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1 /* tasn_prn.c */
2 /* Written by Dr Stephen N Henson (steve@openssl.org) for the OpenSSL
3  * project 2000.
4  */
5 /* ====================================================================
6  * Copyright (c) 2000,2005 The OpenSSL Project.  All rights reserved.
7  *
8  * Redistribution and use in source and binary forms, with or without
9  * modification, are permitted provided that the following conditions
10  * are met:
11  *
12  * 1. Redistributions of source code must retain the above copyright
13  *    notice, this list of conditions and the following disclaimer.
14  *
15  * 2. Redistributions in binary form must reproduce the above copyright
16  *    notice, this list of conditions and the following disclaimer in
17  *    the documentation and/or other materials provided with the
18  *    distribution.
19  *
20  * 3. All advertising materials mentioning features or use of this
21  *    software must display the following acknowledgment:
22  *    "This product includes software developed by the OpenSSL Project
23  *    for use in the OpenSSL Toolkit. (http://www.OpenSSL.org/)"
24  *
25  * 4. The names "OpenSSL Toolkit" and "OpenSSL Project" must not be used to
26  *    endorse or promote products derived from this software without
27  *    prior written permission. For written permission, please contact
28  *    licensing@OpenSSL.org.
29  *
30  * 5. Products derived from this software may not be called "OpenSSL"
31  *    nor may "OpenSSL" appear in their names without prior written
32  *    permission of the OpenSSL Project.
33  *
34  * 6. Redistributions of any form whatsoever must retain the following
35  *    acknowledgment:
36  *    "This product includes software developed by the OpenSSL Project
37  *    for use in the OpenSSL Toolkit (http://www.OpenSSL.org/)"
38  *
39  * THIS SOFTWARE IS PROVIDED BY THE OpenSSL PROJECT ``AS IS'' AND ANY
40  * EXPRESSED OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
41  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
42  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE OpenSSL PROJECT OR
43  * ITS CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
44  * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
45  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
46  * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
47  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
48  * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
49  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED
50  * OF THE POSSIBILITY OF SUCH DAMAGE.
51  * ====================================================================
52  *
53  * This product includes cryptographic software written by Eric Young
54  * (eay@cryptsoft.com).  This product includes software written by Tim
55  * Hudson (tjh@cryptsoft.com).
56  *
57  */
58 
59 
60 #include <stddef.h>
61 #include "cryptlib.h"
62 #include <openssl/asn1.h>
63 #include <openssl/asn1t.h>
64 #include <openssl/objects.h>
65 #include <openssl/buffer.h>
66 #include <openssl/err.h>
67 #include <openssl/x509v3.h>
68 #include "asn1_locl.h"
69 
70 /* Print routines.
71  */
72 
73 /* ASN1_PCTX routines */
74 
75 ASN1_PCTX default_pctx =
76 	{
77 	ASN1_PCTX_FLAGS_SHOW_ABSENT,	/* flags */
78 	0,	/* nm_flags */
79 	0,	/* cert_flags */
80 	0,	/* oid_flags */
81 	0	/* str_flags */
82 	};
83 
84 
ASN1_PCTX_new(void)85 ASN1_PCTX *ASN1_PCTX_new(void)
86 	{
87 	ASN1_PCTX *ret;
88 	ret = OPENSSL_malloc(sizeof(ASN1_PCTX));
89 	if (ret == NULL)
90 		{
91 		ASN1err(ASN1_F_ASN1_PCTX_NEW, ERR_R_MALLOC_FAILURE);
92 		return NULL;
93 		}
94 	ret->flags = 0;
95 	ret->nm_flags = 0;
96 	ret->cert_flags = 0;
97 	ret->oid_flags = 0;
98 	ret->str_flags = 0;
99 	return ret;
100 	}
101 
ASN1_PCTX_free(ASN1_PCTX * p)102 void ASN1_PCTX_free(ASN1_PCTX *p)
103 	{
104 	OPENSSL_free(p);
105 	}
106 
ASN1_PCTX_get_flags(ASN1_PCTX * p)107 unsigned long ASN1_PCTX_get_flags(ASN1_PCTX *p)
108 	{
109 	return p->flags;
110 	}
111 
ASN1_PCTX_set_flags(ASN1_PCTX * p,unsigned long flags)112 void ASN1_PCTX_set_flags(ASN1_PCTX *p, unsigned long flags)
113 	{
114 	p->flags = flags;
115 	}
116 
ASN1_PCTX_get_nm_flags(ASN1_PCTX * p)117 unsigned long ASN1_PCTX_get_nm_flags(ASN1_PCTX *p)
118 	{
119 	return p->nm_flags;
120 	}
121 
ASN1_PCTX_set_nm_flags(ASN1_PCTX * p,unsigned long flags)122 void ASN1_PCTX_set_nm_flags(ASN1_PCTX *p, unsigned long flags)
123 	{
124 	p->nm_flags = flags;
125 	}
126 
ASN1_PCTX_get_cert_flags(ASN1_PCTX * p)127 unsigned long ASN1_PCTX_get_cert_flags(ASN1_PCTX *p)
128 	{
129 	return p->cert_flags;
130 	}
131 
ASN1_PCTX_set_cert_flags(ASN1_PCTX * p,unsigned long flags)132 void ASN1_PCTX_set_cert_flags(ASN1_PCTX *p, unsigned long flags)
133 	{
134 	p->cert_flags = flags;
135 	}
136 
ASN1_PCTX_get_oid_flags(ASN1_PCTX * p)137 unsigned long ASN1_PCTX_get_oid_flags(ASN1_PCTX *p)
138 	{
139 	return p->oid_flags;
140 	}
141 
ASN1_PCTX_set_oid_flags(ASN1_PCTX * p,unsigned long flags)142 void ASN1_PCTX_set_oid_flags(ASN1_PCTX *p, unsigned long flags)
143 	{
144 	p->oid_flags = flags;
145 	}
146 
ASN1_PCTX_get_str_flags(ASN1_PCTX * p)147 unsigned long ASN1_PCTX_get_str_flags(ASN1_PCTX *p)
148 	{
149 	return p->str_flags;
150 	}
151 
ASN1_PCTX_set_str_flags(ASN1_PCTX * p,unsigned long flags)152 void ASN1_PCTX_set_str_flags(ASN1_PCTX *p, unsigned long flags)
153 	{
154 	p->str_flags = flags;
155 	}
156 
157 /* Main print routines */
158 
159 static int asn1_item_print_ctx(BIO *out, ASN1_VALUE **fld, int indent,
160 				const ASN1_ITEM *it,
161 				const char *fname, const char *sname,
162 				int nohdr, const ASN1_PCTX *pctx);
163 
164 int asn1_template_print_ctx(BIO *out, ASN1_VALUE **fld, int indent,
165 				const ASN1_TEMPLATE *tt, const ASN1_PCTX *pctx);
166 
167 static int asn1_primitive_print(BIO *out, ASN1_VALUE **fld,
168 				const ASN1_ITEM *it, int indent,
169 				const char *fname, const char *sname,
170 				const ASN1_PCTX *pctx);
171 
172 static int asn1_print_fsname(BIO *out, int indent,
173 			const char *fname, const char *sname,
174 			const ASN1_PCTX *pctx);
175 
ASN1_item_print(BIO * out,ASN1_VALUE * ifld,int indent,const ASN1_ITEM * it,const ASN1_PCTX * pctx)176 int ASN1_item_print(BIO *out, ASN1_VALUE *ifld, int indent,
177 				const ASN1_ITEM *it, const ASN1_PCTX *pctx)
178 	{
179 	const char *sname;
180 	if (pctx == NULL)
181 		pctx = &default_pctx;
182 	if (pctx->flags & ASN1_PCTX_FLAGS_NO_STRUCT_NAME)
183 		sname = NULL;
184 	else
185 		sname = it->sname;
186 	return asn1_item_print_ctx(out, &ifld, indent, it,
187 							NULL, sname, 0, pctx);
188 	}
189 
asn1_item_print_ctx(BIO * out,ASN1_VALUE ** fld,int indent,const ASN1_ITEM * it,const char * fname,const char * sname,int nohdr,const ASN1_PCTX * pctx)190 static int asn1_item_print_ctx(BIO *out, ASN1_VALUE **fld, int indent,
191 				const ASN1_ITEM *it,
192 				const char *fname, const char *sname,
193 				int nohdr, const ASN1_PCTX *pctx)
194 	{
195 	const ASN1_TEMPLATE *tt;
196 	const ASN1_EXTERN_FUNCS *ef;
197 	ASN1_VALUE **tmpfld;
198 	const ASN1_AUX *aux = it->funcs;
199 	ASN1_aux_cb *asn1_cb;
200 	ASN1_PRINT_ARG parg;
201 	int i;
202 	if (aux && aux->asn1_cb)
203 		{
204 		parg.out = out;
205 		parg.indent = indent;
206 		parg.pctx = pctx;
207 		asn1_cb = aux->asn1_cb;
208 		}
209 	else asn1_cb = 0;
210 
211 	if(*fld == NULL)
212 		{
213 		if (pctx->flags & ASN1_PCTX_FLAGS_SHOW_ABSENT)
214 			{
215 			if (!nohdr && !asn1_print_fsname(out, indent,
216 							fname, sname, pctx))
217 				return 0;
218 			if (BIO_puts(out, "<ABSENT>\n") <= 0)
219 				return 0;
220 			}
221 		return 1;
222 		}
223 
224 	switch(it->itype)
225 		{
226 		case ASN1_ITYPE_PRIMITIVE:
227 		if(it->templates)
228 			{
229 			if (!asn1_template_print_ctx(out, fld, indent,
230 							it->templates, pctx))
231 				return 0;
232 			}
233 		/* fall thru */
234 		case ASN1_ITYPE_MSTRING:
235 		if (!asn1_primitive_print(out, fld, it,
236 				indent, fname, sname,pctx))
237 			return 0;
238 		break;
239 
240 		case ASN1_ITYPE_EXTERN:
241 		if (!nohdr && !asn1_print_fsname(out, indent, fname, sname, pctx))
242 			return 0;
243 		/* Use new style print routine if possible */
244 		ef = it->funcs;
245 		if (ef && ef->asn1_ex_print)
246 			{
247 			i = ef->asn1_ex_print(out, fld, indent, "", pctx);
248 			if (!i)
249 				return 0;
250 			if ((i == 2) && (BIO_puts(out, "\n") <= 0))
251 				return 0;
252 			return 1;
253 			}
254 		else if (sname &&
255 			BIO_printf(out, ":EXTERNAL TYPE %s\n", sname) <= 0)
256 			return 0;
257 		break;
258 
259 		case ASN1_ITYPE_CHOICE:
260 #if 0
261 		if (!nohdr && !asn1_print_fsname(out, indent, fname, sname, pctx))
262 			return 0;
263 #endif
264 		/* CHOICE type, get selector */
265 		i = asn1_get_choice_selector(fld, it);
266 		/* This should never happen... */
267 		if((i < 0) || (i >= it->tcount))
268 			{
269 			if (BIO_printf(out,
270 				"ERROR: selector [%d] invalid\n", i) <= 0)
271 				return 0;
272 			return 1;
273 			}
274 		tt = it->templates + i;
275 		tmpfld = asn1_get_field_ptr(fld, tt);
276 		if (!asn1_template_print_ctx(out, tmpfld, indent, tt, pctx))
277 			return 0;
278 		break;
279 
280 		case ASN1_ITYPE_SEQUENCE:
281 		case ASN1_ITYPE_NDEF_SEQUENCE:
282 		if (!nohdr && !asn1_print_fsname(out, indent, fname, sname, pctx))
283 			return 0;
284 		if (fname || sname)
285 			{
286 			if (pctx->flags & ASN1_PCTX_FLAGS_SHOW_SEQUENCE)
287 				{
288 				if (BIO_puts(out, " {\n") <= 0)
289 					return 0;
290 				}
291 			else
292 				{
293 				if (BIO_puts(out, "\n") <= 0)
294 					return 0;
295 				}
296 			}
297 
298 		if (asn1_cb)
299 			{
300 			i = asn1_cb(ASN1_OP_PRINT_PRE, fld, it, &parg);
301 			if (i == 0)
302 				return 0;
303 			if (i == 2)
304 				return 1;
305 			}
306 
307 		/* Print each field entry */
308 		for(i = 0, tt = it->templates; i < it->tcount; i++, tt++)
309 			{
310 			const ASN1_TEMPLATE *seqtt;
311 			seqtt = asn1_do_adb(fld, tt, 1);
312 			tmpfld = asn1_get_field_ptr(fld, seqtt);
313 			if (!asn1_template_print_ctx(out, tmpfld,
314 						indent + 2, seqtt, pctx))
315 				return 0;
316 			}
317 		if (pctx->flags & ASN1_PCTX_FLAGS_SHOW_SEQUENCE)
318 			{
319 			if (BIO_printf(out, "%*s}\n", indent, "") < 0)
320 				return 0;
321 			}
322 
323 		if (asn1_cb)
324 			{
325 			i = asn1_cb(ASN1_OP_PRINT_POST, fld, it, &parg);
326 			if (i == 0)
327 				return 0;
328 			}
329 		break;
330 
331 		default:
332 		BIO_printf(out, "Unprocessed type %d\n", it->itype);
333 		return 0;
334 		}
335 
336 	return 1;
337 	}
338 
asn1_template_print_ctx(BIO * out,ASN1_VALUE ** fld,int indent,const ASN1_TEMPLATE * tt,const ASN1_PCTX * pctx)339 int asn1_template_print_ctx(BIO *out, ASN1_VALUE **fld, int indent,
340 				const ASN1_TEMPLATE *tt, const ASN1_PCTX *pctx)
341 	{
342 	int i, flags;
343 	const char *sname, *fname;
344 	flags = tt->flags;
345 	if(pctx->flags & ASN1_PCTX_FLAGS_SHOW_FIELD_STRUCT_NAME)
346 		sname = ASN1_ITEM_ptr(tt->item)->sname;
347 	else
348 		sname = NULL;
349 	if(pctx->flags & ASN1_PCTX_FLAGS_NO_FIELD_NAME)
350 		fname = NULL;
351 	else
352 		fname = tt->field_name;
353 	if(flags & ASN1_TFLG_SK_MASK)
354 		{
355 		char *tname;
356 		ASN1_VALUE *skitem;
357 		STACK_OF(ASN1_VALUE) *stack;
358 
359 		/* SET OF, SEQUENCE OF */
360 		if (fname)
361 			{
362 			if(pctx->flags & ASN1_PCTX_FLAGS_SHOW_SSOF)
363 				{
364 				if(flags & ASN1_TFLG_SET_OF)
365 					tname = "SET";
366 				else
367 					tname = "SEQUENCE";
368 				if (BIO_printf(out, "%*s%s OF %s {\n",
369 					indent, "", tname, tt->field_name) <= 0)
370 					return 0;
371 				}
372 			else if (BIO_printf(out, "%*s%s:\n", indent, "",
373 					fname) <= 0)
374 				return 0;
375 			}
376 		stack = (STACK_OF(ASN1_VALUE) *)*fld;
377 		for(i = 0; i < sk_ASN1_VALUE_num(stack); i++)
378 			{
379 			if ((i > 0) && (BIO_puts(out, "\n") <= 0))
380 				return 0;
381 
382 			skitem = sk_ASN1_VALUE_value(stack, i);
383 			if (!asn1_item_print_ctx(out, &skitem, indent + 2,
384 				ASN1_ITEM_ptr(tt->item), NULL, NULL, 1, pctx))
385 				return 0;
386 			}
387 		if (!i && BIO_printf(out, "%*s<EMPTY>\n", indent + 2, "") <= 0)
388 				return 0;
389 		if(pctx->flags & ASN1_PCTX_FLAGS_SHOW_SEQUENCE)
390 			{
391 			if (BIO_printf(out, "%*s}\n", indent, "") <= 0)
392 				return 0;
393 			}
394 		return 1;
395 		}
396 	return asn1_item_print_ctx(out, fld, indent, ASN1_ITEM_ptr(tt->item),
397 							fname, sname, 0, pctx);
398 	}
399 
asn1_print_fsname(BIO * out,int indent,const char * fname,const char * sname,const ASN1_PCTX * pctx)400 static int asn1_print_fsname(BIO *out, int indent,
401 			const char *fname, const char *sname,
402 			const ASN1_PCTX *pctx)
403 	{
404 	static char spaces[] = "                    ";
405 	const int nspaces = sizeof(spaces) - 1;
406 
407 #if 0
408 	if (!sname && !fname)
409 		return 1;
410 #endif
411 
412 	while (indent > nspaces)
413 		{
414 		if (BIO_write(out, spaces, nspaces) != nspaces)
415 			return 0;
416 		indent -= nspaces;
417 		}
418 	if (BIO_write(out, spaces, indent) != indent)
419 		return 0;
420 	if (pctx->flags & ASN1_PCTX_FLAGS_NO_STRUCT_NAME)
421 		sname = NULL;
422 	if (pctx->flags & ASN1_PCTX_FLAGS_NO_FIELD_NAME)
423 		fname = NULL;
424 	if (!sname && !fname)
425 		return 1;
426 	if (fname)
427 		{
428 		if (BIO_puts(out, fname) <= 0)
429 			return 0;
430 		}
431 	if (sname)
432 		{
433 		if (fname)
434 			{
435 			if (BIO_printf(out, " (%s)", sname) <= 0)
436 				return 0;
437 			}
438 		else
439 			{
440 			if (BIO_puts(out, sname) <= 0)
441 				return 0;
442 			}
443 		}
444 	if (BIO_write(out, ": ", 2) != 2)
445 		return 0;
446 	return 1;
447 	}
448 
asn1_print_boolean_ctx(BIO * out,int boolval,const ASN1_PCTX * pctx)449 static int asn1_print_boolean_ctx(BIO *out, int boolval,
450 							const ASN1_PCTX *pctx)
451 	{
452 	const char *str;
453 	switch (boolval)
454 		{
455 		case -1:
456 		str = "BOOL ABSENT";
457 		break;
458 
459 		case 0:
460 		str = "FALSE";
461 		break;
462 
463 		default:
464 		str = "TRUE";
465 		break;
466 
467 		}
468 
469 	if (BIO_puts(out, str) <= 0)
470 		return 0;
471 	return 1;
472 
473 	}
474 
asn1_print_integer_ctx(BIO * out,ASN1_INTEGER * str,const ASN1_PCTX * pctx)475 static int asn1_print_integer_ctx(BIO *out, ASN1_INTEGER *str,
476 						const ASN1_PCTX *pctx)
477 	{
478 	char *s;
479 	int ret = 1;
480 	s = i2s_ASN1_INTEGER(NULL, str);
481 	if (BIO_puts(out, s) <= 0)
482 		ret = 0;
483 	OPENSSL_free(s);
484 	return ret;
485 	}
486 
asn1_print_oid_ctx(BIO * out,const ASN1_OBJECT * oid,const ASN1_PCTX * pctx)487 static int asn1_print_oid_ctx(BIO *out, const ASN1_OBJECT *oid,
488 						const ASN1_PCTX *pctx)
489 	{
490 	char objbuf[80];
491 	const char *ln;
492 	ln = OBJ_nid2ln(OBJ_obj2nid(oid));
493 	if(!ln)
494 		ln = "";
495 	OBJ_obj2txt(objbuf, sizeof objbuf, oid, 1);
496 	if (BIO_printf(out, "%s (%s)", ln, objbuf) <= 0)
497 		return 0;
498 	return 1;
499 	}
500 
asn1_print_obstring_ctx(BIO * out,ASN1_STRING * str,int indent,const ASN1_PCTX * pctx)501 static int asn1_print_obstring_ctx(BIO *out, ASN1_STRING *str, int indent,
502 						const ASN1_PCTX *pctx)
503 	{
504 	if (str->type == V_ASN1_BIT_STRING)
505 		{
506 		if (BIO_printf(out, " (%ld unused bits)\n",
507 					str->flags & 0x7) <= 0)
508 				return 0;
509 		}
510 	else if (BIO_puts(out, "\n") <= 0)
511 		return 0;
512 	if ((str->length > 0)
513 		&& BIO_dump_indent(out, (char *)str->data, str->length,
514 				indent + 2) <= 0)
515 		return 0;
516 	return 1;
517 	}
518 
asn1_primitive_print(BIO * out,ASN1_VALUE ** fld,const ASN1_ITEM * it,int indent,const char * fname,const char * sname,const ASN1_PCTX * pctx)519 static int asn1_primitive_print(BIO *out, ASN1_VALUE **fld,
520 				const ASN1_ITEM *it, int indent,
521 				const char *fname, const char *sname,
522 				const ASN1_PCTX *pctx)
523 	{
524 	long utype;
525 	ASN1_STRING *str;
526 	int ret = 1, needlf = 1;
527 	const char *pname;
528 	const ASN1_PRIMITIVE_FUNCS *pf;
529 	pf = it->funcs;
530 	if (!asn1_print_fsname(out, indent, fname, sname, pctx))
531 			return 0;
532 	if (pf && pf->prim_print)
533 		return pf->prim_print(out, fld, it, indent, pctx);
534 	str = (ASN1_STRING *)*fld;
535 	if (it->itype == ASN1_ITYPE_MSTRING)
536 		utype = str->type & ~V_ASN1_NEG;
537 	else
538 		utype = it->utype;
539 	if (utype == V_ASN1_ANY)
540 		{
541 		ASN1_TYPE *atype = (ASN1_TYPE *)*fld;
542 		utype = atype->type;
543 		fld = &atype->value.asn1_value;
544 		str = (ASN1_STRING *)*fld;
545 		if (pctx->flags & ASN1_PCTX_FLAGS_NO_ANY_TYPE)
546 			pname = NULL;
547 		else
548 			pname = ASN1_tag2str(utype);
549 		}
550 	else
551 		{
552 		if (pctx->flags & ASN1_PCTX_FLAGS_SHOW_TYPE)
553 			pname = ASN1_tag2str(utype);
554 		else
555 			pname = NULL;
556 		}
557 
558 	if (utype == V_ASN1_NULL)
559 		{
560 		if (BIO_puts(out, "NULL\n") <= 0)
561 			return 0;
562 		return 1;
563 		}
564 
565 	if (pname)
566 		{
567 		if (BIO_puts(out, pname) <= 0)
568 			return 0;
569 		if (BIO_puts(out, ":") <= 0)
570 			return 0;
571 		}
572 
573 	switch (utype)
574 		{
575 		case V_ASN1_BOOLEAN:
576 			{
577 			int boolval = *(int *)fld;
578 			if (boolval == -1)
579 				boolval = it->size;
580 			ret = asn1_print_boolean_ctx(out, boolval, pctx);
581 			}
582 		break;
583 
584 		case V_ASN1_INTEGER:
585 		case V_ASN1_ENUMERATED:
586 		ret = asn1_print_integer_ctx(out, str, pctx);
587 		break;
588 
589 		case V_ASN1_UTCTIME:
590 		ret = ASN1_UTCTIME_print(out, str);
591 		break;
592 
593 		case V_ASN1_GENERALIZEDTIME:
594 		ret = ASN1_GENERALIZEDTIME_print(out, str);
595 		break;
596 
597 		case V_ASN1_OBJECT:
598 		ret = asn1_print_oid_ctx(out, (const ASN1_OBJECT *)*fld, pctx);
599 		break;
600 
601 		case V_ASN1_OCTET_STRING:
602 		case V_ASN1_BIT_STRING:
603 		ret = asn1_print_obstring_ctx(out, str, indent, pctx);
604 		needlf = 0;
605 		break;
606 
607 		case V_ASN1_SEQUENCE:
608 		case V_ASN1_SET:
609 		case V_ASN1_OTHER:
610 		if (BIO_puts(out, "\n") <= 0)
611 			return 0;
612 		if (ASN1_parse_dump(out, str->data, str->length,
613 						indent, 0) <= 0)
614 			ret = 0;
615 		needlf = 0;
616 		break;
617 
618 		default:
619 		ret = ASN1_STRING_print_ex(out, str, pctx->str_flags);
620 
621 		}
622 	if (!ret)
623 		return 0;
624 	if (needlf && BIO_puts(out, "\n") <= 0)
625 		return 0;
626 	return 1;
627 	}
628