Coverage Report

Created: 2026-07-16 06:11

next uncovered line (L), next uncovered region (R), next uncovered branch (B)
/src/gnupg/common/iobuf.c
Line
Count
Source
1
/* iobuf.c  -  File Handling for OpenPGP.
2
 * Copyright (C) 1998, 1999, 2000, 2001, 2003, 2004, 2006, 2007, 2008,
3
 *               2009, 2010, 2011  Free Software Foundation, Inc.
4
 * Copyright (C) 2015, 2023  g10 Code GmbH
5
 *
6
 * This file is part of GnuPG.
7
 *
8
 * This file is free software; you can redistribute it and/or modify
9
 * it under the terms of either
10
 *
11
 *   - the GNU Lesser General Public License as published by the Free
12
 *     Software Foundation; either version 3 of the License, or (at
13
 *     your option) any later version.
14
 *
15
 * or
16
 *
17
 *   - the GNU General Public License as published by the Free
18
 *     Software Foundation; either version 2 of the License, or (at
19
 *     your option) any later version.
20
 *
21
 * or both in parallel, as here.
22
 *
23
 * This file is distributed in the hope that it will be useful,
24
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
25
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
26
 * GNU General Public License for more details.
27
 *
28
 * You should have received a copy of the GNU General Public License
29
 * along with this program; if not, see <https://www.gnu.org/licenses/>.
30
 * SPDX-License-Identifier: (LGPL-3.0-or-later OR GPL-2.0-or-later)
31
 */
32
33
#include <config.h>
34
#include <stdio.h>
35
#include <stdlib.h>
36
#include <string.h>
37
#include <errno.h>
38
#include <ctype.h>
39
#include <sys/types.h>
40
#include <sys/stat.h>
41
#include <fcntl.h>
42
#include <unistd.h>
43
#ifdef HAVE_W32_SYSTEM
44
# ifdef HAVE_WINSOCK2_H
45
#  include <winsock2.h>
46
# endif
47
# include <windows.h>
48
#endif
49
#ifdef __riscos__
50
# include <kernel.h>
51
# include <swis.h>
52
#endif /* __riscos__ */
53
54
#include <assuan.h>
55
56
#include "util.h"
57
#include "sysutils.h"
58
#include "iobuf.h"
59
60
/*-- Begin configurable part.  --*/
61
62
/* The standard size of the internal buffers.  */
63
#define DEFAULT_IOBUF_BUFFER_SIZE  (64*1024)
64
65
/* To avoid a potential DoS with compression packets we better limit
66
   the number of filters in a chain.  */
67
80.7k
#define MAX_NESTING_FILTER 64
68
69
/* The threshold for switching to use external buffers directly
70
   instead of the internal buffers. */
71
403k
#define IOBUF_ZEROCOPY_THRESHOLD_SIZE 1024
72
73
/*-- End configurable part.  --*/
74
75
/* The size of the iobuffers.  This can be changed using the
76
 * iobuf_set_buffer_size function.  */
77
static unsigned int iobuf_buffer_size = DEFAULT_IOBUF_BUFFER_SIZE;
78
79
80
#ifdef HAVE_W32_SYSTEM
81
# define FD_FOR_STDIN  (GetStdHandle (STD_INPUT_HANDLE))
82
# define FD_FOR_STDOUT (GetStdHandle (STD_OUTPUT_HANDLE))
83
#else /*!HAVE_W32_SYSTEM*/
84
32.7k
# define FD_FOR_STDIN  (0)
85
16.3k
# define FD_FOR_STDOUT (1)
86
#endif /*!HAVE_W32_SYSTEM*/
87
88
89
/* The context used by the file filter.  */
90
typedef struct
91
{
92
  gnupg_fd_t fp;       /* Open file pointer or handle.  */
93
  int keep_open;
94
  int no_cache;
95
  int eof_seen;
96
  int delayed_rc;
97
  int print_only_name; /* Flags indicating that fname is not a real file.  */
98
  char peeked[32];     /* Read ahead buffer.  */
99
  byte npeeked;        /* Number of bytes valid in peeked.  */
100
  byte upeeked;        /* Number of bytes used from peeked.  */
101
  char fname[1];       /* Name of the file.  */
102
} file_filter_ctx_t;
103
104
/* The context used by the estream filter.  */
105
typedef struct
106
{
107
  estream_t fp;        /* Open estream handle.  */
108
  int keep_open;
109
  int no_cache;
110
  int eof_seen;
111
  int use_readlimit;   /* Take care of the readlimit.  */
112
  size_t readlimit;    /* Number of bytes left to read.  */
113
  int print_only_name; /* Flags indicating that fname is not a real file.  */
114
  char fname[1];       /* Name of the file.  */
115
} file_es_filter_ctx_t;
116
117
118
/* Object to control the "close cache".  */
119
struct close_cache_s
120
{
121
  struct close_cache_s *next;
122
  gnupg_fd_t fp;
123
  char fname[1];
124
};
125
typedef struct close_cache_s *close_cache_t;
126
static close_cache_t close_cache;
127
128
int iobuf_debug_mode;
129
130
131
#ifdef HAVE_W32_SYSTEM
132
typedef struct
133
{
134
  int sock;
135
  int keep_open;
136
  int no_cache;
137
  int eof_seen;
138
  int print_only_name;  /* Flag indicating that fname is not a real file.  */
139
  char fname[1];  /* Name of the file */
140
141
} sock_filter_ctx_t;
142
#endif /*HAVE_W32_SYSTEM*/
143
144
/* The first partial length header block must be of size 512 to make
145
 * it easier (and more efficient) we use a min. block size of 512 for
146
 * all chunks (but the last one) */
147
0
#define OP_MIN_PARTIAL_CHUNK    512
148
0
#define OP_MIN_PARTIAL_CHUNK_2POW 9
149
150
/* The context we use for the block filter (used to handle OpenPGP
151
   length information header).  */
152
typedef struct
153
{
154
  int use;
155
  size_t size;
156
  size_t count;
157
  int partial;     /* 1 = partial header, 2 in last partial packet.  */
158
  char *buffer;    /* Used for partial header.  */
159
  size_t buflen;   /* Used size of buffer.  */
160
  int first_c;     /* First character of a partial header (which is > 0).  */
161
  int eof;
162
}
163
block_filter_ctx_t;
164
165
166
/* Local prototypes.  */
167
static int underflow (iobuf_t a, int clear_pending_eof);
168
static int underflow_target (iobuf_t a, int clear_pending_eof, size_t target);
169
static iobuf_t do_iobuf_fdopen (gnupg_fd_t fp, const char *mode, int keep_open);
170
171
172
/* Sends any pending data to the filter's FILTER function.  Note: this
173
   works on the filter and not on the whole pipeline.  That is,
174
   iobuf_flush doesn't necessarily cause data to be written to any
175
   underlying file; it just causes any data buffered at the filter A
176
   to be sent to A's filter function.
177
178
   If A is a IOBUF_OUTPUT_TEMP filter, then this also enlarges the
179
   buffer by iobuf_buffer_size.
180
181
   May only be called on an IOBUF_OUTPUT or IOBUF_OUTPUT_TEMP filters.  */
182
static int filter_flush (iobuf_t a);
183
184
185

186
/* This is a replacement for strcmp.  Under W32 it does not
187
   distinguish between backslash and slash.  */
188
static int
189
fd_cache_strcmp (const char *a, const char *b)
190
16.3k
{
191
#ifdef HAVE_DOSISH_SYSTEM
192
  for (; *a && *b; a++, b++)
193
    {
194
      if (*a != *b && !((*a == '/' && *b == '\\')
195
                        || (*a == '\\' && *b == '/')) )
196
        break;
197
    }
198
  return *(const unsigned char *)a - *(const unsigned char *)b;
199
#else
200
16.3k
  return strcmp (a, b);
201
16.3k
#endif
202
16.3k
}
203
204
205
/*
206
 * Invalidate (i.e. close) a cached iobuf
207
 */
208
static int
209
fd_cache_invalidate (const char *fname)
210
2
{
211
2
  close_cache_t cc;
212
2
  int rc = 0;
213
214
2
  log_assert (fname);
215
2
  if (DBG_IOBUF)
216
2
    log_debug ("fd_cache_invalidate (%s)\n", fname);
217
218
3
  for (cc = close_cache; cc; cc = cc->next)
219
1
    {
220
1
      if (cc->fp != GNUPG_INVALID_FD && !fd_cache_strcmp (cc->fname, fname))
221
1
  {
222
1
    if (DBG_IOBUF)
223
1
      log_debug ("                did (%s)\n", cc->fname);
224
#ifdef HAVE_W32_SYSTEM
225
    if (!CloseHandle (cc->fp))
226
            rc = -1;
227
#else
228
1
    rc = close (cc->fp);
229
1
#endif
230
1
    cc->fp = GNUPG_INVALID_FD;
231
1
  }
232
1
    }
233
2
  return rc;
234
2
}
235
236
237
/* Try to sync changes to the disk.  This is to avoid data loss during
238
   a system crash in write/close/rename cycle on some file
239
   systems.  */
240
static int
241
fd_cache_synchronize (const char *fname)
242
0
{
243
0
  int err = 0;
244
245
0
#ifdef HAVE_FSYNC
246
0
  close_cache_t cc;
247
248
0
  if (DBG_IOBUF)
249
0
    log_debug ("fd_cache_synchronize (%s)\n", fname);
250
251
0
  for (cc=close_cache; cc; cc = cc->next )
252
0
    {
253
0
      if (cc->fp != GNUPG_INVALID_FD && !fd_cache_strcmp (cc->fname, fname))
254
0
  {
255
0
    if (DBG_IOBUF)
256
0
      log_debug ("                 did (%s)\n", cc->fname);
257
258
0
    err = fsync (cc->fp);
259
0
  }
260
0
    }
261
#else
262
  (void)fname;
263
#endif /*HAVE_FSYNC*/
264
265
0
  return err;
266
0
}
267
268
269
static gnupg_fd_t
270
direct_open (const char *fname, const char *mode, int mode700)
271
8.18k
{
272
#ifdef HAVE_W32_SYSTEM
273
  unsigned long da, cd, sm;
274
  HANDLE hfile;
275
276
  (void)mode700;
277
  /* Note, that we do not handle all mode combinations */
278
279
  /* According to the ReactOS source it seems that open() of the
280
   * standard MSW32 crt does open the file in shared mode which is
281
   * something new for MS applications ;-)
282
   */
283
  if (strchr (mode, '+'))
284
    {
285
      if (fd_cache_invalidate (fname))
286
        return GNUPG_INVALID_FD;
287
      da = GENERIC_READ | GENERIC_WRITE;
288
      cd = OPEN_EXISTING;
289
    }
290
  else if (strchr (mode, 'w'))
291
    {
292
      if (fd_cache_invalidate (fname))
293
        return GNUPG_INVALID_FD;
294
      da = GENERIC_WRITE;
295
      cd = CREATE_ALWAYS;
296
    }
297
  else
298
    {
299
      da = GENERIC_READ;
300
      cd = OPEN_EXISTING;
301
    }
302
  sm = FILE_SHARE_READ | FILE_SHARE_WRITE;
303
304
  /* We always use the Unicode version because it supports file names
305
   * longer than MAX_PATH.  (requires gpgrt 1.45) */
306
  if (1)
307
    {
308
      wchar_t *wfname = gpgrt_fname_to_wchar (fname);
309
      if (wfname)
310
        {
311
          hfile = CreateFileW (wfname, da, sm, NULL, cd,
312
                               FILE_ATTRIBUTE_NORMAL, NULL);
313
          if (hfile == INVALID_HANDLE_VALUE)
314
            {
315
              gnupg_w32_set_errno (-1);
316
              if (DBG_IOBUF)
317
                log_debug ("iobuf:direct_open '%s' CreateFile failed: %s\n",
318
                           fname, gpg_strerror (gpg_error_from_syserror()));
319
            }
320
          xfree (wfname);
321
        }
322
      else
323
        hfile = INVALID_HANDLE_VALUE;
324
    }
325
326
  return hfile;
327
328
#else /*!HAVE_W32_SYSTEM*/
329
330
8.18k
  int oflag;
331
8.18k
  int cflag = S_IRUSR | S_IWUSR;
332
333
8.18k
  if (!mode700)
334
8.18k
    cflag |= S_IRGRP | S_IWGRP | S_IROTH | S_IWOTH;
335
336
  /* Note, that we do not handle all mode combinations */
337
8.18k
  if (strchr (mode, '+'))
338
0
    {
339
0
      if (fd_cache_invalidate (fname))
340
0
        return GNUPG_INVALID_FD;
341
0
      oflag = O_RDWR;
342
0
    }
343
8.18k
  else if (strchr (mode, 'w'))
344
1
    {
345
1
      if (fd_cache_invalidate (fname))
346
0
        return GNUPG_INVALID_FD;
347
1
      oflag = O_WRONLY | O_CREAT | O_TRUNC;
348
1
    }
349
8.18k
  else
350
8.18k
    {
351
8.18k
      oflag = O_RDONLY;
352
8.18k
    }
353
#ifdef O_BINARY
354
  if (strchr (mode, 'b'))
355
    oflag |= O_BINARY;
356
#endif
357
358
#ifdef __riscos__
359
  {
360
    struct stat buf;
361
362
    /* Don't allow iobufs on directories */
363
    if (!stat (fname, &buf) && S_ISDIR (buf.st_mode) && !S_ISREG (buf.st_mode))
364
      return __set_errno (EISDIR);
365
  }
366
#endif
367
8.18k
  return open (fname, oflag, cflag);
368
369
8.18k
#endif /*!HAVE_W32_SYSTEM*/
370
8.18k
}
371
372
373
/*
374
 * Instead of closing an FD we keep it open and cache it for later reuse
375
 * Note that this caching strategy only works if the process does not chdir.
376
 */
377
static void
378
fd_cache_close (const char *fname, gnupg_fd_t fp)
379
16.3k
{
380
16.3k
  close_cache_t cc;
381
382
16.3k
  log_assert (fp);
383
16.3k
  if (!fname || !*fname)
384
8.18k
    {
385
#ifdef HAVE_W32_SYSTEM
386
      CloseHandle (fp);
387
#else
388
8.18k
      close (fp);
389
8.18k
#endif
390
8.18k
      if (DBG_IOBUF)
391
8.18k
  log_debug ("fd_cache_close (%d) real\n", FD_DBG (fp));
392
8.18k
      return;
393
8.18k
    }
394
  /* try to reuse a slot */
395
8.18k
  for (cc = close_cache; cc; cc = cc->next)
396
8.18k
    {
397
8.18k
      if (cc->fp == GNUPG_INVALID_FD && !fd_cache_strcmp (cc->fname, fname))
398
8.17k
  {
399
8.17k
    cc->fp = fp;
400
8.17k
    if (DBG_IOBUF)
401
8.17k
      log_debug ("fd_cache_close (%s) used existing slot\n", fname);
402
8.17k
    return;
403
8.17k
  }
404
8.18k
    }
405
  /* add a new one */
406
2
  if (DBG_IOBUF)
407
2
    log_debug ("fd_cache_close (%s) new slot created\n", fname);
408
2
  cc = xcalloc (1, sizeof *cc + strlen (fname));
409
2
  strcpy (cc->fname, fname);
410
2
  cc->fp = fp;
411
2
  cc->next = close_cache;
412
2
  close_cache = cc;
413
2
}
414
415
/*
416
 * Do a direct_open on FNAME but first try to reuse one from the fd_cache
417
 */
418
static gnupg_fd_t
419
fd_cache_open (const char *fname, const char *mode)
420
16.3k
{
421
16.3k
  close_cache_t cc;
422
423
16.3k
  log_assert (fname);
424
32.7k
  for (cc = close_cache; cc; cc = cc->next)
425
24.5k
    {
426
24.5k
      if (cc->fp != GNUPG_INVALID_FD && !fd_cache_strcmp (cc->fname, fname))
427
8.17k
  {
428
8.17k
    gnupg_fd_t fp = cc->fp;
429
8.17k
    cc->fp = GNUPG_INVALID_FD;
430
8.17k
    if (DBG_IOBUF)
431
8.17k
      log_debug ("fd_cache_open (%s) using cached fp\n", fname);
432
#ifdef HAVE_W32_SYSTEM
433
    if (SetFilePointer (fp, 0, NULL, FILE_BEGIN) == 0xffffffff)
434
      {
435
              int ec = (int) GetLastError ();
436
        log_error ("rewind file failed on handle %p: ec=%d\n", fp, ec);
437
              gnupg_w32_set_errno (ec);
438
        fp = GNUPG_INVALID_FD;
439
      }
440
#else
441
8.17k
    if (lseek (fp, 0, SEEK_SET) == (off_t) - 1)
442
0
      {
443
0
        log_error ("can't rewind fd %d: %s\n", fp, strerror (errno));
444
0
        fp = GNUPG_INVALID_FD;
445
0
      }
446
8.17k
#endif
447
8.17k
    return fp;
448
8.17k
  }
449
24.5k
    }
450
8.18k
  if (DBG_IOBUF)
451
8.18k
    log_debug ("fd_cache_open (%s) not cached\n", fname);
452
8.18k
  return direct_open (fname, mode, 0);
453
16.3k
}
454
455
456
static int
457
file_filter (void *opaque, int control, iobuf_t chain, byte * buf,
458
       size_t * ret_len)
459
60.9k
{
460
60.9k
  file_filter_ctx_t *a = opaque;
461
60.9k
  gnupg_fd_t f = a->fp;
462
60.9k
  size_t size = *ret_len;
463
60.9k
  size_t nbytes = 0;
464
60.9k
  int rc = 0;
465
466
60.9k
  (void)chain; /* Not used.  */
467
468
60.9k
  if (control == IOBUFCTRL_UNDERFLOW)
469
28.1k
    {
470
28.1k
      log_assert (size); /* We need a buffer.  */
471
28.1k
      if (a->npeeked > a->upeeked)
472
0
        {
473
0
          nbytes = a->npeeked - a->upeeked;
474
0
          if (nbytes > size)
475
0
            nbytes = size;
476
0
          memcpy (buf, a->peeked + a->upeeked, nbytes);
477
0
          a->upeeked += nbytes;
478
0
          *ret_len = nbytes;
479
0
        }
480
28.1k
      else if (a->eof_seen)
481
0
  {
482
0
    rc = -1;
483
0
    *ret_len = 0;
484
0
  }
485
28.1k
      else if (a->delayed_rc)
486
11.8k
        {
487
11.8k
          rc = a->delayed_rc;
488
11.8k
          a->delayed_rc = 0;
489
11.8k
          if (rc == -1)
490
11.8k
            a->eof_seen = -1;
491
11.8k
    *ret_len = 0;
492
11.8k
        }
493
16.3k
      else
494
16.3k
  {
495
#ifdef HAVE_W32_SYSTEM
496
    unsigned long nread;
497
498
    nbytes = 0;
499
    if (!ReadFile (f, buf, size, &nread, NULL))
500
      {
501
        int ec = (int) GetLastError ();
502
        if (ec != ERROR_BROKEN_PIPE)
503
    {
504
      rc = gpg_error_from_errno (ec);
505
      log_error ("%s: read error: %s (ec=%d)\n",
506
                             a->fname, gpg_strerror (rc), ec);
507
    }
508
      }
509
    else if (!nread)
510
      {
511
        a->eof_seen = 1;
512
        rc = -1;
513
      }
514
    else
515
      {
516
        nbytes = nread;
517
      }
518
519
#else
520
521
16.3k
    int n;
522
523
16.3k
    nbytes = 0;
524
32.7k
        read_more:
525
32.7k
          do
526
32.7k
            {
527
32.7k
              n = read (f, buf + nbytes, size - nbytes);
528
32.7k
            }
529
32.7k
          while (n == -1 && errno == EINTR);
530
32.7k
          if (n > 0)
531
16.3k
            {
532
16.3k
              nbytes += n;
533
16.3k
              if (nbytes < size)
534
16.3k
                goto read_more;
535
16.3k
            }
536
16.3k
          else if (!n) /* eof */
537
16.3k
            {
538
16.3k
              if (nbytes)
539
16.3k
                a->delayed_rc = -1;
540
27
              else
541
27
                {
542
27
                  a->eof_seen = 1;
543
27
                  rc = -1;
544
27
                }
545
16.3k
            }
546
0
          else /* error */
547
0
            {
548
0
              rc = gpg_error_from_syserror ();
549
0
              if (gpg_err_code (rc) != GPG_ERR_EPIPE)
550
0
                log_error ("%s: read error: %s\n", a->fname, gpg_strerror (rc));
551
0
              if (nbytes)
552
0
                {
553
0
                  a->delayed_rc = rc;
554
0
                  rc = 0;
555
0
                }
556
0
            }
557
16.3k
#endif
558
16.3k
    *ret_len = nbytes;
559
16.3k
  }
560
28.1k
    }
561
32.7k
  else if (control == IOBUFCTRL_FLUSH)
562
1
    {
563
1
      if (size)
564
0
  {
565
#ifdef HAVE_W32_SYSTEM
566
    byte *p = buf;
567
    unsigned long n;
568
569
    nbytes = size;
570
    do
571
      {
572
        if (size && !WriteFile (f, p, nbytes, &n, NULL))
573
    {
574
      int ec = gnupg_w32_set_errno (-1);
575
      rc = gpg_error_from_syserror ();
576
      log_error ("%s: write error: %s (ec=%d)\n",
577
                             a->fname, gpg_strerror (rc), ec);
578
      break;
579
    }
580
        p += n;
581
        nbytes -= n;
582
      }
583
    while (nbytes);
584
    nbytes = p - buf;
585
#else
586
0
    byte *p = buf;
587
0
    int n;
588
589
0
    nbytes = size;
590
0
    do
591
0
      {
592
0
        do
593
0
    {
594
0
      n = write (f, p, nbytes);
595
0
    }
596
0
        while (n == -1 && errno == EINTR);
597
0
        if (n > 0)
598
0
    {
599
0
      p += n;
600
0
      nbytes -= n;
601
0
    }
602
0
      }
603
0
    while (n != -1 && nbytes);
604
0
    if (n == -1)
605
0
      {
606
0
        rc = gpg_error_from_syserror ();
607
0
        log_error ("%s: write error: %s\n", a->fname, strerror (errno));
608
0
      }
609
0
    nbytes = p - buf;
610
0
#endif
611
0
  }
612
1
      *ret_len = nbytes;
613
1
    }
614
32.7k
  else if (control == IOBUFCTRL_INIT)
615
16.3k
    {
616
16.3k
      a->eof_seen = 0;
617
16.3k
      a->delayed_rc = 0;
618
16.3k
      a->keep_open = 0;
619
16.3k
      a->no_cache = 0;
620
16.3k
      a->npeeked = 0;
621
16.3k
      a->upeeked = 0;
622
16.3k
    }
623
16.3k
  else if (control == IOBUFCTRL_PEEK)
624
0
    {
625
      /* Peek on the input.  */
626
#ifdef HAVE_W32_SYSTEM
627
      unsigned long nread;
628
629
      nbytes = 0;
630
      if (!ReadFile (f, a->peeked, sizeof a->peeked, &nread, NULL))
631
        {
632
          int ec = (int) GetLastError ();
633
          if (ec != ERROR_BROKEN_PIPE)
634
            {
635
              rc = gpg_error_from_errno (ec);
636
              log_error ("%s: read error: %s (ec=%d)\n",
637
                         a->fname, gpg_strerror (rc), ec);
638
            }
639
          a->npeeked = 0;
640
        }
641
      else if (!nread)
642
        {
643
          a->eof_seen = 1;
644
          a->npeeked = 0;
645
        }
646
      else
647
        {
648
          a->npeeked = nread;
649
        }
650
651
#else /* Unix */
652
653
0
      int n;
654
655
0
    peek_more:
656
0
      do
657
0
        {
658
0
          n = read (f, a->peeked + a->npeeked, sizeof a->peeked - a->npeeked);
659
0
        }
660
0
      while (n == -1 && errno == EINTR);
661
0
      if (n > 0)
662
0
        {
663
0
          a->npeeked += n;
664
0
          if (a->npeeked < sizeof a->peeked)
665
0
            goto peek_more;
666
0
        }
667
0
      else if (!n) /* eof */
668
0
        {
669
0
          if (a->npeeked)
670
0
            a->delayed_rc = -1;
671
0
          else
672
0
            a->eof_seen = 1;
673
0
        }
674
0
      else /* error */
675
0
        {
676
0
          rc = gpg_error_from_syserror ();
677
0
          if (gpg_err_code (rc) != GPG_ERR_EPIPE)
678
0
            log_error ("%s: read error: %s\n", a->fname, gpg_strerror (rc));
679
0
          if (a->npeeked)
680
0
            a->delayed_rc = rc;
681
0
        }
682
0
#endif /* Unix */
683
684
0
      size = a->npeeked < size? a->npeeked : size;
685
0
      memcpy (buf, a->peeked, size);
686
0
      *ret_len = size;
687
0
      rc = 0;  /* Return success - the user needs to check ret_len.  */
688
0
    }
689
16.3k
  else if (control == IOBUFCTRL_DESC)
690
0
    {
691
0
      mem2str (buf, "file_filter(fd)", *ret_len);
692
0
    }
693
16.3k
  else if (control == IOBUFCTRL_FREE)
694
16.3k
    {
695
16.3k
      if (f != FD_FOR_STDIN && f != FD_FOR_STDOUT)
696
16.3k
  {
697
16.3k
    if (DBG_IOBUF)
698
16.3k
      log_debug ("%s: close fd/handle %d\n", a->fname, FD_DBG (f));
699
16.3k
    if (!a->keep_open)
700
16.3k
      fd_cache_close (a->no_cache ? NULL : a->fname, f);
701
16.3k
  }
702
16.3k
      xfree (a); /* We can free our context now. */
703
16.3k
    }
704
705
60.9k
  return rc;
706
60.9k
}
707
708
709
/* Similar to file_filter but using the estream system.  */
710
static int
711
file_es_filter (void *opaque, int control, iobuf_t chain, byte * buf,
712
                size_t * ret_len)
713
0
{
714
0
  file_es_filter_ctx_t *a = opaque;
715
0
  estream_t f = a->fp;
716
0
  size_t size = *ret_len;
717
0
  size_t nbytes = 0;
718
0
  int rc = 0;
719
720
0
  (void)chain; /* Not used.  */
721
722
0
  if (control == IOBUFCTRL_UNDERFLOW)
723
0
    {
724
0
      log_assert (size); /* We need a buffer.  */
725
0
      if (a->eof_seen)
726
0
  {
727
0
    rc = -1;
728
0
    *ret_len = 0;
729
0
  }
730
0
      else if (a->use_readlimit)
731
0
  {
732
0
          nbytes = 0;
733
0
          if (!a->readlimit)
734
0
      {     /* eof */
735
0
        a->eof_seen = 1;
736
0
        rc = -1;
737
0
      }
738
0
          else
739
0
            {
740
0
              if (size > a->readlimit)
741
0
                size = a->readlimit;
742
0
              rc = es_read (f, buf, size, &nbytes);
743
0
              if (rc == -1)
744
0
                {     /* error */
745
0
                  rc = gpg_error_from_syserror ();
746
0
                  log_error ("%s: read error: %s\n", a->fname,strerror (errno));
747
0
                }
748
0
              else if (!nbytes)
749
0
                {     /* eof */
750
0
                  a->eof_seen = 1;
751
0
                  rc = -1;
752
0
                }
753
0
              else
754
0
                a->readlimit -= nbytes;
755
0
            }
756
0
    *ret_len = nbytes;
757
0
  }
758
0
      else
759
0
  {
760
0
          nbytes = 0;
761
0
          rc = es_read (f, buf, size, &nbytes);
762
0
    if (rc == -1)
763
0
      {     /* error */
764
0
              rc = gpg_error_from_syserror ();
765
0
              log_error ("%s: read error: %s\n", a->fname, strerror (errno));
766
0
      }
767
0
    else if (!nbytes)
768
0
      {     /* eof */
769
0
        a->eof_seen = 1;
770
0
        rc = -1;
771
0
      }
772
0
    *ret_len = nbytes;
773
0
  }
774
0
    }
775
0
  else if (control == IOBUFCTRL_FLUSH)
776
0
    {
777
0
      if (size)
778
0
  {
779
0
    byte *p = buf;
780
0
    size_t nwritten;
781
782
0
    nbytes = size;
783
0
    do
784
0
      {
785
0
              nwritten = 0;
786
0
              if (es_write (f, p, nbytes, &nwritten))
787
0
                {
788
0
                  rc = gpg_error_from_syserror ();
789
0
                  log_error ("%s: write error: %s\n",
790
0
                             a->fname, strerror (errno));
791
0
                  break;
792
0
                }
793
0
              p += nwritten;
794
0
              nbytes -= nwritten;
795
0
      }
796
0
    while (nbytes);
797
0
    nbytes = p - buf;
798
0
  }
799
0
      *ret_len = nbytes;
800
0
    }
801
0
  else if (control == IOBUFCTRL_INIT)
802
0
    {
803
0
      a->eof_seen = 0;
804
0
      a->no_cache = 0;
805
0
    }
806
0
  else if (control == IOBUFCTRL_DESC)
807
0
    {
808
0
      mem2str (buf, "estream_filter", *ret_len);
809
0
    }
810
0
  else if (control == IOBUFCTRL_FREE)
811
0
    {
812
0
      if (f != es_stdin && f != es_stdout)
813
0
  {
814
0
    if (DBG_IOBUF)
815
0
      log_debug ("%s: es_fclose %p\n", a->fname, f);
816
0
    if (!a->keep_open)
817
0
      es_fclose (f);
818
0
  }
819
0
      f = NULL;
820
0
      xfree (a); /* We can free our context now. */
821
0
    }
822
823
0
  return rc;
824
0
}
825
826
827
#ifdef HAVE_W32_SYSTEM
828
/* Because network sockets are special objects under Lose32 we have to
829
   use a dedicated filter for them. */
830
static int
831
sock_filter (void *opaque, int control, iobuf_t chain, byte * buf,
832
       size_t * ret_len)
833
{
834
  sock_filter_ctx_t *a = opaque;
835
  size_t size = *ret_len;
836
  size_t nbytes = 0;
837
  int rc = 0;
838
839
  (void)chain;
840
841
  if (control == IOBUFCTRL_UNDERFLOW)
842
    {
843
      log_assert (size);    /* need a buffer */
844
      if (a->eof_seen)
845
  {
846
    rc = -1;
847
    *ret_len = 0;
848
  }
849
      else
850
  {
851
    int nread;
852
853
    nread = recv (a->sock, buf, size, 0);
854
    if (nread == SOCKET_ERROR)
855
      {
856
        int ec = (int) WSAGetLastError ();
857
        rc = gpg_error_from_errno (ec);
858
        log_error ("socket read error: ec=%d\n", ec);
859
      }
860
    else if (!nread)
861
      {
862
        a->eof_seen = 1;
863
        rc = -1;
864
      }
865
    else
866
      {
867
        nbytes = nread;
868
      }
869
    *ret_len = nbytes;
870
  }
871
    }
872
  else if (control == IOBUFCTRL_FLUSH)
873
    {
874
      if (size)
875
  {
876
    byte *p = buf;
877
    int n;
878
879
    nbytes = size;
880
    do
881
      {
882
        n = send (a->sock, p, nbytes, 0);
883
        if (n == SOCKET_ERROR)
884
    {
885
      int ec = (int) WSAGetLastError ();
886
      gnupg_w32_set_errno (ec);
887
      rc = gpg_error_from_syserror ();
888
      log_error ("socket write error: ec=%d\n", ec);
889
      break;
890
    }
891
        p += n;
892
        nbytes -= n;
893
      }
894
    while (nbytes);
895
    nbytes = p - buf;
896
  }
897
      *ret_len = nbytes;
898
    }
899
  else if (control == IOBUFCTRL_INIT)
900
    {
901
      a->eof_seen = 0;
902
      a->keep_open = 0;
903
      a->no_cache = 0;
904
    }
905
  else if (control == IOBUFCTRL_DESC)
906
    {
907
      mem2str (buf, "sock_filter", *ret_len);
908
    }
909
  else if (control == IOBUFCTRL_FREE)
910
    {
911
      if (!a->keep_open)
912
  closesocket (a->sock);
913
      xfree (a);    /* we can free our context now */
914
    }
915
  return rc;
916
}
917
#endif /*HAVE_W32_SYSTEM*/
918
919
/****************
920
 * This is used to implement the block write mode.
921
 * Block reading is done on a byte by byte basis in readbyte(),
922
 * without a filter
923
 */
924
static int
925
block_filter (void *opaque, int control, iobuf_t chain, byte * buffer,
926
        size_t * ret_len)
927
307k
{
928
307k
  block_filter_ctx_t *a = opaque;
929
307k
  char *buf = (char *)buffer;
930
307k
  size_t size = *ret_len;
931
307k
  int c, needed, rc = 0;
932
307k
  char *p;
933
934
307k
  if (control == IOBUFCTRL_UNDERFLOW)
935
153k
    {
936
153k
      size_t n = 0;
937
938
153k
      p = buf;
939
153k
      log_assert (size); /* need a buffer */
940
153k
      if (a->eof)    /* don't read any further */
941
75.9k
  rc = -1;
942
299k
      while (!rc && size)
943
222k
  {
944
222k
    if (!a->size)
945
221k
      {     /* get the length bytes */
946
221k
        if (a->partial == 2)
947
62.8k
    {
948
62.8k
      a->eof = 1;
949
62.8k
      if (!n)
950
0
        rc = -1;
951
62.8k
      break;
952
62.8k
    }
953
158k
        else if (a->partial)
954
158k
    {
955
      /* These OpenPGP introduced huffman like encoded length
956
       * bytes are really a mess :-( */
957
158k
      if (a->first_c)
958
77.1k
        {
959
77.1k
          c = a->first_c;
960
77.1k
          a->first_c = 0;
961
77.1k
        }
962
81.6k
      else if ((c = iobuf_get (chain)) == -1)
963
589
        {
964
589
          log_error ("block_filter: 1st length byte missing\n");
965
589
          rc = GPG_ERR_BAD_DATA;
966
589
          break;
967
589
        }
968
158k
      if (c < 192)
969
75.8k
        {
970
75.8k
          a->size = c;
971
75.8k
          a->partial = 2;
972
75.8k
          if (!a->size)
973
12.9k
      {
974
12.9k
        a->eof = 1;
975
12.9k
        if (!n)
976
0
          rc = -1;
977
12.9k
        break;
978
12.9k
      }
979
75.8k
        }
980
82.4k
      else if (c < 224)
981
208
        {
982
208
          a->size = (c - 192) * 256;
983
208
          if ((c = iobuf_get (chain)) == -1)
984
13
      {
985
13
        log_error
986
13
          ("block_filter: 2nd length byte missing\n");
987
13
        rc = GPG_ERR_BAD_DATA;
988
13
        break;
989
13
      }
990
195
          a->size += c + 192;
991
195
          a->partial = 2;
992
195
          if (!a->size)
993
0
      {
994
0
        a->eof = 1;
995
0
        if (!n)
996
0
          rc = -1;
997
0
        break;
998
0
      }
999
195
        }
1000
82.2k
      else if (c == 255)
1001
293
        {
1002
293
                      size_t len = 0;
1003
293
                      int i;
1004
1005
1.34k
                      for (i = 0; i < 4; i++)
1006
1.09k
                        if ((c = iobuf_get (chain)) == -1)
1007
42
                          break;
1008
1.04k
                        else
1009
1.04k
                          len = ((len << 8) | c);
1010
1011
293
                      if (i < 4)
1012
42
      {
1013
42
        log_error ("block_filter: invalid 4 byte length\n");
1014
42
        rc = GPG_ERR_BAD_DATA;
1015
42
        break;
1016
42
      }
1017
251
                      a->size = len;
1018
251
                      a->partial = 2;
1019
251
                      if (!a->size)
1020
172
                        {
1021
172
                          a->eof = 1;
1022
172
                          if (!n)
1023
0
                            rc = -1;
1024
172
                          break;
1025
172
      }
1026
251
        }
1027
81.9k
      else
1028
81.9k
        { /* Next partial body length. */
1029
81.9k
          a->size = 1 << (c & 0x1f);
1030
81.9k
        }
1031
      /*  log_debug("partial: ctx=%p c=%02x size=%u\n", a, c, a->size); */
1032
158k
    }
1033
0
        else
1034
0
    BUG ();
1035
221k
      }
1036
1037
291k
    while (!rc && size && a->size)
1038
145k
      {
1039
145k
        needed = size < a->size ? size : a->size;
1040
145k
        c = iobuf_read (chain, p, needed);
1041
145k
        if (c < needed)
1042
586
    {
1043
586
      if (c == -1)
1044
164
        c = 0;
1045
586
      log_error
1046
586
        ("block_filter %p: read error (size=%lu,a->size=%lu)\n",
1047
586
         a, (ulong) size + c, (ulong) a->size + c);
1048
586
      rc = GPG_ERR_BAD_DATA;
1049
586
    }
1050
144k
        else
1051
144k
    {
1052
144k
      size -= c;
1053
144k
      a->size -= c;
1054
144k
      p += c;
1055
144k
      n += c;
1056
144k
    }
1057
145k
      }
1058
145k
  }
1059
153k
      *ret_len = n;
1060
153k
    }
1061
154k
  else if (control == IOBUFCTRL_FLUSH)
1062
0
    {
1063
0
      if (a->partial)
1064
0
  {     /* the complicated openpgp scheme */
1065
0
    size_t blen, n, nbytes = size + a->buflen;
1066
1067
0
    log_assert (a->buflen <= OP_MIN_PARTIAL_CHUNK);
1068
0
    if (nbytes < OP_MIN_PARTIAL_CHUNK)
1069
0
      {
1070
        /* not enough to write a partial block out; so we store it */
1071
0
        if (!a->buffer)
1072
0
    a->buffer = xmalloc (OP_MIN_PARTIAL_CHUNK);
1073
0
        memcpy (a->buffer + a->buflen, buf, size);
1074
0
        a->buflen += size;
1075
0
      }
1076
0
    else
1077
0
      {     /* okay, we can write out something */
1078
        /* do this in a loop to use the most efficient block lengths */
1079
0
        p = buf;
1080
0
        do
1081
0
    {
1082
      /* find the best matching block length - this is limited
1083
       * by the size of the internal buffering */
1084
0
      for (blen = OP_MIN_PARTIAL_CHUNK * 2,
1085
0
           c = OP_MIN_PARTIAL_CHUNK_2POW + 1; blen <= nbytes;
1086
0
           blen *= 2, c++)
1087
0
        ;
1088
0
      blen /= 2;
1089
0
      c--;
1090
      /* write the partial length header */
1091
0
      log_assert (c <= 0x1f); /*;-) */
1092
0
      c |= 0xe0;
1093
0
      iobuf_put (chain, c);
1094
0
      if ((n = a->buflen))
1095
0
        {   /* write stuff from the buffer */
1096
0
          log_assert (n == OP_MIN_PARTIAL_CHUNK);
1097
0
          if (iobuf_write (chain, a->buffer, n))
1098
0
      rc = gpg_error_from_syserror ();
1099
0
          a->buflen = 0;
1100
0
          nbytes -= n;
1101
0
        }
1102
0
      if ((n = nbytes) > blen)
1103
0
        n = blen;
1104
0
      if (n && iobuf_write (chain, p, n))
1105
0
        rc = gpg_error_from_syserror ();
1106
0
      p += n;
1107
0
      nbytes -= n;
1108
0
    }
1109
0
        while (!rc && nbytes >= OP_MIN_PARTIAL_CHUNK);
1110
        /* store the rest in the buffer */
1111
0
        if (!rc && nbytes)
1112
0
    {
1113
0
      log_assert (!a->buflen);
1114
0
      log_assert (nbytes < OP_MIN_PARTIAL_CHUNK);
1115
0
      if (!a->buffer)
1116
0
        a->buffer = xmalloc (OP_MIN_PARTIAL_CHUNK);
1117
0
      memcpy (a->buffer, p, nbytes);
1118
0
      a->buflen = nbytes;
1119
0
    }
1120
0
      }
1121
0
  }
1122
0
      else
1123
0
  BUG ();
1124
0
    }
1125
154k
  else if (control == IOBUFCTRL_INIT)
1126
77.1k
    {
1127
77.1k
      if (DBG_IOBUF)
1128
77.1k
  log_debug ("init block_filter %p\n", a);
1129
77.1k
      if (a->partial)
1130
77.1k
  a->count = 0;
1131
0
      else if (a->use == IOBUF_INPUT)
1132
0
  a->count = a->size = 0;
1133
0
      else
1134
0
  a->count = a->size; /* force first length bytes */
1135
77.1k
      a->eof = 0;
1136
77.1k
      a->buffer = NULL;
1137
77.1k
      a->buflen = 0;
1138
77.1k
    }
1139
77.1k
  else if (control == IOBUFCTRL_DESC)
1140
0
    {
1141
0
      mem2str (buf, "block_filter", *ret_len);
1142
0
    }
1143
77.1k
  else if (control == IOBUFCTRL_FREE)
1144
77.1k
    {
1145
77.1k
      if (a->use == IOBUF_OUTPUT)
1146
0
  {     /* write the end markers */
1147
0
    if (a->partial)
1148
0
      {
1149
0
        u32 len;
1150
        /* write out the remaining bytes without a partial header
1151
         * the length of this header may be 0 - but if it is
1152
         * the first block we are not allowed to use a partial header
1153
         * and frankly we can't do so, because this length must be
1154
         * a power of 2. This is _really_ complicated because we
1155
         * have to check the possible length of a packet prior
1156
         * to it's creation: a chain of filters becomes complicated
1157
         * and we need a lot of code to handle compressed packets etc.
1158
         *   :-(((((((
1159
         */
1160
        /* construct header */
1161
0
        len = a->buflen;
1162
        /*log_debug("partial: remaining length=%u\n", len ); */
1163
0
        if (len < 192)
1164
0
    rc = iobuf_put (chain, len);
1165
0
        else if (len < 8384)
1166
0
    {
1167
0
      if (!(rc = iobuf_put (chain, ((len - 192) / 256) + 192)))
1168
0
        rc = iobuf_put (chain, ((len - 192) % 256));
1169
0
    }
1170
0
        else
1171
0
    {   /* use a 4 byte header */
1172
0
      if (!(rc = iobuf_put (chain, 0xff)))
1173
0
        if (!(rc = iobuf_put (chain, (len >> 24) & 0xff)))
1174
0
          if (!(rc = iobuf_put (chain, (len >> 16) & 0xff)))
1175
0
      if (!(rc = iobuf_put (chain, (len >> 8) & 0xff)))
1176
0
        rc = iobuf_put (chain, len & 0xff);
1177
0
    }
1178
0
        if (!rc && len)
1179
0
    rc = iobuf_write (chain, a->buffer, len);
1180
0
        if (rc)
1181
0
    {
1182
0
      log_error ("block_filter: write error: %s\n",
1183
0
           strerror (errno));
1184
0
      rc = gpg_error_from_syserror ();
1185
0
    }
1186
0
        xfree (a->buffer);
1187
0
        a->buffer = NULL;
1188
0
        a->buflen = 0;
1189
0
      }
1190
0
    else
1191
0
      BUG ();
1192
0
  }
1193
77.1k
      else if (a->size)
1194
601
  {
1195
601
    log_error ("block_filter: pending bytes!\n");
1196
601
  }
1197
77.1k
      if (DBG_IOBUF)
1198
77.1k
  log_debug ("free block_filter %p\n", a);
1199
77.1k
      xfree (a);   /* we can free our context now */
1200
77.1k
    }
1201
1202
307k
  return rc;
1203
307k
}
1204
1205
1206
/* Change the default size for all IOBUFs to KILOBYTE.  This needs to
1207
 * be called before any iobufs are used and can only be used once.
1208
 * Returns the current value.  Using 0 has no effect except for
1209
 * returning the current value.  */
1210
unsigned int
1211
iobuf_set_buffer_size (unsigned int kilobyte)
1212
979
{
1213
979
  static int used;
1214
1215
979
  if (!used && kilobyte)
1216
0
    {
1217
0
      if (kilobyte < 4)
1218
0
        kilobyte = 4;
1219
0
      else if (kilobyte > 16*1024)
1220
0
        kilobyte = 16*1024;
1221
1222
0
      iobuf_buffer_size = kilobyte * 1024;
1223
0
      used = 1;
1224
0
    }
1225
979
  return iobuf_buffer_size / 1024;
1226
979
}
1227
1228
1229
0
#define MAX_IOBUF_DESC 32
1230
/*
1231
 * Fill the buffer by the description of iobuf A.
1232
 * The buffer size should be MAX_IOBUF_DESC (or larger).
1233
 * Returns BUF as (const char *).
1234
 */
1235
static const char *
1236
iobuf_desc (iobuf_t a, byte *buf)
1237
0
{
1238
0
  size_t len = MAX_IOBUF_DESC;
1239
1240
0
  if (! a || ! a->filter)
1241
0
    memcpy (buf, "?", 2);
1242
0
  else
1243
0
    a->filter (a->filter_ov, IOBUFCTRL_DESC, NULL, buf, &len);
1244
1245
0
  return buf;
1246
0
}
1247
1248
static void
1249
print_chain (iobuf_t a)
1250
78.4k
{
1251
78.4k
  if (!DBG_IOBUF)
1252
78.4k
    return;
1253
0
  for (; a; a = a->chain)
1254
0
    {
1255
0
      byte desc[MAX_IOBUF_DESC];
1256
1257
0
      log_debug ("iobuf chain: %d.%d '%s' filter_eof=%d start=%d len=%d\n",
1258
0
     a->no, a->subno, iobuf_desc (a, desc), a->filter_eof,
1259
0
     (int) a->d.start, (int) a->d.len);
1260
0
    }
1261
0
}
1262
1263
int
1264
iobuf_print_chain (iobuf_t a)
1265
0
{
1266
0
  print_chain (a);
1267
0
  return 0;
1268
0
}
1269
1270
iobuf_t
1271
iobuf_alloc (int use, size_t bufsize)
1272
16.9k
{
1273
16.9k
  iobuf_t a;
1274
16.9k
  static int number = 0;
1275
1276
16.9k
  log_assert (use == IOBUF_INPUT || use == IOBUF_INPUT_TEMP
1277
16.9k
              || use == IOBUF_OUTPUT || use == IOBUF_OUTPUT_TEMP);
1278
16.9k
  if (bufsize == 0)
1279
0
    {
1280
0
      log_bug ("iobuf_alloc() passed a bufsize of 0!\n");
1281
0
      bufsize = iobuf_buffer_size;
1282
0
    }
1283
1284
16.9k
  a = xcalloc (1, sizeof *a);
1285
16.9k
  a->use = use;
1286
16.9k
  a->d.buf = xmalloc (bufsize);
1287
16.9k
  a->d.size = bufsize;
1288
16.9k
  a->e_d.buf = NULL;
1289
16.9k
  a->e_d.len = 0;
1290
16.9k
  a->e_d.used = 0;
1291
16.9k
  a->e_d.preferred = 0;
1292
16.9k
  a->no = ++number;
1293
16.9k
  a->subno = 0;
1294
16.9k
  a->real_fname = NULL;
1295
16.9k
  return a;
1296
16.9k
}
1297
1298
int
1299
iobuf_close (iobuf_t a)
1300
725k
{
1301
725k
  iobuf_t a_chain;
1302
725k
  size_t dummy_len = 0;
1303
725k
  int rc = 0;
1304
1305
744k
  for (; a; a = a_chain)
1306
19.2k
    {
1307
19.2k
      byte desc[MAX_IOBUF_DESC];
1308
19.2k
      int rc2 = 0;
1309
1310
19.2k
      a_chain = a->chain;
1311
1312
19.2k
      if (a->use == IOBUF_OUTPUT && (rc = filter_flush (a)))
1313
19.2k
  log_error ("filter_flush failed on close: %s\n", gpg_strerror (rc));
1314
1315
19.2k
      if (DBG_IOBUF)
1316
19.2k
  log_debug ("iobuf-%d.%d: close '%s'\n",
1317
0
       a->no, a->subno, iobuf_desc (a, desc));
1318
1319
19.2k
      if (a->filter && (rc2 = a->filter (a->filter_ov, IOBUFCTRL_FREE,
1320
6.79k
           a->chain, NULL, &dummy_len)))
1321
19.2k
  log_error ("IOBUFCTRL_FREE failed on close: %s\n", gpg_strerror (rc));
1322
19.2k
      if (! rc && rc2)
1323
  /* Whoops!  An error occurred.  Save it in RC if we haven't
1324
     already recorded an error.  */
1325
0
  rc = rc2;
1326
1327
19.2k
      xfree (a->real_fname);
1328
19.2k
      if (a->d.buf)
1329
19.2k
  {
1330
19.2k
    memset (a->d.buf, 0, a->d.size);  /* erase the buffer */
1331
19.2k
    xfree (a->d.buf);
1332
19.2k
  }
1333
19.2k
      xfree (a);
1334
19.2k
    }
1335
725k
  return rc;
1336
725k
}
1337
1338
int
1339
iobuf_cancel (iobuf_t a)
1340
0
{
1341
0
  const char *s;
1342
0
  iobuf_t a2;
1343
0
  int rc;
1344
#if defined(HAVE_W32_SYSTEM) || defined(__riscos__)
1345
  char *remove_name = NULL;
1346
#endif
1347
1348
0
  if (a && a->use == IOBUF_OUTPUT)
1349
0
    {
1350
0
      s = iobuf_get_real_fname (a);
1351
0
      if (s && *s)
1352
0
  {
1353
#if defined(HAVE_W32_SYSTEM) || defined(__riscos__)
1354
    remove_name = xstrdup (s);
1355
#else
1356
0
    remove (s);
1357
0
#endif
1358
0
  }
1359
0
    }
1360
1361
  /* send a cancel message to all filters */
1362
0
  for (a2 = a; a2; a2 = a2->chain)
1363
0
    {
1364
0
      size_t dummy = 0;
1365
0
      if (a2->filter)
1366
0
  a2->filter (a2->filter_ov, IOBUFCTRL_CANCEL, a2->chain, NULL, &dummy);
1367
0
    }
1368
1369
0
  rc = iobuf_close (a);
1370
#if defined(HAVE_W32_SYSTEM) || defined(__riscos__)
1371
  if (remove_name)
1372
    {
1373
      /* Argg, MSDOS does not allow removing open files.  So
1374
       * we have to do it here */
1375
      gnupg_remove (remove_name);
1376
1377
      xfree (remove_name);
1378
    }
1379
#endif
1380
0
  return rc;
1381
0
}
1382
1383
1384
iobuf_t
1385
iobuf_temp (void)
1386
0
{
1387
0
  return iobuf_alloc (IOBUF_OUTPUT_TEMP, iobuf_buffer_size);
1388
0
}
1389
1390
iobuf_t
1391
iobuf_temp_with_content (const char *buffer, size_t length)
1392
607
{
1393
607
  iobuf_t a;
1394
607
  int i;
1395
1396
607
  a = iobuf_alloc (IOBUF_INPUT_TEMP, length);
1397
607
  log_assert (length == a->d.size);
1398
  /* memcpy (a->d.buf, buffer, length); */
1399
43.0k
  for (i=0; i < length; i++)
1400
42.4k
    a->d.buf[i] = buffer[i];
1401
607
  a->d.len = length;
1402
1403
607
  return a;
1404
607
}
1405
1406
1407
int
1408
iobuf_is_pipe_filename (const char *fname)
1409
11.2k
{
1410
11.2k
  if (!fname || (*fname=='-' && !fname[1]) )
1411
833
    return 1;
1412
10.3k
  return gnupg_check_special_filename (fname) != GNUPG_INVALID_FD;
1413
11.2k
}
1414
1415
1416
static iobuf_t
1417
do_open (const char *fname, int special_filenames,
1418
   int use, const char *opentype, int mode700)
1419
16.3k
{
1420
16.3k
  iobuf_t a;
1421
16.3k
  gnupg_fd_t fp;
1422
16.3k
  file_filter_ctx_t *fcx;
1423
16.3k
  size_t len = 0;
1424
16.3k
  int print_only = 0;
1425
16.3k
  gnupg_fd_t fd;
1426
16.3k
  byte desc[MAX_IOBUF_DESC];
1427
1428
16.3k
  log_assert (use == IOBUF_INPUT || use == IOBUF_OUTPUT);
1429
1430
16.3k
  if (special_filenames
1431
      /* NULL or '-'.  */
1432
16.3k
      && (!fname || (*fname == '-' && !fname[1])))
1433
0
    {
1434
0
      if (use == IOBUF_INPUT)
1435
0
  {
1436
0
    fp = FD_FOR_STDIN;
1437
0
    fname = "[stdin]";
1438
0
  }
1439
0
      else
1440
0
  {
1441
0
    fp = FD_FOR_STDOUT;
1442
0
    fname = "[stdout]";
1443
0
  }
1444
0
      print_only = 1;
1445
0
    }
1446
16.3k
  else if (!fname)
1447
0
    return NULL;
1448
16.3k
  else if (special_filenames
1449
16.3k
           && (fd = gnupg_check_special_filename (fname)) != GNUPG_INVALID_FD)
1450
0
    return do_iobuf_fdopen (fd, opentype, 0);
1451
16.3k
  else
1452
16.3k
    {
1453
16.3k
      if (use == IOBUF_INPUT)
1454
16.3k
  fp = fd_cache_open (fname, opentype);
1455
1
      else
1456
1
  fp = direct_open (fname, opentype, mode700);
1457
16.3k
      if (fp == GNUPG_INVALID_FD)
1458
0
  return NULL;
1459
16.3k
    }
1460
1461
16.3k
  a = iobuf_alloc (use, iobuf_buffer_size);
1462
16.3k
  fcx = xmalloc (sizeof *fcx + strlen (fname));
1463
16.3k
  fcx->fp = fp;
1464
16.3k
  fcx->print_only_name = print_only;
1465
16.3k
  strcpy (fcx->fname, fname);
1466
16.3k
  if (!print_only)
1467
16.3k
    a->real_fname = xstrdup (fname);
1468
16.3k
  a->filter = file_filter;
1469
16.3k
  a->filter_ov = fcx;
1470
16.3k
  file_filter (fcx, IOBUFCTRL_INIT, NULL, NULL, &len);
1471
16.3k
  if (DBG_IOBUF)
1472
16.3k
    log_debug ("iobuf-%d.%d: open '%s' desc=%s fd=%d\n",
1473
0
         a->no, a->subno, fname, iobuf_desc (a, desc),
1474
0
               FD_DBG (fcx->fp));
1475
1476
16.3k
  return a;
1477
16.3k
}
1478
1479
iobuf_t
1480
iobuf_open (const char *fname)
1481
16.3k
{
1482
16.3k
  return do_open (fname, 1, IOBUF_INPUT, "rb", 0);
1483
16.3k
}
1484
1485
iobuf_t
1486
iobuf_create (const char *fname, int mode700)
1487
1
{
1488
1
  return do_open (fname, 1, IOBUF_OUTPUT, "wb", mode700);
1489
1
}
1490
1491
iobuf_t
1492
iobuf_openrw (const char *fname)
1493
0
{
1494
0
  return do_open (fname, 0, IOBUF_OUTPUT, "r+b", 0);
1495
0
}
1496
1497
1498
static iobuf_t
1499
do_iobuf_fdopen (gnupg_fd_t fp, const char *mode, int keep_open)
1500
0
{
1501
0
  iobuf_t a;
1502
0
  file_filter_ctx_t *fcx;
1503
0
  size_t len = 0;
1504
1505
0
  a = iobuf_alloc (strchr (mode, 'w') ? IOBUF_OUTPUT : IOBUF_INPUT,
1506
0
       iobuf_buffer_size);
1507
0
  fcx = xmalloc (sizeof *fcx + 20);
1508
0
  fcx->fp = fp;
1509
0
  fcx->print_only_name = 1;
1510
0
  fcx->keep_open = keep_open;
1511
0
  sprintf (fcx->fname, "[fd %d]", FD_DBG (fp));
1512
0
  a->filter = file_filter;
1513
0
  a->filter_ov = fcx;
1514
0
  file_filter (fcx, IOBUFCTRL_INIT, NULL, NULL, &len);
1515
0
  if (DBG_IOBUF)
1516
0
    log_debug ("iobuf-%d.%d: fdopen%s '%s'\n",
1517
0
               a->no, a->subno, keep_open? "_nc":"", fcx->fname);
1518
0
  iobuf_ioctl (a, IOBUF_IOCTL_NO_CACHE, 1, NULL);
1519
0
  return a;
1520
0
}
1521
1522
1523
iobuf_t
1524
iobuf_fdopen (gnupg_fd_t fp, const char *mode)
1525
0
{
1526
0
  return do_iobuf_fdopen (fp, mode, 0);
1527
0
}
1528
1529
iobuf_t
1530
iobuf_fdopen_nc (gnupg_fd_t fp, const char *mode)
1531
0
{
1532
0
  return do_iobuf_fdopen (fp, mode, 1);
1533
0
}
1534
1535
1536
iobuf_t
1537
iobuf_esopen (estream_t estream, const char *mode, int keep_open,
1538
              size_t readlimit)
1539
0
{
1540
0
  iobuf_t a;
1541
0
  file_es_filter_ctx_t *fcx;
1542
0
  size_t len = 0;
1543
1544
0
  a = iobuf_alloc (strchr (mode, 'w') ? IOBUF_OUTPUT : IOBUF_INPUT,
1545
0
       iobuf_buffer_size);
1546
0
  fcx = xtrymalloc (sizeof *fcx + 30);
1547
0
  fcx->fp = estream;
1548
0
  fcx->print_only_name = 1;
1549
0
  fcx->keep_open = keep_open;
1550
0
  fcx->readlimit = readlimit;
1551
0
  fcx->use_readlimit = !!readlimit;
1552
0
  snprintf (fcx->fname, 30, "[fd %p]", estream);
1553
0
  a->filter = file_es_filter;
1554
0
  a->filter_ov = fcx;
1555
0
  file_es_filter (fcx, IOBUFCTRL_INIT, NULL, NULL, &len);
1556
0
  if (DBG_IOBUF)
1557
0
    log_debug ("iobuf-%d.%d: esopen%s '%s'\n",
1558
0
               a->no, a->subno, keep_open? "_nc":"", fcx->fname);
1559
0
  return a;
1560
0
}
1561
1562
1563
iobuf_t
1564
iobuf_sockopen (int fd, const char *mode)
1565
0
{
1566
0
  iobuf_t a;
1567
#ifdef HAVE_W32_SYSTEM
1568
  sock_filter_ctx_t *scx;
1569
  size_t len;
1570
1571
  a = iobuf_alloc (strchr (mode, 'w') ? IOBUF_OUTPUT : IOBUF_INPUT,
1572
       iobuf_buffer_size);
1573
  scx = xmalloc (sizeof *scx + 25);
1574
  scx->sock = fd;
1575
  scx->print_only_name = 1;
1576
  sprintf (scx->fname, "[sock %d]", fd);
1577
  a->filter = sock_filter;
1578
  a->filter_ov = scx;
1579
  sock_filter (scx, IOBUFCTRL_INIT, NULL, NULL, &len);
1580
  if (DBG_IOBUF)
1581
    log_debug ("iobuf-%d.%d: sockopen '%s'\n", a->no, a->subno, scx->fname);
1582
  iobuf_ioctl (a, IOBUF_IOCTL_NO_CACHE, 1, NULL);
1583
#else
1584
0
  a = do_iobuf_fdopen (fd, mode, 0);
1585
0
#endif
1586
0
  return a;
1587
0
}
1588
1589
int
1590
iobuf_ioctl (iobuf_t a, iobuf_ioctl_t cmd, int intval, void *ptrval)
1591
8.18k
{
1592
8.18k
  byte desc[MAX_IOBUF_DESC];
1593
1594
8.18k
  if (cmd == IOBUF_IOCTL_KEEP_OPEN)
1595
0
    {
1596
      /* Keep system filepointer/descriptor open.  This was used in
1597
         the past by http.c; this ioctl is not directly used
1598
         anymore.  */
1599
0
      if (DBG_IOBUF)
1600
0
  log_debug ("iobuf-%d.%d: ioctl '%s' keep_open=%d\n",
1601
0
       a ? a->no : -1, a ? a->subno : -1, iobuf_desc (a, desc),
1602
0
       intval);
1603
0
      for (; a; a = a->chain)
1604
0
  if (!a->chain && a->filter == file_filter)
1605
0
    {
1606
0
      file_filter_ctx_t *b = a->filter_ov;
1607
0
      b->keep_open = intval;
1608
0
      return 0;
1609
0
    }
1610
#ifdef HAVE_W32_SYSTEM
1611
  else if (!a->chain && a->filter == sock_filter)
1612
    {
1613
      sock_filter_ctx_t *b = a->filter_ov;
1614
      b->keep_open = intval;
1615
      return 0;
1616
    }
1617
#endif
1618
0
    }
1619
8.18k
  else if (cmd == IOBUF_IOCTL_INVALIDATE_CACHE)
1620
1
    {
1621
1
      if (DBG_IOBUF)
1622
1
  log_debug ("iobuf-*.*: ioctl '%s' invalidate\n",
1623
0
       ptrval ? (char *) ptrval : "?");
1624
1
      if (!a && !intval && ptrval)
1625
1
  {
1626
1
    if (fd_cache_invalidate (ptrval))
1627
0
            return -1;
1628
1
    return 0;
1629
1
  }
1630
1
    }
1631
8.18k
  else if (cmd == IOBUF_IOCTL_NO_CACHE)
1632
8.18k
    {
1633
8.18k
      if (DBG_IOBUF)
1634
8.18k
  log_debug ("iobuf-%d.%d: ioctl '%s' no_cache=%d\n",
1635
0
       a ? a->no : -1, a ? a->subno : -1, iobuf_desc (a, desc),
1636
0
       intval);
1637
8.18k
      for (; a; a = a->chain)
1638
8.18k
  if (!a->chain && a->filter == file_filter)
1639
8.18k
    {
1640
8.18k
      file_filter_ctx_t *b = a->filter_ov;
1641
8.18k
      b->no_cache = intval;
1642
8.18k
      return 0;
1643
8.18k
    }
1644
#ifdef HAVE_W32_SYSTEM
1645
  else if (!a->chain && a->filter == sock_filter)
1646
    {
1647
      sock_filter_ctx_t *b = a->filter_ov;
1648
      b->no_cache = intval;
1649
      return 0;
1650
    }
1651
#endif
1652
8.18k
    }
1653
0
  else if (cmd == IOBUF_IOCTL_FSYNC)
1654
0
    {
1655
      /* Do a fsync on the open fd and return any errors to the caller
1656
         of iobuf_ioctl.  Note that we work on a file name here. */
1657
0
      if (DBG_IOBUF)
1658
0
        log_debug ("iobuf-*.*: ioctl '%s' fsync\n",
1659
0
                   ptrval? (const char*)ptrval:"<null>");
1660
1661
0
      if (!a && !intval && ptrval)
1662
0
        {
1663
0
          return fd_cache_synchronize (ptrval);
1664
0
        }
1665
0
    }
1666
0
  else if (cmd == IOBUF_IOCTL_PEEK)
1667
0
    {
1668
      /* Peek at a justed opened file.  Use this only directly after a
1669
       * file has been opened for reading.  Don't use it after you did
1670
       * a seek.  This works only if just file filter has been
1671
       * pushed.  Expects a buffer with size INTVAL at PTRVAL and returns
1672
       * the number of bytes put into the buffer.  */
1673
0
      if (DBG_IOBUF)
1674
0
  log_debug ("iobuf-%d.%d: ioctl '%s' peek\n",
1675
0
       a ? a->no : -1, a ? a->subno : -1, iobuf_desc (a, desc));
1676
0
      if (a->filter == file_filter && ptrval && intval)
1677
0
        {
1678
0
          file_filter_ctx_t *fcx = a->filter_ov;
1679
0
          size_t len = intval;
1680
1681
0
          if (!file_filter (fcx, IOBUFCTRL_PEEK, NULL, ptrval, &len))
1682
0
            return (int)len;
1683
0
        }
1684
0
    }
1685
1686
1687
0
  return -1;
1688
8.18k
}
1689
1690
1691
/****************
1692
 * Register an i/o filter.
1693
 */
1694
int
1695
iobuf_push_filter (iobuf_t a,
1696
       int (*f) (void *opaque, int control,
1697
           iobuf_t chain, byte * buf, size_t * len),
1698
                   void *ov)
1699
80.7k
{
1700
80.7k
  return iobuf_push_filter2 (a, f, ov, 0);
1701
80.7k
}
1702
1703
int
1704
iobuf_push_filter2 (iobuf_t a,
1705
        int (*f) (void *opaque, int control,
1706
            iobuf_t chain, byte * buf, size_t * len),
1707
        void *ov, int rel_ov)
1708
80.7k
{
1709
80.7k
  iobuf_t b;
1710
80.7k
  size_t dummy_len = 0;
1711
80.7k
  int rc = 0;
1712
1713
80.7k
  if (a->use == IOBUF_OUTPUT && (rc = filter_flush (a)))
1714
0
    return rc;
1715
1716
80.7k
  if (a->subno >= MAX_NESTING_FILTER)
1717
0
    {
1718
0
      log_error ("i/o filter too deeply nested - corrupted data?\n");
1719
0
      return GPG_ERR_BAD_DATA;
1720
0
    }
1721
1722
  /* We want to create a new filter and put it in front of A.  A
1723
   * simple implementation would do:
1724
   *
1725
   *    b = iobuf_alloc (...);
1726
   *    b->chain = a;
1727
   *    return a;
1728
   *
1729
   *  This is a bit problematic: A is the head of the pipeline and
1730
   *  there are potentially many pointers to it.  Requiring the caller
1731
   *  to update all of these pointers is a burden.
1732
   *
1733
   *  An alternative implementation would add a level of indirection.
1734
   *  For instance, we could use a pipeline object, which contains a
1735
   *  pointer to the first filter in the pipeline.  This is not what we
1736
   *  do either.
1737
   *
1738
   *  Instead, we allocate a new buffer (B) and copy the first filter's
1739
   *  state into that and use the initial buffer (A) for the new
1740
   *  filter.  One limitation of this approach is that it is not
1741
   *  practical to maintain a pointer to a specific filter's state.
1742
   *
1743
   *  Before:
1744
   *
1745
   *        A
1746
   *        |
1747
   *        v 0x100               0x200
1748
   *        +----------+          +----------+
1749
   *        | filter x |--------->| filter y |---->....
1750
   *        +----------+          +----------+
1751
   *
1752
   *  After:           B
1753
   *                   |
1754
   *                   v 0x300
1755
   *                   +----------+
1756
   *        A          | filter x |
1757
   *        |          +----------+
1758
   *        v 0x100    ^          v 0x200
1759
   *        +----------+          +----------+
1760
   *        | filter w |          | filter y |---->....
1761
   *        +----------+          +----------+
1762
   *
1763
   *  Note: filter x's address changed from 0x100 to 0x300, but A still
1764
   *  points to the head of the pipeline.
1765
   */
1766
1767
80.7k
  b = xmalloc (sizeof *b);
1768
80.7k
  memcpy (b, a, sizeof *b);
1769
  /* fixme: it is stupid to keep a copy of the name at every level
1770
   * but we need the name somewhere because the name known by file_filter
1771
   * may have been released when we need the name of the file */
1772
80.7k
  b->real_fname = a->real_fname ? xstrdup (a->real_fname) : NULL;
1773
  /* remove the filter stuff from the new stream */
1774
80.7k
  a->filter = NULL;
1775
80.7k
  a->filter_ov = NULL;
1776
80.7k
  a->filter_ov_owner = 0;
1777
80.7k
  a->filter_eof = 0;
1778
80.7k
  if (a->use == IOBUF_OUTPUT_TEMP)
1779
0
    {
1780
      /* A TEMP filter buffers any data sent to it; it does not
1781
       * forward any data down the pipeline.  If we add a new filter
1782
       * to the pipeline, it shouldn't also buffer data.  It should
1783
       * send it downstream to be buffered.  Thus, the correct type
1784
       * for a filter added in front of an IOBUF_OUTPUT_TEMP filter is
1785
       * IOBUF_OUPUT, not IOBUF_OUTPUT_TEMP.  */
1786
0
      a->use = IOBUF_OUTPUT;
1787
1788
      /* When pipeline is written to, the temp buffer's size is
1789
       * increased accordingly.  We don't need to allocate a 10 MB
1790
       * buffer for a non-terminal filter.  Just use the default
1791
       * size.  */
1792
0
      a->d.size = iobuf_buffer_size;
1793
0
    }
1794
80.7k
  else if (a->use == IOBUF_INPUT_TEMP)
1795
0
    {
1796
      /* Same idea as above.  */
1797
0
      a->use = IOBUF_INPUT;
1798
0
      a->d.size = iobuf_buffer_size;
1799
0
    }
1800
1801
  /* The new filter (A) gets a new buffer.
1802
   *
1803
   * If the pipeline is an output or temp pipeline, then giving the
1804
   * buffer to the new filter means that data that was written before
1805
   * the filter was pushed gets sent to the filter.  That's clearly
1806
   * wrong.
1807
   *
1808
   * If the pipeline is an input pipeline, then giving the buffer to
1809
   * the new filter (A) means that data that has read from (B), but
1810
   * not yet read from the pipeline won't be processed by the new
1811
   * filter (A)!  That's certainly not what we want.  */
1812
80.7k
  a->d.buf = xmalloc (a->d.size);
1813
80.7k
  a->d.len = 0;
1814
80.7k
  a->d.start = 0;
1815
1816
  /* Disable nlimit for the new stream.  */
1817
80.7k
  a->ntotal = b->ntotal + b->nbytes;
1818
80.7k
  a->nlimit = a->nbytes = 0;
1819
80.7k
  a->nofast = 0;
1820
  /* Make a link from the new stream to the original stream.  */
1821
80.7k
  a->chain = b;
1822
1823
  /* Setup the function on the new stream.  */
1824
80.7k
  a->filter = f;
1825
80.7k
  a->filter_ov = ov;
1826
80.7k
  a->filter_ov_owner = rel_ov;
1827
1828
80.7k
  a->subno = b->subno + 1;
1829
1830
80.7k
  if (DBG_IOBUF)
1831
0
    {
1832
0
      byte desc[MAX_IOBUF_DESC];
1833
0
      log_debug ("iobuf-%d.%d: push '%s'\n",
1834
0
     a->no, a->subno, iobuf_desc (a, desc));
1835
0
      print_chain (a);
1836
0
    }
1837
1838
  /* Now we can initialize the new function if we have one.  */
1839
80.7k
  if (a->filter && (rc = a->filter (a->filter_ov, IOBUFCTRL_INIT, a->chain,
1840
80.7k
            NULL, &dummy_len)))
1841
80.7k
    log_error ("IOBUFCTRL_INIT failed: %s\n", gpg_strerror (rc));
1842
80.7k
  return rc;
1843
80.7k
}
1844
1845
1846
/****************
1847
 * Remove an i/o filter.
1848
 */
1849
int
1850
iobuf_pop_filter (iobuf_t a, int (*f) (void *opaque, int control,
1851
                                       iobuf_t chain, byte * buf, size_t * len),
1852
                  void *ov)
1853
0
{
1854
0
  iobuf_t b;
1855
0
  size_t dummy_len = 0;
1856
0
  int rc = 0;
1857
0
  byte desc[MAX_IOBUF_DESC];
1858
1859
0
  if (DBG_IOBUF)
1860
0
    log_debug ("iobuf-%d.%d: pop '%s'\n",
1861
0
         a->no, a->subno, iobuf_desc (a, desc));
1862
0
  if (a->use == IOBUF_INPUT_TEMP || a->use == IOBUF_OUTPUT_TEMP)
1863
0
    {
1864
      /* This should be the last filter in the pipeline.  */
1865
0
      log_assert (! a->chain);
1866
0
      return 0;
1867
0
    }
1868
0
  if (!a->filter)
1869
0
    { /* (this is simple) */
1870
0
      b = a->chain;
1871
0
      log_assert (b);
1872
0
      xfree (a->d.buf);
1873
0
      xfree (a->real_fname);
1874
0
      memcpy (a, b, sizeof *a);
1875
0
      xfree (b);
1876
0
      return 0;
1877
0
    }
1878
0
  for (b = a; b; b = b->chain)
1879
0
    if (b->filter == f && (!ov || b->filter_ov == ov))
1880
0
      break;
1881
0
  if (!b)
1882
0
    log_bug ("iobuf_pop_filter(): filter function not found\n");
1883
1884
  /* Flush this stream if it is an output stream ... */
1885
0
  if (a->use == IOBUF_OUTPUT && (rc = filter_flush (b)))
1886
0
    {
1887
0
      log_error ("filter_flush failed in iobuf_pop_filter: %s\n",
1888
0
                 gpg_strerror (rc));
1889
0
      return rc;
1890
0
    }
1891
  /* and tell the filter to free it self  */
1892
0
  if (b->filter && (rc = b->filter (b->filter_ov, IOBUFCTRL_FREE, b->chain,
1893
0
            NULL, &dummy_len)))
1894
0
    {
1895
0
      log_error ("IOBUFCTRL_FREE failed: %s\n", gpg_strerror (rc));
1896
0
      return rc;
1897
0
    }
1898
0
  if (b->filter_ov && b->filter_ov_owner)
1899
0
    {
1900
0
      xfree (b->filter_ov);
1901
0
      b->filter_ov = NULL;
1902
0
    }
1903
1904
1905
  /* and see how to remove it */
1906
0
  if (a == b && !b->chain)
1907
0
    log_bug ("can't remove the last filter from the chain\n");
1908
0
  else if (a == b)
1909
0
    { /* Remove the first iobuf from the chain.
1910
       * Everything from B is copied to A.  This is save because
1911
       * a flush has been done on the to be removed entry.   */
1912
0
      b = a->chain;
1913
0
      xfree (a->d.buf);
1914
0
      xfree (a->real_fname);
1915
0
      memcpy (a, b, sizeof *a);
1916
0
      xfree (b);
1917
0
      if (DBG_IOBUF)
1918
0
  log_debug ("iobuf-%d.%d: popped filter\n", a->no, a->subno);
1919
0
    }
1920
0
  else if (!b->chain)
1921
0
    { /* Remove the last iobuf from the chain.  */
1922
0
      log_bug ("Ohh jeee, trying to remove a head filter\n");
1923
0
    }
1924
0
  else
1925
0
    { /* Remove an intermediate iobuf from the chain.  */
1926
0
      log_bug ("Ohh jeee, trying to remove an intermediate filter\n");
1927
0
    }
1928
1929
0
  return rc;
1930
0
}
1931
1932
1933
/****************
1934
 * read underflow: read at least one byte into the buffer and return
1935
 * the first byte or -1 on EOF.
1936
 */
1937
static int
1938
underflow (iobuf_t a, int clear_pending_eof)
1939
457M
{
1940
457M
  return underflow_target (a, clear_pending_eof, 1);
1941
457M
}
1942
1943
1944
/****************
1945
 * read underflow: read TARGET bytes into the buffer and return
1946
 * the first byte or -1 on EOF.
1947
 */
1948
static int
1949
underflow_target (iobuf_t a, int clear_pending_eof, size_t target)
1950
457M
{
1951
457M
  size_t len;
1952
457M
  int rc;
1953
1954
457M
  if (DBG_IOBUF)
1955
457M
    log_debug ("iobuf-%d.%d: underflow: buffer size: %d; still buffered: %d => space for %d bytes\n",
1956
0
         a->no, a->subno,
1957
0
         (int) a->d.size, (int) (a->d.len - a->d.start),
1958
0
         (int) (a->d.size - (a->d.len - a->d.start)));
1959
1960
457M
  if (a->use == IOBUF_INPUT_TEMP)
1961
0
    {
1962
      /* By definition, there isn't more data to read into the
1963
         buffer.  */
1964
0
      return -1;
1965
0
    }
1966
1967
457M
  log_assert (a->use == IOBUF_INPUT);
1968
1969
457M
  a->e_d.used = 0;
1970
1971
  /* If there is still some buffered data, then move it to the start
1972
   * of the buffer and try to fill the end of the buffer.  (This is
1973
   * useful if we are called from iobuf_peek().)  */
1974
457M
  log_assert (a->d.start <= a->d.len);
1975
457M
  a->d.len -= a->d.start;
1976
457M
  if (a->d.len)
1977
84
    memmove (a->d.buf, &a->d.buf[a->d.start], a->d.len);
1978
457M
  a->d.start = 0;
1979
1980
457M
  if (a->d.len < target && a->filter_eof)
1981
9.44k
    {
1982
      /* The last time we tried to read from this filter, we got an
1983
       * EOF.  We couldn't return the EOF, because there was buffered
1984
       * data.  Since there is no longer any buffered data, return the
1985
       * error.  */
1986
9.44k
      if (DBG_IOBUF)
1987
9.44k
  log_debug ("iobuf-%d.%d: underflow: eof (pending eof)\n",
1988
0
       a->no, a->subno);
1989
9.44k
      if (! clear_pending_eof)
1990
42
  return -1;
1991
1992
9.40k
      if (a->chain)
1993
285
  {
1994
          /* A filter follows this one.  Free this filter.  */
1995
285
    iobuf_t b = a->chain;
1996
285
    if (DBG_IOBUF)
1997
285
      log_debug ("iobuf-%d.%d: filter popped (pending EOF returned)\n",
1998
0
           a->no, a->subno);
1999
285
    xfree (a->d.buf);
2000
285
    xfree (a->real_fname);
2001
285
    memcpy (a, b, sizeof *a);
2002
285
    xfree (b);
2003
285
    print_chain (a);
2004
285
  }
2005
9.11k
      else
2006
9.11k
  a->filter_eof = 0; /* for the top level filter */
2007
9.40k
      return -1;   /* return one(!) EOF */
2008
9.44k
    }
2009
2010
457M
  if (a->d.len == 0 && a->error)
2011
5.09k
    {
2012
      /* The last time we tried to read from this filter, we got an
2013
       * error.  We couldn't return the error, because there was
2014
       * buffered data.  Since there is no longer any buffered data,
2015
       * return the error.  */
2016
5.09k
      if (DBG_IOBUF)
2017
5.09k
  log_debug ("iobuf-%d.%d: pending error (%s) returned\n",
2018
0
       a->no, a->subno, gpg_strerror (a->error));
2019
5.09k
      return -1;
2020
5.09k
    }
2021
2022
457M
  if (a->filter && ! a->filter_eof && ! a->error)
2023
197k
    {
2024
      /* We have a filter function and the last time we tried to read
2025
       * we didn't get an EOF or an error.  Try to fill the buffer.
2026
       * Be careful to account for any buffered data.  */
2027
197k
      len = a->d.size - a->d.len;
2028
2029
197k
      if (a->e_d.preferred && a->d.len < IOBUF_ZEROCOPY_THRESHOLD_SIZE
2030
3.24k
    && (IOBUF_ZEROCOPY_THRESHOLD_SIZE - a->d.len) < len)
2031
3.24k
  {
2032
3.24k
    if (DBG_IOBUF)
2033
3.24k
      log_debug ("iobuf-%d.%d: limit buffering as external drain is "
2034
0
      "preferred\n",  a->no, a->subno);
2035
3.24k
    len = IOBUF_ZEROCOPY_THRESHOLD_SIZE - a->d.len;
2036
3.24k
  }
2037
2038
197k
      if (len == 0)
2039
0
        {
2040
          /* There is no space for more data.  Don't bother calling
2041
           * A->FILTER.  */
2042
0
          rc = 0;
2043
0
        }
2044
197k
      else
2045
197k
        {
2046
197k
          size_t tmplen;
2047
2048
          /* If no buffered data and drain buffer has been setup, and
2049
           * drain buffer is largish, read data directly to drain buffer. */
2050
197k
          if (a->d.len == 0
2051
197k
              && a->e_d.buf
2052
1.24k
              && a->e_d.len >= IOBUF_ZEROCOPY_THRESHOLD_SIZE)
2053
1.24k
            {
2054
1.24k
              len = a->e_d.len;
2055
2056
1.24k
              if (DBG_IOBUF)
2057
1.24k
                log_debug ("iobuf-%d.%d: underflow:"
2058
0
                           " A->FILTER (%lu bytes, to external drain)\n",
2059
0
                           a->no, a->subno, (ulong)len);
2060
2061
1.24k
              tmplen = len;  /* Used to check for bugs in the filter.  */
2062
1.24k
              rc = a->filter (a->filter_ov, IOBUFCTRL_UNDERFLOW, a->chain,
2063
1.24k
                              a->e_d.buf, &len);
2064
1.24k
              log_assert (len <= tmplen);
2065
1.24k
              a->e_d.used = len;
2066
1.24k
              len = 0;
2067
1.24k
            }
2068
196k
          else
2069
196k
            {
2070
196k
              if (DBG_IOBUF)
2071
196k
                log_debug ("iobuf-%d.%d: underflow: A->FILTER (%lu bytes)\n",
2072
0
                           a->no, a->subno, (ulong)len);
2073
2074
196k
              tmplen = len;
2075
196k
              rc = a->filter (a->filter_ov, IOBUFCTRL_UNDERFLOW, a->chain,
2076
196k
                              &a->d.buf[a->d.len], &len);
2077
196k
              log_assert (len <= tmplen);
2078
196k
            }
2079
197k
        }
2080
197k
      a->d.len += len;
2081
2082
197k
      if (DBG_IOBUF)
2083
197k
  log_debug ("iobuf-%d.%d: A->FILTER() returned rc=%d (%s),"
2084
0
                   " read %lu bytes%s\n",
2085
0
       a->no, a->subno,
2086
0
       rc, rc == 0 ? "ok" : rc == -1 ? "EOF" : gpg_strerror (rc),
2087
0
       (ulong)(a->e_d.used ? a->e_d.used : len),
2088
0
       a->e_d.used ? " (to external buffer)" : "");
2089
      /* if ( a->no == 1 ) */
2090
      /*   log_hexdump ("     data:", a->d.buf, len); */
2091
2092
197k
      if (rc == -1) /* EOF.  */
2093
90.2k
  {
2094
90.2k
    size_t dummy_len = 0;
2095
2096
    /* Tell the filter to free itself */
2097
90.2k
    if ((rc = a->filter (a->filter_ov, IOBUFCTRL_FREE, a->chain,
2098
90.2k
             NULL, &dummy_len)))
2099
90.2k
      log_error ("IOBUFCTRL_FREE failed: %s\n", gpg_strerror (rc));
2100
2101
    /* Free everything except for the internal buffer.  */
2102
90.2k
    if (a->filter_ov && a->filter_ov_owner)
2103
0
      xfree (a->filter_ov);
2104
90.2k
    a->filter_ov = NULL;
2105
90.2k
    a->filter = NULL;
2106
90.2k
    a->filter_eof = 1;
2107
2108
90.2k
    if (clear_pending_eof && a->d.len == 0 && a->e_d.used == 0
2109
89.9k
        && a->chain)
2110
78.1k
      {
2111
              /* We don't need to keep this filter around at all:
2112
               *
2113
         *  - we got an EOF
2114
         *  - we have no buffered data
2115
         *  - a filter follows this one.
2116
               *
2117
               * Unlink this filter.  */
2118
78.1k
        iobuf_t b = a->chain;
2119
78.1k
        if (DBG_IOBUF)
2120
78.1k
    log_debug ("iobuf-%d.%d: pop in underflow"
2121
0
                           " (nothing buffered, got EOF)\n", a->no, a->subno);
2122
78.1k
        xfree (a->d.buf);
2123
78.1k
        xfree (a->real_fname);
2124
78.1k
        memcpy (a, b, sizeof *a);
2125
78.1k
        xfree (b);
2126
2127
78.1k
        print_chain (a);
2128
78.1k
        return -1;
2129
78.1k
      }
2130
12.1k
    else if (a->d.len == 0 && a->e_d.used == 0)
2131
11.7k
            {
2132
              /* We can't unlink this filter (it is the only one in
2133
               * the pipeline), but we can immediately return EOF.  */
2134
11.7k
              return -1;
2135
11.7k
            }
2136
2137
90.2k
  }
2138
107k
      else if (rc) /* Record the error.  */
2139
1.44k
  {
2140
1.44k
    a->error = rc;
2141
2142
          /* If there is no buffered data, immediately return EOF.  */
2143
1.44k
    if (a->d.len == 0 && a->e_d.used == 0)
2144
281
      return -1;
2145
1.44k
  }
2146
197k
    }
2147
2148
457M
  log_assert (a->d.start <= a->d.len);
2149
457M
  if (a->e_d.used > 0)
2150
782
    return 0;
2151
457M
  if (a->d.start < a->d.len)
2152
104k
    return a->d.buf[a->d.start++];
2153
2154
457M
  return -1; /* EOF.  */
2155
457M
}
2156
2157
2158
static int
2159
filter_flush (iobuf_t a)
2160
1
{
2161
1
  int external_used = 0;
2162
1
  byte *src_buf;
2163
1
  size_t src_len;
2164
1
  size_t len;
2165
1
  int rc;
2166
2167
1
  a->e_d.used = 0;
2168
2169
1
  if (a->use == IOBUF_OUTPUT_TEMP)
2170
0
    { /* Increase the temp buffer. */
2171
0
      size_t newsize = a->d.size + iobuf_buffer_size;
2172
2173
0
      if (DBG_IOBUF)
2174
0
  log_debug ("increasing temp iobuf from %lu to %lu\n",
2175
0
       (ulong) a->d.size, (ulong) newsize);
2176
2177
0
      a->d.buf = xrealloc (a->d.buf, newsize);
2178
0
      a->d.size = newsize;
2179
0
      return 0;
2180
0
    }
2181
1
  else if (a->use != IOBUF_OUTPUT)
2182
1
    log_bug ("flush on non-output iobuf\n");
2183
1
  else if (!a->filter)
2184
1
    log_bug ("filter_flush: no filter\n");
2185
2186
1
  if (a->d.len == 0 && a->e_d.buf && a->e_d.len > 0)
2187
0
    {
2188
0
      src_buf = a->e_d.buf;
2189
0
      src_len = a->e_d.len;
2190
0
      external_used = 1;
2191
0
    }
2192
1
  else
2193
1
    {
2194
1
      src_buf = a->d.buf;
2195
1
      src_len = a->d.len;
2196
1
      external_used = 0;
2197
1
    }
2198
2199
1
  len = src_len;
2200
1
  rc = a->filter (a->filter_ov, IOBUFCTRL_FLUSH, a->chain, src_buf, &len);
2201
1
  if (!rc && len != src_len)
2202
0
    {
2203
0
      log_info ("filter_flush did not write all!\n");
2204
0
      rc = GPG_ERR_INTERNAL;
2205
0
    }
2206
1
  else if (rc)
2207
0
    a->error = rc;
2208
1
  a->d.len = 0;
2209
1
  if (external_used)
2210
0
    a->e_d.used = len;
2211
2212
1
  return rc;
2213
1
}
2214
2215
2216
int
2217
iobuf_readbyte (iobuf_t a)
2218
457M
{
2219
457M
  int c;
2220
2221
457M
  if (a->use == IOBUF_OUTPUT || a->use == IOBUF_OUTPUT_TEMP)
2222
0
    {
2223
0
      log_bug ("iobuf_readbyte called on a non-INPUT pipeline!\n");
2224
0
      return -1;
2225
0
    }
2226
2227
457M
  log_assert (a->d.start <= a->d.len);
2228
2229
457M
  if (a->nlimit && a->nbytes >= a->nlimit)
2230
0
    return -1;     /* forced EOF */
2231
2232
457M
  if (a->d.start < a->d.len)
2233
10.7k
    {
2234
10.7k
      c = a->d.buf[a->d.start++];
2235
10.7k
    }
2236
457M
  else if ((c = underflow (a, 1)) == -1)
2237
457M
    return -1;      /* EOF */
2238
2239
457M
  log_assert (a->d.start <= a->d.len);
2240
2241
  /* Note: if underflow doesn't return EOF, then it returns the first
2242
     byte that was read and advances a->d.start appropriately.  */
2243
2244
95.0k
  a->nbytes++;
2245
95.0k
  return c;
2246
95.0k
}
2247
2248
2249
int
2250
iobuf_read (iobuf_t a, void *buffer, unsigned int buflen)
2251
196k
{
2252
196k
  unsigned char *buf = (unsigned char *)buffer;
2253
196k
  int c, n;
2254
2255
196k
  if (a->use == IOBUF_OUTPUT || a->use == IOBUF_OUTPUT_TEMP)
2256
0
    {
2257
0
      log_bug ("iobuf_read called on a non-INPUT pipeline!\n");
2258
0
      return -1;
2259
0
    }
2260
2261
196k
  if (a->nlimit)
2262
0
    {
2263
      /* Handle special cases. */
2264
0
      for (n = 0; n < buflen; n++)
2265
0
  {
2266
0
    if ((c = iobuf_readbyte (a)) == -1)
2267
0
      {
2268
0
        if (!n)
2269
0
    return -1; /* eof */
2270
0
        break;
2271
0
      }
2272
2273
0
    if (buf)
2274
0
      {
2275
0
        *buf = c;
2276
0
        buf++;
2277
0
      }
2278
0
  }
2279
0
      return n;
2280
0
    }
2281
2282
196k
  a->e_d.buf = NULL;
2283
196k
  a->e_d.len = 0;
2284
2285
  /* Hint for how full to fill iobuf internal drain buffer. */
2286
196k
  a->e_d.preferred = (a->use != IOBUF_INPUT_TEMP)
2287
195k
    && (buf && buflen >= IOBUF_ZEROCOPY_THRESHOLD_SIZE);
2288
2289
196k
  n = 0;
2290
196k
  do
2291
201k
    {
2292
201k
      if (n < buflen && a->d.start < a->d.len)
2293
  /* Drain the buffer.  */
2294
194k
  {
2295
194k
    unsigned size = a->d.len - a->d.start;
2296
194k
    if (size > buflen - n)
2297
187k
      size = buflen - n;
2298
194k
    if (buf)
2299
189k
      memcpy (buf, a->d.buf + a->d.start, size);
2300
194k
    n += size;
2301
194k
    a->d.start += size;
2302
194k
    if (buf)
2303
189k
      buf += size;
2304
194k
  }
2305
201k
      if (n < buflen)
2306
  /* Draining the internal buffer didn't fill BUFFER.  Call
2307
     underflow to read more data into the filter's internal
2308
     buffer.  */
2309
12.7k
  {
2310
12.7k
    if (a->use != IOBUF_INPUT_TEMP && buf && n < buflen)
2311
3.47k
      {
2312
        /* Setup external drain buffer for faster moving of data
2313
         * (avoid memcpy). */
2314
3.47k
        a->e_d.buf = buf;
2315
3.47k
        a->e_d.len = (buflen - n) / IOBUF_ZEROCOPY_THRESHOLD_SIZE
2316
3.47k
          * IOBUF_ZEROCOPY_THRESHOLD_SIZE;
2317
3.47k
        if (a->e_d.len == 0)
2318
1.88k
    a->e_d.buf = NULL;
2319
3.47k
        if (a->e_d.buf && DBG_IOBUF)
2320
3.47k
    log_debug ("iobuf-%d.%d: reading to external buffer, %lu bytes\n",
2321
0
         a->no, a->subno, (ulong)a->e_d.len);
2322
3.47k
      }
2323
2324
12.7k
    if ((c = underflow (a, 1)) == -1)
2325
      /* EOF.  If we managed to read something, don't return EOF
2326
         now.  */
2327
7.82k
      {
2328
7.82k
        a->e_d.buf = NULL;
2329
7.82k
        a->e_d.len = 0;
2330
7.82k
        a->nbytes += n;
2331
7.82k
        return n ? n : -1 /*EOF*/;
2332
7.82k
      }
2333
2334
4.96k
    if (a->e_d.buf && a->e_d.used > 0)
2335
782
      {
2336
        /* Drain buffer was used, 'c' only contains return code
2337
         * 0 or -1. */
2338
782
        n += a->e_d.used;
2339
782
        buf += a->e_d.used;
2340
782
      }
2341
4.18k
    else
2342
4.18k
      {
2343
4.18k
        if (buf)
2344
1.12k
    *buf++ = c;
2345
4.18k
        n++;
2346
4.18k
      }
2347
2348
4.96k
    a->e_d.buf = NULL;
2349
4.96k
    a->e_d.len = 0;
2350
4.96k
  }
2351
201k
    }
2352
196k
  while (n < buflen);
2353
188k
  a->nbytes += n;
2354
188k
  return n;
2355
196k
}
2356
2357
2358
2359
int
2360
iobuf_peek (iobuf_t a, byte * buf, unsigned buflen)
2361
16.3k
{
2362
16.3k
  int n = 0;
2363
2364
16.3k
  log_assert (buflen > 0);
2365
16.3k
  log_assert (a->use == IOBUF_INPUT || a->use == IOBUF_INPUT_TEMP);
2366
2367
16.3k
  if (buflen > a->d.size)
2368
    /* We can't peek more than we can buffer.  */
2369
0
    buflen = a->d.size;
2370
2371
  /* Try to fill the internal buffer with enough data to satisfy the
2372
     request.  */
2373
32.7k
  while (buflen > a->d.len - a->d.start)
2374
16.4k
    {
2375
16.4k
      if (underflow_target (a, 0, buflen) == -1)
2376
  /* EOF.  We can't read any more.  */
2377
42
  break;
2378
2379
      /* Underflow consumes the first character (it's the return
2380
   value).  unget() it by resetting the "file position".  */
2381
16.4k
      log_assert (a->d.start == 1);
2382
16.4k
      a->d.start = 0;
2383
16.4k
    }
2384
2385
16.3k
  n = a->d.len - a->d.start;
2386
16.3k
  if (n > buflen)
2387
16.0k
    n = buflen;
2388
2389
16.3k
  if (n == 0)
2390
    /* EOF.  */
2391
0
    return -1;
2392
2393
16.3k
  memcpy (buf, &a->d.buf[a->d.start], n);
2394
2395
16.3k
  return n;
2396
16.3k
}
2397
2398
2399
2400
2401
int
2402
iobuf_writebyte (iobuf_t a, unsigned int c)
2403
0
{
2404
0
  int rc;
2405
2406
0
  if (a->use == IOBUF_INPUT || a->use == IOBUF_INPUT_TEMP)
2407
0
    {
2408
0
      log_bug ("iobuf_writebyte called on an input pipeline!\n");
2409
0
      return -1;
2410
0
    }
2411
2412
0
  if (a->d.len == a->d.size)
2413
0
    if ((rc=filter_flush (a)))
2414
0
      return rc;
2415
2416
0
  log_assert (a->d.len < a->d.size);
2417
0
  a->d.buf[a->d.len++] = c;
2418
0
  return 0;
2419
0
}
2420
2421
2422
int
2423
iobuf_write (iobuf_t a, const void *buffer, unsigned int buflen)
2424
0
{
2425
0
  const unsigned char *buf = (const unsigned char *)buffer;
2426
0
  int rc;
2427
2428
0
  if (a->use == IOBUF_INPUT || a->use == IOBUF_INPUT_TEMP)
2429
0
    {
2430
0
      log_bug ("iobuf_write called on an input pipeline!\n");
2431
0
      return -1;
2432
0
    }
2433
2434
0
  a->e_d.buf = NULL;
2435
0
  a->e_d.len = 0;
2436
2437
  /* Hint for how full to fill iobuf internal drain buffer. */
2438
0
  a->e_d.preferred = (a->use != IOBUF_OUTPUT_TEMP)
2439
0
    && (buflen >= IOBUF_ZEROCOPY_THRESHOLD_SIZE);
2440
2441
0
  do
2442
0
    {
2443
0
      if ((a->use != IOBUF_OUTPUT_TEMP)
2444
0
    && a->d.len == 0 && buflen >= IOBUF_ZEROCOPY_THRESHOLD_SIZE)
2445
0
  {
2446
    /* Setup external drain buffer for faster moving of data
2447
      * (avoid memcpy). */
2448
0
    a->e_d.buf = (byte *)buf;
2449
0
    a->e_d.len = buflen / IOBUF_ZEROCOPY_THRESHOLD_SIZE
2450
0
      * IOBUF_ZEROCOPY_THRESHOLD_SIZE;
2451
0
    if (a->e_d.len == 0)
2452
0
      a->e_d.buf = NULL;
2453
0
    if (a->e_d.buf && DBG_IOBUF)
2454
0
      log_debug ("iobuf-%d.%d: writing from external buffer, %lu bytes\n",
2455
0
      a->no, a->subno, (ulong)a->e_d.len);
2456
0
  }
2457
2458
0
      if (a->e_d.buf == NULL && buflen && a->d.len < a->d.size)
2459
0
  {
2460
0
    unsigned size;
2461
2462
0
    if (a->e_d.preferred && a->d.len < IOBUF_ZEROCOPY_THRESHOLD_SIZE)
2463
0
      size = IOBUF_ZEROCOPY_THRESHOLD_SIZE - a->d.len;
2464
0
    else
2465
0
      size = a->d.size - a->d.len;
2466
2467
0
    if (size > buflen)
2468
0
      size = buflen;
2469
0
    memcpy (a->d.buf + a->d.len, buf, size);
2470
0
    buflen -= size;
2471
0
    buf += size;
2472
0
    a->d.len += size;
2473
0
  }
2474
2475
0
      if (buflen)
2476
0
  {
2477
0
    rc = filter_flush (a);
2478
0
          if (rc)
2479
0
      {
2480
0
        a->e_d.buf = NULL;
2481
0
        a->e_d.len = 0;
2482
0
        return rc;
2483
0
      }
2484
0
  }
2485
2486
0
      if (a->e_d.buf && a->e_d.used > 0)
2487
0
  {
2488
0
    buf += a->e_d.used;
2489
0
    buflen -= a->e_d.used;
2490
0
  }
2491
2492
0
      a->e_d.buf = NULL;
2493
0
      a->e_d.len = 0;
2494
0
    }
2495
0
  while (buflen);
2496
0
  return 0;
2497
0
}
2498
2499
2500
int
2501
iobuf_writestr (iobuf_t a, const char *buf)
2502
0
{
2503
0
  if (a->use == IOBUF_INPUT || a->use == IOBUF_INPUT_TEMP)
2504
0
    {
2505
0
      log_bug ("iobuf_writestr called on an input pipeline!\n");
2506
0
      return -1;
2507
0
    }
2508
2509
0
  return iobuf_write (a, buf, strlen (buf));
2510
0
}
2511
2512
2513
2514
int
2515
iobuf_write_temp (iobuf_t dest, iobuf_t source)
2516
0
{
2517
0
  log_assert (source->use == IOBUF_OUTPUT || source->use == IOBUF_OUTPUT_TEMP);
2518
0
  log_assert (dest->use == IOBUF_OUTPUT || dest->use == IOBUF_OUTPUT_TEMP);
2519
2520
0
  iobuf_flush_temp (source);
2521
0
  return iobuf_write (dest, source->d.buf, source->d.len);
2522
0
}
2523
2524
size_t
2525
iobuf_temp_to_buffer (iobuf_t a, byte * buffer, size_t buflen)
2526
0
{
2527
0
  byte desc[MAX_IOBUF_DESC];
2528
0
  size_t n;
2529
2530
0
  while (1)
2531
0
    {
2532
0
      int rc = filter_flush (a);
2533
0
      if (rc)
2534
0
  log_bug ("Flushing iobuf %d.%d (%s) from iobuf_temp_to_buffer failed.  Ignoring.\n",
2535
0
     a->no, a->subno, iobuf_desc (a, desc));
2536
0
      if (! a->chain)
2537
0
  break;
2538
0
      a = a->chain;
2539
0
    }
2540
2541
0
  n = a->d.len;
2542
0
  if (n > buflen)
2543
0
    n = buflen;
2544
0
  memcpy (buffer, a->d.buf, n);
2545
0
  return n;
2546
0
}
2547
2548
/* Copies the data from the input iobuf SOURCE to the output iobuf
2549
   DEST until either an error is encountered or EOF is reached.
2550
   Returns the number of bytes copies or (size_t)(-1) on error.  */
2551
size_t
2552
iobuf_copy (iobuf_t dest, iobuf_t source)
2553
0
{
2554
0
  char *temp;
2555
0
  size_t temp_size;
2556
0
  size_t nread;
2557
0
  size_t nwrote = 0;
2558
0
  size_t max_read = 0;
2559
0
  int err;
2560
2561
0
  log_assert (source->use == IOBUF_INPUT || source->use == IOBUF_INPUT_TEMP);
2562
0
  log_assert (dest->use == IOBUF_OUTPUT || source->use == IOBUF_OUTPUT_TEMP);
2563
2564
0
  if (iobuf_error (dest))
2565
0
    return (size_t)(-1);
2566
2567
  /* Use iobuf buffer size for temporary buffer. */
2568
0
  temp_size = iobuf_set_buffer_size(0) * 1024;
2569
2570
0
  temp = xmalloc (temp_size);
2571
0
  while (1)
2572
0
    {
2573
0
      nread = iobuf_read (source, temp, temp_size);
2574
0
      if (nread == -1)
2575
        /* EOF.  */
2576
0
        break;
2577
2578
0
      if (nread > max_read)
2579
0
        max_read = nread;
2580
2581
0
      err = iobuf_write (dest, temp, nread);
2582
0
      if (err)
2583
0
        break;
2584
0
      nwrote += nread;
2585
0
    }
2586
2587
  /* Burn the buffer.  */
2588
0
  if (max_read)
2589
0
    wipememory (temp, max_read);
2590
0
  xfree (temp);
2591
2592
0
  return nwrote;
2593
0
}
2594
2595
2596
void
2597
iobuf_flush_temp (iobuf_t temp)
2598
0
{
2599
0
  if (temp->use == IOBUF_INPUT || temp->use == IOBUF_INPUT_TEMP)
2600
0
    log_bug ("iobuf_flush_temp called on an input pipeline!\n");
2601
0
  while (temp->chain)
2602
0
    iobuf_pop_filter (temp, temp->filter, NULL);
2603
0
}
2604
2605
2606
void
2607
iobuf_set_limit (iobuf_t a, off_t nlimit)
2608
0
{
2609
0
  if (nlimit)
2610
0
    a->nofast = 1;
2611
0
  else
2612
0
    a->nofast = 0;
2613
0
  a->nlimit = nlimit;
2614
0
  a->ntotal += a->nbytes;
2615
0
  a->nbytes = 0;
2616
0
}
2617
2618
2619
/* Return the length of the file behind A.  If there is no file, return 0. */
2620
uint64_t
2621
iobuf_get_filelength (iobuf_t a)
2622
0
{
2623
  /* Hmmm: file_filter may have already been removed */
2624
0
  for ( ; a->chain; a = a->chain )
2625
0
    ;
2626
2627
0
  if (a->filter != file_filter)
2628
0
    return 0;
2629
2630
0
  {
2631
0
    file_filter_ctx_t *b = a->filter_ov;
2632
0
    gnupg_fd_t fp = b->fp;
2633
2634
#if defined(HAVE_W32_SYSTEM)
2635
    LARGE_INTEGER exsize;
2636
2637
    if (GetFileSizeEx (fp, &exsize))
2638
      return exsize.QuadPart;
2639
    log_error ("GetFileSize for handle %p failed: %s\n",
2640
         fp, w32_strerror (-1));
2641
#else /*!HAVE_W32_SYSTEM*/
2642
0
    struct stat st;
2643
2644
0
    if ( !fstat (fp, &st) )
2645
0
      return st.st_size;
2646
0
    log_error("fstat() failed: %s\n", strerror(errno) );
2647
0
#endif /*!HAVE_W32_SYSTEM*/
2648
0
  }
2649
2650
0
  return 0;
2651
0
}
2652
2653
2654
gnupg_fd_t
2655
iobuf_get_fd (iobuf_t a)
2656
16.3k
{
2657
16.3k
  for (; a->chain; a = a->chain)
2658
0
    ;
2659
2660
16.3k
  if (a->filter != file_filter)
2661
0
    return GNUPG_INVALID_FD;
2662
2663
16.3k
  {
2664
16.3k
    file_filter_ctx_t *b = a->filter_ov;
2665
16.3k
    gnupg_fd_t fp = b->fp;
2666
2667
16.3k
    return fp;
2668
16.3k
  }
2669
16.3k
}
2670
2671
2672
off_t
2673
iobuf_tell (iobuf_t a)
2674
0
{
2675
0
  return a->ntotal + a->nbytes;
2676
0
}
2677
2678
2679
#if !defined(HAVE_FSEEKO) && !defined(fseeko)
2680
2681
#ifdef HAVE_LIMITS_H
2682
# include <limits.h>
2683
#endif
2684
#ifndef LONG_MAX
2685
# define LONG_MAX ((long) ((unsigned long) -1 >> 1))
2686
#endif
2687
#ifndef LONG_MIN
2688
# define LONG_MIN (-1 - LONG_MAX)
2689
#endif
2690
2691
/****************
2692
 * A substitute for fseeko, for hosts that don't have it.
2693
 */
2694
static int
2695
fseeko (FILE * stream, off_t newpos, int whence)
2696
{
2697
  while (newpos != (long) newpos)
2698
    {
2699
      long pos = newpos < 0 ? LONG_MIN : LONG_MAX;
2700
      if (fseek (stream, pos, whence) != 0)
2701
  return -1;
2702
      newpos -= pos;
2703
      whence = SEEK_CUR;
2704
    }
2705
  return fseek (stream, (long) newpos, whence);
2706
}
2707
#endif
2708
2709
int
2710
iobuf_seek (iobuf_t a, off_t newpos)
2711
0
{
2712
0
  file_filter_ctx_t *b = NULL;
2713
2714
0
  if (a->use == IOBUF_OUTPUT || a->use == IOBUF_INPUT)
2715
0
    {
2716
      /* Find the last filter in the pipeline.  */
2717
0
      for (; a->chain; a = a->chain)
2718
0
  ;
2719
2720
0
      if (a->filter != file_filter)
2721
0
  return -1;
2722
2723
0
      b = a->filter_ov;
2724
2725
#ifdef HAVE_W32_SYSTEM
2726
      if (SetFilePointer (b->fp, newpos, NULL, FILE_BEGIN) == 0xffffffff)
2727
  {
2728
    log_error ("SetFilePointer failed on handle %p: ec=%d\n",
2729
         b->fp, (int) GetLastError ());
2730
    return -1;
2731
  }
2732
#else
2733
0
      if (lseek (b->fp, newpos, SEEK_SET) == (off_t) - 1)
2734
0
  {
2735
0
    log_error ("can't lseek: %s\n", strerror (errno));
2736
0
    return -1;
2737
0
  }
2738
0
#endif
2739
      /* Discard the buffer it is not a temp stream.  */
2740
0
      a->d.len = 0;
2741
0
    }
2742
0
  a->d.start = 0;
2743
0
  a->nbytes = 0;
2744
0
  a->nlimit = 0;
2745
0
  a->nofast = 0;
2746
0
  a->ntotal = newpos;
2747
0
  a->error = 0;
2748
2749
  /* It is impossible for A->CHAIN to be non-NULL.  If A is an INPUT
2750
     or OUTPUT buffer, then we find the last filter, which is defined
2751
     as A->CHAIN being NULL.  If A is a TEMP filter, then A must be
2752
     the only filter in the pipe: when iobuf_push_filter adds a filter
2753
     to the front of a pipeline, it sets the new filter to be an
2754
     OUTPUT filter if the pipeline is an OUTPUT or TEMP pipeline and
2755
     to be an INPUT filter if the pipeline is an INPUT pipeline.
2756
     Thus, only the last filter in a TEMP pipeline can be a */
2757
2758
  /* remove filters, but the last */
2759
0
  if (a->chain)
2760
0
    log_debug ("iobuf_pop_filter called in iobuf_seek - please report\n");
2761
0
  while (a->chain)
2762
0
    iobuf_pop_filter (a, a->filter, NULL);
2763
2764
0
  return 0;
2765
0
}
2766
2767
2768
const char *
2769
iobuf_get_real_fname (iobuf_t a)
2770
733
{
2771
733
  if (a->real_fname)
2772
733
    return a->real_fname;
2773
2774
  /* the old solution */
2775
0
  for (; a; a = a->chain)
2776
0
    if (!a->chain && a->filter == file_filter)
2777
0
      {
2778
0
  file_filter_ctx_t *b = a->filter_ov;
2779
0
  return b->print_only_name ? NULL : b->fname;
2780
0
      }
2781
2782
0
  return NULL;
2783
0
}
2784
2785
const char *
2786
iobuf_get_fname (iobuf_t a)
2787
0
{
2788
0
  for (; a; a = a->chain)
2789
0
    if (!a->chain && a->filter == file_filter)
2790
0
      {
2791
0
  file_filter_ctx_t *b = a->filter_ov;
2792
0
  return b->fname;
2793
0
      }
2794
0
  return NULL;
2795
0
}
2796
2797
const char *
2798
iobuf_get_fname_nonnull (iobuf_t a)
2799
0
{
2800
0
  const char *fname;
2801
2802
0
  fname = iobuf_get_fname (a);
2803
0
  return fname? fname : "[?]";
2804
0
}
2805
2806
2807
/****************
2808
 * Enable or disable partial body length mode (RFC 4880 4.2.2.4).
2809
 *
2810
 * If LEN is 0, this disables partial block mode by popping the
2811
 * partial body length filter, which must be the most recently
2812
 * added filter.
2813
 *
2814
 * If LEN is non-zero, it pushes a partial body length filter.  If
2815
 * this is a read filter, LEN must be the length byte from the first
2816
 * chunk and A should be position just after this first partial body
2817
 * length header.
2818
 */
2819
void
2820
iobuf_set_partial_body_length_mode (iobuf_t a, size_t len)
2821
77.1k
{
2822
77.1k
  if (!len)
2823
    /* Disable partial body length mode.  */
2824
0
    {
2825
0
      if (a->use == IOBUF_INPUT)
2826
0
  log_debug ("iobuf_pop_filter called in set_partial_block_mode"
2827
0
       " - please report\n");
2828
2829
0
      log_assert (a->filter == block_filter);
2830
0
      iobuf_pop_filter (a, block_filter, NULL);
2831
0
    }
2832
77.1k
  else
2833
    /* Enabled partial body length mode.  */
2834
77.1k
    {
2835
77.1k
      block_filter_ctx_t *ctx = xcalloc (1, sizeof *ctx);
2836
77.1k
      ctx->use = a->use;
2837
77.1k
      ctx->partial = 1;
2838
77.1k
      ctx->size = 0;
2839
77.1k
      ctx->first_c = len;
2840
77.1k
      iobuf_push_filter (a, block_filter, ctx);
2841
77.1k
    }
2842
77.1k
}
2843
2844
2845
2846
unsigned int
2847
iobuf_read_line (iobuf_t a, byte ** addr_of_buffer,
2848
     unsigned *length_of_buffer, unsigned *max_length)
2849
1.01M
{
2850
1.01M
  int c;
2851
1.01M
  char *buffer = (char *)*addr_of_buffer;
2852
1.01M
  unsigned length = *length_of_buffer;
2853
1.01M
  unsigned nbytes = 0;
2854
1.01M
  unsigned maxlen = *max_length;
2855
1.01M
  char *p;
2856
2857
  /* The code assumes that we have space for at least a newline and a
2858
     NUL character in the buffer.  This requires at least 2 bytes.  We
2859
     don't complicate the code by handling the stupid corner case, but
2860
     simply assert that it can't happen.  */
2861
1.01M
  log_assert (!buffer || length >= 2 || maxlen >= 2);
2862
2863
1.01M
  if (!buffer || length <= 1)
2864
    /* must allocate a new buffer */
2865
3.52k
    {
2866
3.52k
      length = 256 <= maxlen ? 256 : maxlen;
2867
3.52k
      buffer = xrealloc (buffer, length);
2868
3.52k
      *addr_of_buffer = (unsigned char *)buffer;
2869
3.52k
      *length_of_buffer = length;
2870
3.52k
    }
2871
2872
1.01M
  p = buffer;
2873
1.01M
  while (1)
2874
1.01M
    {
2875
1.01M
      if (!a->nofast && a->d.start < a->d.len && nbytes < length - 1)
2876
  /* Fast path for finding '\n' by using standard C library's optimized
2877
     memchr.  */
2878
1.01M
  {
2879
1.01M
    unsigned size = a->d.len - a->d.start;
2880
1.01M
    byte *newline_pos;
2881
2882
1.01M
    if (size > length - 1 - nbytes)
2883
967k
      size = length - 1 - nbytes;
2884
2885
1.01M
    newline_pos = memchr (a->d.buf + a->d.start, '\n', size);
2886
1.01M
    if (newline_pos)
2887
1.00M
      {
2888
        /* Found newline, copy buffer and return. */
2889
1.00M
        size = (newline_pos - (a->d.buf + a->d.start)) + 1;
2890
1.00M
        memcpy (p, a->d.buf + a->d.start, size);
2891
1.00M
        p += size;
2892
1.00M
        nbytes += size;
2893
1.00M
        a->d.start += size;
2894
1.00M
        a->nbytes += size;
2895
1.00M
        break;
2896
1.00M
      }
2897
6.40k
    else
2898
6.40k
      {
2899
        /* No newline, copy buffer and continue. */
2900
6.40k
        memcpy (p, a->d.buf + a->d.start, size);
2901
6.40k
        p += size;
2902
6.40k
        nbytes += size;
2903
6.40k
        a->d.start += size;
2904
6.40k
        a->nbytes += size;
2905
6.40k
      }
2906
1.01M
  }
2907
6.53k
      else
2908
6.53k
  {
2909
6.53k
    c = iobuf_readbyte (a);
2910
6.53k
    if (c == -1)
2911
6.53k
      break;
2912
0
    *p++ = c;
2913
0
    nbytes++;
2914
0
    if (c == '\n')
2915
0
      break;
2916
0
  }
2917
2918
6.40k
      if (nbytes == length - 1)
2919
  /* We don't have enough space to add a \n and a \0.  Increase
2920
     the buffer size.  */
2921
3.88k
  {
2922
3.88k
    if (length == maxlen)
2923
      /* We reached the buffer's size limit!  */
2924
59
      {
2925
        /* Skip the rest of the line.  */
2926
286k
        while ((c = iobuf_get (a)) != -1 && c != '\n')
2927
286k
    ;
2928
2929
        /* p is pointing at the last byte in the buffer.  We
2930
     always terminate the line with "\n\0" so overwrite
2931
     the previous byte with a \n.  */
2932
59
        log_assert (p > buffer);
2933
59
        p[-1] = '\n';
2934
2935
        /* Indicate truncation.  */
2936
59
        *max_length = 0;
2937
59
        break;
2938
59
      }
2939
2940
3.82k
    length += length < 1024 ? 256 : 1024;
2941
3.82k
    if (length > maxlen)
2942
59
      length = maxlen;
2943
2944
3.82k
    buffer = xrealloc (buffer, length);
2945
3.82k
    *addr_of_buffer = (unsigned char *)buffer;
2946
3.82k
    *length_of_buffer = length;
2947
3.82k
    p = buffer + nbytes;
2948
3.82k
  }
2949
6.40k
    }
2950
  /* Add the terminating NUL.  */
2951
1.01M
  *p = 0;
2952
2953
  /* Return the number of characters written to the buffer including
2954
     the newline, but not including the terminating NUL.  */
2955
1.01M
  return nbytes;
2956
1.01M
}
2957
2958
2959
void
2960
iobuf_skip_rest (iobuf_t a, unsigned long n, int partial)
2961
273k
{
2962
273k
  if ( partial )
2963
0
    {
2964
0
      for (;;)
2965
0
        {
2966
0
          if (a->nofast || a->d.start >= a->d.len)
2967
0
            {
2968
0
              if (iobuf_readbyte (a) == -1)
2969
0
                {
2970
0
                  break;
2971
0
                }
2972
0
      }
2973
0
          else
2974
0
            {
2975
0
              unsigned long count = a->d.len - a->d.start;
2976
0
              a->nbytes += count;
2977
0
              a->d.start = a->d.len;
2978
0
      }
2979
0
  }
2980
0
    }
2981
273k
  else
2982
273k
    {
2983
273k
      unsigned long remaining = n;
2984
399k
      while (remaining > 0)
2985
170k
        {
2986
170k
          if (a->nofast || a->d.start >= a->d.len)
2987
47.6k
            {
2988
47.6k
              if (iobuf_readbyte (a) == -1)
2989
45.4k
                {
2990
45.4k
                  break;
2991
45.4k
    }
2992
2.12k
              --remaining;
2993
2.12k
      }
2994
123k
          else
2995
123k
            {
2996
123k
              unsigned long count = a->d.len - a->d.start;
2997
123k
              if (count > remaining)
2998
80.1k
                {
2999
80.1k
                  count = remaining;
3000
80.1k
    }
3001
123k
              a->nbytes += count;
3002
123k
              a->d.start += count;
3003
123k
              remaining -= count;
3004
123k
      }
3005
170k
  }
3006
273k
    }
3007
273k
}
3008
3009
3010
/* Check whether (BUF,LEN) is valid header for an OpenPGP compressed
3011
 * packet.  LEN should be at least 6.  */
3012
static int
3013
is_openpgp_compressed_packet (const unsigned char *buf, size_t len)
3014
0
{
3015
0
  int c, ctb, pkttype;
3016
0
  int lenbytes;
3017
3018
0
  ctb = *buf++; len--;
3019
0
  if (!(ctb & 0x80))
3020
0
    return 0; /* Invalid packet.  */
3021
3022
0
  if ((ctb & 0x40)) /* New style (OpenPGP) CTB.  */
3023
0
    {
3024
0
      pkttype = (ctb & 0x3f);
3025
0
      if (!len)
3026
0
        return 0; /* Expected first length octet missing.  */
3027
0
      c = *buf++; len--;
3028
0
      if (c < 192)
3029
0
        ;
3030
0
      else if (c < 224)
3031
0
        {
3032
0
          if (!len)
3033
0
            return 0; /* Expected second length octet missing. */
3034
0
        }
3035
0
      else if (c == 255)
3036
0
        {
3037
0
          if (len < 4)
3038
0
            return 0; /* Expected length octets missing */
3039
0
        }
3040
0
    }
3041
0
  else /* Old style CTB.  */
3042
0
    {
3043
0
      pkttype = (ctb>>2)&0xf;
3044
0
      lenbytes = ((ctb&3)==3)? 0 : (1<<(ctb & 3));
3045
0
      if (len < lenbytes)
3046
0
        return 0; /* Not enough length bytes.  */
3047
0
    }
3048
3049
0
  return (pkttype == 8);
3050
0
}
3051
3052
3053
/*
3054
 * Check if the file is compressed, by peeking the iobuf.  You need to
3055
 * pass the iobuf with INP.  Returns true if the buffer seems to be
3056
 * compressed.
3057
 */
3058
int
3059
is_file_compressed (iobuf_t inp)
3060
0
{
3061
0
  int i;
3062
0
  char buf[32];
3063
0
  int buflen;
3064
3065
0
  struct magic_compress_s
3066
0
  {
3067
0
    byte len;
3068
0
    byte extchk;
3069
0
    byte magic[6];
3070
0
  } magic[] =
3071
0
      {
3072
0
       { 3, 0, { 0x42, 0x5a, 0x68, 0x00 } }, /* bzip2 */
3073
0
       { 3, 0, { 0x1f, 0x8b, 0x08, 0x00 } }, /* gzip */
3074
0
       { 4, 0, { 0x50, 0x4b, 0x03, 0x04 } }, /* (pk)zip */
3075
0
       { 5, 0, { '%', 'P', 'D', 'F', '-'} }, /* PDF */
3076
0
       { 4, 1, { 0xff, 0xd8, 0xff, 0xe0 } }, /* Maybe JFIF */
3077
0
       { 5, 2, { 0x89, 'P','N','G', 0x0d} }, /* Likely PNG */
3078
0
       { 6, 0, { '7', 'z', 0xbc, 0xaf, 0x27, 0x1c} } /* 7z */
3079
0
  };
3080
3081
0
  if (!inp)
3082
0
    return 0;
3083
3084
0
  for ( ; inp->chain; inp = inp->chain )
3085
0
    ;
3086
3087
0
  buflen = iobuf_ioctl (inp, IOBUF_IOCTL_PEEK, sizeof buf, buf);
3088
0
  if (buflen < 0)
3089
0
    {
3090
0
      buflen = 0;
3091
0
      log_debug ("peeking at input failed\n");
3092
0
    }
3093
3094
0
  if ( buflen < 6 )
3095
0
    {
3096
0
      return 0;  /* Too short to check - assume uncompressed.  */
3097
0
    }
3098
3099
0
  for ( i = 0; i < DIM (magic); i++ )
3100
0
    {
3101
0
      if (!memcmp( buf, magic[i].magic, magic[i].len))
3102
0
        {
3103
0
          switch (magic[i].extchk)
3104
0
            {
3105
0
            case 0:
3106
0
              return 1; /* Is compressed.  */
3107
0
            case 1:
3108
0
              if (buflen > 11 && !memcmp (buf + 6, "JFIF", 5))
3109
0
                return 1; /* JFIF: this likely a compressed JPEG.  */
3110
0
              break;
3111
0
            case 2:
3112
0
              if (buflen > 8
3113
0
                  && buf[5] == 0x0a && buf[6] == 0x1a && buf[7] == 0x0a)
3114
0
                return 1; /* This is a PNG.  */
3115
0
              break;
3116
0
            default:
3117
0
              break;
3118
0
            }
3119
0
        }
3120
0
    }
3121
3122
0
  if (buflen >= 6 && is_openpgp_compressed_packet (buf, buflen))
3123
0
    {
3124
0
      return 1; /* Already compressed.  */
3125
0
    }
3126
3127
0
  return 0;  /* Not detected as compressed.  */
3128
0
}