/* * This file contains prototypes for the public SSL functions. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #ifndef __ssl_h_ #define __ssl_h_ #include "prtypes.h" #include "prerror.h" #include "prio.h" #include "seccomon.h" #include "cert.h" #include "keythi.h" #include "sslt.h" /* public ssl data types */ #if defined(_WIN32) && !defined(IN_LIBSSL) && !defined(NSS_USE_STATIC_LIBS) #define SSL_IMPORT extern __declspec(dllimport) #else #define SSL_IMPORT extern #endif SEC_BEGIN_PROTOS /* constant table enumerating all implemented cipher suites. */ SSL_IMPORT const PRUint16 SSL_ImplementedCiphers[]; /* the same as the above, but is a function */ SSL_IMPORT const PRUint16 *SSL_GetImplementedCiphers(void); /* number of entries in the above table. */ SSL_IMPORT const PRUint16 SSL_NumImplementedCiphers; /* the same as the above, but is a function */ SSL_IMPORT PRUint16 SSL_GetNumImplementedCiphers(void); /* Macro to tell which ciphers in table are SSL2 vs SSL3/TLS. */ #define SSL_IS_SSL2_CIPHER(which) (((which)&0xfff0) == 0xff00) /* ** Imports fd into SSL, returning a new socket. Copies SSL configuration ** from model. */ SSL_IMPORT PRFileDesc *SSL_ImportFD(PRFileDesc *model, PRFileDesc *fd); /* ** Imports fd into DTLS, returning a new socket. Copies DTLS configuration ** from model. */ SSL_IMPORT PRFileDesc *DTLS_ImportFD(PRFileDesc *model, PRFileDesc *fd); /* ** Enable/disable an ssl mode ** ** SSL_SECURITY: ** enable/disable use of SSL security protocol before connect ** ** SSL_SOCKS: ** enable/disable use of socks before connect ** (No longer supported). ** ** SSL_REQUEST_CERTIFICATE: ** require a certificate during secure connect */ /* options */ #define SSL_SECURITY 1 /* (on by default) */ #define SSL_SOCKS 2 /* (off by default) */ #define SSL_REQUEST_CERTIFICATE 3 /* (off by default) */ #define SSL_HANDSHAKE_AS_CLIENT 5 /* force accept to hs as client */ /* (off by default) */ #define SSL_HANDSHAKE_AS_SERVER 6 /* force connect to hs as server */ /* (off by default) */ /* OBSOLETE: SSL v2 is obsolete and may be removed soon. */ #define SSL_ENABLE_SSL2 7 /* enable ssl v2 (off by default) */ /* OBSOLETE: See "SSL Version Range API" below for the replacement and a ** description of the non-obvious semantics of using SSL_ENABLE_SSL3. */ #define SSL_ENABLE_SSL3 8 /* enable ssl v3 (on by default) */ #define SSL_NO_CACHE 9 /* don't use the session cache */ /* (off by default) */ #define SSL_REQUIRE_CERTIFICATE 10 /* (SSL_REQUIRE_FIRST_HANDSHAKE */ /* by default) */ #define SSL_ENABLE_FDX 11 /* permit simultaneous read/write */ /* (off by default) */ /* OBSOLETE: SSL v2 compatible hellos are not accepted by some TLS servers ** and cannot negotiate extensions. SSL v2 is obsolete. This option may be ** removed soon. */ #define SSL_V2_COMPATIBLE_HELLO 12 /* send v3 client hello in v2 fmt */ /* (off by default) */ /* OBSOLETE: See "SSL Version Range API" below for the replacement and a ** description of the non-obvious semantics of using SSL_ENABLE_TLS. */ #define SSL_ENABLE_TLS 13 /* enable TLS (on by default) */ #define SSL_ROLLBACK_DETECTION 14 /* for compatibility, default: on */ #define SSL_NO_STEP_DOWN 15 /* (unsupported, deprecated, off) */ #define SSL_BYPASS_PKCS11 16 /* (unsupported, deprecated, off) */ #define SSL_NO_LOCKS 17 /* Don't use locks for protection */ #define SSL_ENABLE_SESSION_TICKETS 18 /* Enable TLS SessionTicket */ /* extension (off by default) */ #define SSL_ENABLE_DEFLATE 19 /* (unsupported, deprecated, off) */ #define SSL_ENABLE_RENEGOTIATION 20 /* Values below (default: never) */ #define SSL_REQUIRE_SAFE_NEGOTIATION 21 /* Peer must send Signaling */ /* Cipher Suite Value (SCSV) or */ /* Renegotiation Info (RI) */ /* extension in ALL handshakes. */ /* default: off */ #define SSL_ENABLE_FALSE_START 22 /* Enable SSL false start (off by */ /* default, applies only to */ /* clients). False start is a */ /* mode where an SSL client will start sending application data before * verifying the server's Finished message. This means that we could end up * sending data to an imposter. However, the data will be encrypted and * only the true server can derive the session key. Thus, so long as the * cipher isn't broken this is safe. The advantage of false start is that * it saves a round trip for client-speaks-first protocols when performing a * full handshake. * * In addition to enabling this option, the application must register a * callback using the SSL_SetCanFalseStartCallback function. */ /* For SSL 3.0 and TLS 1.0, by default we prevent chosen plaintext attacks * on SSL CBC mode cipher suites (see RFC 4346 Section F.3) by splitting * non-empty application_data records into two records; the first record has * only the first byte of plaintext, and the second has the rest. * * This only prevents the attack in the sending direction; the connection may * still be vulnerable to such attacks if the peer does not implement a similar * countermeasure. * * This protection mechanism is on by default; the default can be overridden by * setting NSS_SSL_CBC_RANDOM_IV=0 in the environment prior to execution, * and/or by the application setting the option SSL_CBC_RANDOM_IV to PR_FALSE. * * The per-record IV in TLS 1.1 and later adds one block of overhead per * record, whereas this hack will add at least two blocks of overhead per * record, so TLS 1.1+ will always be more efficient. * * Other implementations (e.g. some versions of OpenSSL, in some * configurations) prevent the same attack by prepending an empty * application_data record to every application_data record they send; we do * not do that because some implementations cannot handle empty * application_data records. Also, we only split application_data records and * not other types of records, because some implementations will not accept * fragmented records of some other types (e.g. some versions of NSS do not * accept fragmented alerts). */ #define SSL_CBC_RANDOM_IV 23 #define SSL_ENABLE_OCSP_STAPLING 24 /* Request OCSP stapling (client) */ /* SSL_ENABLE_NPN is defunct and defaults to false. * Using this option will not have any effect but won't produce an error. */ #define SSL_ENABLE_NPN 25 /* SSL_ENABLE_ALPN controls whether the ALPN extension is enabled for the * initial handshake when application layer protocol negotiation is used. * SSL_SetNextProtoNego or SSL_SetNextProtoCallback can be used to control * the application layer protocol negotiation; * ALPN is not negotiated for renegotiation handshakes, even though the ALPN * specification defines a way to use ALPN during renegotiations. * SSL_ENABLE_ALPN is currently enabled by default, but this may change in * future versions. */ #define SSL_ENABLE_ALPN 26 /* SSL_REUSE_SERVER_ECDHE_KEY controls whether the ECDHE server key is * reused for multiple handshakes or generated each time. * SSL_REUSE_SERVER_ECDHE_KEY is currently enabled by default. * This socket option is for ECDHE, only. It is unrelated to DHE. */ #define SSL_REUSE_SERVER_ECDHE_KEY 27 #define SSL_ENABLE_FALLBACK_SCSV 28 /* Send fallback SCSV in \ * handshakes. */ /* SSL_ENABLE_SERVER_DHE controls whether DHE is enabled for the server socket. */ #define SSL_ENABLE_SERVER_DHE 29 /* Use draft-ietf-tls-session-hash. Controls whether we offer the * extended_master_secret extension which, when accepted, hashes * the handshake transcript into the master secret. This option is * disabled by default. */ #define SSL_ENABLE_EXTENDED_MASTER_SECRET 30 /* Request Signed Certificate Timestamps via TLS extension (client) */ #define SSL_ENABLE_SIGNED_CERT_TIMESTAMPS 31 /* Ordinarily, when negotiating a TLS_DHE_* cipher suite the server picks the * group. draft-ietf-tls-negotiated-ff-dhe changes this to use supported_groups * (formerly supported_curves) to signal which pre-defined groups are OK. * * This option causes an NSS client to use this extension and demand that those * groups be used. A client will signal any enabled DHE groups in the * supported_groups extension and reject groups that don't match what it has * enabled. A server will only negotiate TLS_DHE_* cipher suites if the * client includes the extension. * * See SSL_NamedGroupConfig() for how to control which groups are enabled. * * This option cannot be enabled if NSS is not compiled with ECC support. */ #define SSL_REQUIRE_DH_NAMED_GROUPS 32 /* Allow 0-RTT data (for TLS 1.3). * * When this option is set, the server's session tickets will contain * a flag indicating that it accepts 0-RTT. When resuming such a * session, PR_Write() on the client will be allowed immediately after * starting the handshake and PR_Read() on the server will be allowed * on the server to read that data. Calls to * SSL_GetPreliminaryChannelInfo() and SSL_GetNextProto() * can be made used during this period to learn about the channel * parameters. * * The transition between the 0-RTT and 1-RTT modes is marked by the * handshake callback. However, it is possible to force the completion * of the handshake (and cause the handshake callback to be called) * prior to reading all 0-RTT data using SSL_ForceHandshake(). To * ensure that all early data is read before the handshake callback, any * time that SSL_ForceHandshake() returns a PR_WOULD_BLOCK_ERROR, use * PR_Read() to read all available data. If PR_Read() is called * multiple times, this will result in the handshake completing, but the * handshake callback will occur after early data has all been read. * * WARNING: 0-RTT data has different anti-replay and PFS properties than * the rest of the TLS data. See [draft-ietf-tls-tls13; Section 8] * for more details. * * Note: when DTLS 1.3 is in use, any 0-RTT data received after EndOfEarlyData * (e.g., because of reordering) is discarded. */ #define SSL_ENABLE_0RTT_DATA 33 /* Sets a limit to the size of encrypted records (see * draft-ietf-tls-record-limit). This is the value that is advertised to peers, * not a limit on the size of records that will be created. Setting this value * reduces the size of records that will be received (not sent). * * This limit applies to the plaintext, but the records that appear on the wire * will be bigger. This doesn't include record headers, IVs, block cipher * padding, and authentication tags or MACs. * * NSS always advertises the record size limit extension. If this option is not * set, the extension will contain the maximum allowed size for the selected TLS * version (currently this is 16384 or 2^14 for TLS 1.2 and lower and 16385 for * TLS 1.3). * * By default, NSS creates records that are the maximum size possible, using all * the data that was written by the application. Writes larger than the maximum * are split into maximum sized records, and any remainder (unless * SSL_CBC_RANDOM_IV is enabled and active). If a peer advertises a record size * limit then that value is used instead. */ #define SSL_RECORD_SIZE_LIMIT 34 /* Enables TLS 1.3 compatibility mode. In this mode, the client includes a fake * session ID in the handshake and sends a ChangeCipherSpec. A server will * always use the setting chosen by the client, so the value of this option has * no effect for a server. This setting is ignored for DTLS. */ #define SSL_ENABLE_TLS13_COMPAT_MODE 35 /* Enables the sending of DTLS records using the short (two octet) record * header. Only do this if there are 2^10 or fewer packets in flight at a time; * using this with a larger number of packets in flight could mean that packets * are dropped if there is reordering. * * This applies to TLS 1.3 only. This is not a parameter that is negotiated * during the TLS handshake. Unlike other socket options, this option can be * changed after a handshake is complete. */ #define SSL_ENABLE_DTLS_SHORT_HEADER 36 /* * Enables the processing of the downgrade sentinel that can be added to the * ServerHello.random by a server that supports Section 4.1.3 of TLS 1.3 * [RFC8446]. This sentinel will always be generated by a server that * negotiates a version lower than its maximum, this only controls whether a * client will treat receipt of a value that indicates a downgrade as an error. */ #define SSL_ENABLE_HELLO_DOWNGRADE_CHECK 37 /* Enables the SSLv2-compatible ClientHello for servers. NSS does not support * SSLv2 and will never send an SSLv2-compatible ClientHello as a client. An * NSS server with this option enabled will accept a ClientHello that is * v2-compatible as defined in Appendix E.1 of RFC 6101. * * This is disabled by default and will be removed in a future version. */ #define SSL_ENABLE_V2_COMPATIBLE_HELLO 38 #ifdef SSL_DEPRECATED_FUNCTION /* Old deprecated function names */ SSL_IMPORT SECStatus SSL_Enable(PRFileDesc *fd, int option, PRIntn on); SSL_IMPORT SECStatus SSL_EnableDefault(int option, PRIntn on); #endif /* Set (and get) options for sockets and defaults for newly created sockets. * * While the |val| parameter of these methods is PRIntn, options only support * two values by default: PR_TRUE or PR_FALSE. The documentation of specific * options will explain if other values are permitted. */ SSL_IMPORT SECStatus SSL_OptionSet(PRFileDesc *fd, PRInt32 option, PRIntn val); SSL_IMPORT SECStatus SSL_OptionGet(PRFileDesc *fd, PRInt32 option, PRIntn *val); SSL_IMPORT SECStatus SSL_OptionSetDefault(PRInt32 option, PRIntn val); SSL_IMPORT SECStatus SSL_OptionGetDefault(PRInt32 option, PRIntn *val); SSL_IMPORT SECStatus SSL_CertDBHandleSet(PRFileDesc *fd, CERTCertDBHandle *dbHandle); /* SSLNextProtoCallback is called during the handshake for the server, when an * Application-Layer Protocol Negotiation (ALPN) extension has been received * from the client. |protos| and |protosLen| define a buffer which contains the * client's advertisement. * |protoOut| is a buffer provided by the caller, of length 255 (the maximum * allowed by the protocol). On successful return, the protocol to be announced * to the server will be in |protoOut| and its length in |*protoOutLen|. * * The callback must return SECFailure or SECSuccess (not SECWouldBlock). */ typedef SECStatus(PR_CALLBACK *SSLNextProtoCallback)( void *arg, PRFileDesc *fd, const unsigned char *protos, unsigned int protosLen, unsigned char *protoOut, unsigned int *protoOutLen, unsigned int protoMaxOut); /* SSL_SetNextProtoCallback sets a callback function to handle ALPN Negotiation. * It causes a client to advertise ALPN. */ SSL_IMPORT SECStatus SSL_SetNextProtoCallback(PRFileDesc *fd, SSLNextProtoCallback callback, void *arg); /* SSL_SetNextProtoNego can be used as an alternative to * SSL_SetNextProtoCallback. * * Using this function allows client and server to transparently support ALPN. * The same set of protocols will be advertised via ALPN and, if the server * uses ALPN to select a protocol, SSL_GetNextProto will return * SSL_NEXT_PROTO_SELECTED as the state. * * Because the predecessor to ALPN, NPN, used the first protocol as the fallback * protocol, when sending an ALPN extension, the first protocol is moved to the * end of the list. This indicates that the fallback protocol is the least * preferred. The other protocols should be in preference order. * * The supported protocols are specified in |data| in wire-format (8-bit * length-prefixed). For example: "\010http/1.1\006spdy/2". */ SSL_IMPORT SECStatus SSL_SetNextProtoNego(PRFileDesc *fd, const unsigned char *data, unsigned int length); typedef enum SSLNextProtoState { SSL_NEXT_PROTO_NO_SUPPORT = 0, /* No peer support */ SSL_NEXT_PROTO_NEGOTIATED = 1, /* Mutual agreement */ SSL_NEXT_PROTO_NO_OVERLAP = 2, /* No protocol overlap found */ SSL_NEXT_PROTO_SELECTED = 3, /* Server selected proto (ALPN) */ SSL_NEXT_PROTO_EARLY_VALUE = 4 /* We are in 0-RTT using this value. */ } SSLNextProtoState; /* SSL_GetNextProto can be used in the HandshakeCallback or any time after * a handshake to retrieve the result of the Next Protocol negotiation. * * The length of the negotiated protocol, if any, is written into *bufLen. * If the negotiated protocol is longer than bufLenMax, then SECFailure is * returned. Otherwise, the negotiated protocol, if any, is written into buf, * and SECSuccess is returned. */ SSL_IMPORT SECStatus SSL_GetNextProto(PRFileDesc *fd, SSLNextProtoState *state, unsigned char *buf, unsigned int *bufLen, unsigned int bufLenMax); /* ** Control ciphers that SSL uses. If on is non-zero then the named cipher ** is enabled, otherwise it is disabled. ** The "cipher" values are defined in sslproto.h (the SSL_EN_* values). ** EnableCipher records user preferences. ** SetPolicy sets the policy according to the policy module. */ #ifdef SSL_DEPRECATED_FUNCTION /* Old deprecated function names */ SSL_IMPORT SECStatus SSL_EnableCipher(long which, PRBool enabled); SSL_IMPORT SECStatus SSL_SetPolicy(long which, int policy); #endif /* New function names */ SSL_IMPORT SECStatus SSL_CipherPrefSet(PRFileDesc *fd, PRInt32 cipher, PRBool enabled); SSL_IMPORT SECStatus SSL_CipherPrefGet(PRFileDesc *fd, PRInt32 cipher, PRBool *enabled); SSL_IMPORT SECStatus SSL_CipherPrefSetDefault(PRInt32 cipher, PRBool enabled); SSL_IMPORT SECStatus SSL_CipherPrefGetDefault(PRInt32 cipher, PRBool *enabled); SSL_IMPORT SECStatus SSL_CipherPolicySet(PRInt32 cipher, PRInt32 policy); SSL_IMPORT SECStatus SSL_CipherPolicyGet(PRInt32 cipher, PRInt32 *policy); /* ** Control for TLS signature schemes for TLS 1.2 and 1.3. ** ** This governs what signature schemes (or algorithms) are sent by a client in ** the signature_algorithms extension. A client will not accept a signature ** from a server unless it uses an enabled algorithm. ** ** This also governs what the server sends in the supported_signature_algorithms ** field of a CertificateRequest. ** ** This changes what the server uses to sign ServerKeyExchange and ** CertificateVerify messages. An endpoint uses the first entry from this list ** that is compatible with both its certificate and its peer's supported ** values. ** ** This configuration affects TLS 1.2, but the combination of EC group and hash ** algorithm is interpreted loosely to be compatible with other implementations. ** For TLS 1.2, NSS will ignore the curve group when generating or verifying ** ECDSA signatures. For example, a P-384 ECDSA certificate is used with ** SHA-256 if ssl_sig_ecdsa_secp256r1_sha256 is enabled. ** ** Omitting SHA-256 schemes from this list might be foolish. Support is ** mandatory in TLS 1.2 and 1.3 and there might be interoperability issues. */ SSL_IMPORT SECStatus SSL_SignatureSchemePrefSet( PRFileDesc *fd, const SSLSignatureScheme *schemes, unsigned int count); /* Deprecated, use SSL_SignatureSchemePrefSet() instead. */ SSL_IMPORT SECStatus SSL_SignaturePrefSet( PRFileDesc *fd, const SSLSignatureAndHashAlg *algorithms, unsigned int count); /* ** Get the currently configured signature schemes. ** ** The schemes are written to |schemes| but not if there are more than ** |maxCount| values configured. The number of schemes that are in use are ** written to |count|. This fails if |maxCount| is insufficiently large. */ SSL_IMPORT SECStatus SSL_SignatureSchemePrefGet( PRFileDesc *fd, SSLSignatureScheme *algorithms, unsigned int *count, unsigned int maxCount); /* Deprecated, use SSL_SignatureSchemePrefGet() instead. */ SSL_IMPORT SECStatus SSL_SignaturePrefGet( PRFileDesc *fd, SSLSignatureAndHashAlg *algorithms, unsigned int *count, unsigned int maxCount); /* ** Returns the maximum number of signature algorithms that are supported and ** can be set or retrieved using SSL_SignatureSchemePrefSet or ** SSL_SignatureSchemePrefGet. */ SSL_IMPORT unsigned int SSL_SignatureMaxCount(void); /* ** Define custom priorities for EC and FF groups used in DH key exchange and EC ** groups for ECDSA. This only changes the order of enabled lists (and thus ** their priorities) and enables all groups in |groups| while disabling all other ** groups. */ SSL_IMPORT SECStatus SSL_NamedGroupConfig(PRFileDesc *fd, const SSLNamedGroup *groups, unsigned int num_groups); /* ** Configure the socket to configure additional key shares. Normally when a TLS ** 1.3 ClientHello is sent, just one key share is included using the first ** preference group (as set by SSL_NamedGroupConfig). If the server decides to ** pick a different group for key exchange, it is forced to send a ** HelloRetryRequest, which adds an entire round trip of latency. ** ** This function can be used to configure libssl to generate additional key ** shares when sending a TLS 1.3 ClientHello. If |count| is set to a non-zero ** value, then additional key shares are generated. Shares are added in the ** preference order set in SSL_NamedGroupConfig. |count| can be set to any ** value; NSS limits the number of shares to the number of supported groups. */ SSL_IMPORT SECStatus SSL_SendAdditionalKeyShares(PRFileDesc *fd, unsigned int count); /* Deprecated: use SSL_NamedGroupConfig() instead. ** SSL_DHEGroupPrefSet is used to configure the set of allowed/enabled DHE group ** parameters that can be used by NSS for the given server socket. ** The first item in the array is used as the default group, if no other ** selection criteria can be used by NSS. ** The set is provided as an array of identifiers as defined by SSLDHEGroupType. ** If more than one group identifier is provided, NSS will select the one to use. ** For example, a TLS extension sent by the client might indicate a preference. */ SSL_IMPORT SECStatus SSL_DHEGroupPrefSet(PRFileDesc *fd, const SSLDHEGroupType *groups, PRUint16 num_groups); /* Enable the use of a DHE group that's smaller than the library default, ** for backwards compatibility reasons. The DH parameters will be created ** at the time this function is called, which might take a very long time. ** The function will block until generation is completed. ** The intention is to enforce that fresh and safe parameters are generated ** each time a process is started. ** At the time this API was initially implemented, the API will enable the ** use of 1024 bit DHE parameters. This value might get increased in future ** versions of NSS. ** ** It is allowed to call this API will a NULL value for parameter fd, ** which will prepare the global parameters that NSS will reuse for the remainder ** of the process lifetime. This can be used early after startup of a process, ** to avoid a delay when handling incoming client connections. ** This preparation with a NULL for parameter fd will NOT enable the weak group ** on sockets. The function needs to be called again for every socket that ** should use the weak group. ** ** It is allowed to use this API in combination with the SSL_NamedGroupConfig API. ** If both APIs have been called, the weakest group will be used, unless it is ** certain that the client supports larger group parameters. The weak group will ** be used as the default group for TLS <= 1.2, overriding the preference for ** the first group potentially set with a call to SSL_NamedGroupConfig. */ SSL_IMPORT SECStatus SSL_EnableWeakDHEPrimeGroup(PRFileDesc *fd, PRBool enabled); /* SSL Version Range API ** ** This API should be used to control SSL 3.0 & TLS support instead of the ** older SSL_Option* API; however, the SSL_Option* API MUST still be used to ** control SSL 2.0 support. In this version of libssl, SSL 3.0 and TLS 1.0 are ** enabled by default. Future versions of libssl may change which versions of ** the protocol are enabled by default. ** ** The SSLProtocolVariant enum indicates whether the protocol is of type ** stream or datagram. This must be provided to the functions that do not ** take an fd. Functions which take an fd will get the variant from the fd, ** which is typed. ** ** Using the new version range API in conjunction with the older ** SSL_OptionSet-based API for controlling the enabled protocol versions may ** cause unexpected results. Going forward, we guarantee only the following: ** ** SSL_OptionGet(SSL_ENABLE_TLS) will return PR_TRUE if *ANY* versions of TLS ** are enabled. ** ** SSL_OptionSet(SSL_ENABLE_TLS, PR_FALSE) will disable *ALL* versions of TLS, ** including TLS 1.0 and later. ** ** The above two properties provide compatibility for applications that use ** SSL_OptionSet to implement the insecure fallback from TLS 1.x to SSL 3.0. ** ** SSL_OptionSet(SSL_ENABLE_TLS, PR_TRUE) will enable TLS 1.0, and may also ** enable some later versions of TLS, if it is necessary to do so in order to ** keep the set of enabled versions contiguous. For example, if TLS 1.2 is ** enabled, then after SSL_OptionSet(SSL_ENABLE_TLS, PR_TRUE), TLS 1.0, ** TLS 1.1, and TLS 1.2 will be enabled, and the call will have no effect on ** whether SSL 3.0 is enabled. If no later versions of TLS are enabled at the ** time SSL_OptionSet(SSL_ENABLE_TLS, PR_TRUE) is called, then no later ** versions of TLS will be enabled by the call. ** ** SSL_OptionSet(SSL_ENABLE_SSL3, PR_FALSE) will disable SSL 3.0, and will not ** change the set of TLS versions that are enabled. ** ** SSL_OptionSet(SSL_ENABLE_SSL3, PR_TRUE) will enable SSL 3.0, and may also ** enable some versions of TLS if TLS 1.1 or later is enabled at the time of ** the call, the same way SSL_OptionSet(SSL_ENABLE_TLS, PR_TRUE) works, in ** order to keep the set of enabled versions contiguous. */ /* Returns, in |*vrange|, the range of SSL3/TLS versions supported for the ** given protocol variant by the version of libssl linked-to at runtime. */ SSL_IMPORT SECStatus SSL_VersionRangeGetSupported( SSLProtocolVariant protocolVariant, SSLVersionRange *vrange); /* Returns, in |*vrange|, the range of SSL3/TLS versions enabled by default ** for the given protocol variant. */ SSL_IMPORT SECStatus SSL_VersionRangeGetDefault( SSLProtocolVariant protocolVariant, SSLVersionRange *vrange); /* Sets the range of enabled-by-default SSL3/TLS versions for the given ** protocol variant to |*vrange|. */ SSL_IMPORT SECStatus SSL_VersionRangeSetDefault( SSLProtocolVariant protocolVariant, const SSLVersionRange *vrange); /* Returns, in |*vrange|, the range of enabled SSL3/TLS versions for |fd|. */ SSL_IMPORT SECStatus SSL_VersionRangeGet(PRFileDesc *fd, SSLVersionRange *vrange); /* Sets the range of enabled SSL3/TLS versions for |fd| to |*vrange|. */ SSL_IMPORT SECStatus SSL_VersionRangeSet(PRFileDesc *fd, const SSLVersionRange *vrange); /* Sets the version to check the server random against for the * fallback check defined in [draft-ietf-tls-tls13-11 Section 6.3.1.1]. * This function is provided to allow for detection of forced downgrade * attacks against client-side reconnect-and-fallback outside of TLS * by setting |version| to be that of the original connection, rather * than that of the new connection. * * The default, which can also be enabled by setting |version| to * zero, is just to check against the max version in the * version range (see SSL_VersionRangeSet). */ SSL_IMPORT SECStatus SSL_SetDowngradeCheckVersion(PRFileDesc *fd, PRUint16 version); /* Values for "policy" argument to SSL_CipherPolicySet */ /* Values returned by SSL_CipherPolicyGet. */ #define SSL_NOT_ALLOWED 0 /* or invalid or unimplemented */ #define SSL_ALLOWED 1 #define SSL_RESTRICTED 2 /* only with "Step-Up" certs. */ /* Values for "on" with SSL_REQUIRE_CERTIFICATE. */ #define SSL_REQUIRE_NEVER ((PRBool)0) #define SSL_REQUIRE_ALWAYS ((PRBool)1) #define SSL_REQUIRE_FIRST_HANDSHAKE ((PRBool)2) #define SSL_REQUIRE_NO_ERROR ((PRBool)3) /* Values for "on" with SSL_ENABLE_RENEGOTIATION */ /* Never renegotiate at all. */ #define SSL_RENEGOTIATE_NEVER ((PRBool)0) /* Renegotiate without restriction, whether or not the peer's client hello */ /* bears the renegotiation info extension. Vulnerable, as in the past. */ #define SSL_RENEGOTIATE_UNRESTRICTED ((PRBool)1) /* Only renegotiate if the peer's hello bears the TLS renegotiation_info */ /* extension. This is safe renegotiation. */ #define SSL_RENEGOTIATE_REQUIRES_XTN ((PRBool)2) /* Disallow unsafe renegotiation in server sockets only, but allow clients */ /* to continue to renegotiate with vulnerable servers. */ /* This value should only be used during the transition period when few */ /* servers have been upgraded. */ #define SSL_RENEGOTIATE_TRANSITIONAL ((PRBool)3) /* ** Reset the handshake state for fd. This will make the complete SSL ** handshake protocol execute from the ground up on the next i/o ** operation. */ SSL_IMPORT SECStatus SSL_ResetHandshake(PRFileDesc *fd, PRBool asServer); /* ** Force the handshake for fd to complete immediately. This blocks until ** the complete SSL handshake protocol is finished. */ SSL_IMPORT SECStatus SSL_ForceHandshake(PRFileDesc *fd); /* ** Same as above, but with an I/O timeout. */ SSL_IMPORT SECStatus SSL_ForceHandshakeWithTimeout(PRFileDesc *fd, PRIntervalTime timeout); /* ** Query security status of socket. *on is set to one if security is ** enabled. *keySize will contain the stream key size used. *issuer will ** contain the RFC1485 verison of the name of the issuer of the ** certificate at the other end of the connection. For a client, this is ** the issuer of the server's certificate; for a server, this is the ** issuer of the client's certificate (if any). Subject is the subject of ** the other end's certificate. The pointers can be zero if the desired ** data is not needed. All strings returned by this function are owned ** by the caller, and need to be freed with PORT_Free. */ SSL_IMPORT SECStatus SSL_SecurityStatus(PRFileDesc *fd, int *on, char **cipher, int *keySize, int *secretKeySize, char **issuer, char **subject); /* Values for "on" */ #define SSL_SECURITY_STATUS_NOOPT -1 #define SSL_SECURITY_STATUS_OFF 0 #define SSL_SECURITY_STATUS_ON_HIGH 1 #define SSL_SECURITY_STATUS_ON_LOW 2 #define SSL_SECURITY_STATUS_FORTEZZA 3 /* NO LONGER SUPPORTED */ /* ** Return the certificate for our SSL peer. If the client calls this ** it will always return the server's certificate. If the server calls ** this, it may return NULL if client authentication is not enabled or ** if the client had no certificate when asked. ** "fd" the socket "file" descriptor */ SSL_IMPORT CERTCertificate *SSL_PeerCertificate(PRFileDesc *fd); /* ** Return the certificates presented by the SSL peer. If the SSL peer ** did not present certificates, return NULL with the ** SSL_ERROR_NO_CERTIFICATE error. On failure, return NULL with an error ** code other than SSL_ERROR_NO_CERTIFICATE. ** "fd" the socket "file" descriptor */ SSL_IMPORT CERTCertList *SSL_PeerCertificateChain(PRFileDesc *fd); /* SSL_PeerStapledOCSPResponses returns the OCSP responses that were provided * by the TLS server. The return value is a pointer to an internal SECItemArray * that contains the returned OCSP responses; it is only valid until the * callback function that calls SSL_PeerStapledOCSPResponses returns. * * If no OCSP responses were given by the server then the result will be empty. * If there was an error, then the result will be NULL. * * You must set the SSL_ENABLE_OCSP_STAPLING option to enable OCSP stapling. * to be provided by a server. * * libssl does not do any validation of the OCSP response itself; the * authenticate certificate hook is responsible for doing so. The default * authenticate certificate hook, SSL_AuthCertificate, does not implement * any OCSP stapling funtionality, but this may change in future versions. */ SSL_IMPORT const SECItemArray *SSL_PeerStapledOCSPResponses(PRFileDesc *fd); /* SSL_PeerSignedCertTimestamps returns the signed_certificate_timestamp * extension data provided by the TLS server. The return value is a pointer * to an internal SECItem that contains the returned response (as a serialized * SignedCertificateTimestampList, see RFC 6962). The returned pointer is only * valid until the callback function that calls SSL_PeerSignedCertTimestamps * (e.g. the authenticate certificate hook, or the handshake callback) returns. * * If no Signed Certificate Timestamps were given by the server then the result * will be empty. If there was an error, then the result will be NULL. * * You must set the SSL_ENABLE_SIGNED_CERT_TIMESTAMPS option to indicate support * for Signed Certificate Timestamps to a server. * * libssl does not do any parsing or validation of the response itself. */ SSL_IMPORT const SECItem *SSL_PeerSignedCertTimestamps(PRFileDesc *fd); /* SSL_SetStapledOCSPResponses stores an array of one or multiple OCSP responses * in the fd's data, which may be sent as part of a server side cert_status * handshake message. Parameter |responses| is for the server certificate of * the key exchange type |kea|. * The function will duplicate the responses array. * * Deprecated: see SSL_ConfigSecureServer for details. */ SSL_IMPORT SECStatus SSL_SetStapledOCSPResponses(PRFileDesc *fd, const SECItemArray *responses, SSLKEAType kea); /* * SSL_SetSignedCertTimestamps stores serialized signed_certificate_timestamp * extension data in the fd. The signed_certificate_timestamp data is sent * during the handshake (if requested by the client). Parameter |scts| * is for the server certificate of the key exchange type |kea|. * The function will duplicate the provided data item. To clear previously * set data for a given key exchange type |kea|, pass NULL to |scts|. * * Deprecated: see SSL_ConfigSecureServer for details. */ SSL_IMPORT SECStatus SSL_SetSignedCertTimestamps(PRFileDesc *fd, const SECItem *scts, SSLKEAType kea); /* ** Authenticate certificate hook. Called when a certificate comes in ** (because of SSL_REQUIRE_CERTIFICATE in SSL_Enable) to authenticate the ** certificate. ** ** The authenticate certificate hook must return SECSuccess to indicate the ** certificate is valid, SECFailure to indicate the certificate is invalid, ** or SECWouldBlock if the application will authenticate the certificate ** asynchronously. SECWouldBlock is only supported for non-blocking sockets. ** ** If the authenticate certificate hook returns SECFailure, then the bad cert ** hook will be called. The bad cert handler is NEVER called if the ** authenticate certificate hook returns SECWouldBlock. If the application ** needs to handle and/or override a bad cert, it should do so before it ** calls SSL_AuthCertificateComplete (modifying the error it passes to ** SSL_AuthCertificateComplete as needed). ** ** See the documentation for SSL_AuthCertificateComplete for more information ** about the asynchronous behavior that occurs when the authenticate ** certificate hook returns SECWouldBlock. ** ** RFC 6066 says that clients should send the bad_certificate_status_response ** alert when they encounter an error processing the stapled OCSP response. ** libssl does not provide a way for the authenticate certificate hook to ** indicate that an OCSP error (SEC_ERROR_OCSP_*) that it returns is an error ** in the stapled OCSP response or an error in some other OCSP response. ** Further, NSS does not provide a convenient way to control or determine ** which OCSP response(s) were used to validate a certificate chain. ** Consequently, the current version of libssl does not ever send the ** bad_certificate_status_response alert. This may change in future releases. */ typedef SECStatus(PR_CALLBACK *SSLAuthCertificate)(void *arg, PRFileDesc *fd, PRBool checkSig, PRBool isServer); SSL_IMPORT SECStatus SSL_AuthCertificateHook(PRFileDesc *fd, SSLAuthCertificate f, void *arg); /* An implementation of the certificate authentication hook */ SSL_IMPORT SECStatus SSL_AuthCertificate(void *arg, PRFileDesc *fd, PRBool checkSig, PRBool isServer); /* * Prototype for SSL callback to get client auth data from the application. * arg - application passed argument * caNames - pointer to distinguished names of CAs that the server likes * pRetCert - pointer to pointer to cert, for return of cert * pRetKey - pointer to key pointer, for return of key */ typedef SECStatus(PR_CALLBACK *SSLGetClientAuthData)(void *arg, PRFileDesc *fd, CERTDistNames *caNames, CERTCertificate **pRetCert, /*return */ SECKEYPrivateKey **pRetKey); /* return */ /* * Set the client side callback for SSL to retrieve user's private key * and certificate. * fd - the file descriptor for the connection in question * f - the application's callback that delivers the key and cert * a - application specific data */ SSL_IMPORT SECStatus SSL_GetClientAuthDataHook(PRFileDesc *fd, SSLGetClientAuthData f, void *a); /* ** SNI extension processing callback function. ** It is called when SSL socket receives SNI extension in ClientHello message. ** Upon this callback invocation, application is responsible to reconfigure the ** socket with the data for a particular server name. ** There are three potential outcomes of this function invocation: ** * application does not recognize the name or the type and wants the ** "unrecognized_name" alert be sent to the client. In this case the callback ** function must return SSL_SNI_SEND_ALERT status. ** * application does not recognize the name, but wants to continue with ** the handshake using the current socket configuration. In this case, ** no socket reconfiguration is needed and the function should return ** SSL_SNI_CURRENT_CONFIG_IS_USED. ** * application recognizes the name and reconfigures the socket with ** appropriate certs, key, etc. There are many ways to reconfigure. NSS ** provides SSL_ReconfigFD function that can be used to update the socket ** data from model socket. To continue with the rest of the handshake, the ** implementation function should return an index of a name it has chosen. ** LibSSL will ignore any SNI extension received in a ClientHello message ** if application does not register a SSLSNISocketConfig callback. ** Each type field of SECItem indicates the name type. ** NOTE: currently RFC3546 defines only one name type: sni_host_name. ** Client is allowed to send only one name per known type. LibSSL will ** send an "unrecognized_name" alert if SNI extension name list contains more ** then one name of a type. */ typedef PRInt32(PR_CALLBACK *SSLSNISocketConfig)(PRFileDesc *fd, const SECItem *srvNameArr, PRUint32 srvNameArrSize, void *arg); /* ** SSLSNISocketConfig should return an index within 0 and srvNameArrSize-1 ** when it has reconfigured the socket fd to use certs and keys, etc ** for a specific name. There are two other allowed return values. One ** tells libSSL to use the default cert and key. The other tells libSSL ** to send the "unrecognized_name" alert. These values are: **/ #define SSL_SNI_CURRENT_CONFIG_IS_USED -1 #define SSL_SNI_SEND_ALERT -2 /* ** Set application implemented SNISocketConfig callback. */ SSL_IMPORT SECStatus SSL_SNISocketConfigHook(PRFileDesc *fd, SSLSNISocketConfig f, void *arg); /* ** Reconfigure fd SSL socket with model socket parameters. Sets ** server certs and keys, list of trust anchor, socket options ** and all SSL socket call backs and parameters. */ SSL_IMPORT PRFileDesc *SSL_ReconfigFD(PRFileDesc *model, PRFileDesc *fd); /* * Set the client side argument for SSL to retrieve PKCS #11 pin. * fd - the file descriptor for the connection in question * a - pkcs11 application specific data */ SSL_IMPORT SECStatus SSL_SetPKCS11PinArg(PRFileDesc *fd, void *a); /* ** These are callbacks for dealing with SSL alerts. */ typedef PRUint8 SSLAlertLevel; typedef PRUint8 SSLAlertDescription; typedef struct { SSLAlertLevel level; SSLAlertDescription description; } SSLAlert; typedef void(PR_CALLBACK *SSLAlertCallback)(const PRFileDesc *fd, void *arg, const SSLAlert *alert); SSL_IMPORT SECStatus SSL_AlertReceivedCallback(PRFileDesc *fd, SSLAlertCallback cb, void *arg); SSL_IMPORT SECStatus SSL_AlertSentCallback(PRFileDesc *fd, SSLAlertCallback cb, void *arg); /* ** This is a callback for dealing with server certs that are not authenticated ** by the client. The client app can decide that it actually likes the ** cert by some external means and restart the connection. ** ** The bad cert hook must return SECSuccess to override the result of the ** authenticate certificate hook, SECFailure if the certificate should still be ** considered invalid, or SECWouldBlock if the application will authenticate ** the certificate asynchronously. SECWouldBlock is only supported for ** non-blocking sockets. ** ** See the documentation for SSL_AuthCertificateComplete for more information ** about the asynchronous behavior that occurs when the bad cert hook returns ** SECWouldBlock. */ typedef SECStatus(PR_CALLBACK *SSLBadCertHandler)(void *arg, PRFileDesc *fd); SSL_IMPORT SECStatus SSL_BadCertHook(PRFileDesc *fd, SSLBadCertHandler f, void *arg); /* ** Configure SSL socket for running a secure server. Needs the ** certificate for the server and the servers private key. The arguments ** are copied. ** ** This method should be used in preference to SSL_ConfigSecureServer, ** SSL_ConfigSecureServerWithCertChain, SSL_SetStapledOCSPResponses, and ** SSL_SetSignedCertTimestamps. ** ** The authentication method is determined from the certificate and private key ** based on how libssl authenticates peers. Primarily, this uses the value of ** the SSLAuthType enum and is derived from the type of public key in the ** certificate. For example, different RSA certificates might be saved for ** signing (ssl_auth_rsa_sign) and key encipherment ** (ssl_auth_rsa_decrypt). Unique to RSA, the same certificate can be used for ** both usages. Additional information about the authentication method is also ** used: EC keys with different curves are separately stored. ** ** Only one certificate is stored for each authentication method. ** ** The optional |data| argument contains additional information about the ** certificate: ** ** - |authType| (with a value other than ssl_auth_null) limits the ** authentication method; this is primarily useful in limiting the use of an ** RSA certificate to one particular key usage (either signing or key ** encipherment) when its key usages indicate support for both. ** ** - |certChain| provides an explicit certificate chain, rather than relying on ** NSS functions for finding a certificate chain. ** ** - |stapledOCSPResponses| provides a response for OCSP stapling. ** ** - |signedCertTimestamps| provides a value for the ** signed_certificate_timestamp extension used in certificate transparency. ** ** The |data_len| argument provides the length of the data. This should be set ** to |sizeof(data)|. ** ** This function allows an application to provide certificates with narrow key ** usages attached to them. For instance, RSA keys can be provided that are ** limited to signing or decryption only. Multiple EC certificates with keys on ** different named curves can be provided. ** ** Unlike SSL_ConfigSecureServer(WithCertChain), this function does not accept ** NULL for the |cert| and |key| arguments. It will replace certificates that ** have the same type, but it cannot be used to remove certificates that have ** already been configured. */ SSL_IMPORT SECStatus SSL_ConfigServerCert( PRFileDesc *fd, CERTCertificate *cert, SECKEYPrivateKey *key, const SSLExtraServerCertData *data, unsigned int data_len); /* ** Deprecated variant of SSL_ConfigServerCert. ** ** This uses values from the SSLKEAType to identify the type of |key| that the ** |cert| contains. This is incorrect, since key exchange and authentication ** are separated in some cipher suites (in particular, ECDHE_RSA_* suites). ** ** Providing a |kea| parameter of ssl_kea_ecdh (or kt_ecdh) is interpreted as ** providing both ECDH and ECDSA certificates. */ SSL_IMPORT SECStatus SSL_ConfigSecureServer( PRFileDesc *fd, CERTCertificate *cert, SECKEYPrivateKey *key, SSLKEAType kea); /* ** Deprecated variant of SSL_ConfigSecureServerCert. The |data| argument to ** SSL_ConfigSecureServerCert can be used to pass a certificate chain. */ SSL_IMPORT SECStatus SSL_ConfigSecureServerWithCertChain(PRFileDesc *fd, CERTCertificate *cert, const CERTCertificateList *certChainOpt, SECKEYPrivateKey *key, SSLKEAType kea); /* ** SSL_SetSessionTicketKeyPair configures an asymmetric key pair for use in ** wrapping session ticket keys, used by the server. This function currently ** only accepts an RSA public/private key pair. ** ** Prior to the existence of this function, NSS used an RSA private key ** associated with a configured certificate to perform session ticket ** encryption. If this function isn't used, the keys provided with a configured ** RSA certificate are used for wrapping session ticket keys. ** ** NOTE: This key is used for all self-encryption but is named for ** session tickets for historical reasons. */ SSL_IMPORT SECStatus SSL_SetSessionTicketKeyPair(SECKEYPublicKey *pubKey, SECKEYPrivateKey *privKey); /* ** Configure a secure server's session-id cache. Define the maximum number ** of entries in the cache, the longevity of the entires, and the directory ** where the cache files will be placed. These values can be zero, and ** if so, the implementation will choose defaults. ** This version of the function is for use in applications that have only one ** process that uses the cache (even if that process has multiple threads). */ SSL_IMPORT SECStatus SSL_ConfigServerSessionIDCache(int maxCacheEntries, PRUint32 timeout, PRUint32 ssl3_timeout, const char *directory); /* Configure a secure server's session-id cache. Depends on value of * enableMPCache, configures malti-proc or single proc cache. */ SSL_IMPORT SECStatus SSL_ConfigServerSessionIDCacheWithOpt( PRUint32 timeout, PRUint32 ssl3_timeout, const char *directory, int maxCacheEntries, int maxCertCacheEntries, int maxSrvNameCacheEntries, PRBool enableMPCache); /* ** Like SSL_ConfigServerSessionIDCache, with one important difference. ** If the application will run multiple processes (as opposed to, or in ** addition to multiple threads), then it must call this function, instead ** of calling SSL_ConfigServerSessionIDCache(). ** This has nothing to do with the number of processORs, only processEs. ** This function sets up a Server Session ID (SID) cache that is safe for ** access by multiple processes on the same system. */ SSL_IMPORT SECStatus SSL_ConfigMPServerSIDCache(int maxCacheEntries, PRUint32 timeout, PRUint32 ssl3_timeout, const char *directory); /* Get and set the configured maximum number of mutexes used for the ** server's store of SSL sessions. This value is used by the server ** session ID cache initialization functions shown above. Note that on ** some platforms, these mutexes are actually implemented with POSIX ** semaphores, or with unnamed pipes. The default value varies by platform. ** An attempt to set a too-low maximum will return an error and the ** configured value will not be changed. */ SSL_IMPORT PRUint32 SSL_GetMaxServerCacheLocks(void); SSL_IMPORT SECStatus SSL_SetMaxServerCacheLocks(PRUint32 maxLocks); /* environment variable set by SSL_ConfigMPServerSIDCache, and queried by * SSL_InheritMPServerSIDCache when envString is NULL. */ #define SSL_ENV_VAR_NAME "SSL_INHERITANCE" /* called in child to inherit SID Cache variables. * If envString is NULL, this function will use the value of the environment * variable "SSL_INHERITANCE", otherwise the string value passed in will be * used. */ SSL_IMPORT SECStatus SSL_InheritMPServerSIDCache(const char *envString); /* ** Set the callback that gets called when a TLS handshake is complete. The ** handshake callback is called after verifying the peer's Finished message and ** before processing incoming application data. ** ** For the initial handshake: If the handshake false started (see ** SSL_ENABLE_FALSE_START), then application data may already have been sent ** before the handshake callback is called. If we did not false start then the ** callback will get called before any application data is sent. */ typedef void(PR_CALLBACK *SSLHandshakeCallback)(PRFileDesc *fd, void *client_data); SSL_IMPORT SECStatus SSL_HandshakeCallback(PRFileDesc *fd, SSLHandshakeCallback cb, void *client_data); /* Applications that wish to enable TLS false start must set this callback ** function. NSS will invoke the functon to determine if a particular ** connection should use false start or not. SECSuccess indicates that the ** callback completed successfully, and if so *canFalseStart indicates if false ** start can be used. If the callback does not return SECSuccess then the ** handshake will be canceled. NSS's recommended criteria can be evaluated by ** calling SSL_RecommendedCanFalseStart. ** ** If no false start callback is registered then false start will never be ** done, even if the SSL_ENABLE_FALSE_START option is enabled. **/ typedef SECStatus(PR_CALLBACK *SSLCanFalseStartCallback)( PRFileDesc *fd, void *arg, PRBool *canFalseStart); SSL_IMPORT SECStatus SSL_SetCanFalseStartCallback( PRFileDesc *fd, SSLCanFalseStartCallback callback, void *arg); /* This function sets *canFalseStart according to the recommended criteria for ** false start. These criteria may change from release to release and may depend ** on which handshake features have been negotiated and/or properties of the ** certifciates/keys used on the connection. */ SSL_IMPORT SECStatus SSL_RecommendedCanFalseStart(PRFileDesc *fd, PRBool *canFalseStart); /* ** For the server, request a new handshake. For the client, begin a new ** handshake. If flushCache is non-zero, the SSL3 cache entry will be ** flushed first, ensuring that a full SSL handshake will be done. ** If flushCache is zero, and an SSL connection is established, it will ** do the much faster session restart handshake. This will change the ** session keys without doing another private key operation. */ SSL_IMPORT SECStatus SSL_ReHandshake(PRFileDesc *fd, PRBool flushCache); /* ** Same as above, but with an I/O timeout. */ SSL_IMPORT SECStatus SSL_ReHandshakeWithTimeout(PRFileDesc *fd, PRBool flushCache, PRIntervalTime timeout); #ifdef SSL_DEPRECATED_FUNCTION /* deprecated! ** For the server, request a new handshake. For the client, begin a new ** handshake. Flushes SSL3 session cache entry first, ensuring that a ** full handshake will be done. ** This call is equivalent to SSL_ReHandshake(fd, PR_TRUE) */ SSL_IMPORT SECStatus SSL_RedoHandshake(PRFileDesc *fd); #endif /* * Allow the application to pass a URL or hostname into the SSL library. */ SSL_IMPORT SECStatus SSL_SetURL(PRFileDesc *fd, const char *url); /* * Allow an application to define a set of trust anchors for peer * cert validation. */ SSL_IMPORT SECStatus SSL_SetTrustAnchors(PRFileDesc *fd, CERTCertList *list); /* ** Return the number of bytes that SSL has waiting in internal buffers. ** Return 0 if security is not enabled. */ SSL_IMPORT int SSL_DataPending(PRFileDesc *fd); /* ** Invalidate the SSL session associated with fd. */ SSL_IMPORT SECStatus SSL_InvalidateSession(PRFileDesc *fd); /* ** Return a SECItem containing the SSL session ID associated with the fd. */ SSL_IMPORT SECItem *SSL_GetSessionID(PRFileDesc *fd); /* ** Clear out the client's SSL session cache, not the server's session cache. */ SSL_IMPORT void SSL_ClearSessionCache(void); /* ** Close the server's SSL session cache. */ SSL_IMPORT SECStatus SSL_ShutdownServerSessionIDCache(void); /* ** Set peer information so we can correctly look up SSL session later. ** You only have to do this if you're tunneling through a proxy. */ SSL_IMPORT SECStatus SSL_SetSockPeerID(PRFileDesc *fd, const char *peerID); /* ** Reveal the security information for the peer. */ SSL_IMPORT CERTCertificate *SSL_RevealCert(PRFileDesc *socket); SSL_IMPORT void *SSL_RevealPinArg(PRFileDesc *socket); SSL_IMPORT char *SSL_RevealURL(PRFileDesc *socket); /* This callback may be passed to the SSL library via a call to * SSL_GetClientAuthDataHook() for each SSL client socket. * It will be invoked when SSL needs to know what certificate and private key * (if any) to use to respond to a request for client authentication. * If arg is non-NULL, it is a pointer to a NULL-terminated string containing * the nickname of the cert/key pair to use. * If arg is NULL, this function will search the cert and key databases for * a suitable match and send it if one is found. */ SSL_IMPORT SECStatus NSS_GetClientAuthData(void *arg, PRFileDesc *socket, struct CERTDistNamesStr *caNames, struct CERTCertificateStr **pRetCert, struct SECKEYPrivateKeyStr **pRetKey); /* ** Configure DTLS-SRTP (RFC 5764) cipher suite preferences. ** Input is a list of ciphers in descending preference order and a length ** of the list. As a side effect, this causes the use_srtp extension to be ** negotiated. ** ** Invalid or unimplemented cipher suites in |ciphers| are ignored. If at ** least one cipher suite in |ciphers| is implemented, returns SECSuccess. ** Otherwise returns SECFailure. */ SSL_IMPORT SECStatus SSL_SetSRTPCiphers(PRFileDesc *fd, const PRUint16 *ciphers, unsigned int numCiphers); /* ** Get the selected DTLS-SRTP cipher suite (if any). ** To be called after the handshake completes. ** Returns SECFailure if not negotiated. */ SSL_IMPORT SECStatus SSL_GetSRTPCipher(PRFileDesc *fd, PRUint16 *cipher); /* * Look to see if any of the signers in the cert chain for "cert" are found * in the list of caNames. * Returns SECSuccess if so, SECFailure if not. * Used by NSS_GetClientAuthData. May be used by other callback functions. */ SSL_IMPORT SECStatus NSS_CmpCertChainWCANames(CERTCertificate *cert, CERTDistNames *caNames); /* Deprecated. This reports a misleading value for certificates that might * be used for signing rather than key exchange. * Returns key exchange type of the keys in an SSL server certificate. */ SSL_IMPORT SSLKEAType NSS_FindCertKEAType(CERTCertificate *cert); /* Set cipher policies to a predefined Domestic (U.S.A.) policy. * This essentially allows all supported ciphers. */ SSL_IMPORT SECStatus NSS_SetDomesticPolicy(void); /* Set cipher policies to a predefined Policy that is exportable from the USA * according to present U.S. policies as we understand them. * It is the same as NSS_SetDomesticPolicy now. */ SSL_IMPORT SECStatus NSS_SetExportPolicy(void); /* Set cipher policies to a predefined Policy that is exportable from the USA * according to present U.S. policies as we understand them, and that the * nation of France will permit to be imported into their country. * It is the same as NSS_SetDomesticPolicy now. */ SSL_IMPORT SECStatus NSS_SetFrancePolicy(void); SSL_IMPORT SSL3Statistics *SSL_GetStatistics(void); /* Report more information than SSL_SecurityStatus. * Caller supplies the info struct. This function fills it in. Caller should * pass sizeof(SSLChannelInfo) as the |len| argument. * * The information here will be zeroed prior to details being confirmed. The * details are confirmed either when a Finished message is received, or - for a * client - when the second flight of messages have been sent. This function * therefore produces unreliable results prior to receiving the * SSLHandshakeCallback or the SSLCanFalseStartCallback. */ SSL_IMPORT SECStatus SSL_GetChannelInfo(PRFileDesc *fd, SSLChannelInfo *info, PRUintn len); /* Get preliminary information about a channel. * Caller supplies the info struct. This function fills it in. Caller should * pass sizeof(SSLPreliminaryChannelInfo) as the |len| argument. * * This function can be called prior to handshake details being confirmed (see * SSL_GetChannelInfo above for what that means). Thus, information provided by * this function is available to SSLAuthCertificate, SSLGetClientAuthData, * SSLSNISocketConfig, and other callbacks that might be called during the * processing of the first flight of client of server handshake messages. * Values are marked as being unavailable when renegotiation is initiated. */ SSL_IMPORT SECStatus SSL_GetPreliminaryChannelInfo(PRFileDesc *fd, SSLPreliminaryChannelInfo *info, PRUintn len); /* Get information about cipher suite with id of |cipherSuite|. * Caller supplies the info struct. This function fills it in. Caller should * pass sizeof(SSLCipherSuiteInfo) as the |len| argument. */ SSL_IMPORT SECStatus SSL_GetCipherSuiteInfo(PRUint16 cipherSuite, SSLCipherSuiteInfo *info, PRUintn len); /* Returnes negotiated through SNI host info. */ SSL_IMPORT SECItem *SSL_GetNegotiatedHostInfo(PRFileDesc *fd); /* Export keying material according to RFC 5705. ** fd must correspond to a TLS 1.0 or higher socket and out must ** already be allocated. If hasContext is false, it uses the no-context ** construction from the RFC and ignores the context and contextLen ** arguments. */ SSL_IMPORT SECStatus SSL_ExportKeyingMaterial(PRFileDesc *fd, const char *label, unsigned int labelLen, PRBool hasContext, const unsigned char *context, unsigned int contextLen, unsigned char *out, unsigned int outLen); /* Early exporters are used if 0-RTT is enabled. This is TLS 1.3 only. Note * that in TLS 1.3, an empty context is equivalent to an absent context. */ SSL_IMPORT SECStatus SSL_ExportEarlyKeyingMaterial(PRFileDesc *fd, const char *label, unsigned int labelLen, const unsigned char *context, unsigned int contextLen, unsigned char *out, unsigned int outLen); /* ** Return a new reference to the certificate that was most recently sent ** to the peer on this SSL/TLS connection, or NULL if none has been sent. */ SSL_IMPORT CERTCertificate *SSL_LocalCertificate(PRFileDesc *fd); #define SSL_CBP_SSL3 0x0001 /* (deprecated) */ #define SSL_CBP_TLS1_0 0x0002 /* (deprecated) */ /* DEPRECATED: The PKCS#11 bypass has been removed. ** This function will now always return false. */ SSL_IMPORT SECStatus SSL_CanBypass(CERTCertificate *cert, SECKEYPrivateKey *privKey, PRUint32 protocolmask, PRUint16 *ciphers, int nciphers, PRBool *pcanbypass, void *pwArg); /* ** Did the handshake with the peer negotiate the given extension? ** Output parameter valid only if function returns SECSuccess */ SSL_IMPORT SECStatus SSL_HandshakeNegotiatedExtension(PRFileDesc *socket, SSLExtensionType extId, PRBool *yes); /* ** How long should we wait before retransmitting the next flight of ** the DTLS handshake? Returns SECFailure if not DTLS or not in a ** handshake. */ SSL_IMPORT SECStatus DTLS_GetHandshakeTimeout(PRFileDesc *socket, PRIntervalTime *timeout); /* * Return a boolean that indicates whether the underlying library * will perform as the caller expects. * * The only argument is a string, which should be the version * identifier of the NSS library. That string will be compared * against a string that represents the actual build version of * the SSL library. */ extern PRBool NSSSSL_VersionCheck(const char *importedVersion); /* * Returns a const string of the SSL library version. */ extern const char *NSSSSL_GetVersion(void); /* Restart an SSL connection that was paused to do asynchronous certificate * chain validation (when the auth certificate hook or bad cert handler * returned SECWouldBlock). * * This function only works for non-blocking sockets; Do not use it for * blocking sockets. Currently, this function works only for the client role of * a connection; it does not work for the server role. * * The application must call SSL_AuthCertificateComplete with 0 as the value of * the error parameter after it has successfully validated the peer's * certificate, in order to continue the SSL handshake. * * The application may call SSL_AuthCertificateComplete with a non-zero value * for error (e.g. SEC_ERROR_REVOKED_CERTIFICATE) when certificate validation * fails, before it closes the connection. If the application does so, an * alert corresponding to the error (e.g. certificate_revoked) will be sent to * the peer. See the source code of the internal function * ssl3_SendAlertForCertError for the current mapping of error to alert. This * mapping may change in future versions of libssl. * * This function will not complete the entire handshake. The application must * call SSL_ForceHandshake, PR_Recv, PR_Send, etc. after calling this function * to force the handshake to complete. * * On the first handshake of a connection, libssl will wait for the peer's * certificate to be authenticated before calling the handshake callback, * sending a client certificate, sending any application data, or returning * any application data to the application. On subsequent (renegotiation) * handshakes, libssl will block the handshake unconditionally while the * certificate is being validated. * * libssl may send and receive handshake messages while waiting for the * application to call SSL_AuthCertificateComplete, and it may call other * callbacks (e.g, the client auth data hook) before * SSL_AuthCertificateComplete has been called. * * An application that uses this asynchronous mechanism will usually have lower * handshake latency if it has to do public key operations on the certificate * chain and/or CRL/OCSP/cert fetching during the authentication, especially if * it does so in parallel on another thread. However, if the application can * authenticate the peer's certificate quickly then it may be more efficient * to use the synchronous mechanism (i.e. returning SECFailure/SECSuccess * instead of SECWouldBlock from the authenticate certificate hook). * * Be careful about converting an application from synchronous cert validation * to asynchronous certificate validation. A naive conversion is likely to * result in deadlocks; e.g. the application will wait in PR_Poll for network * I/O on the connection while all network I/O on the connection is blocked * waiting for this function to be called. * * Returns SECFailure on failure, SECSuccess on success. Never returns * SECWouldBlock. Note that SSL_AuthCertificateComplete will (usually) return * SECSuccess; do not interpret the return value of SSL_AuthCertificateComplete * as an indicator of whether it is OK to continue using the connection. For * example, SSL_AuthCertificateComplete(fd, SEC_ERROR_REVOKED_CERTIFICATE) will * return SECSuccess (normally), but that does not mean that the application * should continue using the connection. If the application passes a non-zero * value for second argument (error), or if SSL_AuthCertificateComplete returns * anything other than SECSuccess, then the application should close the * connection. */ SSL_IMPORT SECStatus SSL_AuthCertificateComplete(PRFileDesc *fd, PRErrorCode error); /* * This is used to access experimental APIs. Don't call this directly. This is * used to enable the experimental APIs that are defined in "sslexp.h". */ SSL_IMPORT void *SSL_GetExperimentalAPI(const char *name); SEC_END_PROTOS #endif /* __ssl_h_ */