/* * ======================================================================== * Copyright 2006-2007 University of Washington * Copyright 2013-2022 Eduardo Chappa * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * ======================================================================== */ #include "../pith/headers.h" #include "../pith/url.h" #include "../pith/mailview.h" #include "../pith/string.h" /* * Internal prototypes */ char *rfc1738_scheme_part(char *); int rfc1738uchar(char *); int rfc1738xchar(char *); /* * * * * * * * * * RFC 1738 support routines * * * * * * * * */ /* * Various helpful definitions */ #define RFC1738_SAFE "$-_.+" /* "safe" */ #define RFC1738_EXTRA "!*'()," /* "extra" */ #define RFC1738_RSVP ";/?:@&=" /* "reserved" */ #define RFC1738_NEWS "-.+_" /* valid for "news:" URL */ #define RFC1738_FUDGE "#{}|\\^~[]" /* Unsafe, but popular */ #define RFC1738_ESC(S) (*(S) == '%' && isxpair((S) + 1)) /* * rfc1738_scan -- Scan the given line for possible URLs as defined * in RFC1738 */ char * rfc1738_scan(char *line, int *len) { char *colon, *start, *end; int n; /* process each : in the line */ for(; (colon = strindex(line, ':')) != NULL; line = end){ end = colon + 1; if(colon == line) /* zero length scheme? */ continue; /* * Valid URL (ala RFC1738 BNF)? First, first look to the * left to make sure there are valid "scheme" chars... */ start = colon - 1; while(1) if(!(isdigit((unsigned char) *start) || isalpha((unsigned char) *start) || strchr("+-.", *start))){ start++; /* advance over bogus char */ break; } else if(start > line) start--; else break; /* * Make sure everything up to the colon is a known scheme... */ if(start && (n = colon - start) && !isdigit((unsigned char) *start) && (((n == 2 && (*start == 'w' || *start == 'W') && (*(start+1) == 's' || *(start+1) == 'S')) || (n == 3 && (((*start == 'F' || *start == 'f') && !struncmp(start+1, "tp", 2)) || ((*start == 'w' || *start == 'W') && !struncmp(start+1, "ss", 2)))) || (n == 4 && (((*start == 'H' || *start == 'h') && !struncmp(start + 1, "ttp", 3)) || ((*start == 'N' || *start == 'n') && !struncmp(start + 1, "ews", 3)) || ((*start == 'N' || *start == 'n') && !struncmp(start + 1, "ntp", 3)) || ((*start == 'W' || *start == 'w') && !struncmp(start + 1, "ais", 3)) #ifdef ENABLE_LDAP || ((*start == 'L' || *start == 'l') && !struncmp(start + 1, "dap", 3)) #endif || ((*start == 'I' || *start == 'i') && !struncmp(start + 1, "map", 3)) || ((*start == 'F' || *start == 'f') && !struncmp(start + 1, "ile", 3)))) || (n == 5 && (*start == 'H' || *start == 'h') && !struncmp(start+1, "ttps", 4)) || (n == 6 && (((*start == 'G' || *start == 'g') && !struncmp(start+1, "opher", 5)) || ((*start == 'M' || *start == 'm') && !struncmp(start + 1, "ailto", 5)) || ((*start == 'T' || *start == 't') && !struncmp(start + 1, "elnet", 5)))) || (n == 8 && (*start == 'P' || *start == 'p') && !struncmp(start + 1, "rospero", 7)) || (n == 11 && (*start == 'x' || *start == 'X') && !struncmp(start + 1, "-pine-help", 10)) || (n == 13 && (*start == 'x' || *start == 'X') && !struncmp(start + 1, "-alpine-help", 12))) || url_external_specific_handler(start, n))){ /* * Second, make sure that everything to the right of the * colon is valid for a "schemepart"... */ if((end = rfc1738_scheme_part(colon + 1)) - colon > 1){ int i, j; /* make sure something useful follows colon */ for(i = 0, j = end - colon; i < j; i++) if(!strchr(RFC1738_RSVP, colon[i])) break; if(i != j){ *len = end - start; /* * Special case handling for comma. * See the problem is comma's valid, but if it's the * last character in the url, it's likely intended * as a delimiter in the text rather part of the URL. * In most cases any way, that's why we have the * exception. */ if(*(end - 1) == ',' || (*(end - 1) == '.' && (!*end || *end == ' '))) (*len)--; if(*len - (colon - start) > 0) return(start); } } } } return(NULL); } /* * rfc1738_scheme_part - make sure what's to the right of the * colon is valid * * NOTE: we have a problem matching closing parens when users * bracket the url in parens. So, lets try terminating our * match on any closing paren that doesn't have a corresponding * open-paren. */ char * rfc1738_scheme_part(char *s) { int n, paren = 0, bracket = 0; while(1) switch(*s){ default : if((n = rfc1738xchar(s)) != 0){ s += n; break; } case '\0' : return(s); case '[' : bracket++; s++; break; case ']' : if(bracket--){ s++; break; } return(s); case '(' : paren++; s++; break; case ')' : if(paren--){ s++; break; } return(s); } } /* * rfc1738_str - convert rfc1738 escaped octets in place */ char * rfc1738_str(char *s) { register char *p = s, *q = s; while(1) switch(*q = *p++){ case '%' : if(isxpair(p)){ *q = X2C(p); p += 2; } default : q++; break; case '\0': return(s); } } /* * rfc1738uchar - returns TRUE if the given char fits RFC 1738 "uchar" BNF */ int rfc1738uchar(char *s) { int valid = (RFC1738_ESC(s)) /* "escape" */ ? 2 : (isalnum((unsigned char) *s) /* alphanumeric */ || strchr(RFC1738_SAFE, *s) /* other special stuff */ || strchr(RFC1738_EXTRA, *s)); if(!valid){ char *t; UCS ucs; CBUF_S cbuf; cbuf.cbuf[0] = '\0'; cbuf.cbufp = cbuf.cbuf; cbuf.cbufend = cbuf.cbuf; for(t = s; t && *t; t++){ if(utf8_to_ucs4_oneatatime((unsigned char) *t & 0xff, &cbuf, &ucs, NULL)){ if ((ucs >= 0x00A0 && ucs <= 0xD7FF) || (ucs >= 0xE000 && ucs <= 0xFDCF) || (ucs >= 0xFDF0 && ucs <= 0xFFEF) || (ucs >= 0x10000 && ucs <= 0x1FFFD) || (ucs >= 0x20000 && ucs <= 0x2FFFD) || (ucs >= 0x30000 && ucs <= 0x3FFFD) || (ucs >= 0x40000 && ucs <= 0x4FFFD) || (ucs >= 0x50000 && ucs <= 0x5FFFD) || (ucs >= 0x60000 && ucs <= 0x6FFFD) || (ucs >= 0x70000 && ucs <= 0x7FFFD) || (ucs >= 0x80000 && ucs <= 0x8FFFD) || (ucs >= 0x90000 && ucs <= 0x9FFFD) || (ucs >= 0xA0000 && ucs <= 0xAFFFD) || (ucs >= 0xB0000 && ucs <= 0xBFFFD) || (ucs >= 0xC0000 && ucs <= 0xCFFFD) || (ucs >= 0xD0000 && ucs <= 0xDFFFD) || (ucs >= 0xE0000 && ucs <= 0xEFFFD) || (ucs >= 0xF0000 && ucs <= 0xFFFFD) || (ucs >= 0x100000 && ucs <= 0x10FFFD)) valid = t-s+1; break; } } } return valid; } /* * rfc1738xchar - returns TRUE if the given char fits RFC 1738 "xchar" BNF */ int rfc1738xchar(char *s) { int n; return((n = rfc1738uchar(s)) ? n : (strchr(RFC1738_RSVP, *s) != NULL || strchr(RFC1738_FUDGE, *s))); } /* * rfc1738_num - return long value of a string of digits, possibly escaped */ unsigned long rfc1738_num(char **s) { register char *p = *s; unsigned long n = 0L; for(; *p; p++) if(*p == '%' && isxpair(p+1)){ int c = X2C(p+1); if(isdigit((unsigned char) c)){ n = (c - '0') + (n * 10); p += 2; } else break; } else if(isdigit((unsigned char) *p)) n = (*p - '0') + (n * 10); else break; *s = p; return(n); } int rfc1738_group(char *s) { return(isalnum((unsigned char) *s) || RFC1738_ESC(s) || strchr(RFC1738_NEWS, *s)); } /* * Encode (hexify) a mailto url. * * Args s -- src url * * Returns An allocated string which is suitably encoded. * Result should be freed by caller. * * Since we don't know here which characters are reserved characters (? and &) * for use in delimiting the pieces of the url and which are just those * characters contained in the data that should be encoded, we always encode * them. That's because we know we don't use those as reserved characters. * If you do use those as reserved characters you have to encode each part * separately. */ char * rfc1738_encode_mailto(char *s) { char *d, *ret = NULL; if(s){ /* Worst case, encode every character */ ret = d = (char *)fs_get((3*strlen(s) + 1) * sizeof(char)); while(*s){ if(isalnum((unsigned char)*s) || strchr(RFC1738_SAFE, *s) || strchr(RFC1738_EXTRA, *s)) *d++ = *s++; else{ *d++ = '%'; C2XPAIR(*s, d); s++; } } *d = '\0'; } return(ret); } /* * * * * * * * * * RFC 1808 support routines * * * * * * * * */ int rfc1808_tokens(char *url, char **scheme, char **net_loc, char **path, char **parms, char **query, char **frag) { char *p, *q, *start, *tmp = cpystr(url); start = tmp; if((p = strchr(start, '#')) != NULL){ /* fragment spec? */ *p++ = '\0'; if(*p) *frag = cpystr(p); } if((p = strchr(start, ':')) && p != start){ /* scheme part? */ for(q = start; q < p; q++) if(!(isdigit((unsigned char) *q) || isalpha((unsigned char) *q) || strchr("+-.", *q))) break; if(p == q){ *p++ = '\0'; *scheme = cpystr(start); start = p; } } if(*start == '/' && *(start+1) == '/'){ /* net_loc */ if((p = strchr(start+2, '/')) != NULL) *p++ = '\0'; *net_loc = cpystr(start+2); if(p) start = p; else *start = '\0'; /* End of parse */ } if((p = strchr(start, '?')) != NULL){ *p++ = '\0'; *query = cpystr(p); } if((p = strchr(start, ';')) != NULL){ *p++ = '\0'; *parms = cpystr(p); } if(*start) *path = cpystr(start); fs_give((void **) &tmp); return(1); } /* * web_host_scan -- Scan the given line for possible web host names * * NOTE: scan below is limited to DNS names ala RFC1034 */ char * web_host_scan(char *line, int *len) { char *end, last = '\0'; for(; *line; last = *line++) if((*line == 'w' || *line == 'W') && (!last || !(isalnum((unsigned char) last) || last == '.' || last == '-' || last == '/')) && (((*(line + 1) == 'w' || *(line + 1) == 'W') /* "www." */ && (*(line + 2) == 'w' || *(line + 2) == 'W')) || ((*(line + 1) == 'e' || *(line + 1) == 'E') /* "web." */ && (*(line + 2) == 'b' || *(line + 2) == 'B'))) && (*(line + 3) == '.')){ end = rfc1738_scheme_part(line + 3); if((*len = end - line) > ((*(line+3) == '.') ? 4 : 3)){ /* Dread comma exception, see note in rfc1738_scan */ if(strchr(",:", *(line + (*len) - 1)) || (*(line + (*len) - 1) == '.' && (!*(line + (*len)) || *(line + (*len)) == ' '))) (*len)--; return(line); } else line += 3; } return(NULL); } /* * mail_addr_scan -- Scan the given line for possible RFC822 addr-spec's * * NOTE: Well, OK, not strictly addr-specs since there's a lot of junk * we're tying to sift thru and we'd like to minimize false-pos * matches. */ char * mail_addr_scan(char *line, int *len) { char *amp, *start, *end; /* * This list is not the whole standards-based list, this is just a list * of likely email address characters. We don't want to include everything * because punctuation in the text might get mixed in with the address. */ #define NONALPHANUMOK ".-_+%/=" /* process each : in the line */ for(; (amp = strindex(line, '@')) != NULL; line = end){ end = amp + 1; /* zero length addr? */ if(amp == line || !(isalnum((unsigned char) *(start = amp - 1)) || strchr(NONALPHANUMOK, *start))) continue; /* * Valid address (ala RFC822 BNF)? First, first look to the * left to make sure there are valid "scheme" chars... */ while(1) /* NOTE: we're not doing quoted-strings */ if(!(isalnum((unsigned char) *start) || strchr(NONALPHANUMOK, *start))){ /* advance over bogus char, and erase leading punctuation */ for(start++; *start && strchr(NONALPHANUMOK, *start); start++) ; break; } else if(start > line) start--; else break; /* * Make sure everything up to the colon is a known scheme... */ if(start && (amp - start) > 0){ /* * Second, make sure that everything to the right of * amp is valid for a "domain"... */ if(*(end = amp + 1) == '['){ /* domain literal */ int dots = 3; for(++end; *end ; end++) if(*end == ']'){ if(!dots){ *len = end - start + 1; return(start); } else break; /* bogus */ } else if(*end == '.'){ if(--dots < 0) break; /* bogus */ } else if(!isdigit((unsigned char) *end)) break; /* bogus */ } else if(isalnum((unsigned char) *end)){ /* domain name? */ for(++end; ; end++) if(!(*end && (isalnum((unsigned char) *end) || *end == '-' || *end == '.' || *end == '_'))){ /* can't end with dash, dot or underscore */ while(!isalnum((unsigned char) *(end - 1))) end--; *len = end - start; return(start); } } } } return(NULL); }