IMAP: fix and tweak previous [830f948]
[s-mailx.git] / urlcrecry.c
blob8fb3d4bce14122a8c0fc12e18b85f2914e148aa1
1 /*@ S-nail - a mail user agent derived from Berkeley Mail.
2 *@ URL parsing, credential handling and crypto hooks.
3 *@ .netrc parser quite loosely based upon NetBSD usr.bin/ftp/
4 *@ $NetBSD: ruserpass.c,v 1.33 2007/04/17 05:52:04 lukem Exp $
6 * Copyright (c) 2014 - 2015 Steffen (Daode) Nurpmeso <sdaoden@users.sf.net>.
8 * Permission to use, copy, modify, and/or distribute this software for any
9 * purpose with or without fee is hereby granted, provided that the above
10 * copyright notice and this permission notice appear in all copies.
12 * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
13 * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
14 * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
15 * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
16 * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
17 * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
18 * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
20 #undef n_FILE
21 #define n_FILE urlcrecry
23 #ifndef HAVE_AMALGAMATION
24 # include "nail.h"
25 #endif
27 #ifdef HAVE_NETRC
28 /* NetBSD usr.bin/ftp/ruserpass.c uses 100 bytes for that, we need four
29 * concurrently (dummy, host, user, pass), so make it a KB */
30 # define NRC_TOKEN_MAXLEN (1024 / 4)
32 enum nrc_token {
33 NRC_ERROR = -1,
34 NRC_NONE = 0,
35 NRC_DEFAULT,
36 NRC_LOGIN,
37 NRC_PASSWORD,
38 NRC_ACCOUNT,
39 NRC_MACDEF,
40 NRC_MACHINE,
41 NRC_INPUT
44 struct nrc_node {
45 struct nrc_node *nrc_next;
46 struct nrc_node *nrc_result; /* In match phase, former possible one */
47 ui32_t nrc_mlen; /* Length of machine name */
48 ui32_t nrc_ulen; /* Length of user name */
49 ui32_t nrc_plen; /* Length of password */
50 char nrc_dat[VFIELD_SIZE(sizeof(ui32_t))];
52 # define NRC_NODE_ERR ((struct nrc_node*)-1)
54 static struct nrc_node *_nrc_list;
55 #endif /* HAVE_NETRC */
57 /* Find the last @ before a slash
58 * TODO Casts off the const but this is ok here; obsolete function! */
59 #ifdef HAVE_SOCKETS /* temporary (we'll have file://..) */
60 static char * _url_last_at_before_slash(char const *sp);
61 #endif
63 #ifdef HAVE_NETRC
64 /* Initialize .netrc cache */
65 static void _nrc_init(void);
66 static enum nrc_token __nrc_token(FILE *fi, char buffer[NRC_TOKEN_MAXLEN]);
68 /* We shall lookup a machine in .netrc says ok_blook(netrc_lookup).
69 * only_pass is true then the lookup is for the password only, otherwise we
70 * look for a user (and add password only if we have an exact machine match) */
71 static bool_t _nrc_lookup(struct url *urlp, bool_t only_pass);
73 /* 0=no match; 1=exact match; -1=wildcard match */
74 static int __nrc_host_match(struct nrc_node const *nrc,
75 struct url const *urlp);
76 static bool_t __nrc_find_user(struct url *urlp,
77 struct nrc_node const *nrc);
78 static bool_t __nrc_find_pass(struct url *urlp, bool_t user_match,
79 struct nrc_node const *nrc);
80 #endif /* HAVE_NETRC */
82 /* The password can also be gained through external agents */
83 #ifdef HAVE_AGENT
84 static bool_t _agent_shell_lookup(struct url *urlp, char const *comm);
85 #endif
87 #ifdef HAVE_SOCKETS
88 static char *
89 _url_last_at_before_slash(char const *sp)
91 char const *cp;
92 char c;
93 NYD2_ENTER;
95 for (cp = sp; (c = *cp) != '\0'; ++cp)
96 if (c == '/')
97 break;
98 while (cp > sp && *--cp != '@')
100 if (*cp != '@')
101 cp = NULL;
102 NYD2_LEAVE;
103 return UNCONST(cp);
105 #endif
107 #ifdef HAVE_NETRC
108 static void
109 _nrc_init(void)
111 char buffer[NRC_TOKEN_MAXLEN], host[NRC_TOKEN_MAXLEN],
112 user[NRC_TOKEN_MAXLEN], pass[NRC_TOKEN_MAXLEN], *netrc_load;
113 struct stat sb;
114 FILE *fi;
115 enum nrc_token t;
116 bool_t seen_default;
117 struct nrc_node *ntail = NULL /* CC happy */, *nhead = NULL,
118 *nrc = NRC_NODE_ERR;
119 NYD_ENTER;
121 if ((netrc_load = env_vlook("NETRC", FAL0)) == NULL)
122 netrc_load = UNCONST(NETRC);
123 if ((netrc_load = file_expand(netrc_load)) == NULL)
124 goto j_leave;
126 if ((fi = Fopen(netrc_load, "r")) == NULL) {
127 n_err(_("Cannot open \"%s\"\n"), netrc_load);
128 goto j_leave;
131 /* Be simple and apply rigid (permission) check(s) */
132 if (fstat(fileno(fi), &sb) == -1 || !S_ISREG(sb.st_mode) ||
133 (sb.st_mode & (S_IRWXG | S_IRWXO))) {
134 n_err(_("Not a regular file, or accessible by non-user: \"%s\"\n"),
135 netrc_load);
136 goto jleave;
139 seen_default = FAL0;
140 jnext:
141 switch((t = __nrc_token(fi, buffer))) {
142 case NRC_NONE:
143 break;
144 default: /* Doesn't happen (but on error?), keep CC happy */
145 case NRC_DEFAULT:
146 jdef:
147 /* We ignore the default entry (require an exact host match), and we also
148 * ignore anything after such an entry (faulty syntax) */
149 seen_default = TRU1;
150 /* FALLTHRU */
151 case NRC_MACHINE:
152 jm_h:
153 /* Normalize HOST to lowercase */
154 *host = '\0';
155 if (!seen_default && (t = __nrc_token(fi, host)) != NRC_INPUT)
156 goto jerr;
157 else {
158 char *cp;
159 for (cp = host; *cp != '\0'; ++cp)
160 *cp = lowerconv(*cp);
163 *user = *pass = '\0';
164 while ((t = __nrc_token(fi, buffer)) != NRC_NONE && t != NRC_MACHINE &&
165 t != NRC_DEFAULT) {
166 switch(t) {
167 case NRC_LOGIN:
168 if ((t = __nrc_token(fi, user)) != NRC_INPUT)
169 goto jerr;
170 break;
171 case NRC_PASSWORD:
172 if ((t = __nrc_token(fi, pass)) != NRC_INPUT)
173 goto jerr;
174 break;
175 case NRC_ACCOUNT:
176 if ((t = __nrc_token(fi, buffer)) != NRC_INPUT)
177 goto jerr;
178 break;
179 case NRC_MACDEF:
180 if ((t = __nrc_token(fi, buffer)) != NRC_INPUT)
181 goto jerr;
182 else {
183 int i = 0, c;
184 while ((c = getc(fi)) != EOF)
185 if (c == '\n') { /* xxx */
186 if (i)
187 break;
188 i = 1;
189 } else
190 i = 0;
192 break;
193 default:
194 case NRC_ERROR:
195 goto jerr;
199 if (!seen_default && (*user != '\0' || *pass != '\0')) {
200 size_t hl = strlen(host), ul = strlen(user), pl = strlen(pass);
201 struct nrc_node *nx = smalloc(sizeof(*nx) -
202 VFIELD_SIZEOF(struct nrc_node, nrc_dat) + hl +1 + ul +1 + pl +1);
204 if (nhead != NULL)
205 ntail->nrc_next = nx;
206 else
207 nhead = nx;
208 ntail = nx;
209 nx->nrc_next = NULL;
210 nx->nrc_mlen = hl;
211 nx->nrc_ulen = ul;
212 nx->nrc_plen = pl;
213 memcpy(nx->nrc_dat, host, ++hl);
214 memcpy(nx->nrc_dat + hl, user, ++ul);
215 memcpy(nx->nrc_dat + hl + ul, pass, ++pl);
217 if (t == NRC_MACHINE)
218 goto jm_h;
219 if (t == NRC_DEFAULT)
220 goto jdef;
221 if (t != NRC_NONE)
222 goto jnext;
223 break;
224 case NRC_ERROR:
225 jerr:
226 if (options & OPT_D_V)
227 n_err(_("Errors occurred while parsing \"%s\"\n"), netrc_load);
228 assert(nrc == NRC_NODE_ERR);
229 goto jleave;
232 if (nhead != NULL)
233 nrc = nhead;
234 jleave:
235 Fclose(fi);
236 if (nrc == NRC_NODE_ERR)
237 while (nhead != NULL) {
238 ntail = nhead;
239 nhead = nhead->nrc_next;
240 free(ntail);
242 j_leave:
243 _nrc_list = nrc;
244 NYD_LEAVE;
247 static enum nrc_token
248 __nrc_token(FILE *fi, char buffer[NRC_TOKEN_MAXLEN])
250 int c;
251 char *cp;
252 enum nrc_token rv = NRC_NONE;
253 NYD2_ENTER;
255 c = EOF;
256 if (feof(fi) || ferror(fi))
257 goto jleave;
259 while ((c = getc(fi)) != EOF && whitechar(c))
261 if (c == EOF)
262 goto jleave;
264 cp = buffer;
265 /* Is it a quoted token? At least IBM syntax also supports ' quotes */
266 if (c == '"' || c == '\'') {
267 int quotec = c;
269 /* Not requiring the closing QM is (Net)BSD syntax */
270 while ((c = getc(fi)) != EOF && c != quotec) {
271 /* Backslash escaping the next character is (Net)BSD syntax */
272 if (c == '\\')
273 if ((c = getc(fi)) == EOF)
274 break;
275 *cp++ = c;
276 if (PTRCMP(cp, ==, buffer + NRC_TOKEN_MAXLEN)) {
277 rv = NRC_ERROR;
278 goto jleave;
281 } else {
282 *cp++ = c;
283 while ((c = getc(fi)) != EOF && !whitechar(c)) {
284 /* Backslash escaping the next character is (Net)BSD syntax */
285 if (c == '\\' && (c = getc(fi)) == EOF)
286 break;
287 *cp++ = c;
288 if (PTRCMP(cp, ==, buffer + NRC_TOKEN_MAXLEN)) {
289 rv = NRC_ERROR;
290 goto jleave;
294 *cp = '\0';
296 if (*buffer == '\0')
297 do {/*rv = NRC_NONE*/} while (0);
298 else if (!strcmp(buffer, "default"))
299 rv = NRC_DEFAULT;
300 else if (!strcmp(buffer, "login"))
301 rv = NRC_LOGIN;
302 else if (!strcmp(buffer, "password") || !strcmp(buffer, "passwd"))
303 rv = NRC_PASSWORD;
304 else if (!strcmp(buffer, "account"))
305 rv = NRC_ACCOUNT;
306 else if (!strcmp(buffer, "macdef"))
307 rv = NRC_MACDEF;
308 else if (!strcmp(buffer, "machine"))
309 rv = NRC_MACHINE;
310 else
311 rv = NRC_INPUT;
312 jleave:
313 if (c == EOF && !feof(fi))
314 rv = NRC_ERROR;
315 NYD2_LEAVE;
316 return rv;
319 static bool_t
320 _nrc_lookup(struct url *urlp, bool_t only_pass)
322 struct nrc_node *nrc, *nrc_wild, *nrc_exact;
323 bool_t rv = FAL0;
324 NYD_ENTER;
326 assert(!only_pass || urlp->url_user.s != NULL);
327 assert(only_pass || urlp->url_user.s == NULL);
329 if (_nrc_list == NULL)
330 _nrc_init();
331 if (_nrc_list == NRC_NODE_ERR)
332 goto jleave;
334 nrc_wild = nrc_exact = NULL;
335 for (nrc = _nrc_list; nrc != NULL; nrc = nrc->nrc_next)
336 switch (__nrc_host_match(nrc, urlp)) {
337 case 1:
338 nrc->nrc_result = nrc_exact;
339 nrc_exact = nrc;
340 continue;
341 case -1:
342 nrc->nrc_result = nrc_wild;
343 nrc_wild = nrc;
344 /* FALLTHRU */
345 case 0:
346 continue;
349 if (!only_pass && urlp->url_user.s == NULL) {
350 /* Must be an unambiguous entry of its kind */
351 if (nrc_exact != NULL && nrc_exact->nrc_result != NULL)
352 goto jleave;
353 if (__nrc_find_user(urlp, nrc_exact))
354 goto j_user;
356 if (nrc_wild != NULL && nrc_wild->nrc_result != NULL)
357 goto jleave;
358 if (!__nrc_find_user(urlp, nrc_wild))
359 goto jleave;
360 j_user:
364 if (__nrc_find_pass(urlp, TRU1, nrc_exact) ||
365 __nrc_find_pass(urlp, TRU1, nrc_wild) ||
366 /* Do not try to find a password without exact user match unless we've
367 * been called during credential lookup, a.k.a. the second time */
368 !only_pass ||
369 __nrc_find_pass(urlp, FAL0, nrc_exact) ||
370 __nrc_find_pass(urlp, FAL0, nrc_wild))
371 rv = TRU1;
372 jleave:
373 NYD_LEAVE;
374 return rv;
377 static int
378 __nrc_host_match(struct nrc_node const *nrc, struct url const *urlp)
380 char const *d2, *d1;
381 size_t l2, l1;
382 int rv = 0;
383 NYD2_ENTER;
385 /* Find a matching machine -- entries are all lowercase normalized */
386 if (nrc->nrc_mlen == urlp->url_host.l) {
387 if (LIKELY(!memcmp(nrc->nrc_dat, urlp->url_host.s, urlp->url_host.l)))
388 rv = 1;
389 goto jleave;
392 /* Cannot be an exact match, but maybe the .netrc machine starts with
393 * a "*." glob, which we recognize as an extension, meaning "skip
394 * a single subdomain, then match the rest" */
395 d1 = nrc->nrc_dat + 2;
396 l1 = nrc->nrc_mlen;
397 if (l1 <= 2 || d1[-1] != '.' || d1[-2] != '*')
398 goto jleave;
399 l1 -= 2;
401 /* Brute skipping over one subdomain, no RFC 1035 or RFC 1122 checks;
402 * in fact this even succeeds for ".host.com", but - why care, here? */
403 d2 = urlp->url_host.s;
404 l2 = urlp->url_host.l;
405 while (l2 > 0) {
406 --l2;
407 if (*d2++ == '.')
408 break;
411 if (l2 == l1 && !memcmp(d1, d2, l1))
412 /* This matches, but we won't use it directly but watch out for an
413 * exact match first! */
414 rv = -1;
415 jleave:
416 NYD2_LEAVE;
417 return rv;
420 static bool_t
421 __nrc_find_user(struct url *urlp, struct nrc_node const *nrc)
423 NYD2_ENTER;
425 for (; nrc != NULL; nrc = nrc->nrc_result)
426 if (nrc->nrc_ulen > 0) {
427 /* Fake it was part of URL otherwise XXX */
428 urlp->url_had_user = TRU1;
429 /* That buffer will be duplicated by url_parse() in this case! */
430 urlp->url_user.s = UNCONST(nrc->nrc_dat + nrc->nrc_mlen +1);
431 urlp->url_user.l = nrc->nrc_ulen;
432 break;
435 NYD2_LEAVE;
436 return (nrc != NULL);
439 static bool_t
440 __nrc_find_pass(struct url *urlp, bool_t user_match, struct nrc_node const *nrc)
442 NYD2_ENTER;
444 for (; nrc != NULL; nrc = nrc->nrc_result) {
445 bool_t um = (nrc->nrc_ulen == urlp->url_user.l &&
446 !memcmp(nrc->nrc_dat + nrc->nrc_mlen +1, urlp->url_user.s,
447 urlp->url_user.l));
449 if (user_match) {
450 if (!um)
451 continue;
452 } else if (!um && nrc->nrc_ulen > 0)
453 continue;
454 if (nrc->nrc_plen == 0)
455 continue;
457 /* We are responsible for duplicating this buffer! */
458 urlp->url_pass.s = savestrbuf(nrc->nrc_dat + nrc->nrc_mlen +1 +
459 nrc->nrc_ulen + 1, (urlp->url_pass.l = nrc->nrc_plen));
460 break;
463 NYD2_LEAVE;
464 return (nrc != NULL);
466 #endif /* HAVE_NETRC */
468 #ifdef HAVE_AGENT
469 static bool_t
470 _agent_shell_lookup(struct url *urlp, char const *comm)
472 char buf[128];
473 char const *env_addon[8];
474 struct str s;
475 FILE *pbuf;
476 union {char const *cp; int c; sighandler_type sht;} u;
477 size_t cl, l;
478 bool_t rv = FAL0;
479 NYD2_ENTER;
481 env_addon[0] = str_concat_csvl(&s, AGENT_USER, "=", urlp->url_user.s,
482 NULL)->s;
483 env_addon[1] = str_concat_csvl(&s, AGENT_USER_ENC, "=", urlp->url_user_enc.s,
484 NULL)->s;
485 env_addon[2] = str_concat_csvl(&s, AGENT_HOST, "=", urlp->url_host.s,
486 NULL)->s;
487 env_addon[3] = str_concat_csvl(&s, AGENT_HOST_PORT, "=", urlp->url_h_p.s,
488 NULL)->s;
490 env_addon[4] = str_concat_csvl(&s, NAILENV_TMPDIR, "=", tempdir, NULL)->s;
491 env_addon[5] = str_concat_csvl(&s, "TMPDIR", "=", tempdir, NULL)->s;
493 env_addon[6] = NULL;
495 if ((u.cp = ok_vlook(SHELL)) == NULL)
496 u.cp = XSHELL;
497 if ((pbuf = Popen(comm, "r", u.cp, env_addon, -1)) == NULL) {
498 n_err(_("*agent-shell-lookup* startup failed (`%s')\n"), comm);
499 goto jleave;
502 for (s.s = NULL, s.l = cl = l = 0; (u.c = getc(pbuf)) != EOF; ++cl) {
503 if (u.c == '\n') /* xxx */
504 continue;
505 buf[l++] = u.c;
506 if (l == sizeof(buf) - 1) {
507 n_str_add_buf(&s, buf, l);
508 l = 0;
511 if (l > 0)
512 n_str_add_buf(&s, buf, l);
514 if (!Pclose(pbuf, TRU1)) {
515 if (options & OPT_D_V)
516 n_err(_("*agent-shell-lookup* execution failure (`%s')\n"), comm);
517 goto jleave;
520 /* We are responsible for duplicating this buffer! */
521 if (s.s != NULL)
522 urlp->url_pass.s = savestrbuf(s.s, urlp->url_pass.l = s.l);
523 else if (cl > 0)
524 urlp->url_pass.s = UNCONST(""), urlp->url_pass.l = 0;
525 rv = TRU1;
526 jleave:
527 if (s.s != NULL)
528 free(s.s);
529 NYD2_LEAVE;
530 return rv;
532 #endif
534 FL char *
535 (urlxenc)(char const *cp, bool_t ispath SALLOC_DEBUG_ARGS)
537 char *n, *np, c1;
538 NYD2_ENTER;
540 np = n = (salloc)(strlen(cp) * 3 +1 SALLOC_DEBUG_ARGSCALL);
542 for (; (c1 = *cp) != '\0'; ++cp) {
543 /* (RFC 1738) RFC 3986, 2.3 Unreserved Characters:
544 * ALPHA / DIGIT / "-" / "." / "_" / "~"
545 * However add a special is[file]path mode for file-system friendliness */
546 if (alnumchar(c1) || c1 == '_')
547 *np++ = c1;
548 else if (!ispath) {
549 if (c1 != '-' && c1 != '.' && c1 != '~')
550 goto jesc;
551 *np++ = c1;
552 } else if (PTRCMP(np, >, n) && (*cp == '-' || *cp == '.')) /* XXX imap */
553 *np++ = c1;
554 else {
555 jesc:
556 np[0] = '%';
557 mime_char_to_hexseq(np + 1, c1);
558 np += 3;
561 *np = '\0';
562 NYD2_LEAVE;
563 return n;
566 FL char *
567 (urlxdec)(char const *cp SALLOC_DEBUG_ARGS)
569 char *n, *np;
570 si32_t c;
571 NYD2_ENTER;
573 np = n = (salloc)(strlen(cp) +1 SALLOC_DEBUG_ARGSCALL);
575 while ((c = (uc_i)*cp++) != '\0') {
576 if (c == '%' && cp[0] != '\0' && cp[1] != '\0') {
577 si32_t o = c;
578 if (LIKELY((c = mime_hexseq_to_char(cp)) >= '\0'))
579 cp += 2;
580 else
581 c = o;
583 *np++ = (char)c;
585 *np = '\0';
586 NYD2_LEAVE;
587 return n;
590 FL int
591 c_urlcodec(void *v){
592 bool_t ispath;
593 char const **argv, *cp, *res;
594 NYD_ENTER;
596 if(*(cp = *(argv = v)) == 'p'){
597 if(!ascncasecmp(++cp, "ath", 3))
598 cp += 3;
599 ispath = TRU1;
602 if(is_prefix(cp, "encode")){
603 while((cp = *++argv) != NULL){
604 res = urlxenc(cp, ispath);
605 printf(" in: %s (%" PRIuZ " bytes)\nout: %s (%" PRIuZ " bytes)\n",
606 cp, strlen(cp), res, strlen(res));
608 }else if(is_prefix(cp, "decode")){
609 while((cp = *++argv) != NULL){
610 res = urlxdec(cp);
611 printf(" in: %s (%" PRIuZ " bytes)\nout: %s (%" PRIuZ " bytes)\n",
612 cp, strlen(cp), res, strlen(res));
614 }else{
615 jeinval:
616 n_err(_("`urlcodec': invalid subcommand: %s\n"), *argv);
617 cp = NULL;
619 NYD_LEAVE;
620 return (cp != NULL ? OKAY : STOP);
623 FL char *
624 url_mailto_to_address(char const *mailtop){ /* TODO hack! RFC 6068; factory? */
625 size_t i;
626 char *rv;
627 char const *mailtop_orig;
628 NYD_ENTER;
630 if(!is_prefix("mailto:", mailtop_orig = mailtop)){
631 rv = NULL;
632 goto jleave;
634 mailtop += sizeof("mailto:") -1;
636 /* TODO This is all intermediate, and for now just enough to understand
637 * TODO a little bit of a little more advanced List-Post: headers. */
638 /* Strip any hfield additions, keep only to addr-spec's */
639 if((rv = strchr(mailtop, '?')) != NULL)
640 rv = savestrbuf(mailtop, i = PTR2SIZE(rv - mailtop));
641 else
642 rv = savestrbuf(mailtop, i = strlen(mailtop));
644 i = strlen(rv);
646 /* Simply perform percent-decoding if there is a percent % */
647 if(memchr(rv, '%', i) != NULL){
648 char *rv_base;
649 bool_t err;
651 for(err = FAL0, mailtop = rv_base = rv; i > 0;){
652 char c;
654 if((c = *mailtop++) == '%'){
655 si32_t cc;
657 if(i < 3 || (cc = mime_hexseq_to_char(mailtop)) < 0){
658 if(!err && (err = TRU1, options & OPT_D_V))
659 n_err(_("Invalid RFC 6068 'mailto' URL: %s\n"), mailtop_orig);
660 goto jhex_putc;
662 *rv++ = (char)cc;
663 mailtop += 2;
664 i -= 3;
665 }else{
666 jhex_putc:
667 *rv++ = c;
668 --i;
671 *rv = '\0';
672 rv = rv_base;
674 jleave:
675 NYD_LEAVE;
676 return rv;
679 #ifdef HAVE_SOCKETS /* Note: not indented for that -- later: file:// etc.! */
680 FL char const *
681 url_servbyname(struct url const *urlp, ui16_t *irv_or_null)
683 static struct {
684 char const name[14];
685 char const port[8];
686 ui16_t portno;
687 } const tbl[] = {
688 { "smtp", "25", 25},
689 { "submission", "587", 587},
690 { "smtps", "465", 465},
691 { "pop3", "110", 110},
692 { "pop3s", "995", 995},
693 { "imap", "143", 143},
694 { "imaps", "993", 993}
696 char const *rv;
697 size_t i;
698 NYD_ENTER;
700 for (rv = NULL, i = 0; i < NELEM(tbl); ++i)
701 if (!asccasecmp(tbl[i].name, urlp->url_proto)) {
702 rv = tbl[i].port;
703 if (irv_or_null != NULL)
704 *irv_or_null = tbl[i].portno;
705 break;
707 NYD_LEAVE;
708 return rv;
711 FL bool_t
712 url_parse(struct url *urlp, enum cproto cproto, char const *data)
714 #if defined HAVE_SMTP && defined HAVE_POP3 && defined HAVE_IMAP
715 # define __ALLPROTO
716 #endif
717 #if defined HAVE_SMTP || defined HAVE_POP3 || defined HAVE_IMAP
718 # define __ANYPROTO
719 char *cp, *x;
720 #endif
721 bool_t rv = FAL0;
722 NYD_ENTER;
723 UNUSED(data);
725 memset(urlp, 0, sizeof *urlp);
726 urlp->url_input = data;
727 urlp->url_cproto = cproto;
729 /* Network protocol */
730 #define _protox(X,Y) \
731 urlp->url_portno = Y;\
732 memcpy(urlp->url_proto, X "://", sizeof(X "://"));\
733 urlp->url_proto[sizeof(X) -1] = '\0';\
734 urlp->url_proto_len = sizeof(X) -1;\
735 urlp->url_proto_xlen = sizeof(X "://") -1
736 #define __if(X,Y,Z) \
737 if (!ascncasecmp(data, X "://", sizeof(X "://") -1)) {\
738 _protox(X, Y);\
739 data += sizeof(X "://") -1;\
740 do { Z; } while (0);\
741 goto juser;\
743 #define _if(X,Y) __if(X, Y, (void)0)
744 #ifdef HAVE_SSL
745 # define _ifs(X,Y) __if(X, Y, urlp->url_needs_tls = TRU1)
746 #else
747 # define _ifs(X,Y) goto jeproto;
748 #endif
750 switch (cproto) {
751 case CPROTO_SMTP:
752 #ifdef HAVE_SMTP
753 _if ("smtp", 25)
754 _if ("submission", 587)
755 _ifs ("smtps", 465)
756 _protox("smtp", 25);
757 break;
758 #else
759 goto jeproto;
760 #endif
761 case CPROTO_POP3:
762 #ifdef HAVE_POP3
763 _if ("pop3", 110)
764 _ifs ("pop3s", 995)
765 _protox("pop3", 110);
766 break;
767 #else
768 goto jeproto;
769 #endif
770 case CPROTO_IMAP:
771 #ifdef HAVE_IMAP
772 _if ("imap", 143)
773 _ifs ("imaps", 993)
774 _protox("imap", 143);
775 break;
776 #else
777 goto jeproto;
778 #endif
781 #undef _ifs
782 #undef _if
783 #undef __if
784 #undef _protox
786 if (strstr(data, "://") != NULL) {
787 #if !defined __ALLPROTO || !defined HAVE_SSL
788 jeproto:
789 #endif
790 n_err(_("URL \"proto://\" prefix invalid: \"%s\"\n"), urlp->url_input);
791 goto jleave;
793 #ifdef __ANYPROTO
795 /* User and password, I */
796 juser:
797 if ((cp = _url_last_at_before_slash(data)) != NULL) {
798 size_t l = PTR2SIZE(cp - data);
799 char const *d = data;
800 char *ub = ac_alloc(l +1);
802 urlp->url_had_user = TRU1;
803 data = cp + 1;
805 /* And also have a password? */
806 if ((cp = memchr(d, ':', l)) != NULL) {
807 size_t i = PTR2SIZE(cp - d);
809 l -= i + 1;
810 memcpy(ub, cp + 1, l);
811 ub[l] = '\0';
812 urlp->url_pass.l = strlen(urlp->url_pass.s = urlxdec(ub));
814 if (strcmp(ub, urlxenc(urlp->url_pass.s, FAL0))) {
815 n_err(_("String is not properly URL percent encoded: \"%s\"\n"),
816 ub);
817 goto jleave;
819 l = i;
822 memcpy(ub, d, l);
823 ub[l] = '\0';
824 urlp->url_user.l = strlen(urlp->url_user.s = urlxdec(ub));
825 urlp->url_user_enc.l = strlen(
826 urlp->url_user_enc.s = urlxenc(urlp->url_user.s, FAL0));
828 if (urlp->url_user_enc.l != l || memcmp(urlp->url_user_enc.s, ub, l)) {
829 n_err(_("String is not properly URL percent encoded: \"%s\"\n"), ub);
830 goto jleave;
833 ac_free(ub);
836 /* Servername and port -- and possible path suffix */
837 if ((cp = strchr(data, ':')) != NULL) { /* TODO URL parse, IPv6 support */
838 char *eptr;
839 long l;
841 urlp->url_port = x = savestr(x = &cp[1]);
842 if ((x = strchr(x, '/')) != NULL) {
843 *x = '\0';
844 while(*++x == '/')
847 l = strtol(urlp->url_port, &eptr, 10);
848 if (*eptr != '\0' || l <= 0 || UICMP(32, l, >=, 0xFFFFu)) {
849 n_err(_("URL with invalid port number: \"%s\"\n"), urlp->url_input);
850 goto jleave;
852 urlp->url_portno = (ui16_t)l;
853 } else {
854 if ((x = strchr(data, '/')) != NULL) {
855 data = savestrbuf(data, PTR2SIZE(x - data));
856 while(*++x == '/')
859 cp = UNCONST(data + strlen(data));
862 /* A (non-empty) path may only occur with IMAP */
863 if (x != NULL && *x) {
864 size_t i;
866 if((i = strlen(x)) > 0){
867 if(x[i - 1] == '/'){
868 while(i-- > 0 && x[i - 1] == '/')
870 /* If the name ends with a slash, we need to append INBOX for IMAP */
871 if(cproto == CPROTO_IMAP){
872 urlp->url_path.s = salloc(i + sizeof("/INBOX"));
873 memcpy(urlp->url_path.s, x, i);
874 memcpy(&urlp->url_path.s[i], "/INBOX", sizeof("/INBOX"));
875 urlp->url_path.l = i + sizeof("/INBOX") -1;
876 }else
877 urlp->url_path.l = i;
878 }else if(cproto == CPROTO_IMAP){
879 urlp->url_path.s = x;
880 urlp->url_path.l = i;
881 }else{
882 n_err(_("URL protocol doesn't support paths: \"%s\"\n"),
883 urlp->url_input);
884 goto jleave;
888 /* */
889 if(cproto == CPROTO_IMAP && urlp->url_path.s == NULL)
890 urlp->url_path.s = savestrbuf("INBOX",
891 urlp->url_path.l = sizeof("INBOX") -1);
893 urlp->url_host.s = savestrbuf(data, urlp->url_host.l = PTR2SIZE(cp - data));
894 { size_t i;
895 for (cp = urlp->url_host.s, i = urlp->url_host.l; i != 0; ++cp, --i)
896 *cp = lowerconv(*cp);
899 /* .url_h_p: HOST:PORT */
900 { size_t i;
901 struct str *s = &urlp->url_h_p;
903 s->s = salloc(urlp->url_host.l + 1 + sizeof("65536")-1 +1);
904 memcpy(s->s, urlp->url_host.s, i = urlp->url_host.l);
905 if (urlp->url_port != NULL) {
906 size_t j = strlen(urlp->url_port);
907 s->s[i++] = ':';
908 memcpy(s->s + i, urlp->url_port, j);
909 i += j;
911 s->s[i] = '\0';
912 s->l = i;
915 /* User, II
916 * If there was no user in the URL, do we have *user-HOST* or *user*? */
917 if (!urlp->url_had_user) {
918 if ((urlp->url_user.s = xok_vlook(user, urlp, OXM_PLAIN | OXM_H_P))
919 == NULL) {
920 /* No, check wether .netrc lookup is desired */
921 # ifdef HAVE_NETRC
922 if (!ok_blook(v15_compat) ||
923 !xok_blook(netrc_lookup, urlp, OXM_PLAIN | OXM_H_P) ||
924 !_nrc_lookup(urlp, FAL0))
925 # endif
926 urlp->url_user.s = UNCONST(myname);
929 urlp->url_user.l = strlen(urlp->url_user.s);
930 urlp->url_user.s = savestrbuf(urlp->url_user.s, urlp->url_user.l);
931 urlp->url_user_enc.l = strlen(
932 urlp->url_user_enc.s = urlxenc(urlp->url_user.s, FAL0));
935 /* And then there are a lot of prebuild string combinations TODO do lazy */
937 /* .url_u_h: .url_user@.url_host
938 * For SMTP we apply ridiculously complicated *v15-compat* plus
939 * *smtp-hostname* / *hostname* dependent rules */
940 { struct str h, *s;
941 size_t i;
943 if (cproto == CPROTO_SMTP && ok_blook(v15_compat) &&
944 (cp = ok_vlook(smtp_hostname)) != NULL) {
945 if (*cp == '\0')
946 cp = nodename(1);
947 h.s = savestrbuf(cp, h.l = strlen(cp));
948 } else
949 h = urlp->url_host;
951 s = &urlp->url_u_h;
952 i = urlp->url_user.l;
954 s->s = salloc(i + 1 + h.l +1);
955 if (i > 0) {
956 memcpy(s->s, urlp->url_user.s, i);
957 s->s[i++] = '@';
959 memcpy(s->s + i, h.s, h.l +1);
960 i += h.l;
961 s->l = i;
964 /* .url_u_h_p: .url_user@.url_host[:.url_port] */
965 { struct str *s = &urlp->url_u_h_p;
966 size_t i = urlp->url_user.l;
968 s->s = salloc(i + 1 + urlp->url_h_p.l +1);
969 if (i > 0) {
970 memcpy(s->s, urlp->url_user.s, i);
971 s->s[i++] = '@';
973 memcpy(s->s + i, urlp->url_h_p.s, urlp->url_h_p.l +1);
974 i += urlp->url_h_p.l;
975 s->l = i;
978 /* .url_eu_h_p: .url_user_enc@.url_host[:.url_port] */
979 { struct str *s = &urlp->url_eu_h_p;
980 size_t i = urlp->url_user_enc.l;
982 s->s = salloc(i + 1 + urlp->url_h_p.l +1);
983 if (i > 0) {
984 memcpy(s->s, urlp->url_user_enc.s, i);
985 s->s[i++] = '@';
987 memcpy(s->s + i, urlp->url_h_p.s, urlp->url_h_p.l +1);
988 i += urlp->url_h_p.l;
989 s->l = i;
992 /* .url_p_u_h_p: .url_proto://.url_u_h_p */
993 { size_t i;
994 char *ud = salloc((i = urlp->url_proto_xlen + urlp->url_u_h_p.l) +1);
996 urlp->url_proto[urlp->url_proto_len] = ':';
997 memcpy(sstpcpy(ud, urlp->url_proto), urlp->url_u_h_p.s,
998 urlp->url_u_h_p.l +1);
999 urlp->url_proto[urlp->url_proto_len] = '\0';
1001 urlp->url_p_u_h_p = ud;
1004 /* .url_p_eu_h_p, .url_p_eu_h_p_p: .url_proto://.url_eu_h_p[/.url_path] */
1005 { size_t i;
1006 char *ud = salloc((i = urlp->url_proto_xlen + urlp->url_eu_h_p.l) +
1007 1 + urlp->url_path.l +1);
1009 urlp->url_proto[urlp->url_proto_len] = ':';
1010 memcpy(sstpcpy(ud, urlp->url_proto), urlp->url_eu_h_p.s,
1011 urlp->url_eu_h_p.l +1);
1012 urlp->url_proto[urlp->url_proto_len] = '\0';
1014 if (urlp->url_path.l == 0)
1015 urlp->url_p_eu_h_p = urlp->url_p_eu_h_p_p = ud;
1016 else {
1017 urlp->url_p_eu_h_p = savestrbuf(ud, i);
1018 urlp->url_p_eu_h_p_p = ud;
1019 ud += i;
1020 *ud++ = '/';
1021 memcpy(ud, urlp->url_path.s, urlp->url_path.l +1);
1025 rv = TRU1;
1026 #endif /* __ANYPROTO */
1027 jleave:
1028 NYD_LEAVE;
1029 return rv;
1030 #undef __ANYPROTO
1031 #undef __ALLPROTO
1034 FL bool_t
1035 ccred_lookup_old(struct ccred *ccp, enum cproto cproto, char const *addr)
1037 char const *pname, *pxstr, *authdef;
1038 size_t pxlen, addrlen, i;
1039 char *vbuf, *s;
1040 ui8_t authmask;
1041 enum {NONE=0, WANT_PASS=1<<0, REQ_PASS=1<<1, WANT_USER=1<<2, REQ_USER=1<<3}
1042 ware = NONE;
1043 bool_t addr_is_nuser = FAL0; /* XXX v15.0 legacy! v15_compat */
1044 NYD_ENTER;
1046 memset(ccp, 0, sizeof *ccp);
1048 switch (cproto) {
1049 default:
1050 case CPROTO_SMTP:
1051 pname = "SMTP";
1052 pxstr = "smtp-auth";
1053 pxlen = sizeof("smtp-auth") -1;
1054 authmask = AUTHTYPE_NONE | AUTHTYPE_PLAIN | AUTHTYPE_LOGIN |
1055 AUTHTYPE_CRAM_MD5 | AUTHTYPE_GSSAPI;
1056 authdef = "none";
1057 addr_is_nuser = TRU1;
1058 break;
1059 case CPROTO_POP3:
1060 pname = "POP3";
1061 pxstr = "pop3-auth";
1062 pxlen = sizeof("pop3-auth") -1;
1063 authmask = AUTHTYPE_PLAIN;
1064 authdef = "plain";
1065 break;
1066 case CPROTO_IMAP:
1067 pname = "IMAP";
1068 pxstr = "imap-auth";
1069 pxlen = sizeof("imap-auth") -1;
1070 authmask = AUTHTYPE_LOGIN | AUTHTYPE_CRAM_MD5 | AUTHTYPE_GSSAPI;
1071 authdef = "login";
1072 break;
1075 ccp->cc_cproto = cproto;
1076 addrlen = strlen(addr);
1077 vbuf = ac_alloc(pxlen + addrlen + sizeof("-password-")-1 +1);
1078 memcpy(vbuf, pxstr, pxlen);
1080 /* Authentication type */
1081 vbuf[pxlen] = '-';
1082 memcpy(vbuf + pxlen + 1, addr, addrlen +1);
1083 if ((s = vok_vlook(vbuf)) == NULL) {
1084 vbuf[pxlen] = '\0';
1085 if ((s = vok_vlook(vbuf)) == NULL)
1086 s = UNCONST(authdef);
1089 if (!asccasecmp(s, "none")) {
1090 ccp->cc_auth = "NONE";
1091 ccp->cc_authtype = AUTHTYPE_NONE;
1092 /*ware = NONE;*/
1093 } else if (!asccasecmp(s, "plain")) {
1094 ccp->cc_auth = "PLAIN";
1095 ccp->cc_authtype = AUTHTYPE_PLAIN;
1096 ware = REQ_PASS | REQ_USER;
1097 } else if (!asccasecmp(s, "login")) {
1098 ccp->cc_auth = "LOGIN";
1099 ccp->cc_authtype = AUTHTYPE_LOGIN;
1100 ware = REQ_PASS | REQ_USER;
1101 } else if (!asccasecmp(s, "cram-md5")) {
1102 ccp->cc_auth = "CRAM-MD5";
1103 ccp->cc_authtype = AUTHTYPE_CRAM_MD5;
1104 ware = REQ_PASS | REQ_USER;
1105 } else if (!asccasecmp(s, "gssapi")) {
1106 ccp->cc_auth = "GSS-API";
1107 ccp->cc_authtype = AUTHTYPE_GSSAPI;
1108 ware = REQ_USER;
1109 } /* no else */
1111 /* Verify method */
1112 if (!(ccp->cc_authtype & authmask)) {
1113 n_err(_("Unsupported %s authentication method: %s\n"), pname, s);
1114 ccp = NULL;
1115 goto jleave;
1117 # ifndef HAVE_MD5
1118 if (ccp->cc_authtype == AUTHTYPE_CRAM_MD5) {
1119 n_err(_("No CRAM-MD5 support compiled in\n"));
1120 ccp = NULL;
1121 goto jleave;
1123 # endif
1124 # ifndef HAVE_GSSAPI
1125 if (ccp->cc_authtype == AUTHTYPE_GSSAPI) {
1126 n_err(_("No GSS-API support compiled in\n"));
1127 ccp = NULL;
1128 goto jleave;
1130 # endif
1132 /* User name */
1133 if (!(ware & (WANT_USER | REQ_USER)))
1134 goto jpass;
1136 if (!addr_is_nuser) {
1137 if ((s = _url_last_at_before_slash(addr)) != NULL) {
1138 ccp->cc_user.s = urlxdec(savestrbuf(addr, PTR2SIZE(s - addr)));
1139 ccp->cc_user.l = strlen(ccp->cc_user.s);
1140 } else if (ware & REQ_USER)
1141 goto jgetuser;
1142 goto jpass;
1145 memcpy(vbuf + pxlen, "-user-", i = sizeof("-user-") -1);
1146 i += pxlen;
1147 memcpy(vbuf + i, addr, addrlen +1);
1148 if ((s = vok_vlook(vbuf)) == NULL) {
1149 vbuf[--i] = '\0';
1150 if ((s = vok_vlook(vbuf)) == NULL && (ware & REQ_USER)) {
1151 if ((s = getuser(NULL)) == NULL) {
1152 jgetuser: /* TODO v15.0: today we simply bail, but we should call getuser().
1153 * TODO even better: introduce "PROTO-user" and "PROTO-pass" and
1154 * TODO check that first, then! change control flow, grow vbuf */
1155 n_err(_("A user is necessary for %s authentication\n"), pname);
1156 ccp = NULL;
1157 goto jleave;
1161 ccp->cc_user.l = strlen(ccp->cc_user.s = savestr(s));
1163 /* Password */
1164 jpass:
1165 if (!(ware & (WANT_PASS | REQ_PASS)))
1166 goto jleave;
1168 if (!addr_is_nuser) {
1169 memcpy(vbuf, "password-", i = sizeof("password-") -1);
1170 } else {
1171 memcpy(vbuf + pxlen, "-password-", i = sizeof("-password-") -1);
1172 i += pxlen;
1174 memcpy(vbuf + i, addr, addrlen +1);
1175 if ((s = vok_vlook(vbuf)) == NULL) {
1176 vbuf[--i] = '\0';
1177 if ((!addr_is_nuser || (s = vok_vlook(vbuf)) == NULL) &&
1178 (ware & REQ_PASS)) {
1179 if ((s = getpassword(NULL)) == NULL) {
1180 n_err(_("A password is necessary for %s authentication\n"),
1181 pname);
1182 ccp = NULL;
1183 goto jleave;
1187 if (s != NULL)
1188 ccp->cc_pass.l = strlen(ccp->cc_pass.s = savestr(s));
1190 jleave:
1191 ac_free(vbuf);
1192 if (ccp != NULL && (options & OPT_D_VV))
1193 n_err(_("Credentials: host \"%s\", user \"%s\", pass \"%s\"\n"),
1194 addr, (ccp->cc_user.s != NULL ? ccp->cc_user.s : ""),
1195 (ccp->cc_pass.s != NULL ? ccp->cc_pass.s : ""));
1196 NYD_LEAVE;
1197 return (ccp != NULL);
1200 FL bool_t
1201 ccred_lookup(struct ccred *ccp, struct url *urlp)
1203 char const *pstr, *authdef;
1204 char *s;
1205 enum okeys authokey;
1206 ui8_t authmask;
1207 enum {NONE=0, WANT_PASS=1<<0, REQ_PASS=1<<1, WANT_USER=1<<2, REQ_USER=1<<3}
1208 ware = NONE;
1209 NYD_ENTER;
1211 memset(ccp, 0, sizeof *ccp);
1212 ccp->cc_user = urlp->url_user;
1214 switch ((ccp->cc_cproto = urlp->url_cproto)) {
1215 default:
1216 case CPROTO_SMTP:
1217 pstr = "smtp";
1218 authokey = ok_v_smtp_auth;
1219 authmask = AUTHTYPE_NONE | AUTHTYPE_PLAIN | AUTHTYPE_LOGIN |
1220 AUTHTYPE_CRAM_MD5 | AUTHTYPE_GSSAPI;
1221 authdef = "plain";
1222 break;
1223 case CPROTO_POP3:
1224 pstr = "pop3";
1225 authokey = ok_v_pop3_auth;
1226 authmask = AUTHTYPE_PLAIN;
1227 authdef = "plain";
1228 break;
1229 case CPROTO_IMAP:
1230 pstr = "imap";
1231 authokey = ok_v_imap_auth;
1232 authmask = AUTHTYPE_LOGIN | AUTHTYPE_CRAM_MD5 | AUTHTYPE_GSSAPI;
1233 authdef = "login";
1234 break;
1237 /* Authentication type */
1238 if ((s = xok_VLOOK(authokey, urlp, OXM_ALL)) == NULL)
1239 s = UNCONST(authdef);
1241 if (!asccasecmp(s, "none")) {
1242 ccp->cc_auth = "NONE";
1243 ccp->cc_authtype = AUTHTYPE_NONE;
1244 /*ware = NONE;*/
1245 } else if (!asccasecmp(s, "plain")) {
1246 ccp->cc_auth = "PLAIN";
1247 ccp->cc_authtype = AUTHTYPE_PLAIN;
1248 ware = REQ_PASS | REQ_USER;
1249 } else if (!asccasecmp(s, "login")) {
1250 ccp->cc_auth = "LOGIN";
1251 ccp->cc_authtype = AUTHTYPE_LOGIN;
1252 ware = REQ_PASS | REQ_USER;
1253 } else if (!asccasecmp(s, "cram-md5")) {
1254 ccp->cc_auth = "CRAM-MD5";
1255 ccp->cc_authtype = AUTHTYPE_CRAM_MD5;
1256 ware = REQ_PASS | REQ_USER;
1257 } else if (!asccasecmp(s, "gssapi")) {
1258 ccp->cc_auth = "GSS-API";
1259 ccp->cc_authtype = AUTHTYPE_GSSAPI;
1260 ware = REQ_USER;
1261 } /* no else */
1263 /* Verify method */
1264 if (!(ccp->cc_authtype & authmask)) {
1265 n_err(_("Unsupported %s authentication method: %s\n"), pstr, s);
1266 ccp = NULL;
1267 goto jleave;
1269 # ifndef HAVE_MD5
1270 if (ccp->cc_authtype == AUTHTYPE_CRAM_MD5) {
1271 n_err(_("No CRAM-MD5 support compiled in\n"));
1272 ccp = NULL;
1273 goto jleave;
1275 # endif
1276 # ifndef HAVE_GSSAPI
1277 if (ccp->cc_authtype == AUTHTYPE_GSSAPI) {
1278 n_err(_("No GSS-API support compiled in\n"));
1279 ccp = NULL;
1280 goto jleave;
1282 # endif
1284 /* Password */
1285 ccp->cc_pass = urlp->url_pass;
1286 if (ccp->cc_pass.s != NULL)
1287 goto jleave;
1289 if ((s = xok_vlook(password, urlp, OXM_ALL)) != NULL)
1290 goto js2pass;
1291 # ifdef HAVE_AGENT
1292 if ((s = xok_vlook(agent_shell_lookup, urlp, OXM_ALL)) != NULL) {
1293 if (!_agent_shell_lookup(urlp, s)) {
1294 ccp = NULL;
1295 goto jleave;
1296 } else if (urlp->url_pass.s != NULL) {
1297 ccp->cc_pass = urlp->url_pass;
1298 goto jleave;
1301 # endif
1302 # ifdef HAVE_NETRC
1303 if (xok_blook(netrc_lookup, urlp, OXM_ALL) && _nrc_lookup(urlp, TRU1)) {
1304 ccp->cc_pass = urlp->url_pass;
1305 goto jleave;
1307 # endif
1308 if (ware & REQ_PASS) {
1309 if ((s = getpassword(NULL)) != NULL)
1310 js2pass:
1311 ccp->cc_pass.l = strlen(ccp->cc_pass.s = savestr(s));
1312 else {
1313 n_err(_("A password is necessary for %s authentication\n"), pstr);
1314 ccp = NULL;
1318 jleave:
1319 if (ccp != NULL && (options & OPT_D_VV))
1320 n_err(_("Credentials: host \"%s\", user \"%s\", pass \"%s\"\n"),
1321 urlp->url_h_p.s, (ccp->cc_user.s != NULL ? ccp->cc_user.s : ""),
1322 (ccp->cc_pass.s != NULL ? ccp->cc_pass.s : ""));
1323 NYD_LEAVE;
1324 return (ccp != NULL);
1326 #endif /* HAVE_SOCKETS */
1328 #ifdef HAVE_NETRC
1329 FL int
1330 c_netrc(void *v)
1332 char **argv = v;
1333 struct nrc_node *nrc;
1334 NYD_ENTER;
1336 if (*argv == NULL)
1337 goto jlist;
1338 if (argv[1] != NULL)
1339 goto jerr;
1340 if (!asccasecmp(*argv, "show"))
1341 goto jlist;
1342 if (!asccasecmp(*argv, "clear"))
1343 goto jclear;
1344 jerr:
1345 n_err(_("Synopsis: netrc: (<show> or) <clear> the .netrc cache\n"));
1346 v = NULL;
1347 jleave:
1348 NYD_LEAVE;
1349 return (v == NULL ? !STOP : !OKAY); /* xxx 1:bad 0:good -- do some */
1351 jlist: {
1352 FILE *fp;
1353 size_t l;
1355 if (_nrc_list == NULL)
1356 _nrc_init();
1357 if (_nrc_list == NRC_NODE_ERR) {
1358 n_err(_("Interpolate what file?\n"));
1359 v = NULL;
1360 goto jleave;
1363 if ((fp = Ftmp(NULL, "netrc", OF_RDWR | OF_UNLINK | OF_REGISTER, 0600)
1364 ) == NULL) {
1365 n_perr(_("tmpfile"), 0);
1366 v = NULL;
1367 goto jleave;
1370 for (l = 0, nrc = _nrc_list; nrc != NULL; ++l, nrc = nrc->nrc_next) {
1371 fprintf(fp, _("machine %s "), nrc->nrc_dat);
1372 if (nrc->nrc_ulen > 0)
1373 fprintf(fp, _("login \"%s\" "),
1374 string_quote(nrc->nrc_dat + nrc->nrc_mlen +1));
1375 if (nrc->nrc_plen > 0)
1376 fprintf(fp, _("password \"%s\"\n"),
1377 string_quote(nrc->nrc_dat + nrc->nrc_mlen +1 + nrc->nrc_ulen +1));
1378 else
1379 putc('\n', fp);
1382 page_or_print(fp, l);
1383 Fclose(fp);
1385 goto jleave;
1387 jclear:
1388 if (_nrc_list == NRC_NODE_ERR)
1389 _nrc_list = NULL;
1390 while ((nrc = _nrc_list) != NULL) {
1391 _nrc_list = nrc->nrc_next;
1392 free(nrc);
1394 goto jleave;
1396 #endif /* HAVE_NETRC */
1398 #ifdef HAVE_MD5
1399 FL char *
1400 md5tohex(char hex[MD5TOHEX_SIZE], void const *vp)
1402 char const *cp = vp;
1403 size_t i, j;
1404 NYD_ENTER;
1406 for (i = 0; i < MD5TOHEX_SIZE / 2; ++i) {
1407 j = i << 1;
1408 # define __hex(n) ((n) > 9 ? (n) - 10 + 'a' : (n) + '0')
1409 hex[j] = __hex((cp[i] & 0xF0) >> 4);
1410 hex[++j] = __hex(cp[i] & 0x0F);
1411 # undef __hex
1413 NYD_LEAVE;
1414 return hex;
1417 FL char *
1418 cram_md5_string(struct str const *user, struct str const *pass,
1419 char const *b64)
1421 struct str in, out;
1422 char digest[16], *cp;
1423 NYD_ENTER;
1425 out.s = NULL;
1426 in.s = UNCONST(b64);
1427 in.l = strlen(in.s);
1428 b64_decode(&out, &in, NULL);
1429 assert(out.s != NULL);
1431 hmac_md5((uc_i*)out.s, out.l, (uc_i*)pass->s, pass->l, digest);
1432 free(out.s);
1433 cp = md5tohex(salloc(MD5TOHEX_SIZE +1), digest);
1435 in.l = user->l + MD5TOHEX_SIZE +1;
1436 in.s = ac_alloc(user->l + 1 + MD5TOHEX_SIZE +1);
1437 memcpy(in.s, user->s, user->l);
1438 in.s[user->l] = ' ';
1439 memcpy(in.s + user->l + 1, cp, MD5TOHEX_SIZE);
1440 b64_encode(&out, &in, B64_SALLOC | B64_CRLF);
1441 ac_free(in.s);
1442 NYD_LEAVE;
1443 return out.s;
1446 FL void
1447 hmac_md5(unsigned char *text, int text_len, unsigned char *key, int key_len,
1448 void *digest)
1451 * This code is taken from
1453 * Network Working Group H. Krawczyk
1454 * Request for Comments: 2104 IBM
1455 * Category: Informational M. Bellare
1456 * UCSD
1457 * R. Canetti
1458 * IBM
1459 * February 1997
1462 * HMAC: Keyed-Hashing for Message Authentication
1464 md5_ctx context;
1465 unsigned char k_ipad[65]; /* inner padding - key XORd with ipad */
1466 unsigned char k_opad[65]; /* outer padding - key XORd with opad */
1467 unsigned char tk[16];
1468 int i;
1469 NYD_ENTER;
1471 /* if key is longer than 64 bytes reset it to key=MD5(key) */
1472 if (key_len > 64) {
1473 md5_ctx tctx;
1475 md5_init(&tctx);
1476 md5_update(&tctx, key, key_len);
1477 md5_final(tk, &tctx);
1479 key = tk;
1480 key_len = 16;
1483 /* the HMAC_MD5 transform looks like:
1485 * MD5(K XOR opad, MD5(K XOR ipad, text))
1487 * where K is an n byte key
1488 * ipad is the byte 0x36 repeated 64 times
1489 * opad is the byte 0x5c repeated 64 times
1490 * and text is the data being protected */
1492 /* start out by storing key in pads */
1493 memset(k_ipad, 0, sizeof k_ipad);
1494 memset(k_opad, 0, sizeof k_opad);
1495 memcpy(k_ipad, key, key_len);
1496 memcpy(k_opad, key, key_len);
1498 /* XOR key with ipad and opad values */
1499 for (i=0; i<64; i++) {
1500 k_ipad[i] ^= 0x36;
1501 k_opad[i] ^= 0x5c;
1504 /* perform inner MD5 */
1505 md5_init(&context); /* init context for 1st pass */
1506 md5_update(&context, k_ipad, 64); /* start with inner pad */
1507 md5_update(&context, text, text_len); /* then text of datagram */
1508 md5_final(digest, &context); /* finish up 1st pass */
1510 /* perform outer MD5 */
1511 md5_init(&context); /* init context for 2nd pass */
1512 md5_update(&context, k_opad, 64); /* start with outer pad */
1513 md5_update(&context, digest, 16); /* then results of 1st hash */
1514 md5_final(digest, &context); /* finish up 2nd pass */
1515 NYD_LEAVE;
1517 #endif /* HAVE_MD5 */
1519 /* s-it-mode */