Introduce Secretkeeper HAL interface am: 18cafa0a11
Original change: https://android-review.googlesource.com/c/platform/hardware/interfaces/+/2695089
Change-Id: I9ee10451fc5a1919d30bd4a51e81b19db62bfb19
Signed-off-by: Automerger Merge Worker <android-build-automerger-merge-worker@system.gserviceaccount.com>
diff --git a/audio/aidl/aidl_api/android.hardware.audio.effect/current/android/hardware/audio/effect/Spatializer.aidl b/audio/aidl/aidl_api/android.hardware.audio.effect/current/android/hardware/audio/effect/Spatializer.aidl
index 9f97de0..98ecee0 100644
--- a/audio/aidl/aidl_api/android.hardware.audio.effect/current/android/hardware/audio/effect/Spatializer.aidl
+++ b/audio/aidl/aidl_api/android.hardware.audio.effect/current/android/hardware/audio/effect/Spatializer.aidl
@@ -35,12 +35,13 @@
@VintfStability
union Spatializer {
android.hardware.audio.effect.VendorExtension vendor;
- android.media.audio.common.Spatialization.Level spatializationLevel;
- android.media.audio.common.HeadTracking.Mode headTrackingMode;
android.media.audio.common.AudioChannelLayout[] supportedChannelLayout;
+ android.media.audio.common.Spatialization.Level spatializationLevel;
android.media.audio.common.Spatialization.Mode spatializationMode;
- float[6] headToStage;
- const int HEAD_TO_STAGE_VEC_SIZE = 6;
+ int headTrackingSensorId;
+ android.media.audio.common.HeadTracking.Mode headTrackingMode;
+ android.media.audio.common.HeadTracking.ConnectionMode headTrackingConnectionMode;
+ android.media.audio.common.HeadTracking.SensorData headTrackingSensorData;
@VintfStability
union Id {
android.hardware.audio.effect.VendorExtension vendorExtensionTag;
diff --git a/audio/aidl/android/hardware/audio/effect/Spatializer.aidl b/audio/aidl/android/hardware/audio/effect/Spatializer.aidl
index 4edb2e8..6ebe0d5 100644
--- a/audio/aidl/android/hardware/audio/effect/Spatializer.aidl
+++ b/audio/aidl/android/hardware/audio/effect/Spatializer.aidl
@@ -52,29 +52,37 @@
VendorExtension vendor;
/**
- * Level of spatialization.
- */
- Spatialization.Level spatializationLevel;
-
- /**
- * Head tracking mode for spatialization.
- */
- HeadTracking.Mode headTrackingMode;
-
- /**
* List of supported input channel layouts.
*/
AudioChannelLayout[] supportedChannelLayout;
/**
+ * Level of spatialization.
+ */
+ Spatialization.Level spatializationLevel;
+
+ /**
* Spatialization mode, Binaural or Transaural for example.
*/
Spatialization.Mode spatializationMode;
/**
- * Vector representing of the head-to-stage pose with six floats: first three are a translation
- * vector, and the last three are a rotation vector.
+ * Head tracking sensor ID.
*/
- const int HEAD_TO_STAGE_VEC_SIZE = 6;
- float[HEAD_TO_STAGE_VEC_SIZE] headToStage;
+ int headTrackingSensorId;
+
+ /**
+ * Head tracking mode for spatialization.
+ */
+ HeadTracking.Mode headTrackingMode;
+
+ /**
+ * Head tracking sensor connection mode for spatialization.
+ */
+ HeadTracking.ConnectionMode headTrackingConnectionMode;
+
+ /**
+ * Headtracking sensor data.
+ */
+ HeadTracking.SensorData headTrackingSensorData;
}
diff --git a/audio/aidl/vts/ModuleConfig.cpp b/audio/aidl/vts/ModuleConfig.cpp
index a633d83..2b86271 100644
--- a/audio/aidl/vts/ModuleConfig.cpp
+++ b/audio/aidl/vts/ModuleConfig.cpp
@@ -17,6 +17,9 @@
#include <algorithm>
#include <chrono>
+#define LOG_TAG "VtsHalAudio.ModuleConfig"
+#include <android-base/logging.h>
+
#include <Utils.h>
#include <aidl/android/media/audio/common/AudioInputFlags.h>
#include <aidl/android/media/audio/common/AudioIoFlags.h>
diff --git a/audio/common/all-versions/default/service/android.hardware.audio.service.rc b/audio/common/all-versions/default/service/android.hardware.audio.service.rc
index 0de4eea..a1df67a 100644
--- a/audio/common/all-versions/default/service/android.hardware.audio.service.rc
+++ b/audio/common/all-versions/default/service/android.hardware.audio.service.rc
@@ -2,7 +2,7 @@
class hal
user audioserver
# media gid needed for /dev/fm (radio) and for /data/misc/media (tee)
- group audio camera drmrpc inet media mediadrm net_bt net_bt_admin net_bw_acct wakelock context_hub
+ group audio camera drmrpc inet media mediadrm net_bt net_bt_admin net_bw_acct wakelock context_hub system
capabilities BLOCK_SUSPEND SYS_NICE
# setting RLIMIT_RTPRIO allows binder RT priority inheritance
rlimit rtprio 10 10
diff --git a/automotive/vehicle/2.0/default/tests/fuzzer/VehicleManager_fuzzer.cpp b/automotive/vehicle/2.0/default/tests/fuzzer/VehicleManager_fuzzer.cpp
index 8a085e5..4d0995d 100644
--- a/automotive/vehicle/2.0/default/tests/fuzzer/VehicleManager_fuzzer.cpp
+++ b/automotive/vehicle/2.0/default/tests/fuzzer/VehicleManager_fuzzer.cpp
@@ -76,30 +76,20 @@
using ::android::hardware::automotive::vehicle::V2_0::vms::VmsLayerOffering;
using ::android::hardware::automotive::vehicle::V2_0::vms::VmsOffers;
-constexpr const char kCarMake[] = "Default Car";
-constexpr VehicleProperty kVehicleProp[] = {VehicleProperty::INVALID,
- VehicleProperty::HVAC_FAN_SPEED,
- VehicleProperty::INFO_MAKE,
- VehicleProperty::DISPLAY_BRIGHTNESS,
- VehicleProperty::INFO_FUEL_CAPACITY,
- VehicleProperty::HVAC_SEAT_TEMPERATURE};
-constexpr DiagnosticIntegerSensorIndex kDiagnosticIntIndex[] = {
- DiagnosticIntegerSensorIndex::FUEL_SYSTEM_STATUS,
- DiagnosticIntegerSensorIndex::MALFUNCTION_INDICATOR_LIGHT_ON,
- DiagnosticIntegerSensorIndex::NUM_OXYGEN_SENSORS_PRESENT,
- DiagnosticIntegerSensorIndex::FUEL_TYPE};
-constexpr DiagnosticFloatSensorIndex kDiagnosticFloatIndex[] = {
- DiagnosticFloatSensorIndex::CALCULATED_ENGINE_LOAD,
- DiagnosticFloatSensorIndex::SHORT_TERM_FUEL_TRIM_BANK1,
- DiagnosticFloatSensorIndex::LONG_TERM_FUEL_TRIM_BANK1,
- DiagnosticFloatSensorIndex::THROTTLE_POSITION};
-constexpr size_t kVehiclePropArrayLength = std::size(kVehicleProp);
-constexpr size_t kIntSensorArrayLength = std::size(kDiagnosticIntIndex);
-constexpr size_t kFloatSensorArrayLength = std::size(kDiagnosticFloatIndex);
-constexpr VmsMessageType kAvailabilityMessageType[] = {VmsMessageType::AVAILABILITY_CHANGE,
- VmsMessageType::AVAILABILITY_RESPONSE};
-constexpr VmsMessageType kSubscriptionMessageType[] = {VmsMessageType::SUBSCRIPTIONS_CHANGE,
- VmsMessageType::SUBSCRIPTIONS_RESPONSE};
+std::string kCarMake;
+constexpr int32_t kMaxCaseMessage = 8;
+constexpr int32_t kMaxRuns = 20;
+constexpr int32_t kMaxSize = 1000;
+constexpr int32_t kMinSize = 0;
+constexpr int32_t kMaxFileSize = 100;
+float kFloatValue;
+std::vector<int32_t> kVec32;
+std::vector<int64_t> kVec64;
+std::vector<uint8_t> kVec8;
+std::vector<float> kVecFloat;
+static const std::vector<std::string> kSampleDtcs = {"P0070",
+ "P0102"
+ "P0123"};
MockedVehicleHal::VehiclePropValuePtr MockedVehicleHal::get(
const VehiclePropValue& requestedPropValue, StatusCode* outStatus) {
@@ -113,23 +103,23 @@
switch (property) {
case VehicleProperty::INFO_MAKE:
- pValue = getValuePool()->obtainString(kCarMake);
+ pValue = getValuePool()->obtainString(kCarMake.c_str());
break;
case VehicleProperty::INFO_FUEL_CAPACITY:
if (mFuelCapacityAttemptsLeft-- > 0) {
*outStatus = StatusCode::TRY_AGAIN;
} else {
- pValue = getValuePool()->obtainFloat(42.42);
+ pValue = getValuePool()->obtainFloat(kFloatValue);
}
break;
default:
if (requestedPropValue.prop == kCustomComplexProperty) {
pValue = getValuePool()->obtainComplex();
- pValue->value.int32Values = hidl_vec<int32_t>{10, 20};
- pValue->value.int64Values = hidl_vec<int64_t>{30, 40};
- pValue->value.floatValues = hidl_vec<float_t>{1.1, 2.2};
- pValue->value.bytes = hidl_vec<uint8_t>{1, 2, 3};
- pValue->value.stringValue = kCarMake;
+ pValue->value.int32Values = hidl_vec<int32_t>{kVec32};
+ pValue->value.int64Values = hidl_vec<int64_t>{kVec64};
+ pValue->value.floatValues = hidl_vec<float_t>{kVecFloat};
+ pValue->value.bytes = hidl_vec<uint8_t>{kVec8};
+ pValue->value.stringValue = kCarMake.c_str();
break;
}
auto key = makeKey(toInt(property), areaId);
@@ -145,28 +135,72 @@
return pValue;
}
+void VehicleHalManagerFuzzer::initValue() {
+ kCarMake = mFuzzedDataProvider->ConsumeRandomLengthString(kMaxFileSize);
+ kFloatValue = mFuzzedDataProvider->ConsumeFloatingPoint<float>();
+ fillParameter<int32_t>(mFuzzedDataProvider->ConsumeIntegralInRange<size_t>(kMinSize, kMaxSize),
+ kVec32);
+ fillParameter<int64_t>(mFuzzedDataProvider->ConsumeIntegralInRange<size_t>(kMinSize, kMaxSize),
+ kVec64);
+ fillParameter<uint8_t>(mFuzzedDataProvider->ConsumeIntegralInRange<size_t>(kMinSize, kMaxSize),
+ kVec8);
+ size_t size = mFuzzedDataProvider->ConsumeIntegralInRange<size_t>(kMinSize, kMaxSize);
+ for (size_t i = 0; i < size; ++i) {
+ kVecFloat.push_back(mFuzzedDataProvider->ConsumeFloatingPoint<float>());
+ }
+}
+
void VehicleHalManagerFuzzer::process(const uint8_t* data, size_t size) {
mFuzzedDataProvider = new FuzzedDataProvider(data, size);
- invokeDebug();
- invokePropConfigs();
- invokeSubscribe();
- invokeSetAndGetValues();
- invokeObd2SensorStore();
- invokeVmsUtils();
- invokeVehiclePropStore();
- invokeWatchDogClient();
+ initValue();
+ /* Limited while loop runs to prevent timeouts caused
+ * by repeated calls to high-execution-time APIs.
+ */
+ size_t maxRuns = mFuzzedDataProvider->ConsumeIntegralInRange<size_t>(kMinSize, kMaxRuns);
+ size_t itr = 0;
+ while (mFuzzedDataProvider->remaining_bytes() && ++itr <= maxRuns) {
+ auto invokeVehicleHalManagerFuzzer =
+ mFuzzedDataProvider->PickValueInArray<const std::function<void()>>({
+ [&]() { invokeDebug(); },
+ [&]() { invokePropConfigs(); },
+ [&]() { invokeSubscribe(); },
+ [&]() { invokeSetAndGetValues(); },
+ [&]() { invokeObd2SensorStore(); },
+ [&]() { invokeVmsUtils(); },
+ [&]() { invokeVehiclePropStore(); },
+ [&]() { invokeWatchDogClient(); },
+ });
+ invokeVehicleHalManagerFuzzer();
+ }
}
void VehicleHalManagerFuzzer::invokeDebug() {
- hidl_string debugOption = mFuzzedDataProvider->PickValueInArray(
- {"--help", "--list", "--get", "--set", "", "invalid"});
hidl_handle fd = {};
native_handle_t* rawHandle = native_handle_create(/*numFds=*/1, /*numInts=*/0);
fd.setTo(native_handle_clone(rawHandle), /*shouldOwn=*/true);
+ int32_t size = mFuzzedDataProvider->ConsumeIntegralInRange<int32_t>(kMinSize, kMaxFileSize);
+ hidl_vec<hidl_string> options(size);
- mManager->debug(fd, {});
- mManager->debug(fd, {debugOption});
+ for (int32_t idx = 0; idx < size; ++idx) {
+ if (idx == 0 && mFuzzedDataProvider->ConsumeBool()) {
+ options[idx] = mFuzzedDataProvider->PickValueInArray(
+ {"--help", "--list", "--get", "--set", "", "invalid"});
+ } else if (idx == 2 && mFuzzedDataProvider->ConsumeBool()) {
+ options[idx] =
+ mFuzzedDataProvider->PickValueInArray({"-i", "-i64", "-f", "-s", "-b", "-a"});
+ } else if (mFuzzedDataProvider->ConsumeBool()) {
+ options[idx] = mFuzzedDataProvider->ConsumeRandomLengthString(kMaxSize);
+ } else {
+ options[idx] = std::to_string(mFuzzedDataProvider->ConsumeIntegral<int32_t>());
+ }
+ }
+
+ if (mFuzzedDataProvider->ConsumeBool()) {
+ mManager->debug(fd, {});
+ } else {
+ mManager->debug(fd, options);
+ }
native_handle_delete(rawHandle);
}
@@ -175,178 +209,245 @@
int32_t vehicleProp2 = mFuzzedDataProvider->ConsumeIntegral<int32_t>();
hidl_vec<int32_t> properties = {vehicleProp1, vehicleProp2};
+ auto invokePropConfigsAPI = mFuzzedDataProvider->PickValueInArray<const std::function<void()>>({
+ [&]() {
+ mManager->getPropConfigs(
+ properties, []([[maybe_unused]] StatusCode status,
+ [[maybe_unused]] const hidl_vec<VehiclePropConfig>& c) {});
+ },
+ [&]() {
+ mManager->getPropConfigs(
+ {mFuzzedDataProvider->ConsumeIntegral<int32_t>()},
+ []([[maybe_unused]] StatusCode status,
+ [[maybe_unused]] const hidl_vec<VehiclePropConfig>& c) {});
+ },
+ [&]() {
+ mManager->getAllPropConfigs(
+ []([[maybe_unused]] const hidl_vec<VehiclePropConfig>& propConfigs) {});
+ },
- mManager->getPropConfigs(properties,
- []([[maybe_unused]] StatusCode status,
- [[maybe_unused]] const hidl_vec<VehiclePropConfig>& c) {});
-
- mManager->getPropConfigs({toInt(kVehicleProp[abs(vehicleProp1) % kVehiclePropArrayLength])},
- []([[maybe_unused]] StatusCode status,
- [[maybe_unused]] const hidl_vec<VehiclePropConfig>& c) {});
-
- mManager->getAllPropConfigs(
- []([[maybe_unused]] const hidl_vec<VehiclePropConfig>& propConfigs) {});
+ });
+ invokePropConfigsAPI();
}
void VehicleHalManagerFuzzer::invokeSubscribe() {
- int32_t vehicleProp1 = mFuzzedDataProvider->ConsumeIntegral<int32_t>();
int32_t vehicleProp2 = mFuzzedDataProvider->ConsumeIntegral<int32_t>();
int32_t vehicleProp3 = mFuzzedDataProvider->ConsumeIntegral<int32_t>();
- const auto prop1 = toInt(kVehicleProp[abs(vehicleProp1) % kVehiclePropArrayLength]);
sp<MockedVehicleCallback> cb = new MockedVehicleCallback();
+ VehiclePropertyType type =
+ static_cast<VehiclePropertyType>(mFuzzedDataProvider->ConsumeIntegral<int32_t>());
- hidl_vec<SubscribeOptions> options = {
- SubscribeOptions{.propId = prop1, .flags = SubscribeFlags::EVENTS_FROM_CAR}};
+ auto invokeSubscribeAPI = mFuzzedDataProvider->PickValueInArray<const std::function<void()>>({
+ [&]() {
+ size_t size =
+ mFuzzedDataProvider->ConsumeIntegralInRange<size_t>(kMinSize, kMaxSize);
+ hidl_vec<SubscribeOptions> options(size);
+ for (size_t idx = 0; idx < size; ++idx) {
+ options[idx] = {SubscribeOptions{
+ .propId = mFuzzedDataProvider->ConsumeIntegral<int32_t>(),
+ .flags = static_cast<SubscribeFlags>(
+ mFuzzedDataProvider->ConsumeIntegral<int32_t>())}};
+ }
+ mManager->subscribe(cb, options);
+ },
+ [&]() {
+ auto unsubscribedValue = mObjectPool->obtain(type);
+ if (!unsubscribedValue) {
+ return;
+ }
+ unsubscribedValue->prop = vehicleProp2;
+ unsubscribedValue->value.int32Values[0] = INT32_MAX;
+ mHal->sendPropEvent(std::move(unsubscribedValue));
+ cb->waitForExpectedEvents(mFuzzedDataProvider->ConsumeIntegral<size_t>());
+ },
+ [&]() {
+ const auto prop1 = mFuzzedDataProvider->ConsumeIntegral<int32_t>();
+ mManager->unsubscribe(cb, prop1);
+ },
+ [&]() {
+ mHal->sendHalError(StatusCode::TRY_AGAIN, vehicleProp3,
+ mFuzzedDataProvider->ConsumeIntegral<int32_t>() /*areaId=*/);
+ },
- mManager->subscribe(cb, options);
-
- auto unsubscribedValue = mObjectPool->obtain(VehiclePropertyType::INT32);
- unsubscribedValue->prop = toInt(kVehicleProp[abs(vehicleProp2) % kVehiclePropArrayLength]);
-
- mHal->sendPropEvent(std::move(unsubscribedValue));
- cb->getReceivedEvents();
- cb->waitForExpectedEvents(0);
-
- auto subscribedValue = mObjectPool->obtain(VehiclePropertyType::INT32);
- subscribedValue->prop = toInt(kVehicleProp[abs(vehicleProp2) % kVehiclePropArrayLength]);
- subscribedValue->value.int32Values[0] = INT32_MAX;
-
- cb->reset();
- VehiclePropValue actualValue(*subscribedValue.get());
- mHal->sendPropEvent(std::move(subscribedValue));
- cb->waitForExpectedEvents(1);
- mManager->unsubscribe(cb, prop1);
-
- sp<MockedVehicleCallback> cb2 = new MockedVehicleCallback();
-
- hidl_vec<SubscribeOptions> options2 = {
- SubscribeOptions{
- .propId = toInt(kVehicleProp[abs(vehicleProp3) % kVehiclePropArrayLength]),
- .flags = SubscribeFlags::EVENTS_FROM_CAR},
- };
-
- mManager->subscribe(cb2, options2);
-
- mHal->sendHalError(StatusCode::TRY_AGAIN,
- toInt(kVehicleProp[abs(vehicleProp3) % kVehiclePropArrayLength]),
- /*areaId=*/0);
+ });
+ invokeSubscribeAPI();
}
void VehicleHalManagerFuzzer::invokeSetAndGetValues() {
- uint32_t vehicleProp1 =
- mFuzzedDataProvider->ConsumeIntegralInRange<uint32_t>(0, kVehiclePropArrayLength - 1);
- uint32_t vehicleProp2 =
- mFuzzedDataProvider->ConsumeIntegralInRange<uint32_t>(0, kVehiclePropArrayLength - 1);
- uint32_t vehicleProp3 =
- mFuzzedDataProvider->ConsumeIntegralInRange<uint32_t>(0, kVehiclePropArrayLength - 1);
-
- invokeGet(kCustomComplexProperty, 0);
- invokeGet(toInt(kVehicleProp[vehicleProp2]), 0);
- invokeGet(toInt(kVehicleProp[vehicleProp1]), 0);
-
- auto expectedValue = mObjectPool->obtainInt32(mFuzzedDataProvider->ConsumeIntegral<int32_t>());
- mObjectPool->obtainInt64(mFuzzedDataProvider->ConsumeIntegral<int64_t>());
- mObjectPool->obtainFloat(mFuzzedDataProvider->ConsumeFloatingPoint<float>());
- mObjectPool->obtainBoolean(mFuzzedDataProvider->ConsumeBool());
- expectedValue->prop = toInt(kVehicleProp[vehicleProp2]);
- expectedValue->areaId = 0;
-
- mManager->set(*expectedValue.get());
- invokeGet(toInt(kVehicleProp[vehicleProp2]), 0);
- expectedValue->prop = toInt(kVehicleProp[vehicleProp3]);
- mManager->set(*expectedValue.get());
- expectedValue->prop = toInt(VehicleProperty::INVALID);
- mManager->set(*expectedValue.get());
+ auto invokeSetAndGetAPI = mFuzzedDataProvider->PickValueInArray<const std::function<void()>>({
+ [&]() {
+ invokeGet(mFuzzedDataProvider->ConsumeIntegral<int32_t>(),
+ mFuzzedDataProvider->ConsumeIntegral<int32_t>());
+ },
+ [&]() { mObjectPool->obtainInt64(mFuzzedDataProvider->ConsumeIntegral<int64_t>()); },
+ [&]() { mObjectPool->obtainFloat(mFuzzedDataProvider->ConsumeFloatingPoint<float>()); },
+ [&]() { mObjectPool->obtainBoolean(mFuzzedDataProvider->ConsumeBool()); },
+ [&]() {
+ int32_t vehicleProp2 = mFuzzedDataProvider->ConsumeIntegral<int32_t>();
+ auto expectedValue =
+ mObjectPool->obtainInt32(mFuzzedDataProvider->ConsumeIntegral<int32_t>());
+ expectedValue->prop = vehicleProp2;
+ expectedValue->areaId = mFuzzedDataProvider->ConsumeIntegral<int32_t>();
+ mManager->set(*expectedValue.get());
+ },
+ });
+ invokeSetAndGetAPI();
}
void VehicleHalManagerFuzzer::invokeObd2SensorStore() {
- uint32_t diagnosticIntIndex =
- mFuzzedDataProvider->ConsumeIntegralInRange<uint32_t>(0, kIntSensorArrayLength - 1);
- int32_t diagnosticIntValue = mFuzzedDataProvider->ConsumeIntegral<int32_t>();
- uint32_t diagnosticFloatIndex =
- mFuzzedDataProvider->ConsumeIntegralInRange<uint32_t>(0, kFloatSensorArrayLength - 1);
- float diagnosticFloatValue = mFuzzedDataProvider->ConsumeFloatingPoint<float>();
+ size_t diagnosticInt = mFuzzedDataProvider->ConsumeIntegralInRange<size_t>(kMinSize, kMaxSize);
+ size_t diagnosticFloat =
+ mFuzzedDataProvider->ConsumeIntegralInRange<size_t>(kMinSize, kMaxSize);
std::unique_ptr<Obd2SensorStore> sensorStore(
- new Obd2SensorStore(kIntSensorArrayLength, kFloatSensorArrayLength));
- if (sensorStore) {
- sensorStore->setIntegerSensor(kDiagnosticIntIndex[diagnosticIntIndex], diagnosticIntValue);
- sensorStore->setFloatSensor(kDiagnosticFloatIndex[diagnosticFloatIndex],
- diagnosticFloatValue);
- sensorStore->getIntegerSensors();
- sensorStore->getFloatSensors();
- sensorStore->getSensorsBitmask();
- static std::vector<std::string> sampleDtcs = {"P0070",
- "P0102"
- "P0123"};
- for (auto&& dtc : sampleDtcs) {
- auto freezeFrame = createVehiclePropValue(VehiclePropertyType::MIXED, 0);
- sensorStore->fillPropValue(dtc, freezeFrame.get());
- freezeFrame->prop = static_cast<int>(VehicleProperty::OBD2_FREEZE_FRAME);
- }
+ new Obd2SensorStore(diagnosticInt, diagnosticFloat));
+
+ if (!sensorStore.get()) {
+ return;
}
+
+ auto invokeObd2SensorStoreAPI =
+ mFuzzedDataProvider->PickValueInArray<const std::function<void()>>({
+ [&]() {
+ int32_t diagnosticIntValue =
+ mFuzzedDataProvider->ConsumeIntegral<int32_t>();
+ int32_t diagnosticIntIndex =
+ mFuzzedDataProvider->ConsumeIntegralInRange<int32_t>(
+ kMinSize,
+ toInt(DiagnosticIntegerSensorIndex::LAST_SYSTEM_INDEX) +
+ diagnosticInt);
+ sensorStore->setIntegerSensor(
+ static_cast<DiagnosticIntegerSensorIndex>(diagnosticIntIndex),
+ diagnosticIntValue);
+ },
+ [&]() {
+ float diagnosticFloatValue =
+ mFuzzedDataProvider->ConsumeFloatingPoint<float>();
+ int32_t diagnosticFloatIndex =
+ mFuzzedDataProvider->ConsumeIntegralInRange<int32_t>(
+ kMinSize,
+ toInt(DiagnosticFloatSensorIndex::LAST_SYSTEM_INDEX) +
+ diagnosticFloat);
+ sensorStore->setFloatSensor(
+ static_cast<DiagnosticFloatSensorIndex>(diagnosticFloatIndex),
+ diagnosticFloatValue);
+ },
+ [&]() { sensorStore->getIntegerSensors(); },
+ [&]() { sensorStore->getFloatSensors(); },
+ [&]() { sensorStore->getSensorsBitmask(); },
+ [&]() {
+ for (auto&& dtc : kSampleDtcs) {
+ VehiclePropertyType type = static_cast<VehiclePropertyType>(
+ mFuzzedDataProvider->ConsumeIntegral<int32_t>());
+ auto freezeFrame = createVehiclePropValue(
+ type, mFuzzedDataProvider->ConsumeIntegralInRange<int32_t>(
+ kMinSize, kMaxSize));
+ if (!freezeFrame.get()) {
+ return;
+ }
+ freezeFrame->prop = mFuzzedDataProvider->ConsumeIntegral<int32_t>();
+ sensorStore->fillPropValue(dtc, freezeFrame.get());
+ }
+ },
+ });
+ invokeObd2SensorStoreAPI();
}
void VehicleHalManagerFuzzer::invokeVmsUtils() {
- bool availabilityMsgType = mFuzzedDataProvider->ConsumeBool();
- bool subscriptionMsgType = mFuzzedDataProvider->ConsumeBool();
+ std::unique_ptr<VehiclePropValue> message;
int32_t intValue = mFuzzedDataProvider->ConsumeIntegral<int32_t>();
+ VmsLayer layer(mFuzzedDataProvider->ConsumeIntegral<int32_t>(),
+ mFuzzedDataProvider->ConsumeIntegral<int32_t>(),
+ mFuzzedDataProvider->ConsumeIntegral<int32_t>());
+ VmsOffers offers = {
+ intValue,
+ {VmsLayerOffering(VmsLayer(mFuzzedDataProvider->ConsumeIntegral<int32_t>(),
+ mFuzzedDataProvider->ConsumeIntegral<int32_t>(),
+ mFuzzedDataProvider->ConsumeIntegral<int32_t>()))}};
+ const VmsLayerAndPublisher layer_and_publisher(
+ VmsLayer(mFuzzedDataProvider->ConsumeIntegral<int32_t>(),
+ mFuzzedDataProvider->ConsumeIntegral<int32_t>(),
+ mFuzzedDataProvider->ConsumeIntegral<int32_t>()),
+ intValue);
- VmsLayer layer(1, 0, 2);
- auto message = createSubscribeMessage(layer);
+ switch (mFuzzedDataProvider->ConsumeIntegralInRange<int32_t>(kMinSize, kMaxCaseMessage)) {
+ case 0: {
+ message = createSubscribeMessage(layer);
+ break;
+ }
+ case 1: {
+ message = createUnsubscribeMessage(layer);
+ break;
+ }
+ case 2: {
+ message = createSubscriptionsRequest();
+ break;
+ }
+ case 3: {
+ message = createOfferingMessage(offers);
+ break;
+ }
+ case 4: {
+ message = createAvailabilityRequest();
+ break;
+ }
+ case 5: {
+ std::string pub_bytes;
+ if (mFuzzedDataProvider->ConsumeBool()) {
+ pub_bytes = "pub_id";
+ } else {
+ pub_bytes = mFuzzedDataProvider->ConsumeRandomLengthString(kMaxFileSize);
+ }
+ message = createPublisherIdRequest(pub_bytes);
+ break;
+ }
+ case 6: {
+ std::string bytes = "placeholder";
+ if (mFuzzedDataProvider->ConsumeBool()) {
+ bytes = "placeholder";
+ } else {
+ bytes = mFuzzedDataProvider->ConsumeRandomLengthString(kMaxFileSize);
+ }
+ message = createDataMessageWithLayerPublisherInfo(layer_and_publisher, bytes);
+ break;
+ }
+ case 7: {
+ message = createBaseVmsMessage(
+ mFuzzedDataProvider->ConsumeIntegralInRange<size_t>(kMinSize, kMaxSize));
+ break;
+ }
+ case 8: {
+ message = createStartSessionMessage(intValue, intValue + 1);
+ break;
+ }
+ }
+
isValidVmsMessage(*message);
- message = createUnsubscribeMessage(layer);
-
- VmsOffers offers = {intValue, {VmsLayerOffering(VmsLayer(1, 0, 2))}};
- message = createOfferingMessage(offers);
- std::vector<VmsLayer> dependencies = {VmsLayer(2, 0, 2), VmsLayer(3, 0, 3)};
- std::vector<VmsLayerOffering> offering = {VmsLayerOffering(layer, dependencies)};
- offers = {intValue, offering};
- message = createOfferingMessage(offers);
-
- message = createAvailabilityRequest();
- message = createSubscriptionsRequest();
-
- std::string bytes = "placeholder";
- const VmsLayerAndPublisher layer_and_publisher(VmsLayer(2, 0, 1), intValue);
- message = createDataMessageWithLayerPublisherInfo(layer_and_publisher, bytes);
- parseData(*message);
- createSubscribeToPublisherMessage(layer_and_publisher);
- createUnsubscribeToPublisherMessage(layer_and_publisher);
-
- std::string pub_bytes = "pub_id";
- message = createPublisherIdRequest(pub_bytes);
- message = createBaseVmsMessage(2);
message->value.int32Values =
- hidl_vec<int32_t>{toInt(VmsMessageType::PUBLISHER_ID_RESPONSE), intValue};
- parsePublisherIdResponse(*message);
+ hidl_vec<int32_t>{mFuzzedDataProvider->ConsumeIntegral<int32_t>(), intValue};
- message->value.int32Values =
- hidl_vec<int32_t>{toInt(kSubscriptionMessageType[subscriptionMsgType]), intValue};
- getSequenceNumberForSubscriptionsState(*message);
-
- message->value.int32Values = hidl_vec<int32_t>{toInt(kSubscriptionMessageType[0]), intValue};
- isSequenceNumberNewer(*message, intValue + 1);
- invokeGetSubscribedLayers(kSubscriptionMessageType[subscriptionMsgType]);
-
- message->value.int32Values =
- hidl_vec<int32_t>{toInt(kAvailabilityMessageType[availabilityMsgType]), 0};
- hasServiceNewlyStarted(*message);
- message = createStartSessionMessage(intValue, intValue + 1);
- parseMessageType(*message);
-
- message->value.int32Values =
- hidl_vec<int32_t>{toInt(kAvailabilityMessageType[availabilityMsgType]), intValue};
- isAvailabilitySequenceNumberNewer(*message, intValue + 1);
-
- message->value.int32Values =
- hidl_vec<int32_t>{toInt(kAvailabilityMessageType[availabilityMsgType]), intValue};
- getSequenceNumberForAvailabilityState(*message);
- message = createBaseVmsMessage(3);
- int new_service_id;
- message->value.int32Values = hidl_vec<int32_t>{toInt(VmsMessageType::START_SESSION), 0, -1};
- parseStartSessionMessage(*message, -1, 0, &new_service_id);
+ auto invokeVmsUtilsAPI = mFuzzedDataProvider->PickValueInArray<const std::function<void()>>({
+ [&]() { parseData(*message); },
+ [&]() { createSubscribeToPublisherMessage(layer_and_publisher); },
+ [&]() { createUnsubscribeToPublisherMessage(layer_and_publisher); },
+ [&]() { parsePublisherIdResponse(*message); },
+ [&]() { getSequenceNumberForSubscriptionsState(*message); },
+ [&]() { isSequenceNumberNewer(*message, intValue + 1); },
+ [&]() {
+ invokeGetSubscribedLayers(
+ (VmsMessageType)mFuzzedDataProvider->ConsumeIntegral<int32_t>());
+ },
+ [&]() { hasServiceNewlyStarted(*message); },
+ [&]() { parseMessageType(*message); },
+ [&]() { isAvailabilitySequenceNumberNewer(*message, intValue + 1); },
+ [&]() { getSequenceNumberForAvailabilityState(*message); },
+ [&]() {
+ int32_t new_service_id;
+ parseStartSessionMessage(*message, -1, 0, &new_service_id);
+ },
+ });
+ invokeVmsUtilsAPI();
}
void VehicleHalManagerFuzzer::invokeGet(int32_t property, int32_t areaId) {
@@ -367,27 +468,31 @@
mActualStatusCode = refStatus;
}
-void VehicleHalManagerFuzzer::invokeGetSubscribedLayers(VmsMessageType type) {
- VmsOffers offers = {123,
- {VmsLayerOffering(VmsLayer(1, 0, 1), {VmsLayer(4, 1, 1)}),
- VmsLayerOffering(VmsLayer(2, 0, 1))}};
- auto message = createBaseVmsMessage(16);
- message->value.int32Values = hidl_vec<int32_t>{toInt(type),
- 1234, // sequence number
- 2, // number of layers
- 1, // number of associated layers
- 1, // layer 1
- 0, 1,
- 4, // layer 2
- 1, 1,
- 2, // associated layer
- 0, 1,
- 2, // number of publisher IDs
- 111, // publisher IDs
- 123};
- isValidVmsMessage(*message);
- getSubscribedLayers(*message, offers);
- getAvailableLayers(*message);
+void VehicleHalManagerFuzzer::invokeGetSubscribedLayers(VmsMessageType /*type*/) {
+ int32_t intValue = mFuzzedDataProvider->ConsumeIntegral<int32_t>();
+ VmsOffers offers = {
+ intValue,
+ {VmsLayerOffering(VmsLayer(mFuzzedDataProvider->ConsumeIntegral<int32_t>(),
+ mFuzzedDataProvider->ConsumeIntegral<int32_t>(),
+ mFuzzedDataProvider->ConsumeIntegral<int32_t>()))}};
+ auto message = createBaseVmsMessage(
+ mFuzzedDataProvider->ConsumeIntegralInRange<size_t>(kMinSize, kMaxFileSize));
+ std::vector<int32_t> v;
+ size_t size = mFuzzedDataProvider->ConsumeIntegralInRange<size_t>(kMinSize, kMaxSize);
+ for (size_t i = 0; i < size; i++) {
+ v.push_back(mFuzzedDataProvider->ConsumeIntegralInRange<int32_t>(kMinSize, kMaxSize));
+ }
+
+ message->value.int32Values = hidl_vec<int32_t>(v);
+ if (!isValidVmsMessage(*message)) {
+ return;
+ }
+
+ if (mFuzzedDataProvider->ConsumeBool()) {
+ getSubscribedLayers(*message, offers);
+ } else {
+ getAvailableLayers(*message);
+ }
}
void VehicleHalManagerFuzzer::invokeVehiclePropStore() {
@@ -398,33 +503,49 @@
.prop = vehicleProp,
.access = VehiclePropertyAccess::READ,
.changeMode = VehiclePropertyChangeMode::STATIC,
- .areaConfigs = {VehicleAreaConfig{.areaId = (0)}},
+ .areaConfigs = {VehicleAreaConfig{
+ .areaId = (mFuzzedDataProvider->ConsumeIntegral<int32_t>())}},
};
- store->registerProperty(config);
VehiclePropValue propValue{};
propValue.prop = vehicleProp;
- propValue.areaId = 0;
- store->writeValue(propValue, shouldWriteStatus);
- store->readAllValues();
- store->getAllConfigs();
- store->getConfigOrNull(vehicleProp);
- store->readValuesForProperty(vehicleProp);
- store->readValueOrNull(propValue);
- store->readValueOrNull(propValue.prop, propValue.areaId, 0);
- store->removeValuesForProperty(vehicleProp);
- store->removeValue(propValue);
- store->getConfigOrDie(vehicleProp);
+ propValue.areaId = mFuzzedDataProvider->ConsumeIntegral<int32_t>();
+
+ auto invokeVehiclePropStoreAPI =
+ mFuzzedDataProvider->PickValueInArray<const std::function<void()>>({
+ [&]() { store->registerProperty(config); },
+ [&]() { store->writeValue(propValue, shouldWriteStatus); },
+ [&]() { store->readAllValues(); },
+ [&]() { store->getAllConfigs(); },
+ [&]() { store->getConfigOrNull(vehicleProp); },
+ [&]() { store->readValuesForProperty(vehicleProp); },
+ [&]() { store->readValueOrNull(propValue); },
+ [&]() {
+ store->readValueOrNull(propValue.prop, propValue.areaId,
+ mFuzzedDataProvider->ConsumeIntegralInRange<int64_t>(
+ kMinSize, kMaxFileSize));
+ },
+ [&]() { store->removeValuesForProperty(vehicleProp); },
+ [&]() { store->removeValue(propValue); },
+ [&]() {
+ if (store->getConfigOrNull(vehicleProp)) {
+ store->getConfigOrDie(vehicleProp);
+ }
+ },
+ });
+ invokeVehiclePropStoreAPI();
}
void VehicleHalManagerFuzzer::invokeWatchDogClient() {
- auto service = new VehicleHalManager(mHal.get());
sp<Looper> looper(Looper::prepare(/*opts=*/mFuzzedDataProvider->ConsumeBool()));
- if (auto watchdogClient = ndk::SharedRefBase::make<WatchdogClient>(looper, service);
+ if (auto watchdogClient = ndk::SharedRefBase::make<WatchdogClient>(looper, mManager.get());
watchdogClient->initialize()) {
- watchdogClient->checkIfAlive(-1, TimeoutLength::TIMEOUT_NORMAL);
+ if (mFuzzedDataProvider->ConsumeBool()) {
+ watchdogClient->checkIfAlive(
+ mFuzzedDataProvider->ConsumeIntegral<int32_t>(),
+ (TimeoutLength)mFuzzedDataProvider->ConsumeIntegral<int32_t>());
+ }
watchdogClient->prepareProcessTermination();
}
- delete service;
}
extern "C" int LLVMFuzzerTestOneInput(const uint8_t* data, size_t size) {
diff --git a/automotive/vehicle/2.0/default/tests/fuzzer/VehicleManager_fuzzer.h b/automotive/vehicle/2.0/default/tests/fuzzer/VehicleManager_fuzzer.h
index e9335d3..26ac11e 100644
--- a/automotive/vehicle/2.0/default/tests/fuzzer/VehicleManager_fuzzer.h
+++ b/automotive/vehicle/2.0/default/tests/fuzzer/VehicleManager_fuzzer.h
@@ -98,6 +98,13 @@
}
void process(const uint8_t* data, size_t size);
+ template <typename T>
+ void fillParameter(size_t size, std::vector<T>& data) {
+ for (size_t i = 0; i < size; ++i) {
+ data.push_back(mFuzzedDataProvider->ConsumeIntegral<T>());
+ }
+ }
+
private:
FuzzedDataProvider* mFuzzedDataProvider = nullptr;
VehiclePropValue mActualValue = VehiclePropValue{};
@@ -108,6 +115,7 @@
std::unique_ptr<VehicleHalManager> mManager;
void invokeDebug();
+ void initValue();
void invokePropConfigs();
void invokeSubscribe();
void invokeSetAndGetValues();
diff --git a/automotive/vehicle/aidl/impl/fake_impl/GeneratorHub/include/LinearFakeValueGenerator.h b/automotive/vehicle/aidl/impl/fake_impl/GeneratorHub/include/LinearFakeValueGenerator.h
index d2b701d..2378676 100644
--- a/automotive/vehicle/aidl/impl/fake_impl/GeneratorHub/include/LinearFakeValueGenerator.h
+++ b/automotive/vehicle/aidl/impl/fake_impl/GeneratorHub/include/LinearFakeValueGenerator.h
@@ -57,7 +57,7 @@
float dispersion; // Defines minimum and maximum value based on initial value.
float increment; // Value that we will be added to currentValue with each timer tick.
int64_t interval;
- long lastEventTimestamp;
+ int64_t lastEventTimestamp;
};
GeneratorCfg mGenCfg;
diff --git a/automotive/vehicle/aidl/impl/fake_impl/GeneratorHub/src/LinearFakeValueGenerator.cpp b/automotive/vehicle/aidl/impl/fake_impl/GeneratorHub/src/LinearFakeValueGenerator.cpp
index 9133144..fe08dcf 100644
--- a/automotive/vehicle/aidl/impl/fake_impl/GeneratorHub/src/LinearFakeValueGenerator.cpp
+++ b/automotive/vehicle/aidl/impl/fake_impl/GeneratorHub/src/LinearFakeValueGenerator.cpp
@@ -86,7 +86,7 @@
if (mGenCfg.lastEventTimestamp == 0) {
mGenCfg.lastEventTimestamp = elapsedRealtimeNano();
} else {
- long nextEventTime = mGenCfg.lastEventTimestamp + mGenCfg.interval;
+ int64_t nextEventTime = mGenCfg.lastEventTimestamp + mGenCfg.interval;
// Prevent overflow.
assert(nextEventTime > mGenCfg.lastEventTimestamp);
mGenCfg.lastEventTimestamp = nextEventTime;
diff --git a/automotive/vehicle/aidl/impl/fake_impl/hardware/include/FakeVehicleHardware.h b/automotive/vehicle/aidl/impl/fake_impl/hardware/include/FakeVehicleHardware.h
index c3ebd3b..af1bb1d 100644
--- a/automotive/vehicle/aidl/impl/fake_impl/hardware/include/FakeVehicleHardware.h
+++ b/automotive/vehicle/aidl/impl/fake_impl/hardware/include/FakeVehicleHardware.h
@@ -99,12 +99,17 @@
const std::shared_ptr<VehiclePropValuePool> mValuePool;
const std::shared_ptr<VehiclePropertyStore> mServerSidePropStore;
+ const std::string mDefaultConfigDir;
+ const std::string mOverrideConfigDir;
+
ValueResultType getValue(
const aidl::android::hardware::automotive::vehicle::VehiclePropValue& value) const;
VhalResult<void> setValue(
const aidl::android::hardware::automotive::vehicle::VehiclePropValue& value);
+ bool UseOverrideConfigDir();
+
private:
// Expose private methods to unit test.
friend class FakeVehicleHardwareTestHelper;
@@ -156,8 +161,6 @@
aidl::android::hardware::automotive::vehicle::SetValueRequest>
mPendingSetValueRequests;
- const std::string mDefaultConfigDir;
- const std::string mOverrideConfigDir;
const bool mForceOverride;
bool mAddExtraTestVendorConfigs;
diff --git a/automotive/vehicle/aidl/impl/fake_impl/hardware/src/FakeVehicleHardware.cpp b/automotive/vehicle/aidl/impl/fake_impl/hardware/src/FakeVehicleHardware.cpp
index 3f5e4c4..250a226 100644
--- a/automotive/vehicle/aidl/impl/fake_impl/hardware/src/FakeVehicleHardware.cpp
+++ b/automotive/vehicle/aidl/impl/fake_impl/hardware/src/FakeVehicleHardware.cpp
@@ -39,7 +39,6 @@
#include <dirent.h>
#include <inttypes.h>
#include <sys/types.h>
-#include <fstream>
#include <regex>
#include <unordered_set>
#include <vector>
@@ -205,9 +204,10 @@
// Create a separate instance for each individual zone
VehiclePropValue prop = {
+ .timestamp = elapsedRealtimeNano(),
.areaId = curArea,
.prop = propId,
- .timestamp = elapsedRealtimeNano(),
+ .value = {},
};
if (config.initialAreaValues.empty()) {
@@ -240,6 +240,8 @@
std::string overrideConfigDir, bool forceOverride)
: mValuePool(std::make_unique<VehiclePropValuePool>()),
mServerSidePropStore(new VehiclePropertyStore(mValuePool)),
+ mDefaultConfigDir(defaultConfigDir),
+ mOverrideConfigDir(overrideConfigDir),
mFakeObd2Frame(new obd2frame::FakeObd2Frame(mServerSidePropStore)),
mFakeUserHal(new FakeUserHal(mValuePool)),
mRecurrentTimer(new RecurrentTimer()),
@@ -247,8 +249,6 @@
[this](const VehiclePropValue& value) { eventFromVehicleBus(value); })),
mPendingGetValueRequests(this),
mPendingSetValueRequests(this),
- mDefaultConfigDir(defaultConfigDir),
- mOverrideConfigDir(overrideConfigDir),
mForceOverride(forceOverride) {
init();
}
@@ -259,11 +259,15 @@
mGeneratorHub.reset();
}
+bool FakeVehicleHardware::UseOverrideConfigDir() {
+ return mForceOverride ||
+ android::base::GetBoolProperty(OVERRIDE_PROPERTY, /*default_value=*/false);
+}
+
std::unordered_map<int32_t, ConfigDeclaration> FakeVehicleHardware::loadConfigDeclarations() {
std::unordered_map<int32_t, ConfigDeclaration> configsByPropId;
loadPropConfigsFromDir(mDefaultConfigDir, &configsByPropId);
- if (mForceOverride ||
- android::base::GetBoolProperty(OVERRIDE_PROPERTY, /*default_value=*/false)) {
+ if (UseOverrideConfigDir()) {
loadPropConfigsFromDir(mOverrideConfigDir, &configsByPropId);
}
return configsByPropId;
@@ -938,7 +942,7 @@
<< StringPrintf("failed to get special value: %d, error: %s", value.prop,
getErrorMsg(result).c_str());
} else {
- return std::move(result);
+ return result;
}
}
@@ -953,7 +957,7 @@
}
}
- return std::move(readResult);
+ return readResult;
}
DumpResult FakeVehicleHardware::dump(const std::vector<std::string>& options) {
@@ -990,9 +994,11 @@
} else if (EqualsIgnoreCase(option, "--genTestVendorConfigs")) {
mAddExtraTestVendorConfigs = true;
result.refreshPropertyConfigs = true;
+ result.buffer = "successfully generated vendor configs";
} else if (EqualsIgnoreCase(option, "--restoreVendorConfigs")) {
mAddExtraTestVendorConfigs = false;
result.refreshPropertyConfigs = true;
+ result.buffer = "successfully restored vendor configs";
} else {
result.buffer = StringPrintf("Invalid option: %s\n", option.c_str());
}
@@ -1328,9 +1334,9 @@
VehiclePropValue FakeVehicleHardware::createHwInputKeyProp(VehicleHwKeyInputAction action,
int32_t keyCode, int32_t targetDisplay) {
VehiclePropValue value = {
- .prop = toInt(VehicleProperty::HW_KEY_INPUT),
- .areaId = 0,
.timestamp = elapsedRealtimeNano(),
+ .areaId = 0,
+ .prop = toInt(VehicleProperty::HW_KEY_INPUT),
.status = VehiclePropertyStatus::AVAILABLE,
.value.int32Values = {toInt(action), keyCode, targetDisplay},
};
@@ -1340,9 +1346,9 @@
VehiclePropValue FakeVehicleHardware::createHwKeyInputV2Prop(int32_t area, int32_t targetDisplay,
int32_t keyCode, int32_t action,
int32_t repeatCount) {
- VehiclePropValue value = {.prop = toInt(VehicleProperty::HW_KEY_INPUT_V2),
+ VehiclePropValue value = {.timestamp = elapsedRealtimeNano(),
.areaId = area,
- .timestamp = elapsedRealtimeNano(),
+ .prop = toInt(VehicleProperty::HW_KEY_INPUT_V2),
.status = VehiclePropertyStatus::AVAILABLE,
.value.int32Values = {targetDisplay, keyCode, action, repeatCount},
.value.int64Values = {elapsedRealtimeNano()}};
@@ -1380,9 +1386,9 @@
floatValues.push_back(size[i]);
}
- VehiclePropValue value = {.prop = toInt(VehicleProperty::HW_MOTION_INPUT),
+ VehiclePropValue value = {.timestamp = elapsedRealtimeNano(),
.areaId = area,
- .timestamp = elapsedRealtimeNano(),
+ .prop = toInt(VehicleProperty::HW_MOTION_INPUT),
.status = VehiclePropertyStatus::AVAILABLE,
.value.int32Values = intValues,
.value.floatValues = floatValues,
@@ -1451,8 +1457,9 @@
std::string FakeVehicleHardware::dumpOnePropertyById(int32_t propId, int32_t areaId) {
VehiclePropValue value = {
- .prop = propId,
.areaId = areaId,
+ .prop = propId,
+ .value = {},
};
bool isSpecialValue = false;
auto result = maybeGetSpecialValue(value, &isSpecialValue);
@@ -1523,12 +1530,12 @@
while (*index < options.size()) {
std::string option = options[*index];
if (SET_PROP_OPTIONS.find(option) != SET_PROP_OPTIONS.end()) {
- return std::move(values);
+ return values;
}
values.push_back(option);
(*index)++;
}
- return std::move(values);
+ return values;
}
Result<VehiclePropValue> FakeVehicleHardware::parsePropOptions(
@@ -1808,6 +1815,7 @@
void FakeVehicleHardware::registerOnPropertySetErrorEvent(
std::unique_ptr<const PropertySetErrorCallback> callback) {
+ // In FakeVehicleHardware, we will never use mOnPropertySetErrorCallback.
if (mOnPropertySetErrorCallback != nullptr) {
ALOGE("registerOnPropertySetErrorEvent must only be called once");
return;
@@ -1836,8 +1844,9 @@
// Refresh the property value. In real implementation, this should poll the latest value
// from vehicle bus. Here, we are just refreshing the existing value with a new timestamp.
auto result = getValue(VehiclePropValue{
- .prop = propId,
.areaId = areaId,
+ .prop = propId,
+ .value = {},
});
if (!result.ok()) {
// Failed to read current value, skip refreshing.
diff --git a/automotive/vehicle/aidl/impl/grpc/GRPCVehicleHardware.h b/automotive/vehicle/aidl/impl/grpc/GRPCVehicleHardware.h
index e740da7..ddd620e 100644
--- a/automotive/vehicle/aidl/impl/grpc/GRPCVehicleHardware.h
+++ b/automotive/vehicle/aidl/impl/grpc/GRPCVehicleHardware.h
@@ -82,6 +82,10 @@
bool waitForConnected(std::chrono::milliseconds waitTime);
+ protected:
+ std::shared_mutex mCallbackMutex;
+ std::unique_ptr<const PropertyChangeCallback> mOnPropChange;
+
private:
void ValuePollingLoop();
@@ -90,8 +94,6 @@
std::unique_ptr<proto::VehicleServer::Stub> mGrpcStub;
std::thread mValuePollingThread;
- std::shared_mutex mCallbackMutex;
- std::unique_ptr<const PropertyChangeCallback> mOnPropChange;
std::unique_ptr<const PropertySetErrorCallback> mOnSetErr;
std::mutex mShutdownMutex;
diff --git a/automotive/vehicle/aidl/impl/vhal/include/ConnectedClient.h b/automotive/vehicle/aidl/impl/vhal/include/ConnectedClient.h
index 2e7298f..b3f4a0f 100644
--- a/automotive/vehicle/aidl/impl/vhal/include/ConnectedClient.h
+++ b/automotive/vehicle/aidl/impl/vhal/include/ConnectedClient.h
@@ -107,12 +107,18 @@
// Gets the callback to be called when the request for this client has finished.
std::shared_ptr<const IVehicleHardware::GetValuesCallback> getResultCallback();
- // Marshals the updated values into largeParcelable and sents it through {@code onPropertyEvent}
+ // Marshals the updated values into largeParcelable and sends it through {@code onPropertyEvent}
// callback.
static void sendUpdatedValues(
CallbackType callback,
std::vector<aidl::android::hardware::automotive::vehicle::VehiclePropValue>&&
updatedValues);
+ // Marshals the set property error events into largeParcelable and sends it through
+ // {@code onPropertySetError} callback.
+ static void sendPropertySetErrors(
+ CallbackType callback,
+ std::vector<aidl::android::hardware::automotive::vehicle::VehiclePropError>&&
+ vehiclePropErrors);
protected:
// Gets the callback to be called when the request for this client has timeout.
diff --git a/automotive/vehicle/aidl/impl/vhal/include/DefaultVehicleHal.h b/automotive/vehicle/aidl/impl/vhal/include/DefaultVehicleHal.h
index 2c2cf1a..74ad7ea 100644
--- a/automotive/vehicle/aidl/impl/vhal/include/DefaultVehicleHal.h
+++ b/automotive/vehicle/aidl/impl/vhal/include/DefaultVehicleHal.h
@@ -249,10 +249,14 @@
const CallbackType& callback, std::shared_ptr<PendingRequestPool> pendingRequestPool);
static void onPropertyChangeEvent(
- std::weak_ptr<SubscriptionManager> subscriptionManager,
+ const std::weak_ptr<SubscriptionManager>& subscriptionManager,
const std::vector<aidl::android::hardware::automotive::vehicle::VehiclePropValue>&
updatedValues);
+ static void onPropertySetErrorEvent(
+ const std::weak_ptr<SubscriptionManager>& subscriptionManager,
+ const std::vector<SetValueErrorEvent>& errorEvents);
+
static void checkHealth(IVehicleHardware* hardware,
std::weak_ptr<SubscriptionManager> subscriptionManager);
diff --git a/automotive/vehicle/aidl/impl/vhal/include/SubscriptionManager.h b/automotive/vehicle/aidl/impl/vhal/include/SubscriptionManager.h
index 14799d9..301d56c 100644
--- a/automotive/vehicle/aidl/impl/vhal/include/SubscriptionManager.h
+++ b/automotive/vehicle/aidl/impl/vhal/include/SubscriptionManager.h
@@ -99,6 +99,12 @@
const std::vector<aidl::android::hardware::automotive::vehicle::VehiclePropValue>&
updatedValues);
+ // For a list of set property error events, returns a map that maps clients subscribing to the
+ // properties to a list of errors for each client.
+ std::unordered_map<CallbackType,
+ std::vector<aidl::android::hardware::automotive::vehicle::VehiclePropError>>
+ getSubscribedClientsForErrorEvents(const std::vector<SetValueErrorEvent>& errorEvents);
+
// Checks whether the sample rate is valid.
static bool checkSampleRateHz(float sampleRateHz);
diff --git a/automotive/vehicle/aidl/impl/vhal/src/ConnectedClient.cpp b/automotive/vehicle/aidl/impl/vhal/src/ConnectedClient.cpp
index 81d231c..fb23a25 100644
--- a/automotive/vehicle/aidl/impl/vhal/src/ConnectedClient.cpp
+++ b/automotive/vehicle/aidl/impl/vhal/src/ConnectedClient.cpp
@@ -38,6 +38,8 @@
using ::aidl::android::hardware::automotive::vehicle::SetValueResult;
using ::aidl::android::hardware::automotive::vehicle::SetValueResults;
using ::aidl::android::hardware::automotive::vehicle::StatusCode;
+using ::aidl::android::hardware::automotive::vehicle::VehiclePropError;
+using ::aidl::android::hardware::automotive::vehicle::VehiclePropErrors;
using ::aidl::android::hardware::automotive::vehicle::VehiclePropValue;
using ::aidl::android::hardware::automotive::vehicle::VehiclePropValues;
using ::android::base::Result;
@@ -300,7 +302,34 @@
if (ScopedAStatus callbackStatus =
callback->onPropertyEvent(vehiclePropValues, sharedMemoryFileCount);
!callbackStatus.isOk()) {
- ALOGE("subscribe: failed to call UpdateValues callback, client ID: %p, error: %s, "
+ ALOGE("subscribe: failed to call onPropertyEvent callback, client ID: %p, error: %s, "
+ "exception: %d, service specific error: %d",
+ callback->asBinder().get(), callbackStatus.getMessage(),
+ callbackStatus.getExceptionCode(), callbackStatus.getServiceSpecificError());
+ }
+}
+
+void SubscriptionClient::sendPropertySetErrors(std::shared_ptr<IVehicleCallback> callback,
+ std::vector<VehiclePropError>&& vehiclePropErrors) {
+ if (vehiclePropErrors.empty()) {
+ return;
+ }
+
+ VehiclePropErrors vehiclePropErrorsLargeParcelable;
+ ScopedAStatus status = vectorToStableLargeParcelable(std::move(vehiclePropErrors),
+ &vehiclePropErrorsLargeParcelable);
+ if (!status.isOk()) {
+ int statusCode = status.getServiceSpecificError();
+ ALOGE("subscribe: failed to marshal result into large parcelable, error: "
+ "%s, code: %d",
+ status.getMessage(), statusCode);
+ return;
+ }
+
+ if (ScopedAStatus callbackStatus =
+ callback->onPropertySetError(vehiclePropErrorsLargeParcelable);
+ !callbackStatus.isOk()) {
+ ALOGE("subscribe: failed to call onPropertySetError callback, client ID: %p, error: %s, "
"exception: %d, service specific error: %d",
callback->asBinder().get(), callbackStatus.getMessage(),
callbackStatus.getExceptionCode(), callbackStatus.getServiceSpecificError());
diff --git a/automotive/vehicle/aidl/impl/vhal/src/DefaultVehicleHal.cpp b/automotive/vehicle/aidl/impl/vhal/src/DefaultVehicleHal.cpp
index 98cfc39..0d5c070 100644
--- a/automotive/vehicle/aidl/impl/vhal/src/DefaultVehicleHal.cpp
+++ b/automotive/vehicle/aidl/impl/vhal/src/DefaultVehicleHal.cpp
@@ -144,6 +144,11 @@
[subscriptionManagerCopy](std::vector<VehiclePropValue> updatedValues) {
onPropertyChangeEvent(subscriptionManagerCopy, updatedValues);
}));
+ mVehicleHardware->registerOnPropertySetErrorEvent(
+ std::make_unique<IVehicleHardware::PropertySetErrorCallback>(
+ [subscriptionManagerCopy](std::vector<SetValueErrorEvent> errorEvents) {
+ onPropertySetErrorEvent(subscriptionManagerCopy, errorEvents);
+ }));
// Register heartbeat event.
mRecurrentAction = std::make_shared<std::function<void()>>(
@@ -177,7 +182,7 @@
}
void DefaultVehicleHal::onPropertyChangeEvent(
- std::weak_ptr<SubscriptionManager> subscriptionManager,
+ const std::weak_ptr<SubscriptionManager>& subscriptionManager,
const std::vector<VehiclePropValue>& updatedValues) {
auto manager = subscriptionManager.lock();
if (manager == nullptr) {
@@ -194,6 +199,20 @@
}
}
+void DefaultVehicleHal::onPropertySetErrorEvent(
+ const std::weak_ptr<SubscriptionManager>& subscriptionManager,
+ const std::vector<SetValueErrorEvent>& errorEvents) {
+ auto manager = subscriptionManager.lock();
+ if (manager == nullptr) {
+ ALOGW("the SubscriptionManager is destroyed, DefaultVehicleHal is ending");
+ return;
+ }
+ auto vehiclePropErrorsByClient = manager->getSubscribedClientsForErrorEvents(errorEvents);
+ for (auto& [callback, vehiclePropErrors] : vehiclePropErrorsByClient) {
+ SubscriptionClient::sendPropertySetErrors(callback, std::move(vehiclePropErrors));
+ }
+}
+
template <class T>
std::shared_ptr<T> DefaultVehicleHal::getOrCreateClient(
std::unordered_map<const AIBinder*, std::shared_ptr<T>>* clients,
@@ -692,15 +711,19 @@
// Create a new SubscriptionClient if there isn't an existing one.
mSubscriptionClients->maybeAddClient(callback);
- // Since we have already check the sample rates, the following functions must succeed.
if (!onChangeSubscriptions.empty()) {
- return toScopedAStatus(mSubscriptionManager->subscribe(callback, onChangeSubscriptions,
- /*isContinuousProperty=*/false));
+ auto result = mSubscriptionManager->subscribe(callback, onChangeSubscriptions,
+ /*isContinuousProperty=*/false);
+ if (!result.ok()) {
+ return toScopedAStatus(result);
+ }
}
if (!continuousSubscriptions.empty()) {
- return toScopedAStatus(mSubscriptionManager->subscribe(callback,
- continuousSubscriptions,
- /*isContinuousProperty=*/true));
+ auto result = mSubscriptionManager->subscribe(callback, continuousSubscriptions,
+ /*isContinuousProperty=*/true);
+ if (!result.ok()) {
+ return toScopedAStatus(result);
+ }
}
}
return ScopedAStatus::ok();
diff --git a/automotive/vehicle/aidl/impl/vhal/src/SubscriptionManager.cpp b/automotive/vehicle/aidl/impl/vhal/src/SubscriptionManager.cpp
index bba730f..1f2690e 100644
--- a/automotive/vehicle/aidl/impl/vhal/src/SubscriptionManager.cpp
+++ b/automotive/vehicle/aidl/impl/vhal/src/SubscriptionManager.cpp
@@ -36,6 +36,7 @@
using ::aidl::android::hardware::automotive::vehicle::IVehicleCallback;
using ::aidl::android::hardware::automotive::vehicle::StatusCode;
using ::aidl::android::hardware::automotive::vehicle::SubscribeOptions;
+using ::aidl::android::hardware::automotive::vehicle::VehiclePropError;
using ::aidl::android::hardware::automotive::vehicle::VehiclePropValue;
using ::android::base::Error;
using ::android::base::Result;
@@ -269,6 +270,32 @@
return clients;
}
+std::unordered_map<std::shared_ptr<IVehicleCallback>, std::vector<VehiclePropError>>
+SubscriptionManager::getSubscribedClientsForErrorEvents(
+ const std::vector<SetValueErrorEvent>& errorEvents) {
+ std::scoped_lock<std::mutex> lockGuard(mLock);
+ std::unordered_map<std::shared_ptr<IVehicleCallback>, std::vector<VehiclePropError>> clients;
+
+ for (const auto& errorEvent : errorEvents) {
+ PropIdAreaId propIdAreaId{
+ .propId = errorEvent.propId,
+ .areaId = errorEvent.areaId,
+ };
+ if (mClientsByPropIdArea.find(propIdAreaId) == mClientsByPropIdArea.end()) {
+ continue;
+ }
+
+ for (const auto& [_, client] : mClientsByPropIdArea[propIdAreaId]) {
+ clients[client].push_back({
+ .propId = errorEvent.propId,
+ .areaId = errorEvent.areaId,
+ .errorCode = errorEvent.errorCode,
+ });
+ }
+ }
+ return clients;
+}
+
bool SubscriptionManager::isEmpty() {
std::scoped_lock<std::mutex> lockGuard(mLock);
return mSubscribedPropsByClient.empty() && mClientsByPropIdArea.empty();
diff --git a/automotive/vehicle/aidl/impl/vhal/test/DefaultVehicleHalTest.cpp b/automotive/vehicle/aidl/impl/vhal/test/DefaultVehicleHalTest.cpp
index 05e569a..96b71f0 100644
--- a/automotive/vehicle/aidl/impl/vhal/test/DefaultVehicleHalTest.cpp
+++ b/automotive/vehicle/aidl/impl/vhal/test/DefaultVehicleHalTest.cpp
@@ -62,6 +62,7 @@
using ::aidl::android::hardware::automotive::vehicle::VehicleAreaWindow;
using ::aidl::android::hardware::automotive::vehicle::VehiclePropConfig;
using ::aidl::android::hardware::automotive::vehicle::VehiclePropConfigs;
+using ::aidl::android::hardware::automotive::vehicle::VehiclePropError;
using ::aidl::android::hardware::automotive::vehicle::VehiclePropErrors;
using ::aidl::android::hardware::automotive::vehicle::VehicleProperty;
using ::aidl::android::hardware::automotive::vehicle::VehiclePropertyAccess;
@@ -1653,6 +1654,63 @@
ASSERT_EQ(msg.find("Vehicle HAL State: "), std::string::npos);
}
+TEST_F(DefaultVehicleHalTest, testOnPropertySetErrorEvent) {
+ std::vector<SubscribeOptions> options = {
+ {
+ .propId = GLOBAL_ON_CHANGE_PROP,
+ .areaIds = {0},
+ },
+ {
+ .propId = GLOBAL_CONTINUOUS_PROP,
+ .areaIds = {0},
+ .sampleRate = 1,
+ },
+ };
+ auto status = getClient()->subscribe(getCallbackClient(), options, 0);
+ ASSERT_TRUE(status.isOk()) << "subscribe failed: " << status.getMessage();
+ std::vector<SetValueErrorEvent> errorEvents = {
+ {
+ .propId = GLOBAL_ON_CHANGE_PROP,
+ .areaId = 0,
+ .errorCode = StatusCode::INTERNAL_ERROR,
+ },
+ {
+ .propId = GLOBAL_ON_CHANGE_PROP,
+ .areaId = 0,
+ .errorCode = StatusCode::ACCESS_DENIED,
+ },
+ {
+ .propId = GLOBAL_CONTINUOUS_PROP,
+ .areaId = 0,
+ .errorCode = StatusCode::INVALID_ARG,
+ },
+ };
+ std::vector<VehiclePropError> expectedResults = {
+ {
+ .propId = GLOBAL_ON_CHANGE_PROP,
+ .areaId = 0,
+ .errorCode = StatusCode::INTERNAL_ERROR,
+ },
+ {
+ .propId = GLOBAL_ON_CHANGE_PROP,
+ .areaId = 0,
+ .errorCode = StatusCode::ACCESS_DENIED,
+ },
+ {
+ .propId = GLOBAL_CONTINUOUS_PROP,
+ .areaId = 0,
+ .errorCode = StatusCode::INVALID_ARG,
+ },
+ };
+ getHardware()->sendOnPropertySetErrorEvent(errorEvents);
+
+ ASSERT_EQ(getCallback()->countOnPropertySetErrorResults(), 1u);
+ auto maybeVehiclePropErrors = getCallback()->nextOnPropertySetErrorResults();
+ ASSERT_TRUE(maybeVehiclePropErrors.has_value());
+ const auto& vehiclePropErrors = maybeVehiclePropErrors.value();
+ ASSERT_THAT(vehiclePropErrors.payloads, UnorderedElementsAreArray(expectedResults));
+}
+
} // namespace vehicle
} // namespace automotive
} // namespace hardware
diff --git a/automotive/vehicle/aidl/impl/vhal/test/MockVehicleCallback.cpp b/automotive/vehicle/aidl/impl/vhal/test/MockVehicleCallback.cpp
index f51ce5c..54fede1 100644
--- a/automotive/vehicle/aidl/impl/vhal/test/MockVehicleCallback.cpp
+++ b/automotive/vehicle/aidl/impl/vhal/test/MockVehicleCallback.cpp
@@ -81,8 +81,14 @@
return result;
}
-ScopedAStatus MockVehicleCallback::onPropertySetError(const VehiclePropErrors&) {
- return ScopedAStatus::ok();
+ScopedAStatus MockVehicleCallback::onPropertySetError(const VehiclePropErrors& results) {
+ ScopedAStatus result;
+ {
+ std::scoped_lock<std::mutex> lockGuard(mLock);
+ result = storeResults(results, &mOnPropertySetErrorResults);
+ }
+ mCond.notify_all();
+ return result;
}
std::optional<GetValueResults> MockVehicleCallback::nextGetValueResults() {
@@ -105,6 +111,16 @@
return mOnPropertyEventResults.size();
}
+std::optional<VehiclePropErrors> MockVehicleCallback::nextOnPropertySetErrorResults() {
+ std::scoped_lock<std::mutex> lockGuard(mLock);
+ return pop(mOnPropertySetErrorResults);
+}
+
+size_t MockVehicleCallback::countOnPropertySetErrorResults() {
+ std::scoped_lock<std::mutex> lockGuard(mLock);
+ return mOnPropertySetErrorResults.size();
+}
+
bool MockVehicleCallback::waitForSetValueResults(size_t size, size_t timeoutInNano) {
std::unique_lock lk(mLock);
return mCond.wait_for(lk, std::chrono::nanoseconds(timeoutInNano), [this, size] {
diff --git a/automotive/vehicle/aidl/impl/vhal/test/MockVehicleCallback.h b/automotive/vehicle/aidl/impl/vhal/test/MockVehicleCallback.h
index f17b273..1545eae 100644
--- a/automotive/vehicle/aidl/impl/vhal/test/MockVehicleCallback.h
+++ b/automotive/vehicle/aidl/impl/vhal/test/MockVehicleCallback.h
@@ -63,6 +63,9 @@
nextSetValueResults();
std::optional<aidl::android::hardware::automotive::vehicle::VehiclePropValues>
nextOnPropertyEventResults();
+ size_t countOnPropertySetErrorResults();
+ std::optional<aidl::android::hardware::automotive::vehicle::VehiclePropErrors>
+ nextOnPropertySetErrorResults();
size_t countOnPropertyEventResults();
bool waitForSetValueResults(size_t size, size_t timeoutInNano);
bool waitForGetValueResults(size_t size, size_t timeoutInNano);
@@ -77,6 +80,8 @@
std::list<aidl::android::hardware::automotive::vehicle::VehiclePropValues>
mOnPropertyEventResults GUARDED_BY(mLock);
int32_t mSharedMemoryFileCount GUARDED_BY(mLock);
+ std::list<aidl::android::hardware::automotive::vehicle::VehiclePropErrors>
+ mOnPropertySetErrorResults GUARDED_BY(mLock);
};
} // namespace vehicle
diff --git a/automotive/vehicle/aidl/impl/vhal/test/MockVehicleHardware.cpp b/automotive/vehicle/aidl/impl/vhal/test/MockVehicleHardware.cpp
index 4df4e1a..ba0d33d 100644
--- a/automotive/vehicle/aidl/impl/vhal/test/MockVehicleHardware.cpp
+++ b/automotive/vehicle/aidl/impl/vhal/test/MockVehicleHardware.cpp
@@ -131,8 +131,9 @@
}
void MockVehicleHardware::registerOnPropertySetErrorEvent(
- std::unique_ptr<const PropertySetErrorCallback>) {
- // TODO(b/200737967): mock this.
+ std::unique_ptr<const PropertySetErrorCallback> callback) {
+ std::scoped_lock<std::mutex> lockGuard(mLock);
+ mPropertySetErrorCallback = std::move(callback);
}
void MockVehicleHardware::setPropertyConfigs(const std::vector<VehiclePropConfig>& configs) {
@@ -254,6 +255,12 @@
std::list<std::vector<SetValueRequest>>* storedRequests,
std::list<std::vector<SetValueResult>>* storedResponses) const;
+void MockVehicleHardware::sendOnPropertySetErrorEvent(
+ const std::vector<SetValueErrorEvent>& errorEvents) {
+ std::scoped_lock<std::mutex> lockGuard(mLock);
+ (*mPropertySetErrorCallback)(errorEvents);
+}
+
} // namespace vehicle
} // namespace automotive
} // namespace hardware
diff --git a/automotive/vehicle/aidl/impl/vhal/test/MockVehicleHardware.h b/automotive/vehicle/aidl/impl/vhal/test/MockVehicleHardware.h
index 743841c..46b30b9 100644
--- a/automotive/vehicle/aidl/impl/vhal/test/MockVehicleHardware.h
+++ b/automotive/vehicle/aidl/impl/vhal/test/MockVehicleHardware.h
@@ -85,6 +85,7 @@
aidl::android::hardware::automotive::vehicle::StatusCode status);
void setSleepTime(int64_t timeInNano);
void setDumpResult(DumpResult result);
+ void sendOnPropertySetErrorEvent(const std::vector<SetValueErrorEvent>& errorEvents);
private:
mutable std::mutex mLock;
@@ -104,6 +105,7 @@
mStatusByFunctions GUARDED_BY(mLock);
int64_t mSleepTime GUARDED_BY(mLock) = 0;
std::unique_ptr<const PropertyChangeCallback> mPropertyChangeCallback GUARDED_BY(mLock);
+ std::unique_ptr<const PropertySetErrorCallback> mPropertySetErrorCallback GUARDED_BY(mLock);
std::function<aidl::android::hardware::automotive::vehicle::StatusCode(
std::shared_ptr<const GetValuesCallback>,
const std::vector<aidl::android::hardware::automotive::vehicle::GetValueRequest>&)>
diff --git a/automotive/vehicle/proto/Android.bp b/automotive/vehicle/proto/Android.bp
index 683f128..e7dabcf 100644
--- a/automotive/vehicle/proto/Android.bp
+++ b/automotive/vehicle/proto/Android.bp
@@ -27,6 +27,7 @@
visibility: [
"//hardware/interfaces/automotive/vehicle:__subpackages__",
"//device/generic/car/emulator:__subpackages__",
+ "//system/software_defined_vehicle/core_services:__subpackages__",
],
vendor: true,
host_supported: true,
diff --git a/biometrics/fingerprint/aidl/default/FakeFingerprintEngine.cpp b/biometrics/fingerprint/aidl/default/FakeFingerprintEngine.cpp
index 90ec8f2..54076c8 100644
--- a/biometrics/fingerprint/aidl/default/FakeFingerprintEngine.cpp
+++ b/biometrics/fingerprint/aidl/default/FakeFingerprintEngine.cpp
@@ -31,6 +31,9 @@
namespace aidl::android::hardware::biometrics::fingerprint {
+FakeFingerprintEngine::FakeFingerprintEngine()
+ : mRandom(std::mt19937::default_seed), mWorkMode(WorkMode::kIdle) {}
+
void FakeFingerprintEngine::generateChallengeImpl(ISessionCallback* cb) {
BEGIN_OP(0);
std::uniform_int_distribution<int64_t> dist;
@@ -48,7 +51,7 @@
void FakeFingerprintEngine::enrollImpl(ISessionCallback* cb,
const keymaster::HardwareAuthToken& hat,
const std::future<void>& cancel) {
- BEGIN_OP(getLatency(FingerprintHalProperties::operation_enroll_latency()));
+ BEGIN_OP(0);
// Do proper HAT verification in the real implementation.
if (hat.mac.empty()) {
@@ -57,13 +60,77 @@
return;
}
+ updateContext(WorkMode::kEnroll, cb, const_cast<std::future<void>&>(cancel), 0, hat);
+}
+
+void FakeFingerprintEngine::authenticateImpl(ISessionCallback* cb, int64_t operationId,
+ const std::future<void>& cancel) {
+ BEGIN_OP(0);
+ updateContext(WorkMode::kAuthenticate, cb, const_cast<std::future<void>&>(cancel), operationId,
+ keymaster::HardwareAuthToken());
+}
+
+void FakeFingerprintEngine::detectInteractionImpl(ISessionCallback* cb,
+ const std::future<void>& cancel) {
+ BEGIN_OP(0);
+
+ auto detectInteractionSupported =
+ FingerprintHalProperties::detect_interaction().value_or(false);
+ if (!detectInteractionSupported) {
+ LOG(ERROR) << "Detect interaction is not supported";
+ cb->onError(Error::UNABLE_TO_PROCESS, 0 /* vendorError */);
+ return;
+ }
+
+ updateContext(WorkMode::kDetectInteract, cb, const_cast<std::future<void>&>(cancel), 0,
+ keymaster::HardwareAuthToken());
+}
+
+void FakeFingerprintEngine::updateContext(WorkMode mode, ISessionCallback* cb,
+ std::future<void>& cancel, int64_t operationId,
+ const keymaster::HardwareAuthToken& hat) {
+ mCancel = std::move(cancel);
+ mWorkMode = mode;
+ mCb = cb;
+ mOperationId = operationId;
+ mHat = hat;
+}
+
+void FakeFingerprintEngine::fingerDownAction() {
+ bool isTerminal = false;
+ LOG(INFO) << __func__;
+ switch (mWorkMode) {
+ case WorkMode::kAuthenticate:
+ isTerminal = onAuthenticateFingerDown(mCb, mOperationId, mCancel);
+ break;
+ case WorkMode::kEnroll:
+ isTerminal = onEnrollFingerDown(mCb, mHat, mCancel);
+ break;
+ case WorkMode::kDetectInteract:
+ isTerminal = onDetectInteractFingerDown(mCb, mCancel);
+ break;
+ default:
+ LOG(WARNING) << "unexpected mode: on fingerDownAction(), " << (int)mWorkMode;
+ break;
+ }
+
+ if (isTerminal) {
+ mWorkMode = WorkMode::kIdle;
+ }
+}
+
+bool FakeFingerprintEngine::onEnrollFingerDown(ISessionCallback* cb,
+ const keymaster::HardwareAuthToken&,
+ const std::future<void>& cancel) {
+ BEGIN_OP(getLatency(FingerprintHalProperties::operation_enroll_latency()));
+
// Force error-out
auto err = FingerprintHalProperties::operation_enroll_error().value_or(0);
if (err != 0) {
LOG(ERROR) << "Fail: operation_enroll_error";
auto ec = convertError(err);
cb->onError(ec.first, ec.second);
- return;
+ return true;
}
// Format is "<id>:<progress_ms-[acquiredInfo..]>,...:<result>
@@ -72,7 +139,7 @@
if (parts.size() != 3) {
LOG(ERROR) << "Fail: invalid next_enrollment:" << nextEnroll;
cb->onError(Error::VENDOR, 0 /* vendorError */);
- return;
+ return true;
}
auto enrollmentId = std::stoi(parts[0]);
auto progress = parseEnrollmentCapture(parts[1]);
@@ -88,7 +155,7 @@
if (shouldCancel(cancel)) {
LOG(ERROR) << "Fail: cancel";
cb->onError(Error::CANCELED, 0 /* vendorCode */);
- return;
+ return true;
}
auto ac = convertAcquiredInfo(acquired[j]);
cb->onAcquired(ac.first, ac.second);
@@ -114,10 +181,13 @@
cb->onEnrollmentProgress(enrollmentId, left);
}
}
+
+ return true;
}
-void FakeFingerprintEngine::authenticateImpl(ISessionCallback* cb, int64_t /* operationId */,
- const std::future<void>& cancel) {
+bool FakeFingerprintEngine::onAuthenticateFingerDown(ISessionCallback* cb,
+ int64_t /* operationId */,
+ const std::future<void>& cancel) {
BEGIN_OP(getLatency(FingerprintHalProperties::operation_authenticate_latency()));
int64_t now = Util::getSystemNanoTime();
@@ -129,19 +199,12 @@
if (N == 0) {
LOG(ERROR) << "Fail to parse authentiate acquired info: " + acquired;
cb->onError(Error::UNABLE_TO_PROCESS, 0 /* vendorError */);
- return;
+ return true;
}
// got lockout?
- FakeLockoutTracker::LockoutMode lockoutMode = mLockoutTracker.getMode();
- if (lockoutMode == FakeLockoutTracker::LockoutMode::kPermanent) {
- LOG(ERROR) << "Fail: lockout permanent";
- cb->onLockoutPermanent();
- return;
- } else if (lockoutMode == FakeLockoutTracker::LockoutMode::kTimed) {
- int64_t timeLeft = mLockoutTracker.getLockoutTimeLeft();
- LOG(ERROR) << "Fail: lockout timed " << timeLeft;
- cb->onLockoutTimed(timeLeft);
+ if (checkSensorLockout(cb)) {
+ return FakeLockoutTracker::LockoutMode::kPermanent == mLockoutTracker.getMode();
}
int i = 0;
@@ -150,7 +213,7 @@
LOG(ERROR) << "Fail: operation_authenticate_fails";
mLockoutTracker.addFailedAttempt();
cb->onAuthenticationFailed();
- return;
+ return false;
}
auto err = FingerprintHalProperties::operation_authenticate_error().value_or(0);
@@ -158,20 +221,21 @@
LOG(ERROR) << "Fail: operation_authenticate_error";
auto ec = convertError(err);
cb->onError(ec.first, ec.second);
- return;
+ return true; /* simply terminating current operation for any user inserted error,
+ revisit if tests need*/
}
if (FingerprintHalProperties::lockout().value_or(false)) {
LOG(ERROR) << "Fail: lockout";
cb->onLockoutPermanent();
cb->onError(Error::HW_UNAVAILABLE, 0 /* vendorError */);
- return;
+ return true;
}
if (shouldCancel(cancel)) {
LOG(ERROR) << "Fail: cancel";
cb->onError(Error::CANCELED, 0 /* vendorCode */);
- return;
+ return true;
}
if (i < N) {
@@ -189,29 +253,23 @@
if (id > 0 && isEnrolled) {
cb->onAuthenticationSucceeded(id, {} /* hat */);
mLockoutTracker.reset();
- return;
+ return true;
} else {
LOG(ERROR) << "Fail: fingerprint not enrolled";
cb->onAuthenticationFailed();
mLockoutTracker.addFailedAttempt();
+ checkSensorLockout(cb);
+ return false;
}
}
-void FakeFingerprintEngine::detectInteractionImpl(ISessionCallback* cb,
- const std::future<void>& cancel) {
+bool FakeFingerprintEngine::onDetectInteractFingerDown(ISessionCallback* cb,
+ const std::future<void>& cancel) {
BEGIN_OP(getLatency(FingerprintHalProperties::operation_detect_interaction_latency()));
int64_t duration =
FingerprintHalProperties::operation_detect_interaction_duration().value_or(10);
- auto detectInteractionSupported =
- FingerprintHalProperties::detect_interaction().value_or(false);
- if (!detectInteractionSupported) {
- LOG(ERROR) << "Detect interaction is not supported";
- cb->onError(Error::UNABLE_TO_PROCESS, 0 /* vendorError */);
- return;
- }
-
auto acquired = FingerprintHalProperties::operation_detect_interaction_acquired().value_or("1");
auto acquiredInfos = parseIntSequence(acquired);
int N = acquiredInfos.size();
@@ -220,7 +278,7 @@
if (N == 0) {
LOG(ERROR) << "Fail to parse detect interaction acquired info: " + acquired;
cb->onError(Error::UNABLE_TO_PROCESS, 0 /* vendorError */);
- return;
+ return true;
}
int i = 0;
@@ -230,13 +288,13 @@
LOG(ERROR) << "Fail: operation_detect_interaction_error";
auto ec = convertError(err);
cb->onError(ec.first, ec.second);
- return;
+ return true;
}
if (shouldCancel(cancel)) {
LOG(ERROR) << "Fail: cancel";
cb->onError(Error::CANCELED, 0 /* vendorCode */);
- return;
+ return true;
}
if (i < N) {
@@ -253,21 +311,18 @@
if (id <= 0 || !isEnrolled) {
LOG(ERROR) << "Fail: not enrolled";
cb->onError(Error::UNABLE_TO_PROCESS, 0 /* vendorError */);
- return;
+ return true;
}
cb->onInteractionDetected();
+
+ return true;
}
void FakeFingerprintEngine::enumerateEnrollmentsImpl(ISessionCallback* cb) {
BEGIN_OP(0);
std::vector<int32_t> ids;
- // There are some enrollment sync issue with framework, which results in
- // a single template removal during the very firt sync command after reboot.
- // This is a workaround for now. TODO(b/243129174)
- ids.push_back(-1);
-
for (auto& enrollment : FingerprintHalProperties::enrollments()) {
auto id = enrollment.value_or(0);
if (id > 0) {
@@ -330,6 +385,11 @@
cb->onError(Error::UNABLE_TO_PROCESS, 0 /* vendorError */);
return;
}
+ clearLockout(cb);
+ isLockoutTimerAborted = true;
+}
+
+void FakeFingerprintEngine::clearLockout(ISessionCallback* cb) {
FingerprintHalProperties::lockout(false);
cb->onLockoutCleared();
mLockoutTracker.reset();
@@ -339,6 +399,7 @@
int32_t /*y*/, float /*minor*/,
float /*major*/) {
BEGIN_OP(0);
+ fingerDownAction();
return ndk::ScopedAStatus::ok();
}
@@ -369,7 +430,8 @@
if (dim.size() >= 4) {
d = dim[3];
}
- if (isValidStr) out = {0, x, y, r, d};
+ if (isValidStr)
+ out = {.sensorLocationX = x, .sensorLocationY = y, .sensorRadius = r, .display = d};
return isValidStr;
}
@@ -385,8 +447,7 @@
}
SensorLocation FakeFingerprintEngine::defaultSensorLocation() {
- return {0 /* displayId (not used) */, 0 /* sensorLocationX */, 0 /* sensorLocationY */,
- 0 /* sensorRadius */, "" /* display */};
+ return SensorLocation();
}
std::vector<int32_t> FakeFingerprintEngine::parseIntSequence(const std::string& str,
@@ -513,4 +574,39 @@
return dist(mRandom);
}
+bool FakeFingerprintEngine::checkSensorLockout(ISessionCallback* cb) {
+ FakeLockoutTracker::LockoutMode lockoutMode = mLockoutTracker.getMode();
+ if (lockoutMode == FakeLockoutTracker::LockoutMode::kPermanent) {
+ LOG(ERROR) << "Fail: lockout permanent";
+ cb->onLockoutPermanent();
+ isLockoutTimerAborted = true;
+ return true;
+ } else if (lockoutMode == FakeLockoutTracker::LockoutMode::kTimed) {
+ int64_t timeLeft = mLockoutTracker.getLockoutTimeLeft();
+ LOG(ERROR) << "Fail: lockout timed " << timeLeft;
+ cb->onLockoutTimed(timeLeft);
+ if (isLockoutTimerSupported && !isLockoutTimerStarted) startLockoutTimer(timeLeft, cb);
+ return true;
+ }
+ return false;
+}
+
+void FakeFingerprintEngine::startLockoutTimer(int64_t timeout, ISessionCallback* cb) {
+ BEGIN_OP(0);
+ std::function<void(ISessionCallback*)> action =
+ std::bind(&FakeFingerprintEngine::lockoutTimerExpired, this, std::placeholders::_1);
+ std::thread([timeout, action, cb]() {
+ std::this_thread::sleep_for(std::chrono::milliseconds(timeout));
+ action(cb);
+ }).detach();
+
+ isLockoutTimerStarted = true;
+}
+void FakeFingerprintEngine::lockoutTimerExpired(ISessionCallback* cb) {
+ if (!isLockoutTimerAborted) {
+ clearLockout(cb);
+ }
+ isLockoutTimerStarted = false;
+ isLockoutTimerAborted = false;
+}
} // namespace aidl::android::hardware::biometrics::fingerprint
diff --git a/biometrics/fingerprint/aidl/default/FakeFingerprintEngineSide.cpp b/biometrics/fingerprint/aidl/default/FakeFingerprintEngineSide.cpp
index 9f736e7..a78cdcd 100644
--- a/biometrics/fingerprint/aidl/default/FakeFingerprintEngineSide.cpp
+++ b/biometrics/fingerprint/aidl/default/FakeFingerprintEngineSide.cpp
@@ -27,11 +27,13 @@
namespace aidl::android::hardware::biometrics::fingerprint {
-SensorLocation FakeFingerprintEngineSide::defaultSensorLocation() {
- SensorLocation location;
+FakeFingerprintEngineSide::FakeFingerprintEngineSide() : FakeFingerprintEngine() {
+ isLockoutTimerSupported = true;
+}
- return {0 /* displayId (not used) */, defaultSensorLocationX /* sensorLocationX */,
- defaultSensorLocationY /* sensorLocationY */, defaultSensorRadius /* sensorRadius */,
- "" /* display */};
+SensorLocation FakeFingerprintEngineSide::defaultSensorLocation() {
+ return SensorLocation{.sensorLocationX = defaultSensorLocationX,
+ .sensorLocationY = defaultSensorLocationY,
+ .sensorRadius = defaultSensorRadius};
}
} // namespace aidl::android::hardware::biometrics::fingerprint
diff --git a/biometrics/fingerprint/aidl/default/FakeFingerprintEngineUdfps.cpp b/biometrics/fingerprint/aidl/default/FakeFingerprintEngineUdfps.cpp
index 3cdfc70..68b0f0d 100644
--- a/biometrics/fingerprint/aidl/default/FakeFingerprintEngineUdfps.cpp
+++ b/biometrics/fingerprint/aidl/default/FakeFingerprintEngineUdfps.cpp
@@ -31,12 +31,12 @@
namespace aidl::android::hardware::biometrics::fingerprint {
FakeFingerprintEngineUdfps::FakeFingerprintEngineUdfps()
- : FakeFingerprintEngine(), mWorkMode(WorkMode::kIdle), mPointerDownTime(0), mUiReadyTime(0) {}
+ : FakeFingerprintEngine(), mPointerDownTime(0), mUiReadyTime(0) {}
SensorLocation FakeFingerprintEngineUdfps::defaultSensorLocation() {
- return {0 /* displayId (not used) */, defaultSensorLocationX /* sensorLocationX */,
- defaultSensorLocationY /* sensorLocationY */, defaultSensorRadius /* sensorRadius */,
- "" /* display */};
+ return SensorLocation{.sensorLocationX = defaultSensorLocationX,
+ .sensorLocationY = defaultSensorLocationY,
+ .sensorRadius = defaultSensorRadius};
}
ndk::ScopedAStatus FakeFingerprintEngineUdfps::onPointerDownImpl(int32_t /*pointerId*/,
@@ -70,68 +70,17 @@
}
void FakeFingerprintEngineUdfps::fingerDownAction() {
- switch (mWorkMode) {
- case WorkMode::kAuthenticate:
- onAuthenticateFingerDown();
- break;
- case WorkMode::kEnroll:
- onEnrollFingerDown();
- break;
- case WorkMode::kDetectInteract:
- onDetectInteractFingerDown();
- break;
- default:
- LOG(WARNING) << "unexpected call: onUiReady()";
- break;
- }
-
+ FakeFingerprintEngine::fingerDownAction();
mUiReadyTime = 0;
mPointerDownTime = 0;
}
-void FakeFingerprintEngineUdfps::onAuthenticateFingerDown() {
- FakeFingerprintEngine::authenticateImpl(mCb, mOperationId, mCancelVec[0]);
-}
-
-void FakeFingerprintEngineUdfps::onEnrollFingerDown() {
- // Any use case to emulate display touch for each capture during enrollment?
- FakeFingerprintEngine::enrollImpl(mCb, mHat, mCancelVec[0]);
-}
-
-void FakeFingerprintEngineUdfps::onDetectInteractFingerDown() {
- FakeFingerprintEngine::detectInteractionImpl(mCb, mCancelVec[0]);
-}
-
-void FakeFingerprintEngineUdfps::enrollImpl(ISessionCallback* cb,
- const keymaster::HardwareAuthToken& hat,
- const std::future<void>& cancel) {
- updateContext(WorkMode::kEnroll, cb, const_cast<std::future<void>&>(cancel), 0, hat);
-}
-
-void FakeFingerprintEngineUdfps::authenticateImpl(ISessionCallback* cb, int64_t operationId,
- const std::future<void>& cancel) {
- updateContext(WorkMode::kAuthenticate, cb, const_cast<std::future<void>&>(cancel), operationId,
- keymaster::HardwareAuthToken());
-}
-
-void FakeFingerprintEngineUdfps::detectInteractionImpl(ISessionCallback* cb,
- const std::future<void>& cancel) {
- updateContext(WorkMode::kDetectInteract, cb, const_cast<std::future<void>&>(cancel), 0,
- keymaster::HardwareAuthToken());
-}
-
void FakeFingerprintEngineUdfps::updateContext(WorkMode mode, ISessionCallback* cb,
std::future<void>& cancel, int64_t operationId,
const keymaster::HardwareAuthToken& hat) {
+ FakeFingerprintEngine::updateContext(mode, cb, cancel, operationId, hat);
mPointerDownTime = 0;
mUiReadyTime = 0;
- mCancelVec.clear();
-
- mCancelVec.push_back(std::move(cancel));
- mWorkMode = mode;
- mCb = cb;
- mOperationId = operationId;
- mHat = hat;
}
} // namespace aidl::android::hardware::biometrics::fingerprint
diff --git a/biometrics/fingerprint/aidl/default/FakeLockoutTracker.cpp b/biometrics/fingerprint/aidl/default/FakeLockoutTracker.cpp
index 5996406..b0163ee 100644
--- a/biometrics/fingerprint/aidl/default/FakeLockoutTracker.cpp
+++ b/biometrics/fingerprint/aidl/default/FakeLockoutTracker.cpp
@@ -67,9 +67,13 @@
int64_t res = 0;
if (mLockoutTimedStart > 0) {
+ int32_t lockoutTimedDuration =
+ FingerprintHalProperties::lockout_timed_duration().value_or(10 * 100);
auto now = Util::getSystemNanoTime();
- auto left = now - mLockoutTimedStart;
- res = (left > 0) ? (left / 1000000LL) : 0;
+ auto elapsed = (now - mLockoutTimedStart) / 1000000LL;
+ res = lockoutTimedDuration - elapsed;
+ LOG(INFO) << "xxxxxx: elapsed=" << elapsed << " now = " << now
+ << " mLockoutTimedStart=" << mLockoutTimedStart << " res=" << res;
}
return res;
diff --git a/biometrics/fingerprint/aidl/default/Fingerprint.cpp b/biometrics/fingerprint/aidl/default/Fingerprint.cpp
index f00a49d..79b563e 100644
--- a/biometrics/fingerprint/aidl/default/Fingerprint.cpp
+++ b/biometrics/fingerprint/aidl/default/Fingerprint.cpp
@@ -17,6 +17,7 @@
#include "Fingerprint.h"
#include "Session.h"
+#include <android-base/properties.h>
#include <fingerprint.sysprop.h>
#include <android-base/file.h>
@@ -59,6 +60,7 @@
<< sensorTypeProp;
}
LOG(INFO) << "sensorTypeProp:" << sensorTypeProp;
+ LOG(INFO) << "ro.product.name=" << ::android::base::GetProperty("ro.product.name", "UNKNOWN");
}
ndk::ScopedAStatus Fingerprint::getSensorProps(std::vector<SensorProps>* out) {
@@ -105,16 +107,16 @@
mSession->linkToDeath(cb->asBinder().get());
- LOG(INFO) << "createSession: sensorId:" << sensorId << " userId:" << userId;
+ LOG(INFO) << __func__ << ": sensorId:" << sensorId << " userId:" << userId;
return ndk::ScopedAStatus::ok();
}
binder_status_t Fingerprint::dump(int fd, const char** /*args*/, uint32_t numArgs) {
if (fd < 0) {
- LOG(ERROR) << "Fingerprint::dump fd invalid: " << fd;
+ LOG(ERROR) << __func__ << "fd invalid: " << fd;
return STATUS_BAD_VALUE;
} else {
- LOG(INFO) << "Fingerprint::dump fd:" << fd << "numArgs:" << numArgs;
+ LOG(INFO) << __func__ << " fd:" << fd << "numArgs:" << numArgs;
}
dprintf(fd, "----- FingerprintVirtualHal::dump -----\n");
@@ -131,11 +133,11 @@
binder_status_t Fingerprint::handleShellCommand(int in, int out, int err, const char** args,
uint32_t numArgs) {
- LOG(INFO) << "Fingerprint::handleShellCommand in:" << in << " out:" << out << " err:" << err
+ LOG(INFO) << __func__ << " in:" << in << " out:" << out << " err:" << err
<< " numArgs:" << numArgs;
if (numArgs == 0) {
- LOG(INFO) << "Fingerprint::handleShellCommand: available commands";
+ LOG(INFO) << __func__ << ": available commands";
onHelp(out);
return STATUS_OK;
}
@@ -163,7 +165,7 @@
}
void Fingerprint::resetConfigToDefault() {
- LOG(INFO) << "reset virtual HAL configuration to default";
+ LOG(INFO) << __func__ << ": reset virtual HAL configuration to default";
#define RESET_CONFIG_O(__NAME__) \
if (FingerprintHalProperties::__NAME__()) FingerprintHalProperties::__NAME__(std::nullopt)
#define RESET_CONFIG_V(__NAME__) \
diff --git a/biometrics/fingerprint/aidl/default/include/FakeFingerprintEngine.h b/biometrics/fingerprint/aidl/default/include/FakeFingerprintEngine.h
index 1279cd9..2450115 100644
--- a/biometrics/fingerprint/aidl/default/include/FakeFingerprintEngine.h
+++ b/biometrics/fingerprint/aidl/default/include/FakeFingerprintEngine.h
@@ -38,7 +38,7 @@
// A fake engine that is backed by system properties instead of hardware.
class FakeFingerprintEngine {
public:
- FakeFingerprintEngine() : mRandom(std::mt19937::default_seed) {}
+ FakeFingerprintEngine();
virtual ~FakeFingerprintEngine() {}
void generateChallengeImpl(ISessionCallback* cb);
@@ -66,6 +66,8 @@
virtual SensorLocation defaultSensorLocation();
+ virtual void fingerDownAction();
+
std::vector<int32_t> parseIntSequence(const std::string& str, const std::string& sep = ",");
std::vector<std::vector<int32_t>> parseEnrollmentCapture(const std::string& str);
@@ -74,15 +76,35 @@
std::mt19937 mRandom;
+ enum class WorkMode : int8_t { kIdle = 0, kAuthenticate, kEnroll, kDetectInteract };
+
+ WorkMode getWorkMode() { return mWorkMode; }
+
virtual std::string toString() const {
std::ostringstream os;
os << "----- FakeFingerprintEngine:: -----" << std::endl;
+ os << "mWorkMode:" << (int)mWorkMode;
os << "acquiredVendorInfoBase:" << FINGERPRINT_ACQUIRED_VENDOR_BASE;
os << ", errorVendorBase:" << FINGERPRINT_ERROR_VENDOR_BASE << std::endl;
os << mLockoutTracker.toString();
return os.str();
}
+ protected:
+ virtual void updateContext(WorkMode mode, ISessionCallback* cb, std::future<void>& cancel,
+ int64_t operationId, const keymaster::HardwareAuthToken& hat);
+
+ bool onEnrollFingerDown(ISessionCallback* cb, const keymaster::HardwareAuthToken& hat,
+ const std::future<void>& cancel);
+ bool onAuthenticateFingerDown(ISessionCallback* cb, int64_t, const std::future<void>& cancel);
+ bool onDetectInteractFingerDown(ISessionCallback* cb, const std::future<void>& cancel);
+
+ WorkMode mWorkMode;
+ ISessionCallback* mCb;
+ keymaster::HardwareAuthToken mHat;
+ std::future<void> mCancel;
+ int64_t mOperationId;
+
private:
static constexpr int32_t FINGERPRINT_ACQUIRED_VENDOR_BASE = 1000;
static constexpr int32_t FINGERPRINT_ERROR_VENDOR_BASE = 1000;
@@ -91,8 +113,21 @@
bool parseEnrollmentCaptureSingle(const std::string& str,
std::vector<std::vector<int32_t>>& res);
int32_t getRandomInRange(int32_t bound1, int32_t bound2);
+ bool checkSensorLockout(ISessionCallback*);
+ void clearLockout(ISessionCallback* cb);
FakeLockoutTracker mLockoutTracker;
+
+ protected:
+ // lockout timer
+ void lockoutTimerExpired(ISessionCallback* cb);
+ bool isLockoutTimerSupported;
+ bool isLockoutTimerStarted;
+ bool isLockoutTimerAborted;
+
+ public:
+ void startLockoutTimer(int64_t timeout, ISessionCallback* cb);
+ bool getLockoutTimerStarted() { return isLockoutTimerStarted; }
};
} // namespace aidl::android::hardware::biometrics::fingerprint
diff --git a/biometrics/fingerprint/aidl/default/include/FakeFingerprintEngineSide.h b/biometrics/fingerprint/aidl/default/include/FakeFingerprintEngineSide.h
index c2fc005..67a3ebc 100644
--- a/biometrics/fingerprint/aidl/default/include/FakeFingerprintEngineSide.h
+++ b/biometrics/fingerprint/aidl/default/include/FakeFingerprintEngineSide.h
@@ -28,7 +28,7 @@
static constexpr int32_t defaultSensorLocationY = 600;
static constexpr int32_t defaultSensorRadius = 150;
- FakeFingerprintEngineSide() : FakeFingerprintEngine() {}
+ FakeFingerprintEngineSide();
~FakeFingerprintEngineSide() {}
virtual SensorLocation defaultSensorLocation() override;
diff --git a/biometrics/fingerprint/aidl/default/include/FakeFingerprintEngineUdfps.h b/biometrics/fingerprint/aidl/default/include/FakeFingerprintEngineUdfps.h
index c5e93e7..2270eca 100644
--- a/biometrics/fingerprint/aidl/default/include/FakeFingerprintEngineUdfps.h
+++ b/biometrics/fingerprint/aidl/default/include/FakeFingerprintEngineUdfps.h
@@ -42,39 +42,20 @@
SensorLocation defaultSensorLocation() override;
- void enrollImpl(ISessionCallback* cb, const keymaster::HardwareAuthToken& hat,
- const std::future<void>& cancel);
- void authenticateImpl(ISessionCallback* cb, int64_t operationId,
- const std::future<void>& cancel);
- void detectInteractionImpl(ISessionCallback* cb, const std::future<void>& cancel);
-
- enum class WorkMode : int8_t { kIdle = 0, kAuthenticate, kEnroll, kDetectInteract };
-
- WorkMode getWorkMode() { return mWorkMode; }
+ void updateContext(WorkMode mode, ISessionCallback* cb, std::future<void>& cancel,
+ int64_t operationId, const keymaster::HardwareAuthToken& hat);
+ void fingerDownAction();
std::string toString() const {
std::ostringstream os;
os << FakeFingerprintEngine::toString();
os << "----- FakeFingerprintEngineUdfps -----" << std::endl;
- os << "mWorkMode:" << (int)mWorkMode;
os << ", mUiReadyTime:" << mUiReadyTime;
os << ", mPointerDownTime:" << mPointerDownTime << std::endl;
return os.str();
}
private:
- void onAuthenticateFingerDown();
- void onEnrollFingerDown();
- void onDetectInteractFingerDown();
- void fingerDownAction();
- void updateContext(WorkMode mode, ISessionCallback* cb, std::future<void>& cancel,
- int64_t operationId, const keymaster::HardwareAuthToken& hat);
-
- WorkMode mWorkMode;
- ISessionCallback* mCb;
- keymaster::HardwareAuthToken mHat;
- std::vector<std::future<void>> mCancelVec;
- int64_t mOperationId;
int64_t mPointerDownTime;
int64_t mUiReadyTime;
};
diff --git a/biometrics/fingerprint/aidl/default/include/Fingerprint.h b/biometrics/fingerprint/aidl/default/include/Fingerprint.h
index fc4fb8d..2bd66d4 100644
--- a/biometrics/fingerprint/aidl/default/include/Fingerprint.h
+++ b/biometrics/fingerprint/aidl/default/include/Fingerprint.h
@@ -43,6 +43,7 @@
private:
void resetConfigToDefault();
void onHelp(int);
+ void onSimFingerDown();
std::unique_ptr<FakeFingerprintEngine> mEngine;
WorkerThread mWorker;
diff --git a/biometrics/fingerprint/aidl/default/tests/FakeFingerprintEngineTest.cpp b/biometrics/fingerprint/aidl/default/tests/FakeFingerprintEngineTest.cpp
index a200b39..fe405f4 100644
--- a/biometrics/fingerprint/aidl/default/tests/FakeFingerprintEngineTest.cpp
+++ b/biometrics/fingerprint/aidl/default/tests/FakeFingerprintEngineTest.cpp
@@ -93,9 +93,13 @@
return ndk::ScopedAStatus::ok();
};
ndk::ScopedAStatus onLockoutTimed(int64_t /* timeout */) override {
+ mLockoutTimed = true;
return ndk::ScopedAStatus::ok();
}
- ndk::ScopedAStatus onLockoutCleared() override { return ndk::ScopedAStatus::ok(); }
+ ndk::ScopedAStatus onLockoutCleared() override {
+ mLockoutCleared = true;
+ return ndk::ScopedAStatus::ok();
+ }
ndk::ScopedAStatus onSessionClosed() override { return ndk::ScopedAStatus::ok(); }
Error mError = Error::UNKNOWN;
@@ -110,6 +114,8 @@
bool mAuthenticateFailed = false;
bool mAuthenticatorIdInvalidated = false;
bool mLockoutPermanent = false;
+ bool mLockoutTimed = false;
+ bool mLockoutCleared = false;
int mInteractionDetectedCount = 0;
int32_t mLastAcquiredInfo = -1;
int32_t mLastAcquiredVendorCode = -1;
@@ -132,6 +138,8 @@
FingerprintHalProperties::operation_enroll_latency({});
FingerprintHalProperties::operation_authenticate_latency({});
FingerprintHalProperties::operation_detect_interaction_latency({});
+ FingerprintHalProperties::operation_authenticate_fails(false);
+ FingerprintHalProperties::operation_detect_interaction_latency({});
}
FakeFingerprintEngine mEngine;
@@ -178,11 +186,14 @@
FingerprintHalProperties::next_enrollment("4:0,0:true");
keymaster::HardwareAuthToken hat{.mac = {2, 4}};
mEngine.enrollImpl(mCallback.get(), hat, mCancel.get_future());
+ ASSERT_EQ(mEngine.getWorkMode(), FakeFingerprintEngine::WorkMode::kEnroll);
+ mEngine.fingerDownAction();
ASSERT_FALSE(FingerprintHalProperties::next_enrollment().has_value());
ASSERT_EQ(1, FingerprintHalProperties::enrollments().size());
ASSERT_EQ(4, FingerprintHalProperties::enrollments()[0].value());
ASSERT_EQ(4, mCallback->mLastEnrolled);
ASSERT_EQ(1, mCallback->mLastAcquiredInfo);
+ ASSERT_EQ(mEngine.getWorkMode(), FakeFingerprintEngine::WorkMode::kIdle);
}
TEST_F(FakeFingerprintEngineTest, EnrollCancel) {
@@ -192,6 +203,7 @@
keymaster::HardwareAuthToken hat{.mac = {2, 4}};
mCancel.set_value();
mEngine.enrollImpl(mCallback.get(), hat, mCancel.get_future());
+ mEngine.fingerDownAction();
ASSERT_EQ(Error::CANCELED, mCallback->mError);
ASSERT_EQ(-1, mCallback->mLastEnrolled);
ASSERT_EQ(0, FingerprintHalProperties::enrollments().size());
@@ -204,6 +216,7 @@
FingerprintHalProperties::next_enrollment(next);
keymaster::HardwareAuthToken hat{.mac = {2, 4}};
mEngine.enrollImpl(mCallback.get(), hat, mCancel.get_future());
+ mEngine.fingerDownAction();
ASSERT_EQ(Error::UNABLE_TO_PROCESS, mCallback->mError);
ASSERT_EQ(-1, mCallback->mLastEnrolled);
ASSERT_EQ(0, FingerprintHalProperties::enrollments().size());
@@ -216,6 +229,7 @@
keymaster::HardwareAuthToken hat{.mac = {2, 4}};
int32_t prevCnt = mCallback->mLastAcquiredCount;
mEngine.enrollImpl(mCallback.get(), hat, mCancel.get_future());
+ mEngine.fingerDownAction();
ASSERT_FALSE(FingerprintHalProperties::next_enrollment().has_value());
ASSERT_EQ(1, FingerprintHalProperties::enrollments().size());
ASSERT_EQ(4, FingerprintHalProperties::enrollments()[0].value());
@@ -229,9 +243,12 @@
FingerprintHalProperties::enrollments({1, 2});
FingerprintHalProperties::enrollment_hit(2);
mEngine.authenticateImpl(mCallback.get(), 0, mCancel.get_future());
+ ASSERT_EQ(mEngine.getWorkMode(), FakeFingerprintEngine::WorkMode::kAuthenticate);
+ mEngine.fingerDownAction();
ASSERT_FALSE(mCallback->mAuthenticateFailed);
ASSERT_EQ(2, mCallback->mLastAuthenticated);
ASSERT_EQ(1, mCallback->mLastAcquiredInfo);
+ ASSERT_EQ(mEngine.getWorkMode(), FakeFingerprintEngine::WorkMode::kIdle);
}
TEST_F(FakeFingerprintEngineTest, AuthenticateCancel) {
@@ -239,6 +256,7 @@
FingerprintHalProperties::enrollment_hit(2);
mCancel.set_value();
mEngine.authenticateImpl(mCallback.get(), 0, mCancel.get_future());
+ mEngine.fingerDownAction();
ASSERT_EQ(Error::CANCELED, mCallback->mError);
ASSERT_EQ(-1, mCallback->mLastAuthenticated);
}
@@ -247,6 +265,7 @@
FingerprintHalProperties::enrollments({1, 2});
FingerprintHalProperties::enrollment_hit({});
mEngine.authenticateImpl(mCallback.get(), 0, mCancel.get_future());
+ mEngine.fingerDownAction();
ASSERT_TRUE(mCallback->mAuthenticateFailed);
}
@@ -254,7 +273,9 @@
FingerprintHalProperties::enrollments({1, 2});
FingerprintHalProperties::enrollment_hit(3);
mEngine.authenticateImpl(mCallback.get(), 0, mCancel.get_future());
+ mEngine.fingerDownAction();
ASSERT_TRUE(mCallback->mAuthenticateFailed);
+ ASSERT_EQ(mEngine.getWorkMode(), FakeFingerprintEngine::WorkMode::kAuthenticate);
}
TEST_F(FakeFingerprintEngineTest, AuthenticateLockout) {
@@ -262,6 +283,7 @@
FingerprintHalProperties::enrollment_hit(2);
FingerprintHalProperties::lockout(true);
mEngine.authenticateImpl(mCallback.get(), 0, mCancel.get_future());
+ mEngine.fingerDownAction();
ASSERT_TRUE(mCallback->mLockoutPermanent);
ASSERT_NE(mCallback->mError, Error::UNKNOWN);
}
@@ -269,6 +291,7 @@
TEST_F(FakeFingerprintEngineTest, AuthenticateError8) {
FingerprintHalProperties::operation_authenticate_error(8);
mEngine.authenticateImpl(mCallback.get(), 0, mCancel.get_future());
+ mEngine.fingerDownAction();
ASSERT_EQ(mCallback->mError, (Error)8);
ASSERT_EQ(mCallback->mErrorVendorCode, 0);
}
@@ -276,10 +299,19 @@
TEST_F(FakeFingerprintEngineTest, AuthenticateError9) {
FingerprintHalProperties::operation_authenticate_error(1009);
mEngine.authenticateImpl(mCallback.get(), 0, mCancel.get_future());
+ mEngine.fingerDownAction();
ASSERT_EQ(mCallback->mError, (Error)7);
ASSERT_EQ(mCallback->mErrorVendorCode, 9);
}
+TEST_F(FakeFingerprintEngineTest, AuthenticateFails) {
+ FingerprintHalProperties::operation_authenticate_fails(true);
+ mEngine.authenticateImpl(mCallback.get(), 0, mCancel.get_future());
+ mEngine.fingerDownAction();
+ ASSERT_TRUE(mCallback->mAuthenticateFailed);
+ ASSERT_EQ(mEngine.getWorkMode(), FakeFingerprintEngine::WorkMode::kAuthenticate);
+}
+
TEST_F(FakeFingerprintEngineTest, AuthenticateAcquired) {
FingerprintHalProperties::lockout(false);
FingerprintHalProperties::enrollments({1, 2});
@@ -287,6 +319,7 @@
FingerprintHalProperties::operation_authenticate_acquired("4,1009");
int32_t prevCount = mCallback->mLastAcquiredCount;
mEngine.authenticateImpl(mCallback.get(), 0, mCancel.get_future());
+ mEngine.fingerDownAction();
ASSERT_FALSE(mCallback->mAuthenticateFailed);
ASSERT_EQ(2, mCallback->mLastAuthenticated);
ASSERT_EQ(prevCount + 2, mCallback->mLastAcquiredCount);
@@ -300,8 +333,11 @@
FingerprintHalProperties::enrollment_hit(2);
FingerprintHalProperties::operation_detect_interaction_acquired("");
mEngine.detectInteractionImpl(mCallback.get(), mCancel.get_future());
+ ASSERT_EQ(mEngine.getWorkMode(), FakeFingerprintEngine::WorkMode::kDetectInteract);
+ mEngine.fingerDownAction();
ASSERT_EQ(1, mCallback->mInteractionDetectedCount);
ASSERT_EQ(1, mCallback->mLastAcquiredInfo);
+ ASSERT_EQ(mEngine.getWorkMode(), FakeFingerprintEngine::WorkMode::kIdle);
}
TEST_F(FakeFingerprintEngineTest, InteractionDetectCancel) {
@@ -310,6 +346,7 @@
FingerprintHalProperties::enrollment_hit(2);
mCancel.set_value();
mEngine.detectInteractionImpl(mCallback.get(), mCancel.get_future());
+ mEngine.fingerDownAction();
ASSERT_EQ(Error::CANCELED, mCallback->mError);
ASSERT_EQ(0, mCallback->mInteractionDetectedCount);
}
@@ -319,6 +356,7 @@
FingerprintHalProperties::enrollments({1, 2});
FingerprintHalProperties::enrollment_hit({});
mEngine.detectInteractionImpl(mCallback.get(), mCancel.get_future());
+ mEngine.fingerDownAction();
ASSERT_EQ(0, mCallback->mInteractionDetectedCount);
}
@@ -326,6 +364,7 @@
FingerprintHalProperties::enrollments({1, 2});
FingerprintHalProperties::enrollment_hit(25);
mEngine.detectInteractionImpl(mCallback.get(), mCancel.get_future());
+ mEngine.fingerDownAction();
ASSERT_EQ(0, mCallback->mInteractionDetectedCount);
}
@@ -333,6 +372,7 @@
FingerprintHalProperties::detect_interaction(true);
FingerprintHalProperties::operation_detect_interaction_error(8);
mEngine.detectInteractionImpl(mCallback.get(), mCancel.get_future());
+ mEngine.fingerDownAction();
ASSERT_EQ(0, mCallback->mInteractionDetectedCount);
ASSERT_EQ(mCallback->mError, (Error)8);
ASSERT_EQ(mCallback->mErrorVendorCode, 0);
@@ -345,6 +385,7 @@
FingerprintHalProperties::operation_detect_interaction_acquired("4,1013");
int32_t prevCount = mCallback->mLastAcquiredCount;
mEngine.detectInteractionImpl(mCallback.get(), mCancel.get_future());
+ mEngine.fingerDownAction();
ASSERT_EQ(1, mCallback->mInteractionDetectedCount);
ASSERT_EQ(prevCount + 2, mCallback->mLastAcquiredCount);
ASSERT_EQ(7, mCallback->mLastAcquiredInfo);
@@ -354,9 +395,7 @@
TEST_F(FakeFingerprintEngineTest, EnumerateEnrolled) {
FingerprintHalProperties::enrollments({2, 4, 8});
mEngine.enumerateEnrollmentsImpl(mCallback.get());
- ASSERT_EQ(
- 4,
- mCallback->mLastEnrollmentEnumerated.size()); // Due to workaround. TODO (b/243129174)
+ ASSERT_EQ(3, mCallback->mLastEnrollmentEnumerated.size());
for (auto id : FingerprintHalProperties::enrollments()) {
ASSERT_TRUE(std::find(mCallback->mLastEnrollmentEnumerated.begin(),
mCallback->mLastEnrollmentEnumerated.end(),
@@ -464,9 +503,15 @@
FingerprintHalProperties::operation_detect_interaction_latency()));
}
ASSERT_TRUE(latencySet.size() > 95);
- FingerprintHalProperties::operation_detect_interaction_latency({});
}
+TEST_F(FakeFingerprintEngineTest, lockoutTimer) {
+ mEngine.startLockoutTimer(200, mCallback.get());
+ ASSERT_TRUE(mEngine.getLockoutTimerStarted());
+ std::this_thread::sleep_for(std::chrono::milliseconds(210));
+ ASSERT_FALSE(mEngine.getLockoutTimerStarted());
+ ASSERT_TRUE(mCallback->mLockoutCleared);
+}
} // namespace aidl::android::hardware::biometrics::fingerprint
int main(int argc, char** argv) {
diff --git a/biometrics/fingerprint/aidl/default/tests/FakeLockoutTrackerTest.cpp b/biometrics/fingerprint/aidl/default/tests/FakeLockoutTrackerTest.cpp
index 1b071ee..93c6f84 100644
--- a/biometrics/fingerprint/aidl/default/tests/FakeLockoutTrackerTest.cpp
+++ b/biometrics/fingerprint/aidl/default/tests/FakeLockoutTrackerTest.cpp
@@ -65,11 +65,11 @@
ASSERT_EQ(mLockoutTracker.getMode(), FakeLockoutTracker::LockoutMode::kTimed);
// time left
int N = 5;
- int64_t prevTimeLeft = INT_MIN;
+ int64_t prevTimeLeft = INT_MAX;
for (int i = 0; i < N; i++) {
SLEEP_MS(LOCKOUT_TIMED_DURATION / N + 1);
int64_t currTimeLeft = mLockoutTracker.getLockoutTimeLeft();
- ASSERT_TRUE(currTimeLeft > prevTimeLeft);
+ ASSERT_TRUE(currTimeLeft < prevTimeLeft);
prevTimeLeft = currTimeLeft;
}
ASSERT_EQ(mLockoutTracker.getMode(), FakeLockoutTracker::LockoutMode::kNone);
diff --git a/bluetooth/audio/utils/aidl_session/BluetoothAudioSession.cpp b/bluetooth/audio/utils/aidl_session/BluetoothAudioSession.cpp
index 0bcafa3..c283148 100644
--- a/bluetooth/audio/utils/aidl_session/BluetoothAudioSession.cpp
+++ b/bluetooth/audio/utils/aidl_session/BluetoothAudioSession.cpp
@@ -439,6 +439,9 @@
}
void BluetoothAudioSession::ReportLowLatencyModeAllowedChanged(bool allowed) {
+ if (session_type_ != SessionType::A2DP_HARDWARE_OFFLOAD_ENCODING_DATAPATH) {
+ return;
+ }
std::lock_guard<std::recursive_mutex> guard(mutex_);
low_latency_allowed_ = allowed;
// TODO(b/294498919): Remove this after there is API to update latency mode
@@ -588,15 +591,32 @@
<< " has NO session";
return std::vector<LatencyMode>();
}
- if (low_latency_allowed_) return latency_modes_;
- std::vector<LatencyMode> modes;
- for (LatencyMode mode : latency_modes_) {
- if (mode == LatencyMode::LOW_LATENCY)
- // ignore those low latency mode if Bluetooth stack doesn't allow
- continue;
- modes.push_back(mode);
+
+ std::vector<LatencyMode> supported_latency_modes;
+ if (session_type_ ==
+ SessionType::LE_AUDIO_HARDWARE_OFFLOAD_ENCODING_DATAPATH) {
+ for (LatencyMode mode : latency_modes_) {
+ if (mode == LatencyMode::LOW_LATENCY) {
+ // LOW_LATENCY is not supported for LE_HARDWARE_OFFLOAD_ENC sessions
+ continue;
+ }
+ supported_latency_modes.push_back(mode);
+ }
+ } else {
+ for (LatencyMode mode : latency_modes_) {
+ if (!low_latency_allowed_ && mode == LatencyMode::LOW_LATENCY) {
+ // ignore LOW_LATENCY mode if Bluetooth stack doesn't allow
+ continue;
+ }
+ if (mode == LatencyMode::DYNAMIC_SPATIAL_AUDIO_SOFTWARE ||
+ mode == LatencyMode::DYNAMIC_SPATIAL_AUDIO_HARDWARE) {
+ // DSA_SW and DSA_HW only supported for LE_HARDWARE_OFFLOAD_ENC sessions
+ continue;
+ }
+ supported_latency_modes.push_back(mode);
+ }
}
- return modes;
+ return supported_latency_modes;
}
void BluetoothAudioSession::SetLatencyMode(const LatencyMode& latency_mode) {
diff --git a/broadcastradio/aidl/android/hardware/broadcastradio/Metadata.aidl b/broadcastradio/aidl/android/hardware/broadcastradio/Metadata.aidl
index 3298cac..7769b8c 100644
--- a/broadcastradio/aidl/android/hardware/broadcastradio/Metadata.aidl
+++ b/broadcastradio/aidl/android/hardware/broadcastradio/Metadata.aidl
@@ -70,9 +70,9 @@
/**
* Station name.
*
- * This is a generic field to cover any radio technology.
+ * <p>This is a generic field to cover any radio technology.
*
- * If the PROGRAM_NAME has the same content as DAB_*_NAME or RDS_PS,
+ * <p>Note: If the program name has the same content as dab*Name or ({@link Metadata#rdsPs},
* it may not be present, to preserve space - framework must repopulate
* it on the client side.
*/
@@ -86,10 +86,10 @@
/**
* DAB ensemble name abbreviated (string).
*
- * The string must be up to 8 characters long.
+ * <p>Note: The string must be up to 8 characters long.
*
- * If the short variant is present, the long (DAB_ENSEMBLE_NAME) one must be
- * present as well.
+ * <p>Note: If the short variant is present, the long ({@link Metadata#dabEnsembleName})
+ * one must be present as well.
*/
String dabEnsembleNameShort;
@@ -99,7 +99,9 @@
String dabServiceName;
/**
- * DAB service name abbreviated (see DAB_ENSEMBLE_NAME_SHORT) (string)
+ * DAB service name abbreviated (string)
+ *
+ * <p>Note: The string must be up to 8 characters long.
*/
String dabServiceNameShort;
@@ -109,7 +111,9 @@
String dabComponentName;
/**
- * DAB component name abbreviated (see DAB_ENSEMBLE_NAME_SHORT) (string)
+ * DAB component name abbreviated (string)
+ *
+ * <p>Note: The string must be up to 8 characters long.
*/
String dabComponentNameShort;
}
diff --git a/broadcastradio/aidl/android/hardware/broadcastradio/ProgramIdentifier.aidl b/broadcastradio/aidl/android/hardware/broadcastradio/ProgramIdentifier.aidl
index 2057d97..a2de5d6 100644
--- a/broadcastradio/aidl/android/hardware/broadcastradio/ProgramIdentifier.aidl
+++ b/broadcastradio/aidl/android/hardware/broadcastradio/ProgramIdentifier.aidl
@@ -30,8 +30,10 @@
IdentifierType type = IdentifierType.INVALID;
/**
- * The uint64_t value field holds the value in format described in comments
- * for IdentifierType enum.
+ * The value field holds the value in format described in comments for IdentifierType enum.
+ *
+ * The value should be 64-bit unsigned integer, but is represented as 64-bit signed integer
+ * in AIDL.
*/
long value;
}
diff --git a/broadcastradio/aidl/default/VirtualRadio.cpp b/broadcastradio/aidl/default/VirtualRadio.cpp
index 126bcff..86c5a96 100644
--- a/broadcastradio/aidl/default/VirtualRadio.cpp
+++ b/broadcastradio/aidl/default/VirtualRadio.cpp
@@ -53,18 +53,18 @@
static VirtualRadio amFmRadioMock(
"AM/FM radio mock",
{
- {makeSelectorAmfm(/* frequency= */ 94900), "Wild 94.9", "Drake ft. Rihanna",
+ {makeSelectorAmfm(/* frequency= */ 94900u), "Wild 94.9", "Drake ft. Rihanna",
"Too Good"},
- {makeSelectorAmfm(/* frequency= */ 96500), "KOIT", "Celine Dion", "All By Myself"},
- {makeSelectorAmfm(/* frequency= */ 97300), "Alice@97.3", "Drops of Jupiter", "Train"},
- {makeSelectorAmfm(/* frequency= */ 99700), "99.7 Now!", "The Chainsmokers", "Closer"},
- {makeSelectorAmfm(/* frequency= */ 101300), "101-3 KISS-FM", "Justin Timberlake",
+ {makeSelectorAmfm(/* frequency= */ 96500u), "KOIT", "Celine Dion", "All By Myself"},
+ {makeSelectorAmfm(/* frequency= */ 97300u), "Alice@97.3", "Drops of Jupiter", "Train"},
+ {makeSelectorAmfm(/* frequency= */ 99700u), "99.7 Now!", "The Chainsmokers", "Closer"},
+ {makeSelectorAmfm(/* frequency= */ 101300u), "101-3 KISS-FM", "Justin Timberlake",
"Rock Your Body"},
- {makeSelectorAmfm(/* frequency= */ 103700), "iHeart80s @ 103.7", "Michael Jackson",
+ {makeSelectorAmfm(/* frequency= */ 103700u), "iHeart80s @ 103.7", "Michael Jackson",
"Billie Jean"},
- {makeSelectorAmfm(/* frequency= */ 106100), "106 KMEL", "Drake", "Marvins Room"},
- {makeSelectorAmfm(/* frequency= */ 700), "700 AM", "Artist700", "Title700"},
- {makeSelectorAmfm(/* frequency= */ 1700), "1700 AM", "Artist1700", "Title1700"},
+ {makeSelectorAmfm(/* frequency= */ 106100u), "106 KMEL", "Drake", "Marvins Room"},
+ {makeSelectorAmfm(/* frequency= */ 700u), "700 AM", "Artist700", "Title700"},
+ {makeSelectorAmfm(/* frequency= */ 1700u), "1700 AM", "Artist1700", "Title1700"},
});
// clang-format on
return amFmRadioMock;
@@ -77,13 +77,13 @@
"DAB radio mock",
{
{makeSelectorDab(/* sidExt= */ 0xA000000001u, /* ensemble= */ 0x0001u,
- /* freq= */ 225648), "BBC Radio 1", "Khalid", "Talk"},
+ /* freq= */ 225648u), "BBC Radio 1", "Khalid", "Talk"},
{makeSelectorDab(/* sidExt= */ 0xB000000001u, /* ensemble= */ 0x1001u,
- /* freq= */ 222064), "Classic FM", "Jean Sibelius", "Andante Festivo"},
+ /* freq= */ 222064u), "Classic FM", "Jean Sibelius", "Andante Festivo"},
{makeSelectorDab(/* sidExt= */ 0xB000000002u, /* ensemble= */ 0x1002u,
- /* freq= */ 227360), "Absolute Radio", "Coldplay", "Clocks"},
+ /* freq= */ 227360u), "Absolute Radio", "Coldplay", "Clocks"},
{makeSelectorDab(/* sidExt= */ 0xB000000002u, /* ensemble= */ 0x1002u,
- /* freq= */ 222064), "Absolute Radio", "Coldplay", "Clocks"},
+ /* freq= */ 222064u), "Absolute Radio", "Coldplay", "Clocks"},
});
// clang-format on
return dabRadioMock;
diff --git a/broadcastradio/common/utilsaidl/Utils.cpp b/broadcastradio/common/utilsaidl/Utils.cpp
index 0551bad..de4f529 100644
--- a/broadcastradio/common/utilsaidl/Utils.cpp
+++ b/broadcastradio/common/utilsaidl/Utils.cpp
@@ -204,7 +204,7 @@
}
bool isValid(const ProgramIdentifier& id) {
- int64_t val = id.value;
+ uint64_t val = static_cast<uint64_t>(id.value);
bool valid = true;
auto expect = [&valid](bool condition, const string& message) {
@@ -231,11 +231,11 @@
expect(val <= 0xFFFFu, "16bit id");
break;
case IdentifierType::HD_STATION_ID_EXT: {
- int64_t stationId = val & 0xFFFFFFFF; // 32bit
+ uint64_t stationId = val & 0xFFFFFFFF; // 32bit
val >>= 32;
- int64_t subchannel = val & 0xF; // 4bit
+ uint64_t subchannel = val & 0xF; // 4bit
val >>= 4;
- int64_t freq = val & 0x3FFFF; // 18bit
+ uint64_t freq = val & 0x3FFFF; // 18bit
expect(stationId != 0u, "HD station id != 0");
expect(subchannel < 8u, "HD subch < 8");
expect(freq > 100u, "f > 100kHz");
@@ -252,9 +252,9 @@
break;
}
case IdentifierType::DAB_SID_EXT: {
- int64_t sid = val & 0xFFFFFFFF; // 32bit
+ uint64_t sid = val & 0xFFFFFFFF; // 32bit
val >>= 32;
- int64_t ecc = val & 0xFF; // 8bit
+ uint64_t ecc = val & 0xFF; // 8bit
expect(sid != 0u, "DAB SId != 0");
expect(ecc >= 0xA0u && ecc <= 0xF6u, "Invalid ECC, see ETSI TS 101 756 V2.1.1");
break;
@@ -305,19 +305,19 @@
return {type, value};
}
-ProgramSelector makeSelectorAmfm(int32_t frequency) {
+ProgramSelector makeSelectorAmfm(uint32_t frequency) {
ProgramSelector sel = {};
sel.primaryId = makeIdentifier(IdentifierType::AMFM_FREQUENCY_KHZ, frequency);
return sel;
}
-ProgramSelector makeSelectorDab(int64_t sidExt) {
+ProgramSelector makeSelectorDab(uint64_t sidExt) {
ProgramSelector sel = {};
sel.primaryId = makeIdentifier(IdentifierType::DAB_SID_EXT, sidExt);
return sel;
}
-ProgramSelector makeSelectorDab(int64_t sidExt, int32_t ensemble, int64_t freq) {
+ProgramSelector makeSelectorDab(uint64_t sidExt, uint32_t ensemble, uint64_t freq) {
ProgramSelector sel = {};
sel.primaryId = makeIdentifier(IdentifierType::DAB_SID_EXT, sidExt);
vector<ProgramIdentifier> secondaryIds = {
diff --git a/broadcastradio/common/utilsaidl/include/broadcastradio-utils-aidl/Utils.h b/broadcastradio/common/utilsaidl/include/broadcastradio-utils-aidl/Utils.h
index ad075f2..ee85a17 100644
--- a/broadcastradio/common/utilsaidl/include/broadcastradio-utils-aidl/Utils.h
+++ b/broadcastradio/common/utilsaidl/include/broadcastradio-utils-aidl/Utils.h
@@ -137,9 +137,9 @@
bool isValid(const ProgramSelector& sel);
ProgramIdentifier makeIdentifier(IdentifierType type, int64_t value);
-ProgramSelector makeSelectorAmfm(int32_t frequency);
-ProgramSelector makeSelectorDab(int64_t sidExt);
-ProgramSelector makeSelectorDab(int64_t sidExt, int32_t ensemble, int64_t freq);
+ProgramSelector makeSelectorAmfm(uint32_t frequency);
+ProgramSelector makeSelectorDab(uint64_t sidExt);
+ProgramSelector makeSelectorDab(uint64_t sidExt, uint32_t ensemble, uint64_t freq);
bool satisfies(const ProgramFilter& filter, const ProgramSelector& sel);
diff --git a/compatibility_matrices/compatibility_matrix.9.xml b/compatibility_matrices/compatibility_matrix.9.xml
index 83d2665..523d8de 100644
--- a/compatibility_matrices/compatibility_matrix.9.xml
+++ b/compatibility_matrices/compatibility_matrix.9.xml
@@ -574,6 +574,14 @@
</interface>
</hal>
<hal format="aidl" optional="true">
+ <name>android.hardware.threadnetwork</name>
+ <version>1</version>
+ <interface>
+ <name>IThreadChip</name>
+ <instance>chip0</instance>
+ </interface>
+ </hal>
+ <hal format="aidl" optional="true">
<name>android.hardware.tv.hdmi.cec</name>
<version>1</version>
<interface>
diff --git a/drm/aidl/Android.bp b/drm/aidl/Android.bp
index fb04d84..afcb603 100644
--- a/drm/aidl/Android.bp
+++ b/drm/aidl/Android.bp
@@ -23,7 +23,7 @@
sdk_version: "module_current",
},
ndk: {
- min_sdk_version: "UpsideDownCake",
+ min_sdk_version: "34",
},
},
double_loadable: true,
diff --git a/gnss/aidl/vts/gnss_hal_test.cpp b/gnss/aidl/vts/gnss_hal_test.cpp
index 4f5e6a0..5e2cbe3 100644
--- a/gnss/aidl/vts/gnss_hal_test.cpp
+++ b/gnss/aidl/vts/gnss_hal_test.cpp
@@ -486,8 +486,6 @@
auto status = aidl_gnss_hal_->startSvStatus();
EXPECT_TRUE(status.isOk());
- ASSERT_TRUE(aidl_gnss_cb_->sv_info_list_timestamps_millis_cbq_.size() ==
- aidl_gnss_cb_->sv_info_list_cbq_.size());
long lastElapsedRealtimeMillis = 0;
for (int i = 0; i < numMeasurementEvents; i++) {
long timeStamp;
diff --git a/security/authgraph/aidl/android/hardware/security/authgraph/Arc.cddl b/security/authgraph/aidl/android/hardware/security/authgraph/Arc.cddl
index 4c1b965..0bc39d6 100644
--- a/security/authgraph/aidl/android/hardware/security/authgraph/Arc.cddl
+++ b/security/authgraph/aidl/android/hardware/security/authgraph/Arc.cddl
@@ -28,19 +28,19 @@
? -70003 : int, ; Timestamp in milliseconds since some starting point (generally
; the most recent device boot) which all of the applications within
; the secure domain must agree upon
- ? -70004 : bstr .size 16, ; Nonce used in key exchange methods
+ ? -70004 : bstr .size 16, ; Nonce (a cryptographic random number of 16 bytes) used in key
+ ; exchange methods
? -70005 : PayloadType, ; Payload type, if needed to disambiguate, when processing an arc
? -70006 : int, ; Version of the payload structure (if applicable)
? -70007 : int, ; Sequence number (if needed to prevent replay attacks)
? -70008 : Direction ; Direction of the encryption key (i.e. whether it is used to
; encrypt incoming messages or outgoing messages)
? -70009 : bool, ; "authentication_completed" - this is used during authenticated
- ; key exchange indicate whether signature verification is done
- ? -70010 : bstr .size 32 ; "session_id" computed during key exchange protocol
+ ; key exchange to indicate whether signature verification is done
+ ? -70010 : bstr .size 32 ; "session_id" computed during the key exchange protocol
}
-; Permissions indicate what an arc can be used with. Permissions are added to an arc during the
-; `create()` primitive operation and are propagated during `mint` and `snap` primitive operations.
+; Permissions indicate what an arc can be used with.
Permission = &(
-4770552 : IdentityEncoded, ; "source_id" - in the operations performed by a source, the
; source adds its own identity to the permissions of an arc.
@@ -54,12 +54,10 @@
; biometrics.
)
-; Limitations indicate what restrictions are applied on the usage of an arc. Permissions are added
-; to an arc during the `create` primitive operation and are propagated during `snap` primitive
-; operation.
+; Limitations indicate what restrictions are applied on the usage of an arc.
Limitation = &(
- -4770554 : bstr, ; "challenge" - is added to an arc that transfers an auth key to a channel
- ; key, in order to ensure the freshness of the authentication.
+ -4770554 : bstr, ; "challenge" - is added to an arc that encrypts an auth key from a
+ ; channel key, in order to ensure the freshness of the authentication.
; A challenge is issued by a sink (e.g. Keymint TA, Biometric TAs).
)
@@ -83,7 +81,7 @@
; Any other payload formats should also be defined here
)
-SecretKey = &( ; One of the payload types of an Arc is a secret key
+SecretKey = &(
SymmetricKey,
ECPrivateKey, ; Private key of a key pair generated for key exchange
)
diff --git a/security/authgraph/aidl/android/hardware/security/authgraph/IAuthGraphKeyExchange.aidl b/security/authgraph/aidl/android/hardware/security/authgraph/IAuthGraphKeyExchange.aidl
index 6ceb09c..a3fb959 100644
--- a/security/authgraph/aidl/android/hardware/security/authgraph/IAuthGraphKeyExchange.aidl
+++ b/security/authgraph/aidl/android/hardware/security/authgraph/IAuthGraphKeyExchange.aidl
@@ -41,8 +41,8 @@
interface IAuthGraphKeyExchange {
/**
* This method is invoked on P1 (source).
- * Create an ephermeral EC key pair on NIST curve P-256 and a nonce (of 16 bytes) for
- * key exchange.
+ * Create an ephermeral EC key pair on NIST curve P-256 and a nonce (a cryptographic random
+ * number of 16 bytes) for key exchange.
*
* @return SessionInitiationInfo including the `Key` containing the public key of the created
* key pair and an arc from the per-boot key to the private key, the nonce, the persistent
@@ -52,8 +52,8 @@
* `SessionInitiationInfo` serves two purposes:
* i. A mapping to correlate `create` and `finish` calls to P1 in a particular instance of the
* key exchange protocol.
- * ii.A way to minimize the in-memory storage (P1 can include the nonce in the protected headers
- * of the arc).
+ * ii.A way to minimize the in-memory storage of P1 allocated for key exchange (P1 can include
+ * the nonce in the protected headers of the arc).
* However, P1 should maintain some form of in-memory record to be able to verify that the input
* `Key` sent to `finish` is from an unfinished instance of a key exchange protocol, to prevent
* any replay attacks in `finish`.
@@ -66,9 +66,9 @@
* 0. If either `peerPubKey`, `peerId`, `peerNonce` is not in the expected format, return
* errors: INVALID_PEER_KE_KEY, INVALID_IDENTITY, INVALID_PEER_NONCE respectively.
* 1. Create an ephemeral EC key pair on NIST curve P-256.
- * 2. Create a nonce (of 16 bytes).
- * 3. Compute the diffie-hellman shared secret: Z.
- * 4. Compute a salt = bstr .cbor [
+ * 2. Create a nonce (a cryptographic random number of 16 bytes).
+ * 3. Compute the Diffie-Hellman shared secret: Z.
+ * 4. Compute a salt_input = bstr .cbor [
* source_version: int, ; from input `peerVersion`
* sink_pub_key: bstr .cbor PlainPubKey, ; from step #1
* source_pub_key: bstr .cbor PlainPubKey, ; from input `peerPubKey`
@@ -77,7 +77,8 @@
* sink_cert_chain: bstr .cbor ExplicitKeyDiceCertChain, ; from own identity
* source_cert_chain: bstr .cbor ExplicitKeyDiceCertChain, ; from input `peerId`
* ]
- * 5. Extract a cryptographic secret S from Z, using the salt from #4 above.
+ * 5. Extract a cryptographic secret S from Z, using the SHA256 digest of the salt_input
+ * as the salt.
* 6. Derive two symmetric encryption keys of 256 bits with:
* i. b"KE_ENCRYPTION_KEY_SOURCE_TO_SINK" as context for the key used to encrypt incoming
* messages
@@ -96,28 +97,29 @@
* part of the party's identity.
*
* @param peerPubKey - the public key of the key pair created by the peer (P1) for key exchange
+ * in `create`
*
* @param peerId - the persistent identity of the peer
*
- * @param peerNonce - nonce created by the peer
+ * @param peerNonce - nonce created by the peer in `create`
*
* @param peerVersion - an integer representing the latest protocol version (i.e. AIDL version)
* supported by the peer
*
- * @return KeInitResult including the `Key` containing the public key of the created key pair,
- * the nonce, the persistent identity, two shared key arcs from step #7, session id, signature
- * over the session id and the negotiated protocol version. The negotiated protocol version
- * should be less than or equal to the peer's version.
+ * @return KeInitResult including the `Key` containing the public key of the key pair created in
+ * step #1, the nonce from step #2, the persistent identity of P2, two shared key arcs
+ * from step #7, session id from step #10, signature over the session id from step #11 and the
+ * negotiated protocol version. The negotiated protocol version should be less than or equal to
+ * the `peerVersion`.
*
- * Note: The two shared key arcs in the return type: `KeInitResult` serves two purposes:
+ * Note: The two shared key arcs in the return type: `KeInitResult` serve two purposes:
* i. A mapping to correlate `init` and `authenticationComplete` calls to P2 in a particular
* instance of the key exchange protocol.
* ii.A way to minimize the in-memory storage of P2 allocated for key exchange.
* However, P2 should maintain some in-memory record to be able to verify that the input
- * `sharedkeys` sent to `authenticationComplete` and to any subsequent AuthGraph protocol
- * methods are valid shared keys agreed with the party identified by `peerId`, to prevent
- * any replay attacks in `authenticationComplete` and in any subsequent AuthGraph protocol
- * methods which use the shared keys to encrypt the secret messages.
+ * `sharedkeys` sent to `authenticationComplete` are from an unfinished instance of a key
+ * exchange protocol carried out with the party identified by `peerId`, to prevent any replay
+ * attacks in `authenticationComplete`.
*/
KeInitResult init(
in PubKey peerPubKey, in Identity peerId, in byte[] peerNonce, in int peerVersion);
@@ -133,8 +135,8 @@
* exchange protocol, return error: INVALID_KE_KEY. Similarly, if the public key or the
* arc containing the private key in `ownKey` is invalid, return INVALID_PUB_KEY_IN_KEY
* and INVALID_PRIV_KEY_ARC_IN_KEY respectively.
- * 1. Compute the diffie-hellman shared secret: Z.
- * 2. Compute a salt = bstr .cbor [
+ * 1. Compute the Diffie-Hellman shared secret: Z.
+ * 2. Compute a salt_input = bstr .cbor [
* source_version: int, ; the protocol version used in `create`
* sink_pub_key: bstr .cbor PlainPubKey, ; from input `peerPubKey`
* source_pub_key: bstr .cbor PlainPubKey, ; from the output of `create`
@@ -143,7 +145,8 @@
* sink_cert_chain: bstr .cbor ExplicitKeyDiceCertChain, ; from input `peerId`
* source_cert_chain: bstr .cbor ExplicitKeyDiceCertChain, ; from own identity
* ]
- * 3. Extract a cryptographic secret S from Z, using the salt from #2 above.
+ * 3. Extract a cryptographic secret S from Z, using the SHA256 digest of the salt_input
+ * as the salt.
* 4. Derive two symmetric encryption keys of 256 bits with:
* i. b"KE_ENCRYPTION_KEY_SOURCE_TO_SINK" as context for the key used to encrypt outgoing
* messages
@@ -164,25 +167,26 @@
* part of the party's identity.
*
* @param peerPubKey - the public key of the key pair created by the peer (P2) for key exchange
+ * in `init`
*
* @param peerId - the persistent identity of the peer
*
* @param peerSignature - the signature created by the peer over the session id computed by the
- * peer
+ * peer in `init`
*
- * @param peerNonce - nonce created by the peer
+ * @param peerNonce - nonce created by the peer in `init`
*
* @param peerVersion - an integer representing the protocol version (i.e. AIDL version)
* negotiated with the peer
*
- * @param ownKey - the key created by P1 (source) in `create()` for key exchange
+ * @param ownKey - the key created by P1 (source) in `create` for key exchange
*
- * @return SessionInfo including the two shared key arcs from step #9, session id and the
- * signature over the session id.
+ * @return SessionInfo including the two shared key arcs from step #9, session id from step #7
+ * and the signature over the session id from step #10.
*
- * Note: The two shared key arcs in the return type: `SessionInfo` serves two purposes:
+ * Note: The two shared key arcs in the return type: `SessionInfo` serve two purposes:
* i. A mapping to correlate the key exchange protocol taken place with a particular peer and
- * subsequent AuthGraph protocols execued with the same peer.
+ * subsequent AuthGraph protocols executed with the same peer.
* ii.A way to minimize the in-memory storage for shared keys.
* However, P1 should maintain some in-memory record to be able to verify that the shared key
* arcs sent to any subsequent AuthGraph protocol methods are valid shared keys agreed with the
@@ -196,21 +200,33 @@
* This method is invoked on P2 (sink).
* Perform the following steps:
* 0. If input `sharedKeys` is invalid (i.e. they cannot be decrypted with P2's per-boot key
- * or they are not in P2's in-memory records as valid shared keys agreed with the party
- * identified by `peerId`), return error: INVALID_SHARED_KEY_ARCS.
+ * or they are not in P2's in-memory records for unfinished instances of a key exchange
+ * protocol carried out with the party identified by the identity included in the
+ * `source_id` protected header of the shared key arcs),
+ * return error: INVALID_SHARED_KEY_ARCS.
* 1. Verify that both shared key arcs have the same session id and peer identity.
- * 2. Verify the peer's signature over the session id attached to the shared key arcs'
- * headers. If successful, proceed, otherwise, return error: INVALID_SIGNATURE.
- * 3. Mark authentication_complete = true in the shared key arcs' headers
+ * 2. Verify the `peerSignature` over the session id included in the `session_id` protected
+ * header of the shared key arcs.
+ * If successful, proceed, otherwise, return error: INVALID_SIGNATURE.
+ * 3. Mark authentication_complete = true in the shared key arcs' headers.
*
* @param peerSignature - the signature created by the peer over the session id computed by the
- * peer
+ * peer in `finish`
*
* @param sharedKeys - two shared key arcs created by P2 in `init`. P2 obtains from the arcs'
* protected headers, the session id and the peer's identity to verify the
* peer's signature over the session id.
*
* @return Arc[] - an array of two updated shared key arcs
+ *
+ * Note: The two returned shared key arcs serve two purposes:
+ * i. A mapping to correlate the key exchange protocol taken place with a particular peer and
+ * subsequent AuthGraph protocols executed with the same peer.
+ * ii.A way to minimize the in-memory storage for shared keys.
+ * However, P2 should maintain some in-memory record to be able to verify that the shared key
+ * arcs sent to any subsequent AuthGraph protocol methods are valid shared keys agreed with the
+ * party identified by the identity included in the `source_id` protected header of the shared
+ * key arcs, to prevent any replay attacks.
*/
Arc[2] authenticationComplete(in SessionIdSignature peerSignature, in Arc[2] sharedKeys);
}
diff --git a/security/authgraph/aidl/android/hardware/security/authgraph/SessionInfo.aidl b/security/authgraph/aidl/android/hardware/security/authgraph/SessionInfo.aidl
index ef49a1a..82b8c17 100644
--- a/security/authgraph/aidl/android/hardware/security/authgraph/SessionInfo.aidl
+++ b/security/authgraph/aidl/android/hardware/security/authgraph/SessionInfo.aidl
@@ -26,8 +26,8 @@
@RustDerive(Clone=true, Eq=true, PartialEq=true)
parcelable SessionInfo {
/**
- * The arcs that encrypt the two derived symmetric encryption keys (for two-way communication)
- * from the party's per-boot key.
+ * The arcs that encrypt the two derived symmetric encryption keys (for two-way communication).
+ * The encryption key is the party's per-boot key.
*/
Arc[2] sharedKeys;
diff --git a/security/authgraph/aidl/android/hardware/security/authgraph/SessionInitiationInfo.aidl b/security/authgraph/aidl/android/hardware/security/authgraph/SessionInitiationInfo.aidl
index c630d91..8179ac2 100644
--- a/security/authgraph/aidl/android/hardware/security/authgraph/SessionInitiationInfo.aidl
+++ b/security/authgraph/aidl/android/hardware/security/authgraph/SessionInitiationInfo.aidl
@@ -27,20 +27,22 @@
@RustDerive(Clone=true, Eq=true, PartialEq=true)
parcelable SessionInitiationInfo {
/**
- * An ephemeral EC key created for the ECDH process.
+ * An ephemeral EC key created for the Elliptic-curve Diffie-Hellman (ECDH) process.
*/
Key key;
/**
- * The identity of the party who created the Diffie-Hellman key exchange key.
+ * The identity of the party who creates this `SessionInitiationInfo`.
*/
Identity identity;
/**
- * Nonce value specific to this session. The nonce serves three purposes:
+ * Nonce (a cryptographic random number of 16 bytes) specific to this session.
+ * The nonce serves three purposes:
* 1. freshness of key exchange
* 2. creating a session id (a publicly known value related to the exchanged keys)
- * 3. usage as salt into the HKDF-EXTRACT function during key derivation from the shared DH key
+ * 3. usage as salt into the HKDF-EXTRACT function during key derivation from the Diffie-Hellman
+ * shared secret
*/
byte[] nonce;
diff --git a/security/authgraph/aidl/vts/functional/lib.rs b/security/authgraph/aidl/vts/functional/lib.rs
index 7b9b2b9..da3fa1c 100644
--- a/security/authgraph/aidl/vts/functional/lib.rs
+++ b/security/authgraph/aidl/vts/functional/lib.rs
@@ -24,22 +24,19 @@
PlainPubKey::PlainPubKey, PubKey::PubKey, SessionIdSignature::SessionIdSignature,
};
use authgraph_boringssl as boring;
-use authgraph_core::keyexchange as ke;
-use authgraph_core::{arc, key, traits};
-use authgraph_nonsecure::StdClock;
+use authgraph_core::{error::Error as AgError, keyexchange as ke};
use coset::CborSerializable;
pub mod sink;
pub mod source;
-/// Return a collection of AuthGraph trait implementations suitable for testing.
-pub fn test_impls() -> traits::TraitImpl {
- // Note that the local implementation is using a clock with a potentially different epoch than
- // the implementation under test.
- boring::trait_impls(
+/// Return an AuthGraphParticipant suitable for testing.
+pub fn test_ag_participant() -> Result<ke::AuthGraphParticipant, AgError> {
+ Ok(ke::AuthGraphParticipant::new(
+ boring::crypto_trait_impls(),
Box::<boring::test_device::AgDevice>::default(),
- Some(Box::new(StdClock::default())),
- )
+ ke::MAX_OPENED_SESSIONS,
+ )?)
}
fn build_plain_pub_key(pub_key: &Option<Vec<u8>>) -> PubKey {
@@ -56,14 +53,6 @@
}
}
-fn verification_key_from_identity(impls: &traits::TraitImpl, identity: &[u8]) -> key::EcVerifyKey {
- let identity = key::Identity::from_slice(identity).expect("invalid identity CBOR");
- impls
- .device
- .process_peer_cert_chain(&identity.cert_chain, &*impls.ecdsa)
- .expect("failed to extract signing key")
-}
-
fn vec_to_identity(data: &[u8]) -> Identity {
Identity {
identity: data.to_vec(),
@@ -75,26 +64,3 @@
signature: data.to_vec(),
}
}
-
-/// Decrypt a pair of AES-256 keys encrypted with the AuthGraph PBK.
-pub fn decipher_aes_keys(imp: &traits::TraitImpl, arc: &[Vec<u8>; 2]) -> [key::AesKey; 2] {
- [
- decipher_aes_key(imp, &arc[0]),
- decipher_aes_key(imp, &arc[1]),
- ]
-}
-
-/// Decrypt an AES-256 key encrypted with the AuthGraph PBK.
-pub fn decipher_aes_key(imp: &traits::TraitImpl, arc: &[u8]) -> key::AesKey {
- let pbk = imp.device.get_per_boot_key().expect("no PBK available");
- let arc::ArcContent {
- payload,
- protected_headers: _,
- unprotected_headers: _,
- } = arc::decipher_arc(&pbk, arc, &*imp.aes_gcm).expect("failed to decrypt arc");
- assert_eq!(payload.0.len(), 32);
- let mut key = key::AesKey([0; 32]);
- key.0.copy_from_slice(&payload.0);
- assert_ne!(key.0, [0; 32], "agreed AES-256 key should be non-zero");
- key
-}
diff --git a/security/authgraph/aidl/vts/functional/role_test.rs b/security/authgraph/aidl/vts/functional/role_test.rs
index e95361a..71a2fae 100644
--- a/security/authgraph/aidl/vts/functional/role_test.rs
+++ b/security/authgraph/aidl/vts/functional/role_test.rs
@@ -48,31 +48,31 @@
#[test]
fn test_nonsecure_source_mainline() {
- let mut impls = vts::test_impls();
- vts::source::test_mainline(&mut impls, require_nonsecure!());
+ let mut sink = vts::test_ag_participant().expect("failed to create a local sink");
+ vts::source::test_mainline(&mut sink, require_nonsecure!());
}
#[test]
fn test_nonsecure_source_corrupt_sig() {
- let mut impls = vts::test_impls();
- vts::source::test_corrupt_sig(&mut impls, require_nonsecure!());
+ let mut sink = vts::test_ag_participant().expect("failed to create a local sink");
+ vts::source::test_corrupt_sig(&mut sink, require_nonsecure!());
}
#[test]
fn test_nonsecure_source_corrupt_keys() {
- let mut impls = vts::test_impls();
- vts::source::test_corrupt_key(&mut impls, require_nonsecure!());
+ let mut sink = vts::test_ag_participant().expect("failed to create a local sink");
+ vts::source::test_corrupt_key(&mut sink, require_nonsecure!());
}
#[test]
fn test_nonsecure_sink_mainline() {
- let mut impls = vts::test_impls();
- vts::sink::test_mainline(&mut impls, require_nonsecure!());
+ let mut source = vts::test_ag_participant().expect("failed to create a local source");
+ vts::sink::test_mainline(&mut source, require_nonsecure!());
}
#[test]
fn test_nonsecure_sink_corrupt_sig() {
- let mut impls = vts::test_impls();
- vts::sink::test_corrupt_sig(&mut impls, require_nonsecure!());
+ let mut source = vts::test_ag_participant().expect("failed to create a local source");
+ vts::sink::test_corrupt_sig(&mut source, require_nonsecure!());
}
#[test]
fn test_nonsecure_sink_corrupt_keys() {
- let mut impls = vts::test_impls();
- vts::sink::test_corrupt_keys(&mut impls, require_nonsecure!());
+ let mut source = vts::test_ag_participant().expect("failed to create a local source");
+ vts::sink::test_corrupt_keys(&mut source, require_nonsecure!());
}
diff --git a/security/authgraph/aidl/vts/functional/sink.rs b/security/authgraph/aidl/vts/functional/sink.rs
index 5c81593..bb357b8 100644
--- a/security/authgraph/aidl/vts/functional/sink.rs
+++ b/security/authgraph/aidl/vts/functional/sink.rs
@@ -16,23 +16,28 @@
//! VTS tests for sinks
use super::*;
-use authgraph_core::traits;
+use authgraph_core::{key, keyexchange as ke};
/// Run AuthGraph tests against the provided sink, using a local test source implementation.
-pub fn test(impls: &mut traits::TraitImpl, sink: binder::Strong<dyn IAuthGraphKeyExchange>) {
- test_mainline(impls, sink.clone());
- test_corrupt_sig(impls, sink.clone());
- test_corrupt_keys(impls, sink);
+pub fn test(
+ local_source: &mut ke::AuthGraphParticipant,
+ sink: binder::Strong<dyn IAuthGraphKeyExchange>,
+) {
+ test_mainline(local_source, sink.clone());
+ test_corrupt_sig(local_source, sink.clone());
+ test_corrupt_keys(local_source, sink);
}
/// Perform mainline AuthGraph key exchange with the provided sink and local implementation.
/// Return the agreed AES keys in plaintext.
pub fn test_mainline(
- impls: &mut traits::TraitImpl,
+ local_source: &mut ke::AuthGraphParticipant,
sink: binder::Strong<dyn IAuthGraphKeyExchange>,
) -> [key::AesKey; 2] {
// Step 1: create an ephemeral ECDH key at the (local) source.
- let source_init_info = ke::create(impls).expect("failed to create() with local impl");
+ let source_init_info = local_source
+ .create()
+ .expect("failed to create() with local impl");
// Step 2: pass the source's ECDH public key and other session info to the (remote) sink.
let init_result = sink
@@ -50,40 +55,43 @@
assert!(!sink_info.sessionId.is_empty());
// The AuthGraph core library will verify the session ID signature, but do it here too.
- let sink_verification_key =
- verification_key_from_identity(&impls, &sink_init_info.identity.identity);
- ke::verify_signature_on_session_id(
- &sink_verification_key,
- &sink_info.sessionId,
- &sink_info.signature.signature,
- &*impls.ecdsa,
- )
- .expect("failed verification of signed session ID");
+ let sink_verification_key = local_source
+ .peer_verification_key_from_identity(&sink_init_info.identity.identity)
+ .expect("failed to get peer verification from identity");
+ local_source
+ .verify_signature_on_session_id(
+ &sink_verification_key,
+ &sink_info.sessionId,
+ &sink_info.signature.signature,
+ )
+ .expect("failed verification of signed session ID");
// Step 3: pass the sink's ECDH public key and other session info to the (local) source, so it
// can calculate the same pair of symmetric keys.
- let source_info = ke::finish(
- impls,
- &sink_pub_key.plainPubKey,
- &sink_init_info.identity.identity,
- &sink_info.signature.signature,
- &sink_init_info.nonce,
- sink_init_info.version,
- source_init_info.ke_key,
- )
- .expect("failed to finish() with local impl");
+ let source_info = local_source
+ .finish(
+ &sink_pub_key.plainPubKey,
+ &sink_init_info.identity.identity,
+ &sink_info.signature.signature,
+ &sink_init_info.nonce,
+ sink_init_info.version,
+ source_init_info.ke_key,
+ )
+ .expect("failed to finish() with local impl");
assert!(!source_info.session_id.is_empty());
// The AuthGraph core library will verify the session ID signature, but do it here too.
- let source_verification_key =
- verification_key_from_identity(&impls, &source_init_info.identity);
- ke::verify_signature_on_session_id(
- &source_verification_key,
- &source_info.session_id,
- &source_info.session_id_signature,
- &*impls.ecdsa,
- )
- .expect("failed verification of signed session ID");
+ let source_verification_key = key::Identity::from_slice(&source_init_info.identity)
+ .expect("invalid identity CBOR")
+ .cert_chain
+ .root_key;
+ local_source
+ .verify_signature_on_session_id(
+ &source_verification_key,
+ &source_info.session_id,
+ &source_info.session_id_signature,
+ )
+ .expect("failed verification of signed session ID");
// Both ends should agree on the session ID.
assert_eq!(source_info.session_id, sink_info.sessionId);
@@ -96,19 +104,28 @@
&sink_info.sharedKeys,
)
.expect("failed to authenticationComplete() with remote sink");
-
// Decrypt and return the session keys.
- decipher_aes_keys(&impls, &source_info.shared_keys)
+ let decrypted_shared_keys = local_source
+ .decipher_shared_keys_from_arcs(&source_info.shared_keys)
+ .expect("failed to decrypt shared key arcs")
+ .try_into();
+ let decrypted_shared_keys_array = match decrypted_shared_keys {
+ Ok(array) => array,
+ Err(_) => panic!("wrong number of decrypted shared key arcs"),
+ };
+ decrypted_shared_keys_array
}
/// Perform mainline AuthGraph key exchange with the provided sink, but provide an invalid
/// session ID signature.
pub fn test_corrupt_sig(
- impls: &mut traits::TraitImpl,
+ local_source: &mut ke::AuthGraphParticipant,
sink: binder::Strong<dyn IAuthGraphKeyExchange>,
) {
// Step 1: create an ephemeral ECDH key at the (local) source.
- let source_init_info = ke::create(impls).expect("failed to create() with local impl");
+ let source_init_info = local_source
+ .create()
+ .expect("failed to create() with local impl");
// Step 2: pass the source's ECDH public key and other session info to the (remote) sink.
let init_result = sink
@@ -127,16 +144,16 @@
// Step 3: pass the sink's ECDH public key and other session info to the (local) source, so it
// can calculate the same pair of symmetric keys.
- let source_info = ke::finish(
- impls,
- &sink_pub_key.plainPubKey,
- &sink_init_info.identity.identity,
- &sink_info.signature.signature,
- &sink_init_info.nonce,
- sink_init_info.version,
- source_init_info.ke_key,
- )
- .expect("failed to finish() with local impl");
+ let source_info = local_source
+ .finish(
+ &sink_pub_key.plainPubKey,
+ &sink_init_info.identity.identity,
+ &sink_info.signature.signature,
+ &sink_init_info.nonce,
+ sink_init_info.version,
+ source_init_info.ke_key,
+ )
+ .expect("failed to finish() with local impl");
assert!(!source_info.session_id.is_empty());
// Build a corrupted version of the (local) source's session ID signature.
@@ -158,11 +175,13 @@
/// Perform mainline AuthGraph key exchange with the provided sink, but provide an invalid
/// Arc for the sink's key.
pub fn test_corrupt_keys(
- impls: &mut traits::TraitImpl,
+ local_source: &mut ke::AuthGraphParticipant,
sink: binder::Strong<dyn IAuthGraphKeyExchange>,
) {
// Step 1: create an ephemeral ECDH key at the (local) source.
- let source_init_info = ke::create(impls).expect("failed to create() with local impl");
+ let source_init_info = local_source
+ .create()
+ .expect("failed to create() with local impl");
// Step 2: pass the source's ECDH public key and other session info to the (remote) sink.
let init_result = sink
@@ -181,16 +200,16 @@
// Step 3: pass the sink's ECDH public key and other session info to the (local) source, so it
// can calculate the same pair of symmetric keys.
- let source_info = ke::finish(
- impls,
- &sink_pub_key.plainPubKey,
- &sink_init_info.identity.identity,
- &sink_info.signature.signature,
- &sink_init_info.nonce,
- sink_init_info.version,
- source_init_info.ke_key,
- )
- .expect("failed to finish() with local impl");
+ let source_info = local_source
+ .finish(
+ &sink_pub_key.plainPubKey,
+ &sink_init_info.identity.identity,
+ &sink_info.signature.signature,
+ &sink_init_info.nonce,
+ sink_init_info.version,
+ source_init_info.ke_key,
+ )
+ .expect("failed to finish() with local impl");
assert!(!source_info.session_id.is_empty());
// Deliberately corrupt the sink's shared key Arcs before returning them
diff --git a/security/authgraph/aidl/vts/functional/source.rs b/security/authgraph/aidl/vts/functional/source.rs
index 9aaaaee..4178a99 100644
--- a/security/authgraph/aidl/vts/functional/source.rs
+++ b/security/authgraph/aidl/vts/functional/source.rs
@@ -16,19 +16,22 @@
//! VTS tests for sources
use super::*;
-use authgraph_core::traits;
+use authgraph_core::{key, keyexchange as ke};
/// Run AuthGraph tests against the provided source, using a local test sink implementation.
-pub fn test(impls: &mut traits::TraitImpl, source: binder::Strong<dyn IAuthGraphKeyExchange>) {
- test_mainline(impls, source.clone());
- test_corrupt_sig(impls, source.clone());
- test_corrupt_key(impls, source);
+pub fn test(
+ local_sink: &mut ke::AuthGraphParticipant,
+ source: binder::Strong<dyn IAuthGraphKeyExchange>,
+) {
+ test_mainline(local_sink, source.clone());
+ test_corrupt_sig(local_sink, source.clone());
+ test_corrupt_key(local_sink, source);
}
/// Perform mainline AuthGraph key exchange with the provided source.
/// Return the agreed AES keys in plaintext.
pub fn test_mainline(
- impls: &mut traits::TraitImpl,
+ local_sink: &mut ke::AuthGraphParticipant,
source: binder::Strong<dyn IAuthGraphKeyExchange>,
) -> [key::AesKey; 2] {
// Step 1: create an ephemeral ECDH key at the (remote) source.
@@ -40,14 +43,14 @@
let source_pub_key = extract_plain_pub_key(&source_init_info.key.pubKey);
// Step 2: pass the source's ECDH public key and other session info to the (local) sink.
- let init_result = ke::init(
- impls,
- &source_pub_key.plainPubKey,
- &source_init_info.identity.identity,
- &source_init_info.nonce,
- source_init_info.version,
- )
- .expect("failed to init() with local impl");
+ let init_result = local_sink
+ .init(
+ &source_pub_key.plainPubKey,
+ &source_init_info.identity.identity,
+ &source_init_info.nonce,
+ source_init_info.version,
+ )
+ .expect("failed to init() with local impl");
let sink_init_info = init_result.session_init_info;
let sink_pub_key = sink_init_info
.ke_key
@@ -58,14 +61,17 @@
assert!(!sink_info.session_id.is_empty());
// The AuthGraph core library will verify the session ID signature, but do it here too.
- let sink_verification_key = verification_key_from_identity(&impls, &sink_init_info.identity);
- ke::verify_signature_on_session_id(
- &sink_verification_key,
- &sink_info.session_id,
- &sink_info.session_id_signature,
- &*impls.ecdsa,
- )
- .expect("failed verification of signed session ID");
+ let sink_verification_key = key::Identity::from_slice(&sink_init_info.identity)
+ .expect("invalid identity CBOR")
+ .cert_chain
+ .root_key;
+ local_sink
+ .verify_signature_on_session_id(
+ &sink_verification_key,
+ &sink_info.session_id,
+ &sink_info.session_id_signature,
+ )
+ .expect("failed verification of signed session ID");
// Step 3: pass the sink's ECDH public key and other session info to the (remote) source, so it
// can calculate the same pair of symmetric keys.
@@ -86,36 +92,41 @@
assert!(!source_info.sessionId.is_empty());
// The AuthGraph core library will verify the session ID signature, but do it here too.
- let source_verification_key =
- verification_key_from_identity(&impls, &source_init_info.identity.identity);
- ke::verify_signature_on_session_id(
- &source_verification_key,
- &source_info.sessionId,
- &source_info.signature.signature,
- &*impls.ecdsa,
- )
- .expect("failed verification of signed session ID");
+ let source_verification_key = local_sink
+ .peer_verification_key_from_identity(&source_init_info.identity.identity)
+ .expect("failed to get peer verification from identity");
+ local_sink
+ .verify_signature_on_session_id(
+ &source_verification_key,
+ &source_info.sessionId,
+ &source_info.signature.signature,
+ )
+ .expect("failed verification of signed session ID");
// Both ends should agree on the session ID.
assert_eq!(source_info.sessionId, sink_info.session_id);
// Step 4: pass the (remote) source's session ID signature back to the sink, so it can check it
// and update the symmetric keys so they're marked as authentication complete.
- let sink_arcs = ke::authentication_complete(
- impls,
- &source_info.signature.signature,
- sink_info.shared_keys,
- )
- .expect("failed to authenticationComplete() with local sink");
-
+ let sink_arcs = local_sink
+ .authentication_complete(&source_info.signature.signature, sink_info.shared_keys)
+ .expect("failed to authenticationComplete() with local sink");
// Decrypt and return the session keys.
- decipher_aes_keys(&impls, &sink_arcs)
+ let decrypted_shared_keys = local_sink
+ .decipher_shared_keys_from_arcs(&sink_arcs)
+ .expect("failed to decrypt shared key arcs")
+ .try_into();
+ let decrypted_shared_keys_array = match decrypted_shared_keys {
+ Ok(array) => array,
+ Err(_) => panic!("wrong number of decrypted shared key arcs"),
+ };
+ decrypted_shared_keys_array
}
/// Perform mainline AuthGraph key exchange with the provided source, but provide an invalid session
/// ID signature.
pub fn test_corrupt_sig(
- impls: &mut traits::TraitImpl,
+ local_sink: &mut ke::AuthGraphParticipant,
source: binder::Strong<dyn IAuthGraphKeyExchange>,
) {
// Step 1: create an ephemeral ECDH key at the (remote) source.
@@ -127,14 +138,14 @@
let source_pub_key = extract_plain_pub_key(&source_init_info.key.pubKey);
// Step 2: pass the source's ECDH public key and other session info to the (local) sink.
- let init_result = ke::init(
- impls,
- &source_pub_key.plainPubKey,
- &source_init_info.identity.identity,
- &source_init_info.nonce,
- source_init_info.version,
- )
- .expect("failed to init() with local impl");
+ let init_result = local_sink
+ .init(
+ &source_pub_key.plainPubKey,
+ &source_init_info.identity.identity,
+ &source_init_info.nonce,
+ source_init_info.version,
+ )
+ .expect("failed to init() with local impl");
let sink_init_info = init_result.session_init_info;
let sink_pub_key = sink_init_info
.ke_key
@@ -172,7 +183,7 @@
/// Perform mainline AuthGraph key exchange with the provided source, but give it back
/// a corrupted key.
pub fn test_corrupt_key(
- impls: &mut traits::TraitImpl,
+ local_sink: &mut ke::AuthGraphParticipant,
source: binder::Strong<dyn IAuthGraphKeyExchange>,
) {
// Step 1: create an ephemeral ECDH key at the (remote) source.
@@ -184,14 +195,14 @@
let source_pub_key = extract_plain_pub_key(&source_init_info.key.pubKey);
// Step 2: pass the source's ECDH public key and other session info to the (local) sink.
- let init_result = ke::init(
- impls,
- &source_pub_key.plainPubKey,
- &source_init_info.identity.identity,
- &source_init_info.nonce,
- source_init_info.version,
- )
- .expect("failed to init() with local impl");
+ let init_result = local_sink
+ .init(
+ &source_pub_key.plainPubKey,
+ &source_init_info.identity.identity,
+ &source_init_info.nonce,
+ source_init_info.version,
+ )
+ .expect("failed to init() with local impl");
let sink_init_info = init_result.session_init_info;
let sink_pub_key = sink_init_info
.ke_key
@@ -202,14 +213,17 @@
assert!(!sink_info.session_id.is_empty());
// The AuthGraph core library will verify the session ID signature, but do it here too.
- let sink_verification_key = verification_key_from_identity(&impls, &sink_init_info.identity);
- ke::verify_signature_on_session_id(
- &sink_verification_key,
- &sink_info.session_id,
- &sink_info.session_id_signature,
- &*impls.ecdsa,
- )
- .expect("failed verification of signed session ID");
+ let sink_verification_key = key::Identity::from_slice(&sink_init_info.identity)
+ .expect("invalid identity CBOR")
+ .cert_chain
+ .root_key;
+ local_sink
+ .verify_signature_on_session_id(
+ &sink_verification_key,
+ &sink_info.session_id,
+ &sink_info.session_id_signature,
+ )
+ .expect("failed verification of signed session ID");
// Deliberately corrupt the source's encrypted key.
let mut corrupt_key = source_init_info.key.clone();
diff --git a/security/authgraph/default/src/fuzzer.rs b/security/authgraph/default/src/fuzzer.rs
index 6a9cfdd..d401777 100644
--- a/security/authgraph/default/src/fuzzer.rs
+++ b/security/authgraph/default/src/fuzzer.rs
@@ -25,7 +25,7 @@
use std::sync::{Arc, Mutex};
fuzz_target!(|data: &[u8]| {
- let local_ta = LocalTa::new();
+ let local_ta = LocalTa::new().expect("Failed to create an AuthGraph local TA.");
let service = AuthGraphService::new_as_binder(Arc::new(Mutex::new(local_ta)));
fuzz_service(&mut service.as_binder(), data);
});
diff --git a/security/authgraph/default/src/lib.rs b/security/authgraph/default/src/lib.rs
index 4cd0cb7..43d037c 100644
--- a/security/authgraph/default/src/lib.rs
+++ b/security/authgraph/default/src/lib.rs
@@ -18,7 +18,9 @@
use authgraph_boringssl as boring;
use authgraph_core::{
+ error,
key::MillisecondsSinceEpoch,
+ keyexchange,
ta::{AuthGraphTa, Role},
traits,
};
@@ -57,16 +59,17 @@
impl LocalTa {
/// Create a new instance.
- pub fn new() -> Self {
- Self {
+ pub fn new() -> Result<Self, error::Error> {
+ Ok(Self {
ta: Arc::new(Mutex::new(AuthGraphTa::new(
- boring::trait_impls(
+ keyexchange::AuthGraphParticipant::new(
+ boring::crypto_trait_impls(),
Box::<boring::test_device::AgDevice>::default(),
- Some(Box::new(StdClock::default())),
- ),
+ keyexchange::MAX_OPENED_SESSIONS,
+ )?,
Role::Both,
))),
- }
+ })
}
}
diff --git a/security/authgraph/default/src/main.rs b/security/authgraph/default/src/main.rs
index 873eb4e..81f2dd6 100644
--- a/security/authgraph/default/src/main.rs
+++ b/security/authgraph/default/src/main.rs
@@ -65,7 +65,8 @@
binder::ProcessState::start_thread_pool();
// Register the service
- let local_ta = LocalTa::new();
+ let local_ta =
+ LocalTa::new().map_err(|e| format!("Failed to create the TA because: {e:?}"))?;
let service = service::AuthGraphService::new_as_binder(Arc::new(Mutex::new(local_ta)));
let service_name = format!("{}/{}", SERVICE_NAME, SERVICE_INSTANCE);
binder::add_service(&service_name, service.as_binder()).map_err(|e| {
diff --git a/security/keymint/aidl/android/hardware/security/keymint/Tag.aidl b/security/keymint/aidl/android/hardware/security/keymint/Tag.aidl
index aa7bf28..be29f59 100644
--- a/security/keymint/aidl/android/hardware/security/keymint/Tag.aidl
+++ b/security/keymint/aidl/android/hardware/security/keymint/Tag.aidl
@@ -974,8 +974,8 @@
* time in milliseconds. This value is used when generating attestation or self signed
* certificates. ErrorCode::MISSING_NOT_BEFORE must be returned if this tag is not provided if
* this tag is not provided to generateKey or importKey. For importWrappedKey, there is no way
- * to specify the value of this tag for the wrapped key, so a value of 0 must be used for
- * certificate generation.
+ * to specify the value of this tag for a wrapped asymmetric key, so a value of 0 is suggested
+ * for certificate generation.
*/
CERTIFICATE_NOT_BEFORE = TagType.DATE | 1008,
@@ -983,8 +983,9 @@
* Tag::CERTIFICATE_NOT_AFTER the end of the validity of the certificate in UNIX epoch time in
* milliseconds. This value is used when generating attestation or self signed certificates.
* ErrorCode::MISSING_NOT_AFTER must be returned if this tag is not provided to generateKey or
- * importKey. For importWrappedKey, there is no way to specify the value of this tag for the
- * wrapped key, so a value of 253402300799000 is used for certificate generation.
+ * importKey. For importWrappedKey, there is no way to specify the value of this tag for a
+ * wrapped asymmetric key, so a value of 253402300799000 is suggested for certificate
+ * generation.
*/
CERTIFICATE_NOT_AFTER = TagType.DATE | 1009,
diff --git a/security/keymint/aidl/vts/functional/KeyMintTest.cpp b/security/keymint/aidl/vts/functional/KeyMintTest.cpp
index a8f17dd..d4adab5 100644
--- a/security/keymint/aidl/vts/functional/KeyMintTest.cpp
+++ b/security/keymint/aidl/vts/functional/KeyMintTest.cpp
@@ -4123,13 +4123,13 @@
* when the EC_CURVE is not explicitly specified.
*/
TEST_P(ImportKeyTest, EcdsaSuccessCurveNotSpecified) {
- if (AidlVersion() < 4) {
+ if (get_vsr_api_level() < __ANDROID_API_V__) {
/*
- * The KeyMint spec before V4 was not clear as to whether EC_CURVE was optional on import of
- * EC keys. However, this was not checked at the time so we can only be strict about
- * checking this for implementations of KeyMint version 4 and above.
+ * The KeyMint spec was previously not clear as to whether EC_CURVE was optional on import
+ * of EC keys. However, this was not checked at the time so we can only be strict about
+ * checking this for implementations at VSR-V or later.
*/
- GTEST_SKIP() << "Skipping EC_CURVE on import only strict since KeyMint v4";
+ GTEST_SKIP() << "Skipping EC_CURVE on import only strict >= VSR-V";
}
ASSERT_EQ(ErrorCode::OK, ImportKey(AuthorizationSetBuilder()
diff --git a/wifi/aidl/default/aidl_struct_util.cpp b/wifi/aidl/default/aidl_struct_util.cpp
index 7bc2eeb..83e1193 100644
--- a/wifi/aidl/default/aidl_struct_util.cpp
+++ b/wifi/aidl/default/aidl_struct_util.cpp
@@ -887,6 +887,15 @@
return true;
}
+StaLinkLayerLinkStats::StaLinkState convertLegacyMlLinkStateToAidl(wifi_link_state state) {
+ if (state == wifi_link_state::WIFI_LINK_STATE_NOT_IN_USE) {
+ return StaLinkLayerLinkStats::StaLinkState::NOT_IN_USE;
+ } else if (state == wifi_link_state::WIFI_LINK_STATE_IN_USE) {
+ return StaLinkLayerLinkStats::StaLinkState::IN_USE;
+ }
+ return StaLinkLayerLinkStats::StaLinkState::UNKNOWN;
+}
+
bool convertLegacyLinkLayerMlStatsToAidl(const legacy_hal::LinkLayerMlStats& legacy_ml_stats,
StaLinkLayerStats* aidl_stats) {
if (!aidl_stats) {
@@ -898,6 +907,7 @@
for (const auto& link : legacy_ml_stats.links) {
StaLinkLayerLinkStats linkStats = {};
linkStats.linkId = link.stat.link_id;
+ linkStats.state = convertLegacyMlLinkStateToAidl(link.stat.state);
linkStats.radioId = link.stat.radio;
linkStats.frequencyMhz = link.stat.frequency;
linkStats.beaconRx = link.stat.beacon_rx;
diff --git a/wifi/aidl/default/tests/aidl_struct_util_unit_tests.cpp b/wifi/aidl/default/tests/aidl_struct_util_unit_tests.cpp
index 5c334f8..995a13d 100644
--- a/wifi/aidl/default/tests/aidl_struct_util_unit_tests.cpp
+++ b/wifi/aidl/default/tests/aidl_struct_util_unit_tests.cpp
@@ -123,6 +123,9 @@
// Add two radio stats
legacy_ml_stats.radios.push_back(legacy_hal::LinkLayerRadioStats{});
legacy_ml_stats.radios.push_back(legacy_hal::LinkLayerRadioStats{});
+ wifi_link_state states[sizeof(wifi_link_state)] = {wifi_link_state::WIFI_LINK_STATE_UNKNOWN,
+ wifi_link_state::WIFI_LINK_STATE_NOT_IN_USE,
+ wifi_link_state::WIFI_LINK_STATE_IN_USE};
// Add two links.
legacy_ml_stats.links.push_back(legacy_hal::LinkStats{});
legacy_ml_stats.links.push_back(legacy_hal::LinkStats{});
@@ -133,6 +136,7 @@
link.stat.beacon_rx = rand();
// MLO link id: 0 - 15
link.stat.link_id = rand() % 16;
+ link.stat.state = states[rand() % sizeof(states)];
// Maximum number of radios is limited to 3 for testing.
link.stat.radio = rand() % 4;
link.stat.frequency = rand();
@@ -241,6 +245,18 @@
int l = 0;
for (legacy_hal::LinkStats& link : legacy_ml_stats.links) {
EXPECT_EQ(link.stat.link_id, (uint8_t)converted.iface.links[l].linkId);
+ StaLinkLayerLinkStats::StaLinkState expectedState;
+ switch (link.stat.state) {
+ case wifi_link_state::WIFI_LINK_STATE_NOT_IN_USE:
+ expectedState = StaLinkLayerLinkStats::StaLinkState::NOT_IN_USE;
+ break;
+ case wifi_link_state::WIFI_LINK_STATE_IN_USE:
+ expectedState = StaLinkLayerLinkStats::StaLinkState::IN_USE;
+ break;
+ default:
+ expectedState = StaLinkLayerLinkStats::StaLinkState::UNKNOWN;
+ }
+ EXPECT_EQ(expectedState, converted.iface.links[l].state);
EXPECT_EQ(link.stat.radio, converted.iface.links[l].radioId);
EXPECT_EQ(link.stat.frequency, (uint32_t)converted.iface.links[l].frequencyMhz);
EXPECT_EQ(link.stat.beacon_rx, (uint32_t)converted.iface.links[l].beaconRx);
diff --git a/wifi/aidl/default/wifi_chip.cpp b/wifi/aidl/default/wifi_chip.cpp
index 6dd9156..8265e5b 100644
--- a/wifi/aidl/default/wifi_chip.cpp
+++ b/wifi/aidl/default/wifi_chip.cpp
@@ -1452,14 +1452,24 @@
if (legacy_status != legacy_hal::WIFI_SUCCESS) {
LOG(ERROR) << "Failed to get SupportedRadioCombinations matrix from legacy HAL: "
<< legacyErrorToString(legacy_status);
+ if (legacy_matrix != nullptr) {
+ free(legacy_matrix);
+ }
return {aidl_combinations, createWifiStatusFromLegacyError(legacy_status)};
}
if (!aidl_struct_util::convertLegacyRadioCombinationsMatrixToAidl(legacy_matrix,
&aidl_combinations)) {
LOG(ERROR) << "Failed convertLegacyRadioCombinationsMatrixToAidl() ";
+ if (legacy_matrix != nullptr) {
+ free(legacy_matrix);
+ }
return {aidl_combinations, createWifiStatus(WifiStatusCode::ERROR_INVALID_ARGS)};
}
+
+ if (legacy_matrix != nullptr) {
+ free(legacy_matrix);
+ }
return {aidl_combinations, ndk::ScopedAStatus::ok()};
}