/*************************************************************************** * _ _ ____ _ * Project ___| | | | _ \| | * / __| | | | |_) | | * | (__| |_| | _ <| |___ * \___|\___/|_| \_\_____| * * Copyright (C) 1998 - 2021, Daniel Stenberg, , et al. * * This software is licensed as described in the file COPYING, which * you should have received as part of this distribution. The terms * are also available at https://curl.se/docs/copyright.html. * * You may opt to use, copy, modify, merge, publish, distribute and/or sell * copies of the Software, and permit persons to whom the Software is * furnished to do so, under the terms of the COPYING file. * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * ***************************************************************************/ /*** RECEIVING COOKIE INFORMATION ============================ struct CookieInfo *Curl_cookie_init(struct Curl_easy *data, const char *file, struct CookieInfo *inc, bool newsession); Inits a cookie struct to store data in a local file. This is always called before any cookies are set. struct Cookie *Curl_cookie_add(struct Curl_easy *data, struct CookieInfo *c, bool httpheader, char *lineptr, const char *domain, const char *path); The 'lineptr' parameter is a full "Set-cookie:" line as received from a server. The function need to replace previously stored lines that this new line supersedes. It may remove lines that are expired. It should return an indication of success/error. SENDING COOKIE INFORMATION ========================== struct Cookies *Curl_cookie_getlist(struct CookieInfo *cookie, char *host, char *path, bool secure); For a given host and path, return a linked list of cookies that the client should send to the server if used now. The secure boolean informs the cookie if a secure connection is achieved or not. It shall only return cookies that haven't expired. Example set of cookies: Set-cookie: PRODUCTINFO=webxpress; domain=.fidelity.com; path=/; secure Set-cookie: PERSONALIZE=none;expires=Monday, 13-Jun-1988 03:04:55 GMT; domain=.fidelity.com; path=/ftgw; secure Set-cookie: FidHist=none;expires=Monday, 13-Jun-1988 03:04:55 GMT; domain=.fidelity.com; path=/; secure Set-cookie: FidOrder=none;expires=Monday, 13-Jun-1988 03:04:55 GMT; domain=.fidelity.com; path=/; secure Set-cookie: DisPend=none;expires=Monday, 13-Jun-1988 03:04:55 GMT; domain=.fidelity.com; path=/; secure Set-cookie: FidDis=none;expires=Monday, 13-Jun-1988 03:04:55 GMT; domain=.fidelity.com; path=/; secure Set-cookie: Session_Key@6791a9e0-901a-11d0-a1c8-9b012c88aa77=none;expires=Monday, 13-Jun-1988 03:04:55 GMT; domain=.fidelity.com; path=/; secure ****/ #include "curl_setup.h" #if !defined(CURL_DISABLE_HTTP) && !defined(CURL_DISABLE_COOKIES) #include "urldata.h" #include "cookie.h" #include "psl.h" #include "strtok.h" #include "sendf.h" #include "slist.h" #include "share.h" #include "strtoofft.h" #include "strcase.h" #include "curl_get_line.h" #include "curl_memrchr.h" #include "parsedate.h" #include "rand.h" #include "rename.h" /* The last 3 #include files should be in this order */ #include "curl_printf.h" #include "curl_memory.h" #include "memdebug.h" static void strstore(char **str, const char *newstr); static void freecookie(struct Cookie *co) { free(co->expirestr); free(co->domain); free(co->path); free(co->spath); free(co->name); free(co->value); free(co->maxage); free(co->version); free(co); } static bool tailmatch(const char *cooke_domain, const char *hostname) { size_t cookie_domain_len = strlen(cooke_domain); size_t hostname_len = strlen(hostname); if(hostname_len < cookie_domain_len) return FALSE; if(!strcasecompare(cooke_domain, hostname + hostname_len-cookie_domain_len)) return FALSE; /* * A lead char of cookie_domain is not '.'. * RFC6265 4.1.2.3. The Domain Attribute says: * For example, if the value of the Domain attribute is * "example.com", the user agent will include the cookie in the Cookie * header when making HTTP requests to example.com, www.example.com, and * www.corp.example.com. */ if(hostname_len == cookie_domain_len) return TRUE; if('.' == *(hostname + hostname_len - cookie_domain_len - 1)) return TRUE; return FALSE; } /* * matching cookie path and url path * RFC6265 5.1.4 Paths and Path-Match */ static bool pathmatch(const char *cookie_path, const char *request_uri) { size_t cookie_path_len; size_t uri_path_len; char *uri_path = NULL; char *pos; bool ret = FALSE; /* cookie_path must not have last '/' separator. ex: /sample */ cookie_path_len = strlen(cookie_path); if(1 == cookie_path_len) { /* cookie_path must be '/' */ return TRUE; } uri_path = strdup(request_uri); if(!uri_path) return FALSE; pos = strchr(uri_path, '?'); if(pos) *pos = 0x0; /* #-fragments are already cut off! */ if(0 == strlen(uri_path) || uri_path[0] != '/') { strstore(&uri_path, "/"); if(!uri_path) return FALSE; } /* * here, RFC6265 5.1.4 says * 4. Output the characters of the uri-path from the first character up * to, but not including, the right-most %x2F ("/"). * but URL path /hoge?fuga=xxx means /hoge/index.cgi?fuga=xxx in some site * without redirect. * Ignore this algorithm because /hoge is uri path for this case * (uri path is not /). */ uri_path_len = strlen(uri_path); if(uri_path_len < cookie_path_len) { ret = FALSE; goto pathmatched; } /* not using checkprefix() because matching should be case-sensitive */ if(strncmp(cookie_path, uri_path, cookie_path_len)) { ret = FALSE; goto pathmatched; } /* The cookie-path and the uri-path are identical. */ if(cookie_path_len == uri_path_len) { ret = TRUE; goto pathmatched; } /* here, cookie_path_len < uri_path_len */ if(uri_path[cookie_path_len] == '/') { ret = TRUE; goto pathmatched; } ret = FALSE; pathmatched: free(uri_path); return ret; } /* * Return the top-level domain, for optimal hashing. */ static const char *get_top_domain(const char * const domain, size_t *outlen) { size_t len = 0; const char *first = NULL, *last; if(domain) { len = strlen(domain); last = memrchr(domain, '.', len); if(last) { first = memrchr(domain, '.', (last - domain)); if(first) len -= (++first - domain); } } if(outlen) *outlen = len; return first? first: domain; } /* Avoid C1001, an "internal error" with MSVC14 */ #if defined(_MSC_VER) && (_MSC_VER == 1900) #pragma optimize("", off) #endif /* * A case-insensitive hash for the cookie domains. */ static size_t cookie_hash_domain(const char *domain, const size_t len) { const char *end = domain + len; size_t h = 5381; while(domain < end) { h += h << 5; h ^= Curl_raw_toupper(*domain++); } return (h % COOKIE_HASH_SIZE); } #if defined(_MSC_VER) && (_MSC_VER == 1900) #pragma optimize("", on) #endif /* * Hash this domain. */ static size_t cookiehash(const char * const domain) { const char *top; size_t len; if(!domain || Curl_host_is_ipnum(domain)) return 0; top = get_top_domain(domain, &len); return cookie_hash_domain(top, len); } /* * cookie path sanitize */ static char *sanitize_cookie_path(const char *cookie_path) { size_t len; char *new_path = strdup(cookie_path); if(!new_path) return NULL; /* some stupid site sends path attribute with '"'. */ len = strlen(new_path); if(new_path[0] == '\"') { memmove((void *)new_path, (const void *)(new_path + 1), len); len--; } if(len && (new_path[len - 1] == '\"')) { new_path[len - 1] = 0x0; len--; } /* RFC6265 5.2.4 The Path Attribute */ if(new_path[0] != '/') { /* Let cookie-path be the default-path. */ strstore(&new_path, "/"); return new_path; } /* convert /hoge/ to /hoge */ if(len && new_path[len - 1] == '/') { new_path[len - 1] = 0x0; } return new_path; } /* * Load cookies from all given cookie files (CURLOPT_COOKIEFILE). * * NOTE: OOM or cookie parsing failures are ignored. */ void Curl_cookie_loadfiles(struct Curl_easy *data) { struct curl_slist *list = data->state.cookielist; if(list) { Curl_share_lock(data, CURL_LOCK_DATA_COOKIE, CURL_LOCK_ACCESS_SINGLE); while(list) { struct CookieInfo *newcookies = Curl_cookie_init(data, list->data, data->cookies, data->set.cookiesession); if(!newcookies) /* * Failure may be due to OOM or a bad cookie; both are ignored * but only the first should be */ infof(data, "ignoring failed cookie_init for %s", list->data); else data->cookies = newcookies; list = list->next; } curl_slist_free_all(data->state.cookielist); /* clean up list */ data->state.cookielist = NULL; /* don't do this again! */ Curl_share_unlock(data, CURL_LOCK_DATA_COOKIE); } } /* * strstore * * A thin wrapper around strdup which ensures that any memory allocated at * *str will be freed before the string allocated by strdup is stored there. * The intended usecase is repeated assignments to the same variable during * parsing in a last-wins scenario. The caller is responsible for checking * for OOM errors. */ static void strstore(char **str, const char *newstr) { free(*str); *str = strdup(newstr); } /* * remove_expired * * Remove expired cookies from the hash by inspecting the expires timestamp on * each cookie in the hash, freeing and deleting any where the timestamp is in * the past. If the cookiejar has recorded the next timestamp at which one or * more cookies expire, then processing will exit early in case this timestamp * is in the future. */ static void remove_expired(struct CookieInfo *cookies) { struct Cookie *co, *nx; curl_off_t now = (curl_off_t)time(NULL); unsigned int i; /* * If the earliest expiration timestamp in the jar is in the future we can * skip scanning the whole jar and instead exit early as there won't be any * cookies to evict. If we need to evict however, reset the next_expiration * counter in order to track the next one. In case the recorded first * expiration is the max offset, then perform the safe fallback of checking * all cookies. */ if(now < cookies->next_expiration && cookies->next_expiration != CURL_OFF_T_MAX) return; else cookies->next_expiration = CURL_OFF_T_MAX; for(i = 0; i < COOKIE_HASH_SIZE; i++) { struct Cookie *pv = NULL; co = cookies->cookies[i]; while(co) { nx = co->next; if(co->expires && co->expires < now) { if(!pv) { cookies->cookies[i] = co->next; } else { pv->next = co->next; } cookies->numcookies--; freecookie(co); } else { /* * If this cookie has an expiration timestamp earlier than what we've * seen so far then record it for the next round of expirations. */ if(co->expires && co->expires < cookies->next_expiration) cookies->next_expiration = co->expires; pv = co; } co = nx; } } } /* Make sure domain contains a dot or is localhost. */ static bool bad_domain(const char *domain) { return !strchr(domain, '.') && !strcasecompare(domain, "localhost"); } /* * Curl_cookie_add * * Add a single cookie line to the cookie keeping object. Be aware that * sometimes we get an IP-only host name, and that might also be a numerical * IPv6 address. * * Returns NULL on out of memory or invalid cookie. This is suboptimal, * as they should be treated separately. */ struct Cookie * Curl_cookie_add(struct Curl_easy *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 */ bool noexpire, /* if TRUE, skip remove_expired() */ 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 */ bool secure) /* TRUE if connection is over secure origin */ { struct Cookie *clist; 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 */ size_t myhash; #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 */ char name[MAX_NAME]; char what[MAX_NAME]; const char *ptr; const char *semiptr; size_t linelength = strlen(lineptr); if(linelength > MAX_COOKIE_LINE) { /* discard overly long lines at once */ free(co); return NULL; } semiptr = strchr(lineptr, ';'); /* first, find a semicolon */ while(*lineptr && ISBLANK(*lineptr)) lineptr++; ptr = lineptr; do { /* we have a = 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_NAME_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); size_t nlen = strlen(name); const char *endofn = &ptr[ nlen ]; /* * Check for too long individual name or contents, or too long * combination of name + contents. Chrome and Firefox support 4095 or * 4096 bytes combo */ if(nlen >= (MAX_NAME-1) || len >= (MAX_NAME-1) || ((nlen + len) > MAX_NAME)) { freecookie(co); infof(data, "oversized cookie dropped, name/val %zu + %zu bytes", nlen, len); return NULL; } /* name ends with a '=' ? */ sep = (*endofn == '=')?TRUE:FALSE; if(nlen) { endofn--; /* move to the last character */ if(ISBLANK(*endofn)) { /* skip trailing spaces in name */ while(*endofn && ISBLANK(*endofn) && nlen) { endofn--; nlen--; } name[nlen] = 0; /* new end of name */ } } /* 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++; /* * Check if we have a reserved prefix set before anything else, as we * otherwise have to test for the prefix in both the cookie name and * "the rest". Prefixes must start with '__' and end with a '-', so * only test for names where that can possibly be true. */ if(nlen > 3 && name[0] == '_' && name[1] == '_') { if(!strncmp("__Secure-", name, 9)) co->prefix |= COOKIE_PREFIX__SECURE; else if(!strncmp("__Host-", name, 7)) co->prefix |= COOKIE_PREFIX__HOST; } if(!co->name) { /* The very first name/value pair is the actual cookie name */ if(!sep) { /* Bad name/value pair. */ badcookie = TRUE; break; } co->name = strdup(name); co->value = strdup(whatptr); done = TRUE; if(!co->name || !co->value) { badcookie = TRUE; break; } } else if(!len) { /* * this was a "=" with no content, and we must allow * 'secure' and 'httponly' specified this weirdly */ done = TRUE; /* * secure cookies are only allowed to be set when the connection is * using a secure protocol, or when the cookie is being set by * reading from file */ if(strcasecompare("secure", name)) { if(secure || !c->running) { co->secure = TRUE; } else { badcookie = TRUE; break; } } else if(strcasecompare("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(strcasecompare("path", name)) { strstore(&co->path, whatptr); if(!co->path) { badcookie = TRUE; /* out of memory bad */ break; } free(co->spath); /* if this is set again */ co->spath = sanitize_cookie_path(co->path); if(!co->spath) { badcookie = TRUE; /* out of memory bad */ break; } } else if(strcasecompare("domain", name)) { bool is_ip; /* * 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 */ #ifndef USE_LIBPSL /* * Without PSL we don't know when the incoming cookie is set on a * TLD or otherwise "protected" suffix. To reduce risk, we require a * dot OR the exact host name being "localhost". */ if(bad_domain(whatptr)) domain = ":"; #endif is_ip = Curl_host_is_ipnum(domain ? domain : whatptr); if(!domain || (is_ip && !strcmp(whatptr, domain)) || (!is_ip && tailmatch(whatptr, domain))) { strstore(&co->domain, whatptr); if(!co->domain) { badcookie = TRUE; break; } if(!is_ip) 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", whatptr); } } else if(strcasecompare("version", name)) { strstore(&co->version, whatptr); if(!co->version) { badcookie = TRUE; break; } } else if(strcasecompare("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; } } else if(strcasecompare("expires", name)) { strstore(&co->expirestr, whatptr); if(!co->expirestr) { badcookie = TRUE; break; } } /* * Else, this is the second (or more) name we don't know about! */ } else { /* this is an "illegal" = 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(co->maxage) { CURLofft offt; offt = curlx_strtoofft((*co->maxage == '\"')? &co->maxage[1]:&co->maxage[0], NULL, 10, &co->expires); if(offt == CURL_OFFT_FLOW) /* overflow, used max value */ co->expires = CURL_OFF_T_MAX; else if(!offt) { if(!co->expires) /* already expired */ co->expires = 1; else if(CURL_OFF_T_MAX - now < co->expires) /* would overflow */ co->expires = CURL_OFF_T_MAX; else co->expires += now; } } else if(co->expirestr) { /* * 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_capped(co->expirestr); /* * 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; } 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, '/', (queryp - path)); if(endslash) { size_t pathlen = (endslash-path + 1); /* include end slash */ co->path = malloc(pathlen + 1); /* one extra for the zero byte */ if(co->path) { memcpy(co->path, path, pathlen); co->path[pathlen] = 0; /* null-terminate */ co->spath = sanitize_cookie_path(co->path); if(!co->spath) badcookie = TRUE; /* out of memory bad */ } else badcookie = TRUE; } } /* * If we didn't get a cookie name, or a bad one, the this is an illegal * line so bail out. */ if(badcookie || !co->name) { 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: /* * flag: A TRUE/FALSE value indicating if all machines within a given * domain can access the variable. Set TRUE when the cookie says * .domain.com and to false when the domain is complete www.domain.com */ co->tailmatch = strcasecompare(ptr, "TRUE")?TRUE:FALSE; break; case 2: /* The file format allows the path field to remain not filled in */ 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 = FALSE; if(strcasecompare(ptr, "TRUE")) { if(secure || c->running) co->secure = TRUE; else badcookie = TRUE; } break; case 4: if(curlx_strtoofft(ptr, NULL, 10, &co->expires)) badcookie = TRUE; break; case 5: co->name = strdup(ptr); if(!co->name) badcookie = TRUE; else { /* For Netscape file format cookies we check prefix on the name */ if(strncasecompare("__Secure-", co->name, 9)) co->prefix |= COOKIE_PREFIX__SECURE; else if(strncasecompare("__Host-", co->name, 7)) co->prefix |= COOKIE_PREFIX__HOST; } 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(co->prefix & COOKIE_PREFIX__SECURE) { /* The __Secure- prefix only requires that the cookie be set secure */ if(!co->secure) { freecookie(co); return NULL; } } if(co->prefix & COOKIE_PREFIX__HOST) { /* * The __Host- prefix requires the cookie to be secure, have a "/" path * and not have a domain set. */ if(co->secure && co->path && strcmp(co->path, "/") == 0 && !co->tailmatch) ; else { 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; co->creationtime = ++c->lastct; /* * Now we have parsed the incoming line, we must now check if this supersedes * an already existing cookie, which it may if the previous have the same * domain and path as this. */ /* at first, remove expired cookies */ if(!noexpire) remove_expired(c); #ifdef USE_LIBPSL /* * Check if the domain is a Public Suffix and if yes, ignore the cookie. We * must also check that the data handle isn't NULL since the psl code will * dereference it. */ if(data && (domain && co->domain && !Curl_host_is_ipnum(co->domain))) { const psl_ctx_t *psl = Curl_psl_use(data); int acceptable; if(psl) { acceptable = psl_is_cookie_domain_acceptable(psl, domain, co->domain); Curl_psl_release(data); } else acceptable = !bad_domain(domain); if(!acceptable) { infof(data, "cookie '%s' dropped, domain '%s' must not " "set cookies for '%s'", co->name, domain, co->domain); freecookie(co); return NULL; } } #endif myhash = cookiehash(co->domain); clist = c->cookies[myhash]; replace_old = FALSE; while(clist) { if(strcasecompare(clist->name, co->name)) { /* the names are identical */ if(clist->domain && co->domain) { if(strcasecompare(clist->domain, co->domain) && (clist->tailmatch == co->tailmatch)) /* 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(clist->secure && !co->secure && !secure) { size_t cllen; const char *sep; /* * A non-secure cookie may not overlay an existing secure cookie. * For an existing cookie "a" with path "/login", refuse a new * cookie "a" with for example path "/login/en", while the path * "/loginhelper" is ok. */ sep = strchr(clist->spath + 1, '/'); if(sep) cllen = sep - clist->spath; else cllen = strlen(clist->spath); if(strncasecompare(clist->spath, co->spath, cllen)) { freecookie(co); return NULL; } } else if(strcasecompare(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 was * read from a file and thus isn't "live". "live" cookies are preferred * so the new cookie is freed. */ freecookie(co); return NULL; } if(replace_old) { co->next = clist->next; /* get the next-pointer first */ /* when replacing, creationtime is kept from old */ co->creationtime = clist->creationtime; /* then free all the old pointers */ free(clist->name); free(clist->value); free(clist->domain); free(clist->path); free(clist->spath); free(clist->expirestr); free(clist->version); free(clist->maxage); *clist = *co; /* then store all the new data */ free(co); /* free the newly allocated 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 %" CURL_FORMAT_CURL_OFF_T, 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[myhash] = co; c->numcookies++; /* one more cookie in the jar */ } /* * Now that we've added a new cookie to the jar, update the expiration * tracker in case it is the next one to expire. */ if(co->expires && (co->expires < c->next_expiration)) c->next_expiration = co->expires; return co; } /* * Curl_cookie_init() * * Inits a cookie struct to read data from a local file. This is always * called before any cookies are set. File may be NULL in which case only the * struct is initialized. Is file is "-" then STDIN is read. * * If 'newsession' is TRUE, discard all "session cookies" on read from file. * * Note that 'data' might be called as NULL pointer. * * Returns NULL on out of memory. Invalid cookies are ignored. */ struct CookieInfo *Curl_cookie_init(struct Curl_easy *data, const char *file, struct CookieInfo *inc, bool newsession) { struct CookieInfo *c; FILE *fp = NULL; bool fromfile = TRUE; char *line = NULL; if(NULL == inc) { /* we didn't get a struct, create one */ c = calloc(1, sizeof(struct CookieInfo)); if(!c) return NULL; /* failed to get memory */ c->filename = strdup(file?file:"none"); /* copy the name just in case */ if(!c->filename) goto fail; /* failed to get memory */ /* * Initialize the next_expiration time to signal that we don't have enough * information yet. */ c->next_expiration = CURL_OFF_T_MAX; } else { /* we got an already existing one, use that */ c = inc; } c->running = FALSE; /* this is not running, this is init */ if(file && !strcmp(file, "-")) { fp = stdin; fromfile = FALSE; } else if(file && !*file) { /* points to a "" string */ fp = NULL; } else fp = file?fopen(file, FOPEN_READTEXT):NULL; c->newsession = newsession; /* new session? */ if(fp) { char *lineptr; bool headerline; line = malloc(MAX_COOKIE_LINE); if(!line) goto fail; while(Curl_get_line(line, MAX_COOKIE_LINE, fp)) { if(checkprefix("Set-Cookie:", line)) { /* This is a cookie line, get it! */ lineptr = &line[11]; headerline = TRUE; } else { lineptr = line; headerline = FALSE; } while(*lineptr && ISBLANK(*lineptr)) lineptr++; Curl_cookie_add(data, c, headerline, TRUE, lineptr, NULL, NULL, TRUE); } free(line); /* free the line buffer */ /* * Remove expired cookies from the hash. We must make sure to run this * after reading the file, and not on every cookie. */ remove_expired(c); if(fromfile) fclose(fp); } c->running = TRUE; /* now, we're running */ if(data) data->state.cookie_engine = TRUE; return c; fail: free(line); /* * Only clean up if we allocated it here, as the original could still be in * use by a share handle. */ if(!inc) Curl_cookie_cleanup(c); if(fromfile && fp) fclose(fp); return NULL; /* out of memory */ } /* * cookie_sort * * Helper function to sort cookies such that the longest path gets before the * shorter path. Path, domain and name lengths are considered in that order, * with the creationtime as the tiebreaker. The creationtime is guaranteed to * be unique per cookie, so we know we will get an ordering at that point. */ static int cookie_sort(const void *p1, const void *p2) { struct Cookie *c1 = *(struct Cookie **)p1; struct Cookie *c2 = *(struct Cookie **)p2; size_t l1, l2; /* 1 - compare cookie path lengths */ l1 = c1->path ? strlen(c1->path) : 0; l2 = c2->path ? strlen(c2->path) : 0; if(l1 != l2) return (l2 > l1) ? 1 : -1 ; /* avoid size_t <=> int conversions */ /* 2 - compare cookie domain lengths */ l1 = c1->domain ? strlen(c1->domain) : 0; l2 = c2->domain ? strlen(c2->domain) : 0; if(l1 != l2) return (l2 > l1) ? 1 : -1 ; /* avoid size_t <=> int conversions */ /* 3 - compare cookie name lengths */ l1 = c1->name ? strlen(c1->name) : 0; l2 = c2->name ? strlen(c2->name) : 0; if(l1 != l2) return (l2 > l1) ? 1 : -1; /* 4 - compare cookie creation time */ return (c2->creationtime > c1->creationtime) ? 1 : -1; } /* * cookie_sort_ct * * Helper function to sort cookies according to creation time. */ static int cookie_sort_ct(const void *p1, const void *p2) { struct Cookie *c1 = *(struct Cookie **)p1; struct Cookie *c2 = *(struct Cookie **)p2; return (c2->creationtime > c1->creationtime) ? 1 : -1; } #define CLONE(field) \ do { \ if(src->field) { \ d->field = strdup(src->field); \ if(!d->field) \ goto fail; \ } \ } while(0) static struct Cookie *dup_cookie(struct Cookie *src) { struct Cookie *d = calloc(sizeof(struct Cookie), 1); if(d) { CLONE(expirestr); CLONE(domain); CLONE(path); CLONE(spath); CLONE(name); CLONE(value); CLONE(maxage); CLONE(version); d->expires = src->expires; d->tailmatch = src->tailmatch; d->secure = src->secure; d->livecookie = src->livecookie; d->httponly = src->httponly; d->creationtime = src->creationtime; } return d; fail: freecookie(d); return NULL; } /* * Curl_cookie_getlist * * For a given host and path, return a linked list of cookies that the client * should send to the server if used now. The secure boolean informs the cookie * if a secure connection is achieved or not. * * It shall only return cookies that haven't expired. */ 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 = Curl_host_is_ipnum(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; inext = 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; } /* * Curl_cookie_clearall * * Clear all existing cookies and reset the counter. */ void Curl_cookie_clearall(struct CookieInfo *cookies) { if(cookies) { unsigned int i; for(i = 0; i < COOKIE_HASH_SIZE; i++) { Curl_cookie_freelist(cookies->cookies[i]); cookies->cookies[i] = NULL; } cookies->numcookies = 0; } } /* * Curl_cookie_freelist * * Free a list of cookies previously returned by Curl_cookie_getlist(); */ void Curl_cookie_freelist(struct Cookie *co) { struct Cookie *next; while(co) { next = co->next; freecookie(co); co = next; } } /* * Curl_cookie_clearsess * * Free all session cookies in the cookies list. */ void Curl_cookie_clearsess(struct CookieInfo *cookies) { struct Cookie *first, *curr, *next, *prev = NULL; unsigned int i; if(!cookies) return; for(i = 0; i < COOKIE_HASH_SIZE; i++) { if(!cookies->cookies[i]) continue; first = curr = prev = cookies->cookies[i]; for(; curr; curr = next) { next = curr->next; if(!curr->expires) { if(first == curr) first = next; if(prev == curr) prev = next; else prev->next = next; freecookie(curr); cookies->numcookies--; } else prev = curr; } cookies->cookies[i] = first; } } /* * Curl_cookie_cleanup() * * Free a "cookie object" previous created with Curl_cookie_init(). */ void Curl_cookie_cleanup(struct CookieInfo *c) { if(c) { unsigned int i; free(c->filename); for(i = 0; i < COOKIE_HASH_SIZE; i++) Curl_cookie_freelist(c->cookies[i]); free(c); /* free the base struct as well */ } } /* * get_netscape_format() * * Formats a string for Netscape output file, w/o a newline at the end. * Function returns a char * to a formatted line. The caller is responsible * for freeing the returned pointer. */ static char *get_netscape_format(const struct Cookie *co) { return aprintf( "%s" /* httponly preamble */ "%s%s\t" /* domain */ "%s\t" /* tailmatch */ "%s\t" /* path */ "%s\t" /* secure */ "%" CURL_FORMAT_CURL_OFF_T "\t" /* expires */ "%s\t" /* name */ "%s", /* value */ co->httponly?"#HttpOnly_":"", /* * Make sure all domains are prefixed with a dot if they allow * tailmatching. This is Mozilla-style. */ (co->tailmatch && co->domain && co->domain[0] != '.')? ".":"", co->domain?co->domain:"unknown", co->tailmatch?"TRUE":"FALSE", co->path?co->path:"/", co->secure?"TRUE":"FALSE", co->expires, co->name, co->value?co->value:""); } /* * cookie_output() * * Writes all internally known cookies to the specified file. Specify * "-" as file name to write to stdout. * * The function returns non-zero on write failure. */ static CURLcode cookie_output(struct Curl_easy *data, struct CookieInfo *c, const char *filename) { struct Cookie *co; FILE *out = NULL; bool use_stdout = FALSE; char *tempstore = NULL; CURLcode error = CURLE_OK; if(!c) /* no cookie engine alive */ return CURLE_OK; /* at first, remove expired cookies */ remove_expired(c); if(!strcmp("-", filename)) { /* use stdout */ out = stdout; use_stdout = TRUE; } else { unsigned char randsuffix[9]; if(Curl_rand_hex(data, randsuffix, sizeof(randsuffix))) return 2; tempstore = aprintf("%s.%s.tmp", filename, randsuffix); if(!tempstore) return CURLE_OUT_OF_MEMORY; out = fopen(tempstore, FOPEN_WRITETEXT); if(!out) { error = CURLE_WRITE_ERROR; goto error; } } fputs("# Netscape HTTP Cookie File\n" "# https://curl.se/docs/http-cookies.html\n" "# This file was generated by libcurl! Edit at your own risk.\n\n", out); if(c->numcookies) { unsigned int i; size_t nvalid = 0; struct Cookie **array; array = calloc(1, sizeof(struct Cookie *) * c->numcookies); if(!array) { error = CURLE_OUT_OF_MEMORY; goto error; } /* only sort the cookies with a domain property */ for(i = 0; i < COOKIE_HASH_SIZE; i++) { for(co = c->cookies[i]; co; co = co->next) { if(!co->domain) continue; array[nvalid++] = co; } } qsort(array, nvalid, sizeof(struct Cookie *), cookie_sort_ct); for(i = 0; i < nvalid; i++) { char *format_ptr = get_netscape_format(array[i]); if(!format_ptr) { free(array); error = CURLE_OUT_OF_MEMORY; goto error; } fprintf(out, "%s\n", format_ptr); free(format_ptr); } free(array); } if(!use_stdout) { fclose(out); out = NULL; if(Curl_rename(tempstore, filename)) { unlink(tempstore); error = CURLE_WRITE_ERROR; goto error; } } /* * If we reach here we have successfully written a cookie file so theree is * no need to inspect the error, any error case should have jumped into the * error block below. */ free(tempstore); return CURLE_OK; error: if(out && !use_stdout) fclose(out); free(tempstore); return error; } static struct curl_slist *cookie_list(struct Curl_easy *data) { struct curl_slist *list = NULL; struct curl_slist *beg; struct Cookie *c; char *line; unsigned int i; if(!data->cookies || (data->cookies->numcookies == 0)) return NULL; for(i = 0; i < COOKIE_HASH_SIZE; i++) { for(c = data->cookies->cookies[i]; c; c = c->next) { if(!c->domain) continue; line = get_netscape_format(c); if(!line) { curl_slist_free_all(list); return NULL; } beg = Curl_slist_append_nodup(list, line); if(!beg) { free(line); curl_slist_free_all(list); return NULL; } list = beg; } } return list; } struct curl_slist *Curl_cookie_list(struct Curl_easy *data) { struct curl_slist *list; Curl_share_lock(data, CURL_LOCK_DATA_COOKIE, CURL_LOCK_ACCESS_SINGLE); list = cookie_list(data); Curl_share_unlock(data, CURL_LOCK_DATA_COOKIE); return list; } void Curl_flush_cookies(struct Curl_easy *data, bool cleanup) { CURLcode res; if(data->set.str[STRING_COOKIEJAR]) { if(data->state.cookielist) { /* If there is a list of cookie files to read, do it first so that we have all the told files read before we write the new jar. Curl_cookie_loadfiles() LOCKS and UNLOCKS the share itself! */ Curl_cookie_loadfiles(data); } Curl_share_lock(data, CURL_LOCK_DATA_COOKIE, CURL_LOCK_ACCESS_SINGLE); /* if we have a destination file for all the cookies to get dumped to */ res = cookie_output(data, data->cookies, data->set.str[STRING_COOKIEJAR]); if(res) infof(data, "WARNING: failed to save cookies in %s: %s", data->set.str[STRING_COOKIEJAR], curl_easy_strerror(res)); } else { if(cleanup && data->state.cookielist) { /* since nothing is written, we can just free the list of cookie file names */ curl_slist_free_all(data->state.cookielist); /* clean up list */ data->state.cookielist = NULL; } Curl_share_lock(data, CURL_LOCK_DATA_COOKIE, CURL_LOCK_ACCESS_SINGLE); } if(cleanup && (!data->share || (data->cookies != data->share->cookies))) { Curl_cookie_cleanup(data->cookies); data->cookies = NULL; } Curl_share_unlock(data, CURL_LOCK_DATA_COOKIE); } #endif /* CURL_DISABLE_HTTP || CURL_DISABLE_COOKIES */