Blame - tests/binder_test.cpp - platform/system/netd

2016-02-26 11:38:47 +0900

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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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* binder_test.cpp - unit tests for netd binder RPCs.

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*/

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Robin Lee

2016-03-30 18:43:08 +0100

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#include <cerrno>

Luke Huang

2018-08-29 19:06:05 +0800

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#include <chrono>

Robin Lee

2016-03-30 18:43:08 +0100

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#include <cinttypes>

Luke Huang

2018-08-29 19:06:05 +0800

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#include <condition_variable>

Lorenzo Colitti

2016-02-26 11:38:47 +0900

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#include <cstdint>

Lorenzo Colitti

2016-03-22 12:36:29 +0900

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#include <cstdio>

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#include <cstdlib>

Luke Huang

2018-08-29 19:06:05 +0800

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#include <mutex>

Lorenzo Colitti

2016-04-24 13:13:14 +0900

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#include <set>

Lorenzo Colitti

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#include <vector>

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Luke Huang

2018-08-08 13:13:04 +0800

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#include <dirent.h>

Lorenzo Colitti

2016-07-27 22:10:49 +0900

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#include <fcntl.h>

Erik Kline

2016-08-03 11:24:27 +0900

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#include <ifaddrs.h>

Lorenzo Colitti

2016-07-27 22:10:49 +0900

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#include <linux/if.h>

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#include <linux/if_tun.h>

Benedict Wong

2018-05-07 10:29:02 -0700

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#include <net/if.h>

Luke Huang

2018-08-08 13:13:04 +0800

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#include <netdb.h>

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#include <netinet/in.h>

Ben Schwartz

2017-04-28 16:38:29 -0400

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#include <openssl/base64.h>

Luke Huang

2018-08-08 13:13:04 +0800

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#include <sys/socket.h>

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#include <sys/types.h>

Lorenzo Colitti

2016-04-24 13:13:14 +0900

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Luke Huang

2018-08-03 15:19:05 +0800

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#include <android-base/file.h>

Erik Kline

2016-08-03 11:24:27 +0900

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#include <android-base/macros.h>

Lorenzo Colitti

2016-02-26 11:38:47 +0900

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#include <android-base/stringprintf.h>

Lorenzo Colitti

2016-03-22 12:36:29 +0900

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#include <android-base/strings.h>

Chenbo Feng

2018-12-26 17:40:21 -0800

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#include <bpf/BpfMap.h>

Chenbo Feng

837ddfc

2018-05-08 13:45:08 -0700

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#include <bpf/BpfUtils.h>

Robin Lee

2016-03-30 18:43:08 +0100

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#include <cutils/multiuser.h>

Lorenzo Colitti

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#include <gtest/gtest.h>

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#include <logwrap/logwrap.h>

Chenbo Feng

2018-12-26 17:40:21 -0800

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#include <netdbpf/bpf_shared.h>

Lorenzo Colitti

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#include <netutils/ifc.h>

Lorenzo Colitti

2016-02-26 11:38:47 +0900

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Nathan Harold

2018-03-16 20:13:03 -0700

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#include "InterfaceController.h"

Lorenzo Colitti

2016-02-26 11:38:47 +0900

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#include "NetdConstants.h"

Robin Lee

7e05cc9

2016-09-21 16:31:33 +0900

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#include "Stopwatch.h"

Luke Huang

2018-08-29 19:06:05 +0800

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#include "TestUnsolService.h"

Nathan Harold

2018-03-16 20:13:03 -0700

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#include "XfrmController.h"

Lorenzo Colitti

2016-02-26 11:38:47 +0900

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#include "android/net/INetd.h"

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#include "binder/IServiceManager.h"

Nathan Harold

2018-03-16 20:13:03 -0700

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#include "netdutils/Syscalls.h"

Mike Yu

5ae6154

2018-10-19 22:11:43 +0800

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#include "tun_interface.h"

Lorenzo Colitti

2016-02-26 11:38:47 +0900

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Lorenzo Colitti

5c68b9c

2017-08-10 18:50:10 +0900

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#define IP_PATH "/system/bin/ip"

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#define IP6TABLES_PATH "/system/bin/ip6tables"

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#define IPTABLES_PATH "/system/bin/iptables"

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#define TUN_DEV "/dev/tun"

Luke Huang

2018-07-23 20:30:16 +0800

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#define RAW_TABLE "raw"

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#define MANGLE_TABLE "mangle"

Luke Huang

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#define FILTER_TABLE "filter"

Luke Huang

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#define NAT_TABLE "nat"

Lorenzo Colitti

2016-07-27 22:10:49 +0900

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Bernie Innocenti

2018-08-10 17:15:00 +0900

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namespace binder = android::binder;

Bernie Innocenti

2018-08-10 17:15:00 +0900

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using android::IBinder;

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using android::IServiceManager;

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using android::sp;

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using android::String16;

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using android::String8;

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using android::base::Join;

Luke Huang

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using android::base::ReadFileToString;

Lorenzo Colitti

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using android::base::StartsWith;

Bernie Innocenti

2018-08-10 17:15:00 +0900

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using android::base::StringPrintf;

Luke Huang

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using android::base::Trim;

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using android::net::INetd;

Luke Huang

2018-08-08 13:13:04 +0800

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using android::net::InterfaceConfigurationParcel;

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using android::net::InterfaceController;

Luke Huang

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using android::net::TetherStatsParcel;

Lorenzo Colitti

2017-02-27 17:16:10 +0900

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using android::net::TunInterface;

Luke Huang

2018-10-18 19:35:12 +0900

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using android::net::UidRangeParcel;

Luke Huang

2018-08-08 13:13:04 +0800

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using android::netdutils::sSyscalls;

Robin Lee

2016-03-30 18:43:08 +0100

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static const char* IP_RULE_V4 = "-4";

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static const char* IP_RULE_V6 = "-6";

Lorenzo Colitti

2016-12-15 23:59:01 +0900

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static const int TEST_NETID1 = 65501;

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static const int TEST_NETID2 = 65502;

Chenbo Feng

2018-12-26 17:40:21 -0800

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// Use maximum reserved appId for applications to avoid conflict with existing

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// uids.

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static const int TEST_UID1 = 99999;

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static const int TEST_UID2 = 99998;

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Lorenzo Colitti

2016-12-15 23:59:01 +0900

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constexpr int BASE_UID = AID_USER_OFFSET * 5;

Lorenzo Colitti

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Benedict Wong

2017-12-06 22:05:46 -0800

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static const std::string NO_SOCKET_ALLOW_RULE("! owner UID match 0-4294967294");

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static const std::string ESP_ALLOW_RULE("esp");

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Lorenzo Colitti

2016-02-26 11:38:47 +0900

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class BinderTest : public ::testing::Test {

Bernie Innocenti

2018-08-10 17:15:00 +0900

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public:

Lorenzo Colitti

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BinderTest() {

Bernie Innocenti

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sp<IServiceManager> sm = android::defaultServiceManager();

Lorenzo Colitti

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sp<IBinder> binder = sm->getService(String16("netd"));

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if (binder != nullptr) {

Bernie Innocenti

2018-08-10 17:15:00 +0900

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mNetd = android::interface_cast<INetd>(binder);

Lorenzo Colitti

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}

}

Lorenzo Colitti

2016-07-27 22:10:49 +0900

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void SetUp() override {

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ASSERT_NE(nullptr, mNetd.get());

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}

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Lorenzo Colitti

2016-12-15 23:59:01 +0900

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void TearDown() override {

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mNetd->networkDestroy(TEST_NETID1);

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mNetd->networkDestroy(TEST_NETID2);

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}

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Bernie Innocenti

6f9fd90

2018-10-11 20:50:23 +0900

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bool allocateIpSecResources(bool expectOk, int32_t* spi);

Nathan Harold

2018-03-16 20:13:03 -0700

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Lorenzo Colitti

2016-07-27 22:10:49 +0900

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// Static because setting up the tun interface takes about 40ms.

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static void SetUpTestCase() {

Lorenzo Colitti

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ASSERT_EQ(0, sTun.init());

Luke Huang

2018-10-22 12:12:05 +0900

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ASSERT_EQ(0, sTun2.init());

Lorenzo Colitti

2017-02-27 17:16:10 +0900

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ASSERT_LE(sTun.name().size(), static_cast<size_t>(IFNAMSIZ));

Luke Huang

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ASSERT_LE(sTun2.name().size(), static_cast<size_t>(IFNAMSIZ));

Lorenzo Colitti

2016-07-27 22:10:49 +0900

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}

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static void TearDownTestCase() {

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// Closing the socket removes the interface and IP addresses.

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sTun.destroy();

Luke Huang

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sTun2.destroy();

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}

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static void fakeRemoteSocketPair(int *clientSocket, int *serverSocket, int *acceptedSocket);

Lorenzo Colitti

2016-07-27 22:10:49 +0900

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Bernie Innocenti

2018-08-10 17:15:00 +0900

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protected:

Lorenzo Colitti

2016-02-26 11:38:47 +0900

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sp<INetd> mNetd;

Lorenzo Colitti

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static TunInterface sTun;

Luke Huang

2018-10-22 12:12:05 +0900

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static TunInterface sTun2;

Lorenzo Colitti

2016-02-26 11:38:47 +0900

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};

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Lorenzo Colitti

2017-02-27 17:16:10 +0900

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TunInterface BinderTest::sTun;

Luke Huang

2018-10-22 12:12:05 +0900

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TunInterface BinderTest::sTun2;

Lorenzo Colitti

2016-02-26 11:38:47 +0900

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Lorenzo Colitti

699aa99

2016-04-15 10:22:37 +0900

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class TimedOperation : public Stopwatch {

Bernie Innocenti

2018-08-10 17:15:00 +0900

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public:

Chih-Hung Hsieh

1805105

2016-05-06 10:36:13 -0700

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explicit TimedOperation(const std::string &name): mName(name) {}

Lorenzo Colitti

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virtual ~TimedOperation() {

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699aa99

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fprintf(stderr, " %s: %6.1f ms\n", mName.c_str(), timeTaken());

Lorenzo Colitti

2016-02-26 11:38:47 +0900

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}

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Bernie Innocenti

2018-08-10 17:15:00 +0900

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private:

Lorenzo Colitti

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std::string mName;

};

Bernie Innocenti

2018-08-10 17:15:00 +0900

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TEST_F(BinderTest, IsAlive) {

Lorenzo Colitti

2016-02-26 11:38:47 +0900

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TimedOperation t("isAlive RPC");

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bool isAlive = false;

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mNetd->isAlive(&isAlive);

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ASSERT_TRUE(isAlive);

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}

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static int randomUid() {

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return 100000 * arc4random_uniform(7) + 10000 + arc4random_uniform(5000);

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}

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Robin Lee

2016-03-30 18:43:08 +0100

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static std::vector<std::string> runCommand(const std::string& command) {

Lorenzo Colitti

2016-03-22 12:36:29 +0900

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std::vector<std::string> lines;

Bernie Innocenti

2018-06-11 17:37:35 +0900

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FILE *f = popen(command.c_str(), "r"); // NOLINT(cert-env33-c)

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if (f == nullptr) {

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perror("popen");

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return lines;

Lorenzo Colitti

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}

Lorenzo Colitti

2016-03-22 12:36:29 +0900

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char *line = nullptr;

Robin Lee

2016-03-30 18:43:08 +0100

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size_t bufsize = 0;

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ssize_t linelen = 0;

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while ((linelen = getline(&line, &bufsize, f)) >= 0) {

Lorenzo Colitti

2016-03-22 12:36:29 +0900

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lines.push_back(std::string(line, linelen));

free(line);

line = nullptr;

}

pclose(f);

return lines;

Lorenzo Colitti

2016-02-26 11:38:47 +0900

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}

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Robin Lee

2016-03-30 18:43:08 +0100

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static std::vector<std::string> listIpRules(const char *ipVersion) {

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std::string command = StringPrintf("%s %s rule list", IP_PATH, ipVersion);

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return runCommand(command);

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}

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static std::vector<std::string> listIptablesRule(const char *binary, const char *chainName) {

Lorenzo Colitti

8054577

2016-06-09 14:20:08 +0900

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std::string command = StringPrintf("%s -w -n -L %s", binary, chainName);

Robin Lee

2016-03-30 18:43:08 +0100

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return runCommand(command);

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}

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Lorenzo Colitti

2016-03-22 12:36:29 +0900

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static int iptablesRuleLineLength(const char *binary, const char *chainName) {

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return listIptablesRule(binary, chainName).size();

Lorenzo Colitti

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}

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Benedict Wong

2017-12-06 22:05:46 -0800

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static bool iptablesRuleExists(const char *binary,

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const char *chainName,

Bernie Innocenti

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const std::string& expectedRule) {

Benedict Wong

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std::vector<std::string> rules = listIptablesRule(binary, chainName);

Bernie Innocenti

2018-06-11 17:37:35 +0900

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for (const auto& rule : rules) {

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if(rule.find(expectedRule) != std::string::npos) {

return true;

}

}

return false;

}

static bool iptablesNoSocketAllowRuleExists(const char *chainName){

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return iptablesRuleExists(IPTABLES_PATH, chainName, NO_SOCKET_ALLOW_RULE) &&

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iptablesRuleExists(IP6TABLES_PATH, chainName, NO_SOCKET_ALLOW_RULE);

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}

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static bool iptablesEspAllowRuleExists(const char *chainName){

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return iptablesRuleExists(IPTABLES_PATH, chainName, ESP_ALLOW_RULE) &&

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iptablesRuleExists(IP6TABLES_PATH, chainName, ESP_ALLOW_RULE);

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}

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Bernie Innocenti

2018-08-10 17:15:00 +0900

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TEST_F(BinderTest, FirewallReplaceUidChain) {

Chenbo Feng

837ddfc

2018-05-08 13:45:08 -0700

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SKIP_IF_BPF_SUPPORTED;

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Lorenzo Colitti

2016-02-26 11:38:47 +0900

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std::string chainName = StringPrintf("netd_binder_test_%u", arc4random_uniform(10000));

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const int kNumUids = 500;

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std::vector<int32_t> noUids(0);

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std::vector<int32_t> uids(kNumUids);

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for (int i = 0; i < kNumUids; i++) {

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uids[i] = randomUid();

}

bool ret;

{

TimedOperation op(StringPrintf("Programming %d-UID whitelist chain", kNumUids));

Erik Kline

2018-03-14 15:01:46 +0900

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mNetd->firewallReplaceUidChain(chainName, true, uids, &ret);

Lorenzo Colitti

2016-02-26 11:38:47 +0900

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}

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EXPECT_EQ(true, ret);

Benedict Wong

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EXPECT_EQ((int) uids.size() + 9, iptablesRuleLineLength(IPTABLES_PATH, chainName.c_str()));

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EXPECT_EQ((int) uids.size() + 15, iptablesRuleLineLength(IP6TABLES_PATH, chainName.c_str()));

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EXPECT_EQ(true, iptablesNoSocketAllowRuleExists(chainName.c_str()));

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EXPECT_EQ(true, iptablesEspAllowRuleExists(chainName.c_str()));

Lorenzo Colitti

2016-02-26 11:38:47 +0900

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{

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TimedOperation op("Clearing whitelist chain");

Erik Kline

2018-03-14 15:01:46 +0900

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mNetd->firewallReplaceUidChain(chainName, false, noUids, &ret);

Lorenzo Colitti

2016-02-26 11:38:47 +0900

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}

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EXPECT_EQ(true, ret);

Lorenzo Colitti

50b198a

2017-03-30 02:50:09 +0900

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EXPECT_EQ(5, iptablesRuleLineLength(IPTABLES_PATH, chainName.c_str()));

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EXPECT_EQ(5, iptablesRuleLineLength(IP6TABLES_PATH, chainName.c_str()));

Lorenzo Colitti

2016-02-26 11:38:47 +0900

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{

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TimedOperation op(StringPrintf("Programming %d-UID blacklist chain", kNumUids));

Erik Kline

2018-03-14 15:01:46 +0900

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mNetd->firewallReplaceUidChain(chainName, false, uids, &ret);

Lorenzo Colitti

2016-02-26 11:38:47 +0900

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}

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EXPECT_EQ(true, ret);

Lorenzo Colitti

50b198a

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EXPECT_EQ((int) uids.size() + 5, iptablesRuleLineLength(IPTABLES_PATH, chainName.c_str()));

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EXPECT_EQ((int) uids.size() + 5, iptablesRuleLineLength(IP6TABLES_PATH, chainName.c_str()));

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2017-12-06 22:05:46 -0800

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EXPECT_EQ(false, iptablesNoSocketAllowRuleExists(chainName.c_str()));

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EXPECT_EQ(false, iptablesEspAllowRuleExists(chainName.c_str()));

Lorenzo Colitti

2016-02-26 11:38:47 +0900

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{

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TimedOperation op("Clearing blacklist chain");

Erik Kline

2018-03-14 15:01:46 +0900

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mNetd->firewallReplaceUidChain(chainName, false, noUids, &ret);

Lorenzo Colitti

2016-02-26 11:38:47 +0900

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}

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EXPECT_EQ(true, ret);

Lorenzo Colitti

50b198a

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EXPECT_EQ(5, iptablesRuleLineLength(IPTABLES_PATH, chainName.c_str()));

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EXPECT_EQ(5, iptablesRuleLineLength(IP6TABLES_PATH, chainName.c_str()));

Lorenzo Colitti

2016-02-26 11:38:47 +0900

[diff] [blame]

279

280

// Check that the call fails if iptables returns an error.

281

std::string veryLongStringName = "netd_binder_test_UnacceptablyLongIptablesChainName";

Erik Kline

2018-03-14 15:01:46 +0900

[diff] [blame]

282

mNetd->firewallReplaceUidChain(veryLongStringName, true, noUids, &ret);

Lorenzo Colitti

2016-02-26 11:38:47 +0900

[diff] [blame]

283

EXPECT_EQ(false, ret);

284

}

Lorenzo Colitti

2016-03-22 12:36:29 +0900

[diff] [blame]

285

Benedict Wong

2018-05-15 17:06:44 -0700

[diff] [blame]

286

TEST_F(BinderTest, IpSecTunnelInterface) {

George Burgess IV

c4a6d27

2018-05-21 14:41:57 -0700

[diff] [blame]

287

const struct TestData {

288

const std::string family;

289

const std::string deviceName;

290

const std::string localAddress;

291

const std::string remoteAddress;

manojboopathi

2018-01-02 14:45:47 -0800

[diff] [blame]

292

int32_t iKey;

293

int32_t oKey;

Benedict Wong

2018-05-07 10:29:02 -0700

[diff] [blame]

294

int32_t ifId;

manojboopathi

2018-01-02 14:45:47 -0800

[diff] [blame]

295

} kTestData[] = {

Benedict Wong

2018-05-07 10:29:02 -0700

[diff] [blame]

296

{"IPV4", "ipsec_test", "127.0.0.1", "8.8.8.8", 0x1234 + 53, 0x1234 + 53, 0xFFFE},

297

{"IPV6", "ipsec_test6", "::1", "2001:4860:4860::8888", 0x1234 + 50, 0x1234 + 50,

298

0xFFFE},

manojboopathi

2018-01-02 14:45:47 -0800

[diff] [blame]

299

};

300

Sehee Park

2018-11-16 10:53:16 +0900

[diff] [blame]

301

for (size_t i = 0; i < std::size(kTestData); i++) {

Nathan Harold

2018-03-16 20:13:03 -0700

[diff] [blame]

302

const auto& td = kTestData[i];

manojboopathi

2018-01-02 14:45:47 -0800

[diff] [blame]

303

304

binder::Status status;

305

Benedict Wong

2018-05-15 17:06:44 -0700

[diff] [blame]

306

// Create Tunnel Interface.

307

status = mNetd->ipSecAddTunnelInterface(td.deviceName, td.localAddress, td.remoteAddress,

Benedict Wong

2018-05-07 10:29:02 -0700

[diff] [blame]

308

td.iKey, td.oKey, td.ifId);

manojboopathi

2018-01-02 14:45:47 -0800

[diff] [blame]

309

EXPECT_TRUE(status.isOk()) << td.family << status.exceptionMessage();

310

Benedict Wong

2018-05-07 10:29:02 -0700

[diff] [blame]

311

// Check that the interface exists

Sehee Park

2018-11-16 10:53:16 +0900

[diff] [blame]

312

EXPECT_NE(0U, if_nametoindex(td.deviceName.c_str()));

Benedict Wong

2018-05-07 10:29:02 -0700

[diff] [blame]

313

Benedict Wong

2018-05-15 17:06:44 -0700

[diff] [blame]

314

// Update Tunnel Interface.

315

status = mNetd->ipSecUpdateTunnelInterface(td.deviceName, td.localAddress, td.remoteAddress,

Benedict Wong

2018-05-07 10:29:02 -0700

[diff] [blame]

316

td.iKey, td.oKey, td.ifId);

manojboopathi

2018-01-02 14:45:47 -0800

[diff] [blame]

317

EXPECT_TRUE(status.isOk()) << td.family << status.exceptionMessage();

318

Benedict Wong

2018-05-15 17:06:44 -0700

[diff] [blame]

319

// Remove Tunnel Interface.

320

status = mNetd->ipSecRemoveTunnelInterface(td.deviceName);

manojboopathi

2018-01-02 14:45:47 -0800

[diff] [blame]

321

EXPECT_TRUE(status.isOk()) << td.family << status.exceptionMessage();

Benedict Wong

2018-05-07 10:29:02 -0700

[diff] [blame]

322

323

// Check that the interface no longer exists

Sehee Park

2018-11-16 10:53:16 +0900

[diff] [blame]

324

EXPECT_EQ(0U, if_nametoindex(td.deviceName.c_str()));

manojboopathi

2018-01-02 14:45:47 -0800

[diff] [blame]

}

}

Benedict Wong

2018-12-03 00:54:14 -0800

[diff] [blame]

328

TEST_F(BinderTest, IpSecSetEncapSocketOwner) {

329

android::base::unique_fd uniqueFd(socket(AF_INET, SOCK_DGRAM | SOCK_CLOEXEC, 0));

330

android::os::ParcelFileDescriptor sockFd(std::move(uniqueFd));

331

332

int sockOptVal = UDP_ENCAP_ESPINUDP;

333

setsockopt(sockFd.get(), IPPROTO_UDP, UDP_ENCAP, &sockOptVal, sizeof(sockOptVal));

334

335

binder::Status res = mNetd->ipSecSetEncapSocketOwner(sockFd, 1001);

336

EXPECT_TRUE(res.isOk());

337

338

struct stat info;

339

EXPECT_EQ(0, fstat(sockFd.get(), &info));

340

EXPECT_EQ(1001, (int) info.st_uid);

341

}

342

Nathan Harold

2deff32

2018-05-10 14:03:48 -0700

[diff] [blame]

343

// IPsec tests are not run in 32 bit mode; both 32-bit kernels and

344

// mismatched ABIs (64-bit kernel with 32-bit userspace) are unsupported.

345

#if INTPTR_MAX != INT32_MAX

Bernie Innocenti

2019-01-30 22:40:53 +0900

[diff] [blame]

346

347

using android::net::XfrmController;

348

Benedict Wong

2018-05-09 21:42:42 -0700

[diff] [blame]

349

static const int XFRM_DIRECTIONS[] = {static_cast<int>(android::net::XfrmDirection::IN),

350

static_cast<int>(android::net::XfrmDirection::OUT)};

351

static const int ADDRESS_FAMILIES[] = {AF_INET, AF_INET6};

352

Nathan Harold

2018-03-16 20:13:03 -0700

[diff] [blame]

353

#define RETURN_FALSE_IF_NEQ(_expect_, _ret_) \

354

do { if ((_expect_) != (_ret_)) return false; } while(false)

Bernie Innocenti

6f9fd90

2018-10-11 20:50:23 +0900

[diff] [blame]

355

bool BinderTest::allocateIpSecResources(bool expectOk, int32_t* spi) {

Bernie Innocenti

2019-01-30 22:40:53 +0900

[diff] [blame]

356

android::netdutils::Status status = XfrmController::ipSecAllocateSpi(0, "::", "::1", 123, spi);

Nathan Harold

2018-03-16 20:13:03 -0700

[diff] [blame]

357

SCOPED_TRACE(status);

358

RETURN_FALSE_IF_NEQ(status.ok(), expectOk);

359

360

// Add a policy

Benedict Wong

2018-05-07 10:29:02 -0700

[diff] [blame]

361

status = XfrmController::ipSecAddSecurityPolicy(0, AF_INET6, 0, "::", "::1", 123, 0, 0, 0);

Nathan Harold

2018-03-16 20:13:03 -0700

[diff] [blame]

362

SCOPED_TRACE(status);

363

RETURN_FALSE_IF_NEQ(status.ok(), expectOk);

364

365

// Add an ipsec interface

Benedict Wong

2018-05-07 10:29:02 -0700

[diff] [blame]

366

return expectOk == XfrmController::ipSecAddTunnelInterface("ipsec_test", "::", "::1", 0xF00D,

367

0xD00D, 0xE00D, false)

368

.ok();

Nathan Harold

2018-03-16 20:13:03 -0700

[diff] [blame]

369

}

370

Benedict Wong

2018-05-09 21:42:42 -0700

[diff] [blame]

371

TEST_F(BinderTest, XfrmDualSelectorTunnelModePoliciesV4) {

Bernie Innocenti

2019-01-30 22:40:53 +0900

[diff] [blame]

372

android::binder::Status status;

Benedict Wong

2018-05-09 21:42:42 -0700

[diff] [blame]

373

374

// Repeat to ensure cleanup and recreation works correctly

375

for (int i = 0; i < 2; i++) {

376

for (int direction : XFRM_DIRECTIONS) {

377

for (int addrFamily : ADDRESS_FAMILIES) {

378

status = mNetd->ipSecAddSecurityPolicy(0, addrFamily, direction, "127.0.0.5",

Benedict Wong

2018-05-07 10:29:02 -0700

[diff] [blame]

379

"127.0.0.6", 123, 0, 0, 0);

Benedict Wong

2018-05-09 21:42:42 -0700

[diff] [blame]

380

EXPECT_TRUE(status.isOk())

381

<< " family: " << addrFamily << " direction: " << direction;

}

}

// Cleanup

for (int direction : XFRM_DIRECTIONS) {

387

for (int addrFamily : ADDRESS_FAMILIES) {

Benedict Wong

2018-05-07 10:29:02 -0700

[diff] [blame]

388

status = mNetd->ipSecDeleteSecurityPolicy(0, addrFamily, direction, 0, 0, 0);

Benedict Wong

2018-05-09 21:42:42 -0700

[diff] [blame]

389

EXPECT_TRUE(status.isOk());

}

}

}

}

TEST_F(BinderTest, XfrmDualSelectorTunnelModePoliciesV6) {

396

binder::Status status;

397

398

// Repeat to ensure cleanup and recreation works correctly

399

for (int i = 0; i < 2; i++) {

400

for (int direction : XFRM_DIRECTIONS) {

401

for (int addrFamily : ADDRESS_FAMILIES) {

402

status = mNetd->ipSecAddSecurityPolicy(0, addrFamily, direction, "2001:db8::f00d",

Benedict Wong

2018-05-07 10:29:02 -0700

[diff] [blame]

403

"2001:db8::d00d", 123, 0, 0, 0);

Benedict Wong

2018-05-09 21:42:42 -0700

[diff] [blame]

404

EXPECT_TRUE(status.isOk())

405

<< " family: " << addrFamily << " direction: " << direction;

}

}

// Cleanup

for (int direction : XFRM_DIRECTIONS) {

411

for (int addrFamily : ADDRESS_FAMILIES) {

Benedict Wong

2018-05-07 10:29:02 -0700

[diff] [blame]

412

status = mNetd->ipSecDeleteSecurityPolicy(0, addrFamily, direction, 0, 0, 0);

Benedict Wong

2018-05-09 21:42:42 -0700

[diff] [blame]

413

EXPECT_TRUE(status.isOk());

}

}

}

}

Bernie Innocenti

2018-08-10 17:15:00 +0900

[diff] [blame]

419

TEST_F(BinderTest, XfrmControllerInit) {

Bernie Innocenti

2019-01-30 22:40:53 +0900

[diff] [blame]

420

android::netdutils::Status status;

Nathan Harold

2018-03-16 20:13:03 -0700

[diff] [blame]

421

status = XfrmController::Init();

422

SCOPED_TRACE(status);

Nathan Harold

2deff32

2018-05-10 14:03:48 -0700

[diff] [blame]

423

424

// Older devices or devices with mismatched Kernel/User ABI cannot support the IPsec

425

// feature.

426

if (status.code() == EOPNOTSUPP) return;

427

Nathan Harold

2018-03-16 20:13:03 -0700

[diff] [blame]

428

ASSERT_TRUE(status.ok());

int32_t spi = 0;

ASSERT_TRUE(allocateIpSecResources(true, &spi));

433

ASSERT_TRUE(allocateIpSecResources(false, &spi));

434

435

status = XfrmController::Init();

Nathan Harold

39ad662

2018-04-25 12:56:56 -0700

[diff] [blame]

436

ASSERT_TRUE(status.ok());

Nathan Harold

2018-03-16 20:13:03 -0700

[diff] [blame]

437

ASSERT_TRUE(allocateIpSecResources(true, &spi));

438

439

// Clean up

Benedict Wong

2018-05-07 10:29:02 -0700

[diff] [blame]

440

status = XfrmController::ipSecDeleteSecurityAssociation(0, "::", "::1", 123, spi, 0, 0);

Nathan Harold

2018-03-16 20:13:03 -0700

[diff] [blame]

441

SCOPED_TRACE(status);

442

ASSERT_TRUE(status.ok());

443

Benedict Wong

2018-05-07 10:29:02 -0700

[diff] [blame]

444

status = XfrmController::ipSecDeleteSecurityPolicy(0, AF_INET6, 0, 0, 0, 0);

Nathan Harold

2018-03-16 20:13:03 -0700

[diff] [blame]

445

SCOPED_TRACE(status);

446

ASSERT_TRUE(status.ok());

447

448

// Remove Virtual Tunnel Interface.

Benedict Wong

2018-05-15 17:06:44 -0700

[diff] [blame]

449

ASSERT_TRUE(XfrmController::ipSecRemoveTunnelInterface("ipsec_test").ok());

Nathan Harold

2018-03-16 20:13:03 -0700

[diff] [blame]

450

}

Bernie Innocenti

2019-01-30 22:40:53 +0900

[diff] [blame]

451

452

#endif // INTPTR_MAX != INT32_MAX

Nathan Harold

2018-03-16 20:13:03 -0700

[diff] [blame]

453

Lorenzo Colitti

2016-03-22 12:36:29 +0900

[diff] [blame]

454

static int bandwidthDataSaverEnabled(const char *binary) {

Lorenzo Colitti

464eabe

2016-03-25 13:38:19 +0900

[diff] [blame]

455

std::vector<std::string> lines = listIptablesRule(binary, "bw_data_saver");

Lorenzo Colitti

2016-03-22 12:36:29 +0900

[diff] [blame]

456

457

// Output looks like this:

458

//

Lorenzo Colitti

464eabe

2016-03-25 13:38:19 +0900

[diff] [blame]

459

// Chain bw_data_saver (1 references)

Lorenzo Colitti

2016-03-22 12:36:29 +0900

[diff] [blame]

460

// target prot opt source destination

Lorenzo Colitti

2016-03-22 12:36:29 +0900

[diff] [blame]

461

// RETURN all -- 0.0.0.0/0 0.0.0.0/0

Lorenzo Colitti

2017-09-26 17:46:18 +0900

[diff] [blame]

//

// or:

//

// Chain bw_data_saver (1 references)

466

// target prot opt source destination

467

// ... possibly connectivity critical packet rules here ...

468

// REJECT all -- ::/0 ::/0

Lorenzo Colitti

2016-03-22 12:36:29 +0900

[diff] [blame]

469

Lorenzo Colitti

2017-09-26 17:46:18 +0900

[diff] [blame]

470

EXPECT_GE(lines.size(), 3U);

Lorenzo Colitti

2016-03-22 12:36:29 +0900

[diff] [blame]

471

Lorenzo Colitti

2017-09-26 17:46:18 +0900

[diff] [blame]

472

if (lines.size() == 3 && StartsWith(lines[2], "RETURN ")) {

473

// Data saver disabled.

return 0;

}

size_t minSize = (std::string(binary) == IPTABLES_PATH) ? 3 : 9;

478

479

if (lines.size() >= minSize && StartsWith(lines[lines.size() -1], "REJECT ")) {

480

// Data saver enabled.

return 1;

}

return -1;

Lorenzo Colitti

2016-03-22 12:36:29 +0900

[diff] [blame]

485

}

486

487

bool enableDataSaver(sp<INetd>& netd, bool enable) {

488

TimedOperation op(enable ? " Enabling data saver" : "Disabling data saver");

489

bool ret;

490

netd->bandwidthEnableDataSaver(enable, &ret);

return ret;

}

int getDataSaverState() {

495

const int enabled4 = bandwidthDataSaverEnabled(IPTABLES_PATH);

496

const int enabled6 = bandwidthDataSaverEnabled(IP6TABLES_PATH);

497

EXPECT_EQ(enabled4, enabled6);

498

EXPECT_NE(-1, enabled4);

499

EXPECT_NE(-1, enabled6);

500

if (enabled4 != enabled6 || (enabled6 != 0 && enabled6 != 1)) {

return -1;

}

return enabled6;

}

Bernie Innocenti

2018-08-10 17:15:00 +0900

[diff] [blame]

506

TEST_F(BinderTest, BandwidthEnableDataSaver) {

Lorenzo Colitti

2016-03-22 12:36:29 +0900

[diff] [blame]

507

const int wasEnabled = getDataSaverState();

508

ASSERT_NE(-1, wasEnabled);

509

510

if (wasEnabled) {

511

ASSERT_TRUE(enableDataSaver(mNetd, false));

512

EXPECT_EQ(0, getDataSaverState());

513

}

514

515

ASSERT_TRUE(enableDataSaver(mNetd, false));

516

EXPECT_EQ(0, getDataSaverState());

517

518

ASSERT_TRUE(enableDataSaver(mNetd, true));

519

EXPECT_EQ(1, getDataSaverState());

520

521

ASSERT_TRUE(enableDataSaver(mNetd, true));

522

EXPECT_EQ(1, getDataSaverState());

523

524

if (!wasEnabled) {

525

ASSERT_TRUE(enableDataSaver(mNetd, false));

526

EXPECT_EQ(0, getDataSaverState());

527

}

528

}

Robin Lee

2016-03-30 18:43:08 +0100

[diff] [blame]

529

Luke Huang

2018-10-18 19:35:12 +0900

[diff] [blame]

530

static bool ipRuleExistsForRange(const uint32_t priority, const UidRangeParcel& range,

531

const std::string& action, const char* ipVersion) {

Robin Lee

2016-03-30 18:43:08 +0100

[diff] [blame]

532

// Output looks like this:

Robin Lee

6c84ef6

2016-05-03 13:17:58 +0100

[diff] [blame]

533

// "12500:\tfrom all fwmark 0x0/0x20000 iif lo uidrange 1000-2000 prohibit"

Robin Lee

2016-03-30 18:43:08 +0100

[diff] [blame]

534

std::vector<std::string> rules = listIpRules(ipVersion);

535

536

std::string prefix = StringPrintf("%" PRIu32 ":", priority);

Luke Huang

2018-10-18 19:35:12 +0900

[diff] [blame]

537

std::string suffix =

538

StringPrintf(" iif lo uidrange %d-%d %s\n", range.start, range.stop, action.c_str());

Bernie Innocenti

2018-06-11 17:37:35 +0900

[diff] [blame]

539

for (const auto& line : rules) {

Elliott Hughes

2f44508

2017-12-20 12:39:35 -0800

[diff] [blame]

540

if (android::base::StartsWith(line, prefix) && android::base::EndsWith(line, suffix)) {

Robin Lee

2016-03-30 18:43:08 +0100

[diff] [blame]

return true;

}

}

return false;

}

Luke Huang

2018-10-18 19:35:12 +0900

[diff] [blame]

547

static bool ipRuleExistsForRange(const uint32_t priority, const UidRangeParcel& range,

548

const std::string& action) {

Robin Lee

2016-03-30 18:43:08 +0100

[diff] [blame]

549

bool existsIp4 = ipRuleExistsForRange(priority, range, action, IP_RULE_V4);

550

bool existsIp6 = ipRuleExistsForRange(priority, range, action, IP_RULE_V6);

551

EXPECT_EQ(existsIp4, existsIp6);

return existsIp4;

}

Luke Huang

2018-10-18 19:35:12 +0900

[diff] [blame]

555

namespace {

556

557

UidRangeParcel makeUidRangeParcel(int start, int stop) {

UidRangeParcel res;

res.start = start;

res.stop = stop;

return res;

}

} // namespace

Bernie Innocenti

2018-08-10 17:15:00 +0900

[diff] [blame]

567

TEST_F(BinderTest, NetworkInterfaces) {

Luke Huang

2018-08-23 20:01:13 +0800

[diff] [blame]

568

EXPECT_TRUE(mNetd->networkCreatePhysical(TEST_NETID1, INetd::PERMISSION_NONE).isOk());

569

EXPECT_EQ(EEXIST, mNetd->networkCreatePhysical(TEST_NETID1, INetd::PERMISSION_NONE)

570

.serviceSpecificErrorCode());

cken

67cd14c

2018-12-05 17:26:59 +0900

[diff] [blame]

571

EXPECT_EQ(EEXIST, mNetd->networkCreateVpn(TEST_NETID1, true).serviceSpecificErrorCode());

572

EXPECT_TRUE(mNetd->networkCreateVpn(TEST_NETID2, true).isOk());

Lorenzo Colitti

2016-12-15 23:59:01 +0900

[diff] [blame]

573

574

EXPECT_TRUE(mNetd->networkAddInterface(TEST_NETID1, sTun.name()).isOk());

575

EXPECT_EQ(EBUSY,

576

mNetd->networkAddInterface(TEST_NETID2, sTun.name()).serviceSpecificErrorCode());

577

578

EXPECT_TRUE(mNetd->networkDestroy(TEST_NETID1).isOk());

579

EXPECT_TRUE(mNetd->networkAddInterface(TEST_NETID2, sTun.name()).isOk());

580

EXPECT_TRUE(mNetd->networkDestroy(TEST_NETID2).isOk());

Luke Huang

2018-08-23 20:01:13 +0800

[diff] [blame]

581

EXPECT_EQ(ENONET, mNetd->networkDestroy(TEST_NETID1).serviceSpecificErrorCode());

Lorenzo Colitti

2016-12-15 23:59:01 +0900

[diff] [blame]

582

}

583

Bernie Innocenti

2018-08-10 17:15:00 +0900

[diff] [blame]

584

TEST_F(BinderTest, NetworkUidRules) {

Lorenzo Colitti

2016-12-15 23:59:01 +0900

[diff] [blame]

585

const uint32_t RULE_PRIORITY_SECURE_VPN = 12000;

586

cken

67cd14c

2018-12-05 17:26:59 +0900

[diff] [blame]

587

EXPECT_TRUE(mNetd->networkCreateVpn(TEST_NETID1, true).isOk());

588

EXPECT_EQ(EEXIST, mNetd->networkCreateVpn(TEST_NETID1, true).serviceSpecificErrorCode());

Lorenzo Colitti

2016-12-15 23:59:01 +0900

[diff] [blame]

589

EXPECT_TRUE(mNetd->networkAddInterface(TEST_NETID1, sTun.name()).isOk());

590

Luke Huang

2018-10-18 19:35:12 +0900

[diff] [blame]

591

std::vector<UidRangeParcel> uidRanges = {makeUidRangeParcel(BASE_UID + 8005, BASE_UID + 8012),

592

makeUidRangeParcel(BASE_UID + 8090, BASE_UID + 8099)};

593

UidRangeParcel otherRange = makeUidRangeParcel(BASE_UID + 8190, BASE_UID + 8299);

Lorenzo Colitti

2016-12-15 23:59:01 +0900

[diff] [blame]

594

std::string suffix = StringPrintf("lookup %s ", sTun.name().c_str());

595

596

EXPECT_TRUE(mNetd->networkAddUidRanges(TEST_NETID1, uidRanges).isOk());

597

598

EXPECT_TRUE(ipRuleExistsForRange(RULE_PRIORITY_SECURE_VPN, uidRanges[0], suffix));

599

EXPECT_FALSE(ipRuleExistsForRange(RULE_PRIORITY_SECURE_VPN, otherRange, suffix));

600

EXPECT_TRUE(mNetd->networkRemoveUidRanges(TEST_NETID1, uidRanges).isOk());

601

EXPECT_FALSE(ipRuleExistsForRange(RULE_PRIORITY_SECURE_VPN, uidRanges[0], suffix));

602

603

EXPECT_TRUE(mNetd->networkAddUidRanges(TEST_NETID1, uidRanges).isOk());

604

EXPECT_TRUE(ipRuleExistsForRange(RULE_PRIORITY_SECURE_VPN, uidRanges[1], suffix));

605

EXPECT_TRUE(mNetd->networkDestroy(TEST_NETID1).isOk());

606

EXPECT_FALSE(ipRuleExistsForRange(RULE_PRIORITY_SECURE_VPN, uidRanges[1], suffix));

607

608

EXPECT_EQ(ENONET, mNetd->networkDestroy(TEST_NETID1).serviceSpecificErrorCode());

609

}

610

Bernie Innocenti

2018-08-10 17:15:00 +0900

[diff] [blame]

611

TEST_F(BinderTest, NetworkRejectNonSecureVpn) {

Robin Lee

6c84ef6

2016-05-03 13:17:58 +0100

[diff] [blame]

612

constexpr uint32_t RULE_PRIORITY = 12500;

Robin Lee

2016-03-30 18:43:08 +0100

[diff] [blame]

613

Luke Huang

2018-10-18 19:35:12 +0900

[diff] [blame]

614

std::vector<UidRangeParcel> uidRanges = {makeUidRangeParcel(BASE_UID + 150, BASE_UID + 224),

615

makeUidRangeParcel(BASE_UID + 226, BASE_UID + 300)};

Robin Lee

2016-03-30 18:43:08 +0100

[diff] [blame]

616

617

const std::vector<std::string> initialRulesV4 = listIpRules(IP_RULE_V4);

618

const std::vector<std::string> initialRulesV6 = listIpRules(IP_RULE_V6);

619

620

// Create two valid rules.

621

ASSERT_TRUE(mNetd->networkRejectNonSecureVpn(true, uidRanges).isOk());

622

EXPECT_EQ(initialRulesV4.size() + 2, listIpRules(IP_RULE_V4).size());

623

EXPECT_EQ(initialRulesV6.size() + 2, listIpRules(IP_RULE_V6).size());

624

for (auto const& range : uidRanges) {

625

EXPECT_TRUE(ipRuleExistsForRange(RULE_PRIORITY, range, "prohibit"));

}

// Remove the rules.

ASSERT_TRUE(mNetd->networkRejectNonSecureVpn(false, uidRanges).isOk());

630

EXPECT_EQ(initialRulesV4.size(), listIpRules(IP_RULE_V4).size());

631

EXPECT_EQ(initialRulesV6.size(), listIpRules(IP_RULE_V6).size());

632

for (auto const& range : uidRanges) {

633

EXPECT_FALSE(ipRuleExistsForRange(RULE_PRIORITY, range, "prohibit"));

634

}

635

636

// Fail to remove the rules a second time after they are already deleted.

637

binder::Status status = mNetd->networkRejectNonSecureVpn(false, uidRanges);

638

ASSERT_EQ(binder::Status::EX_SERVICE_SPECIFIC, status.exceptionCode());

639

EXPECT_EQ(ENOENT, status.serviceSpecificErrorCode());

640

641

// All rules should be the same as before.

642

EXPECT_EQ(initialRulesV4, listIpRules(IP_RULE_V4));

643

EXPECT_EQ(initialRulesV6, listIpRules(IP_RULE_V6));

644

}

Lorenzo Colitti

2016-04-24 13:13:14 +0900

[diff] [blame]

645

Lorenzo Colitti

2016-07-27 22:10:49 +0900

[diff] [blame]

646

// Create a socket pair that isLoopbackSocket won't think is local.

647

void BinderTest::fakeRemoteSocketPair(int *clientSocket, int *serverSocket, int *acceptedSocket) {

Bernie Innocenti

2018-06-11 17:37:35 +0900

[diff] [blame]

648

*serverSocket = socket(AF_INET6, SOCK_STREAM | SOCK_CLOEXEC, 0);

Lorenzo Colitti

2017-02-27 17:16:10 +0900

[diff] [blame]

649

struct sockaddr_in6 server6 = { .sin6_family = AF_INET6, .sin6_addr = sTun.dstAddr() };

Lorenzo Colitti

2016-04-24 13:13:14 +0900

[diff] [blame]

650

ASSERT_EQ(0, bind(*serverSocket, (struct sockaddr *) &server6, sizeof(server6)));

651

652

socklen_t addrlen = sizeof(server6);

653

ASSERT_EQ(0, getsockname(*serverSocket, (struct sockaddr *) &server6, &addrlen));

654

ASSERT_EQ(0, listen(*serverSocket, 10));

655

Bernie Innocenti

2018-06-11 17:37:35 +0900

[diff] [blame]

656

*clientSocket = socket(AF_INET6, SOCK_STREAM | SOCK_CLOEXEC, 0);

Lorenzo Colitti

2017-02-27 17:16:10 +0900

[diff] [blame]

657

struct sockaddr_in6 client6 = { .sin6_family = AF_INET6, .sin6_addr = sTun.srcAddr() };

Lorenzo Colitti

2016-07-27 22:10:49 +0900

[diff] [blame]

658

ASSERT_EQ(0, bind(*clientSocket, (struct sockaddr *) &client6, sizeof(client6)));

Lorenzo Colitti

2016-04-24 13:13:14 +0900

[diff] [blame]

659

ASSERT_EQ(0, connect(*clientSocket, (struct sockaddr *) &server6, sizeof(server6)));

660

ASSERT_EQ(0, getsockname(*clientSocket, (struct sockaddr *) &client6, &addrlen));

661

Bernie Innocenti

2018-06-11 17:37:35 +0900

[diff] [blame]

662

*acceptedSocket = accept4(*serverSocket, (struct sockaddr *) &server6, &addrlen, SOCK_CLOEXEC);

Lorenzo Colitti

2016-04-24 13:13:14 +0900

[diff] [blame]

663

ASSERT_NE(-1, *acceptedSocket);

664

665

ASSERT_EQ(0, memcmp(&client6, &server6, sizeof(client6)));

666

}

667

668

void checkSocketpairOpen(int clientSocket, int acceptedSocket) {

669

char buf[4096];

670

EXPECT_EQ(4, write(clientSocket, "foo", sizeof("foo")));

671

EXPECT_EQ(4, read(acceptedSocket, buf, sizeof(buf)));

672

EXPECT_EQ(0, memcmp(buf, "foo", sizeof("foo")));

673

}

674

675

void checkSocketpairClosed(int clientSocket, int acceptedSocket) {

676

// Check that the client socket was closed with ECONNABORTED.

677

int ret = write(clientSocket, "foo", sizeof("foo"));

678

int err = errno;

679

EXPECT_EQ(-1, ret);

680

EXPECT_EQ(ECONNABORTED, err);

681

682

// Check that it sent a RST to the server.

683

ret = write(acceptedSocket, "foo", sizeof("foo"));

684

err = errno;

685

EXPECT_EQ(-1, ret);

686

EXPECT_EQ(ECONNRESET, err);

687

}

688

Bernie Innocenti

2018-08-10 17:15:00 +0900

[diff] [blame]

689

TEST_F(BinderTest, SocketDestroy) {

Lorenzo Colitti

2016-04-24 13:13:14 +0900

[diff] [blame]

690

int clientSocket, serverSocket, acceptedSocket;

Lorenzo Colitti

2016-07-27 22:10:49 +0900

[diff] [blame]

691

ASSERT_NO_FATAL_FAILURE(fakeRemoteSocketPair(&clientSocket, &serverSocket, &acceptedSocket));

Lorenzo Colitti

2016-04-24 13:13:14 +0900

[diff] [blame]

692

693

// Pick a random UID in the system UID range.

694

constexpr int baseUid = AID_APP - 2000;

695

static_assert(baseUid > 0, "Not enough UIDs? Please fix this test.");

696

int uid = baseUid + 500 + arc4random_uniform(1000);

697

EXPECT_EQ(0, fchown(clientSocket, uid, -1));

698

699

// UID ranges that don't contain uid.

Luke Huang

2018-10-18 19:35:12 +0900

[diff] [blame]

700

std::vector<UidRangeParcel> uidRanges = {

701

makeUidRangeParcel(baseUid + 42, baseUid + 449),

702

makeUidRangeParcel(baseUid + 1536, AID_APP - 4),

703

makeUidRangeParcel(baseUid + 498, uid - 1),

704

makeUidRangeParcel(uid + 1, baseUid + 1520),

Lorenzo Colitti

2016-04-24 13:13:14 +0900

[diff] [blame]

705

};

706

// A skip list that doesn't contain UID.

707

std::vector<int32_t> skipUids { baseUid + 123, baseUid + 1600 };

708

709

// Close sockets. Our test socket should be intact.

710

EXPECT_TRUE(mNetd->socketDestroy(uidRanges, skipUids).isOk());

711

checkSocketpairOpen(clientSocket, acceptedSocket);

712

713

// UID ranges that do contain uid.

714

uidRanges = {

Luke Huang

2018-10-18 19:35:12 +0900

[diff] [blame]

715

makeUidRangeParcel(baseUid + 42, baseUid + 449),

716

makeUidRangeParcel(baseUid + 1536, AID_APP - 4),

717

makeUidRangeParcel(baseUid + 498, baseUid + 1520),

Lorenzo Colitti

2016-04-24 13:13:14 +0900

[diff] [blame]

718

};

719

// Add uid to the skip list.

720

skipUids.push_back(uid);

721

722

// Close sockets. Our test socket should still be intact because it's in the skip list.

723

EXPECT_TRUE(mNetd->socketDestroy(uidRanges, skipUids).isOk());

724

checkSocketpairOpen(clientSocket, acceptedSocket);

725

726

// Now remove uid from skipUids, and close sockets. Our test socket should have been closed.

727

skipUids.resize(skipUids.size() - 1);

728

EXPECT_TRUE(mNetd->socketDestroy(uidRanges, skipUids).isOk());

729

checkSocketpairClosed(clientSocket, acceptedSocket);

close(clientSocket);

close(serverSocket);

close(acceptedSocket);

734

}

Erik Kline

2016-08-03 11:24:27 +0900

[diff] [blame]

namespace {

int netmaskToPrefixLength(const uint8_t *buf, size_t buflen) {

739

if (buf == nullptr) return -1;

740

741

int prefixLength = 0;

742

bool endOfContiguousBits = false;

743

for (unsigned int i = 0; i < buflen; i++) {

744

const uint8_t value = buf[i];

745

746

// Bad bit sequence: check for a contiguous set of bits from the high

747

// end by verifying that the inverted value + 1 is a power of 2

748

// (power of 2 iff. (v & (v - 1)) == 0).

749

const uint8_t inverse = ~value + 1;

750

if ((inverse & (inverse - 1)) != 0) return -1;

751

752

prefixLength += (value == 0) ? 0 : CHAR_BIT - ffs(value) + 1;

753

754

// Bogus netmask.

755

if (endOfContiguousBits && value != 0) return -1;

756

757

if (value != 0xff) endOfContiguousBits = true;

}

return prefixLength;

}

template<typename T>

int netmaskToPrefixLength(const T *p) {

765

return netmaskToPrefixLength(reinterpret_cast<const uint8_t*>(p), sizeof(T));

}

static bool interfaceHasAddress(

770

const std::string &ifname, const char *addrString, int prefixLength) {

771

struct addrinfo *addrinfoList = nullptr;

Erik Kline

2016-08-03 11:24:27 +0900

[diff] [blame]

772

773

const struct addrinfo hints = {

774

.ai_flags = AI_NUMERICHOST,

775

.ai_family = AF_UNSPEC,

776

.ai_socktype = SOCK_DGRAM,

777

};

778

if (getaddrinfo(addrString, nullptr, &hints, &addrinfoList) != 0 ||

779

addrinfoList == nullptr || addrinfoList->ai_addr == nullptr) {

780

return false;

781

}

Bernie Innocenti

9bf749f

2018-08-30 08:37:22 +0900

[diff] [blame]

782

ScopedAddrinfo addrinfoCleanup(addrinfoList);

Erik Kline

2016-08-03 11:24:27 +0900

[diff] [blame]

783

784

struct ifaddrs *ifaddrsList = nullptr;

785

ScopedIfaddrs ifaddrsCleanup(ifaddrsList);

786

787

if (getifaddrs(&ifaddrsList) != 0) {

return false;

}

for (struct ifaddrs *addr = ifaddrsList; addr != nullptr; addr = addr->ifa_next) {

792

if (std::string(addr->ifa_name) != ifname ||

793

addr->ifa_addr == nullptr ||

794

addr->ifa_addr->sa_family != addrinfoList->ai_addr->sa_family) {

continue;

}

switch (addr->ifa_addr->sa_family) {

799

case AF_INET: {

800

auto *addr4 = reinterpret_cast<const struct sockaddr_in*>(addr->ifa_addr);

801

auto *want = reinterpret_cast<const struct sockaddr_in*>(addrinfoList->ai_addr);

802

if (memcmp(&addr4->sin_addr, &want->sin_addr, sizeof(want->sin_addr)) != 0) {

continue;

}

if (prefixLength < 0) return true; // not checking prefix lengths

807

808

if (addr->ifa_netmask == nullptr) return false;

809

auto *nm = reinterpret_cast<const struct sockaddr_in*>(addr->ifa_netmask);

810

EXPECT_EQ(prefixLength, netmaskToPrefixLength(&nm->sin_addr));

811

return (prefixLength == netmaskToPrefixLength(&nm->sin_addr));

812

}

813

case AF_INET6: {

814

auto *addr6 = reinterpret_cast<const struct sockaddr_in6*>(addr->ifa_addr);

815

auto *want = reinterpret_cast<const struct sockaddr_in6*>(addrinfoList->ai_addr);

816

if (memcmp(&addr6->sin6_addr, &want->sin6_addr, sizeof(want->sin6_addr)) != 0) {

continue;

}

if (prefixLength < 0) return true; // not checking prefix lengths

821

822

if (addr->ifa_netmask == nullptr) return false;

823

auto *nm = reinterpret_cast<const struct sockaddr_in6*>(addr->ifa_netmask);

824

EXPECT_EQ(prefixLength, netmaskToPrefixLength(&nm->sin6_addr));

825

return (prefixLength == netmaskToPrefixLength(&nm->sin6_addr));

826

}

827

default:

828

// Cannot happen because we have already screened for matching

829

// address families at the top of each iteration.

continue;

}

}

return false;

}

} // namespace

Bernie Innocenti

2018-08-10 17:15:00 +0900

[diff] [blame]

839

TEST_F(BinderTest, InterfaceAddRemoveAddress) {

Erik Kline

2016-08-03 11:24:27 +0900

[diff] [blame]

840

static const struct TestData {

841

const char *addrString;

842

const int prefixLength;

843

const bool expectSuccess;

844

} kTestData[] = {

845

{ "192.0.2.1", 24, true },

846

{ "192.0.2.2", 25, true },

847

{ "192.0.2.3", 32, true },

848

{ "192.0.2.4", 33, false },

849

{ "192.not.an.ip", 24, false },

850

{ "2001:db8::1", 64, true },

851

{ "2001:db8::2", 65, true },

852

{ "2001:db8::3", 128, true },

853

{ "2001:db8::4", 129, false },

854

{ "foo:bar::bad", 64, false },

855

};

856

Sehee Park

2018-11-16 10:53:16 +0900

[diff] [blame]

857

for (size_t i = 0; i < std::size(kTestData); i++) {

Erik Kline

2016-08-03 11:24:27 +0900

[diff] [blame]

858

const auto &td = kTestData[i];

859

860

// [1.a] Add the address.

861

binder::Status status = mNetd->interfaceAddAddress(

Lorenzo Colitti

2017-02-27 17:16:10 +0900

[diff] [blame]

862

sTun.name(), td.addrString, td.prefixLength);

Erik Kline

2016-08-03 11:24:27 +0900

[diff] [blame]

863

if (td.expectSuccess) {

864

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

865

} else {

866

ASSERT_EQ(binder::Status::EX_SERVICE_SPECIFIC, status.exceptionCode());

867

ASSERT_NE(0, status.serviceSpecificErrorCode());

868

}

869

870

// [1.b] Verify the addition meets the expectation.

871

if (td.expectSuccess) {

Lorenzo Colitti

2017-02-27 17:16:10 +0900

[diff] [blame]

872

EXPECT_TRUE(interfaceHasAddress(sTun.name(), td.addrString, td.prefixLength));

Erik Kline

2016-08-03 11:24:27 +0900

[diff] [blame]

873

} else {

Lorenzo Colitti

2017-02-27 17:16:10 +0900

[diff] [blame]

874

EXPECT_FALSE(interfaceHasAddress(sTun.name(), td.addrString, -1));

Erik Kline

2016-08-03 11:24:27 +0900

[diff] [blame]

875

}

876

877

// [2.a] Try to remove the address. If it was not previously added, removing it fails.

Lorenzo Colitti

2017-02-27 17:16:10 +0900

[diff] [blame]

878

status = mNetd->interfaceDelAddress(sTun.name(), td.addrString, td.prefixLength);

Erik Kline

2016-08-03 11:24:27 +0900

[diff] [blame]

879

if (td.expectSuccess) {

880

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

881

} else {

882

ASSERT_EQ(binder::Status::EX_SERVICE_SPECIFIC, status.exceptionCode());

883

ASSERT_NE(0, status.serviceSpecificErrorCode());

884

}

885

886

// [2.b] No matter what, the address should not be present.

Lorenzo Colitti

2017-02-27 17:16:10 +0900

[diff] [blame]

887

EXPECT_FALSE(interfaceHasAddress(sTun.name(), td.addrString, -1));

Erik Kline

2016-08-03 11:24:27 +0900

[diff] [blame]

888

}

889

}

Erik Kline

2016-07-04 09:57:18 +0900

[diff] [blame]

890

Erik Kline

2018-09-06 20:14:44 +0900

[diff] [blame]

891

TEST_F(BinderTest, GetProcSysNet) {

892

const char LOOPBACK[] = "lo";

893

static const struct {

894

const int ipversion;

Erik Kline

2016-07-04 09:57:18 +0900

[diff] [blame]

895

const int which;

Erik Kline

2018-09-06 20:14:44 +0900

[diff] [blame]

896

const char* ifname;

897

const char* parameter;

898

const char* expectedValue;

Erik Kline

2016-07-04 09:57:18 +0900

[diff] [blame]

899

const int expectedReturnCode;

900

} kTestData[] = {

Erik Kline

2018-09-06 20:14:44 +0900

[diff] [blame]

901

{INetd::IPV4, INetd::CONF, LOOPBACK, "arp_ignore", "0", 0},

902

{-1, INetd::CONF, sTun.name().c_str(), "arp_ignore", nullptr, EAFNOSUPPORT},

903

{INetd::IPV4, -1, sTun.name().c_str(), "arp_ignore", nullptr, EINVAL},

904

{INetd::IPV4, INetd::CONF, "..", "conf/lo/arp_ignore", nullptr, EINVAL},

905

{INetd::IPV4, INetd::CONF, ".", "lo/arp_ignore", nullptr, EINVAL},

906

{INetd::IPV4, INetd::CONF, sTun.name().c_str(), "../all/arp_ignore", nullptr, EINVAL},

907

{INetd::IPV6, INetd::NEIGH, LOOPBACK, "ucast_solicit", "3", 0},

Erik Kline

2016-07-04 09:57:18 +0900

[diff] [blame]

908

};

909

Sehee Park

2018-11-16 10:53:16 +0900

[diff] [blame]

910

for (size_t i = 0; i < std::size(kTestData); i++) {

Erik Kline

2018-09-06 20:14:44 +0900

[diff] [blame]

911

const auto& td = kTestData[i];

Erik Kline

2016-07-04 09:57:18 +0900

[diff] [blame]

912

Erik Kline

2018-09-06 20:14:44 +0900

[diff] [blame]

913

std::string value;

914

const binder::Status status =

915

mNetd->getProcSysNet(td.ipversion, td.which, td.ifname, td.parameter, &value);

916

917

if (td.expectedReturnCode == 0) {

Sehee Park

2018-11-16 10:53:16 +0900

[diff] [blame]

918

SCOPED_TRACE(String8::format("test case %zu should have passed", i));

Erik Kline

2018-09-06 20:14:44 +0900

[diff] [blame]

919

EXPECT_EQ(0, status.exceptionCode());

920

EXPECT_EQ(0, status.serviceSpecificErrorCode());

921

EXPECT_EQ(td.expectedValue, value);

922

} else {

Sehee Park

2018-11-16 10:53:16 +0900

[diff] [blame]

923

SCOPED_TRACE(String8::format("test case %zu should have failed", i));

Erik Kline

2018-09-06 20:14:44 +0900

[diff] [blame]

924

EXPECT_EQ(binder::Status::EX_SERVICE_SPECIFIC, status.exceptionCode());

925

EXPECT_EQ(td.expectedReturnCode, status.serviceSpecificErrorCode());

}

}

}

TEST_F(BinderTest, SetProcSysNet) {

931

static const struct {

const int ipversion;

const int which;

const char* ifname;

const char* parameter;

936

const char* value;

937

const int expectedReturnCode;

938

} kTestData[] = {

939

{INetd::IPV4, INetd::CONF, sTun.name().c_str(), "arp_ignore", "1", 0},

940

{-1, INetd::CONF, sTun.name().c_str(), "arp_ignore", "1", EAFNOSUPPORT},

941

{INetd::IPV4, -1, sTun.name().c_str(), "arp_ignore", "1", EINVAL},

942

{INetd::IPV4, INetd::CONF, "..", "conf/lo/arp_ignore", "1", EINVAL},

943

{INetd::IPV4, INetd::CONF, ".", "lo/arp_ignore", "1", EINVAL},

944

{INetd::IPV4, INetd::CONF, sTun.name().c_str(), "../all/arp_ignore", "1", EINVAL},

945

{INetd::IPV6, INetd::NEIGH, sTun.name().c_str(), "ucast_solicit", "7", 0},

946

};

947

Sehee Park

2018-11-16 10:53:16 +0900

[diff] [blame]

948

for (size_t i = 0; i < std::size(kTestData); i++) {

Erik Kline

2018-09-06 20:14:44 +0900

[diff] [blame]

949

const auto& td = kTestData[i];

Erik Kline

2018-09-06 20:14:44 +0900

[diff] [blame]

950

const binder::Status status =

951

mNetd->setProcSysNet(td.ipversion, td.which, td.ifname, td.parameter, td.value);

Erik Kline

2016-07-04 09:57:18 +0900

[diff] [blame]

952

953

if (td.expectedReturnCode == 0) {

Sehee Park

2018-11-16 10:53:16 +0900

[diff] [blame]

954

SCOPED_TRACE(String8::format("test case %zu should have passed", i));

Erik Kline

2016-07-04 09:57:18 +0900

[diff] [blame]

955

EXPECT_EQ(0, status.exceptionCode());

956

EXPECT_EQ(0, status.serviceSpecificErrorCode());

957

} else {

Sehee Park

2018-11-16 10:53:16 +0900

[diff] [blame]

958

SCOPED_TRACE(String8::format("test case %zu should have failed", i));

Erik Kline

2016-07-04 09:57:18 +0900

[diff] [blame]

959

EXPECT_EQ(binder::Status::EX_SERVICE_SPECIFIC, status.exceptionCode());

960

EXPECT_EQ(td.expectedReturnCode, status.serviceSpecificErrorCode());

961

}

962

}

963

}

Ben Schwartz

2017-04-28 16:38:29 -0400

[diff] [blame]

964

Erik Kline

2018-09-06 20:14:44 +0900

[diff] [blame]

965

TEST_F(BinderTest, GetSetProcSysNet) {

966

const int ipversion = INetd::IPV6;

967

const int category = INetd::NEIGH;

968

const std::string& tun = sTun.name();

969

const std::string parameter("ucast_solicit");

970

971

std::string value{};

972

EXPECT_TRUE(mNetd->getProcSysNet(ipversion, category, tun, parameter, &value).isOk());

973

EXPECT_FALSE(value.empty());

974

const int ival = std::stoi(value);

975

EXPECT_GT(ival, 0);

976

// Try doubling the parameter value (always best!).

977

EXPECT_TRUE(mNetd->setProcSysNet(ipversion, category, tun, parameter, std::to_string(2 * ival))

978

.isOk());

979

EXPECT_TRUE(mNetd->getProcSysNet(ipversion, category, tun, parameter, &value).isOk());

980

EXPECT_EQ(2 * ival, std::stoi(value));

981

// Try resetting the parameter.

982

EXPECT_TRUE(mNetd->setProcSysNet(ipversion, category, tun, parameter, std::to_string(ival))

983

.isOk());

984

EXPECT_TRUE(mNetd->getProcSysNet(ipversion, category, tun, parameter, &value).isOk());

985

EXPECT_EQ(ival, std::stoi(value));

986

}

987

Ben Schwartz

2017-04-28 16:38:29 -0400

[diff] [blame]

988

static std::string base64Encode(const std::vector<uint8_t>& input) {

989

size_t out_len;

990

EXPECT_EQ(1, EVP_EncodedLength(&out_len, input.size()));

991

// out_len includes the trailing NULL.

992

uint8_t output_bytes[out_len];

993

EXPECT_EQ(out_len - 1, EVP_EncodeBlock(output_bytes, input.data(), input.size()));

994

return std::string(reinterpret_cast<char*>(output_bytes));

995

}

996

Bernie Innocenti

2018-08-10 17:15:00 +0900

[diff] [blame]

997

TEST_F(BinderTest, SetResolverConfiguration_Tls) {

Erik Kline

2018-03-04 21:01:56 +0900

[diff] [blame]

998

const std::vector<std::string> LOCALLY_ASSIGNED_DNS{"8.8.8.8", "2001:4860:4860::8888"};

Ben Schwartz

2017-04-28 16:38:29 -0400

[diff] [blame]

999

std::vector<uint8_t> fp(SHA256_SIZE);

Ben Schwartz

2017-10-02 12:35:48 -0400

[diff] [blame]

1000

std::vector<uint8_t> short_fp(1);

1001

std::vector<uint8_t> long_fp(SHA256_SIZE + 1);

1002

std::vector<std::string> test_domains;

1003

std::vector<int> test_params = { 300, 25, 8, 8 };

1004

unsigned test_netid = 0;

Ben Schwartz

2017-04-28 16:38:29 -0400

[diff] [blame]

1005

static const struct TestData {

Ben Schwartz

2017-10-02 12:35:48 -0400

[diff] [blame]

1006

const std::vector<std::string> servers;

1007

const std::string tlsName;

1008

const std::vector<std::vector<uint8_t>> tlsFingerprints;

Ben Schwartz

2017-04-28 16:38:29 -0400

[diff] [blame]

1009

const int expectedReturnCode;

Erik Kline

2018-03-04 21:01:56 +0900

[diff] [blame]

1010

} kTlsTestData[] = {

Ben Schwartz

2017-10-02 12:35:48 -0400

[diff] [blame]

1011

{ {"192.0.2.1"}, "", {}, 0 },

1012

{ {"2001:db8::2"}, "host.name", {}, 0 },

1013

{ {"192.0.2.3"}, "@@@@", { fp }, 0 },

1014

{ {"2001:db8::4"}, "", { fp }, 0 },

Erik Kline

2018-03-04 21:01:56 +0900

[diff] [blame]

1015

{ {}, "", {}, 0 },

Ben Schwartz

2017-10-02 12:35:48 -0400

[diff] [blame]

1016

{ {""}, "", {}, EINVAL },

Erik Kline

2018-03-04 21:01:56 +0900

[diff] [blame]

1017

{ {"192.0.*.5"}, "", {}, EINVAL },

Ben Schwartz

2017-10-02 12:35:48 -0400

[diff] [blame]

1018

{ {"2001:dg8::6"}, "", {}, EINVAL },

1019

{ {"2001:db8::c"}, "", { short_fp }, EINVAL },

1020

{ {"192.0.2.12"}, "", { long_fp }, EINVAL },

1021

{ {"2001:db8::e"}, "", { fp, fp, fp }, 0 },

1022

{ {"192.0.2.14"}, "", { fp, short_fp }, EINVAL },

Ben Schwartz

2017-04-28 16:38:29 -0400

[diff] [blame]

1023

};

1024

Sehee Park

2018-11-16 10:53:16 +0900

[diff] [blame]

1025

for (size_t i = 0; i < std::size(kTlsTestData); i++) {

Erik Kline

2018-03-04 21:01:56 +0900

[diff] [blame]

1026

const auto &td = kTlsTestData[i];

Ben Schwartz

2017-04-28 16:38:29 -0400

[diff] [blame]

1027

1028

std::vector<std::string> fingerprints;

Ben Schwartz

2017-10-02 12:35:48 -0400

[diff] [blame]

1029

for (const auto& fingerprint : td.tlsFingerprints) {

Ben Schwartz

2017-04-28 16:38:29 -0400

[diff] [blame]

1030

fingerprints.push_back(base64Encode(fingerprint));

1031

}

Ben Schwartz

2017-10-02 12:35:48 -0400

[diff] [blame]

1032

binder::Status status = mNetd->setResolverConfiguration(

Erik Kline

2018-03-04 21:01:56 +0900

[diff] [blame]

1033

test_netid, LOCALLY_ASSIGNED_DNS, test_domains, test_params,

1034

td.tlsName, td.servers, fingerprints);

Ben Schwartz

2017-04-28 16:38:29 -0400

[diff] [blame]

1035

Ben Schwartz

2017-10-02 12:35:48 -0400

[diff] [blame]

1036

if (td.expectedReturnCode == 0) {

Sehee Park

2018-11-16 10:53:16 +0900

[diff] [blame]

1037

SCOPED_TRACE(String8::format("test case %zu should have passed", i));

Ben Schwartz

2017-04-28 16:38:29 -0400

[diff] [blame]

1038

SCOPED_TRACE(status.toString8());

1039

EXPECT_EQ(0, status.exceptionCode());

1040

} else {

Sehee Park

2018-11-16 10:53:16 +0900

[diff] [blame]

1041

SCOPED_TRACE(String8::format("test case %zu should have failed", i));

Ben Schwartz

2017-04-28 16:38:29 -0400

[diff] [blame]

1042

EXPECT_EQ(binder::Status::EX_SERVICE_SPECIFIC, status.exceptionCode());

Ben Schwartz

2017-10-02 12:35:48 -0400

[diff] [blame]

1043

EXPECT_EQ(td.expectedReturnCode, status.serviceSpecificErrorCode());

Ben Schwartz

2017-04-28 16:38:29 -0400

[diff] [blame]

1044

}

Ben Schwartz

2017-04-28 16:38:29 -0400

[diff] [blame]

1045

}

Ben Schwartz

2017-10-02 12:35:48 -0400

[diff] [blame]

1046

// Ensure TLS is disabled before the start of the next test.

1047

mNetd->setResolverConfiguration(

Erik Kline

2018-03-04 21:01:56 +0900

[diff] [blame]

1048

test_netid, kTlsTestData[0].servers, test_domains, test_params,

1049

"", {}, {});

Ben Schwartz

2017-04-28 16:38:29 -0400

[diff] [blame]

1050

}

Lorenzo Colitti

2017-01-31 19:06:59 +0900

[diff] [blame]

1051

Bernie Innocenti

2018-08-10 17:15:00 +0900

[diff] [blame]

1052

namespace {

1053

Lorenzo Colitti

2017-01-31 19:06:59 +0900

[diff] [blame]

1054

void expectNoTestCounterRules() {

1055

for (const auto& binary : { IPTABLES_PATH, IP6TABLES_PATH }) {

1056

std::string command = StringPrintf("%s -w -nvL tetherctrl_counters", binary);

1057

std::string allRules = Join(runCommand(command), "\n");

1058

EXPECT_EQ(std::string::npos, allRules.find("netdtest_"));

}

}

Bernie Innocenti

2018-06-11 17:37:35 +0900

[diff] [blame]

1062

void addTetherCounterValues(const char* path, const std::string& if1, const std::string& if2,

1063

int byte, int pkt) {

Lorenzo Colitti

2017-01-31 19:06:59 +0900

[diff] [blame]

1064

runCommand(StringPrintf("%s -w -A tetherctrl_counters -i %s -o %s -j RETURN -c %d %d",

1065

path, if1.c_str(), if2.c_str(), pkt, byte));

1066

}

1067

Bernie Innocenti

2018-06-11 17:37:35 +0900

[diff] [blame]

1068

void delTetherCounterValues(const char* path, const std::string& if1, const std::string& if2) {

Lorenzo Colitti

2017-01-31 19:06:59 +0900

[diff] [blame]

1069

runCommand(StringPrintf("%s -w -D tetherctrl_counters -i %s -o %s -j RETURN",

1070

path, if1.c_str(), if2.c_str()));

1071

runCommand(StringPrintf("%s -w -D tetherctrl_counters -i %s -o %s -j RETURN",

1072

path, if2.c_str(), if1.c_str()));

1073

}

1074

Luke Huang

2018-09-27 20:37:14 +0800

[diff] [blame]

1075

std::vector<int64_t> getStatsVectorByIf(const std::vector<TetherStatsParcel>& statsVec,

1076

const std::string& iface) {

1077

for (auto& stats : statsVec) {

1078

if (stats.iface == iface) {

1079

return {stats.rxBytes, stats.rxPackets, stats.txBytes, stats.txPackets};

}

}

return {};

}

Bernie Innocenti

2018-08-10 17:15:00 +0900

[diff] [blame]

1085

} // namespace

1086

1087

TEST_F(BinderTest, TetherGetStats) {

Lorenzo Colitti

2017-01-31 19:06:59 +0900

[diff] [blame]

1088

expectNoTestCounterRules();

1089

1090

// TODO: fold this into more comprehensive tests once we have binder RPCs for enabling and

1091

// disabling tethering. We don't check the return value because these commands will fail if

1092

// tethering is already enabled.

1093

runCommand(StringPrintf("%s -w -N tetherctrl_counters", IPTABLES_PATH));

1094

runCommand(StringPrintf("%s -w -N tetherctrl_counters", IP6TABLES_PATH));

1095

1096

std::string intIface1 = StringPrintf("netdtest_%u", arc4random_uniform(10000));

1097

std::string intIface2 = StringPrintf("netdtest_%u", arc4random_uniform(10000));

1098

std::string intIface3 = StringPrintf("netdtest_%u", arc4random_uniform(10000));

1099

std::string extIface1 = StringPrintf("netdtest_%u", arc4random_uniform(10000));

1100

std::string extIface2 = StringPrintf("netdtest_%u", arc4random_uniform(10000));

1101

1102

addTetherCounterValues(IPTABLES_PATH, intIface1, extIface1, 123, 111);

1103

addTetherCounterValues(IP6TABLES_PATH, intIface1, extIface1, 456, 10);

1104

addTetherCounterValues(IPTABLES_PATH, extIface1, intIface1, 321, 222);

1105

addTetherCounterValues(IP6TABLES_PATH, extIface1, intIface1, 654, 20);

1106

// RX is from external to internal, and TX is from internal to external.

1107

// So rxBytes is 321 + 654 = 975, txBytes is 123 + 456 = 579, etc.

1108

std::vector<int64_t> expected1 = { 975, 242, 579, 121 };

1109

1110

addTetherCounterValues(IPTABLES_PATH, intIface2, extIface2, 1000, 333);

1111

addTetherCounterValues(IP6TABLES_PATH, intIface2, extIface2, 3000, 30);

1112

1113

addTetherCounterValues(IPTABLES_PATH, extIface2, intIface2, 2000, 444);

1114

addTetherCounterValues(IP6TABLES_PATH, extIface2, intIface2, 4000, 40);

1115

1116

addTetherCounterValues(IP6TABLES_PATH, intIface3, extIface2, 1000, 25);

1117

addTetherCounterValues(IP6TABLES_PATH, extIface2, intIface3, 2000, 35);

1118

std::vector<int64_t> expected2 = { 8000, 519, 5000, 388 };

1119

Luke Huang

2018-09-27 20:37:14 +0800

[diff] [blame]

1120

std::vector<TetherStatsParcel> statsVec;

1121

binder::Status status = mNetd->tetherGetStats(&statsVec);

Lorenzo Colitti

2017-01-31 19:06:59 +0900

[diff] [blame]

1122

EXPECT_TRUE(status.isOk()) << "Getting tethering stats failed: " << status;

1123

Luke Huang

2018-09-27 20:37:14 +0800

[diff] [blame]

1124

EXPECT_EQ(expected1, getStatsVectorByIf(statsVec, extIface1));

Lorenzo Colitti

2017-01-31 19:06:59 +0900

[diff] [blame]

1125

Luke Huang

2018-09-27 20:37:14 +0800

[diff] [blame]

1126

EXPECT_EQ(expected2, getStatsVectorByIf(statsVec, extIface2));

Lorenzo Colitti

2017-01-31 19:06:59 +0900

[diff] [blame]

1127

1128

for (const auto& path : { IPTABLES_PATH, IP6TABLES_PATH }) {

1129

delTetherCounterValues(path, intIface1, extIface1);

1130

delTetherCounterValues(path, intIface2, extIface2);

1131

if (path == IP6TABLES_PATH) {

1132

delTetherCounterValues(path, intIface3, extIface2);

}

}

expectNoTestCounterRules();

1137

}

Bernie Innocenti

2018-08-10 17:15:00 +0900

[diff] [blame]

1138

Luke Huang

2018-07-23 20:30:16 +0800

[diff] [blame]

1139

namespace {

1140

Luke Huang

2018-08-01 23:36:29 +0800

[diff] [blame]

1141

constexpr char IDLETIMER_RAW_PREROUTING[] = "idletimer_raw_PREROUTING";

1142

constexpr char IDLETIMER_MANGLE_POSTROUTING[] = "idletimer_mangle_POSTROUTING";

Luke Huang

2018-07-23 20:30:16 +0800

[diff] [blame]

1143

1144

static std::vector<std::string> listIptablesRuleByTable(const char* binary, const char* table,

1145

const char* chainName) {

1146

std::string command = StringPrintf("%s -t %s -w -n -v -L %s", binary, table, chainName);

1147

return runCommand(command);

1148

}

1149

Luke Huang

2018-10-22 12:12:05 +0900

[diff] [blame]

1150

// TODO: It is a duplicate function, need to remove it

Luke Huang

2018-08-01 23:36:29 +0800

[diff] [blame]

1151

bool iptablesIdleTimerInterfaceRuleExists(const char* binary, const char* chainName,

Luke Huang

2018-07-23 20:30:16 +0800

[diff] [blame]

1152

const std::string& expectedInterface,

1153

const std::string& expectedRule, const char* table) {

1154

std::vector<std::string> rules = listIptablesRuleByTable(binary, table, chainName);

1155

for (const auto& rule : rules) {

1156

if (rule.find(expectedInterface) != std::string::npos) {

1157

if (rule.find(expectedRule) != std::string::npos) {

return true;

}

}

}

return false;

}

void expectIdletimerInterfaceRuleExists(const std::string& ifname, int timeout,

Luke Huang

2018-08-01 23:36:29 +0800

[diff] [blame]

1166

const std::string& classLabel) {

Luke Huang

2018-07-23 20:30:16 +0800

[diff] [blame]

1167

std::string IdletimerRule =

Luke Huang

2018-08-01 23:36:29 +0800

[diff] [blame]

1168

StringPrintf("timeout:%u label:%s send_nl_msg:1", timeout, classLabel.c_str());

Luke Huang

2018-07-23 20:30:16 +0800

[diff] [blame]

1169

for (const auto& binary : {IPTABLES_PATH, IP6TABLES_PATH}) {

Luke Huang

2018-08-01 23:36:29 +0800

[diff] [blame]

1170

EXPECT_TRUE(iptablesIdleTimerInterfaceRuleExists(binary, IDLETIMER_RAW_PREROUTING, ifname,

1171

IdletimerRule, RAW_TABLE));

1172

EXPECT_TRUE(iptablesIdleTimerInterfaceRuleExists(binary, IDLETIMER_MANGLE_POSTROUTING,

Luke Huang

2018-07-23 20:30:16 +0800

[diff] [blame]

1173

ifname, IdletimerRule, MANGLE_TABLE));

}

}

void expectIdletimerInterfaceRuleNotExists(const std::string& ifname, int timeout,

Luke Huang

2018-08-01 23:36:29 +0800

[diff] [blame]

1178

const std::string& classLabel) {

Luke Huang

2018-07-23 20:30:16 +0800

[diff] [blame]

1179

std::string IdletimerRule =

Luke Huang

2018-08-01 23:36:29 +0800

[diff] [blame]

1180

StringPrintf("timeout:%u label:%s send_nl_msg:1", timeout, classLabel.c_str());

Luke Huang

2018-07-23 20:30:16 +0800

[diff] [blame]

1181

for (const auto& binary : {IPTABLES_PATH, IP6TABLES_PATH}) {

Luke Huang

2018-08-01 23:36:29 +0800

[diff] [blame]

1182

EXPECT_FALSE(iptablesIdleTimerInterfaceRuleExists(binary, IDLETIMER_RAW_PREROUTING, ifname,

1183

IdletimerRule, RAW_TABLE));

1184

EXPECT_FALSE(iptablesIdleTimerInterfaceRuleExists(binary, IDLETIMER_MANGLE_POSTROUTING,

Luke Huang

2018-07-23 20:30:16 +0800

[diff] [blame]

1185

ifname, IdletimerRule, MANGLE_TABLE));

}

}

Bernie Innocenti

2018-08-10 17:15:00 +0900

[diff] [blame]

1189

} // namespace

1190

1191

TEST_F(BinderTest, IdletimerAddRemoveInterface) {

Luke Huang

2018-07-23 20:30:16 +0800

[diff] [blame]

1192

// TODO: We will get error in if expectIdletimerInterfaceRuleNotExists if there are the same

1193

// rule in the table. Because we only check the result after calling remove function. We might

1194

// check the actual rule which is removed by our function (maybe compare the results between

1195

// calling function before and after)

1196

binder::Status status;

1197

const struct TestData {

1198

const std::string ifname;

1199

int32_t timeout;

1200

const std::string classLabel;

1201

} idleTestData[] = {

1202

{"wlan0", 1234, "happyday"},

1203

{"rmnet_data0", 4567, "friday"},

1204

};

1205

for (const auto& td : idleTestData) {

1206

status = mNetd->idletimerAddInterface(td.ifname, td.timeout, td.classLabel);

1207

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

1208

expectIdletimerInterfaceRuleExists(td.ifname, td.timeout, td.classLabel);

1209

1210

status = mNetd->idletimerRemoveInterface(td.ifname, td.timeout, td.classLabel);

1211

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

1212

expectIdletimerInterfaceRuleNotExists(td.ifname, td.timeout, td.classLabel);

}

}

Luke Huang

2018-07-17 19:58:25 +0800

[diff] [blame]

1216

namespace {

1217

1218

constexpr char STRICT_OUTPUT[] = "st_OUTPUT";

1219

constexpr char STRICT_CLEAR_CAUGHT[] = "st_clear_caught";

1220

1221

void expectStrictSetUidAccept(const int uid) {

1222

std::string uidRule = StringPrintf("owner UID match %u", uid);

1223

std::string perUidChain = StringPrintf("st_clear_caught_%u", uid);

1224

for (const auto& binary : {IPTABLES_PATH, IP6TABLES_PATH}) {

1225

EXPECT_FALSE(iptablesRuleExists(binary, STRICT_OUTPUT, uidRule.c_str()));

1226

EXPECT_FALSE(iptablesRuleExists(binary, STRICT_CLEAR_CAUGHT, uidRule.c_str()));

1227

EXPECT_EQ(0, iptablesRuleLineLength(binary, perUidChain.c_str()));

}

}

void expectStrictSetUidLog(const int uid) {

1232

static const char logRule[] = "st_penalty_log all";

1233

std::string uidRule = StringPrintf("owner UID match %u", uid);

1234

std::string perUidChain = StringPrintf("st_clear_caught_%u", uid);

1235

for (const auto& binary : {IPTABLES_PATH, IP6TABLES_PATH}) {

1236

EXPECT_TRUE(iptablesRuleExists(binary, STRICT_OUTPUT, uidRule.c_str()));

1237

EXPECT_TRUE(iptablesRuleExists(binary, STRICT_CLEAR_CAUGHT, uidRule.c_str()));

1238

EXPECT_TRUE(iptablesRuleExists(binary, perUidChain.c_str(), logRule));

}

}

void expectStrictSetUidReject(const int uid) {

1243

static const char rejectRule[] = "st_penalty_reject all";

1244

std::string uidRule = StringPrintf("owner UID match %u", uid);

1245

std::string perUidChain = StringPrintf("st_clear_caught_%u", uid);

1246

for (const auto& binary : {IPTABLES_PATH, IP6TABLES_PATH}) {

1247

EXPECT_TRUE(iptablesRuleExists(binary, STRICT_OUTPUT, uidRule.c_str()));

1248

EXPECT_TRUE(iptablesRuleExists(binary, STRICT_CLEAR_CAUGHT, uidRule.c_str()));

1249

EXPECT_TRUE(iptablesRuleExists(binary, perUidChain.c_str(), rejectRule));

}

}

Bernie Innocenti

2018-08-10 17:15:00 +0900

[diff] [blame]

1253

} // namespace

1254

1255

TEST_F(BinderTest, StrictSetUidCleartextPenalty) {

Luke Huang

a67dd56

2018-07-17 19:58:25 +0800

[diff] [blame]

1256

binder::Status status;

1257

int32_t uid = randomUid();

1258

1259

// setUidCleartextPenalty Policy:Log with randomUid

1260

status = mNetd->strictUidCleartextPenalty(uid, INetd::PENALTY_POLICY_LOG);

1261

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

1262

expectStrictSetUidLog(uid);

1263

1264

// setUidCleartextPenalty Policy:Accept with randomUid

1265

status = mNetd->strictUidCleartextPenalty(uid, INetd::PENALTY_POLICY_ACCEPT);

1266

expectStrictSetUidAccept(uid);

1267

1268

// setUidCleartextPenalty Policy:Reject with randomUid

1269

status = mNetd->strictUidCleartextPenalty(uid, INetd::PENALTY_POLICY_REJECT);

1270

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

1271

expectStrictSetUidReject(uid);

1272

1273

// setUidCleartextPenalty Policy:Accept with randomUid

1274

status = mNetd->strictUidCleartextPenalty(uid, INetd::PENALTY_POLICY_ACCEPT);

1275

expectStrictSetUidAccept(uid);

1276

1277

// test wrong policy

1278

int32_t wrongPolicy = -123;

1279

status = mNetd->strictUidCleartextPenalty(uid, wrongPolicy);

1280

EXPECT_EQ(EINVAL, status.serviceSpecificErrorCode());

1281

}

1282

Bernie Innocenti

2018-08-10 17:15:00 +0900

[diff] [blame]

1283

namespace {

Luke Huang

2018-08-01 14:05:18 +0800

[diff] [blame]

1284

Lorenzo Colitti

2019-01-11 22:34:58 +0900

[diff] [blame]

1285

std::vector<std::string> findProcesses(const std::string& processName) {

1286

// Output looks like:

1287

// clat 4963 850 1 12:16:51 ? 00:00:00 clatd-netd10a88 -i netd10a88 ...

1288

// ...

1289

// root 5221 5219 0 12:18:12 ? 00:00:00 sh -c ps -Af | grep ' clatd-netdcc1a0'

1290

1291

std::string cmd = StringPrintf("ps -Af | grep '[0-9] %s'", processName.c_str());

1292

return runCommand(cmd.c_str());

1293

}

1294

Luke Huang

2018-08-01 23:36:29 +0800

[diff] [blame]

1295

bool processExists(const std::string& processName) {

Lorenzo Colitti

2019-01-11 22:34:58 +0900

[diff] [blame]

1296

return (findProcesses(processName).size()) ? true : false;

Luke Huang

2018-08-01 14:05:18 +0800

[diff] [blame]

1297

}

1298

Bernie Innocenti

2018-08-10 17:15:00 +0900

[diff] [blame]

1299

} // namespace

1300

1301

TEST_F(BinderTest, ClatdStartStop) {

Luke Huang

2018-08-01 14:05:18 +0800

[diff] [blame]

1302

binder::Status status;

Luke Huang

2018-08-01 14:05:18 +0800

[diff] [blame]

1303

Lorenzo Colitti

2019-01-11 22:34:58 +0900

[diff] [blame]

1304

const std::string clatdName = StringPrintf("clatd-%s", sTun.name().c_str());

1305

std::string clatAddress;

1306

std::string nat64Prefix = "2001:db8:cafe:f00d:1:2::/96";

Luke Huang

2018-08-01 14:05:18 +0800

[diff] [blame]

1307

Lorenzo Colitti

2019-01-11 22:34:58 +0900

[diff] [blame]

1308

// Can't start clatd on an interface that's not part of any network...

1309

status = mNetd->clatdStart(sTun.name(), nat64Prefix, &clatAddress);

1310

EXPECT_FALSE(status.isOk());

1311

EXPECT_EQ(ENODEV, status.serviceSpecificErrorCode());

1312

1313

// ... so create a test physical network and add our tun to it.

1314

EXPECT_TRUE(mNetd->networkCreatePhysical(TEST_NETID1, INetd::PERMISSION_NONE).isOk());

1315

EXPECT_TRUE(mNetd->networkAddInterface(TEST_NETID1, sTun.name()).isOk());

1316

1317

// Prefix must be 96 bits long.

1318

status = mNetd->clatdStart(sTun.name(), "2001:db8:cafe:f00d::/64", &clatAddress);

1319

EXPECT_FALSE(status.isOk());

1320

EXPECT_EQ(EINVAL, status.serviceSpecificErrorCode());

1321

1322

// Can't start clatd unless there's a default route...

1323

status = mNetd->clatdStart(sTun.name(), nat64Prefix, &clatAddress);

1324

EXPECT_FALSE(status.isOk());

1325

EXPECT_EQ(EADDRNOTAVAIL, status.serviceSpecificErrorCode());

1326

1327

// so add a default route.

1328

EXPECT_TRUE(mNetd->networkAddRoute(TEST_NETID1, sTun.name(), "::/0", "").isOk());

1329

1330

// Can't start clatd unless there's a global address...

1331

status = mNetd->clatdStart(sTun.name(), nat64Prefix, &clatAddress);

1332

EXPECT_FALSE(status.isOk());

1333

EXPECT_EQ(EADDRNOTAVAIL, status.serviceSpecificErrorCode());

1334

1335

// ... so add a global address.

1336

const std::string v6 = "2001:db8:1:2:f076:ae99:124e:aa99";

1337

EXPECT_EQ(0, ifc_add_address(sTun.name().c_str(), v6.c_str(), 64));

1338

1339

// Now expect clatd to start successfully.

1340

status = mNetd->clatdStart(sTun.name(), nat64Prefix, &clatAddress);

1341

EXPECT_TRUE(status.isOk());

1342

EXPECT_EQ(0, status.serviceSpecificErrorCode());

1343

1344

// Starting it again returns EBUSY.

1345

status = mNetd->clatdStart(sTun.name(), nat64Prefix, &clatAddress);

1346

EXPECT_FALSE(status.isOk());

1347

EXPECT_EQ(EBUSY, status.serviceSpecificErrorCode());

1348

1349

std::vector<std::string> processes = findProcesses(clatdName);

1350

EXPECT_EQ(1U, processes.size());

1351

1352

// Expect clatd to stop successfully.

1353

status = mNetd->clatdStop(sTun.name());

Luke Huang

2018-08-01 14:05:18 +0800

[diff] [blame]

1354

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

1355

EXPECT_FALSE(processExists(clatdName));

Lorenzo Colitti

2019-01-11 22:34:58 +0900

[diff] [blame]

1356

1357

// Stopping a clatd that doesn't exist returns ENODEV.

1358

status = mNetd->clatdStop(sTun.name());

1359

EXPECT_FALSE(status.isOk());

1360

EXPECT_EQ(ENODEV, status.serviceSpecificErrorCode());

1361

EXPECT_FALSE(processExists(clatdName));

1362

1363

// Clean up.

1364

EXPECT_TRUE(mNetd->networkRemoveRoute(TEST_NETID1, sTun.name(), "::/0", "").isOk());

1365

EXPECT_EQ(0, ifc_del_address(sTun.name().c_str(), v6.c_str(), 64));

1366

EXPECT_TRUE(mNetd->networkDestroy(TEST_NETID1).isOk());

Luke Huang

2018-08-01 14:05:18 +0800

[diff] [blame]

1367

}

Luke Huang

2018-08-16 15:39:15 +0800

[diff] [blame]

namespace {

bool getIpfwdV4Enable() {

1372

static const char ipv4IpfwdCmd[] = "cat /proc/sys/net/ipv4/ip_forward";

1373

std::vector<std::string> result = runCommand(ipv4IpfwdCmd);

1374

EXPECT_TRUE(!result.empty());

1375

int v4Enable = std::stoi(result[0]);

return v4Enable;

}

bool getIpfwdV6Enable() {

1380

static const char ipv6IpfwdCmd[] = "cat proc/sys/net/ipv6/conf/all/forwarding";

1381

std::vector<std::string> result = runCommand(ipv6IpfwdCmd);

1382

EXPECT_TRUE(!result.empty());

1383

int v6Enable = std::stoi(result[0]);

return v6Enable;

}

void expectIpfwdEnable(bool enable) {

1388

int enableIPv4 = getIpfwdV4Enable();

1389

int enableIPv6 = getIpfwdV6Enable();

1390

EXPECT_EQ(enable, enableIPv4);

1391

EXPECT_EQ(enable, enableIPv6);

1392

}

1393

Bernie Innocenti

1bdf10d

2018-09-10 18:46:07 +0900

[diff] [blame]

1394

bool ipRuleIpfwdExists(const char* ipVersion, const std::string& ipfwdRule) {

Luke Huang

2018-08-16 15:39:15 +0800

[diff] [blame]

1395

std::vector<std::string> rules = listIpRules(ipVersion);

1396

for (const auto& rule : rules) {

1397

if (rule.find(ipfwdRule) != std::string::npos) {

return true;

}

}

return false;

}

void expectIpfwdRuleExists(const char* fromIf, const char* toIf) {

1405

std::string ipfwdRule = StringPrintf("18000:\tfrom all iif %s lookup %s ", fromIf, toIf);

1406

1407

for (const auto& ipVersion : {IP_RULE_V4, IP_RULE_V6}) {

1408

EXPECT_TRUE(ipRuleIpfwdExists(ipVersion, ipfwdRule));

}

}

void expectIpfwdRuleNotExists(const char* fromIf, const char* toIf) {

1413

std::string ipfwdRule = StringPrintf("18000:\tfrom all iif %s lookup %s ", fromIf, toIf);

1414

1415

for (const auto& ipVersion : {IP_RULE_V4, IP_RULE_V6}) {

1416

EXPECT_FALSE(ipRuleIpfwdExists(ipVersion, ipfwdRule));

}

}

} // namespace

TEST_F(BinderTest, TestIpfwdEnableDisableStatusForwarding) {

1423

// Netd default enable Ipfwd with requester NetdHwService

1424

const std::string defaultRequester = "NetdHwService";

1425

1426

binder::Status status = mNetd->ipfwdDisableForwarding(defaultRequester);

1427

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

1428

expectIpfwdEnable(false);

1429

1430

bool ipfwdEnabled;

1431

status = mNetd->ipfwdEnabled(&ipfwdEnabled);

1432

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

1433

EXPECT_FALSE(ipfwdEnabled);

1434

1435

status = mNetd->ipfwdEnableForwarding(defaultRequester);

1436

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

1437

expectIpfwdEnable(true);

1438

1439

status = mNetd->ipfwdEnabled(&ipfwdEnabled);

1440

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

1441

EXPECT_TRUE(ipfwdEnabled);

1442

}

1443

1444

TEST_F(BinderTest, TestIpfwdAddRemoveInterfaceForward) {

Luke Huang

d1827b8

2019-02-15 15:03:27 +0800

[diff] [blame]

1445

// Add test physical network

1446

EXPECT_TRUE(

1447

mNetd->networkCreatePhysical(TEST_NETID1, INetd::PERMISSION_NONE).isOk());

1448

EXPECT_TRUE(mNetd->networkAddInterface(TEST_NETID1, sTun.name()).isOk());

1449

EXPECT_TRUE(

1450

mNetd->networkCreatePhysical(TEST_NETID2, INetd::PERMISSION_NONE).isOk());

1451

EXPECT_TRUE(mNetd->networkAddInterface(TEST_NETID2, sTun2.name()).isOk());

Luke Huang

2018-08-16 15:39:15 +0800

[diff] [blame]

1452

Luke Huang

d1827b8

2019-02-15 15:03:27 +0800

[diff] [blame]

1453

binder::Status status =

1454

mNetd->ipfwdAddInterfaceForward(sTun.name(), sTun2.name());

1455

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

1456

expectIpfwdRuleExists(sTun.name().c_str(), sTun2.name().c_str());

Luke Huang

2018-08-16 15:39:15 +0800

[diff] [blame]

1457

Luke Huang

d1827b8

2019-02-15 15:03:27 +0800

[diff] [blame]

1458

status = mNetd->ipfwdRemoveInterfaceForward(sTun.name(), sTun2.name());

1459

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

1460

expectIpfwdRuleNotExists(sTun.name().c_str(), sTun2.name().c_str());

Bernie Innocenti

2018-08-10 17:15:00 +0900

[diff] [blame]

1461

}

Luke Huang

2018-08-03 15:19:05 +0800

[diff] [blame]

namespace {

constexpr char BANDWIDTH_INPUT[] = "bw_INPUT";

1466

constexpr char BANDWIDTH_OUTPUT[] = "bw_OUTPUT";

1467

constexpr char BANDWIDTH_FORWARD[] = "bw_FORWARD";

1468

constexpr char BANDWIDTH_NAUGHTY[] = "bw_penalty_box";

1469

constexpr char BANDWIDTH_NICE[] = "bw_happy_box";

Luke Huang

2018-11-05 11:17:31 +0900

[diff] [blame]

1470

constexpr char BANDWIDTH_ALERT[] = "bw_global_alert";

Luke Huang

2018-08-03 15:19:05 +0800

[diff] [blame]

1471

Luke Huang

2018-10-22 12:12:05 +0900

[diff] [blame]

1472

// TODO: Move iptablesTargetsExists and listIptablesRuleByTable to the top.

1473

// Use either a std::vector<std::string> of things to match, or a variadic function.

Luke Huang

2018-08-03 15:19:05 +0800

[diff] [blame]

1474

bool iptablesTargetsExists(const char* binary, int expectedCount, const char* table,

1475

const char* chainName, const std::string& expectedTargetA,

1476

const std::string& expectedTargetB) {

1477

std::vector<std::string> rules = listIptablesRuleByTable(binary, table, chainName);

1478

int matchCount = 0;

1479

1480

for (const auto& rule : rules) {

1481

if (rule.find(expectedTargetA) != std::string::npos) {

1482

if (rule.find(expectedTargetB) != std::string::npos) {

matchCount++;

}

}

}

return matchCount == expectedCount;

1488

}

1489

1490

void expectXtQuotaValueEqual(const char* ifname, long quotaBytes) {

1491

std::string path = StringPrintf("/proc/net/xt_quota/%s", ifname);

1492

std::string result = "";

1493

1494

EXPECT_TRUE(ReadFileToString(path, &result));

Luke Huang

4953ca2

2018-09-14 14:08:50 +0800

[diff] [blame]

1495

// Quota value might be decreased while matching packets

1496

EXPECT_GE(quotaBytes, std::stol(Trim(result)));

Luke Huang

2018-08-03 15:19:05 +0800

[diff] [blame]

1497

}

1498

1499

void expectBandwidthInterfaceQuotaRuleExists(const char* ifname, long quotaBytes) {

1500

std::string BANDWIDTH_COSTLY_IF = StringPrintf("bw_costly_%s", ifname);

1501

std::string quotaRule = StringPrintf("quota %s", ifname);

1502

1503

for (const auto& binary : {IPTABLES_PATH, IP6TABLES_PATH}) {

1504

EXPECT_TRUE(iptablesTargetsExists(binary, 1, FILTER_TABLE, BANDWIDTH_INPUT, ifname,

1505

BANDWIDTH_COSTLY_IF));

1506

EXPECT_TRUE(iptablesTargetsExists(binary, 1, FILTER_TABLE, BANDWIDTH_OUTPUT, ifname,

1507

BANDWIDTH_COSTLY_IF));

1508

EXPECT_TRUE(iptablesTargetsExists(binary, 2, FILTER_TABLE, BANDWIDTH_FORWARD, ifname,

1509

BANDWIDTH_COSTLY_IF));

1510

EXPECT_TRUE(iptablesRuleExists(binary, BANDWIDTH_COSTLY_IF.c_str(), BANDWIDTH_NAUGHTY));

1511

EXPECT_TRUE(iptablesRuleExists(binary, BANDWIDTH_COSTLY_IF.c_str(), quotaRule));

1512

}

1513

expectXtQuotaValueEqual(ifname, quotaBytes);

1514

}

1515

1516

void expectBandwidthInterfaceQuotaRuleDoesNotExist(const char* ifname) {

1517

std::string BANDWIDTH_COSTLY_IF = StringPrintf("bw_costly_%s", ifname);

1518

std::string quotaRule = StringPrintf("quota %s", ifname);

1519

1520

for (const auto& binary : {IPTABLES_PATH, IP6TABLES_PATH}) {

1521

EXPECT_FALSE(iptablesTargetsExists(binary, 1, FILTER_TABLE, BANDWIDTH_INPUT, ifname,

1522

BANDWIDTH_COSTLY_IF));

1523

EXPECT_FALSE(iptablesTargetsExists(binary, 1, FILTER_TABLE, BANDWIDTH_OUTPUT, ifname,

1524

BANDWIDTH_COSTLY_IF));

1525

EXPECT_FALSE(iptablesTargetsExists(binary, 2, FILTER_TABLE, BANDWIDTH_FORWARD, ifname,

1526

BANDWIDTH_COSTLY_IF));

1527

EXPECT_FALSE(iptablesRuleExists(binary, BANDWIDTH_COSTLY_IF.c_str(), BANDWIDTH_NAUGHTY));

1528

EXPECT_FALSE(iptablesRuleExists(binary, BANDWIDTH_COSTLY_IF.c_str(), quotaRule));

}

}

void expectBandwidthInterfaceAlertRuleExists(const char* ifname, long alertBytes) {

1533

std::string BANDWIDTH_COSTLY_IF = StringPrintf("bw_costly_%s", ifname);

1534

std::string alertRule = StringPrintf("quota %sAlert", ifname);

1535

std::string alertName = StringPrintf("%sAlert", ifname);

1536

1537

for (const auto& binary : {IPTABLES_PATH, IP6TABLES_PATH}) {

1538

EXPECT_TRUE(iptablesRuleExists(binary, BANDWIDTH_COSTLY_IF.c_str(), alertRule));

1539

}

1540

expectXtQuotaValueEqual(alertName.c_str(), alertBytes);

1541

}

1542

1543

void expectBandwidthInterfaceAlertRuleDoesNotExist(const char* ifname) {

1544

std::string BANDWIDTH_COSTLY_IF = StringPrintf("bw_costly_%s", ifname);

1545

std::string alertRule = StringPrintf("quota %sAlert", ifname);

1546

1547

for (const auto& binary : {IPTABLES_PATH, IP6TABLES_PATH}) {

1548

EXPECT_FALSE(iptablesRuleExists(binary, BANDWIDTH_COSTLY_IF.c_str(), alertRule));

}

}

void expectBandwidthGlobalAlertRuleExists(long alertBytes) {

1553

static const char globalAlertRule[] = "quota globalAlert";

1554

static const char globalAlertName[] = "globalAlert";

1555

1556

for (const auto& binary : {IPTABLES_PATH, IP6TABLES_PATH}) {

Luke Huang

2018-11-05 11:17:31 +0900

[diff] [blame]

1557

EXPECT_TRUE(iptablesRuleExists(binary, BANDWIDTH_ALERT, globalAlertRule));

Luke Huang

2018-08-03 15:19:05 +0800

[diff] [blame]

1558

}

1559

expectXtQuotaValueEqual(globalAlertName, alertBytes);

1560

}

1561

1562

void expectBandwidthManipulateSpecialAppRuleExists(const char* chain, const char* target, int uid) {

1563

std::string uidRule = StringPrintf("owner UID match %u", uid);

1564

1565

for (const auto& binary : {IPTABLES_PATH, IP6TABLES_PATH}) {

1566

EXPECT_TRUE(iptablesTargetsExists(binary, 1, FILTER_TABLE, chain, target, uidRule));

}

}

void expectBandwidthManipulateSpecialAppRuleDoesNotExist(const char* chain, int uid) {

1571

std::string uidRule = StringPrintf("owner UID match %u", uid);

1572

1573

for (const auto& binary : {IPTABLES_PATH, IP6TABLES_PATH}) {

1574

EXPECT_FALSE(iptablesRuleExists(binary, chain, uidRule));

}

}

} // namespace

TEST_F(BinderTest, BandwidthSetRemoveInterfaceQuota) {

1581

long testQuotaBytes = 5550;

1582

1583

// Add test physical network

Luke Huang

2018-08-23 20:01:13 +0800

[diff] [blame]

1584

EXPECT_TRUE(mNetd->networkCreatePhysical(TEST_NETID1, INetd::PERMISSION_NONE).isOk());

Luke Huang

2018-08-03 15:19:05 +0800

[diff] [blame]

1585

EXPECT_TRUE(mNetd->networkAddInterface(TEST_NETID1, sTun.name()).isOk());

1586

1587

binder::Status status = mNetd->bandwidthSetInterfaceQuota(sTun.name(), testQuotaBytes);

1588

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

1589

expectBandwidthInterfaceQuotaRuleExists(sTun.name().c_str(), testQuotaBytes);

1590

1591

status = mNetd->bandwidthRemoveInterfaceQuota(sTun.name());

1592

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

1593

expectBandwidthInterfaceQuotaRuleDoesNotExist(sTun.name().c_str());

1594

1595

// Remove test physical network

1596

EXPECT_TRUE(mNetd->networkDestroy(TEST_NETID1).isOk());

1597

}

1598

1599

TEST_F(BinderTest, BandwidthSetRemoveInterfaceAlert) {

1600

long testAlertBytes = 373;

Luke Huang

2018-08-03 15:19:05 +0800

[diff] [blame]

1601

// Add test physical network

Luke Huang

2018-08-23 20:01:13 +0800

[diff] [blame]

1602

EXPECT_TRUE(mNetd->networkCreatePhysical(TEST_NETID1, INetd::PERMISSION_NONE).isOk());

Luke Huang

2018-08-03 15:19:05 +0800

[diff] [blame]

1603

EXPECT_TRUE(mNetd->networkAddInterface(TEST_NETID1, sTun.name()).isOk());

Luke Huang

2018-08-03 15:19:05 +0800

[diff] [blame]

1604

// Need to have a prior interface quota set to set an alert

1605

binder::Status status = mNetd->bandwidthSetInterfaceQuota(sTun.name(), testAlertBytes);

1606

status = mNetd->bandwidthSetInterfaceAlert(sTun.name(), testAlertBytes);

1607

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

1608

expectBandwidthInterfaceAlertRuleExists(sTun.name().c_str(), testAlertBytes);

1609

1610

status = mNetd->bandwidthRemoveInterfaceAlert(sTun.name());

1611

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

1612

expectBandwidthInterfaceAlertRuleDoesNotExist(sTun.name().c_str());

1613

1614

// Remove interface quota

1615

status = mNetd->bandwidthRemoveInterfaceQuota(sTun.name());

1616

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

1617

expectBandwidthInterfaceQuotaRuleDoesNotExist(sTun.name().c_str());

1618

1619

// Remove test physical network

1620

EXPECT_TRUE(mNetd->networkDestroy(TEST_NETID1).isOk());

1621

}

1622

1623

TEST_F(BinderTest, BandwidthSetGlobalAlert) {

1624

long testAlertBytes = 2097149;

1625

1626

binder::Status status = mNetd->bandwidthSetGlobalAlert(testAlertBytes);

1627

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

1628

expectBandwidthGlobalAlertRuleExists(testAlertBytes);

1629

1630

testAlertBytes = 2097152;

1631

status = mNetd->bandwidthSetGlobalAlert(testAlertBytes);

1632

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

1633

expectBandwidthGlobalAlertRuleExists(testAlertBytes);

1634

}

1635

1636

TEST_F(BinderTest, BandwidthManipulateSpecialApp) {

1637

SKIP_IF_BPF_SUPPORTED;

1638

1639

int32_t uid = randomUid();

1640

static const char targetReject[] = "REJECT";

1641

static const char targetReturn[] = "RETURN";

1642

1643

// add NaughtyApp

1644

binder::Status status = mNetd->bandwidthAddNaughtyApp(uid);

1645

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

1646

expectBandwidthManipulateSpecialAppRuleExists(BANDWIDTH_NAUGHTY, targetReject, uid);

1647

1648

// remove NaughtyApp

1649

status = mNetd->bandwidthRemoveNaughtyApp(uid);

1650

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

1651

expectBandwidthManipulateSpecialAppRuleDoesNotExist(BANDWIDTH_NAUGHTY, uid);

1652

1653

// add NiceApp

1654

status = mNetd->bandwidthAddNiceApp(uid);

1655

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

1656

expectBandwidthManipulateSpecialAppRuleExists(BANDWIDTH_NICE, targetReturn, uid);

1657

1658

// remove NiceApp

1659

status = mNetd->bandwidthRemoveNiceApp(uid);

1660

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

1661

expectBandwidthManipulateSpecialAppRuleDoesNotExist(BANDWIDTH_NICE, uid);

1662

}

Luke Huang

b5733d7

2018-08-21 17:17:19 +0800

[diff] [blame]

namespace {

Luke Huang

2018-08-23 20:01:13 +0800

[diff] [blame]

1666

std::vector<std::string> listIpRoutes(const char* ipVersion, const char* table) {

1667

std::string command = StringPrintf("%s %s route ls table %s", IP_PATH, ipVersion, table);

1668

return runCommand(command);

1669

}

1670

Luke Huang

2018-10-16 15:43:23 +0800

[diff] [blame]

1671

bool ipRouteExists(const char* ipVersion, const char* table, const std::string& ipRoute) {

Luke Huang

2018-08-23 20:01:13 +0800

[diff] [blame]

1672

std::vector<std::string> routes = listIpRoutes(ipVersion, table);

1673

for (const auto& route : routes) {

1674

if (route.find(ipRoute) != std::string::npos) {

return true;

}

}

return false;

}

Luke Huang

2018-10-16 15:43:23 +0800

[diff] [blame]

1681

std::string ipRouteString(const std::string& ifName, const std::string& dst,

1682

const std::string& nextHop) {

1683

std::string dstString = (dst == "0.0.0.0/0" || dst == "::/0") ? "default" : dst;

1684

1685

if (!nextHop.empty()) {

1686

dstString += " via " + nextHop;

Luke Huang

2018-08-23 20:01:13 +0800

[diff] [blame]

1687

}

1688

Luke Huang

2018-10-16 15:43:23 +0800

[diff] [blame]

1689

return dstString + " dev " + ifName;

Luke Huang

2018-08-23 20:01:13 +0800

[diff] [blame]

1690

}

1691

Luke Huang

2018-10-16 15:43:23 +0800

[diff] [blame]

1692

void expectNetworkRouteExists(const char* ipVersion, const std::string& ifName,

1693

const std::string& dst, const std::string& nextHop,

1694

const char* table) {

1695

EXPECT_TRUE(ipRouteExists(ipVersion, table, ipRouteString(ifName, dst, nextHop)));

1696

}

1697

1698

void expectNetworkRouteDoesNotExist(const char* ipVersion, const std::string& ifName,

Luke Huang

2018-08-23 20:01:13 +0800

[diff] [blame]

1699

const std::string& dst, const std::string& nextHop,

1700

const char* table) {

Luke Huang

2018-10-16 15:43:23 +0800

[diff] [blame]

1701

EXPECT_FALSE(ipRouteExists(ipVersion, table, ipRouteString(ifName, dst, nextHop)));

Luke Huang

2018-08-23 20:01:13 +0800

[diff] [blame]

1702

}

1703

1704

bool ipRuleExists(const char* ipVersion, const std::string& ipRule) {

1705

std::vector<std::string> rules = listIpRules(ipVersion);

1706

for (const auto& rule : rules) {

1707

if (rule.find(ipRule) != std::string::npos) {

return true;

}

}

return false;

}

void expectNetworkDefaultIpRuleExists(const char* ifName) {

1715

std::string networkDefaultRule =

1716

StringPrintf("22000:\tfrom all fwmark 0x0/0xffff iif lo lookup %s", ifName);

1717

1718

for (const auto& ipVersion : {IP_RULE_V4, IP_RULE_V6}) {

1719

EXPECT_TRUE(ipRuleExists(ipVersion, networkDefaultRule));

}

}

void expectNetworkDefaultIpRuleDoesNotExist() {

1724

static const char networkDefaultRule[] = "22000:\tfrom all fwmark 0x0/0xffff iif lo";

1725

1726

for (const auto& ipVersion : {IP_RULE_V4, IP_RULE_V6}) {

1727

EXPECT_FALSE(ipRuleExists(ipVersion, networkDefaultRule));

}

}

void expectNetworkPermissionIpRuleExists(const char* ifName, int permission) {

1732

std::string networkPermissionRule = "";

1733

switch (permission) {

1734

case INetd::PERMISSION_NONE:

1735

networkPermissionRule = StringPrintf(

1736

"13000:\tfrom all fwmark 0x1ffdd/0x1ffff iif lo lookup %s", ifName);

1737

break;

1738

case INetd::PERMISSION_NETWORK:

1739

networkPermissionRule = StringPrintf(

1740

"13000:\tfrom all fwmark 0x5ffdd/0x5ffff iif lo lookup %s", ifName);

1741

break;

1742

case INetd::PERMISSION_SYSTEM:

1743

networkPermissionRule = StringPrintf(

1744

"13000:\tfrom all fwmark 0xdffdd/0xdffff iif lo lookup %s", ifName);

break;

}

for (const auto& ipVersion : {IP_RULE_V4, IP_RULE_V6}) {

1749

EXPECT_TRUE(ipRuleExists(ipVersion, networkPermissionRule));

}

}

// TODO: It is a duplicate function, need to remove it

1754

bool iptablesNetworkPermissionIptablesRuleExists(const char* binary, const char* chainName,

1755

const std::string& expectedInterface,

1756

const std::string& expectedRule,

1757

const char* table) {

1758

std::vector<std::string> rules = listIptablesRuleByTable(binary, table, chainName);

1759

for (const auto& rule : rules) {

1760

if (rule.find(expectedInterface) != std::string::npos) {

1761

if (rule.find(expectedRule) != std::string::npos) {

return true;

}

}

}

return false;

}

void expectNetworkPermissionIptablesRuleExists(const char* ifName, int permission) {

1770

static const char ROUTECTRL_INPUT[] = "routectrl_mangle_INPUT";

1771

std::string networkIncomingPacketMarkRule = "";

1772

switch (permission) {

1773

case INetd::PERMISSION_NONE:

1774

networkIncomingPacketMarkRule = "MARK xset 0x3ffdd/0xffefffff";

1775

break;

1776

case INetd::PERMISSION_NETWORK:

1777

networkIncomingPacketMarkRule = "MARK xset 0x7ffdd/0xffefffff";

1778

break;

1779

case INetd::PERMISSION_SYSTEM:

1780

networkIncomingPacketMarkRule = "MARK xset 0xfffdd/0xffefffff";

break;

}

for (const auto& binary : {IPTABLES_PATH, IP6TABLES_PATH}) {

1785

EXPECT_TRUE(iptablesNetworkPermissionIptablesRuleExists(

1786

binary, ROUTECTRL_INPUT, ifName, networkIncomingPacketMarkRule, MANGLE_TABLE));

}

}

} // namespace

TEST_F(BinderTest, NetworkAddRemoveRouteUserPermission) {

Luke Huang

2018-10-16 15:43:23 +0800

[diff] [blame]

1793

static const struct {

Luke Huang

2018-08-23 20:01:13 +0800

[diff] [blame]

1794

const char* ipVersion;

1795

const char* testDest;

1796

const char* testNextHop;

1797

const bool expectSuccess;

1798

} kTestData[] = {

1799

{IP_RULE_V4, "0.0.0.0/0", "", true},

Luke Huang

2018-10-16 15:43:23 +0800

[diff] [blame]

1800

{IP_RULE_V4, "0.0.0.0/0", "10.251.10.0", true},

1801

{IP_RULE_V4, "10.251.0.0/16", "", true},

1802

{IP_RULE_V4, "10.251.0.0/16", "10.251.10.0", true},

1803

{IP_RULE_V4, "10.251.0.0/16", "fe80::/64", false},

Luke Huang

2018-08-23 20:01:13 +0800

[diff] [blame]

1804

{IP_RULE_V6, "::/0", "", true},

Luke Huang

2018-10-16 15:43:23 +0800

[diff] [blame]

1805

{IP_RULE_V6, "::/0", "2001:db8::", true},

1806

{IP_RULE_V6, "2001:db8:cafe::/64", "2001:db8::", true},

Luke Huang

2018-08-23 20:01:13 +0800

[diff] [blame]

1807

{IP_RULE_V4, "fe80::/64", "0.0.0.0", false},

1808

};

1809

Luke Huang

2018-10-16 15:43:23 +0800

[diff] [blame]

1810

static const struct {

1811

const char* ipVersion;

1812

const char* testDest;

1813

const char* testNextHop;

1814

} kTestDataWithNextHop[] = {

1815

{IP_RULE_V4, "10.251.10.0/30", ""},

1816

{IP_RULE_V6, "2001:db8::/32", ""},

1817

};

1818

Luke Huang

2018-08-23 20:01:13 +0800

[diff] [blame]

1819

static const char testTableLegacySystem[] = "legacy_system";

Luke Huang

2018-10-16 15:43:23 +0800

[diff] [blame]

1820

static const char testTableLegacyNetwork[] = "legacy_network";

Luke Huang

2018-08-23 20:01:13 +0800

[diff] [blame]

1821

const int testUid = randomUid();

1822

const std::vector<int32_t> testUids = {testUid};

1823

1824

// Add test physical network

1825

EXPECT_TRUE(mNetd->networkCreatePhysical(TEST_NETID1, INetd::PERMISSION_NONE).isOk());

1826

EXPECT_TRUE(mNetd->networkAddInterface(TEST_NETID1, sTun.name()).isOk());

1827

Luke Huang

2018-10-16 15:43:23 +0800

[diff] [blame]

1828

// Setup route for testing nextHop

Sehee Park

2018-11-16 10:53:16 +0900

[diff] [blame]

1829

for (size_t i = 0; i < std::size(kTestDataWithNextHop); i++) {

Luke Huang

2018-10-16 15:43:23 +0800

[diff] [blame]

1830

const auto& td = kTestDataWithNextHop[i];

1831

1832

// All route for test tun will disappear once the tun interface is deleted.

1833

binder::Status status =

1834

mNetd->networkAddRoute(TEST_NETID1, sTun.name(), td.testDest, td.testNextHop);

1835

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

1836

expectNetworkRouteExists(td.ipVersion, sTun.name(), td.testDest, td.testNextHop,

1837

sTun.name().c_str());

1838

1839

// Add system permission for test uid, setup route in legacy system table.

1840

EXPECT_TRUE(mNetd->networkSetPermissionForUser(INetd::PERMISSION_SYSTEM, testUids).isOk());

1841

1842

status = mNetd->networkAddLegacyRoute(TEST_NETID1, sTun.name(), td.testDest, td.testNextHop,

1843

testUid);

1844

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

1845

expectNetworkRouteExists(td.ipVersion, sTun.name(), td.testDest, td.testNextHop,

1846

testTableLegacySystem);

1847

1848

// Remove system permission for test uid, setup route in legacy network table.

1849

EXPECT_TRUE(mNetd->networkClearPermissionForUser(testUids).isOk());

1850

1851

status = mNetd->networkAddLegacyRoute(TEST_NETID1, sTun.name(), td.testDest, td.testNextHop,

1852

testUid);

1853

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

1854

expectNetworkRouteExists(td.ipVersion, sTun.name(), td.testDest, td.testNextHop,

1855

testTableLegacyNetwork);

1856

}

1857

Sehee Park

2018-11-16 10:53:16 +0900

[diff] [blame]

1858

for (size_t i = 0; i < std::size(kTestData); i++) {

Luke Huang

2018-08-23 20:01:13 +0800

[diff] [blame]

1859

const auto& td = kTestData[i];

1860

1861

binder::Status status =

1862

mNetd->networkAddRoute(TEST_NETID1, sTun.name(), td.testDest, td.testNextHop);

1863

if (td.expectSuccess) {

1864

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

Luke Huang

2018-10-16 15:43:23 +0800

[diff] [blame]

1865

expectNetworkRouteExists(td.ipVersion, sTun.name(), td.testDest, td.testNextHop,

Luke Huang

2018-08-23 20:01:13 +0800

[diff] [blame]

1866

sTun.name().c_str());

1867

} else {

Luke Huang

2018-10-16 15:43:23 +0800

[diff] [blame]

1868

EXPECT_EQ(binder::Status::EX_SERVICE_SPECIFIC, status.exceptionCode());

1869

EXPECT_NE(0, status.serviceSpecificErrorCode());

Luke Huang

2018-08-23 20:01:13 +0800

[diff] [blame]

1870

}

1871

1872

status = mNetd->networkRemoveRoute(TEST_NETID1, sTun.name(), td.testDest, td.testNextHop);

1873

if (td.expectSuccess) {

1874

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

Luke Huang

2018-10-16 15:43:23 +0800

[diff] [blame]

1875

expectNetworkRouteDoesNotExist(td.ipVersion, sTun.name(), td.testDest, td.testNextHop,

1876

sTun.name().c_str());

Luke Huang

2018-08-23 20:01:13 +0800

[diff] [blame]

1877

} else {

Luke Huang

2018-10-16 15:43:23 +0800

[diff] [blame]

1878

EXPECT_EQ(binder::Status::EX_SERVICE_SPECIFIC, status.exceptionCode());

1879

EXPECT_NE(0, status.serviceSpecificErrorCode());

Luke Huang

2018-08-23 20:01:13 +0800

[diff] [blame]

1880

}

1881

Luke Huang

2018-10-16 15:43:23 +0800

[diff] [blame]

1882

// Add system permission for test uid, route will be added into legacy system table.

1883

EXPECT_TRUE(mNetd->networkSetPermissionForUser(INetd::PERMISSION_SYSTEM, testUids).isOk());

Luke Huang

2018-08-23 20:01:13 +0800

[diff] [blame]

1884

1885

status = mNetd->networkAddLegacyRoute(TEST_NETID1, sTun.name(), td.testDest, td.testNextHop,

1886

testUid);

1887

if (td.expectSuccess) {

1888

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

Luke Huang

2018-10-16 15:43:23 +0800

[diff] [blame]

1889

expectNetworkRouteExists(td.ipVersion, sTun.name(), td.testDest, td.testNextHop,

Luke Huang

2018-08-23 20:01:13 +0800

[diff] [blame]

1890

testTableLegacySystem);

1891

} else {

Luke Huang

2018-10-16 15:43:23 +0800

[diff] [blame]

1892

EXPECT_EQ(binder::Status::EX_SERVICE_SPECIFIC, status.exceptionCode());

1893

EXPECT_NE(0, status.serviceSpecificErrorCode());

Luke Huang

2018-08-23 20:01:13 +0800

[diff] [blame]

1894

}

1895

1896

status = mNetd->networkRemoveLegacyRoute(TEST_NETID1, sTun.name(), td.testDest,

1897

td.testNextHop, testUid);

1898

if (td.expectSuccess) {

1899

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

Luke Huang

2018-10-16 15:43:23 +0800

[diff] [blame]

1900

expectNetworkRouteDoesNotExist(td.ipVersion, sTun.name(), td.testDest, td.testNextHop,

1901

testTableLegacySystem);

Luke Huang

2018-08-23 20:01:13 +0800

[diff] [blame]

1902

} else {

Luke Huang

2018-10-16 15:43:23 +0800

[diff] [blame]

1903

EXPECT_EQ(binder::Status::EX_SERVICE_SPECIFIC, status.exceptionCode());

1904

EXPECT_NE(0, status.serviceSpecificErrorCode());

Luke Huang

2018-08-23 20:01:13 +0800

[diff] [blame]

1905

}

1906

Luke Huang

2018-10-16 15:43:23 +0800

[diff] [blame]

1907

// Remove system permission for test uid, route will be added into legacy network table.

1908

EXPECT_TRUE(mNetd->networkClearPermissionForUser(testUids).isOk());

1909

1910

status = mNetd->networkAddLegacyRoute(TEST_NETID1, sTun.name(), td.testDest, td.testNextHop,

1911

testUid);

1912

if (td.expectSuccess) {

1913

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

1914

expectNetworkRouteExists(td.ipVersion, sTun.name(), td.testDest, td.testNextHop,

1915

testTableLegacyNetwork);

1916

} else {

1917

EXPECT_EQ(binder::Status::EX_SERVICE_SPECIFIC, status.exceptionCode());

1918

EXPECT_NE(0, status.serviceSpecificErrorCode());

1919

}

1920

1921

status = mNetd->networkRemoveLegacyRoute(TEST_NETID1, sTun.name(), td.testDest,

1922

td.testNextHop, testUid);

1923

if (td.expectSuccess) {

1924

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

1925

expectNetworkRouteDoesNotExist(td.ipVersion, sTun.name(), td.testDest, td.testNextHop,

1926

testTableLegacyNetwork);

1927

} else {

1928

EXPECT_EQ(binder::Status::EX_SERVICE_SPECIFIC, status.exceptionCode());

1929

EXPECT_NE(0, status.serviceSpecificErrorCode());

1930

}

Luke Huang

2018-08-23 20:01:13 +0800

[diff] [blame]

1931

}

1932

1933

// Remove test physical network

1934

EXPECT_TRUE(mNetd->networkDestroy(TEST_NETID1).isOk());

1935

}

1936

1937

TEST_F(BinderTest, NetworkPermissionDefault) {

1938

// Add test physical network

1939

EXPECT_TRUE(mNetd->networkCreatePhysical(TEST_NETID1, INetd::PERMISSION_NONE).isOk());

1940

EXPECT_TRUE(mNetd->networkAddInterface(TEST_NETID1, sTun.name()).isOk());

1941

Luke Huang

2018-10-16 15:43:23 +0800

[diff] [blame]

1942

// Get current default network NetId

Luke Huang

2018-08-23 20:01:13 +0800

[diff] [blame]

1943

int currentNetid;

1944

binder::Status status = mNetd->networkGetDefault(&currentNetid);

1945

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

1946

1947

// Test SetDefault

1948

status = mNetd->networkSetDefault(TEST_NETID1);

1949

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

1950

expectNetworkDefaultIpRuleExists(sTun.name().c_str());

1951

1952

status = mNetd->networkClearDefault();

1953

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

1954

expectNetworkDefaultIpRuleDoesNotExist();

1955

1956

// Add default network back

1957

status = mNetd->networkSetDefault(currentNetid);

1958

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

1959

1960

// Test SetPermission

1961

status = mNetd->networkSetPermissionForNetwork(TEST_NETID1, INetd::PERMISSION_SYSTEM);

1962

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

1963

expectNetworkPermissionIpRuleExists(sTun.name().c_str(), INetd::PERMISSION_SYSTEM);

1964

expectNetworkPermissionIptablesRuleExists(sTun.name().c_str(), INetd::PERMISSION_SYSTEM);

1965

1966

status = mNetd->networkSetPermissionForNetwork(TEST_NETID1, INetd::PERMISSION_NONE);

1967

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

1968

expectNetworkPermissionIpRuleExists(sTun.name().c_str(), INetd::PERMISSION_NONE);

1969

expectNetworkPermissionIptablesRuleExists(sTun.name().c_str(), INetd::PERMISSION_NONE);

1970

1971

// Remove test physical network

1972

EXPECT_TRUE(mNetd->networkDestroy(TEST_NETID1).isOk());

1973

}

1974

1975

TEST_F(BinderTest, NetworkSetProtectAllowDeny) {

1976

const int testUid = randomUid();

1977

binder::Status status = mNetd->networkSetProtectAllow(testUid);

1978

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

1979

bool ret = false;

1980

status = mNetd->networkCanProtect(testUid, &ret);

1981

EXPECT_TRUE(ret);

1982

1983

status = mNetd->networkSetProtectDeny(testUid);

1984

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

1985

status = mNetd->networkCanProtect(testUid, &ret);

EXPECT_FALSE(ret);

}

namespace {

Luke Huang

2018-08-21 17:17:19 +0800

[diff] [blame]

1991

int readIntFromPath(const std::string& path) {

1992

std::string result = "";

1993

EXPECT_TRUE(ReadFileToString(path, &result));

1994

return std::stoi(result);

1995

}

1996

1997

int getTetherAcceptIPv6Ra(const std::string& ifName) {

1998

std::string path = StringPrintf("/proc/sys/net/ipv6/conf/%s/accept_ra", ifName.c_str());

1999

return readIntFromPath(path);

2000

}

2001

2002

bool getTetherAcceptIPv6Dad(const std::string& ifName) {

2003

std::string path = StringPrintf("/proc/sys/net/ipv6/conf/%s/accept_dad", ifName.c_str());

2004

return readIntFromPath(path);

2005

}

2006

2007

int getTetherIPv6DadTransmits(const std::string& ifName) {

2008

std::string path = StringPrintf("/proc/sys/net/ipv6/conf/%s/dad_transmits", ifName.c_str());

2009

return readIntFromPath(path);

2010

}

2011

2012

bool getTetherEnableIPv6(const std::string& ifName) {

2013

std::string path = StringPrintf("/proc/sys/net/ipv6/conf/%s/disable_ipv6", ifName.c_str());

2014

int disableIPv6 = readIntFromPath(path);

return !disableIPv6;

}

bool interfaceListContains(const std::vector<std::string>& ifList, const std::string& ifName) {

2019

for (const auto& iface : ifList) {

2020

if (iface == ifName) {

return true;

}

}

return false;

}

void expectTetherInterfaceConfigureForIPv6Router(const std::string& ifName) {

2028

EXPECT_EQ(getTetherAcceptIPv6Ra(ifName), 0);

2029

EXPECT_FALSE(getTetherAcceptIPv6Dad(ifName));

2030

EXPECT_EQ(getTetherIPv6DadTransmits(ifName), 0);

2031

EXPECT_TRUE(getTetherEnableIPv6(ifName));

2032

}

2033

2034

void expectTetherInterfaceConfigureForIPv6Client(const std::string& ifName) {

2035

EXPECT_EQ(getTetherAcceptIPv6Ra(ifName), 2);

2036

EXPECT_TRUE(getTetherAcceptIPv6Dad(ifName));

2037

EXPECT_EQ(getTetherIPv6DadTransmits(ifName), 1);

2038

EXPECT_FALSE(getTetherEnableIPv6(ifName));

2039

}

2040

2041

void expectTetherInterfaceExists(const std::vector<std::string>& ifList,

2042

const std::string& ifName) {

2043

EXPECT_TRUE(interfaceListContains(ifList, ifName));

2044

}

2045

2046

void expectTetherInterfaceNotExists(const std::vector<std::string>& ifList,

2047

const std::string& ifName) {

2048

EXPECT_FALSE(interfaceListContains(ifList, ifName));

2049

}

2050

2051

void expectTetherDnsListEquals(const std::vector<std::string>& dnsList,

2052

const std::vector<std::string>& testDnsAddrs) {

2053

EXPECT_TRUE(dnsList == testDnsAddrs);

}

} // namespace

TEST_F(BinderTest, TetherStartStopStatus) {

2059

std::vector<std::string> noDhcpRange = {};

2060

static const char dnsdName[] = "dnsmasq";

2061

2062

binder::Status status = mNetd->tetherStart(noDhcpRange);

2063

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2064

EXPECT_TRUE(processExists(dnsdName));

2065

2066

bool tetherEnabled;

2067

status = mNetd->tetherIsEnabled(&tetherEnabled);

2068

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2069

EXPECT_TRUE(tetherEnabled);

2070

2071

status = mNetd->tetherStop();

2072

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2073

EXPECT_FALSE(processExists(dnsdName));

2074

2075

status = mNetd->tetherIsEnabled(&tetherEnabled);

2076

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2077

EXPECT_FALSE(tetherEnabled);

2078

}

2079

2080

TEST_F(BinderTest, TetherInterfaceAddRemoveList) {

2081

// TODO: verify if dnsmasq update interface successfully

2082

2083

binder::Status status = mNetd->tetherInterfaceAdd(sTun.name());

2084

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2085

expectTetherInterfaceConfigureForIPv6Router(sTun.name());

2086

2087

std::vector<std::string> ifList;

2088

status = mNetd->tetherInterfaceList(&ifList);

2089

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2090

expectTetherInterfaceExists(ifList, sTun.name());

2091

2092

status = mNetd->tetherInterfaceRemove(sTun.name());

2093

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2094

expectTetherInterfaceConfigureForIPv6Client(sTun.name());

2095

2096

status = mNetd->tetherInterfaceList(&ifList);

2097

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2098

expectTetherInterfaceNotExists(ifList, sTun.name());

2099

}

2100

2101

TEST_F(BinderTest, TetherDnsSetList) {

2102

// TODO: verify if dnsmasq update dns successfully

2103

std::vector<std::string> testDnsAddrs = {"192.168.1.37", "213.137.100.3"};

2104

2105

binder::Status status = mNetd->tetherDnsSet(TEST_NETID1, testDnsAddrs);

2106

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2107

2108

std::vector<std::string> dnsList;

2109

status = mNetd->tetherDnsList(&dnsList);

2110

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2111

expectTetherDnsListEquals(dnsList, testDnsAddrs);

Luke Huang

e64fa38

2018-07-24 16:38:22 +0800

[diff] [blame]

}

namespace {

constexpr char FIREWALL_INPUT[] = "fw_INPUT";

2117

constexpr char FIREWALL_OUTPUT[] = "fw_OUTPUT";

2118

constexpr char FIREWALL_FORWARD[] = "fw_FORWARD";

2119

constexpr char FIREWALL_DOZABLE[] = "fw_dozable";

2120

constexpr char FIREWALL_POWERSAVE[] = "fw_powersave";

2121

constexpr char FIREWALL_STANDBY[] = "fw_standby";

2122

constexpr char targetReturn[] = "RETURN";

2123

constexpr char targetDrop[] = "DROP";

2124

2125

void expectFirewallWhitelistMode() {

2126

static const char dropRule[] = "DROP all";

2127

static const char rejectRule[] = "REJECT all";

2128

for (const auto& binary : {IPTABLES_PATH, IP6TABLES_PATH}) {

2129

EXPECT_TRUE(iptablesRuleExists(binary, FIREWALL_INPUT, dropRule));

2130

EXPECT_TRUE(iptablesRuleExists(binary, FIREWALL_OUTPUT, rejectRule));

2131

EXPECT_TRUE(iptablesRuleExists(binary, FIREWALL_FORWARD, rejectRule));

}

}

void expectFirewallBlacklistMode() {

2136

for (const auto& binary : {IPTABLES_PATH, IP6TABLES_PATH}) {

2137

EXPECT_EQ(2, iptablesRuleLineLength(binary, FIREWALL_INPUT));

2138

EXPECT_EQ(2, iptablesRuleLineLength(binary, FIREWALL_OUTPUT));

2139

EXPECT_EQ(2, iptablesRuleLineLength(binary, FIREWALL_FORWARD));

}

}

bool iptablesFirewallInterfaceFirstRuleExists(const char* binary, const char* chainName,

2144

const std::string& expectedInterface,

2145

const std::string& expectedRule) {

2146

std::vector<std::string> rules = listIptablesRuleByTable(binary, FILTER_TABLE, chainName);

2147

// Expected rule:

2148

// Chain fw_INPUT (1 references)

2149

// pkts bytes target prot opt in out source destination

2150

// 0 0 RETURN all -- expectedInterface * 0.0.0.0/0 0.0.0.0/0

2151

// 0 0 DROP all -- * * 0.0.0.0/0 0.0.0.0/0

2152

int firstRuleIndex = 2;

2153

if (rules.size() < 4) return false;

2154

if (rules[firstRuleIndex].find(expectedInterface) != std::string::npos) {

2155

if (rules[firstRuleIndex].find(expectedRule) != std::string::npos) {

return true;

}

}

return false;

}

// TODO: It is a duplicate function, need to remove it

2163

bool iptablesFirewallInterfaceRuleExists(const char* binary, const char* chainName,

2164

const std::string& expectedInterface,

2165

const std::string& expectedRule) {

2166

std::vector<std::string> rules = listIptablesRuleByTable(binary, FILTER_TABLE, chainName);

2167

for (const auto& rule : rules) {

2168

if (rule.find(expectedInterface) != std::string::npos) {

2169

if (rule.find(expectedRule) != std::string::npos) {

return true;

}

}

}

return false;

}

void expectFirewallInterfaceRuleAllowExists(const std::string& ifname) {

2178

static const char returnRule[] = "RETURN all";

2179

for (const auto& binary : {IPTABLES_PATH, IP6TABLES_PATH}) {

2180

EXPECT_TRUE(iptablesFirewallInterfaceFirstRuleExists(binary, FIREWALL_INPUT, ifname,

2181

returnRule));

2182

EXPECT_TRUE(iptablesFirewallInterfaceFirstRuleExists(binary, FIREWALL_OUTPUT, ifname,

returnRule));

}

}

void expectFireWallInterfaceRuleAllowDoesNotExist(const std::string& ifname) {

2188

static const char returnRule[] = "RETURN all";

2189

for (const auto& binary : {IPTABLES_PATH, IP6TABLES_PATH}) {

2190

EXPECT_FALSE(

2191

iptablesFirewallInterfaceRuleExists(binary, FIREWALL_INPUT, ifname, returnRule));

2192

EXPECT_FALSE(

2193

iptablesFirewallInterfaceRuleExists(binary, FIREWALL_OUTPUT, ifname, returnRule));

}

}

bool iptablesFirewallUidFirstRuleExists(const char* binary, const char* chainName,

2198

const std::string& expectedTarget,

2199

const std::string& expectedRule) {

2200

std::vector<std::string> rules = listIptablesRuleByTable(binary, FILTER_TABLE, chainName);

2201

int firstRuleIndex = 2;

2202

if (rules.size() < 4) return false;

2203

if (rules[firstRuleIndex].find(expectedTarget) != std::string::npos) {

2204

if (rules[firstRuleIndex].find(expectedRule) != std::string::npos) {

return true;

}

}

return false;

}

bool iptablesFirewallUidLastRuleExists(const char* binary, const char* chainName,

2212

const std::string& expectedTarget,

2213

const std::string& expectedRule) {

2214

std::vector<std::string> rules = listIptablesRuleByTable(binary, FILTER_TABLE, chainName);

2215

int lastRuleIndex = rules.size() - 1;

2216

if (lastRuleIndex < 0) return false;

2217

if (rules[lastRuleIndex].find(expectedTarget) != std::string::npos) {

2218

if (rules[lastRuleIndex].find(expectedRule) != std::string::npos) {

return true;

}

}

return false;

}

void expectFirewallUidFirstRuleExists(const char* chainName, int32_t uid) {

2226

std::string uidRule = StringPrintf("owner UID match %u", uid);

2227

for (const auto& binary : {IPTABLES_PATH, IP6TABLES_PATH})

2228

EXPECT_TRUE(iptablesFirewallUidFirstRuleExists(binary, chainName, targetReturn, uidRule));

2229

}

2230

2231

void expectFirewallUidFirstRuleDoesNotExist(const char* chainName, int32_t uid) {

2232

std::string uidRule = StringPrintf("owner UID match %u", uid);

2233

for (const auto& binary : {IPTABLES_PATH, IP6TABLES_PATH})

2234

EXPECT_FALSE(iptablesFirewallUidFirstRuleExists(binary, chainName, targetReturn, uidRule));

2235

}

2236

2237

void expectFirewallUidLastRuleExists(const char* chainName, int32_t uid) {

2238

std::string uidRule = StringPrintf("owner UID match %u", uid);

2239

for (const auto& binary : {IPTABLES_PATH, IP6TABLES_PATH})

2240

EXPECT_TRUE(iptablesFirewallUidLastRuleExists(binary, chainName, targetDrop, uidRule));

2241

}

2242

2243

void expectFirewallUidLastRuleDoesNotExist(const char* chainName, int32_t uid) {

2244

std::string uidRule = StringPrintf("owner UID match %u", uid);

2245

for (const auto& binary : {IPTABLES_PATH, IP6TABLES_PATH})

2246

EXPECT_FALSE(iptablesFirewallUidLastRuleExists(binary, chainName, targetDrop, uidRule));

2247

}

2248

2249

bool iptablesFirewallChildChainsLastRuleExists(const char* binary, const char* chainName) {

2250

std::vector<std::string> inputRules =

2251

listIptablesRuleByTable(binary, FILTER_TABLE, FIREWALL_INPUT);

2252

std::vector<std::string> outputRules =

2253

listIptablesRuleByTable(binary, FILTER_TABLE, FIREWALL_OUTPUT);

2254

int inputLastRuleIndex = inputRules.size() - 1;

2255

int outputLastRuleIndex = outputRules.size() - 1;

2256

2257

if (inputLastRuleIndex < 0 || outputLastRuleIndex < 0) return false;

2258

if (inputRules[inputLastRuleIndex].find(chainName) != std::string::npos) {

2259

if (outputRules[outputLastRuleIndex].find(chainName) != std::string::npos) {

return true;

}

}

return false;

}

void expectFirewallChildChainsLastRuleExists(const char* chainRule) {

2267

for (const auto& binary : {IPTABLES_PATH, IP6TABLES_PATH})

2268

EXPECT_TRUE(iptablesFirewallChildChainsLastRuleExists(binary, chainRule));

2269

}

2270

2271

void expectFirewallChildChainsLastRuleDoesNotExist(const char* chainRule) {

2272

for (const auto& binary : {IPTABLES_PATH, IP6TABLES_PATH}) {

2273

EXPECT_FALSE(iptablesRuleExists(binary, FIREWALL_INPUT, chainRule));

2274

EXPECT_FALSE(iptablesRuleExists(binary, FIREWALL_OUTPUT, chainRule));

}

}

} // namespace

TEST_F(BinderTest, FirewallSetFirewallType) {

2281

binder::Status status = mNetd->firewallSetFirewallType(INetd::FIREWALL_WHITELIST);

2282

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2283

expectFirewallWhitelistMode();

2284

2285

status = mNetd->firewallSetFirewallType(INetd::FIREWALL_BLACKLIST);

2286

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2287

expectFirewallBlacklistMode();

2288

2289

// set firewall type blacklist twice

2290

mNetd->firewallSetFirewallType(INetd::FIREWALL_BLACKLIST);

2291

status = mNetd->firewallSetFirewallType(INetd::FIREWALL_BLACKLIST);

2292

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2293

expectFirewallBlacklistMode();

2294

2295

// set firewall type whitelist twice

2296

mNetd->firewallSetFirewallType(INetd::FIREWALL_WHITELIST);

2297

status = mNetd->firewallSetFirewallType(INetd::FIREWALL_WHITELIST);

2298

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2299

expectFirewallWhitelistMode();

2300

2301

// reset firewall type to default

2302

status = mNetd->firewallSetFirewallType(INetd::FIREWALL_BLACKLIST);

2303

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2304

expectFirewallBlacklistMode();

2305

}

2306

2307

TEST_F(BinderTest, FirewallSetInterfaceRule) {

2308

// setinterfaceRule is not supported in BLACKLIST MODE

2309

binder::Status status = mNetd->firewallSetFirewallType(INetd::FIREWALL_BLACKLIST);

2310

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2311

2312

status = mNetd->firewallSetInterfaceRule(sTun.name(), INetd::FIREWALL_RULE_ALLOW);

2313

EXPECT_FALSE(status.isOk()) << status.exceptionMessage();

2314

2315

// set WHITELIST mode first

2316

status = mNetd->firewallSetFirewallType(INetd::FIREWALL_WHITELIST);

2317

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2318

2319

status = mNetd->firewallSetInterfaceRule(sTun.name(), INetd::FIREWALL_RULE_ALLOW);

2320

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2321

expectFirewallInterfaceRuleAllowExists(sTun.name());

2322

2323

status = mNetd->firewallSetInterfaceRule(sTun.name(), INetd::FIREWALL_RULE_DENY);

2324

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2325

expectFireWallInterfaceRuleAllowDoesNotExist(sTun.name());

2326

2327

// reset firewall mode to default

2328

status = mNetd->firewallSetFirewallType(INetd::FIREWALL_BLACKLIST);

2329

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2330

expectFirewallBlacklistMode();

2331

}

2332

2333

TEST_F(BinderTest, FirewallSetUidRule) {

2334

SKIP_IF_BPF_SUPPORTED;

2335

2336

int32_t uid = randomUid();

2337

2338

// Doze allow

2339

binder::Status status = mNetd->firewallSetUidRule(INetd::FIREWALL_CHAIN_DOZABLE, uid,

2340

INetd::FIREWALL_RULE_ALLOW);

2341

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2342

expectFirewallUidFirstRuleExists(FIREWALL_DOZABLE, uid);

2343

2344

// Doze deny

2345

status = mNetd->firewallSetUidRule(INetd::FIREWALL_CHAIN_DOZABLE, uid,

2346

INetd::FIREWALL_RULE_DENY);

2347

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2348

expectFirewallUidFirstRuleDoesNotExist(FIREWALL_DOZABLE, uid);

2349

2350

// Powersave allow

2351

status = mNetd->firewallSetUidRule(INetd::FIREWALL_CHAIN_POWERSAVE, uid,

2352

INetd::FIREWALL_RULE_ALLOW);

2353

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2354

expectFirewallUidFirstRuleExists(FIREWALL_POWERSAVE, uid);

2355

2356

// Powersave deny

2357

status = mNetd->firewallSetUidRule(INetd::FIREWALL_CHAIN_POWERSAVE, uid,

2358

INetd::FIREWALL_RULE_DENY);

2359

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2360

expectFirewallUidFirstRuleDoesNotExist(FIREWALL_POWERSAVE, uid);

2361

2362

// Standby deny

2363

status = mNetd->firewallSetUidRule(INetd::FIREWALL_CHAIN_STANDBY, uid,

2364

INetd::FIREWALL_RULE_DENY);

2365

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2366

expectFirewallUidLastRuleExists(FIREWALL_STANDBY, uid);

2367

2368

// Standby allow

2369

status = mNetd->firewallSetUidRule(INetd::FIREWALL_CHAIN_STANDBY, uid,

2370

INetd::FIREWALL_RULE_ALLOW);

2371

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2372

expectFirewallUidLastRuleDoesNotExist(FIREWALL_STANDBY, uid);

2373

2374

// None deny in BLACKLIST

2375

status = mNetd->firewallSetUidRule(INetd::FIREWALL_CHAIN_NONE, uid, INetd::FIREWALL_RULE_DENY);

2376

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2377

expectFirewallUidLastRuleExists(FIREWALL_INPUT, uid);

2378

expectFirewallUidLastRuleExists(FIREWALL_OUTPUT, uid);

2379

2380

// None allow in BLACKLIST

2381

status = mNetd->firewallSetUidRule(INetd::FIREWALL_CHAIN_NONE, uid, INetd::FIREWALL_RULE_ALLOW);

2382

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2383

expectFirewallUidLastRuleDoesNotExist(FIREWALL_INPUT, uid);

2384

expectFirewallUidLastRuleDoesNotExist(FIREWALL_OUTPUT, uid);

2385

2386

// set firewall type whitelist twice

2387

status = mNetd->firewallSetFirewallType(INetd::FIREWALL_WHITELIST);

2388

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2389

expectFirewallWhitelistMode();

2390

2391

// None allow in WHITELIST

2392

status = mNetd->firewallSetUidRule(INetd::FIREWALL_CHAIN_NONE, uid, INetd::FIREWALL_RULE_ALLOW);

2393

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2394

expectFirewallUidFirstRuleExists(FIREWALL_INPUT, uid);

2395

expectFirewallUidFirstRuleExists(FIREWALL_OUTPUT, uid);

2396

2397

// None deny in WHITELIST

2398

status = mNetd->firewallSetUidRule(INetd::FIREWALL_CHAIN_NONE, uid, INetd::FIREWALL_RULE_DENY);

2399

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2400

expectFirewallUidFirstRuleDoesNotExist(FIREWALL_INPUT, uid);

2401

expectFirewallUidFirstRuleDoesNotExist(FIREWALL_OUTPUT, uid);

2402

2403

// reset firewall mode to default

2404

status = mNetd->firewallSetFirewallType(INetd::FIREWALL_BLACKLIST);

2405

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2406

expectFirewallBlacklistMode();

2407

}

2408

2409

TEST_F(BinderTest, FirewallEnableDisableChildChains) {

2410

SKIP_IF_BPF_SUPPORTED;

2411

2412

binder::Status status = mNetd->firewallEnableChildChain(INetd::FIREWALL_CHAIN_DOZABLE, true);

2413

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2414

expectFirewallChildChainsLastRuleExists(FIREWALL_DOZABLE);

2415

2416

status = mNetd->firewallEnableChildChain(INetd::FIREWALL_CHAIN_STANDBY, true);

2417

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2418

expectFirewallChildChainsLastRuleExists(FIREWALL_STANDBY);

2419

2420

status = mNetd->firewallEnableChildChain(INetd::FIREWALL_CHAIN_POWERSAVE, true);

2421

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2422

expectFirewallChildChainsLastRuleExists(FIREWALL_POWERSAVE);

2423

2424

status = mNetd->firewallEnableChildChain(INetd::FIREWALL_CHAIN_DOZABLE, false);

2425

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2426

expectFirewallChildChainsLastRuleDoesNotExist(FIREWALL_DOZABLE);

2427

2428

status = mNetd->firewallEnableChildChain(INetd::FIREWALL_CHAIN_STANDBY, false);

2429

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2430

expectFirewallChildChainsLastRuleDoesNotExist(FIREWALL_STANDBY);

2431

2432

status = mNetd->firewallEnableChildChain(INetd::FIREWALL_CHAIN_POWERSAVE, false);

2433

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2434

expectFirewallChildChainsLastRuleDoesNotExist(FIREWALL_POWERSAVE);

2435

}

Luke Huang

2018-08-08 13:13:04 +0800

[diff] [blame]

namespace {

std::string hwAddrToStr(unsigned char* hwaddr) {

2440

return StringPrintf("%02x:%02x:%02x:%02x:%02x:%02x", hwaddr[0], hwaddr[1], hwaddr[2], hwaddr[3],

2441

hwaddr[4], hwaddr[5]);

2442

}

2443

2444

int ipv4NetmaskToPrefixLength(in_addr_t mask) {

2445

int prefixLength = 0;

2446

uint32_t m = ntohl(mask);

2447

while (m & (1 << 31)) {

prefixLength++;

m = m << 1;

}

return prefixLength;

}

std::string toStdString(const String16& s) {

2455

return std::string(String8(s.string()));

2456

}

2457

2458

android::netdutils::StatusOr<ifreq> ioctlByIfName(const std::string& ifName, unsigned long flag) {

2459

const auto& sys = sSyscalls.get();

2460

auto fd = sys.socket(AF_INET, SOCK_DGRAM | SOCK_CLOEXEC, 0);

2461

EXPECT_TRUE(isOk(fd.status()));

2462

2463

struct ifreq ifr = {};

2464

strlcpy(ifr.ifr_name, ifName.c_str(), IFNAMSIZ);

2465

2466

return sys.ioctl(fd.value(), flag, &ifr);

2467

}

2468

2469

std::string getInterfaceHwAddr(const std::string& ifName) {

2470

auto res = ioctlByIfName(ifName, SIOCGIFHWADDR);

2471

2472

unsigned char hwaddr[ETH_ALEN] = {};

2473

if (isOk(res.status())) {

2474

memcpy((void*) hwaddr, &res.value().ifr_hwaddr.sa_data, ETH_ALEN);

2475

}

2476

2477

return hwAddrToStr(hwaddr);

2478

}

2479

2480

int getInterfaceIPv4Prefix(const std::string& ifName) {

2481

auto res = ioctlByIfName(ifName, SIOCGIFNETMASK);

2482

2483

int prefixLength = 0;

2484

if (isOk(res.status())) {

2485

prefixLength = ipv4NetmaskToPrefixLength(

2486

((struct sockaddr_in*) &res.value().ifr_addr)->sin_addr.s_addr);

}

return prefixLength;

}

std::string getInterfaceIPv4Addr(const std::string& ifName) {

2493

auto res = ioctlByIfName(ifName, SIOCGIFADDR);

2494

2495

struct in_addr addr = {};

2496

if (isOk(res.status())) {

2497

addr.s_addr = ((struct sockaddr_in*) &res.value().ifr_addr)->sin_addr.s_addr;

2498

}

2499

2500

return std::string(inet_ntoa(addr));

2501

}

2502

2503

std::vector<std::string> getInterfaceFlags(const std::string& ifName) {

2504

auto res = ioctlByIfName(ifName, SIOCGIFFLAGS);

2505

2506

unsigned flags = 0;

2507

if (isOk(res.status())) {

2508

flags = res.value().ifr_flags;

2509

}

2510

2511

std::vector<std::string> ifFlags;

2512

ifFlags.push_back(flags & IFF_UP ? toStdString(INetd::IF_STATE_UP())

2513

: toStdString(INetd::IF_STATE_DOWN()));

2514

2515

if (flags & IFF_BROADCAST) ifFlags.push_back(toStdString(INetd::IF_FLAG_BROADCAST()));

2516

if (flags & IFF_LOOPBACK) ifFlags.push_back(toStdString(INetd::IF_FLAG_LOOPBACK()));

2517

if (flags & IFF_POINTOPOINT) ifFlags.push_back(toStdString(INetd::IF_FLAG_POINTOPOINT()));

2518

if (flags & IFF_RUNNING) ifFlags.push_back(toStdString(INetd::IF_FLAG_RUNNING()));

2519

if (flags & IFF_MULTICAST) ifFlags.push_back(toStdString(INetd::IF_FLAG_MULTICAST()));

return ifFlags;

}

bool compareListInterface(const std::vector<std::string>& interfaceList) {

2525

const auto& res = InterfaceController::getIfaceNames();

2526

EXPECT_TRUE(isOk(res));

2527

2528

std::vector<std::string> resIfList;

2529

resIfList.reserve(res.value().size());

2530

resIfList.insert(end(resIfList), begin(res.value()), end(res.value()));

2531

2532

return resIfList == interfaceList;

2533

}

2534

2535

int getInterfaceIPv6PrivacyExtensions(const std::string& ifName) {

2536

std::string path = StringPrintf("/proc/sys/net/ipv6/conf/%s/use_tempaddr", ifName.c_str());

2537

return readIntFromPath(path);

2538

}

2539

2540

bool getInterfaceEnableIPv6(const std::string& ifName) {

2541

std::string path = StringPrintf("/proc/sys/net/ipv6/conf/%s/disable_ipv6", ifName.c_str());

2542

2543

int disableIPv6 = readIntFromPath(path);

return !disableIPv6;

}

int getInterfaceMtu(const std::string& ifName) {

2548

std::string path = StringPrintf("/sys/class/net/%s/mtu", ifName.c_str());

2549

return readIntFromPath(path);

2550

}

2551

2552

void expectInterfaceList(const std::vector<std::string>& interfaceList) {

2553

EXPECT_TRUE(compareListInterface(interfaceList));

2554

}

2555

2556

void expectCurrentInterfaceConfigurationEquals(const std::string& ifName,

2557

const InterfaceConfigurationParcel& interfaceCfg) {

2558

EXPECT_EQ(getInterfaceIPv4Addr(ifName), interfaceCfg.ipv4Addr);

2559

EXPECT_EQ(getInterfaceIPv4Prefix(ifName), interfaceCfg.prefixLength);

2560

EXPECT_EQ(getInterfaceHwAddr(ifName), interfaceCfg.hwAddr);

2561

EXPECT_EQ(getInterfaceFlags(ifName), interfaceCfg.flags);

2562

}

2563

2564

void expectCurrentInterfaceConfigurationAlmostEqual(const InterfaceConfigurationParcel& setCfg) {

2565

EXPECT_EQ(getInterfaceIPv4Addr(setCfg.ifName), setCfg.ipv4Addr);

2566

EXPECT_EQ(getInterfaceIPv4Prefix(setCfg.ifName), setCfg.prefixLength);

2567

2568

const auto& ifFlags = getInterfaceFlags(setCfg.ifName);

2569

for (const auto& flag : setCfg.flags) {

2570

EXPECT_TRUE(std::find(ifFlags.begin(), ifFlags.end(), flag) != ifFlags.end());

}

}

void expectInterfaceIPv6PrivacyExtensions(const std::string& ifName, bool enable) {

2575

int v6PrivacyExtensions = getInterfaceIPv6PrivacyExtensions(ifName);

2576

EXPECT_EQ(v6PrivacyExtensions, enable ? 2 : 0);

2577

}

2578

2579

void expectInterfaceNoAddr(const std::string& ifName) {

2580

// noAddr

2581

EXPECT_EQ(getInterfaceIPv4Addr(ifName), "0.0.0.0");

2582

// noPrefix

2583

EXPECT_EQ(getInterfaceIPv4Prefix(ifName), 0);

2584

}

2585

2586

void expectInterfaceEnableIPv6(const std::string& ifName, bool enable) {

2587

int enableIPv6 = getInterfaceEnableIPv6(ifName);

2588

EXPECT_EQ(enableIPv6, enable);

2589

}

2590

2591

void expectInterfaceMtu(const std::string& ifName, const int mtu) {

2592

int mtuSize = getInterfaceMtu(ifName);

2593

EXPECT_EQ(mtu, mtuSize);

2594

}

2595

2596

InterfaceConfigurationParcel makeInterfaceCfgParcel(const std::string& ifName,

2597

const std::string& addr, int prefixLength,

2598

const std::vector<std::string>& flags) {

2599

InterfaceConfigurationParcel cfg;

cfg.ifName = ifName;

cfg.hwAddr = "";

cfg.ipv4Addr = addr;

cfg.prefixLength = prefixLength;

cfg.flags = flags;

return cfg;

}

void expectTunFlags(const InterfaceConfigurationParcel& interfaceCfg) {

2609

std::vector<std::string> expectedFlags = {"up", "point-to-point", "running", "multicast"};

2610

std::vector<std::string> unexpectedFlags = {"down", "broadcast"};

2611

2612

for (const auto& flag : expectedFlags) {

2613

EXPECT_TRUE(std::find(interfaceCfg.flags.begin(), interfaceCfg.flags.end(), flag) !=

2614

interfaceCfg.flags.end());

2615

}

2616

2617

for (const auto& flag : unexpectedFlags) {

2618

EXPECT_TRUE(std::find(interfaceCfg.flags.begin(), interfaceCfg.flags.end(), flag) ==

2619

interfaceCfg.flags.end());

}

}

} // namespace

TEST_F(BinderTest, InterfaceList) {

2626

std::vector<std::string> interfaceListResult;

2627

2628

binder::Status status = mNetd->interfaceGetList(&interfaceListResult);

2629

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2630

expectInterfaceList(interfaceListResult);

2631

}

2632

2633

TEST_F(BinderTest, InterfaceGetCfg) {

2634

InterfaceConfigurationParcel interfaceCfgResult;

2635

2636

// Add test physical network

2637

EXPECT_TRUE(mNetd->networkCreatePhysical(TEST_NETID1, INetd::PERMISSION_NONE).isOk());

2638

EXPECT_TRUE(mNetd->networkAddInterface(TEST_NETID1, sTun.name()).isOk());

2639

2640

binder::Status status = mNetd->interfaceGetCfg(sTun.name(), &interfaceCfgResult);

2641

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2642

expectCurrentInterfaceConfigurationEquals(sTun.name(), interfaceCfgResult);

2643

expectTunFlags(interfaceCfgResult);

2644

2645

// Remove test physical network

2646

EXPECT_TRUE(mNetd->networkDestroy(TEST_NETID1).isOk());

2647

}

2648

2649

TEST_F(BinderTest, InterfaceSetCfg) {

2650

const std::string testAddr = "192.0.2.3";

2651

const int testPrefixLength = 24;

2652

std::vector<std::string> upFlags = {"up"};

2653

std::vector<std::string> downFlags = {"down"};

2654

2655

// Add test physical network

2656

EXPECT_TRUE(mNetd->networkCreatePhysical(TEST_NETID1, INetd::PERMISSION_NONE).isOk());

2657

EXPECT_TRUE(mNetd->networkAddInterface(TEST_NETID1, sTun.name()).isOk());

2658

2659

// Set tun interface down.

2660

auto interfaceCfg = makeInterfaceCfgParcel(sTun.name(), testAddr, testPrefixLength, downFlags);

2661

binder::Status status = mNetd->interfaceSetCfg(interfaceCfg);

2662

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2663

expectCurrentInterfaceConfigurationAlmostEqual(interfaceCfg);

2664

2665

// Set tun interface up again.

2666

interfaceCfg = makeInterfaceCfgParcel(sTun.name(), testAddr, testPrefixLength, upFlags);

2667

status = mNetd->interfaceSetCfg(interfaceCfg);

2668

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2669

status = mNetd->interfaceClearAddrs(sTun.name());

2670

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2671

2672

// Remove test physical network

2673

EXPECT_TRUE(mNetd->networkDestroy(TEST_NETID1).isOk());

2674

}

2675

2676

TEST_F(BinderTest, InterfaceSetIPv6PrivacyExtensions) {

2677

// enable

2678

binder::Status status = mNetd->interfaceSetIPv6PrivacyExtensions(sTun.name(), true);

2679

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2680

expectInterfaceIPv6PrivacyExtensions(sTun.name(), true);

2681

2682

// disable

2683

status = mNetd->interfaceSetIPv6PrivacyExtensions(sTun.name(), false);

2684

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2685

expectInterfaceIPv6PrivacyExtensions(sTun.name(), false);

2686

}

2687

2688

TEST_F(BinderTest, InterfaceClearAddr) {

2689

const std::string testAddr = "192.0.2.3";

2690

const int testPrefixLength = 24;

2691

std::vector<std::string> noFlags{};

2692

2693

// Add test physical network

2694

EXPECT_TRUE(mNetd->networkCreatePhysical(TEST_NETID1, INetd::PERMISSION_NONE).isOk());

2695

EXPECT_TRUE(mNetd->networkAddInterface(TEST_NETID1, sTun.name()).isOk());

2696

2697

auto interfaceCfg = makeInterfaceCfgParcel(sTun.name(), testAddr, testPrefixLength, noFlags);

2698

binder::Status status = mNetd->interfaceSetCfg(interfaceCfg);

2699

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2700

expectCurrentInterfaceConfigurationAlmostEqual(interfaceCfg);

2701

2702

status = mNetd->interfaceClearAddrs(sTun.name());

2703

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2704

expectInterfaceNoAddr(sTun.name());

2705

2706

// Remove test physical network

2707

EXPECT_TRUE(mNetd->networkDestroy(TEST_NETID1).isOk());

2708

}

2709

2710

TEST_F(BinderTest, InterfaceSetEnableIPv6) {

2711

// Add test physical network

2712

EXPECT_TRUE(mNetd->networkCreatePhysical(TEST_NETID1, INetd::PERMISSION_NONE).isOk());

2713

EXPECT_TRUE(mNetd->networkAddInterface(TEST_NETID1, sTun.name()).isOk());

2714

2715

// disable

2716

binder::Status status = mNetd->interfaceSetEnableIPv6(sTun.name(), false);

2717

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2718

expectInterfaceEnableIPv6(sTun.name(), false);

2719

2720

// enable

2721

status = mNetd->interfaceSetEnableIPv6(sTun.name(), true);

2722

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2723

expectInterfaceEnableIPv6(sTun.name(), true);

2724

2725

// Remove test physical network

2726

EXPECT_TRUE(mNetd->networkDestroy(TEST_NETID1).isOk());

2727

}

2728

2729

TEST_F(BinderTest, InterfaceSetMtu) {

2730

const int testMtu = 1200;

2731

2732

// Add test physical network

2733

EXPECT_TRUE(mNetd->networkCreatePhysical(TEST_NETID1, INetd::PERMISSION_NONE).isOk());

2734

EXPECT_TRUE(mNetd->networkAddInterface(TEST_NETID1, sTun.name()).isOk());

2735

2736

binder::Status status = mNetd->interfaceSetMtu(sTun.name(), testMtu);

2737

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2738

expectInterfaceMtu(sTun.name(), testMtu);

2739

2740

// Remove test physical network

2741

EXPECT_TRUE(mNetd->networkDestroy(TEST_NETID1).isOk());

2742

}

Luke Huang

2018-10-22 12:12:05 +0900

[diff] [blame]

namespace {

constexpr const char TETHER_FORWARD[] = "tetherctrl_FORWARD";

2747

constexpr const char TETHER_NAT_POSTROUTING[] = "tetherctrl_nat_POSTROUTING";

Luke Huang

2018-11-05 11:17:31 +0900

[diff] [blame]

2748

constexpr const char TETHER_RAW_PREROUTING[] = "tetherctrl_raw_PREROUTING";

Luke Huang

2018-10-22 12:12:05 +0900

[diff] [blame]

2749

constexpr const char TETHER_COUNTERS_CHAIN[] = "tetherctrl_counters";

2750

Luke Huang

2018-11-05 11:17:31 +0900

[diff] [blame]

2751

int iptablesCountRules(const char* binary, const char* table, const char* chainName) {

Luke Huang

2018-10-22 12:12:05 +0900

[diff] [blame]

2752

return listIptablesRuleByTable(binary, table, chainName).size();

2753

}

2754

2755

bool iptablesChainMatch(const char* binary, const char* table, const char* chainName,

2756

const std::vector<std::string>& targetVec) {

2757

std::vector<std::string> rules = listIptablesRuleByTable(binary, table, chainName);

2758

if (targetVec.size() != rules.size() - 2) {

return false;

}

/*

Luke Huang

2018-11-05 11:17:31 +0900

[diff] [blame]

2763

* Check that the rules match. Note that this function matches substrings, not entire rules,

2764

* because otherwise rules where "pkts" or "bytes" are nonzero would not match.

Luke Huang

2018-10-22 12:12:05 +0900

[diff] [blame]

2765

* Skip first two lines since rules start from third line.

2766

* Chain chainName (x references)

2767

* pkts bytes target prot opt in out source destination

* ...

*/

int rIndex = 2;

for (const auto& target : targetVec) {

2772

if (rules[rIndex].find(target) == std::string::npos) {

return false;

}

rIndex++;

}

return true;

}

void expectNatEnable(const std::string& intIf, const std::string& extIf) {

2781

std::vector<std::string> postroutingV4Match = {"MASQUERADE"};

2782

std::vector<std::string> preroutingV4Match = {"CT helper ftp", "CT helper pptp"};

2783

std::vector<std::string> forwardV4Match = {

Luke Huang

2018-11-05 11:17:31 +0900

[diff] [blame]

2784

"bw_global_alert", "state RELATED", "state INVALID",

Luke Huang

2018-10-22 12:12:05 +0900

[diff] [blame]

2785

StringPrintf("tetherctrl_counters all -- %s %s", intIf.c_str(), extIf.c_str()),

"DROP"};

// V4

EXPECT_TRUE(iptablesChainMatch(IPTABLES_PATH, NAT_TABLE, TETHER_NAT_POSTROUTING,

2790

postroutingV4Match));

Luke Huang

2018-11-05 11:17:31 +0900

[diff] [blame]

2791

EXPECT_TRUE(

2792

iptablesChainMatch(IPTABLES_PATH, RAW_TABLE, TETHER_RAW_PREROUTING, preroutingV4Match));

Luke Huang

2018-10-22 12:12:05 +0900

[diff] [blame]

2793

EXPECT_TRUE(iptablesChainMatch(IPTABLES_PATH, FILTER_TABLE, TETHER_FORWARD, forwardV4Match));

2794

Luke Huang

2018-11-05 11:17:31 +0900

[diff] [blame]

2795

std::vector<std::string> forwardV6Match = {"bw_global_alert", "tetherctrl_counters"};

Luke Huang

2018-10-22 12:12:05 +0900

[diff] [blame]

2796

std::vector<std::string> preroutingV6Match = {"rpfilter invert"};

2797

2798

// V6

2799

EXPECT_TRUE(iptablesChainMatch(IP6TABLES_PATH, FILTER_TABLE, TETHER_FORWARD, forwardV6Match));

Luke Huang

2018-11-05 11:17:31 +0900

[diff] [blame]

2800

EXPECT_TRUE(iptablesChainMatch(IP6TABLES_PATH, RAW_TABLE, TETHER_RAW_PREROUTING,

2801

preroutingV6Match));

Luke Huang

2018-10-22 12:12:05 +0900

[diff] [blame]

2802

2803

for (const auto& binary : {IPTABLES_PATH, IP6TABLES_PATH}) {

2804

EXPECT_TRUE(iptablesTargetsExists(binary, 2, FILTER_TABLE, TETHER_COUNTERS_CHAIN, intIf,

extIf));

}

}

void expectNatDisable() {

2810

// It is the default DROP rule with tethering disable.

2811

// Chain tetherctrl_FORWARD (1 references)

2812

// pkts bytes target prot opt in out source destination

2813

// 0 0 DROP all -- * * 0.0.0.0/0 0.0.0.0/0

2814

std::vector<std::string> forwardV4Match = {"DROP"};

2815

EXPECT_TRUE(iptablesChainMatch(IPTABLES_PATH, FILTER_TABLE, TETHER_FORWARD, forwardV4Match));

2816

2817

// We expect that these chains should be empty.

Luke Huang

2018-11-05 11:17:31 +0900

[diff] [blame]

2818

EXPECT_EQ(2, iptablesCountRules(IPTABLES_PATH, NAT_TABLE, TETHER_NAT_POSTROUTING));

2819

EXPECT_EQ(2, iptablesCountRules(IPTABLES_PATH, RAW_TABLE, TETHER_RAW_PREROUTING));

Luke Huang

2018-10-22 12:12:05 +0900

[diff] [blame]

2820

Luke Huang

2018-11-05 11:17:31 +0900

[diff] [blame]

2821

EXPECT_EQ(2, iptablesCountRules(IP6TABLES_PATH, FILTER_TABLE, TETHER_FORWARD));

2822

EXPECT_EQ(2, iptablesCountRules(IP6TABLES_PATH, RAW_TABLE, TETHER_RAW_PREROUTING));

Luke Huang

2018-10-22 12:12:05 +0900

[diff] [blame]

2823

2824

// Netd won't clear tether quota rule, we don't care rule in tetherctrl_counters.

}

} // namespace

TEST_F(BinderTest, TetherForwardAddRemove) {

Luke Huang

2018-10-22 12:12:05 +0900

[diff] [blame]

2830

binder::Status status = mNetd->tetherAddForward(sTun.name(), sTun2.name());

2831

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2832

expectNatEnable(sTun.name(), sTun2.name());

2833

2834

status = mNetd->tetherRemoveForward(sTun.name(), sTun2.name());

2835

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2836

expectNatDisable();

Luke Huang

2018-10-22 12:12:05 +0900

[diff] [blame]

2837

}

Chenbo Feng

f5663d8

2018-11-08 16:10:48 -0800

[diff] [blame]

namespace {

using TripleInt = std::array<int, 3>;

2842

2843

TripleInt readProcFileToTripleInt(const std::string& path) {

2844

std::string valueString;

2845

int min, def, max;

2846

EXPECT_TRUE(ReadFileToString(path, &valueString));

2847

EXPECT_EQ(3, sscanf(valueString.c_str(), "%d %d %d", &min, &def, &max));

2848

return {min, def, max};

2849

}

2850

2851

void updateAndCheckTcpBuffer(sp<INetd>& netd, TripleInt& rmemValues, TripleInt& wmemValues) {

2852

std::string testRmemValues =

2853

StringPrintf("%u %u %u", rmemValues[0], rmemValues[1], rmemValues[2]);

2854

std::string testWmemValues =

2855

StringPrintf("%u %u %u", wmemValues[0], wmemValues[1], wmemValues[2]);

2856

EXPECT_TRUE(netd->setTcpRWmemorySize(testRmemValues, testWmemValues).isOk());

2857

2858

TripleInt newRmemValues = readProcFileToTripleInt(TCP_RMEM_PROC_FILE);

2859

TripleInt newWmemValues = readProcFileToTripleInt(TCP_WMEM_PROC_FILE);

2860

2861

for (int i = 0; i < 3; i++) {

2862

SCOPED_TRACE(StringPrintf("tcp_mem value %d should be equal", i));

2863

EXPECT_EQ(rmemValues[i], newRmemValues[i]);

2864

EXPECT_EQ(wmemValues[i], newWmemValues[i]);

}

}

} // namespace

TEST_F(BinderTest, TcpBufferSet) {

2871

TripleInt rmemValue = readProcFileToTripleInt(TCP_RMEM_PROC_FILE);

2872

TripleInt testRmemValue{rmemValue[0] + 42, rmemValue[1] + 42, rmemValue[2] + 42};

2873

TripleInt wmemValue = readProcFileToTripleInt(TCP_WMEM_PROC_FILE);

2874

TripleInt testWmemValue{wmemValue[0] + 42, wmemValue[1] + 42, wmemValue[2] + 42};

2875

2876

updateAndCheckTcpBuffer(mNetd, testRmemValue, testWmemValue);

2877

updateAndCheckTcpBuffer(mNetd, rmemValue, wmemValue);

2878

}

Luke Huang

2018-08-29 19:06:05 +0800

[diff] [blame]

2879

Chenbo Feng

2018-12-26 17:40:21 -0800

[diff] [blame]

2880

namespace {

2881

2882

void checkUidsExist(std::vector<int32_t>& uids, bool exist) {

2883

android::bpf::BpfMap<uint32_t, uint8_t> uidPermissionMap(

2884

android::bpf::mapRetrieve(UID_PERMISSION_MAP_PATH, 0));

2885

for (int32_t uid : uids) {

2886

android::netdutils::StatusOr<uint8_t> permission = uidPermissionMap.readValue(uid);

2887

if (exist) {

2888

EXPECT_TRUE(isOk(permission));

2889

EXPECT_EQ(ALLOW_SOCK_CREATE, permission.value());

2890

} else {

2891

EXPECT_FALSE(isOk(permission));

2892

EXPECT_EQ(ENOENT, permission.status().code());

}

}

}

} // namespace

TEST_F(BinderTest, TestInternetPermission) {

2900

SKIP_IF_BPF_NOT_SUPPORTED;

2901

2902

std::vector<int32_t> appUids = {TEST_UID1, TEST_UID2};

2903

2904

mNetd->trafficSetNetPermForUids(INetd::PERMISSION_INTERNET, appUids);

2905

checkUidsExist(appUids, true);

2906

mNetd->trafficSetNetPermForUids(INetd::NO_PERMISSIONS, appUids);

2907

checkUidsExist(appUids, false);

2908

}

2909

Luke Huang

2018-08-29 19:06:05 +0800

[diff] [blame]

2910

TEST_F(BinderTest, UnsolEvents) {

2911

auto testUnsolService = android::net::TestUnsolService::start();

2912

std::string oldTunName = sTun.name();

2913

std::string newTunName = "unsolTest";

2914

testUnsolService->tarVec.push_back(oldTunName);

2915

testUnsolService->tarVec.push_back(newTunName);

2916

auto& cv = testUnsolService->getCv();

2917

auto& cvMutex = testUnsolService->getCvMutex();

2918

binder::Status status = mNetd->registerUnsolicitedEventListener(

2919

android::interface_cast<android::net::INetdUnsolicitedEventListener>(testUnsolService));

2920

EXPECT_TRUE(status.isOk()) << status.exceptionMessage();

2921

2922

// TODO: Add test for below events

2923

// StrictCleartextDetected / InterfaceDnsServersAdded

2924

// InterfaceClassActivity / QuotaLimitReached / InterfaceAddressRemoved

2925

2926

{

2927

std::unique_lock lock(cvMutex);

2928

2929

// Re-init test Tun, and we expect that we will get some unsol events.

2930

// Use the test Tun device name to verify if we receive its unsol events.

2931

sTun.destroy();

2932

// Use predefined name

2933

sTun.init(newTunName);

2934

2935

EXPECT_EQ(std::cv_status::no_timeout, cv.wait_for(lock, std::chrono::seconds(2)));

2936

}

2937

2938

// bit mask 1101101000

2939

// Test only covers below events currently

2940

const uint32_t kExpectedEvents = InterfaceAddressUpdated | InterfaceAdded | InterfaceRemoved |

2941

InterfaceLinkStatusChanged | RouteChanged;

2942

EXPECT_EQ(kExpectedEvents, testUnsolService->getReceived());

Bernie Innocenti