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386 lines
12 KiB
C++
386 lines
12 KiB
C++
// Copyright (c) 2011-2017 The Bitcoin Core developers
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// Distributed under the MIT software license, see the accompanying
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// file COPYING or http://www.opensource.org/licenses/mit-license.php.
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// Unit tests for denial-of-service detection/prevention code
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#include <chainparams.h>
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#include <keystore.h>
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#include <net.h>
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#include <net_processing.h>
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#include <pow.h>
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#include <script/sign.h>
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#include <serialize.h>
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#include <util.h>
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#include <validation.h>
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#include <test/test_bitcoin.h>
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#include <stdint.h>
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#include <boost/test/unit_test.hpp>
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// Tests these internal-to-net_processing.cpp methods:
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extern bool AddOrphanTx(const CTransactionRef& tx, NodeId peer);
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extern void EraseOrphansFor(NodeId peer);
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extern unsigned int LimitOrphanTxSize(unsigned int nMaxOrphans);
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struct COrphanTx {
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CTransactionRef tx;
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NodeId fromPeer;
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int64_t nTimeExpire;
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};
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extern std::map<uint256, COrphanTx> mapOrphanTransactions;
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CService ip(uint32_t i)
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{
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struct in_addr s;
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s.s_addr = i;
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return CService(CNetAddr(s), Params().GetDefaultPort());
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}
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static NodeId id = 0;
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void UpdateLastBlockAnnounceTime(NodeId node, int64_t time_in_seconds);
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BOOST_FIXTURE_TEST_SUITE(DoS_tests, TestingSetup)
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// Test eviction of an outbound peer whose chain never advances
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// Mock a node connection, and use mocktime to simulate a peer
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// which never sends any headers messages. PeerLogic should
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// decide to evict that outbound peer, after the appropriate timeouts.
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// Note that we protect 4 outbound nodes from being subject to
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// this logic; this test takes advantage of that protection only
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// being applied to nodes which send headers with sufficient
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// work.
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BOOST_AUTO_TEST_CASE(outbound_slow_chain_eviction)
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{
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std::atomic<bool> interruptDummy(false);
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// Mock an outbound peer
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CAddress addr1(ip(0xa0b0c001), NODE_NONE);
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CNode dummyNode1(id++, ServiceFlags(NODE_NETWORK|NODE_WITNESS), 0, INVALID_SOCKET, addr1, 0, 0, CAddress(), "", /*fInboundIn=*/ false);
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dummyNode1.SetSendVersion(PROTOCOL_VERSION);
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peerLogic->InitializeNode(&dummyNode1);
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dummyNode1.nVersion = 1;
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dummyNode1.fSuccessfullyConnected = true;
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// This test requires that we have a chain with non-zero work.
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LOCK(cs_main);
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BOOST_CHECK(chainActive.Tip() != nullptr);
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BOOST_CHECK(chainActive.Tip()->nChainWork > 0);
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// Test starts here
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LOCK(dummyNode1.cs_sendProcessing);
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peerLogic->SendMessages(&dummyNode1, interruptDummy); // should result in getheaders
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LOCK(dummyNode1.cs_vSend);
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BOOST_CHECK(dummyNode1.vSendMsg.size() > 0);
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dummyNode1.vSendMsg.clear();
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int64_t nStartTime = GetTime();
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// Wait 21 minutes
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SetMockTime(nStartTime+21*60);
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peerLogic->SendMessages(&dummyNode1, interruptDummy); // should result in getheaders
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BOOST_CHECK(dummyNode1.vSendMsg.size() > 0);
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// Wait 3 more minutes
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SetMockTime(nStartTime+24*60);
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peerLogic->SendMessages(&dummyNode1, interruptDummy); // should result in disconnect
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BOOST_CHECK(dummyNode1.fDisconnect == true);
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SetMockTime(0);
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bool dummy;
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peerLogic->FinalizeNode(dummyNode1.GetId(), dummy);
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}
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void AddRandomOutboundPeer(std::vector<CNode *> &vNodes, PeerLogicValidation &peerLogic)
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{
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CAddress addr(ip(GetRandInt(0xffffffff)), NODE_NONE);
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vNodes.emplace_back(new CNode(id++, ServiceFlags(NODE_NETWORK|NODE_WITNESS), 0, INVALID_SOCKET, addr, 0, 0, CAddress(), "", /*fInboundIn=*/ false));
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CNode &node = *vNodes.back();
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node.SetSendVersion(PROTOCOL_VERSION);
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peerLogic.InitializeNode(&node);
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node.nVersion = 1;
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node.fSuccessfullyConnected = true;
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CConnmanTest::AddNode(node);
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}
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BOOST_AUTO_TEST_CASE(stale_tip_peer_management)
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{
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const Consensus::Params& consensusParams = Params().GetConsensus();
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constexpr int nMaxOutbound = 8;
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CConnman::Options options;
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options.nMaxConnections = 125;
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options.nMaxOutbound = nMaxOutbound;
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options.nMaxFeeler = 1;
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connman->Init(options);
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std::vector<CNode *> vNodes;
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// Mock some outbound peers
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for (int i=0; i<nMaxOutbound; ++i) {
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AddRandomOutboundPeer(vNodes, *peerLogic);
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}
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peerLogic->CheckForStaleTipAndEvictPeers(consensusParams);
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// No nodes should be marked for disconnection while we have no extra peers
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for (const CNode *node : vNodes) {
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BOOST_CHECK(node->fDisconnect == false);
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}
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SetMockTime(GetTime() + 3*consensusParams.nPowTargetSpacing + 1);
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// Now tip should definitely be stale, and we should look for an extra
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// outbound peer
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peerLogic->CheckForStaleTipAndEvictPeers(consensusParams);
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BOOST_CHECK(connman->GetTryNewOutboundPeer());
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// Still no peers should be marked for disconnection
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for (const CNode *node : vNodes) {
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BOOST_CHECK(node->fDisconnect == false);
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}
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// If we add one more peer, something should get marked for eviction
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// on the next check (since we're mocking the time to be in the future, the
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// required time connected check should be satisfied).
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AddRandomOutboundPeer(vNodes, *peerLogic);
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peerLogic->CheckForStaleTipAndEvictPeers(consensusParams);
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for (int i=0; i<nMaxOutbound; ++i) {
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BOOST_CHECK(vNodes[i]->fDisconnect == false);
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}
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// Last added node should get marked for eviction
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BOOST_CHECK(vNodes.back()->fDisconnect == true);
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vNodes.back()->fDisconnect = false;
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// Update the last announced block time for the last
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// peer, and check that the next newest node gets evicted.
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UpdateLastBlockAnnounceTime(vNodes.back()->GetId(), GetTime());
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peerLogic->CheckForStaleTipAndEvictPeers(consensusParams);
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for (int i=0; i<nMaxOutbound-1; ++i) {
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BOOST_CHECK(vNodes[i]->fDisconnect == false);
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}
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BOOST_CHECK(vNodes[nMaxOutbound-1]->fDisconnect == true);
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BOOST_CHECK(vNodes.back()->fDisconnect == false);
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bool dummy;
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for (const CNode *node : vNodes) {
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peerLogic->FinalizeNode(node->GetId(), dummy);
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}
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CConnmanTest::ClearNodes();
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}
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BOOST_AUTO_TEST_CASE(DoS_banning)
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{
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std::atomic<bool> interruptDummy(false);
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connman->ClearBanned();
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CAddress addr1(ip(0xa0b0c001), NODE_NONE);
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CNode dummyNode1(id++, NODE_NETWORK, 0, INVALID_SOCKET, addr1, 0, 0, CAddress(), "", true);
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dummyNode1.SetSendVersion(PROTOCOL_VERSION);
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peerLogic->InitializeNode(&dummyNode1);
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dummyNode1.nVersion = 1;
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dummyNode1.fSuccessfullyConnected = true;
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{
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LOCK(cs_main);
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Misbehaving(dummyNode1.GetId(), 100); // Should get banned
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}
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LOCK(dummyNode1.cs_sendProcessing);
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peerLogic->SendMessages(&dummyNode1, interruptDummy);
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BOOST_CHECK(connman->IsBanned(addr1));
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BOOST_CHECK(!connman->IsBanned(ip(0xa0b0c001|0x0000ff00))); // Different IP, not banned
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CAddress addr2(ip(0xa0b0c002), NODE_NONE);
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CNode dummyNode2(id++, NODE_NETWORK, 0, INVALID_SOCKET, addr2, 1, 1, CAddress(), "", true);
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dummyNode2.SetSendVersion(PROTOCOL_VERSION);
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peerLogic->InitializeNode(&dummyNode2);
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dummyNode2.nVersion = 1;
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dummyNode2.fSuccessfullyConnected = true;
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{
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LOCK(cs_main);
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Misbehaving(dummyNode2.GetId(), 50);
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}
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LOCK(dummyNode2.cs_sendProcessing);
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peerLogic->SendMessages(&dummyNode2, interruptDummy);
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BOOST_CHECK(!connman->IsBanned(addr2)); // 2 not banned yet...
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BOOST_CHECK(connman->IsBanned(addr1)); // ... but 1 still should be
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{
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LOCK(cs_main);
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Misbehaving(dummyNode2.GetId(), 50);
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}
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peerLogic->SendMessages(&dummyNode2, interruptDummy);
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BOOST_CHECK(connman->IsBanned(addr2));
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bool dummy;
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peerLogic->FinalizeNode(dummyNode1.GetId(), dummy);
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peerLogic->FinalizeNode(dummyNode2.GetId(), dummy);
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}
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BOOST_AUTO_TEST_CASE(DoS_banscore)
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{
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std::atomic<bool> interruptDummy(false);
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connman->ClearBanned();
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gArgs.ForceSetArg("-banscore", "111"); // because 11 is my favorite number
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CAddress addr1(ip(0xa0b0c001), NODE_NONE);
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CNode dummyNode1(id++, NODE_NETWORK, 0, INVALID_SOCKET, addr1, 3, 1, CAddress(), "", true);
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dummyNode1.SetSendVersion(PROTOCOL_VERSION);
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peerLogic->InitializeNode(&dummyNode1);
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dummyNode1.nVersion = 1;
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dummyNode1.fSuccessfullyConnected = true;
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{
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LOCK(cs_main);
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Misbehaving(dummyNode1.GetId(), 100);
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}
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LOCK(dummyNode1.cs_sendProcessing);
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peerLogic->SendMessages(&dummyNode1, interruptDummy);
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BOOST_CHECK(!connman->IsBanned(addr1));
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{
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LOCK(cs_main);
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Misbehaving(dummyNode1.GetId(), 10);
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}
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peerLogic->SendMessages(&dummyNode1, interruptDummy);
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BOOST_CHECK(!connman->IsBanned(addr1));
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{
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LOCK(cs_main);
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Misbehaving(dummyNode1.GetId(), 1);
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}
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peerLogic->SendMessages(&dummyNode1, interruptDummy);
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BOOST_CHECK(connman->IsBanned(addr1));
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gArgs.ForceSetArg("-banscore", std::to_string(DEFAULT_BANSCORE_THRESHOLD));
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bool dummy;
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peerLogic->FinalizeNode(dummyNode1.GetId(), dummy);
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}
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BOOST_AUTO_TEST_CASE(DoS_bantime)
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{
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std::atomic<bool> interruptDummy(false);
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connman->ClearBanned();
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int64_t nStartTime = GetTime();
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SetMockTime(nStartTime); // Overrides future calls to GetTime()
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CAddress addr(ip(0xa0b0c001), NODE_NONE);
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CNode dummyNode(id++, NODE_NETWORK, 0, INVALID_SOCKET, addr, 4, 4, CAddress(), "", true);
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dummyNode.SetSendVersion(PROTOCOL_VERSION);
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peerLogic->InitializeNode(&dummyNode);
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dummyNode.nVersion = 1;
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dummyNode.fSuccessfullyConnected = true;
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{
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LOCK(cs_main);
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Misbehaving(dummyNode.GetId(), 100);
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}
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LOCK(dummyNode.cs_sendProcessing);
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peerLogic->SendMessages(&dummyNode, interruptDummy);
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BOOST_CHECK(connman->IsBanned(addr));
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SetMockTime(nStartTime+60*60);
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BOOST_CHECK(connman->IsBanned(addr));
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SetMockTime(nStartTime+60*60*24+1);
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BOOST_CHECK(!connman->IsBanned(addr));
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bool dummy;
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peerLogic->FinalizeNode(dummyNode.GetId(), dummy);
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}
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CTransactionRef RandomOrphan()
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{
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std::map<uint256, COrphanTx>::iterator it;
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LOCK(cs_main);
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it = mapOrphanTransactions.lower_bound(InsecureRand256());
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if (it == mapOrphanTransactions.end())
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it = mapOrphanTransactions.begin();
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return it->second.tx;
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}
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BOOST_AUTO_TEST_CASE(DoS_mapOrphans)
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{
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CKey key;
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key.MakeNewKey(true);
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CBasicKeyStore keystore;
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keystore.AddKey(key);
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// 50 orphan transactions:
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for (int i = 0; i < 50; i++)
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{
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CMutableTransaction tx;
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tx.vin.resize(1);
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tx.vin[0].prevout.n = 0;
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tx.vin[0].prevout.hash = InsecureRand256();
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tx.vin[0].scriptSig << OP_1;
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tx.vout.resize(1);
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tx.vout[0].nValue = 1*CENT;
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tx.vout[0].scriptPubKey = GetScriptForDestination(key.GetPubKey().GetID());
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AddOrphanTx(MakeTransactionRef(tx), i);
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}
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// ... and 50 that depend on other orphans:
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for (int i = 0; i < 50; i++)
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{
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CTransactionRef txPrev = RandomOrphan();
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CMutableTransaction tx;
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tx.vin.resize(1);
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tx.vin[0].prevout.n = 0;
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tx.vin[0].prevout.hash = txPrev->GetHash();
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tx.vout.resize(1);
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tx.vout[0].nValue = 1*CENT;
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tx.vout[0].scriptPubKey = GetScriptForDestination(key.GetPubKey().GetID());
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SignSignature(keystore, *txPrev, tx, 0, SIGHASH_ALL);
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AddOrphanTx(MakeTransactionRef(tx), i);
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}
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// This really-big orphan should be ignored:
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for (int i = 0; i < 10; i++)
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{
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CTransactionRef txPrev = RandomOrphan();
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CMutableTransaction tx;
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tx.vout.resize(1);
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tx.vout[0].nValue = 1*CENT;
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tx.vout[0].scriptPubKey = GetScriptForDestination(key.GetPubKey().GetID());
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tx.vin.resize(2777);
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for (unsigned int j = 0; j < tx.vin.size(); j++)
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{
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tx.vin[j].prevout.n = j;
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tx.vin[j].prevout.hash = txPrev->GetHash();
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}
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SignSignature(keystore, *txPrev, tx, 0, SIGHASH_ALL);
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// Re-use same signature for other inputs
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// (they don't have to be valid for this test)
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for (unsigned int j = 1; j < tx.vin.size(); j++)
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tx.vin[j].scriptSig = tx.vin[0].scriptSig;
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BOOST_CHECK(!AddOrphanTx(MakeTransactionRef(tx), i));
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}
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LOCK(cs_main);
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// Test EraseOrphansFor:
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for (NodeId i = 0; i < 3; i++)
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{
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size_t sizeBefore = mapOrphanTransactions.size();
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EraseOrphansFor(i);
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BOOST_CHECK(mapOrphanTransactions.size() < sizeBefore);
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}
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// Test LimitOrphanTxSize() function:
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LimitOrphanTxSize(40);
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BOOST_CHECK(mapOrphanTransactions.size() <= 40);
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LimitOrphanTxSize(10);
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BOOST_CHECK(mapOrphanTransactions.size() <= 10);
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LimitOrphanTxSize(0);
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BOOST_CHECK(mapOrphanTransactions.empty());
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}
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BOOST_AUTO_TEST_SUITE_END()
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