112 lines
3.5 KiB
C++
112 lines
3.5 KiB
C++
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// Copyright (c) 2012-2013 The Cryptonote developers
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// Distributed under the MIT/X11 software license, see the accompanying
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// file COPYING or http://www.opensource.org/licenses/mit-license.php.
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#include <algorithm>
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#include <cassert>
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#include <cstddef>
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#include <cstdint>
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#include <vector>
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#include "common/int-util.h"
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#include "crypto/hash.h"
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#include "cryptonote_config.h"
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#include "difficulty.h"
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namespace cryptonote {
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using std::size_t;
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using std::uint64_t;
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using std::vector;
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#if defined(_MSC_VER)
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#include <windows.h>
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#include <winnt.h>
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static inline void mul(uint64_t a, uint64_t b, uint64_t &low, uint64_t &high) {
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low = UnsignedMultiply128(a, b, &high);
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}
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#else
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static inline void mul(uint64_t a, uint64_t b, uint64_t &low, uint64_t &high) {
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typedef unsigned __int128 uint128_t;
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uint128_t res = (uint128_t) a * (uint128_t) b;
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low = (uint64_t) res;
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high = (uint64_t) (res >> 64);
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}
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#endif
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static inline bool cadd(uint64_t a, uint64_t b) {
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return a + b < a;
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}
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static inline bool cadc(uint64_t a, uint64_t b, bool c) {
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return a + b < a || (c && a + b == (uint64_t) -1);
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}
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bool check_hash(const crypto::hash &hash, difficulty_type difficulty) {
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uint64_t low, high, top, cur;
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// First check the highest word, this will most likely fail for a random hash.
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mul(swap64le(((const uint64_t *) &hash)[3]), difficulty, top, high);
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if (high != 0) {
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return false;
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}
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mul(swap64le(((const uint64_t *) &hash)[0]), difficulty, low, cur);
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mul(swap64le(((const uint64_t *) &hash)[1]), difficulty, low, high);
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bool carry = cadd(cur, low);
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cur = high;
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mul(swap64le(((const uint64_t *) &hash)[2]), difficulty, low, high);
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carry = cadc(cur, low, carry);
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carry = cadc(high, top, carry);
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return !carry;
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}
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difficulty_type next_difficulty(vector<uint64_t> timestamps, vector<difficulty_type> cumulative_difficulties, size_t target_seconds) {
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//cutoff DIFFICULTY_LAG
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if(timestamps.size() > DIFFICULTY_WINDOW)
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{
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timestamps.resize(DIFFICULTY_WINDOW);
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cumulative_difficulties.resize(DIFFICULTY_WINDOW);
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}
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size_t length = timestamps.size();
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assert(length == cumulative_difficulties.size());
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if (length <= 1) {
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return 1;
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}
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static_assert(DIFFICULTY_WINDOW >= 2, "Window is too small");
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assert(length <= DIFFICULTY_WINDOW);
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sort(timestamps.begin(), timestamps.end());
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size_t cut_begin, cut_end;
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static_assert(2 * DIFFICULTY_CUT <= DIFFICULTY_WINDOW - 2, "Cut length is too large");
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if (length <= DIFFICULTY_WINDOW - 2 * DIFFICULTY_CUT) {
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cut_begin = 0;
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cut_end = length;
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} else {
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cut_begin = (length - (DIFFICULTY_WINDOW - 2 * DIFFICULTY_CUT) + 1) / 2;
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cut_end = cut_begin + (DIFFICULTY_WINDOW - 2 * DIFFICULTY_CUT);
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}
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assert(/*cut_begin >= 0 &&*/ cut_begin + 2 <= cut_end && cut_end <= length);
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uint64_t time_span = timestamps[cut_end - 1] - timestamps[cut_begin];
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if (time_span == 0) {
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time_span = 1;
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}
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difficulty_type total_work = cumulative_difficulties[cut_end - 1] - cumulative_difficulties[cut_begin];
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assert(total_work > 0);
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uint64_t low, high;
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mul(total_work, target_seconds, low, high);
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if (high != 0 || low + time_span - 1 < low) {
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return 0;
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}
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return (low + time_span - 1) / time_span;
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}
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difficulty_type next_difficulty(vector<uint64_t> timestamps, vector<difficulty_type> cumulative_difficulties)
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{
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return next_difficulty(std::move(timestamps), std::move(cumulative_difficulties), DIFFICULTY_TARGET);
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}
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}
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