/* Copyright (c) 2014-2017, The Tor Project, Inc. */ /* See LICENSE for licensing information */ #ifndef TORCERT_H_INCLUDED #define TORCERT_H_INCLUDED #include "crypto_ed25519.h" #define SIGNED_KEY_TYPE_ED25519 0x01 #define CERT_TYPE_ID_SIGNING 0x04 #define CERT_TYPE_SIGNING_LINK 0x05 #define CERT_TYPE_SIGNING_AUTH 0x06 #define CERT_TYPE_SIGNING_HS_DESC 0x08 #define CERT_TYPE_AUTH_HS_IP_KEY 0x09 #define CERT_TYPE_ONION_ID 0x0A #define CERT_TYPE_CROSS_HS_IP_KEYS 0x0B #define CERT_FLAG_INCLUDE_SIGNING_KEY 0x1 /** An ed25519-signed certificate as used throughout the Tor protocol. **/ typedef struct tor_cert_st { /** The key authenticated by this certificate */ ed25519_public_key_t signed_key; /** The key that signed this certificate. This value may be unset if the * certificate has never been checked, and didn't include its own key. */ ed25519_public_key_t signing_key; /** A time after which this certificate will no longer be valid. */ time_t valid_until; /** The encoded representation of this certificate */ uint8_t *encoded; /** The length of encoded */ size_t encoded_len; /** One of CERT_TYPE_... */ uint8_t cert_type; /** True iff we received a signing key embedded in this certificate */ unsigned signing_key_included : 1; /** True iff we checked the signature and found it bad */ unsigned sig_bad : 1; /** True iff we checked the signature and found it correct */ unsigned sig_ok : 1; /** True iff we checked the signature and first found that the cert * had expired */ unsigned cert_expired : 1; /** True iff we checked the signature and found the whole cert valid */ unsigned cert_valid : 1; } tor_cert_t; tor_cert_t *tor_cert_create(const ed25519_keypair_t *signing_key, uint8_t cert_type, const ed25519_public_key_t *signed_key, time_t now, time_t lifetime, uint32_t flags); tor_cert_t *tor_cert_parse(const uint8_t *cert, size_t certlen); void tor_cert_free_(tor_cert_t *cert); #define tor_cert_free(cert) FREE_AND_NULL(tor_cert_t, tor_cert_free_, (cert)) int tor_cert_get_checkable_sig(ed25519_checkable_t *checkable_out, const tor_cert_t *out, const ed25519_public_key_t *pubkey, time_t *expiration_out); int tor_cert_checksig(tor_cert_t *cert, const ed25519_public_key_t *pubkey, time_t now); const char *tor_cert_describe_signature_status(const tor_cert_t *cert); tor_cert_t *tor_cert_dup(const tor_cert_t *cert); int tor_cert_eq(const tor_cert_t *cert1, const tor_cert_t *cert2); int tor_cert_opt_eq(const tor_cert_t *cert1, const tor_cert_t *cert2); ssize_t tor_make_rsa_ed25519_crosscert(const ed25519_public_key_t *ed_key, const crypto_pk_t *rsa_key, time_t expires, uint8_t **cert); MOCK_DECL(int, rsa_ed25519_crosscert_check, (const uint8_t *crosscert, const size_t crosscert_len, const crypto_pk_t *rsa_id_key, const ed25519_public_key_t *master_key, const time_t reject_if_expired_before)); or_handshake_certs_t *or_handshake_certs_new(void); void or_handshake_certs_free_(or_handshake_certs_t *certs); #define or_handshake_certs_free(certs) \ FREE_AND_NULL(or_handshake_certs_t, or_handshake_certs_free_, (certs)) int or_handshake_certs_rsa_ok(int severity, or_handshake_certs_t *certs, tor_tls_t *tls, time_t now); int or_handshake_certs_ed25519_ok(int severity, or_handshake_certs_t *certs, tor_tls_t *tls, time_t now); void or_handshake_certs_check_both(int severity, or_handshake_certs_t *certs, tor_tls_t *tls, time_t now, const ed25519_public_key_t **ed_id_out, const common_digests_t **rsa_id_out); int tor_cert_encode_ed22519(const tor_cert_t *cert, char **cert_str_out); #endif /* !defined(TORCERT_H_INCLUDED) */