/* Jabber Protocol Plugin for Miranda NG Copyright (c) 2002-04 Santithorn Bunchua Copyright (c) 2005-12 George Hazan Copyright (C) 2012-23 Miranda NG team This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #include "stdafx.h" #include "jabber_secur.h" ///////////////////////////////////////////////////////////////////////////////////////// // ntlm auth - LanServer based authorization TNtlmAuth::TNtlmAuth(ThreadData *info, const char *mechanism) : TJabberAuth(info, mechanism) { bIsValid = false; const wchar_t *szProvider; if (!mir_strcmp(mechanism, "GSS-SPNEGO")) szProvider = L"Negotiate", priority = 703; else if (!mir_strcmp(mechanism, "GSSAPI")) szProvider = L"Kerberos", priority = 702; else if (!mir_strcmp(mechanism, "NTLM")) szProvider = L"NTLM", priority = 701; else return; wchar_t szSpn[1024]; szSpn[0] = 0; if (!mir_strcmp(mechanism, "GSSAPI")) if (!getSpn(szSpn, _countof(szSpn))) return; if ((hProvider = Netlib_InitSecurityProvider(szProvider, szSpn)) == nullptr) return; // This generates login method advertisement packet if (info->conn.password[0] != 0) szInitRequest = Netlib_NtlmCreateResponse(hProvider, "", Utf2T(info->conn.username), Utf2T(info->conn.password), complete); else szInitRequest = Netlib_NtlmCreateResponse(hProvider, "", nullptr, nullptr, complete); if (szInitRequest == nullptr) return; bIsValid = true; } TNtlmAuth::~TNtlmAuth() { if (hProvider != nullptr) Netlib_DestroySecurityProvider(hProvider); } bool TNtlmAuth::getSpn(wchar_t* szSpn, size_t dwSpnLen) { wchar_t szFullUserName[128] = L""; ULONG szFullUserNameLen = _countof(szFullUserName); if (!GetUserNameEx(NameDnsDomain, szFullUserName, &szFullUserNameLen)) { szFullUserName[0] = 0; szFullUserNameLen = _countof(szFullUserName); GetUserNameEx(NameSamCompatible, szFullUserName, &szFullUserNameLen); } wchar_t *name = wcsrchr(szFullUserName, '\\'); if (name) *name = 0; else return false; if (info->gssapiHostName && info->gssapiHostName[0]) { wchar_t *szFullUserNameU = wcsupr(mir_wstrdup(szFullUserName)); mir_snwprintf(szSpn, dwSpnLen, L"xmpp/%s/%s@%s", info->gssapiHostName, szFullUserName, szFullUserNameU); mir_free(szFullUserNameU); } else { const char* connectHost = info->conn.manualHost[0] ? info->conn.manualHost : info->conn.server; unsigned long ip = inet_addr(connectHost); PHOSTENT host = (ip == INADDR_NONE) ? nullptr : gethostbyaddr((char*)&ip, 4, AF_INET); if (host && host->h_name) connectHost = host->h_name; wchar_t *connectHostT = mir_a2u(connectHost); mir_snwprintf(szSpn, dwSpnLen, L"xmpp/%s@%s", connectHostT, wcsupr(szFullUserName)); mir_free(connectHostT); } Netlib_Logf(nullptr, "SPN: %S", szSpn); return true; } char* TNtlmAuth::getInitialRequest() { return szInitRequest.detach(); } char* TNtlmAuth::getChallenge(const char *challenge) { if (!hProvider) return nullptr; const char *text((!mir_strcmp(challenge, "=")) ? "" : challenge); if (info->conn.password[0] != 0) return Netlib_NtlmCreateResponse(hProvider, text, Utf2T(info->conn.username), Utf2T(info->conn.password), complete); return Netlib_NtlmCreateResponse(hProvider, text, nullptr, nullptr, complete); } ///////////////////////////////////////////////////////////////////////////////////////// // md5 auth - digest-based authorization TMD5Auth::TMD5Auth(ThreadData *info) : TJabberAuth(info, "DIGEST-MD5"), iCallCount(0) { priority = 301; } TMD5Auth::~TMD5Auth() { } char* TMD5Auth::getChallenge(const char *challenge) { if (iCallCount > 0) return nullptr; iCallCount++; size_t resultLen; ptrA text((char*)mir_base64_decode(challenge, &resultLen)); TStringPairs pairs(text); const char *realm = pairs["realm"], *nonce = pairs["nonce"]; char cnonce[40], tmpBuf[40]; uint32_t digest[4], hash1[4], hash2[4]; mir_md5_state_t ctx; Utils_GetRandom(digest, sizeof(digest)); mir_snprintf(cnonce, "%08x%08x%08x%08x", htonl(digest[0]), htonl(digest[1]), htonl(digest[2]), htonl(digest[3])); ptrA serv(mir_utf8encode(info->conn.server)); mir_md5_init(&ctx); mir_md5_append(&ctx, (uint8_t*)info->conn.username, (int)mir_strlen(info->conn.username)); mir_md5_append(&ctx, (uint8_t*)":", 1); mir_md5_append(&ctx, (uint8_t*)realm, (int)mir_strlen(realm)); mir_md5_append(&ctx, (uint8_t*)":", 1); mir_md5_append(&ctx, (uint8_t*)info->conn.password, (int)mir_strlen(info->conn.password)); mir_md5_finish(&ctx, (uint8_t*)hash1); mir_md5_init(&ctx); mir_md5_append(&ctx, (uint8_t*)hash1, 16); mir_md5_append(&ctx, (uint8_t*)":", 1); mir_md5_append(&ctx, (uint8_t*)nonce, (int)mir_strlen(nonce)); mir_md5_append(&ctx, (uint8_t*)":", 1); mir_md5_append(&ctx, (uint8_t*)cnonce, (int)mir_strlen(cnonce)); mir_md5_finish(&ctx, (uint8_t*)hash1); mir_md5_init(&ctx); mir_md5_append(&ctx, (uint8_t*)"AUTHENTICATE:xmpp/", 18); mir_md5_append(&ctx, (uint8_t*)(char*)serv, (int)mir_strlen(serv)); mir_md5_finish(&ctx, (uint8_t*)hash2); mir_md5_init(&ctx); mir_snprintf(tmpBuf, "%08x%08x%08x%08x", htonl(hash1[0]), htonl(hash1[1]), htonl(hash1[2]), htonl(hash1[3])); mir_md5_append(&ctx, (uint8_t*)tmpBuf, (int)mir_strlen(tmpBuf)); mir_md5_append(&ctx, (uint8_t*)":", 1); mir_md5_append(&ctx, (uint8_t*)nonce, (int)mir_strlen(nonce)); mir_snprintf(tmpBuf, ":%08d:", iCallCount); mir_md5_append(&ctx, (uint8_t*)tmpBuf, (int)mir_strlen(tmpBuf)); mir_md5_append(&ctx, (uint8_t*)cnonce, (int)mir_strlen(cnonce)); mir_md5_append(&ctx, (uint8_t*)":auth:", 6); mir_snprintf(tmpBuf, "%08x%08x%08x%08x", htonl(hash2[0]), htonl(hash2[1]), htonl(hash2[2]), htonl(hash2[3])); mir_md5_append(&ctx, (uint8_t*)tmpBuf, (int)mir_strlen(tmpBuf)); mir_md5_finish(&ctx, (uint8_t*)digest); char *buf = (char*)alloca(8000); int cbLen = mir_snprintf(buf, 8000, "username=\"%s\",realm=\"%s\",nonce=\"%s\",cnonce=\"%s\",nc=%08d," "qop=auth,digest-uri=\"xmpp/%s\",charset=utf-8,response=%08x%08x%08x%08x", info->conn.username, realm, nonce, cnonce, iCallCount, serv.get(), htonl(digest[0]), htonl(digest[1]), htonl(digest[2]), htonl(digest[3])); return mir_base64_encode(buf, cbLen); } ///////////////////////////////////////////////////////////////////////////////////////// // SCRAM-SHA-1 authorization TScramAuth::TScramAuth(ThreadData *info, const char *pszMech, const EVP_MD *pMethod, int iPriority) : TJabberAuth(info, pszMech), hashMethod(pMethod) { priority = iPriority; if ((iPriority % 10) == 1) { int cbLen, tlsVer = info->proto->m_bUseTlsExport; void *pData = Netlib_GetTlsUnique(info->s, cbLen, tlsVer); if (pData == nullptr) bIsValid = false; else { bindFlag = (tlsVer == 13) ? "p=tls-exporter,," : "p=tls-unique,,"; bindData.append(pData, cbLen); } } else bindFlag = "n,,"; } TScramAuth::~TScramAuth() { mir_free(cnonce); mir_free(msg1); mir_free(serverSignature); } void TScramAuth::Hi(uint8_t *res, char *passw, size_t passwLen, char *salt, size_t saltLen, int ind) { size_t bufLen = saltLen + sizeof(UINT32); uint8_t *u = (uint8_t*)_alloca(max(bufLen, EVP_MAX_MD_SIZE)); memcpy(u, salt, saltLen); *(UINT32*)(u + saltLen) = htonl(1); memset(res, 0, EVP_MAX_MD_SIZE); for (int i = 0; i < ind; i++) { unsigned int len; HMAC(hashMethod, (uint8_t*)passw, (unsigned)passwLen, u, (unsigned)bufLen, u, &len); bufLen = EVP_MD_size(hashMethod); for (size_t j = 0; j < bufLen; j++) res[j] ^= u[j]; } } char* TScramAuth::getInitialRequest() { unsigned char nonce[24]; Utils_GetRandom(nonce, sizeof(nonce)); cnonce = mir_base64_encode(nonce, sizeof(nonce)); CMStringA buf(FORMAT, "n=%s,r=%s", info->conn.username, cnonce); msg1 = mir_strdup(buf); buf.Insert(0, bindFlag); return mir_base64_encode(buf, buf.GetLength()); } char* TScramAuth::getChallenge(const char *challenge) { size_t chlLen, saltLen = 0; ptrA snonce, salt; int ind = -1; ptrA chl((char *)mir_base64_decode(challenge, &chlLen)), cbd; if (bindData.isEmpty()) cbd = mir_base64_encode(bindFlag, mir_strlen(bindFlag)); else { bindData.appendBefore((void*)bindFlag, mir_strlen(bindFlag)); cbd = mir_base64_encode(bindData.data(), bindData.length()); } for (char *p = strtok(NEWSTR_ALLOCA(chl), ","); p != nullptr; p = strtok(nullptr, ",")) { if (*p == 'r' && p[1] == '=') { // snonce if (strncmp(cnonce, p + 2, mir_strlen(cnonce))) return nullptr; snonce = mir_strdup(p + 2); } else if (*p == 's' && p[1] == '=') // salt salt = (char*)mir_base64_decode(p + 2, &saltLen); else if (*p == 'i' && p[1] == '=') ind = atoi(p + 2); } if (snonce == nullptr || salt == nullptr || ind == -1) return nullptr; int hashSize = EVP_MD_size(hashMethod); uint8_t saltedPassw[EVP_MAX_MD_SIZE]; Hi(saltedPassw, info->conn.password, mir_strlen(info->conn.password), salt, saltLen, ind); uint8_t clientKey[EVP_MAX_MD_SIZE]; unsigned int len; HMAC(hashMethod, saltedPassw, hashSize, (uint8_t*)"Client Key", 10, clientKey, &len); uint8_t storedKey[EVP_MAX_MD_SIZE]; { EVP_MD_CTX *pctx = EVP_MD_CTX_new(); EVP_DigestInit(pctx, hashMethod); EVP_DigestUpdate(pctx, clientKey, hashSize); EVP_DigestFinal(pctx, storedKey, &len); EVP_MD_CTX_free(pctx); } uint8_t clientSig[EVP_MAX_MD_SIZE]; CMStringA authmsg(FORMAT, "%s,%s,c=%s,r=%s", msg1, chl.get(), cbd.get(), snonce.get()); HMAC(hashMethod, storedKey, hashSize, (uint8_t*)authmsg.c_str(), authmsg.GetLength(), clientSig, &len); uint8_t clientProof[EVP_MAX_MD_SIZE]; for (int j = 0; j < hashSize; j++) clientProof[j] = clientKey[j] ^ clientSig[j]; /* Calculate the server signature */ uint8_t serverKey[EVP_MAX_MD_SIZE]; HMAC(hashMethod, saltedPassw, hashSize, (uint8_t*)"Server Key", 10, serverKey, &len); uint8_t srvSig[EVP_MAX_MD_SIZE]; HMAC(hashMethod, serverKey, hashSize, (uint8_t*)authmsg.c_str(), authmsg.GetLength(), srvSig, &len); serverSignature = mir_base64_encode(srvSig, hashSize); ptrA encproof(mir_base64_encode(clientProof, hashSize)); CMStringA buf(FORMAT, "c=%s,r=%s,p=%s", cbd.get(), snonce.get(), encproof.get()); return mir_base64_encode(buf, buf.GetLength()); } bool TScramAuth::validateLogin(const char *challenge) { size_t chlLen; ptrA chl((char*)mir_base64_decode(challenge, &chlLen)); return chl && strncmp((char*)chl + 2, serverSignature, chlLen - 2) == 0; } ///////////////////////////////////////////////////////////////////////////////////////// // plain auth - the most simple one TPlainAuth::TPlainAuth(ThreadData *info, bool old) : TJabberAuth(info, "PLAIN"), bOld(old) { priority = (old) ? 100 : 101; } char* TPlainAuth::getInitialRequest() { CMStringA buf; if (bOld) buf.Format("%s@%s%c%s%c%s", info->conn.username, info->conn.server, 0, info->conn.username, 0, info->conn.password); else buf.Format("%c%s%c%s", 0, info->conn.username, 0, info->conn.password); return mir_base64_encode(buf, buf.GetLength()); } ///////////////////////////////////////////////////////////////////////////////////////// // basic type TJabberAuth::TJabberAuth(ThreadData *pInfo, const char *pszMech) : info(pInfo), szName(mir_strdup(pszMech)) { } TJabberAuth::~TJabberAuth() { } char* TJabberAuth::getInitialRequest() { return nullptr; } char* TJabberAuth::getChallenge(const char*) { return nullptr; } bool TJabberAuth::validateLogin(const char*) { return true; }