wolfssl-w32/wolfssl/quic.h

298 lines
10 KiB
C

/* quic.h
*
* Copyright (C) 2006-2023 wolfSSL Inc.
*
* This file is part of wolfSSL.
*
* wolfSSL is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* wolfSSL is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1335, USA
*/
/* wolfSSL QUIC API */
#ifndef WOLFSSL_QUIC_H
#define WOLFSSL_QUIC_H
#ifdef __cplusplus
extern "C" {
#endif
#ifdef WOLFSSL_QUIC
/* QUIC operates on three encryption levels which determine
* which keys/algos are used for de-/encryption. These are
* kept separately for incoming and outgoing data and.
* Due to the nature of UDP, more than one might be in use
* at the same time due to resends or out-of-order arrivals.
*/
typedef enum wolfssl_encryption_level_t {
wolfssl_encryption_initial = 0,
wolfssl_encryption_early_data,
wolfssl_encryption_handshake,
wolfssl_encryption_application
} WOLFSSL_ENCRYPTION_LEVEL;
/* All QUIC related callbacks to the application.
*/
typedef struct wolfssl_quic_method_t WOLFSSL_QUIC_METHOD;
struct wolfssl_quic_method_t {
/**
* Provide secrets to the QUIC stack when they become available in the SSL
* instance during handshake processing. read/write secrets have the same
* length. A call may only provide one, passing NULL as the other.
*/
int (*set_encryption_secrets)(WOLFSSL* ssl, WOLFSSL_ENCRYPTION_LEVEL level,
const uint8_t* read_secret,
const uint8_t* write_secret,
size_t secret_len);
/**
* Provide handshake packets to the QUIC stack to send to the peer. The
* QUIC stack will wrap these and take care of re-transmissions.
*/
int (*add_handshake_data)(WOLFSSL* ssl, WOLFSSL_ENCRYPTION_LEVEL level,
const uint8_t* data, size_t len);
/**
* Flush any buffered packets during handshake.
*/
int (*flush_flight)(WOLFSSL* ssl);
/**
* Send a TLS alert that happened during handshake. In QUIC, such alerts
* lead to connection shutdown.
*/
int (*send_alert)(WOLFSSL* ssl, WOLFSSL_ENCRYPTION_LEVEL level,
uint8_t alert);
};
/**
* Mark the given SSL context for QUIC protocol handling. Meaning all
* SSL instances derived from it will inherit this. Provides all callbacks
* to the QUIC application the SSL stack needs.
*/
WOLFSSL_API
int wolfSSL_CTX_set_quic_method(WOLFSSL_CTX* ctx,
const WOLFSSL_QUIC_METHOD* quic_method);
/**
* Mark exactly this SSL instance for QUIC protocol handling.
* Provides all callbacks to the QUIC application the SSL stack needs.
*/
WOLFSSL_API
int wolfSSL_set_quic_method(WOLFSSL* ssl,
const WOLFSSL_QUIC_METHOD* quic_method);
/**
* Check if QUIC handling has been installed on the given SSL instance.
*/
WOLFSSL_API int wolfSSL_is_quic(WOLFSSL* ssl);
/**
* Return the current encryption level of the SSL instance for READs.
*/
WOLFSSL_API
WOLFSSL_ENCRYPTION_LEVEL wolfSSL_quic_read_level(const WOLFSSL* ssl);
/**
* Return the current encryption level of the SSL instance for WRITEs.
*/
WOLFSSL_API
WOLFSSL_ENCRYPTION_LEVEL wolfSSL_quic_write_level(const WOLFSSL* ssl);
/**
* Configure the QUIC transport version to use. On `use_legacy` != 0,
* selects TLSX_KEY_QUIC_TP_PARAMS_DRAFT, otherwise TLSX_KEY_QUIC_TP_PARAMS.
* This method is part of the BoringSSL API and replicated here for app
* portability (as in quictls/openssl).
*/
WOLFSSL_API
void wolfSSL_set_quic_use_legacy_codepoint(WOLFSSL* ssl, int use_legacy);
/**
* Set the TLS extension for the transport parameter version to announce
* to the peer. Known values are TLSX_KEY_QUIC_TP_PARAMS (V1) and
* TLSX_KEY_QUIC_TP_PARAMS_DRAFT.
* Setting it to 0 will announce both V1 and draft versions to a server.
* Servers will, on 0, select the latest version seen from the client.
* Default is 0.
*/
WOLFSSL_API
void wolfSSL_set_quic_transport_version(WOLFSSL* ssl, int version);
/**
* Get the configured transport version.
*/
WOLFSSL_API int wolfSSL_get_quic_transport_version(const WOLFSSL* ssl);
/**
* Set the raw QUIC transport parameter that will be sent in the TLS extension
* to the peer, using the configured transport version(s).
*/
WOLFSSL_API int wolfSSL_set_quic_transport_params(WOLFSSL* ssl,
const uint8_t* params,
size_t params_len);
/**
* Get the raw QUIC transport parameter as retrieved via TLS Extension
* from the peer. If the peer announced several versions,
* return the latest one.
* If the extension has not arrived yet, initializes out parameter to
* NULL, resp. 0.
*/
WOLFSSL_API
void wolfSSL_get_peer_quic_transport_params(const WOLFSSL* ssl,
const uint8_t* *out_params,
size_t* out_params_len);
/**
* Get the QUIC version negotiated with the peer during the handshake.
*/
WOLFSSL_API int wolfSSL_get_peer_quic_transport_version(const WOLFSSL* ssl);
#ifdef WOLFSSL_EARLY_DATA
WOLFSSL_API void wolfSSL_set_quic_early_data_enabled(WOLFSSL* ssl, int enabled);
#endif
/**
* Advisory amount of the maximum data a QUIC protocol handler should have
* in flight. This varies during handshake processing, for example certificate
* exchange will increase the limit.
*/
WOLFSSL_API
size_t wolfSSL_quic_max_handshake_flight_len(const WOLFSSL* ssl,
WOLFSSL_ENCRYPTION_LEVEL level);
/**
* The QUIC protocol handler provides peer TLS records to the SSL instance
* during handshake to progress it. The SSL instance will use the registered
* callbacks to send packets to the peer.
* Encryption level is provided to indicate how to decrypt the data. Data may
* be added for levels not yet reached by the SSL instance. However, data
* may only be added in ever increasing levels and levels may only increase
* at TLS record boundaries. Any violation will make this function fail.
*/
WOLFSSL_API
int wolfSSL_provide_quic_data(WOLFSSL* ssl, WOLFSSL_ENCRYPTION_LEVEL level,
const uint8_t* data, size_t len);
WOLFSSL_API
int wolfSSL_quic_do_handshake(WOLFSSL* ssl);
/**
* Process any CRYPTO data added post-handshake.
*/
WOLFSSL_API int wolfSSL_process_quic_post_handshake(WOLFSSL* ssl);
/**
* Process any pending input and flush all output. Can be invoked
* during and/or after handshake processing.
*/
WOLFSSL_API int wolfSSL_quic_read_write(WOLFSSL* ssl);
/**
* Get the AEAD cipher that is currently selected in the SSL instance.
* Will return NULL if none has been selected so far. This is used by the
* QUIC stack to encrypt/decrypt packets after the handshake.
*/
WOLFSSL_API const WOLFSSL_EVP_CIPHER* wolfSSL_quic_get_aead(WOLFSSL* ssl);
/**
* Use to classify the AEAD cipher for key reuse limits.
*/
WOLFSSL_API int wolfSSL_quic_aead_is_gcm(const WOLFSSL_EVP_CIPHER* aead_cipher);
WOLFSSL_API int wolfSSL_quic_aead_is_ccm(const WOLFSSL_EVP_CIPHER* aead_cipher);
WOLFSSL_API
int wolfSSL_quic_aead_is_chacha20(const WOLFSSL_EVP_CIPHER* aead_cipher);
/**
* Get the 'tag' length used by the AEAD cipher. Encryption buffer lengths
* are plaintext length plus this tag length.
*/
WOLFSSL_API
size_t wolfSSL_quic_get_aead_tag_len(const WOLFSSL_EVP_CIPHER* aead_cipher);
/**
* The message digest currently selected in the SSL instance.
*/
WOLFSSL_API const WOLFSSL_EVP_MD* wolfSSL_quic_get_md(WOLFSSL* ssl);
/**
* The QUIC header protection cipher matching the AEAD cipher currently
* selected in the SSL instance.
*/
WOLFSSL_API const WOLFSSL_EVP_CIPHER* wolfSSL_quic_get_hp(WOLFSSL* ssl);
/**
* Create and initialize a cipher context for use in en- or decryption.
*/
WOLFSSL_API WOLFSSL_EVP_CIPHER_CTX*
wolfSSL_quic_crypt_new(const WOLFSSL_EVP_CIPHER* cipher,
const uint8_t* key, const uint8_t* iv, int encrypt);
/**
* Use a previously created cipher context to encrypt the given plain text.
*/
WOLFSSL_API
int wolfSSL_quic_aead_encrypt(uint8_t* dest, WOLFSSL_EVP_CIPHER_CTX* aead_ctx,
const uint8_t* plain, size_t plainlen,
const uint8_t* iv, const uint8_t* aad,
size_t aadlen);
/**
* Use a previously created cipher context to decrypt the given encoded text.
*/
WOLFSSL_API
int wolfSSL_quic_aead_decrypt(uint8_t* dest, WOLFSSL_EVP_CIPHER_CTX* ctx,
const uint8_t* enc, size_t enclen,
const uint8_t* iv, const uint8_t* aad,
size_t aadlen);
/**
* Extract a pseudo-random key, using the given message digest, a secret
* and a salt. The key size is the size of the digest.
*/
WOLFSSL_API
int wolfSSL_quic_hkdf_extract(uint8_t* dest, const WOLFSSL_EVP_MD* md,
const uint8_t* secret, size_t secretlen,
const uint8_t* salt, size_t saltlen);
/**
* Expand a pseudo-random key (secret) into a new key, using the mesasge
* digest and the info bytes.
*/
WOLFSSL_API
int wolfSSL_quic_hkdf_expand(uint8_t* dest, size_t destlen,
const WOLFSSL_EVP_MD* md,
const uint8_t* secret, size_t secretlen,
const uint8_t* info, size_t infolen);
/**
* Extract and extpand secret, salt and info into a new key.
*/
WOLFSSL_API
int wolfSSL_quic_hkdf(uint8_t* dest, size_t destlen,
const WOLFSSL_EVP_MD* md,
const uint8_t* secret, size_t secretlen,
const uint8_t* salt, size_t saltlen,
const uint8_t* info, size_t infolen);
#endif /* WOLFSSL_QUIC */
#ifdef __cplusplus
} /* extern "C" */
#endif
#endif /* WOLFSSL_QUIC_H */