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//
// network_v4.cpp
// ~~~~~~~~~~~~~~
//
// Copyright (c) 2003-2016 Christopher M. Kohlhoff (chris at kohlhoff dot com)
// Copyright (c) 2014 Oliver Kowalke (oliver dot kowalke at gmail dot com)
//
// Distributed under the Boost Software License, Version 1.0. (See accompanying
// file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// Disable autolinking for unit tests.
#if !defined(BOOST_ALL_NO_LIB)
#define BOOST_ALL_NO_LIB 1
#endif // !defined(BOOST_ALL_NO_LIB)
// Test that header file is self-contained.
#include "asio/ip/network_v4.hpp"
#include "../unit_test.hpp"
#include <sstream>
//------------------------------------------------------------------------------
// ip_network_v4_compile test
// ~~~~~~~~~~~~~~~~~~~~~~~~~~
// The following test checks that all public member functions on the class
// ip::network_v4 compile and link correctly. Runtime failures are ignored.
namespace ip_network_v4_compile {
void test()
{
using namespace asio;
namespace ip = asio::ip;
try
{
asio::error_code ec;
// network_v4 constructors.
ip::network_v4 net1(ip::make_address_v4("192.168.1.0"), 32);
ip::network_v4 net2(ip::make_address_v4("192.168.1.0"),
ip::make_address_v4("255.255.255.0"));
// network_v4 functions.
ip::address_v4 addr1 = net1.address();
(void)addr1;
unsigned short prefix_len = net1.prefix_length();
(void)prefix_len;
ip::address_v4 addr2 = net1.netmask();
(void)addr2;
ip::address_v4 addr3 = net1.network();
(void)addr3;
ip::address_v4 addr4 = net1.broadcast();
(void)addr4;
ip::address_v4_range hosts = net1.hosts();
(void)hosts;
ip::network_v4 net3 = net1.canonical();
(void)net3;
bool b1 = net1.is_host();
(void)b1;
bool b2 = net1.is_subnet_of(net2);
(void)b2;
std::string s1 = net1.to_string();
(void)s1;
std::string s2 = net1.to_string(ec);
(void)s2;
// network_v4 comparisons.
bool b3 = (net1 == net2);
(void)b3;
bool b4 = (net1 != net2);
(void)b4;
// network_v4 creation functions.
net1 = ip::make_network_v4(ip::address_v4(), 24);
net1 = ip::make_network_v4(ip::address_v4(), ip::address_v4());
net1 = ip::make_network_v4("10.0.0.0/8");
net1 = ip::make_network_v4("10.0.0.0/8", ec);
net1 = ip::make_network_v4(s1);
net1 = ip::make_network_v4(s1, ec);
#if defined(ASIO_HAS_STD_STRING_VIEW)
# if defined(ASIO_HAS_STD_EXPERIMENTAL_STRING_VIEW)
std::experimental::string_view string_view_value("10.0.0.0/8");
# else // defined(ASIO_HAS_STD_EXPERIMENTAL_STRING_VIEW)
std::string_view string_view_value("10.0.0.0/8");
# endif // defined(ASIO_HAS_STD_EXPERIMENTAL_STRING_VIEW)
net1 = ip::make_network_v4(string_view_value);
net1 = ip::make_network_v4(string_view_value, ec);
#endif // defined(ASIO_HAS_STD_STRING_VIEW)
// network_v4 I/O.
std::ostringstream os;
os << net1;
#if !defined(BOOST_NO_STD_WSTREAMBUF)
std::wostringstream wos;
wos << net1;
#endif // !defined(BOOST_NO_STD_WSTREAMBUF)
}
catch (std::exception&)
{
}
}
} // namespace ip_network_v4_compile
//------------------------------------------------------------------------------
// ip_network_v4_runtime test
// ~~~~~~~~~~~~~~~~~~~~~~~~~~
// The following test checks that the various public member functions meet the
// necessary postconditions.
namespace ip_network_v4_runtime {
void test()
{
using asio::ip::address_v4;
using asio::ip::make_address_v4;
using asio::ip::network_v4;
using asio::ip::make_network_v4;
address_v4 addr = make_address_v4("1.2.3.4");
// calculate prefix length
network_v4 net1(addr, make_address_v4("255.255.255.0"));
ASIO_CHECK(net1.prefix_length() == 24);
network_v4 net2(addr, make_address_v4("255.255.255.192"));
ASIO_CHECK(net2.prefix_length() == 26);
network_v4 net3(addr, make_address_v4("128.0.0.0"));
ASIO_CHECK(net3.prefix_length() == 1);
std::string msg;
try
{
make_network_v4(addr, make_address_v4("255.255.255.1"));
}
catch(std::exception& ex)
{
msg = ex.what();
}
ASIO_CHECK(msg == std::string("non-contiguous netmask"));
msg.clear();
try
{
make_network_v4(addr, make_address_v4("0.255.255.0"));
}
catch(std::exception& ex)
{
msg = ex.what();
}
ASIO_CHECK(msg == std::string("non-contiguous netmask"));
// calculate netmask
network_v4 net4(addr, 23);
ASIO_CHECK(net4.netmask() == make_address_v4("255.255.254.0"));
network_v4 net5(addr, 12);
ASIO_CHECK(net5.netmask() == make_address_v4("255.240.0.0"));
network_v4 net6(addr, 24);
ASIO_CHECK(net6.netmask() == make_address_v4("255.255.255.0"));
network_v4 net7(addr, 16);
ASIO_CHECK(net7.netmask() == make_address_v4("255.255.0.0"));
network_v4 net8(addr, 8);
ASIO_CHECK(net8.netmask() == make_address_v4("255.0.0.0"));
network_v4 net9(addr, 32);
ASIO_CHECK(net9.netmask() == make_address_v4("255.255.255.255"));
network_v4 net10(addr, 1);
ASIO_CHECK(net10.netmask() == make_address_v4("128.0.0.0"));
network_v4 net11(addr, 0);
ASIO_CHECK(net11.netmask() == make_address_v4("0.0.0.0"));
msg.clear();
try
{
make_network_v4(addr, 33);
}
catch(std::out_of_range& ex)
{
msg = ex.what();
}
ASIO_CHECK(msg == std::string("prefix length too large"));
// construct address range from address and prefix length
ASIO_CHECK(network_v4(make_address_v4("192.168.77.100"), 32).network() == make_address_v4("192.168.77.100"));
ASIO_CHECK(network_v4(make_address_v4("192.168.77.100"), 24).network() == make_address_v4("192.168.77.0"));
ASIO_CHECK(network_v4(make_address_v4("192.168.77.128"), 25).network() == make_address_v4("192.168.77.128"));
// construct address range from string in CIDR notation
ASIO_CHECK(make_network_v4("192.168.77.100/32").network() == make_address_v4("192.168.77.100"));
ASIO_CHECK(make_network_v4("192.168.77.100/24").network() == make_address_v4("192.168.77.0"));
ASIO_CHECK(make_network_v4("192.168.77.128/25").network() == make_address_v4("192.168.77.128"));
// prefix length
ASIO_CHECK(make_network_v4("193.99.144.80/24").prefix_length() == 24);
ASIO_CHECK(network_v4(make_address_v4("193.99.144.80"), 24).prefix_length() == 24);
ASIO_CHECK(network_v4(make_address_v4("192.168.77.0"), make_address_v4("255.255.255.0")).prefix_length() == 24);
// to string
std::string a("192.168.77.0/32");
ASIO_CHECK(make_network_v4(a.c_str()).to_string() == a);
ASIO_CHECK(network_v4(make_address_v4("192.168.77.10"), 24).to_string() == std::string("192.168.77.10/24"));
// return host part
ASIO_CHECK(make_network_v4("192.168.77.11/24").address() == make_address_v4("192.168.77.11"));
// return host in CIDR notation
ASIO_CHECK(make_network_v4("192.168.78.30/20").address().to_string() == "192.168.78.30");
// return network in CIDR notation
ASIO_CHECK(make_network_v4("192.168.78.30/20").canonical().to_string() == "192.168.64.0/20");
// is host
ASIO_CHECK(make_network_v4("192.168.77.0/32").is_host());
ASIO_CHECK(!make_network_v4("192.168.77.0/31").is_host());
// is real subnet of
ASIO_CHECK(make_network_v4("192.168.0.192/24").is_subnet_of(make_network_v4("192.168.0.0/16")));
ASIO_CHECK(make_network_v4("192.168.0.0/24").is_subnet_of(make_network_v4("192.168.192.168/16")));
ASIO_CHECK(make_network_v4("192.168.0.192/24").is_subnet_of(make_network_v4("192.168.192.168/16")));
ASIO_CHECK(make_network_v4("192.168.0.0/24").is_subnet_of(make_network_v4("192.168.0.0/16")));
ASIO_CHECK(make_network_v4("192.168.0.0/24").is_subnet_of(make_network_v4("192.168.0.0/23")));
ASIO_CHECK(make_network_v4("192.168.0.0/24").is_subnet_of(make_network_v4("192.168.0.0/0")));
ASIO_CHECK(make_network_v4("192.168.0.0/32").is_subnet_of(make_network_v4("192.168.0.0/24")));
ASIO_CHECK(!make_network_v4("192.168.0.0/32").is_subnet_of(make_network_v4("192.168.0.0/32")));
ASIO_CHECK(!make_network_v4("192.168.0.0/24").is_subnet_of(make_network_v4("192.168.1.0/24")));
ASIO_CHECK(!make_network_v4("192.168.0.0/16").is_subnet_of(make_network_v4("192.168.1.0/24")));
network_v4 r(make_network_v4("192.168.0.0/24"));
ASIO_CHECK(!r.is_subnet_of(r));
network_v4 net12(make_network_v4("192.168.0.2/24"));
network_v4 net13(make_network_v4("192.168.1.1/28"));
network_v4 net14(make_network_v4("192.168.1.21/28"));
// network
ASIO_CHECK(net12.network() == make_address_v4("192.168.0.0"));
ASIO_CHECK(net13.network() == make_address_v4("192.168.1.0"));
ASIO_CHECK(net14.network() == make_address_v4("192.168.1.16"));
// netmask
ASIO_CHECK(net12.netmask() == make_address_v4("255.255.255.0"));
ASIO_CHECK(net13.netmask() == make_address_v4("255.255.255.240"));
ASIO_CHECK(net14.netmask() == make_address_v4("255.255.255.240"));
// broadcast
ASIO_CHECK(net12.broadcast() == make_address_v4("192.168.0.255"));
ASIO_CHECK(net13.broadcast() == make_address_v4("192.168.1.15"));
ASIO_CHECK(net14.broadcast() == make_address_v4("192.168.1.31"));
// iterator
ASIO_CHECK(std::distance(net12.hosts().begin(),net12.hosts().end()) == 254);
ASIO_CHECK(*net12.hosts().begin() == make_address_v4("192.168.0.1"));
ASIO_CHECK(net12.hosts().end() != net12.hosts().find(make_address_v4("192.168.0.10")));
ASIO_CHECK(net12.hosts().end() == net12.hosts().find(make_address_v4("192.168.1.10")));
ASIO_CHECK(std::distance(net13.hosts().begin(),net13.hosts().end()) == 14);
ASIO_CHECK(*net13.hosts().begin() == make_address_v4("192.168.1.1"));
ASIO_CHECK(net13.hosts().end() != net13.hosts().find(make_address_v4("192.168.1.14")));
ASIO_CHECK(net13.hosts().end() == net13.hosts().find(make_address_v4("192.168.1.15")));
ASIO_CHECK(std::distance(net14.hosts().begin(),net14.hosts().end()) == 14);
ASIO_CHECK(*net14.hosts().begin() == make_address_v4("192.168.1.17"));
ASIO_CHECK(net14.hosts().end() != net14.hosts().find(make_address_v4("192.168.1.30")));
ASIO_CHECK(net14.hosts().end() == net14.hosts().find(make_address_v4("192.168.1.31")));
}
} // namespace ip_network_v4_runtime
//------------------------------------------------------------------------------
ASIO_TEST_SUITE
(
"ip/network_v4",
ASIO_TEST_CASE(ip_network_v4_compile::test)
ASIO_TEST_CASE(ip_network_v4_runtime::test)
)
|