diff options
Diffstat (limited to 'security/nss/lib/ssl/sslsock.c')
| -rw-r--r-- | security/nss/lib/ssl/sslsock.c | 4635 |
1 files changed, 4635 insertions, 0 deletions
diff --git a/security/nss/lib/ssl/sslsock.c b/security/nss/lib/ssl/sslsock.c new file mode 100644 index 0000000000..9a778218aa --- /dev/null +++ b/security/nss/lib/ssl/sslsock.c @@ -0,0 +1,4635 @@ +/* -*- Mode: C; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ +/* + * vtables (and methods that call through them) for the 4 types of + * SSLSockets supported. Only one type is still supported. + * Various other 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 "seccomon.h" +#include "cert.h" +#include "keyhi.h" +#include "ssl.h" +#include "sslexp.h" +#include "sslimpl.h" +#include "sslproto.h" +#include "nspr.h" +#include "private/pprio.h" +#include "nss.h" +#include "pk11pqg.h" +#include "pk11pub.h" +#include "tls13ech.h" +#include "tls13psk.h" +#include "tls13subcerts.h" + +static const sslSocketOps ssl_default_ops = { /* No SSL. */ + ssl_DefConnect, + NULL, + ssl_DefBind, + ssl_DefListen, + ssl_DefShutdown, + ssl_DefClose, + ssl_DefRecv, + ssl_DefSend, + ssl_DefRead, + ssl_DefWrite, + ssl_DefGetpeername, + ssl_DefGetsockname +}; + +static const sslSocketOps ssl_secure_ops = { /* SSL. */ + ssl_SecureConnect, + NULL, + ssl_DefBind, + ssl_DefListen, + ssl_SecureShutdown, + ssl_SecureClose, + ssl_SecureRecv, + ssl_SecureSend, + ssl_SecureRead, + ssl_SecureWrite, + ssl_DefGetpeername, + ssl_DefGetsockname +}; + +/* +** default settings for socket enables +*/ +static sslOptions ssl_defaults = { + .nextProtoNego = { siBuffer, NULL, 0 }, + .maxEarlyDataSize = 1 << 16, + .recordSizeLimit = MAX_FRAGMENT_LENGTH + 1, + .useSecurity = PR_TRUE, + .useSocks = PR_FALSE, + .requestCertificate = PR_FALSE, + .requireCertificate = SSL_REQUIRE_FIRST_HANDSHAKE, + .handshakeAsClient = PR_FALSE, + .handshakeAsServer = PR_FALSE, + .noCache = PR_FALSE, + .fdx = PR_FALSE, + .detectRollBack = PR_TRUE, + .noLocks = PR_FALSE, + .enableSessionTickets = PR_FALSE, + .enableDeflate = PR_FALSE, + .enableRenegotiation = SSL_RENEGOTIATE_REQUIRES_XTN, + .requireSafeNegotiation = PR_FALSE, + .enableFalseStart = PR_FALSE, + .cbcRandomIV = PR_TRUE, + .enableOCSPStapling = PR_FALSE, + .enableDelegatedCredentials = PR_FALSE, + .enableALPN = PR_TRUE, + .reuseServerECDHEKey = PR_FALSE, + .enableFallbackSCSV = PR_FALSE, + .enableServerDhe = PR_TRUE, + .enableExtendedMS = PR_TRUE, + .enableSignedCertTimestamps = PR_FALSE, + .requireDHENamedGroups = PR_FALSE, + .enable0RttData = PR_FALSE, + .enableTls13CompatMode = PR_FALSE, + .enableDtls13VersionCompat = PR_FALSE, + .enableDtlsShortHeader = PR_FALSE, + .enableHelloDowngradeCheck = PR_TRUE, + .enableV2CompatibleHello = PR_FALSE, + .enablePostHandshakeAuth = PR_FALSE, + .suppressEndOfEarlyData = PR_FALSE, + .enableTls13GreaseEch = PR_FALSE, + .enableTls13BackendEch = PR_FALSE, + .callExtensionWriterOnEchInner = PR_FALSE, + .enableGrease = PR_FALSE, + .enableChXtnPermutation = PR_FALSE +}; + +/* + * default range of enabled SSL/TLS protocols + */ +static SSLVersionRange versions_defaults_stream = { + SSL_LIBRARY_VERSION_TLS_1_2, + SSL_LIBRARY_VERSION_TLS_1_3 +}; + +static SSLVersionRange versions_defaults_datagram = { + SSL_LIBRARY_VERSION_TLS_1_2, + SSL_LIBRARY_VERSION_TLS_1_2 +}; + +#define VERSIONS_DEFAULTS(variant) \ + (variant == ssl_variant_stream ? &versions_defaults_stream : &versions_defaults_datagram) +#define VERSIONS_POLICY_MIN(variant) \ + (variant == ssl_variant_stream ? NSS_TLS_VERSION_MIN_POLICY : NSS_DTLS_VERSION_MIN_POLICY) +#define VERSIONS_POLICY_MAX(variant) \ + (variant == ssl_variant_stream ? NSS_TLS_VERSION_MAX_POLICY : NSS_DTLS_VERSION_MAX_POLICY) + +sslSessionIDLookupFunc ssl_sid_lookup; + +static PRDescIdentity ssl_layer_id; + +PRBool locksEverDisabled; /* implicitly PR_FALSE */ +PRBool ssl_force_locks; /* implicitly PR_FALSE */ +int ssl_lock_readers = 1; /* default true. */ +char ssl_debug; +char ssl_trace; +FILE *ssl_trace_iob; + +#ifdef NSS_ALLOW_SSLKEYLOGFILE +FILE *ssl_keylog_iob; +PZLock *ssl_keylog_lock; +#endif + +char lockStatus[] = "Locks are ENABLED. "; +#define LOCKSTATUS_OFFSET 10 /* offset of ENABLED */ + +/* SRTP_NULL_HMAC_SHA1_80 and SRTP_NULL_HMAC_SHA1_32 are not implemented. */ +static const PRUint16 srtpCiphers[] = { + SRTP_AES128_CM_HMAC_SHA1_80, + SRTP_AES128_CM_HMAC_SHA1_32, + 0 +}; + +/* This list is in preference order. Note that while some smaller groups appear + * early in the list, smaller groups are generally ignored when iterating + * through this list. ffdhe_custom must not appear in this list. */ +#define ECGROUP(name, size, oid, assumeSupported) \ + { \ + ssl_grp_ec_##name, size, ssl_kea_ecdh, \ + SEC_OID_SECG_EC_##oid, assumeSupported \ + } +#define FFGROUP(size) \ + { \ + ssl_grp_ffdhe_##size, size, ssl_kea_dh, \ + SEC_OID_TLS_FFDHE_##size, PR_TRUE \ + } + +const sslNamedGroupDef ssl_named_groups[] = { + /* Note that 256 for 25519 is a lie, but we only use it for checking bit + * security and expect 256 bits there (not 255). */ + { ssl_grp_ec_curve25519, 256, ssl_kea_ecdh, SEC_OID_CURVE25519, PR_TRUE }, + ECGROUP(secp256r1, 256, SECP256R1, PR_TRUE), + ECGROUP(secp384r1, 384, SECP384R1, PR_TRUE), + ECGROUP(secp521r1, 521, SECP521R1, PR_TRUE), + FFGROUP(2048), + FFGROUP(3072), + FFGROUP(4096), + FFGROUP(6144), + FFGROUP(8192), + ECGROUP(secp192r1, 192, SECP192R1, PR_FALSE), + ECGROUP(secp160r2, 160, SECP160R2, PR_FALSE), + ECGROUP(secp160k1, 160, SECP160K1, PR_FALSE), + ECGROUP(secp160r1, 160, SECP160R1, PR_FALSE), + ECGROUP(sect163k1, 163, SECT163K1, PR_FALSE), + ECGROUP(sect163r1, 163, SECT163R1, PR_FALSE), + ECGROUP(sect163r2, 163, SECT163R2, PR_FALSE), + ECGROUP(secp192k1, 192, SECP192K1, PR_FALSE), + ECGROUP(sect193r1, 193, SECT193R1, PR_FALSE), + ECGROUP(sect193r2, 193, SECT193R2, PR_FALSE), + ECGROUP(secp224r1, 224, SECP224R1, PR_FALSE), + ECGROUP(secp224k1, 224, SECP224K1, PR_FALSE), + ECGROUP(sect233k1, 233, SECT233K1, PR_FALSE), + ECGROUP(sect233r1, 233, SECT233R1, PR_FALSE), + ECGROUP(sect239k1, 239, SECT239K1, PR_FALSE), + ECGROUP(secp256k1, 256, SECP256K1, PR_FALSE), + ECGROUP(sect283k1, 283, SECT283K1, PR_FALSE), + ECGROUP(sect283r1, 283, SECT283R1, PR_FALSE), + ECGROUP(sect409k1, 409, SECT409K1, PR_FALSE), + ECGROUP(sect409r1, 409, SECT409R1, PR_FALSE), + ECGROUP(sect571k1, 571, SECT571K1, PR_FALSE), + ECGROUP(sect571r1, 571, SECT571R1, PR_FALSE), +}; +PR_STATIC_ASSERT(SSL_NAMED_GROUP_COUNT == PR_ARRAY_SIZE(ssl_named_groups)); + +#undef ECGROUP +#undef FFGROUP + +/* forward declarations. */ +static sslSocket *ssl_NewSocket(PRBool makeLocks, SSLProtocolVariant variant); +static SECStatus ssl_MakeLocks(sslSocket *ss); +static void ssl_SetDefaultsFromEnvironment(void); +static PRStatus ssl_PushIOLayer(sslSocket *ns, PRFileDesc *stack, + PRDescIdentity id); + +/************************************************************************/ + +/* +** Lookup a socket structure from a file descriptor. +** Only functions called through the PRIOMethods table should use this. +** Other app-callable functions should use ssl_FindSocket. +*/ +static sslSocket * +ssl_GetPrivate(PRFileDesc *fd) +{ + sslSocket *ss; + + PORT_Assert(fd != NULL); + PORT_Assert(fd->methods->file_type == PR_DESC_LAYERED); + PORT_Assert(fd->identity == ssl_layer_id); + + if (fd->methods->file_type != PR_DESC_LAYERED || + fd->identity != ssl_layer_id) { + PORT_SetError(PR_BAD_DESCRIPTOR_ERROR); + return NULL; + } + + ss = (sslSocket *)fd->secret; + /* Set ss->fd lazily. We can't rely on the value of ss->fd set by + * ssl_PushIOLayer because another PR_PushIOLayer call will switch the + * contents of the PRFileDesc pointed by ss->fd and the new layer. + * See bug 807250. + */ + ss->fd = fd; + return ss; +} + +/* This function tries to find the SSL layer in the stack. + * It searches for the first SSL layer at or below the argument fd, + * and failing that, it searches for the nearest SSL layer above the + * argument fd. It returns the private sslSocket from the found layer. + */ +sslSocket * +ssl_FindSocket(PRFileDesc *fd) +{ + PRFileDesc *layer; + sslSocket *ss; + + PORT_Assert(fd != NULL); + PORT_Assert(ssl_layer_id != 0); + + layer = PR_GetIdentitiesLayer(fd, ssl_layer_id); + if (layer == NULL) { + PORT_SetError(PR_BAD_DESCRIPTOR_ERROR); + return NULL; + } + + ss = (sslSocket *)layer->secret; + /* Set ss->fd lazily. We can't rely on the value of ss->fd set by + * ssl_PushIOLayer because another PR_PushIOLayer call will switch the + * contents of the PRFileDesc pointed by ss->fd and the new layer. + * See bug 807250. + */ + ss->fd = layer; + return ss; +} + +static sslSocket * +ssl_DupSocket(sslSocket *os) +{ + sslSocket *ss; + SECStatus rv; + + ss = ssl_NewSocket((PRBool)(!os->opt.noLocks), os->protocolVariant); + if (!ss) { + return NULL; + } + + ss->opt = os->opt; + ss->opt.useSocks = PR_FALSE; + rv = SECITEM_CopyItem(NULL, &ss->opt.nextProtoNego, &os->opt.nextProtoNego); + if (rv != SECSuccess) { + goto loser; + } + ss->vrange = os->vrange; + ss->now = os->now; + ss->nowArg = os->nowArg; + + ss->peerID = !os->peerID ? NULL : PORT_Strdup(os->peerID); + ss->url = !os->url ? NULL : PORT_Strdup(os->url); + + ss->ops = os->ops; + ss->rTimeout = os->rTimeout; + ss->wTimeout = os->wTimeout; + ss->cTimeout = os->cTimeout; + ss->dbHandle = os->dbHandle; + + /* copy ssl2&3 policy & prefs, even if it's not selected (yet) */ + PORT_Memcpy(ss->cipherSuites, os->cipherSuites, sizeof os->cipherSuites); + PORT_Memcpy(ss->ssl3.dtlsSRTPCiphers, os->ssl3.dtlsSRTPCiphers, + sizeof(PRUint16) * os->ssl3.dtlsSRTPCipherCount); + ss->ssl3.dtlsSRTPCipherCount = os->ssl3.dtlsSRTPCipherCount; + PORT_Memcpy(ss->ssl3.signatureSchemes, os->ssl3.signatureSchemes, + sizeof(ss->ssl3.signatureSchemes[0]) * + os->ssl3.signatureSchemeCount); + ss->ssl3.signatureSchemeCount = os->ssl3.signatureSchemeCount; + ss->ssl3.downgradeCheckVersion = os->ssl3.downgradeCheckVersion; + + ss->ssl3.dheWeakGroupEnabled = os->ssl3.dheWeakGroupEnabled; + + if (ss->opt.useSecurity) { + PRCList *cursor; + + for (cursor = PR_NEXT_LINK(&os->serverCerts); + cursor != &os->serverCerts; + cursor = PR_NEXT_LINK(cursor)) { + sslServerCert *sc = ssl_CopyServerCert((sslServerCert *)cursor); + if (!sc) + goto loser; + PR_APPEND_LINK(&sc->link, &ss->serverCerts); + } + + for (cursor = PR_NEXT_LINK(&os->ephemeralKeyPairs); + cursor != &os->ephemeralKeyPairs; + cursor = PR_NEXT_LINK(cursor)) { + sslEphemeralKeyPair *okp = (sslEphemeralKeyPair *)cursor; + sslEphemeralKeyPair *skp = ssl_CopyEphemeralKeyPair(okp); + if (!skp) + goto loser; + PR_APPEND_LINK(&skp->link, &ss->ephemeralKeyPairs); + } + + for (cursor = PR_NEXT_LINK(&os->extensionHooks); + cursor != &os->extensionHooks; + cursor = PR_NEXT_LINK(cursor)) { + sslCustomExtensionHooks *oh = (sslCustomExtensionHooks *)cursor; + sslCustomExtensionHooks *sh = PORT_ZNew(sslCustomExtensionHooks); + if (!sh) { + goto loser; + } + *sh = *oh; + PR_APPEND_LINK(&sh->link, &ss->extensionHooks); + } + + /* + * XXX the preceding CERT_ and SECKEY_ functions can fail and return NULL. + * XXX We should detect this, and not just march on with NULL pointers. + */ + ss->authCertificate = os->authCertificate; + ss->authCertificateArg = os->authCertificateArg; + ss->getClientAuthData = os->getClientAuthData; + ss->getClientAuthDataArg = os->getClientAuthDataArg; + ss->sniSocketConfig = os->sniSocketConfig; + ss->sniSocketConfigArg = os->sniSocketConfigArg; + ss->alertReceivedCallback = os->alertReceivedCallback; + ss->alertReceivedCallbackArg = os->alertReceivedCallbackArg; + ss->alertSentCallback = os->alertSentCallback; + ss->alertSentCallbackArg = os->alertSentCallbackArg; + ss->handleBadCert = os->handleBadCert; + ss->badCertArg = os->badCertArg; + ss->handshakeCallback = os->handshakeCallback; + ss->handshakeCallbackData = os->handshakeCallbackData; + ss->canFalseStartCallback = os->canFalseStartCallback; + ss->canFalseStartCallbackData = os->canFalseStartCallbackData; + ss->pkcs11PinArg = os->pkcs11PinArg; + ss->nextProtoCallback = os->nextProtoCallback; + ss->nextProtoArg = os->nextProtoArg; + PORT_Memcpy((void *)ss->namedGroupPreferences, + os->namedGroupPreferences, + sizeof(ss->namedGroupPreferences)); + ss->additionalShares = os->additionalShares; + ss->resumptionTokenCallback = os->resumptionTokenCallback; + ss->resumptionTokenContext = os->resumptionTokenContext; + + rv = tls13_CopyEchConfigs(&os->echConfigs, &ss->echConfigs); + if (rv != SECSuccess) { + goto loser; + } + if (os->echPrivKey && os->echPubKey) { + ss->echPrivKey = SECKEY_CopyPrivateKey(os->echPrivKey); + ss->echPubKey = SECKEY_CopyPublicKey(os->echPubKey); + if (!ss->echPrivKey || !ss->echPubKey) { + goto loser; + } + } + + if (os->antiReplay) { + ss->antiReplay = tls13_RefAntiReplayContext(os->antiReplay); + PORT_Assert(ss->antiReplay); /* Can't fail. */ + if (!ss->antiReplay) { + goto loser; + } + } + if (os->psk) { + ss->psk = tls13_CopyPsk(os->psk); + if (!ss->psk) { + goto loser; + } + } + + /* Create security data */ + rv = ssl_CopySecurityInfo(ss, os); + if (rv != SECSuccess) { + goto loser; + } + } + + return ss; + +loser: + ssl_FreeSocket(ss); + return NULL; +} + +static void +ssl_DestroyLocks(sslSocket *ss) +{ + /* Destroy locks. */ + if (ss->firstHandshakeLock) { + PZ_DestroyMonitor(ss->firstHandshakeLock); + ss->firstHandshakeLock = NULL; + } + if (ss->ssl3HandshakeLock) { + PZ_DestroyMonitor(ss->ssl3HandshakeLock); + ss->ssl3HandshakeLock = NULL; + } + if (ss->specLock) { + NSSRWLock_Destroy(ss->specLock); + ss->specLock = NULL; + } + + if (ss->recvLock) { + PZ_DestroyLock(ss->recvLock); + ss->recvLock = NULL; + } + if (ss->sendLock) { + PZ_DestroyLock(ss->sendLock); + ss->sendLock = NULL; + } + if (ss->xmitBufLock) { + PZ_DestroyMonitor(ss->xmitBufLock); + ss->xmitBufLock = NULL; + } + if (ss->recvBufLock) { + PZ_DestroyMonitor(ss->recvBufLock); + ss->recvBufLock = NULL; + } +} + +/* Caller holds any relevant locks */ +static void +ssl_DestroySocketContents(sslSocket *ss) +{ + PRCList *cursor; + + /* Free up socket */ + ssl_DestroySecurityInfo(&ss->sec); + + ssl3_DestroySSL3Info(ss); + + PORT_Free(ss->saveBuf.buf); + PORT_Free(ss->pendingBuf.buf); + ssl3_DestroyGather(&ss->gs); + + if (ss->peerID != NULL) + PORT_Free(ss->peerID); + if (ss->url != NULL) + PORT_Free((void *)ss->url); /* CONST */ + + /* Clean up server certificates and sundries. */ + while (!PR_CLIST_IS_EMPTY(&ss->serverCerts)) { + cursor = PR_LIST_TAIL(&ss->serverCerts); + PR_REMOVE_LINK(cursor); + ssl_FreeServerCert((sslServerCert *)cursor); + } + + /* Remove extension handlers. */ + ssl_ClearPRCList(&ss->extensionHooks, NULL); + + ssl_FreeEphemeralKeyPairs(ss); + SECITEM_FreeItem(&ss->opt.nextProtoNego, PR_FALSE); + ssl3_FreeSniNameArray(&ss->xtnData); + + ssl_ClearPRCList(&ss->ssl3.hs.dtlsSentHandshake, NULL); + ssl_ClearPRCList(&ss->ssl3.hs.dtlsRcvdHandshake, NULL); + tls13_DestroyPskList(&ss->ssl3.hs.psks); + + tls13_ReleaseAntiReplayContext(ss->antiReplay); + + tls13_DestroyPsk(ss->psk); + + tls13_DestroyEchConfigs(&ss->echConfigs); + SECKEY_DestroyPrivateKey(ss->echPrivKey); + SECKEY_DestroyPublicKey(ss->echPubKey); +} + +/* + * free an sslSocket struct, and all the stuff that hangs off of it + */ +void +ssl_FreeSocket(sslSocket *ss) +{ + /* Get every lock you can imagine! + ** Caller already holds these: + ** SSL_LOCK_READER(ss); + ** SSL_LOCK_WRITER(ss); + */ + ssl_Get1stHandshakeLock(ss); + ssl_GetRecvBufLock(ss); + ssl_GetSSL3HandshakeLock(ss); + ssl_GetXmitBufLock(ss); + ssl_GetSpecWriteLock(ss); + + ssl_DestroySocketContents(ss); + + /* Release all the locks acquired above. */ + SSL_UNLOCK_READER(ss); + SSL_UNLOCK_WRITER(ss); + ssl_Release1stHandshakeLock(ss); + ssl_ReleaseRecvBufLock(ss); + ssl_ReleaseSSL3HandshakeLock(ss); + ssl_ReleaseXmitBufLock(ss); + ssl_ReleaseSpecWriteLock(ss); + + ssl_DestroyLocks(ss); + +#ifdef DEBUG + PORT_Memset(ss, 0x1f, sizeof *ss); +#endif + PORT_Free(ss); + return; +} + +/************************************************************************/ +SECStatus +ssl_EnableNagleDelay(sslSocket *ss, PRBool enabled) +{ + PRFileDesc *osfd = ss->fd->lower; + SECStatus rv = SECFailure; + PRSocketOptionData opt; + + opt.option = PR_SockOpt_NoDelay; + opt.value.no_delay = (PRBool)!enabled; + + if (osfd->methods->setsocketoption) { + rv = (SECStatus)osfd->methods->setsocketoption(osfd, &opt); + } else { + PR_SetError(PR_NOT_IMPLEMENTED_ERROR, 0); + } + + return rv; +} + +static void +ssl_ChooseOps(sslSocket *ss) +{ + ss->ops = ss->opt.useSecurity ? &ssl_secure_ops : &ssl_default_ops; +} + +/* Called from SSL_Enable (immediately below) */ +static SECStatus +PrepareSocket(sslSocket *ss) +{ + SECStatus rv = SECSuccess; + + ssl_ChooseOps(ss); + return rv; +} + +SECStatus +SSL_Enable(PRFileDesc *fd, int which, PRIntn on) +{ + return SSL_OptionSet(fd, which, on); +} + +static PRBool ssl_VersionIsSupportedByPolicy( + SSLProtocolVariant protocolVariant, SSL3ProtocolVersion version); + +/* Implements the semantics for SSL_OptionSet(SSL_ENABLE_TLS, on) described in + * ssl.h in the section "SSL version range setting API". + */ +static void +ssl_EnableTLS(SSLVersionRange *vrange, PRIntn enable) +{ + if (enable) { + /* don't turn it on if tls1.0 disallowed by by policy */ + if (!ssl_VersionIsSupportedByPolicy(ssl_variant_stream, + SSL_LIBRARY_VERSION_TLS_1_0)) { + return; + } + } + if (SSL_ALL_VERSIONS_DISABLED(vrange)) { + if (enable) { + vrange->min = SSL_LIBRARY_VERSION_TLS_1_0; + vrange->max = SSL_LIBRARY_VERSION_TLS_1_0; + } /* else don't change anything */ + return; + } + + if (enable) { + /* Expand the range of enabled version to include TLS 1.0 */ + vrange->min = PR_MIN(vrange->min, SSL_LIBRARY_VERSION_TLS_1_0); + vrange->max = PR_MAX(vrange->max, SSL_LIBRARY_VERSION_TLS_1_0); + } else { + /* Disable all TLS versions, leaving only SSL 3.0 if it was enabled */ + if (vrange->min == SSL_LIBRARY_VERSION_3_0) { + vrange->max = SSL_LIBRARY_VERSION_3_0; + } else { + /* Only TLS was enabled, so now no versions are. */ + vrange->min = SSL_LIBRARY_VERSION_NONE; + vrange->max = SSL_LIBRARY_VERSION_NONE; + } + } +} + +/* Implements the semantics for SSL_OptionSet(SSL_ENABLE_SSL3, on) described in + * ssl.h in the section "SSL version range setting API". + */ +static void +ssl_EnableSSL3(SSLVersionRange *vrange, PRIntn enable) +{ + if (enable) { + /* don't turn it on if ssl3 disallowed by by policy */ + if (!ssl_VersionIsSupportedByPolicy(ssl_variant_stream, + SSL_LIBRARY_VERSION_3_0)) { + return; + } + } + if (SSL_ALL_VERSIONS_DISABLED(vrange)) { + if (enable) { + vrange->min = SSL_LIBRARY_VERSION_3_0; + vrange->max = SSL_LIBRARY_VERSION_3_0; + } /* else don't change anything */ + return; + } + + if (enable) { + /* Expand the range of enabled versions to include SSL 3.0. We know + * SSL 3.0 or some version of TLS is already enabled at this point, so + * we don't need to change vrange->max. + */ + vrange->min = SSL_LIBRARY_VERSION_3_0; + } else { + /* Disable SSL 3.0, leaving TLS unaffected. */ + if (vrange->max > SSL_LIBRARY_VERSION_3_0) { + vrange->min = PR_MAX(vrange->min, SSL_LIBRARY_VERSION_TLS_1_0); + } else { + /* Only SSL 3.0 was enabled, so now no versions are. */ + vrange->min = SSL_LIBRARY_VERSION_NONE; + vrange->max = SSL_LIBRARY_VERSION_NONE; + } + } +} + +SECStatus +SSL_OptionSet(PRFileDesc *fd, PRInt32 which, PRIntn val) +{ + sslSocket *ss = ssl_FindSocket(fd); + SECStatus rv = SECSuccess; + PRBool holdingLocks; + + if (!ss) { + SSL_DBG(("%d: SSL[%d]: bad socket in Enable", SSL_GETPID(), fd)); + return SECFailure; + } + + holdingLocks = (!ss->opt.noLocks); + ssl_Get1stHandshakeLock(ss); + ssl_GetSSL3HandshakeLock(ss); + + switch (which) { + case SSL_SOCKS: + ss->opt.useSocks = PR_FALSE; + rv = PrepareSocket(ss); + if (val) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + rv = SECFailure; + } + break; + + case SSL_SECURITY: + ss->opt.useSecurity = val; + rv = PrepareSocket(ss); + break; + + case SSL_REQUEST_CERTIFICATE: + ss->opt.requestCertificate = val; + break; + + case SSL_REQUIRE_CERTIFICATE: + ss->opt.requireCertificate = val; + break; + + case SSL_HANDSHAKE_AS_CLIENT: + if (ss->opt.handshakeAsServer && val) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + rv = SECFailure; + break; + } + ss->opt.handshakeAsClient = val; + break; + + case SSL_HANDSHAKE_AS_SERVER: + if (ss->opt.handshakeAsClient && val) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + rv = SECFailure; + break; + } + ss->opt.handshakeAsServer = val; + break; + + case SSL_ENABLE_TLS: + if (IS_DTLS(ss)) { + if (val) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + rv = SECFailure; /* not allowed */ + } + break; + } + ssl_EnableTLS(&ss->vrange, val); + break; + + case SSL_ENABLE_SSL3: + if (IS_DTLS(ss)) { + if (val) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + rv = SECFailure; /* not allowed */ + } + break; + } + ssl_EnableSSL3(&ss->vrange, val); + break; + + case SSL_ENABLE_SSL2: + case SSL_V2_COMPATIBLE_HELLO: + /* We no longer support SSL v2. + * However, if an old application requests to disable SSL v2, + * we shouldn't fail. + */ + if (val) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + rv = SECFailure; + } + break; + + case SSL_NO_CACHE: + ss->opt.noCache = val; + break; + + case SSL_ENABLE_FDX: + if (val && ss->opt.noLocks) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + rv = SECFailure; + } + ss->opt.fdx = val; + break; + + case SSL_ROLLBACK_DETECTION: + ss->opt.detectRollBack = val; + break; + + case SSL_NO_STEP_DOWN: + break; + + case SSL_BYPASS_PKCS11: + break; + + case SSL_NO_LOCKS: + if (val && ss->opt.fdx) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + rv = SECFailure; + } + if (val && ssl_force_locks) + val = PR_FALSE; /* silent override */ + ss->opt.noLocks = val; + if (val) { + locksEverDisabled = PR_TRUE; + strcpy(lockStatus + LOCKSTATUS_OFFSET, "DISABLED."); + } else if (!holdingLocks) { + rv = ssl_MakeLocks(ss); + if (rv != SECSuccess) { + ss->opt.noLocks = PR_TRUE; + } + } + break; + + case SSL_ENABLE_SESSION_TICKETS: + ss->opt.enableSessionTickets = val; + break; + + case SSL_ENABLE_DEFLATE: + ss->opt.enableDeflate = val; + break; + + case SSL_ENABLE_RENEGOTIATION: + if (IS_DTLS(ss) && val != SSL_RENEGOTIATE_NEVER) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + rv = SECFailure; + break; + } + ss->opt.enableRenegotiation = val; + break; + + case SSL_REQUIRE_SAFE_NEGOTIATION: + ss->opt.requireSafeNegotiation = val; + break; + + case SSL_ENABLE_FALSE_START: + ss->opt.enableFalseStart = val; + break; + + case SSL_CBC_RANDOM_IV: + ss->opt.cbcRandomIV = val; + break; + + case SSL_ENABLE_OCSP_STAPLING: + ss->opt.enableOCSPStapling = val; + break; + + case SSL_ENABLE_DELEGATED_CREDENTIALS: + ss->opt.enableDelegatedCredentials = val; + break; + + case SSL_ENABLE_NPN: + break; + + case SSL_ENABLE_ALPN: + ss->opt.enableALPN = val; + break; + + case SSL_REUSE_SERVER_ECDHE_KEY: + ss->opt.reuseServerECDHEKey = val; + break; + + case SSL_ENABLE_FALLBACK_SCSV: + ss->opt.enableFallbackSCSV = val; + break; + + case SSL_ENABLE_SERVER_DHE: + ss->opt.enableServerDhe = val; + break; + + case SSL_ENABLE_EXTENDED_MASTER_SECRET: + ss->opt.enableExtendedMS = val; + break; + + case SSL_ENABLE_SIGNED_CERT_TIMESTAMPS: + ss->opt.enableSignedCertTimestamps = val; + break; + + case SSL_REQUIRE_DH_NAMED_GROUPS: + ss->opt.requireDHENamedGroups = val; + break; + + case SSL_ENABLE_0RTT_DATA: + ss->opt.enable0RttData = val; + break; + + case SSL_RECORD_SIZE_LIMIT: + if (val < 64 || val > (MAX_FRAGMENT_LENGTH + 1)) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + rv = SECFailure; + } else { + ss->opt.recordSizeLimit = val; + } + break; + + case SSL_ENABLE_TLS13_COMPAT_MODE: + ss->opt.enableTls13CompatMode = val; + break; + + case SSL_ENABLE_DTLS_SHORT_HEADER: + ss->opt.enableDtlsShortHeader = val; + break; + + case SSL_ENABLE_HELLO_DOWNGRADE_CHECK: + ss->opt.enableHelloDowngradeCheck = val; + break; + + case SSL_ENABLE_V2_COMPATIBLE_HELLO: + ss->opt.enableV2CompatibleHello = val; + break; + + case SSL_ENABLE_POST_HANDSHAKE_AUTH: + ss->opt.enablePostHandshakeAuth = val; + break; + + case SSL_SUPPRESS_END_OF_EARLY_DATA: + ss->opt.suppressEndOfEarlyData = val; + break; + + case SSL_ENABLE_GREASE: + ss->opt.enableGrease = val; + break; + + case SSL_ENABLE_CH_EXTENSION_PERMUTATION: + ss->opt.enableChXtnPermutation = val; + break; + + default: + PORT_SetError(SEC_ERROR_INVALID_ARGS); + rv = SECFailure; + } + + /* We can't use the macros for releasing the locks here, + * because ss->opt.noLocks might have changed just above. + * We must release these locks (monitors) here, if we aquired them above, + * regardless of the current value of ss->opt.noLocks. + */ + if (holdingLocks) { + PZ_ExitMonitor((ss)->ssl3HandshakeLock); + PZ_ExitMonitor((ss)->firstHandshakeLock); + } + + return rv; +} + +SECStatus +SSL_OptionGet(PRFileDesc *fd, PRInt32 which, PRIntn *pVal) +{ + sslSocket *ss = ssl_FindSocket(fd); + SECStatus rv = SECSuccess; + PRIntn val = PR_FALSE; + + if (!pVal) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return SECFailure; + } + if (!ss) { + SSL_DBG(("%d: SSL[%d]: bad socket in Enable", SSL_GETPID(), fd)); + *pVal = PR_FALSE; + return SECFailure; + } + + ssl_Get1stHandshakeLock(ss); + ssl_GetSSL3HandshakeLock(ss); + + switch (which) { + case SSL_SOCKS: + val = PR_FALSE; + break; + case SSL_SECURITY: + val = ss->opt.useSecurity; + break; + case SSL_REQUEST_CERTIFICATE: + val = ss->opt.requestCertificate; + break; + case SSL_REQUIRE_CERTIFICATE: + val = ss->opt.requireCertificate; + break; + case SSL_HANDSHAKE_AS_CLIENT: + val = ss->opt.handshakeAsClient; + break; + case SSL_HANDSHAKE_AS_SERVER: + val = ss->opt.handshakeAsServer; + break; + case SSL_ENABLE_TLS: + val = ss->vrange.max >= SSL_LIBRARY_VERSION_TLS_1_0; + break; + case SSL_ENABLE_SSL3: + val = ss->vrange.min == SSL_LIBRARY_VERSION_3_0; + break; + case SSL_ENABLE_SSL2: + case SSL_V2_COMPATIBLE_HELLO: + val = PR_FALSE; + break; + case SSL_NO_CACHE: + val = ss->opt.noCache; + break; + case SSL_ENABLE_FDX: + val = ss->opt.fdx; + break; + case SSL_ROLLBACK_DETECTION: + val = ss->opt.detectRollBack; + break; + case SSL_NO_STEP_DOWN: + val = PR_FALSE; + break; + case SSL_BYPASS_PKCS11: + val = PR_FALSE; + break; + case SSL_NO_LOCKS: + val = ss->opt.noLocks; + break; + case SSL_ENABLE_SESSION_TICKETS: + val = ss->opt.enableSessionTickets; + break; + case SSL_ENABLE_DEFLATE: + val = ss->opt.enableDeflate; + break; + case SSL_ENABLE_RENEGOTIATION: + val = ss->opt.enableRenegotiation; + break; + case SSL_REQUIRE_SAFE_NEGOTIATION: + val = ss->opt.requireSafeNegotiation; + break; + case SSL_ENABLE_FALSE_START: + val = ss->opt.enableFalseStart; + break; + case SSL_CBC_RANDOM_IV: + val = ss->opt.cbcRandomIV; + break; + case SSL_ENABLE_OCSP_STAPLING: + val = ss->opt.enableOCSPStapling; + break; + case SSL_ENABLE_DELEGATED_CREDENTIALS: + val = ss->opt.enableDelegatedCredentials; + break; + case SSL_ENABLE_NPN: + val = PR_FALSE; + break; + case SSL_ENABLE_ALPN: + val = ss->opt.enableALPN; + break; + case SSL_REUSE_SERVER_ECDHE_KEY: + val = ss->opt.reuseServerECDHEKey; + break; + case SSL_ENABLE_FALLBACK_SCSV: + val = ss->opt.enableFallbackSCSV; + break; + case SSL_ENABLE_SERVER_DHE: + val = ss->opt.enableServerDhe; + break; + case SSL_ENABLE_EXTENDED_MASTER_SECRET: + val = ss->opt.enableExtendedMS; + break; + case SSL_ENABLE_SIGNED_CERT_TIMESTAMPS: + val = ss->opt.enableSignedCertTimestamps; + break; + case SSL_REQUIRE_DH_NAMED_GROUPS: + val = ss->opt.requireDHENamedGroups; + break; + case SSL_ENABLE_0RTT_DATA: + val = ss->opt.enable0RttData; + break; + case SSL_RECORD_SIZE_LIMIT: + val = ss->opt.recordSizeLimit; + break; + case SSL_ENABLE_TLS13_COMPAT_MODE: + val = ss->opt.enableTls13CompatMode; + break; + case SSL_ENABLE_DTLS_SHORT_HEADER: + val = ss->opt.enableDtlsShortHeader; + break; + case SSL_ENABLE_HELLO_DOWNGRADE_CHECK: + val = ss->opt.enableHelloDowngradeCheck; + break; + case SSL_ENABLE_V2_COMPATIBLE_HELLO: + val = ss->opt.enableV2CompatibleHello; + break; + case SSL_ENABLE_POST_HANDSHAKE_AUTH: + val = ss->opt.enablePostHandshakeAuth; + break; + case SSL_SUPPRESS_END_OF_EARLY_DATA: + val = ss->opt.suppressEndOfEarlyData; + break; + default: + PORT_SetError(SEC_ERROR_INVALID_ARGS); + rv = SECFailure; + } + + ssl_ReleaseSSL3HandshakeLock(ss); + ssl_Release1stHandshakeLock(ss); + + *pVal = val; + return rv; +} + +SECStatus +SSL_OptionGetDefault(PRInt32 which, PRIntn *pVal) +{ + SECStatus rv = SECSuccess; + PRIntn val = PR_FALSE; + + if (!pVal) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return SECFailure; + } + + ssl_SetDefaultsFromEnvironment(); + + switch (which) { + case SSL_SOCKS: + val = PR_FALSE; + break; + case SSL_SECURITY: + val = ssl_defaults.useSecurity; + break; + case SSL_REQUEST_CERTIFICATE: + val = ssl_defaults.requestCertificate; + break; + case SSL_REQUIRE_CERTIFICATE: + val = ssl_defaults.requireCertificate; + break; + case SSL_HANDSHAKE_AS_CLIENT: + val = ssl_defaults.handshakeAsClient; + break; + case SSL_HANDSHAKE_AS_SERVER: + val = ssl_defaults.handshakeAsServer; + break; + case SSL_ENABLE_TLS: + val = versions_defaults_stream.max >= SSL_LIBRARY_VERSION_TLS_1_0; + break; + case SSL_ENABLE_SSL3: + val = versions_defaults_stream.min == SSL_LIBRARY_VERSION_3_0; + break; + case SSL_ENABLE_SSL2: + case SSL_V2_COMPATIBLE_HELLO: + val = PR_FALSE; + break; + case SSL_NO_CACHE: + val = ssl_defaults.noCache; + break; + case SSL_ENABLE_FDX: + val = ssl_defaults.fdx; + break; + case SSL_ROLLBACK_DETECTION: + val = ssl_defaults.detectRollBack; + break; + case SSL_NO_STEP_DOWN: + val = PR_FALSE; + break; + case SSL_BYPASS_PKCS11: + val = PR_FALSE; + break; + case SSL_NO_LOCKS: + val = ssl_defaults.noLocks; + break; + case SSL_ENABLE_SESSION_TICKETS: + val = ssl_defaults.enableSessionTickets; + break; + case SSL_ENABLE_DEFLATE: + val = ssl_defaults.enableDeflate; + break; + case SSL_ENABLE_RENEGOTIATION: + val = ssl_defaults.enableRenegotiation; + break; + case SSL_REQUIRE_SAFE_NEGOTIATION: + val = ssl_defaults.requireSafeNegotiation; + break; + case SSL_ENABLE_FALSE_START: + val = ssl_defaults.enableFalseStart; + break; + case SSL_CBC_RANDOM_IV: + val = ssl_defaults.cbcRandomIV; + break; + case SSL_ENABLE_OCSP_STAPLING: + val = ssl_defaults.enableOCSPStapling; + break; + case SSL_ENABLE_DELEGATED_CREDENTIALS: + val = ssl_defaults.enableDelegatedCredentials; + break; + case SSL_ENABLE_NPN: + val = PR_FALSE; + break; + case SSL_ENABLE_ALPN: + val = ssl_defaults.enableALPN; + break; + case SSL_REUSE_SERVER_ECDHE_KEY: + val = ssl_defaults.reuseServerECDHEKey; + break; + case SSL_ENABLE_FALLBACK_SCSV: + val = ssl_defaults.enableFallbackSCSV; + break; + case SSL_ENABLE_SERVER_DHE: + val = ssl_defaults.enableServerDhe; + break; + case SSL_ENABLE_EXTENDED_MASTER_SECRET: + val = ssl_defaults.enableExtendedMS; + break; + case SSL_ENABLE_SIGNED_CERT_TIMESTAMPS: + val = ssl_defaults.enableSignedCertTimestamps; + break; + case SSL_ENABLE_0RTT_DATA: + val = ssl_defaults.enable0RttData; + break; + case SSL_RECORD_SIZE_LIMIT: + val = ssl_defaults.recordSizeLimit; + break; + case SSL_ENABLE_TLS13_COMPAT_MODE: + val = ssl_defaults.enableTls13CompatMode; + break; + case SSL_ENABLE_DTLS_SHORT_HEADER: + val = ssl_defaults.enableDtlsShortHeader; + break; + case SSL_ENABLE_HELLO_DOWNGRADE_CHECK: + val = ssl_defaults.enableHelloDowngradeCheck; + break; + case SSL_ENABLE_V2_COMPATIBLE_HELLO: + val = ssl_defaults.enableV2CompatibleHello; + break; + case SSL_ENABLE_POST_HANDSHAKE_AUTH: + val = ssl_defaults.enablePostHandshakeAuth; + break; + case SSL_SUPPRESS_END_OF_EARLY_DATA: + val = ssl_defaults.suppressEndOfEarlyData; + break; + default: + PORT_SetError(SEC_ERROR_INVALID_ARGS); + rv = SECFailure; + } + + *pVal = val; + return rv; +} + +/* XXX Use Global Lock to protect this stuff. */ +SECStatus +SSL_EnableDefault(int which, PRIntn val) +{ + return SSL_OptionSetDefault(which, val); +} + +SECStatus +SSL_OptionSetDefault(PRInt32 which, PRIntn val) +{ + SECStatus status = ssl_Init(); + + if (status != SECSuccess) { + return status; + } + + ssl_SetDefaultsFromEnvironment(); + + switch (which) { + case SSL_SOCKS: + ssl_defaults.useSocks = PR_FALSE; + if (val) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return SECFailure; + } + break; + + case SSL_SECURITY: + ssl_defaults.useSecurity = val; + break; + + case SSL_REQUEST_CERTIFICATE: + ssl_defaults.requestCertificate = val; + break; + + case SSL_REQUIRE_CERTIFICATE: + ssl_defaults.requireCertificate = val; + break; + + case SSL_HANDSHAKE_AS_CLIENT: + if (ssl_defaults.handshakeAsServer && val) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return SECFailure; + } + ssl_defaults.handshakeAsClient = val; + break; + + case SSL_HANDSHAKE_AS_SERVER: + if (ssl_defaults.handshakeAsClient && val) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return SECFailure; + } + ssl_defaults.handshakeAsServer = val; + break; + + case SSL_ENABLE_TLS: + ssl_EnableTLS(&versions_defaults_stream, val); + break; + + case SSL_ENABLE_SSL3: + ssl_EnableSSL3(&versions_defaults_stream, val); + break; + + case SSL_ENABLE_SSL2: + case SSL_V2_COMPATIBLE_HELLO: + /* We no longer support SSL v2. + * However, if an old application requests to disable SSL v2, + * we shouldn't fail. + */ + if (val) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return SECFailure; + } + break; + + case SSL_NO_CACHE: + ssl_defaults.noCache = val; + break; + + case SSL_ENABLE_FDX: + if (val && ssl_defaults.noLocks) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return SECFailure; + } + ssl_defaults.fdx = val; + break; + + case SSL_ROLLBACK_DETECTION: + ssl_defaults.detectRollBack = val; + break; + + case SSL_NO_STEP_DOWN: + break; + + case SSL_BYPASS_PKCS11: + break; + + case SSL_NO_LOCKS: + if (val && ssl_defaults.fdx) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return SECFailure; + } + if (val && ssl_force_locks) + val = PR_FALSE; /* silent override */ + ssl_defaults.noLocks = val; + if (val) { + locksEverDisabled = PR_TRUE; + strcpy(lockStatus + LOCKSTATUS_OFFSET, "DISABLED."); + } + break; + + case SSL_ENABLE_SESSION_TICKETS: + ssl_defaults.enableSessionTickets = val; + break; + + case SSL_ENABLE_DEFLATE: + ssl_defaults.enableDeflate = val; + break; + + case SSL_ENABLE_RENEGOTIATION: + ssl_defaults.enableRenegotiation = val; + break; + + case SSL_REQUIRE_SAFE_NEGOTIATION: + ssl_defaults.requireSafeNegotiation = val; + break; + + case SSL_ENABLE_FALSE_START: + ssl_defaults.enableFalseStart = val; + break; + + case SSL_CBC_RANDOM_IV: + ssl_defaults.cbcRandomIV = val; + break; + + case SSL_ENABLE_OCSP_STAPLING: + ssl_defaults.enableOCSPStapling = val; + break; + + case SSL_ENABLE_DELEGATED_CREDENTIALS: + ssl_defaults.enableDelegatedCredentials = val; + break; + + case SSL_ENABLE_NPN: + break; + + case SSL_ENABLE_ALPN: + ssl_defaults.enableALPN = val; + break; + + case SSL_REUSE_SERVER_ECDHE_KEY: + ssl_defaults.reuseServerECDHEKey = val; + break; + + case SSL_ENABLE_FALLBACK_SCSV: + ssl_defaults.enableFallbackSCSV = val; + break; + + case SSL_ENABLE_SERVER_DHE: + ssl_defaults.enableServerDhe = val; + break; + + case SSL_ENABLE_EXTENDED_MASTER_SECRET: + ssl_defaults.enableExtendedMS = val; + break; + + case SSL_ENABLE_SIGNED_CERT_TIMESTAMPS: + ssl_defaults.enableSignedCertTimestamps = val; + break; + + case SSL_ENABLE_0RTT_DATA: + ssl_defaults.enable0RttData = val; + break; + + case SSL_RECORD_SIZE_LIMIT: + if (val < 64 || val > (MAX_FRAGMENT_LENGTH + 1)) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return SECFailure; + } + ssl_defaults.recordSizeLimit = val; + break; + + case SSL_ENABLE_TLS13_COMPAT_MODE: + ssl_defaults.enableTls13CompatMode = val; + break; + + case SSL_ENABLE_DTLS_SHORT_HEADER: + ssl_defaults.enableDtlsShortHeader = val; + break; + + case SSL_ENABLE_HELLO_DOWNGRADE_CHECK: + ssl_defaults.enableHelloDowngradeCheck = val; + break; + + case SSL_ENABLE_V2_COMPATIBLE_HELLO: + ssl_defaults.enableV2CompatibleHello = val; + break; + + case SSL_ENABLE_POST_HANDSHAKE_AUTH: + ssl_defaults.enablePostHandshakeAuth = val; + break; + + case SSL_SUPPRESS_END_OF_EARLY_DATA: + ssl_defaults.suppressEndOfEarlyData = val; + break; + + default: + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return SECFailure; + } + return SECSuccess; +} + +SECStatus +SSLExp_SetMaxEarlyDataSize(PRFileDesc *fd, PRUint32 size) +{ + sslSocket *ss = ssl_FindSocket(fd); + if (!ss) { + return SECFailure; /* Error code already set. */ + } + + ss->opt.maxEarlyDataSize = size; + return SECSuccess; +} + +/* function tells us if the cipher suite is one that we no longer support. */ +static PRBool +ssl_IsRemovedCipherSuite(PRInt32 suite) +{ + switch (suite) { + case SSL_FORTEZZA_DMS_WITH_NULL_SHA: + case SSL_FORTEZZA_DMS_WITH_FORTEZZA_CBC_SHA: + case SSL_FORTEZZA_DMS_WITH_RC4_128_SHA: + return PR_TRUE; + default: + return PR_FALSE; + } +} + +/* Part of the public NSS API. + * Since this is a global (not per-socket) setting, we cannot use the + * HandshakeLock to protect this. Probably want a global lock. + */ +SECStatus +SSL_SetPolicy(long which, int policy) +{ + if (ssl_IsRemovedCipherSuite(which)) + return SECSuccess; + return SSL_CipherPolicySet(which, policy); +} + +SECStatus +ssl_CipherPolicySet(PRInt32 which, PRInt32 policy) +{ + SECStatus rv = SECSuccess; + + if (ssl_IsRemovedCipherSuite(which)) { + rv = SECSuccess; + } else { + rv = ssl3_SetPolicy((ssl3CipherSuite)which, policy); + } + return rv; +} +SECStatus +SSL_CipherPolicySet(PRInt32 which, PRInt32 policy) +{ + SECStatus rv = ssl_Init(); + + if (rv != SECSuccess) { + return rv; + } + if (NSS_IsPolicyLocked()) { + PORT_SetError(SEC_ERROR_POLICY_LOCKED); + return SECFailure; + } + return ssl_CipherPolicySet(which, policy); +} + +SECStatus +SSL_CipherPolicyGet(PRInt32 which, PRInt32 *oPolicy) +{ + SECStatus rv; + + if (!oPolicy) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return SECFailure; + } + if (ssl_IsRemovedCipherSuite(which)) { + *oPolicy = SSL_NOT_ALLOWED; + rv = SECSuccess; + } else { + rv = ssl3_GetPolicy((ssl3CipherSuite)which, oPolicy); + } + return rv; +} + +/* Part of the public NSS API. + * Since this is a global (not per-socket) setting, we cannot use the + * HandshakeLock to protect this. Probably want a global lock. + * These changes have no effect on any sslSockets already created. + */ +SECStatus +SSL_EnableCipher(long which, PRBool enabled) +{ + if (ssl_IsRemovedCipherSuite(which)) + return SECSuccess; + return SSL_CipherPrefSetDefault(which, enabled); +} + +SECStatus +ssl_CipherPrefSetDefault(PRInt32 which, PRBool enabled) +{ + if (ssl_IsRemovedCipherSuite(which)) + return SECSuccess; + return ssl3_CipherPrefSetDefault((ssl3CipherSuite)which, enabled); +} + +SECStatus +SSL_CipherPrefSetDefault(PRInt32 which, PRBool enabled) +{ + SECStatus rv = ssl_Init(); + PRInt32 locks; + + if (rv != SECSuccess) { + return rv; + } + rv = NSS_OptionGet(NSS_DEFAULT_LOCKS, &locks); + if ((rv == SECSuccess) && (locks & NSS_DEFAULT_SSL_LOCK)) { + return SECSuccess; + } + return ssl_CipherPrefSetDefault(which, enabled); +} + +SECStatus +SSL_CipherPrefGetDefault(PRInt32 which, PRBool *enabled) +{ + SECStatus rv; + + if (!enabled) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return SECFailure; + } + if (ssl_IsRemovedCipherSuite(which)) { + *enabled = PR_FALSE; + rv = SECSuccess; + } else { + rv = ssl3_CipherPrefGetDefault((ssl3CipherSuite)which, enabled); + } + return rv; +} + +SECStatus +SSL_CipherPrefSet(PRFileDesc *fd, PRInt32 which, PRBool enabled) +{ + sslSocket *ss = ssl_FindSocket(fd); + PRInt32 locks; + SECStatus rv; + + if (!ss) { + SSL_DBG(("%d: SSL[%d]: bad socket in CipherPrefSet", SSL_GETPID(), fd)); + return SECFailure; + } + rv = NSS_OptionGet(NSS_DEFAULT_LOCKS, &locks); + if ((rv == SECSuccess) && (locks & NSS_DEFAULT_SSL_LOCK)) { + return SECSuccess; + } + if (ssl_IsRemovedCipherSuite(which)) + return SECSuccess; + return ssl3_CipherPrefSet(ss, (ssl3CipherSuite)which, enabled); +} + +SECStatus +SSL_CipherPrefGet(PRFileDesc *fd, PRInt32 which, PRBool *enabled) +{ + SECStatus rv; + sslSocket *ss = ssl_FindSocket(fd); + + if (!enabled) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return SECFailure; + } + if (!ss) { + SSL_DBG(("%d: SSL[%d]: bad socket in CipherPrefGet", SSL_GETPID(), fd)); + *enabled = PR_FALSE; + return SECFailure; + } + if (ssl_IsRemovedCipherSuite(which)) { + *enabled = PR_FALSE; + rv = SECSuccess; + } else { + rv = ssl3_CipherPrefGet(ss, (ssl3CipherSuite)which, enabled); + } + return rv; +} + +/* The client can call this function to be aware of the current + * CipherSuites order. */ +SECStatus +SSLExp_CipherSuiteOrderGet(PRFileDesc *fd, PRUint16 *cipherOrder, + unsigned int *numCiphers) +{ + if (!fd) { + SSL_DBG(("%d: SSL: file descriptor in CipherSuiteOrderGet is null", + SSL_GETPID())); + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return SECFailure; + } + if (!cipherOrder || !numCiphers) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return SECFailure; + } + sslSocket *ss = ssl_FindSocket(fd); + if (!ss) { + SSL_DBG(("%d: SSL[%d]: bad socket in CipherSuiteOrderGet", SSL_GETPID(), + fd)); + return SECFailure; /* Error code already set. */ + } + + unsigned int enabled = 0; + ssl_Get1stHandshakeLock(ss); + ssl_GetSSL3HandshakeLock(ss); + for (unsigned int i = 0; i < ssl_V3_SUITES_IMPLEMENTED; i++) { + const ssl3CipherSuiteCfg *suiteCfg = &ss->cipherSuites[i]; + if (suiteCfg && suiteCfg->enabled && + suiteCfg->policy != SSL_NOT_ALLOWED) { + cipherOrder[enabled++] = suiteCfg->cipher_suite; + } + } + ssl_ReleaseSSL3HandshakeLock(ss); + ssl_Release1stHandshakeLock(ss); + *numCiphers = enabled; + return SECSuccess; +} + +/* This function permits reorder the CipherSuites List for the Handshake + * (Client Hello). */ +SECStatus +SSLExp_CipherSuiteOrderSet(PRFileDesc *fd, const PRUint16 *cipherOrder, + unsigned int numCiphers) +{ + if (!fd) { + SSL_DBG(("%d: SSL: file descriptor in CipherSuiteOrderGet is null", + SSL_GETPID())); + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return SECFailure; + } + if (!cipherOrder || !numCiphers || numCiphers > ssl_V3_SUITES_IMPLEMENTED) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return SECFailure; + } + sslSocket *ss = ssl_FindSocket(fd); + if (!ss) { + SSL_DBG(("%d: SSL[%d]: bad socket in CipherSuiteOrderSet", SSL_GETPID(), + fd)); + return SECFailure; /* Error code already set. */ + } + ssl3CipherSuiteCfg tmpSuiteCfg[ssl_V3_SUITES_IMPLEMENTED]; + ssl_Get1stHandshakeLock(ss); + ssl_GetSSL3HandshakeLock(ss); + /* For each cipherSuite given as input, verify that it is + * known to NSS and only present in the list once. */ + for (unsigned int i = 0; i < numCiphers; i++) { + const ssl3CipherSuiteCfg *suiteCfg = + ssl_LookupCipherSuiteCfg(cipherOrder[i], ss->cipherSuites); + if (!suiteCfg) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + ssl_ReleaseSSL3HandshakeLock(ss); + ssl_Release1stHandshakeLock(ss); + return SECFailure; + } + for (unsigned int j = i + 1; j < numCiphers; j++) { + /* This is a duplicate entry. */ + if (cipherOrder[i] == cipherOrder[j]) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + ssl_ReleaseSSL3HandshakeLock(ss); + ssl_Release1stHandshakeLock(ss); + return SECFailure; + } + } + tmpSuiteCfg[i] = *suiteCfg; + tmpSuiteCfg[i].enabled = PR_TRUE; + } + /* Find all defined ciphersuites not present in the input list and append + * them after the preferred. This guarantees that the socket will always + * have a complete list of size ssl_V3_SUITES_IMPLEMENTED */ + unsigned int cfgIdx = numCiphers; + for (unsigned int i = 0; i < ssl_V3_SUITES_IMPLEMENTED; i++) { + PRBool received = PR_FALSE; + for (unsigned int j = 0; j < numCiphers; j++) { + if (ss->cipherSuites[i].cipher_suite == + tmpSuiteCfg[j].cipher_suite) { + received = PR_TRUE; + break; + } + } + if (!received) { + tmpSuiteCfg[cfgIdx] = ss->cipherSuites[i]; + tmpSuiteCfg[cfgIdx++].enabled = PR_FALSE; + } + } + PORT_Assert(cfgIdx == ssl_V3_SUITES_IMPLEMENTED); + /* now we can rewrite the socket with the desired order */ + PORT_Memcpy(ss->cipherSuites, tmpSuiteCfg, sizeof(tmpSuiteCfg)); + ssl_ReleaseSSL3HandshakeLock(ss); + ssl_Release1stHandshakeLock(ss); + return SECSuccess; +} + +SECStatus +NSS_SetDomesticPolicy(void) +{ + SECStatus status = SECSuccess; + const PRUint16 *cipher; + SECStatus rv; + PRUint32 policy; + + /* If we've already defined some policy oids, skip changing them */ + rv = NSS_GetAlgorithmPolicy(SEC_OID_APPLY_SSL_POLICY, &policy); + if ((rv == SECSuccess) && (policy & NSS_USE_POLICY_IN_SSL)) { + return ssl_Init(); /* make sure the policies have been loaded */ + } + + for (cipher = SSL_ImplementedCiphers; *cipher != 0; ++cipher) { + status = SSL_SetPolicy(*cipher, SSL_ALLOWED); + if (status != SECSuccess) + break; + } + return status; +} + +SECStatus +NSS_SetExportPolicy(void) +{ + return NSS_SetDomesticPolicy(); +} + +SECStatus +NSS_SetFrancePolicy(void) +{ + return NSS_SetDomesticPolicy(); +} + +SECStatus +SSL_NamedGroupConfig(PRFileDesc *fd, const SSLNamedGroup *groups, + unsigned int numGroups) +{ + unsigned int i; + unsigned int j = 0; + sslSocket *ss = ssl_FindSocket(fd); + + if (!ss) { + PORT_SetError(SEC_ERROR_NOT_INITIALIZED); + return SECFailure; + } + + if (!groups) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return SECFailure; + } + if (numGroups > SSL_NAMED_GROUP_COUNT) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return SECFailure; + } + + memset((void *)ss->namedGroupPreferences, 0, + sizeof(ss->namedGroupPreferences)); + for (i = 0; i < numGroups; ++i) { + const sslNamedGroupDef *groupDef = ssl_LookupNamedGroup(groups[i]); + if (!ssl_NamedGroupEnabled(ss, groupDef)) { + ss->namedGroupPreferences[j++] = groupDef; + } + } + + return SECSuccess; +} + +SECStatus +SSL_DHEGroupPrefSet(PRFileDesc *fd, const SSLDHEGroupType *groups, + PRUint16 num_groups) +{ + sslSocket *ss; + const SSLDHEGroupType *list; + unsigned int count; + int i, k, j; + const sslNamedGroupDef *enabled[SSL_NAMED_GROUP_COUNT] = { 0 }; + static const SSLDHEGroupType default_dhe_groups[] = { + ssl_ff_dhe_2048_group + }; + + if ((num_groups && !groups) || (!num_groups && groups) || + num_groups > SSL_NAMED_GROUP_COUNT) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return SECFailure; + } + + ss = ssl_FindSocket(fd); + if (!ss) { + SSL_DBG(("%d: SSL[%d]: bad socket in SSL_DHEGroupPrefSet", SSL_GETPID(), fd)); + return SECFailure; + } + + if (groups) { + list = groups; + count = num_groups; + } else { + list = default_dhe_groups; + count = PR_ARRAY_SIZE(default_dhe_groups); + } + + /* save enabled ec groups and clear ss->namedGroupPreferences */ + k = 0; + for (i = 0; i < SSL_NAMED_GROUP_COUNT; ++i) { + if (ss->namedGroupPreferences[i] && + ss->namedGroupPreferences[i]->keaType != ssl_kea_dh) { + enabled[k++] = ss->namedGroupPreferences[i]; + } + ss->namedGroupPreferences[i] = NULL; + } + + ss->ssl3.dhePreferredGroup = NULL; + for (i = 0; i < count; ++i) { + PRBool duplicate = PR_FALSE; + SSLNamedGroup name; + const sslNamedGroupDef *groupDef; + switch (list[i]) { + case ssl_ff_dhe_2048_group: + name = ssl_grp_ffdhe_2048; + break; + case ssl_ff_dhe_3072_group: + name = ssl_grp_ffdhe_3072; + break; + case ssl_ff_dhe_4096_group: + name = ssl_grp_ffdhe_4096; + break; + case ssl_ff_dhe_6144_group: + name = ssl_grp_ffdhe_6144; + break; + case ssl_ff_dhe_8192_group: + name = ssl_grp_ffdhe_8192; + break; + default: + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return SECFailure; + } + groupDef = ssl_LookupNamedGroup(name); + PORT_Assert(groupDef); + if (!ss->ssl3.dhePreferredGroup) { + ss->ssl3.dhePreferredGroup = groupDef; + } + PORT_Assert(k < SSL_NAMED_GROUP_COUNT); + for (j = 0; j < k; ++j) { + /* skip duplicates */ + if (enabled[j] == groupDef) { + duplicate = PR_TRUE; + break; + } + } + if (!duplicate) { + enabled[k++] = groupDef; + } + } + for (i = 0; i < k; ++i) { + ss->namedGroupPreferences[i] = enabled[i]; + } + + return SECSuccess; +} + +PRCallOnceType gWeakDHParamsRegisterOnce; +int gWeakDHParamsRegisterError; + +PRCallOnceType gWeakDHParamsOnce; +int gWeakDHParamsError; +/* As our code allocates type PQGParams, we'll keep it around, + * even though we only make use of it's parameters through gWeakDHParam. */ +static PQGParams *gWeakParamsPQG; +static ssl3DHParams *gWeakDHParams; +#define WEAK_DHE_SIZE 1024 + +static PRStatus +ssl3_CreateWeakDHParams(void) +{ + PQGVerify *vfy; + SECStatus rv, passed; + + PORT_Assert(!gWeakDHParams && !gWeakParamsPQG); + + rv = PK11_PQG_ParamGenV2(WEAK_DHE_SIZE, 160, 64 /*maximum seed that will work*/, + &gWeakParamsPQG, &vfy); + if (rv != SECSuccess) { + gWeakDHParamsError = PORT_GetError(); + return PR_FAILURE; + } + + rv = PK11_PQG_VerifyParams(gWeakParamsPQG, vfy, &passed); + if (rv != SECSuccess || passed != SECSuccess) { + SSL_DBG(("%d: PK11_PQG_VerifyParams failed in ssl3_CreateWeakDHParams", + SSL_GETPID())); + gWeakDHParamsError = PORT_GetError(); + return PR_FAILURE; + } + + gWeakDHParams = PORT_ArenaNew(gWeakParamsPQG->arena, ssl3DHParams); + if (!gWeakDHParams) { + gWeakDHParamsError = PORT_GetError(); + return PR_FAILURE; + } + + gWeakDHParams->name = ssl_grp_ffdhe_custom; + gWeakDHParams->prime.data = gWeakParamsPQG->prime.data; + gWeakDHParams->prime.len = gWeakParamsPQG->prime.len; + gWeakDHParams->base.data = gWeakParamsPQG->base.data; + gWeakDHParams->base.len = gWeakParamsPQG->base.len; + + PK11_PQG_DestroyVerify(vfy); + return PR_SUCCESS; +} + +static SECStatus +ssl3_WeakDHParamsShutdown(void *appData, void *nssData) +{ + if (gWeakParamsPQG) { + PK11_PQG_DestroyParams(gWeakParamsPQG); + gWeakParamsPQG = NULL; + gWeakDHParams = NULL; + } + return SECSuccess; +} + +static PRStatus +ssl3_WeakDHParamsRegisterShutdown(void) +{ + SECStatus rv; + rv = NSS_RegisterShutdown(ssl3_WeakDHParamsShutdown, NULL); + if (rv != SECSuccess) { + gWeakDHParamsRegisterError = PORT_GetError(); + } + return (PRStatus)rv; +} + +/* global init strategy inspired by ssl3_CreateECDHEphemeralKeys */ +SECStatus +SSL_EnableWeakDHEPrimeGroup(PRFileDesc *fd, PRBool enabled) +{ + sslSocket *ss; + PRStatus status; + + if (enabled) { + status = PR_CallOnce(&gWeakDHParamsRegisterOnce, + ssl3_WeakDHParamsRegisterShutdown); + if (status != PR_SUCCESS) { + PORT_SetError(gWeakDHParamsRegisterError); + return SECFailure; + } + + status = PR_CallOnce(&gWeakDHParamsOnce, ssl3_CreateWeakDHParams); + if (status != PR_SUCCESS) { + PORT_SetError(gWeakDHParamsError); + return SECFailure; + } + } + + if (!fd) + return SECSuccess; + + ss = ssl_FindSocket(fd); + if (!ss) { + SSL_DBG(("%d: SSL[%d]: bad socket in SSL_DHEGroupPrefSet", SSL_GETPID(), fd)); + return SECFailure; + } + + ss->ssl3.dheWeakGroupEnabled = enabled; + return SECSuccess; +} + +#include "dhe-param.c" + +const ssl3DHParams * +ssl_GetDHEParams(const sslNamedGroupDef *groupDef) +{ + switch (groupDef->name) { + case ssl_grp_ffdhe_2048: + return &ff_dhe_2048_params; + case ssl_grp_ffdhe_3072: + return &ff_dhe_3072_params; + case ssl_grp_ffdhe_4096: + return &ff_dhe_4096_params; + case ssl_grp_ffdhe_6144: + return &ff_dhe_6144_params; + case ssl_grp_ffdhe_8192: + return &ff_dhe_8192_params; + case ssl_grp_ffdhe_custom: + PORT_Assert(gWeakDHParams); + return gWeakDHParams; + default: + PORT_Assert(0); + } + return NULL; +} + +/* This validates dh_Ys against the group prime. */ +PRBool +ssl_IsValidDHEShare(const SECItem *dh_p, const SECItem *dh_Ys) +{ + unsigned int size_p = SECKEY_BigIntegerBitLength(dh_p); + unsigned int size_y = SECKEY_BigIntegerBitLength(dh_Ys); + unsigned int commonPart; + int cmp; + + if (dh_p->len == 0 || dh_Ys->len == 0) { + return PR_FALSE; + } + /* Check that the prime is at least odd. */ + if ((dh_p->data[dh_p->len - 1] & 0x01) == 0) { + return PR_FALSE; + } + /* dh_Ys can't be 1, or bigger than dh_p. */ + if (size_y <= 1 || size_y > size_p) { + return PR_FALSE; + } + /* If dh_Ys is shorter, then it's definitely smaller than p-1. */ + if (size_y < size_p) { + return PR_TRUE; + } + + /* Compare the common part of each, minus the final octet. */ + commonPart = (size_p + 7) / 8; + PORT_Assert(commonPart <= dh_Ys->len); + PORT_Assert(commonPart <= dh_p->len); + cmp = PORT_Memcmp(dh_Ys->data + dh_Ys->len - commonPart, + dh_p->data + dh_p->len - commonPart, commonPart - 1); + if (cmp < 0) { + return PR_TRUE; + } + if (cmp > 0) { + return PR_FALSE; + } + + /* The last octet of the prime is the only thing that is different and that + * has to be two greater than the share, otherwise we have Ys == p - 1, + * and that means small subgroups. */ + if (dh_Ys->data[dh_Ys->len - 1] >= (dh_p->data[dh_p->len - 1] - 1)) { + return PR_FALSE; + } + + return PR_TRUE; +} + +/* Checks that the provided DH parameters match those in one of the named groups + * that we have enabled. The groups are defined in dhe-param.c and are those + * defined in Appendix A of draft-ietf-tls-negotiated-ff-dhe. + * + * |groupDef| and |dhParams| are optional outparams that identify the group and + * its parameters respectively (if this is successful). */ +SECStatus +ssl_ValidateDHENamedGroup(sslSocket *ss, + const SECItem *dh_p, + const SECItem *dh_g, + const sslNamedGroupDef **groupDef, + const ssl3DHParams **dhParams) +{ + unsigned int i; + + for (i = 0; i < SSL_NAMED_GROUP_COUNT; ++i) { + const ssl3DHParams *params; + if (!ss->namedGroupPreferences[i]) { + continue; + } + if (ss->namedGroupPreferences[i]->keaType != ssl_kea_dh) { + continue; + } + + params = ssl_GetDHEParams(ss->namedGroupPreferences[i]); + PORT_Assert(params); + if (SECITEM_ItemsAreEqual(¶ms->prime, dh_p)) { + if (!SECITEM_ItemsAreEqual(¶ms->base, dh_g)) { + return SECFailure; + } + if (groupDef) + *groupDef = ss->namedGroupPreferences[i]; + if (dhParams) + *dhParams = params; + return SECSuccess; + } + } + + return SECFailure; +} + +/* Ensure DH parameters have been selected. This just picks the first enabled + * FFDHE group in ssl_named_groups, or the weak one if it was enabled. */ +SECStatus +ssl_SelectDHEGroup(sslSocket *ss, const sslNamedGroupDef **groupDef) +{ + unsigned int i; + static const sslNamedGroupDef weak_group_def = { + ssl_grp_ffdhe_custom, WEAK_DHE_SIZE, ssl_kea_dh, + SEC_OID_TLS_DHE_CUSTOM, PR_TRUE + }; + PRInt32 minDH; + SECStatus rv; + + // make sure we select a group consistent with our + // current policy policy + rv = NSS_OptionGet(NSS_DH_MIN_KEY_SIZE, &minDH); + if (rv != SECSuccess || minDH <= 0) { + minDH = DH_MIN_P_BITS; + } + + /* Only select weak groups in TLS 1.2 and earlier, but not if the client has + * indicated that it supports an FFDHE named group. */ + if (ss->ssl3.dheWeakGroupEnabled && + ss->version < SSL_LIBRARY_VERSION_TLS_1_3 && + !ss->xtnData.peerSupportsFfdheGroups && + weak_group_def.bits >= minDH) { + *groupDef = &weak_group_def; + return SECSuccess; + } + if (ss->ssl3.dhePreferredGroup && + ssl_NamedGroupEnabled(ss, ss->ssl3.dhePreferredGroup) && + ss->ssl3.dhePreferredGroup->bits >= minDH) { + *groupDef = ss->ssl3.dhePreferredGroup; + return SECSuccess; + } + for (i = 0; i < SSL_NAMED_GROUP_COUNT; ++i) { + if (ss->namedGroupPreferences[i] && + ss->namedGroupPreferences[i]->keaType == ssl_kea_dh && + ss->namedGroupPreferences[i]->bits >= minDH) { + *groupDef = ss->namedGroupPreferences[i]; + return SECSuccess; + } + } + + *groupDef = NULL; + PORT_SetError(SSL_ERROR_NO_CYPHER_OVERLAP); + return SECFailure; +} + +/* LOCKS ??? XXX */ +static PRFileDesc * +ssl_ImportFD(PRFileDesc *model, PRFileDesc *fd, SSLProtocolVariant variant) +{ + sslSocket *ns = NULL; + PRStatus rv; + PRNetAddr addr; + SECStatus status = ssl_Init(); + + if (status != SECSuccess) { + return NULL; + } + + if (model == NULL) { + /* Just create a default socket if we're given NULL for the model */ + ns = ssl_NewSocket((PRBool)(!ssl_defaults.noLocks), variant); + } else { + sslSocket *ss = ssl_FindSocket(model); + if (ss == NULL || ss->protocolVariant != variant) { + SSL_DBG(("%d: SSL[%d]: bad model socket in ssl_ImportFD", + SSL_GETPID(), model)); + return NULL; + } + ns = ssl_DupSocket(ss); + } + if (ns == NULL) + return NULL; + + rv = ssl_PushIOLayer(ns, fd, PR_TOP_IO_LAYER); + if (rv != PR_SUCCESS) { + ssl_FreeSocket(ns); + PORT_SetError(SEC_ERROR_LIBRARY_FAILURE); + return NULL; + } +#if defined(DEBUG) || defined(FORCE_PR_ASSERT) + { + sslSocket *ss = ssl_FindSocket(fd); + PORT_Assert(ss == ns); + } +#endif + ns->TCPconnected = (PR_SUCCESS == ssl_DefGetpeername(ns, &addr)); + return fd; +} + +PRFileDesc * +SSL_ImportFD(PRFileDesc *model, PRFileDesc *fd) +{ + return ssl_ImportFD(model, fd, ssl_variant_stream); +} + +PRFileDesc * +DTLS_ImportFD(PRFileDesc *model, PRFileDesc *fd) +{ + return ssl_ImportFD(model, fd, ssl_variant_datagram); +} + +/* SSL_SetNextProtoCallback is used to select an application protocol + * for ALPN. */ +SECStatus +SSL_SetNextProtoCallback(PRFileDesc *fd, SSLNextProtoCallback callback, + void *arg) +{ + sslSocket *ss = ssl_FindSocket(fd); + + if (!ss) { + SSL_DBG(("%d: SSL[%d]: bad socket in SSL_SetNextProtoCallback", SSL_GETPID(), + fd)); + return SECFailure; + } + + ssl_GetSSL3HandshakeLock(ss); + ss->nextProtoCallback = callback; + ss->nextProtoArg = arg; + ssl_ReleaseSSL3HandshakeLock(ss); + + return SECSuccess; +} + +/* ssl_NextProtoNegoCallback is set as an ALPN callback when + * SSL_SetNextProtoNego is used. + */ +static SECStatus +ssl_NextProtoNegoCallback(void *arg, PRFileDesc *fd, + const unsigned char *protos, unsigned int protos_len, + unsigned char *protoOut, unsigned int *protoOutLen, + unsigned int protoMaxLen) +{ + unsigned int i, j; + sslSocket *ss = ssl_FindSocket(fd); + if (!ss) { + SSL_DBG(("%d: SSL[%d]: bad socket in ssl_NextProtoNegoCallback", + SSL_GETPID(), fd)); + return SECFailure; + } + if (ss->opt.nextProtoNego.len == 0) { + SSL_DBG(("%d: SSL[%d]: ssl_NextProtoNegoCallback ALPN disabled", + SSL_GETPID(), fd)); + SSL3_SendAlert(ss, alert_fatal, unsupported_extension); + return SECFailure; + } + + PORT_Assert(protoMaxLen <= 255); + if (protoMaxLen > 255) { + PORT_SetError(SEC_ERROR_OUTPUT_LEN); + return SECFailure; + } + + /* For each protocol in client preference, see if we support it. */ + for (j = 0; j < ss->opt.nextProtoNego.len;) { + for (i = 0; i < protos_len;) { + if (protos[i] == ss->opt.nextProtoNego.data[j] && + PORT_Memcmp(&protos[i + 1], &ss->opt.nextProtoNego.data[j + 1], + protos[i]) == 0) { + /* We found a match. */ + const unsigned char *result = &protos[i]; + memcpy(protoOut, result + 1, result[0]); + *protoOutLen = result[0]; + return SECSuccess; + } + i += 1 + (unsigned int)protos[i]; + } + j += 1 + (unsigned int)ss->opt.nextProtoNego.data[j]; + } + + return SECSuccess; +} + +SECStatus +SSL_SetNextProtoNego(PRFileDesc *fd, const unsigned char *data, + unsigned int length) +{ + sslSocket *ss; + + ss = ssl_FindSocket(fd); + if (!ss) { + SSL_DBG(("%d: SSL[%d]: bad socket in SSL_SetNextProtoNego", + SSL_GETPID(), fd)); + return SECFailure; + } + + if (length > 0 && ssl3_ValidateAppProtocol(data, length) != SECSuccess) { + return SECFailure; + } + + /* NPN required that the client's fallback protocol is first in the + * list. However, ALPN sends protocols in preference order. So move the + * first protocol to the end of the list. */ + ssl_GetSSL3HandshakeLock(ss); + SECITEM_FreeItem(&ss->opt.nextProtoNego, PR_FALSE); + if (length > 0) { + SECITEM_AllocItem(NULL, &ss->opt.nextProtoNego, length); + size_t firstLen = data[0] + 1; + /* firstLen <= length is ensured by ssl3_ValidateAppProtocol. */ + PORT_Memcpy(ss->opt.nextProtoNego.data + (length - firstLen), data, firstLen); + PORT_Memcpy(ss->opt.nextProtoNego.data, data + firstLen, length - firstLen); + } + ssl_ReleaseSSL3HandshakeLock(ss); + + return SSL_SetNextProtoCallback(fd, ssl_NextProtoNegoCallback, NULL); +} + +SECStatus +SSL_GetNextProto(PRFileDesc *fd, SSLNextProtoState *state, unsigned char *buf, + unsigned int *bufLen, unsigned int bufLenMax) +{ + sslSocket *ss = ssl_FindSocket(fd); + + if (!ss) { + SSL_DBG(("%d: SSL[%d]: bad socket in SSL_GetNextProto", SSL_GETPID(), + fd)); + return SECFailure; + } + + if (!state || !buf || !bufLen) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return SECFailure; + } + + *state = ss->xtnData.nextProtoState; + + if (ss->xtnData.nextProtoState != SSL_NEXT_PROTO_NO_SUPPORT && + ss->xtnData.nextProto.data) { + if (ss->xtnData.nextProto.len > bufLenMax) { + PORT_SetError(SEC_ERROR_OUTPUT_LEN); + return SECFailure; + } + PORT_Memcpy(buf, ss->xtnData.nextProto.data, ss->xtnData.nextProto.len); + *bufLen = ss->xtnData.nextProto.len; + } else { + *bufLen = 0; + } + + return SECSuccess; +} + +SECStatus +SSL_SetSRTPCiphers(PRFileDesc *fd, + const PRUint16 *ciphers, + unsigned int numCiphers) +{ + sslSocket *ss; + unsigned int i; + + ss = ssl_FindSocket(fd); + if (!ss || !IS_DTLS(ss)) { + SSL_DBG(("%d: SSL[%d]: bad socket in SSL_SetSRTPCiphers", + SSL_GETPID(), fd)); + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return SECFailure; + } + + if (numCiphers > MAX_DTLS_SRTP_CIPHER_SUITES) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return SECFailure; + } + + ss->ssl3.dtlsSRTPCipherCount = 0; + for (i = 0; i < numCiphers; i++) { + const PRUint16 *srtpCipher = srtpCiphers; + + while (*srtpCipher) { + if (ciphers[i] == *srtpCipher) + break; + srtpCipher++; + } + if (*srtpCipher) { + ss->ssl3.dtlsSRTPCiphers[ss->ssl3.dtlsSRTPCipherCount++] = + ciphers[i]; + } else { + SSL_DBG(("%d: SSL[%d]: invalid or unimplemented SRTP cipher " + "suite specified: 0x%04hx", + SSL_GETPID(), fd, + ciphers[i])); + } + } + + if (ss->ssl3.dtlsSRTPCipherCount == 0) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return SECFailure; + } + + return SECSuccess; +} + +SECStatus +SSL_GetSRTPCipher(PRFileDesc *fd, PRUint16 *cipher) +{ + sslSocket *ss; + + ss = ssl_FindSocket(fd); + if (!ss) { + SSL_DBG(("%d: SSL[%d]: bad socket in SSL_GetSRTPCipher", + SSL_GETPID(), fd)); + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return SECFailure; + } + + if (!ss->xtnData.dtlsSRTPCipherSuite) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return SECFailure; + } + + *cipher = ss->xtnData.dtlsSRTPCipherSuite; + return SECSuccess; +} + +PRFileDesc * +SSL_ReconfigFD(PRFileDesc *model, PRFileDesc *fd) +{ + sslSocket *sm = NULL, *ss = NULL; + PRCList *cursor; + SECStatus rv; + + if (model == NULL) { + PR_SetError(SEC_ERROR_INVALID_ARGS, 0); + return NULL; + } + sm = ssl_FindSocket(model); + if (sm == NULL) { + SSL_DBG(("%d: SSL[%d]: bad model socket in ssl_ReconfigFD", + SSL_GETPID(), model)); + return NULL; + } + ss = ssl_FindSocket(fd); + PORT_Assert(ss); + if (ss == NULL) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return NULL; + } + + ss->opt = sm->opt; + ss->vrange = sm->vrange; + ss->now = sm->now; + ss->nowArg = sm->nowArg; + PORT_Memcpy(ss->cipherSuites, sm->cipherSuites, sizeof sm->cipherSuites); + PORT_Memcpy(ss->ssl3.dtlsSRTPCiphers, sm->ssl3.dtlsSRTPCiphers, + sizeof(PRUint16) * sm->ssl3.dtlsSRTPCipherCount); + ss->ssl3.dtlsSRTPCipherCount = sm->ssl3.dtlsSRTPCipherCount; + PORT_Memcpy(ss->ssl3.signatureSchemes, sm->ssl3.signatureSchemes, + sizeof(ss->ssl3.signatureSchemes[0]) * + sm->ssl3.signatureSchemeCount); + ss->ssl3.signatureSchemeCount = sm->ssl3.signatureSchemeCount; + ss->ssl3.downgradeCheckVersion = sm->ssl3.downgradeCheckVersion; + + if (!ss->opt.useSecurity) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return NULL; + } + while (!PR_CLIST_IS_EMPTY(&ss->serverCerts)) { + cursor = PR_LIST_TAIL(&ss->serverCerts); + PR_REMOVE_LINK(cursor); + ssl_FreeServerCert((sslServerCert *)cursor); + } + for (cursor = PR_NEXT_LINK(&sm->serverCerts); + cursor != &sm->serverCerts; + cursor = PR_NEXT_LINK(cursor)) { + sslServerCert *sc = ssl_CopyServerCert((sslServerCert *)cursor); + if (!sc) + return NULL; + PR_APPEND_LINK(&sc->link, &ss->serverCerts); + } + + ssl_FreeEphemeralKeyPairs(ss); + for (cursor = PR_NEXT_LINK(&sm->ephemeralKeyPairs); + cursor != &sm->ephemeralKeyPairs; + cursor = PR_NEXT_LINK(cursor)) { + sslEphemeralKeyPair *mkp = (sslEphemeralKeyPair *)cursor; + sslEphemeralKeyPair *skp = ssl_CopyEphemeralKeyPair(mkp); + if (!skp) + return NULL; + PR_APPEND_LINK(&skp->link, &ss->ephemeralKeyPairs); + } + + while (!PR_CLIST_IS_EMPTY(&ss->extensionHooks)) { + cursor = PR_LIST_TAIL(&ss->extensionHooks); + PR_REMOVE_LINK(cursor); + PORT_Free(cursor); + } + for (cursor = PR_NEXT_LINK(&sm->extensionHooks); + cursor != &sm->extensionHooks; + cursor = PR_NEXT_LINK(cursor)) { + sslCustomExtensionHooks *hook = (sslCustomExtensionHooks *)cursor; + rv = SSL_InstallExtensionHooks(ss->fd, hook->type, + hook->writer, hook->writerArg, + hook->handler, hook->handlerArg); + if (rv != SECSuccess) { + return NULL; + } + } + + PORT_Memcpy((void *)ss->namedGroupPreferences, + sm->namedGroupPreferences, + sizeof(ss->namedGroupPreferences)); + ss->additionalShares = sm->additionalShares; + + /* copy trust anchor names */ + if (sm->ssl3.ca_list) { + if (ss->ssl3.ca_list) { + CERT_FreeDistNames(ss->ssl3.ca_list); + } + ss->ssl3.ca_list = CERT_DupDistNames(sm->ssl3.ca_list); + if (!ss->ssl3.ca_list) { + return NULL; + } + } + + /* Copy ECH. */ + tls13_DestroyEchConfigs(&ss->echConfigs); + SECKEY_DestroyPrivateKey(ss->echPrivKey); + SECKEY_DestroyPublicKey(ss->echPubKey); + rv = tls13_CopyEchConfigs(&sm->echConfigs, &ss->echConfigs); + if (rv != SECSuccess) { + return NULL; + } + if (sm->echPrivKey && sm->echPubKey) { + /* Might be client (no keys). */ + ss->echPrivKey = SECKEY_CopyPrivateKey(sm->echPrivKey); + ss->echPubKey = SECKEY_CopyPublicKey(sm->echPubKey); + if (!ss->echPrivKey || !ss->echPubKey) { + return NULL; + } + } + + /* Copy anti-replay context. */ + if (ss->antiReplay) { + tls13_ReleaseAntiReplayContext(ss->antiReplay); + ss->antiReplay = NULL; + } + if (sm->antiReplay) { + ss->antiReplay = tls13_RefAntiReplayContext(sm->antiReplay); + PORT_Assert(ss->antiReplay); + if (!ss->antiReplay) { + return NULL; + } + } + + tls13_ResetHandshakePsks(sm, &ss->ssl3.hs.psks); + + if (sm->authCertificate) + ss->authCertificate = sm->authCertificate; + if (sm->authCertificateArg) + ss->authCertificateArg = sm->authCertificateArg; + if (sm->getClientAuthData) + ss->getClientAuthData = sm->getClientAuthData; + if (sm->getClientAuthDataArg) + ss->getClientAuthDataArg = sm->getClientAuthDataArg; + if (sm->sniSocketConfig) + ss->sniSocketConfig = sm->sniSocketConfig; + if (sm->sniSocketConfigArg) + ss->sniSocketConfigArg = sm->sniSocketConfigArg; + if (sm->alertReceivedCallback) { + ss->alertReceivedCallback = sm->alertReceivedCallback; + ss->alertReceivedCallbackArg = sm->alertReceivedCallbackArg; + } + if (sm->alertSentCallback) { + ss->alertSentCallback = sm->alertSentCallback; + ss->alertSentCallbackArg = sm->alertSentCallbackArg; + } + if (sm->handleBadCert) + ss->handleBadCert = sm->handleBadCert; + if (sm->badCertArg) + ss->badCertArg = sm->badCertArg; + if (sm->handshakeCallback) + ss->handshakeCallback = sm->handshakeCallback; + if (sm->handshakeCallbackData) + ss->handshakeCallbackData = sm->handshakeCallbackData; + if (sm->pkcs11PinArg) + ss->pkcs11PinArg = sm->pkcs11PinArg; + + return fd; +} + +SECStatus +ssl3_GetEffectiveVersionPolicy(SSLProtocolVariant variant, + SSLVersionRange *effectivePolicy) +{ + SECStatus rv; + PRUint32 policyFlag; + PRInt32 minPolicy, maxPolicy; + + if (variant == ssl_variant_stream) { + effectivePolicy->min = SSL_LIBRARY_VERSION_MIN_SUPPORTED_STREAM; + effectivePolicy->max = SSL_LIBRARY_VERSION_MAX_SUPPORTED; + } else { + effectivePolicy->min = SSL_LIBRARY_VERSION_MIN_SUPPORTED_DATAGRAM; + effectivePolicy->max = SSL_LIBRARY_VERSION_MAX_SUPPORTED; + } + + rv = NSS_GetAlgorithmPolicy(SEC_OID_APPLY_SSL_POLICY, &policyFlag); + if ((rv != SECSuccess) || !(policyFlag & NSS_USE_POLICY_IN_SSL)) { + /* Policy is not active, report library extents. */ + return SECSuccess; + } + + rv = NSS_OptionGet(VERSIONS_POLICY_MIN(variant), &minPolicy); + if (rv != SECSuccess) { + return SECFailure; + } + rv = NSS_OptionGet(VERSIONS_POLICY_MAX(variant), &maxPolicy); + if (rv != SECSuccess) { + return SECFailure; + } + + if (minPolicy > effectivePolicy->max || + maxPolicy < effectivePolicy->min || + minPolicy > maxPolicy) { + return SECFailure; + } + effectivePolicy->min = PR_MAX(effectivePolicy->min, minPolicy); + effectivePolicy->max = PR_MIN(effectivePolicy->max, maxPolicy); + return SECSuccess; +} + +/* + * Assumes that rangeParam values are within the supported boundaries, + * but should contain all potentially allowed versions, even if they contain + * conflicting versions. + * Will return the overlap, or a NONE range if system policy is invalid. + */ +static SECStatus +ssl3_CreateOverlapWithPolicy(SSLProtocolVariant protocolVariant, + SSLVersionRange *input, + SSLVersionRange *overlap) +{ + SECStatus rv; + SSLVersionRange effectivePolicyBoundary; + SSLVersionRange vrange; + + PORT_Assert(input != NULL); + + rv = ssl3_GetEffectiveVersionPolicy(protocolVariant, + &effectivePolicyBoundary); + if (rv == SECFailure) { + /* SECFailure means internal failure or invalid configuration. */ + overlap->min = overlap->max = SSL_LIBRARY_VERSION_NONE; + return SECFailure; + } + + vrange.min = PR_MAX(input->min, effectivePolicyBoundary.min); + vrange.max = PR_MIN(input->max, effectivePolicyBoundary.max); + + if (vrange.max < vrange.min) { + /* there was no overlap, turn off range altogether */ + overlap->min = overlap->max = SSL_LIBRARY_VERSION_NONE; + return SECFailure; + } + + *overlap = vrange; + return SECSuccess; +} + +static PRBool +ssl_VersionIsSupportedByPolicy(SSLProtocolVariant protocolVariant, + SSL3ProtocolVersion version) +{ + SECStatus rv; + SSLVersionRange effectivePolicyBoundary; + + rv = ssl3_GetEffectiveVersionPolicy(protocolVariant, + &effectivePolicyBoundary); + if (rv == SECFailure) { + /* SECFailure means internal failure or invalid configuration. */ + return PR_FALSE; + } + return version >= effectivePolicyBoundary.min && + version <= effectivePolicyBoundary.max; +} + +/* + * This is called at SSL init time to constrain the existing range based + * on user supplied policy. + */ +SECStatus +ssl3_ConstrainRangeByPolicy(void) +{ + /* We ignore failures in ssl3_CreateOverlapWithPolicy. Although an empty + * overlap disables all connectivity, it's an allowed state. + */ + ssl3_CreateOverlapWithPolicy(ssl_variant_stream, + VERSIONS_DEFAULTS(ssl_variant_stream), + VERSIONS_DEFAULTS(ssl_variant_stream)); + ssl3_CreateOverlapWithPolicy(ssl_variant_datagram, + VERSIONS_DEFAULTS(ssl_variant_datagram), + VERSIONS_DEFAULTS(ssl_variant_datagram)); + return SECSuccess; +} + +PRBool +ssl3_VersionIsSupportedByCode(SSLProtocolVariant protocolVariant, + SSL3ProtocolVersion version) +{ + switch (protocolVariant) { + case ssl_variant_stream: + return (version >= SSL_LIBRARY_VERSION_MIN_SUPPORTED_STREAM && + version <= SSL_LIBRARY_VERSION_MAX_SUPPORTED); + case ssl_variant_datagram: + return (version >= SSL_LIBRARY_VERSION_MIN_SUPPORTED_DATAGRAM && + version <= SSL_LIBRARY_VERSION_MAX_SUPPORTED); + } + + /* Can't get here */ + PORT_Assert(PR_FALSE); + return PR_FALSE; +} + +PRBool +ssl3_VersionIsSupported(SSLProtocolVariant protocolVariant, + SSL3ProtocolVersion version) +{ + if (!ssl_VersionIsSupportedByPolicy(protocolVariant, version)) { + return PR_FALSE; + } + return ssl3_VersionIsSupportedByCode(protocolVariant, version); +} + +const SECItem * +SSL_PeerSignedCertTimestamps(PRFileDesc *fd) +{ + sslSocket *ss = ssl_FindSocket(fd); + + if (!ss) { + SSL_DBG(("%d: SSL[%d]: bad socket in SSL_PeerSignedCertTimestamps", + SSL_GETPID(), fd)); + return NULL; + } + + if (!ss->sec.ci.sid) { + PORT_SetError(SEC_ERROR_NOT_INITIALIZED); + return NULL; + } + + return &ss->sec.ci.sid->u.ssl3.signedCertTimestamps; +} + +SECStatus +SSL_VersionRangeGetSupported(SSLProtocolVariant protocolVariant, + SSLVersionRange *vrange) +{ + SECStatus rv; + + if (!vrange) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return SECFailure; + } + + switch (protocolVariant) { + case ssl_variant_stream: + vrange->min = SSL_LIBRARY_VERSION_MIN_SUPPORTED_STREAM; + vrange->max = SSL_LIBRARY_VERSION_MAX_SUPPORTED; + /* We don't allow SSLv3 and TLSv1.3 together. + * However, don't check yet, apply the policy first. + * Because if the effective supported range doesn't use TLS 1.3, + * then we don't need to increase the minimum. */ + break; + case ssl_variant_datagram: + vrange->min = SSL_LIBRARY_VERSION_MIN_SUPPORTED_DATAGRAM; + vrange->max = SSL_LIBRARY_VERSION_MAX_SUPPORTED; + break; + default: + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return SECFailure; + } + + rv = ssl3_CreateOverlapWithPolicy(protocolVariant, vrange, vrange); + if (rv != SECSuccess) { + /* Library default and policy don't overlap. */ + return rv; + } + + /* We don't allow SSLv3 and TLSv1.3 together */ + if (vrange->max >= SSL_LIBRARY_VERSION_TLS_1_3) { + vrange->min = PR_MAX(vrange->min, SSL_LIBRARY_VERSION_TLS_1_0); + } + + return SECSuccess; +} + +SECStatus +SSL_VersionRangeGetDefault(SSLProtocolVariant protocolVariant, + SSLVersionRange *vrange) +{ + if ((protocolVariant != ssl_variant_stream && + protocolVariant != ssl_variant_datagram) || + !vrange) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return SECFailure; + } + + *vrange = *VERSIONS_DEFAULTS(protocolVariant); + return ssl3_CreateOverlapWithPolicy(protocolVariant, vrange, vrange); +} + +static PRBool +ssl3_HasConflictingSSLVersions(const SSLVersionRange *vrange) +{ + return (vrange->min <= SSL_LIBRARY_VERSION_3_0 && + vrange->max >= SSL_LIBRARY_VERSION_TLS_1_3); +} + +static SECStatus +ssl3_CheckRangeValidAndConstrainByPolicy(SSLProtocolVariant protocolVariant, + SSLVersionRange *vrange) +{ + SECStatus rv; + + if (vrange->min > vrange->max || + !ssl3_VersionIsSupportedByCode(protocolVariant, vrange->min) || + !ssl3_VersionIsSupportedByCode(protocolVariant, vrange->max) || + ssl3_HasConflictingSSLVersions(vrange)) { + PORT_SetError(SSL_ERROR_INVALID_VERSION_RANGE); + return SECFailure; + } + + /* Try to adjust the received range using our policy. + * If there's overlap, we'll use the (possibly reduced) range. + * If there isn't overlap, it's failure. */ + + rv = ssl3_CreateOverlapWithPolicy(protocolVariant, vrange, vrange); + if (rv != SECSuccess) { + return rv; + } + + /* We don't allow SSLv3 and TLSv1.3 together */ + if (vrange->max >= SSL_LIBRARY_VERSION_TLS_1_3) { + vrange->min = PR_MAX(vrange->min, SSL_LIBRARY_VERSION_TLS_1_0); + } + + return SECSuccess; +} + +SECStatus +SSL_VersionRangeSetDefault(SSLProtocolVariant protocolVariant, + const SSLVersionRange *vrange) +{ + SSLVersionRange constrainedRange; + SECStatus rv; + + if (!vrange) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return SECFailure; + } + + constrainedRange = *vrange; + rv = ssl3_CheckRangeValidAndConstrainByPolicy(protocolVariant, + &constrainedRange); + if (rv != SECSuccess) + return rv; + + *VERSIONS_DEFAULTS(protocolVariant) = constrainedRange; + return SECSuccess; +} + +SECStatus +SSL_VersionRangeGet(PRFileDesc *fd, SSLVersionRange *vrange) +{ + sslSocket *ss = ssl_FindSocket(fd); + + if (!ss) { + SSL_DBG(("%d: SSL[%d]: bad socket in SSL_VersionRangeGet", + SSL_GETPID(), fd)); + return SECFailure; + } + + if (!vrange) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return SECFailure; + } + + ssl_Get1stHandshakeLock(ss); + ssl_GetSSL3HandshakeLock(ss); + + *vrange = ss->vrange; + + ssl_ReleaseSSL3HandshakeLock(ss); + ssl_Release1stHandshakeLock(ss); + + return ssl3_CreateOverlapWithPolicy(ss->protocolVariant, vrange, vrange); +} + +SECStatus +SSL_VersionRangeSet(PRFileDesc *fd, const SSLVersionRange *vrange) +{ + SSLVersionRange constrainedRange; + sslSocket *ss; + SECStatus rv; + + if (!vrange) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return SECFailure; + } + + ss = ssl_FindSocket(fd); + if (!ss) { + SSL_DBG(("%d: SSL[%d]: bad socket in SSL_VersionRangeSet", + SSL_GETPID(), fd)); + return SECFailure; + } + + constrainedRange = *vrange; + rv = ssl3_CheckRangeValidAndConstrainByPolicy(ss->protocolVariant, + &constrainedRange); + if (rv != SECSuccess) + return rv; + + ssl_Get1stHandshakeLock(ss); + ssl_GetSSL3HandshakeLock(ss); + + if (ss->ssl3.downgradeCheckVersion && + ss->vrange.max > ss->ssl3.downgradeCheckVersion) { + PORT_SetError(SSL_ERROR_INVALID_VERSION_RANGE); + ssl_ReleaseSSL3HandshakeLock(ss); + ssl_Release1stHandshakeLock(ss); + return SECFailure; + } + + ss->vrange = constrainedRange; + + ssl_ReleaseSSL3HandshakeLock(ss); + ssl_Release1stHandshakeLock(ss); + + return SECSuccess; +} + +SECStatus +SSL_SetDowngradeCheckVersion(PRFileDesc *fd, PRUint16 version) +{ + sslSocket *ss = ssl_FindSocket(fd); + SECStatus rv = SECFailure; + + if (!ss) { + SSL_DBG(("%d: SSL[%d]: bad socket in SSL_SetDowngradeCheckVersion", + SSL_GETPID(), fd)); + return SECFailure; + } + + if (version && !ssl3_VersionIsSupported(ss->protocolVariant, version)) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return SECFailure; + } + + ssl_Get1stHandshakeLock(ss); + ssl_GetSSL3HandshakeLock(ss); + + if (version && version < ss->vrange.max) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + goto loser; + } + ss->ssl3.downgradeCheckVersion = version; + rv = SECSuccess; + +loser: + ssl_ReleaseSSL3HandshakeLock(ss); + ssl_Release1stHandshakeLock(ss); + + return rv; +} + +const SECItemArray * +SSL_PeerStapledOCSPResponses(PRFileDesc *fd) +{ + sslSocket *ss = ssl_FindSocket(fd); + + if (!ss) { + SSL_DBG(("%d: SSL[%d]: bad socket in SSL_PeerStapledOCSPResponses", + SSL_GETPID(), fd)); + return NULL; + } + + if (!ss->sec.ci.sid) { + PORT_SetError(SEC_ERROR_NOT_INITIALIZED); + return NULL; + } + + return &ss->sec.ci.sid->peerCertStatus; +} + +/************************************************************************/ +/* The following functions are the TOP LEVEL SSL functions. +** They all get called through the NSPRIOMethods table below. +*/ + +static PRFileDesc *PR_CALLBACK +ssl_Accept(PRFileDesc *fd, PRNetAddr *sockaddr, PRIntervalTime timeout) +{ + sslSocket *ss; + sslSocket *ns = NULL; + PRFileDesc *newfd = NULL; + PRFileDesc *osfd; + PRStatus status; + + ss = ssl_GetPrivate(fd); + if (!ss) { + SSL_DBG(("%d: SSL[%d]: bad socket in accept", SSL_GETPID(), fd)); + return NULL; + } + + /* IF this is a listen socket, there shouldn't be any I/O going on */ + SSL_LOCK_READER(ss); + SSL_LOCK_WRITER(ss); + ssl_Get1stHandshakeLock(ss); + ssl_GetSSL3HandshakeLock(ss); + + ss->cTimeout = timeout; + + osfd = ss->fd->lower; + + /* First accept connection */ + newfd = osfd->methods->accept(osfd, sockaddr, timeout); + if (newfd == NULL) { + SSL_DBG(("%d: SSL[%d]: accept failed, errno=%d", + SSL_GETPID(), ss->fd, PORT_GetError())); + } else { + /* Create ssl module */ + ns = ssl_DupSocket(ss); + } + + ssl_ReleaseSSL3HandshakeLock(ss); + ssl_Release1stHandshakeLock(ss); + SSL_UNLOCK_WRITER(ss); + SSL_UNLOCK_READER(ss); /* ss isn't used below here. */ + + if (ns == NULL) + goto loser; + + /* push ssl module onto the new socket */ + status = ssl_PushIOLayer(ns, newfd, PR_TOP_IO_LAYER); + if (status != PR_SUCCESS) + goto loser; + + /* Now start server connection handshake with client. + ** Don't need locks here because nobody else has a reference to ns yet. + */ + if (ns->opt.useSecurity) { + if (ns->opt.handshakeAsClient) { + ns->handshake = ssl_BeginClientHandshake; + ss->handshaking = sslHandshakingAsClient; + } else { + ns->handshake = ssl_BeginServerHandshake; + ss->handshaking = sslHandshakingAsServer; + } + } + ns->TCPconnected = 1; + return newfd; + +loser: + if (ns != NULL) + ssl_FreeSocket(ns); + if (newfd != NULL) + PR_Close(newfd); + return NULL; +} + +static PRStatus PR_CALLBACK +ssl_Connect(PRFileDesc *fd, const PRNetAddr *sockaddr, PRIntervalTime timeout) +{ + sslSocket *ss; + PRStatus rv; + + ss = ssl_GetPrivate(fd); + if (!ss) { + SSL_DBG(("%d: SSL[%d]: bad socket in connect", SSL_GETPID(), fd)); + return PR_FAILURE; + } + + /* IF this is a listen socket, there shouldn't be any I/O going on */ + SSL_LOCK_READER(ss); + SSL_LOCK_WRITER(ss); + + ss->cTimeout = timeout; + rv = (PRStatus)(*ss->ops->connect)(ss, sockaddr); + + SSL_UNLOCK_WRITER(ss); + SSL_UNLOCK_READER(ss); + + return rv; +} + +static PRStatus PR_CALLBACK +ssl_Bind(PRFileDesc *fd, const PRNetAddr *addr) +{ + sslSocket *ss = ssl_GetPrivate(fd); + PRStatus rv; + + if (!ss) { + SSL_DBG(("%d: SSL[%d]: bad socket in bind", SSL_GETPID(), fd)); + return PR_FAILURE; + } + SSL_LOCK_READER(ss); + SSL_LOCK_WRITER(ss); + + rv = (PRStatus)(*ss->ops->bind)(ss, addr); + + SSL_UNLOCK_WRITER(ss); + SSL_UNLOCK_READER(ss); + return rv; +} + +static PRStatus PR_CALLBACK +ssl_Listen(PRFileDesc *fd, PRIntn backlog) +{ + sslSocket *ss = ssl_GetPrivate(fd); + PRStatus rv; + + if (!ss) { + SSL_DBG(("%d: SSL[%d]: bad socket in listen", SSL_GETPID(), fd)); + return PR_FAILURE; + } + SSL_LOCK_READER(ss); + SSL_LOCK_WRITER(ss); + + rv = (PRStatus)(*ss->ops->listen)(ss, backlog); + + SSL_UNLOCK_WRITER(ss); + SSL_UNLOCK_READER(ss); + return rv; +} + +static PRStatus PR_CALLBACK +ssl_Shutdown(PRFileDesc *fd, PRIntn how) +{ + sslSocket *ss = ssl_GetPrivate(fd); + PRStatus rv; + + if (!ss) { + SSL_DBG(("%d: SSL[%d]: bad socket in shutdown", SSL_GETPID(), fd)); + return PR_FAILURE; + } + if (how == PR_SHUTDOWN_RCV || how == PR_SHUTDOWN_BOTH) { + SSL_LOCK_READER(ss); + } + if (how == PR_SHUTDOWN_SEND || how == PR_SHUTDOWN_BOTH) { + SSL_LOCK_WRITER(ss); + } + + rv = (PRStatus)(*ss->ops->shutdown)(ss, how); + + if (how == PR_SHUTDOWN_SEND || how == PR_SHUTDOWN_BOTH) { + SSL_UNLOCK_WRITER(ss); + } + if (how == PR_SHUTDOWN_RCV || how == PR_SHUTDOWN_BOTH) { + SSL_UNLOCK_READER(ss); + } + return rv; +} + +static PRStatus PR_CALLBACK +ssl_Close(PRFileDesc *fd) +{ + sslSocket *ss; + PRStatus rv; + + ss = ssl_GetPrivate(fd); + if (!ss) { + SSL_DBG(("%d: SSL[%d]: bad socket in close", SSL_GETPID(), fd)); + return PR_FAILURE; + } + + /* There must not be any I/O going on */ + SSL_LOCK_READER(ss); + SSL_LOCK_WRITER(ss); + + /* By the time this function returns, + ** ss is an invalid pointer, and the locks to which it points have + ** been unlocked and freed. So, this is the ONE PLACE in all of SSL + ** where the LOCK calls and the corresponding UNLOCK calls are not in + ** the same function scope. The unlock calls are in ssl_FreeSocket(). + */ + rv = (PRStatus)(*ss->ops->close)(ss); + + return rv; +} + +static int PR_CALLBACK +ssl_Recv(PRFileDesc *fd, void *buf, PRInt32 len, PRIntn flags, + PRIntervalTime timeout) +{ + sslSocket *ss; + int rv; + + ss = ssl_GetPrivate(fd); + if (!ss) { + SSL_DBG(("%d: SSL[%d]: bad socket in recv", SSL_GETPID(), fd)); + return SECFailure; + } + SSL_LOCK_READER(ss); + ss->rTimeout = timeout; + if (!ss->opt.fdx) + ss->wTimeout = timeout; + rv = (*ss->ops->recv)(ss, (unsigned char *)buf, len, flags); + SSL_UNLOCK_READER(ss); + return rv; +} + +static int PR_CALLBACK +ssl_Send(PRFileDesc *fd, const void *buf, PRInt32 len, PRIntn flags, + PRIntervalTime timeout) +{ + sslSocket *ss; + int rv; + + ss = ssl_GetPrivate(fd); + if (!ss) { + SSL_DBG(("%d: SSL[%d]: bad socket in send", SSL_GETPID(), fd)); + return SECFailure; + } + SSL_LOCK_WRITER(ss); + ss->wTimeout = timeout; + if (!ss->opt.fdx) + ss->rTimeout = timeout; + rv = (*ss->ops->send)(ss, (const unsigned char *)buf, len, flags); + SSL_UNLOCK_WRITER(ss); + return rv; +} + +static int PR_CALLBACK +ssl_Read(PRFileDesc *fd, void *buf, PRInt32 len) +{ + sslSocket *ss; + int rv; + + ss = ssl_GetPrivate(fd); + if (!ss) { + SSL_DBG(("%d: SSL[%d]: bad socket in read", SSL_GETPID(), fd)); + return SECFailure; + } + SSL_LOCK_READER(ss); + ss->rTimeout = PR_INTERVAL_NO_TIMEOUT; + if (!ss->opt.fdx) + ss->wTimeout = PR_INTERVAL_NO_TIMEOUT; + rv = (*ss->ops->read)(ss, (unsigned char *)buf, len); + SSL_UNLOCK_READER(ss); + return rv; +} + +static int PR_CALLBACK +ssl_Write(PRFileDesc *fd, const void *buf, PRInt32 len) +{ + sslSocket *ss; + int rv; + + ss = ssl_GetPrivate(fd); + if (!ss) { + SSL_DBG(("%d: SSL[%d]: bad socket in write", SSL_GETPID(), fd)); + return SECFailure; + } + SSL_LOCK_WRITER(ss); + ss->wTimeout = PR_INTERVAL_NO_TIMEOUT; + if (!ss->opt.fdx) + ss->rTimeout = PR_INTERVAL_NO_TIMEOUT; + rv = (*ss->ops->write)(ss, (const unsigned char *)buf, len); + SSL_UNLOCK_WRITER(ss); + return rv; +} + +static PRStatus PR_CALLBACK +ssl_GetPeerName(PRFileDesc *fd, PRNetAddr *addr) +{ + sslSocket *ss; + + ss = ssl_GetPrivate(fd); + if (!ss) { + SSL_DBG(("%d: SSL[%d]: bad socket in getpeername", SSL_GETPID(), fd)); + return PR_FAILURE; + } + return (PRStatus)(*ss->ops->getpeername)(ss, addr); +} + +/* +*/ +SECStatus +ssl_GetPeerInfo(sslSocket *ss) +{ + PRFileDesc *osfd; + int rv; + PRNetAddr sin; + + osfd = ss->fd->lower; + + PORT_Memset(&sin, 0, sizeof(sin)); + rv = osfd->methods->getpeername(osfd, &sin); + if (rv < 0) { + return SECFailure; + } + ss->TCPconnected = 1; + if (sin.inet.family == PR_AF_INET) { + PR_ConvertIPv4AddrToIPv6(sin.inet.ip, &ss->sec.ci.peer); + ss->sec.ci.port = sin.inet.port; + } else if (sin.ipv6.family == PR_AF_INET6) { + ss->sec.ci.peer = sin.ipv6.ip; + ss->sec.ci.port = sin.ipv6.port; + } else { + PORT_SetError(PR_ADDRESS_NOT_SUPPORTED_ERROR); + return SECFailure; + } + return SECSuccess; +} + +static PRStatus PR_CALLBACK +ssl_GetSockName(PRFileDesc *fd, PRNetAddr *name) +{ + sslSocket *ss; + + ss = ssl_GetPrivate(fd); + if (!ss) { + SSL_DBG(("%d: SSL[%d]: bad socket in getsockname", SSL_GETPID(), fd)); + return PR_FAILURE; + } + return (PRStatus)(*ss->ops->getsockname)(ss, name); +} + +SECStatus +SSL_SetSockPeerID(PRFileDesc *fd, const char *peerID) +{ + sslSocket *ss; + + ss = ssl_FindSocket(fd); + if (!ss) { + SSL_DBG(("%d: SSL[%d]: bad socket in SSL_SetSockPeerID", + SSL_GETPID(), fd)); + return SECFailure; + } + + if (ss->peerID) { + PORT_Free(ss->peerID); + ss->peerID = NULL; + } + if (peerID) + ss->peerID = PORT_Strdup(peerID); + return (ss->peerID || !peerID) ? SECSuccess : SECFailure; +} + +#define PR_POLL_RW (PR_POLL_WRITE | PR_POLL_READ) + +static PRInt16 PR_CALLBACK +ssl_Poll(PRFileDesc *fd, PRInt16 how_flags, PRInt16 *p_out_flags) +{ + sslSocket *ss; + PRInt16 new_flags = how_flags; /* should select on these flags. */ + PRNetAddr addr; + + *p_out_flags = 0; + ss = ssl_GetPrivate(fd); + if (!ss) { + SSL_DBG(("%d: SSL[%d]: bad socket in SSL_Poll", + SSL_GETPID(), fd)); + return 0; /* don't poll on this socket */ + } + + if (ss->opt.useSecurity && + ss->handshaking != sslHandshakingUndetermined && + !ss->firstHsDone && + (how_flags & PR_POLL_RW)) { + if (!ss->TCPconnected) { + ss->TCPconnected = (PR_SUCCESS == ssl_DefGetpeername(ss, &addr)); + } + /* If it's not connected, then presumably the application is polling + ** on read or write appropriately, so don't change it. + */ + if (ss->TCPconnected) { + if (!ss->handshakeBegun) { + /* If the handshake has not begun, poll on read or write + ** based on the local application's role in the handshake, + ** not based on what the application requested. + */ + new_flags &= ~PR_POLL_RW; + if (ss->handshaking == sslHandshakingAsClient) { + new_flags |= PR_POLL_WRITE; + } else { /* handshaking as server */ + new_flags |= PR_POLL_READ; + } + } else if (ss->lastWriteBlocked) { + /* First handshake is in progress */ + if (new_flags & PR_POLL_READ) { + /* The caller is waiting for data to be received, + ** but the initial handshake is blocked on write, or the + ** client's first handshake record has not been written. + ** The code should select on write, not read. + */ + new_flags &= ~PR_POLL_READ; /* don't select on read. */ + new_flags |= PR_POLL_WRITE; /* do select on write. */ + } + } else if (new_flags & PR_POLL_WRITE) { + /* The caller is trying to write, but the handshake is + ** blocked waiting for data to read, and the first + ** handshake has been sent. So do NOT to poll on write + ** unless we did false start or we are doing 0-RTT. + */ + if (!(ss->ssl3.hs.canFalseStart || + ss->ssl3.hs.zeroRttState == ssl_0rtt_sent || + ss->ssl3.hs.zeroRttState == ssl_0rtt_accepted)) { + new_flags &= ~PR_POLL_WRITE; /* don't select on write. */ + } + new_flags |= PR_POLL_READ; /* do select on read. */ + } + } + } else if ((new_flags & PR_POLL_READ) && (SSL_DataPending(fd) > 0)) { + *p_out_flags = PR_POLL_READ; /* it's ready already. */ + return new_flags; + } else if ((ss->lastWriteBlocked) && (how_flags & PR_POLL_READ) && + (ss->pendingBuf.len != 0)) { /* write data waiting to be sent */ + new_flags |= PR_POLL_WRITE; /* also select on write. */ + } + + if (ss->ssl3.hs.restartTarget != NULL) { + /* Read and write will block until the asynchronous callback completes + * (e.g. until SSL_AuthCertificateComplete is called), so don't tell + * the caller to poll the socket unless there is pending write data. + */ + if (ss->lastWriteBlocked && ss->pendingBuf.len != 0) { + /* Ignore any newly-received data on the socket, but do wait for + * the socket to become writable again. Here, it is OK for an error + * to be detected, because our logic for sending pending write data + * will allow us to report the error to the caller without the risk + * of the application spinning. + */ + new_flags &= (PR_POLL_WRITE | PR_POLL_EXCEPT); + } else { + /* Unfortunately, clearing new_flags will make it impossible for + * the application to detect errors that it would otherwise be + * able to detect with PR_POLL_EXCEPT, until the asynchronous + * callback completes. However, we must clear all the flags to + * prevent the application from spinning (alternating between + * calling PR_Poll that would return PR_POLL_EXCEPT, and send/recv + * which won't actually report the I/O error while we are waiting + * for the asynchronous callback to complete). + */ + new_flags = 0; + } + } + + SSL_TRC(20, ("%d: SSL[%d]: ssl_Poll flags %x -> %x", + SSL_GETPID(), fd, how_flags, new_flags)); + + if (new_flags && (fd->lower->methods->poll != NULL)) { + PRInt16 lower_out_flags = 0; + PRInt16 lower_new_flags; + lower_new_flags = fd->lower->methods->poll(fd->lower, new_flags, + &lower_out_flags); + if ((lower_new_flags & lower_out_flags) && (how_flags != new_flags)) { + PRInt16 out_flags = lower_out_flags & ~PR_POLL_RW; + if (lower_out_flags & PR_POLL_READ) + out_flags |= PR_POLL_WRITE; + if (lower_out_flags & PR_POLL_WRITE) + out_flags |= PR_POLL_READ; + *p_out_flags = out_flags; + new_flags = how_flags; + } else { + *p_out_flags = lower_out_flags; + new_flags = lower_new_flags; + } + } + + return new_flags; +} + +static PRInt32 PR_CALLBACK +ssl_TransmitFile(PRFileDesc *sd, PRFileDesc *fd, + const void *headers, PRInt32 hlen, + PRTransmitFileFlags flags, PRIntervalTime timeout) +{ + PRSendFileData sfd; + + sfd.fd = fd; + sfd.file_offset = 0; + sfd.file_nbytes = 0; + sfd.header = headers; + sfd.hlen = hlen; + sfd.trailer = NULL; + sfd.tlen = 0; + + return sd->methods->sendfile(sd, &sfd, flags, timeout); +} + +PRBool +ssl_FdIsBlocking(PRFileDesc *fd) +{ + PRSocketOptionData opt; + PRStatus status; + + opt.option = PR_SockOpt_Nonblocking; + opt.value.non_blocking = PR_FALSE; + status = PR_GetSocketOption(fd, &opt); + if (status != PR_SUCCESS) + return PR_FALSE; + return (PRBool)!opt.value.non_blocking; +} + +PRBool +ssl_SocketIsBlocking(sslSocket *ss) +{ + return ssl_FdIsBlocking(ss->fd); +} + +PRInt32 sslFirstBufSize = 8 * 1024; +PRInt32 sslCopyLimit = 1024; + +static PRInt32 PR_CALLBACK +ssl_WriteV(PRFileDesc *fd, const PRIOVec *iov, PRInt32 vectors, + PRIntervalTime timeout) +{ + PRInt32 i; + PRInt32 bufLen; + PRInt32 left; + PRInt32 rv; + PRInt32 sent = 0; + const PRInt32 first_len = sslFirstBufSize; + const PRInt32 limit = sslCopyLimit; + PRBool blocking; + PRIOVec myIov; + char buf[MAX_FRAGMENT_LENGTH]; + + if (vectors < 0) { + PORT_SetError(PR_INVALID_ARGUMENT_ERROR); + return -1; + } + if (vectors > PR_MAX_IOVECTOR_SIZE) { + PORT_SetError(PR_BUFFER_OVERFLOW_ERROR); + return -1; + } + for (i = 0; i < vectors; i++) { + if (iov[i].iov_len < 0) { + PORT_SetError(PR_INVALID_ARGUMENT_ERROR); + return -1; + } + } + blocking = ssl_FdIsBlocking(fd); + +#define K16 ((int)sizeof(buf)) +#define KILL_VECTORS \ + while (vectors && !iov->iov_len) { \ + ++iov; \ + --vectors; \ + } +#define GET_VECTOR \ + do { \ + myIov = *iov++; \ + --vectors; \ + KILL_VECTORS \ + } while (0) +#define HANDLE_ERR(rv, len) \ + if (rv != len) { \ + if (rv < 0) { \ + if (!blocking && \ + (PR_GetError() == PR_WOULD_BLOCK_ERROR) && \ + (sent > 0)) { \ + return sent; \ + } else { \ + return -1; \ + } \ + } \ + /* Only a nonblocking socket can have partial sends */ \ + PR_ASSERT(!blocking); \ + return sent + rv; \ + } +#define SEND(bfr, len) \ + do { \ + rv = ssl_Send(fd, bfr, len, 0, timeout); \ + HANDLE_ERR(rv, len) \ + sent += len; \ + } while (0) + + /* Make sure the first write is at least 8 KB, if possible. */ + KILL_VECTORS + if (!vectors) + return ssl_Send(fd, 0, 0, 0, timeout); + GET_VECTOR; + if (!vectors) { + return ssl_Send(fd, myIov.iov_base, myIov.iov_len, 0, timeout); + } + if (myIov.iov_len < first_len) { + PORT_Memcpy(buf, myIov.iov_base, myIov.iov_len); + bufLen = myIov.iov_len; + left = first_len - bufLen; + while (vectors && left) { + int toCopy; + GET_VECTOR; + toCopy = PR_MIN(left, myIov.iov_len); + PORT_Memcpy(buf + bufLen, myIov.iov_base, toCopy); + bufLen += toCopy; + left -= toCopy; + myIov.iov_base += toCopy; + myIov.iov_len -= toCopy; + } + SEND(buf, bufLen); + } + + while (vectors || myIov.iov_len) { + PRInt32 addLen; + if (!myIov.iov_len) { + GET_VECTOR; + } + while (myIov.iov_len >= K16) { + SEND(myIov.iov_base, K16); + myIov.iov_base += K16; + myIov.iov_len -= K16; + } + if (!myIov.iov_len) + continue; + + if (!vectors || myIov.iov_len > limit) { + addLen = 0; + } else if ((addLen = iov->iov_len % K16) + myIov.iov_len <= limit) { + /* Addlen is already computed. */; + } else if (vectors > 1 && + iov[1].iov_len % K16 + addLen + myIov.iov_len <= 2 * limit) { + addLen = limit - myIov.iov_len; + } else + addLen = 0; + + if (!addLen) { + SEND(myIov.iov_base, myIov.iov_len); + myIov.iov_len = 0; + continue; + } + PORT_Memcpy(buf, myIov.iov_base, myIov.iov_len); + bufLen = myIov.iov_len; + do { + GET_VECTOR; + PORT_Memcpy(buf + bufLen, myIov.iov_base, addLen); + myIov.iov_base += addLen; + myIov.iov_len -= addLen; + bufLen += addLen; + + left = PR_MIN(limit, K16 - bufLen); + if (!vectors /* no more left */ + || myIov.iov_len > 0 /* we didn't use that one all up */ + || bufLen >= K16 /* it's full. */) { + addLen = 0; + } else if ((addLen = iov->iov_len % K16) <= left) { + /* Addlen is already computed. */; + } else if (vectors > 1 && + iov[1].iov_len % K16 + addLen <= left + limit) { + addLen = left; + } else + addLen = 0; + + } while (addLen); + SEND(buf, bufLen); + } + return sent; +} + +/* + * These functions aren't implemented. + */ + +static PRInt32 PR_CALLBACK +ssl_Available(PRFileDesc *fd) +{ + PORT_Assert(0); + PR_SetError(PR_NOT_IMPLEMENTED_ERROR, 0); + return SECFailure; +} + +static PRInt64 PR_CALLBACK +ssl_Available64(PRFileDesc *fd) +{ + PRInt64 res; + + PORT_Assert(0); + PR_SetError(PR_NOT_IMPLEMENTED_ERROR, 0); + LL_I2L(res, -1L); + return res; +} + +static PRStatus PR_CALLBACK +ssl_FSync(PRFileDesc *fd) +{ + PORT_Assert(0); + PR_SetError(PR_NOT_IMPLEMENTED_ERROR, 0); + return PR_FAILURE; +} + +static PRInt32 PR_CALLBACK +ssl_Seek(PRFileDesc *fd, PRInt32 offset, PRSeekWhence how) +{ + PORT_Assert(0); + PR_SetError(PR_NOT_IMPLEMENTED_ERROR, 0); + return SECFailure; +} + +static PRInt64 PR_CALLBACK +ssl_Seek64(PRFileDesc *fd, PRInt64 offset, PRSeekWhence how) +{ + PRInt64 res; + + PORT_Assert(0); + PR_SetError(PR_NOT_IMPLEMENTED_ERROR, 0); + LL_I2L(res, -1L); + return res; +} + +static PRStatus PR_CALLBACK +ssl_FileInfo(PRFileDesc *fd, PRFileInfo *info) +{ + PORT_Assert(0); + PR_SetError(PR_NOT_IMPLEMENTED_ERROR, 0); + return PR_FAILURE; +} + +static PRStatus PR_CALLBACK +ssl_FileInfo64(PRFileDesc *fd, PRFileInfo64 *info) +{ + PORT_Assert(0); + PR_SetError(PR_NOT_IMPLEMENTED_ERROR, 0); + return PR_FAILURE; +} + +static PRInt32 PR_CALLBACK +ssl_RecvFrom(PRFileDesc *fd, void *buf, PRInt32 amount, PRIntn flags, + PRNetAddr *addr, PRIntervalTime timeout) +{ + PORT_Assert(0); + PR_SetError(PR_NOT_IMPLEMENTED_ERROR, 0); + return SECFailure; +} + +static PRInt32 PR_CALLBACK +ssl_SendTo(PRFileDesc *fd, const void *buf, PRInt32 amount, PRIntn flags, + const PRNetAddr *addr, PRIntervalTime timeout) +{ + PORT_Assert(0); + PR_SetError(PR_NOT_IMPLEMENTED_ERROR, 0); + return SECFailure; +} + +static const PRIOMethods ssl_methods = { + PR_DESC_LAYERED, + ssl_Close, /* close */ + ssl_Read, /* read */ + ssl_Write, /* write */ + ssl_Available, /* available */ + ssl_Available64, /* available64 */ + ssl_FSync, /* fsync */ + ssl_Seek, /* seek */ + ssl_Seek64, /* seek64 */ + ssl_FileInfo, /* fileInfo */ + ssl_FileInfo64, /* fileInfo64 */ + ssl_WriteV, /* writev */ + ssl_Connect, /* connect */ + ssl_Accept, /* accept */ + ssl_Bind, /* bind */ + ssl_Listen, /* listen */ + ssl_Shutdown, /* shutdown */ + ssl_Recv, /* recv */ + ssl_Send, /* send */ + ssl_RecvFrom, /* recvfrom */ + ssl_SendTo, /* sendto */ + ssl_Poll, /* poll */ + PR_EmulateAcceptRead, /* acceptread */ + ssl_TransmitFile, /* transmitfile */ + ssl_GetSockName, /* getsockname */ + ssl_GetPeerName, /* getpeername */ + NULL, /* getsockopt OBSOLETE */ + NULL, /* setsockopt OBSOLETE */ + NULL, /* getsocketoption */ + NULL, /* setsocketoption */ + PR_EmulateSendFile, /* Send a (partial) file with header/trailer*/ + NULL, /* reserved for future use */ + NULL, /* reserved for future use */ + NULL, /* reserved for future use */ + NULL, /* reserved for future use */ + NULL /* reserved for future use */ +}; + +static PRIOMethods combined_methods; + +static void +ssl_SetupIOMethods(void) +{ + PRIOMethods *new_methods = &combined_methods; + const PRIOMethods *nspr_methods = PR_GetDefaultIOMethods(); + const PRIOMethods *my_methods = &ssl_methods; + + *new_methods = *nspr_methods; + + new_methods->file_type = my_methods->file_type; + new_methods->close = my_methods->close; + new_methods->read = my_methods->read; + new_methods->write = my_methods->write; + new_methods->available = my_methods->available; + new_methods->available64 = my_methods->available64; + new_methods->fsync = my_methods->fsync; + new_methods->seek = my_methods->seek; + new_methods->seek64 = my_methods->seek64; + new_methods->fileInfo = my_methods->fileInfo; + new_methods->fileInfo64 = my_methods->fileInfo64; + new_methods->writev = my_methods->writev; + new_methods->connect = my_methods->connect; + new_methods->accept = my_methods->accept; + new_methods->bind = my_methods->bind; + new_methods->listen = my_methods->listen; + new_methods->shutdown = my_methods->shutdown; + new_methods->recv = my_methods->recv; + new_methods->send = my_methods->send; + new_methods->recvfrom = my_methods->recvfrom; + new_methods->sendto = my_methods->sendto; + new_methods->poll = my_methods->poll; + new_methods->acceptread = my_methods->acceptread; + new_methods->transmitfile = my_methods->transmitfile; + new_methods->getsockname = my_methods->getsockname; + new_methods->getpeername = my_methods->getpeername; + /* new_methods->getsocketoption = my_methods->getsocketoption; */ + /* new_methods->setsocketoption = my_methods->setsocketoption; */ + new_methods->sendfile = my_methods->sendfile; +} + +static PRCallOnceType initIoLayerOnce; + +static PRStatus +ssl_InitIOLayer(void) +{ + ssl_layer_id = PR_GetUniqueIdentity("SSL"); + ssl_SetupIOMethods(); + return PR_SUCCESS; +} + +static PRStatus +ssl_PushIOLayer(sslSocket *ns, PRFileDesc *stack, PRDescIdentity id) +{ + PRFileDesc *layer = NULL; + PRStatus status; + + status = PR_CallOnce(&initIoLayerOnce, &ssl_InitIOLayer); + if (status != PR_SUCCESS) { + goto loser; + } + if (ns == NULL) { + goto loser; + } + layer = PR_CreateIOLayerStub(ssl_layer_id, &combined_methods); + if (layer == NULL) + goto loser; + layer->secret = (PRFilePrivate *)ns; + + /* Here, "stack" points to the PRFileDesc on the top of the stack. + ** "layer" points to a new FD that is to be inserted into the stack. + ** If layer is being pushed onto the top of the stack, then + ** PR_PushIOLayer switches the contents of stack and layer, and then + ** puts stack on top of layer, so that after it is done, the top of + ** stack is the same "stack" as it was before, and layer is now the + ** FD for the former top of stack. + ** After this call, stack always points to the top PRFD on the stack. + ** If this function fails, the contents of stack and layer are as + ** they were before the call. + */ + status = PR_PushIOLayer(stack, id, layer); + if (status != PR_SUCCESS) + goto loser; + + ns->fd = (id == PR_TOP_IO_LAYER) ? stack : layer; + return PR_SUCCESS; + +loser: + if (layer) { + layer->dtor(layer); /* free layer */ + } + return PR_FAILURE; +} + +/* if this fails, caller must destroy socket. */ +static SECStatus +ssl_MakeLocks(sslSocket *ss) +{ + ss->firstHandshakeLock = PZ_NewMonitor(nssILockSSL); + if (!ss->firstHandshakeLock) + goto loser; + ss->ssl3HandshakeLock = PZ_NewMonitor(nssILockSSL); + if (!ss->ssl3HandshakeLock) + goto loser; + ss->specLock = NSSRWLock_New(SSL_LOCK_RANK_SPEC, NULL); + if (!ss->specLock) + goto loser; + ss->recvBufLock = PZ_NewMonitor(nssILockSSL); + if (!ss->recvBufLock) + goto loser; + ss->xmitBufLock = PZ_NewMonitor(nssILockSSL); + if (!ss->xmitBufLock) + goto loser; + ss->writerThread = NULL; + if (ssl_lock_readers) { + ss->recvLock = PZ_NewLock(nssILockSSL); + if (!ss->recvLock) + goto loser; + ss->sendLock = PZ_NewLock(nssILockSSL); + if (!ss->sendLock) + goto loser; + } + return SECSuccess; +loser: + ssl_DestroyLocks(ss); + return SECFailure; +} + +#if defined(XP_UNIX) || defined(XP_WIN32) +#define NSS_HAVE_GETENV 1 +#endif + +#define LOWER(x) (x | 0x20) /* cheap ToLower function ignores LOCALE */ + +static void +ssl_SetDefaultsFromEnvironment(void) +{ +#if defined(NSS_HAVE_GETENV) + static int firsttime = 1; + + if (firsttime) { + char *ev; + firsttime = 0; +#ifdef DEBUG + ssl_trace_iob = NULL; + ev = PR_GetEnvSecure("SSLDEBUGFILE"); + if (ev && ev[0]) { + ssl_trace_iob = fopen(ev, "w"); + } + if (!ssl_trace_iob) { + ssl_trace_iob = stderr; + } +#ifdef TRACE + ev = PR_GetEnvSecure("SSLTRACE"); + if (ev && ev[0]) { + ssl_trace = atoi(ev); + SSL_TRACE(("SSL: tracing set to %d", ssl_trace)); + } +#endif /* TRACE */ + ev = PR_GetEnvSecure("SSLDEBUG"); + if (ev && ev[0]) { + ssl_debug = atoi(ev); + SSL_TRACE(("SSL: debugging set to %d", ssl_debug)); + } +#endif /* DEBUG */ +#ifdef NSS_ALLOW_SSLKEYLOGFILE + ssl_keylog_iob = NULL; + ev = PR_GetEnvSecure("SSLKEYLOGFILE"); + if (ev && ev[0]) { + ssl_keylog_iob = fopen(ev, "a"); + if (!ssl_keylog_iob) { + SSL_TRACE(("SSL: failed to open key log file")); + } else { + if (ftell(ssl_keylog_iob) == 0) { + fputs("# SSL/TLS secrets log file, generated by NSS\n", + ssl_keylog_iob); + } + SSL_TRACE(("SSL: logging SSL/TLS secrets to %s", ev)); + ssl_keylog_lock = PR_NewLock(); + if (!ssl_keylog_lock) { + SSL_TRACE(("SSL: failed to create key log lock")); + fclose(ssl_keylog_iob); + ssl_keylog_iob = NULL; + } + } + } +#endif + ev = PR_GetEnvSecure("SSLFORCELOCKS"); + if (ev && ev[0] == '1') { + ssl_force_locks = PR_TRUE; + ssl_defaults.noLocks = 0; + strcpy(lockStatus + LOCKSTATUS_OFFSET, "FORCED. "); + SSL_TRACE(("SSL: force_locks set to %d", ssl_force_locks)); + } + ev = PR_GetEnvSecure("NSS_SSL_ENABLE_RENEGOTIATION"); + if (ev) { + if (ev[0] == '1' || LOWER(ev[0]) == 'u') + ssl_defaults.enableRenegotiation = SSL_RENEGOTIATE_UNRESTRICTED; + else if (ev[0] == '0' || LOWER(ev[0]) == 'n') + ssl_defaults.enableRenegotiation = SSL_RENEGOTIATE_NEVER; + else if (ev[0] == '2' || LOWER(ev[0]) == 'r') + ssl_defaults.enableRenegotiation = SSL_RENEGOTIATE_REQUIRES_XTN; + else if (ev[0] == '3' || LOWER(ev[0]) == 't') + ssl_defaults.enableRenegotiation = SSL_RENEGOTIATE_TRANSITIONAL; + SSL_TRACE(("SSL: enableRenegotiation set to %d", + ssl_defaults.enableRenegotiation)); + } + ev = PR_GetEnvSecure("NSS_SSL_REQUIRE_SAFE_NEGOTIATION"); + if (ev && ev[0] == '1') { + ssl_defaults.requireSafeNegotiation = PR_TRUE; + SSL_TRACE(("SSL: requireSafeNegotiation set to %d", + PR_TRUE)); + } + ev = PR_GetEnvSecure("NSS_SSL_CBC_RANDOM_IV"); + if (ev && ev[0] == '0') { + ssl_defaults.cbcRandomIV = PR_FALSE; + SSL_TRACE(("SSL: cbcRandomIV set to 0")); + } + } +#endif /* NSS_HAVE_GETENV */ +} + +const sslNamedGroupDef * +ssl_LookupNamedGroup(SSLNamedGroup group) +{ + unsigned int i; + + for (i = 0; i < SSL_NAMED_GROUP_COUNT; ++i) { + if (ssl_named_groups[i].name == group) { + return &ssl_named_groups[i]; + } + } + return NULL; +} + +PRBool +ssl_NamedGroupEnabled(const sslSocket *ss, const sslNamedGroupDef *groupDef) +{ + unsigned int i; + + if (!groupDef) { + return PR_FALSE; + } + + for (i = 0; i < SSL_NAMED_GROUP_COUNT; ++i) { + if (ss->namedGroupPreferences[i] && + ss->namedGroupPreferences[i] == groupDef) { + return PR_TRUE; + } + } + return PR_FALSE; +} + +/* Returns a reference counted object that contains a key pair. + * Or NULL on failure. Initial ref count is 1. + * Uses the keys in the pair as input. Adopts the keys given. + */ +sslKeyPair * +ssl_NewKeyPair(SECKEYPrivateKey *privKey, SECKEYPublicKey *pubKey) +{ + sslKeyPair *pair; + + if (!privKey || !pubKey) { + PORT_SetError(PR_INVALID_ARGUMENT_ERROR); + return NULL; + } + pair = PORT_ZNew(sslKeyPair); + if (!pair) + return NULL; /* error code is set. */ + pair->privKey = privKey; + pair->pubKey = pubKey; + pair->refCount = 1; + return pair; /* success */ +} + +sslKeyPair * +ssl_GetKeyPairRef(sslKeyPair *keyPair) +{ + PR_ATOMIC_INCREMENT(&keyPair->refCount); + return keyPair; +} + +void +ssl_FreeKeyPair(sslKeyPair *keyPair) +{ + if (!keyPair) { + return; + } + + PRInt32 newCount = PR_ATOMIC_DECREMENT(&keyPair->refCount); + if (!newCount) { + SECKEY_DestroyPrivateKey(keyPair->privKey); + SECKEY_DestroyPublicKey(keyPair->pubKey); + PORT_Free(keyPair); + } +} + +/* Ephemeral key handling. */ +sslEphemeralKeyPair * +ssl_NewEphemeralKeyPair(const sslNamedGroupDef *group, + SECKEYPrivateKey *privKey, SECKEYPublicKey *pubKey) +{ + sslKeyPair *keys; + sslEphemeralKeyPair *pair; + + if (!group) { + PORT_SetError(PR_INVALID_ARGUMENT_ERROR); + return NULL; + } + + keys = ssl_NewKeyPair(privKey, pubKey); + if (!keys) { + return NULL; + } + + pair = PORT_ZNew(sslEphemeralKeyPair); + if (!pair) { + ssl_FreeKeyPair(keys); + return NULL; /* error already set */ + } + + PR_INIT_CLIST(&pair->link); + pair->group = group; + pair->keys = keys; + + return pair; +} + +sslEphemeralKeyPair * +ssl_CopyEphemeralKeyPair(sslEphemeralKeyPair *keyPair) +{ + sslEphemeralKeyPair *pair; + + pair = PORT_ZNew(sslEphemeralKeyPair); + if (!pair) { + return NULL; /* error already set */ + } + + PR_INIT_CLIST(&pair->link); + pair->group = keyPair->group; + pair->keys = ssl_GetKeyPairRef(keyPair->keys); + + return pair; +} + +void +ssl_FreeEphemeralKeyPair(sslEphemeralKeyPair *keyPair) +{ + if (!keyPair) { + return; + } + + ssl_FreeKeyPair(keyPair->keys); + PR_REMOVE_LINK(&keyPair->link); + PORT_Free(keyPair); +} + +PRBool +ssl_HaveEphemeralKeyPair(const sslSocket *ss, const sslNamedGroupDef *groupDef) +{ + return ssl_LookupEphemeralKeyPair((sslSocket *)ss, groupDef) != NULL; +} + +sslEphemeralKeyPair * +ssl_LookupEphemeralKeyPair(sslSocket *ss, const sslNamedGroupDef *groupDef) +{ + PRCList *cursor; + for (cursor = PR_NEXT_LINK(&ss->ephemeralKeyPairs); + cursor != &ss->ephemeralKeyPairs; + cursor = PR_NEXT_LINK(cursor)) { + sslEphemeralKeyPair *keyPair = (sslEphemeralKeyPair *)cursor; + if (keyPair->group == groupDef) { + return keyPair; + } + } + return NULL; +} + +void +ssl_FreeEphemeralKeyPairs(sslSocket *ss) +{ + while (!PR_CLIST_IS_EMPTY(&ss->ephemeralKeyPairs)) { + PRCList *cursor = PR_LIST_TAIL(&ss->ephemeralKeyPairs); + ssl_FreeEphemeralKeyPair((sslEphemeralKeyPair *)cursor); + } +} + +PRTime +ssl_Time(const sslSocket *ss) +{ + if (!ss->now) { + return PR_Now(); + } + return ss->now(ss->nowArg); +} + +/* +** Create a newsocket structure for a file descriptor. +*/ +static sslSocket * +ssl_NewSocket(PRBool makeLocks, SSLProtocolVariant protocolVariant) +{ + SECStatus rv; + sslSocket *ss; + int i; + ssl_SetDefaultsFromEnvironment(); + + if (ssl_force_locks) + makeLocks = PR_TRUE; + + /* Make a new socket and get it ready */ + ss = PORT_ZNew(sslSocket); + if (!ss) { + return NULL; + } + ss->opt = ssl_defaults; + if (protocolVariant == ssl_variant_datagram) { + ss->opt.enableRenegotiation = SSL_RENEGOTIATE_NEVER; + } + ss->opt.useSocks = PR_FALSE; + ss->opt.noLocks = !makeLocks; + ss->vrange = *VERSIONS_DEFAULTS(protocolVariant); + ss->protocolVariant = protocolVariant; + /* Ignore overlap failures, because returning NULL would trigger assertion + * failures elsewhere. We don't want this scenario to be fatal, it's just + * a state where no SSL connectivity is possible. */ + ssl3_CreateOverlapWithPolicy(ss->protocolVariant, &ss->vrange, &ss->vrange); + ss->peerID = NULL; + ss->rTimeout = PR_INTERVAL_NO_TIMEOUT; + ss->wTimeout = PR_INTERVAL_NO_TIMEOUT; + ss->cTimeout = PR_INTERVAL_NO_TIMEOUT; + ss->url = NULL; + + PR_INIT_CLIST(&ss->serverCerts); + PR_INIT_CLIST(&ss->ephemeralKeyPairs); + PR_INIT_CLIST(&ss->extensionHooks); + PR_INIT_CLIST(&ss->echConfigs); + + ss->dbHandle = CERT_GetDefaultCertDB(); + + /* Provide default implementation of hooks */ + ss->authCertificate = SSL_AuthCertificate; + ss->authCertificateArg = (void *)ss->dbHandle; + ss->sniSocketConfig = NULL; + ss->sniSocketConfigArg = NULL; + ss->getClientAuthData = NULL; + ss->alertReceivedCallback = NULL; + ss->alertReceivedCallbackArg = NULL; + ss->alertSentCallback = NULL; + ss->alertSentCallbackArg = NULL; + ss->handleBadCert = NULL; + ss->badCertArg = NULL; + ss->pkcs11PinArg = NULL; + + ssl_ChooseOps(ss); + ssl3_InitSocketPolicy(ss); + for (i = 0; i < SSL_NAMED_GROUP_COUNT; ++i) { + ss->namedGroupPreferences[i] = &ssl_named_groups[i]; + } + ss->additionalShares = 0; + PR_INIT_CLIST(&ss->ssl3.hs.remoteExtensions); + PR_INIT_CLIST(&ss->ssl3.hs.lastMessageFlight); + PR_INIT_CLIST(&ss->ssl3.hs.cipherSpecs); + PR_INIT_CLIST(&ss->ssl3.hs.bufferedEarlyData); + ssl3_InitExtensionData(&ss->xtnData, ss); + PR_INIT_CLIST(&ss->ssl3.hs.dtlsSentHandshake); + PR_INIT_CLIST(&ss->ssl3.hs.dtlsRcvdHandshake); + PR_INIT_CLIST(&ss->ssl3.hs.psks); + dtls_InitTimers(ss); + + ss->echPrivKey = NULL; + ss->echPubKey = NULL; + ss->antiReplay = NULL; + ss->psk = NULL; + + if (makeLocks) { + rv = ssl_MakeLocks(ss); + if (rv != SECSuccess) + goto loser; + } + rv = ssl_CreateSecurityInfo(ss); + if (rv != SECSuccess) + goto loser; + rv = ssl3_InitGather(&ss->gs); + if (rv != SECSuccess) + goto loser; + rv = ssl3_InitState(ss); + if (rv != SECSuccess) { + goto loser; + } + return ss; + +loser: + ssl_DestroySocketContents(ss); + ssl_DestroyLocks(ss); + PORT_Free(ss); + return NULL; +} + +/** + * DEPRECATED: Will always return false. + */ +SECStatus +SSL_CanBypass(CERTCertificate *cert, SECKEYPrivateKey *srvPrivkey, + PRUint32 protocolmask, PRUint16 *ciphersuites, int nsuites, + PRBool *pcanbypass, void *pwArg) +{ + if (!pcanbypass) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return SECFailure; + } + *pcanbypass = PR_FALSE; + return SECSuccess; +} + +/* Functions that are truly experimental use EXP, functions that are no longer + * experimental use PUB. + * + * When initially defining a new API, add that API here using the EXP() macro + * and name the function with a SSLExp_ prefix. Define the experimental API as + * a macro in sslexp.h using the SSL_EXPERIMENTAL_API() macro defined there. + * + * Once an API is stable and proven, move the macro definition in sslexp.h to a + * proper function declaration in ssl.h. Keeping the function in this list + * ensures that code built against the release that contained the experimental + * API will continue to work; use PUB() to reference the public function. + */ +#define EXP(n) \ + { \ + "SSL_" #n, SSLExp_##n \ + } +#define PUB(n) \ + { \ + "SSL_" #n, SSL_##n \ + } +struct { + const char *const name; + void *function; +} ssl_experimental_functions[] = { +#ifndef SSL_DISABLE_EXPERIMENTAL_API + EXP(AddExternalPsk), + EXP(AddExternalPsk0Rtt), + EXP(AeadDecrypt), + EXP(AeadEncrypt), + EXP(CallExtensionWriterOnEchInner), + EXP(CipherSuiteOrderGet), + EXP(CipherSuiteOrderSet), + EXP(CreateAntiReplayContext), + EXP(CreateMask), + EXP(CreateMaskingContext), + EXP(CreateVariantMaskingContext), + EXP(DelegateCredential), + EXP(DestroyAead), + EXP(DestroyMaskingContext), + EXP(DestroyResumptionTokenInfo), + EXP(EnableTls13BackendEch), + EXP(EnableTls13GreaseEch), + EXP(SetTls13GreaseEchSize), + EXP(EncodeEchConfigId), + EXP(GetCurrentEpoch), + EXP(GetEchRetryConfigs), + EXP(GetExtensionSupport), + EXP(GetResumptionTokenInfo), + EXP(HelloRetryRequestCallback), + EXP(InstallExtensionHooks), + EXP(HkdfExtract), + EXP(HkdfExpandLabel), + EXP(HkdfExpandLabelWithMech), + EXP(HkdfVariantExpandLabel), + EXP(HkdfVariantExpandLabelWithMech), + EXP(KeyUpdate), + EXP(MakeAead), + EXP(MakeVariantAead), + EXP(RecordLayerData), + EXP(RecordLayerWriteCallback), + EXP(ReleaseAntiReplayContext), + EXP(RemoveEchConfigs), + EXP(RemoveExternalPsk), + EXP(SecretCallback), + EXP(SendCertificateRequest), + EXP(SendSessionTicket), + EXP(SetAntiReplayContext), + EXP(SetClientEchConfigs), + EXP(SetDtls13VersionWorkaround), + EXP(SetMaxEarlyDataSize), + EXP(SetResumptionTokenCallback), + EXP(SetResumptionToken), + EXP(SetServerEchConfigs), + EXP(SetTimeFunc), +#endif + { "", NULL } +}; +#undef EXP +#undef PUB + +void * +SSL_GetExperimentalAPI(const char *name) +{ + unsigned int i; + for (i = 0; i < PR_ARRAY_SIZE(ssl_experimental_functions); ++i) { + if (strcmp(name, ssl_experimental_functions[i].name) == 0) { + return ssl_experimental_functions[i].function; + } + } + PORT_SetError(SSL_ERROR_UNSUPPORTED_EXPERIMENTAL_API); + return NULL; +} + +void +ssl_ClearPRCList(PRCList *list, void (*f)(void *)) +{ + PRCList *cursor; + + while (!PR_CLIST_IS_EMPTY(list)) { + cursor = PR_LIST_TAIL(list); + + PR_REMOVE_LINK(cursor); + if (f) { + f(cursor); + } + PORT_Free(cursor); + } +} + +SECStatus +SSLExp_EnableTls13GreaseEch(PRFileDesc *fd, PRBool enabled) +{ + sslSocket *ss = ssl_FindSocket(fd); + if (!ss) { + return SECFailure; + } + ss->opt.enableTls13GreaseEch = enabled; + return SECSuccess; +} + +SECStatus +SSLExp_SetTls13GreaseEchSize(PRFileDesc *fd, PRUint8 size) +{ + sslSocket *ss = ssl_FindSocket(fd); + if (!ss || size == 0) { + return SECFailure; + } + ssl_Get1stHandshakeLock(ss); + ssl_GetSSL3HandshakeLock(ss); + + ss->ssl3.hs.greaseEchSize = size; + + ssl_ReleaseSSL3HandshakeLock(ss); + ssl_Release1stHandshakeLock(ss); + + return SECSuccess; +} + +SECStatus +SSLExp_EnableTls13BackendEch(PRFileDesc *fd, PRBool enabled) +{ + sslSocket *ss = ssl_FindSocket(fd); + if (!ss) { + return SECFailure; + } + ss->opt.enableTls13BackendEch = enabled; + return SECSuccess; +} + +SECStatus +SSLExp_CallExtensionWriterOnEchInner(PRFileDesc *fd, PRBool enabled) +{ + sslSocket *ss = ssl_FindSocket(fd); + if (!ss) { + return SECFailure; + } + ss->opt.callExtensionWriterOnEchInner = enabled; + return SECSuccess; +} + +SECStatus +SSLExp_SetDtls13VersionWorkaround(PRFileDesc *fd, PRBool enabled) +{ + sslSocket *ss = ssl_FindSocket(fd); + if (!ss) { + return SECFailure; + } + ss->opt.enableDtls13VersionCompat = enabled; + return SECSuccess; +} + +SECStatus +SSLExp_SetTimeFunc(PRFileDesc *fd, SSLTimeFunc f, void *arg) +{ + sslSocket *ss = ssl_FindSocket(fd); + + if (!ss) { + SSL_DBG(("%d: SSL[%d]: bad socket in SSL_SetTimeFunc", + SSL_GETPID(), fd)); + return SECFailure; + } + ss->now = f; + ss->nowArg = arg; + return SECSuccess; +} + +/* Experimental APIs for session cache handling. */ + +SECStatus +SSLExp_SetResumptionTokenCallback(PRFileDesc *fd, + SSLResumptionTokenCallback cb, + void *ctx) +{ + sslSocket *ss = ssl_FindSocket(fd); + + if (!ss) { + SSL_DBG(("%d: SSL[%d]: bad socket in SSL_SetResumptionTokenCallback", + SSL_GETPID(), fd)); + return SECFailure; + } + + ssl_Get1stHandshakeLock(ss); + ssl_GetSSL3HandshakeLock(ss); + ss->resumptionTokenCallback = cb; + ss->resumptionTokenContext = ctx; + ssl_ReleaseSSL3HandshakeLock(ss); + ssl_Release1stHandshakeLock(ss); + + return SECSuccess; +} + +SECStatus +SSLExp_SetResumptionToken(PRFileDesc *fd, const PRUint8 *token, + unsigned int len) +{ + sslSocket *ss = ssl_FindSocket(fd); + sslSessionID *sid = NULL; + + if (!ss) { + SSL_DBG(("%d: SSL[%d]: bad socket in SSL_SetResumptionToken", + SSL_GETPID(), fd)); + return SECFailure; + } + + ssl_Get1stHandshakeLock(ss); + ssl_GetSSL3HandshakeLock(ss); + + if (ss->firstHsDone || ss->ssl3.hs.ws != idle_handshake || + ss->sec.isServer || len == 0 || !token) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + goto loser; + } + + // We override any previously set session. + if (ss->sec.ci.sid) { + ssl_FreeSID(ss->sec.ci.sid); + ss->sec.ci.sid = NULL; + } + + PRINT_BUF(50, (ss, "incoming resumption token", token, len)); + + sid = ssl3_NewSessionID(ss, PR_FALSE); + if (!sid) { + goto loser; + } + + /* Populate NewSessionTicket values */ + SECStatus rv = ssl_DecodeResumptionToken(sid, token, len); + if (rv != SECSuccess) { + // If decoding fails, we assume the token is bad. + PORT_SetError(SSL_ERROR_BAD_RESUMPTION_TOKEN_ERROR); + goto loser; + } + + // Make sure that the token is currently usable. + if (!ssl_IsResumptionTokenUsable(ss, sid)) { + PORT_SetError(SSL_ERROR_BAD_RESUMPTION_TOKEN_ERROR); + goto loser; + } + + // Generate a new random session ID for this ticket. + rv = PK11_GenerateRandom(sid->u.ssl3.sessionID, SSL3_SESSIONID_BYTES); + if (rv != SECSuccess) { + goto loser; // Code set by PK11_GenerateRandom. + } + sid->u.ssl3.sessionIDLength = SSL3_SESSIONID_BYTES; + /* Use the sid->cached as marker that this is from an external cache and + * we don't have to look up anything in the NSS internal cache. */ + sid->cached = in_external_cache; + sid->lastAccessTime = ssl_Time(ss); + + ss->sec.ci.sid = sid; + + ssl_ReleaseSSL3HandshakeLock(ss); + ssl_Release1stHandshakeLock(ss); + return SECSuccess; + +loser: + ssl_FreeSID(sid); + ssl_ReleaseSSL3HandshakeLock(ss); + ssl_Release1stHandshakeLock(ss); + + return SECFailure; +} + +SECStatus +SSLExp_DestroyResumptionTokenInfo(SSLResumptionTokenInfo *token) +{ + if (!token) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return SECFailure; + } + if (token->peerCert) { + CERT_DestroyCertificate(token->peerCert); + } + PORT_Free(token->alpnSelection); + PORT_Memset(token, 0, token->length); + return SECSuccess; +} + +SECStatus +SSLExp_GetResumptionTokenInfo(const PRUint8 *tokenData, unsigned int tokenLen, + SSLResumptionTokenInfo *tokenOut, PRUintn len) +{ + if (!tokenData || !tokenOut || !tokenLen || + len > sizeof(SSLResumptionTokenInfo)) { + PORT_SetError(SEC_ERROR_INVALID_ARGS); + return SECFailure; + } + sslSessionID sid = { 0 }; + SSLResumptionTokenInfo token; + + /* Populate sid values */ + if (ssl_DecodeResumptionToken(&sid, tokenData, tokenLen) != SECSuccess) { + // If decoding fails, we assume the token is bad. + PORT_SetError(SSL_ERROR_BAD_RESUMPTION_TOKEN_ERROR); + return SECFailure; + } + + token.peerCert = CERT_DupCertificate(sid.peerCert); + + token.alpnSelectionLen = sid.u.ssl3.alpnSelection.len; + token.alpnSelection = PORT_ZAlloc(token.alpnSelectionLen); + if (!token.alpnSelection) { + return SECFailure; + } + if (token.alpnSelectionLen > 0) { + PORT_Assert(sid.u.ssl3.alpnSelection.data); + PORT_Memcpy(token.alpnSelection, sid.u.ssl3.alpnSelection.data, + token.alpnSelectionLen); + } + + if (sid.u.ssl3.locked.sessionTicket.flags & ticket_allow_early_data) { + token.maxEarlyDataSize = + sid.u.ssl3.locked.sessionTicket.max_early_data_size; + } else { + token.maxEarlyDataSize = 0; + } + token.expirationTime = sid.expirationTime; + + token.length = PR_MIN(sizeof(SSLResumptionTokenInfo), len); + PORT_Memcpy(tokenOut, &token, token.length); + + ssl_DestroySID(&sid, PR_FALSE); + return SECSuccess; +} |