Move common tests into SensorsV2_0 VTS only
Since Sensors HAL 2.1 implementations need to run VTS for both HAL 2.0
and 2.1, move tests that don't differ in logic between the two HAL
implementations to the VTS for 2.0 only to minimize the total run time
for both suites.
Bug: 149927057
Test: atest VtsHalSensorsV2_0Target VtsHalSensorsV2_1Target
Change-Id: I5213cdf05bafb2d4014078a03b22d98b96b7c5ee
diff --git a/sensors/2.0/vts/functional/VtsHalSensorsV2_0TargetTest.cpp b/sensors/2.0/vts/functional/VtsHalSensorsV2_0TargetTest.cpp
index 8895350..a0d436f 100644
--- a/sensors/2.0/vts/functional/VtsHalSensorsV2_0TargetTest.cpp
+++ b/sensors/2.0/vts/functional/VtsHalSensorsV2_0TargetTest.cpp
@@ -16,6 +16,261 @@
#include "VtsHalSensorsV2_XTargetTest.h"
+// Test if sensor hal can do UI speed accelerometer streaming properly
+TEST_P(SensorsHidlTest, AccelerometerStreamingOperationSlow) {
+ testStreamingOperation(SensorTypeVersion::ACCELEROMETER, std::chrono::milliseconds(200),
+ std::chrono::seconds(5), mAccelNormChecker);
+}
+
+// Test if sensor hal can do normal speed accelerometer streaming properly
+TEST_P(SensorsHidlTest, AccelerometerStreamingOperationNormal) {
+ testStreamingOperation(SensorTypeVersion::ACCELEROMETER, std::chrono::milliseconds(20),
+ std::chrono::seconds(5), mAccelNormChecker);
+}
+
+// Test if sensor hal can do game speed accelerometer streaming properly
+TEST_P(SensorsHidlTest, AccelerometerStreamingOperationFast) {
+ testStreamingOperation(SensorTypeVersion::ACCELEROMETER, std::chrono::milliseconds(5),
+ std::chrono::seconds(5), mAccelNormChecker);
+}
+
+// Test if sensor hal can do UI speed gyroscope streaming properly
+TEST_P(SensorsHidlTest, GyroscopeStreamingOperationSlow) {
+ testStreamingOperation(SensorTypeVersion::GYROSCOPE, std::chrono::milliseconds(200),
+ std::chrono::seconds(5), mGyroNormChecker);
+}
+
+// Test if sensor hal can do normal speed gyroscope streaming properly
+TEST_P(SensorsHidlTest, GyroscopeStreamingOperationNormal) {
+ testStreamingOperation(SensorTypeVersion::GYROSCOPE, std::chrono::milliseconds(20),
+ std::chrono::seconds(5), mGyroNormChecker);
+}
+
+// Test if sensor hal can do game speed gyroscope streaming properly
+TEST_P(SensorsHidlTest, GyroscopeStreamingOperationFast) {
+ testStreamingOperation(SensorTypeVersion::GYROSCOPE, std::chrono::milliseconds(5),
+ std::chrono::seconds(5), mGyroNormChecker);
+}
+
+// Test if sensor hal can do UI speed magnetometer streaming properly
+TEST_P(SensorsHidlTest, MagnetometerStreamingOperationSlow) {
+ testStreamingOperation(SensorTypeVersion::MAGNETIC_FIELD, std::chrono::milliseconds(200),
+ std::chrono::seconds(5), NullChecker<EventType>());
+}
+
+// Test if sensor hal can do normal speed magnetometer streaming properly
+TEST_P(SensorsHidlTest, MagnetometerStreamingOperationNormal) {
+ testStreamingOperation(SensorTypeVersion::MAGNETIC_FIELD, std::chrono::milliseconds(20),
+ std::chrono::seconds(5), NullChecker<EventType>());
+}
+
+// Test if sensor hal can do game speed magnetometer streaming properly
+TEST_P(SensorsHidlTest, MagnetometerStreamingOperationFast) {
+ testStreamingOperation(SensorTypeVersion::MAGNETIC_FIELD, std::chrono::milliseconds(5),
+ std::chrono::seconds(5), NullChecker<EventType>());
+}
+
+// Test if sensor hal can do accelerometer sampling rate switch properly when sensor is active
+TEST_P(SensorsHidlTest, AccelerometerSamplingPeriodHotSwitchOperation) {
+ testSamplingRateHotSwitchOperation(SensorTypeVersion::ACCELEROMETER);
+ testSamplingRateHotSwitchOperation(SensorTypeVersion::ACCELEROMETER, false /*fastToSlow*/);
+}
+
+// Test if sensor hal can do gyroscope sampling rate switch properly when sensor is active
+TEST_P(SensorsHidlTest, GyroscopeSamplingPeriodHotSwitchOperation) {
+ testSamplingRateHotSwitchOperation(SensorTypeVersion::GYROSCOPE);
+ testSamplingRateHotSwitchOperation(SensorTypeVersion::GYROSCOPE, false /*fastToSlow*/);
+}
+
+// Test if sensor hal can do magnetometer sampling rate switch properly when sensor is active
+TEST_P(SensorsHidlTest, MagnetometerSamplingPeriodHotSwitchOperation) {
+ testSamplingRateHotSwitchOperation(SensorTypeVersion::MAGNETIC_FIELD);
+ testSamplingRateHotSwitchOperation(SensorTypeVersion::MAGNETIC_FIELD, false /*fastToSlow*/);
+}
+
+// Test if sensor hal can do accelerometer batching properly
+TEST_P(SensorsHidlTest, AccelerometerBatchingOperation) {
+ testBatchingOperation(SensorTypeVersion::ACCELEROMETER);
+}
+
+// Test if sensor hal can do gyroscope batching properly
+TEST_P(SensorsHidlTest, GyroscopeBatchingOperation) {
+ testBatchingOperation(SensorTypeVersion::GYROSCOPE);
+}
+
+// Test if sensor hal can do magnetometer batching properly
+TEST_P(SensorsHidlTest, MagnetometerBatchingOperation) {
+ testBatchingOperation(SensorTypeVersion::MAGNETIC_FIELD);
+}
+
+// Test sensor event direct report with ashmem for accel sensor at normal rate
+TEST_P(SensorsHidlTest, AccelerometerAshmemDirectReportOperationNormal) {
+ testDirectReportOperation(SensorTypeVersion::ACCELEROMETER, SharedMemType::ASHMEM,
+ RateLevel::NORMAL, mAccelNormChecker);
+}
+
+// Test sensor event direct report with ashmem for accel sensor at fast rate
+TEST_P(SensorsHidlTest, AccelerometerAshmemDirectReportOperationFast) {
+ testDirectReportOperation(SensorTypeVersion::ACCELEROMETER, SharedMemType::ASHMEM,
+ RateLevel::FAST, mAccelNormChecker);
+}
+
+// Test sensor event direct report with ashmem for accel sensor at very fast rate
+TEST_P(SensorsHidlTest, AccelerometerAshmemDirectReportOperationVeryFast) {
+ testDirectReportOperation(SensorTypeVersion::ACCELEROMETER, SharedMemType::ASHMEM,
+ RateLevel::VERY_FAST, mAccelNormChecker);
+}
+
+// Test sensor event direct report with ashmem for gyro sensor at normal rate
+TEST_P(SensorsHidlTest, GyroscopeAshmemDirectReportOperationNormal) {
+ testDirectReportOperation(SensorTypeVersion::GYROSCOPE, SharedMemType::ASHMEM,
+ RateLevel::NORMAL, mGyroNormChecker);
+}
+
+// Test sensor event direct report with ashmem for gyro sensor at fast rate
+TEST_P(SensorsHidlTest, GyroscopeAshmemDirectReportOperationFast) {
+ testDirectReportOperation(SensorTypeVersion::GYROSCOPE, SharedMemType::ASHMEM, RateLevel::FAST,
+ mGyroNormChecker);
+}
+
+// Test sensor event direct report with ashmem for gyro sensor at very fast rate
+TEST_P(SensorsHidlTest, GyroscopeAshmemDirectReportOperationVeryFast) {
+ testDirectReportOperation(SensorTypeVersion::GYROSCOPE, SharedMemType::ASHMEM,
+ RateLevel::VERY_FAST, mGyroNormChecker);
+}
+
+// Test sensor event direct report with ashmem for mag sensor at normal rate
+TEST_P(SensorsHidlTest, MagnetometerAshmemDirectReportOperationNormal) {
+ testDirectReportOperation(SensorTypeVersion::MAGNETIC_FIELD, SharedMemType::ASHMEM,
+ RateLevel::NORMAL, NullChecker<EventType>());
+}
+
+// Test sensor event direct report with ashmem for mag sensor at fast rate
+TEST_P(SensorsHidlTest, MagnetometerAshmemDirectReportOperationFast) {
+ testDirectReportOperation(SensorTypeVersion::MAGNETIC_FIELD, SharedMemType::ASHMEM,
+ RateLevel::FAST, NullChecker<EventType>());
+}
+
+// Test sensor event direct report with ashmem for mag sensor at very fast rate
+TEST_P(SensorsHidlTest, MagnetometerAshmemDirectReportOperationVeryFast) {
+ testDirectReportOperation(SensorTypeVersion::MAGNETIC_FIELD, SharedMemType::ASHMEM,
+ RateLevel::VERY_FAST, NullChecker<EventType>());
+}
+
+// Test sensor event direct report with gralloc for accel sensor at normal rate
+TEST_P(SensorsHidlTest, AccelerometerGrallocDirectReportOperationNormal) {
+ testDirectReportOperation(SensorTypeVersion::ACCELEROMETER, SharedMemType::GRALLOC,
+ RateLevel::NORMAL, mAccelNormChecker);
+}
+
+// Test sensor event direct report with gralloc for accel sensor at fast rate
+TEST_P(SensorsHidlTest, AccelerometerGrallocDirectReportOperationFast) {
+ testDirectReportOperation(SensorTypeVersion::ACCELEROMETER, SharedMemType::GRALLOC,
+ RateLevel::FAST, mAccelNormChecker);
+}
+
+// Test sensor event direct report with gralloc for accel sensor at very fast rate
+TEST_P(SensorsHidlTest, AccelerometerGrallocDirectReportOperationVeryFast) {
+ testDirectReportOperation(SensorTypeVersion::ACCELEROMETER, SharedMemType::GRALLOC,
+ RateLevel::VERY_FAST, mAccelNormChecker);
+}
+
+// Test sensor event direct report with gralloc for gyro sensor at normal rate
+TEST_P(SensorsHidlTest, GyroscopeGrallocDirectReportOperationNormal) {
+ testDirectReportOperation(SensorTypeVersion::GYROSCOPE, SharedMemType::GRALLOC,
+ RateLevel::NORMAL, mGyroNormChecker);
+}
+
+// Test sensor event direct report with gralloc for gyro sensor at fast rate
+TEST_P(SensorsHidlTest, GyroscopeGrallocDirectReportOperationFast) {
+ testDirectReportOperation(SensorTypeVersion::GYROSCOPE, SharedMemType::GRALLOC, RateLevel::FAST,
+ mGyroNormChecker);
+}
+
+// Test sensor event direct report with gralloc for gyro sensor at very fast rate
+TEST_P(SensorsHidlTest, GyroscopeGrallocDirectReportOperationVeryFast) {
+ testDirectReportOperation(SensorTypeVersion::GYROSCOPE, SharedMemType::GRALLOC,
+ RateLevel::VERY_FAST, mGyroNormChecker);
+}
+
+// Test sensor event direct report with gralloc for mag sensor at normal rate
+TEST_P(SensorsHidlTest, MagnetometerGrallocDirectReportOperationNormal) {
+ testDirectReportOperation(SensorTypeVersion::MAGNETIC_FIELD, SharedMemType::GRALLOC,
+ RateLevel::NORMAL, NullChecker<EventType>());
+}
+
+// Test sensor event direct report with gralloc for mag sensor at fast rate
+TEST_P(SensorsHidlTest, MagnetometerGrallocDirectReportOperationFast) {
+ testDirectReportOperation(SensorTypeVersion::MAGNETIC_FIELD, SharedMemType::GRALLOC,
+ RateLevel::FAST, NullChecker<EventType>());
+}
+
+// Test sensor event direct report with gralloc for mag sensor at very fast rate
+TEST_P(SensorsHidlTest, MagnetometerGrallocDirectReportOperationVeryFast) {
+ testDirectReportOperation(SensorTypeVersion::MAGNETIC_FIELD, SharedMemType::GRALLOC,
+ RateLevel::VERY_FAST, NullChecker<EventType>());
+}
+
+TEST_P(SensorsHidlTest, ConfigureDirectChannelWithInvalidHandle) {
+ SensorInfoType sensor;
+ SharedMemType memType;
+ RateLevel rate;
+ if (!getDirectChannelSensor(&sensor, &memType, &rate)) {
+ return;
+ }
+
+ // Verify that an invalid channel handle produces a BAD_VALUE result
+ configDirectReport(sensor.sensorHandle, -1, rate, [](Result result, int32_t /* reportToken */) {
+ ASSERT_EQ(result, Result::BAD_VALUE);
+ });
+}
+
+TEST_P(SensorsHidlTest, CleanupDirectConnectionOnInitialize) {
+ constexpr size_t kNumEvents = 1;
+ constexpr size_t kMemSize = kNumEvents * kEventSize;
+
+ SensorInfoType sensor;
+ SharedMemType memType;
+ RateLevel rate;
+
+ if (!getDirectChannelSensor(&sensor, &memType, &rate)) {
+ return;
+ }
+
+ std::shared_ptr<SensorsTestSharedMemory<SensorTypeVersion, EventType>> mem(
+ SensorsTestSharedMemory<SensorTypeVersion, EventType>::create(memType, kMemSize));
+ ASSERT_NE(mem, nullptr);
+
+ int32_t directChannelHandle = 0;
+ registerDirectChannel(mem->getSharedMemInfo(), [&](Result result, int32_t channelHandle) {
+ ASSERT_EQ(result, Result::OK);
+ directChannelHandle = channelHandle;
+ });
+
+ // Configure the channel and expect success
+ configDirectReport(
+ sensor.sensorHandle, directChannelHandle, rate,
+ [](Result result, int32_t /* reportToken */) { ASSERT_EQ(result, Result::OK); });
+
+ // Call initialize() via the environment setup to cause the HAL to re-initialize
+ // Clear the active direct connections so they are not stopped during TearDown
+ auto handles = mDirectChannelHandles;
+ mDirectChannelHandles.clear();
+ getEnvironment()->HidlTearDown();
+ getEnvironment()->HidlSetUp();
+ if (HasFatalFailure()) {
+ return; // Exit early if resetting the environment failed
+ }
+
+ // Attempt to configure the direct channel and expect it to fail
+ configDirectReport(
+ sensor.sensorHandle, directChannelHandle, rate,
+ [](Result result, int32_t /* reportToken */) { ASSERT_EQ(result, Result::BAD_VALUE); });
+
+ // Restore original handles, though they should already be deactivated
+ mDirectChannelHandles = handles;
+}
+
TEST_P(SensorsHidlTest, SensorListDoesntContainInvalidType) {
getSensors()->getSensorsList([&](const auto& list) {
const size_t count = list.size();
@@ -26,6 +281,21 @@
});
}
+TEST_P(SensorsHidlTest, FlushNonexistentSensor) {
+ SensorInfoType sensor;
+ std::vector<SensorInfoType> sensors = getNonOneShotSensors();
+ if (sensors.size() == 0) {
+ sensors = getOneShotSensors();
+ if (sensors.size() == 0) {
+ return;
+ }
+ }
+ sensor = sensors.front();
+ sensor.sensorHandle = getInvalidSensorHandle();
+ runSingleFlushTest(std::vector<SensorInfoType>{sensor}, false /* activateSensor */,
+ 0 /* expectedFlushCount */, Result::BAD_VALUE);
+}
+
INSTANTIATE_TEST_SUITE_P(PerInstance, SensorsHidlTest,
testing::ValuesIn(android::hardware::getAllHalInstanceNames(
android::hardware::sensors::V2_0::ISensors::descriptor)),
diff --git a/sensors/common/vts/2_X/VtsHalSensorsV2_XTargetTest.h b/sensors/common/vts/2_X/VtsHalSensorsV2_XTargetTest.h
index 53ed259..745ab2d 100644
--- a/sensors/common/vts/2_X/VtsHalSensorsV2_XTargetTest.h
+++ b/sensors/common/vts/2_X/VtsHalSensorsV2_XTargetTest.h
@@ -469,201 +469,6 @@
ASSERT_EQ(Result::OK, getSensors()->setOperationMode(OperationMode::NORMAL));
}
-// Test if sensor hal can do UI speed accelerometer streaming properly
-TEST_P(SensorsHidlTest, AccelerometerStreamingOperationSlow) {
- testStreamingOperation(SensorTypeVersion::ACCELEROMETER, std::chrono::milliseconds(200),
- std::chrono::seconds(5), mAccelNormChecker);
-}
-
-// Test if sensor hal can do normal speed accelerometer streaming properly
-TEST_P(SensorsHidlTest, AccelerometerStreamingOperationNormal) {
- testStreamingOperation(SensorTypeVersion::ACCELEROMETER, std::chrono::milliseconds(20),
- std::chrono::seconds(5), mAccelNormChecker);
-}
-
-// Test if sensor hal can do game speed accelerometer streaming properly
-TEST_P(SensorsHidlTest, AccelerometerStreamingOperationFast) {
- testStreamingOperation(SensorTypeVersion::ACCELEROMETER, std::chrono::milliseconds(5),
- std::chrono::seconds(5), mAccelNormChecker);
-}
-
-// Test if sensor hal can do UI speed gyroscope streaming properly
-TEST_P(SensorsHidlTest, GyroscopeStreamingOperationSlow) {
- testStreamingOperation(SensorTypeVersion::GYROSCOPE, std::chrono::milliseconds(200),
- std::chrono::seconds(5), mGyroNormChecker);
-}
-
-// Test if sensor hal can do normal speed gyroscope streaming properly
-TEST_P(SensorsHidlTest, GyroscopeStreamingOperationNormal) {
- testStreamingOperation(SensorTypeVersion::GYROSCOPE, std::chrono::milliseconds(20),
- std::chrono::seconds(5), mGyroNormChecker);
-}
-
-// Test if sensor hal can do game speed gyroscope streaming properly
-TEST_P(SensorsHidlTest, GyroscopeStreamingOperationFast) {
- testStreamingOperation(SensorTypeVersion::GYROSCOPE, std::chrono::milliseconds(5),
- std::chrono::seconds(5), mGyroNormChecker);
-}
-
-// Test if sensor hal can do UI speed magnetometer streaming properly
-TEST_P(SensorsHidlTest, MagnetometerStreamingOperationSlow) {
- testStreamingOperation(SensorTypeVersion::MAGNETIC_FIELD, std::chrono::milliseconds(200),
- std::chrono::seconds(5), NullChecker<EventType>());
-}
-
-// Test if sensor hal can do normal speed magnetometer streaming properly
-TEST_P(SensorsHidlTest, MagnetometerStreamingOperationNormal) {
- testStreamingOperation(SensorTypeVersion::MAGNETIC_FIELD, std::chrono::milliseconds(20),
- std::chrono::seconds(5), NullChecker<EventType>());
-}
-
-// Test if sensor hal can do game speed magnetometer streaming properly
-TEST_P(SensorsHidlTest, MagnetometerStreamingOperationFast) {
- testStreamingOperation(SensorTypeVersion::MAGNETIC_FIELD, std::chrono::milliseconds(5),
- std::chrono::seconds(5), NullChecker<EventType>());
-}
-
-// Test if sensor hal can do accelerometer sampling rate switch properly when sensor is active
-TEST_P(SensorsHidlTest, AccelerometerSamplingPeriodHotSwitchOperation) {
- testSamplingRateHotSwitchOperation(SensorTypeVersion::ACCELEROMETER);
- testSamplingRateHotSwitchOperation(SensorTypeVersion::ACCELEROMETER, false /*fastToSlow*/);
-}
-
-// Test if sensor hal can do gyroscope sampling rate switch properly when sensor is active
-TEST_P(SensorsHidlTest, GyroscopeSamplingPeriodHotSwitchOperation) {
- testSamplingRateHotSwitchOperation(SensorTypeVersion::GYROSCOPE);
- testSamplingRateHotSwitchOperation(SensorTypeVersion::GYROSCOPE, false /*fastToSlow*/);
-}
-
-// Test if sensor hal can do magnetometer sampling rate switch properly when sensor is active
-TEST_P(SensorsHidlTest, MagnetometerSamplingPeriodHotSwitchOperation) {
- testSamplingRateHotSwitchOperation(SensorTypeVersion::MAGNETIC_FIELD);
- testSamplingRateHotSwitchOperation(SensorTypeVersion::MAGNETIC_FIELD, false /*fastToSlow*/);
-}
-
-// Test if sensor hal can do accelerometer batching properly
-TEST_P(SensorsHidlTest, AccelerometerBatchingOperation) {
- testBatchingOperation(SensorTypeVersion::ACCELEROMETER);
-}
-
-// Test if sensor hal can do gyroscope batching properly
-TEST_P(SensorsHidlTest, GyroscopeBatchingOperation) {
- testBatchingOperation(SensorTypeVersion::GYROSCOPE);
-}
-
-// Test if sensor hal can do magnetometer batching properly
-TEST_P(SensorsHidlTest, MagnetometerBatchingOperation) {
- testBatchingOperation(SensorTypeVersion::MAGNETIC_FIELD);
-}
-
-// Test sensor event direct report with ashmem for accel sensor at normal rate
-TEST_P(SensorsHidlTest, AccelerometerAshmemDirectReportOperationNormal) {
- testDirectReportOperation(SensorTypeVersion::ACCELEROMETER, SharedMemType::ASHMEM,
- RateLevel::NORMAL, mAccelNormChecker);
-}
-
-// Test sensor event direct report with ashmem for accel sensor at fast rate
-TEST_P(SensorsHidlTest, AccelerometerAshmemDirectReportOperationFast) {
- testDirectReportOperation(SensorTypeVersion::ACCELEROMETER, SharedMemType::ASHMEM,
- RateLevel::FAST, mAccelNormChecker);
-}
-
-// Test sensor event direct report with ashmem for accel sensor at very fast rate
-TEST_P(SensorsHidlTest, AccelerometerAshmemDirectReportOperationVeryFast) {
- testDirectReportOperation(SensorTypeVersion::ACCELEROMETER, SharedMemType::ASHMEM,
- RateLevel::VERY_FAST, mAccelNormChecker);
-}
-
-// Test sensor event direct report with ashmem for gyro sensor at normal rate
-TEST_P(SensorsHidlTest, GyroscopeAshmemDirectReportOperationNormal) {
- testDirectReportOperation(SensorTypeVersion::GYROSCOPE, SharedMemType::ASHMEM,
- RateLevel::NORMAL, mGyroNormChecker);
-}
-
-// Test sensor event direct report with ashmem for gyro sensor at fast rate
-TEST_P(SensorsHidlTest, GyroscopeAshmemDirectReportOperationFast) {
- testDirectReportOperation(SensorTypeVersion::GYROSCOPE, SharedMemType::ASHMEM, RateLevel::FAST,
- mGyroNormChecker);
-}
-
-// Test sensor event direct report with ashmem for gyro sensor at very fast rate
-TEST_P(SensorsHidlTest, GyroscopeAshmemDirectReportOperationVeryFast) {
- testDirectReportOperation(SensorTypeVersion::GYROSCOPE, SharedMemType::ASHMEM,
- RateLevel::VERY_FAST, mGyroNormChecker);
-}
-
-// Test sensor event direct report with ashmem for mag sensor at normal rate
-TEST_P(SensorsHidlTest, MagnetometerAshmemDirectReportOperationNormal) {
- testDirectReportOperation(SensorTypeVersion::MAGNETIC_FIELD, SharedMemType::ASHMEM,
- RateLevel::NORMAL, NullChecker<EventType>());
-}
-
-// Test sensor event direct report with ashmem for mag sensor at fast rate
-TEST_P(SensorsHidlTest, MagnetometerAshmemDirectReportOperationFast) {
- testDirectReportOperation(SensorTypeVersion::MAGNETIC_FIELD, SharedMemType::ASHMEM,
- RateLevel::FAST, NullChecker<EventType>());
-}
-
-// Test sensor event direct report with ashmem for mag sensor at very fast rate
-TEST_P(SensorsHidlTest, MagnetometerAshmemDirectReportOperationVeryFast) {
- testDirectReportOperation(SensorTypeVersion::MAGNETIC_FIELD, SharedMemType::ASHMEM,
- RateLevel::VERY_FAST, NullChecker<EventType>());
-}
-
-// Test sensor event direct report with gralloc for accel sensor at normal rate
-TEST_P(SensorsHidlTest, AccelerometerGrallocDirectReportOperationNormal) {
- testDirectReportOperation(SensorTypeVersion::ACCELEROMETER, SharedMemType::GRALLOC,
- RateLevel::NORMAL, mAccelNormChecker);
-}
-
-// Test sensor event direct report with gralloc for accel sensor at fast rate
-TEST_P(SensorsHidlTest, AccelerometerGrallocDirectReportOperationFast) {
- testDirectReportOperation(SensorTypeVersion::ACCELEROMETER, SharedMemType::GRALLOC,
- RateLevel::FAST, mAccelNormChecker);
-}
-
-// Test sensor event direct report with gralloc for accel sensor at very fast rate
-TEST_P(SensorsHidlTest, AccelerometerGrallocDirectReportOperationVeryFast) {
- testDirectReportOperation(SensorTypeVersion::ACCELEROMETER, SharedMemType::GRALLOC,
- RateLevel::VERY_FAST, mAccelNormChecker);
-}
-
-// Test sensor event direct report with gralloc for gyro sensor at normal rate
-TEST_P(SensorsHidlTest, GyroscopeGrallocDirectReportOperationNormal) {
- testDirectReportOperation(SensorTypeVersion::GYROSCOPE, SharedMemType::GRALLOC,
- RateLevel::NORMAL, mGyroNormChecker);
-}
-
-// Test sensor event direct report with gralloc for gyro sensor at fast rate
-TEST_P(SensorsHidlTest, GyroscopeGrallocDirectReportOperationFast) {
- testDirectReportOperation(SensorTypeVersion::GYROSCOPE, SharedMemType::GRALLOC, RateLevel::FAST,
- mGyroNormChecker);
-}
-
-// Test sensor event direct report with gralloc for gyro sensor at very fast rate
-TEST_P(SensorsHidlTest, GyroscopeGrallocDirectReportOperationVeryFast) {
- testDirectReportOperation(SensorTypeVersion::GYROSCOPE, SharedMemType::GRALLOC,
- RateLevel::VERY_FAST, mGyroNormChecker);
-}
-
-// Test sensor event direct report with gralloc for mag sensor at normal rate
-TEST_P(SensorsHidlTest, MagnetometerGrallocDirectReportOperationNormal) {
- testDirectReportOperation(SensorTypeVersion::MAGNETIC_FIELD, SharedMemType::GRALLOC,
- RateLevel::NORMAL, NullChecker<EventType>());
-}
-
-// Test sensor event direct report with gralloc for mag sensor at fast rate
-TEST_P(SensorsHidlTest, MagnetometerGrallocDirectReportOperationFast) {
- testDirectReportOperation(SensorTypeVersion::MAGNETIC_FIELD, SharedMemType::GRALLOC,
- RateLevel::FAST, NullChecker<EventType>());
-}
-
-// Test sensor event direct report with gralloc for mag sensor at very fast rate
-TEST_P(SensorsHidlTest, MagnetometerGrallocDirectReportOperationVeryFast) {
- testDirectReportOperation(SensorTypeVersion::MAGNETIC_FIELD, SharedMemType::GRALLOC,
- RateLevel::VERY_FAST, NullChecker<EventType>());
-}
-
void SensorsHidlTest::activateAllSensors(bool enable) {
for (const SensorInfoType& sensorInfo : getSensorsList()) {
if (isValidType(sensorInfo.type)) {
@@ -829,21 +634,6 @@
Result::BAD_VALUE);
}
-TEST_P(SensorsHidlTest, FlushNonexistentSensor) {
- SensorInfoType sensor;
- std::vector<SensorInfoType> sensors = getNonOneShotSensors();
- if (sensors.size() == 0) {
- sensors = getOneShotSensors();
- if (sensors.size() == 0) {
- return;
- }
- }
- sensor = sensors.front();
- sensor.sensorHandle = getInvalidSensorHandle();
- runSingleFlushTest(std::vector<SensorInfoType>{sensor}, false /* activateSensor */,
- 0 /* expectedFlushCount */, Result::BAD_VALUE);
-}
-
TEST_P(SensorsHidlTest, Batch) {
if (getSensorsList().size() == 0) {
return;
@@ -1124,63 +914,3 @@
}
return found;
}
-
-TEST_P(SensorsHidlTest, ConfigureDirectChannelWithInvalidHandle) {
- SensorInfoType sensor;
- SharedMemType memType;
- RateLevel rate;
- if (!getDirectChannelSensor(&sensor, &memType, &rate)) {
- return;
- }
-
- // Verify that an invalid channel handle produces a BAD_VALUE result
- configDirectReport(sensor.sensorHandle, -1, rate, [](Result result, int32_t /* reportToken */) {
- ASSERT_EQ(result, Result::BAD_VALUE);
- });
-}
-
-TEST_P(SensorsHidlTest, CleanupDirectConnectionOnInitialize) {
- constexpr size_t kNumEvents = 1;
- constexpr size_t kMemSize = kNumEvents * kEventSize;
-
- SensorInfoType sensor;
- SharedMemType memType;
- RateLevel rate;
-
- if (!getDirectChannelSensor(&sensor, &memType, &rate)) {
- return;
- }
-
- std::shared_ptr<SensorsTestSharedMemory<SensorTypeVersion, EventType>> mem(
- SensorsTestSharedMemory<SensorTypeVersion, EventType>::create(memType, kMemSize));
- ASSERT_NE(mem, nullptr);
-
- int32_t directChannelHandle = 0;
- registerDirectChannel(mem->getSharedMemInfo(), [&](Result result, int32_t channelHandle) {
- ASSERT_EQ(result, Result::OK);
- directChannelHandle = channelHandle;
- });
-
- // Configure the channel and expect success
- configDirectReport(
- sensor.sensorHandle, directChannelHandle, rate,
- [](Result result, int32_t /* reportToken */) { ASSERT_EQ(result, Result::OK); });
-
- // Call initialize() via the environment setup to cause the HAL to re-initialize
- // Clear the active direct connections so they are not stopped during TearDown
- auto handles = mDirectChannelHandles;
- mDirectChannelHandles.clear();
- getEnvironment()->HidlTearDown();
- getEnvironment()->HidlSetUp();
- if (HasFatalFailure()) {
- return; // Exit early if resetting the environment failed
- }
-
- // Attempt to configure the direct channel and expect it to fail
- configDirectReport(
- sensor.sensorHandle, directChannelHandle, rate,
- [](Result result, int32_t /* reportToken */) { ASSERT_EQ(result, Result::BAD_VALUE); });
-
- // Restore original handles, though they should already be deactivated
- mDirectChannelHandles = handles;
-}