Skip HIDL v1.6 RTT responder VTS tests if the am: 9c7ff0f4e0 am: 5bcbb62667 (4271b902) · Commits · e / os / android_hardware_interfaces

wifi/1.6/vts/functional/wifi_rtt_controller_hidl_test.cpp

+26 −14

Original line number	Diff line number	Diff line
		@@ -78,6 +78,13 @@ class WifiRttControllerHidlTest : public ::testing::TestWithParam<std::string> {

		virtual void TearDown() override { stopWifi(GetInstanceName()); }

		RttCapabilities getRttCapabilities() {
		std::pair<WifiStatus, RttCapabilities> status_and_caps;
		status_and_caps = HIDL_INVOKE(wifi_rtt_controller_, getCapabilities_1_6);
		EXPECT_EQ(WifiStatusCode::SUCCESS, status_and_caps.first.code);
		return status_and_caps.second;
		}

		// A simple test implementation of WifiRttControllerEventCallback.
		class WifiRttControllerEventCallback
		: public ::testing::VtsHalHidlTargetCallbackBase<WifiRttControllerHidlTest>,
		@@ -151,12 +158,9 @@ TEST_P(WifiRttControllerHidlTest, RegisterEventCallback_1_6) {
		* This test case tests the two sided ranging - 802.11mc FTM protocol.
		*/
		TEST_P(WifiRttControllerHidlTest, Request2SidedRangeMeasurement) {
		std::pair<WifiStatus, RttCapabilities> status_and_caps;

		// Get the Capabilities
		status_and_caps = HIDL_INVOKE(wifi_rtt_controller_, getCapabilities_1_6);
		EXPECT_EQ(WifiStatusCode::SUCCESS, status_and_caps.first.code);
		if (!status_and_caps.second.rttFtmSupported) {
		RttCapabilities capabilities = getRttCapabilities();
		if (!capabilities.rttFtmSupported) {
		GTEST_SKIP() << "Skipping two sided RTT since driver/fw doesn't support";
		}
		std::vector<RttConfig> configs;
		@@ -196,19 +200,16 @@ TEST_P(WifiRttControllerHidlTest, Request2SidedRangeMeasurement) {
		* rangeRequest_1_6
		*/
		TEST_P(WifiRttControllerHidlTest, RangeRequest_1_6) {
		std::pair<WifiStatus, RttCapabilities> status_and_caps;

		// Get the Capabilities
		status_and_caps = HIDL_INVOKE(wifi_rtt_controller_, getCapabilities_1_6);
		EXPECT_EQ(WifiStatusCode::SUCCESS, status_and_caps.first.code);
		if (!status_and_caps.second.rttOneSidedSupported) {
		RttCapabilities capabilities = getRttCapabilities();
		if (!capabilities.rttOneSidedSupported) {
		GTEST_SKIP() << "Skipping one sided RTT since driver/fw doesn't support";
		}
		// Get the highest support preamble
		int preamble = 1;
		status_and_caps.second.preambleSupport >>= 1;
		while (status_and_caps.second.preambleSupport != 0) {
		status_and_caps.second.preambleSupport >>= 1;
		capabilities.preambleSupport >>= 1;
		while (capabilities.preambleSupport != 0) {
		capabilities.preambleSupport >>= 1;
		preamble <<= 1;
		}
		std::vector<RttConfig> configs;
		@@ -259,9 +260,14 @@ TEST_P(WifiRttControllerHidlTest, GetCapabilities_1_6) {
		* getResponderInfo_1_6
		*/
		TEST_P(WifiRttControllerHidlTest, GetResponderInfo_1_6) {
		std::pair<WifiStatus, RttResponder> status_and_info;
		// Get the capabilities
		RttCapabilities capabilities = getRttCapabilities();
		if (!capabilities.responderSupported) {
		GTEST_SKIP() << "Skipping because responder is not supported";
		}

		// Invoke the call
		std::pair<WifiStatus, RttResponder> status_and_info;
		status_and_info = HIDL_INVOKE(wifi_rtt_controller_, getResponderInfo_1_6);
		EXPECT_EQ(WifiStatusCode::SUCCESS, status_and_info.first.code);
		}
		@@ -270,6 +276,12 @@ TEST_P(WifiRttControllerHidlTest, GetResponderInfo_1_6) {
		* enableResponder_1_6
		*/
		TEST_P(WifiRttControllerHidlTest, EnableResponder_1_6) {
		// Get the capabilities
		RttCapabilities capabilities = getRttCapabilities();
		if (!capabilities.responderSupported) {
		GTEST_SKIP() << "Skipping because responder is not supported";
		}

		std::pair<WifiStatus, RttResponder> status_and_info;
		int cmdId = 55;
		WifiChannelInfo channelInfo;