1 /*
2  * Copyright (C) 2020 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 
17 #include <BnAidlStuff.h>
18 #include <android-base/logging.h>
19 #include <binder/IServiceManager.h>
20 #include <binderthreadstate/CallerUtils.h>
21 #include <binderthreadstateutilstest/1.0/IHidlStuff.h>
22 #include <gtest/gtest.h>
23 #include <hidl/HidlTransportSupport.h>
24 #include <linux/prctl.h>
25 #include <sys/prctl.h>
26 
27 using android::BinderCallType;
28 using android::defaultServiceManager;
29 using android::getCurrentServingCall;
30 using android::getService;
31 using android::OK;
32 using android::sp;
33 using android::String16;
34 using android::binder::Status;
35 using android::hardware::Return;
36 using binderthreadstateutilstest::V1_0::IHidlStuff;
37 
38 constexpr size_t kP1Id = 1;
39 constexpr size_t kP2Id = 2;
40 
41 // AIDL and HIDL are in separate namespaces so using same service names
id2name(size_t id)42 std::string id2name(size_t id) {
43     return "libbinderthreadstateutils-" + std::to_string(id);
44 }
45 
46 // There are two servers calling each other recursively like this.
47 //
48 // P1           P2
49 // |  --HIDL-->  |
50 // |  <--HIDL--  |
51 // |  --AIDL-->  |
52 // |  <--AIDL--  |
53 // |  --HIDL-->  |
54 // |  <--HIDL--  |
55 // |  --AIDL-->  |
56 // |  <--AIDL--  |
57 //   ..........
58 //
59 // Calls always come in pairs (AIDL returns AIDL, HIDL returns HIDL) because
60 // this means that P1 always has a 'waitForResponse' call which can service the
61 // returning call and continue the recursion. Of course, with more threads, more
62 // complicated calls are possible, but this should do here.
63 
callHidl(size_t id,int32_t idx)64 static void callHidl(size_t id, int32_t idx) {
65     auto stuff = IHidlStuff::getService(id2name(id));
66     CHECK(stuff->call(idx).isOk());
67 }
68 
callAidl(size_t id,int32_t idx)69 static void callAidl(size_t id, int32_t idx) {
70     sp<IAidlStuff> stuff;
71     CHECK(OK == android::getService<IAidlStuff>(String16(id2name(id).c_str()), &stuff));
72     CHECK(stuff->call(idx).isOk());
73 }
74 
75 class HidlServer : public IHidlStuff {
76 public:
HidlServer(size_t thisId,size_t otherId)77     HidlServer(size_t thisId, size_t otherId) : thisId(thisId), otherId(otherId) {}
78     size_t thisId;
79     size_t otherId;
80 
callLocal()81     Return<void> callLocal() {
82         CHECK(BinderCallType::NONE == getCurrentServingCall());
83         return android::hardware::Status::ok();
84     }
call(int32_t idx)85     Return<void> call(int32_t idx) {
86         LOG(INFO) << "HidlServer CALL " << thisId << " to " << otherId << " at idx: " << idx
87                   << " with tid: " << gettid();
88         CHECK(BinderCallType::HWBINDER == getCurrentServingCall());
89         if (idx > 0) {
90             if (thisId == kP1Id && idx % 4 < 2) {
91                 callHidl(otherId, idx - 1);
92             } else {
93                 callAidl(otherId, idx - 1);
94             }
95         }
96         CHECK(BinderCallType::HWBINDER == getCurrentServingCall());
97         return android::hardware::Status::ok();
98     }
99 };
100 class AidlServer : public BnAidlStuff {
101 public:
AidlServer(size_t thisId,size_t otherId)102     AidlServer(size_t thisId, size_t otherId) : thisId(thisId), otherId(otherId) {}
103     size_t thisId;
104     size_t otherId;
105 
callLocal()106     Status callLocal() {
107         CHECK(BinderCallType::NONE == getCurrentServingCall());
108         return Status::ok();
109     }
call(int32_t idx)110     Status call(int32_t idx) {
111         LOG(INFO) << "AidlServer CALL " << thisId << " to " << otherId << " at idx: " << idx
112                   << " with tid: " << gettid();
113         CHECK(BinderCallType::BINDER == getCurrentServingCall());
114         if (idx > 0) {
115             if (thisId == kP2Id && idx % 4 < 2) {
116                 callHidl(otherId, idx - 1);
117             } else {
118                 callAidl(otherId, idx - 1);
119             }
120         }
121         CHECK(BinderCallType::BINDER == getCurrentServingCall());
122         return Status::ok();
123     }
124 };
125 
TEST(BinderThreadState,LocalHidlCall)126 TEST(BinderThreadState, LocalHidlCall) {
127     sp<IHidlStuff> server = new HidlServer(0, 0);
128     EXPECT_TRUE(server->callLocal().isOk());
129 }
130 
TEST(BinderThreadState,LocalAidlCall)131 TEST(BinderThreadState, LocalAidlCall) {
132     sp<IAidlStuff> server = new AidlServer(0, 0);
133     EXPECT_TRUE(server->callLocal().isOk());
134 }
135 
TEST(BindThreadState,RemoteHidlCall)136 TEST(BindThreadState, RemoteHidlCall) {
137     auto stuff = IHidlStuff::getService(id2name(kP1Id));
138     ASSERT_NE(nullptr, stuff);
139     ASSERT_TRUE(stuff->call(0).isOk());
140 }
TEST(BindThreadState,RemoteAidlCall)141 TEST(BindThreadState, RemoteAidlCall) {
142     sp<IAidlStuff> stuff;
143     ASSERT_EQ(OK, android::getService<IAidlStuff>(String16(id2name(kP1Id).c_str()), &stuff));
144     ASSERT_NE(nullptr, stuff);
145     ASSERT_TRUE(stuff->call(0).isOk());
146 }
147 
TEST(BindThreadState,RemoteNestedStartHidlCall)148 TEST(BindThreadState, RemoteNestedStartHidlCall) {
149     auto stuff = IHidlStuff::getService(id2name(kP1Id));
150     ASSERT_NE(nullptr, stuff);
151     ASSERT_TRUE(stuff->call(100).isOk());
152 }
TEST(BindThreadState,RemoteNestedStartAidlCall)153 TEST(BindThreadState, RemoteNestedStartAidlCall) {
154     sp<IAidlStuff> stuff;
155     ASSERT_EQ(OK, android::getService<IAidlStuff>(String16(id2name(kP1Id).c_str()), &stuff));
156     ASSERT_NE(nullptr, stuff);
157     EXPECT_TRUE(stuff->call(100).isOk());
158 }
159 
server(size_t thisId,size_t otherId)160 int server(size_t thisId, size_t otherId) {
161     // AIDL
162     android::ProcessState::self()->setThreadPoolMaxThreadCount(1);
163     sp<AidlServer> aidlServer = new AidlServer(thisId, otherId);
164     CHECK(OK == defaultServiceManager()->addService(String16(id2name(thisId).c_str()), aidlServer));
165     android::ProcessState::self()->startThreadPool();
166 
167     // HIDL
168     setenv("TREBLE_TESTING_OVERRIDE", "true", true);
169     android::hardware::configureRpcThreadpool(1, true /*callerWillJoin*/);
170     sp<IHidlStuff> hidlServer = new HidlServer(thisId, otherId);
171     CHECK(OK == hidlServer->registerAsService(id2name(thisId).c_str()));
172     android::hardware::joinRpcThreadpool();
173 
174     return EXIT_FAILURE;
175 }
176 
main(int argc,char ** argv)177 int main(int argc, char** argv) {
178     ::testing::InitGoogleTest(&argc, argv);
179     setenv("TREBLE_TESTING_OVERRIDE", "true", true);
180     if (fork() == 0) {
181         prctl(PR_SET_PDEATHSIG, SIGHUP);
182         return server(kP1Id, kP2Id);
183     }
184     if (fork() == 0) {
185         prctl(PR_SET_PDEATHSIG, SIGHUP);
186         return server(kP2Id, kP1Id);
187     }
188 
189     android::waitForService<IAidlStuff>(String16(id2name(kP1Id).c_str()));
190     android::hardware::details::waitForHwService(IHidlStuff::descriptor, id2name(kP1Id).c_str());
191     android::waitForService<IAidlStuff>(String16(id2name(kP2Id).c_str()));
192     android::hardware::details::waitForHwService(IHidlStuff::descriptor, id2name(kP2Id).c_str());
193 
194     return RUN_ALL_TESTS();
195 }
196