1 /*
2  * Copyright 2019 The Android Open Source Project
3  *
4  * Licensed under the Apache License, Version 2.0 (the "License");
5  * you may not use this file except in compliance with the License.
6  * You may obtain a copy of the License at
7  *
8  * http://www.apache.org/licenses/LICENSE-2.0
9  *
10  * Unless required by applicable law or agreed to in writing, software
11  * distributed under the License is distributed on an "AS IS" BASIS,
12  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13  * See the License for the specific language governing permissions and
14  * limitations under the License.
15  *
16  * OffloadUtilsTest.cpp - unit tests for OffloadUtils.cpp
17  */
18 
19 #include <gtest/gtest.h>
20 
21 #include "OffloadUtils.h"
22 
23 #include <linux/if_arp.h>
24 #include <stdlib.h>
25 #include <sys/wait.h>
26 
27 #include "bpf/BpfUtils.h"
28 #include "netdbpf/bpf_shared.h"
29 
30 namespace android {
31 namespace net {
32 
33 class OffloadUtilsTest : public ::testing::Test {
34   public:
SetUp()35     void SetUp() {}
36 };
37 
TEST_F(OffloadUtilsTest,HardwareAddressTypeOfNonExistingIf)38 TEST_F(OffloadUtilsTest, HardwareAddressTypeOfNonExistingIf) {
39     ASSERT_EQ(-ENODEV, hardwareAddressType("not_existing_if"));
40 }
41 
TEST_F(OffloadUtilsTest,HardwareAddressTypeOfLoopback)42 TEST_F(OffloadUtilsTest, HardwareAddressTypeOfLoopback) {
43     ASSERT_EQ(ARPHRD_LOOPBACK, hardwareAddressType("lo"));
44 }
45 
46 // If wireless 'wlan0' interface exists it should be Ethernet.
TEST_F(OffloadUtilsTest,HardwareAddressTypeOfWireless)47 TEST_F(OffloadUtilsTest, HardwareAddressTypeOfWireless) {
48     int type = hardwareAddressType("wlan0");
49     if (type == -ENODEV) return;
50 
51     ASSERT_EQ(ARPHRD_ETHER, type);
52 }
53 
54 // If cellular 'rmnet_data0' interface exists it should
55 // *probably* not be Ethernet and instead be RawIp.
TEST_F(OffloadUtilsTest,HardwareAddressTypeOfCellular)56 TEST_F(OffloadUtilsTest, HardwareAddressTypeOfCellular) {
57     int type = hardwareAddressType("rmnet_data0");
58     if (type == -ENODEV) return;
59 
60     ASSERT_NE(ARPHRD_ETHER, type);
61 
62     // ARPHRD_RAWIP is 530 on some pre-4.14 Qualcomm devices.
63     if (type == 530) return;
64 
65     ASSERT_EQ(ARPHRD_RAWIP, type);
66 }
67 
TEST_F(OffloadUtilsTest,IsEthernetOfNonExistingIf)68 TEST_F(OffloadUtilsTest, IsEthernetOfNonExistingIf) {
69     auto res = isEthernet("not_existing_if");
70     ASSERT_FALSE(res.ok());
71     ASSERT_EQ(ENODEV, res.error().code());
72 }
73 
TEST_F(OffloadUtilsTest,IsEthernetOfLoopback)74 TEST_F(OffloadUtilsTest, IsEthernetOfLoopback) {
75     auto res = isEthernet("lo");
76     ASSERT_FALSE(res.ok());
77     ASSERT_EQ(EAFNOSUPPORT, res.error().code());
78 }
79 
80 // If wireless 'wlan0' interface exists it should be Ethernet.
81 // See also HardwareAddressTypeOfWireless.
TEST_F(OffloadUtilsTest,IsEthernetOfWireless)82 TEST_F(OffloadUtilsTest, IsEthernetOfWireless) {
83     auto res = isEthernet("wlan0");
84     if (!res.ok() && res.error().code() == ENODEV) return;
85 
86     ASSERT_RESULT_OK(res);
87     ASSERT_TRUE(res.value());
88 }
89 
90 // If cellular 'rmnet_data0' interface exists it should
91 // *probably* not be Ethernet and instead be RawIp.
92 // See also HardwareAddressTypeOfCellular.
TEST_F(OffloadUtilsTest,IsEthernetOfCellular)93 TEST_F(OffloadUtilsTest, IsEthernetOfCellular) {
94     auto res = isEthernet("rmnet_data0");
95     if (!res.ok() && res.error().code() == ENODEV) return;
96 
97     ASSERT_RESULT_OK(res);
98     ASSERT_FALSE(res.value());
99 }
100 
TEST_F(OffloadUtilsTest,DeviceMTUOfNonExistingIf)101 TEST_F(OffloadUtilsTest, DeviceMTUOfNonExistingIf) {
102     ASSERT_EQ(-ENODEV, deviceMTU("not_existing_if"));
103 }
104 
TEST_F(OffloadUtilsTest,DeviceMTUofLoopback)105 TEST_F(OffloadUtilsTest, DeviceMTUofLoopback) {
106     ASSERT_EQ(65536, deviceMTU("lo"));
107 }
108 
TEST_F(OffloadUtilsTest,GetClatEgress4MapFd)109 TEST_F(OffloadUtilsTest, GetClatEgress4MapFd) {
110     int fd = getClatEgress4MapFd();
111     ASSERT_GE(fd, 3);  // 0,1,2 - stdin/out/err, thus fd >= 3
112     EXPECT_EQ(FD_CLOEXEC, fcntl(fd, F_GETFD));
113     close(fd);
114 }
115 
TEST_F(OffloadUtilsTest,GetClatEgress4RawIpProgFd)116 TEST_F(OffloadUtilsTest, GetClatEgress4RawIpProgFd) {
117     int fd = getClatEgress4ProgFd(RAWIP);
118     ASSERT_GE(fd, 3);
119     EXPECT_EQ(FD_CLOEXEC, fcntl(fd, F_GETFD));
120     close(fd);
121 }
122 
TEST_F(OffloadUtilsTest,GetClatEgress4EtherProgFd)123 TEST_F(OffloadUtilsTest, GetClatEgress4EtherProgFd) {
124     int fd = getClatEgress4ProgFd(ETHER);
125     ASSERT_GE(fd, 3);
126     EXPECT_EQ(FD_CLOEXEC, fcntl(fd, F_GETFD));
127     close(fd);
128 }
129 
TEST_F(OffloadUtilsTest,GetClatIngress6MapFd)130 TEST_F(OffloadUtilsTest, GetClatIngress6MapFd) {
131     int fd = getClatIngress6MapFd();
132     ASSERT_GE(fd, 3);  // 0,1,2 - stdin/out/err, thus fd >= 3
133     EXPECT_EQ(FD_CLOEXEC, fcntl(fd, F_GETFD));
134     close(fd);
135 }
136 
TEST_F(OffloadUtilsTest,GetClatIngress6RawIpProgFd)137 TEST_F(OffloadUtilsTest, GetClatIngress6RawIpProgFd) {
138     int fd = getClatIngress6ProgFd(RAWIP);
139     ASSERT_GE(fd, 3);
140     EXPECT_EQ(FD_CLOEXEC, fcntl(fd, F_GETFD));
141     close(fd);
142 }
143 
TEST_F(OffloadUtilsTest,GetClatIngress6EtherProgFd)144 TEST_F(OffloadUtilsTest, GetClatIngress6EtherProgFd) {
145     int fd = getClatIngress6ProgFd(ETHER);
146     ASSERT_GE(fd, 3);
147     EXPECT_EQ(FD_CLOEXEC, fcntl(fd, F_GETFD));
148     close(fd);
149 }
150 
151 // See Linux kernel source in include/net/flow.h
152 #define LOOPBACK_IFINDEX 1
153 
TEST_F(OffloadUtilsTest,AttachReplaceDetachClsactLo)154 TEST_F(OffloadUtilsTest, AttachReplaceDetachClsactLo) {
155     // This attaches and detaches a configuration-less and thus no-op clsact
156     // qdisc to loopback interface (and it takes fractions of a second)
157     EXPECT_EQ(0, tcQdiscAddDevClsact(LOOPBACK_IFINDEX));
158     EXPECT_EQ(0, tcQdiscReplaceDevClsact(LOOPBACK_IFINDEX));
159     EXPECT_EQ(0, tcQdiscDelDevClsact(LOOPBACK_IFINDEX));
160     EXPECT_EQ(-EINVAL, tcQdiscDelDevClsact(LOOPBACK_IFINDEX));
161 }
162 
checkAttachDetachBpfFilterClsactLo(const bool ingress,const bool ethernet)163 static void checkAttachDetachBpfFilterClsactLo(const bool ingress, const bool ethernet) {
164     // Older kernels return EINVAL instead of ENOENT due to lacking proper error propagation...
165     const int errNOENT = android::bpf::isAtLeastKernelVersion(4, 19, 0) ? ENOENT : EINVAL;
166 
167     int clatBpfFd = ingress ? getClatIngress6ProgFd(ethernet) : getClatEgress4ProgFd(ethernet);
168     ASSERT_GE(clatBpfFd, 3);
169 
170     // This attaches and detaches a clsact plus ebpf program to loopback
171     // interface, but it should not affect traffic by virtue of us not
172     // actually populating the ebpf control map.
173     // Furthermore: it only takes fractions of a second.
174     EXPECT_EQ(-EINVAL, tcFilterDelDevIngressClatIpv6(LOOPBACK_IFINDEX));
175     EXPECT_EQ(-EINVAL, tcFilterDelDevEgressClatIpv4(LOOPBACK_IFINDEX));
176     EXPECT_EQ(0, tcQdiscAddDevClsact(LOOPBACK_IFINDEX));
177     EXPECT_EQ(-errNOENT, tcFilterDelDevIngressClatIpv6(LOOPBACK_IFINDEX));
178     EXPECT_EQ(-errNOENT, tcFilterDelDevEgressClatIpv4(LOOPBACK_IFINDEX));
179     if (ingress) {
180         EXPECT_EQ(0, tcFilterAddDevIngressClatIpv6(LOOPBACK_IFINDEX, clatBpfFd, ethernet));
181         EXPECT_EQ(0, tcFilterDelDevIngressClatIpv6(LOOPBACK_IFINDEX));
182     } else {
183         EXPECT_EQ(0, tcFilterAddDevEgressClatIpv4(LOOPBACK_IFINDEX, clatBpfFd, ethernet));
184         EXPECT_EQ(0, tcFilterDelDevEgressClatIpv4(LOOPBACK_IFINDEX));
185     }
186     EXPECT_EQ(-errNOENT, tcFilterDelDevIngressClatIpv6(LOOPBACK_IFINDEX));
187     EXPECT_EQ(-errNOENT, tcFilterDelDevEgressClatIpv4(LOOPBACK_IFINDEX));
188     EXPECT_EQ(0, tcQdiscDelDevClsact(LOOPBACK_IFINDEX));
189     EXPECT_EQ(-EINVAL, tcFilterDelDevIngressClatIpv6(LOOPBACK_IFINDEX));
190     EXPECT_EQ(-EINVAL, tcFilterDelDevEgressClatIpv4(LOOPBACK_IFINDEX));
191 
192     close(clatBpfFd);
193 }
194 
TEST_F(OffloadUtilsTest,CheckAttachBpfFilterRawIpClsactEgressLo)195 TEST_F(OffloadUtilsTest, CheckAttachBpfFilterRawIpClsactEgressLo) {
196     checkAttachDetachBpfFilterClsactLo(EGRESS, RAWIP);
197 }
198 
TEST_F(OffloadUtilsTest,CheckAttachBpfFilterEthernetClsactEgressLo)199 TEST_F(OffloadUtilsTest, CheckAttachBpfFilterEthernetClsactEgressLo) {
200     checkAttachDetachBpfFilterClsactLo(EGRESS, ETHER);
201 }
202 
TEST_F(OffloadUtilsTest,CheckAttachBpfFilterRawIpClsactIngressLo)203 TEST_F(OffloadUtilsTest, CheckAttachBpfFilterRawIpClsactIngressLo) {
204     checkAttachDetachBpfFilterClsactLo(INGRESS, RAWIP);
205 }
206 
TEST_F(OffloadUtilsTest,CheckAttachBpfFilterEthernetClsactIngressLo)207 TEST_F(OffloadUtilsTest, CheckAttachBpfFilterEthernetClsactIngressLo) {
208     checkAttachDetachBpfFilterClsactLo(INGRESS, ETHER);
209 }
210 
211 }  // namespace net
212 }  // namespace android
213