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|
// Copyright (c) 2012-2022 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 <net_permissions.h>
#include <netaddress.h>
#include <netbase.h>
#include <netgroup.h>
#include <protocol.h>
#include <serialize.h>
#include <streams.h>
#include <test/util/setup_common.h>
#include <util/strencodings.h>
#include <util/translation.h>
#include <version.h>
#include <string>
#include <boost/test/unit_test.hpp>
using namespace std::literals;
BOOST_FIXTURE_TEST_SUITE(netbase_tests, BasicTestingSetup)
static CNetAddr ResolveIP(const std::string& ip)
{
CNetAddr addr;
LookupHost(ip, addr, false);
return addr;
}
static CSubNet ResolveSubNet(const std::string& subnet)
{
CSubNet ret;
LookupSubNet(subnet, ret);
return ret;
}
static CNetAddr CreateInternal(const std::string& host)
{
CNetAddr addr;
addr.SetInternal(host);
return addr;
}
BOOST_AUTO_TEST_CASE(netbase_networks)
{
BOOST_CHECK(ResolveIP("127.0.0.1").GetNetwork() == NET_UNROUTABLE);
BOOST_CHECK(ResolveIP("::1").GetNetwork() == NET_UNROUTABLE);
BOOST_CHECK(ResolveIP("8.8.8.8").GetNetwork() == NET_IPV4);
BOOST_CHECK(ResolveIP("2001::8888").GetNetwork() == NET_IPV6);
BOOST_CHECK(ResolveIP("pg6mmjiyjmcrsslvykfwnntlaru7p5svn6y2ymmju6nubxndf4pscryd.onion").GetNetwork() == NET_ONION);
BOOST_CHECK(CreateInternal("foo.com").GetNetwork() == NET_INTERNAL);
}
BOOST_AUTO_TEST_CASE(netbase_properties)
{
BOOST_CHECK(ResolveIP("127.0.0.1").IsIPv4());
BOOST_CHECK(ResolveIP("::FFFF:192.168.1.1").IsIPv4());
BOOST_CHECK(ResolveIP("::1").IsIPv6());
BOOST_CHECK(ResolveIP("10.0.0.1").IsRFC1918());
BOOST_CHECK(ResolveIP("192.168.1.1").IsRFC1918());
BOOST_CHECK(ResolveIP("172.31.255.255").IsRFC1918());
BOOST_CHECK(ResolveIP("198.18.0.0").IsRFC2544());
BOOST_CHECK(ResolveIP("198.19.255.255").IsRFC2544());
BOOST_CHECK(ResolveIP("2001:0DB8::").IsRFC3849());
BOOST_CHECK(ResolveIP("169.254.1.1").IsRFC3927());
BOOST_CHECK(ResolveIP("2002::1").IsRFC3964());
BOOST_CHECK(ResolveIP("FC00::").IsRFC4193());
BOOST_CHECK(ResolveIP("2001::2").IsRFC4380());
BOOST_CHECK(ResolveIP("2001:10::").IsRFC4843());
BOOST_CHECK(ResolveIP("2001:20::").IsRFC7343());
BOOST_CHECK(ResolveIP("FE80::").IsRFC4862());
BOOST_CHECK(ResolveIP("64:FF9B::").IsRFC6052());
BOOST_CHECK(ResolveIP("pg6mmjiyjmcrsslvykfwnntlaru7p5svn6y2ymmju6nubxndf4pscryd.onion").IsTor());
BOOST_CHECK(ResolveIP("127.0.0.1").IsLocal());
BOOST_CHECK(ResolveIP("::1").IsLocal());
BOOST_CHECK(ResolveIP("8.8.8.8").IsRoutable());
BOOST_CHECK(ResolveIP("2001::1").IsRoutable());
BOOST_CHECK(ResolveIP("127.0.0.1").IsValid());
BOOST_CHECK(CreateInternal("FD6B:88C0:8724:edb1:8e4:3588:e546:35ca").IsInternal());
BOOST_CHECK(CreateInternal("bar.com").IsInternal());
}
bool static TestSplitHost(const std::string& test, const std::string& host, uint16_t port, bool validPort=true)
{
std::string hostOut;
uint16_t portOut{0};
bool validPortOut = SplitHostPort(test, portOut, hostOut);
return hostOut == host && portOut == port && validPortOut == validPort;
}
BOOST_AUTO_TEST_CASE(netbase_splithost)
{
BOOST_CHECK(TestSplitHost("www.bitcoincore.org", "www.bitcoincore.org", 0));
BOOST_CHECK(TestSplitHost("[www.bitcoincore.org]", "www.bitcoincore.org", 0));
BOOST_CHECK(TestSplitHost("www.bitcoincore.org:80", "www.bitcoincore.org", 80));
BOOST_CHECK(TestSplitHost("[www.bitcoincore.org]:80", "www.bitcoincore.org", 80));
BOOST_CHECK(TestSplitHost("127.0.0.1", "127.0.0.1", 0));
BOOST_CHECK(TestSplitHost("127.0.0.1:8333", "127.0.0.1", 8333));
BOOST_CHECK(TestSplitHost("[127.0.0.1]", "127.0.0.1", 0));
BOOST_CHECK(TestSplitHost("[127.0.0.1]:8333", "127.0.0.1", 8333));
BOOST_CHECK(TestSplitHost("::ffff:127.0.0.1", "::ffff:127.0.0.1", 0));
BOOST_CHECK(TestSplitHost("[::ffff:127.0.0.1]:8333", "::ffff:127.0.0.1", 8333));
BOOST_CHECK(TestSplitHost("[::]:8333", "::", 8333));
BOOST_CHECK(TestSplitHost("::8333", "::8333", 0));
BOOST_CHECK(TestSplitHost(":8333", "", 8333));
BOOST_CHECK(TestSplitHost("[]:8333", "", 8333));
BOOST_CHECK(TestSplitHost("", "", 0));
BOOST_CHECK(TestSplitHost(":65535", "", 65535));
BOOST_CHECK(TestSplitHost(":65536", ":65536", 0, false));
BOOST_CHECK(TestSplitHost(":-1", ":-1", 0, false));
BOOST_CHECK(TestSplitHost("[]:70001", "[]:70001", 0, false));
BOOST_CHECK(TestSplitHost("[]:-1", "[]:-1", 0, false));
BOOST_CHECK(TestSplitHost("[]:-0", "[]:-0", 0, false));
BOOST_CHECK(TestSplitHost("[]:0", "", 0, false));
BOOST_CHECK(TestSplitHost("[]:1/2", "[]:1/2", 0, false));
BOOST_CHECK(TestSplitHost("[]:1E2", "[]:1E2", 0, false));
BOOST_CHECK(TestSplitHost("127.0.0.1:65536", "127.0.0.1:65536", 0, false));
BOOST_CHECK(TestSplitHost("127.0.0.1:0", "127.0.0.1", 0, false));
BOOST_CHECK(TestSplitHost("127.0.0.1:", "127.0.0.1:", 0, false));
BOOST_CHECK(TestSplitHost("127.0.0.1:1/2", "127.0.0.1:1/2", 0, false));
BOOST_CHECK(TestSplitHost("127.0.0.1:1E2", "127.0.0.1:1E2", 0, false));
BOOST_CHECK(TestSplitHost("www.bitcoincore.org:65536", "www.bitcoincore.org:65536", 0, false));
BOOST_CHECK(TestSplitHost("www.bitcoincore.org:0", "www.bitcoincore.org", 0, false));
BOOST_CHECK(TestSplitHost("www.bitcoincore.org:", "www.bitcoincore.org:", 0, false));
}
bool static TestParse(std::string src, std::string canon)
{
CService addr(LookupNumeric(src, 65535));
return canon == addr.ToStringAddrPort();
}
BOOST_AUTO_TEST_CASE(netbase_lookupnumeric)
{
BOOST_CHECK(TestParse("127.0.0.1", "127.0.0.1:65535"));
BOOST_CHECK(TestParse("127.0.0.1:8333", "127.0.0.1:8333"));
BOOST_CHECK(TestParse("::ffff:127.0.0.1", "127.0.0.1:65535"));
BOOST_CHECK(TestParse("::", "[::]:65535"));
BOOST_CHECK(TestParse("[::]:8333", "[::]:8333"));
BOOST_CHECK(TestParse("[127.0.0.1]", "127.0.0.1:65535"));
BOOST_CHECK(TestParse(":::", "[::]:0"));
// verify that an internal address fails to resolve
BOOST_CHECK(TestParse("[fd6b:88c0:8724:1:2:3:4:5]", "[::]:0"));
// and that a one-off resolves correctly
BOOST_CHECK(TestParse("[fd6c:88c0:8724:1:2:3:4:5]", "[fd6c:88c0:8724:1:2:3:4:5]:65535"));
}
BOOST_AUTO_TEST_CASE(embedded_test)
{
CNetAddr addr1(ResolveIP("1.2.3.4"));
CNetAddr addr2(ResolveIP("::FFFF:0102:0304"));
BOOST_CHECK(addr2.IsIPv4());
BOOST_CHECK_EQUAL(addr1.ToStringAddr(), addr2.ToStringAddr());
}
BOOST_AUTO_TEST_CASE(subnet_test)
{
BOOST_CHECK(ResolveSubNet("1.2.3.0/24") == ResolveSubNet("1.2.3.0/255.255.255.0"));
BOOST_CHECK(ResolveSubNet("1.2.3.0/24") != ResolveSubNet("1.2.4.0/255.255.255.0"));
BOOST_CHECK(ResolveSubNet("1.2.3.0/24").Match(ResolveIP("1.2.3.4")));
BOOST_CHECK(!ResolveSubNet("1.2.2.0/24").Match(ResolveIP("1.2.3.4")));
BOOST_CHECK(ResolveSubNet("1.2.3.4").Match(ResolveIP("1.2.3.4")));
BOOST_CHECK(ResolveSubNet("1.2.3.4/32").Match(ResolveIP("1.2.3.4")));
BOOST_CHECK(!ResolveSubNet("1.2.3.4").Match(ResolveIP("5.6.7.8")));
BOOST_CHECK(!ResolveSubNet("1.2.3.4/32").Match(ResolveIP("5.6.7.8")));
BOOST_CHECK(ResolveSubNet("::ffff:127.0.0.1").Match(ResolveIP("127.0.0.1")));
BOOST_CHECK(ResolveSubNet("1:2:3:4:5:6:7:8").Match(ResolveIP("1:2:3:4:5:6:7:8")));
BOOST_CHECK(!ResolveSubNet("1:2:3:4:5:6:7:8").Match(ResolveIP("1:2:3:4:5:6:7:9")));
BOOST_CHECK(ResolveSubNet("1:2:3:4:5:6:7:0/112").Match(ResolveIP("1:2:3:4:5:6:7:1234")));
BOOST_CHECK(ResolveSubNet("192.168.0.1/24").Match(ResolveIP("192.168.0.2")));
BOOST_CHECK(ResolveSubNet("192.168.0.20/29").Match(ResolveIP("192.168.0.18")));
BOOST_CHECK(ResolveSubNet("1.2.2.1/24").Match(ResolveIP("1.2.2.4")));
BOOST_CHECK(ResolveSubNet("1.2.2.110/31").Match(ResolveIP("1.2.2.111")));
BOOST_CHECK(ResolveSubNet("1.2.2.20/26").Match(ResolveIP("1.2.2.63")));
// All-Matching IPv6 Matches arbitrary IPv6
BOOST_CHECK(ResolveSubNet("::/0").Match(ResolveIP("1:2:3:4:5:6:7:1234")));
// But not `::` or `0.0.0.0` because they are considered invalid addresses
BOOST_CHECK(!ResolveSubNet("::/0").Match(ResolveIP("::")));
BOOST_CHECK(!ResolveSubNet("::/0").Match(ResolveIP("0.0.0.0")));
// Addresses from one network (IPv4) don't belong to subnets of another network (IPv6)
BOOST_CHECK(!ResolveSubNet("::/0").Match(ResolveIP("1.2.3.4")));
// All-Matching IPv4 does not Match IPv6
BOOST_CHECK(!ResolveSubNet("0.0.0.0/0").Match(ResolveIP("1:2:3:4:5:6:7:1234")));
// Invalid subnets Match nothing (not even invalid addresses)
BOOST_CHECK(!CSubNet().Match(ResolveIP("1.2.3.4")));
BOOST_CHECK(!ResolveSubNet("").Match(ResolveIP("4.5.6.7")));
BOOST_CHECK(!ResolveSubNet("bloop").Match(ResolveIP("0.0.0.0")));
BOOST_CHECK(!ResolveSubNet("bloop").Match(ResolveIP("hab")));
// Check valid/invalid
BOOST_CHECK(ResolveSubNet("1.2.3.0/0").IsValid());
BOOST_CHECK(!ResolveSubNet("1.2.3.0/-1").IsValid());
BOOST_CHECK(ResolveSubNet("1.2.3.0/32").IsValid());
BOOST_CHECK(!ResolveSubNet("1.2.3.0/33").IsValid());
BOOST_CHECK(!ResolveSubNet("1.2.3.0/300").IsValid());
BOOST_CHECK(ResolveSubNet("1:2:3:4:5:6:7:8/0").IsValid());
BOOST_CHECK(ResolveSubNet("1:2:3:4:5:6:7:8/33").IsValid());
BOOST_CHECK(!ResolveSubNet("1:2:3:4:5:6:7:8/-1").IsValid());
BOOST_CHECK(ResolveSubNet("1:2:3:4:5:6:7:8/128").IsValid());
BOOST_CHECK(!ResolveSubNet("1:2:3:4:5:6:7:8/129").IsValid());
BOOST_CHECK(!ResolveSubNet("fuzzy").IsValid());
//CNetAddr constructor test
BOOST_CHECK(CSubNet(ResolveIP("127.0.0.1")).IsValid());
BOOST_CHECK(CSubNet(ResolveIP("127.0.0.1")).Match(ResolveIP("127.0.0.1")));
BOOST_CHECK(!CSubNet(ResolveIP("127.0.0.1")).Match(ResolveIP("127.0.0.2")));
BOOST_CHECK(CSubNet(ResolveIP("127.0.0.1")).ToString() == "127.0.0.1/32");
CSubNet subnet = CSubNet(ResolveIP("1.2.3.4"), 32);
BOOST_CHECK_EQUAL(subnet.ToString(), "1.2.3.4/32");
subnet = CSubNet(ResolveIP("1.2.3.4"), 8);
BOOST_CHECK_EQUAL(subnet.ToString(), "1.0.0.0/8");
subnet = CSubNet(ResolveIP("1.2.3.4"), 0);
BOOST_CHECK_EQUAL(subnet.ToString(), "0.0.0.0/0");
subnet = CSubNet(ResolveIP("1.2.3.4"), ResolveIP("255.255.255.255"));
BOOST_CHECK_EQUAL(subnet.ToString(), "1.2.3.4/32");
subnet = CSubNet(ResolveIP("1.2.3.4"), ResolveIP("255.0.0.0"));
BOOST_CHECK_EQUAL(subnet.ToString(), "1.0.0.0/8");
subnet = CSubNet(ResolveIP("1.2.3.4"), ResolveIP("0.0.0.0"));
BOOST_CHECK_EQUAL(subnet.ToString(), "0.0.0.0/0");
BOOST_CHECK(CSubNet(ResolveIP("1:2:3:4:5:6:7:8")).IsValid());
BOOST_CHECK(CSubNet(ResolveIP("1:2:3:4:5:6:7:8")).Match(ResolveIP("1:2:3:4:5:6:7:8")));
BOOST_CHECK(!CSubNet(ResolveIP("1:2:3:4:5:6:7:8")).Match(ResolveIP("1:2:3:4:5:6:7:9")));
BOOST_CHECK(CSubNet(ResolveIP("1:2:3:4:5:6:7:8")).ToString() == "1:2:3:4:5:6:7:8/128");
// IPv4 address with IPv6 netmask or the other way around.
BOOST_CHECK(!CSubNet(ResolveIP("1.1.1.1"), ResolveIP("ffff::")).IsValid());
BOOST_CHECK(!CSubNet(ResolveIP("::1"), ResolveIP("255.0.0.0")).IsValid());
// Create Non-IP subnets.
const CNetAddr tor_addr{
ResolveIP("pg6mmjiyjmcrsslvykfwnntlaru7p5svn6y2ymmju6nubxndf4pscryd.onion")};
subnet = CSubNet(tor_addr);
BOOST_CHECK(subnet.IsValid());
BOOST_CHECK_EQUAL(subnet.ToString(), tor_addr.ToStringAddr());
BOOST_CHECK(subnet.Match(tor_addr));
BOOST_CHECK(
!subnet.Match(ResolveIP("kpgvmscirrdqpekbqjsvw5teanhatztpp2gl6eee4zkowvwfxwenqaid.onion")));
BOOST_CHECK(!subnet.Match(ResolveIP("1.2.3.4")));
BOOST_CHECK(!CSubNet(tor_addr, 200).IsValid());
BOOST_CHECK(!CSubNet(tor_addr, ResolveIP("255.0.0.0")).IsValid());
subnet = ResolveSubNet("1.2.3.4/255.255.255.255");
BOOST_CHECK_EQUAL(subnet.ToString(), "1.2.3.4/32");
subnet = ResolveSubNet("1.2.3.4/255.255.255.254");
BOOST_CHECK_EQUAL(subnet.ToString(), "1.2.3.4/31");
subnet = ResolveSubNet("1.2.3.4/255.255.255.252");
BOOST_CHECK_EQUAL(subnet.ToString(), "1.2.3.4/30");
subnet = ResolveSubNet("1.2.3.4/255.255.255.248");
BOOST_CHECK_EQUAL(subnet.ToString(), "1.2.3.0/29");
subnet = ResolveSubNet("1.2.3.4/255.255.255.240");
BOOST_CHECK_EQUAL(subnet.ToString(), "1.2.3.0/28");
subnet = ResolveSubNet("1.2.3.4/255.255.255.224");
BOOST_CHECK_EQUAL(subnet.ToString(), "1.2.3.0/27");
subnet = ResolveSubNet("1.2.3.4/255.255.255.192");
BOOST_CHECK_EQUAL(subnet.ToString(), "1.2.3.0/26");
subnet = ResolveSubNet("1.2.3.4/255.255.255.128");
BOOST_CHECK_EQUAL(subnet.ToString(), "1.2.3.0/25");
subnet = ResolveSubNet("1.2.3.4/255.255.255.0");
BOOST_CHECK_EQUAL(subnet.ToString(), "1.2.3.0/24");
subnet = ResolveSubNet("1.2.3.4/255.255.254.0");
BOOST_CHECK_EQUAL(subnet.ToString(), "1.2.2.0/23");
subnet = ResolveSubNet("1.2.3.4/255.255.252.0");
BOOST_CHECK_EQUAL(subnet.ToString(), "1.2.0.0/22");
subnet = ResolveSubNet("1.2.3.4/255.255.248.0");
BOOST_CHECK_EQUAL(subnet.ToString(), "1.2.0.0/21");
subnet = ResolveSubNet("1.2.3.4/255.255.240.0");
BOOST_CHECK_EQUAL(subnet.ToString(), "1.2.0.0/20");
subnet = ResolveSubNet("1.2.3.4/255.255.224.0");
BOOST_CHECK_EQUAL(subnet.ToString(), "1.2.0.0/19");
subnet = ResolveSubNet("1.2.3.4/255.255.192.0");
BOOST_CHECK_EQUAL(subnet.ToString(), "1.2.0.0/18");
subnet = ResolveSubNet("1.2.3.4/255.255.128.0");
BOOST_CHECK_EQUAL(subnet.ToString(), "1.2.0.0/17");
subnet = ResolveSubNet("1.2.3.4/255.255.0.0");
BOOST_CHECK_EQUAL(subnet.ToString(), "1.2.0.0/16");
subnet = ResolveSubNet("1.2.3.4/255.254.0.0");
BOOST_CHECK_EQUAL(subnet.ToString(), "1.2.0.0/15");
subnet = ResolveSubNet("1.2.3.4/255.252.0.0");
BOOST_CHECK_EQUAL(subnet.ToString(), "1.0.0.0/14");
subnet = ResolveSubNet("1.2.3.4/255.248.0.0");
BOOST_CHECK_EQUAL(subnet.ToString(), "1.0.0.0/13");
subnet = ResolveSubNet("1.2.3.4/255.240.0.0");
BOOST_CHECK_EQUAL(subnet.ToString(), "1.0.0.0/12");
subnet = ResolveSubNet("1.2.3.4/255.224.0.0");
BOOST_CHECK_EQUAL(subnet.ToString(), "1.0.0.0/11");
subnet = ResolveSubNet("1.2.3.4/255.192.0.0");
BOOST_CHECK_EQUAL(subnet.ToString(), "1.0.0.0/10");
subnet = ResolveSubNet("1.2.3.4/255.128.0.0");
BOOST_CHECK_EQUAL(subnet.ToString(), "1.0.0.0/9");
subnet = ResolveSubNet("1.2.3.4/255.0.0.0");
BOOST_CHECK_EQUAL(subnet.ToString(), "1.0.0.0/8");
subnet = ResolveSubNet("1.2.3.4/254.0.0.0");
BOOST_CHECK_EQUAL(subnet.ToString(), "0.0.0.0/7");
subnet = ResolveSubNet("1.2.3.4/252.0.0.0");
BOOST_CHECK_EQUAL(subnet.ToString(), "0.0.0.0/6");
subnet = ResolveSubNet("1.2.3.4/248.0.0.0");
BOOST_CHECK_EQUAL(subnet.ToString(), "0.0.0.0/5");
subnet = ResolveSubNet("1.2.3.4/240.0.0.0");
BOOST_CHECK_EQUAL(subnet.ToString(), "0.0.0.0/4");
subnet = ResolveSubNet("1.2.3.4/224.0.0.0");
BOOST_CHECK_EQUAL(subnet.ToString(), "0.0.0.0/3");
subnet = ResolveSubNet("1.2.3.4/192.0.0.0");
BOOST_CHECK_EQUAL(subnet.ToString(), "0.0.0.0/2");
subnet = ResolveSubNet("1.2.3.4/128.0.0.0");
BOOST_CHECK_EQUAL(subnet.ToString(), "0.0.0.0/1");
subnet = ResolveSubNet("1.2.3.4/0.0.0.0");
BOOST_CHECK_EQUAL(subnet.ToString(), "0.0.0.0/0");
subnet = ResolveSubNet("1:2:3:4:5:6:7:8/ffff:ffff:ffff:ffff:ffff:ffff:ffff:ffff");
BOOST_CHECK_EQUAL(subnet.ToString(), "1:2:3:4:5:6:7:8/128");
subnet = ResolveSubNet("1:2:3:4:5:6:7:8/ffff:0000:0000:0000:0000:0000:0000:0000");
BOOST_CHECK_EQUAL(subnet.ToString(), "1::/16");
subnet = ResolveSubNet("1:2:3:4:5:6:7:8/0000:0000:0000:0000:0000:0000:0000:0000");
BOOST_CHECK_EQUAL(subnet.ToString(), "::/0");
// Invalid netmasks (with 1-bits after 0-bits)
subnet = ResolveSubNet("1.2.3.4/255.255.232.0");
BOOST_CHECK(!subnet.IsValid());
subnet = ResolveSubNet("1.2.3.4/255.0.255.255");
BOOST_CHECK(!subnet.IsValid());
subnet = ResolveSubNet("1:2:3:4:5:6:7:8/ffff:ffff:ffff:fffe:ffff:ffff:ffff:ff0f");
BOOST_CHECK(!subnet.IsValid());
}
BOOST_AUTO_TEST_CASE(netbase_getgroup)
{
NetGroupManager netgroupman{std::vector<bool>()}; // use /16
BOOST_CHECK(netgroupman.GetGroup(ResolveIP("127.0.0.1")) == std::vector<unsigned char>({0})); // Local -> !Routable()
BOOST_CHECK(netgroupman.GetGroup(ResolveIP("257.0.0.1")) == std::vector<unsigned char>({0})); // !Valid -> !Routable()
BOOST_CHECK(netgroupman.GetGroup(ResolveIP("10.0.0.1")) == std::vector<unsigned char>({0})); // RFC1918 -> !Routable()
BOOST_CHECK(netgroupman.GetGroup(ResolveIP("169.254.1.1")) == std::vector<unsigned char>({0})); // RFC3927 -> !Routable()
BOOST_CHECK(netgroupman.GetGroup(ResolveIP("1.2.3.4")) == std::vector<unsigned char>({(unsigned char)NET_IPV4, 1, 2})); // IPv4
BOOST_CHECK(netgroupman.GetGroup(ResolveIP("::FFFF:0:102:304")) == std::vector<unsigned char>({(unsigned char)NET_IPV4, 1, 2})); // RFC6145
BOOST_CHECK(netgroupman.GetGroup(ResolveIP("64:FF9B::102:304")) == std::vector<unsigned char>({(unsigned char)NET_IPV4, 1, 2})); // RFC6052
BOOST_CHECK(netgroupman.GetGroup(ResolveIP("2002:102:304:9999:9999:9999:9999:9999")) == std::vector<unsigned char>({(unsigned char)NET_IPV4, 1, 2})); // RFC3964
BOOST_CHECK(netgroupman.GetGroup(ResolveIP("2001:0:9999:9999:9999:9999:FEFD:FCFB")) == std::vector<unsigned char>({(unsigned char)NET_IPV4, 1, 2})); // RFC4380
BOOST_CHECK(netgroupman.GetGroup(ResolveIP("2001:470:abcd:9999:9999:9999:9999:9999")) == std::vector<unsigned char>({(unsigned char)NET_IPV6, 32, 1, 4, 112, 175})); //he.net
BOOST_CHECK(netgroupman.GetGroup(ResolveIP("2001:2001:9999:9999:9999:9999:9999:9999")) == std::vector<unsigned char>({(unsigned char)NET_IPV6, 32, 1, 32, 1})); //IPv6
// baz.net sha256 hash: 12929400eb4607c4ac075f087167e75286b179c693eb059a01774b864e8fe505
std::vector<unsigned char> internal_group = {NET_INTERNAL, 0x12, 0x92, 0x94, 0x00, 0xeb, 0x46, 0x07, 0xc4, 0xac, 0x07};
BOOST_CHECK(netgroupman.GetGroup(CreateInternal("baz.net")) == internal_group);
}
BOOST_AUTO_TEST_CASE(netbase_parsenetwork)
{
BOOST_CHECK_EQUAL(ParseNetwork("ipv4"), NET_IPV4);
BOOST_CHECK_EQUAL(ParseNetwork("ipv6"), NET_IPV6);
BOOST_CHECK_EQUAL(ParseNetwork("onion"), NET_ONION);
BOOST_CHECK_EQUAL(ParseNetwork("tor"), NET_ONION);
BOOST_CHECK_EQUAL(ParseNetwork("cjdns"), NET_CJDNS);
BOOST_CHECK_EQUAL(ParseNetwork("IPv4"), NET_IPV4);
BOOST_CHECK_EQUAL(ParseNetwork("IPv6"), NET_IPV6);
BOOST_CHECK_EQUAL(ParseNetwork("ONION"), NET_ONION);
BOOST_CHECK_EQUAL(ParseNetwork("TOR"), NET_ONION);
BOOST_CHECK_EQUAL(ParseNetwork("CJDNS"), NET_CJDNS);
BOOST_CHECK_EQUAL(ParseNetwork(":)"), NET_UNROUTABLE);
BOOST_CHECK_EQUAL(ParseNetwork("tÖr"), NET_UNROUTABLE);
BOOST_CHECK_EQUAL(ParseNetwork("\xfe\xff"), NET_UNROUTABLE);
BOOST_CHECK_EQUAL(ParseNetwork(""), NET_UNROUTABLE);
}
BOOST_AUTO_TEST_CASE(netpermissions_test)
{
bilingual_str error;
NetWhitebindPermissions whitebindPermissions;
NetWhitelistPermissions whitelistPermissions;
// Detect invalid white bind
BOOST_CHECK(!NetWhitebindPermissions::TryParse("", whitebindPermissions, error));
BOOST_CHECK(error.original.find("Cannot resolve -whitebind address") != std::string::npos);
BOOST_CHECK(!NetWhitebindPermissions::TryParse("127.0.0.1", whitebindPermissions, error));
BOOST_CHECK(error.original.find("Need to specify a port with -whitebind") != std::string::npos);
BOOST_CHECK(!NetWhitebindPermissions::TryParse("", whitebindPermissions, error));
// If no permission flags, assume backward compatibility
BOOST_CHECK(NetWhitebindPermissions::TryParse("1.2.3.4:32", whitebindPermissions, error));
BOOST_CHECK(error.empty());
BOOST_CHECK_EQUAL(whitebindPermissions.m_flags, NetPermissionFlags::Implicit);
BOOST_CHECK(NetPermissions::HasFlag(whitebindPermissions.m_flags, NetPermissionFlags::Implicit));
NetPermissions::ClearFlag(whitebindPermissions.m_flags, NetPermissionFlags::Implicit);
BOOST_CHECK(!NetPermissions::HasFlag(whitebindPermissions.m_flags, NetPermissionFlags::Implicit));
BOOST_CHECK_EQUAL(whitebindPermissions.m_flags, NetPermissionFlags::None);
NetPermissions::AddFlag(whitebindPermissions.m_flags, NetPermissionFlags::Implicit);
BOOST_CHECK(NetPermissions::HasFlag(whitebindPermissions.m_flags, NetPermissionFlags::Implicit));
// Can set one permission
BOOST_CHECK(NetWhitebindPermissions::TryParse("bloom@1.2.3.4:32", whitebindPermissions, error));
BOOST_CHECK_EQUAL(whitebindPermissions.m_flags, NetPermissionFlags::BloomFilter);
BOOST_CHECK(NetWhitebindPermissions::TryParse("@1.2.3.4:32", whitebindPermissions, error));
BOOST_CHECK_EQUAL(whitebindPermissions.m_flags, NetPermissionFlags::None);
NetWhitebindPermissions noban, noban_download, download_noban, download;
// "noban" implies "download"
BOOST_REQUIRE(NetWhitebindPermissions::TryParse("noban@1.2.3.4:32", noban, error));
BOOST_CHECK_EQUAL(noban.m_flags, NetPermissionFlags::NoBan);
BOOST_CHECK(NetPermissions::HasFlag(noban.m_flags, NetPermissionFlags::Download));
BOOST_CHECK(NetPermissions::HasFlag(noban.m_flags, NetPermissionFlags::NoBan));
// "noban,download" is equivalent to "noban"
BOOST_REQUIRE(NetWhitebindPermissions::TryParse("noban,download@1.2.3.4:32", noban_download, error));
BOOST_CHECK_EQUAL(noban_download.m_flags, noban.m_flags);
// "download,noban" is equivalent to "noban"
BOOST_REQUIRE(NetWhitebindPermissions::TryParse("download,noban@1.2.3.4:32", download_noban, error));
BOOST_CHECK_EQUAL(download_noban.m_flags, noban.m_flags);
// "download" excludes (does not imply) "noban"
BOOST_REQUIRE(NetWhitebindPermissions::TryParse("download@1.2.3.4:32", download, error));
BOOST_CHECK_EQUAL(download.m_flags, NetPermissionFlags::Download);
BOOST_CHECK(NetPermissions::HasFlag(download.m_flags, NetPermissionFlags::Download));
BOOST_CHECK(!NetPermissions::HasFlag(download.m_flags, NetPermissionFlags::NoBan));
// Happy path, can parse flags
BOOST_CHECK(NetWhitebindPermissions::TryParse("bloom,forcerelay@1.2.3.4:32", whitebindPermissions, error));
// forcerelay should also activate the relay permission
BOOST_CHECK_EQUAL(whitebindPermissions.m_flags, NetPermissionFlags::BloomFilter | NetPermissionFlags::ForceRelay | NetPermissionFlags::Relay);
BOOST_CHECK(NetWhitebindPermissions::TryParse("bloom,relay,noban@1.2.3.4:32", whitebindPermissions, error));
BOOST_CHECK_EQUAL(whitebindPermissions.m_flags, NetPermissionFlags::BloomFilter | NetPermissionFlags::Relay | NetPermissionFlags::NoBan);
BOOST_CHECK(NetWhitebindPermissions::TryParse("bloom,forcerelay,noban@1.2.3.4:32", whitebindPermissions, error));
BOOST_CHECK(NetWhitebindPermissions::TryParse("all@1.2.3.4:32", whitebindPermissions, error));
BOOST_CHECK_EQUAL(whitebindPermissions.m_flags, NetPermissionFlags::All);
// Allow dups
BOOST_CHECK(NetWhitebindPermissions::TryParse("bloom,relay,noban,noban@1.2.3.4:32", whitebindPermissions, error));
BOOST_CHECK_EQUAL(whitebindPermissions.m_flags, NetPermissionFlags::BloomFilter | NetPermissionFlags::Relay | NetPermissionFlags::NoBan | NetPermissionFlags::Download); // "noban" implies "download"
// Allow empty
BOOST_CHECK(NetWhitebindPermissions::TryParse("bloom,relay,,noban@1.2.3.4:32", whitebindPermissions, error));
BOOST_CHECK_EQUAL(whitebindPermissions.m_flags, NetPermissionFlags::BloomFilter | NetPermissionFlags::Relay | NetPermissionFlags::NoBan);
BOOST_CHECK(NetWhitebindPermissions::TryParse(",@1.2.3.4:32", whitebindPermissions, error));
BOOST_CHECK_EQUAL(whitebindPermissions.m_flags, NetPermissionFlags::None);
BOOST_CHECK(NetWhitebindPermissions::TryParse(",,@1.2.3.4:32", whitebindPermissions, error));
BOOST_CHECK_EQUAL(whitebindPermissions.m_flags, NetPermissionFlags::None);
// Detect invalid flag
BOOST_CHECK(!NetWhitebindPermissions::TryParse("bloom,forcerelay,oopsie@1.2.3.4:32", whitebindPermissions, error));
BOOST_CHECK(error.original.find("Invalid P2P permission") != std::string::npos);
// Check netmask error
BOOST_CHECK(!NetWhitelistPermissions::TryParse("bloom,forcerelay,noban@1.2.3.4:32", whitelistPermissions, error));
BOOST_CHECK(error.original.find("Invalid netmask specified in -whitelist") != std::string::npos);
// Happy path for whitelist parsing
BOOST_CHECK(NetWhitelistPermissions::TryParse("noban@1.2.3.4", whitelistPermissions, error));
BOOST_CHECK_EQUAL(whitelistPermissions.m_flags, NetPermissionFlags::NoBan);
BOOST_CHECK(NetPermissions::HasFlag(whitelistPermissions.m_flags, NetPermissionFlags::NoBan));
BOOST_CHECK(NetWhitelistPermissions::TryParse("bloom,forcerelay,noban,relay@1.2.3.4/32", whitelistPermissions, error));
BOOST_CHECK_EQUAL(whitelistPermissions.m_flags, NetPermissionFlags::BloomFilter | NetPermissionFlags::ForceRelay | NetPermissionFlags::NoBan | NetPermissionFlags::Relay);
BOOST_CHECK(error.empty());
BOOST_CHECK_EQUAL(whitelistPermissions.m_subnet.ToString(), "1.2.3.4/32");
BOOST_CHECK(NetWhitelistPermissions::TryParse("bloom,forcerelay,noban,relay,mempool@1.2.3.4/32", whitelistPermissions, error));
const auto strings = NetPermissions::ToStrings(NetPermissionFlags::All);
BOOST_CHECK_EQUAL(strings.size(), 7U);
BOOST_CHECK(std::find(strings.begin(), strings.end(), "bloomfilter") != strings.end());
BOOST_CHECK(std::find(strings.begin(), strings.end(), "forcerelay") != strings.end());
BOOST_CHECK(std::find(strings.begin(), strings.end(), "relay") != strings.end());
BOOST_CHECK(std::find(strings.begin(), strings.end(), "noban") != strings.end());
BOOST_CHECK(std::find(strings.begin(), strings.end(), "mempool") != strings.end());
BOOST_CHECK(std::find(strings.begin(), strings.end(), "download") != strings.end());
BOOST_CHECK(std::find(strings.begin(), strings.end(), "addr") != strings.end());
}
BOOST_AUTO_TEST_CASE(netbase_dont_resolve_strings_with_embedded_nul_characters)
{
CNetAddr addr;
BOOST_CHECK(LookupHost("127.0.0.1"s, addr, false));
BOOST_CHECK(!LookupHost("127.0.0.1\0"s, addr, false));
BOOST_CHECK(!LookupHost("127.0.0.1\0example.com"s, addr, false));
BOOST_CHECK(!LookupHost("127.0.0.1\0example.com\0"s, addr, false));
CSubNet ret;
BOOST_CHECK(LookupSubNet("1.2.3.0/24"s, ret));
BOOST_CHECK(!LookupSubNet("1.2.3.0/24\0"s, ret));
BOOST_CHECK(!LookupSubNet("1.2.3.0/24\0example.com"s, ret));
BOOST_CHECK(!LookupSubNet("1.2.3.0/24\0example.com\0"s, ret));
BOOST_CHECK(LookupSubNet("pg6mmjiyjmcrsslvykfwnntlaru7p5svn6y2ymmju6nubxndf4pscryd.onion"s, ret));
BOOST_CHECK(!LookupSubNet("pg6mmjiyjmcrsslvykfwnntlaru7p5svn6y2ymmju6nubxndf4pscryd.onion\0"s, ret));
BOOST_CHECK(!LookupSubNet("pg6mmjiyjmcrsslvykfwnntlaru7p5svn6y2ymmju6nubxndf4pscryd.onion\0example.com"s, ret));
BOOST_CHECK(!LookupSubNet("pg6mmjiyjmcrsslvykfwnntlaru7p5svn6y2ymmju6nubxndf4pscryd.onion\0example.com\0"s, ret));
}
// Since CNetAddr (un)ser is tested separately in net_tests.cpp here we only
// try a few edge cases for port, service flags and time.
static const std::vector<CAddress> fixture_addresses({
CAddress{
CService(CNetAddr(in6_addr(IN6ADDR_LOOPBACK_INIT)), 0 /* port */),
NODE_NONE,
NodeSeconds{0x4966bc61s}, /* Fri Jan 9 02:54:25 UTC 2009 */
},
CAddress{
CService(CNetAddr(in6_addr(IN6ADDR_LOOPBACK_INIT)), 0x00f1 /* port */),
NODE_NETWORK,
NodeSeconds{0x83766279s}, /* Tue Nov 22 11:22:33 UTC 2039 */
},
CAddress{
CService(CNetAddr(in6_addr(IN6ADDR_LOOPBACK_INIT)), 0xf1f2 /* port */),
static_cast<ServiceFlags>(NODE_WITNESS | NODE_COMPACT_FILTERS | NODE_NETWORK_LIMITED),
NodeSeconds{0xffffffffs}, /* Sun Feb 7 06:28:15 UTC 2106 */
},
});
// fixture_addresses should equal to this when serialized in V1 format.
// When this is unserialized from V1 format it should equal to fixture_addresses.
static constexpr const char* stream_addrv1_hex =
"03" // number of entries
"61bc6649" // time, Fri Jan 9 02:54:25 UTC 2009
"0000000000000000" // service flags, NODE_NONE
"00000000000000000000000000000001" // address, fixed 16 bytes (IPv4 embedded in IPv6)
"0000" // port
"79627683" // time, Tue Nov 22 11:22:33 UTC 2039
"0100000000000000" // service flags, NODE_NETWORK
"00000000000000000000000000000001" // address, fixed 16 bytes (IPv6)
"00f1" // port
"ffffffff" // time, Sun Feb 7 06:28:15 UTC 2106
"4804000000000000" // service flags, NODE_WITNESS | NODE_COMPACT_FILTERS | NODE_NETWORK_LIMITED
"00000000000000000000000000000001" // address, fixed 16 bytes (IPv6)
"f1f2"; // port
// fixture_addresses should equal to this when serialized in V2 format.
// When this is unserialized from V2 format it should equal to fixture_addresses.
static constexpr const char* stream_addrv2_hex =
"03" // number of entries
"61bc6649" // time, Fri Jan 9 02:54:25 UTC 2009
"00" // service flags, COMPACTSIZE(NODE_NONE)
"02" // network id, IPv6
"10" // address length, COMPACTSIZE(16)
"00000000000000000000000000000001" // address
"0000" // port
"79627683" // time, Tue Nov 22 11:22:33 UTC 2039
"01" // service flags, COMPACTSIZE(NODE_NETWORK)
"02" // network id, IPv6
"10" // address length, COMPACTSIZE(16)
"00000000000000000000000000000001" // address
"00f1" // port
"ffffffff" // time, Sun Feb 7 06:28:15 UTC 2106
"fd4804" // service flags, COMPACTSIZE(NODE_WITNESS | NODE_COMPACT_FILTERS | NODE_NETWORK_LIMITED)
"02" // network id, IPv6
"10" // address length, COMPACTSIZE(16)
"00000000000000000000000000000001" // address
"f1f2"; // port
BOOST_AUTO_TEST_CASE(caddress_serialize_v1)
{
CDataStream s(SER_NETWORK, PROTOCOL_VERSION);
s << fixture_addresses;
BOOST_CHECK_EQUAL(HexStr(s), stream_addrv1_hex);
}
BOOST_AUTO_TEST_CASE(caddress_unserialize_v1)
{
CDataStream s(ParseHex(stream_addrv1_hex), SER_NETWORK, PROTOCOL_VERSION);
std::vector<CAddress> addresses_unserialized;
s >> addresses_unserialized;
BOOST_CHECK(fixture_addresses == addresses_unserialized);
}
BOOST_AUTO_TEST_CASE(caddress_serialize_v2)
{
CDataStream s(SER_NETWORK, PROTOCOL_VERSION | ADDRV2_FORMAT);
s << fixture_addresses;
BOOST_CHECK_EQUAL(HexStr(s), stream_addrv2_hex);
}
BOOST_AUTO_TEST_CASE(caddress_unserialize_v2)
{
CDataStream s(ParseHex(stream_addrv2_hex), SER_NETWORK, PROTOCOL_VERSION | ADDRV2_FORMAT);
std::vector<CAddress> addresses_unserialized;
s >> addresses_unserialized;
BOOST_CHECK(fixture_addresses == addresses_unserialized);
}
BOOST_AUTO_TEST_CASE(isbadport)
{
BOOST_CHECK(IsBadPort(1));
BOOST_CHECK(IsBadPort(22));
BOOST_CHECK(IsBadPort(6000));
BOOST_CHECK(!IsBadPort(80));
BOOST_CHECK(!IsBadPort(443));
BOOST_CHECK(!IsBadPort(8333));
// Check all ports, there must be 80 bad ports in total.
size_t total_bad_ports{0};
for (uint16_t port = std::numeric_limits<uint16_t>::max(); port > 0; --port) {
if (IsBadPort(port)) {
++total_bad_ports;
}
}
BOOST_CHECK_EQUAL(total_bad_ports, 80);
}
BOOST_AUTO_TEST_SUITE_END()
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