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.\" @(#)xdr.3n  2.2 88/08/03 4.0 RPCSRC; from 1.16 88/03/14 SMI
2
.\" $FreeBSD: src/lib/libc/xdr/xdr.3,v 1.8 2000/03/02 09:14:05 sheldonh Exp $
3
.\"
4
.TH XDR 3 "16 February 1988"
5
.SH NAME
6
xdr \- library routines for external data representation
7
.SH SYNOPSIS AND DESCRIPTION
8
.LP
9
These routines allow C programmers to describe
10
arbitrary data structures in a machine-independent fashion.
11
Data for remote procedure calls are transmitted using these
12
routines.
13
.LP
14
.ft B
15
.nf
16
.sp .5
17
xdr_array(xdrs, arrp, sizep, maxsize, elsize, elproc)
18
\s-1XDR\s0 *xdrs;
19
char **arrp;
20
u_int *sizep, maxsize, elsize;
21
xdrproc_t elproc;
22
.fi
23
.ft R
24
.IP
25
A filter primitive that translates between variable-length
26
arrays
27
and their corresponding external representations.
28
The
29
parameter
30
.I arrp
31
is the address of the pointer to the array, while
32
.I sizep
33
is the address of the element count of the array;
34
this element count cannot exceed
35
.IR maxsize .
36
The parameter
37
.I elsize
38
is the
39
.I sizeof
40
each of the array's elements, and
41
.I elproc
42
is an
43
.SM XDR
44
filter that translates between
45
the array elements' C form, and their external
46
representation.
47
This routine returns one if it succeeds, zero otherwise.
48
.br
49
.if t .ne 8
50
.LP
51
.ft B
52
.nf
53
.sp .5
54
xdr_bool(xdrs, bp)
55
\s-1XDR\s0 *xdrs;
56
bool_t *bp;
57
.fi
58
.ft R
59
.IP
60
A filter primitive that translates between booleans (C
61
integers)
62
and their external representations.
63
When encoding data, this
64
filter produces values of either one or zero.
65
This routine returns one if it succeeds, zero otherwise.
66
.br
67
.if t .ne 10
68
.LP
69
.ft B
70
.nf
71
.sp .5
72
xdr_bytes(xdrs, sp, sizep, maxsize)
73
\s-1XDR\s0 *xdrs;
74
char **sp;
75
u_int *sizep, maxsize;
76
.fi
77
.ft R
78
.IP
79
A filter primitive that translates between counted byte
80
strings and their external representations.
81
The parameter
82
.I sp
83
is the address of the string pointer.
84
The length of the
85
string is located at address
86
.IR sizep ;
87
strings cannot be longer than
88
.IR maxsize .
89
This routine returns one if it succeeds, zero otherwise.
90
.br
91
.if t .ne 7
92
.LP
93
.ft B
94
.nf
95
.sp .5
96
xdr_char(xdrs, cp)
97
\s-1XDR\s0 *xdrs;
98
char *cp;
99
.fi
100
.ft R
101
.IP
102
A filter primitive that translates between C characters
103
and their external representations.
104
This routine returns one if it succeeds, zero otherwise.
105
Note: encoded characters are not packed, and occupy 4 bytes
106
each.
107
For arrays of characters, it is worthwhile to
108
consider
109
.BR xdr_bytes(\|) ,
110
.B xdr_opaque(\|)
111
or
112
.BR xdr_string(\|) .
113
.br
114
.if t .ne 8
115
.LP
116
.ft B
117
.nf
118
.sp .5
119
void
120
xdr_destroy(xdrs)
121
\s-1XDR\s0 *xdrs;
122
.fi
123
.ft R
124
.IP
125
A macro that invokes the destroy routine associated with the
126
.SM XDR
127
stream,
128
.IR xdrs .
129
Destruction usually involves freeing private data structures
130
associated with the stream.  Using
131
.I xdrs
132
after invoking
133
.B xdr_destroy(\|)
134
is undefined.
135
.br
136
.if t .ne 7
137
.LP
138
.ft B
139
.nf
140
.sp .5
141
xdr_double(xdrs, dp)
142
\s-1XDR\s0 *xdrs;
143
double *dp;
144
.fi
145
.ft R
146
.IP
147
A filter primitive that translates between C
148
.B double
149
precision numbers and their external representations.
150
This routine returns one if it succeeds, zero otherwise.
151
.br
152
.if t .ne 7
153
.LP
154
.ft B
155
.nf
156
.sp .5
157
xdr_enum(xdrs, ep)
158
\s-1XDR\s0 *xdrs;
159
enum_t *ep;
160
.fi
161
.ft R
162
.IP
163
A filter primitive that translates between C
164
.BR enum s
165
(actually integers) and their external representations.
166
This routine returns one if it succeeds, zero otherwise.
167
.br
168
.if t .ne 8
169
.LP
170
.ft B
171
.nf
172
.sp .5
173
xdr_float(xdrs, fp)
174
\s-1XDR\s0 *xdrs;
175
float *fp;
176
.fi
177
.ft R
178
.IP
179
A filter primitive that translates between C
180
.BR float s
181
and their external representations.
182
This routine returns one if it succeeds, zero otherwise.
183
.br
184
.if t .ne 9
185
.LP
186
.ft B
187
.nf
188
.sp .5
189
void
190
xdr_free(proc, objp)
191
xdrproc_t proc;
192
char *objp;
193
.fi
194
.ft R
195
.IP
196
Generic freeing routine.
197
The first argument is the
198
.SM XDR
199
routine for the object being freed.
200
The second argument
201
is a pointer to the object itself.
202
Note: the pointer passed
203
to this routine is
204
.I not
205
freed, but what it points to
206
.I is
207
freed (recursively).
208
.br
209
.if t .ne 8
210
.LP
211
.ft B
212
.nf
213
.sp .5
214
u_int
215
xdr_getpos(xdrs)
216
\s-1XDR\s0 *xdrs;
217
.fi
218
.ft R
219
.IP
220
A macro that invokes the get-position routine
221
associated with the
222
.SM XDR
223
stream,
224
.IR xdrs .
225
The routine returns an unsigned integer,
226
which indicates the position of the
227
.SM XDR
228
byte stream.
229
A desirable feature of
230
.SM XDR
231
streams is that simple arithmetic works with this number,
232
although the
233
.SM XDR
234
stream instances need not guarantee this.
235
.br
236
.if t .ne 4
237
.LP
238
.ft B
239
.nf
240
.sp .5
241
.br
242
long *
243
xdr_inline(xdrs, len)
244
\s-1XDR\s0 *xdrs;
245
int len;
246
.fi
247
.ft R
248
.IP
249
A macro that invokes the in-line routine associated with the
250
.SM XDR
251
stream,
252
.IR xdrs .
253
The routine returns a pointer
254
to a contiguous piece of the stream's buffer;
255
.I len
256
is the byte length of the desired buffer.
257
Note: pointer is cast to
258
.BR "long *" .
259
.IP
260
Warning:
261
.B xdr_inline(\|)
262
may return
263
.SM NULL
264
(0)
265
if it cannot allocate a contiguous piece of a buffer.
266
Therefore the behavior may vary among stream instances;
267
it exists for the sake of efficiency.
268
.br
269
.if t .ne 7
270
.LP
271
.ft B
272
.nf
273
.sp .5
274
xdr_int(xdrs, ip)
275
\s-1XDR\s0 *xdrs;
276
int *ip;
277
.fi
278
.ft R
279
.IP
280
A filter primitive that translates between C integers
281
and their external representations.
282
This routine returns one if it succeeds, zero otherwise.
283
.br
284
.if t .ne 7
285
.LP
286
.ft B
287
.nf
288
.sp .5
289
xdr_long(xdrs, lp)
290
\s-1XDR\s0 *xdrs;
291
long *lp;
292
.fi
293
.ft R
294
.IP
295
A filter primitive that translates between C
296
.B long
297
integers and their external representations.
298
This routine returns one if it succeeds, zero otherwise.
299
.br
300
.if t .ne 12
301
.LP
302
.ft B
303
.nf
304
.sp .5
305
void
306
xdrmem_create(xdrs, addr, size, op)
307
\s-1XDR\s0 *xdrs;
308
char *addr;
309
u_int size;
310
enum xdr_op op;
311
.fi
312
.ft R
313
.IP
314
This routine initializes the
315
.SM XDR
316
stream object pointed to by
317
.IR xdrs .
318
The stream's data is written to, or read from,
319
a chunk of memory at location
320
.I addr
321
whose length is no more than
322
.I size
323
bytes long.  The
324
.I op
325
determines the direction of the
326
.SM XDR
327
stream
328
(either
329
.BR \s-1XDR_ENCODE\s0 ,
330
.BR \s-1XDR_DECODE\s0 ,
331
or
332
.BR \s-1XDR_FREE\s0 ).
333
.br
334
.if t .ne 10
335
.LP
336
.ft B
337
.nf
338
.sp .5
339
xdr_opaque(xdrs, cp, cnt)
340
\s-1XDR\s0 *xdrs;
341
char *cp;
342
u_int cnt;
343
.fi
344
.ft R
345
.IP
346
A filter primitive that translates between fixed size opaque
347
data
348
and its external representation.
349
The parameter
350
.I cp
351
is the address of the opaque object, and
352
.I cnt
353
is its size in bytes.
354
This routine returns one if it succeeds, zero otherwise.
355
.br
356
.if t .ne 10
357
.LP
358
.ft B
359
.nf
360
.sp .5
361
xdr_pointer(xdrs, objpp, objsize, xdrobj)
362
\s-1XDR\s0 *xdrs;
363
char **objpp;
364
u_int objsize;
365
xdrproc_t xdrobj;
366
.fi
367
.ft R
368
.IP
369
Like
370
.B xdr_reference(\|)
371
execpt that it serializes
372
.SM NULL
373
pointers, whereas
374
.B xdr_reference(\|)
375
does not.  Thus,
376
.B xdr_pointer(\|)
377
can represent
378
recursive data structures, such as binary trees or
379
linked lists.
380
.br
381
.if t .ne 15
382
.LP
383
.ft B
384
.nf
385
.sp .5
386
void
387
xdrrec_create(xdrs, sendsize, recvsize, handle, readit, writeit)
388
\s-1XDR\s0 *xdrs;
389
u_int sendsize, recvsize;
390
char *handle;
391
int (*readit) (\|), (*writeit) (\|);
392
.fi
393
.ft R
394
.IP
395
This routine initializes the
396
.SM XDR
397
stream object pointed to by
398
.IR xdrs .
399
The stream's data is written to a buffer of size
400
.IR sendsize ;
401
a value of zero indicates the system should use a suitable
402
default.
403
The stream's data is read from a buffer of size
404
.IR recvsize ;
405
it too can be set to a suitable default by passing a zero
406
value.
407
When a stream's output buffer is full,
408
.I writeit
409
is called.  Similarly, when a stream's input buffer is empty,
410
.I readit
411
is called.  The behavior of these two routines is similar to
412
the
413
system calls
414
.B read
415
and
416
.BR write ,
417
except that
418
.I handle
419
is passed to the former routines as the first parameter.
420
Note: the
421
.SM XDR
422
stream's
423
.I op
424
field must be set by the caller.
425
.IP
426
Warning: this
427
.SM XDR
428
stream implements an intermediate record stream.
429
Therefore there are additional bytes in the stream
430
to provide record boundary information.
431
.br
432
.if t .ne 9
433
.LP
434
.ft B
435
.nf
436
.sp .5
437
xdrrec_endofrecord(xdrs, sendnow)
438
\s-1XDR\s0 *xdrs;
439
int sendnow;
440
.fi
441
.ft R
442
.IP
443
This routine can be invoked only on
444
streams created by
445
.BR xdrrec_create(\|) .
446
The data in the output buffer is marked as a completed
447
record,
448
and the output buffer is optionally written out if
449
.I sendnow
450
is non-zero.
451
This routine returns one if it succeeds, zero
452
otherwise.
453
.br
454
.if t .ne 8
455
.LP
456
.ft B
457
.nf
458
.sp .5
459
xdrrec_eof(xdrs)
460
\s-1XDR\s0 *xdrs;
461
int empty;
462
.fi
463
.ft R
464
.IP
465
This routine can be invoked only on
466
streams created by
467
.BR xdrrec_create(\|) .
468
After consuming the rest of the current record in the stream,
469
this routine returns one if the stream has no more input,
470
zero otherwise.
471
.br
472
.if t .ne 3
473
.LP
474
.ft B
475
.nf
476
.sp .5
477
xdrrec_skiprecord(xdrs)
478
\s-1XDR\s0 *xdrs;
479
.fi
480
.ft R
481
.IP
482
This routine can be invoked only on
483
streams created by
484
.BR xdrrec_create(\|) .
485
It tells the
486
.SM XDR
487
implementation that the rest of the current record
488
in the stream's input buffer should be discarded.
489
This routine returns one if it succeeds, zero otherwise.
490
.br
491
.if t .ne 11
492
.LP
493
.ft B
494
.nf
495
.sp .5
496
xdr_reference(xdrs, pp, size, proc)
497
\s-1XDR\s0 *xdrs;
498
char **pp;
499
u_int size;
500
xdrproc_t proc;
501
.fi
502
.ft R
503
.IP
504
A primitive that provides pointer chasing within structures.
505
The parameter
506
.I pp
507
is the address of the pointer;
508
.I size
509
is the
510
.I sizeof
511
the structure that
512
.I *pp
513
points to; and
514
.I proc
515
is an
516
.SM XDR
517
procedure that filters the structure
518
between its C form and its external representation.
519
This routine returns one if it succeeds, zero otherwise.
520
.IP
521
Warning: this routine does not understand
522
.SM NULL
523
pointers.
524
Use
525
.B xdr_pointer(\|)
526
instead.
527
.br
528
.if t .ne 10
529
.LP
530
.ft B
531
.nf
532
.sp .5
533
xdr_setpos(xdrs, pos)
534
\s-1XDR\s0 *xdrs;
535
u_int pos;
536
.fi
537
.ft R
538
.IP
539
A macro that invokes the set position routine associated with
540
the
541
.SM XDR
542
stream
543
.IR xdrs .
544
The parameter
545
.I pos
546
is a position value obtained from
547
.BR xdr_getpos(\|) .
548
This routine returns one if the
549
.SM XDR
550
stream could be repositioned,
551
and zero otherwise.
552
.IP
553
Warning: it is difficult to reposition some types of
554
.SM XDR
555
streams, so this routine may fail with one
556
type of stream and succeed with another.
557
.br
558
.if t .ne 8
559
.LP
560
.ft B
561
.nf
562
.sp .5
563
xdr_short(xdrs, sp)
564
\s-1XDR\s0 *xdrs;
565
short *sp;
566
.fi
567
.ft R
568
.IP
569
A filter primitive that translates between C
570
.B short
571
integers and their external representations.
572
This routine returns one if it succeeds, zero otherwise.
573
.br
574
.if t .ne 10
575
.LP
576
.ft B
577
.nf
578
.sp .5
579
void
580
xdrstdio_create(xdrs, file, op)
581
\s-1XDR\s0 *xdrs;
582
\s-1FILE\s0 *file;
583
enum xdr_op op;
584
.fi
585
.ft R
586
.IP
587
This routine initializes the
588
.SM XDR
589
stream object pointed to by
590
.IR xdrs .
591
The
592
.SM XDR
593
stream data is written to, or read from, the Standard
594
.B I/O
595
stream
596
.IR file .
597
The parameter
598
.I op
599
determines the direction of the
600
.SM XDR
601
stream (either
602
.BR \s-1XDR_ENCODE\s0 ,
603
.BR \s-1XDR_DECODE\s0 ,
604
or
605
.BR \s-1XDR_FREE\s0 ).
606
.IP
607
Warning: the destroy routine associated with such
608
.SM XDR
609
streams calls
610
.B fflush(\|)
611
on the
612
.I file
613
stream, but never
614
.BR fclose(\|) .
615
.br
616
.if t .ne 9
617
.LP
618
.ft B
619
.nf
620
.sp .5
621
xdr_string(xdrs, sp, maxsize)
622
\s-1XDR\s0
623
*xdrs;
624
char **sp;
625
u_int maxsize;
626
.fi
627
.ft R
628
.IP
629
A filter primitive that translates between C strings and
630
their
631
corresponding external representations.
632
Strings cannot be longer than
633
.IR maxsize .
634
Note:
635
.I sp
636
is the address of the string's pointer.
637
This routine returns one if it succeeds, zero otherwise.
638
.br
639
.if t .ne 8
640
.LP
641
.ft B
642
.nf
643
.sp .5
644
xdr_u_char(xdrs, ucp)
645
\s-1XDR\s0 *xdrs;
646
unsigned char *ucp;
647
.fi
648
.ft R
649
.IP
650
A filter primitive that translates between
651
.B unsigned
652
C characters and their external representations.
653
This routine returns one if it succeeds, zero otherwise.
654
.br
655
.if t .ne 9
656
.LP
657
.ft B
658
.nf
659
.sp .5
660
xdr_u_int(xdrs, up)
661
\s-1XDR\s0 *xdrs;
662
unsigned *up;
663
.fi
664
.ft R
665
.IP
666
A filter primitive that translates between C
667
.B unsigned
668
integers and their external representations.
669
This routine returns one if it succeeds, zero otherwise.
670
.br
671
.if t .ne 7
672
.LP
673
.ft B
674
.nf
675
.sp .5
676
xdr_u_long(xdrs, ulp)
677
\s-1XDR\s0 *xdrs;
678
unsigned long *ulp;
679
.fi
680
.ft R
681
.IP
682
A filter primitive that translates between C
683
.B "unsigned long"
684
integers and their external representations.
685
This routine returns one if it succeeds, zero otherwise.
686
.br
687
.if t .ne 7
688
.LP
689
.ft B
690
.nf
691
.sp .5
692
xdr_u_short(xdrs, usp)
693
\s-1XDR\s0 *xdrs;
694
unsigned short *usp;
695
.fi
696
.ft R
697
.IP
698
A filter primitive that translates between C
699
.B "unsigned short"
700
integers and their external representations.
701
This routine returns one if it succeeds, zero otherwise.
702
.br
703
.if t .ne 16
704
.LP
705
.ft B
706
.nf
707
.sp .5
708
xdr_union(xdrs, dscmp, unp, choices, dfault)
709
\s-1XDR\s0 *xdrs;
710
int *dscmp;
711
char *unp;
712
struct xdr_discrim *choices;
713
bool_t (*defaultarm) (\|);  /* may equal \s-1NULL\s0 */
714
.fi
715
.ft R
716
.IP
717
A filter primitive that translates between a discriminated C
718
.B union
719
and its corresponding external representation.
720
It first
721
translates the discriminant of the union located at
722
.IR dscmp .
723
This discriminant is always an
724
.BR enum_t .
725
Next the union located at
726
.I unp
727
is translated.  The parameter
728
.I choices
729
is a pointer to an array of
730
.B xdr_discrim(\|)
731
structures.
732
Each structure contains an ordered pair of
733
.RI [ value , proc ].
734
If the union's discriminant is equal to the associated
735
.IR value ,
736
then the
737
.I proc
738
is called to translate the union.  The end of the
739
.B xdr_discrim(\|)
740
structure array is denoted by a routine of value
741
.SM NULL\s0.
742
If the discriminant is not found in the
743
.I choices
744
array, then the
745
.I defaultarm
746
procedure is called (if it is not
747
.SM NULL\s0).
748
Returns one if it succeeds, zero otherwise.
749
.br
750
.if t .ne 6
751
.LP
752
.ft B
753
.nf
754
.sp .5
755
xdr_vector(xdrs, arrp, size, elsize, elproc)
756
\s-1XDR\s0 *xdrs;
757
char *arrp;
758
u_int size, elsize;
759
xdrproc_t elproc;
760
.fi
761
.ft R
762
.IP
763
A filter primitive that translates between fixed-length
764
arrays
765
and their corresponding external representations.  The
766
parameter
767
.I arrp
768
is the address of the pointer to the array, while
769
.I size
770
is the element count of the array.  The parameter
771
.I elsize
772
is the
773
.I sizeof
774
each of the array's elements, and
775
.I elproc
776
is an
777
.SM XDR
778
filter that translates between
779
the array elements' C form, and their external
780
representation.
781
This routine returns one if it succeeds, zero otherwise.
782
.br
783
.if t .ne 5
784
.LP
785
.ft B
786
.nf
787
.sp .5
788
xdr_void(\|)
789
.fi
790
.ft R
791
.IP
792
This routine always returns one.
793
It may be passed to
794
.SM RPC
795
routines that require a function parameter,
796
where nothing is to be done.
797
.br
798
.if t .ne 10
799
.LP
800
.ft B
801
.nf
802
.sp .5
803
xdr_wrapstring(xdrs, sp)
804
\s-1XDR\s0 *xdrs;
805
char **sp;
806
.fi
807
.ft R
808
.IP
809
A primitive that calls
810
.B "xdr_string(xdrs, sp,\s-1MAXUN.UNSIGNED\s0 );"
811
where
812
.B
813
.SM MAXUN.UNSIGNED
814
is the maximum value of an unsigned integer.
815
.B xdr_wrapstring(\|)
816
is handy because the
817
.SM RPC
818
package passes a maximum of two
819
.SM XDR
820
routines as parameters, and
821
.BR xdr_string(\|) ,
822
one of the most frequently used primitives, requires three.
823
Returns one if it succeeds, zero otherwise.
824
.SH SEE ALSO
825
.BR rpc (3)
826
.LP
827
The following manuals:
828
.RS
829
.ft I
830
eXternal Data Representation Standard: Protocol Specification
831
.br
832
eXternal Data Representation: Sun Technical Notes
833
.ft R
834
.br
835
.IR "\s-1XDR\s0: External Data Representation Standard" ,
836
.SM RFC1014, Sun Microsystems, Inc.,
837
.SM USC-ISI\s0.

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