[automerger skipped] Merge changes from topic "c2f2_sensors_vts-qt-dev" into qt-dev
am: f1708d252a -s ours
am skip reason: change_id I07e789157e051ceab488a61e856f17d50f435072 with SHA1 63d4f57976 is in history
Change-Id: I67f7bfa4e4bef47e2f339fcfa0b2d3451f4e5c5c
diff --git a/cas/1.1/default/android.hardware.cas@1.1-service-lazy.rc b/cas/1.1/default/android.hardware.cas@1.1-service-lazy.rc
index 9227b6f..73c505d 100644
--- a/cas/1.1/default/android.hardware.cas@1.1-service-lazy.rc
+++ b/cas/1.1/default/android.hardware.cas@1.1-service-lazy.rc
@@ -1,4 +1,5 @@
service vendor.cas-hal-1-1 /vendor/bin/hw/android.hardware.cas@1.1-service-lazy
+ interface android.hardware.cas@1.0::IMediaCasService default
interface android.hardware.cas@1.1::IMediaCasService default
oneshot
disabled
diff --git a/gnss/2.0/vts/functional/gnss_hal_test_cases.cpp b/gnss/2.0/vts/functional/gnss_hal_test_cases.cpp
index e2fe3f9..39736cc 100644
--- a/gnss/2.0/vts/functional/gnss_hal_test_cases.cpp
+++ b/gnss/2.0/vts/functional/gnss_hal_test_cases.cpp
@@ -833,4 +833,4 @@
result = gnss_configuration_hal->setBlacklist(sources);
ASSERT_TRUE(result.isOk());
EXPECT_TRUE(result);
-}
+}
\ No newline at end of file
diff --git a/sensors/2.0/vts/functional/VtsHalSensorsV2_0TargetTest.cpp b/sensors/2.0/vts/functional/VtsHalSensorsV2_0TargetTest.cpp
index 5e2d9c1..8364ba9 100644
--- a/sensors/2.0/vts/functional/VtsHalSensorsV2_0TargetTest.cpp
+++ b/sensors/2.0/vts/functional/VtsHalSensorsV2_0TargetTest.cpp
@@ -38,6 +38,10 @@
using ::android::hardware::sensors::V1_0::SensorStatus;
using ::android::hardware::sensors::V1_0::SharedMemType;
using ::android::hardware::sensors::V1_0::Vec3;
+using std::chrono::duration_cast;
+using std::chrono::microseconds;
+using std::chrono::milliseconds;
+using std::chrono::nanoseconds;
constexpr size_t kEventSize = static_cast<size_t>(SensorsEventFormatOffset::TOTAL_LENGTH);
@@ -67,9 +71,9 @@
}
void waitForFlushEvents(const std::vector<SensorInfo>& sensorsToWaitFor,
- int32_t numCallsToFlush, int64_t timeoutMs) {
+ int32_t numCallsToFlush, milliseconds timeout) {
std::unique_lock<std::recursive_mutex> lock(mFlushMutex);
- mFlushCV.wait_for(lock, std::chrono::milliseconds(timeoutMs),
+ mFlushCV.wait_for(lock, timeout,
[&] { return flushesReceived(sensorsToWaitFor, numCallsToFlush); });
}
@@ -78,10 +82,9 @@
return mEventMap[sensorHandle];
}
- void waitForEvents(const std::vector<SensorInfo>& sensorsToWaitFor, int32_t timeoutMs) {
+ void waitForEvents(const std::vector<SensorInfo>& sensorsToWaitFor, milliseconds timeout) {
std::unique_lock<std::recursive_mutex> lock(mEventMutex);
- mEventCV.wait_for(lock, std::chrono::milliseconds(timeoutMs),
- [&] { return eventsReceived(sensorsToWaitFor); });
+ mEventCV.wait_for(lock, timeout, [&] { return eventsReceived(sensorsToWaitFor); });
}
protected:
@@ -173,6 +176,7 @@
// Helper functions
void activateAllSensors(bool enable);
std::vector<SensorInfo> getNonOneShotSensors();
+ std::vector<SensorInfo> getNonOneShotAndNonSpecialSensors();
std::vector<SensorInfo> getOneShotSensors();
std::vector<SensorInfo> getInjectEventSensors();
int32_t getInvalidSensorHandle();
@@ -255,6 +259,18 @@
return sensors;
}
+std::vector<SensorInfo> SensorsHidlTest::getNonOneShotAndNonSpecialSensors() {
+ std::vector<SensorInfo> sensors;
+ for (const SensorInfo& info : getSensorsList()) {
+ SensorFlagBits reportMode = extractReportMode(info.flags);
+ if (reportMode != SensorFlagBits::ONE_SHOT_MODE &&
+ reportMode != SensorFlagBits::SPECIAL_REPORTING_MODE) {
+ sensors.push_back(info);
+ }
+ }
+ return sensors;
+}
+
std::vector<SensorInfo> SensorsHidlTest::getOneShotSensors() {
std::vector<SensorInfo> sensors;
for (const SensorInfo& info : getSensorsList()) {
@@ -373,7 +389,7 @@
}
// Wait for events to be written back to the Event FMQ
- callback.waitForEvents(sensors, 1000 /* timeoutMs */);
+ callback.waitForEvents(sensors, milliseconds(1000) /* timeout */);
for (const auto& s : sensors) {
auto events = callback.getEvents(s.sensorHandle);
@@ -700,7 +716,7 @@
}
// Wait up to one second for the flush events
- callback.waitForFlushEvents(sensors, flushCalls, 1000 /* timeoutMs */);
+ callback.waitForFlushEvents(sensors, flushCalls, milliseconds(1000) /* timeout */);
// Deactivate all sensors after waiting for flush events so pending flush events are not
// abandoned by the HAL.
@@ -775,7 +791,12 @@
activateAllSensors(false /* enable */);
for (const SensorInfo& sensor : getSensorsList()) {
// Call batch on inactive sensor
- ASSERT_EQ(batch(sensor.sensorHandle, sensor.minDelay, 0 /* maxReportLatencyNs */),
+ // One shot sensors have minDelay set to -1 which is an invalid
+ // parameter. Use 0 instead to avoid errors.
+ int64_t samplingPeriodNs = extractReportMode(sensor.flags) == SensorFlagBits::ONE_SHOT_MODE
+ ? 0
+ : sensor.minDelay;
+ ASSERT_EQ(batch(sensor.sensorHandle, samplingPeriodNs, 0 /* maxReportLatencyNs */),
Result::OK);
// Activate the sensor
@@ -821,17 +842,19 @@
}
TEST_F(SensorsHidlTest, NoStaleEvents) {
- constexpr int64_t kFiveHundredMilliseconds = 500 * 1000;
- constexpr int64_t kOneSecond = 1000 * 1000;
+ constexpr milliseconds kFiveHundredMs(500);
+ constexpr milliseconds kOneSecond(1000);
// Register the callback to receive sensor events
EventCallback callback;
getEnvironment()->registerCallback(&callback);
- const std::vector<SensorInfo> sensors = getSensorsList();
- int32_t maxMinDelay = 0;
- for (const SensorInfo& sensor : getSensorsList()) {
- maxMinDelay = std::max(maxMinDelay, sensor.minDelay);
+ // This test is not valid for one-shot or special-report-mode sensors
+ const std::vector<SensorInfo> sensors = getNonOneShotAndNonSpecialSensors();
+ milliseconds maxMinDelay(0);
+ for (const SensorInfo& sensor : sensors) {
+ milliseconds minDelay = duration_cast<milliseconds>(microseconds(sensor.minDelay));
+ maxMinDelay = milliseconds(std::max(maxMinDelay.count(), minDelay.count()));
}
// Activate the sensors so that they start generating events
@@ -840,33 +863,46 @@
// According to the CDD, the first sample must be generated within 400ms + 2 * sample_time
// and the maximum reporting latency is 100ms + 2 * sample_time. Wait a sufficient amount
// of time to guarantee that a sample has arrived.
- callback.waitForEvents(sensors, kFiveHundredMilliseconds + (5 * maxMinDelay));
+ callback.waitForEvents(sensors, kFiveHundredMs + (5 * maxMinDelay));
activateAllSensors(false);
// Save the last received event for each sensor
std::map<int32_t, int64_t> lastEventTimestampMap;
for (const SensorInfo& sensor : sensors) {
- ASSERT_GE(callback.getEvents(sensor.sensorHandle).size(), 1);
- lastEventTimestampMap[sensor.sensorHandle] =
- callback.getEvents(sensor.sensorHandle).back().timestamp;
+ // Some on-change sensors may not report an event without stimulus
+ if (extractReportMode(sensor.flags) != SensorFlagBits::ON_CHANGE_MODE) {
+ ASSERT_GE(callback.getEvents(sensor.sensorHandle).size(), 1);
+ }
+ if (callback.getEvents(sensor.sensorHandle).size() >= 1) {
+ lastEventTimestampMap[sensor.sensorHandle] =
+ callback.getEvents(sensor.sensorHandle).back().timestamp;
+ }
}
// Allow some time to pass, reset the callback, then reactivate the sensors
- usleep(kOneSecond + (5 * maxMinDelay));
+ usleep(duration_cast<microseconds>(kOneSecond + (5 * maxMinDelay)).count());
callback.reset();
activateAllSensors(true);
- callback.waitForEvents(sensors, kFiveHundredMilliseconds + (5 * maxMinDelay));
+ callback.waitForEvents(sensors, kFiveHundredMs + (5 * maxMinDelay));
activateAllSensors(false);
for (const SensorInfo& sensor : sensors) {
+ // Skip sensors that did not previously report an event
+ if (lastEventTimestampMap.find(sensor.sensorHandle) == lastEventTimestampMap.end()) {
+ continue;
+ }
+ // Skip on-change sensors that do not consistently report an initial event
+ if (callback.getEvents(sensor.sensorHandle).size() < 1) {
+ continue;
+ }
// Ensure that the first event received is not stale by ensuring that its timestamp is
// sufficiently different from the previous event
const Event newEvent = callback.getEvents(sensor.sensorHandle).front();
- int64_t delta = newEvent.timestamp - lastEventTimestampMap[sensor.sensorHandle];
- ASSERT_GE(delta, kFiveHundredMilliseconds + (3 * sensor.minDelay));
+ milliseconds delta = duration_cast<milliseconds>(
+ nanoseconds(newEvent.timestamp - lastEventTimestampMap[sensor.sensorHandle]));
+ milliseconds sensorMinDelay = duration_cast<milliseconds>(microseconds(sensor.minDelay));
+ ASSERT_GE(delta, kFiveHundredMs + (3 * sensorMinDelay));
}
-
- getEnvironment()->unregisterCallback();
}
void SensorsHidlTest::checkRateLevel(const SensorInfo& sensor, int32_t directChannelHandle,