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// Copyright (c) 2025 The Dash Core developers
// Distributed under the MIT/X11 software license, see the accompanying
// file COPYING or http://www.opensource.org/licenses/mit-license.php.
#include <test/util/setup_common.h>
#include <active/masternode.h>
#include <bls/bls.h>
#include <coinjoin/coinjoin.h>
#include <coinjoin/common.h>
#include <consensus/amount.h>
#include <uint256.h>
#include <climits>
#include <cstdint>
#include <boost/test/unit_test.hpp>
BOOST_FIXTURE_TEST_SUITE(coinjoin_queue_tests, TestingSetup)
static CBLSSecretKey MakeSecretKey()
{
// Generate a dummy operator key pair for signing
CBLSSecretKey sk;
sk.MakeNewKey();
return sk;
}
BOOST_AUTO_TEST_CASE(queue_sign_and_verify)
{
// Build active MN manager with operator key using node context wiring
CActiveMasternodeManager mn_activeman(*Assert(m_node.connman), *Assert(m_node.dmnman), MakeSecretKey());
CCoinJoinQueue q;
q.nDenom = CoinJoin::AmountToDenomination(CoinJoin::GetSmallestDenomination());
q.masternodeOutpoint = COutPoint(uint256S("aa"), 1);
q.m_protxHash = uint256::ONE;
q.nTime = GetAdjustedTime();
q.fReady = false;
// Sign and verify with corresponding pubkey
q.vchSig = mn_activeman.SignBasic(q.GetSignatureHash());
const CBLSPublicKey pub = mn_activeman.GetPubKey();
BOOST_CHECK(q.CheckSignature(pub));
}
BOOST_AUTO_TEST_CASE(queue_hashes_and_equality)
{
CCoinJoinQueue a, b;
a.nDenom = b.nDenom = CoinJoin::AmountToDenomination(CoinJoin::GetSmallestDenomination());
a.masternodeOutpoint = b.masternodeOutpoint = COutPoint(uint256S("bb"), 2);
a.m_protxHash = b.m_protxHash = uint256::ONE;
a.nTime = b.nTime = GetAdjustedTime();
a.fReady = b.fReady = true;
BOOST_CHECK(a == b);
BOOST_CHECK(a.GetHash() == b.GetHash());
BOOST_CHECK(a.GetSignatureHash() == b.GetSignatureHash());
}
BOOST_AUTO_TEST_CASE(queue_denomination_validation)
{
// Test that valid denominations pass
int validDenom = CoinJoin::AmountToDenomination(CoinJoin::GetSmallestDenomination());
BOOST_CHECK(CoinJoin::IsValidDenomination(validDenom));
// Test that invalid denominations fail
BOOST_CHECK(!CoinJoin::IsValidDenomination(0)); // Zero
BOOST_CHECK(!CoinJoin::IsValidDenomination(-1)); // Negative
BOOST_CHECK(!CoinJoin::IsValidDenomination(999)); // Invalid value
}
BOOST_AUTO_TEST_CASE(queue_timestamp_validation)
{
CCoinJoinQueue q;
q.nDenom = CoinJoin::AmountToDenomination(CoinJoin::GetSmallestDenomination());
q.masternodeOutpoint = COutPoint(uint256S("cc"), 3);
q.m_protxHash = uint256::ONE;
int64_t current_time = GetAdjustedTime();
// Test valid timestamp (current time)
q.nTime = current_time;
BOOST_CHECK(!q.IsTimeOutOfBounds(current_time));
// Test timestamp slightly in future (within COINJOIN_QUEUE_TIMEOUT = 30)
q.nTime = current_time + 15; // 15 seconds in future
BOOST_CHECK(!q.IsTimeOutOfBounds(current_time));
// Test timestamp slightly in past (within COINJOIN_QUEUE_TIMEOUT = 30)
q.nTime = current_time - 15; // 15 seconds ago
BOOST_CHECK(!q.IsTimeOutOfBounds(current_time));
// Test timestamp too far in future (outside COINJOIN_QUEUE_TIMEOUT = 30)
q.nTime = current_time + 60; // 60 seconds in future
BOOST_CHECK(q.IsTimeOutOfBounds(current_time));
// Test timestamp too far in past (outside COINJOIN_QUEUE_TIMEOUT = 30)
q.nTime = current_time - 60; // 60 seconds ago
BOOST_CHECK(q.IsTimeOutOfBounds(current_time));
}
BOOST_AUTO_TEST_CASE(queue_timestamp_extreme_values)
{
CCoinJoinQueue q;
q.nDenom = CoinJoin::AmountToDenomination(CoinJoin::GetSmallestDenomination());
q.m_protxHash = uint256::ONE;
// Negative timestamps are rejected by the guard
q.nTime = INT64_MIN;
BOOST_CHECK(q.IsTimeOutOfBounds(INT64_MAX));
q.nTime = INT64_MAX;
BOOST_CHECK(q.IsTimeOutOfBounds(INT64_MIN));
q.nTime = INT64_MIN;
BOOST_CHECK(q.IsTimeOutOfBounds(INT64_MIN));
// Large positive timestamp with same value: zero diff, in bounds
q.nTime = INT64_MAX;
BOOST_CHECK(!q.IsTimeOutOfBounds(INT64_MAX));
// Zero vs extreme positive: huge gap, out of bounds
q.nTime = 0;
BOOST_CHECK(q.IsTimeOutOfBounds(INT64_MAX));
// Zero vs negative: rejected by guard
q.nTime = 0;
BOOST_CHECK(q.IsTimeOutOfBounds(INT64_MIN));
}
static_assert(CoinJoin::CalculateAmountPriority(MAX_MONEY) == -(MAX_MONEY / COIN));
static_assert(CoinJoin::CalculateAmountPriority(static_cast<CAmount>(INT64_MAX)) == 0);
static_assert(CoinJoin::CalculateAmountPriority(static_cast<CAmount>(-1)) == 0);
BOOST_AUTO_TEST_CASE(calculate_amount_priority_guard)
{
// Realistic amount: MAX_MONEY (21 million DASH)
BOOST_CHECK_EQUAL(CoinJoin::CalculateAmountPriority(MAX_MONEY), -(MAX_MONEY / COIN));
// Out-of-range amounts return 0
BOOST_CHECK_EQUAL(CoinJoin::CalculateAmountPriority(static_cast<CAmount>(INT64_MAX)), 0);
BOOST_CHECK_EQUAL(CoinJoin::CalculateAmountPriority(static_cast<CAmount>(-1)), 0);
BOOST_CHECK_EQUAL(CoinJoin::CalculateAmountPriority(MAX_MONEY + 1), 0);
}
static CCoinJoinQueue MakeQueue(int denom, int64_t nTime, bool fReady, const COutPoint& outpoint)
{
CCoinJoinQueue q;
q.nDenom = denom;
q.masternodeOutpoint = outpoint;
q.m_protxHash = uint256::ONE;
q.nTime = nTime;
q.fReady = fReady;
return q;
}
BOOST_AUTO_TEST_CASE(queuemanager_checkqueue_removes_timeouts)
{
CoinJoinQueueManager man;
const int denom = CoinJoin::AmountToDenomination(CoinJoin::GetSmallestDenomination());
const int64_t now = GetAdjustedTime();
// Non-expired
man.AddQueue(MakeQueue(denom, now, false, COutPoint(uint256S("11"), 0)));
// Expired (too old)
man.AddQueue(MakeQueue(denom, now - COINJOIN_QUEUE_TIMEOUT - 1, false, COutPoint(uint256S("12"), 0)));
BOOST_CHECK_EQUAL(man.GetQueueSize(), 2);
man.CheckQueue();
// One should be removed
BOOST_CHECK_EQUAL(man.GetQueueSize(), 1);
}
BOOST_AUTO_TEST_CASE(queuemanager_getqueueitem_marks_tried_once)
{
CoinJoinQueueManager man;
const int denom = CoinJoin::AmountToDenomination(CoinJoin::GetSmallestDenomination());
const int64_t now = GetAdjustedTime();
CCoinJoinQueue dsq = MakeQueue(denom, now, false, COutPoint(uint256S("21"), 0));
man.AddQueue(dsq);
CCoinJoinQueue picked;
// First retrieval should succeed
BOOST_CHECK(man.GetQueueItemAndTry(picked));
// No other items left to try (picked is marked tried inside)
CCoinJoinQueue picked2;
BOOST_CHECK(!man.GetQueueItemAndTry(picked2));
}
BOOST_AUTO_TEST_CASE(queuemanager_has_queue_from_masternode_readiness)
{
CoinJoinQueueManager man;
const int denom = CoinJoin::AmountToDenomination(CoinJoin::GetSmallestDenomination());
const int64_t now = GetAdjustedTime();
const COutPoint mn(uint256S("31"), 0);
// Single queue from `mn` with fReady=false.
man.AddQueue(MakeQueue(denom, now, /*fReady=*/false, mn));
// Readiness-aware lookup honors fReady.
BOOST_CHECK(man.HasQueueFromMasternode(mn, /*fReady=*/false));
BOOST_CHECK(!man.HasQueueFromMasternode(mn, /*fReady=*/true));
// Unrelated masternode is never matched.
const COutPoint other(uint256S("32"), 0);
BOOST_CHECK(!man.HasQueueFromMasternode(other, /*fReady=*/false));
BOOST_CHECK(!man.HasQueueFromMasternode(other, /*fReady=*/true));
// TRY variant ignores readiness, finds by outpoint only.
auto try_present = man.TryHasQueueFromMasternode(mn);
BOOST_REQUIRE(try_present.has_value());
BOOST_CHECK(*try_present);
auto try_absent = man.TryHasQueueFromMasternode(other);
BOOST_REQUIRE(try_absent.has_value());
BOOST_CHECK(!*try_absent);
}
BOOST_AUTO_TEST_CASE(queuemanager_try_check_duplicate)
{
CoinJoinQueueManager man;
const int denom = CoinJoin::AmountToDenomination(CoinJoin::GetSmallestDenomination());
const int64_t now = GetAdjustedTime();
const COutPoint mn(uint256S("41"), 0);
const COutPoint other_mn(uint256S("42"), 0);
const auto seed = MakeQueue(denom, now, /*fReady=*/false, mn);
man.AddQueue(seed);
auto is_dup = [&](const CCoinJoinQueue& q) {
auto r = man.TryCheckDuplicate(q);
BOOST_REQUIRE(r.has_value());
return *r;
};
// Exact duplicate.
BOOST_CHECK(is_dup(seed));
// Same masternode + same readiness, different nTime: the "too many dsqs" guard still flags it.
BOOST_CHECK(is_dup(MakeQueue(denom, now + 1, /*fReady=*/false, mn)));
// Same masternode but different readiness: allowed.
BOOST_CHECK(!is_dup(MakeQueue(denom, now, /*fReady=*/true, mn)));
// Different masternode: allowed.
BOOST_CHECK(!is_dup(MakeQueue(denom, now, /*fReady=*/false, other_mn)));
}
BOOST_AUTO_TEST_SUITE_END()