#include "bearssl_rand.h"
#include "bearssl_x509.h"
+#ifdef __cplusplus
+extern "C" {
+#endif
+
/** \file bearssl_ssl.h
*
* # SSL
} out;
/*
- * The "application data" flag. It is set when application data
- * can be exchanged, cleared otherwise.
+ * The "application data" flag. Value:
+ * 0 handshake is in process, no application data acceptable
+ * 1 application data can be sent and received
+ * 2 closing, no application data can be sent, but some
+ * can still be received (and discarded)
*/
unsigned char application_data;
/*
* Secure renegotiation (RFC 5746): 'reneg' can be:
* 0 first handshake (server support is not known)
- * 1 server does not support secure renegotiation
- * 2 server supports secure renegotiation
+ * 1 peer does not support secure renegotiation
+ * 2 peer supports secure renegotiation
*
* The saved_finished buffer contains the client and the
* server "Finished" values from the last handshake, in
cc->iaes_cbcdec = impl_dec;
}
+/**
+ * \brief Set the "default" AES/CBC implementations.
+ *
+ * This function configures in the engine the AES implementations that
+ * should provide best runtime performance on the local system, while
+ * still being safe (in particular, constant-time). It also sets the
+ * handlers for CBC records.
+ *
+ * \param cc SSL engine context.
+ */
+void br_ssl_engine_set_default_aes_cbc(br_ssl_engine_context *cc);
+
/**
* \brief Set the AES/CTR implementation.
*
cc->iaes_ctr = impl;
}
+/**
+ * \brief Set the "default" implementations for AES/GCM (AES/CTR + GHASH).
+ *
+ * This function configures in the engine the AES/CTR and GHASH
+ * implementation that should provide best runtime performance on the local
+ * system, while still being safe (in particular, constant-time). It also
+ * sets the handlers for GCM records.
+ *
+ * \param cc SSL engine context.
+ */
+void br_ssl_engine_set_default_aes_gcm(br_ssl_engine_context *cc);
+
/**
* \brief Set the DES/CBC implementations.
*
cc->ides_cbcdec = impl_dec;
}
+/**
+ * \brief Set the "default" DES/CBC implementations.
+ *
+ * This function configures in the engine the DES implementations that
+ * should provide best runtime performance on the local system, while
+ * still being safe (in particular, constant-time). It also sets the
+ * handlers for CBC records.
+ *
+ * \param cc SSL engine context.
+ */
+void br_ssl_engine_set_default_des_cbc(br_ssl_engine_context *cc);
+
/**
* \brief Set the GHASH implementation (used in GCM mode).
*
cc->ipoly = ipoly;
}
+/**
+ * \brief Set the "default" ChaCha20 and Poly1305 implementations.
+ *
+ * This function configures in the engine the ChaCha20 and Poly1305
+ * implementations that should provide best runtime performance on the
+ * local system, while still being safe (in particular, constant-time).
+ * It also sets the handlers for ChaCha20+Poly1305 records.
+ *
+ * \param cc SSL engine context.
+ */
+void br_ssl_engine_set_default_chapol(br_ssl_engine_context *cc);
+
/**
* \brief Set the record encryption and decryption engines for CBC + HMAC.
*
cc->iec = iec;
}
+/**
+ * \brief Set the "default" EC implementation.
+ *
+ * This function sets the elliptic curve implementation for ECDH and
+ * ECDHE cipher suites, and for ECDSA support. It selects the fastest
+ * implementation on the current system.
+ *
+ * \param cc SSL engine context.
+ */
+void br_ssl_engine_set_default_ec(br_ssl_engine_context *cc);
+
+/**
+ * \brief Get the EC implementation configured in the provided engine.
+ *
+ * \param cc SSL engine context.
+ * \return the EC implementation.
+ */
+static inline const br_ec_impl *
+br_ssl_engine_get_ec(br_ssl_engine_context *cc)
+{
+ return cc->iec;
+}
+
/**
* \brief Set the RSA signature verification implementation.
*
cc->irsavrfy = irsavrfy;
}
+/**
+ * \brief Set the "default" RSA implementation (signature verification).
+ *
+ * This function sets the RSA implementation (signature verification)
+ * to the fastest implementation available on the current platform.
+ *
+ * \param cc SSL engine context.
+ */
+void br_ssl_engine_set_default_rsavrfy(br_ssl_engine_context *cc);
+
+/**
+ * \brief Get the RSA implementation (signature verification) configured
+ * in the provided engine.
+ *
+ * \param cc SSL engine context.
+ * \return the RSA signature verification implementation.
+ */
+static inline br_rsa_pkcs1_vrfy
+br_ssl_engine_get_rsavrfy(br_ssl_engine_context *cc)
+{
+ return cc->irsavrfy;
+}
+
/*
* \brief Set the ECDSA implementation (signature verification).
*
cc->iecdsa = iecdsa;
}
+/**
+ * \brief Set the "default" ECDSA implementation (signature verification).
+ *
+ * This function sets the ECDSA implementation (signature verification)
+ * to the fastest implementation available on the current platform. This
+ * call also sets the elliptic curve implementation itself, there again
+ * to the fastest EC implementation available.
+ *
+ * \param cc SSL engine context.
+ */
+void br_ssl_engine_set_default_ecdsa(br_ssl_engine_context *cc);
+
+/**
+ * \brief Get the ECDSA implementation (signature verification) configured
+ * in the provided engine.
+ *
+ * \param cc SSL engine context.
+ * \return the ECDSA signature verification implementation.
+ */
+static inline br_ecdsa_vrfy
+br_ssl_engine_get_ecdsa(br_ssl_engine_context *cc)
+{
+ return cc->iecdsa;
+}
+
/**
* \brief Set the I/O buffer for the SSL engine.
*
memcpy(&cc->session, pp, sizeof *pp);
}
+/**
+ * \brief Get identifier for the curve used for key exchange.
+ *
+ * If the cipher suite uses ECDHE, then this function returns the
+ * identifier for the curve used for transient parameters. This is
+ * defined during the course of the handshake, when the ServerKeyExchange
+ * is sent (on the server) or received (on the client). If the
+ * cipher suite does not use ECDHE (e.g. static ECDH, or RSA key
+ * exchange), then this value is indeterminate.
+ *
+ * @param cc SSL engine context.
+ * @return the ECDHE curve identifier.
+ */
+static inline int
+br_ssl_engine_get_ecdhe_curve(br_ssl_engine_context *cc)
+{
+ return cc->ecdhe_curve;
+}
+
/**
* \brief Get the current engine state.
*
*
* If the engine is failed or closed, or if the peer is known not to
* support secure renegotiation (RFC 5746), or if renegotiations have
- * been disabled with the `BR_OPT_NO_RENEGOTIATION` flag, then this
- * function returns 0 and nothing else happens.
+ * been disabled with the `BR_OPT_NO_RENEGOTIATION` flag, or if there
+ * is buffered incoming application data, then this function returns 0
+ * and nothing else happens.
*
* Otherwise, this function returns 1, and a renegotiation attempt is
* triggered (if a handshake is already ongoing at that point, then
*/
int br_ssl_engine_renegotiate(br_ssl_engine_context *cc);
+/**
+ * \brief Export key material from a connected SSL engine (RFC 5705).
+ *
+ * This calls compute a secret key of arbitrary length from the master
+ * secret of a connected SSL engine. If the provided context is not
+ * currently in "application data" state (initial handshake is not
+ * finished, another handshake is ongoing, or the connection failed or
+ * was closed), then this function returns 0. Otherwise, a secret key of
+ * length `len` bytes is computed and written in the buffer pointed to
+ * by `dst`, and 1 is returned.
+ *
+ * The computed key follows the specification described in RFC 5705.
+ * That RFC includes two key computations, with and without a "context
+ * value". If `context` is `NULL`, then the variant without context is
+ * used; otherwise, the `context_len` bytes located at the address
+ * pointed to by `context` are used in the computation. Note that it
+ * is possible to have a "with context" key with a context length of
+ * zero bytes, by setting `context` to a non-`NULL` value but
+ * `context_len` to 0.
+ *
+ * When context bytes are used, the context length MUST NOT exceed
+ * 65535 bytes.
+ *
+ * \param cc SSL engine context.
+ * \param dst destination buffer for exported key.
+ * \param len exported key length (in bytes).
+ * \param label disambiguation label.
+ * \param context context value (or `NULL`).
+ * \param context_len context length (in bytes).
+ * \return 1 on success, 0 on error.
+ */
+int br_ssl_key_export(br_ssl_engine_context *cc,
+ void *dst, size_t len, const char *label,
+ const void *context, size_t context_len);
+
/*
* Pre-declaration for the SSL client context.
*/
* structure was set to -1).
*
* In that situation, this callback is invoked to compute the
- * client-side ECDH: the provided `data` (of length `len` bytes)
+ * client-side ECDH: the provided `data` (of length `*len` bytes)
* is the server's public key point (as decoded from its
* certificate), and the client shall multiply that point with
* its own private key, and write back the X coordinate of the
- * resulting point in the same buffer, starting at offset 1
- * (therefore, writing back the complete encoded point works).
+ * resulting point in the same buffer, starting at offset 0.
+ * The `*len` value shall be modified to designate the actual
+ * length of the X coordinate.
*
* The callback must uphold the following:
*
*
* \param pctx certificate handler context.
* \param data server public key point.
- * \param len server public key point length (in bytes).
+ * \param len public key point length / X coordinate length.
* \return 1 on success, 0 on error.
*/
uint32_t (*do_keyx)(const br_ssl_client_certificate_class **pctx,
- unsigned char *data, size_t len);
+ unsigned char *data, size_t *len);
/**
* \brief Perform a signature (client authentication).
cc->irsapub = irsapub;
}
+/**
+ * \brief Set the "default" RSA implementation for public-key operations.
+ *
+ * This sets the RSA implementation in the client context (for encrypting
+ * the pre-master secret, in `TLS_RSA_*` cipher suites) to the fastest
+ * available on the current platform.
+ *
+ * \param cc client context.
+ */
+void br_ssl_client_set_default_rsapub(br_ssl_client_context *cc);
+
/**
* \brief Set the minimum ClientHello length (RFC 7685 padding).
*
* operation for a key exchange that is not ECDHE. This callback
* uses the private key.
*
- * **For RSA key exchange**, the provided `data` (of length `len`
+ * **For RSA key exchange**, the provided `data` (of length `*len`
* bytes) shall be decrypted with the server's private key, and
* the 48-byte premaster secret copied back to the first 48 bytes
* of `data`.
*
- * - The caller makes sure that `len` is at least 59 bytes.
+ * - The caller makes sure that `*len` is at least 59 bytes.
*
* - This callback MUST check that the provided length matches
* that of the key modulus; it shall report an error otherwise.
* in the first 48 bytes of `data` is unimportant (the caller
* will use random bytes instead).
*
- * **For ECDH key exchange**, the provided `data` (of length `len`
+ * **For ECDH key exchange**, the provided `data` (of length `*len`
* bytes) is the elliptic curve point from the client. The
* callback shall multiply it with its private key, and store
- * the resulting X coordinate in `data`, starting at offset 1
- * (thus, simply encoding the point in compressed or uncompressed
- * format in `data` is fine).
+ * the resulting X coordinate in `data`, starting at offset 0,
+ * and set `*len` to the length of the X coordinate.
*
* - If the input array does not have the proper length for
* an encoded curve point, then an error (0) shall be reported.
* \return 1 on success, 0 on error.
*/
uint32_t (*do_keyx)(const br_ssl_server_policy_class **pctx,
- unsigned char *data, size_t len);
+ unsigned char *data, size_t *len);
/**
* \brief Perform a signature (for a ServerKeyExchange message).
void br_ssl_session_cache_lru_init(br_ssl_session_cache_lru *cc,
unsigned char *store, size_t store_len);
+/**
+ * \brief Forget an entry in an LRU session cache.
+ *
+ * The session cache context must have been initialised. The entry
+ * with the provided session ID (of exactly 32 bytes) is looked for
+ * in the cache; if located, it is disabled.
+ *
+ * \param cc session cache context.
+ * \param id session ID to forget.
+ */
+void br_ssl_session_cache_lru_forget(
+ br_ssl_session_cache_lru *cc, const unsigned char *id);
+
/**
* \brief Context structure for a SSL server.
*
* 3 = TLS 1.2 with SHA-384
* -- character 3: encryption
* a = AES/CBC
- * g = AES/GCM
* d = 3DES/CBC
+ * g = AES/GCM
+ * c = ChaCha20+Poly1305
*/
/**
#define BR_ALERT_UNSUPPORTED_EXTENSION 110
#define BR_ALERT_NO_APPLICATION_PROTOCOL 120
+#ifdef __cplusplus
+}
+#endif
+
#endif