMS_BLOCK_SIZE, arch) != VMS_BLOCK_SIZE)
2127
            goto input_err;
2128
          off += VMS_BLOCK_SIZE;
2129
 
2130
          if (amt == VMS_BLOCK_SIZE - sz)
2131
            {
2132
              /* Copy the remaining.  */
2133
              char buffer[DEFAULT_BUFFERSIZE];
2134
 
2135
              while (1)
2136
                {
2137
                  amt = bfd_bread (buffer, sizeof (buffer), current);
2138
                  if (amt == (bfd_size_type)-1)
2139
                    goto input_err;
2140
                  if (amt == 0)
2141
                    break;
2142
                  modsize += amt;
2143
                  if (amt != sizeof (buffer))
2144
                    {
2145
                      /* Clear the padding.  */
2146
                      memset (buffer + amt, 0, sizeof (buffer) - amt);
2147
                      amt = (amt + VMS_BLOCK_SIZE) & ~(VMS_BLOCK_SIZE - 1);
2148
                    }
2149
                  if (bfd_bwrite (buffer, amt, arch) != amt)
2150
                    goto input_err;
2151
                  off += amt;
2152
                }
2153
 
2154
              /* Now that the size is known, write the first block (again).  */
2155
              bfd_putl32 (modsize, mhd->modsize);
2156
              if (bfd_seek (arch, off_hdr, SEEK_SET) != 0
2157
                  || bfd_bwrite (blk, VMS_BLOCK_SIZE, arch) != VMS_BLOCK_SIZE)
2158
                goto input_err;
2159
              if (bfd_seek (arch, off, SEEK_SET) != 0)
2160
                goto input_err;
2161
            }
2162
        }
2163
      else
2164
        {
2165
          /* Write the MHD.  */
2166
          if (vms_write_data_block (arch, &data, &off, blk, sz, 0) < 0)
2167
            goto input_err;
2168
 
2169
          /* Write the member.  */
2170
          while (1)
2171
            {
2172
              sz = bfd_bread (blk, sizeof (blk), current);
2173
              if (sz == 0)
2174
                break;
2175
              if (vms_write_data_block (arch, &data, &off, blk, sz, 0) < 0)
2176
                goto input_err;
2177
            }
2178
 
2179
          /* Write the end of module marker.  */
2180
          if (vms_write_data_block (arch, &data, &off,
2181
                                    eotdesc, sizeof (eotdesc), 1) < 0)
2182
            goto input_err;
2183
        }
2184
    }
2185
 
2186
  /* Write the indexes.  */
2187
  vbn = 2;
2188
  if (vms_write_index (arch, modules, nbr_modules, &vbn, &mod_idx_vbn,
2189
                       is_elfidx) != TRUE)
2190
    return FALSE;
2191
  if (vms_write_index (arch, symbols, nbr_symbols, &vbn, &sym_idx_vbn,
2192
                       is_elfidx) != TRUE)
2193
    return FALSE;
2194
 
2195
  /* Write libary header.  */
2196
  {
2197
    unsigned char blk[VMS_BLOCK_SIZE];
2198
    struct vms_lhd *lhd = (struct vms_lhd *)blk;
2199
    struct vms_idd *idd = (struct vms_idd *)(blk + sizeof (*lhd));
2200
    unsigned int idd_flags;
2201
    unsigned int saneid;
2202
 
2203
    memset (blk, 0, sizeof (blk));
2204
 
2205
    lhd->type = tdata->type;
2206
    lhd->nindex = 2;
2207
    switch (tdata->kind)
2208
      {
2209
      case vms_lib_alpha:
2210
        saneid = LHD_SANEID3;
2211
        break;
2212
      case vms_lib_ia64:
2213
        saneid = LHD_SANEID6;
2214
        break;
2215
      default:
2216
        abort ();
2217
      }
2218
    bfd_putl32 (saneid, lhd->sanity);
2219
    bfd_putl16 (tdata->ver, lhd->majorid);
2220
    bfd_putl16 (0, lhd->minorid);
2221
    snprintf ((char *)lhd->lbrver + 1, sizeof (lhd->lbrver) - 1,
2222
              "GNU ar %u.%u.%u",
2223
              (unsigned)(BFD_VERSION / 100000000UL),
2224
              (unsigned)(BFD_VERSION / 1000000UL) % 100,
2225
              (unsigned)(BFD_VERSION / 10000UL) % 100);
2226
    lhd->lbrver[sizeof (lhd->lbrver) - 1] = 0;
2227
    lhd->lbrver[0] = strlen ((char *)lhd->lbrver + 1);
2228
 
2229
    bfd_putl32 (tdata->credat_lo, lhd->credat + 0);
2230
    bfd_putl32 (tdata->credat_hi, lhd->credat + 4);
2231
    vms_raw_get_time (lhd->updtim);
2232
 
2233
    lhd->mhdusz = tdata->mhd_size - MHD__C_USRDAT;
2234
 
2235
    bfd_putl32 (nbr_modules + nbr_symbols, lhd->idxcnt);
2236
    bfd_putl32 (nbr_modules, lhd->modcnt);
2237
    bfd_putl32 (nbr_modules, lhd->modhdrs);
2238
 
2239
    bfd_putl32 (vbn - 1, lhd->hipreal);
2240
    bfd_putl32 (vbn - 1, lhd->hiprusd);
2241
 
2242
    /* First index (modules name).  */
2243
    idd_flags = IDD__FLAGS_ASCII | IDD__FLAGS_VARLENIDX
2244
      | IDD__FLAGS_NOCASECMP | IDD__FLAGS_NOCASENTR;
2245
    bfd_putl16 (idd_flags, idd->flags);
2246
    bfd_putl16 (MAX_KEYLEN, idd->keylen);
2247
    bfd_putl16 (mod_idx_vbn, idd->vbn);
2248
    idd++;
2249
 
2250
    /* Second index (symbols name).  */
2251
    bfd_putl16 (idd_flags, idd->flags);
2252
    bfd_putl16 (MAX_KEYLEN, idd->keylen);
2253
    bfd_putl16 (sym_idx_vbn, idd->vbn);
2254
    idd++;
2255
 
2256
    if (vms_write_block (arch, 1, blk) != TRUE)
2257
      return FALSE;
2258
  }
2259
 
2260
  return TRUE;
2261
 
2262
 input_err:
2263
  bfd_set_error (bfd_error_on_input, current, bfd_get_error ());
2264
  return FALSE;
2265
}
2266
 
2267
/* Add a target for text library.  This costs almost nothing and is useful to
2268
   read VMS library on the host.  */
2269
 
2270
const bfd_target vms_lib_txt_vec =
2271
{
2272
  "vms-libtxt",                 /* Name.  */
2273
  bfd_target_unknown_flavour,
2274
  BFD_ENDIAN_UNKNOWN,           /* byteorder */
2275
  BFD_ENDIAN_UNKNOWN,           /* header_byteorder */
2276
  0,                             /* Object flags.  */
2277
  0,                             /* Sect flags.  */
2278
  0,                             /* symbol_leading_char.  */
2279
  ' ',                          /* ar_pad_char.  */
2280
  15,                           /* ar_max_namelen.  */
2281 148 khays
  0,                             /* match priority.  */
2282 14 khays
  bfd_getl64, bfd_getl_signed_64, bfd_putl64,
2283
  bfd_getl32, bfd_getl_signed_32, bfd_putl32,
2284
  bfd_getl16, bfd_getl_signed_16, bfd_putl16,
2285
  bfd_getl64, bfd_getl_signed_64, bfd_putl64,
2286
  bfd_getl32, bfd_getl_signed_32, bfd_putl32,
2287
  bfd_getl16, bfd_getl_signed_16, bfd_putl16,
2288
 
2289
  {_bfd_dummy_target, _bfd_dummy_target,        /* bfd_check_format.  */
2290
   _bfd_vms_lib_txt_archive_p, _bfd_dummy_target},
2291
  {bfd_false, bfd_false, bfd_false, bfd_false}, /* bfd_set_format.  */
2292
  {bfd_false, bfd_false, bfd_false, bfd_false}, /* bfd_write_contents.  */
2293
 
2294
  BFD_JUMP_TABLE_GENERIC (_bfd_generic),
2295
  BFD_JUMP_TABLE_COPY (_bfd_generic),
2296
  BFD_JUMP_TABLE_CORE (_bfd_nocore),
2297
  BFD_JUMP_TABLE_ARCHIVE (_bfd_vms_lib),
2298
  BFD_JUMP_TABLE_SYMBOLS (_bfd_nosymbols),
2299
  BFD_JUMP_TABLE_RELOCS (_bfd_norelocs),
2300
  BFD_JUMP_TABLE_WRITE (_bfd_nowrite),
2301
  BFD_JUMP_TABLE_LINK (_bfd_nolink),
2302
  BFD_JUMP_TABLE_DYNAMIC (_bfd_nodynamic),
2303
 
2304
  NULL,
2305
 
2306
  (PTR) 0
2307
};

powered by: WebSVN 2.1.0

© copyright 1999-2024 OpenCores.org, equivalent to Oliscience, all rights reserved. OpenCores®, registered trademark.