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/*
* ECDSA Tests
*
* (C) 2007 Falko Strenzke
*     2007 Manuel Hartl
*     2008 Jack Lloyd
*
* Botan is released under the Simplified BSD License (see license.txt)
*/

#include "tests.h"

#if defined(BOTAN_HAS_ECDSA)

#if defined(BOTAN_HAS_RSA)

#include <botan/hex.h>
#include <botan/pubkey.h>
#include <botan/ecdsa.h>
#include <botan/rsa.h>
#include <botan/oids.h>

#if defined(BOTAN_HAS_X509_CERTIFICATES)
#include <botan/x509cert.h>
#endif

#include <iostream>
#include <fstream>
#include <memory>

using namespace Botan;

#define CHECK_MESSAGE(expr, print) try { if(!(expr)) { ++fails; std::cout << print << std::endl; } } catch(std::exception& e) { std::cout << __FUNCTION__ << ": " << e.what() << std::endl; }
#define CHECK(expr) try { if(!(expr)) { ++fails; std::cout << #expr << std::endl; } } catch(std::exception& e) { std::cout << __FUNCTION__ << ": " << e.what() << std::endl; }

namespace {

/**

* Tests whether the the signing routine will work correctly in case
* the integer e that is constructed from the message (thus the hash
* value) is larger than n, the order of the base point.  Tests the
* signing function of the pk signer object */

size_t test_hash_larger_than_n(RandomNumberGenerator& rng)
   {
   EC_Group dom_pars(OID("1.3.132.0.8")); // secp160r1
   // n = 0x0100000000000000000001f4c8f927aed3ca752257 (21 bytes)
   // -> shouldn't work with SHA224 which outputs 28 bytes

   size_t fails = 0;
   ECDSA_PrivateKey priv_key(rng, dom_pars);

   std::vector<byte> message(20);
   for(size_t i = 0; i != message.size(); ++i)
      message[i] = i;

   PK_Signer pk_signer_160(priv_key, "EMSA1_BSI(SHA-1)");
   PK_Verifier pk_verifier_160(priv_key, "EMSA1_BSI(SHA-1)");

   PK_Signer pk_signer_224(priv_key, "EMSA1_BSI(SHA-224)");

   // Verify we can sign and verify with SHA-160
   std::vector<byte> signature_160 = pk_signer_160.sign_message(message, rng);

   CHECK(pk_verifier_160.verify_message(message, signature_160));

   bool signature_failed = false;
   try
      {
      std::vector<byte> signature_224 = pk_signer_224.sign_message(message, rng);
      }
   catch(Encoding_Error)
      {
      signature_failed = true;
      }

   CHECK(signature_failed);

   // now check that verification alone fails

   // sign it with the normal EMSA1
   PK_Signer pk_signer(priv_key, "EMSA1(SHA-224)");
   std::vector<byte> signature = pk_signer.sign_message(message, rng);

   PK_Verifier pk_verifier(priv_key, "EMSA1_BSI(SHA-224)");

   // verify against EMSA1_BSI
   if(pk_verifier.verify_message(message, signature))
      {
      std::cout << "Corrupt ECDSA signature verified, should not have" << std::endl;
      ++fails;
      }

   return fails;
   }

#if defined(BOTAN_HAS_X509_CERTIFICATES)
size_t test_decode_ecdsa_X509()
   {
   X509_Certificate cert(TEST_DATA_DIR_ECC "/CSCA.CSCA.csca-germany.1.crt");
   size_t fails = 0;

   CHECK_MESSAGE(OIDS::lookup(cert.signature_algorithm().oid) == "ECDSA/EMSA1(SHA-224)", "error reading signature algorithm from x509 ecdsa certificate");

   CHECK_MESSAGE(hex_encode(cert.serial_number()) == "01", "error reading serial from x509 ecdsa certificate");
   CHECK_MESSAGE(hex_encode(cert.authority_key_id()) == "0096452DE588F966C4CCDF161DD1F3F5341B71E7", "error reading authority key id from x509 ecdsa certificate");
   CHECK_MESSAGE(hex_encode(cert.subject_key_id()) == "0096452DE588F966C4CCDF161DD1F3F5341B71E7", "error reading Subject key id from x509 ecdsa certificate");

   std::unique_ptr<X509_PublicKey> pubkey(cert.subject_public_key());
   bool ver_ec = cert.check_signature(*pubkey);
   CHECK_MESSAGE(ver_ec, "could not positively verify correct selfsigned x509-ecdsa certificate");

   return fails;
   }

size_t test_decode_ver_link_SHA256()
   {
   X509_Certificate root_cert(TEST_DATA_DIR_ECC "/root2_SHA256.cer");
   X509_Certificate link_cert(TEST_DATA_DIR_ECC "/link_SHA256.cer");

   size_t fails = 0;
   std::unique_ptr<X509_PublicKey> pubkey(root_cert.subject_public_key());
   bool ver_ec = link_cert.check_signature(*pubkey);
   CHECK_MESSAGE(ver_ec, "could not positively verify correct SHA256 link x509-ecdsa certificate");
   return fails;
   }

size_t test_decode_ver_link_SHA1()
   {
   X509_Certificate root_cert(TEST_DATA_DIR_ECC "/root_SHA1.163.crt");
   X509_Certificate link_cert(TEST_DATA_DIR_ECC "/link_SHA1.166.crt");

   size_t fails = 0;
   std::unique_ptr<X509_PublicKey> pubkey(root_cert.subject_public_key());
   bool ver_ec = link_cert.check_signature(*pubkey);
   CHECK_MESSAGE(ver_ec, "could not positively verify correct SHA1 link x509-ecdsa certificate");
   return fails;
   }
#endif

size_t test_sign_then_ver(RandomNumberGenerator& rng)
   {
   EC_Group dom_pars(OID("1.3.132.0.8"));
   ECDSA_PrivateKey ecdsa(rng, dom_pars);

   size_t fails = 0;
   PK_Signer signer(ecdsa, "EMSA1(SHA-1)");

   auto msg = hex_decode("12345678901234567890abcdef12");
   std::vector<byte> sig = signer.sign_message(msg, rng);

   PK_Verifier verifier(ecdsa, "EMSA1(SHA-1)");

   bool ok = verifier.verify_message(msg, sig);

   if(!ok)
      {
      std::cout << "ERROR: Could not verify ECDSA signature" << std::endl;
      fails++;
      }

   sig[0]++;
   ok = verifier.verify_message(msg, sig);

   if(ok)
      {
      std::cout << "ERROR: Bogus ECDSA signature verified anyway" << std::endl;
      fails++;
      }

   return fails;
   }

size_t test_ec_sign(RandomNumberGenerator& rng)
   {
   size_t fails = 0;

   try
      {
      EC_Group dom_pars(OID("1.3.132.0.8"));
      ECDSA_PrivateKey priv_key(rng, dom_pars);
      std::string pem_encoded_key = PKCS8::PEM_encode(priv_key);

      PK_Signer signer(priv_key, "EMSA1(SHA-224)");
      PK_Verifier verifier(priv_key, "EMSA1(SHA-224)");

      for(size_t i = 0; i != 256; ++i)
         signer.update(static_cast<byte>(i));
      std::vector<byte> sig = signer.signature(rng);

      for(u32bit i = 0; i != 256; ++i)
         verifier.update(static_cast<byte>(i));
      if(!verifier.check_signature(sig))
         {
         std::cout << "ECDSA self-test failed!";
         ++fails;
         }

      // now check valid signature, different input
      for(u32bit i = 1; i != 256; ++i) //starting from 1
         verifier.update(static_cast<byte>(i));

      if(verifier.check_signature(sig))
         {
         std::cout << "ECDSA with bad input passed validation";
         ++fails;
         }

      // now check with original input, modified signature

      sig[sig.size()/2]++;
      for(u32bit i = 0; i != 256; ++i)
         verifier.update(static_cast<byte>(i));

      if(verifier.check_signature(sig))
         {
         std::cout << "ECDSA with bad signature passed validation";
         ++fails;
         }
      }
   catch (std::exception& e)
      {
      std::cout << "Exception in test_ec_sign - " << e.what() << std::endl;
      ++fails;
      }

   return fails;
   }


size_t test_create_pkcs8(RandomNumberGenerator& rng)
   {
   size_t fails = 0;

   try
      {
      RSA_PrivateKey rsa_key(rng, 1024);
      //RSA_PrivateKey rsa_key2(1024);
      //cout << "\nequal: " <<  (rsa_key == rsa_key2) << std::endl;
      //DSA_PrivateKey key(DL_Group("dsa/jce/1024"));

      std::ofstream rsa_priv_key(TEST_OUTDATA_DIR "/rsa_private.pkcs8.pem");
      rsa_priv_key << PKCS8::PEM_encode(rsa_key);

      EC_Group dom_pars(OID("1.3.132.0.8"));
      ECDSA_PrivateKey key(rng, dom_pars);

      // later used by other tests :(
      std::ofstream priv_key(TEST_OUTDATA_DIR "/wo_dompar_private.pkcs8.pem");
      priv_key << PKCS8::PEM_encode(key);
      }
   catch (std::exception& e)
      {
      std::cout << "Exception: " << e.what() << std::endl;
      ++fails;
      }

   return fails;
   }

size_t test_create_and_verify(RandomNumberGenerator& rng)
   {
   size_t fails = 0;

   EC_Group dom_pars(OID("1.3.132.0.8"));
   ECDSA_PrivateKey key(rng, dom_pars);
   std::ofstream priv_key(TEST_OUTDATA_DIR "/dompar_private.pkcs8.pem");
   priv_key << PKCS8::PEM_encode(key);

   std::unique_ptr<PKCS8_PrivateKey> loaded_key(PKCS8::load_key(TEST_OUTDATA_DIR "/wo_dompar_private.pkcs8.pem", rng));
   ECDSA_PrivateKey* loaded_ec_key = dynamic_cast<ECDSA_PrivateKey*>(loaded_key.get());
   CHECK_MESSAGE(loaded_ec_key, "the loaded key could not be converted into an ECDSA_PrivateKey");

   std::unique_ptr<PKCS8_PrivateKey> loaded_key_1(PKCS8::load_key(TEST_OUTDATA_DIR "/rsa_private.pkcs8.pem", rng));
   ECDSA_PrivateKey* loaded_rsa_key = dynamic_cast<ECDSA_PrivateKey*>(loaded_key_1.get());
   CHECK_MESSAGE(!loaded_rsa_key, "the loaded key is ECDSA_PrivateKey -> shouldn't be, is a RSA-Key");

   //calc a curve which is not in the registry

   // 	string p_secp = "2117607112719756483104013348936480976596328609518055062007450442679169492999007105354629105748524349829824407773719892437896937279095106809";
   std::string a_secp = "0a377dede6b523333d36c78e9b0eaa3bf48ce93041f6d4fc34014d08f6833807498deedd4290101c5866e8dfb589485d13357b9e78c2d7fbe9fe";
   std::string b_secp = "0a9acf8c8ba617777e248509bcb4717d4db346202bf9e352cd5633731dd92a51b72a4dc3b3d17c823fcc8fbda4da08f25dea89046087342595a7";
   std::string G_secp_comp = "04081523d03d4f12cd02879dea4bf6a4f3a7df26ed888f10c5b2235a1274c386a2f218300dee6ed217841164533bcdc903f07a096f9fbf4ee95bac098a111f296f5830fe5c35b3e344d5df3a2256985f64fbe6d0edcc4c61d18bef681dd399df3d0194c5a4315e012e0245ecea56365baa9e8be1f7";
   std::string order_g = "0e1a16196e6000000000bc7f1618d867b15bb86474418f";

   //	::std::vector<byte> sv_p_secp = hex_decode ( p_secp );
   auto sv_a_secp = hex_decode ( a_secp );
   auto sv_b_secp = hex_decode ( b_secp );
   auto sv_G_secp_comp = hex_decode ( G_secp_comp );
   auto sv_order_g = hex_decode ( order_g );

   //	BigInt bi_p_secp = BigInt::decode ( sv_p_secp.data(), sv_p_secp.size() );
   BigInt bi_p_secp("2117607112719756483104013348936480976596328609518055062007450442679169492999007105354629105748524349829824407773719892437896937279095106809");
   BigInt bi_a_secp = BigInt::decode ( sv_a_secp.data(), sv_a_secp.size() );
   BigInt bi_b_secp = BigInt::decode ( sv_b_secp.data(), sv_b_secp.size() );
   BigInt bi_order_g = BigInt::decode ( sv_order_g.data(), sv_order_g.size() );
   CurveGFp curve(bi_p_secp, bi_a_secp, bi_b_secp);
   PointGFp p_G = OS2ECP ( sv_G_secp_comp, curve );

   EC_Group dom_params(curve, p_G, bi_order_g, BigInt(1));
   if(!p_G.on_the_curve())
      throw Internal_Error("Point not on the curve");

   ECDSA_PrivateKey key_odd_oid(rng, dom_params);
   std::string key_odd_oid_str = PKCS8::PEM_encode(key_odd_oid);

   DataSource_Memory key_data_src(key_odd_oid_str);
   std::unique_ptr<PKCS8_PrivateKey> loaded_key2(PKCS8::load_key(key_data_src, rng));

   if(!dynamic_cast<ECDSA_PrivateKey*>(loaded_key.get()))
      {
      std::cout << "Failed to reload an ECDSA key with unusual parameter set" << std::endl;
      ++fails;
      }

   return fails;
   }

size_t test_curve_registry(RandomNumberGenerator& rng)
   {
   std::vector<std::string> oids;
   oids.push_back("1.3.132.0.8");
   oids.push_back("1.2.840.10045.3.1.1");
   oids.push_back("1.2.840.10045.3.1.2");
   oids.push_back("1.2.840.10045.3.1.3");
   oids.push_back("1.2.840.10045.3.1.4");
   oids.push_back("1.2.840.10045.3.1.5");
   oids.push_back("1.2.840.10045.3.1.6");
   oids.push_back("1.2.840.10045.3.1.7");
   oids.push_back("1.3.132.0.6");
   oids.push_back("1.3.132.0.7");
   oids.push_back("1.3.132.0.28");
   oids.push_back("1.3.132.0.29");
   oids.push_back("1.3.132.0.9");
   oids.push_back("1.3.132.0.30");
   oids.push_back("1.3.132.0.31");
   oids.push_back("1.3.132.0.32");
   oids.push_back("1.3.132.0.33");
   oids.push_back("1.3.132.0.10");
   oids.push_back("1.3.132.0.34");
   oids.push_back("1.3.132.0.35");
   //oids.push_back("1.3.6.1.4.1.8301.3.1.2.9.0.38");
   oids.push_back("1.3.36.3.3.2.8.1.1.1");
   oids.push_back("1.3.36.3.3.2.8.1.1.3");
   oids.push_back("1.3.36.3.3.2.8.1.1.5");
   oids.push_back("1.3.36.3.3.2.8.1.1.7");
   oids.push_back("1.3.36.3.3.2.8.1.1.9");
   oids.push_back("1.3.36.3.3.2.8.1.1.11");
   oids.push_back("1.3.36.3.3.2.8.1.1.13");

   size_t fails = 0;

   unsigned int i;
   for (i = 0; i < oids.size(); i++)
      {
      try
         {
         OID oid(oids[i]);
         EC_Group dom_pars(oid);
         ECDSA_PrivateKey ecdsa(rng, dom_pars);

         PK_Signer signer(ecdsa, "EMSA1(SHA-1)");
         PK_Verifier verifier(ecdsa, "EMSA1(SHA-1)");

         auto msg = hex_decode("12345678901234567890abcdef12");
         std::vector<byte> sig = signer.sign_message(msg, rng);

         if(!verifier.verify_message(msg, sig))
            {
            std::cout << "Failed testing ECDSA sig for curve " << oids[i] << std::endl;
            ++fails;
            }
         }
      catch(Invalid_Argument& e)
         {
         std::cout << "Error testing curve " << oids[i] << " - " << e.what() << std::endl;
         ++fails;
         }
      }
   return fails;
   }

size_t test_read_pkcs8(RandomNumberGenerator& rng)
   {
   auto msg = hex_decode("12345678901234567890abcdef12");
   size_t fails = 0;

   try
      {
      std::unique_ptr<PKCS8_PrivateKey> loaded_key(PKCS8::load_key(TEST_OUTDATA_DIR "/wo_dompar_private.pkcs8.pem", rng));
      ECDSA_PrivateKey* ecdsa = dynamic_cast<ECDSA_PrivateKey*>(loaded_key.get());
      CHECK_MESSAGE(ecdsa, "the loaded key could not be converted into an ECDSA_PrivateKey");

      PK_Signer signer(*ecdsa, "EMSA1(SHA-1)");

      std::vector<byte> sig = signer.sign_message(msg, rng);

      PK_Verifier verifier(*ecdsa, "EMSA1(SHA-1)");

      CHECK_MESSAGE(verifier.verify_message(msg, sig),
                    "generated sig could not be verified positively");
      }
   catch (std::exception& e)
      {
      ++fails;
      std::cout << "Exception in test_read_pkcs8 - " << e.what() << std::endl;
      }

   try
      {
      std::unique_ptr<PKCS8_PrivateKey> loaded_key_nodp(PKCS8::load_key(TEST_DATA_DIR_ECC "/nodompar_private.pkcs8.pem", rng));
      // anew in each test with unregistered domain-parameters
      ECDSA_PrivateKey* ecdsa_nodp = dynamic_cast<ECDSA_PrivateKey*>(loaded_key_nodp.get());
      CHECK_MESSAGE(ecdsa_nodp, "the loaded key could not be converted into an ECDSA_PrivateKey");

      PK_Signer signer(*ecdsa_nodp, "EMSA1(SHA-1)");
      PK_Verifier verifier(*ecdsa_nodp, "EMSA1(SHA-1)");

      std::vector<byte> signature_nodp = signer.sign_message(msg, rng);

      CHECK_MESSAGE(verifier.verify_message(msg, signature_nodp),
                    "generated signature could not be verified positively (no_dom)");

      try
         {
         std::unique_ptr<PKCS8_PrivateKey> loaded_key_withdp(
            PKCS8::load_key(TEST_DATA_DIR_ECC "/withdompar_private.pkcs8.pem", rng));

         std::cout << "Unexpected success: loaded key with unknown OID" << std::endl;
         ++fails;
         }
      catch (std::exception) { /* OK */ }
      }
   catch (std::exception& e)
      {
      std::cout << "Exception in test_read_pkcs8 - " << e.what() << std::endl;
      ++fails;
      }

   return fails;
   }

size_t test_ecc_key_with_rfc5915_extensions(RandomNumberGenerator& rng)
   {
   size_t fails = 0;

   try
      {
      std::unique_ptr<PKCS8_PrivateKey> pkcs8(
         PKCS8::load_key(TEST_DATA_DIR_ECC "/ecc_private_with_rfc5915_ext.pem", rng));

      if(!dynamic_cast<ECDSA_PrivateKey*>(pkcs8.get()))
         {
         std::cout << "Loaded RFC 5915 key, but got something other than an ECDSA key" << std::endl;
         ++fails;
         }
      }
   catch(std::exception& e)
      {
      std::cout << "Exception in " << BOTAN_CURRENT_FUNCTION << " - " << e.what() << std::endl;
      ++fails;
      }

   return fails;
   }

}

size_t test_ecdsa_unit()
   {
   size_t fails = 0;

   auto& rng = test_rng();

   fails += test_hash_larger_than_n(rng);
#if defined(BOTAN_HAS_X509_CERTIFICATES)
   fails += test_decode_ecdsa_X509();
   fails += test_decode_ver_link_SHA256();
   fails += test_decode_ver_link_SHA1();
#endif
   fails += test_sign_then_ver(rng);
   fails += test_ec_sign(rng);
   fails += test_create_pkcs8(rng);
   fails += test_create_and_verify(rng);
   fails += test_curve_registry(rng);
   fails += test_read_pkcs8(rng);
   fails += test_ecc_key_with_rfc5915_extensions(rng);

   test_report("ECDSA", 11, fails);

   return fails;
   }

#else

UNTESTED_WARNING(ecdsa_unit);

#endif // BOTAN_HAS_RSA

#else

SKIP_TEST(ecdsa_unit);

#endif // BOTAN_HAS_ECDSA