314 lines
9.6 KiB
C++
314 lines
9.6 KiB
C++
/*
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* network.cpp
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*
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* This source file is part of the FoundationDB open source project
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*
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* Copyright 2013-2018 Apple Inc. and the FoundationDB project authors
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#include "Arena.h"
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#include "boost/asio.hpp"
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#include "flow/network.h"
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#include "flow/flow.h"
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#include "flow/UnitTest.h"
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bool IPAddress::operator==(const IPAddress& rhs) const {
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return addr == rhs.addr;
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}
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bool IPAddress::operator!=(const IPAddress& addr) const {
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return !(*this == addr);
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}
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bool IPAddress::operator<(const IPAddress& rhs) const {
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return addr < rhs.addr;
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}
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std::string IPAddress::toString() const {
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if (isV6()) {
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return boost::asio::ip::address_v6(std::get<IPAddressStore>(addr)).to_string();
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} else {
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auto ip = std::get<uint32_t>(addr);
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return format("%d.%d.%d.%d", (ip >> 24) & 0xff, (ip >> 16) & 0xff, (ip >> 8) & 0xff, ip & 0xff);
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}
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}
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Optional<IPAddress> IPAddress::parse(std::string const& str) {
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try {
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auto addr = boost::asio::ip::address::from_string(str);
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return addr.is_v6() ? IPAddress(addr.to_v6().to_bytes()) : IPAddress(addr.to_v4().to_ulong());
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} catch (...) {
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return Optional<IPAddress>();
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}
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}
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bool IPAddress::isValid() const {
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if (isV6()) {
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const auto& ip = std::get<IPAddressStore>(addr);
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return std::any_of(ip.begin(), ip.end(), [](uint8_t part) { return part != 0; });
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}
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return std::get<uint32_t>(addr) != 0;
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}
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Hostname Hostname::parse(std::string const& s) {
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if (s.empty()) {
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throw connection_string_invalid();
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}
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bool isTLS = false;
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std::string f;
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if (s.size() > 4 && strcmp(s.c_str() + s.size() - 4, ":tls") == 0) {
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isTLS = true;
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f = s.substr(0, s.size() - 4);
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} else {
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f = s;
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}
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auto colonPos = f.find_first_of(":");
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return Hostname(f.substr(0, colonPos), f.substr(colonPos + 1), isTLS);
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}
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FDB_DEFINE_BOOLEAN_PARAM(NetworkAddressFromHostname);
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NetworkAddress NetworkAddress::parse(std::string const& s) {
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if (s.empty()) {
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throw connection_string_invalid();
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}
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bool isTLS = false;
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NetworkAddressFromHostname fromHostname = NetworkAddressFromHostname::False;
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std::string f = s;
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const auto& pos = f.find("(fromHostname)");
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if (pos != std::string::npos) {
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fromHostname = NetworkAddressFromHostname::True;
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f = f.substr(0, pos);
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}
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if (f.size() > 4 && strcmp(f.c_str() + f.size() - 4, ":tls") == 0) {
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isTLS = true;
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f = f.substr(0, f.size() - 4);
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}
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if (f[0] == '[') {
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// IPv6 address/port pair is represented as "[ip]:port"
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auto addrEnd = f.find_first_of(']');
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if (addrEnd == std::string::npos || f[addrEnd + 1] != ':') {
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throw connection_string_invalid();
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}
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auto port = std::stoi(f.substr(addrEnd + 2));
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auto addr = IPAddress::parse(f.substr(1, addrEnd - 1));
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if (!addr.present()) {
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throw connection_string_invalid();
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}
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return NetworkAddress(addr.get(), port, true, isTLS, fromHostname);
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} else {
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// TODO: Use IPAddress::parse
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int a, b, c, d, port, count = -1;
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if (sscanf(f.c_str(), "%d.%d.%d.%d:%d%n", &a, &b, &c, &d, &port, &count) < 5 || count != f.size())
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throw connection_string_invalid();
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return NetworkAddress((a << 24) + (b << 16) + (c << 8) + d, port, true, isTLS, fromHostname);
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}
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}
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Optional<NetworkAddress> NetworkAddress::parseOptional(std::string const& s) {
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try {
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return NetworkAddress::parse(s);
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} catch (Error& e) {
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ASSERT(e.code() == error_code_connection_string_invalid);
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return Optional<NetworkAddress>();
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}
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}
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std::vector<NetworkAddress> NetworkAddress::parseList(std::string const& addrs) {
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// Split addrs on ',' and parse them individually
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std::vector<NetworkAddress> coord;
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for (int p = 0; p < addrs.length();) {
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int pComma = addrs.find_first_of(',', p);
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if (pComma == addrs.npos) {
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pComma = addrs.length();
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}
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coord.push_back(NetworkAddress::parse(addrs.substr(p, pComma - p)));
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p = pComma + 1;
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}
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return coord;
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}
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std::string NetworkAddress::toString() const {
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std::string ipString = formatIpPort(ip, port) + (isTLS() ? ":tls" : "");
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if (fromHostname) {
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return ipString + "(fromHostname)";
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}
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return ipString;
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}
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std::string toIPVectorString(const std::vector<uint32_t>& ips) {
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std::string output;
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const char* space = "";
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for (const auto& ip : ips) {
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output += format("%s%d.%d.%d.%d", space, (ip >> 24) & 0xff, (ip >> 16) & 0xff, (ip >> 8) & 0xff, ip & 0xff);
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space = " ";
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}
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return output;
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}
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std::string toIPVectorString(const std::vector<IPAddress>& ips) {
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std::string output;
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const char* space = "";
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for (auto ip : ips) {
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output += format("%s%s", space, ip.toString().c_str());
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space = " ";
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}
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return output;
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}
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std::string formatIpPort(const IPAddress& ip, uint16_t port) {
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const char* patt = ip.isV6() ? "[%s]:%d" : "%s:%d";
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return format(patt, ip.toString().c_str(), port);
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}
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Future<Reference<IConnection>> INetworkConnections::connect(const std::string& host,
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const std::string& service,
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bool isTLS) {
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// Use map to create an actor that returns an endpoint or throws
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Future<NetworkAddress> pickEndpoint =
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map(resolveTCPEndpoint(host, service), [=](std::vector<NetworkAddress> const& addresses) -> NetworkAddress {
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NetworkAddress addr = addresses[deterministicRandom()->randomInt(0, addresses.size())];
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addr.fromHostname = true;
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if (isTLS) {
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addr.flags = NetworkAddress::FLAG_TLS;
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}
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return addr;
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});
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// Wait for the endpoint to return, then wait for connect(endpoint) and return it.
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// Template types are being provided explicitly because they can't be automatically deduced for some reason.
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return mapAsync<NetworkAddress,
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std::function<Future<Reference<IConnection>>(NetworkAddress const&)>,
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Reference<IConnection>>(
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pickEndpoint,
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[=](NetworkAddress const& addr) -> Future<Reference<IConnection>> { return connectExternal(addr, host); });
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}
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IUDPSocket::~IUDPSocket() {}
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const std::vector<int> NetworkMetrics::starvationBins = { 1, 3500, 7000, 7500, 8500, 8900, 10500 };
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TEST_CASE("/flow/network/ipaddress") {
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ASSERT(NetworkAddress::parse("[::1]:4800").toString() == "[::1]:4800");
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{
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auto addr = "[2001:0db8:85a3:0000:0000:8a2e:0370:7334]:4800";
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auto addrParsed = NetworkAddress::parse(addr);
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auto addrCompressed = "[2001:db8:85a3::8a2e:370:7334]:4800";
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ASSERT(addrParsed.isV6());
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ASSERT(!addrParsed.isTLS());
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ASSERT(addrParsed.fromHostname == false);
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ASSERT(addrParsed.toString() == addrCompressed);
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ASSERT(addrParsed.toString() == addrCompressed);
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}
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{
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auto addr = "[2001:0db8:85a3:0000:0000:8a2e:0370:7334]:4800:tls(fromHostname)";
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auto addrParsed = NetworkAddress::parse(addr);
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auto addrCompressed = "[2001:db8:85a3::8a2e:370:7334]:4800:tls(fromHostname)";
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ASSERT(addrParsed.isV6());
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ASSERT(addrParsed.isTLS());
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ASSERT(addrParsed.fromHostname == true);
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ASSERT(addrParsed.toString() == addrCompressed);
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}
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{
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auto addr = "2001:0db8:85a3:0000:0000:8a2e:0370:7334";
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auto addrCompressed = "2001:db8:85a3::8a2e:370:7334";
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auto addrParsed = IPAddress::parse(addr);
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ASSERT(addrParsed.present());
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ASSERT(addrParsed.get().toString() == addrCompressed);
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}
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{
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auto addr = "2001";
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auto addrParsed = IPAddress::parse(addr);
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ASSERT(!addrParsed.present());
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}
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{
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auto addr = "8.8.8.8:12";
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auto addrParsed = IPAddress::parse(addr);
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ASSERT(!addrParsed.present());
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}
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return Void();
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}
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TEST_CASE("/flow/network/hostname") {
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std::string hn1s = "localhost:1234";
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std::string hn2s = "host-name:1234";
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std::string hn3s = "host.name:1234";
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std::string hn4s = "host-name_part1.host-name_part2:1234:tls";
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std::string hn5s = "127.0.0.1:1234";
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std::string hn6s = "127.0.0.1:1234:tls";
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std::string hn7s = "[2001:0db8:85a3:0000:0000:8a2e:0370:7334]:4800";
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std::string hn8s = "[2001:0db8:85a3:0000:0000:8a2e:0370:7334]:4800:tls";
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std::string hn9s = "2001:0db8:85a3:0000:0000:8a2e:0370:7334";
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std::string hn10s = "2001:0db8:85a3:0000:0000:8a2e:0370:7334:tls";
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std::string hn11s = "[::1]:4800";
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std::string hn12s = "[::1]:4800:tls";
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std::string hn13s = "1234";
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auto hn1 = Hostname::parse(hn1s);
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ASSERT(hn1.toString() == hn1s);
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ASSERT(hn1.host == "localhost");
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ASSERT(hn1.service == "1234");
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ASSERT(!hn1.isTLS);
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auto hn2 = Hostname::parse(hn2s);
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ASSERT(hn2.toString() == hn2s);
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ASSERT(hn2.host == "host-name");
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ASSERT(hn2.service == "1234");
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ASSERT(!hn2.isTLS);
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auto hn3 = Hostname::parse(hn3s);
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ASSERT(hn3.toString() == hn3s);
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ASSERT(hn3.host == "host.name");
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ASSERT(hn3.service == "1234");
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ASSERT(!hn3.isTLS);
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auto hn4 = Hostname::parse(hn4s);
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ASSERT(hn4.toString() == hn4s);
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ASSERT(hn4.host == "host-name_part1.host-name_part2");
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ASSERT(hn4.service == "1234");
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ASSERT(hn4.isTLS);
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ASSERT(Hostname::isHostname(hn1s));
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ASSERT(Hostname::isHostname(hn2s));
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ASSERT(Hostname::isHostname(hn3s));
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ASSERT(Hostname::isHostname(hn4s));
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ASSERT(!Hostname::isHostname(hn5s));
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ASSERT(!Hostname::isHostname(hn6s));
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ASSERT(!Hostname::isHostname(hn7s));
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ASSERT(!Hostname::isHostname(hn8s));
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ASSERT(!Hostname::isHostname(hn9s));
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ASSERT(!Hostname::isHostname(hn10s));
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ASSERT(!Hostname::isHostname(hn11s));
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ASSERT(!Hostname::isHostname(hn12s));
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ASSERT(!Hostname::isHostname(hn13s));
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return Void();
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}
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NetworkInfo::NetworkInfo() : handshakeLock(new FlowLock(FLOW_KNOBS->TLS_HANDSHAKE_LIMIT)) {}
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