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dash/src/test/net_tests.cpp
MarcoFalke afe42bd422 Merge #14287: tests: Use MakeUnique to construct objects owned by unique_ptrs 
b6718e373e tests: Use MakeUnique to construct objects owned by unique_ptrs (practicalswift)

Pull request description:

  A subset of #14211 ("Use MakeUnique to construct objects owned by unique_ptrs") as suggested by @MarcoFalke in https://github.com/bitcoin/bitcoin/pull/14211#issuecomment-423324019.

  Use `MakeUnique` to construct objects owned by `unique_ptr`s.

  Rationale:
  * `MakeUnique` ensures exception safety in complex expressions.
  * `MakeUnique` gives a more concise statement of the construction.

Tree-SHA512: 1228ae6ce7beb178d79142c4e936b728178ccaa8aa35c6d8feeb33d1a667abfdd010c59996a9d833594611e913877ce5794e75953d11d9b1fdbac04aa491d9cf
2021-06-28 21:05:29 -04:00

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// Copyright (c) 2012-2016 The Bitcoin Core developers
// Distributed under the MIT software license, see the accompanying
// file COPYING or http://www.opensource.org/licenses/mit-license.php.
#include <addrman.h>
#include <test/test_dash.h>
#include <string>
#include <boost/test/unit_test.hpp>
#include <hash.h>
#include <serialize.h>
#include <span.h>
#include <streams.h>
#include <net.h>
#include <netbase.h>
#include <chainparams.h>
#include <util/system.h>
#include <util/strencodings.h>
#include <version.h>
#include <ios>
#include <memory>
class CAddrManSerializationMock : public CAddrMan
{
public:
virtual void Serialize(CDataStream& s) const = 0;
//! Ensure that bucket placement is always the same for testing purposes.
void MakeDeterministic()
{
nKey.SetNull();
insecure_rand = FastRandomContext(true);
}
};
class CAddrManUncorrupted : public CAddrManSerializationMock
{
public:
void Serialize(CDataStream& s) const override
{
CAddrMan::Serialize(s);
}
};
class CAddrManCorrupted : public CAddrManSerializationMock
{
public:
void Serialize(CDataStream& s) const override
{
// Produces corrupt output that claims addrman has 20 addrs when it only has one addr.
unsigned char nVersion = 1;
s << nVersion;
s << ((unsigned char)32);
s << nKey;
s << 10; // nNew
s << 10; // nTried
int nUBuckets = ADDRMAN_NEW_BUCKET_COUNT ^ (1 << 30);
s << nUBuckets;
CService serv;
Lookup("252.1.1.1", serv, 7777, false);
CAddress addr = CAddress(serv, NODE_NONE);
CNetAddr resolved;
LookupHost("252.2.2.2", resolved, false);
CAddrInfo info = CAddrInfo(addr, resolved);
s << info;
}
};
static CDataStream AddrmanToStream(CAddrManSerializationMock& _addrman)
{
CDataStream ssPeersIn(SER_DISK, CLIENT_VERSION);
ssPeersIn << Params().MessageStart();
ssPeersIn << _addrman;
std::string str = ssPeersIn.str();
std::vector<unsigned char> vchData(str.begin(), str.end());
return CDataStream(vchData, SER_DISK, CLIENT_VERSION);
}
BOOST_FIXTURE_TEST_SUITE(net_tests, BasicTestingSetup)
BOOST_AUTO_TEST_CASE(cnode_listen_port)
{
// test default
unsigned short port = GetListenPort();
BOOST_CHECK(port == Params().GetDefaultPort());
// test set port
unsigned short altPort = 12345;
gArgs.SoftSetArg("-port", std::to_string(altPort));
port = GetListenPort();
BOOST_CHECK(port == altPort);
}
BOOST_AUTO_TEST_CASE(caddrdb_read)
{
SetDataDir("caddrdb_read");
CAddrManUncorrupted addrmanUncorrupted;
addrmanUncorrupted.MakeDeterministic();
CService addr1, addr2, addr3;
Lookup("250.7.1.1", addr1, 8333, false);
Lookup("250.7.2.2", addr2, 9999, false);
Lookup("250.7.3.3", addr3, 9999, false);
// Add three addresses to new table.
CService source;
Lookup("252.5.1.1", source, 8333, false);
addrmanUncorrupted.Add(CAddress(addr1, NODE_NONE), source);
addrmanUncorrupted.Add(CAddress(addr2, NODE_NONE), source);
addrmanUncorrupted.Add(CAddress(addr3, NODE_NONE), source);
// Test that the de-serialization does not throw an exception.
CDataStream ssPeers1 = AddrmanToStream(addrmanUncorrupted);
bool exceptionThrown = false;
CAddrMan addrman1;
BOOST_CHECK(addrman1.size() == 0);
try {
unsigned char pchMsgTmp[4];
ssPeers1 >> pchMsgTmp;
ssPeers1 >> addrman1;
} catch (const std::exception& e) {
exceptionThrown = true;
}
BOOST_CHECK(addrman1.size() == 3);
BOOST_CHECK(exceptionThrown == false);
// Test that CAddrDB::Read creates an addrman with the correct number of addrs.
CDataStream ssPeers2 = AddrmanToStream(addrmanUncorrupted);
CAddrMan addrman2;
CAddrDB adb;
BOOST_CHECK(addrman2.size() == 0);
adb.Read(addrman2, ssPeers2);
BOOST_CHECK(addrman2.size() == 3);
}
BOOST_AUTO_TEST_CASE(caddrdb_read_corrupted)
{
SetDataDir("caddrdb_read_corrupted");
CAddrManCorrupted addrmanCorrupted;
addrmanCorrupted.MakeDeterministic();
// Test that the de-serialization of corrupted addrman throws an exception.
CDataStream ssPeers1 = AddrmanToStream(addrmanCorrupted);
bool exceptionThrown = false;
CAddrMan addrman1;
BOOST_CHECK(addrman1.size() == 0);
try {
unsigned char pchMsgTmp[4];
ssPeers1 >> pchMsgTmp;
ssPeers1 >> addrman1;
} catch (const std::exception& e) {
exceptionThrown = true;
}
// Even through de-serialization failed addrman is not left in a clean state.
BOOST_CHECK(addrman1.size() == 1);
BOOST_CHECK(exceptionThrown);
// Test that CAddrDB::Read leaves addrman in a clean state if de-serialization fails.
CDataStream ssPeers2 = AddrmanToStream(addrmanCorrupted);
CAddrMan addrman2;
CAddrDB adb;
BOOST_CHECK(addrman2.size() == 0);
adb.Read(addrman2, ssPeers2);
BOOST_CHECK(addrman2.size() == 0);
}
BOOST_AUTO_TEST_CASE(cnode_simple_test)
{
SOCKET hSocket = INVALID_SOCKET;
NodeId id = 0;
int height = 0;
in_addr ipv4Addr;
ipv4Addr.s_addr = 0xa0b0c001;
CAddress addr = CAddress(CService(ipv4Addr, 7777), NODE_NETWORK);
std::string pszDest;
bool fInboundIn = false;
// Test that fFeeler is false by default.
std::unique_ptr<CNode> pnode1 = MakeUnique<CNode>(id++, NODE_NETWORK, height, hSocket, addr, 0, 0, CAddress(), pszDest, fInboundIn);
BOOST_CHECK(pnode1->fInbound == false);
BOOST_CHECK(pnode1->fFeeler == false);
fInboundIn = true;
std::unique_ptr<CNode> pnode2 = MakeUnique<CNode>(id++, NODE_NETWORK, height, hSocket, addr, 1, 1, CAddress(), pszDest, fInboundIn);
BOOST_CHECK(pnode2->fInbound == true);
BOOST_CHECK(pnode2->fFeeler == false);
}
BOOST_AUTO_TEST_CASE(PoissonNextSend)
{
g_mock_deterministic_tests = true;
int64_t now = 5000;
int average_interval_seconds = 600;
auto poisson = ::PoissonNextSend(now, average_interval_seconds);
std::chrono::microseconds poisson_chrono = ::PoissonNextSend(std::chrono::microseconds{now}, std::chrono::seconds{average_interval_seconds});
BOOST_CHECK_EQUAL(poisson, poisson_chrono.count());
g_mock_deterministic_tests = false;
}
BOOST_AUTO_TEST_CASE(cnetaddr_basic)
{
CNetAddr addr;
// IPv4, INADDR_ANY
BOOST_REQUIRE(LookupHost("0.0.0.0", addr, false));
BOOST_REQUIRE(!addr.IsValid());
BOOST_REQUIRE(addr.IsIPv4());
BOOST_CHECK(addr.IsBindAny());
BOOST_CHECK(addr.IsAddrV1Compatible());
BOOST_CHECK_EQUAL(addr.ToString(), "0.0.0.0");
// IPv4, INADDR_NONE
BOOST_REQUIRE(LookupHost("255.255.255.255", addr, false));
BOOST_REQUIRE(!addr.IsValid());
BOOST_REQUIRE(addr.IsIPv4());
BOOST_CHECK(!addr.IsBindAny());
BOOST_CHECK(addr.IsAddrV1Compatible());
BOOST_CHECK_EQUAL(addr.ToString(), "255.255.255.255");
// IPv4, casual
BOOST_REQUIRE(LookupHost("12.34.56.78", addr, false));
BOOST_REQUIRE(addr.IsValid());
BOOST_REQUIRE(addr.IsIPv4());
BOOST_CHECK(!addr.IsBindAny());
BOOST_CHECK(addr.IsAddrV1Compatible());
BOOST_CHECK_EQUAL(addr.ToString(), "12.34.56.78");
// IPv6, in6addr_any
BOOST_REQUIRE(LookupHost("::", addr, false));
BOOST_REQUIRE(!addr.IsValid());
BOOST_REQUIRE(addr.IsIPv6());
BOOST_CHECK(addr.IsBindAny());
BOOST_CHECK(addr.IsAddrV1Compatible());
BOOST_CHECK_EQUAL(addr.ToString(), "::");
// IPv6, casual
BOOST_REQUIRE(LookupHost("1122:3344:5566:7788:9900:aabb:ccdd:eeff", addr, false));
BOOST_REQUIRE(addr.IsValid());
BOOST_REQUIRE(addr.IsIPv6());
BOOST_CHECK(!addr.IsBindAny());
BOOST_CHECK(addr.IsAddrV1Compatible());
BOOST_CHECK_EQUAL(addr.ToString(), "1122:3344:5566:7788:9900:aabb:ccdd:eeff");
// TORv2
BOOST_REQUIRE(addr.SetSpecial("6hzph5hv6337r6p2.onion"));
BOOST_REQUIRE(addr.IsValid());
BOOST_REQUIRE(addr.IsTor());
BOOST_CHECK(!addr.IsBindAny());
BOOST_CHECK(addr.IsAddrV1Compatible());
BOOST_CHECK_EQUAL(addr.ToString(), "6hzph5hv6337r6p2.onion");
// TORv3
const char* torv3_addr = "pg6mmjiyjmcrsslvykfwnntlaru7p5svn6y2ymmju6nubxndf4pscryd.onion";
BOOST_REQUIRE(addr.SetSpecial(torv3_addr));
BOOST_REQUIRE(addr.IsValid());
BOOST_REQUIRE(addr.IsTor());
BOOST_CHECK(!addr.IsBindAny());
BOOST_CHECK(!addr.IsAddrV1Compatible());
BOOST_CHECK_EQUAL(addr.ToString(), torv3_addr);
// TORv3, broken, with wrong checksum
BOOST_CHECK(!addr.SetSpecial("pg6mmjiyjmcrsslvykfwnntlaru7p5svn6y2ymmju6nubxndf4pscsad.onion"));
// TORv3, broken, with wrong version
BOOST_CHECK(!addr.SetSpecial("pg6mmjiyjmcrsslvykfwnntlaru7p5svn6y2ymmju6nubxndf4pscrye.onion"));
// TORv3, malicious
BOOST_CHECK(!addr.SetSpecial(std::string{
"pg6mmjiyjmcrsslvykfwnntlaru7p5svn6y2ymmju6nubxndf4pscryd\0wtf.onion", 66}));
// TOR, bogus length
BOOST_CHECK(!addr.SetSpecial(std::string{"mfrggzak.onion"}));
// TOR, invalid base32
BOOST_CHECK(!addr.SetSpecial(std::string{"mf*g zak.onion"}));
// Internal
addr.SetInternal("esffpp");
BOOST_REQUIRE(!addr.IsValid()); // "internal" is considered invalid
BOOST_REQUIRE(addr.IsInternal());
BOOST_CHECK(!addr.IsBindAny());
BOOST_CHECK(addr.IsAddrV1Compatible());
BOOST_CHECK_EQUAL(addr.ToString(), "esffpvrt3wpeaygy.internal");
// Totally bogus
BOOST_CHECK(!addr.SetSpecial("totally bogus"));
}
BOOST_AUTO_TEST_CASE(cnetaddr_serialize_v1)
{
CNetAddr addr;
CDataStream s(SER_NETWORK, PROTOCOL_VERSION);
s << addr;
BOOST_CHECK_EQUAL(HexStr(s), "00000000000000000000000000000000");
s.clear();
BOOST_REQUIRE(LookupHost("1.2.3.4", addr, false));
s << addr;
BOOST_CHECK_EQUAL(HexStr(s), "00000000000000000000ffff01020304");
s.clear();
BOOST_REQUIRE(LookupHost("1a1b:2a2b:3a3b:4a4b:5a5b:6a6b:7a7b:8a8b", addr, false));
s << addr;
BOOST_CHECK_EQUAL(HexStr(s), "1a1b2a2b3a3b4a4b5a5b6a6b7a7b8a8b");
s.clear();
BOOST_REQUIRE(addr.SetSpecial("6hzph5hv6337r6p2.onion"));
s << addr;
BOOST_CHECK_EQUAL(HexStr(s), "fd87d87eeb43f1f2f3f4f5f6f7f8f9fa");
s.clear();
BOOST_REQUIRE(addr.SetSpecial("pg6mmjiyjmcrsslvykfwnntlaru7p5svn6y2ymmju6nubxndf4pscryd.onion"));
s << addr;
BOOST_CHECK_EQUAL(HexStr(s), "00000000000000000000000000000000");
s.clear();
addr.SetInternal("a");
s << addr;
BOOST_CHECK_EQUAL(HexStr(s), "fd6b88c08724ca978112ca1bbdcafac2");
s.clear();
}
BOOST_AUTO_TEST_CASE(cnetaddr_serialize_v2)
{
CNetAddr addr;
CDataStream s(SER_NETWORK, PROTOCOL_VERSION);
// Add ADDRV2_FORMAT to the version so that the CNetAddr
// serialize method produces an address in v2 format.
s.SetVersion(s.GetVersion() | ADDRV2_FORMAT);
s << addr;
BOOST_CHECK_EQUAL(HexStr(s), "021000000000000000000000000000000000");
s.clear();
BOOST_REQUIRE(LookupHost("1.2.3.4", addr, false));
s << addr;
BOOST_CHECK_EQUAL(HexStr(s), "010401020304");
s.clear();
BOOST_REQUIRE(LookupHost("1a1b:2a2b:3a3b:4a4b:5a5b:6a6b:7a7b:8a8b", addr, false));
s << addr;
BOOST_CHECK_EQUAL(HexStr(s), "02101a1b2a2b3a3b4a4b5a5b6a6b7a7b8a8b");
s.clear();
BOOST_REQUIRE(addr.SetSpecial("6hzph5hv6337r6p2.onion"));
s << addr;
BOOST_CHECK_EQUAL(HexStr(s), "030af1f2f3f4f5f6f7f8f9fa");
s.clear();
BOOST_REQUIRE(addr.SetSpecial("kpgvmscirrdqpekbqjsvw5teanhatztpp2gl6eee4zkowvwfxwenqaid.onion"));
s << addr;
BOOST_CHECK_EQUAL(HexStr(s), "042053cd5648488c4707914182655b7664034e09e66f7e8cbf1084e654eb56c5bd88");
s.clear();
BOOST_REQUIRE(addr.SetInternal("a"));
s << addr;
BOOST_CHECK_EQUAL(HexStr(s), "0210fd6b88c08724ca978112ca1bbdcafac2");
s.clear();
}
BOOST_AUTO_TEST_CASE(cnetaddr_unserialize_v2)
{
CNetAddr addr;
CDataStream s(SER_NETWORK, PROTOCOL_VERSION);
// Add ADDRV2_FORMAT to the version so that the CNetAddr
// unserialize method expects an address in v2 format.
s.SetVersion(s.GetVersion() | ADDRV2_FORMAT);
// Valid IPv4.
s << MakeSpan(ParseHex("01" // network type (IPv4)
"04" // address length
"01020304")); // address
s >> addr;
BOOST_CHECK(addr.IsValid());
BOOST_CHECK(addr.IsIPv4());
BOOST_CHECK(addr.IsAddrV1Compatible());
BOOST_CHECK_EQUAL(addr.ToString(), "1.2.3.4");
BOOST_REQUIRE(s.empty());
// Invalid IPv4, valid length but address itself is shorter.
s << MakeSpan(ParseHex("01" // network type (IPv4)
"04" // address length
"0102")); // address
BOOST_CHECK_EXCEPTION(s >> addr, std::ios_base::failure, HasReason("end of data"));
BOOST_REQUIRE(!s.empty()); // The stream is not consumed on invalid input.
s.clear();
// Invalid IPv4, with bogus length.
s << MakeSpan(ParseHex("01" // network type (IPv4)
"05" // address length
"01020304")); // address
BOOST_CHECK_EXCEPTION(s >> addr, std::ios_base::failure,
HasReason("BIP155 IPv4 address with length 5 (should be 4)"));
BOOST_REQUIRE(!s.empty()); // The stream is not consumed on invalid input.
s.clear();
// Invalid IPv4, with extreme length.
s << MakeSpan(ParseHex("01" // network type (IPv4)
"fd0102" // address length (513 as CompactSize)
"01020304")); // address
BOOST_CHECK_EXCEPTION(s >> addr, std::ios_base::failure,
HasReason("Address too long: 513 > 512"));
BOOST_REQUIRE(!s.empty()); // The stream is not consumed on invalid input.
s.clear();
// Valid IPv6.
s << MakeSpan(ParseHex("02" // network type (IPv6)
"10" // address length
"0102030405060708090a0b0c0d0e0f10")); // address
s >> addr;
BOOST_CHECK(addr.IsValid());
BOOST_CHECK(addr.IsIPv6());
BOOST_CHECK(addr.IsAddrV1Compatible());
BOOST_CHECK_EQUAL(addr.ToString(), "102:304:506:708:90a:b0c:d0e:f10");
BOOST_REQUIRE(s.empty());
// Valid IPv6, contains embedded "internal".
s << MakeSpan(ParseHex(
"02" // network type (IPv6)
"10" // address length
"fd6b88c08724ca978112ca1bbdcafac2")); // address: 0xfd + sha256("bitcoin")[0:5] +
// sha256(name)[0:10]
s >> addr;
BOOST_CHECK(addr.IsInternal());
BOOST_CHECK(addr.IsAddrV1Compatible());
BOOST_CHECK_EQUAL(addr.ToString(), "zklycewkdo64v6wc.internal");
BOOST_REQUIRE(s.empty());
// Invalid IPv6, with bogus length.
s << MakeSpan(ParseHex("02" // network type (IPv6)
"04" // address length
"00")); // address
BOOST_CHECK_EXCEPTION(s >> addr, std::ios_base::failure,
HasReason("BIP155 IPv6 address with length 4 (should be 16)"));
BOOST_REQUIRE(!s.empty()); // The stream is not consumed on invalid input.
s.clear();
// Invalid IPv6, contains embedded IPv4.
s << MakeSpan(ParseHex("02" // network type (IPv6)
"10" // address length
"00000000000000000000ffff01020304")); // address
s >> addr;
BOOST_CHECK(!addr.IsValid());
BOOST_REQUIRE(s.empty());
// Invalid IPv6, contains embedded TORv2.
s << MakeSpan(ParseHex("02" // network type (IPv6)
"10" // address length
"fd87d87eeb430102030405060708090a")); // address
s >> addr;
BOOST_CHECK(!addr.IsValid());
BOOST_REQUIRE(s.empty());
// Valid TORv2.
s << MakeSpan(ParseHex("03" // network type (TORv2)
"0a" // address length
"f1f2f3f4f5f6f7f8f9fa")); // address
s >> addr;
BOOST_CHECK(addr.IsValid());
BOOST_CHECK(addr.IsTor());
BOOST_CHECK(addr.IsAddrV1Compatible());
BOOST_CHECK_EQUAL(addr.ToString(), "6hzph5hv6337r6p2.onion");
BOOST_REQUIRE(s.empty());
// Invalid TORv2, with bogus length.
s << MakeSpan(ParseHex("03" // network type (TORv2)
"07" // address length
"00")); // address
BOOST_CHECK_EXCEPTION(s >> addr, std::ios_base::failure,
HasReason("BIP155 TORv2 address with length 7 (should be 10)"));
BOOST_REQUIRE(!s.empty()); // The stream is not consumed on invalid input.
s.clear();
// Valid TORv3.
s << MakeSpan(ParseHex("04" // network type (TORv3)
"20" // address length
"79bcc625184b05194975c28b66b66b04" // address
"69f7f6556fb1ac3189a79b40dda32f1f"
));
s >> addr;
BOOST_CHECK(addr.IsValid());
BOOST_CHECK(addr.IsTor());
BOOST_CHECK(!addr.IsAddrV1Compatible());
BOOST_CHECK_EQUAL(addr.ToString(),
"pg6mmjiyjmcrsslvykfwnntlaru7p5svn6y2ymmju6nubxndf4pscryd.onion");
BOOST_REQUIRE(s.empty());
// Invalid TORv3, with bogus length.
s << MakeSpan(ParseHex("04" // network type (TORv3)
"00" // address length
"00" // address
));
BOOST_CHECK_EXCEPTION(s >> addr, std::ios_base::failure,
HasReason("BIP155 TORv3 address with length 0 (should be 32)"));
BOOST_REQUIRE(!s.empty()); // The stream is not consumed on invalid input.
s.clear();
// Valid I2P.
s << MakeSpan(ParseHex("05" // network type (I2P)
"20" // address length
"a2894dabaec08c0051a481a6dac88b64" // address
"f98232ae42d4b6fd2fa81952dfe36a87"));
s >> addr;
BOOST_CHECK(addr.IsValid());
BOOST_CHECK(addr.IsI2P());
BOOST_CHECK(!addr.IsAddrV1Compatible());
BOOST_CHECK_EQUAL(addr.ToString(),
"ukeu3k5oycgaauneqgtnvselmt4yemvoilkln7jpvamvfx7dnkdq.b32.i2p");
BOOST_REQUIRE(s.empty());
// Invalid I2P, with bogus length.
s << MakeSpan(ParseHex("05" // network type (I2P)
"03" // address length
"00" // address
));
BOOST_CHECK_EXCEPTION(s >> addr, std::ios_base::failure,
HasReason("BIP155 I2P address with length 3 (should be 32)"));
BOOST_REQUIRE(!s.empty()); // The stream is not consumed on invalid input.
s.clear();
// Valid CJDNS.
s << MakeSpan(ParseHex("06" // network type (CJDNS)
"10" // address length
"fc000001000200030004000500060007" // address
));
s >> addr;
BOOST_CHECK(addr.IsValid());
BOOST_CHECK(addr.IsCJDNS());
BOOST_CHECK(!addr.IsAddrV1Compatible());
BOOST_CHECK_EQUAL(addr.ToString(), "fc00:1:2:3:4:5:6:7");
BOOST_REQUIRE(s.empty());
// Invalid CJDNS, with bogus length.
s << MakeSpan(ParseHex("06" // network type (CJDNS)
"01" // address length
"00" // address
));
BOOST_CHECK_EXCEPTION(s >> addr, std::ios_base::failure,
HasReason("BIP155 CJDNS address with length 1 (should be 16)"));
BOOST_REQUIRE(!s.empty()); // The stream is not consumed on invalid input.
s.clear();
// Unknown, with extreme length.
s << MakeSpan(ParseHex("aa" // network type (unknown)
"fe00000002" // address length (CompactSize's MAX_SIZE)
"01020304050607" // address
));
BOOST_CHECK_EXCEPTION(s >> addr, std::ios_base::failure,
HasReason("Address too long: 33554432 > 512"));
BOOST_REQUIRE(!s.empty()); // The stream is not consumed on invalid input.
s.clear();
// Unknown, with reasonable length.
s << MakeSpan(ParseHex("aa" // network type (unknown)
"04" // address length
"01020304" // address
));
s >> addr;
BOOST_CHECK(!addr.IsValid());
BOOST_REQUIRE(s.empty());
// Unknown, with zero length.
s << MakeSpan(ParseHex("aa" // network type (unknown)
"00" // address length
"" // address
));
s >> addr;
BOOST_CHECK(!addr.IsValid());
BOOST_REQUIRE(s.empty());
}
// prior to PR #14728, this test triggers an undefined behavior
BOOST_AUTO_TEST_CASE(ipv4_peer_with_ipv6_addrMe_test)
{
// set up local addresses; all that's necessary to reproduce the bug is
// that a normal IPv4 address is among the entries, but if this address is
// !IsRoutable the undefined behavior is easier to trigger deterministically
{
LOCK(cs_mapLocalHost);
in_addr ipv4AddrLocal;
ipv4AddrLocal.s_addr = 0x0100007f;
CNetAddr addr = CNetAddr(ipv4AddrLocal);
LocalServiceInfo lsi;
lsi.nScore = 23;
lsi.nPort = 42;
mapLocalHost[addr] = lsi;
}
// create a peer with an IPv4 address
in_addr ipv4AddrPeer;
ipv4AddrPeer.s_addr = 0xa0b0c001;
CAddress addr = CAddress(CService(ipv4AddrPeer, 7777), NODE_NETWORK);
std::unique_ptr<CNode> pnode = MakeUnique<CNode>(0, NODE_NETWORK, 0, INVALID_SOCKET, addr, 0, 0, CAddress{}, std::string{}, false);
pnode->fSuccessfullyConnected.store(true);
// the peer claims to be reaching us via IPv6
in6_addr ipv6AddrLocal;
memset(ipv6AddrLocal.s6_addr, 0, 16);
ipv6AddrLocal.s6_addr[0] = 0xcc;
CAddress addrLocal = CAddress(CService(ipv6AddrLocal, 7777), NODE_NETWORK);
pnode->SetAddrLocal(addrLocal);
// before patch, this causes undefined behavior detectable with clang's -fsanitize=memory
AdvertiseLocal(&*pnode);
// suppress no-checks-run warning; if this test fails, it's by triggering a sanitizer
BOOST_CHECK(1);
}
BOOST_AUTO_TEST_CASE(LimitedAndReachable_Network)
{
SetLimited(NET_IPV4, true);
SetLimited(NET_IPV6, true);
SetLimited(NET_ONION, true);
BOOST_CHECK_EQUAL(IsLimited(NET_IPV4), true);
BOOST_CHECK_EQUAL(IsLimited(NET_IPV6), true);
BOOST_CHECK_EQUAL(IsLimited(NET_ONION), true);
BOOST_CHECK_EQUAL(IsReachable(NET_IPV4), false);
BOOST_CHECK_EQUAL(IsReachable(NET_IPV6), false);
BOOST_CHECK_EQUAL(IsReachable(NET_ONION), false);
SetLimited(NET_IPV4, false);
SetLimited(NET_IPV6, false);
SetLimited(NET_ONION, false);
BOOST_CHECK_EQUAL(IsLimited(NET_IPV4), false);
BOOST_CHECK_EQUAL(IsLimited(NET_IPV6), false);
BOOST_CHECK_EQUAL(IsLimited(NET_ONION), false);
BOOST_CHECK_EQUAL(IsReachable(NET_IPV4), true);
BOOST_CHECK_EQUAL(IsReachable(NET_IPV6), true);
BOOST_CHECK_EQUAL(IsReachable(NET_ONION), true);
}
BOOST_AUTO_TEST_CASE(LimitedAndReachable_NetworkCaseUnroutableAndInternal)
{
BOOST_CHECK_EQUAL(IsLimited(NET_UNROUTABLE), false);
BOOST_CHECK_EQUAL(IsLimited(NET_INTERNAL), false);
BOOST_CHECK_EQUAL(IsReachable(NET_UNROUTABLE), true);
BOOST_CHECK_EQUAL(IsReachable(NET_INTERNAL), true);
SetLimited(NET_UNROUTABLE, true);
SetLimited(NET_INTERNAL, true);
BOOST_CHECK_EQUAL(IsLimited(NET_UNROUTABLE), false); // Ignored for both networks
BOOST_CHECK_EQUAL(IsLimited(NET_INTERNAL), false);
BOOST_CHECK_EQUAL(IsReachable(NET_UNROUTABLE), true);
BOOST_CHECK_EQUAL(IsReachable(NET_INTERNAL), true);
}
CNetAddr UtilBuildAddress(unsigned char p1, unsigned char p2, unsigned char p3, unsigned char p4)
{
unsigned char ip[] = {p1, p2, p3, p4};
struct sockaddr_in sa;
memset(&sa, 0, sizeof(sockaddr_in)); // initialize the memory block
memcpy(&(sa.sin_addr), &ip, sizeof(ip));
return CNetAddr(sa.sin_addr);
}
BOOST_AUTO_TEST_CASE(LimitedAndReachable_CNetAddr)
{
CNetAddr addr = UtilBuildAddress(0x001, 0x001, 0x001, 0x001); // 1.1.1.1
SetLimited(NET_IPV4, false);
BOOST_CHECK_EQUAL(IsLimited(addr), false);
BOOST_CHECK_EQUAL(IsReachable(addr), true);
SetLimited(NET_IPV4, true);
BOOST_CHECK_EQUAL(IsLimited(addr), true);
BOOST_CHECK_EQUAL(IsReachable(addr), false);
SetLimited(NET_IPV4, false); // have to reset this, because this is stateful.
}
BOOST_AUTO_TEST_CASE(LocalAddress_BasicLifecycle)
{
CService addr = CService(UtilBuildAddress(0x002, 0x001, 0x001, 0x001), 1000); // 2.1.1.1:1000
SetLimited(NET_IPV4, false);
BOOST_CHECK_EQUAL(IsLocal(addr), false);
BOOST_CHECK_EQUAL(AddLocal(addr, 1000), true);
BOOST_CHECK_EQUAL(IsLocal(addr), true);
RemoveLocal(addr);
BOOST_CHECK_EQUAL(IsLocal(addr), false);
}
BOOST_AUTO_TEST_SUITE_END()
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