518 lines
14 KiB
C
518 lines
14 KiB
C
/******************************************
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*
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* GETCGI.C - Nagios CGI Input Routines
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*
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* Last Modified: 05-15-2006
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*
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*****************************************/
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#include "../include/config.h"
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#include "../include/getcgi.h"
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#include <stdio.h>
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#include <stdlib.h>
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#undef PARANOID_CGI_INPUT
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/* Remove potentially harmful characters from CGI input that we don't need or want */
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void sanitize_cgi_input(char **cgivars) {
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char *strptr;
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int x, y, i;
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int keep;
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/* don't strip for now... */
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return;
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for(strptr = cgivars[i = 0]; strptr != NULL; strptr = cgivars[++i]) {
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for(x = 0, y = 0; strptr[x] != '\x0'; x++) {
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keep = 1;
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/* remove potentially nasty characters */
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if(strptr[x] == ';' || strptr[x] == '|' || strptr[x] == '&' || strptr[x] == '<' || strptr[x] == '>')
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keep = 0;
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#ifdef PARANOID_CGI_INPUT
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else if(strptr[x] == '/' || strptr[x] == '\\')
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keep = 0;
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#endif
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if(keep == 1)
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strptr[y++] = strptr[x];
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}
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strptr[y] = '\x0';
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}
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return;
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}
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/* convert encoded hex string (2 characters representing an 8-bit number) to its ASCII char equivalent */
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unsigned char hex_to_char(char *input) {
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unsigned char outchar = '\x0';
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unsigned int outint;
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char tempbuf[3];
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/* NULL or empty string */
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if(input == NULL)
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return '\x0';
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if(input[0] == '\x0')
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return '\x0';
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tempbuf[0] = input[0];
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tempbuf[1] = input[1];
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tempbuf[2] = '\x0';
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sscanf(tempbuf, "%X", &outint);
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/* only convert "normal" ASCII characters - we don't want the rest. Normally you would
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convert all characters (i.e. for allowing users to post binary files), but since we
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aren't doing this, stay on the cautious side of things and reject outsiders... */
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#ifdef PARANOID_CGI_INPUT
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if(outint < 32 || outint > 126)
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outint = 0;
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#endif
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outchar = (unsigned char)outint;
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return outchar;
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}
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/* unescape hex characters in CGI input */
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void unescape_cgi_input(char *input) {
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int x, y;
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int len;
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if(input == NULL)
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return;
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len = strlen(input);
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for(x = 0, y = 0; x < len; x++, y++) {
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if(input[x] == '\x0')
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break;
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else if(input[x] == '%') {
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input[y] = hex_to_char(&input[x + 1]);
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x += 2;
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}
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else
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input[y] = input[x];
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}
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input[y] = '\x0';
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return;
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}
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/* read the CGI input and place all name/val pairs into list. returns list containing name1, value1, name2, value2, ... , NULL */
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/* this is a hacked version of a routine I found a long time ago somewhere - can't remember where anymore */
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char **getcgivars(void) {
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register int i;
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char *accept_language;
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char *request_method;
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char *content_type;
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char *content_length_string;
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int content_length;
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char *cgiinput;
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char **cgivars;
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char **pairlist;
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int paircount;
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char *nvpair;
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char *eqpos;
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/* initialize char variable(s) */
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cgiinput = "";
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/* Attempt to set the locale */
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accept_language = getenv("HTTP_ACCEPT_LANGUAGE");
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process_language(accept_language);
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/* depending on the request method, read all CGI input into cgiinput */
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request_method = getenv("REQUEST_METHOD");
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if(request_method == NULL)
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request_method = "";
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if(!strcmp(request_method, "GET") || !strcmp(request_method, "HEAD")) {
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/* check for NULL query string environment variable - 04/28/00 (Ludo Bosmans) */
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if(getenv("QUERY_STRING") == NULL) {
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cgiinput = (char *)malloc(1);
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if(cgiinput != NULL)
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cgiinput[0] = '\x0';
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}
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else
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cgiinput = strdup(getenv("QUERY_STRING"));
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if(cgiinput == NULL) {
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printf("getcgivars(): Could not allocate memory for CGI input.\n");
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exit(1);
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}
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}
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else if(!strcmp(request_method, "POST") || !strcmp(request_method, "PUT")) {
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/* if CONTENT_TYPE variable is not specified, RFC-2068 says we should assume it is "application/octet-string" */
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/* mobile (WAP) stations generate CONTENT_TYPE with charset, we we should only check first 33 chars */
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content_type = getenv("CONTENT_TYPE");
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if(content_type == NULL)
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content_type = "";
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if(strlen(content_type) && strncasecmp(content_type, "application/x-www-form-urlencoded", 33)) {
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printf("getcgivars(): Unsupported Content-Type.\n");
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exit(1);
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}
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content_length_string = getenv("CONTENT_LENGTH");
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if(content_length_string == NULL)
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content_length_string = "0";
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if(!(content_length = atoi(content_length_string))) {
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printf("getcgivars(): No Content-Length was sent with the POST request.\n") ;
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exit(1);
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}
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/* suspicious content length */
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if((content_length < 0) || (content_length >= INT_MAX - 1)) {
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printf("getcgivars(): Suspicious Content-Length was sent with the POST request.\n");
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exit(1);
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}
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if(!(cgiinput = (char *)malloc(content_length + 1))) {
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printf("getcgivars(): Could not allocate memory for CGI input.\n");
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exit(1);
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}
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if(!fread(cgiinput, content_length, 1, stdin)) {
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printf("getcgivars(): Could not read input from STDIN.\n");
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exit(1);
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}
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cgiinput[content_length] = '\0';
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}
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else {
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printf("getcgivars(): Unsupported REQUEST_METHOD -> '%s'\n", request_method);
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printf("\n");
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printf("I'm guessing you're trying to execute the CGI from a command line.\n");
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printf("In order to do that, you need to set the REQUEST_METHOD environment\n");
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printf("variable to either \"GET\", \"HEAD\", or \"POST\". When using the\n");
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printf("GET and HEAD methods, arguments can be passed to the CGI\n");
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printf("by setting the \"QUERY_STRING\" environment variable. If you're\n");
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printf("using the POST method, data is read from standard input. Also of\n");
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printf("note: if you've enabled authentication in the CGIs, you must set the\n");
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printf("\"REMOTE_USER\" environment variable to be the name of the user you're\n");
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printf("\"authenticated\" as.\n");
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printf("\n");
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exit(1);
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}
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/* change all plus signs back to spaces */
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for(i = 0; cgiinput[i]; i++) {
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if(cgiinput[i] == '+')
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cgiinput[i] = ' ';
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}
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/* first, split on ampersands (&) to extract the name-value pairs into pairlist */
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/* allocate memory for 256 name-value pairs at a time, increasing by same
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amount as necessary... */
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pairlist = (char **)malloc(256 * sizeof(char **));
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if(pairlist == NULL) {
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printf("getcgivars(): Could not allocate memory for name-value pairlist.\n");
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exit(1);
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}
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paircount = 0;
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nvpair = strtok(cgiinput, "&");
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while(nvpair) {
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pairlist[paircount] = strdup(nvpair);
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if(NULL == pairlist[paircount]) {
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printf("getcgivars(): Could not allocate memory for name-value pair #%d.\n", paircount);
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exit(1);
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}
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paircount++;
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if(!(paircount % 256)) {
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pairlist = (char **)realloc(pairlist, (paircount + 256) * sizeof(char **));
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if(pairlist == NULL) {
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printf("getcgivars(): Could not re-allocate memory for name-value pairlist.\n");
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exit(1);
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}
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}
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nvpair = strtok(NULL, "&");
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}
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/* terminate the list */
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pairlist[paircount] = '\x0';
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/* extract the names and values from the pairlist */
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cgivars = (char **)malloc((paircount * 2 + 1) * sizeof(char **));
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if(cgivars == NULL) {
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printf("getcgivars(): Could not allocate memory for name-value list.\n");
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exit(1);
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}
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for(i = 0; i < paircount; i++) {
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/* get the variable name preceding the equal (=) sign */
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if((eqpos = strchr(pairlist[i], '=')) != NULL) {
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*eqpos = '\0';
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cgivars[i * 2 + 1] = strdup(eqpos + 1);
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if(NULL == cgivars[ i * 2 + 1]) {
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printf("getcgivars(): Could not allocate memory for cgi value #%d.\n", i);
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exit(1);
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}
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unescape_cgi_input(cgivars[i * 2 + 1]);
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}
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else {
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cgivars[i * 2 + 1] = strdup("");
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if(NULL == cgivars[ i * 2 + 1]) {
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printf("getcgivars(): Could not allocate memory for empty stringfor variable value #%d.\n", i);
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exit(1);
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}
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unescape_cgi_input(cgivars[i * 2 + 1]);
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}
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/* get the variable value (or name/value of there was no real "pair" in the first place) */
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cgivars[i * 2] = strdup(pairlist[i]);
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if(NULL == cgivars[ i * 2]) {
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printf("getcgivars(): Could not allocate memory for cgi name #%d.\n", i);
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exit(1);
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}
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unescape_cgi_input(cgivars[i * 2]);
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}
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/* terminate the name-value list */
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cgivars[paircount * 2] = '\x0';
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/* free allocated memory */
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free(cgiinput);
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for(i = 0; pairlist[i] != NULL; i++)
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free(pairlist[i]);
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free(pairlist);
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/* sanitize the name-value strings */
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sanitize_cgi_input(cgivars);
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/* return the list of name-value strings */
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return cgivars;
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}
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/* Set the locale based on the HTTP_ACCEPT_LANGUAGE variable value sent by
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the browser */
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void process_language(char * accept_language) {
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accept_languages *accept_langs = NULL;
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int x;
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char locale_string[ 64];
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char * locale = NULL;
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char * locale_failsafe[] = { "en_US.utf8", "POSIX", "C" };
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if(accept_language != NULL) {
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accept_langs = parse_accept_languages(accept_language);
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}
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if(NULL != accept_langs) {
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/* Sort the results */
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qsort(accept_langs->languages, accept_langs->count,
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sizeof(accept_langs->languages[ 0]), compare_accept_languages);
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/* Try each language in order of priority */
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for(x = 0; ((x < accept_langs->count) && (NULL == locale)); x++) {
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snprintf(locale_string, sizeof(locale_string), "%s_%s.%s",
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accept_langs->languages[ x]->language,
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accept_langs->languages[ x]->locality, "utf8");
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locale = setlocale(LC_CTYPE, locale_string);
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if(NULL != locale) break;
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}
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free_accept_languages(accept_langs);
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}
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if(NULL == locale) { /* Still isn't set */
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/* Try the fail safe locales */
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for(x = 0; ((x < (sizeof(locale_failsafe) / sizeof(char *))) &&
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(NULL == locale)); x++) {
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locale = setlocale(LC_CTYPE, locale_failsafe[ x]);
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}
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}
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}
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accept_languages * parse_accept_languages(char * acceptlang) {
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char * langdup; /* Duplicate of accept language for parsing */
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accept_languages *langs = NULL;
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char * langtok; /* Language token (language + locality + q value) */
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char * saveptr; /* Save state of tokenization */
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char * qdelim; /* location of the delimiter ';q=' */
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char * localitydelim; /* Delimiter for locality specifier */
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int x;
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char * stp;
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/* If the browser did not pass an HTTP_ACCEPT_LANGUAGE variable, there
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is not much we can do */
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if(NULL == acceptlang) {
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return NULL;
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}
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/* Duplicate the browser supplied HTTP_ACCEPT_LANGUAGE variable */
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if(NULL == (langdup = strdup(acceptlang))) {
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printf("Unable to allocate memory for langdup\n");
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return NULL;
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}
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/* Initialize the structure to contain the parsed HTTP_ACCEPT_LANGUAGE
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information */
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if(NULL == (langs = malloc(sizeof(accept_languages)))) {
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printf("Unable to allocate memory for langs\n");
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free(langdup);
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return NULL;
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}
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langs->count = 0;
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langs->languages = (accept_language **)NULL;
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/* Tokenize the HTTP_ACCEPT_LANGUAGE string */
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langtok = strtok_r(langdup, ",", &saveptr);
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while(langtok != NULL) {
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/* Bump the count and allocate memory for structures */
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langs->count++;
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if(NULL == langs->languages) {
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/* Adding first language */
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if(NULL == (langs->languages =
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malloc(langs->count * sizeof(accept_language *)))) {
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printf("Unable to allocate memory for first language\n");
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langs->count--;
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free_accept_languages(langs);
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free(langdup);
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return NULL;
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}
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}
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else {
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/* Adding additional language */
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if(NULL == (langs->languages = realloc(langs->languages,
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langs->count * sizeof(accept_language *)))) {
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printf("Unable to allocate memory for additional language\n");
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langs->count--;
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free_accept_languages(langs);
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free(langdup);
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return NULL;
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}
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}
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if(NULL == (langs->languages[ langs->count - 1] =
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malloc(sizeof(accept_language)))) {
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printf("Unable to allocate memory for language\n");
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langs->count--;
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free_accept_languages(langs);
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free(langdup);
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return NULL;
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}
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langs->languages[ langs->count - 1]->language = (char *)NULL;
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langs->languages[ langs->count - 1]->locality = (char *)NULL;
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langs->languages[ langs->count - 1]->q = 1.0;
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/* Check to see if there is a q value */
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qdelim = strstr(langtok, ACCEPT_LANGUAGE_Q_DELIMITER);
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if(NULL != qdelim) { /* found a q value */
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langs->languages[ langs->count - 1]->q =
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strtod(qdelim + strlen(ACCEPT_LANGUAGE_Q_DELIMITER), NULL);
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langtok[ qdelim - langtok] = '\0';
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}
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/* Check to see if there is a locality specifier */
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if(NULL == (localitydelim = strchr(langtok, '-'))) {
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localitydelim = strchr(langtok, '_');
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}
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if(NULL != localitydelim) {
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/* We have a locality delimiter, so copy it */
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if(NULL == (langs->languages[ langs->count - 1]->locality =
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strdup(localitydelim + 1))) {
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printf("Unable to allocate memory for locality '%s'\n",
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langtok);
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free_accept_languages(langs);
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free(langdup);
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return NULL;
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}
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/* Ensure it is upper case */
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for(x = 0, stp = langs->languages[ langs->count - 1]->locality;
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x < strlen(langs->languages[ langs->count - 1]->locality);
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x++, stp++) {
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*stp = toupper(*stp);
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}
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/* Then null out the delimiter so the language copy works */
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*localitydelim = '\0';
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}
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if(NULL == (langs->languages[ langs->count - 1]->language =
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strdup(langtok))) {
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printf("Unable to allocate memory for language '%s'\n",
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langtok);
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free_accept_languages(langs);
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free(langdup);
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return NULL;
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}
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/* Get the next language token */
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langtok = strtok_r(NULL, ",", &saveptr);
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}
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free(langdup);
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return langs;
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}
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int compare_accept_languages(const void *p1, const void *p2) {
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accept_language * lang1 = *(accept_language **)p1;
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accept_language * lang2 = *(accept_language **)p2;
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if(lang1->q == lang2->q) {
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if(((NULL == lang1->locality) && (NULL == lang2->locality)) ||
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((NULL != lang1->locality) && (NULL != lang2->locality))) {
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return 0;
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}
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else if(NULL != lang1->locality) {
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return -1;
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}
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else { /* NULL != lang2->locality */
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return 1;
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}
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}
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else {
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return(lang2->q > lang1->q);
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}
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}
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void free_accept_languages(accept_languages * langs) {
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int x;
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if(NULL == langs) {
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return;
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}
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for(x = 0; x < langs->count; x++) {
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if(NULL != langs->languages[ x]) {
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if(langs->languages[ x]->language != NULL) {
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free(langs->languages[ x]->language);
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}
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if(langs->languages[ x]->locality != NULL) {
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free(langs->languages[ x]->locality);
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}
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free(langs->languages[ x]);
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}
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}
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if(langs->languages != NULL) {
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free(langs->languages);
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}
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free(langs);
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return;
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}
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/* free() memory allocated to storing the CGI variables */
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void free_cgivars(char **cgivars) {
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register int x;
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for(x = 0; cgivars[x] != '\x0'; x++)
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free(cgivars[x]);
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return;
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}
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