doxygen/tls__policy_8cpp_source.html

/*

* Policies for TLS

* (C) 2004-2010,2012,2015,2016 Jack Lloyd

*     2016 Christian Mainka

*     2017 Harry Reimann, Rohde & Schwarz Cybersecurity

*     2022 René Meusel, Hannes Rantzsch - neXenio GmbH

*

* Botan is released under the Simplified BSD License (see license.txt)

*/


#include <botan/tls_policy.h>


#include <botan/pk_keys.h>

#include <botan/tls_algos.h>

#include <botan/tls_ciphersuite.h>

#include <botan/tls_exceptn.h>

#include <botan/internal/stl_util.h>

#include <optional>

#include <sstream>


namespace Botan::TLS {


std::vector<Signature_Scheme> Policy::allowed_signature_schemes() const {

   std::vector<Signature_Scheme> schemes;


   for(Signature_Scheme scheme : Signature_Scheme::all_available_schemes()) {

      const bool sig_allowed = allowed_signature_method(scheme.algorithm_name());

      const bool hash_allowed = allowed_signature_hash(scheme.hash_function_name());


      if(sig_allowed && hash_allowed) {

         schemes.push_back(scheme);

      }

   }


   return schemes;

}


std::vector<Signature_Scheme> Policy::acceptable_signature_schemes() const {

   return this->allowed_signature_schemes();

}


std::optional<std::vector<Signature_Scheme>> Policy::acceptable_certificate_signature_schemes() const {

   // the restrictions of ::acceptable_signature_schemes() shall apply

   return std::nullopt;

}


std::vector<std::string> Policy::allowed_ciphers() const {

   return {

      //"AES-256/OCB(12)",

      "ChaCha20Poly1305",

      "AES-256/GCM",

      "AES-128/GCM",

      //"AES-256/CCM",

      //"AES-128/CCM",

      //"AES-256/CCM(8)",

      //"AES-128/CCM(8)",

      //"Camellia-256/GCM",

      //"Camellia-128/GCM",

      //"ARIA-256/GCM",

      //"ARIA-128/GCM",

      //"AES-256",

      //"AES-128",

      //"3DES",

   };

}


std::vector<std::string> Policy::allowed_signature_hashes() const {

   return {

      "SHA-512",

      "SHA-384",

      "SHA-256",

   };

}


std::vector<std::string> Policy::allowed_macs() const {

   /*

   SHA-256 is preferred because the Lucky13 countermeasure works

   somewhat better for SHA-256 vs SHA-384:

   https://github.com/randombit/botan/pull/675

   */

   return {

      "AEAD",

      "SHA-256",

      "SHA-384",

      "SHA-1",

   };

}


std::vector<std::string> Policy::allowed_key_exchange_methods() const {

   return {

      //"ECDHE_PSK",

      //"PSK",

      "ECDH",

      "DH",

      //"RSA",

   };

}


std::vector<std::string> Policy::allowed_signature_methods() const {

   return {

      "ECDSA", "RSA",

      //"IMPLICIT",

   };

}


bool Policy::allowed_signature_method(std::string_view sig_method) const {

   return value_exists(allowed_signature_methods(), sig_method);

}


bool Policy::allowed_signature_hash(std::string_view sig_hash) const {

   return value_exists(allowed_signature_hashes(), sig_hash);

}


bool Policy::use_ecc_point_compression() const {

   return false;

}


Group_Params Policy::choose_key_exchange_group(const std::vector<Group_Params>& supported_by_peer,

                                               const std::vector<Group_Params>& offered_by_peer) const {

   if(supported_by_peer.empty()) {

      return Group_Params::NONE;

   }


   const std::vector<Group_Params> our_groups = key_exchange_groups();


   // Prefer groups that were offered by the peer for the sake of saving

   // an additional round trip. For TLS 1.2, this won't be used.

   for(auto g : offered_by_peer) {

      if(value_exists(our_groups, g)) {

         return g;

      }

   }


   // If no pre-offered groups fit our supported set, we prioritize our

   // own preference.

   for(auto g : our_groups) {

      if(value_exists(supported_by_peer, g)) {

         return g;

      }

   }


   return Group_Params::NONE;

}


Group_Params Policy::default_dh_group() const {

   /*

   * Return the first listed or just default to 2048

   */

   for(auto g : key_exchange_groups()) {

      if(g.is_dh_named_group()) {

         return g;

      }

   }


   return Group_Params::FFDHE_2048;

}


std::vector<Group_Params> Policy::key_exchange_groups() const {

   // Default list is ordered by performance

   return {

#if defined(BOTAN_HAS_CURVE_25519)

      Group_Params::X25519,

#endif

#if defined(BOTAN_HAS_X448)

         Group_Params::X448,

#endif


         Group_Params::SECP256R1, Group_Params::BRAINPOOL256R1, Group_Params::SECP384R1, Group_Params::BRAINPOOL384R1,

         Group_Params::SECP521R1, Group_Params::BRAINPOOL512R1,


         Group_Params::FFDHE_2048, Group_Params::FFDHE_3072, Group_Params::FFDHE_4096, Group_Params::FFDHE_6144,

         Group_Params::FFDHE_8192,

   };

}


std::vector<Group_Params> Policy::key_exchange_groups_to_offer() const {

   // by default, we offer a key share for the most-preferred group, only

   std::vector<Group_Params> groups_to_offer;

   const auto supported_groups = key_exchange_groups();

   if(!supported_groups.empty()) {

      groups_to_offer.push_back(supported_groups.front());

   }

   return groups_to_offer;

}


size_t Policy::minimum_dh_group_size() const {

   return 2048;

}


size_t Policy::minimum_ecdsa_group_size() const {

   // Here we are at the mercy of whatever the CA signed, but most certs should be 256 bit by now

   return 256;

}


size_t Policy::minimum_ecdh_group_size() const {

   // x25519 is smallest curve currently supported for TLS key exchange

   return 255;

}


size_t Policy::minimum_signature_strength() const {

   return 110;

}


bool Policy::require_cert_revocation_info() const {

   return true;

}


size_t Policy::minimum_rsa_bits() const {

   /* Default assumption is all end-entity certificates should

      be at least 2048 bits these days.


      If you are connecting to arbitrary servers on the Internet

      (ie as a web browser or SMTP client) you'll probably have to reduce this

      to 1024 bits, or perhaps even lower.

   */

   return 2048;

}


void Policy::check_peer_key_acceptable(const Public_Key& public_key) const {

   const std::string algo_name = public_key.algo_name();


   const size_t keylength = public_key.key_length();

   size_t expected_keylength = 0;


   if(algo_name == "RSA") {

      expected_keylength = minimum_rsa_bits();

   } else if(algo_name == "DH") {

      expected_keylength = minimum_dh_group_size();

   } else if(algo_name == "ECDH" || algo_name == "Curve25519" || algo_name == "X448") {

      expected_keylength = minimum_ecdh_group_size();

   } else if(algo_name == "ECDSA") {

      expected_keylength = minimum_ecdsa_group_size();

   }

   // else some other algo, so leave expected_keylength as zero and the check is a no-op


   if(keylength < expected_keylength) {

      throw TLS_Exception(Alert::InsufficientSecurity,

                          "Peer sent " + std::to_string(keylength) + " bit " + algo_name +

                             " key"

                             ", policy requires at least " +

                             std::to_string(expected_keylength));

   }

}


size_t Policy::maximum_session_tickets_per_client_hello() const {

   return 1;

}


std::chrono::seconds Policy::session_ticket_lifetime() const {

   return std::chrono::days(1);

}


bool Policy::reuse_session_tickets() const {

   return false;

}


size_t Policy::new_session_tickets_upon_handshake_success() const {

   return 1;

}


bool Policy::acceptable_protocol_version(Protocol_Version version) const {

#if defined(BOTAN_HAS_TLS_13)

   if(version == Protocol_Version::TLS_V13 && allow_tls13()) {

      return true;

   }

#endif


#if defined(BOTAN_HAS_TLS_12)

   if(version == Protocol_Version::TLS_V12 && allow_tls12()) {

      return true;

   }


   if(version == Protocol_Version::DTLS_V12 && allow_dtls12()) {

      return true;

   }

#endif


   return false;

}


Protocol_Version Policy::latest_supported_version(bool datagram) const {

   if(datagram) {

      if(acceptable_protocol_version(Protocol_Version::DTLS_V12)) {

         return Protocol_Version::DTLS_V12;

      }

      throw Invalid_State("Policy forbids all available DTLS version");

   } else {

#if defined(BOTAN_HAS_TLS_13)

      if(acceptable_protocol_version(Protocol_Version::TLS_V13)) {

         return Protocol_Version::TLS_V13;

      }

#endif

      if(acceptable_protocol_version(Protocol_Version::TLS_V12)) {

         return Protocol_Version::TLS_V12;

      }

      throw Invalid_State("Policy forbids all available TLS version");

   }

}


bool Policy::acceptable_ciphersuite(const Ciphersuite& ciphersuite) const {

   return value_exists(allowed_ciphers(), ciphersuite.cipher_algo()) &&

          value_exists(allowed_macs(), ciphersuite.mac_algo());

}


bool Policy::allow_client_initiated_renegotiation() const {

   return false;

}


bool Policy::allow_server_initiated_renegotiation() const {

   return false;

}


bool Policy::allow_insecure_renegotiation() const {

   return false;

}


bool Policy::allow_tls12() const {

#if defined(BOTAN_HAS_TLS_12)

   return true;

#else

   return false;

#endif

}


bool Policy::allow_tls13() const {

#if defined(BOTAN_HAS_TLS_13)

   return true;

#else

   return false;

#endif

}


bool Policy::allow_dtls12() const {

#if defined(BOTAN_HAS_TLS_12)

   return true;

#else

   return false;

#endif

}


bool Policy::include_time_in_hello_random() const {

   return true;

}


bool Policy::hide_unknown_users() const {

   return false;

}


bool Policy::server_uses_own_ciphersuite_preferences() const {

   return true;

}


bool Policy::negotiate_encrypt_then_mac() const {

   return true;

}


std::optional<uint16_t> Policy::record_size_limit() const {

   return std::nullopt;

}


bool Policy::support_cert_status_message() const {

   return true;

}


bool Policy::allow_resumption_for_renegotiation() const {

   return true;

}


bool Policy::tls_13_middlebox_compatibility_mode() const {

   return true;

}


bool Policy::hash_hello_random() const {

   return true;

}


bool Policy::only_resume_with_exact_version() const {

   return true;

}


bool Policy::require_client_certificate_authentication() const {

   return false;

}


bool Policy::request_client_certificate_authentication() const {

   return require_client_certificate_authentication();

}


bool Policy::abort_connection_on_undesired_renegotiation() const {

   return false;

}


std::vector<Certificate_Type> Policy::accepted_client_certificate_types() const {

   return {Certificate_Type::X509};

}


std::vector<Certificate_Type> Policy::accepted_server_certificate_types() const {

   return {Certificate_Type::X509};

}


bool Policy::allow_dtls_epoch0_restart() const {

   return false;

}


size_t Policy::maximum_certificate_chain_size() const {

   return 0;

}


// 1 second initial timeout, 60 second max - see RFC 6347 sec 4.2.4.1


size_t Policy::dtls_initial_timeout() const {

   return 1 * 1000;

}


size_t Policy::dtls_maximum_timeout() const {

   return 60 * 1000;

}


size_t Policy::dtls_default_mtu() const {

   // default MTU is IPv6 min MTU minus UDP/IP headers

   return 1280 - 40 - 8;

}


std::vector<uint16_t> Policy::srtp_profiles() const {

   return std::vector<uint16_t>();

}


namespace {


class Ciphersuite_Preference_Ordering final {

   public:

      Ciphersuite_Preference_Ordering(const std::vector<std::string>& ciphers,

                                      const std::vector<std::string>& macs,

                                      const std::vector<std::string>& kex,

                                      const std::vector<std::string>& sigs) :

            m_ciphers(ciphers), m_macs(macs), m_kex(kex), m_sigs(sigs) {}


      bool operator()(const Ciphersuite& a, const Ciphersuite& b) const {

         if(a.kex_method() != b.kex_method()) {

            for(const auto& i : m_kex) {

               if(a.kex_algo() == i) {

                  return true;

               }

               if(b.kex_algo() == i) {

                  return false;

               }

            }

         }


         if(a.cipher_algo() != b.cipher_algo()) {

            for(const auto& m_cipher : m_ciphers) {

               if(a.cipher_algo() == m_cipher) {

                  return true;

               }

               if(b.cipher_algo() == m_cipher) {

                  return false;

               }

            }

         }


         if(a.cipher_keylen() != b.cipher_keylen()) {

            if(a.cipher_keylen() < b.cipher_keylen()) {

               return false;

            }

            if(a.cipher_keylen() > b.cipher_keylen()) {

               return true;

            }

         }


         if(a.auth_method() != b.auth_method()) {

            for(const auto& m_sig : m_sigs) {

               if(a.sig_algo() == m_sig) {

                  return true;

               }

               if(b.sig_algo() == m_sig) {

                  return false;

               }

            }

         }


         if(a.mac_algo() != b.mac_algo()) {

            for(const auto& m_mac : m_macs) {

               if(a.mac_algo() == m_mac) {

                  return true;

               }

               if(b.mac_algo() == m_mac) {

                  return false;

               }

            }

         }


         return false;  // equal (?!?)

      }


   private:

      std::vector<std::string> m_ciphers, m_macs, m_kex, m_sigs;

};


}  // namespace


std::vector<uint16_t> Policy::ciphersuite_list(Protocol_Version version) const {

   const std::vector<std::string> ciphers = allowed_ciphers();

   const std::vector<std::string> macs = allowed_macs();

   const std::vector<std::string> kex = allowed_key_exchange_methods();

   const std::vector<std::string> sigs = allowed_signature_methods();


   std::vector<Ciphersuite> ciphersuites;


   for(auto&& suite : Ciphersuite::all_known_ciphersuites()) {

      // Can we use it?

      if(!suite.valid()) {

         continue;

      }


      // Can we use it in this version?

      if(!suite.usable_in_version(version)) {

         continue;

      }


      // Is it acceptable to the policy?

      if(!this->acceptable_ciphersuite(suite)) {

         continue;

      }


      if(!value_exists(ciphers, suite.cipher_algo())) {

         continue;  // unsupported cipher

      }


      // these checks are irrelevant for TLS 1.3

      // TODO: consider making a method for this logic

      if(version.is_pre_tls_13()) {

         if(!value_exists(kex, suite.kex_algo())) {

            continue;  // unsupported key exchange

         }


         if(!value_exists(macs, suite.mac_algo())) {

            continue;  // unsupported MAC algo

         }


         if(!value_exists(sigs, suite.sig_algo())) {

            // allow if it's an empty sig algo and we want to use PSK

            if(suite.auth_method() != Auth_Method::IMPLICIT || !suite.psk_ciphersuite()) {

               continue;

            }

         }

      }


      // OK, consider it

      ciphersuites.push_back(suite);

   }


   if(ciphersuites.empty()) {

      throw Invalid_State("Policy does not allow any available cipher suite");

   }


   Ciphersuite_Preference_Ordering order(ciphers, macs, kex, sigs);

   std::sort(ciphersuites.begin(), ciphersuites.end(), order);


   std::vector<uint16_t> ciphersuite_codes;

   ciphersuite_codes.reserve(ciphersuites.size());

   for(auto i : ciphersuites) {

      ciphersuite_codes.push_back(i.ciphersuite_code());

   }

   return ciphersuite_codes;

}


namespace {


void print_vec(std::ostream& o, const char* key, const std::vector<std::string>& v) {

   o << key << " = ";

   for(size_t i = 0; i != v.size(); ++i) {

      o << v[i];

      if(i != v.size() - 1) {

         o << ' ';

      }

   }

   o << '\n';

}


void print_vec(std::ostream& o, const char* key, const std::vector<Group_Params>& params) {

   // first filter out any groups we don't have a name for:

   std::vector<std::string> names;

   for(auto p : params) {

      if(auto name = p.to_string()) {

         names.push_back(name.value());

      }

   }


   o << key << " = ";


   for(size_t i = 0; i != names.size(); ++i) {

      o << names[i];

      if(i != names.size() - 1) {

         o << " ";

      }

   }

   o << "\n";

}


void print_vec(std::ostream& o, const char* key, const std::vector<Certificate_Type>& types) {

   o << key << " = ";

   for(size_t i = 0; i != types.size(); ++i) {

      o << certificate_type_to_string(types[i]);

      if(i != types.size() - 1) {

         o << ' ';

      }

   }

   o << '\n';

}


void print_bool(std::ostream& o, const char* key, bool b) {

   o << key << " = " << (b ? "true" : "false") << '\n';

}


}  // namespace


void Policy::print(std::ostream& o) const {

   print_bool(o, "allow_tls12", allow_tls12());

   print_bool(o, "allow_tls13", allow_tls13());

   print_bool(o, "allow_dtls12", allow_dtls12());

   print_vec(o, "ciphers", allowed_ciphers());

   print_vec(o, "macs", allowed_macs());

   print_vec(o, "signature_hashes", allowed_signature_hashes());

   print_vec(o, "signature_methods", allowed_signature_methods());

   print_vec(o, "key_exchange_methods", allowed_key_exchange_methods());

   print_vec(o, "key_exchange_groups", key_exchange_groups());

   const auto groups_to_offer = key_exchange_groups_to_offer();

   if(groups_to_offer.empty()) {

      print_vec(o, "key_exchange_groups_to_offer", {std::string("none")});

   } else {

      print_vec(o, "key_exchange_groups_to_offer", groups_to_offer);

   }

   print_bool(o, "allow_insecure_renegotiation", allow_insecure_renegotiation());

   print_bool(o, "include_time_in_hello_random", include_time_in_hello_random());

   print_bool(o, "allow_server_initiated_renegotiation", allow_server_initiated_renegotiation());

   print_bool(o, "hide_unknown_users", hide_unknown_users());

   print_bool(o, "server_uses_own_ciphersuite_preferences", server_uses_own_ciphersuite_preferences());

   print_bool(o, "negotiate_encrypt_then_mac", negotiate_encrypt_then_mac());

   print_bool(o, "support_cert_status_message", support_cert_status_message());

   print_bool(o, "tls_13_middlebox_compatibility_mode", tls_13_middlebox_compatibility_mode());

   print_vec(o, "accepted_client_certificate_types", accepted_client_certificate_types());

   print_vec(o, "accepted_server_certificate_types", accepted_server_certificate_types());

   print_bool(o, "hash_hello_random", hash_hello_random());

   if(record_size_limit().has_value()) {

      o << "record_size_limit = " << record_size_limit().value() << '\n';

   }

   o << "maximum_session_tickets_per_client_hello = " << maximum_session_tickets_per_client_hello() << '\n';

   o << "session_ticket_lifetime = " << session_ticket_lifetime().count() << '\n';

   o << "reuse_session_tickets = " << reuse_session_tickets() << '\n';

   o << "new_session_tickets_upon_handshake_success = " << new_session_tickets_upon_handshake_success() << '\n';

   o << "minimum_dh_group_size = " << minimum_dh_group_size() << '\n';

   o << "minimum_ecdh_group_size = " << minimum_ecdh_group_size() << '\n';

   o << "minimum_rsa_bits = " << minimum_rsa_bits() << '\n';

   o << "minimum_signature_strength = " << minimum_signature_strength() << '\n';

}


std::string Policy::to_string() const {

   std::ostringstream oss;

   this->print(oss);

   return oss.str();

}


std::vector<std::string> Strict_Policy::allowed_ciphers() const {

   return {"ChaCha20Poly1305", "AES-256/GCM", "AES-128/GCM"};

}


std::vector<std::string> Strict_Policy::allowed_signature_hashes() const {

   return {"SHA-512", "SHA-384"};

}


std::vector<std::string> Strict_Policy::allowed_macs() const {

   return {"AEAD"};

}


std::vector<std::string> Strict_Policy::allowed_key_exchange_methods() const {

   return {"ECDH"};

}


}  // namespace Botan::TLS

Botan::Asymmetric_Key::algo_name
virtual std::string algo_name() const =0

Botan::Invalid_State
Definition exceptn.h:206

Botan::Public_Key
Definition pk_keys.h:119

Botan::Public_Key::key_length
virtual size_t key_length() const =0

Botan::TLS::Ciphersuite
Definition tls_ciphersuite.h:23

Botan::TLS::Ciphersuite::all_known_ciphersuites
static const std::vector< Ciphersuite > & all_known_ciphersuites()
Definition tls_suite_info.cpp:15

Botan::TLS::Ciphersuite::mac_algo
std::string mac_algo() const
Definition tls_ciphersuite.h:106

Botan::TLS::Ciphersuite::cipher_algo
std::string cipher_algo() const
Definition tls_ciphersuite.h:101

Botan::TLS::Group_Params
Definition tls_algos.h:151

Botan::TLS::Policy::include_time_in_hello_random
virtual bool include_time_in_hello_random() const
Definition tls_policy.cpp:341

Botan::TLS::Policy::check_peer_key_acceptable
virtual void check_peer_key_acceptable(const Public_Key &public_key) const
Definition tls_policy.cpp:219

Botan::TLS::Policy::abort_connection_on_undesired_renegotiation
virtual bool abort_connection_on_undesired_renegotiation() const
Definition tls_policy.cpp:389

Botan::TLS::Policy::dtls_maximum_timeout
virtual size_t dtls_maximum_timeout() const
Definition tls_policy.cpp:414

Botan::TLS::Policy::minimum_ecdh_group_size
virtual size_t minimum_ecdh_group_size() const
Definition tls_policy.cpp:195

Botan::TLS::Policy::dtls_default_mtu
virtual size_t dtls_default_mtu() const
Definition tls_policy.cpp:418

Botan::TLS::Policy::allow_tls12
virtual bool allow_tls12() const
Definition tls_policy.cpp:317

Botan::TLS::Policy::allowed_signature_schemes
virtual std::vector< Signature_Scheme > allowed_signature_schemes() const
Definition tls_policy.cpp:23

Botan::TLS::Policy::to_string
std::string to_string() const
Definition tls_policy.cpp:656

Botan::TLS::Policy::reuse_session_tickets
virtual bool reuse_session_tickets() const
Definition tls_policy.cpp:253

Botan::TLS::Policy::ciphersuite_list
virtual std::vector< uint16_t > ciphersuite_list(Protocol_Version version) const
Definition tls_policy.cpp:500

Botan::TLS::Policy::accepted_server_certificate_types
virtual std::vector< Certificate_Type > accepted_server_certificate_types() const
Definition tls_policy.cpp:397

Botan::TLS::Policy::accepted_client_certificate_types
virtual std::vector< Certificate_Type > accepted_client_certificate_types() const
Definition tls_policy.cpp:393

Botan::TLS::Policy::allowed_signature_method
bool allowed_signature_method(std::string_view sig_method) const
Definition tls_policy.cpp:106

Botan::TLS::Policy::require_client_certificate_authentication
virtual bool require_client_certificate_authentication() const
Definition tls_policy.cpp:381

Botan::TLS::Policy::key_exchange_groups
virtual std::vector< Group_Params > key_exchange_groups() const
Definition tls_policy.cpp:158

Botan::TLS::Policy::new_session_tickets_upon_handshake_success
virtual size_t new_session_tickets_upon_handshake_success() const
Definition tls_policy.cpp:257

Botan::TLS::Policy::key_exchange_groups_to_offer
virtual std::vector< Group_Params > key_exchange_groups_to_offer() const
Definition tls_policy.cpp:176

Botan::TLS::Policy::allowed_signature_hash
bool allowed_signature_hash(std::string_view hash) const
Definition tls_policy.cpp:110

Botan::TLS::Policy::minimum_rsa_bits
virtual size_t minimum_rsa_bits() const
Definition tls_policy.cpp:208

Botan::TLS::Policy::tls_13_middlebox_compatibility_mode
virtual bool tls_13_middlebox_compatibility_mode() const
Definition tls_policy.cpp:369

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Definition tls_policy.cpp:377

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Definition tls_policy.cpp:305

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Definition tls_policy.cpp:401

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Definition tls_policy.cpp:385

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Definition tls_policy.cpp:204

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Definition tls_policy.cpp:353

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Definition tls_policy.cpp:349

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Definition tls_policy.cpp:281

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Definition tls_policy.cpp:261

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Definition tls_policy.cpp:423

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Definition tls_policy.cpp:361

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Definition tls_policy.cpp:300

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Definition tls_policy.cpp:75

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Definition tls_policy.cpp:345

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virtual std::optional< std::vector< Signature_Scheme > > acceptable_certificate_signature_schemes() const
Definition tls_policy.cpp:42

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Definition tls_policy.cpp:373

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Definition tls_policy.cpp:325

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Definition tls_policy.cpp:89

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Definition tls_policy.cpp:410

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Definition tls_policy.cpp:245

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virtual std::vector< Signature_Scheme > acceptable_signature_schemes() const
Definition tls_policy.cpp:38

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Definition tls_policy.cpp:114

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Definition tls_policy.cpp:333

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Definition tls_policy.cpp:186

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Definition tls_policy.cpp:313

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Definition tls_policy.cpp:357

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Definition tls_policy.cpp:47

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Definition tls_policy.cpp:249

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virtual size_t minimum_signature_strength() const
Definition tls_policy.cpp:200

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Definition tls_policy.cpp:145

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virtual size_t maximum_certificate_chain_size() const
Definition tls_policy.cpp:405

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virtual std::vector< std::string > allowed_signature_methods() const
Definition tls_policy.cpp:99

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Definition tls_policy.cpp:190

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virtual Group_Params choose_key_exchange_group(const std::vector< Group_Params > &supported_by_peer, const std::vector< Group_Params > &offered_by_peer) const
Definition tls_policy.cpp:118

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virtual bool allow_resumption_for_renegotiation() const
Definition tls_policy.cpp:365

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virtual std::vector< std::string > allowed_signature_hashes() const
Definition tls_policy.cpp:67

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virtual bool allow_server_initiated_renegotiation() const
Definition tls_policy.cpp:309

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virtual void print(std::ostream &o) const
Definition tls_policy.cpp:616

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Definition tls_version.h:29

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bool is_pre_tls_13() const
Definition tls_version.cpp:40

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Definition tls_signature_scheme.h:23

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static const std::vector< Signature_Scheme > & all_available_schemes()
Definition tls_signature_scheme.cpp:21

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std::vector< std::string > allowed_macs() const override
Definition tls_policy.cpp:670

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std::vector< std::string > allowed_ciphers() const override
Definition tls_policy.cpp:662

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std::vector< std::string > allowed_key_exchange_methods() const override
Definition tls_policy.cpp:674

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std::vector< std::string > allowed_signature_hashes() const override
Definition tls_policy.cpp:666

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Definition tls_exceptn.h:19

name
std::string name
Definition commoncrypto_hash.cpp:24

final
int(* final)(unsigned char *, CTX *)
Definition commoncrypto_hash.cpp:29

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Definition msg_cert_req.cpp:19

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std::string certificate_type_to_string(Certificate_Type type)
Definition tls_extensions.cpp:366

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@ X509

Botan::TLS::Auth_Method::IMPLICIT
@ IMPLICIT

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bool value_exists(const std::vector< T > &vec, const OT &val)
Definition stl_util.h:118