/** * @file llplugincookiestore.cpp * @brief LLPluginCookieStore provides central storage for http cookies used by plugins * * @cond * $LicenseInfo:firstyear=2010&license=viewergpl$ * * Copyright (c) 2010, Linden Research, Inc. * * Second Life Viewer Source Code * The source code in this file ("Source Code") is provided by Linden Lab * to you under the terms of the GNU General Public License, version 2.0 * ("GPL"), unless you have obtained a separate licensing agreement * ("Other License"), formally executed by you and Linden Lab. Terms of * the GPL can be found in doc/GPL-license.txt in this distribution, or * online at http://secondlife.com/developers/opensource/gplv2 * * There are special exceptions to the terms and conditions of the GPL as * it is applied to this Source Code. View the full text of the exception * in the file doc/FLOSS-exception.txt in this software distribution, or * online at * http://secondlife.com/developers/opensource/flossexception * * By copying, modifying or distributing this software, you acknowledge * that you have read and understood your obligations described above, * and agree to abide by those obligations. * * ALL LINDEN LAB SOURCE CODE IS PROVIDED "AS IS." LINDEN LAB MAKES NO * WARRANTIES, EXPRESS, IMPLIED OR OTHERWISE, REGARDING ITS ACCURACY, * COMPLETENESS OR PERFORMANCE. * $/LicenseInfo$ * * @endcond */ /// IMPRUDENCE: this is currently not used #include "linden_common.h" #include "indra_constants.h" #include "llplugincookiestore.h" #include // for curl_getdate() (apparently parsing RFC 1123 dates is hard) #include LLPluginCookieStore::LLPluginCookieStore(): mHasChangedCookies(false) { } LLPluginCookieStore::~LLPluginCookieStore() { clearCookies(); } LLPluginCookieStore::Cookie::Cookie(const std::string &s, std::string::size_type cookie_start, std::string::size_type cookie_end): mCookie(s, cookie_start, cookie_end - cookie_start), mNameStart(0), mNameEnd(0), mValueStart(0), mValueEnd(0), mDomainStart(0), mDomainEnd(0), mPathStart(0), mPathEnd(0), mDead(false), mChanged(true) { } LLPluginCookieStore::Cookie *LLPluginCookieStore::Cookie::createFromString(const std::string &s, std::string::size_type cookie_start, std::string::size_type cookie_end, const std::string &host) { Cookie *result = new Cookie(s, cookie_start, cookie_end); if(!result->parse(host)) { delete result; result = NULL; } return result; } std::string LLPluginCookieStore::Cookie::getKey() const { std::string result; if(mDomainEnd > mDomainStart) { result += mCookie.substr(mDomainStart, mDomainEnd - mDomainStart); } result += ';'; if(mPathEnd > mPathStart) { result += mCookie.substr(mPathStart, mPathEnd - mPathStart); } result += ';'; result += mCookie.substr(mNameStart, mNameEnd - mNameStart); return result; } bool LLPluginCookieStore::Cookie::parse(const std::string &host) { bool first_field = true; std::string::size_type cookie_end = mCookie.size(); std::string::size_type field_start = 0; LL_DEBUGS("CookieStoreParse") << "parsing cookie: " << mCookie << LL_ENDL; while(field_start < cookie_end) { // Finding the start of the next field requires honoring special quoting rules // see the definition of 'quoted-string' in rfc2616 for details std::string::size_type next_field_start = findFieldEnd(field_start); // The end of this field should not include the terminating ';' or any trailing whitespace std::string::size_type field_end = mCookie.find_last_not_of("; ", next_field_start); if(field_end == std::string::npos || field_end < field_start) { // This field was empty or all whitespace. Set end = start so it shows as empty. field_end = field_start; } else if (field_end < next_field_start) { // we actually want the index of the char _after_ what 'last not of' found ++field_end; } // find the start of the actual name (skip separator and possible whitespace) std::string::size_type name_start = mCookie.find_first_not_of("; ", field_start); if(name_start == std::string::npos || name_start > next_field_start) { // Again, nothing but whitespace. name_start = field_start; } // the name and value are separated by the first equals sign std::string::size_type name_value_sep = mCookie.find_first_of("=", name_start); if(name_value_sep == std::string::npos || name_value_sep > field_end) { // No separator found, so this is a field without an = name_value_sep = field_end; } // the name end is before the name-value separator std::string::size_type name_end = mCookie.find_last_not_of("= ", name_value_sep); if(name_end == std::string::npos || name_end < name_start) { // I'm not sure how we'd hit this case... it seems like it would have to be an empty name. name_end = name_start; } else if (name_end < name_value_sep) { // we actually want the index of the char _after_ what 'last not of' found ++name_end; } // Value is between the name-value sep and the end of the field. std::string::size_type value_start = mCookie.find_first_not_of("= ", name_value_sep); if(value_start == std::string::npos || value_start > field_end) { // All whitespace or empty value value_start = field_end; } std::string::size_type value_end = mCookie.find_last_not_of("; ", field_end); if(value_end == std::string::npos || value_end < value_start) { // All whitespace or empty value value_end = value_start; } else if (value_end < field_end) { // we actually want the index of the char _after_ what 'last not of' found ++value_end; } LL_DEBUGS("CookieStoreParse") << " field name: \"" << mCookie.substr(name_start, name_end - name_start) << "\", value: \"" << mCookie.substr(value_start, value_end - value_start) << "\"" << LL_ENDL; // See whether this field is one we know if(first_field) { // The first field is the name=value pair mNameStart = name_start; mNameEnd = name_end; mValueStart = value_start; mValueEnd = value_end; first_field = false; } else { // Subsequent fields must come from the set in rfc2109 if(matchName(name_start, name_end, "expires")) { std::string date_string(mCookie, value_start, value_end - value_start); // If the cookie contains an "expires" field, it MUST contain a parsable date. // HACK: LLDate apparently can't PARSE an rfc1123-format date, even though it can GENERATE one. // The curl function curl_getdate can do this, but I'm hesitant to unilaterally introduce a curl dependency in LLDate. #if 1 time_t date = curl_getdate(date_string.c_str(), NULL ); mDate.secondsSinceEpoch((F64)date); LL_DEBUGS("CookieStoreParse") << " expire date parsed to: " << mDate.asRFC1123() << LL_ENDL; #else // This doesn't work (rfc1123-format dates cause it to fail) if(!mDate.fromString(date_string)) { // Date failed to parse. LL_WARNS("CookieStoreParse") << "failed to parse cookie's expire date: " << date << LL_ENDL; return false; } #endif } else if(matchName(name_start, name_end, "domain")) { mDomainStart = value_start; mDomainEnd = value_end; } else if(matchName(name_start, name_end, "path")) { mPathStart = value_start; mPathEnd = value_end; } else if(matchName(name_start, name_end, "max-age")) { // TODO: how should we handle this? } else if(matchName(name_start, name_end, "secure")) { // We don't care about the value of this field (yet) } else if(matchName(name_start, name_end, "version")) { // We don't care about the value of this field (yet) } else if(matchName(name_start, name_end, "comment")) { // We don't care about the value of this field (yet) } else if(matchName(name_start, name_end, "httponly")) { // We don't care about the value of this field (yet) } else { // An unknown field is a parse failure LL_WARNS("CookieStoreParse") << "unexpected field name: " << mCookie.substr(name_start, name_end - name_start) << LL_ENDL; return false; } } // move on to the next field, skipping this field's separator and any leading whitespace field_start = mCookie.find_first_not_of("; ", next_field_start); } // The cookie MUST have a name if(mNameEnd <= mNameStart) return false; // If the cookie doesn't have a domain, add the current host as the domain. if(mDomainEnd <= mDomainStart) { if(host.empty()) { // no domain and no current host -- this is a parse failure. return false; } // Figure out whether this cookie ended with a ";" or not... std::string::size_type last_char = mCookie.find_last_not_of(" "); if((last_char != std::string::npos) && (mCookie[last_char] != ';')) { mCookie += ";"; } mCookie += " domain="; mDomainStart = mCookie.size(); mCookie += host; mDomainEnd = mCookie.size(); LL_DEBUGS("CookieStoreParse") << "added domain (" << mDomainStart << " to " << mDomainEnd << "), new cookie is: " << mCookie << LL_ENDL; } // If the cookie doesn't have a path, add "/". if(mPathEnd <= mPathStart) { // Figure out whether this cookie ended with a ";" or not... std::string::size_type last_char = mCookie.find_last_not_of(" "); if((last_char != std::string::npos) && (mCookie[last_char] != ';')) { mCookie += ";"; } mCookie += " path="; mPathStart = mCookie.size(); mCookie += "/"; mPathEnd = mCookie.size(); LL_DEBUGS("CookieStoreParse") << "added path (" << mPathStart << " to " << mPathEnd << "), new cookie is: " << mCookie << LL_ENDL; } return true; } std::string::size_type LLPluginCookieStore::Cookie::findFieldEnd(std::string::size_type start, std::string::size_type end) { std::string::size_type result = start; if(end == std::string::npos) end = mCookie.size(); bool in_quotes = false; for(; (result < end); result++) { switch(mCookie[result]) { case '\\': if(in_quotes) result++; // The next character is backslash-quoted. Skip over it. break; case '"': in_quotes = !in_quotes; break; case ';': if(!in_quotes) return result; break; } } // If we got here, no ';' was found. return end; } bool LLPluginCookieStore::Cookie::matchName(std::string::size_type start, std::string::size_type end, const char *name) { // NOTE: this assumes 'name' is already in lowercase. The code which uses it should be able to arrange this... while((start < end) && (*name != '\0')) { if(tolower(mCookie[start]) != *name) return false; start++; name++; } // iff both strings hit the end at the same time, they're equal. return ((start == end) && (*name == '\0')); } std::string LLPluginCookieStore::getAllCookies() { std::stringstream result; writeAllCookies(result); return result.str(); } void LLPluginCookieStore::writeAllCookies(std::ostream& s) { cookie_map_t::iterator iter; for(iter = mCookies.begin(); iter != mCookies.end(); iter++) { // Don't return expired cookies if(!iter->second->isDead()) { s << (iter->second->getCookie()) << "\n"; } } } std::string LLPluginCookieStore::getPersistentCookies() { std::stringstream result; writePersistentCookies(result); return result.str(); } void LLPluginCookieStore::writePersistentCookies(std::ostream& s) { cookie_map_t::iterator iter; for(iter = mCookies.begin(); iter != mCookies.end(); iter++) { // Don't return expired cookies or session cookies if(!iter->second->isDead() && !iter->second->isSessionCookie()) { s << iter->second->getCookie() << "\n"; } } } std::string LLPluginCookieStore::getChangedCookies(bool clear_changed) { std::stringstream result; writeChangedCookies(result, clear_changed); return result.str(); } void LLPluginCookieStore::writeChangedCookies(std::ostream& s, bool clear_changed) { if(mHasChangedCookies) { lldebugs << "returning changed cookies: " << llendl; cookie_map_t::iterator iter; for(iter = mCookies.begin(); iter != mCookies.end(); ) { cookie_map_t::iterator next = iter; next++; // Only return cookies marked as "changed" if(iter->second->isChanged()) { s << iter->second->getCookie() << "\n"; lldebugs << " " << iter->second->getCookie() << llendl; // If requested, clear the changed mark if(clear_changed) { if(iter->second->isDead()) { // If this cookie was previously marked dead, it needs to be removed entirely. delete iter->second; mCookies.erase(iter); } else { // Not dead, just mark as not changed. iter->second->setChanged(false); } } } iter = next; } } if(clear_changed) mHasChangedCookies = false; } void LLPluginCookieStore::setAllCookies(const std::string &cookies, bool mark_changed) { clearCookies(); setCookies(cookies, mark_changed); } void LLPluginCookieStore::readAllCookies(std::istream& s, bool mark_changed) { clearCookies(); readCookies(s, mark_changed); } void LLPluginCookieStore::setCookies(const std::string &cookies, bool mark_changed) { std::string::size_type start = 0; while(start != std::string::npos) { std::string::size_type end = cookies.find_first_of("\r\n", start); if(end > start) { // The line is non-empty. Try to create a cookie from it. setOneCookie(cookies, start, end, mark_changed); } start = cookies.find_first_not_of("\r\n ", end); } } void LLPluginCookieStore::setCookiesFromHost(const std::string &cookies, const std::string &host, bool mark_changed) { std::string::size_type start = 0; while(start != std::string::npos) { std::string::size_type end = cookies.find_first_of("\r\n", start); if(end > start) { // The line is non-empty. Try to create a cookie from it. setOneCookie(cookies, start, end, mark_changed, host); } start = cookies.find_first_not_of("\r\n ", end); } } void LLPluginCookieStore::readCookies(std::istream& s, bool mark_changed) { std::string line; while(s.good() && !s.eof()) { std::getline(s, line); if(!line.empty()) { // Try to create a cookie from this line. setOneCookie(line, 0, std::string::npos, mark_changed); } } } std::string LLPluginCookieStore::quoteString(const std::string &s) { std::stringstream result; result << '"'; for(std::string::size_type i = 0; i < s.size(); ++i) { char c = s[i]; switch(c) { // All these separators need to be quoted in HTTP headers, according to section 2.2 of rfc 2616: case '(': case ')': case '<': case '>': case '@': case ',': case ';': case ':': case '\\': case '"': case '/': case '[': case ']': case '?': case '=': case '{': case '}': case ' ': case '\t': result << '\\'; break; } result << c; } result << '"'; return result.str(); } std::string LLPluginCookieStore::unquoteString(const std::string &s) { std::stringstream result; bool in_quotes = false; for(std::string::size_type i = 0; i < s.size(); ++i) { char c = s[i]; switch(c) { case '\\': if(in_quotes) { // The next character is backslash-quoted. Pass it through untouched. ++i; if(i < s.size()) { result << s[i]; } continue; } break; case '"': in_quotes = !in_quotes; continue; break; } result << c; } return result.str(); } // The flow for deleting a cookie is non-obvious enough that I should call it out here... // Deleting a cookie is done by setting a cookie with the same name, path, and domain, but with an expire timestamp in the past. // (This is exactly how a web server tells a browser to delete a cookie.) // When deleting with mark_changed set to true, this replaces the existing cookie in the list with an entry that's marked both dead and changed. // Some time later when writeChangedCookies() is called with clear_changed set to true, the dead cookie is deleted from the list after being returned, so that the // delete operation (in the form of the expired cookie) is passed along. void LLPluginCookieStore::setOneCookie(const std::string &s, std::string::size_type cookie_start, std::string::size_type cookie_end, bool mark_changed, const std::string &host) { Cookie *cookie = Cookie::createFromString(s, cookie_start, cookie_end, host); if(cookie) { LL_DEBUGS("CookieStoreUpdate") << "setting cookie: " << cookie->getCookie() << LL_ENDL; // Create a key for this cookie std::string key = cookie->getKey(); // Check to see whether this cookie should have expired if(!cookie->isSessionCookie() && (cookie->getDate() < LLDate::now())) { // This cookie has expired. if(mark_changed) { // If we're marking cookies as changed, we should keep it anyway since we'll need to send it out with deltas. cookie->setDead(true); LL_DEBUGS("CookieStoreUpdate") << " marking dead" << LL_ENDL; } else { // If we're not marking cookies as changed, we don't need to keep this cookie at all. // If the cookie was already in the list, delete it. removeCookie(key); delete cookie; cookie = NULL; LL_DEBUGS("CookieStoreUpdate") << " removing" << LL_ENDL; } } if(cookie) { // If it already exists in the map, replace it. cookie_map_t::iterator iter = mCookies.find(key); if(iter != mCookies.end()) { if(iter->second->getCookie() == cookie->getCookie()) { // The new cookie is identical to the old -- don't mark as changed. // Just leave the old one in the map. delete cookie; cookie = NULL; LL_DEBUGS("CookieStoreUpdate") << " unchanged" << LL_ENDL; } else { // A matching cookie was already in the map. Replace it. delete iter->second; iter->second = cookie; cookie->setChanged(mark_changed); if(mark_changed) mHasChangedCookies = true; LL_DEBUGS("CookieStoreUpdate") << " replacing" << LL_ENDL; } } else { // The cookie wasn't in the map. Insert it. mCookies.insert(std::make_pair(key, cookie)); cookie->setChanged(mark_changed); if(mark_changed) mHasChangedCookies = true; LL_DEBUGS("CookieStoreUpdate") << " adding" << LL_ENDL; } } } else { LL_WARNS("CookieStoreUpdate") << "failed to parse cookie: " << s.substr(cookie_start, cookie_end - cookie_start) << LL_ENDL; } } void LLPluginCookieStore::clearCookies() { while(!mCookies.empty()) { cookie_map_t::iterator iter = mCookies.begin(); delete iter->second; mCookies.erase(iter); } } void LLPluginCookieStore::removeCookie(const std::string &key) { cookie_map_t::iterator iter = mCookies.find(key); if(iter != mCookies.end()) { delete iter->second; mCookies.erase(iter); } }