Merge TP1A.220120.003

Change-Id: Ie5eba313ee102e452f5f96942ed2f3a7bb4e8f01

1 files changed, 0 insertions, 905 deletions

diff --git a/wifi/1.5/default/tests/wifi_chip_unit_tests.cpp b/wifi/1.5/default/tests/wifi_chip_unit_tests.cpp
deleted file mode 100644
index 0ad6f3e821..0000000000
--- a/wifi/1.5/default/tests/wifi_chip_unit_tests.cpp
+++ /dev/null
@@ -1,905 +0,0 @@
-/*
- * Copyright (C) 2017, The Android Open Source Project
- *
- * Licensed under the Apache License, Version 2.0 (the "License");
- * you may not use this file except in compliance with the License.
- * You may obtain a copy of the License at
- *
- *     http://www.apache.org/licenses/LICENSE-2.0
- *
- * Unless required by applicable law or agreed to in writing, software
- * distributed under the License is distributed on an "AS IS" BASIS,
- * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
- * See the License for the specific language governing permissions and
- * limitations under the License.
- */
-
-#include <android-base/logging.h>
-#include <android-base/macros.h>
-#include <cutils/properties.h>
-#include <gmock/gmock.h>
-
-#undef NAN  // This is weird, NAN is defined in bionic/libc/include/math.h:38
-#include "wifi_chip.h"
-
-#include "mock_interface_tool.h"
-#include "mock_wifi_feature_flags.h"
-#include "mock_wifi_iface_util.h"
-#include "mock_wifi_legacy_hal.h"
-#include "mock_wifi_mode_controller.h"
-
-using testing::NiceMock;
-using testing::Return;
-using testing::Test;
-
-namespace {
-using android::hardware::wifi::V1_0::ChipId;
-
-constexpr ChipId kFakeChipId = 5;
-}  // namespace
-
-namespace android {
-namespace hardware {
-namespace wifi {
-namespace V1_5 {
-namespace implementation {
-
-class WifiChipTest : public Test {
-   protected:
-    void setupV1IfaceCombination() {
-        // clang-format off
-        const hidl_vec<V1_0::IWifiChip::ChipIfaceCombination> combinationsSta = {
-            {{{{IfaceType::STA}, 1}, {{IfaceType::P2P}, 1}}}
-        };
-        const hidl_vec<V1_0::IWifiChip::ChipIfaceCombination> combinationsAp = {
-            {{{{IfaceType::AP}, 1}}}
-        };
-        const std::vector<V1_0::IWifiChip::ChipMode> modes = {
-            {feature_flags::chip_mode_ids::kV1Sta, combinationsSta},
-            {feature_flags::chip_mode_ids::kV1Ap, combinationsAp}
-        };
-        // clang-format on
-        EXPECT_CALL(*feature_flags_, getChipModes(true))
-            .WillRepeatedly(testing::Return(modes));
-    }
-
-    void setupV1_AwareIfaceCombination() {
-        // clang-format off
-        const hidl_vec<V1_0::IWifiChip::ChipIfaceCombination> combinationsSta = {
-            {{{{IfaceType::STA}, 1}, {{IfaceType::P2P, IfaceType::NAN}, 1}}}
-        };
-        const hidl_vec<V1_0::IWifiChip::ChipIfaceCombination> combinationsAp = {
-            {{{{IfaceType::AP}, 1}}}
-        };
-        const std::vector<V1_0::IWifiChip::ChipMode> modes = {
-            {feature_flags::chip_mode_ids::kV1Sta, combinationsSta},
-            {feature_flags::chip_mode_ids::kV1Ap, combinationsAp}
-        };
-        // clang-format on
-        EXPECT_CALL(*feature_flags_, getChipModes(true))
-            .WillRepeatedly(testing::Return(modes));
-    }
-
-    void setupV1_AwareDisabledApIfaceCombination() {
-        // clang-format off
-        const hidl_vec<V1_0::IWifiChip::ChipIfaceCombination> combinationsSta = {
-            {{{{IfaceType::STA}, 1}, {{IfaceType::P2P, IfaceType::NAN}, 1}}}
-        };
-        const std::vector<V1_0::IWifiChip::ChipMode> modes = {
-            {feature_flags::chip_mode_ids::kV1Sta, combinationsSta}
-        };
-        // clang-format on
-        EXPECT_CALL(*feature_flags_, getChipModes(true))
-            .WillRepeatedly(testing::Return(modes));
-    }
-
-    void setupV2_AwareIfaceCombination() {
-        // clang-format off
-        const hidl_vec<V1_0::IWifiChip::ChipIfaceCombination> combinations = {
-            {{{{IfaceType::STA}, 1}, {{IfaceType::AP}, 1}}},
-            {{{{IfaceType::STA}, 1}, {{IfaceType::P2P, IfaceType::NAN}, 1}}}
-        };
-        const std::vector<V1_0::IWifiChip::ChipMode> modes = {
-            {feature_flags::chip_mode_ids::kV3, combinations}
-        };
-        // clang-format on
-        EXPECT_CALL(*feature_flags_, getChipModes(true))
-            .WillRepeatedly(testing::Return(modes));
-    }
-
-    void setupV2_AwareDisabledApIfaceCombination() {
-        // clang-format off
-        const hidl_vec<V1_0::IWifiChip::ChipIfaceCombination> combinations = {
-            {{{{IfaceType::STA}, 1}, {{IfaceType::P2P, IfaceType::NAN}, 1}}}
-        };
-        const std::vector<V1_0::IWifiChip::ChipMode> modes = {
-            {feature_flags::chip_mode_ids::kV3, combinations}
-        };
-        // clang-format on
-        EXPECT_CALL(*feature_flags_, getChipModes(true))
-            .WillRepeatedly(testing::Return(modes));
-    }
-
-    void setup_MultiIfaceCombination() {
-        // clang-format off
-        const hidl_vec<V1_0::IWifiChip::ChipIfaceCombination> combinations = {
-            {{{{IfaceType::STA}, 3}, {{IfaceType::AP}, 1}}}
-        };
-        const std::vector<V1_0::IWifiChip::ChipMode> modes = {
-            {feature_flags::chip_mode_ids::kV3, combinations}
-        };
-        // clang-format on
-        EXPECT_CALL(*feature_flags_, getChipModes(true))
-            .WillRepeatedly(testing::Return(modes));
-    }
-
-    void assertNumberOfModes(uint32_t num_modes) {
-        chip_->getAvailableModes(
-            [num_modes](const WifiStatus& status,
-                        const std::vector<WifiChip::ChipMode>& modes) {
-                ASSERT_EQ(WifiStatusCode::SUCCESS, status.code);
-                // V2_Aware has 1 mode of operation.
-                ASSERT_EQ(num_modes, modes.size());
-            });
-    }
-
-    void findModeAndConfigureForIfaceType(const IfaceType& type) {
-        // This should be aligned with kInvalidModeId in wifi_chip.cpp.
-        ChipModeId mode_id = UINT32_MAX;
-        chip_->getAvailableModes(
-            [&mode_id, &type](const WifiStatus& status,
-                              const std::vector<WifiChip::ChipMode>& modes) {
-                ASSERT_EQ(WifiStatusCode::SUCCESS, status.code);
-                for (const auto& mode : modes) {
-                    for (const auto& combination : mode.availableCombinations) {
-                        for (const auto& limit : combination.limits) {
-                            if (limit.types.end() !=
-                                std::find(limit.types.begin(),
-                                          limit.types.end(), type)) {
-                                mode_id = mode.id;
-                            }
-                        }
-                    }
-                }
-            });
-        ASSERT_NE(UINT32_MAX, mode_id);
-
-        chip_->configureChip(mode_id, [](const WifiStatus& status) {
-            ASSERT_EQ(WifiStatusCode::SUCCESS, status.code);
-        });
-    }
-
-    // Returns an empty string on error.
-    std::string createIface(const IfaceType& type) {
-        std::string iface_name;
-        if (type == IfaceType::AP) {
-            chip_->createApIface(
-                [&iface_name](const WifiStatus& status,
-                              const sp<V1_0::IWifiApIface>& iface) {
-                    if (WifiStatusCode::SUCCESS == status.code) {
-                        ASSERT_NE(iface.get(), nullptr);
-                        iface->getName([&iface_name](const WifiStatus& status,
-                                                     const hidl_string& name) {
-                            ASSERT_EQ(WifiStatusCode::SUCCESS, status.code);
-                            iface_name = name.c_str();
-                        });
-                    }
-                });
-        } else if (type == IfaceType::NAN) {
-            chip_->createNanIface(
-                [&iface_name](
-                    const WifiStatus& status,
-                    const sp<android::hardware::wifi::V1_0::IWifiNanIface>&
-                        iface) {
-                    if (WifiStatusCode::SUCCESS == status.code) {
-                        ASSERT_NE(iface.get(), nullptr);
-                        iface->getName([&iface_name](const WifiStatus& status,
-                                                     const hidl_string& name) {
-                            ASSERT_EQ(WifiStatusCode::SUCCESS, status.code);
-                            iface_name = name.c_str();
-                        });
-                    }
-                });
-        } else if (type == IfaceType::P2P) {
-            chip_->createP2pIface(
-                [&iface_name](const WifiStatus& status,
-                              const sp<IWifiP2pIface>& iface) {
-                    if (WifiStatusCode::SUCCESS == status.code) {
-                        ASSERT_NE(iface.get(), nullptr);
-                        iface->getName([&iface_name](const WifiStatus& status,
-                                                     const hidl_string& name) {
-                            ASSERT_EQ(WifiStatusCode::SUCCESS, status.code);
-                            iface_name = name.c_str();
-                        });
-                    }
-                });
-        } else if (type == IfaceType::STA) {
-            chip_->createStaIface(
-                [&iface_name](const WifiStatus& status,
-                              const sp<V1_0::IWifiStaIface>& iface) {
-                    if (WifiStatusCode::SUCCESS == status.code) {
-                        ASSERT_NE(iface.get(), nullptr);
-                        iface->getName([&iface_name](const WifiStatus& status,
-                                                     const hidl_string& name) {
-                            ASSERT_EQ(WifiStatusCode::SUCCESS, status.code);
-                            iface_name = name.c_str();
-                        });
-                    }
-                });
-        }
-        return iface_name;
-    }
-
-    void removeIface(const IfaceType& type, const std::string& iface_name) {
-        if (type == IfaceType::AP) {
-            chip_->removeApIface(iface_name, [](const WifiStatus& status) {
-                ASSERT_EQ(WifiStatusCode::SUCCESS, status.code);
-            });
-        } else if (type == IfaceType::NAN) {
-            chip_->removeNanIface(iface_name, [](const WifiStatus& status) {
-                ASSERT_EQ(WifiStatusCode::SUCCESS, status.code);
-            });
-        } else if (type == IfaceType::P2P) {
-            chip_->removeP2pIface(iface_name, [](const WifiStatus& status) {
-                ASSERT_EQ(WifiStatusCode::SUCCESS, status.code);
-            });
-        } else if (type == IfaceType::STA) {
-            chip_->removeStaIface(iface_name, [](const WifiStatus& status) {
-                ASSERT_EQ(WifiStatusCode::SUCCESS, status.code);
-            });
-        }
-    }
-
-    bool createRttController() {
-        bool success = false;
-        chip_->createRttController_1_4(
-            NULL, [&success](const WifiStatus& status,
-                             const sp<IWifiRttController>& rtt) {
-                if (WifiStatusCode::SUCCESS == status.code) {
-                    ASSERT_NE(rtt.get(), nullptr);
-                    success = true;
-                }
-            });
-        return success;
-    }
-
-    static void subsystemRestartHandler(const std::string& /*error*/) {}
-
-    sp<WifiChip> chip_;
-    ChipId chip_id_ = kFakeChipId;
-    legacy_hal::wifi_hal_fn fake_func_table_;
-    std::shared_ptr<NiceMock<wifi_system::MockInterfaceTool>> iface_tool_{
-        new NiceMock<wifi_system::MockInterfaceTool>};
-    std::shared_ptr<NiceMock<legacy_hal::MockWifiLegacyHal>> legacy_hal_{
-        new NiceMock<legacy_hal::MockWifiLegacyHal>(iface_tool_,
-                                                    fake_func_table_, true)};
-    std::shared_ptr<NiceMock<mode_controller::MockWifiModeController>>
-        mode_controller_{new NiceMock<mode_controller::MockWifiModeController>};
-    std::shared_ptr<NiceMock<iface_util::MockWifiIfaceUtil>> iface_util_{
-        new NiceMock<iface_util::MockWifiIfaceUtil>(iface_tool_, legacy_hal_)};
-    std::shared_ptr<NiceMock<feature_flags::MockWifiFeatureFlags>>
-        feature_flags_{new NiceMock<feature_flags::MockWifiFeatureFlags>};
-
-   public:
-    void SetUp() override {
-        chip_ =
-            new WifiChip(chip_id_, true, legacy_hal_, mode_controller_,
-                         iface_util_, feature_flags_, subsystemRestartHandler);
-
-        EXPECT_CALL(*mode_controller_, changeFirmwareMode(testing::_))
-            .WillRepeatedly(testing::Return(true));
-        EXPECT_CALL(*legacy_hal_, start())
-            .WillRepeatedly(testing::Return(legacy_hal::WIFI_SUCCESS));
-    }
-
-    void TearDown() override {
-        // Restore default system iface names (This should ideally be using a
-        // mock).
-        property_set("wifi.interface", "wlan0");
-        property_set("wifi.concurrent.interface", "wlan1");
-        property_set("wifi.aware.interface", nullptr);
-    }
-};
-
-////////// V1 Iface Combinations ////////////
-// Mode 1 - STA + P2P
-// Mode 2 - AP
-class WifiChipV1IfaceCombinationTest : public WifiChipTest {
-   public:
-    void SetUp() override {
-        setupV1IfaceCombination();
-        WifiChipTest::SetUp();
-        // V1 has 2 modes of operation.
-        assertNumberOfModes(2u);
-    }
-};
-
-TEST_F(WifiChipV1IfaceCombinationTest, StaMode_CreateSta_ShouldSucceed) {
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    ASSERT_EQ(createIface(IfaceType::STA), "wlan0");
-}
-
-TEST_F(WifiChipV1IfaceCombinationTest, StaMode_CreateP2p_ShouldSucceed) {
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    ASSERT_FALSE(createIface(IfaceType::P2P).empty());
-}
-
-TEST_F(WifiChipV1IfaceCombinationTest, StaMode_CreateNan_ShouldFail) {
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    ASSERT_TRUE(createIface(IfaceType::NAN).empty());
-}
-
-TEST_F(WifiChipV1IfaceCombinationTest, StaMode_CreateAp_ShouldFail) {
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    ASSERT_TRUE(createIface(IfaceType::AP).empty());
-}
-
-TEST_F(WifiChipV1IfaceCombinationTest, StaMode_CreateStaP2p_ShouldSucceed) {
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    ASSERT_FALSE(createIface(IfaceType::STA).empty());
-    ASSERT_FALSE(createIface(IfaceType::P2P).empty());
-}
-
-TEST_F(WifiChipV1IfaceCombinationTest, ApMode_CreateAp_ShouldSucceed) {
-    findModeAndConfigureForIfaceType(IfaceType::AP);
-    ASSERT_EQ(createIface(IfaceType::AP), "wlan0");
-}
-
-TEST_F(WifiChipV1IfaceCombinationTest, ApMode_CreateSta_ShouldFail) {
-    findModeAndConfigureForIfaceType(IfaceType::AP);
-    ASSERT_TRUE(createIface(IfaceType::STA).empty());
-}
-
-TEST_F(WifiChipV1IfaceCombinationTest, ApMode_CreateP2p_ShouldFail) {
-    findModeAndConfigureForIfaceType(IfaceType::AP);
-    ASSERT_TRUE(createIface(IfaceType::STA).empty());
-}
-
-TEST_F(WifiChipV1IfaceCombinationTest, ApMode_CreateNan_ShouldFail) {
-    findModeAndConfigureForIfaceType(IfaceType::AP);
-    ASSERT_TRUE(createIface(IfaceType::NAN).empty());
-}
-
-////////// V1 + Aware Iface Combinations ////////////
-// Mode 1 - STA + P2P/NAN
-// Mode 2 - AP
-class WifiChipV1_AwareIfaceCombinationTest : public WifiChipTest {
-   public:
-    void SetUp() override {
-        setupV1_AwareIfaceCombination();
-        WifiChipTest::SetUp();
-        // V1_Aware has 2 modes of operation.
-        assertNumberOfModes(2u);
-    }
-};
-
-TEST_F(WifiChipV1_AwareIfaceCombinationTest, StaMode_CreateSta_ShouldSucceed) {
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    ASSERT_EQ(createIface(IfaceType::STA), "wlan0");
-}
-
-TEST_F(WifiChipV1_AwareIfaceCombinationTest, StaMode_CreateP2p_ShouldSucceed) {
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    ASSERT_FALSE(createIface(IfaceType::P2P).empty());
-}
-
-TEST_F(WifiChipV1_AwareIfaceCombinationTest, StaMode_CreateNan_ShouldSucceed) {
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    ASSERT_FALSE(createIface(IfaceType::NAN).empty());
-}
-
-TEST_F(WifiChipV1_AwareIfaceCombinationTest, StaMode_CreateAp_ShouldFail) {
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    ASSERT_TRUE(createIface(IfaceType::AP).empty());
-}
-
-TEST_F(WifiChipV1_AwareIfaceCombinationTest,
-       StaMode_CreateStaP2p_ShouldSucceed) {
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    ASSERT_FALSE(createIface(IfaceType::STA).empty());
-    ASSERT_FALSE(createIface(IfaceType::P2P).empty());
-}
-
-TEST_F(WifiChipV1_AwareIfaceCombinationTest,
-       StaMode_CreateStaNan_ShouldSucceed) {
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    ASSERT_FALSE(createIface(IfaceType::STA).empty());
-    ASSERT_FALSE(createIface(IfaceType::NAN).empty());
-}
-
-TEST_F(WifiChipV1_AwareIfaceCombinationTest,
-       StaMode_CreateStaP2PNan_ShouldFail) {
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    ASSERT_FALSE(createIface(IfaceType::STA).empty());
-    ASSERT_FALSE(createIface(IfaceType::P2P).empty());
-    ASSERT_TRUE(createIface(IfaceType::NAN).empty());
-}
-
-TEST_F(WifiChipV1_AwareIfaceCombinationTest,
-       StaMode_CreateStaNan_AfterP2pRemove_ShouldSucceed) {
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    ASSERT_FALSE(createIface(IfaceType::STA).empty());
-    const auto p2p_iface_name = createIface(IfaceType::P2P);
-    ASSERT_FALSE(p2p_iface_name.empty());
-    ASSERT_TRUE(createIface(IfaceType::NAN).empty());
-
-    // After removing P2P iface, NAN iface creation should succeed.
-    removeIface(IfaceType::P2P, p2p_iface_name);
-    ASSERT_FALSE(createIface(IfaceType::NAN).empty());
-}
-
-TEST_F(WifiChipV1_AwareIfaceCombinationTest,
-       StaMode_CreateStaP2p_AfterNanRemove_ShouldSucceed) {
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    ASSERT_FALSE(createIface(IfaceType::STA).empty());
-    const auto nan_iface_name = createIface(IfaceType::NAN);
-    ASSERT_FALSE(nan_iface_name.empty());
-    ASSERT_TRUE(createIface(IfaceType::P2P).empty());
-
-    // After removing NAN iface, P2P iface creation should succeed.
-    removeIface(IfaceType::NAN, nan_iface_name);
-    ASSERT_FALSE(createIface(IfaceType::P2P).empty());
-}
-
-TEST_F(WifiChipV1_AwareIfaceCombinationTest, ApMode_CreateAp_ShouldSucceed) {
-    findModeAndConfigureForIfaceType(IfaceType::AP);
-    ASSERT_EQ(createIface(IfaceType::AP), "wlan0");
-}
-
-TEST_F(WifiChipV1_AwareIfaceCombinationTest, ApMode_CreateSta_ShouldFail) {
-    findModeAndConfigureForIfaceType(IfaceType::AP);
-    ASSERT_TRUE(createIface(IfaceType::STA).empty());
-}
-
-TEST_F(WifiChipV1_AwareIfaceCombinationTest, ApMode_CreateP2p_ShouldFail) {
-    findModeAndConfigureForIfaceType(IfaceType::AP);
-    ASSERT_TRUE(createIface(IfaceType::STA).empty());
-}
-
-TEST_F(WifiChipV1_AwareIfaceCombinationTest, ApMode_CreateNan_ShouldFail) {
-    findModeAndConfigureForIfaceType(IfaceType::AP);
-    ASSERT_TRUE(createIface(IfaceType::NAN).empty());
-}
-
-TEST_F(WifiChipV1_AwareIfaceCombinationTest, RttControllerFlowStaModeNoSta) {
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    ASSERT_TRUE(createRttController());
-}
-
-TEST_F(WifiChipV1_AwareIfaceCombinationTest, RttControllerFlowStaModeWithSta) {
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    ASSERT_FALSE(createIface(IfaceType::STA).empty());
-    ASSERT_TRUE(createRttController());
-}
-
-TEST_F(WifiChipV1_AwareIfaceCombinationTest, RttControllerFlowApToSta) {
-    findModeAndConfigureForIfaceType(IfaceType::AP);
-    const auto ap_iface_name = createIface(IfaceType::AP);
-    ASSERT_FALSE(ap_iface_name.empty());
-    ASSERT_FALSE(createRttController());
-
-    removeIface(IfaceType::AP, ap_iface_name);
-
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    ASSERT_TRUE(createRttController());
-}
-
-TEST_F(WifiChipV1_AwareIfaceCombinationTest, SelectTxScenarioWithOnlySta) {
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    ASSERT_EQ(createIface(IfaceType::STA), "wlan0");
-    EXPECT_CALL(*legacy_hal_, selectTxPowerScenario("wlan0", testing::_))
-        .WillOnce(testing::Return(legacy_hal::WIFI_SUCCESS));
-    chip_->selectTxPowerScenario_1_2(
-        V1_2::IWifiChip::TxPowerScenario::ON_HEAD_CELL_OFF,
-        [](const WifiStatus& status) {
-            ASSERT_EQ(WifiStatusCode::SUCCESS, status.code);
-        });
-}
-
-TEST_F(WifiChipV1_AwareIfaceCombinationTest, SelectTxScenarioWithOnlyAp) {
-    findModeAndConfigureForIfaceType(IfaceType::AP);
-    ASSERT_EQ(createIface(IfaceType::AP), "wlan0");
-    EXPECT_CALL(*legacy_hal_, selectTxPowerScenario("wlan0", testing::_))
-        .WillOnce(testing::Return(legacy_hal::WIFI_SUCCESS));
-    chip_->selectTxPowerScenario_1_2(
-        V1_2::IWifiChip::TxPowerScenario::ON_HEAD_CELL_OFF,
-        [](const WifiStatus& status) {
-            ASSERT_EQ(WifiStatusCode::SUCCESS, status.code);
-        });
-}
-
-////////// V2 + Aware Iface Combinations ////////////
-// Mode 1 - STA + STA/AP
-//        - STA + P2P/NAN
-class WifiChipV2_AwareIfaceCombinationTest : public WifiChipTest {
-   public:
-    void SetUp() override {
-        setupV2_AwareIfaceCombination();
-        WifiChipTest::SetUp();
-        // V2_Aware has 1 mode of operation.
-        assertNumberOfModes(1u);
-    }
-};
-
-TEST_F(WifiChipV2_AwareIfaceCombinationTest, CreateSta_ShouldSucceed) {
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    ASSERT_EQ(createIface(IfaceType::STA), "wlan0");
-}
-
-TEST_F(WifiChipV2_AwareIfaceCombinationTest, CreateP2p_ShouldSucceed) {
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    ASSERT_FALSE(createIface(IfaceType::P2P).empty());
-}
-
-TEST_F(WifiChipV2_AwareIfaceCombinationTest, CreateNan_ShouldSucceed) {
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    ASSERT_FALSE(createIface(IfaceType::NAN).empty());
-}
-
-TEST_F(WifiChipV2_AwareIfaceCombinationTest, CreateAp_ShouldSucceed) {
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    ASSERT_EQ(createIface(IfaceType::AP), "wlan1");
-}
-
-TEST_F(WifiChipV2_AwareIfaceCombinationTest, CreateStaSta_ShouldFail) {
-    findModeAndConfigureForIfaceType(IfaceType::AP);
-    ASSERT_EQ(createIface(IfaceType::STA), "wlan0");
-    ASSERT_TRUE(createIface(IfaceType::STA).empty());
-}
-
-TEST_F(WifiChipV2_AwareIfaceCombinationTest, CreateStaAp_ShouldSucceed) {
-    findModeAndConfigureForIfaceType(IfaceType::AP);
-    ASSERT_EQ(createIface(IfaceType::STA), "wlan0");
-    ASSERT_EQ(createIface(IfaceType::AP), "wlan1");
-}
-
-TEST_F(WifiChipV2_AwareIfaceCombinationTest, CreateApSta_ShouldSucceed) {
-    findModeAndConfigureForIfaceType(IfaceType::AP);
-    ASSERT_EQ(createIface(IfaceType::AP), "wlan1");
-    ASSERT_EQ(createIface(IfaceType::STA), "wlan0");
-}
-
-TEST_F(WifiChipV2_AwareIfaceCombinationTest,
-       CreateSta_AfterStaApRemove_ShouldSucceed) {
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    const auto sta_iface_name = createIface(IfaceType::STA);
-    ASSERT_FALSE(sta_iface_name.empty());
-    const auto ap_iface_name = createIface(IfaceType::AP);
-    ASSERT_FALSE(ap_iface_name.empty());
-
-    ASSERT_TRUE(createIface(IfaceType::STA).empty());
-
-    // After removing AP & STA iface, STA iface creation should succeed.
-    removeIface(IfaceType::STA, sta_iface_name);
-    removeIface(IfaceType::AP, ap_iface_name);
-    ASSERT_FALSE(createIface(IfaceType::STA).empty());
-}
-
-TEST_F(WifiChipV2_AwareIfaceCombinationTest, CreateStaP2p_ShouldSucceed) {
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    ASSERT_FALSE(createIface(IfaceType::STA).empty());
-    ASSERT_FALSE(createIface(IfaceType::P2P).empty());
-}
-
-TEST_F(WifiChipV2_AwareIfaceCombinationTest, CreateStaNan_ShouldSucceed) {
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    ASSERT_FALSE(createIface(IfaceType::STA).empty());
-    ASSERT_FALSE(createIface(IfaceType::NAN).empty());
-}
-
-TEST_F(WifiChipV2_AwareIfaceCombinationTest, CreateStaP2PNan_ShouldFail) {
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    ASSERT_FALSE(createIface(IfaceType::STA).empty());
-    ASSERT_FALSE(createIface(IfaceType::P2P).empty());
-    ASSERT_TRUE(createIface(IfaceType::NAN).empty());
-}
-
-TEST_F(WifiChipV2_AwareIfaceCombinationTest,
-       CreateStaNan_AfterP2pRemove_ShouldSucceed) {
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    ASSERT_FALSE(createIface(IfaceType::STA).empty());
-    const auto p2p_iface_name = createIface(IfaceType::P2P);
-    ASSERT_FALSE(p2p_iface_name.empty());
-    ASSERT_TRUE(createIface(IfaceType::NAN).empty());
-
-    // After removing P2P iface, NAN iface creation should succeed.
-    removeIface(IfaceType::P2P, p2p_iface_name);
-    ASSERT_FALSE(createIface(IfaceType::NAN).empty());
-}
-
-TEST_F(WifiChipV2_AwareIfaceCombinationTest,
-       CreateStaP2p_AfterNanRemove_ShouldSucceed) {
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    ASSERT_FALSE(createIface(IfaceType::STA).empty());
-    const auto nan_iface_name = createIface(IfaceType::NAN);
-    ASSERT_FALSE(nan_iface_name.empty());
-    ASSERT_TRUE(createIface(IfaceType::P2P).empty());
-
-    // After removing NAN iface, P2P iface creation should succeed.
-    removeIface(IfaceType::NAN, nan_iface_name);
-    ASSERT_FALSE(createIface(IfaceType::P2P).empty());
-}
-
-TEST_F(WifiChipV2_AwareIfaceCombinationTest, CreateApNan_ShouldFail) {
-    findModeAndConfigureForIfaceType(IfaceType::AP);
-    ASSERT_FALSE(createIface(IfaceType::AP).empty());
-    ASSERT_TRUE(createIface(IfaceType::NAN).empty());
-}
-
-TEST_F(WifiChipV2_AwareIfaceCombinationTest, CreateApP2p_ShouldFail) {
-    findModeAndConfigureForIfaceType(IfaceType::AP);
-    ASSERT_FALSE(createIface(IfaceType::AP).empty());
-    ASSERT_TRUE(createIface(IfaceType::P2P).empty());
-}
-
-TEST_F(WifiChipV2_AwareIfaceCombinationTest,
-       StaMode_CreateStaNan_AfterP2pRemove_ShouldSucceed) {
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    ASSERT_FALSE(createIface(IfaceType::STA).empty());
-    const auto p2p_iface_name = createIface(IfaceType::P2P);
-    ASSERT_FALSE(p2p_iface_name.empty());
-    ASSERT_TRUE(createIface(IfaceType::NAN).empty());
-
-    // After removing P2P iface, NAN iface creation should succeed.
-    removeIface(IfaceType::P2P, p2p_iface_name);
-    ASSERT_FALSE(createIface(IfaceType::NAN).empty());
-}
-
-TEST_F(WifiChipV2_AwareIfaceCombinationTest,
-       StaMode_CreateStaP2p_AfterNanRemove_ShouldSucceed) {
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    ASSERT_FALSE(createIface(IfaceType::STA).empty());
-    const auto nan_iface_name = createIface(IfaceType::NAN);
-    ASSERT_FALSE(nan_iface_name.empty());
-    ASSERT_TRUE(createIface(IfaceType::P2P).empty());
-
-    // After removing NAN iface, P2P iface creation should succeed.
-    removeIface(IfaceType::NAN, nan_iface_name);
-    ASSERT_FALSE(createIface(IfaceType::P2P).empty());
-}
-
-TEST_F(WifiChipV2_AwareIfaceCombinationTest,
-       CreateStaAp_EnsureDifferentIfaceNames) {
-    findModeAndConfigureForIfaceType(IfaceType::AP);
-    const auto sta_iface_name = createIface(IfaceType::STA);
-    const auto ap_iface_name = createIface(IfaceType::AP);
-    ASSERT_FALSE(sta_iface_name.empty());
-    ASSERT_FALSE(ap_iface_name.empty());
-    ASSERT_NE(sta_iface_name, ap_iface_name);
-}
-
-TEST_F(WifiChipV2_AwareIfaceCombinationTest, RttControllerFlowStaModeNoSta) {
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    ASSERT_TRUE(createRttController());
-}
-
-TEST_F(WifiChipV2_AwareIfaceCombinationTest, RttControllerFlowStaModeWithSta) {
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    ASSERT_FALSE(createIface(IfaceType::STA).empty());
-    ASSERT_TRUE(createRttController());
-}
-
-TEST_F(WifiChipV2_AwareIfaceCombinationTest, RttControllerFlow) {
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    ASSERT_FALSE(createIface(IfaceType::STA).empty());
-    ASSERT_FALSE(createIface(IfaceType::AP).empty());
-    ASSERT_TRUE(createRttController());
-}
-
-TEST_F(WifiChipV2_AwareIfaceCombinationTest, SelectTxScenarioWithOnlySta) {
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    ASSERT_EQ(createIface(IfaceType::STA), "wlan0");
-    EXPECT_CALL(*legacy_hal_, selectTxPowerScenario("wlan0", testing::_))
-        .WillOnce(testing::Return(legacy_hal::WIFI_SUCCESS));
-    chip_->selectTxPowerScenario_1_2(
-        V1_2::IWifiChip::TxPowerScenario::ON_HEAD_CELL_OFF,
-        [](const WifiStatus& status) {
-            ASSERT_EQ(WifiStatusCode::SUCCESS, status.code);
-        });
-}
-
-TEST_F(WifiChipV2_AwareIfaceCombinationTest, SelectTxScenarioWithOnlyAp) {
-    findModeAndConfigureForIfaceType(IfaceType::AP);
-    ASSERT_EQ(createIface(IfaceType::AP), "wlan1");
-    EXPECT_CALL(*legacy_hal_, selectTxPowerScenario("wlan1", testing::_))
-        .WillOnce(testing::Return(legacy_hal::WIFI_SUCCESS));
-    chip_->selectTxPowerScenario_1_2(
-        V1_2::IWifiChip::TxPowerScenario::ON_HEAD_CELL_OFF,
-        [](const WifiStatus& status) {
-            ASSERT_EQ(WifiStatusCode::SUCCESS, status.code);
-        });
-}
-
-TEST_F(WifiChipV2_AwareIfaceCombinationTest,
-       InvalidateAndRemoveNanOnStaRemove) {
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    ASSERT_EQ(createIface(IfaceType::STA), "wlan0");
-
-    // Create NAN iface
-    ASSERT_EQ(createIface(IfaceType::NAN), "wlan0");
-
-    // We should have 1 nan iface.
-    chip_->getNanIfaceNames(
-        [](const WifiStatus& status, const hidl_vec<hidl_string>& iface_names) {
-            ASSERT_EQ(WifiStatusCode::SUCCESS, status.code);
-            ASSERT_EQ(iface_names.size(), 1u);
-            ASSERT_EQ(iface_names[0], "wlan0");
-        });
-    // Retrieve the exact iface object.
-    sp<android::hardware::wifi::V1_0::IWifiNanIface> nan_iface;
-    chip_->getNanIface(
-        "wlan0",
-        [&nan_iface](
-            const WifiStatus& status,
-            const sp<android::hardware::wifi::V1_0::IWifiNanIface>& iface) {
-            ASSERT_EQ(WifiStatusCode::SUCCESS, status.code);
-            ASSERT_NE(iface.get(), nullptr);
-            nan_iface = iface;
-        });
-
-    // Remove the STA iface.
-    removeIface(IfaceType::STA, "wlan0");
-    // We should have 0 nan iface now.
-    chip_->getNanIfaceNames(
-        [](const WifiStatus& status, const hidl_vec<hidl_string>& iface_names) {
-            ASSERT_EQ(WifiStatusCode::SUCCESS, status.code);
-            ASSERT_EQ(iface_names.size(), 0u);
-        });
-    // Any operation on the nan iface object should return error now.
-    nan_iface->getName(
-        [](const WifiStatus& status, const std::string& /* iface_name */) {
-            ASSERT_EQ(WifiStatusCode::ERROR_WIFI_IFACE_INVALID, status.code);
-        });
-}
-
-TEST_F(WifiChipV2_AwareIfaceCombinationTest,
-       InvalidateAndRemoveRttControllerOnStaRemove) {
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    ASSERT_EQ(createIface(IfaceType::STA), "wlan0");
-
-    // Create RTT controller
-    sp<IWifiRttController> rtt_controller;
-    chip_->createRttController_1_4(
-        NULL, [&rtt_controller](const WifiStatus& status,
-                                const sp<IWifiRttController>& rtt) {
-            if (WifiStatusCode::SUCCESS == status.code) {
-                ASSERT_NE(rtt.get(), nullptr);
-                rtt_controller = rtt;
-            }
-        });
-
-    // Remove the STA iface.
-    removeIface(IfaceType::STA, "wlan0");
-
-    // Any operation on the rtt controller object should return error now.
-    rtt_controller->getBoundIface(
-        [](const WifiStatus& status, const sp<IWifiIface>& /* iface */) {
-            ASSERT_EQ(WifiStatusCode::ERROR_WIFI_RTT_CONTROLLER_INVALID,
-                      status.code);
-        });
-}
-
-TEST_F(WifiChipV2_AwareIfaceCombinationTest, CreateNanWithSharedNanIface) {
-    property_set("wifi.aware.interface", nullptr);
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    ASSERT_EQ(createIface(IfaceType::STA), "wlan0");
-    ASSERT_EQ(createIface(IfaceType::NAN), "wlan0");
-    removeIface(IfaceType::NAN, "wlan0");
-    EXPECT_CALL(*iface_util_, setUpState(testing::_, testing::_)).Times(0);
-}
-
-TEST_F(WifiChipV2_AwareIfaceCombinationTest, CreateNanWithDedicatedNanIface) {
-    property_set("wifi.aware.interface", "aware0");
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    ASSERT_EQ(createIface(IfaceType::STA), "wlan0");
-    EXPECT_CALL(*iface_util_, ifNameToIndex("aware0"))
-        .WillOnce(testing::Return(4));
-    EXPECT_CALL(*iface_util_, setUpState("aware0", true))
-        .WillOnce(testing::Return(true));
-    ASSERT_EQ(createIface(IfaceType::NAN), "aware0");
-
-    EXPECT_CALL(*iface_util_, setUpState("aware0", false))
-        .WillOnce(testing::Return(true));
-    removeIface(IfaceType::NAN, "aware0");
-}
-
-////////// V1 Iface Combinations when AP creation is disabled //////////
-class WifiChipV1_AwareDisabledApIfaceCombinationTest : public WifiChipTest {
-   public:
-    void SetUp() override {
-        setupV1_AwareDisabledApIfaceCombination();
-        WifiChipTest::SetUp();
-    }
-};
-
-TEST_F(WifiChipV1_AwareDisabledApIfaceCombinationTest,
-       StaMode_CreateSta_ShouldSucceed) {
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    ASSERT_FALSE(createIface(IfaceType::STA).empty());
-    ASSERT_TRUE(createIface(IfaceType::AP).empty());
-}
-
-////////// V2 Iface Combinations when AP creation is disabled //////////
-class WifiChipV2_AwareDisabledApIfaceCombinationTest : public WifiChipTest {
-   public:
-    void SetUp() override {
-        setupV2_AwareDisabledApIfaceCombination();
-        WifiChipTest::SetUp();
-    }
-};
-
-TEST_F(WifiChipV2_AwareDisabledApIfaceCombinationTest,
-       CreateSta_ShouldSucceed) {
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    ASSERT_FALSE(createIface(IfaceType::STA).empty());
-    ASSERT_TRUE(createIface(IfaceType::AP).empty());
-}
-
-////////// Hypothetical Iface Combination with multiple ifaces //////////
-class WifiChip_MultiIfaceTest : public WifiChipTest {
-   public:
-    void SetUp() override {
-        setup_MultiIfaceCombination();
-        WifiChipTest::SetUp();
-    }
-};
-
-TEST_F(WifiChip_MultiIfaceTest, Create3Sta) {
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    ASSERT_FALSE(createIface(IfaceType::STA).empty());
-    ASSERT_FALSE(createIface(IfaceType::STA).empty());
-    ASSERT_FALSE(createIface(IfaceType::STA).empty());
-    ASSERT_TRUE(createIface(IfaceType::STA).empty());
-}
-
-TEST_F(WifiChip_MultiIfaceTest, CreateStaWithDefaultNames) {
-    property_set("wifi.interface.0", "");
-    property_set("wifi.interface.1", "");
-    property_set("wifi.interface.2", "");
-    property_set("wifi.interface", "");
-    property_set("wifi.concurrent.interface", "");
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    ASSERT_EQ(createIface(IfaceType::STA), "wlan0");
-    ASSERT_EQ(createIface(IfaceType::STA), "wlan1");
-    ASSERT_EQ(createIface(IfaceType::STA), "wlan2");
-}
-
-TEST_F(WifiChip_MultiIfaceTest, CreateStaWithCustomNames) {
-    property_set("wifi.interface.0", "test0");
-    property_set("wifi.interface.1", "test1");
-    property_set("wifi.interface.2", "test2");
-    property_set("wifi.interface", "bad0");
-    property_set("wifi.concurrent.interface", "bad1");
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    ASSERT_EQ(createIface(IfaceType::STA), "bad0");
-    ASSERT_EQ(createIface(IfaceType::STA), "bad1");
-    ASSERT_EQ(createIface(IfaceType::STA), "test2");
-}
-
-TEST_F(WifiChip_MultiIfaceTest, CreateStaWithCustomAltNames) {
-    property_set("wifi.interface.0", "");
-    property_set("wifi.interface.1", "");
-    property_set("wifi.interface.2", "");
-    property_set("wifi.interface", "testA0");
-    property_set("wifi.concurrent.interface", "testA1");
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    ASSERT_EQ(createIface(IfaceType::STA), "testA0");
-    ASSERT_EQ(createIface(IfaceType::STA), "testA1");
-    ASSERT_EQ(createIface(IfaceType::STA), "wlan2");
-}
-
-TEST_F(WifiChip_MultiIfaceTest, CreateApStartsWithIdx1) {
-    findModeAndConfigureForIfaceType(IfaceType::STA);
-    // First AP will be slotted to wlan1.
-    ASSERT_EQ(createIface(IfaceType::AP), "wlan1");
-    // First STA will be slotted to wlan0.
-    ASSERT_EQ(createIface(IfaceType::STA), "wlan0");
-    // All further STA will be slotted to the remaining free indices.
-    ASSERT_EQ(createIface(IfaceType::STA), "wlan2");
-    ASSERT_EQ(createIface(IfaceType::STA), "wlan3");
-}
-}  // namespace implementation
-}  // namespace V1_5
-}  // namespace wifi
-}  // namespace hardware
-}  // namespace android