/* * X.509 Certificate Extensions * (C) 1999-2007,2012 Jack Lloyd * * Botan is released under the Simplified BSD License (see license.txt) */ #ifndef BOTAN_X509_EXTENSIONS_H__ #define BOTAN_X509_EXTENSIONS_H__ #include #include #include #include namespace Botan { /** * X.509 Certificate Extension */ class BOTAN_DLL Certificate_Extension { public: /** * @return OID representing this extension */ OID oid_of() const; /** * Make a copy of this extension * @return copy of this */ virtual Certificate_Extension* copy() const = 0; /* * Add the contents of this extension into the information * for the subject and/or issuer, as necessary. * @param subject the subject info * @param issuer the issuer info */ virtual void contents_to(Data_Store& subject, Data_Store& issuer) const = 0; /* * @return specific OID name */ virtual std::string oid_name() const = 0; virtual ~Certificate_Extension() {} protected: friend class Extensions; virtual bool should_encode() const { return true; } virtual std::vector encode_inner() const = 0; virtual void decode_inner(const std::vector&) = 0; }; /** * X.509 Certificate Extension List */ class BOTAN_DLL Extensions : public ASN1_Object { public: void encode_into(class DER_Encoder&) const override; void decode_from(class BER_Decoder&) override; void contents_to(Data_Store&, Data_Store&) const; void add(Certificate_Extension* extn, bool critical = false); std::map, bool>> extensions_raw() const; Extensions& operator=(const Extensions&); Extensions(const Extensions&); explicit Extensions(bool st = true) : m_throw_on_unknown_critical(st) {} private: static Certificate_Extension* get_extension(const OID&); std::vector, bool>> m_extensions; bool m_throw_on_unknown_critical; std::map, bool>> m_extensions_raw; }; namespace Cert_Extension { static const size_t NO_CERT_PATH_LIMIT = 0xFFFFFFF0; /** * Basic Constraints Extension */ class BOTAN_DLL Basic_Constraints final : public Certificate_Extension { public: Basic_Constraints* copy() const override { return new Basic_Constraints(m_is_ca, m_path_limit); } Basic_Constraints(bool ca = false, size_t limit = 0) : m_is_ca(ca), m_path_limit(limit) {} bool get_is_ca() const { return m_is_ca; } size_t get_path_limit() const; private: std::string oid_name() const override { return "X509v3.BasicConstraints"; } std::vector encode_inner() const override; void decode_inner(const std::vector&) override; void contents_to(Data_Store&, Data_Store&) const override; bool m_is_ca; size_t m_path_limit; }; /** * Key Usage Constraints Extension */ class BOTAN_DLL Key_Usage final : public Certificate_Extension { public: Key_Usage* copy() const override { return new Key_Usage(m_constraints); } explicit Key_Usage(Key_Constraints c = NO_CONSTRAINTS) : m_constraints(c) {} Key_Constraints get_constraints() const { return m_constraints; } private: std::string oid_name() const override { return "X509v3.KeyUsage"; } bool should_encode() const override { return (m_constraints != NO_CONSTRAINTS); } std::vector encode_inner() const override; void decode_inner(const std::vector&) override; void contents_to(Data_Store&, Data_Store&) const override; Key_Constraints m_constraints; }; /** * Subject Key Identifier Extension */ class BOTAN_DLL Subject_Key_ID final : public Certificate_Extension { public: Subject_Key_ID* copy() const override { return new Subject_Key_ID(m_key_id); } Subject_Key_ID() {} explicit Subject_Key_ID(const std::vector&); std::vector get_key_id() const { return m_key_id; } private: std::string oid_name() const override { return "X509v3.SubjectKeyIdentifier"; } bool should_encode() const override { return (m_key_id.size() > 0); } std::vector encode_inner() const override; void decode_inner(const std::vector&) override; void contents_to(Data_Store&, Data_Store&) const override; std::vector m_key_id; }; /** * Authority Key Identifier Extension */ class BOTAN_DLL Authority_Key_ID final : public Certificate_Extension { public: Authority_Key_ID* copy() const override { return new Authority_Key_ID(m_key_id); } Authority_Key_ID() {} explicit Authority_Key_ID(const std::vector& k) : m_key_id(k) {} std::vector get_key_id() const { return m_key_id; } private: std::string oid_name() const override { return "X509v3.AuthorityKeyIdentifier"; } bool should_encode() const override { return (m_key_id.size() > 0); } std::vector encode_inner() const override; void decode_inner(const std::vector&) override; void contents_to(Data_Store&, Data_Store&) const override; std::vector m_key_id; }; /** * Alternative Name Extension Base Class */ class BOTAN_DLL Alternative_Name : public Certificate_Extension { public: AlternativeName get_alt_name() const { return m_alt_name; } protected: Alternative_Name(const AlternativeName&, const std::string& oid_name); Alternative_Name(const std::string&, const std::string&); private: std::string oid_name() const override { return m_oid_name_str; } bool should_encode() const override { return m_alt_name.has_items(); } std::vector encode_inner() const override; void decode_inner(const std::vector&) override; void contents_to(Data_Store&, Data_Store&) const override; std::string m_oid_name_str; AlternativeName m_alt_name; }; /** * Subject Alternative Name Extension */ class BOTAN_DLL Subject_Alternative_Name : public Alternative_Name { public: Subject_Alternative_Name* copy() const override { return new Subject_Alternative_Name(get_alt_name()); } explicit Subject_Alternative_Name(const AlternativeName& = AlternativeName()); }; /** * Issuer Alternative Name Extension */ class BOTAN_DLL Issuer_Alternative_Name : public Alternative_Name { public: Issuer_Alternative_Name* copy() const override { return new Issuer_Alternative_Name(get_alt_name()); } explicit Issuer_Alternative_Name(const AlternativeName& = AlternativeName()); }; /** * Extended Key Usage Extension */ class BOTAN_DLL Extended_Key_Usage final : public Certificate_Extension { public: Extended_Key_Usage* copy() const override { return new Extended_Key_Usage(m_oids); } Extended_Key_Usage() {} explicit Extended_Key_Usage(const std::vector& o) : m_oids(o) {} std::vector get_oids() const { return m_oids; } private: std::string oid_name() const override { return "X509v3.ExtendedKeyUsage"; } bool should_encode() const override { return (m_oids.size() > 0); } std::vector encode_inner() const override; void decode_inner(const std::vector&) override; void contents_to(Data_Store&, Data_Store&) const override; std::vector m_oids; }; /** * Certificate Policies Extension */ class BOTAN_DLL Certificate_Policies final : public Certificate_Extension { public: Certificate_Policies* copy() const override { return new Certificate_Policies(m_oids); } Certificate_Policies() {} explicit Certificate_Policies(const std::vector& o) : m_oids(o) {} std::vector get_oids() const { return m_oids; } private: std::string oid_name() const override { return "X509v3.CertificatePolicies"; } bool should_encode() const override { return (m_oids.size() > 0); } std::vector encode_inner() const override; void decode_inner(const std::vector&) override; void contents_to(Data_Store&, Data_Store&) const override; std::vector m_oids; }; class BOTAN_DLL Authority_Information_Access final : public Certificate_Extension { public: Authority_Information_Access* copy() const override { return new Authority_Information_Access(m_ocsp_responder); } Authority_Information_Access() {} explicit Authority_Information_Access(const std::string& ocsp) : m_ocsp_responder(ocsp) {} private: std::string oid_name() const override { return "PKIX.AuthorityInformationAccess"; } bool should_encode() const override { return (!m_ocsp_responder.empty()); } std::vector encode_inner() const override; void decode_inner(const std::vector&) override; void contents_to(Data_Store&, Data_Store&) const override; std::string m_ocsp_responder; }; /** * CRL Number Extension */ class BOTAN_DLL CRL_Number final : public Certificate_Extension { public: CRL_Number* copy() const override; CRL_Number() : m_has_value(false), m_crl_number(0) {} CRL_Number(size_t n) : m_has_value(true), m_crl_number(n) {} size_t get_crl_number() const; private: std::string oid_name() const override { return "X509v3.CRLNumber"; } bool should_encode() const override { return m_has_value; } std::vector encode_inner() const override; void decode_inner(const std::vector&) override; void contents_to(Data_Store&, Data_Store&) const override; bool m_has_value; size_t m_crl_number; }; /** * CRL Entry Reason Code Extension */ class BOTAN_DLL CRL_ReasonCode final : public Certificate_Extension { public: CRL_ReasonCode* copy() const override { return new CRL_ReasonCode(m_reason); } explicit CRL_ReasonCode(CRL_Code r = UNSPECIFIED) : m_reason(r) {} CRL_Code get_reason() const { return m_reason; } private: std::string oid_name() const override { return "X509v3.ReasonCode"; } bool should_encode() const override { return (m_reason != UNSPECIFIED); } std::vector encode_inner() const override; void decode_inner(const std::vector&) override; void contents_to(Data_Store&, Data_Store&) const override; CRL_Code m_reason; }; /** * CRL Distribution Points Extension */ class BOTAN_DLL CRL_Distribution_Points final : public Certificate_Extension { public: class BOTAN_DLL Distribution_Point final : public ASN1_Object { public: void encode_into(class DER_Encoder&) const override; void decode_from(class BER_Decoder&) override; const AlternativeName& point() const { return m_point; } private: AlternativeName m_point; }; CRL_Distribution_Points* copy() const override { return new CRL_Distribution_Points(m_distribution_points); } CRL_Distribution_Points() {} explicit CRL_Distribution_Points(const std::vector& points) : m_distribution_points(points) {} std::vector distribution_points() const { return m_distribution_points; } private: std::string oid_name() const override { return "X509v3.CRLDistributionPoints"; } bool should_encode() const override { return !m_distribution_points.empty(); } std::vector encode_inner() const override; void decode_inner(const std::vector&) override; void contents_to(Data_Store&, Data_Store&) const override; std::vector m_distribution_points; }; } } #endif