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/*
* (C) 2015 Jack Lloyd
*
* Botan is released under the Simplified BSD License (see license.txt)
*/

#include "tests.h"
#include <botan/version.h>

#if defined(BOTAN_HAS_FFI)
#include <botan/hex.h>
#include <botan/ffi.h>
#endif

namespace Botan_Tests {

namespace {

#if defined(BOTAN_HAS_FFI)

#define TEST_FFI_OK(func, args) result.test_rc_ok(#func, func args)
#define TEST_FFI_FAIL(msg, func, args) result.test_rc_fail(#func, msg, func args)

#define REQUIRE_FFI_OK(func, args)                           \
   if(!TEST_FFI_OK(func, args)) {                            \
      result.test_note("Exiting test early due to failure"); \
      return result;                                         \
   }

class FFI_Unit_Tests : public Test
   {
   public:
      std::vector<Test::Result> run() override
         {
         Test::Result result("FFI");

         result.test_is_eq("FFI API version", botan_ffi_api_version(), uint32_t(BOTAN_HAS_FFI));
         result.test_is_eq("Major version", botan_version_major(), Botan::version_major());
         result.test_is_eq("Minor version", botan_version_minor(), Botan::version_minor());
         result.test_is_eq("Patch version", botan_version_patch(), Botan::version_patch());

         const std::vector<uint8_t> bin = { 0xAA, 0xDE, 0x01 };
         const char* input_str = "ABC";

         std::string outstr;
         std::vector<uint8_t> outbuf;
         //char namebuf[32];

         outstr.resize(2*bin.size());
         TEST_FFI_OK(botan_hex_encode, (bin.data(), bin.size(), &outstr[0], 0));
         result.test_eq("uppercase hex", outstr, "AADE01");

         TEST_FFI_OK(botan_hex_encode, (bin.data(), bin.size(), &outstr[0], BOTAN_FFI_HEX_LOWER_CASE));
         result.test_eq("lowercase hex", outstr, "aade01");

         // RNG test and initialization
         botan_rng_t rng;

         TEST_FFI_FAIL("invalid rng type", botan_rng_init, (&rng, "invalid_type"));

         outbuf.resize(512);

         if(TEST_FFI_OK(botan_rng_init, (&rng, "system")))
            {
            TEST_FFI_OK(botan_rng_get, (rng, outbuf.data(), outbuf.size()));
            TEST_FFI_OK(botan_rng_reseed, (rng, 256));
            TEST_FFI_OK(botan_rng_destroy, (rng));
            }

         TEST_FFI_OK(botan_rng_init, (&rng, "user"));
         TEST_FFI_OK(botan_rng_get, (rng, outbuf.data(), outbuf.size()));
         TEST_FFI_OK(botan_rng_reseed, (rng, 256));
         // used for the rest of this function and destroyed at the end

         // hashing test
         botan_hash_t hash;
         TEST_FFI_FAIL("invalid hash name", botan_hash_init, (&hash, "SHA-255", 0));
         TEST_FFI_FAIL("invalid flags", botan_hash_init, (&hash, "SHA-256", 1));

         if(TEST_FFI_OK(botan_hash_init, (&hash, "SHA-256", 0)))
            {
            /*
            TEST_FFI_FAIL("output buffer too short", botan_hash_name, (hash, namebuf, 5));

            if(TEST_FFI_OK(botan_hash_name, (hash, namebuf, sizeof(namebuf))))
            {
            result.test_eq("hash name", std::string(namebuf), "SHA-256");
            }
            */

            size_t output_len;
            if(TEST_FFI_OK(botan_hash_output_length, (hash, &output_len)))
               {
               result.test_eq("hash output length", output_len, 32);

               outbuf.resize(output_len);

               // Test that after clear or final the object can be reused
               for(size_t r = 0; r != 2; ++r)
                  {
                  TEST_FFI_OK(botan_hash_update, (hash, reinterpret_cast<const uint8_t*>(input_str), 1));
                  TEST_FFI_OK(botan_hash_clear, (hash));

                  TEST_FFI_OK(botan_hash_update, (hash, reinterpret_cast<const uint8_t*>(input_str), std::strlen(input_str)));
                  TEST_FFI_OK(botan_hash_final, (hash, outbuf.data()));

                  result.test_eq("SHA-256 output", outbuf, "B5D4045C3F466FA91FE2CC6ABE79232A1A57CDF104F7A26E716E0A1E2789DF78");
                  }

               TEST_FFI_OK(botan_hash_destroy, (hash));
               }
            }

         // MAC test
         botan_mac_t mac;
         TEST_FFI_FAIL("bad flag", botan_mac_init, (&mac, "HMAC(SHA-256)", 1));
         TEST_FFI_FAIL("bad name", botan_mac_init, (&mac, "HMAC(SHA-259)", 0));

         if(TEST_FFI_OK(botan_mac_init, (&mac, "HMAC(SHA-256)", 0)))
            {
            /*
            TEST_FFI_FAIL("output buffer too short", botan_mac_name, (mac, namebuf, 5));

            if(TEST_FFI_OK(botan_mac_name, (mac, namebuf, 20)))
            {
            result.test_eq("mac name", std::string(namebuf), "HMAC(SHA-256)");
            }
            */

            size_t output_len;
            if(TEST_FFI_OK(botan_mac_output_length, (mac, &output_len)))
               {
               result.test_eq("MAC output length", output_len, 32);

               const byte mac_key[] = { 0xAA, 0xBB, 0xCC, 0xDD };
               TEST_FFI_OK(botan_mac_set_key, (mac, mac_key, sizeof(mac_key)));

               outbuf.resize(output_len);

               TEST_FFI_OK(botan_mac_update, (mac, reinterpret_cast<const uint8_t*>(input_str), std::strlen(input_str)));

               TEST_FFI_OK(botan_mac_final, (mac, outbuf.data()));

               result.test_eq("HMAC output", outbuf, "1A82EEA984BC4A7285617CC0D05F1FE1D6C96675924A81BC965EE8FF7B0697A7");

               TEST_FFI_OK(botan_mac_destroy, (mac));
               }
            }

         const std::vector<uint8_t> pbkdf_salt = Botan::hex_decode("ED1F39A0A7F3889AAF7E60743B3BC1CC2C738E60");
         const std::string passphrase = "ltexmfeyylmlbrsyikaw";
         const size_t pbkdf_out_len = 10;
         const size_t pbkdf_iterations = 1000;

         outbuf.resize(pbkdf_out_len);

         if(TEST_FFI_OK(botan_pbkdf, ("PBKDF2(SHA-1)",
                                      outbuf.data(), outbuf.size(),
                                      passphrase.c_str(),
                                      pbkdf_salt.data(), pbkdf_salt.size(),
                                      pbkdf_iterations)))
            {
            result.test_eq("PBKDF output", outbuf, "027AFADD48F4BE8DCC4F");
            }

         size_t iters_10ms, iters_100ms;

         TEST_FFI_OK(botan_pbkdf_timed, ("PBKDF2(SHA-1)", outbuf.data(), outbuf.size(),
                                         passphrase.c_str(),
                                         pbkdf_salt.data(), pbkdf_salt.size(),
                                         10, &iters_10ms));
         TEST_FFI_OK(botan_pbkdf_timed, ("PBKDF2(SHA-1)", outbuf.data(), outbuf.size(),
                                         passphrase.c_str(),
                                         pbkdf_salt.data(), pbkdf_salt.size(),
                                         100, &iters_100ms));

         result.test_note("PBKDF timed 10 ms " + std::to_string(iters_10ms) + " iterations " +
                          "100 ms " + std::to_string(iters_100ms) + " iterations");

         const std::vector<uint8_t> kdf_secret = Botan::hex_decode("92167440112E");
         const std::vector<uint8_t> kdf_salt = Botan::hex_decode("45A9BEDED69163123D0348F5185F61ABFB1BF18D6AEA454F");
         const size_t kdf_out_len = 18;
         outbuf.resize(kdf_out_len);

         if(TEST_FFI_OK(botan_kdf, ("KDF2(SHA-1)", outbuf.data(), outbuf.size(),
                                    kdf_secret.data(),
                                    kdf_secret.size(),
                                    kdf_salt.data(),
                                    kdf_salt.size())))
            {
            result.test_eq("KDF output", outbuf, "3A5DC9AA1C872B4744515AC2702D6396FC2A");
            }

         size_t out_len = 64;
         outstr.resize(out_len);

         int rc = botan_bcrypt_generate(reinterpret_cast<uint8_t*>(&outstr[0]),
                                        &out_len, passphrase.c_str(), rng, 3, 0);

         if(rc == 0)
            {
            result.test_eq("bcrypt output size", out_len, 61);

            TEST_FFI_OK(botan_bcrypt_is_valid, (passphrase.c_str(), outstr.data()));
            TEST_FFI_FAIL("bad password", botan_bcrypt_is_valid, ("nope", outstr.data()));
            }

         std::vector<Test::Result> results;
         results.push_back(ffi_test_rsa(rng));
         results.push_back(ffi_test_ecdsa(rng));

         TEST_FFI_OK(botan_rng_destroy, (rng));

         results.push_back(result);
         return results;
         }

   private:
      Test::Result ffi_test_rsa(botan_rng_t rng)
         {
         Test::Result result("FFI");

         botan_privkey_t priv;
         if(TEST_FFI_OK(botan_privkey_create_rsa, (&priv, rng, 1024)))
            {
            botan_pubkey_t pub;
            TEST_FFI_OK(botan_privkey_export_pubkey, (&pub, priv));

            char namebuf[32] = { 0 };
            size_t name_len = sizeof(namebuf);
            if(TEST_FFI_OK(botan_pubkey_algo_name, (pub, namebuf, &name_len)))
               {
               result.test_eq("algo name", std::string(namebuf), "RSA");
               }

            botan_pk_op_encrypt_t encrypt;

            if(TEST_FFI_OK(botan_pk_op_encrypt_create, (&encrypt, pub, "OAEP(SHA-256)", 0)))
               {
               std::vector<uint8_t> plaintext(32);
               TEST_FFI_OK(botan_rng_get, (rng, plaintext.data(), plaintext.size()));

               std::vector<uint8_t> ciphertext(256); // TODO: no way to know this size from API
               size_t ctext_len = ciphertext.size();

               if(TEST_FFI_OK(botan_pk_op_encrypt, (encrypt, rng,
                                                    ciphertext.data(), &ctext_len,
                                                    plaintext.data(), plaintext.size())))
                  {
                  ciphertext.resize(ctext_len);

                  TEST_FFI_OK(botan_pk_op_encrypt_destroy, (encrypt));

                  botan_pk_op_decrypt_t decrypt;
                  if(TEST_FFI_OK(botan_pk_op_decrypt_create, (&decrypt, priv, "OAEP(SHA-256)", 0)))
                     {
                     std::vector<uint8_t> decrypted(256); // TODO as with above
                     size_t decrypted_len = decrypted.size();
                     TEST_FFI_OK(botan_pk_op_decrypt, (decrypt, decrypted.data(), &decrypted_len,
                                                       ciphertext.data(), ciphertext.size()));
                     decrypted.resize(decrypted_len);

                     result.test_eq("RSA plaintext", decrypted, plaintext);

                     TEST_FFI_OK(botan_pk_op_decrypt_destroy, (decrypt));
                     }
                  }
               }

            TEST_FFI_OK(botan_pubkey_destroy, (pub));
            TEST_FFI_OK(botan_privkey_destroy, (priv));
            }

         return result;
         }

      Test::Result ffi_test_ecdsa(botan_rng_t rng)
         {
         Test::Result result("FFI");

         botan_privkey_t priv;

         if(TEST_FFI_OK(botan_privkey_create_ecdsa, (&priv, rng, "secp384r1")))
            {
            botan_pubkey_t pub;
            TEST_FFI_OK(botan_privkey_export_pubkey, (&pub, priv));

            char namebuf[32] = { 0 };
            size_t name_len = sizeof(namebuf);
            TEST_FFI_OK(botan_pubkey_algo_name, (pub, &namebuf[0], &name_len));

            result.test_eq(namebuf, namebuf, "ECDSA");

            std::vector<uint8_t> message(1280), signature;
            TEST_FFI_OK(botan_rng_get, (rng, message.data(), message.size()));

            botan_pk_op_sign_t signer;

            if(TEST_FFI_OK(botan_pk_op_sign_create, (&signer, priv, "EMSA1(SHA-384)", 0)))
               {
               // TODO: break input into multiple calls to update
               TEST_FFI_OK(botan_pk_op_sign_update, (signer, message.data(), message.size()));

               signature.resize(96); // TODO: no way to derive this from API
               size_t sig_len = signature.size();
               TEST_FFI_OK(botan_pk_op_sign_finish, (signer, rng, signature.data(), &sig_len));
               signature.resize(sig_len);

               TEST_FFI_OK(botan_pk_op_sign_destroy, (signer));
               }

            botan_pk_op_verify_t verifier;

            if(TEST_FFI_OK(botan_pk_op_verify_create, (&verifier, pub, "EMSA1(SHA-384)", 0)))
               {
               TEST_FFI_OK(botan_pk_op_verify_update, (verifier, message.data(), message.size()));
               TEST_FFI_OK(botan_pk_op_verify_finish, (verifier, signature.data(), signature.size()));

               // TODO: randomize this
               signature[0] ^= 1;
               TEST_FFI_OK(botan_pk_op_verify_update, (verifier, message.data(), message.size()));
               TEST_FFI_FAIL("bad signature", botan_pk_op_verify_finish, (verifier, signature.data(), signature.size()));

               message[0] ^= 1;
               TEST_FFI_OK(botan_pk_op_verify_update, (verifier, message.data(), message.size()));
               TEST_FFI_FAIL("bad signature", botan_pk_op_verify_finish, (verifier, signature.data(), signature.size()));

               signature[0] ^= 1;
               TEST_FFI_OK(botan_pk_op_verify_update, (verifier, message.data(), message.size()));
               TEST_FFI_FAIL("bad signature", botan_pk_op_verify_finish, (verifier, signature.data(), signature.size()));

               message[0] ^= 1;
               TEST_FFI_OK(botan_pk_op_verify_update, (verifier, message.data(), message.size()));
               TEST_FFI_OK(botan_pk_op_verify_finish, (verifier, signature.data(), signature.size()));

               TEST_FFI_OK(botan_pk_op_verify_destroy, (verifier));
               }

            TEST_FFI_OK(botan_pubkey_destroy, (pub));
            TEST_FFI_OK(botan_privkey_destroy, (priv));
            }

         return result;
         }

      Test::Result ffi_test_ecdh(botan_rng_t rng)
         {
         Test::Result result("FFI");

         botan_privkey_t priv1;
         REQUIRE_FFI_OK(botan_privkey_create_ecdh, (&priv1, rng, "secp256r1"));

         botan_privkey_t priv2;
         REQUIRE_FFI_OK(botan_privkey_create_ecdh, (&priv2, rng, "secp256r1"));

         botan_pubkey_t pub1;
         REQUIRE_FFI_OK(botan_privkey_export_pubkey, (&pub1, priv1));

         botan_pubkey_t pub2;
         REQUIRE_FFI_OK(botan_privkey_export_pubkey, (&pub2, priv2));

         botan_pk_op_ka_t ka1;
         REQUIRE_FFI_OK(botan_pk_op_key_agreement_create, (&ka1, priv1, "KDF2(SHA-256)", 0));
         botan_pk_op_ka_t ka2;
         REQUIRE_FFI_OK(botan_pk_op_key_agreement_create, (&ka2, priv2, "KDF2(SHA-256)", 0));

         std::vector<uint8_t> pubkey1(256); // length problem again
         size_t pubkey1_len = pubkey1.size();
         REQUIRE_FFI_OK(botan_pk_op_key_agreement_export_public, (priv1, pubkey1.data(), &pubkey1_len));
         pubkey1.resize(pubkey1_len);

         std::vector<uint8_t> pubkey2(256); // length problem again
         size_t pubkey2_len = pubkey2.size();
         REQUIRE_FFI_OK(botan_pk_op_key_agreement_export_public, (priv2, pubkey2.data(), &pubkey2_len));
         pubkey2.resize(pubkey2_len);

         std::vector<uint8_t> salt(32);
         TEST_FFI_OK(botan_rng_get, (rng, salt.data(), salt.size()));

         const size_t shared_key_len = 64;

         std::vector<uint8_t> key1(shared_key_len);
         size_t key1_len = key1.size();
         TEST_FFI_OK(botan_pk_op_key_agreement, (ka1, key1.data(), &key1_len,
                                                 pubkey2.data(), pubkey2.size(),
                                                 salt.data(), salt.size()));

         std::vector<uint8_t> key2(shared_key_len);
         size_t key2_len = key2.size();
         TEST_FFI_OK(botan_pk_op_key_agreement, (ka2, key2.data(), &key2_len,
                                                 pubkey1.data(), pubkey1.size(),
                                                 salt.data(), salt.size()));

         result.test_eq("shared ECDH key", key1, key2);

         return result;
         }
   };

BOTAN_REGISTER_TEST("ffi", FFI_Unit_Tests);

#endif

}

}