/*************************************************************************** * _ _ ____ _ * Project ___| | | | _ \| | * / __| | | | |_) | | * | (__| |_| | _ <| |___ * \___|\___/|_| \_\_____| * * Copyright (C) 1998 - 2019, Daniel Stenberg, , et al. * * This software is licensed as described in the file COPYING, which * you should have received as part of this distribution. The terms * are also available at https://curl.se/docs/copyright.html. * * You may opt to use, copy, modify, merge, publish, distribute and/or sell * copies of the Software, and permit persons to whom the Software is * furnished to do so, under the terms of the COPYING file. * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * ***************************************************************************/ #include "curl_setup.h" #ifndef CURL_DISABLE_FTP #include #include "curl_fnmatch.h" #include "curl_memory.h" /* The last #include file should be: */ #include "memdebug.h" #ifndef HAVE_FNMATCH #define CURLFNM_CHARSET_LEN (sizeof(char) * 256) #define CURLFNM_CHSET_SIZE (CURLFNM_CHARSET_LEN + 15) #define CURLFNM_NEGATE CURLFNM_CHARSET_LEN #define CURLFNM_ALNUM (CURLFNM_CHARSET_LEN + 1) #define CURLFNM_DIGIT (CURLFNM_CHARSET_LEN + 2) #define CURLFNM_XDIGIT (CURLFNM_CHARSET_LEN + 3) #define CURLFNM_ALPHA (CURLFNM_CHARSET_LEN + 4) #define CURLFNM_PRINT (CURLFNM_CHARSET_LEN + 5) #define CURLFNM_BLANK (CURLFNM_CHARSET_LEN + 6) #define CURLFNM_LOWER (CURLFNM_CHARSET_LEN + 7) #define CURLFNM_GRAPH (CURLFNM_CHARSET_LEN + 8) #define CURLFNM_SPACE (CURLFNM_CHARSET_LEN + 9) #define CURLFNM_UPPER (CURLFNM_CHARSET_LEN + 10) typedef enum { CURLFNM_SCHS_DEFAULT = 0, CURLFNM_SCHS_RIGHTBR, CURLFNM_SCHS_RIGHTBRLEFTBR } setcharset_state; typedef enum { CURLFNM_PKW_INIT = 0, CURLFNM_PKW_DDOT } parsekey_state; typedef enum { CCLASS_OTHER = 0, CCLASS_DIGIT, CCLASS_UPPER, CCLASS_LOWER } char_class; #define SETCHARSET_OK 1 #define SETCHARSET_FAIL 0 static int parsekeyword(unsigned char **pattern, unsigned char *charset) { parsekey_state state = CURLFNM_PKW_INIT; #define KEYLEN 10 char keyword[KEYLEN] = { 0 }; int found = FALSE; int i; unsigned char *p = *pattern; for(i = 0; !found; i++) { char c = *p++; if(i >= KEYLEN) return SETCHARSET_FAIL; switch(state) { case CURLFNM_PKW_INIT: if(ISLOWER(c)) keyword[i] = c; else if(c == ':') state = CURLFNM_PKW_DDOT; else return SETCHARSET_FAIL; break; case CURLFNM_PKW_DDOT: if(c == ']') found = TRUE; else return SETCHARSET_FAIL; } } #undef KEYLEN *pattern = p; /* move caller's pattern pointer */ if(strcmp(keyword, "digit") == 0) charset[CURLFNM_DIGIT] = 1; else if(strcmp(keyword, "alnum") == 0) charset[CURLFNM_ALNUM] = 1; else if(strcmp(keyword, "alpha") == 0) charset[CURLFNM_ALPHA] = 1; else if(strcmp(keyword, "xdigit") == 0) charset[CURLFNM_XDIGIT] = 1; else if(strcmp(keyword, "print") == 0) charset[CURLFNM_PRINT] = 1; else if(strcmp(keyword, "graph") == 0) charset[CURLFNM_GRAPH] = 1; else if(strcmp(keyword, "space") == 0) charset[CURLFNM_SPACE] = 1; else if(strcmp(keyword, "blank") == 0) charset[CURLFNM_BLANK] = 1; else if(strcmp(keyword, "upper") == 0) charset[CURLFNM_UPPER] = 1; else if(strcmp(keyword, "lower") == 0) charset[CURLFNM_LOWER] = 1; else return SETCHARSET_FAIL; return SETCHARSET_OK; } /* Return the character class. */ static char_class charclass(unsigned char c) { if(ISUPPER(c)) return CCLASS_UPPER; if(ISLOWER(c)) return CCLASS_LOWER; if(ISDIGIT(c)) return CCLASS_DIGIT; return CCLASS_OTHER; } /* Include a character or a range in set. */ static void setcharorrange(unsigned char **pp, unsigned char *charset) { unsigned char *p = (*pp)++; unsigned char c = *p++; charset[c] = 1; if(ISALNUM(c) && *p++ == '-') { char_class cc = charclass(c); unsigned char endrange = *p++; if(endrange == '\\') endrange = *p++; if(endrange >= c && charclass(endrange) == cc) { while(c++ != endrange) if(charclass(c) == cc) /* Chars in class may be not consecutive. */ charset[c] = 1; *pp = p; } } } /* returns 1 (true) if pattern is OK, 0 if is bad ("p" is pattern pointer) */ static int setcharset(unsigned char **p, unsigned char *charset) { setcharset_state state = CURLFNM_SCHS_DEFAULT; bool something_found = FALSE; unsigned char c; memset(charset, 0, CURLFNM_CHSET_SIZE); for(;;) { c = **p; if(!c) return SETCHARSET_FAIL; switch(state) { case CURLFNM_SCHS_DEFAULT: if(c == ']') { if(something_found) return SETCHARSET_OK; something_found = TRUE; state = CURLFNM_SCHS_RIGHTBR; charset[c] = 1; (*p)++; } else if(c == '[') { unsigned char *pp = *p + 1; if(*pp++ == ':' && parsekeyword(&pp, charset)) *p = pp; else { charset[c] = 1; (*p)++; } something_found = TRUE; } else if(c == '^' || c == '!') { if(!something_found) { if(charset[CURLFNM_NEGATE]) { charset[c] = 1; something_found = TRUE; } else charset[CURLFNM_NEGATE] = 1; /* negate charset */ } else charset[c] = 1; (*p)++; } else if(c == '\\') { c = *(++(*p)); if(c) setcharorrange(p, charset); else charset['\\'] = 1; something_found = TRUE; } else { setcharorrange(p, charset); something_found = TRUE; } break; case CURLFNM_SCHS_RIGHTBR: if(c == '[') { state = CURLFNM_SCHS_RIGHTBRLEFTBR; charset[c] = 1; (*p)++; } else if(c == ']') { return SETCHARSET_OK; } else if(ISPRINT(c)) { charset[c] = 1; (*p)++; state = CURLFNM_SCHS_DEFAULT; } else /* used 'goto fail' instead of 'return SETCHARSET_FAIL' to avoid a * nonsense warning 'statement not reached' at end of the fnc when * compiling on Solaris */ goto fail; break; case CURLFNM_SCHS_RIGHTBRLEFTBR: if(c == ']') return SETCHARSET_OK; state = CURLFNM_SCHS_DEFAULT; charset[c] = 1; (*p)++; break; } } fail: return SETCHARSET_FAIL; } static int loop(const unsigned char *pattern, const unsigned char *string, int maxstars) { unsigned char *p = (unsigned char *)pattern; unsigned char *s = (unsigned char *)string; unsigned char charset[CURLFNM_CHSET_SIZE] = { 0 }; for(;;) { unsigned char *pp; switch(*p) { case '*': if(!maxstars) return CURL_FNMATCH_NOMATCH; /* Regroup consecutive stars and question marks. This can be done because '*?*?*' can be expressed as '??*'. */ for(;;) { if(*++p == '\0') return CURL_FNMATCH_MATCH; if(*p == '?') { if(!*s++) return CURL_FNMATCH_NOMATCH; } else if(*p != '*') break; } /* Skip string characters until we find a match with pattern suffix. */ for(maxstars--; *s; s++) { if(loop(p, s, maxstars) == CURL_FNMATCH_MATCH) return CURL_FNMATCH_MATCH; } return CURL_FNMATCH_NOMATCH; case '?': if(!*s) return CURL_FNMATCH_NOMATCH; s++; p++; break; case '\0': return *s? CURL_FNMATCH_NOMATCH: CURL_FNMATCH_MATCH; case '\\': if(p[1]) p++; if(*s++ != *p++) return CURL_FNMATCH_NOMATCH; break; case '[': pp = p + 1; /* Copy in case of syntax error in set. */ if(setcharset(&pp, charset)) { int found = FALSE; if(!*s) return CURL_FNMATCH_NOMATCH; if(charset[(unsigned int)*s]) found = TRUE; else if(charset[CURLFNM_ALNUM]) found = ISALNUM(*s); else if(charset[CURLFNM_ALPHA]) found = ISALPHA(*s); else if(charset[CURLFNM_DIGIT]) found = ISDIGIT(*s); else if(charset[CURLFNM_XDIGIT]) found = ISXDIGIT(*s); else if(charset[CURLFNM_PRINT]) found = ISPRINT(*s); else if(charset[CURLFNM_SPACE]) found = ISSPACE(*s); else if(charset[CURLFNM_UPPER]) found = ISUPPER(*s); else if(charset[CURLFNM_LOWER]) found = ISLOWER(*s); else if(charset[CURLFNM_BLANK]) found = ISBLANK(*s); else if(charset[CURLFNM_GRAPH]) found = ISGRAPH(*s); if(charset[CURLFNM_NEGATE]) found = !found; if(!found) return CURL_FNMATCH_NOMATCH; p = pp + 1; s++; break; } /* Syntax error in set; mismatch! */ return CURL_FNMATCH_NOMATCH; default: if(*p++ != *s++) return CURL_FNMATCH_NOMATCH; break; } } } /* * @unittest: 1307 */ int Curl_fnmatch(void *ptr, const char *pattern, const char *string) { (void)ptr; /* the argument is specified by the curl_fnmatch_callback prototype, but not used by Curl_fnmatch() */ if(!pattern || !string) { return CURL_FNMATCH_FAIL; } return loop((unsigned char *)pattern, (unsigned char *)string, 2); } #else #include /* * @unittest: 1307 */ int Curl_fnmatch(void *ptr, const char *pattern, const char *string) { int rc; (void)ptr; /* the argument is specified by the curl_fnmatch_callback prototype, but not used by Curl_fnmatch() */ if(!pattern || !string) { return CURL_FNMATCH_FAIL; } rc = fnmatch(pattern, string, 0); switch(rc) { case 0: return CURL_FNMATCH_MATCH; case FNM_NOMATCH: return CURL_FNMATCH_NOMATCH; default: return CURL_FNMATCH_FAIL; } /* not reached */ } #endif #endif /* if FTP is disabled */