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webrtc/rtc_base/network_unittest.cc
Qingsi Wang 10a0e516bf Improve text logs in the network stack. 
1) Network info is appended with its network ID assigned by the network
manager so that we can cross-reference networks by IDs in the log.
2) The local network info is added to the candidate pair string
representation so that we do not need the cross reference to the
logs of candidate gathering to find out the network where the local
candidate is from.
3) A flag is added to the candidate pair string representation to
indicate if this pair is the selected one.
4) Sorting of candidate pairs is logged with the reason of sorting
request.
5) Network filtering that takes place in the port allocator is
explicitly logged.

Bug: None
Change-Id: Iaa337394cad803515e26e254814aa04ed2213eab
Reviewed-on: https://webrtc-review.googlesource.com/72522
Commit-Queue: Qingsi Wang <qingsi@google.com>
Reviewed-by: Taylor Brandstetter <deadbeef@webrtc.org>
Cr-Commit-Position: refs/heads/master@{#23266}
2018-05-16 23:46:22 +00:00

1170 lines
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/*
* Copyright 2004 The WebRTC Project Authors. All rights reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
#include "rtc_base/network.h"
#include <stdlib.h>
#include <memory>
#include <vector>
#include "rtc_base/checks.h"
#include "rtc_base/nethelpers.h"
#include "rtc_base/networkmonitor.h"
#if defined(WEBRTC_POSIX)
#include <sys/types.h>
#include <net/if.h>
#include "rtc_base/ifaddrs_converter.h"
#endif // defined(WEBRTC_POSIX)
#include "rtc_base/gunit.h"
#if defined(WEBRTC_WIN)
#include "rtc_base/logging.h" // For RTC_LOG_GLE
#endif
namespace rtc {
namespace {
class FakeNetworkMonitor : public NetworkMonitorBase {
public:
void Start() override { started_ = true; }
void Stop() override { started_ = false; }
bool started() { return started_; }
AdapterType GetAdapterType(const std::string& if_name) override {
// Note that the name matching rules are different from the
// GetAdapterTypeFromName in NetworkManager.
if (if_name.find("wifi") == 0) {
return ADAPTER_TYPE_WIFI;
}
if (if_name.find("cellular") == 0) {
return ADAPTER_TYPE_CELLULAR;
}
return ADAPTER_TYPE_UNKNOWN;
}
private:
bool started_ = false;
};
class FakeNetworkMonitorFactory : public NetworkMonitorFactory {
public:
FakeNetworkMonitorFactory() {}
NetworkMonitorInterface* CreateNetworkMonitor() override {
return new FakeNetworkMonitor();
}
};
bool SameNameAndPrefix(const rtc::Network& a, const rtc::Network& b) {
if (a.name() != b.name()) {
RTC_LOG(INFO) << "Different interface names.";
return false;
}
if (a.prefix_length() != b.prefix_length() || a.prefix() != b.prefix()) {
RTC_LOG(INFO) << "Different IP prefixes.";
return false;
}
return true;
}
} // namespace
class NetworkTest : public testing::Test, public sigslot::has_slots<> {
public:
NetworkTest() : callback_called_(false) {}
void OnNetworksChanged() {
callback_called_ = true;
}
NetworkManager::Stats MergeNetworkList(
BasicNetworkManager& network_manager,
const NetworkManager::NetworkList& list,
bool* changed) {
NetworkManager::Stats stats;
network_manager.MergeNetworkList(list, changed, &stats);
return stats;
}
bool IsIgnoredNetwork(BasicNetworkManager& network_manager,
const Network& network) {
return network_manager.IsIgnoredNetwork(network);
}
NetworkManager::NetworkList GetNetworks(
const BasicNetworkManager& network_manager, bool include_ignored) {
NetworkManager::NetworkList list;
network_manager.CreateNetworks(include_ignored, &list);
return list;
}
FakeNetworkMonitor* GetNetworkMonitor(BasicNetworkManager& network_manager) {
return static_cast<FakeNetworkMonitor*>(
network_manager.network_monitor_.get());
}
void ClearNetworks(BasicNetworkManager& network_manager) {
for (const auto& kv : network_manager.networks_map_) {
delete kv.second;
}
network_manager.networks_.clear();
network_manager.networks_map_.clear();
}
AdapterType GetAdapterType(BasicNetworkManager& network_manager) {
BasicNetworkManager::NetworkList list;
network_manager.GetNetworks(&list);
RTC_CHECK_EQ(1, list.size());
return list[0]->type();
}
#if defined(WEBRTC_POSIX)
// Separated from CreateNetworks for tests.
static void CallConvertIfAddrs(const BasicNetworkManager& network_manager,
struct ifaddrs* interfaces,
bool include_ignored,
NetworkManager::NetworkList* networks) {
// Use the base IfAddrsConverter for test cases.
std::unique_ptr<IfAddrsConverter> ifaddrs_converter(new IfAddrsConverter());
network_manager.ConvertIfAddrs(interfaces, ifaddrs_converter.get(),
include_ignored, networks);
}
struct sockaddr_in6* CreateIpv6Addr(const std::string& ip_string,
uint32_t scope_id) {
struct sockaddr_in6* ipv6_addr = static_cast<struct sockaddr_in6*>(
malloc(sizeof(struct sockaddr_in6)));
memset(ipv6_addr, 0, sizeof(struct sockaddr_in6));
ipv6_addr->sin6_family = AF_INET6;
ipv6_addr->sin6_scope_id = scope_id;
IPAddress ip;
IPFromString(ip_string, &ip);
ipv6_addr->sin6_addr = ip.ipv6_address();
return ipv6_addr;
}
// Pointers created here need to be released via ReleaseIfAddrs.
struct ifaddrs* AddIpv6Address(struct ifaddrs* list,
char* if_name,
const std::string& ipv6_address,
const std::string& ipv6_netmask,
uint32_t scope_id) {
struct ifaddrs* if_addr = new struct ifaddrs;
memset(if_addr, 0, sizeof(struct ifaddrs));
if_addr->ifa_name = if_name;
if_addr->ifa_addr = reinterpret_cast<struct sockaddr*>(
CreateIpv6Addr(ipv6_address, scope_id));
if_addr->ifa_netmask =
reinterpret_cast<struct sockaddr*>(CreateIpv6Addr(ipv6_netmask, 0));
if_addr->ifa_next = list;
if_addr->ifa_flags = IFF_RUNNING;
return if_addr;
}
struct ifaddrs* InstallIpv6Network(char* if_name,
const std::string& ipv6_address,
const std::string& ipv6_mask,
BasicNetworkManager& network_manager) {
ifaddrs* addr_list = nullptr;
addr_list = AddIpv6Address(addr_list, if_name, ipv6_address, ipv6_mask, 0);
NetworkManager::NetworkList result;
bool changed;
NetworkManager::Stats stats;
CallConvertIfAddrs(network_manager, addr_list, true, &result);
network_manager.MergeNetworkList(result, &changed, &stats);
return addr_list;
}
void ReleaseIfAddrs(struct ifaddrs* list) {
struct ifaddrs* if_addr = list;
while (if_addr != nullptr) {
struct ifaddrs* next_addr = if_addr->ifa_next;
free(if_addr->ifa_addr);
free(if_addr->ifa_netmask);
delete if_addr;
if_addr = next_addr;
}
}
#endif // defined(WEBRTC_POSIX)
protected:
bool callback_called_;
};
class TestBasicNetworkManager : public BasicNetworkManager {
public:
using BasicNetworkManager::QueryDefaultLocalAddress;
using BasicNetworkManager::set_default_local_addresses;
};
// Test that the Network ctor works properly.
TEST_F(NetworkTest, TestNetworkConstruct) {
Network ipv4_network1("test_eth0", "Test Network Adapter 1",
IPAddress(0x12345600U), 24);
EXPECT_EQ("test_eth0", ipv4_network1.name());
EXPECT_EQ("Test Network Adapter 1", ipv4_network1.description());
EXPECT_EQ(IPAddress(0x12345600U), ipv4_network1.prefix());
EXPECT_EQ(24, ipv4_network1.prefix_length());
EXPECT_FALSE(ipv4_network1.ignored());
}
TEST_F(NetworkTest, TestIsIgnoredNetworkIgnoresIPsStartingWith0) {
Network ipv4_network1("test_eth0", "Test Network Adapter 1",
IPAddress(0x12345600U), 24, ADAPTER_TYPE_ETHERNET);
Network ipv4_network2("test_eth1", "Test Network Adapter 2",
IPAddress(0x010000U), 24, ADAPTER_TYPE_ETHERNET);
BasicNetworkManager network_manager;
EXPECT_FALSE(IsIgnoredNetwork(network_manager, ipv4_network1));
EXPECT_TRUE(IsIgnoredNetwork(network_manager, ipv4_network2));
}
// TODO(phoglund): Remove when ignore list goes away.
TEST_F(NetworkTest, TestIgnoreList) {
Network ignore_me("ignore_me", "Ignore me please!",
IPAddress(0x12345600U), 24);
Network include_me("include_me", "Include me please!",
IPAddress(0x12345600U), 24);
BasicNetworkManager network_manager;
EXPECT_FALSE(IsIgnoredNetwork(network_manager, ignore_me));
EXPECT_FALSE(IsIgnoredNetwork(network_manager, include_me));
std::vector<std::string> ignore_list;
ignore_list.push_back("ignore_me");
network_manager.set_network_ignore_list(ignore_list);
EXPECT_TRUE(IsIgnoredNetwork(network_manager, ignore_me));
EXPECT_FALSE(IsIgnoredNetwork(network_manager, include_me));
}
// Test is failing on Windows opt: b/11288214
TEST_F(NetworkTest, DISABLED_TestCreateNetworks) {
BasicNetworkManager manager;
NetworkManager::NetworkList result = GetNetworks(manager, true);
// We should be able to bind to any addresses we find.
NetworkManager::NetworkList::iterator it;
for (it = result.begin();
it != result.end();
++it) {
sockaddr_storage storage;
memset(&storage, 0, sizeof(storage));
IPAddress ip = (*it)->GetBestIP();
SocketAddress bindaddress(ip, 0);
bindaddress.SetScopeID((*it)->scope_id());
// TODO(thaloun): Use rtc::AsyncSocket once it supports IPv6.
int fd = static_cast<int>(socket(ip.family(), SOCK_STREAM, IPPROTO_TCP));
if (fd > 0) {
size_t ipsize = bindaddress.ToSockAddrStorage(&storage);
EXPECT_GE(ipsize, 0U);
int success = ::bind(fd,
reinterpret_cast<sockaddr*>(&storage),
static_cast<int>(ipsize));
#if defined(WEBRTC_WIN)
if (success)
RTC_LOG_GLE(LS_ERROR) << "Socket bind failed.";
#endif
EXPECT_EQ(0, success);
#if defined(WEBRTC_WIN)
closesocket(fd);
#else
close(fd);
#endif
}
delete (*it);
}
}
// Test StartUpdating() and StopUpdating(). network_permission_state starts with
// ALLOWED.
TEST_F(NetworkTest, TestUpdateNetworks) {
BasicNetworkManager manager;
manager.SignalNetworksChanged.connect(
static_cast<NetworkTest*>(this), &NetworkTest::OnNetworksChanged);
EXPECT_EQ(NetworkManager::ENUMERATION_ALLOWED,
manager.enumeration_permission());
manager.StartUpdating();
Thread::Current()->ProcessMessages(0);
EXPECT_TRUE(callback_called_);
callback_called_ = false;
// Callback should be triggered immediately when StartUpdating
// is called, after network update signal is already sent.
manager.StartUpdating();
EXPECT_TRUE(manager.started());
Thread::Current()->ProcessMessages(0);
EXPECT_TRUE(callback_called_);
manager.StopUpdating();
EXPECT_TRUE(manager.started());
manager.StopUpdating();
EXPECT_EQ(NetworkManager::ENUMERATION_ALLOWED,
manager.enumeration_permission());
EXPECT_FALSE(manager.started());
manager.StopUpdating();
EXPECT_FALSE(manager.started());
callback_called_ = false;
// Callback should be triggered immediately after StartUpdating is called
// when start_count_ is reset to 0.
manager.StartUpdating();
Thread::Current()->ProcessMessages(0);
EXPECT_TRUE(callback_called_);
}
// Verify that MergeNetworkList() merges network lists properly.
TEST_F(NetworkTest, TestBasicMergeNetworkList) {
Network ipv4_network1("test_eth0", "Test Network Adapter 1",
IPAddress(0x12345600U), 24);
Network ipv4_network2("test_eth1", "Test Network Adapter 2",
IPAddress(0x00010000U), 16);
ipv4_network1.AddIP(IPAddress(0x12345678));
ipv4_network2.AddIP(IPAddress(0x00010004));
BasicNetworkManager manager;
// Add ipv4_network1 to the list of networks.
NetworkManager::NetworkList list;
list.push_back(new Network(ipv4_network1));
bool changed;
NetworkManager::Stats stats = MergeNetworkList(manager, list, &changed);
EXPECT_TRUE(changed);
EXPECT_EQ(stats.ipv6_network_count, 0);
EXPECT_EQ(stats.ipv4_network_count, 1);
list.clear();
manager.GetNetworks(&list);
EXPECT_EQ(1U, list.size());
EXPECT_TRUE(SameNameAndPrefix(ipv4_network1, *list[0]));
Network* net1 = list[0];
uint16_t net_id1 = net1->id();
EXPECT_EQ(1, net_id1);
list.clear();
// Replace ipv4_network1 with ipv4_network2.
list.push_back(new Network(ipv4_network2));
stats = MergeNetworkList(manager, list, &changed);
EXPECT_TRUE(changed);
EXPECT_EQ(stats.ipv6_network_count, 0);
EXPECT_EQ(stats.ipv4_network_count, 1);
list.clear();
manager.GetNetworks(&list);
EXPECT_EQ(1U, list.size());
EXPECT_TRUE(SameNameAndPrefix(ipv4_network2, *list[0]));
Network* net2 = list[0];
uint16_t net_id2 = net2->id();
// Network id will increase.
EXPECT_LT(net_id1, net_id2);
list.clear();
// Add Network2 back.
list.push_back(new Network(ipv4_network1));
list.push_back(new Network(ipv4_network2));
stats = MergeNetworkList(manager, list, &changed);
EXPECT_TRUE(changed);
EXPECT_EQ(stats.ipv6_network_count, 0);
EXPECT_EQ(stats.ipv4_network_count, 2);
list.clear();
// Verify that we get previous instances of Network objects.
manager.GetNetworks(&list);
EXPECT_EQ(2U, list.size());
EXPECT_TRUE((net1 == list[0] && net2 == list[1]) ||
(net1 == list[1] && net2 == list[0]));
EXPECT_TRUE((net_id1 == list[0]->id() && net_id2 == list[1]->id()) ||
(net_id1 == list[1]->id() && net_id2 == list[0]->id()));
list.clear();
// Call MergeNetworkList() again and verify that we don't get update
// notification.
list.push_back(new Network(ipv4_network2));
list.push_back(new Network(ipv4_network1));
stats = MergeNetworkList(manager, list, &changed);
EXPECT_FALSE(changed);
EXPECT_EQ(stats.ipv6_network_count, 0);
EXPECT_EQ(stats.ipv4_network_count, 2);
list.clear();
// Verify that we get previous instances of Network objects.
manager.GetNetworks(&list);
EXPECT_EQ(2U, list.size());
EXPECT_TRUE((net1 == list[0] && net2 == list[1]) ||
(net1 == list[1] && net2 == list[0]));
EXPECT_TRUE((net_id1 == list[0]->id() && net_id2 == list[1]->id()) ||
(net_id1 == list[1]->id() && net_id2 == list[0]->id()));
list.clear();
}
// Sets up some test IPv6 networks and appends them to list.
// Four networks are added - public and link local, for two interfaces.
void SetupNetworks(NetworkManager::NetworkList* list) {
IPAddress ip;
IPAddress prefix;
EXPECT_TRUE(IPFromString("abcd::1234:5678:abcd:ef12", &ip));
EXPECT_TRUE(IPFromString("abcd::", &prefix));
// First, fake link-locals.
Network ipv6_eth0_linklocalnetwork("test_eth0", "Test NetworkAdapter 1",
prefix, 64);
ipv6_eth0_linklocalnetwork.AddIP(ip);
EXPECT_TRUE(IPFromString("abcd::5678:abcd:ef12:3456", &ip));
Network ipv6_eth1_linklocalnetwork("test_eth1", "Test NetworkAdapter 2",
prefix, 64);
ipv6_eth1_linklocalnetwork.AddIP(ip);
// Public networks:
EXPECT_TRUE(IPFromString("2401:fa00:4:1000:be30:5bff:fee5:c3", &ip));
prefix = TruncateIP(ip, 64);
Network ipv6_eth0_publicnetwork1_ip1("test_eth0", "Test NetworkAdapter 1",
prefix, 64);
ipv6_eth0_publicnetwork1_ip1.AddIP(ip);
EXPECT_TRUE(IPFromString("2400:4030:1:2c00:be30:abcd:efab:cdef", &ip));
prefix = TruncateIP(ip, 64);
Network ipv6_eth1_publicnetwork1_ip1("test_eth1", "Test NetworkAdapter 1",
prefix, 64);
ipv6_eth1_publicnetwork1_ip1.AddIP(ip);
list->push_back(new Network(ipv6_eth0_linklocalnetwork));
list->push_back(new Network(ipv6_eth1_linklocalnetwork));
list->push_back(new Network(ipv6_eth0_publicnetwork1_ip1));
list->push_back(new Network(ipv6_eth1_publicnetwork1_ip1));
}
// Test that the basic network merging case works.
TEST_F(NetworkTest, TestIPv6MergeNetworkList) {
BasicNetworkManager manager;
manager.SignalNetworksChanged.connect(
static_cast<NetworkTest*>(this), &NetworkTest::OnNetworksChanged);
NetworkManager::NetworkList original_list;
SetupNetworks(&original_list);
bool changed = false;
NetworkManager::Stats stats =
MergeNetworkList(manager, original_list, &changed);
EXPECT_TRUE(changed);
EXPECT_EQ(stats.ipv6_network_count, 4);
EXPECT_EQ(stats.ipv4_network_count, 0);
NetworkManager::NetworkList list;
manager.GetNetworks(&list);
EXPECT_EQ(original_list.size(), list.size());
// Verify that the original members are in the merged list.
for (NetworkManager::NetworkList::iterator it = original_list.begin();
it != original_list.end(); ++it) {
EXPECT_NE(list.end(), std::find(list.begin(), list.end(), *it));
}
}
// Tests that when two network lists that describe the same set of networks are
// merged, that the changed callback is not called, and that the original
// objects remain in the result list.
TEST_F(NetworkTest, TestNoChangeMerge) {
BasicNetworkManager manager;
manager.SignalNetworksChanged.connect(
static_cast<NetworkTest*>(this), &NetworkTest::OnNetworksChanged);
NetworkManager::NetworkList original_list;
SetupNetworks(&original_list);
bool changed = false;
MergeNetworkList(manager, original_list, &changed);
EXPECT_TRUE(changed);
// Second list that describes the same networks but with new objects.
NetworkManager::NetworkList second_list;
SetupNetworks(&second_list);
changed = false;
MergeNetworkList(manager, second_list, &changed);
EXPECT_FALSE(changed);
NetworkManager::NetworkList resulting_list;
manager.GetNetworks(&resulting_list);
EXPECT_EQ(original_list.size(), resulting_list.size());
// Verify that the original members are in the merged list.
for (NetworkManager::NetworkList::iterator it = original_list.begin();
it != original_list.end(); ++it) {
EXPECT_NE(resulting_list.end(),
std::find(resulting_list.begin(), resulting_list.end(), *it));
}
// Doublecheck that the new networks aren't in the list.
for (NetworkManager::NetworkList::iterator it = second_list.begin();
it != second_list.end(); ++it) {
EXPECT_EQ(resulting_list.end(),
std::find(resulting_list.begin(), resulting_list.end(), *it));
}
}
// Test that we can merge a network that is the same as another network but with
// a different IP. The original network should remain in the list, but have its
// IP changed.
TEST_F(NetworkTest, MergeWithChangedIP) {
BasicNetworkManager manager;
manager.SignalNetworksChanged.connect(
static_cast<NetworkTest*>(this), &NetworkTest::OnNetworksChanged);
NetworkManager::NetworkList original_list;
SetupNetworks(&original_list);
// Make a network that we're going to change.
IPAddress ip;
EXPECT_TRUE(IPFromString("2401:fa01:4:1000:be30:faa:fee:faa", &ip));
IPAddress prefix = TruncateIP(ip, 64);
Network* network_to_change = new Network("test_eth0",
"Test Network Adapter 1",
prefix, 64);
Network* changed_network = new Network(*network_to_change);
network_to_change->AddIP(ip);
IPAddress changed_ip;
EXPECT_TRUE(IPFromString("2401:fa01:4:1000:be30:f00:f00:f00", &changed_ip));
changed_network->AddIP(changed_ip);
original_list.push_back(network_to_change);
bool changed = false;
MergeNetworkList(manager, original_list, &changed);
NetworkManager::NetworkList second_list;
SetupNetworks(&second_list);
second_list.push_back(changed_network);
changed = false;
MergeNetworkList(manager, second_list, &changed);
EXPECT_TRUE(changed);
NetworkManager::NetworkList list;
manager.GetNetworks(&list);
EXPECT_EQ(original_list.size(), list.size());
// Make sure the original network is still in the merged list.
EXPECT_NE(list.end(),
std::find(list.begin(), list.end(), network_to_change));
EXPECT_EQ(changed_ip, network_to_change->GetIPs().at(0));
}
// Testing a similar case to above, but checking that a network can be updated
// with additional IPs (not just a replacement).
TEST_F(NetworkTest, TestMultipleIPMergeNetworkList) {
BasicNetworkManager manager;
manager.SignalNetworksChanged.connect(
static_cast<NetworkTest*>(this), &NetworkTest::OnNetworksChanged);
NetworkManager::NetworkList original_list;
SetupNetworks(&original_list);
bool changed = false;
MergeNetworkList(manager, original_list, &changed);
EXPECT_TRUE(changed);
IPAddress ip;
IPAddress check_ip;
IPAddress prefix;
// Add a second IP to the public network on eth0 (2401:fa00:4:1000/64).
EXPECT_TRUE(IPFromString("2401:fa00:4:1000:be30:5bff:fee5:c6", &ip));
prefix = TruncateIP(ip, 64);
Network ipv6_eth0_publicnetwork1_ip2("test_eth0", "Test NetworkAdapter 1",
prefix, 64);
// This is the IP that already existed in the public network on eth0.
EXPECT_TRUE(IPFromString("2401:fa00:4:1000:be30:5bff:fee5:c3", &check_ip));
ipv6_eth0_publicnetwork1_ip2.AddIP(ip);
original_list.push_back(new Network(ipv6_eth0_publicnetwork1_ip2));
changed = false;
MergeNetworkList(manager, original_list, &changed);
EXPECT_TRUE(changed);
// There should still be four networks.
NetworkManager::NetworkList list;
manager.GetNetworks(&list);
EXPECT_EQ(4U, list.size());
// Check the gathered IPs.
int matchcount = 0;
for (NetworkManager::NetworkList::iterator it = list.begin();
it != list.end(); ++it) {
if (SameNameAndPrefix(**it, *original_list[2])) {
++matchcount;
EXPECT_EQ(1, matchcount);
// This should be the same network object as before.
EXPECT_EQ((*it), original_list[2]);
// But with two addresses now.
EXPECT_EQ(2U, (*it)->GetIPs().size());
EXPECT_NE((*it)->GetIPs().end(),
std::find((*it)->GetIPs().begin(), (*it)->GetIPs().end(),
InterfaceAddress(check_ip)));
EXPECT_NE((*it)->GetIPs().end(),
std::find((*it)->GetIPs().begin(), (*it)->GetIPs().end(),
InterfaceAddress(ip)));
} else {
// Check the IP didn't get added anywhere it wasn't supposed to.
EXPECT_EQ((*it)->GetIPs().end(),
std::find((*it)->GetIPs().begin(), (*it)->GetIPs().end(),
InterfaceAddress(ip)));
}
}
}
// Test that merge correctly distinguishes multiple networks on an interface.
TEST_F(NetworkTest, TestMultiplePublicNetworksOnOneInterfaceMerge) {
BasicNetworkManager manager;
manager.SignalNetworksChanged.connect(
static_cast<NetworkTest*>(this), &NetworkTest::OnNetworksChanged);
NetworkManager::NetworkList original_list;
SetupNetworks(&original_list);
bool changed = false;
MergeNetworkList(manager, original_list, &changed);
EXPECT_TRUE(changed);
IPAddress ip;
IPAddress prefix;
// A second network for eth0.
EXPECT_TRUE(IPFromString("2400:4030:1:2c00:be30:5bff:fee5:c3", &ip));
prefix = TruncateIP(ip, 64);
Network ipv6_eth0_publicnetwork2_ip1("test_eth0", "Test NetworkAdapter 1",
prefix, 64);
ipv6_eth0_publicnetwork2_ip1.AddIP(ip);
original_list.push_back(new Network(ipv6_eth0_publicnetwork2_ip1));
changed = false;
MergeNetworkList(manager, original_list, &changed);
EXPECT_TRUE(changed);
// There should be five networks now.
NetworkManager::NetworkList list;
manager.GetNetworks(&list);
EXPECT_EQ(5U, list.size());
// Check the resulting addresses.
for (NetworkManager::NetworkList::iterator it = list.begin();
it != list.end(); ++it) {
if ((*it)->prefix() == ipv6_eth0_publicnetwork2_ip1.prefix() &&
(*it)->name() == ipv6_eth0_publicnetwork2_ip1.name()) {
// Check the new network has 1 IP and that it's the correct one.
EXPECT_EQ(1U, (*it)->GetIPs().size());
EXPECT_EQ(ip, (*it)->GetIPs().at(0));
} else {
// Check the IP didn't get added anywhere it wasn't supposed to.
EXPECT_EQ((*it)->GetIPs().end(),
std::find((*it)->GetIPs().begin(), (*it)->GetIPs().end(),
InterfaceAddress(ip)));
}
}
}
// Test that DumpNetworks does not crash.
TEST_F(NetworkTest, TestCreateAndDumpNetworks) {
BasicNetworkManager manager;
NetworkManager::NetworkList list = GetNetworks(manager, true);
bool changed;
MergeNetworkList(manager, list, &changed);
manager.DumpNetworks();
}
// Test that we can toggle IPv6 on and off.
// Crashes on Linux. See webrtc:4923.
#if defined(WEBRTC_LINUX)
#define MAYBE_TestIPv6Toggle DISABLED_TestIPv6Toggle
#else
#define MAYBE_TestIPv6Toggle TestIPv6Toggle
#endif
TEST_F(NetworkTest, MAYBE_TestIPv6Toggle) {
BasicNetworkManager manager;
bool ipv6_found = false;
NetworkManager::NetworkList list;
#if !defined(WEBRTC_WIN)
// There should be at least one IPv6 network (fe80::/64 should be in there).
// TODO(thaloun): Disabling this test on windows for the moment as the test
// machines don't seem to have IPv6 installed on them at all.
manager.set_ipv6_enabled(true);
list = GetNetworks(manager, true);
for (NetworkManager::NetworkList::iterator it = list.begin();
it != list.end(); ++it) {
if ((*it)->prefix().family() == AF_INET6) {
ipv6_found = true;
break;
}
}
EXPECT_TRUE(ipv6_found);
for (NetworkManager::NetworkList::iterator it = list.begin();
it != list.end(); ++it) {
delete (*it);
}
#endif
ipv6_found = false;
manager.set_ipv6_enabled(false);
list = GetNetworks(manager, true);
for (NetworkManager::NetworkList::iterator it = list.begin();
it != list.end(); ++it) {
if ((*it)->prefix().family() == AF_INET6) {
ipv6_found = true;
break;
}
}
EXPECT_FALSE(ipv6_found);
for (NetworkManager::NetworkList::iterator it = list.begin();
it != list.end(); ++it) {
delete (*it);
}
}
// Test that when network interfaces are sorted and given preference values,
// IPv6 comes first.
TEST_F(NetworkTest, IPv6NetworksPreferredOverIPv4) {
BasicNetworkManager manager;
Network ipv4_network1("test_eth0", "Test Network Adapter 1",
IPAddress(0x12345600U), 24);
ipv4_network1.AddIP(IPAddress(0x12345600U));
IPAddress ip;
IPAddress prefix;
EXPECT_TRUE(IPFromString("2400:4030:1:2c00:be30:abcd:efab:cdef", &ip));
prefix = TruncateIP(ip, 64);
Network ipv6_eth1_publicnetwork1_ip1("test_eth1", "Test NetworkAdapter 2",
prefix, 64);
ipv6_eth1_publicnetwork1_ip1.AddIP(ip);
NetworkManager::NetworkList list;
list.push_back(new Network(ipv4_network1));
list.push_back(new Network(ipv6_eth1_publicnetwork1_ip1));
Network* net1 = list[0];
Network* net2 = list[1];
bool changed = false;
MergeNetworkList(manager, list, &changed);
ASSERT_TRUE(changed);
// After sorting IPv6 network should be higher order than IPv4 networks.
EXPECT_TRUE(net1->preference() < net2->preference());
}
// When two interfaces are equivalent in everything but name, they're expected
// to be preference-ordered by name. For example, "eth0" before "eth1".
TEST_F(NetworkTest, NetworksSortedByInterfaceName) {
BasicNetworkManager manager;
Network* eth0 = new Network("test_eth0", "Test Network Adapter 1",
IPAddress(0x65432100U), 24);
eth0->AddIP(IPAddress(0x65432100U));
Network* eth1 = new Network("test_eth1", "Test Network Adapter 2",
IPAddress(0x12345600U), 24);
eth1->AddIP(IPAddress(0x12345600U));
NetworkManager::NetworkList list;
// Add them to the list in the opposite of the expected sorted order, to
// ensure sorting actually occurs.
list.push_back(eth1);
list.push_back(eth0);
bool changed = false;
MergeNetworkList(manager, list, &changed);
ASSERT_TRUE(changed);
// "test_eth0" should be preferred over "test_eth1".
EXPECT_TRUE(eth0->preference() > eth1->preference());
}
TEST_F(NetworkTest, TestNetworkAdapterTypes) {
Network wifi("wlan0", "Wireless Adapter", IPAddress(0x12345600U), 24,
ADAPTER_TYPE_WIFI);
EXPECT_EQ(ADAPTER_TYPE_WIFI, wifi.type());
Network ethernet("eth0", "Ethernet", IPAddress(0x12345600U), 24,
ADAPTER_TYPE_ETHERNET);
EXPECT_EQ(ADAPTER_TYPE_ETHERNET, ethernet.type());
Network cellular("test_cell", "Cellular Adapter", IPAddress(0x12345600U), 24,
ADAPTER_TYPE_CELLULAR);
EXPECT_EQ(ADAPTER_TYPE_CELLULAR, cellular.type());
Network vpn("bridge_test", "VPN Adapter", IPAddress(0x12345600U), 24,
ADAPTER_TYPE_VPN);
EXPECT_EQ(ADAPTER_TYPE_VPN, vpn.type());
Network unknown("test", "Test Adapter", IPAddress(0x12345600U), 24,
ADAPTER_TYPE_UNKNOWN);
EXPECT_EQ(ADAPTER_TYPE_UNKNOWN, unknown.type());
}
#if defined(WEBRTC_POSIX)
// Verify that we correctly handle interfaces with no address.
TEST_F(NetworkTest, TestConvertIfAddrsNoAddress) {
ifaddrs list;
memset(&list, 0, sizeof(list));
list.ifa_name = const_cast<char*>("test_iface");
NetworkManager::NetworkList result;
BasicNetworkManager manager;
CallConvertIfAddrs(manager, &list, true, &result);
EXPECT_TRUE(result.empty());
}
// Verify that if there are two addresses on one interface, only one network
// is generated.
TEST_F(NetworkTest, TestConvertIfAddrsMultiAddressesOnOneInterface) {
char if_name[20] = "rmnet0";
ifaddrs* list = nullptr;
list = AddIpv6Address(list, if_name, "1000:2000:3000:4000:0:0:0:1",
"FFFF:FFFF:FFFF:FFFF::", 0);
list = AddIpv6Address(list, if_name, "1000:2000:3000:4000:0:0:0:2",
"FFFF:FFFF:FFFF:FFFF::", 0);
NetworkManager::NetworkList result;
BasicNetworkManager manager;
CallConvertIfAddrs(manager, list, true, &result);
EXPECT_EQ(1U, result.size());
bool changed;
// This ensures we release the objects created in CallConvertIfAddrs.
MergeNetworkList(manager, result, &changed);
ReleaseIfAddrs(list);
}
TEST_F(NetworkTest, TestConvertIfAddrsNotRunning) {
ifaddrs list;
memset(&list, 0, sizeof(list));
list.ifa_name = const_cast<char*>("test_iface");
sockaddr ifa_addr;
sockaddr ifa_netmask;
list.ifa_addr = &ifa_addr;
list.ifa_netmask = &ifa_netmask;
NetworkManager::NetworkList result;
BasicNetworkManager manager;
CallConvertIfAddrs(manager, &list, true, &result);
EXPECT_TRUE(result.empty());
}
// Tests that the network type can be updated after the network monitor is
// started.
TEST_F(NetworkTest, TestGetAdapterTypeFromNetworkMonitor) {
char if_name1[20] = "wifi0";
std::string ipv6_address1 = "1000:2000:3000:4000:0:0:0:1";
std::string ipv6_address2 = "1000:2000:3000:8000:0:0:0:1";
std::string ipv6_mask = "FFFF:FFFF:FFFF:FFFF::";
BasicNetworkManager manager;
// A network created before the network monitor is started will get
// UNKNOWN type.
ifaddrs* addr_list =
InstallIpv6Network(if_name1, ipv6_address1, ipv6_mask, manager);
EXPECT_EQ(ADAPTER_TYPE_UNKNOWN, GetAdapterType(manager));
ReleaseIfAddrs(addr_list);
// Note: Do not call ClearNetworks here in order to test that the type
// of an existing network can be changed after the network monitor starts
// and detects the network type correctly.
// After the network monitor starts, the type will be updated.
FakeNetworkMonitorFactory* factory = new FakeNetworkMonitorFactory();
NetworkMonitorFactory::SetFactory(factory);
// This brings up the hook with the network monitor.
manager.StartUpdating();
// Add the same ipv6 address as before but it has the right network type
// detected by the network monitor now.
addr_list = InstallIpv6Network(if_name1, ipv6_address1, ipv6_mask, manager);
EXPECT_EQ(ADAPTER_TYPE_WIFI, GetAdapterType(manager));
ReleaseIfAddrs(addr_list);
ClearNetworks(manager);
// Add another network with the type inferred from the network monitor.
char if_name2[20] = "cellular0";
addr_list = InstallIpv6Network(if_name2, ipv6_address2, ipv6_mask, manager);
EXPECT_EQ(ADAPTER_TYPE_CELLULAR, GetAdapterType(manager));
ReleaseIfAddrs(addr_list);
ClearNetworks(manager);
}
// Test that the network type can be determined based on name matching in
// a few cases. Note that UNKNOWN type for non-matching strings has been tested
// in the above test.
TEST_F(NetworkTest, TestGetAdapterTypeFromNameMatching) {
std::string ipv6_address1 = "1000:2000:3000:4000:0:0:0:1";
std::string ipv6_address2 = "1000:2000:3000:8000:0:0:0:1";
std::string ipv6_mask = "FFFF:FFFF:FFFF:FFFF::";
BasicNetworkManager manager;
// IPSec interface; name is in form "ipsec<index>".
char if_name[20] = "ipsec11";
ifaddrs* addr_list =
InstallIpv6Network(if_name, ipv6_address1, ipv6_mask, manager);
EXPECT_EQ(ADAPTER_TYPE_VPN, GetAdapterType(manager));
ClearNetworks(manager);
ReleaseIfAddrs(addr_list);
strcpy(if_name, "lo0");
addr_list = InstallIpv6Network(if_name, ipv6_address1, ipv6_mask, manager);
EXPECT_EQ(ADAPTER_TYPE_LOOPBACK, GetAdapterType(manager));
ClearNetworks(manager);
ReleaseIfAddrs(addr_list);
strcpy(if_name, "eth0");
addr_list = InstallIpv6Network(if_name, ipv6_address1, ipv6_mask, manager);
EXPECT_EQ(ADAPTER_TYPE_ETHERNET, GetAdapterType(manager));
ClearNetworks(manager);
ReleaseIfAddrs(addr_list);
#if defined(WEBRTC_IOS)
strcpy(if_name, "pdp_ip0");
addr_list = InstallIpv6Network(if_name, ipv6_address1, ipv6_mask, manager);
EXPECT_EQ(ADAPTER_TYPE_CELLULAR, GetAdapterType(manager));
ClearNetworks(manager);
ReleaseIfAddrs(addr_list);
strcpy(if_name, "en0");
addr_list = InstallIpv6Network(if_name, ipv6_address1, ipv6_mask, manager);
EXPECT_EQ(ADAPTER_TYPE_WIFI, GetAdapterType(manager));
ClearNetworks(manager);
ReleaseIfAddrs(addr_list);
#elif defined(WEBRTC_ANDROID)
strcpy(if_name, "rmnet0");
addr_list = InstallIpv6Network(if_name, ipv6_address1, ipv6_mask, manager);
EXPECT_EQ(ADAPTER_TYPE_CELLULAR, GetAdapterType(manager));
ClearNetworks(manager);
ReleaseIfAddrs(addr_list);
strcpy(if_name, "wlan1");
addr_list = InstallIpv6Network(if_name, ipv6_address2, ipv6_mask, manager);
EXPECT_EQ(ADAPTER_TYPE_WIFI, GetAdapterType(manager));
ClearNetworks(manager);
ReleaseIfAddrs(addr_list);
strcpy(if_name, "v4-rmnet_data0");
addr_list = InstallIpv6Network(if_name, ipv6_address2, ipv6_mask, manager);
EXPECT_EQ(ADAPTER_TYPE_CELLULAR, GetAdapterType(manager));
ClearNetworks(manager);
ReleaseIfAddrs(addr_list);
#else
// TODO(deadbeef): If not iOS or Android, "wlan0" should be treated as
// "unknown"? Why? This should be fixed if there's no good reason.
strcpy(if_name, "wlan0");
addr_list = InstallIpv6Network(if_name, ipv6_address1, ipv6_mask, manager);
EXPECT_EQ(ADAPTER_TYPE_UNKNOWN, GetAdapterType(manager));
ClearNetworks(manager);
ReleaseIfAddrs(addr_list);
#endif
}
#endif // defined(WEBRTC_POSIX)
#if defined(WEBRTC_LINUX) && !defined(WEBRTC_ANDROID)
// If you want to test non-default routes, you can do the following on a linux
// machine:
// 1) Load the dummy network driver:
// sudo modprobe dummy
// sudo ifconfig dummy0 127.0.0.1
// 2) Run this test and confirm the output says it found a dummy route (and
// passes).
// 3) When done:
// sudo rmmmod dummy
TEST_F(NetworkTest, TestIgnoreNonDefaultRoutes) {
BasicNetworkManager manager;
NetworkManager::NetworkList list;
list = GetNetworks(manager, false);
bool found_dummy = false;
RTC_LOG(LS_INFO) << "Looking for dummy network: ";
for (NetworkManager::NetworkList::iterator it = list.begin();
it != list.end(); ++it) {
RTC_LOG(LS_INFO) << " Network name: " << (*it)->name();
found_dummy |= (*it)->name().find("dummy0") != std::string::npos;
}
for (NetworkManager::NetworkList::iterator it = list.begin();
it != list.end(); ++it) {
delete (*it);
}
if (!found_dummy) {
RTC_LOG(LS_INFO) << "No dummy found, quitting.";
return;
}
RTC_LOG(LS_INFO) << "Found dummy, running again while ignoring non-default "
<< "routes.";
manager.set_ignore_non_default_routes(true);
list = GetNetworks(manager, false);
for (NetworkManager::NetworkList::iterator it = list.begin();
it != list.end(); ++it) {
RTC_LOG(LS_INFO) << " Network name: " << (*it)->name();
EXPECT_TRUE((*it)->name().find("dummy0") == std::string::npos);
}
for (NetworkManager::NetworkList::iterator it = list.begin();
it != list.end(); ++it) {
delete (*it);
}
}
#endif
// Test MergeNetworkList successfully combines all IPs for the same
// prefix/length into a single Network.
TEST_F(NetworkTest, TestMergeNetworkList) {
BasicNetworkManager manager;
NetworkManager::NetworkList list;
// Create 2 IPAddress classes with only last digit different.
IPAddress ip1, ip2;
EXPECT_TRUE(IPFromString("2400:4030:1:2c00:be30:0:0:1", &ip1));
EXPECT_TRUE(IPFromString("2400:4030:1:2c00:be30:0:0:2", &ip2));
// Create 2 networks with the same prefix and length.
Network* net1 = new Network("em1", "em1", TruncateIP(ip1, 64), 64);
Network* net2 = new Network("em1", "em1", TruncateIP(ip1, 64), 64);
// Add different IP into each.
net1->AddIP(ip1);
net2->AddIP(ip2);
list.push_back(net1);
list.push_back(net2);
bool changed;
MergeNetworkList(manager, list, &changed);
EXPECT_TRUE(changed);
NetworkManager::NetworkList list2;
manager.GetNetworks(&list2);
// Make sure the resulted networklist has only 1 element and 2
// IPAddresses.
EXPECT_EQ(list2.size(), 1uL);
EXPECT_EQ(list2[0]->GetIPs().size(), 2uL);
EXPECT_EQ(list2[0]->GetIPs()[0], InterfaceAddress(ip1));
EXPECT_EQ(list2[0]->GetIPs()[1], InterfaceAddress(ip2));
}
// Test that MergeNetworkList successfully detects the change if
// a network becomes inactive and then active again.
TEST_F(NetworkTest, TestMergeNetworkListWithInactiveNetworks) {
BasicNetworkManager manager;
Network network1("test_wifi", "Test Network Adapter 1",
IPAddress(0x12345600U), 24);
Network network2("test_eth0", "Test Network Adapter 2",
IPAddress(0x00010000U), 16);
network1.AddIP(IPAddress(0x12345678));
network2.AddIP(IPAddress(0x00010004));
NetworkManager::NetworkList list;
Network* net1 = new Network(network1);
list.push_back(net1);
bool changed;
MergeNetworkList(manager, list, &changed);
EXPECT_TRUE(changed);
list.clear();
manager.GetNetworks(&list);
ASSERT_EQ(1U, list.size());
EXPECT_EQ(net1, list[0]);
list.clear();
Network* net2 = new Network(network2);
list.push_back(net2);
MergeNetworkList(manager, list, &changed);
EXPECT_TRUE(changed);
list.clear();
manager.GetNetworks(&list);
ASSERT_EQ(1U, list.size());
EXPECT_EQ(net2, list[0]);
// Now network1 is inactive. Try to merge it again.
list.clear();
list.push_back(new Network(network1));
MergeNetworkList(manager, list, &changed);
EXPECT_TRUE(changed);
list.clear();
manager.GetNetworks(&list);
ASSERT_EQ(1U, list.size());
EXPECT_TRUE(list[0]->active());
EXPECT_EQ(net1, list[0]);
}
// Test that the filtering logic follows the defined ruleset in network.h.
TEST_F(NetworkTest, TestIPv6Selection) {
InterfaceAddress ip;
std::string ipstr;
ipstr = "2401:fa00:4:1000:be30:5bff:fee5:c3";
ASSERT_TRUE(IPFromString(ipstr, IPV6_ADDRESS_FLAG_DEPRECATED, &ip));
// Create a network with this prefix.
Network ipv6_network(
"test_eth0", "Test NetworkAdapter", TruncateIP(ip, 64), 64);
// When there is no address added, it should return an unspecified
// address.
EXPECT_EQ(ipv6_network.GetBestIP(), IPAddress());
EXPECT_TRUE(IPIsUnspec(ipv6_network.GetBestIP()));
// Deprecated one should not be returned.
ipv6_network.AddIP(ip);
EXPECT_EQ(ipv6_network.GetBestIP(), IPAddress());
// Add ULA one. ULA is unique local address which is starting either
// with 0xfc or 0xfd.
ipstr = "fd00:fa00:4:1000:be30:5bff:fee5:c4";
ASSERT_TRUE(IPFromString(ipstr, IPV6_ADDRESS_FLAG_NONE, &ip));
ipv6_network.AddIP(ip);
EXPECT_EQ(ipv6_network.GetBestIP(), static_cast<IPAddress>(ip));
// Add global one.
ipstr = "2401:fa00:4:1000:be30:5bff:fee5:c5";
ASSERT_TRUE(IPFromString(ipstr, IPV6_ADDRESS_FLAG_NONE, &ip));
ipv6_network.AddIP(ip);
EXPECT_EQ(ipv6_network.GetBestIP(), static_cast<IPAddress>(ip));
// Add global dynamic temporary one.
ipstr = "2401:fa00:4:1000:be30:5bff:fee5:c6";
ASSERT_TRUE(IPFromString(ipstr, IPV6_ADDRESS_FLAG_TEMPORARY, &ip));
ipv6_network.AddIP(ip);
EXPECT_EQ(ipv6_network.GetBestIP(), static_cast<IPAddress>(ip));
}
TEST_F(NetworkTest, TestNetworkMonitoring) {
BasicNetworkManager manager;
manager.SignalNetworksChanged.connect(static_cast<NetworkTest*>(this),
&NetworkTest::OnNetworksChanged);
FakeNetworkMonitorFactory* factory = new FakeNetworkMonitorFactory();
NetworkMonitorFactory::SetFactory(factory);
manager.StartUpdating();
FakeNetworkMonitor* network_monitor = GetNetworkMonitor(manager);
EXPECT_TRUE(network_monitor && network_monitor->started());
EXPECT_TRUE_WAIT(callback_called_, 1000);
callback_called_ = false;
// Clear the networks so that there will be network changes below.
ClearNetworks(manager);
// Network manager is started, so the callback is called when the network
// monitor fires the network-change event.
network_monitor->OnNetworksChanged();
EXPECT_TRUE_WAIT(callback_called_, 1000);
// Network manager is stopped.
manager.StopUpdating();
EXPECT_FALSE(GetNetworkMonitor(manager)->started());
NetworkMonitorFactory::ReleaseFactory(factory);
}
// Fails on Android: https://bugs.chromium.org/p/webrtc/issues/detail?id=4364.
#if defined(WEBRTC_ANDROID)
#define MAYBE_DefaultLocalAddress DISABLED_DefaultLocalAddress
#else
#define MAYBE_DefaultLocalAddress DefaultLocalAddress
#endif
TEST_F(NetworkTest, MAYBE_DefaultLocalAddress) {
IPAddress ip;
TestBasicNetworkManager manager;
manager.SignalNetworksChanged.connect(static_cast<NetworkTest*>(this),
&NetworkTest::OnNetworksChanged);
FakeNetworkMonitorFactory* factory = new FakeNetworkMonitorFactory();
NetworkMonitorFactory::SetFactory(factory);
manager.StartUpdating();
EXPECT_TRUE_WAIT(callback_called_, 1000);
// Make sure we can query default local address when an address for such
// address family exists.
std::vector<Network*> networks;
manager.GetNetworks(&networks);
EXPECT_TRUE(!networks.empty());
for (const auto* network : networks) {
if (network->GetBestIP().family() == AF_INET) {
EXPECT_TRUE(manager.QueryDefaultLocalAddress(AF_INET) != IPAddress());
} else if (network->GetBestIP().family() == AF_INET6 &&
!IPIsLoopback(network->GetBestIP())) {
// Existence of an IPv6 loopback address doesn't mean it has IPv6 network
// enabled.
EXPECT_TRUE(manager.QueryDefaultLocalAddress(AF_INET6) != IPAddress());
}
}
// GetDefaultLocalAddress should return the valid default address after set.
manager.set_default_local_addresses(GetLoopbackIP(AF_INET),
GetLoopbackIP(AF_INET6));
EXPECT_TRUE(manager.GetDefaultLocalAddress(AF_INET, &ip));
EXPECT_EQ(ip, GetLoopbackIP(AF_INET));
EXPECT_TRUE(manager.GetDefaultLocalAddress(AF_INET6, &ip));
EXPECT_EQ(ip, GetLoopbackIP(AF_INET6));
// More tests on GetDefaultLocalAddress with ipv6 addresses where the set
// default address may be different from the best IP address of any network.
InterfaceAddress ip1;
EXPECT_TRUE(IPFromString("abcd::1234:5678:abcd:1111",
IPV6_ADDRESS_FLAG_TEMPORARY, &ip1));
// Create a network with a prefix of ip1.
Network ipv6_network("test_eth0", "Test NetworkAdapter", TruncateIP(ip1, 64),
64);
IPAddress ip2;
EXPECT_TRUE(IPFromString("abcd::1234:5678:abcd:2222", &ip2));
ipv6_network.AddIP(ip1);
ipv6_network.AddIP(ip2);
BasicNetworkManager::NetworkList list(1, new Network(ipv6_network));
bool changed;
MergeNetworkList(manager, list, &changed);
// If the set default address is not in any network, GetDefaultLocalAddress
// should return it.
IPAddress ip3;
EXPECT_TRUE(IPFromString("abcd::1234:5678:abcd:3333", &ip3));
manager.set_default_local_addresses(GetLoopbackIP(AF_INET), ip3);
EXPECT_TRUE(manager.GetDefaultLocalAddress(AF_INET6, &ip));
EXPECT_EQ(ip3, ip);
// If the set default address is in a network, GetDefaultLocalAddress will
// return the best IP in that network.
manager.set_default_local_addresses(GetLoopbackIP(AF_INET), ip2);
EXPECT_TRUE(manager.GetDefaultLocalAddress(AF_INET6, &ip));
EXPECT_EQ(static_cast<IPAddress>(ip1), ip);
manager.StopUpdating();
}
} // namespace rtc
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