1 /*
2 * Copyright (C) 2022 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 "wifi_aidl_test_utils.h"
18
19 using ::android::wifi_system::InterfaceTool;
20
21 namespace {
findAnyModeSupportingConcurrencyType(IfaceConcurrencyType desired_type,const std::vector<IWifiChip::ChipMode> & modes,int * mode_id)22 bool findAnyModeSupportingConcurrencyType(IfaceConcurrencyType desired_type,
23 const std::vector<IWifiChip::ChipMode>& modes,
24 int* mode_id) {
25 for (const auto& mode : modes) {
26 for (const auto& combination : mode.availableCombinations) {
27 for (const auto& iface_limit : combination.limits) {
28 const auto& iface_types = iface_limit.types;
29 if (std::find(iface_types.begin(), iface_types.end(), desired_type) !=
30 iface_types.end()) {
31 *mode_id = mode.id;
32 return true;
33 }
34 }
35 }
36 }
37 return false;
38 }
39
configureChipToSupportConcurrencyTypeInternal(const std::shared_ptr<IWifiChip> & wifi_chip,IfaceConcurrencyType type,int * configured_mode_id)40 bool configureChipToSupportConcurrencyTypeInternal(const std::shared_ptr<IWifiChip>& wifi_chip,
41 IfaceConcurrencyType type,
42 int* configured_mode_id) {
43 if (!configured_mode_id) {
44 return false;
45 }
46 std::vector<IWifiChip::ChipMode> chip_modes;
47 auto status = wifi_chip->getAvailableModes(&chip_modes);
48 if (!status.isOk()) {
49 return false;
50 }
51 if (!findAnyModeSupportingConcurrencyType(type, chip_modes, configured_mode_id)) {
52 return false;
53 }
54 if (!wifi_chip->configureChip(*configured_mode_id).isOk()) {
55 return false;
56 }
57 return true;
58 }
59
configureChipToSupportConcurrencyTypeInternal(const std::shared_ptr<IWifiChip> & wifi_chip,IfaceConcurrencyType type)60 bool configureChipToSupportConcurrencyTypeInternal(const std::shared_ptr<IWifiChip>& wifi_chip,
61 IfaceConcurrencyType type) {
62 int mode_id;
63 return configureChipToSupportConcurrencyTypeInternal(wifi_chip, type, &mode_id);
64 }
65 } // namespace
66
checkStatusCode(ndk::ScopedAStatus * status,WifiStatusCode expected_code)67 bool checkStatusCode(ndk::ScopedAStatus* status, WifiStatusCode expected_code) {
68 if (status == nullptr) {
69 return false;
70 }
71 return status->getServiceSpecificError() == static_cast<int32_t>(expected_code);
72 }
73
getWifi(const char * instance_name)74 std::shared_ptr<IWifi> getWifi(const char* instance_name) {
75 return IWifi::fromBinder(ndk::SpAIBinder(AServiceManager_waitForService(instance_name)));
76 }
77
getWifiChip(const char * instance_name)78 std::shared_ptr<IWifiChip> getWifiChip(const char* instance_name) {
79 std::shared_ptr<IWifi> wifi = getWifi(instance_name);
80 if (!wifi.get()) {
81 return nullptr;
82 }
83
84 const int retry_interval_ms = 2;
85 const int max_retries = 5;
86 int retry_count = 0;
87 auto status = wifi->start();
88 while (retry_count < max_retries && !status.isOk()) {
89 retry_count++;
90 usleep(retry_interval_ms * 1000);
91 status = wifi->start();
92 }
93 if (!status.isOk()) {
94 return nullptr;
95 }
96
97 std::vector<int> chip_ids = {};
98 status = wifi->getChipIds(&chip_ids);
99 if (!status.isOk() || chip_ids.size() == 0) {
100 return nullptr;
101 }
102 std::shared_ptr<IWifiChip> chip;
103 status = wifi->getChip(chip_ids[0], &chip);
104 if (!status.isOk()) {
105 return nullptr;
106 }
107 return chip;
108 }
109
setupStaIface(const std::shared_ptr<IWifiStaIface> & iface)110 void setupStaIface(const std::shared_ptr<IWifiStaIface>& iface) {
111 std::string iface_name;
112 auto status = iface->getName(&iface_name);
113 if (status.isOk()) {
114 InterfaceTool iface_tool;
115 iface_tool.SetUpState(iface_name.c_str(), true);
116 }
117 }
118
setupNanIface(const std::shared_ptr<IWifiNanIface> & iface)119 void setupNanIface(const std::shared_ptr<IWifiNanIface>& iface) {
120 std::string iface_name;
121 auto status = iface->getName(&iface_name);
122 if (status.isOk()) {
123 InterfaceTool iface_tool;
124 iface_tool.SetUpState(iface_name.c_str(), true);
125 }
126 }
127
getWifiStaIface(const char * instance_name)128 std::shared_ptr<IWifiStaIface> getWifiStaIface(const char* instance_name) {
129 std::shared_ptr<IWifiChip> wifi_chip = getWifiChip(instance_name);
130 if (!wifi_chip.get()) {
131 return nullptr;
132 }
133 if (!configureChipToSupportConcurrencyTypeInternal(wifi_chip, IfaceConcurrencyType::STA)) {
134 return nullptr;
135 }
136 std::shared_ptr<IWifiStaIface> iface;
137 auto status = wifi_chip->createStaIface(&iface);
138 if (!status.isOk()) {
139 return nullptr;
140 }
141 setupStaIface(iface);
142 return iface;
143 }
144
getWifiNanIface(const char * instance_name)145 std::shared_ptr<IWifiNanIface> getWifiNanIface(const char* instance_name) {
146 std::shared_ptr<IWifiChip> wifi_chip = getWifiChip(instance_name);
147 if (!wifi_chip.get()) {
148 return nullptr;
149 }
150 if (!configureChipToSupportConcurrencyTypeInternal(wifi_chip,
151 IfaceConcurrencyType::NAN_IFACE)) {
152 return nullptr;
153 }
154 std::shared_ptr<IWifiNanIface> iface;
155 auto status = wifi_chip->createNanIface(&iface);
156 if (!status.isOk()) {
157 return nullptr;
158 }
159 setupNanIface(iface);
160 return iface;
161 }
162
getWifiApIface(const char * instance_name)163 std::shared_ptr<IWifiApIface> getWifiApIface(const char* instance_name) {
164 std::shared_ptr<IWifiChip> wifi_chip = getWifiChip(instance_name);
165 if (!wifi_chip.get()) {
166 return nullptr;
167 }
168 if (!configureChipToSupportConcurrencyTypeInternal(wifi_chip, IfaceConcurrencyType::AP)) {
169 return nullptr;
170 }
171 std::shared_ptr<IWifiApIface> iface;
172 auto status = wifi_chip->createApIface(&iface);
173 if (!status.isOk()) {
174 return nullptr;
175 }
176 return iface;
177 }
178
getBridgedWifiApIface(std::shared_ptr<IWifiChip> wifi_chip)179 std::shared_ptr<IWifiApIface> getBridgedWifiApIface(std::shared_ptr<IWifiChip> wifi_chip) {
180 if (!wifi_chip.get()) {
181 return nullptr;
182 }
183 int mode_id;
184 std::shared_ptr<IWifiApIface> iface;
185 configureChipToSupportConcurrencyTypeInternal(wifi_chip, IfaceConcurrencyType::AP, &mode_id);
186 auto status = wifi_chip->createBridgedApIface(&iface);
187 if (!status.isOk()) {
188 return nullptr;
189 }
190 return iface;
191 }
192
getBridgedWifiApIface(const char * instance_name)193 std::shared_ptr<IWifiApIface> getBridgedWifiApIface(const char* instance_name) {
194 std::shared_ptr<IWifiChip> wifi_chip = getWifiChip(instance_name);
195 return getBridgedWifiApIface(wifi_chip);
196 }
197
configureChipToSupportConcurrencyType(const std::shared_ptr<IWifiChip> & wifi_chip,IfaceConcurrencyType type,int * configured_mode_id)198 bool configureChipToSupportConcurrencyType(const std::shared_ptr<IWifiChip>& wifi_chip,
199 IfaceConcurrencyType type, int* configured_mode_id) {
200 return configureChipToSupportConcurrencyTypeInternal(wifi_chip, type, configured_mode_id);
201 }
202
stopWifiService(const char * instance_name)203 void stopWifiService(const char* instance_name) {
204 std::shared_ptr<IWifi> wifi = getWifi(instance_name);
205 if (wifi != nullptr) {
206 wifi->stop();
207 }
208 }
209
getChipFeatureSet(const std::shared_ptr<IWifiChip> & wifi_chip)210 int32_t getChipFeatureSet(const std::shared_ptr<IWifiChip>& wifi_chip) {
211 int32_t features = 0;
212 if (wifi_chip->getFeatureSet(&features).isOk()) {
213 return features;
214 }
215 return 0;
216 }
217
isAidlServiceAvailable(const char * instance_name)218 bool isAidlServiceAvailable(const char* instance_name) {
219 return AServiceManager_isDeclared(instance_name);
220 }
221