/* * TLS Extensions * (C) 2011-2012 Jack Lloyd * * Botan is released under the Simplified BSD License (see license.txt) */ #ifndef BOTAN_TLS_EXTENSIONS_H__ #define BOTAN_TLS_EXTENSIONS_H__ #include #include #include #include #include #include namespace Botan { namespace TLS { class TLS_Data_Reader; enum Handshake_Extension_Type { TLSEXT_SERVER_NAME_INDICATION = 0, TLSEXT_MAX_FRAGMENT_LENGTH = 1, TLSEXT_CLIENT_CERT_URL = 2, TLSEXT_TRUSTED_CA_KEYS = 3, TLSEXT_TRUNCATED_HMAC = 4, TLSEXT_CERTIFICATE_TYPES = 9, TLSEXT_USABLE_ELLIPTIC_CURVES = 10, TLSEXT_EC_POINT_FORMATS = 11, TLSEXT_SRP_IDENTIFIER = 12, TLSEXT_SIGNATURE_ALGORITHMS = 13, TLSEXT_USE_SRTP = 14, TLSEXT_HEARTBEAT_SUPPORT = 15, TLSEXT_SESSION_TICKET = 35, TLSEXT_NEXT_PROTOCOL = 13172, TLSEXT_SAFE_RENEGOTIATION = 65281, }; /** * Base class representing a TLS extension of some kind */ class Extension { public: /** * @return code number of the extension */ virtual Handshake_Extension_Type type() const = 0; /** * @return serialized binary for the extension */ virtual std::vector serialize() const = 0; /** * @return if we should encode this extension or not */ virtual bool empty() const = 0; virtual ~Extension() {} }; /** * Server Name Indicator extension (RFC 3546) */ class Server_Name_Indicator : public Extension { public: static Handshake_Extension_Type static_type() { return TLSEXT_SERVER_NAME_INDICATION; } Handshake_Extension_Type type() const { return static_type(); } Server_Name_Indicator(const std::string& host_name) : sni_host_name(host_name) {} Server_Name_Indicator(TLS_Data_Reader& reader, u16bit extension_size); std::string host_name() const { return sni_host_name; } std::vector serialize() const; bool empty() const { return sni_host_name == ""; } private: std::string sni_host_name; }; /** * SRP identifier extension (RFC 5054) */ class SRP_Identifier : public Extension { public: static Handshake_Extension_Type static_type() { return TLSEXT_SRP_IDENTIFIER; } Handshake_Extension_Type type() const { return static_type(); } SRP_Identifier(const std::string& identifier) : srp_identifier(identifier) {} SRP_Identifier(TLS_Data_Reader& reader, u16bit extension_size); std::string identifier() const { return srp_identifier; } std::vector serialize() const; bool empty() const { return srp_identifier == ""; } private: std::string srp_identifier; }; /** * Renegotiation Indication Extension (RFC 5746) */ class Renegotiation_Extension : public Extension { public: static Handshake_Extension_Type static_type() { return TLSEXT_SAFE_RENEGOTIATION; } Handshake_Extension_Type type() const { return static_type(); } Renegotiation_Extension() {} Renegotiation_Extension(const std::vector& bits) : reneg_data(bits) {} Renegotiation_Extension(TLS_Data_Reader& reader, u16bit extension_size); const std::vector& renegotiation_info() const { return reneg_data; } std::vector serialize() const; bool empty() const { return false; } // always send this private: std::vector reneg_data; }; /** * Maximum Fragment Length Negotiation Extension (RFC 4366 sec 3.2) */ class Maximum_Fragment_Length : public Extension { public: static Handshake_Extension_Type static_type() { return TLSEXT_MAX_FRAGMENT_LENGTH; } Handshake_Extension_Type type() const { return static_type(); } bool empty() const { return false; } size_t fragment_size() const { return m_max_fragment; } std::vector serialize() const; /** * @param max_fragment specifies what maximum fragment size to * advertise. Currently must be one of 512, 1024, 2048, or * 4096. */ Maximum_Fragment_Length(size_t max_fragment) : m_max_fragment(max_fragment) {} Maximum_Fragment_Length(TLS_Data_Reader& reader, u16bit extension_size); private: size_t m_max_fragment; }; /** * Next Protocol Negotiation * http://technotes.googlecode.com/git/nextprotoneg.html * * This implementation requires the semantics defined in the Google * spec (implemented in Chromium); the internet draft leaves the format * unspecified. */ class Next_Protocol_Notification : public Extension { public: static Handshake_Extension_Type static_type() { return TLSEXT_NEXT_PROTOCOL; } Handshake_Extension_Type type() const { return static_type(); } const std::vector& protocols() const { return m_protocols; } /** * Empty extension, used by client */ Next_Protocol_Notification() {} /** * List of protocols, used by server */ Next_Protocol_Notification(const std::vector& protocols) : m_protocols(protocols) {} Next_Protocol_Notification(TLS_Data_Reader& reader, u16bit extension_size); std::vector serialize() const; bool empty() const { return false; } private: std::vector m_protocols; }; /** * Session Ticket Extension (RFC 5077) */ class Session_Ticket : public Extension { public: static Handshake_Extension_Type static_type() { return TLSEXT_SESSION_TICKET; } Handshake_Extension_Type type() const { return static_type(); } /** * @return contents of the session ticket */ const std::vector& contents() const { return m_ticket; } /** * Create empty extension, used by both client and server */ Session_Ticket() {} /** * Extension with ticket, used by client */ Session_Ticket(const std::vector& session_ticket) : m_ticket(session_ticket) {} /** * Deserialize a session ticket */ Session_Ticket(TLS_Data_Reader& reader, u16bit extension_size); std::vector serialize() const { return m_ticket; } bool empty() const { return false; } private: std::vector m_ticket; }; /** * Supported Elliptic Curves Extension (RFC 4492) */ class Supported_Elliptic_Curves : public Extension { public: static Handshake_Extension_Type static_type() { return TLSEXT_USABLE_ELLIPTIC_CURVES; } Handshake_Extension_Type type() const { return static_type(); } static std::string curve_id_to_name(u16bit id); static u16bit name_to_curve_id(const std::string& name); const std::vector& curves() const { return m_curves; } std::vector serialize() const; Supported_Elliptic_Curves(const std::vector& curves) : m_curves(curves) {} Supported_Elliptic_Curves(TLS_Data_Reader& reader, u16bit extension_size); bool empty() const { return m_curves.empty(); } private: std::vector m_curves; }; /** * Signature Algorithms Extension for TLS 1.2 (RFC 5246) */ class Signature_Algorithms : public Extension { public: static Handshake_Extension_Type static_type() { return TLSEXT_SIGNATURE_ALGORITHMS; } Handshake_Extension_Type type() const { return static_type(); } static std::string hash_algo_name(byte code); static byte hash_algo_code(const std::string& name); static std::string sig_algo_name(byte code); static byte sig_algo_code(const std::string& name); std::vector > supported_signature_algorthms() const { return m_supported_algos; } std::vector serialize() const; bool empty() const { return false; } Signature_Algorithms(const std::vector& hashes, const std::vector& sig_algos); Signature_Algorithms(const std::vector >& algos) : m_supported_algos(algos) {} Signature_Algorithms(TLS_Data_Reader& reader, u16bit extension_size); private: std::vector > m_supported_algos; }; /** * Heartbeat Extension (RFC 6520) */ class Heartbeat_Support_Indicator : public Extension { public: static Handshake_Extension_Type static_type() { return TLSEXT_HEARTBEAT_SUPPORT; } Handshake_Extension_Type type() const { return static_type(); } bool peer_allowed_to_send() const { return m_peer_allowed_to_send; } std::vector serialize() const; bool empty() const { return false; } Heartbeat_Support_Indicator(bool peer_allowed_to_send) : m_peer_allowed_to_send(peer_allowed_to_send) {} Heartbeat_Support_Indicator(TLS_Data_Reader& reader, u16bit extension_size); private: bool m_peer_allowed_to_send; }; /** * Used to indicate SRTP algorithms for DTLS (RFC 5764) */ class SRTP_Protection_Profiles : public Extension { public: static Handshake_Extension_Type static_type() { return TLSEXT_USE_SRTP; } Handshake_Extension_Type type() const { return static_type(); } const std::vector& profiles() const { return m_pp; } std::vector serialize() const; bool empty() const { return m_pp.empty(); } SRTP_Protection_Profiles(const std::vector& pp) : m_pp(pp) {} SRTP_Protection_Profiles(u16bit pp) : m_pp(1, pp) {} SRTP_Protection_Profiles(TLS_Data_Reader& reader, u16bit extension_size); private: std::vector m_pp; }; /** * Represents a block of extensions in a hello message */ class Extensions { public: std::set extension_types() const; template T* get() const { Handshake_Extension_Type type = T::static_type(); auto i = extensions.find(type); if(i != extensions.end()) return dynamic_cast(i->second.get()); return nullptr; } template bool has() const { return get() != nullptr; } void add(Extension* extn) { extensions[extn->type()].reset(extn); } std::vector serialize() const; void deserialize(TLS_Data_Reader& reader); Extensions() {} Extensions(TLS_Data_Reader& reader) { deserialize(reader); } private: Extensions(const Extensions&) {} Extensions& operator=(const Extensions&) { return (*this); } std::map> extensions; }; } } #endif