1 /*
2  * Copyright (C) 2018 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 #define LOG_TAG "neuralnetworks_hidl_hal_test"
18 
19 #include <chrono>
20 #include "1.0/Utils.h"
21 #include "1.2/Callbacks.h"
22 #include "ExecutionBurstController.h"
23 #include "GeneratedTestHarness.h"
24 #include "TestHarness.h"
25 #include "VtsHalNeuralnetworks.h"
26 
27 namespace android::hardware::neuralnetworks::V1_2::vts::functional {
28 
29 using implementation::ExecutionCallback;
30 using V1_0::ErrorStatus;
31 using V1_0::Request;
32 
33 using ExecutionMutation = std::function<void(Request*)>;
34 
35 ///////////////////////// UTILITY FUNCTIONS /////////////////////////
36 
badTiming(Timing timing)37 static bool badTiming(Timing timing) {
38     return timing.timeOnDevice == UINT64_MAX && timing.timeInDriver == UINT64_MAX;
39 }
40 
41 // Primary validation function. This function will take a valid request, apply a
42 // mutation to it to invalidate the request, then pass it to interface calls
43 // that use the request.
validate(const sp<IPreparedModel> & preparedModel,const std::string & message,const Request & originalRequest,const ExecutionMutation & mutate)44 static void validate(const sp<IPreparedModel>& preparedModel, const std::string& message,
45                      const Request& originalRequest, const ExecutionMutation& mutate) {
46     Request request = originalRequest;
47     mutate(&request);
48 
49     // We'd like to test both with timing requested and without timing
50     // requested. Rather than running each test both ways, we'll decide whether
51     // to request timing by hashing the message. We do not use std::hash because
52     // it is not guaranteed stable across executions.
53     char hash = 0;
54     for (auto c : message) {
55         hash ^= c;
56     };
57     MeasureTiming measure = (hash & 1) ? MeasureTiming::YES : MeasureTiming::NO;
58 
59     // asynchronous
60     {
61         SCOPED_TRACE(message + " [execute_1_2]");
62 
63         sp<ExecutionCallback> executionCallback = new ExecutionCallback();
64         Return<ErrorStatus> executeLaunchStatus =
65                 preparedModel->execute_1_2(request, measure, executionCallback);
66         ASSERT_TRUE(executeLaunchStatus.isOk());
67         ASSERT_EQ(ErrorStatus::INVALID_ARGUMENT, static_cast<ErrorStatus>(executeLaunchStatus));
68 
69         executionCallback->wait();
70         ErrorStatus executionReturnStatus = executionCallback->getStatus();
71         const auto& outputShapes = executionCallback->getOutputShapes();
72         Timing timing = executionCallback->getTiming();
73         ASSERT_EQ(ErrorStatus::INVALID_ARGUMENT, executionReturnStatus);
74         ASSERT_EQ(outputShapes.size(), 0);
75         ASSERT_TRUE(badTiming(timing));
76     }
77 
78     // synchronous
79     {
80         SCOPED_TRACE(message + " [executeSynchronously]");
81 
82         Return<void> executeStatus = preparedModel->executeSynchronously(
83                 request, measure,
84                 [](ErrorStatus error, const hidl_vec<OutputShape>& outputShapes,
85                    const Timing& timing) {
86                     ASSERT_EQ(ErrorStatus::INVALID_ARGUMENT, error);
87                     EXPECT_EQ(outputShapes.size(), 0);
88                     EXPECT_TRUE(badTiming(timing));
89                 });
90         ASSERT_TRUE(executeStatus.isOk());
91     }
92 
93     // burst
94     {
95         SCOPED_TRACE(message + " [burst]");
96 
97         // create burst
98         std::shared_ptr<::android::nn::ExecutionBurstController> burst =
99                 android::nn::ExecutionBurstController::create(preparedModel,
100                                                               std::chrono::microseconds{0});
101         ASSERT_NE(nullptr, burst.get());
102 
103         // create memory keys
104         std::vector<intptr_t> keys(request.pools.size());
105         for (size_t i = 0; i < keys.size(); ++i) {
106             keys[i] = reinterpret_cast<intptr_t>(&request.pools[i]);
107         }
108 
109         // execute and verify
110         const auto [n, outputShapes, timing, fallback] = burst->compute(request, measure, keys);
111         const ErrorStatus status = nn::legacyConvertResultCodeToErrorStatus(n);
112         EXPECT_EQ(ErrorStatus::INVALID_ARGUMENT, status);
113         EXPECT_EQ(outputShapes.size(), 0);
114         EXPECT_TRUE(badTiming(timing));
115         EXPECT_FALSE(fallback);
116 
117         // additional burst testing
118         if (request.pools.size() > 0) {
119             // valid free
120             burst->freeMemory(keys.front());
121 
122             // negative test: invalid free of unknown (blank) memory
123             burst->freeMemory(intptr_t{});
124 
125             // negative test: double free of memory
126             burst->freeMemory(keys.front());
127         }
128     }
129 }
130 
131 ///////////////////////// REMOVE INPUT ////////////////////////////////////
132 
removeInputTest(const sp<IPreparedModel> & preparedModel,const Request & request)133 static void removeInputTest(const sp<IPreparedModel>& preparedModel, const Request& request) {
134     for (size_t input = 0; input < request.inputs.size(); ++input) {
135         const std::string message = "removeInput: removed input " + std::to_string(input);
136         validate(preparedModel, message, request,
137                  [input](Request* request) { hidl_vec_removeAt(&request->inputs, input); });
138     }
139 }
140 
141 ///////////////////////// REMOVE OUTPUT ////////////////////////////////////
142 
removeOutputTest(const sp<IPreparedModel> & preparedModel,const Request & request)143 static void removeOutputTest(const sp<IPreparedModel>& preparedModel, const Request& request) {
144     for (size_t output = 0; output < request.outputs.size(); ++output) {
145         const std::string message = "removeOutput: removed Output " + std::to_string(output);
146         validate(preparedModel, message, request,
147                  [output](Request* request) { hidl_vec_removeAt(&request->outputs, output); });
148     }
149 }
150 
151 ///////////////////////////// ENTRY POINT //////////////////////////////////
152 
validateRequest(const sp<IPreparedModel> & preparedModel,const Request & request)153 void validateRequest(const sp<IPreparedModel>& preparedModel, const Request& request) {
154     removeInputTest(preparedModel, request);
155     removeOutputTest(preparedModel, request);
156 }
157 
validateRequestFailure(const sp<IPreparedModel> & preparedModel,const Request & request)158 void validateRequestFailure(const sp<IPreparedModel>& preparedModel, const Request& request) {
159     SCOPED_TRACE("Expecting request to fail [executeSynchronously]");
160     Return<void> executeStatus = preparedModel->executeSynchronously(
161             request, MeasureTiming::NO,
162             [](ErrorStatus error, const hidl_vec<OutputShape>& outputShapes, const Timing& timing) {
163                 ASSERT_NE(ErrorStatus::NONE, error);
164                 EXPECT_EQ(outputShapes.size(), 0);
165                 EXPECT_TRUE(badTiming(timing));
166             });
167     ASSERT_TRUE(executeStatus.isOk());
168 }
169 
170 }  // namespace android::hardware::neuralnetworks::V1_2::vts::functional
171