/* * Various SSL functions. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "cert.h" #include "secitem.h" #include "keyhi.h" #include "ssl.h" #include "sslimpl.h" #include "sslproto.h" #include "secoid.h" /* for SECOID_GetALgorithmTag */ #include "pk11func.h" /* for PK11_GenerateRandom */ #include "nss.h" /* for NSS_RegisterShutdown */ #include "prinit.h" /* for PR_CallOnceWithArg */ #define MAX_BLOCK_CYPHER_SIZE 32 #define TEST_FOR_FAILURE /* reminder */ #define SET_ERROR_CODE /* reminder */ /* Returns a SECStatus: SECSuccess or SECFailure, NOT SECWouldBlock. * * Currently, the list of functions called through ss->handshake is: * * In sslsocks.c: * SocksGatherRecord * SocksHandleReply * SocksStartGather * * In sslcon.c: * ssl_GatherRecord1stHandshake * ssl2_HandleClientSessionKeyMessage * ssl2_HandleMessage * ssl2_HandleVerifyMessage * ssl2_BeginClientHandshake * ssl2_BeginServerHandshake * ssl2_HandleClientHelloMessage * ssl2_HandleServerHelloMessage * * The ss->handshake function returns SECWouldBlock under these conditions: * 1. ssl_GatherRecord1stHandshake called ssl2_GatherData which read in * the beginning of an SSL v3 hello message and returned SECWouldBlock * to switch to SSL v3 handshake processing. * * 2. ssl2_HandleClientHelloMessage discovered version 3.0 in the incoming * v2 client hello msg, and called ssl3_HandleV2ClientHello which * returned SECWouldBlock. * * 3. SECWouldBlock was returned by one of the callback functions, via * one of these paths: * - ssl2_HandleMessage() -> ssl2_HandleRequestCertificate() -> * ss->getClientAuthData() * * - ssl2_HandleServerHelloMessage() -> ss->handleBadCert() * * - ssl_GatherRecord1stHandshake() -> ssl3_GatherCompleteHandshake() -> * ssl3_HandleRecord() -> ssl3_HandleHandshake() -> * ssl3_HandleHandshakeMessage() -> ssl3_HandleCertificate() -> * ss->handleBadCert() * * - ssl_GatherRecord1stHandshake() -> ssl3_GatherCompleteHandshake() -> * ssl3_HandleRecord() -> ssl3_HandleHandshake() -> * ssl3_HandleHandshakeMessage() -> ssl3_HandleCertificateRequest() -> * ss->getClientAuthData() * * Called from: SSL_ForceHandshake (below), * ssl_SecureRecv (below) and * ssl_SecureSend (below) * from: WaitForResponse in sslsocks.c * ssl_SocksRecv in sslsocks.c * ssl_SocksSend in sslsocks.c * * Caller must hold the (write) handshakeLock. */ int ssl_Do1stHandshake(sslSocket *ss) { int rv = SECSuccess; int loopCount = 0; do { PORT_Assert(ss->opt.noLocks || ssl_Have1stHandshakeLock(ss) ); PORT_Assert(ss->opt.noLocks || !ssl_HaveRecvBufLock(ss)); PORT_Assert(ss->opt.noLocks || !ssl_HaveXmitBufLock(ss)); PORT_Assert(ss->opt.noLocks || !ssl_HaveSSL3HandshakeLock(ss)); if (ss->handshake == 0) { /* Previous handshake finished. Switch to next one */ ss->handshake = ss->nextHandshake; ss->nextHandshake = 0; } if (ss->handshake == 0) { /* Previous handshake finished. Switch to security handshake */ ss->handshake = ss->securityHandshake; ss->securityHandshake = 0; } if (ss->handshake == 0) { /* for v3 this is done in ssl3_FinishHandshake */ if (!ss->firstHsDone && ss->version < SSL_LIBRARY_VERSION_3_0) { ssl_GetRecvBufLock(ss); ss->gs.recordLen = 0; ssl_FinishHandshake(ss); ssl_ReleaseRecvBufLock(ss); } break; } rv = (*ss->handshake)(ss); ++loopCount; /* This code must continue to loop on SECWouldBlock, * or any positive value. See XXX_1 comments. */ } while (rv != SECFailure); /* was (rv >= 0); XXX_1 */ PORT_Assert(ss->opt.noLocks || !ssl_HaveRecvBufLock(ss)); PORT_Assert(ss->opt.noLocks || !ssl_HaveXmitBufLock(ss)); PORT_Assert(ss->opt.noLocks || !ssl_HaveSSL3HandshakeLock(ss)); if (rv == SECWouldBlock) { PORT_SetError(PR_WOULD_BLOCK_ERROR); rv = SECFailure; } return rv; } void ssl_FinishHandshake(sslSocket *ss) { PORT_Assert( ss->opt.noLocks || ssl_Have1stHandshakeLock(ss) ); PORT_Assert( ss->opt.noLocks || ssl_HaveRecvBufLock(ss) ); SSL_TRC(3, ("%d: SSL[%d]: handshake is completed", SSL_GETPID(), ss->fd)); ss->firstHsDone = PR_TRUE; ss->enoughFirstHsDone = PR_TRUE; ss->gs.writeOffset = 0; ss->gs.readOffset = 0; if (ss->handshakeCallback) { (ss->handshakeCallback)(ss->fd, ss->handshakeCallbackData); } } /* * Handshake function that blocks. Used to force a * retry on a connection on the next read/write. */ static SECStatus ssl3_AlwaysBlock(sslSocket *ss) { PORT_SetError(PR_WOULD_BLOCK_ERROR); /* perhaps redundant. */ return SECWouldBlock; } /* * set the initial handshake state machine to block */ void ssl3_SetAlwaysBlock(sslSocket *ss) { if (!ss->firstHsDone) { ss->handshake = ssl3_AlwaysBlock; ss->nextHandshake = 0; } } static SECStatus ssl_SetTimeout(PRFileDesc *fd, PRIntervalTime timeout) { sslSocket *ss; ss = ssl_FindSocket(fd); if (!ss) { SSL_DBG(("%d: SSL[%d]: bad socket in SetTimeout", SSL_GETPID(), fd)); return SECFailure; } SSL_LOCK_READER(ss); ss->rTimeout = timeout; if (ss->opt.fdx) { SSL_LOCK_WRITER(ss); } ss->wTimeout = timeout; if (ss->opt.fdx) { SSL_UNLOCK_WRITER(ss); } SSL_UNLOCK_READER(ss); return SECSuccess; } /* Acquires and releases HandshakeLock. */ SECStatus SSL_ResetHandshake(PRFileDesc *s, PRBool asServer) { sslSocket *ss; SECStatus status; PRNetAddr addr; ss = ssl_FindSocket(s); if (!ss) { SSL_DBG(("%d: SSL[%d]: bad socket in ResetHandshake", SSL_GETPID(), s)); return SECFailure; } /* Don't waste my time */ if (!ss->opt.useSecurity) return SECSuccess; SSL_LOCK_READER(ss); SSL_LOCK_WRITER(ss); /* Reset handshake state */ ssl_Get1stHandshakeLock(ss); ss->firstHsDone = PR_FALSE; ss->enoughFirstHsDone = PR_FALSE; if ( asServer ) { ss->handshake = ssl2_BeginServerHandshake; ss->handshaking = sslHandshakingAsServer; } else { ss->handshake = ssl2_BeginClientHandshake; ss->handshaking = sslHandshakingAsClient; } ss->nextHandshake = 0; ss->securityHandshake = 0; ssl_GetRecvBufLock(ss); status = ssl_InitGather(&ss->gs); ssl_ReleaseRecvBufLock(ss); ssl_GetSSL3HandshakeLock(ss); ss->ssl3.hs.canFalseStart = PR_FALSE; ss->ssl3.hs.restartTarget = NULL; /* ** Blow away old security state and get a fresh setup. */ ssl_GetXmitBufLock(ss); ssl_ResetSecurityInfo(&ss->sec, PR_TRUE); status = ssl_CreateSecurityInfo(ss); ssl_ReleaseXmitBufLock(ss); ssl_ReleaseSSL3HandshakeLock(ss); ssl_Release1stHandshakeLock(ss); if (!ss->TCPconnected) ss->TCPconnected = (PR_SUCCESS == ssl_DefGetpeername(ss, &addr)); SSL_UNLOCK_WRITER(ss); SSL_UNLOCK_READER(ss); return status; } /* For SSLv2, does nothing but return an error. ** For SSLv3, flushes SID cache entry (if requested), ** and then starts new client hello or hello request. ** Acquires and releases HandshakeLock. */ SECStatus SSL_ReHandshake(PRFileDesc *fd, PRBool flushCache) { sslSocket *ss; SECStatus rv; ss = ssl_FindSocket(fd); if (!ss) { SSL_DBG(("%d: SSL[%d]: bad socket in RedoHandshake", SSL_GETPID(), fd)); return SECFailure; } if (!ss->opt.useSecurity) return SECSuccess; ssl_Get1stHandshakeLock(ss); /* SSL v2 protocol does not support subsequent handshakes. */ if (ss->version < SSL_LIBRARY_VERSION_3_0) { PORT_SetError(SSL_ERROR_FEATURE_NOT_SUPPORTED_FOR_SSL2); rv = SECFailure; } else { ssl_GetSSL3HandshakeLock(ss); rv = ssl3_RedoHandshake(ss, flushCache); /* force full handshake. */ ssl_ReleaseSSL3HandshakeLock(ss); } ssl_Release1stHandshakeLock(ss); return rv; } /* ** Same as above, but with an I/O timeout. */ SSL_IMPORT SECStatus SSL_ReHandshakeWithTimeout(PRFileDesc *fd, PRBool flushCache, PRIntervalTime timeout) { if (SECSuccess != ssl_SetTimeout(fd, timeout)) { return SECFailure; } return SSL_ReHandshake(fd, flushCache); } SECStatus SSL_RedoHandshake(PRFileDesc *fd) { return SSL_ReHandshake(fd, PR_TRUE); } /* Register an application callback to be called when SSL handshake completes. ** Acquires and releases HandshakeLock. */ SECStatus SSL_HandshakeCallback(PRFileDesc *fd, SSLHandshakeCallback cb, void *client_data) { sslSocket *ss; ss = ssl_FindSocket(fd); if (!ss) { SSL_DBG(("%d: SSL[%d]: bad socket in HandshakeCallback", SSL_GETPID(), fd)); return SECFailure; } if (!ss->opt.useSecurity) { PORT_SetError(SEC_ERROR_INVALID_ARGS); return SECFailure; } ssl_Get1stHandshakeLock(ss); ssl_GetSSL3HandshakeLock(ss); ss->handshakeCallback = cb; ss->handshakeCallbackData = client_data; ssl_ReleaseSSL3HandshakeLock(ss); ssl_Release1stHandshakeLock(ss); return SECSuccess; } /* Register an application callback to be called when false start may happen. ** Acquires and releases HandshakeLock. */ SECStatus SSL_SetCanFalseStartCallback(PRFileDesc *fd, SSLCanFalseStartCallback cb, void *arg) { sslSocket *ss; ss = ssl_FindSocket(fd); if (!ss) { SSL_DBG(("%d: SSL[%d]: bad socket in SSL_SetCanFalseStartCallback", SSL_GETPID(), fd)); return SECFailure; } if (!ss->opt.useSecurity) { PORT_SetError(SEC_ERROR_INVALID_ARGS); return SECFailure; } ssl_Get1stHandshakeLock(ss); ssl_GetSSL3HandshakeLock(ss); ss->canFalseStartCallback = cb; ss->canFalseStartCallbackData = arg; ssl_ReleaseSSL3HandshakeLock(ss); ssl_Release1stHandshakeLock(ss); return SECSuccess; } SECStatus SSL_RecommendedCanFalseStart(PRFileDesc *fd, PRBool *canFalseStart) { sslSocket *ss; *canFalseStart = PR_FALSE; ss = ssl_FindSocket(fd); if (!ss) { SSL_DBG(("%d: SSL[%d]: bad socket in SSL_RecommendedCanFalseStart", SSL_GETPID(), fd)); return SECFailure; } if (!ss->ssl3.initialized) { PORT_SetError(SEC_ERROR_INVALID_ARGS); return SECFailure; } if (ss->version < SSL_LIBRARY_VERSION_3_0) { PORT_SetError(SSL_ERROR_FEATURE_NOT_SUPPORTED_FOR_SSL2); return SECFailure; } /* Require a forward-secret key exchange. */ *canFalseStart = ss->ssl3.hs.kea_def->kea == kea_dhe_dss || ss->ssl3.hs.kea_def->kea == kea_dhe_rsa || ss->ssl3.hs.kea_def->kea == kea_ecdhe_ecdsa || ss->ssl3.hs.kea_def->kea == kea_ecdhe_rsa; return SECSuccess; } /* Try to make progress on an SSL handshake by attempting to read the ** next handshake from the peer, and sending any responses. ** For non-blocking sockets, returns PR_ERROR_WOULD_BLOCK if it cannot ** read the next handshake from the underlying socket. ** For SSLv2, returns when handshake is complete or fatal error occurs. ** For SSLv3, returns when handshake is complete, or application data has ** arrived that must be taken by application before handshake can continue, ** or a fatal error occurs. ** Application should use handshake completion callback to tell which. */ SECStatus SSL_ForceHandshake(PRFileDesc *fd) { sslSocket *ss; SECStatus rv = SECFailure; ss = ssl_FindSocket(fd); if (!ss) { SSL_DBG(("%d: SSL[%d]: bad socket in ForceHandshake", SSL_GETPID(), fd)); return rv; } /* Don't waste my time */ if (!ss->opt.useSecurity) return SECSuccess; if (!ssl_SocketIsBlocking(ss)) { ssl_GetXmitBufLock(ss); if (ss->pendingBuf.len != 0) { int sent = ssl_SendSavedWriteData(ss); if ((sent < 0) && (PORT_GetError() != PR_WOULD_BLOCK_ERROR)) { ssl_ReleaseXmitBufLock(ss); return SECFailure; } } ssl_ReleaseXmitBufLock(ss); } ssl_Get1stHandshakeLock(ss); if (ss->version >= SSL_LIBRARY_VERSION_3_0) { int gatherResult; ssl_GetRecvBufLock(ss); gatherResult = ssl3_GatherCompleteHandshake(ss, 0); ssl_ReleaseRecvBufLock(ss); if (gatherResult > 0) { rv = SECSuccess; } else if (gatherResult == 0) { PORT_SetError(PR_END_OF_FILE_ERROR); } else if (gatherResult == SECWouldBlock) { PORT_SetError(PR_WOULD_BLOCK_ERROR); } } else if (!ss->firstHsDone) { rv = ssl_Do1stHandshake(ss); } else { /* tried to force handshake on an SSL 2 socket that has ** already completed the handshake. */ rv = SECSuccess; /* just pretend we did it. */ } ssl_Release1stHandshakeLock(ss); return rv; } /* ** Same as above, but with an I/O timeout. */ SSL_IMPORT SECStatus SSL_ForceHandshakeWithTimeout(PRFileDesc *fd, PRIntervalTime timeout) { if (SECSuccess != ssl_SetTimeout(fd, timeout)) { return SECFailure; } return SSL_ForceHandshake(fd); } /************************************************************************/ /* ** Grow a buffer to hold newLen bytes of data. ** Called for both recv buffers and xmit buffers. ** Caller must hold xmitBufLock or recvBufLock, as appropriate. */ SECStatus sslBuffer_Grow(sslBuffer *b, unsigned int newLen) { newLen = PR_MAX(newLen, MAX_FRAGMENT_LENGTH + 2048); if (newLen > b->space) { unsigned char *newBuf; if (b->buf) { newBuf = (unsigned char *) PORT_Realloc(b->buf, newLen); } else { newBuf = (unsigned char *) PORT_Alloc(newLen); } if (!newBuf) { return SECFailure; } SSL_TRC(10, ("%d: SSL: grow buffer from %d to %d", SSL_GETPID(), b->space, newLen)); b->buf = newBuf; b->space = newLen; } return SECSuccess; } SECStatus sslBuffer_Append(sslBuffer *b, const void * data, unsigned int len) { unsigned int newLen = b->len + len; SECStatus rv; rv = sslBuffer_Grow(b, newLen); if (rv != SECSuccess) return rv; PORT_Memcpy(b->buf + b->len, data, len); b->len += len; return SECSuccess; } /* ** Save away write data that is trying to be written before the security ** handshake has been completed. When the handshake is completed, we will ** flush this data out. ** Caller must hold xmitBufLock */ SECStatus ssl_SaveWriteData(sslSocket *ss, const void *data, unsigned int len) { SECStatus rv; PORT_Assert( ss->opt.noLocks || ssl_HaveXmitBufLock(ss) ); rv = sslBuffer_Append(&ss->pendingBuf, data, len); SSL_TRC(5, ("%d: SSL[%d]: saving %u bytes of data (%u total saved so far)", SSL_GETPID(), ss->fd, len, ss->pendingBuf.len)); return rv; } /* ** Send saved write data. This will flush out data sent prior to a ** complete security handshake. Hopefully there won't be too much of it. ** Returns count of the bytes sent, NOT a SECStatus. ** Caller must hold xmitBufLock */ int ssl_SendSavedWriteData(sslSocket *ss) { int rv = 0; PORT_Assert( ss->opt.noLocks || ssl_HaveXmitBufLock(ss) ); if (ss->pendingBuf.len != 0) { SSL_TRC(5, ("%d: SSL[%d]: sending %d bytes of saved data", SSL_GETPID(), ss->fd, ss->pendingBuf.len)); rv = ssl_DefSend(ss, ss->pendingBuf.buf, ss->pendingBuf.len, 0); if (rv < 0) { return rv; } ss->pendingBuf.len -= rv; if (ss->pendingBuf.len > 0 && rv > 0) { /* UGH !! This shifts the whole buffer down by copying it */ PORT_Memmove(ss->pendingBuf.buf, ss->pendingBuf.buf + rv, ss->pendingBuf.len); } } return rv; } /************************************************************************/ /* ** Receive some application data on a socket. Reads SSL records from the input ** stream, decrypts them and then copies them to the output buffer. ** Called from ssl_SecureRecv() below. ** ** Caller does NOT hold 1stHandshakeLock because that handshake is over. ** Caller doesn't call this until initial handshake is complete. ** For SSLv2, there is no subsequent handshake. ** For SSLv3, the call to ssl3_GatherAppDataRecord may encounter handshake ** messages from a subsequent handshake. ** ** This code is similar to, and easily confused with, ** ssl_GatherRecord1stHandshake() in sslcon.c */ static int DoRecv(sslSocket *ss, unsigned char *out, int len, int flags) { int rv; int amount; int available; /* ssl3_GatherAppDataRecord may call ssl_FinishHandshake, which needs the * 1stHandshakeLock. */ ssl_Get1stHandshakeLock(ss); ssl_GetRecvBufLock(ss); available = ss->gs.writeOffset - ss->gs.readOffset; if (available == 0) { /* Get some more data */ if (ss->version >= SSL_LIBRARY_VERSION_3_0) { /* Wait for application data to arrive. */ rv = ssl3_GatherAppDataRecord(ss, 0); } else { /* See if we have a complete record */ rv = ssl2_GatherRecord(ss, 0); } if (rv <= 0) { if (rv == 0) { /* EOF */ SSL_TRC(10, ("%d: SSL[%d]: ssl_recv EOF", SSL_GETPID(), ss->fd)); goto done; } if ((rv != SECWouldBlock) && (PR_GetError() != PR_WOULD_BLOCK_ERROR)) { /* Some random error */ goto done; } /* ** Gather record is blocked waiting for more record data to ** arrive. Try to process what we have already received */ } else { /* Gather record has finished getting a complete record */ } /* See if any clear data is now available */ available = ss->gs.writeOffset - ss->gs.readOffset; if (available == 0) { /* ** No partial data is available. Force error code to ** EWOULDBLOCK so that caller will try again later. Note ** that the error code is probably EWOULDBLOCK already, ** but if it isn't (for example, if we received a zero ** length record) then this will force it to be correct. */ PORT_SetError(PR_WOULD_BLOCK_ERROR); rv = SECFailure; goto done; } SSL_TRC(30, ("%d: SSL[%d]: partial data ready, available=%d", SSL_GETPID(), ss->fd, available)); } /* Dole out clear data to reader */ amount = PR_MIN(len, available); PORT_Memcpy(out, ss->gs.buf.buf + ss->gs.readOffset, amount); if (!(flags & PR_MSG_PEEK)) { ss->gs.readOffset += amount; } PORT_Assert(ss->gs.readOffset <= ss->gs.writeOffset); rv = amount; SSL_TRC(30, ("%d: SSL[%d]: amount=%d available=%d", SSL_GETPID(), ss->fd, amount, available)); PRINT_BUF(4, (ss, "DoRecv receiving plaintext:", out, amount)); done: ssl_ReleaseRecvBufLock(ss); ssl_Release1stHandshakeLock(ss); return rv; } /************************************************************************/ /* ** Return SSLKEAType derived from cert's Public Key algorithm info. */ SSLKEAType NSS_FindCertKEAType(CERTCertificate * cert) { SSLKEAType keaType = kt_null; int tag; if (!cert) goto loser; tag = SECOID_GetAlgorithmTag(&(cert->subjectPublicKeyInfo.algorithm)); switch (tag) { case SEC_OID_X500_RSA_ENCRYPTION: case SEC_OID_PKCS1_RSA_ENCRYPTION: keaType = kt_rsa; break; case SEC_OID_X942_DIFFIE_HELMAN_KEY: keaType = kt_dh; break; #ifdef NSS_ENABLE_ECC case SEC_OID_ANSIX962_EC_PUBLIC_KEY: keaType = kt_ecdh; break; #endif /* NSS_ENABLE_ECC */ default: keaType = kt_null; } loser: return keaType; } static const PRCallOnceType pristineCallOnce; static PRCallOnceType setupServerCAListOnce; static SECStatus serverCAListShutdown(void* appData, void* nssData) { PORT_Assert(ssl3_server_ca_list); if (ssl3_server_ca_list) { CERT_FreeDistNames(ssl3_server_ca_list); ssl3_server_ca_list = NULL; } setupServerCAListOnce = pristineCallOnce; return SECSuccess; } static PRStatus serverCAListSetup(void *arg) { CERTCertDBHandle *dbHandle = (CERTCertDBHandle *)arg; SECStatus rv = NSS_RegisterShutdown(serverCAListShutdown, NULL); PORT_Assert(SECSuccess == rv); if (SECSuccess == rv) { ssl3_server_ca_list = CERT_GetSSLCACerts(dbHandle); return PR_SUCCESS; } return PR_FAILURE; } SECStatus ssl_ConfigSecureServer(sslSocket *ss, CERTCertificate *cert, const CERTCertificateList *certChain, ssl3KeyPair *keyPair, SSLKEAType kea) { CERTCertificateList *localCertChain = NULL; sslServerCerts *sc = ss->serverCerts + kea; /* load the server certificate */ if (sc->serverCert != NULL) { CERT_DestroyCertificate(sc->serverCert); sc->serverCert = NULL; sc->serverKeyBits = 0; } /* load the server cert chain */ if (sc->serverCertChain != NULL) { CERT_DestroyCertificateList(sc->serverCertChain); sc->serverCertChain = NULL; } if (cert) { sc->serverCert = CERT_DupCertificate(cert); /* get the size of the cert's public key, and remember it */ sc->serverKeyBits = SECKEY_PublicKeyStrengthInBits(keyPair->pubKey); if (!certChain) { localCertChain = CERT_CertChainFromCert(sc->serverCert, certUsageSSLServer, PR_TRUE); if (!localCertChain) goto loser; } sc->serverCertChain = (certChain) ? CERT_DupCertList(certChain) : localCertChain; if (!sc->serverCertChain) { goto loser; } localCertChain = NULL; /* consumed */ } /* get keyPair */ if (sc->serverKeyPair != NULL) { ssl3_FreeKeyPair(sc->serverKeyPair); sc->serverKeyPair = NULL; } if (keyPair) { SECKEY_CacheStaticFlags(keyPair->privKey); sc->serverKeyPair = ssl3_GetKeyPairRef(keyPair); } if (kea == kt_rsa && cert && sc->serverKeyBits > 512 && !ss->opt.noStepDown && !ss->stepDownKeyPair) { if (ssl3_CreateRSAStepDownKeys(ss) != SECSuccess) { goto loser; } } return SECSuccess; loser: if (localCertChain) { CERT_DestroyCertificateList(localCertChain); } if (sc->serverCert != NULL) { CERT_DestroyCertificate(sc->serverCert); sc->serverCert = NULL; } if (sc->serverCertChain != NULL) { CERT_DestroyCertificateList(sc->serverCertChain); sc->serverCertChain = NULL; } if (sc->serverKeyPair != NULL) { ssl3_FreeKeyPair(sc->serverKeyPair); sc->serverKeyPair = NULL; } return SECFailure; } /* XXX need to protect the data that gets changed here.!! */ SECStatus SSL_ConfigSecureServer(PRFileDesc *fd, CERTCertificate *cert, SECKEYPrivateKey *key, SSL3KEAType kea) { return SSL_ConfigSecureServerWithCertChain(fd, cert, NULL, key, kea); } SECStatus SSL_ConfigSecureServerWithCertChain(PRFileDesc *fd, CERTCertificate *cert, const CERTCertificateList *certChainOpt, SECKEYPrivateKey *key, SSL3KEAType kea) { sslSocket *ss; SECKEYPublicKey *pubKey = NULL; ssl3KeyPair *keyPair = NULL; SECStatus rv = SECFailure; ss = ssl_FindSocket(fd); if (!ss) { return SECFailure; } /* Both key and cert must have a value or be NULL */ /* Passing a value of NULL will turn off key exchange algorithms that were * previously turned on */ if (!cert != !key) { PORT_SetError(SEC_ERROR_INVALID_ARGS); return SECFailure; } /* make sure the key exchange is recognized */ if ((kea >= kt_kea_size) || (kea < kt_null)) { PORT_SetError(SEC_ERROR_UNSUPPORTED_KEYALG); return SECFailure; } if (kea != NSS_FindCertKEAType(cert)) { PORT_SetError(SSL_ERROR_CERT_KEA_MISMATCH); return SECFailure; } if (cert) { /* get the size of the cert's public key, and remember it */ pubKey = CERT_ExtractPublicKey(cert); if (!pubKey) return SECFailure; } if (key) { SECKEYPrivateKey * keyCopy = NULL; CK_MECHANISM_TYPE keyMech = CKM_INVALID_MECHANISM; if (key->pkcs11Slot) { PK11SlotInfo * bestSlot; bestSlot = PK11_ReferenceSlot(key->pkcs11Slot); if (bestSlot) { keyCopy = PK11_CopyTokenPrivKeyToSessionPrivKey(bestSlot, key); PK11_FreeSlot(bestSlot); } } if (keyCopy == NULL) keyMech = PK11_MapSignKeyType(key->keyType); if (keyMech != CKM_INVALID_MECHANISM) { PK11SlotInfo * bestSlot; /* XXX Maybe should be bestSlotMultiple? */ bestSlot = PK11_GetBestSlot(keyMech, NULL /* wincx */); if (bestSlot) { keyCopy = PK11_CopyTokenPrivKeyToSessionPrivKey(bestSlot, key); PK11_FreeSlot(bestSlot); } } if (keyCopy == NULL) keyCopy = SECKEY_CopyPrivateKey(key); if (keyCopy == NULL) goto loser; keyPair = ssl3_NewKeyPair(keyCopy, pubKey); if (keyPair == NULL) { SECKEY_DestroyPrivateKey(keyCopy); goto loser; } pubKey = NULL; /* adopted by serverKeyPair */ } if (ssl_ConfigSecureServer(ss, cert, certChainOpt, keyPair, kea) == SECFailure) { goto loser; } /* Only do this once because it's global. */ if (PR_SUCCESS == PR_CallOnceWithArg(&setupServerCAListOnce, &serverCAListSetup, (void *)(ss->dbHandle))) { rv = SECSuccess; } loser: if (keyPair) { ssl3_FreeKeyPair(keyPair); } if (pubKey) { SECKEY_DestroyPublicKey(pubKey); pubKey = NULL; } return rv; } /************************************************************************/ SECStatus ssl_CreateSecurityInfo(sslSocket *ss) { SECStatus status; /* initialize sslv2 socket to send data in the clear. */ ssl2_UseClearSendFunc(ss); ss->sec.blockSize = 1; ss->sec.blockShift = 0; ssl_GetXmitBufLock(ss); status = sslBuffer_Grow(&ss->sec.writeBuf, 4096); ssl_ReleaseXmitBufLock(ss); return status; } SECStatus ssl_CopySecurityInfo(sslSocket *ss, sslSocket *os) { ss->sec.send = os->sec.send; ss->sec.isServer = os->sec.isServer; ss->sec.keyBits = os->sec.keyBits; ss->sec.secretKeyBits = os->sec.secretKeyBits; ss->sec.peerCert = CERT_DupCertificate(os->sec.peerCert); if (os->sec.peerCert && !ss->sec.peerCert) goto loser; ss->sec.cache = os->sec.cache; ss->sec.uncache = os->sec.uncache; /* we don't dup the connection info. */ ss->sec.sendSequence = os->sec.sendSequence; ss->sec.rcvSequence = os->sec.rcvSequence; if (os->sec.hash && os->sec.hashcx) { ss->sec.hash = os->sec.hash; ss->sec.hashcx = os->sec.hash->clone(os->sec.hashcx); if (os->sec.hashcx && !ss->sec.hashcx) goto loser; } else { ss->sec.hash = NULL; ss->sec.hashcx = NULL; } SECITEM_CopyItem(0, &ss->sec.sendSecret, &os->sec.sendSecret); if (os->sec.sendSecret.data && !ss->sec.sendSecret.data) goto loser; SECITEM_CopyItem(0, &ss->sec.rcvSecret, &os->sec.rcvSecret); if (os->sec.rcvSecret.data && !ss->sec.rcvSecret.data) goto loser; /* XXX following code is wrong if either cx != 0 */ PORT_Assert(os->sec.readcx == 0); PORT_Assert(os->sec.writecx == 0); ss->sec.readcx = os->sec.readcx; ss->sec.writecx = os->sec.writecx; ss->sec.destroy = 0; ss->sec.enc = os->sec.enc; ss->sec.dec = os->sec.dec; ss->sec.blockShift = os->sec.blockShift; ss->sec.blockSize = os->sec.blockSize; return SECSuccess; loser: return SECFailure; } /* Reset sec back to its initial state. ** Caller holds any relevant locks. */ void ssl_ResetSecurityInfo(sslSecurityInfo *sec, PRBool doMemset) { /* Destroy MAC */ if (sec->hash && sec->hashcx) { (*sec->hash->destroy)(sec->hashcx, PR_TRUE); sec->hashcx = NULL; sec->hash = NULL; } SECITEM_ZfreeItem(&sec->sendSecret, PR_FALSE); SECITEM_ZfreeItem(&sec->rcvSecret, PR_FALSE); /* Destroy ciphers */ if (sec->destroy) { (*sec->destroy)(sec->readcx, PR_TRUE); (*sec->destroy)(sec->writecx, PR_TRUE); sec->readcx = NULL; sec->writecx = NULL; } else { PORT_Assert(sec->readcx == 0); PORT_Assert(sec->writecx == 0); } sec->readcx = 0; sec->writecx = 0; if (sec->localCert) { CERT_DestroyCertificate(sec->localCert); sec->localCert = NULL; } if (sec->peerCert) { CERT_DestroyCertificate(sec->peerCert); sec->peerCert = NULL; } if (sec->peerKey) { SECKEY_DestroyPublicKey(sec->peerKey); sec->peerKey = NULL; } /* cleanup the ci */ if (sec->ci.sid != NULL) { ssl_FreeSID(sec->ci.sid); } PORT_ZFree(sec->ci.sendBuf.buf, sec->ci.sendBuf.space); if (doMemset) { memset(&sec->ci, 0, sizeof sec->ci); } } /* ** Called from SSL_ResetHandshake (above), and ** from ssl_FreeSocket in sslsock.c ** Caller should hold relevant locks (e.g. XmitBufLock) */ void ssl_DestroySecurityInfo(sslSecurityInfo *sec) { ssl_ResetSecurityInfo(sec, PR_FALSE); PORT_ZFree(sec->writeBuf.buf, sec->writeBuf.space); sec->writeBuf.buf = 0; memset(sec, 0, sizeof *sec); } /************************************************************************/ int ssl_SecureConnect(sslSocket *ss, const PRNetAddr *sa) { PRFileDesc *osfd = ss->fd->lower; int rv; if ( ss->opt.handshakeAsServer ) { ss->securityHandshake = ssl2_BeginServerHandshake; ss->handshaking = sslHandshakingAsServer; } else { ss->securityHandshake = ssl2_BeginClientHandshake; ss->handshaking = sslHandshakingAsClient; } /* connect to server */ rv = osfd->methods->connect(osfd, sa, ss->cTimeout); if (rv == PR_SUCCESS) { ss->TCPconnected = 1; } else { int err = PR_GetError(); SSL_DBG(("%d: SSL[%d]: connect failed, errno=%d", SSL_GETPID(), ss->fd, err)); if (err == PR_IS_CONNECTED_ERROR) { ss->TCPconnected = 1; } } SSL_TRC(5, ("%d: SSL[%d]: secure connect completed, rv == %d", SSL_GETPID(), ss->fd, rv)); return rv; } /* * The TLS 1.2 RFC 5246, Section 7.2.1 says: * * Unless some other fatal alert has been transmitted, each party is * required to send a close_notify alert before closing the write side * of the connection. The other party MUST respond with a close_notify * alert of its own and close down the connection immediately, * discarding any pending writes. It is not required for the initiator * of the close to wait for the responding close_notify alert before * closing the read side of the connection. * * The second sentence requires that we send a close_notify alert when we * have received a close_notify alert. In practice, all SSL implementations * close the socket immediately after sending a close_notify alert (which is * allowed by the third sentence), so responding with a close_notify alert * would result in a write failure with the ECONNRESET error. This is why * we don't respond with a close_notify alert. * * Also, in the unlikely event that the TCP pipe is full and the peer stops * reading, the SSL3_SendAlert call in ssl_SecureClose and ssl_SecureShutdown * may block indefinitely in blocking mode, and may fail (without retrying) * in non-blocking mode. */ int ssl_SecureClose(sslSocket *ss) { int rv; if (ss->version >= SSL_LIBRARY_VERSION_3_0 && !(ss->shutdownHow & ssl_SHUTDOWN_SEND) && ss->firstHsDone && !ss->recvdCloseNotify && ss->ssl3.initialized) { /* We don't want the final alert to be Nagle delayed. */ if (!ss->delayDisabled) { ssl_EnableNagleDelay(ss, PR_FALSE); ss->delayDisabled = 1; } (void) SSL3_SendAlert(ss, alert_warning, close_notify); } rv = ssl_DefClose(ss); return rv; } /* Caller handles all locking */ int ssl_SecureShutdown(sslSocket *ss, int nsprHow) { PRFileDesc *osfd = ss->fd->lower; int rv; PRIntn sslHow = nsprHow + 1; if ((unsigned)nsprHow > PR_SHUTDOWN_BOTH) { PORT_SetError(PR_INVALID_ARGUMENT_ERROR); return PR_FAILURE; } if ((sslHow & ssl_SHUTDOWN_SEND) != 0 && ss->version >= SSL_LIBRARY_VERSION_3_0 && !(ss->shutdownHow & ssl_SHUTDOWN_SEND) && ss->firstHsDone && !ss->recvdCloseNotify && ss->ssl3.initialized) { (void) SSL3_SendAlert(ss, alert_warning, close_notify); } rv = osfd->methods->shutdown(osfd, nsprHow); ss->shutdownHow |= sslHow; return rv; } /************************************************************************/ int ssl_SecureRecv(sslSocket *ss, unsigned char *buf, int len, int flags) { sslSecurityInfo *sec; int rv = 0; sec = &ss->sec; if (ss->shutdownHow & ssl_SHUTDOWN_RCV) { PORT_SetError(PR_SOCKET_SHUTDOWN_ERROR); return PR_FAILURE; } if (flags & ~PR_MSG_PEEK) { PORT_SetError(PR_INVALID_ARGUMENT_ERROR); return PR_FAILURE; } if (!ssl_SocketIsBlocking(ss) && !ss->opt.fdx) { ssl_GetXmitBufLock(ss); if (ss->pendingBuf.len != 0) { rv = ssl_SendSavedWriteData(ss); if ((rv < 0) && (PORT_GetError() != PR_WOULD_BLOCK_ERROR)) { ssl_ReleaseXmitBufLock(ss); return SECFailure; } } ssl_ReleaseXmitBufLock(ss); } rv = 0; /* If any of these is non-zero, the initial handshake is not done. */ if (!ss->firstHsDone) { ssl_Get1stHandshakeLock(ss); if (ss->handshake || ss->nextHandshake || ss->securityHandshake) { rv = ssl_Do1stHandshake(ss); } ssl_Release1stHandshakeLock(ss); } if (rv < 0) { return rv; } if (len == 0) return 0; rv = DoRecv(ss, (unsigned char*) buf, len, flags); SSL_TRC(2, ("%d: SSL[%d]: recving %d bytes securely (errno=%d)", SSL_GETPID(), ss->fd, rv, PORT_GetError())); return rv; } int ssl_SecureRead(sslSocket *ss, unsigned char *buf, int len) { return ssl_SecureRecv(ss, buf, len, 0); } /* Caller holds the SSL Socket's write lock. SSL_LOCK_WRITER(ss) */ int ssl_SecureSend(sslSocket *ss, const unsigned char *buf, int len, int flags) { int rv = 0; SSL_TRC(2, ("%d: SSL[%d]: SecureSend: sending %d bytes", SSL_GETPID(), ss->fd, len)); if (ss->shutdownHow & ssl_SHUTDOWN_SEND) { PORT_SetError(PR_SOCKET_SHUTDOWN_ERROR); rv = PR_FAILURE; goto done; } if (flags) { PORT_SetError(PR_INVALID_ARGUMENT_ERROR); rv = PR_FAILURE; goto done; } ssl_GetXmitBufLock(ss); if (ss->pendingBuf.len != 0) { PORT_Assert(ss->pendingBuf.len > 0); rv = ssl_SendSavedWriteData(ss); if (rv >= 0 && ss->pendingBuf.len != 0) { PORT_Assert(ss->pendingBuf.len > 0); PORT_SetError(PR_WOULD_BLOCK_ERROR); rv = SECFailure; } } ssl_ReleaseXmitBufLock(ss); if (rv < 0) { goto done; } if (len > 0) ss->writerThread = PR_GetCurrentThread(); /* If any of these is non-zero, the initial handshake is not done. */ if (!ss->firstHsDone) { PRBool falseStart = PR_FALSE; ssl_Get1stHandshakeLock(ss); if (ss->opt.enableFalseStart && ss->version >= SSL_LIBRARY_VERSION_3_0) { ssl_GetSSL3HandshakeLock(ss); falseStart = ss->ssl3.hs.canFalseStart; ssl_ReleaseSSL3HandshakeLock(ss); } if (!falseStart && (ss->handshake || ss->nextHandshake || ss->securityHandshake)) { rv = ssl_Do1stHandshake(ss); } ssl_Release1stHandshakeLock(ss); } if (rv < 0) { ss->writerThread = NULL; goto done; } /* Check for zero length writes after we do housekeeping so we make forward * progress. */ if (len == 0) { rv = 0; goto done; } PORT_Assert(buf != NULL); if (!buf) { PORT_SetError(PR_INVALID_ARGUMENT_ERROR); rv = PR_FAILURE; goto done; } if (!ss->firstHsDone) { PORT_Assert(ss->version >= SSL_LIBRARY_VERSION_3_0); #ifdef DEBUG ssl_GetSSL3HandshakeLock(ss); PORT_Assert(ss->ssl3.hs.canFalseStart); ssl_ReleaseSSL3HandshakeLock(ss); #endif SSL_TRC(3, ("%d: SSL[%d]: SecureSend: sending data due to false start", SSL_GETPID(), ss->fd)); } /* Send out the data using one of these functions: * ssl2_SendClear, ssl2_SendStream, ssl2_SendBlock, * ssl3_SendApplicationData */ ssl_GetXmitBufLock(ss); rv = (*ss->sec.send)(ss, buf, len, flags); ssl_ReleaseXmitBufLock(ss); ss->writerThread = NULL; done: if (rv < 0) { SSL_TRC(2, ("%d: SSL[%d]: SecureSend: returning %d count, error %d", SSL_GETPID(), ss->fd, rv, PORT_GetError())); } else { SSL_TRC(2, ("%d: SSL[%d]: SecureSend: returning %d count", SSL_GETPID(), ss->fd, rv)); } return rv; } int ssl_SecureWrite(sslSocket *ss, const unsigned char *buf, int len) { return ssl_SecureSend(ss, buf, len, 0); } SECStatus SSL_BadCertHook(PRFileDesc *fd, SSLBadCertHandler f, void *arg) { sslSocket *ss; ss = ssl_FindSocket(fd); if (!ss) { SSL_DBG(("%d: SSL[%d]: bad socket in SSLBadCertHook", SSL_GETPID(), fd)); return SECFailure; } ss->handleBadCert = f; ss->badCertArg = arg; return SECSuccess; } /* * Allow the application to pass the url or hostname into the SSL library * so that we can do some checking on it. It will be used for the value in * SNI extension of client hello message. */ SECStatus SSL_SetURL(PRFileDesc *fd, const char *url) { sslSocket * ss = ssl_FindSocket(fd); SECStatus rv = SECSuccess; if (!ss) { SSL_DBG(("%d: SSL[%d]: bad socket in SSLSetURL", SSL_GETPID(), fd)); return SECFailure; } ssl_Get1stHandshakeLock(ss); ssl_GetSSL3HandshakeLock(ss); if ( ss->url ) { PORT_Free((void *)ss->url); /* CONST */ } ss->url = (const char *)PORT_Strdup(url); if ( ss->url == NULL ) { rv = SECFailure; } ssl_ReleaseSSL3HandshakeLock(ss); ssl_Release1stHandshakeLock(ss); return rv; } /* * Allow the application to pass the set of trust anchors */ SECStatus SSL_SetTrustAnchors(PRFileDesc *fd, CERTCertList *certList) { sslSocket * ss = ssl_FindSocket(fd); CERTDistNames *names = NULL; if (!certList) { PORT_SetError(SEC_ERROR_INVALID_ARGS); return SECFailure; } if (!ss) { SSL_DBG(("%d: SSL[%d]: bad socket in SSL_SetTrustAnchors", SSL_GETPID(), fd)); return SECFailure; } names = CERT_DistNamesFromCertList(certList); if (names == NULL) { return SECFailure; } ssl_Get1stHandshakeLock(ss); ssl_GetSSL3HandshakeLock(ss); if (ss->ssl3.ca_list) { CERT_FreeDistNames(ss->ssl3.ca_list); } ss->ssl3.ca_list = names; ssl_ReleaseSSL3HandshakeLock(ss); ssl_Release1stHandshakeLock(ss); return SECSuccess; } /* ** Returns Negative number on error, zero or greater on success. ** Returns the amount of data immediately available to be read. */ int SSL_DataPending(PRFileDesc *fd) { sslSocket *ss; int rv = 0; ss = ssl_FindSocket(fd); if (ss && ss->opt.useSecurity) { ssl_GetRecvBufLock(ss); rv = ss->gs.writeOffset - ss->gs.readOffset; ssl_ReleaseRecvBufLock(ss); } return rv; } SECStatus SSL_InvalidateSession(PRFileDesc *fd) { sslSocket * ss = ssl_FindSocket(fd); SECStatus rv = SECFailure; if (ss) { ssl_Get1stHandshakeLock(ss); ssl_GetSSL3HandshakeLock(ss); if (ss->sec.ci.sid && ss->sec.uncache) { ss->sec.uncache(ss->sec.ci.sid); rv = SECSuccess; } ssl_ReleaseSSL3HandshakeLock(ss); ssl_Release1stHandshakeLock(ss); } return rv; } static void ssl3_CacheSessionUnlocked(sslSocket *ss) { PORT_Assert(!ss->sec.isServer); if (ss->ssl3.hs.cacheSID) { ss->sec.cache(ss->sec.ci.sid); ss->ssl3.hs.cacheSID = PR_FALSE; } } SECStatus SSL_CacheSession(PRFileDesc *fd) { sslSocket * ss = ssl_FindSocket(fd); SECStatus rv = SECFailure; if (ss) { ssl_Get1stHandshakeLock(ss); ssl_GetSSL3HandshakeLock(ss); ssl3_CacheSessionUnlocked(ss); rv = SECSuccess; ssl_ReleaseSSL3HandshakeLock(ss); ssl_Release1stHandshakeLock(ss); } return rv; } SECStatus SSL_CacheSessionUnlocked(PRFileDesc *fd) { sslSocket * ss = ssl_FindSocket(fd); SECStatus rv = SECFailure; if (ss) { ssl3_CacheSessionUnlocked(ss); rv = SECSuccess; } return rv; } SECItem * SSL_GetSessionID(PRFileDesc *fd) { sslSocket * ss; SECItem * item = NULL; ss = ssl_FindSocket(fd); if (ss) { ssl_Get1stHandshakeLock(ss); ssl_GetSSL3HandshakeLock(ss); if (ss->opt.useSecurity && ss->firstHsDone && ss->sec.ci.sid) { item = (SECItem *)PORT_Alloc(sizeof(SECItem)); if (item) { sslSessionID * sid = ss->sec.ci.sid; if (sid->version < SSL_LIBRARY_VERSION_3_0) { item->len = SSL2_SESSIONID_BYTES; item->data = (unsigned char*)PORT_Alloc(item->len); PORT_Memcpy(item->data, sid->u.ssl2.sessionID, item->len); } else { item->len = sid->u.ssl3.sessionIDLength; item->data = (unsigned char*)PORT_Alloc(item->len); PORT_Memcpy(item->data, sid->u.ssl3.sessionID, item->len); } } } ssl_ReleaseSSL3HandshakeLock(ss); ssl_Release1stHandshakeLock(ss); } return item; } SECStatus SSL_CertDBHandleSet(PRFileDesc *fd, CERTCertDBHandle *dbHandle) { sslSocket * ss; ss = ssl_FindSocket(fd); if (!ss) return SECFailure; if (!dbHandle) { PORT_SetError(SEC_ERROR_INVALID_ARGS); return SECFailure; } ss->dbHandle = dbHandle; return SECSuccess; } /* * attempt to restart the handshake after asynchronously handling * a request for the client's certificate. * * inputs: * cert Client cert chosen by application. * Note: ssl takes this reference, and does not bump the * reference count. The caller should drop its reference * without calling CERT_DestroyCertificate after calling this * function. * * key Private key associated with cert. This function takes * ownership of the private key, so the caller should drop its * reference without destroying the private key after this * function returns. * * certChain Chain of signers for cert. * Note: ssl takes this reference, and does not copy the chain. * The caller should drop its reference without destroying the * chain. SSL will free the chain when it is done with it. * * Return value: XXX * * XXX This code only works on the initial handshake on a connection, XXX * It does not work on a subsequent handshake (redo). */ SECStatus SSL_RestartHandshakeAfterCertReq(PRFileDesc * fd, CERTCertificate * cert, SECKEYPrivateKey * key, CERTCertificateList *certChain) { sslSocket * ss = ssl_FindSocket(fd); SECStatus ret; if (!ss) { SSL_DBG(("%d: SSL[%d]: bad socket in SSL_RestartHandshakeAfterCertReq", SSL_GETPID(), fd)); if (cert) { CERT_DestroyCertificate(cert); } if (key) { SECKEY_DestroyPrivateKey(key); } if (certChain) { CERT_DestroyCertificateList(certChain); } return SECFailure; } ssl_Get1stHandshakeLock(ss); /************************************/ if (ss->version >= SSL_LIBRARY_VERSION_3_0) { ret = ssl3_RestartHandshakeAfterCertReq(ss, cert, key, certChain); } else { if (certChain != NULL) { CERT_DestroyCertificateList(certChain); } PORT_SetError(SSL_ERROR_FEATURE_NOT_SUPPORTED_FOR_SSL2); ret = SECFailure; } ssl_Release1stHandshakeLock(ss); /************************************/ return ret; } SECStatus SSL_RestartHandshakeAfterChannelIDReq(PRFileDesc * fd, SECKEYPublicKey * channelIDPub, SECKEYPrivateKey *channelID) { sslSocket * ss = ssl_FindSocket(fd); SECStatus ret; if (!ss) { SSL_DBG(("%d: SSL[%d]: bad socket in" " SSL_RestartHandshakeAfterChannelIDReq", SSL_GETPID(), fd)); goto loser; } ssl_Get1stHandshakeLock(ss); if (ss->version < SSL_LIBRARY_VERSION_3_0) { PORT_SetError(SSL_ERROR_FEATURE_NOT_SUPPORTED_FOR_SSL2); ssl_Release1stHandshakeLock(ss); goto loser; } ret = ssl3_RestartHandshakeAfterChannelIDReq(ss, channelIDPub, channelID); ssl_Release1stHandshakeLock(ss); return ret; loser: SECKEY_DestroyPublicKey(channelIDPub); SECKEY_DestroyPrivateKey(channelID); return SECFailure; } /* DO NOT USE. This function was exported in ssl.def with the wrong signature; * this implementation exists to maintain link-time compatibility. */ int SSL_RestartHandshakeAfterServerCert(sslSocket * ss) { PORT_SetError(PR_NOT_IMPLEMENTED_ERROR); return -1; } /* See documentation in ssl.h */ SECStatus SSL_AuthCertificateComplete(PRFileDesc *fd, PRErrorCode error) { SECStatus rv; sslSocket *ss = ssl_FindSocket(fd); if (!ss) { SSL_DBG(("%d: SSL[%d]: bad socket in SSL_AuthCertificateComplete", SSL_GETPID(), fd)); return SECFailure; } ssl_Get1stHandshakeLock(ss); if (!ss->ssl3.initialized) { PORT_SetError(SEC_ERROR_INVALID_ARGS); rv = SECFailure; } else if (ss->version < SSL_LIBRARY_VERSION_3_0) { PORT_SetError(SSL_ERROR_FEATURE_NOT_SUPPORTED_FOR_SSL2); rv = SECFailure; } else { rv = ssl3_AuthCertificateComplete(ss, error); } ssl_Release1stHandshakeLock(ss); return rv; } /* For more info see ssl.h */ SECStatus SSL_SNISocketConfigHook(PRFileDesc *fd, SSLSNISocketConfig func, void *arg) { sslSocket *ss; ss = ssl_FindSocket(fd); if (!ss) { SSL_DBG(("%d: SSL[%d]: bad socket in SNISocketConfigHook", SSL_GETPID(), fd)); return SECFailure; } ss->sniSocketConfig = func; ss->sniSocketConfigArg = arg; return SECSuccess; }