struct Cookie *Curl_cookie_getlist(struct CookieInfo *c, char *host, char *path, bool secure) { struct Cookie *newco; struct Cookie *co; time_t now = time(NULL); struct Cookie *mainco=NULL; if(!c || !c->cookies) return NULL; /* no cookie struct or no cookies in the struct */ co = c->cookies; while(co) { /* only process this cookie if it is not expired or had no expire date AND that if the cookie requires we're secure we must only continue if we are! */ if( (co->expires<=0 || (co->expires> now)) && (co->secure?secure:TRUE) ) { /* now check if the domain is correct */ if(!co->domain || (co->tailmatch && tailmatch(co->domain, host)) || (!co->tailmatch && strequal(host, co->domain)) ) { /* the right part of the host matches the domain stuff in the cookie data */ /* now check the left part of the path with the cookies path requirement */ if(!co->path || checkprefix(co->path, path) ) { /* and now, we know this is a match and we should create an entry for the return-linked-list */ newco = (struct Cookie *)malloc(sizeof(struct Cookie)); if(newco) { /* first, copy the whole source cookie: */ memcpy(newco, co, sizeof(struct Cookie)); /* then modify our next */ newco->next = mainco; /* point the main to us */ mainco = newco; } } } } co = co->next; } return mainco; /* return the new list */ }
struct Cookie *Curl_cookie_getlist(struct CookieInfo *c, const char *host, const char *path, bool secure) { struct Cookie *newco; struct Cookie *co; time_t now = time(NULL); struct Cookie *mainco=NULL; size_t matches = 0; if(!c || !c->cookies) return NULL; /* no cookie struct or no cookies in the struct */ co = c->cookies; while(co) { /* only process this cookie if it is not expired or had no expire date AND that if the cookie requires we're secure we must only continue if we are! */ if((!co->expires || (co->expires > now)) && (co->secure?secure:TRUE)) { /* now check if the domain is correct */ if(!co->domain || (co->tailmatch && tailmatch(co->domain, host)) || (!co->tailmatch && Curl_raw_equal(host, co->domain)) ) { /* the right part of the host matches the domain stuff in the cookie data */ /* now check the left part of the path with the cookies path requirement */ if(!co->spath || pathmatch(co->spath, path) ) { /* and now, we know this is a match and we should create an entry for the return-linked-list */ newco = malloc(sizeof(struct Cookie)); if(newco) { /* first, copy the whole source cookie: */ memcpy(newco, co, sizeof(struct Cookie)); /* then modify our next */ newco->next = mainco; /* point the main to us */ mainco = newco; matches++; } else { fail: /* failure, clear up the allocated chain and return NULL */ while(mainco) { co = mainco->next; free(mainco); mainco = co; } return NULL; } } } } co = co->next; } if(matches) { /* Now we need to make sure that if there is a name appearing more than once, the longest specified path version comes first. To make this the swiftest way, we just sort them all based on path length. */ struct Cookie **array; size_t i; /* alloc an array and store all cookie pointers */ array = malloc(sizeof(struct Cookie *) * matches); if(!array) goto fail; co = mainco; for(i=0; co; co = co->next) array[i++] = co; /* now sort the cookie pointers in path length order */ qsort(array, matches, sizeof(struct Cookie *), cookie_sort); /* remake the linked list order according to the new order */ mainco = array[0]; /* start here */ for(i=0; i<matches-1; i++) array[i]->next = array[i+1]; array[matches-1]->next = NULL; /* terminate the list */ free(array); /* remove the temporary data again */ } return mainco; /* return the new list */ }
struct Cookie * Curl_cookie_add(struct SessionHandle *data, /* The 'data' pointer here may be NULL at times, and thus must only be used very carefully for things that can deal with data being NULL. Such as infof() and similar */ struct CookieInfo *c, bool httpheader, /* TRUE if HTTP header-style line */ char *lineptr, /* first character of the line */ const char *domain, /* default domain */ const char *path) /* full path used when this cookie is set, used to get default path for the cookie unless set */ { struct Cookie *clist; char name[MAX_NAME]; struct Cookie *co; struct Cookie *lastc=NULL; time_t now = time(NULL); bool replace_old = FALSE; bool badcookie = FALSE; /* cookies are good by default. mmmmm yummy */ #ifdef CURL_DISABLE_VERBOSE_STRINGS (void)data; #endif /* First, alloc and init a new struct for it */ co = calloc(1, sizeof(struct Cookie)); if(!co) return NULL; /* bail out if we're this low on memory */ if(httpheader) { /* This line was read off a HTTP-header */ const char *ptr; const char *semiptr; char *what; what = malloc(MAX_COOKIE_LINE); if(!what) { free(co); return NULL; } semiptr=strchr(lineptr, ';'); /* first, find a semicolon */ while(*lineptr && ISBLANK(*lineptr)) lineptr++; ptr = lineptr; do { /* we have a <what>=<this> pair or a stand-alone word here */ name[0]=what[0]=0; /* init the buffers */ if(1 <= sscanf(ptr, "%" MAX_NAME_TXT "[^;\r\n =]=%" MAX_COOKIE_LINE_TXT "[^;\r\n]", name, what)) { /* Use strstore() below to properly deal with received cookie headers that have the same string property set more than once, and then we use the last one. */ const char *whatptr; bool done = FALSE; bool sep; size_t len=strlen(what); const char *endofn = &ptr[ strlen(name) ]; /* skip trailing spaces in name */ while(*endofn && ISBLANK(*endofn)) endofn++; /* name ends with a '=' ? */ sep = (*endofn == '=')?TRUE:FALSE; /* Strip off trailing whitespace from the 'what' */ while(len && ISBLANK(what[len-1])) { what[len-1]=0; len--; } /* Skip leading whitespace from the 'what' */ whatptr=what; while(*whatptr && ISBLANK(*whatptr)) whatptr++; if(!len) { /* this was a "<name>=" with no content, and we must allow 'secure' and 'httponly' specified this weirdly */ done = TRUE; if(Curl_raw_equal("secure", name)) co->secure = TRUE; else if(Curl_raw_equal("httponly", name)) co->httponly = TRUE; else if(sep) /* there was a '=' so we're not done parsing this field */ done = FALSE; } if(done) ; else if(Curl_raw_equal("path", name)) { strstore(&co->path, whatptr); if(!co->path) { badcookie = TRUE; /* out of memory bad */ break; } co->spath = sanitize_cookie_path(co->path); if(!co->spath) { badcookie = TRUE; /* out of memory bad */ break; } } else if(Curl_raw_equal("domain", name)) { /* Now, we make sure that our host is within the given domain, or the given domain is not valid and thus cannot be set. */ if('.' == whatptr[0]) whatptr++; /* ignore preceding dot */ if(!domain || tailmatch(whatptr, domain)) { const char *tailptr=whatptr; if(tailptr[0] == '.') tailptr++; strstore(&co->domain, tailptr); /* don't prefix w/dots internally */ if(!co->domain) { badcookie = TRUE; break; } co->tailmatch=TRUE; /* we always do that if the domain name was given */ } else { /* we did not get a tailmatch and then the attempted set domain is not a domain to which the current host belongs. Mark as bad. */ badcookie=TRUE; infof(data, "skipped cookie with bad tailmatch domain: %s\n", whatptr); } } else if(Curl_raw_equal("version", name)) { strstore(&co->version, whatptr); if(!co->version) { badcookie = TRUE; break; } } else if(Curl_raw_equal("max-age", name)) { /* Defined in RFC2109: Optional. The Max-Age attribute defines the lifetime of the cookie, in seconds. The delta-seconds value is a decimal non- negative integer. After delta-seconds seconds elapse, the client should discard the cookie. A value of zero means the cookie should be discarded immediately. */ strstore(&co->maxage, whatptr); if(!co->maxage) { badcookie = TRUE; break; } co->expires = strtol((*co->maxage=='\"')?&co->maxage[1]:&co->maxage[0],NULL,10) + (long)now; } else if(Curl_raw_equal("expires", name)) { strstore(&co->expirestr, whatptr); if(!co->expirestr) { badcookie = TRUE; break; } /* Note that if the date couldn't get parsed for whatever reason, the cookie will be treated as a session cookie */ co->expires = curl_getdate(what, &now); /* Session cookies have expires set to 0 so if we get that back from the date parser let's add a second to make it a non-session cookie */ if(co->expires == 0) co->expires = 1; else if(co->expires < 0) co->expires = 0; } else if(!co->name) { co->name = strdup(name); co->value = strdup(whatptr); if(!co->name || !co->value) { badcookie = TRUE; break; } } /* else this is the second (or more) name we don't know about! */ } else { /* this is an "illegal" <what>=<this> pair */ } if(!semiptr || !*semiptr) { /* we already know there are no more cookies */ semiptr = NULL; continue; } ptr=semiptr+1; while(*ptr && ISBLANK(*ptr)) ptr++; semiptr=strchr(ptr, ';'); /* now, find the next semicolon */ if(!semiptr && *ptr) /* There are no more semicolons, but there's a final name=value pair coming up */ semiptr=strchr(ptr, '\0'); } while(semiptr); if(!badcookie && !co->domain) { if(domain) { /* no domain was given in the header line, set the default */ co->domain=strdup(domain); if(!co->domain) badcookie = TRUE; } } if(!badcookie && !co->path && path) { /* No path was given in the header line, set the default. Note that the passed-in path to this function MAY have a '?' and following part that MUST not be stored as part of the path. */ char *queryp = strchr(path, '?'); /* queryp is where the interesting part of the path ends, so now we want to the find the last */ char *endslash; if(!queryp) endslash = strrchr(path, '/'); else endslash = memrchr(path, '/', (size_t)(queryp - path)); if(endslash) { size_t pathlen = (size_t)(endslash-path+1); /* include ending slash */ co->path=malloc(pathlen+1); /* one extra for the zero byte */ if(co->path) { memcpy(co->path, path, pathlen); co->path[pathlen]=0; /* zero terminate */ co->spath = sanitize_cookie_path(co->path); if(!co->spath) badcookie = TRUE; /* out of memory bad */ } else badcookie = TRUE; } } free(what); if(badcookie || !co->name) { /* we didn't get a cookie name or a bad one, this is an illegal line, bail out */ freecookie(co); return NULL; } } else { /* This line is NOT a HTTP header style line, we do offer support for reading the odd netscape cookies-file format here */ char *ptr; char *firstptr; char *tok_buf=NULL; int fields; /* IE introduced HTTP-only cookies to prevent XSS attacks. Cookies marked with httpOnly after the domain name are not accessible from javascripts, but since curl does not operate at javascript level, we include them anyway. In Firefox's cookie files, these lines are preceded with #HttpOnly_ and then everything is as usual, so we skip 10 characters of the line.. */ if(strncmp(lineptr, "#HttpOnly_", 10) == 0) { lineptr += 10; co->httponly = TRUE; } if(lineptr[0]=='#') { /* don't even try the comments */ free(co); return NULL; } /* strip off the possible end-of-line characters */ ptr=strchr(lineptr, '\r'); if(ptr) *ptr=0; /* clear it */ ptr=strchr(lineptr, '\n'); if(ptr) *ptr=0; /* clear it */ firstptr=strtok_r(lineptr, "\t", &tok_buf); /* tokenize it on the TAB */ /* Now loop through the fields and init the struct we already have allocated */ for(ptr=firstptr, fields=0; ptr && !badcookie; ptr=strtok_r(NULL, "\t", &tok_buf), fields++) { switch(fields) { case 0: if(ptr[0]=='.') /* skip preceding dots */ ptr++; co->domain = strdup(ptr); if(!co->domain) badcookie = TRUE; break; case 1: /* This field got its explanation on the 23rd of May 2001 by Andrés García: flag: A TRUE/FALSE value indicating if all machines within a given domain can access the variable. This value is set automatically by the browser, depending on the value you set for the domain. As far as I can see, it is set to true when the cookie says .domain.com and to false when the domain is complete www.domain.com */ co->tailmatch = Curl_raw_equal(ptr, "TRUE")?TRUE:FALSE; break; case 2: /* It turns out, that sometimes the file format allows the path field to remain not filled in, we try to detect this and work around it! Andrés García made us aware of this... */ if(strcmp("TRUE", ptr) && strcmp("FALSE", ptr)) { /* only if the path doesn't look like a boolean option! */ co->path = strdup(ptr); if(!co->path) badcookie = TRUE; else { co->spath = sanitize_cookie_path(co->path); if(!co->spath) { badcookie = TRUE; /* out of memory bad */ } } break; } /* this doesn't look like a path, make one up! */ co->path = strdup("/"); if(!co->path) badcookie = TRUE; co->spath = strdup("/"); if(!co->spath) badcookie = TRUE; fields++; /* add a field and fall down to secure */ /* FALLTHROUGH */ case 3: co->secure = Curl_raw_equal(ptr, "TRUE")?TRUE:FALSE; break; case 4: co->expires = curlx_strtoofft(ptr, NULL, 10); break; case 5: co->name = strdup(ptr); if(!co->name) badcookie = TRUE; break; case 6: co->value = strdup(ptr); if(!co->value) badcookie = TRUE; break; } } if(6 == fields) { /* we got a cookie with blank contents, fix it */ co->value = strdup(""); if(!co->value) badcookie = TRUE; else fields++; } if(!badcookie && (7 != fields)) /* we did not find the sufficient number of fields */ badcookie = TRUE; if(badcookie) { freecookie(co); return NULL; } } if(!c->running && /* read from a file */ c->newsession && /* clean session cookies */ !co->expires) { /* this is a session cookie since it doesn't expire! */ freecookie(co); return NULL; } co->livecookie = c->running; /* now, we have parsed the incoming line, we must now check if this superceeds an already existing cookie, which it may if the previous have the same domain and path as this */ clist = c->cookies; replace_old = FALSE; while(clist) { if(Curl_raw_equal(clist->name, co->name)) { /* the names are identical */ if(clist->domain && co->domain) { if(Curl_raw_equal(clist->domain, co->domain)) /* The domains are identical */ replace_old=TRUE; } else if(!clist->domain && !co->domain) replace_old = TRUE; if(replace_old) { /* the domains were identical */ if(clist->spath && co->spath) { if(Curl_raw_equal(clist->spath, co->spath)) { replace_old = TRUE; } else replace_old = FALSE; } else if(!clist->spath && !co->spath) replace_old = TRUE; else replace_old = FALSE; } if(replace_old && !co->livecookie && clist->livecookie) { /* Both cookies matched fine, except that the already present cookie is "live", which means it was set from a header, while the new one isn't "live" and thus only read from a file. We let live cookies stay alive */ /* Free the newcomer and get out of here! */ freecookie(co); return NULL; } if(replace_old) { co->next = clist->next; /* get the next-pointer first */ /* then free all the old pointers */ free(clist->name); if(clist->value) free(clist->value); if(clist->domain) free(clist->domain); if(clist->path) free(clist->path); if(clist->spath) free(clist->spath); if(clist->expirestr) free(clist->expirestr); if(clist->version) free(clist->version); if(clist->maxage) free(clist->maxage); *clist = *co; /* then store all the new data */ free(co); /* free the newly alloced memory */ co = clist; /* point to the previous struct instead */ /* We have replaced a cookie, now skip the rest of the list but make sure the 'lastc' pointer is properly set */ do { lastc = clist; clist = clist->next; } while(clist); break; } } lastc = clist; clist = clist->next; } if(c->running) /* Only show this when NOT reading the cookies from a file */ infof(data, "%s cookie %s=\"%s\" for domain %s, path %s, " "expire %" FORMAT_OFF_T "\n", replace_old?"Replaced":"Added", co->name, co->value, co->domain, co->path, co->expires); if(!replace_old) { /* then make the last item point on this new one */ if(lastc) lastc->next = co; else c->cookies = co; c->numcookies++; /* one more cookie in the jar */ } return co; }
struct Cookie * Curl_cookie_add(struct SessionHandle *data, /* The 'data' pointer here may be NULL at times, and thus must only be used very carefully for things that can deal with data being NULL. Such as infof() and similar */ struct CookieInfo *c, bool httpheader, /* TRUE if HTTP header-style line */ char *lineptr, /* first character of the line */ char *domain, /* default domain */ char *path) /* full path used when this cookie is set, used to get default path for the cookie unless set */ { struct Cookie *clist; char *what; char name[MAX_NAME]; char *ptr; char *semiptr; struct Cookie *co; struct Cookie *lastc=NULL; time_t now = time(NULL); bool replace_old = FALSE; bool badcookie = FALSE; /* cookies are good by default. mmmmm yummy */ /* First, alloc and init a new struct for it */ co = (struct Cookie *)calloc(sizeof(struct Cookie), 1); if(!co) return NULL; /* bail out if we're this low on memory */ if(httpheader) { /* This line was read off a HTTP-header */ char *sep; what = malloc(MAX_COOKIE_LINE); if(!what) { free(co); return NULL; } semiptr=strchr(lineptr, ';'); /* first, find a semicolon */ while(*lineptr && my_isspace(*lineptr)) lineptr++; ptr = lineptr; do { /* we have a <what>=<this> pair or a 'secure' word here */ sep = strchr(ptr, '='); if(sep && (!semiptr || (semiptr>sep)) ) { /* * There is a = sign and if there was a semicolon too, which make sure * that the semicolon comes _after_ the equal sign. */ name[0]=what[0]=0; /* init the buffers */ if(1 <= sscanf(ptr, "%" MAX_NAME_TXT "[^;=]=%" MAX_COOKIE_LINE_TXT "[^;\r\n]", name, what)) { /* this is a <name>=<what> pair */ char *whatptr; /* Strip off trailing whitespace from the 'what' */ size_t len=strlen(what); while(len && my_isspace(what[len-1])) { what[len-1]=0; len--; } /* Skip leading whitespace from the 'what' */ whatptr=what; while(my_isspace(*whatptr)) { whatptr++; } if(strequal("path", name)) { co->path=strdup(whatptr); if(!co->path) { badcookie = TRUE; /* out of memory bad */ break; } } else if(strequal("domain", name)) { /* note that this name may or may not have a preceeding dot, but we don't care about that, we treat the names the same anyway */ const char *domptr=whatptr; int dotcount=1; /* Count the dots, we need to make sure that there are enough of them. */ if('.' == whatptr[0]) /* don't count the initial dot, assume it */ domptr++; do { domptr = strchr(domptr, '.'); if(domptr) { domptr++; dotcount++; } } while(domptr); /* The original Netscape cookie spec defined that this domain name MUST have three dots (or two if one of the seven holy TLDs), but it seems that these kinds of cookies are in use "out there" so we cannot be that strict. I've therefore lowered the check to not allow less than two dots. */ if(dotcount < 2) { /* Received and skipped a cookie with a domain using too few dots. */ badcookie=TRUE; /* mark this as a bad cookie */ infof(data, "skipped cookie with illegal dotcount domain: %s\n", whatptr); } else { /* Now, we make sure that our host is within the given domain, or the given domain is not valid and thus cannot be set. */ if('.' == whatptr[0]) whatptr++; /* ignore preceeding dot */ if(!domain || tailmatch(whatptr, domain)) { const char *tailptr=whatptr; if(tailptr[0] == '.') tailptr++; co->domain=strdup(tailptr); /* don't prefix w/dots internally */ if(!co->domain) { badcookie = TRUE; break; } co->tailmatch=TRUE; /* we always do that if the domain name was given */ } else { /* we did not get a tailmatch and then the attempted set domain is not a domain to which the current host belongs. Mark as bad. */ badcookie=TRUE; infof(data, "skipped cookie with bad tailmatch domain: %s\n", whatptr); } } } else if(strequal("version", name)) { co->version=strdup(whatptr); if(!co->version) { badcookie = TRUE; break; } } else if(strequal("max-age", name)) { /* Defined in RFC2109: Optional. The Max-Age attribute defines the lifetime of the cookie, in seconds. The delta-seconds value is a decimal non- negative integer. After delta-seconds seconds elapse, the client should discard the cookie. A value of zero means the cookie should be discarded immediately. */ co->maxage = strdup(whatptr); if(!co->maxage) { badcookie = TRUE; break; } co->expires = atoi((*co->maxage=='\"')?&co->maxage[1]:&co->maxage[0]) + (long)now; } else if(strequal("expires", name)) { co->expirestr=strdup(whatptr); if(!co->expirestr) { badcookie = TRUE; break; } co->expires = curl_getdate(what, &now); } else if(!co->name) { co->name = strdup(name); co->value = strdup(whatptr); if(!co->name || !co->value) { badcookie = TRUE; break; } } /* else this is the second (or more) name we don't know about! */ } else { /* this is an "illegal" <what>=<this> pair */ } } else { if(sscanf(ptr, "%" MAX_COOKIE_LINE_TXT "[^;\r\n]", what)) { if(strequal("secure", what)) co->secure = TRUE; /* else, unsupported keyword without assign! */ } } if(!semiptr || !*semiptr) { /* we already know there are no more cookies */ semiptr = NULL; continue; } ptr=semiptr+1; while(ptr && *ptr && my_isspace(*ptr)) ptr++; semiptr=strchr(ptr, ';'); /* now, find the next semicolon */ if(!semiptr && *ptr) /* There are no more semicolons, but there's a final name=value pair coming up */ semiptr=strchr(ptr, '\0'); } while(semiptr); if(!badcookie && !co->domain) { if(domain) { /* no domain was given in the header line, set the default */ co->domain=strdup(domain); if(!co->domain) badcookie = TRUE; } } if(!badcookie && !co->path && path) { /* no path was given in the header line, set the default */ char *endslash = strrchr(path, '/'); if(endslash) { size_t pathlen = endslash-path+1; /* include the ending slash */ co->path=malloc(pathlen+1); /* one extra for the zero byte */ if(co->path) { memcpy(co->path, path, pathlen); co->path[pathlen]=0; /* zero terminate */ } else badcookie = TRUE; } } free(what); if(badcookie || !co->name) { /* we didn't get a cookie name or a bad one, this is an illegal line, bail out */ freecookie(co); return NULL; } } else { /* This line is NOT a HTTP header style line, we do offer support for reading the odd netscape cookies-file format here */ char *firstptr; char *tok_buf; int fields; if(lineptr[0]=='#') { /* don't even try the comments */ free(co); return NULL; } /* strip off the possible end-of-line characters */ ptr=strchr(lineptr, '\r'); if(ptr) *ptr=0; /* clear it */ ptr=strchr(lineptr, '\n'); if(ptr) *ptr=0; /* clear it */ firstptr=strtok_r(lineptr, "\t", &tok_buf); /* tokenize it on the TAB */ /* Here's a quick check to eliminate normal HTTP-headers from this */ if(!firstptr || strchr(firstptr, ':')) { free(co); return NULL; } /* Now loop through the fields and init the struct we already have allocated */ for(ptr=firstptr, fields=0; ptr && !badcookie; ptr=strtok_r(NULL, "\t", &tok_buf), fields++) { switch(fields) { case 0: if(ptr[0]=='.') /* skip preceeding dots */ ptr++; co->domain = strdup(ptr); if(!co->domain) badcookie = TRUE; break; case 1: /* This field got its explanation on the 23rd of May 2001 by Andrés García: flag: A TRUE/FALSE value indicating if all machines within a given domain can access the variable. This value is set automatically by the browser, depending on the value you set for the domain. As far as I can see, it is set to true when the cookie says .domain.com and to false when the domain is complete www.domain.com */ co->tailmatch=(bool)strequal(ptr, "TRUE"); /* store information */ break; case 2: /* It turns out, that sometimes the file format allows the path field to remain not filled in, we try to detect this and work around it! Andrés García made us aware of this... */ if (strcmp("TRUE", ptr) && strcmp("FALSE", ptr)) { /* only if the path doesn't look like a boolean option! */ co->path = strdup(ptr); if(!co->path) badcookie = TRUE; break; } /* this doesn't look like a path, make one up! */ co->path = strdup("/"); if(!co->path) badcookie = TRUE; fields++; /* add a field and fall down to secure */ /* FALLTHROUGH */ case 3: co->secure = (bool)strequal(ptr, "TRUE"); break; case 4: co->expires = curlx_strtoofft(ptr, NULL, 10); break; case 5: co->name = strdup(ptr); if(!co->name) badcookie = TRUE; break; case 6: co->value = strdup(ptr); if(!co->value) badcookie = TRUE; break; } } if(6 == fields) { /* we got a cookie with blank contents, fix it */ co->value = strdup(""); if(!co->value) badcookie = TRUE; else fields++; } if(!badcookie && (7 != fields)) /* we did not find the sufficient number of fields */ badcookie = TRUE; if(badcookie) { freecookie(co); return NULL; } } if(!c->running && /* read from a file */ c->newsession && /* clean session cookies */ !co->expires) { /* this is a session cookie since it doesn't expire! */ freecookie(co); return NULL; } co->livecookie = c->running; /* now, we have parsed the incoming line, we must now check if this superceeds an already existing cookie, which it may if the previous have the same domain and path as this */ clist = c->cookies; replace_old = FALSE; while(clist) { if(strequal(clist->name, co->name)) { /* the names are identical */ if(clist->domain && co->domain) { if(strequal(clist->domain, co->domain)) /* The domains are identical */ replace_old=TRUE; } else if(!clist->domain && !co->domain) replace_old = TRUE; if(replace_old) { /* the domains were identical */ if(clist->path && co->path) { if(strequal(clist->path, co->path)) { replace_old = TRUE; } else replace_old = FALSE; } else if(!clist->path && !co->path) replace_old = TRUE; else replace_old = FALSE; } if(replace_old && !co->livecookie && clist->livecookie) { /* Both cookies matched fine, except that the already present cookie is "live", which means it was set from a header, while the new one isn't "live" and thus only read from a file. We let live cookies stay alive */ /* Free the newcomer and get out of here! */ freecookie(co); return NULL; } if(replace_old) { co->next = clist->next; /* get the next-pointer first */ /* then free all the old pointers */ if(clist->name) free(clist->name); if(clist->value) free(clist->value); if(clist->domain) free(clist->domain); if(clist->path) free(clist->path); if(clist->expirestr) free(clist->expirestr); if(clist->version) free(clist->version); if(clist->maxage) free(clist->maxage); *clist = *co; /* then store all the new data */ free(co); /* free the newly alloced memory */ co = clist; /* point to the previous struct instead */ /* We have replaced a cookie, now skip the rest of the list but make sure the 'lastc' pointer is properly set */ do { lastc = clist; clist = clist->next; } while(clist); break; } } lastc = clist; clist = clist->next; } if(c->running) /* Only show this when NOT reading the cookies from a file */ infof(data, "%s cookie %s=\"%s\" for domain %s, path %s, expire %d\n", replace_old?"Replaced":"Added", co->name, co->value, co->domain, co->path, co->expires); if(!replace_old) { /* then make the last item point on this new one */ if(lastc) lastc->next = co; else c->cookies = co; } c->numcookies++; /* one more cookie in the jar */ return co; }
enum LANG language_of_file(enum LANG latest_xarg, const char *fname) { if (latest_xarg!=L_none) return latest_xarg; else if (tailmatch(fname, ".cilk")) return L_cilk; else if (tailmatch(fname, ".cilki")) return L_cilki; else if (tailmatch(fname, ".cilkc")) return L_cilkc; else if (tailmatch(fname, ".c")) return L_c; else if (tailmatch(fname, ".m")) return L_m; else if (tailmatch(fname, ".C") || tailmatch(fname, ".cc") || tailmatch(fname, ".cxx") || tailmatch(fname, ".cpp")) return L_cpp; else if (tailmatch(fname, ".h")) return L_h; else if (tailmatch(fname, ".i")) return L_i; else if (tailmatch(fname, ".ii")) return L_ii; else if (tailmatch(fname, ".s")) return L_s; else if (tailmatch(fname, ".S")) return L_S; else return L_none; }
struct Cookie *Curl_cookie_getlist(struct CookieInfo *c, const char *host, const char *path, bool secure) { struct Cookie *newco; struct Cookie *co; struct Cookie *mainco = NULL; size_t matches = 0; bool is_ip; const size_t myhash = cookiehash(host); if(!c || !c->cookies[myhash]) return NULL; /* no cookie struct or no cookies in the struct */ /* at first, remove expired cookies */ remove_expired(c); /* check if host is an IP(v4|v6) address */ is_ip = isip(host); co = c->cookies[myhash]; while(co) { /* if the cookie requires we're secure we must only continue if we are! */ if(co->secure?secure:TRUE) { /* now check if the domain is correct */ if(!co->domain || (co->tailmatch && !is_ip && tailmatch(co->domain, host)) || ((!co->tailmatch || is_ip) && strcasecompare(host, co->domain)) ) { /* the right part of the host matches the domain stuff in the cookie data */ /* now check the left part of the path with the cookies path requirement */ if(!co->spath || pathmatch(co->spath, path) ) { /* and now, we know this is a match and we should create an entry for the return-linked-list */ newco = dup_cookie(co); if(newco) { /* then modify our next */ newco->next = mainco; /* point the main to us */ mainco = newco; matches++; } else goto fail; } } } co = co->next; } if(matches) { /* Now we need to make sure that if there is a name appearing more than once, the longest specified path version comes first. To make this the swiftest way, we just sort them all based on path length. */ struct Cookie **array; size_t i; /* alloc an array and store all cookie pointers */ array = malloc(sizeof(struct Cookie *) * matches); if(!array) goto fail; co = mainco; for(i = 0; co; co = co->next) array[i++] = co; /* now sort the cookie pointers in path length order */ qsort(array, matches, sizeof(struct Cookie *), cookie_sort); /* remake the linked list order according to the new order */ mainco = array[0]; /* start here */ for(i = 0; i<matches-1; i++) array[i]->next = array[i + 1]; array[matches-1]->next = NULL; /* terminate the list */ free(array); /* remove the temporary data again */ } return mainco; /* return the new list */ fail: /* failure, clear up the allocated chain and return NULL */ Curl_cookie_freelist(mainco); return NULL; }