path: root/tests/unit_tests/block_reward.cpp



// Copyright (c) 2012-2013 The Cryptonote developers
// Distributed under the MIT/X11 software license, see the accompanying
// file COPYING or http://www.opensource.org/licenses/mit-license.php.

#include "gtest/gtest.h"

#include "cryptonote_core/cryptonote_basic_impl.h"

using namespace cryptonote;

namespace
{
  //--------------------------------------------------------------------------------------------------------------------
  class block_reward_and_already_generated_coins : public ::testing::Test
  {
  protected:
    static const size_t current_block_size = CRYPTONOTE_BLOCK_GRANTED_FULL_REWARD_ZONE / 2;

    std::vector<size_t> m_last_block_sizes;
    bool m_block_too_big;
    uint64_t m_block_reward;
  };

  #define TEST_ALREADY_GENERATED_COINS(already_generated_coins, expected_reward)                                         \
    m_block_reward = get_block_reward(m_last_block_sizes, current_block_size, m_block_too_big, already_generated_coins); \
    ASSERT_FALSE(m_block_too_big);                                                                                       \
    ASSERT_EQ(m_block_reward, UINT64_C(expected_reward));

  TEST_F(block_reward_and_already_generated_coins, handles_first_values)
  {
    TEST_ALREADY_GENERATED_COINS(0, 70368744177663);
    TEST_ALREADY_GENERATED_COINS(m_block_reward, 70368475742208);
    TEST_ALREADY_GENERATED_COINS(UINT64_C(2756434948434199641), 59853779316998);
  }

  TEST_F(block_reward_and_already_generated_coins, correctly_steps_from_2_to_1)
  {
    TEST_ALREADY_GENERATED_COINS(MONEY_SUPPLY - ((2 << 18) + 1), 2);
    TEST_ALREADY_GENERATED_COINS(MONEY_SUPPLY -  (2 << 18)     , 2);
    TEST_ALREADY_GENERATED_COINS(MONEY_SUPPLY - ((2 << 18) - 1), 1);
  }

  TEST_F(block_reward_and_already_generated_coins, handles_max)
  {
    TEST_ALREADY_GENERATED_COINS(MONEY_SUPPLY - ((1 << 18) + 1), 1);
    TEST_ALREADY_GENERATED_COINS(MONEY_SUPPLY -  (1 << 18)     , 1);
    TEST_ALREADY_GENERATED_COINS(MONEY_SUPPLY - ((1 << 18) - 1), 0);
  }

  //--------------------------------------------------------------------------------------------------------------------
  class block_reward_and_current_block_size : public ::testing::Test
  {
  protected:
    virtual void SetUp()
    {
      m_standard_block_reward = get_block_reward(m_last_block_sizes, 0, m_block_too_big, already_generated_coins);
      ASSERT_FALSE(m_block_too_big);
      ASSERT_LT(CRYPTONOTE_BLOCK_GRANTED_FULL_REWARD_ZONE, m_standard_block_reward);
    }

    void do_test(size_t current_block_size)
    {
      m_block_reward = get_block_reward(m_last_block_sizes, current_block_size, m_block_too_big, already_generated_coins);
    }

    static const uint64_t already_generated_coins = 0;

    std::vector<size_t> m_last_block_sizes;
    bool m_block_too_big;
    uint64_t m_block_reward;
    uint64_t m_standard_block_reward;
  };

  TEST_F(block_reward_and_current_block_size, handles_block_size_less_relevance_level)
  {
    do_test(CRYPTONOTE_BLOCK_GRANTED_FULL_REWARD_ZONE - 1);
    ASSERT_FALSE(m_block_too_big);
    ASSERT_EQ(m_block_reward, m_standard_block_reward);
  }

  TEST_F(block_reward_and_current_block_size, handles_block_size_eq_relevance_level)
  {
    do_test(CRYPTONOTE_BLOCK_GRANTED_FULL_REWARD_ZONE);
    ASSERT_FALSE(m_block_too_big);
    ASSERT_EQ(m_block_reward, m_standard_block_reward);
  }

  TEST_F(block_reward_and_current_block_size, handles_block_size_gt_relevance_level)
  {
    do_test(CRYPTONOTE_BLOCK_GRANTED_FULL_REWARD_ZONE + 1);
    ASSERT_FALSE(m_block_too_big);
    ASSERT_LT(m_block_reward, m_standard_block_reward);
  }

  TEST_F(block_reward_and_current_block_size, handles_block_size_less_2_relevance_level)
  {
    do_test(2 * CRYPTONOTE_BLOCK_GRANTED_FULL_REWARD_ZONE - 1);
    ASSERT_FALSE(m_block_too_big);
    ASSERT_LT(m_block_reward, m_standard_block_reward);
    ASSERT_LT(0, m_block_reward);
  }

  TEST_F(block_reward_and_current_block_size, handles_block_size_eq_2_relevance_level)
  {
    do_test(2 * CRYPTONOTE_BLOCK_GRANTED_FULL_REWARD_ZONE);
    ASSERT_FALSE(m_block_too_big);
    ASSERT_EQ(0, m_block_reward);
  }

  TEST_F(block_reward_and_current_block_size, handles_block_size_gt_2_relevance_level)
  {
    do_test(2 * CRYPTONOTE_BLOCK_GRANTED_FULL_REWARD_ZONE + 1);
    ASSERT_TRUE(m_block_too_big);
  }

  TEST_F(block_reward_and_current_block_size, fails_on_huge_median_size)
  {
#if !defined(NDEBUG)
    size_t huge_size = std::numeric_limits<uint32_t>::max() + UINT64_C(2);
    m_last_block_sizes.push_back(huge_size);
    ASSERT_DEATH(do_test(huge_size + 1), "");
#endif
  }

  TEST_F(block_reward_and_current_block_size, fails_on_huge_block_size)
  {
#if !defined(NDEBUG)
    size_t huge_size = std::numeric_limits<uint32_t>::max() + UINT64_C(2);
    m_last_block_sizes.push_back(huge_size - 2);
    ASSERT_DEATH(do_test(huge_size), "");
#endif
  }

  //--------------------------------------------------------------------------------------------------------------------
  class block_reward_and_last_block_sizes : public ::testing::Test
  {
  protected:
    virtual void SetUp()
    {
      m_last_block_sizes.push_back(3  * CRYPTONOTE_BLOCK_GRANTED_FULL_REWARD_ZONE);
      m_last_block_sizes.push_back(5  * CRYPTONOTE_BLOCK_GRANTED_FULL_REWARD_ZONE);
      m_last_block_sizes.push_back(7  * CRYPTONOTE_BLOCK_GRANTED_FULL_REWARD_ZONE);
      m_last_block_sizes.push_back(11 * CRYPTONOTE_BLOCK_GRANTED_FULL_REWARD_ZONE);
      m_last_block_sizes.push_back(13 * CRYPTONOTE_BLOCK_GRANTED_FULL_REWARD_ZONE);

      m_last_block_sizes_median = 7 * CRYPTONOTE_BLOCK_GRANTED_FULL_REWARD_ZONE;

      m_standard_block_reward = get_block_reward(m_last_block_sizes, 0, m_block_too_big, already_generated_coins);
      ASSERT_FALSE(m_block_too_big);
      ASSERT_LT(CRYPTONOTE_BLOCK_GRANTED_FULL_REWARD_ZONE, m_standard_block_reward);
    }

    void do_test(size_t current_block_size)
    {
      m_block_reward = get_block_reward(m_last_block_sizes, current_block_size, m_block_too_big, already_generated_coins);
    }

    static const uint64_t already_generated_coins = 0;

    std::vector<size_t> m_last_block_sizes;
    uint64_t m_last_block_sizes_median;
    bool m_block_too_big;
    uint64_t m_block_reward;
    uint64_t m_standard_block_reward;
  };

  TEST_F(block_reward_and_last_block_sizes, handles_block_size_less_median)
  {
    do_test(m_last_block_sizes_median - 1);
    ASSERT_FALSE(m_block_too_big);
    ASSERT_EQ(m_block_reward, m_standard_block_reward);
  }

  TEST_F(block_reward_and_last_block_sizes, handles_block_size_eq_median)
  {
    do_test(m_last_block_sizes_median);
    ASSERT_FALSE(m_block_too_big);
    ASSERT_EQ(m_block_reward, m_standard_block_reward);
  }

  TEST_F(block_reward_and_last_block_sizes, handles_block_size_gt_median)
  {
    do_test(m_last_block_sizes_median + 1);
    ASSERT_FALSE(m_block_too_big);
    ASSERT_LT(m_block_reward, m_standard_block_reward);
  }

  TEST_F(block_reward_and_last_block_sizes, handles_block_size_less_2_medians)
  {
    do_test(2 * m_last_block_sizes_median - 1);
    ASSERT_FALSE(m_block_too_big);
    ASSERT_LT(m_block_reward, m_standard_block_reward);
    ASSERT_LT(0, m_block_reward);
  }

  TEST_F(block_reward_and_last_block_sizes, handles_block_size_eq_2_medians)
  {
    do_test(2 * m_last_block_sizes_median);
    ASSERT_FALSE(m_block_too_big);
    ASSERT_EQ(0, m_block_reward);
  }

  TEST_F(block_reward_and_last_block_sizes, handles_block_size_gt_2_medians)
  {
    do_test(2 * m_last_block_sizes_median + 1);
    ASSERT_TRUE(m_block_too_big);
  }

  TEST_F(block_reward_and_last_block_sizes, calculates_correctly)
  {
    ASSERT_EQ(0, m_last_block_sizes_median % 8);

    do_test(m_last_block_sizes_median * 9 / 8);
    ASSERT_FALSE(m_block_too_big);
    ASSERT_EQ(m_block_reward, m_standard_block_reward * 63 / 64);

    // 3/2 = 12/8
    do_test(m_last_block_sizes_median * 3 / 2);
    ASSERT_FALSE(m_block_too_big);
    ASSERT_EQ(m_block_reward, m_standard_block_reward * 3 / 4);

    do_test(m_last_block_sizes_median * 15 / 8);
    ASSERT_FALSE(m_block_too_big);
    ASSERT_EQ(m_block_reward, m_standard_block_reward * 15 / 64);
  }
}
// Copyright (c) 2012-2013 The Cryptonote developers
// Distributed under the MIT/X11 software license, see the accompanying
// file COPYING or http://www.opensource.org/licenses/mit-license.php.

#include "gtest/gtest.h"

#include "cryptonote_core/cryptonote_basic_impl.h"

using namespace cryptonote;

namespace
{
  //--------------------------------------------------------------------------------------------------------------------
  class block_reward_and_already_generated_coins : public ::testing::Test
  {
  protected:
    static const size_t current_block_size = CRYPTONOTE_BLOCK_GRANTED_FULL_REWARD_ZONE / 2;

    std::vector<size_t> m_last_block_sizes;
    bool m_block_too_big;
    uint64_t m_block_reward;
  };

  #define TEST_ALREADY_GENERATED_COINS(already_generated_coins, expected_reward)                                         \
    m_block_reward = get_block_reward(m_last_block_sizes, current_block_size, m_block_too_big, already_generated_coins); \
    ASSERT_FALSE(m_block_too_big);                                                                                       \
    ASSERT_EQ(m_block_reward, UINT64_C(expected_reward));

  TEST_F(block_reward_and_already_generated_coins, handles_first_values)
  {
    TEST_ALREADY_GENERATED_COINS(0, 70368744177663);
    TEST_ALREADY_GENERATED_COINS(m_block_reward, 70368475742208);
    TEST_ALREADY_GENERATED_COINS(UINT64_C(2756434948434199641), 59853779316998);
  }

  TEST_F(block_reward_and_already_generated_coins, correctly_steps_from_2_to_1)
  {
    TEST_ALREADY_GENERATED_COINS(MONEY_SUPPLY - ((2 << 18) + 1), 2);
    TEST_ALREADY_GENERATED_COINS(MONEY_SUPPLY -  (2 << 18)     , 2);
    TEST_ALREADY_GENERATED_COINS(MONEY_SUPPLY - ((2 << 18) - 1), 1);
  }

  TEST_F(block_reward_and_already_generated_coins, handles_max)
  {
    TEST_ALREADY_GENERATED_COINS(MONEY_SUPPLY - ((1 << 18) + 1), 1);
    TEST_ALREADY_GENERATED_COINS(MONEY_SUPPLY -  (1 << 18)     , 1);
    TEST_ALREADY_GENERATED_COINS(MONEY_SUPPLY - ((1 << 18) - 1), 0);
  }

  //--------------------------------------------------------------------------------------------------------------------
  class block_reward_and_current_block_size : public ::testing::Test
  {
  protected:
    virtual void SetUp()
    {
      m_standard_block_reward = get_block_reward(m_last_block_sizes, 0, m_block_too_big, already_generated_coins);
      ASSERT_FALSE(m_block_too_big);
      ASSERT_LT(CRYPTONOTE_BLOCK_GRANTED_FULL_REWARD_ZONE, m_standard_block_reward);
    }

    void do_test(size_t current_block_size)
    {
      m_block_reward = get_block_reward(m_last_block_sizes, current_block_size, m_block_too_big, already_generated_coins);
    }

    static const uint64_t already_generated_coins = 0;

    std::vector<size_t> m_last_block_sizes;
    bool m_block_too_big;
    uint64_t m_block_reward;
    uint64_t m_standard_block_reward;
  };

  TEST_F(block_reward_and_current_block_size, handles_block_size_less_relevance_level)
  {
    do_test(CRYPTONOTE_BLOCK_GRANTED_FULL_REWARD_ZONE - 1);
    ASSERT_FALSE(m_block_too_big);
    ASSERT_EQ(m_block_reward, m_standard_block_reward);
  }

  TEST_F(block_reward_and_current_block_size, handles_block_size_eq_relevance_level)
  {
    do_test(CRYPTONOTE_BLOCK_GRANTED_FULL_REWARD_ZONE);
    ASSERT_FALSE(m_block_too_big);
    ASSERT_EQ(m_block_reward, m_standard_block_reward);
  }

  TEST_F(block_reward_and_current_block_size, handles_block_size_gt_relevance_level)
  {
    do_test(CRYPTONOTE_BLOCK_GRANTED_FULL_REWARD_ZONE + 1);
    ASSERT_FALSE(m_block_too_big);
    ASSERT_LT(m_block_reward, m_standard_block_reward);
  }

  TEST_F(block_reward_and_current_block_size, handles_block_size_less_2_relevance_level)
  {
    do_test(2 * CRYPTONOTE_BLOCK_GRANTED_FULL_REWARD_ZONE - 1);
    ASSERT_FALSE(m_block_too_big);
    ASSERT_LT(m_block_reward, m_standard_block_reward);
    ASSERT_LT(0, m_block_reward);
  }

  TEST_F(block_reward_and_current_block_size, handles_block_size_eq_2_relevance_level)
  {
    do_test(2 * CRYPTONOTE_BLOCK_GRANTED_FULL_REWARD_ZONE);
    ASSERT_FALSE(m_block_too_big);
    ASSERT_EQ(0, m_block_reward);
  }

  TEST_F(block_reward_and_current_block_size, handles_block_size_gt_2_relevance_level)
  {
    do_test(2 * CRYPTONOTE_BLOCK_GRANTED_FULL_REWARD_ZONE + 1);
    ASSERT_TRUE(m_block_too_big);
  }

  TEST_F(block_reward_and_current_block_size, fails_on_huge_median_size)
  {
#if !defined(NDEBUG)
    size_t huge_size = std::numeric_limits<uint32_t>::max() + UINT64_C(2);
    m_last_block_sizes.push_back(huge_size);
    ASSERT_DEATH(do_test(huge_size + 1), "");
#endif
  }

  TEST_F(block_reward_and_current_block_size, fails_on_huge_block_size)
  {
#if !defined(NDEBUG)
    size_t huge_size = std::numeric_limits<uint32_t>::max() + UINT64_C(2);
    m_last_block_sizes.push_back(huge_size - 2);
    ASSERT_DEATH(do_test(huge_size), "");
#endif
  }

  //--------------------------------------------------------------------------------------------------------------------
  class block_reward_and_last_block_sizes : public ::testing::Test
  {
  protected:
    virtual void SetUp()
    {
      m_last_block_sizes.push_back(3  * CRYPTONOTE_BLOCK_GRANTED_FULL_REWARD_ZONE);
      m_last_block_sizes.push_back(5  * CRYPTONOTE_BLOCK_GRANTED_FULL_REWARD_ZONE);
      m_last_block_sizes.push_back(7  * CRYPTONOTE_BLOCK_GRANTED_FULL_REWARD_ZONE);
      m_last_block_sizes.push_back(11 * CRYPTONOTE_BLOCK_GRANTED_FULL_REWARD_ZONE);
      m_last_block_sizes.push_back(13 * CRYPTONOTE_BLOCK_GRANTED_FULL_REWARD_ZONE);

      m_last_block_sizes_median = 7 * CRYPTONOTE_BLOCK_GRANTED_FULL_REWARD_ZONE;

      m_standard_block_reward = get_block_reward(m_last_block_sizes, 0, m_block_too_big, already_generated_coins);
      ASSERT_FALSE(m_block_too_big);
      ASSERT_LT(CRYPTONOTE_BLOCK_GRANTED_FULL_REWARD_ZONE, m_standard_block_reward);
    }

    void do_test(size_t current_block_size)
    {
      m_block_reward = get_block_reward(m_last_block_sizes, current_block_size, m_block_too_big, already_generated_coins);
    }

    static const uint64_t already_generated_coins = 0;

    std::vector<size_t> m_last_block_sizes;
    uint64_t m_last_block_sizes_median;
    bool m_block_too_big;
    uint64_t m_block_reward;
    uint64_t m_standard_block_reward;
  };

  TEST_F(block_reward_and_last_block_sizes, handles_block_size_less_median)
  {
    do_test(m_last_block_sizes_median - 1);
    ASSERT_FALSE(m_block_too_big);
    ASSERT_EQ(m_block_reward, m_standard_block_reward);
  }

  TEST_F(block_reward_and_last_block_sizes, handles_block_size_eq_median)
  {
    do_test(m_last_block_sizes_median);
    ASSERT_FALSE(m_block_too_big);
    ASSERT_EQ(m_block_reward, m_standard_block_reward);
  }

  TEST_F(block_reward_and_last_block_sizes, handles_block_size_gt_median)
  {
    do_test(m_last_block_sizes_median + 1);
    ASSERT_FALSE(m_block_too_big);
    ASSERT_LT(m_block_reward, m_standard_block_reward);
  }

  TEST_F(block_reward_and_last_block_sizes, handles_block_size_less_2_medians)
  {
    do_test(2 * m_last_block_sizes_median - 1);
    ASSERT_FALSE(m_block_too_big);
    ASSERT_LT(m_block_reward, m_standard_block_reward);
    ASSERT_LT(0, m_block_reward);
  }

  TEST_F(block_reward_and_last_block_sizes, handles_block_size_eq_2_medians)
  {
    do_test(2 * m_last_block_sizes_median);
    ASSERT_FALSE(m_block_too_big);
    ASSERT_EQ(0, m_block_reward);
  }

  TEST_F(block_reward_and_last_block_sizes, handles_block_size_gt_2_medians)
  {
    do_test(2 * m_last_block_sizes_median + 1);
    ASSERT_TRUE(m_block_too_big);
  }

  TEST_F(block_reward_and_last_block_sizes, calculates_correctly)
  {
    ASSERT_EQ(0, m_last_block_sizes_median % 8);

    do_test(m_last_block_sizes_median * 9 / 8);
    ASSERT_FALSE(m_block_too_big);
    ASSERT_EQ(m_block_reward, m_standard_block_reward * 63 / 64);

    // 3/2 = 12/8
    do_test(m_last_block_sizes_median * 3 / 2);
    ASSERT_FALSE(m_block_too_big);
    ASSERT_EQ(m_block_reward, m_standard_block_reward * 3 / 4);

    do_test(m_last_block_sizes_median * 15 / 8);
    ASSERT_FALSE(m_block_too_big);
    ASSERT_EQ(m_block_reward, m_standard_block_reward * 15 / 64);
  }
}