Auth Cookie Support (#285)

* Auth cookie support

* Add config option for auth cookie support

* Safe handling of TEGid/auth_id strings

* Fix bad size calculation due to pointer cast

* Expiration timestamp instead of valid bit

* Change setting to "allowed auth methods"

This allows plaintext password auth to be disabled altogether

* PR feedback
This commit is contained in:
Gent Semaj 2024-09-17 20:41:48 -07:00 committed by GitHub
parent 52833f7fb3
commit a6eb0e2349
No known key found for this signature in database
GPG Key ID: B5690EEEBB952194
10 changed files with 185 additions and 36 deletions

View File

@ -17,6 +17,10 @@ acceptallcustomnames=true
# should attempts to log into non-existent accounts # should attempts to log into non-existent accounts
# automatically create them? # automatically create them?
autocreateaccounts=true autocreateaccounts=true
# list of supported authentication methods (comma-separated)
# password = allow login type 1 with plaintext passwords
# cookie = allow login type 2 with one-shot auth cookies
authmethods=password
# how often should everything be flushed to the database? # how often should everything be flushed to the database?
# the default is 4 minutes # the default is 4 minutes
dbsaveinterval=240 dbsaveinterval=240

19
sql/migration4.sql Normal file
View File

@ -0,0 +1,19 @@
/*
It is recommended in the SQLite manual to turn off
foreign keys when making schema changes that involve them
*/
PRAGMA foreign_keys=OFF;
BEGIN TRANSACTION;
-- New table to store auth cookies
CREATE TABLE Auth (
AccountID INTEGER NOT NULL,
Cookie TEXT NOT NULL,
Expires INTEGER DEFAULT 0 NOT NULL,
FOREIGN KEY(AccountID) REFERENCES Accounts(AccountID) ON DELETE CASCADE,
UNIQUE (AccountID)
);
-- Update DB Version
UPDATE Meta SET Value = 5 WHERE Key = 'DatabaseVersion';
UPDATE Meta SET Value = strftime('%s', 'now') WHERE Key = 'LastMigration';
COMMIT;
PRAGMA foreign_keys=ON;

View File

@ -143,7 +143,7 @@ CREATE TABLE IF NOT EXISTS EmailItems (
UNIQUE (PlayerID, MsgIndex, Slot) UNIQUE (PlayerID, MsgIndex, Slot)
); );
CREATE TABLE IF NOT EXISTS RaceResults( CREATE TABLE IF NOT EXISTS RaceResults (
EPID INTEGER NOT NULL, EPID INTEGER NOT NULL,
PlayerID INTEGER NOT NULL, PlayerID INTEGER NOT NULL,
Score INTEGER NOT NULL, Score INTEGER NOT NULL,
@ -153,9 +153,17 @@ CREATE TABLE IF NOT EXISTS RaceResults(
FOREIGN KEY(PlayerID) REFERENCES Players(PlayerID) ON DELETE CASCADE FOREIGN KEY(PlayerID) REFERENCES Players(PlayerID) ON DELETE CASCADE
); );
CREATE TABLE IF NOT EXISTS RedeemedCodes( CREATE TABLE IF NOT EXISTS RedeemedCodes (
PlayerID INTEGER NOT NULL, PlayerID INTEGER NOT NULL,
Code TEXT NOT NULL, Code TEXT NOT NULL,
FOREIGN KEY(PlayerID) REFERENCES Players(PlayerID) ON DELETE CASCADE, FOREIGN KEY(PlayerID) REFERENCES Players(PlayerID) ON DELETE CASCADE,
UNIQUE (PlayerID, Code) UNIQUE (PlayerID, Code)
) );
CREATE TABLE IF NOT EXISTS Auth (
AccountID INTEGER NOT NULL,
Cookie TEXT NOT NULL,
Expires INTEGER DEFAULT 0 NOT NULL,
FOREIGN KEY(AccountID) REFERENCES Accounts(AccountID) ON DELETE CASCADE,
UNIQUE (AccountID)
);

View File

@ -40,6 +40,7 @@
// wrapper for U16toU8 // wrapper for U16toU8
#define ARRLEN(x) (sizeof(x)/sizeof(*x)) #define ARRLEN(x) (sizeof(x)/sizeof(*x))
#define AUTOU8(x) std::string((char*)x, ARRLEN(x))
#define AUTOU16TOU8(x) U16toU8(x, ARRLEN(x)) #define AUTOU16TOU8(x) U16toU8(x, ARRLEN(x))
// TODO: rewrite U16toU8 & U8toU16 to not use codecvt // TODO: rewrite U16toU8 & U8toU16 to not use codecvt

View File

@ -5,7 +5,7 @@
#include <string> #include <string>
#include <vector> #include <vector>
#define DATABASE_VERSION 4 #define DATABASE_VERSION 5
namespace Database { namespace Database {
@ -53,6 +53,10 @@ namespace Database {
void updateAccountLevel(int accountId, int accountLevel); void updateAccountLevel(int accountId, int accountLevel);
// return true if cookie is valid for the account.
// invalidates the stored cookie afterwards
bool checkCookie(int accountId, const char *cookie);
// interface for the /ban command // interface for the /ban command
bool banPlayer(int playerId, std::string& reason); bool banPlayer(int playerId, std::string& reason);
bool unbanPlayer(int playerId); bool unbanPlayer(int playerId);

View File

@ -98,6 +98,55 @@ void Database::updateAccountLevel(int accountId, int accountLevel) {
sqlite3_finalize(stmt); sqlite3_finalize(stmt);
} }
bool Database::checkCookie(int accountId, const char *tryCookie) {
std::lock_guard<std::mutex> lock(dbCrit);
const char* sql_get = R"(
SELECT Cookie
FROM Auth
WHERE AccountID = ? AND Expires > ?;
)";
const char* sql_invalidate = R"(
UPDATE Auth
SET Expires = 0
WHERE AccountID = ?;
)";
sqlite3_stmt* stmt;
sqlite3_prepare_v2(db, sql_get, -1, &stmt, NULL);
sqlite3_bind_int(stmt, 1, accountId);
sqlite3_bind_int(stmt, 2, getTimestamp());
int rc = sqlite3_step(stmt);
if (rc != SQLITE_ROW) {
sqlite3_finalize(stmt);
return false;
}
const char *cookie = reinterpret_cast<const char*>(sqlite3_column_text(stmt, 0));
if (strlen(cookie) != strlen(tryCookie)) {
sqlite3_finalize(stmt);
return false;
}
/*
* since cookies are immediately invalidated, we don't need to be concerned about
* timing-related side channel attacks, so strcmp is fine here
*/
bool match = (strcmp(cookie, tryCookie) == 0);
sqlite3_finalize(stmt);
sqlite3_prepare_v2(db, sql_invalidate, -1, &stmt, NULL);
sqlite3_bind_int(stmt, 1, accountId);
rc = sqlite3_step(stmt);
sqlite3_finalize(stmt);
if (rc != SQLITE_DONE)
std::cout << "[WARN] Database fail on checkCookie(): " << sqlite3_errmsg(db) << std::endl;
return match;
}
void Database::updateSelected(int accountId, int slot) { void Database::updateSelected(int accountId, int slot) {
std::lock_guard<std::mutex> lock(dbCrit); std::lock_guard<std::mutex> lock(dbCrit);

View File

@ -105,57 +105,95 @@ void loginFail(LoginError errorCode, std::string userLogin, CNSocket* sock) {
void CNLoginServer::login(CNSocket* sock, CNPacketData* data) { void CNLoginServer::login(CNSocket* sock, CNPacketData* data) {
auto login = (sP_CL2LS_REQ_LOGIN*)data->buf; auto login = (sP_CL2LS_REQ_LOGIN*)data->buf;
// TODO: implement better way of sending credentials
std::string userLogin((char*)login->szCookie_TEGid); std::string userLogin;
std::string userPassword((char*)login->szCookie_authid); std::string userToken; // could be password or auth cookie
/* /*
* Sometimes the client sends garbage cookie data. * The std::string -> char* -> std::string maneuver should remove any
* Validate it as normal credentials instead of using a length check before falling back. * trailing garbage after the null terminator.
*/ */
if (!CNLoginServer::isLoginDataGood(userLogin, userPassword)) { if (login->iLoginType == (int32_t)LoginType::COOKIE) {
/* userLogin = std::string(AUTOU8(login->szCookie_TEGid).c_str());
* The std::string -> char* -> std::string maneuver should remove any userToken = std::string(AUTOU8(login->szCookie_authid).c_str());
* trailing garbage after the null terminator. } else {
*/
userLogin = std::string(AUTOU16TOU8(login->szID).c_str()); userLogin = std::string(AUTOU16TOU8(login->szID).c_str());
userPassword = std::string(AUTOU16TOU8(login->szPassword).c_str()); userToken = std::string(AUTOU16TOU8(login->szPassword).c_str());
} }
// the client inserts a "\n" in the password if you press enter key in the middle of the password // check username regex
// (not at the start or the end of the password field) if (!CNLoginServer::isUsernameGood(userLogin)) {
if (int(userPassword.find("\n")) > 0)
userPassword.erase(userPassword.find("\n"), 1);
// check regex
if (!CNLoginServer::isLoginDataGood(userLogin, userPassword)) {
// send a custom error message // send a custom error message
INITSTRUCT(sP_FE2CL_GM_REP_PC_ANNOUNCE, msg); INITSTRUCT(sP_FE2CL_GM_REP_PC_ANNOUNCE, msg);
std::string text = "Invalid login or password\n"; std::string text = "Invalid login\n";
text += "Login has to be 4 - 32 characters long and can't contain special characters other than dash and underscore\n"; text += "Login has to be 4 - 32 characters long and can't contain special characters other than dash and underscore";
text += "Password has to be 8 - 32 characters long";
U8toU16(text, msg.szAnnounceMsg, sizeof(msg.szAnnounceMsg)); U8toU16(text, msg.szAnnounceMsg, sizeof(msg.szAnnounceMsg));
msg.iDuringTime = 15; msg.iDuringTime = 10;
sock->sendPacket(msg, P_FE2CL_GM_REP_PC_ANNOUNCE); sock->sendPacket(msg, P_FE2CL_GM_REP_PC_ANNOUNCE);
// we still have to send login fail to prevent softlock // we still have to send login fail to prevent softlock
return loginFail(LoginError::LOGIN_ERROR, userLogin, sock); return loginFail(LoginError::LOGIN_ERROR, userLogin, sock);
} }
// we only interpret the token as a cookie if cookie login was used and it's allowed.
// otherwise we interpret it as a password, and this maintains compatibility with
// the auto-login trick used on older clients
bool isCookieAuth = login->iLoginType == (int32_t)LoginType::COOKIE
&& CNLoginServer::isLoginTypeAllowed(LoginType::COOKIE);
// password login checks
if (!isCookieAuth) {
// bail if password auth isn't allowed
if (!CNLoginServer::isLoginTypeAllowed(LoginType::PASSWORD)) {
// send a custom error message
INITSTRUCT(sP_FE2CL_GM_REP_PC_ANNOUNCE, msg);
std::string text = "Password login disabled\n";
text += "This server has disabled logging in with plaintext passwords.\n";
text += "Please contact an admin for assistance.";
U8toU16(text, msg.szAnnounceMsg, sizeof(msg.szAnnounceMsg));
msg.iDuringTime = 12;
sock->sendPacket(msg, P_FE2CL_GM_REP_PC_ANNOUNCE);
// we still have to send login fail to prevent softlock
return loginFail(LoginError::LOGIN_ERROR, userLogin, sock);
}
// check regex
if (!CNLoginServer::isPasswordGood(userToken)) {
// send a custom error message
INITSTRUCT(sP_FE2CL_GM_REP_PC_ANNOUNCE, msg);
std::string text = "Invalid password\n";
text += "Password has to be 8 - 32 characters long";
U8toU16(text, msg.szAnnounceMsg, sizeof(msg.szAnnounceMsg));
msg.iDuringTime = 10;
sock->sendPacket(msg, P_FE2CL_GM_REP_PC_ANNOUNCE);
// we still have to send login fail to prevent softlock
return loginFail(LoginError::LOGIN_ERROR, userLogin, sock);
}
}
Database::Account findUser = {}; Database::Account findUser = {};
Database::findAccount(&findUser, userLogin); Database::findAccount(&findUser, userLogin);
// account was not found // account was not found
if (findUser.AccountID == 0) { if (findUser.AccountID == 0) {
if (settings::AUTOCREATEACCOUNTS) // don't auto-create an account if it's a cookie auth for whatever reason
return newAccount(sock, userLogin, userPassword, login->iClientVerC); if (settings::AUTOCREATEACCOUNTS && !isCookieAuth)
return newAccount(sock, userLogin, userToken, login->iClientVerC);
return loginFail(LoginError::ID_DOESNT_EXIST, userLogin, sock); return loginFail(LoginError::ID_DOESNT_EXIST, userLogin, sock);
} }
if (!CNLoginServer::isPasswordCorrect(findUser.Password, userPassword)) if (isCookieAuth) {
return loginFail(LoginError::ID_AND_PASSWORD_DO_NOT_MATCH, userLogin, sock); const char *cookie = userToken.c_str();
if (!Database::checkCookie(findUser.AccountID, cookie))
return loginFail(LoginError::ID_AND_PASSWORD_DO_NOT_MATCH, userLogin, sock);
} else {
// simple password check
if (!CNLoginServer::isPasswordCorrect(findUser.Password, userToken))
return loginFail(LoginError::ID_AND_PASSWORD_DO_NOT_MATCH, userLogin, sock);
}
// is the account banned // is the account banned
if (findUser.BannedUntil > getTimestamp()) { if (findUser.BannedUntil > getTimestamp()) {
@ -621,11 +659,14 @@ bool CNLoginServer::exitDuplicate(int accountId) {
return false; return false;
} }
bool CNLoginServer::isLoginDataGood(std::string login, std::string password) { bool CNLoginServer::isUsernameGood(std::string login) {
std::regex loginRegex("[a-zA-Z0-9_-]{4,32}"); const std::regex loginRegex("[a-zA-Z0-9_-]{4,32}");
std::regex passwordRegex("[a-zA-Z0-9!@#$%^&*()_+]{8,32}"); return (std::regex_match(login, loginRegex));
}
return (std::regex_match(login, loginRegex) && std::regex_match(password, passwordRegex)); bool CNLoginServer::isPasswordGood(std::string password) {
const std::regex passwordRegex("[a-zA-Z0-9!@#$%^&*()_+]{8,32}");
return (std::regex_match(password, passwordRegex));
} }
bool CNLoginServer::isPasswordCorrect(std::string actualPassword, std::string tryPassword) { bool CNLoginServer::isPasswordCorrect(std::string actualPassword, std::string tryPassword) {
@ -638,4 +679,17 @@ bool CNLoginServer::isCharacterNameGood(std::string Firstname, std::string Lastn
std::regex lastnamecheck(R"(((?! )(?!\.)[a-zA-Z0-9]*\.{0,1}(?!\.+ +)[a-zA-Z0-9]* {0,1}(?! +))*$)"); std::regex lastnamecheck(R"(((?! )(?!\.)[a-zA-Z0-9]*\.{0,1}(?!\.+ +)[a-zA-Z0-9]* {0,1}(?! +))*$)");
return (std::regex_match(Firstname, firstnamecheck) && std::regex_match(Lastname, lastnamecheck)); return (std::regex_match(Firstname, firstnamecheck) && std::regex_match(Lastname, lastnamecheck));
} }
bool CNLoginServer::isLoginTypeAllowed(LoginType loginType) {
// the config file specifies "comma-separated" but tbh we don't care
switch (loginType) {
case LoginType::PASSWORD:
return settings::AUTHMETHODS.find("password") != std::string::npos;
case LoginType::COOKIE:
return settings::AUTHMETHODS.find("cookie") != std::string::npos;
default:
break;
}
return false;
}
#pragma endregion #pragma endregion

View File

@ -23,6 +23,11 @@ enum class LoginError {
UPDATED_EUALA_REQUIRED = 9 UPDATED_EUALA_REQUIRED = 9
}; };
enum class LoginType {
PASSWORD = 1,
COOKIE = 2
};
// WARNING: THERE CAN ONLY BE ONE OF THESE SERVERS AT A TIME!!!!!! TODO: change loginSessions & packet handlers to be non-static // WARNING: THERE CAN ONLY BE ONE OF THESE SERVERS AT A TIME!!!!!! TODO: change loginSessions & packet handlers to be non-static
class CNLoginServer : public CNServer { class CNLoginServer : public CNServer {
private: private:
@ -39,10 +44,12 @@ private:
static void changeName(CNSocket* sock, CNPacketData* data); static void changeName(CNSocket* sock, CNPacketData* data);
static void duplicateExit(CNSocket* sock, CNPacketData* data); static void duplicateExit(CNSocket* sock, CNPacketData* data);
static bool isLoginDataGood(std::string login, std::string password); static bool isUsernameGood(std::string login);
static bool isPasswordGood(std::string password);
static bool isPasswordCorrect(std::string actualPassword, std::string tryPassword); static bool isPasswordCorrect(std::string actualPassword, std::string tryPassword);
static bool isAccountInUse(int accountId); static bool isAccountInUse(int accountId);
static bool isCharacterNameGood(std::string Firstname, std::string Lastname); static bool isCharacterNameGood(std::string Firstname, std::string Lastname);
static bool isLoginTypeAllowed(LoginType loginType);
static void newAccount(CNSocket* sock, std::string userLogin, std::string userPassword, int32_t clientVerC); static void newAccount(CNSocket* sock, std::string userLogin, std::string userPassword, int32_t clientVerC);
// returns true if success // returns true if success
static bool exitDuplicate(int accountId); static bool exitDuplicate(int accountId);

View File

@ -13,6 +13,7 @@ bool settings::SANDBOX = true;
int settings::LOGINPORT = 23000; int settings::LOGINPORT = 23000;
bool settings::APPROVEALLNAMES = true; bool settings::APPROVEALLNAMES = true;
bool settings::AUTOCREATEACCOUNTS = true; bool settings::AUTOCREATEACCOUNTS = true;
std::string settings::AUTHMETHODS = "password";
int settings::DBSAVEINTERVAL = 240; int settings::DBSAVEINTERVAL = 240;
int settings::SHARDPORT = 23001; int settings::SHARDPORT = 23001;
@ -87,6 +88,7 @@ void settings::init() {
LOGINPORT = reader.GetInteger("login", "port", LOGINPORT); LOGINPORT = reader.GetInteger("login", "port", LOGINPORT);
APPROVEALLNAMES = reader.GetBoolean("login", "acceptallcustomnames", APPROVEALLNAMES); APPROVEALLNAMES = reader.GetBoolean("login", "acceptallcustomnames", APPROVEALLNAMES);
AUTOCREATEACCOUNTS = reader.GetBoolean("login", "autocreateaccounts", AUTOCREATEACCOUNTS); AUTOCREATEACCOUNTS = reader.GetBoolean("login", "autocreateaccounts", AUTOCREATEACCOUNTS);
AUTHMETHODS = reader.Get("login", "authmethods", AUTHMETHODS);
DBSAVEINTERVAL = reader.GetInteger("login", "dbsaveinterval", DBSAVEINTERVAL); DBSAVEINTERVAL = reader.GetInteger("login", "dbsaveinterval", DBSAVEINTERVAL);
SHARDPORT = reader.GetInteger("shard", "port", SHARDPORT); SHARDPORT = reader.GetInteger("shard", "port", SHARDPORT);
SHARDSERVERIP = reader.Get("shard", "ip", SHARDSERVERIP); SHARDSERVERIP = reader.Get("shard", "ip", SHARDSERVERIP);

View File

@ -8,6 +8,7 @@ namespace settings {
extern int LOGINPORT; extern int LOGINPORT;
extern bool APPROVEALLNAMES; extern bool APPROVEALLNAMES;
extern bool AUTOCREATEACCOUNTS; extern bool AUTOCREATEACCOUNTS;
extern std::string AUTHMETHODS;
extern int DBSAVEINTERVAL; extern int DBSAVEINTERVAL;
extern int SHARDPORT; extern int SHARDPORT;
extern std::string SHARDSERVERIP; extern std::string SHARDSERVERIP;