/* * X.509 Certificate Authority * (C) 1999-2008 Jack Lloyd * * Botan is released under the Simplified BSD License (see license.txt) */ #ifndef BOTAN_X509_CA_H_ #define BOTAN_X509_CA_H_ #include #include #include #if defined(BOTAN_HAS_SYSTEM_RNG) #include #endif namespace Botan { class BigInt; class Private_Key; class PKCS10_Request; class PK_Signer; /** * This class represents X.509 Certificate Authorities (CAs). */ class BOTAN_PUBLIC_API(2,0) X509_CA final { public: /** * Sign a PKCS#10 Request. * @param req the request to sign * @param rng the rng to use * @param not_before the starting time for the certificate * @param not_after the expiration time for the certificate * @return resulting certificate */ X509_Certificate sign_request(const PKCS10_Request& req, RandomNumberGenerator& rng, const X509_Time& not_before, const X509_Time& not_after) const; /** * Sign a PKCS#10 Request. * @param req the request to sign * @param rng the rng to use * @param serial_number the serial number the cert will be assigned. * @param not_before the starting time for the certificate * @param not_after the expiration time for the certificate * @return resulting certificate */ X509_Certificate sign_request(const PKCS10_Request& req, RandomNumberGenerator& rng, const BigInt& serial_number, const X509_Time& not_before, const X509_Time& not_after) const; /** * Get the certificate of this CA. * @return CA certificate */ X509_Certificate ca_certificate() const; /** * Create a new and empty CRL for this CA. * @param rng the random number generator to use * @param issue_time the issue time (typically system_clock::now) * @param next_update the time interval after issue_data within which * a new CRL will be produced. * @return new CRL */ X509_CRL new_crl(RandomNumberGenerator& rng, std::chrono::system_clock::time_point issue_time, std::chrono::seconds next_update) const; /** * Create a new CRL by with additional entries. * @param last_crl the last CRL of this CA to add the new entries to * @param new_entries contains the new CRL entries to be added to the CRL * @param rng the random number generator to use * @param issue_time the issue time (typically system_clock::now) * @param next_update the time interval after issue_data within which * a new CRL will be produced. */ X509_CRL update_crl(const X509_CRL& last_crl, const std::vector& new_entries, RandomNumberGenerator& rng, std::chrono::system_clock::time_point issue_time, std::chrono::seconds next_update) const; /** * Create a new and empty CRL for this CA. * @param rng the random number generator to use * @param next_update the time to set in next update in seconds * as the offset from the current time * @return new CRL */ X509_CRL new_crl(RandomNumberGenerator& rng, uint32_t next_update = 604800) const; /** * Create a new CRL by with additional entries. * @param last_crl the last CRL of this CA to add the new entries to * @param new_entries contains the new CRL entries to be added to the CRL * @param rng the random number generator to use * @param next_update the time to set in next update in seconds * as the offset from the current time */ X509_CRL update_crl(const X509_CRL& last_crl, const std::vector& new_entries, RandomNumberGenerator& rng, uint32_t next_update = 604800) const; /** * Interface for creating new certificates * @param signer a signing object * @param rng a random number generator * @param sig_algo the signature algorithm identifier * @param pub_key the serialized public key * @param not_before the start time of the certificate * @param not_after the end time of the certificate * @param issuer_dn the DN of the issuer * @param subject_dn the DN of the subject * @param extensions an optional list of certificate extensions * @returns newly minted certificate */ static X509_Certificate make_cert(PK_Signer* signer, RandomNumberGenerator& rng, const AlgorithmIdentifier& sig_algo, const std::vector& pub_key, const X509_Time& not_before, const X509_Time& not_after, const X509_DN& issuer_dn, const X509_DN& subject_dn, const Extensions& extensions); /** * Interface for creating new certificates * @param signer a signing object * @param rng a random number generator * @param serial_number the serial number the cert will be assigned * @param sig_algo the signature algorithm identifier * @param pub_key the serialized public key * @param not_before the start time of the certificate * @param not_after the end time of the certificate * @param issuer_dn the DN of the issuer * @param subject_dn the DN of the subject * @param extensions an optional list of certificate extensions * @returns newly minted certificate */ static X509_Certificate make_cert(PK_Signer* signer, RandomNumberGenerator& rng, const BigInt& serial_number, const AlgorithmIdentifier& sig_algo, const std::vector& pub_key, const X509_Time& not_before, const X509_Time& not_after, const X509_DN& issuer_dn, const X509_DN& subject_dn, const Extensions& extensions); /** * Create a new CA object. * @param ca_certificate the certificate of the CA * @param key the private key of the CA * @param hash_fn name of a hash function to use for signing * @param rng the random generator to use */ X509_CA(const X509_Certificate& ca_certificate, const Private_Key& key, const std::string& hash_fn, RandomNumberGenerator& rng); /** * Create a new CA object. * @param ca_certificate the certificate of the CA * @param key the private key of the CA * @param opts additional options, e.g. padding, as key value pairs * @param hash_fn name of a hash function to use for signing * @param rng the random generator to use */ X509_CA(const X509_Certificate& ca_certificate, const Private_Key& key, const std::map& opts, const std::string& hash_fn, RandomNumberGenerator& rng); #if defined(BOTAN_HAS_SYSTEM_RNG) BOTAN_DEPRECATED("Use version taking RNG object") X509_CA(const X509_Certificate& ca_certificate, const Private_Key& key, const std::string& hash_fn) : X509_CA(ca_certificate, key, hash_fn, system_rng()) {} #endif X509_CA(const X509_CA&) = delete; X509_CA& operator=(const X509_CA&) = delete; #if !defined(BOTAN_BUILD_COMPILER_IS_MSVC_2013) X509_CA(X509_CA&&) = default; X509_CA& operator=(X509_CA&&) = default; #endif ~X509_CA(); private: X509_CRL make_crl(const std::vector& entries, uint32_t crl_number, RandomNumberGenerator& rng, std::chrono::system_clock::time_point issue_time, std::chrono::seconds next_update) const; AlgorithmIdentifier m_ca_sig_algo; X509_Certificate m_ca_cert; std::string m_hash_fn; std::unique_ptr m_signer; }; /** * Choose the default signature format for a certain public key signature * scheme. * @param key will be the key to choose a padding scheme for * @param rng the random generator to use * @param hash_fn is the desired hash function * @param alg_id will be set to the chosen scheme * @return A PK_Signer object for generating signatures */ BOTAN_PUBLIC_API(2,0) PK_Signer* choose_sig_format(const Private_Key& key, RandomNumberGenerator& rng, const std::string& hash_fn, AlgorithmIdentifier& alg_id); /** * @verbatim * Choose the default signature format for a certain public key signature * scheme. * * The only option recognized by opts at this moment is "padding" * Find an entry from src/build-data/oids.txt under [signature] of the form * /[()] and add {"padding",} * to opts. * @endverbatim * * @param key will be the key to choose a padding scheme for * @param opts contains additional options for building the certificate * @param rng the random generator to use * @param hash_fn is the desired hash function * @param alg_id will be set to the chosen scheme * @return A PK_Signer object for generating signatures */ PK_Signer* choose_sig_format(const Private_Key& key, const std::map& opts, RandomNumberGenerator& rng, const std::string& hash_fn, AlgorithmIdentifier& alg_id); } #endif