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Simplify Weaver VTS test

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- Get the config in SetUp() so that it's easily available to test cases.
- Rename "weaver" class member to "weaver_" to match coding style.
- Eliminate unnecessary variables when checking WeaverReadResponse.
- Fix a typo.

Bug: 291284381
Test: 'atest VtsHalWeaverTargetTest' on bramble
Change-Id: Ia6dca996103057bfdc9002bc9ab2c039e2333ed9
This commit is contained in:
Eric Biggers 2023-07-18 02:34:00 +00:00
parent e2e40d69a6
commit 961a138e47
1 changed files with 51 additions and 120 deletions
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171
weaver/vts/VtsHalWeaverTargetTest.cpp
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@ -166,64 +166,56 @@ class WeaverTest : public ::testing::TestWithParam<std::tuple<std::string, std::
void SetUp() override;
void TearDown() override {}
std::unique_ptr<WeaverAdapter> weaver;
std::unique_ptr<WeaverAdapter> weaver_;
WeaverConfig config_;
};
void WeaverTest::SetUp() {
std::string api, instance_name;
std::tie(api, instance_name) = GetParam();
if (api == "hidl") {
weaver.reset(new WeaverHidlAdapter(instance_name));
weaver_.reset(new WeaverHidlAdapter(instance_name));
} else if (api == "aidl") {
weaver.reset(new WeaverAidlAdapter(instance_name));
weaver_.reset(new WeaverAidlAdapter(instance_name));
} else {
FAIL() << "Bad test parameterization";
}
ASSERT_TRUE(weaver->isReady());
ASSERT_TRUE(weaver_->isReady());
auto ret = weaver_->getConfig(&config_);
ASSERT_TRUE(ret.isOk());
ASSERT_GT(config_.slots, 0);
GTEST_LOG_(INFO) << "WeaverConfig: slots=" << config_.slots << ", keySize=" << config_.keySize
<< ", valueSize=" << config_.valueSize;
}
/*
* Checks config values are suitably large
*/
TEST_P(WeaverTest, GetConfig) {
WeaverConfig config;
auto ret = weaver->getConfig(&config);
ASSERT_TRUE(ret.isOk());
EXPECT_GE(config.slots, 16u);
EXPECT_GE(config.keySize, 16u);
EXPECT_GE(config.valueSize, 16u);
EXPECT_GE(config_.slots, 16u);
EXPECT_GE(config_.keySize, 16u);
EXPECT_GE(config_.valueSize, 16u);
}
/*
* Gets the config twice and checks they are the same
*/
TEST_P(WeaverTest, GettingConfigMultipleTimesGivesSameResult) {
WeaverConfig config1;
WeaverConfig config2;
auto ret = weaver->getConfig(&config1);
auto ret = weaver_->getConfig(&config2);
ASSERT_TRUE(ret.isOk());
ret = weaver->getConfig(&config2);
ASSERT_TRUE(ret.isOk());
EXPECT_EQ(config1, config2);
EXPECT_EQ(config_, config2);
}
/*
* Gets the number of slots from the config and writes a key and value to the last one
*/
TEST_P(WeaverTest, WriteToLastSlot) {
WeaverConfig config;
const auto configRet = weaver->getConfig(&config);
ASSERT_TRUE(configRet.isOk());
const uint32_t lastSlot = config.slots - 1;
const auto writeRet = weaver->write(lastSlot, KEY, VALUE);
const uint32_t lastSlot = config_.slots - 1;
const auto writeRet = weaver_->write(lastSlot, KEY, VALUE);
ASSERT_TRUE(writeRet.isOk());
}
@ -233,23 +225,15 @@ TEST_P(WeaverTest, WriteToLastSlot) {
*/
TEST_P(WeaverTest, WriteFollowedByReadGivesTheSameValue) {
constexpr uint32_t slotId = 0;
const auto ret = weaver->write(slotId, KEY, VALUE);
const auto ret = weaver_->write(slotId, KEY, VALUE);
ASSERT_TRUE(ret.isOk());
WeaverReadResponse response;
std::vector<uint8_t> readValue;
uint32_t timeout;
WeaverReadStatus status;
const auto readRet = weaver->read(slotId, KEY, &response);
readValue = response.value;
timeout = response.timeout;
status = response.status;
const auto readRet = weaver_->read(slotId, KEY, &response);
ASSERT_TRUE(readRet.isOk());
EXPECT_EQ(readValue, VALUE);
EXPECT_EQ(timeout, 0u);
EXPECT_EQ(status, WeaverReadStatus::OK);
EXPECT_EQ(response.value, VALUE);
EXPECT_EQ(response.timeout, 0u);
EXPECT_EQ(response.status, WeaverReadStatus::OK);
}
/*
@ -259,26 +243,18 @@ TEST_P(WeaverTest, WriteFollowedByReadGivesTheSameValue) {
*/
TEST_P(WeaverTest, OverwritingSlotUpdatesTheValue) {
constexpr uint32_t slotId = 0;
const auto initialWriteRet = weaver->write(slotId, WRONG_KEY, VALUE);
const auto initialWriteRet = weaver_->write(slotId, WRONG_KEY, VALUE);
ASSERT_TRUE(initialWriteRet.isOk());
const auto overwriteRet = weaver->write(slotId, KEY, OTHER_VALUE);
const auto overwriteRet = weaver_->write(slotId, KEY, OTHER_VALUE);
ASSERT_TRUE(overwriteRet.isOk());
WeaverReadResponse response;
std::vector<uint8_t> readValue;
uint32_t timeout;
WeaverReadStatus status;
const auto readRet = weaver->read(slotId, KEY, &response);
readValue = response.value;
timeout = response.timeout;
status = response.status;
const auto readRet = weaver_->read(slotId, KEY, &response);
ASSERT_TRUE(readRet.isOk());
EXPECT_EQ(readValue, OTHER_VALUE);
EXPECT_EQ(timeout, 0u);
EXPECT_EQ(status, WeaverReadStatus::OK);
EXPECT_EQ(response.value, OTHER_VALUE);
EXPECT_EQ(response.timeout, 0u);
EXPECT_EQ(response.status, WeaverReadStatus::OK);
}
/*
@ -287,37 +263,26 @@ TEST_P(WeaverTest, OverwritingSlotUpdatesTheValue) {
*/
TEST_P(WeaverTest, WriteFollowedByReadWithWrongKeyDoesNotGiveTheValue) {
constexpr uint32_t slotId = 0;
const auto ret = weaver->write(slotId, KEY, VALUE);
ASSERT_TRUE(ret.isOk());
const auto writeRet = weaver_->write(slotId, KEY, VALUE);
ASSERT_TRUE(writeRet.isOk());
WeaverReadResponse response;
std::vector<uint8_t> readValue;
WeaverReadStatus status;
const auto readRet =
weaver->read(slotId, WRONG_KEY, &response);
readValue = response.value;
status = response.status;
const auto readRet = weaver_->read(slotId, WRONG_KEY, &response);
ASSERT_TRUE(readRet.isOk());
EXPECT_TRUE(readValue.empty());
EXPECT_EQ(status, WeaverReadStatus::INCORRECT_KEY);
EXPECT_TRUE(response.value.empty());
EXPECT_EQ(response.status, WeaverReadStatus::INCORRECT_KEY);
}
/*
* Writing to an invalid slot fails
*/
TEST_P(WeaverTest, WritingToInvalidSlotFails) {
WeaverConfig config;
const auto configRet = weaver->getConfig(&config);
ASSERT_TRUE(configRet.isOk());
if (config.slots == std::numeric_limits<uint32_t>::max()) {
if (config_.slots == std::numeric_limits<uint32_t>::max()) {
// If there are no invalid slots then pass
return;
}
const auto writeRet = weaver->write(config.slots, KEY, VALUE);
const auto writeRet = weaver_->write(config_.slots, KEY, VALUE);
ASSERT_FALSE(writeRet.isOk());
}
@ -325,44 +290,27 @@ TEST_P(WeaverTest, WritingToInvalidSlotFails) {
* Reading from an invalid slot fails rather than incorrect key
*/
TEST_P(WeaverTest, ReadingFromInvalidSlotFails) {
WeaverConfig config;
const auto configRet = weaver->getConfig(&config);
ASSERT_TRUE(configRet.isOk());
if (config.slots == std::numeric_limits<uint32_t>::max()) {
if (config_.slots == std::numeric_limits<uint32_t>::max()) {
// If there are no invalid slots then pass
return;
}
WeaverReadResponse response;
std::vector<uint8_t> readValue;
uint32_t timeout;
WeaverReadStatus status;
const auto readRet =
weaver->read(config.slots, KEY, &response);
readValue = response.value;
timeout = response.timeout;
status = response.status;
const auto readRet = weaver_->read(config_.slots, KEY, &response);
ASSERT_TRUE(readRet.isOk());
EXPECT_TRUE(readValue.empty());
EXPECT_EQ(timeout, 0u);
EXPECT_EQ(status, WeaverReadStatus::FAILED);
EXPECT_TRUE(response.value.empty());
EXPECT_EQ(response.timeout, 0u);
EXPECT_EQ(response.status, WeaverReadStatus::FAILED);
}
/*
* Writing a key that is too large fails
*/
TEST_P(WeaverTest, WriteWithTooLargeKeyFails) {
WeaverConfig config;
const auto configRet = weaver->getConfig(&config);
ASSERT_TRUE(configRet.isOk());
std::vector<uint8_t> bigKey(config.keySize + 1);
std::vector<uint8_t> bigKey(config_.keySize + 1);
constexpr uint32_t slotId = 0;
const auto writeRet = weaver->write(slotId, bigKey, VALUE);
const auto writeRet = weaver_->write(slotId, bigKey, VALUE);
ASSERT_FALSE(writeRet.isOk());
}
@ -370,43 +318,26 @@ TEST_P(WeaverTest, WriteWithTooLargeKeyFails) {
* Writing a value that is too large fails
*/
TEST_P(WeaverTest, WriteWithTooLargeValueFails) {
WeaverConfig config;
const auto configRet = weaver->getConfig(&config);
ASSERT_TRUE(configRet.isOk());
std::vector<uint8_t> bigValue(config.valueSize + 1);
std::vector<uint8_t> bigValue(config_.valueSize + 1);
constexpr uint32_t slotId = 0;
const auto writeRet = weaver->write(slotId, KEY, bigValue);
const auto writeRet = weaver_->write(slotId, KEY, bigValue);
ASSERT_FALSE(writeRet.isOk());
}
/*
* Reading with a key that is loo large fails
* Reading with a key that is too large fails
*/
TEST_P(WeaverTest, ReadWithTooLargeKeyFails) {
WeaverConfig config;
const auto configRet = weaver->getConfig(&config);
ASSERT_TRUE(configRet.isOk());
std::vector<uint8_t> bigKey(config.keySize + 1);
std::vector<uint8_t> bigKey(config_.keySize + 1);
constexpr uint32_t slotId = 0;
WeaverReadResponse response;
std::vector<uint8_t> readValue;
uint32_t timeout;
WeaverReadStatus status;
const auto readRet =
weaver->read(slotId, bigKey, &response);
readValue = response.value;
timeout = response.timeout;
status = response.status;
const auto readRet = weaver_->read(slotId, bigKey, &response);
ASSERT_TRUE(readRet.isOk());
EXPECT_TRUE(readValue.empty());
EXPECT_EQ(timeout, 0u);
EXPECT_EQ(status, WeaverReadStatus::FAILED);
EXPECT_TRUE(response.value.empty());
EXPECT_EQ(response.timeout, 0u);
EXPECT_EQ(response.status, WeaverReadStatus::FAILED);
}
// Instantiate the test for each HIDL Weaver service.