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Merge "Adding VmsUtils for parsing Vms Vehicle Properties"

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Aditi Nagaraj 2018-01-11 22:49:23 +00:00 committed by Android (Google) Code Review
commit 6327b86696
4 changed files with 503 additions and 0 deletions
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2
automotive/vehicle/2.0/default/Android.bp
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@ -46,6 +46,7 @@ cc_library_static {
"common/src/VehicleObjectPool.cpp",
"common/src/VehiclePropertyStore.cpp",
"common/src/VehicleUtils.cpp",
"common/src/VmsUtils.cpp",
],
local_include_dirs: ["common/include/vhal_v2_0"],
export_include_dirs: ["common/include"],
@ -93,6 +94,7 @@ cc_test {
"tests/VehicleHalManager_test.cpp",
"tests/VehicleObjectPool_test.cpp",
"tests/VehiclePropConfigIndex_test.cpp",
"tests/VmsUtils_test.cpp",
],
header_libs: ["libbase_headers"],
}

156
automotive/vehicle/2.0/default/common/include/vhal_v2_0/VmsUtils.h Normal file
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@ -0,0 +1,156 @@
/*
* Copyright (C) 2018 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#ifndef android_hardware_automotive_vehicle_V2_0_VmsUtils_H_
#define android_hardware_automotive_vehicle_V2_0_VmsUtils_H_
#include <memory>
#include <string>
#include <android/hardware/automotive/vehicle/2.0/types.h>
namespace android {
namespace hardware {
namespace automotive {
namespace vehicle {
namespace V2_0 {
namespace vms {
// VmsUtils are a set of abstractions for creating and parsing Vehicle Property
// updates to VehicleProperty::VEHICLE_MAP_SERVICE. The format for parsing a
// VehiclePropValue update with a VMS message is specified in the Vehicle HIDL.
//
// This interface is meant for use by HAL clients of VMS; corresponding
// functionality is also provided by VMS in the embedded car service.
// A VmsLayer is comprised of a type, subtype, and version.
struct VmsLayer {
VmsLayer(int type, int subtype, int version) : type(type), subtype(subtype), version(version) {}
int type;
int subtype;
int version;
};
struct VmsLayerAndPublisher {
VmsLayer layer;
int publisher_id;
};
// A VmsAssociatedLayer is used by subscribers to specify which publisher IDs
// are acceptable for a given layer.
struct VmsAssociatedLayer {
VmsLayer layer;
std::vector<int> publisher_ids;
};
// A VmsLayerOffering refers to a single layer that can be published, along with
// its dependencies. Dependencies can be empty.
struct VmsLayerOffering {
VmsLayerOffering(VmsLayer layer, std::vector<VmsLayer> dependencies)
: layer(layer), dependencies(dependencies) {}
VmsLayerOffering(VmsLayer layer) : layer(layer), dependencies() {}
VmsLayer layer;
std::vector<VmsLayer> dependencies;
};
// A VmsSubscriptionsState is delivered in response to a
// VmsMessageType.SUBSCRIPTIONS_REQUEST or on the first SUBSCRIBE or last
// UNSUBSCRIBE for a layer. It indicates which layers or associated_layers are
// currently being subscribed to in the system.
struct VmsSubscriptionsState {
int sequence_number;
std::vector<VmsLayer> layers;
std::vector<VmsAssociatedLayer> associated_layers;
};
struct VmsAvailabilityState {
int sequence_number;
std::vector<VmsAssociatedLayer> associated_layers;
};
// Creates a VehiclePropValue containing a message of type
// VmsMessageType.SUBSCRIBE, specifying to the VMS service
// which layer to subscribe to.
std::unique_ptr<VehiclePropValue> createSubscribeMessage(const VmsLayer& layer);
// Creates a VehiclePropValue containing a message of type
// VmsMessageType.SUBSCRIBE_TO_PUBLISHER, specifying to the VMS service
// which layer and publisher_id to subscribe to.
std::unique_ptr<VehiclePropValue> createSubscribeToPublisherMessage(
const VmsLayerAndPublisher& layer);
// Creates a VehiclePropValue containing a message of type
// VmsMessageType.UNSUBSCRIBE, specifying to the VMS service
// which layer to unsubscribe from.
std::unique_ptr<VehiclePropValue> createUnsubscribeMessage(const VmsLayer& layer);
// Creates a VehiclePropValue containing a message of type
// VmsMessageType.UNSUBSCRIBE_TO_PUBLISHER, specifying to the VMS service
// which layer and publisher_id to unsubscribe from.
std::unique_ptr<VehiclePropValue> createUnsubscribeToPublisherMessage(
const VmsLayerAndPublisher& layer);
// Creates a VehiclePropValue containing a message of type
// VmsMessageType.OFFERING, specifying to the VMS service which layers are being
// offered and their dependencies, if any.
std::unique_ptr<VehiclePropValue> createOfferingMessage(
const std::vector<VmsLayerOffering>& offering);
// Creates a VehiclePropValue containing a message of type
// VmsMessageType.AVAILABILITY_REQUEST.
std::unique_ptr<VehiclePropValue> createAvailabilityRequest();
// Creates a VehiclePropValue containing a message of type
// VmsMessageType.AVAILABILITY_REQUEST.
std::unique_ptr<VehiclePropValue> createSubscriptionsRequest();
// Creates a VehiclePropValue containing a message of type VmsMessageType.DATA.
// Returns a nullptr if the byte string in bytes is empty.
//
// For example, to build a VehiclePropMessage containing a proto, the caller
// should convert the proto to a byte string using the SerializeToString proto
// API, then use this inteface to build the VehicleProperty.
std::unique_ptr<VehiclePropValue> createDataMessage(const std::string& bytes);
// Returns true if the VehiclePropValue pointed to by value contains a valid Vms
// message, i.e. the VehicleProperty, VehicleArea, and VmsMessageType are all
// valid. Note: If the VmsMessageType enum is extended, this function will
// return false for any new message types added.
bool isValidVmsMessage(const VehiclePropValue& value);
// Returns the message type. Expects that the VehiclePropValue contains a valid
// Vms message, as verified by isValidVmsMessage.
VmsMessageType parseMessageType(const VehiclePropValue& value);
// Constructs a string byte array from a message of type VmsMessageType.DATA.
// Returns an empty string if the message type doesn't match or if the
// VehiclePropValue does not contain a byte array.
//
// A proto message can then be constructed by passing the result of this
// function to ParseFromString.
std::string parseData(const VehiclePropValue& value);
// TODO(aditin): Need to implement additional parsing functions per message
// type.
} // namespace vms
} // namespace V2_0
} // namespace vehicle
} // namespace automotive
} // namespace hardware
} // namespace android
#endif // android_hardware_automotive_vehicle_V2_0_VmsUtils_H_

162
automotive/vehicle/2.0/default/common/src/VmsUtils.cpp Normal file
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@ -0,0 +1,162 @@
/*
* Copyright (C) 2018 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "VmsUtils.h"
#include <common/include/vhal_v2_0/VehicleUtils.h>
namespace android {
namespace hardware {
namespace automotive {
namespace vehicle {
namespace V2_0 {
namespace vms {
static constexpr int kMessageIndex = toInt(VmsBaseMessageIntegerValuesIndex::MESSAGE_TYPE);
static constexpr int kMessageTypeSize = 1;
static constexpr int kLayerNumberSize = 1;
static constexpr int kLayerSize = 3;
static constexpr int kLayerAndPublisherSize = 4;
// TODO(aditin): We should extend the VmsMessageType enum to include a first and
// last, which would prevent breakages in this API. However, for all of the
// functions in this module, we only need to guarantee that the message type is
// between SUBSCRIBE and DATA.
static constexpr int kFirstMessageType = toInt(VmsMessageType::SUBSCRIBE);
static constexpr int kLastMessageType = toInt(VmsMessageType::DATA);
std::unique_ptr<VehiclePropValue> createBaseVmsMessage(size_t message_size) {
auto result = createVehiclePropValue(VehiclePropertyType::INT32, message_size);
result->prop = toInt(VehicleProperty::VEHICLE_MAP_SERVICE);
result->areaId = toInt(VehicleArea::GLOBAL);
return result;
}
std::unique_ptr<VehiclePropValue> createSubscribeMessage(const VmsLayer& layer) {
auto result = createBaseVmsMessage(kMessageTypeSize + kLayerSize);
result->value.int32Values = hidl_vec<int32_t>{toInt(VmsMessageType::SUBSCRIBE), layer.type,
layer.subtype, layer.version};
return result;
}
std::unique_ptr<VehiclePropValue> createSubscribeToPublisherMessage(
const VmsLayerAndPublisher& layer_publisher) {
auto result = createBaseVmsMessage(kMessageTypeSize + kLayerAndPublisherSize);
result->value.int32Values = hidl_vec<int32_t>{
toInt(VmsMessageType::SUBSCRIBE_TO_PUBLISHER), layer_publisher.layer.type,
layer_publisher.layer.subtype, layer_publisher.layer.version, layer_publisher.publisher_id};
return result;
}
std::unique_ptr<VehiclePropValue> createUnsubscribeMessage(const VmsLayer& layer) {
auto result = createBaseVmsMessage(kMessageTypeSize + kLayerSize);
result->value.int32Values = hidl_vec<int32_t>{toInt(VmsMessageType::UNSUBSCRIBE), layer.type,
layer.subtype, layer.version};
return result;
}
std::unique_ptr<VehiclePropValue> createUnsubscribeToPublisherMessage(
const VmsLayerAndPublisher& layer_publisher) {
auto result = createBaseVmsMessage(kMessageTypeSize + kLayerAndPublisherSize);
result->value.int32Values = hidl_vec<int32_t>{
toInt(VmsMessageType::UNSUBSCRIBE_TO_PUBLISHER), layer_publisher.layer.type,
layer_publisher.layer.subtype, layer_publisher.layer.version, layer_publisher.publisher_id};
return result;
}
std::unique_ptr<VehiclePropValue> createOfferingMessage(
const std::vector<VmsLayerOffering>& offering) {
int message_size = kMessageTypeSize + kLayerNumberSize;
for (const auto& offer : offering) {
message_size += kLayerNumberSize + (1 + offer.dependencies.size()) * kLayerSize;
}
auto result = createBaseVmsMessage(message_size);
std::vector<int32_t> offers = {toInt(VmsMessageType::OFFERING),
static_cast<int>(offering.size())};
for (const auto& offer : offering) {
std::vector<int32_t> layer_vector = {offer.layer.type, offer.layer.subtype,
offer.layer.version,
static_cast<int32_t>(offer.dependencies.size())};
for (const auto& dependency : offer.dependencies) {
std::vector<int32_t> dependency_layer = {dependency.type, dependency.subtype,
dependency.version};
layer_vector.insert(layer_vector.end(), dependency_layer.begin(),
dependency_layer.end());
}
offers.insert(offers.end(), layer_vector.begin(), layer_vector.end());
}
result->value.int32Values = offers;
return result;
}
std::unique_ptr<VehiclePropValue> createAvailabilityRequest() {
auto result = createBaseVmsMessage(kMessageTypeSize);
result->value.int32Values = hidl_vec<int32_t>{
toInt(VmsMessageType::AVAILABILITY_REQUEST),
};
return result;
}
std::unique_ptr<VehiclePropValue> createSubscriptionsRequest() {
auto result = createBaseVmsMessage(kMessageTypeSize);
result->value.int32Values = hidl_vec<int32_t>{
toInt(VmsMessageType::SUBSCRIPTIONS_REQUEST),
};
return result;
}
std::unique_ptr<VehiclePropValue> createDataMessage(const std::string& bytes) {
auto result = createBaseVmsMessage(kMessageTypeSize);
result->value.int32Values = hidl_vec<int32_t>{toInt(VmsMessageType::DATA)};
result->value.bytes = std::vector<uint8_t>(bytes.begin(), bytes.end());
return result;
}
bool verifyPropertyAndArea(const VehiclePropValue& value) {
return (value.prop == toInt(VehicleProperty::VEHICLE_MAP_SERVICE) &&
value.areaId == toInt(VehicleArea::GLOBAL));
}
bool verifyMessageType(const VehiclePropValue& value) {
return (value.value.int32Values.size() > 0 &&
value.value.int32Values[kMessageIndex] >= kFirstMessageType &&
value.value.int32Values[kMessageIndex] <= kLastMessageType);
}
bool isValidVmsMessage(const VehiclePropValue& value) {
return (verifyPropertyAndArea(value) && verifyMessageType(value));
}
VmsMessageType parseMessageType(const VehiclePropValue& value) {
return static_cast<VmsMessageType>(value.value.int32Values[kMessageIndex]);
}
std::string parseData(const VehiclePropValue& value) {
if (isValidVmsMessage(value) && parseMessageType(value) == VmsMessageType::DATA &&
value.value.bytes.size() > 0) {
return std::string(value.value.bytes.begin(), value.value.bytes.end());
} else {
return std::string();
}
}
} // namespace vms
} // namespace V2_0
} // namespace vehicle
} // namespace automotive
} // namespace hardware
} // namespace android

183
automotive/vehicle/2.0/default/tests/VmsUtils_test.cpp Normal file
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@ -0,0 +1,183 @@
/*
* Copyright (C) 2018 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <android/hardware/automotive/vehicle/2.0/IVehicle.h>
#include <gtest/gtest.h>
#include "VehicleHalTestUtils.h"
#include "vhal_v2_0/VmsUtils.h"
namespace android {
namespace hardware {
namespace automotive {
namespace vehicle {
namespace V2_0 {
namespace vms {
namespace {
TEST(VmsUtilsTest, subscribeMessage) {
VmsLayer layer(1, 0, 2);
auto message = createSubscribeMessage(layer);
ASSERT_NE(message, nullptr);
EXPECT_TRUE(isValidVmsMessage(*message));
EXPECT_EQ(message->prop, toInt(VehicleProperty::VEHICLE_MAP_SERVICE));
EXPECT_EQ(message->areaId, toInt(VehicleArea::GLOBAL));
EXPECT_EQ(message->value.int32Values.size(), 0x4ul);
EXPECT_EQ(parseMessageType(*message), VmsMessageType::SUBSCRIBE);
// Layer
EXPECT_EQ(message->value.int32Values[1], 1);
EXPECT_EQ(message->value.int32Values[2], 0);
EXPECT_EQ(message->value.int32Values[3], 2);
}
TEST(VmsUtilsTest, unsubscribeMessage) {
VmsLayer layer(1, 0, 2);
auto message = createUnsubscribeMessage(layer);
ASSERT_NE(message, nullptr);
EXPECT_TRUE(isValidVmsMessage(*message));
EXPECT_EQ(message->prop, toInt(VehicleProperty::VEHICLE_MAP_SERVICE));
EXPECT_EQ(message->areaId, toInt(VehicleArea::GLOBAL));
EXPECT_EQ(message->value.int32Values.size(), 0x4ul);
EXPECT_EQ(parseMessageType(*message), VmsMessageType::UNSUBSCRIBE);
// Layer
EXPECT_EQ(message->value.int32Values[1], 1);
EXPECT_EQ(message->value.int32Values[2], 0);
EXPECT_EQ(message->value.int32Values[3], 2);
}
TEST(VmsUtilsTest, singleOfferingMessage) {
std::vector<VmsLayerOffering> offering = {VmsLayerOffering(VmsLayer(1, 0, 2))};
auto message = createOfferingMessage(offering);
ASSERT_NE(message, nullptr);
EXPECT_TRUE(isValidVmsMessage(*message));
EXPECT_EQ(message->prop, toInt(VehicleProperty::VEHICLE_MAP_SERVICE));
EXPECT_EQ(message->areaId, toInt(VehicleArea::GLOBAL));
EXPECT_EQ(message->value.int32Values.size(), 0x6ul);
EXPECT_EQ(parseMessageType(*message), VmsMessageType::OFFERING);
// Number of layer offerings
EXPECT_EQ(message->value.int32Values[1], 1);
// Layer
EXPECT_EQ(message->value.int32Values[2], 1);
EXPECT_EQ(message->value.int32Values[3], 0);
EXPECT_EQ(message->value.int32Values[4], 2);
// Number of dependencies
EXPECT_EQ(message->value.int32Values[5], 0);
}
TEST(VmsUtilsTest, offeringWithDependencies) {
VmsLayer layer(1, 0, 2);
std::vector<VmsLayer> dependencies = {VmsLayer(2, 0, 2)};
std::vector<VmsLayerOffering> offering = {VmsLayerOffering(layer, dependencies)};
auto message = createOfferingMessage(offering);
ASSERT_NE(message, nullptr);
EXPECT_TRUE(isValidVmsMessage(*message));
EXPECT_EQ(message->prop, toInt(VehicleProperty::VEHICLE_MAP_SERVICE));
EXPECT_EQ(message->areaId, toInt(VehicleArea::GLOBAL));
EXPECT_EQ(message->value.int32Values.size(), 0x9ul);
EXPECT_EQ(parseMessageType(*message), VmsMessageType::OFFERING);
// Number of layer offerings
EXPECT_EQ(message->value.int32Values[1], 1);
// Layer
EXPECT_EQ(message->value.int32Values[2], 1);
EXPECT_EQ(message->value.int32Values[3], 0);
EXPECT_EQ(message->value.int32Values[4], 2);
// Number of dependencies
EXPECT_EQ(message->value.int32Values[5], 1);
// Dependency 1
EXPECT_EQ(message->value.int32Values[6], 2);
EXPECT_EQ(message->value.int32Values[7], 0);
EXPECT_EQ(message->value.int32Values[8], 2);
}
TEST(VmsUtilsTest, availabilityMessage) {
auto message = createAvailabilityRequest();
ASSERT_NE(message, nullptr);
EXPECT_TRUE(isValidVmsMessage(*message));
EXPECT_EQ(message->prop, toInt(VehicleProperty::VEHICLE_MAP_SERVICE));
EXPECT_EQ(message->areaId, toInt(VehicleArea::GLOBAL));
EXPECT_EQ(message->value.int32Values.size(), 0x1ul);
EXPECT_EQ(parseMessageType(*message), VmsMessageType::AVAILABILITY_REQUEST);
}
TEST(VmsUtilsTest, subscriptionsMessage) {
auto message = createSubscriptionsRequest();
ASSERT_NE(message, nullptr);
EXPECT_TRUE(isValidVmsMessage(*message));
EXPECT_EQ(message->prop, toInt(VehicleProperty::VEHICLE_MAP_SERVICE));
EXPECT_EQ(message->areaId, toInt(VehicleArea::GLOBAL));
EXPECT_EQ(message->value.int32Values.size(), 0x1ul);
EXPECT_EQ(parseMessageType(*message), VmsMessageType::SUBSCRIPTIONS_REQUEST);
}
TEST(VmsUtilsTest, dataMessage) {
std::string bytes = "aaa";
auto message = createDataMessage(bytes);
ASSERT_NE(message, nullptr);
EXPECT_TRUE(isValidVmsMessage(*message));
EXPECT_EQ(message->prop, toInt(VehicleProperty::VEHICLE_MAP_SERVICE));
EXPECT_EQ(message->areaId, toInt(VehicleArea::GLOBAL));
EXPECT_EQ(message->value.int32Values.size(), 0x1ul);
EXPECT_EQ(parseMessageType(*message), VmsMessageType::DATA);
EXPECT_EQ(message->value.bytes.size(), bytes.size());
EXPECT_EQ(memcmp(message->value.bytes.data(), bytes.data(), bytes.size()), 0);
}
TEST(VmsUtilsTest, emptyMessageInvalid) {
VehiclePropValue empty_prop;
EXPECT_FALSE(isValidVmsMessage(empty_prop));
}
TEST(VmsUtilsTest, invalidMessageType) {
VmsLayer layer(1, 0, 2);
auto message = createSubscribeMessage(layer);
message->value.int32Values[0] = 0;
EXPECT_FALSE(isValidVmsMessage(*message));
}
TEST(VmsUtilsTest, parseDataMessage) {
std::string bytes = "aaa";
auto message = createDataMessage(bytes);
auto data_str = parseData(*message);
ASSERT_FALSE(data_str.empty());
EXPECT_EQ(data_str, bytes);
}
TEST(VmsUtilsTest, parseInvalidDataMessage) {
VmsLayer layer(1, 0, 2);
auto message = createSubscribeMessage(layer);
auto data_str = parseData(*message);
EXPECT_TRUE(data_str.empty());
}
} // namespace
} // namespace vms
} // namespace V2_0
} // namespace vehicle
} // namespace automotive
} // namespace hardware
} // namespace android