curl-7.25.0/src/tool_urlglob.c - nest-learning-thermostat/5.0.2/curl - Git at Google

 /***************************************************************************
  *                                  _   _ ____  _
  *  Project                     ___| | | |  _ \| |
  *                             / __| | | | |_) | |
  *                            | (__| |_| |  _ <| |___
  *                             \___|\___/|_| \_\_____|
  *
  * Copyright (C) 1998 - 2011, Daniel Stenberg, <daniel@haxx.se>, 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 http://curl.haxx.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 "setup.h"

 #include <curl/curl.h>

 #define _MPRINTF_REPLACE /* we want curl-functions instead of native ones */
 #include <curl/mprintf.h>

 #include "tool_urlglob.h"
 #include "tool_vms.h"

 #include "memdebug.h" /* keep this as LAST include */

 typedef enum {
   GLOB_OK,
   GLOB_NO_MEM,
   GLOB_ERROR
 } GlobCode;

 /*
  * glob_word()
  *
  * Input a full globbed string, set the forth argument to the amount of
  * strings we get out of this. Return GlobCode.
  */
 static GlobCode glob_word(URLGlob *, /* object anchor */
                           char *,    /* globbed string */
                           size_t,       /* position */
                           int *);    /* returned number of strings */

 static GlobCode glob_set(URLGlob *glob, char *pattern,
                          size_t pos, int *amount)
 {
   /* processes a set expression with the point behind the opening '{'
      ','-separated elements are collected until the next closing '}'
   */
   URLPattern *pat;
   GlobCode res;
   bool done = FALSE;
   char* buf = glob->glob_buffer;

   pat = &glob->pattern[glob->size / 2];
   /* patterns 0,1,2,... correspond to size=1,3,5,... */
   pat->type = UPTSet;
   pat->content.Set.size = 0;
   pat->content.Set.ptr_s = 0;
   pat->content.Set.elements = NULL;

   ++glob->size;

   while(!done) {
     switch (*pattern) {
     case '\0':                  /* URL ended while set was still open */
       snprintf(glob->errormsg, sizeof(glob->errormsg),
                "unmatched brace at pos %zu\n", pos);
       return GLOB_ERROR;

     case '{':
     case '[':                   /* no nested expressions at this time */
       snprintf(glob->errormsg, sizeof(glob->errormsg),
                "nested braces not supported at pos %zu\n", pos);
       return GLOB_ERROR;

     case ',':
     case '}':                           /* set element completed */
       *buf = '\0';
       if(pat->content.Set.elements) {
         char **new_arr = realloc(pat->content.Set.elements,
                                  (pat->content.Set.size + 1) * sizeof(char*));
         if(!new_arr) {
           short elem;
           for(elem = 0; elem < pat->content.Set.size; elem++)
             Curl_safefree(pat->content.Set.elements[elem]);
           Curl_safefree(pat->content.Set.elements);
           pat->content.Set.ptr_s = 0;
           pat->content.Set.size = 0;
         }
         pat->content.Set.elements = new_arr;
       }
       else
         pat->content.Set.elements = malloc(sizeof(char*));
       if(!pat->content.Set.elements) {
         snprintf(glob->errormsg, sizeof(glob->errormsg), "out of memory\n");
         return GLOB_NO_MEM;
       }
       pat->content.Set.elements[pat->content.Set.size] =
         strdup(glob->glob_buffer);
       if(!pat->content.Set.elements[pat->content.Set.size]) {
         short elem;
         for(elem = 0; elem < pat->content.Set.size; elem++)
           Curl_safefree(pat->content.Set.elements[elem]);
         Curl_safefree(pat->content.Set.elements);
         pat->content.Set.ptr_s = 0;
         pat->content.Set.size = 0;
         snprintf(glob->errormsg, sizeof(glob->errormsg), "out of memory\n");
         return GLOB_NO_MEM;
       }
       ++pat->content.Set.size;

       if(*pattern == '}') {
         /* entire set pattern completed */
         int wordamount;

         /* always check for a literal (may be "") between patterns */
         res = glob_word(glob, ++pattern, ++pos, &wordamount);
         if(res) {
           short elem;
           for(elem = 0; elem < pat->content.Set.size; elem++)
             Curl_safefree(pat->content.Set.elements[elem]);
           Curl_safefree(pat->content.Set.elements);
           pat->content.Set.ptr_s = 0;
           pat->content.Set.size = 0;
           return res;
         }

         *amount = pat->content.Set.size * wordamount;

         done = TRUE;
         continue;
       }

       buf = glob->glob_buffer;
       ++pattern;
       ++pos;
       break;

     case ']':                           /* illegal closing bracket */
       snprintf(glob->errormsg, sizeof(glob->errormsg),
                "illegal pattern at pos %zu\n", pos);
       return GLOB_ERROR;

     case '\\':                          /* escaped character, skip '\' */
       if(pattern[1]) {
         ++pattern;
         ++pos;
       }
       /* intentional fallthrough */
     default:
       *buf++ = *pattern++;              /* copy character to set element */
       ++pos;
     }
   }
   return GLOB_OK;
 }

 static GlobCode glob_range(URLGlob *glob, char *pattern,
                            size_t pos, int *amount)
 {
   /* processes a range expression with the point behind the opening '['
      - char range: e.g. "a-z]", "B-Q]"
      - num range: e.g. "0-9]", "17-2000]"
      - num range with leading zeros: e.g. "001-999]"
      expression is checked for well-formedness and collected until the next ']'
   */
   URLPattern *pat;
   char *c;
   char sep;
   char sep2;
   int step;
   int rc;
   GlobCode res;
   int wordamount = 1;

   pat = &glob->pattern[glob->size / 2];
   /* patterns 0,1,2,... correspond to size=1,3,5,... */
   ++glob->size;

   if(ISALPHA(*pattern)) {
     /* character range detected */
     char min_c;
     char max_c;

     pat->type = UPTCharRange;

     rc = sscanf(pattern, "%c-%c%c%d%c", &min_c, &max_c, &sep, &step, &sep2);

     if((rc < 3) || (min_c >= max_c) || ((max_c - min_c) > ('z' - 'a'))) {
       /* the pattern is not well-formed */
       snprintf(glob->errormsg, sizeof(glob->errormsg),
                "error: bad range specification after pos %zu\n", pos);
       return GLOB_ERROR;
     }

     /* check the (first) separating character */
     if((sep != ']') && (sep != ':')) {
       snprintf(glob->errormsg, sizeof(glob->errormsg),
                "error: unsupported character (%c) after range at pos %zu\n",
                sep, pos);
       return GLOB_ERROR;
     }

     /* if there was a ":[num]" thing, use that as step or else use 1 */
     pat->content.CharRange.step =
       ((sep == ':') && (rc == 5) && (sep2 == ']')) ? step : 1;

     pat->content.CharRange.ptr_c = pat->content.CharRange.min_c = min_c;
     pat->content.CharRange.max_c = max_c;
   }
   else if(ISDIGIT(*pattern)) {
     /* numeric range detected */
     int min_n;
     int max_n;

     pat->type = UPTNumRange;
     pat->content.NumRange.padlength = 0;

     rc = sscanf(pattern, "%d-%d%c%d%c", &min_n, &max_n, &sep, &step, &sep2);

     if((rc < 2) || (min_n > max_n)) {
       /* the pattern is not well-formed */
       snprintf(glob->errormsg, sizeof(glob->errormsg),
                "error: bad range specification after pos %zu\n", pos);
       return GLOB_ERROR;
     }
     pat->content.NumRange.ptr_n = pat->content.NumRange.min_n = min_n;
     pat->content.NumRange.max_n = max_n;

     /* if there was a ":[num]" thing, use that as step or else use 1 */
     pat->content.NumRange.step =
       ((sep == ':') && (rc == 5) && (sep2 == ']')) ? step : 1;

     if(*pattern == '0') {
       /* leading zero specified */
       c = pattern;
       while(ISDIGIT(*c)) {
         c++;
         ++pat->content.NumRange.padlength; /* padding length is set for all
                                               instances of this pattern */
       }
     }
   }
   else {
     snprintf(glob->errormsg, sizeof(glob->errormsg),
              "illegal character in range specification at pos %zu\n", pos);
     return GLOB_ERROR;
   }

   c = (char*)strchr(pattern, ']'); /* continue after next ']' */
   if(c)
     c++;
   else {
     snprintf(glob->errormsg, sizeof(glob->errormsg), "missing ']'");
     return GLOB_ERROR; /* missing ']' */
   }

   /* always check for a literal (may be "") between patterns */

   res = glob_word(glob, c, pos + (c - pattern), &wordamount);
   if(res == GLOB_ERROR) {
     wordamount = 1;
     res = GLOB_OK;
   }

   if(!res) {
     if(pat->type == UPTCharRange)
       *amount = wordamount * (pat->content.CharRange.max_c -
                               pat->content.CharRange.min_c + 1);
     else
       *amount = wordamount * (pat->content.NumRange.max_n -
                               pat->content.NumRange.min_n + 1);
   }

   return res; /* GLOB_OK or GLOB_NO_MEM */
 }

 static GlobCode glob_word(URLGlob *glob, char *pattern,
                           size_t pos, int *amount)
 {
   /* processes a literal string component of a URL
      special characters '{' and '[' branch to set/range processing functions
    */
   char* buf = glob->glob_buffer;
   size_t litindex;
   GlobCode res = GLOB_OK;

   *amount = 1; /* default is one single string */

   while(*pattern != '\0' && *pattern != '{' && *pattern != '[') {
     if(*pattern == '}' || *pattern == ']') {
       snprintf(glob->errormsg, sizeof(glob->errormsg),
                "unmatched close brace/bracket at pos %zu\n", pos);
       return GLOB_ERROR;
     }

     /* only allow \ to escape known "special letters" */
     if(*pattern == '\\' &&
         (*(pattern+1) == '{' || *(pattern+1) == '[' ||
          *(pattern+1) == '}' || *(pattern+1) == ']') ) {

       /* escape character, skip '\' */
       ++pattern;
       ++pos;
     }
     *buf++ = *pattern++; /* copy character to literal */
     ++pos;
   }
   *buf = '\0';
   litindex = glob->size / 2;
   /* literals 0,1,2,... correspond to size=0,2,4,... */
   glob->literal[litindex] = strdup(glob->glob_buffer);
   if(!glob->literal[litindex]) {
     snprintf(glob->errormsg, sizeof(glob->errormsg), "out of memory\n");
     return GLOB_NO_MEM;
   }
   ++glob->size;

   switch (*pattern) {
   case '\0':
     /* singular URL processed  */
     break;

   case '{':
     /* process set pattern */
     res = glob_set(glob, ++pattern, ++pos, amount);
     break;

   case '[':
     /* process range pattern */
     res = glob_range(glob, ++pattern, ++pos, amount);
     break;
   }

   if(res)
     Curl_safefree(glob->literal[litindex]);

   return res;
 }

 int glob_url(URLGlob** glob, char* url, int *urlnum, FILE *error)
 {
   /*
    * We can deal with any-size, just make a buffer with the same length
    * as the specified URL!
    */
   URLGlob *glob_expand;
   int amount;
   char *glob_buffer;
   GlobCode res;

   *glob = NULL;

   glob_buffer = malloc(strlen(url) + 1);
   if(!glob_buffer)
     return CURLE_OUT_OF_MEMORY;

   glob_expand = calloc(1, sizeof(URLGlob));
   if(!glob_expand) {
     Curl_safefree(glob_buffer);
     return CURLE_OUT_OF_MEMORY;
   }
   glob_expand->size = 0;
   glob_expand->urllen = strlen(url);
   glob_expand->glob_buffer = glob_buffer;
   glob_expand->beenhere = 0;

   res = glob_word(glob_expand, url, 1, &amount);
   if(!res)
     *urlnum = amount;
   else {
     if(error && glob_expand->errormsg[0]) {
       /* send error description to the error-stream */
       fprintf(error, "curl: (%d) [globbing] %s",
               (res == GLOB_NO_MEM) ? CURLE_OUT_OF_MEMORY : CURLE_URL_MALFORMAT,
               glob_expand->errormsg);
     }
     /* it failed, we cleanup */
     Curl_safefree(glob_buffer);
     Curl_safefree(glob_expand);
     *urlnum = 1;
     return (res == GLOB_NO_MEM) ? CURLE_OUT_OF_MEMORY : CURLE_URL_MALFORMAT;
   }

   *glob = glob_expand;
   return CURLE_OK;
 }

 void glob_cleanup(URLGlob* glob)
 {
   size_t i;
   int elem;

   for(i = glob->size - 1; i < glob->size; --i) {
     if(!(i & 1)) {     /* even indexes contain literals */
       Curl_safefree(glob->literal[i/2]);
     }
     else {              /* odd indexes contain sets or ranges */
       if((glob->pattern[i/2].type == UPTSet) &&
          (glob->pattern[i/2].content.Set.elements)) {
         for(elem = glob->pattern[i/2].content.Set.size - 1;
              elem >= 0;
              --elem) {
           Curl_safefree(glob->pattern[i/2].content.Set.elements[elem]);
         }
         Curl_safefree(glob->pattern[i/2].content.Set.elements);
       }
     }
   }
   Curl_safefree(glob->glob_buffer);
   Curl_safefree(glob);
 }

 int glob_next_url(char **globbed, URLGlob *glob)
 {
   URLPattern *pat;
   char *lit;
   size_t i;
   size_t j;
   size_t len;
   size_t buflen = glob->urllen + 1;
   char *buf = glob->glob_buffer;

   *globbed = NULL;

   if(!glob->beenhere)
     glob->beenhere = 1;
   else {
     bool carry = TRUE;

     /* implement a counter over the index ranges of all patterns,
        starting with the rightmost pattern */
     for(i = glob->size / 2 - 1; carry && (i < glob->size); --i) {
       carry = FALSE;
       pat = &glob->pattern[i];
       switch (pat->type) {
       case UPTSet:
         if((pat->content.Set.elements) &&
            (++pat->content.Set.ptr_s == pat->content.Set.size)) {
           pat->content.Set.ptr_s = 0;
           carry = TRUE;
         }
         break;
       case UPTCharRange:
         pat->content.CharRange.ptr_c = (char)(pat->content.CharRange.step +
                            (int)((unsigned char)pat->content.CharRange.ptr_c));
         if(pat->content.CharRange.ptr_c > pat->content.CharRange.max_c) {
           pat->content.CharRange.ptr_c = pat->content.CharRange.min_c;
           carry = TRUE;
         }
         break;
       case UPTNumRange:
         pat->content.NumRange.ptr_n += pat->content.NumRange.step;
         if(pat->content.NumRange.ptr_n > pat->content.NumRange.max_n) {
           pat->content.NumRange.ptr_n = pat->content.NumRange.min_n;
           carry = TRUE;
         }
         break;
       default:
         printf("internal error: invalid pattern type (%d)\n", (int)pat->type);
         return CURLE_FAILED_INIT;
       }
     }
     if(carry) {         /* first pattern ptr has run into overflow, done! */
       /* TODO: verify if this should actally return CURLE_OK. */
       return CURLE_OK; /* CURLE_OK to match previous behavior */
     }
   }

   for(j = 0; j < glob->size; ++j) {
     if(!(j&1)) {              /* every other term (j even) is a literal */
       lit = glob->literal[j/2];
       len = snprintf(buf, buflen, "%s", lit);
       buf += len;
       buflen -= len;
     }
     else {                              /* the rest (i odd) are patterns */
       pat = &glob->pattern[j/2];
       switch(pat->type) {
       case UPTSet:
         if(pat->content.Set.elements) {
           len = strlen(pat->content.Set.elements[pat->content.Set.ptr_s]);
           snprintf(buf, buflen, "%s",
                    pat->content.Set.elements[pat->content.Set.ptr_s]);
           buf += len;
           buflen -= len;
         }
         break;
       case UPTCharRange:
         *buf++ = pat->content.CharRange.ptr_c;
         break;
       case UPTNumRange:
         len = snprintf(buf, buflen, "%0*d",
                        pat->content.NumRange.padlength,
                        pat->content.NumRange.ptr_n);
         buf += len;
         buflen -= len;
         break;
       default:
         printf("internal error: invalid pattern type (%d)\n", (int)pat->type);
         return CURLE_FAILED_INIT;
       }
     }
   }
   *buf = '\0';

   *globbed = strdup(glob->glob_buffer);
   if(!*globbed)
     return CURLE_OUT_OF_MEMORY;

   return CURLE_OK;
 }

 int glob_match_url(char **result, char *filename, URLGlob *glob)
 {
   char *target;
   size_t allocsize;
   char numbuf[18];
   char *appendthis = NULL;
   size_t appendlen = 0;
   size_t stringlen = 0;

   *result = NULL;

   /* We cannot use the glob_buffer for storage here since the filename may
    * be longer than the URL we use. We allocate a good start size, then
    * we need to realloc in case of need.
    */
   allocsize = strlen(filename) + 1; /* make it at least one byte to store the
                                        trailing zero */
   target = malloc(allocsize);
   if(!target)
     return CURLE_OUT_OF_MEMORY;

   while(*filename) {
     if(*filename == '#' && ISDIGIT(filename[1])) {
       unsigned long i;
       char *ptr = filename;
       unsigned long num = strtoul(&filename[1], &filename, 10);
       i = num - 1UL;

       if(num && (i <= glob->size / 2)) {
         URLPattern pat = glob->pattern[i];
         switch (pat.type) {
         case UPTSet:
           if(pat.content.Set.elements) {
             appendthis = pat.content.Set.elements[pat.content.Set.ptr_s];
             appendlen =
               strlen(pat.content.Set.elements[pat.content.Set.ptr_s]);
           }
           break;
         case UPTCharRange:
           numbuf[0] = pat.content.CharRange.ptr_c;
           numbuf[1] = 0;
           appendthis = numbuf;
           appendlen = 1;
           break;
         case UPTNumRange:
           snprintf(numbuf, sizeof(numbuf), "%0*d",
                    pat.content.NumRange.padlength,
                    pat.content.NumRange.ptr_n);
           appendthis = numbuf;
           appendlen = strlen(numbuf);
           break;
         default:
           printf("internal error: invalid pattern type (%d)\n",
                  (int)pat.type);
           Curl_safefree(target);
           return CURLE_FAILED_INIT;
         }
       }
       else {
         /* #[num] out of range, use the #[num] in the output */
         filename = ptr;
         appendthis = filename++;
         appendlen = 1;
       }
     }
     else {
       appendthis = filename++;
       appendlen = 1;
     }
     if(appendlen + stringlen >= allocsize) {
       char *newstr;
       /* we append a single byte to allow for the trailing byte to be appended
          at the end of this function outside the while() loop */
       allocsize = (appendlen + stringlen) * 2;
       newstr = realloc(target, allocsize + 1);
       if(!newstr) {
         Curl_safefree(target);
         return CURLE_OUT_OF_MEMORY;
       }
       target = newstr;
     }
     memcpy(&target[stringlen], appendthis, appendlen);
     stringlen += appendlen;
   }
   target[stringlen]= '\0';
   *result = target;
   return CURLE_OK;
 }
	/***************************************************************************
	* _ _ ____ _
	* Project ___\| \| \| \| _ \\| \|
	* / __\| \| \| \| \|_) \| \|
	* \| (__\| \|_\| \| _ <\| \|___
	* \___\|\___/\|_\| \_\_____\|
	*
	* Copyright (C) 1998 - 2011, Daniel Stenberg, <daniel@haxx.se>, 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 http://curl.haxx.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 "setup.h"

	#include <curl/curl.h>

	#define _MPRINTF_REPLACE /* we want curl-functions instead of native ones */
	#include <curl/mprintf.h>

	#include "tool_urlglob.h"
	#include "tool_vms.h"

	#include "memdebug.h" /* keep this as LAST include */

	typedef enum {
	GLOB_OK,
	GLOB_NO_MEM,
	GLOB_ERROR
	} GlobCode;

	/*
	* glob_word()
	*
	* Input a full globbed string, set the forth argument to the amount of
	* strings we get out of this. Return GlobCode.
	*/
	static GlobCode glob_word(URLGlob , / object anchor */
	char , / globbed string */
	size_t, /* position */
	int ); / returned number of strings */

	static GlobCode glob_set(URLGlob glob, char pattern,
	size_t pos, int *amount)
	{
	/* processes a set expression with the point behind the opening '{'
	','-separated elements are collected until the next closing '}'
	*/
	URLPattern *pat;
	GlobCode res;
	bool done = FALSE;
	char* buf = glob->glob_buffer;

	pat = &glob->pattern[glob->size / 2];
	/* patterns 0,1,2,... correspond to size=1,3,5,... */
	pat->type = UPTSet;
	pat->content.Set.size = 0;
	pat->content.Set.ptr_s = 0;
	pat->content.Set.elements = NULL;

	++glob->size;

	while(!done) {
	switch (*pattern) {
	case '\0': /* URL ended while set was still open */
	snprintf(glob->errormsg, sizeof(glob->errormsg),
	"unmatched brace at pos %zu\n", pos);
	return GLOB_ERROR;

	case '{':
	case '[': /* no nested expressions at this time */
	snprintf(glob->errormsg, sizeof(glob->errormsg),
	"nested braces not supported at pos %zu\n", pos);
	return GLOB_ERROR;

	case ',':
	case '}': /* set element completed */
	*buf = '\0';
	if(pat->content.Set.elements) {
	char **new_arr = realloc(pat->content.Set.elements,
	(pat->content.Set.size + 1) * sizeof(char*));
	if(!new_arr) {
	short elem;
	for(elem = 0; elem < pat->content.Set.size; elem++)
	Curl_safefree(pat->content.Set.elements[elem]);
	Curl_safefree(pat->content.Set.elements);
	pat->content.Set.ptr_s = 0;
	pat->content.Set.size = 0;
	}
	pat->content.Set.elements = new_arr;
	}
	else
	pat->content.Set.elements = malloc(sizeof(char*));
	if(!pat->content.Set.elements) {
	snprintf(glob->errormsg, sizeof(glob->errormsg), "out of memory\n");
	return GLOB_NO_MEM;
	}
	pat->content.Set.elements[pat->content.Set.size] =
	strdup(glob->glob_buffer);
	if(!pat->content.Set.elements[pat->content.Set.size]) {
	short elem;
	for(elem = 0; elem < pat->content.Set.size; elem++)
	Curl_safefree(pat->content.Set.elements[elem]);
	Curl_safefree(pat->content.Set.elements);
	pat->content.Set.ptr_s = 0;
	pat->content.Set.size = 0;
	snprintf(glob->errormsg, sizeof(glob->errormsg), "out of memory\n");
	return GLOB_NO_MEM;
	}
	++pat->content.Set.size;

	if(*pattern == '}') {
	/* entire set pattern completed */
	int wordamount;

	/* always check for a literal (may be "") between patterns */
	res = glob_word(glob, ++pattern, ++pos, &wordamount);
	if(res) {
	short elem;
	for(elem = 0; elem < pat->content.Set.size; elem++)
	Curl_safefree(pat->content.Set.elements[elem]);
	Curl_safefree(pat->content.Set.elements);
	pat->content.Set.ptr_s = 0;
	pat->content.Set.size = 0;
	return res;
	}

	amount = pat->content.Set.size wordamount;

	done = TRUE;
	continue;
	}

	buf = glob->glob_buffer;
	++pattern;
	++pos;
	break;

	case ']': /* illegal closing bracket */
	snprintf(glob->errormsg, sizeof(glob->errormsg),
	"illegal pattern at pos %zu\n", pos);
	return GLOB_ERROR;

	case '\\': /* escaped character, skip '\' */
	if(pattern[1]) {
	++pattern;
	++pos;
	}
	/* intentional fallthrough */
	default:
	buf++ = pattern++; /* copy character to set element */
	++pos;
	}
	}
	return GLOB_OK;
	}

	static GlobCode glob_range(URLGlob glob, char pattern,
	size_t pos, int *amount)
	{
	/* processes a range expression with the point behind the opening '['
	- char range: e.g. "a-z]", "B-Q]"
	- num range: e.g. "0-9]", "17-2000]"
	- num range with leading zeros: e.g. "001-999]"
	expression is checked for well-formedness and collected until the next ']'
	*/
	URLPattern *pat;
	char *c;
	char sep;
	char sep2;
	int step;
	int rc;
	GlobCode res;
	int wordamount = 1;

	pat = &glob->pattern[glob->size / 2];
	/* patterns 0,1,2,... correspond to size=1,3,5,... */
	++glob->size;

	if(ISALPHA(*pattern)) {
	/* character range detected */
	char min_c;
	char max_c;

	pat->type = UPTCharRange;

	rc = sscanf(pattern, "%c-%c%c%d%c", &min_c, &max_c, &sep, &step, &sep2);

	if((rc < 3) \|\| (min_c >= max_c) \|\| ((max_c - min_c) > ('z' - 'a'))) {
	/* the pattern is not well-formed */
	snprintf(glob->errormsg, sizeof(glob->errormsg),
	"error: bad range specification after pos %zu\n", pos);
	return GLOB_ERROR;
	}

	/* check the (first) separating character */
	if((sep != ']') && (sep != ':')) {
	snprintf(glob->errormsg, sizeof(glob->errormsg),
	"error: unsupported character (%c) after range at pos %zu\n",
	sep, pos);
	return GLOB_ERROR;
	}

	/* if there was a ":[num]" thing, use that as step or else use 1 */
	pat->content.CharRange.step =
	((sep == ':') && (rc == 5) && (sep2 == ']')) ? step : 1;

	pat->content.CharRange.ptr_c = pat->content.CharRange.min_c = min_c;
	pat->content.CharRange.max_c = max_c;
	}
	else if(ISDIGIT(*pattern)) {
	/* numeric range detected */
	int min_n;
	int max_n;

	pat->type = UPTNumRange;
	pat->content.NumRange.padlength = 0;

	rc = sscanf(pattern, "%d-%d%c%d%c", &min_n, &max_n, &sep, &step, &sep2);

	if((rc < 2) \|\| (min_n > max_n)) {
	/* the pattern is not well-formed */
	snprintf(glob->errormsg, sizeof(glob->errormsg),
	"error: bad range specification after pos %zu\n", pos);
	return GLOB_ERROR;
	}
	pat->content.NumRange.ptr_n = pat->content.NumRange.min_n = min_n;
	pat->content.NumRange.max_n = max_n;

	/* if there was a ":[num]" thing, use that as step or else use 1 */
	pat->content.NumRange.step =
	((sep == ':') && (rc == 5) && (sep2 == ']')) ? step : 1;

	if(*pattern == '0') {
	/* leading zero specified */
	c = pattern;
	while(ISDIGIT(*c)) {
	c++;
	++pat->content.NumRange.padlength; /* padding length is set for all
	instances of this pattern */
	}
	}
	}
	else {
	snprintf(glob->errormsg, sizeof(glob->errormsg),
	"illegal character in range specification at pos %zu\n", pos);
	return GLOB_ERROR;
	}

	c = (char)strchr(pattern, ']'); / continue after next ']' */
	if(c)
	c++;
	else {
	snprintf(glob->errormsg, sizeof(glob->errormsg), "missing ']'");
	return GLOB_ERROR; /* missing ']' */
	}

	/* always check for a literal (may be "") between patterns */

	res = glob_word(glob, c, pos + (c - pattern), &wordamount);
	if(res == GLOB_ERROR) {
	wordamount = 1;
	res = GLOB_OK;
	}

	if(!res) {
	if(pat->type == UPTCharRange)
	amount = wordamount (pat->content.CharRange.max_c -
	pat->content.CharRange.min_c + 1);
	else
	amount = wordamount (pat->content.NumRange.max_n -
	pat->content.NumRange.min_n + 1);
	}

	return res; /* GLOB_OK or GLOB_NO_MEM */
	}

	static GlobCode glob_word(URLGlob glob, char pattern,
	size_t pos, int *amount)
	{
	/* processes a literal string component of a URL
	special characters '{' and '[' branch to set/range processing functions
	*/
	char* buf = glob->glob_buffer;
	size_t litindex;
	GlobCode res = GLOB_OK;

	amount = 1; / default is one single string */

	while(pattern != '\0' && pattern != '{' && *pattern != '[') {
	if(pattern == '}' \|\| pattern == ']') {
	snprintf(glob->errormsg, sizeof(glob->errormsg),
	"unmatched close brace/bracket at pos %zu\n", pos);
	return GLOB_ERROR;
	}

	/* only allow \ to escape known "special letters" */
	if(*pattern == '\\' &&
	((pattern+1) == '{' \|\| (pattern+1) == '[' \|\|
	(pattern+1) == '}' \|\| (pattern+1) == ']') ) {

	/* escape character, skip '\' */
	++pattern;
	++pos;
	}
	buf++ = pattern++; /* copy character to literal */
	++pos;
	}
	*buf = '\0';
	litindex = glob->size / 2;
	/* literals 0,1,2,... correspond to size=0,2,4,... */
	glob->literal[litindex] = strdup(glob->glob_buffer);
	if(!glob->literal[litindex]) {
	snprintf(glob->errormsg, sizeof(glob->errormsg), "out of memory\n");
	return GLOB_NO_MEM;
	}
	++glob->size;

	switch (*pattern) {
	case '\0':
	/* singular URL processed */
	break;

	case '{':
	/* process set pattern */
	res = glob_set(glob, ++pattern, ++pos, amount);
	break;

	case '[':
	/* process range pattern */
	res = glob_range(glob, ++pattern, ++pos, amount);
	break;
	}

	if(res)
	Curl_safefree(glob->literal[litindex]);

	return res;
	}

	int glob_url(URLGlob** glob, char* url, int urlnum, FILE error)
	{
	/*
	* We can deal with any-size, just make a buffer with the same length
	* as the specified URL!
	*/
	URLGlob *glob_expand;
	int amount;
	char *glob_buffer;
	GlobCode res;

	*glob = NULL;

	glob_buffer = malloc(strlen(url) + 1);
	if(!glob_buffer)
	return CURLE_OUT_OF_MEMORY;

	glob_expand = calloc(1, sizeof(URLGlob));
	if(!glob_expand) {
	Curl_safefree(glob_buffer);
	return CURLE_OUT_OF_MEMORY;
	}
	glob_expand->size = 0;
	glob_expand->urllen = strlen(url);
	glob_expand->glob_buffer = glob_buffer;
	glob_expand->beenhere = 0;

	res = glob_word(glob_expand, url, 1, &amount);
	if(!res)
	*urlnum = amount;
	else {
	if(error && glob_expand->errormsg[0]) {
	/* send error description to the error-stream */
	fprintf(error, "curl: (%d) [globbing] %s",
	(res == GLOB_NO_MEM) ? CURLE_OUT_OF_MEMORY : CURLE_URL_MALFORMAT,
	glob_expand->errormsg);
	}
	/* it failed, we cleanup */
	Curl_safefree(glob_buffer);
	Curl_safefree(glob_expand);
	*urlnum = 1;
	return (res == GLOB_NO_MEM) ? CURLE_OUT_OF_MEMORY : CURLE_URL_MALFORMAT;
	}

	*glob = glob_expand;
	return CURLE_OK;
	}

	void glob_cleanup(URLGlob* glob)
	{
	size_t i;
	int elem;

	for(i = glob->size - 1; i < glob->size; --i) {
	if(!(i & 1)) { /* even indexes contain literals */
	Curl_safefree(glob->literal[i/2]);
	}
	else { /* odd indexes contain sets or ranges */
	if((glob->pattern[i/2].type == UPTSet) &&
	(glob->pattern[i/2].content.Set.elements)) {
	for(elem = glob->pattern[i/2].content.Set.size - 1;
	elem >= 0;
	--elem) {
	Curl_safefree(glob->pattern[i/2].content.Set.elements[elem]);
	}
	Curl_safefree(glob->pattern[i/2].content.Set.elements);
	}
	}
	}
	Curl_safefree(glob->glob_buffer);
	Curl_safefree(glob);
	}

	int glob_next_url(char *globbed, URLGlob glob)
	{
	URLPattern *pat;
	char *lit;
	size_t i;
	size_t j;
	size_t len;
	size_t buflen = glob->urllen + 1;
	char *buf = glob->glob_buffer;

	*globbed = NULL;

	if(!glob->beenhere)
	glob->beenhere = 1;
	else {
	bool carry = TRUE;

	/* implement a counter over the index ranges of all patterns,
	starting with the rightmost pattern */
	for(i = glob->size / 2 - 1; carry && (i < glob->size); --i) {
	carry = FALSE;
	pat = &glob->pattern[i];
	switch (pat->type) {
	case UPTSet:
	if((pat->content.Set.elements) &&
	(++pat->content.Set.ptr_s == pat->content.Set.size)) {
	pat->content.Set.ptr_s = 0;
	carry = TRUE;
	}
	break;
	case UPTCharRange:
	pat->content.CharRange.ptr_c = (char)(pat->content.CharRange.step +
	(int)((unsigned char)pat->content.CharRange.ptr_c));
	if(pat->content.CharRange.ptr_c > pat->content.CharRange.max_c) {
	pat->content.CharRange.ptr_c = pat->content.CharRange.min_c;
	carry = TRUE;
	}
	break;
	case UPTNumRange:
	pat->content.NumRange.ptr_n += pat->content.NumRange.step;
	if(pat->content.NumRange.ptr_n > pat->content.NumRange.max_n) {
	pat->content.NumRange.ptr_n = pat->content.NumRange.min_n;
	carry = TRUE;
	}
	break;
	default:
	printf("internal error: invalid pattern type (%d)\n", (int)pat->type);
	return CURLE_FAILED_INIT;
	}
	}
	if(carry) { /* first pattern ptr has run into overflow, done! */
	/* TODO: verify if this should actally return CURLE_OK. */
	return CURLE_OK; /* CURLE_OK to match previous behavior */
	}
	}

	for(j = 0; j < glob->size; ++j) {
	if(!(j&1)) { /* every other term (j even) is a literal */
	lit = glob->literal[j/2];
	len = snprintf(buf, buflen, "%s", lit);
	buf += len;
	buflen -= len;
	}
	else { /* the rest (i odd) are patterns */
	pat = &glob->pattern[j/2];
	switch(pat->type) {
	case UPTSet:
	if(pat->content.Set.elements) {
	len = strlen(pat->content.Set.elements[pat->content.Set.ptr_s]);
	snprintf(buf, buflen, "%s",
	pat->content.Set.elements[pat->content.Set.ptr_s]);
	buf += len;
	buflen -= len;
	}
	break;
	case UPTCharRange:
	*buf++ = pat->content.CharRange.ptr_c;
	break;
	case UPTNumRange:
	len = snprintf(buf, buflen, "%0*d",
	pat->content.NumRange.padlength,
	pat->content.NumRange.ptr_n);
	buf += len;
	buflen -= len;
	break;
	default:
	printf("internal error: invalid pattern type (%d)\n", (int)pat->type);
	return CURLE_FAILED_INIT;
	}
	}
	}
	*buf = '\0';

	*globbed = strdup(glob->glob_buffer);
	if(!*globbed)
	return CURLE_OUT_OF_MEMORY;

	return CURLE_OK;
	}

	int glob_match_url(char *result, char filename, URLGlob *glob)
	{
	char *target;
	size_t allocsize;
	char numbuf[18];
	char *appendthis = NULL;
	size_t appendlen = 0;
	size_t stringlen = 0;

	*result = NULL;

	/* We cannot use the glob_buffer for storage here since the filename may
	* be longer than the URL we use. We allocate a good start size, then
	* we need to realloc in case of need.
	*/
	allocsize = strlen(filename) + 1; /* make it at least one byte to store the
	trailing zero */
	target = malloc(allocsize);
	if(!target)
	return CURLE_OUT_OF_MEMORY;

	while(*filename) {
	if(*filename == '#' && ISDIGIT(filename[1])) {
	unsigned long i;
	char *ptr = filename;
	unsigned long num = strtoul(&filename[1], &filename, 10);
	i = num - 1UL;

	if(num && (i <= glob->size / 2)) {
	URLPattern pat = glob->pattern[i];
	switch (pat.type) {
	case UPTSet:
	if(pat.content.Set.elements) {
	appendthis = pat.content.Set.elements[pat.content.Set.ptr_s];
	appendlen =
	strlen(pat.content.Set.elements[pat.content.Set.ptr_s]);
	}
	break;
	case UPTCharRange:
	numbuf[0] = pat.content.CharRange.ptr_c;
	numbuf[1] = 0;
	appendthis = numbuf;
	appendlen = 1;
	break;
	case UPTNumRange:
	snprintf(numbuf, sizeof(numbuf), "%0*d",
	pat.content.NumRange.padlength,
	pat.content.NumRange.ptr_n);
	appendthis = numbuf;
	appendlen = strlen(numbuf);
	break;
	default:
	printf("internal error: invalid pattern type (%d)\n",
	(int)pat.type);
	Curl_safefree(target);
	return CURLE_FAILED_INIT;
	}
	}
	else {
	/* #[num] out of range, use the #[num] in the output */
	filename = ptr;
	appendthis = filename++;
	appendlen = 1;
	}
	}
	else {
	appendthis = filename++;
	appendlen = 1;
	}
	if(appendlen + stringlen >= allocsize) {
	char *newstr;
	/* we append a single byte to allow for the trailing byte to be appended
	at the end of this function outside the while() loop */
	allocsize = (appendlen + stringlen) * 2;
	newstr = realloc(target, allocsize + 1);
	if(!newstr) {
	Curl_safefree(target);
	return CURLE_OUT_OF_MEMORY;
	}
	target = newstr;
	}
	memcpy(&target[stringlen], appendthis, appendlen);
	stringlen += appendlen;
	}
	target[stringlen]= '\0';
	*result = target;
	return CURLE_OK;
	}