blob: bce9294423742c3a823a3e04ab8f443fd561ac62 [file] [log] [blame]
/*
* Copyright (C) 2016 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.
*/
#define LOG_TAG "LibHidlTest"
#include <android-base/logging.h>
#include <gmock/gmock.h>
#include <gtest/gtest.h>
#include <hidl/HidlSupport.h>
#include <hidl/Status.h>
#include <hidl/TaskRunner.h>
#include <vector>
#define EXPECT_ARRAYEQ(__a1__, __a2__, __size__) EXPECT_TRUE(isArrayEqual(__a1__, __a2__, __size__))
#define EXPECT_2DARRAYEQ(__a1__, __a2__, __size1__, __size2__) \
EXPECT_TRUE(is2dArrayEqual(__a1__, __a2__, __size1__, __size2__))
template<typename T, typename S>
static inline bool isArrayEqual(const T arr1, const S arr2, size_t size) {
for(size_t i = 0; i < size; i++)
if(arr1[i] != arr2[i])
return false;
return true;
}
template<typename T, typename S>
static inline bool is2dArrayEqual(const T arr1, const S arr2, size_t size1, size_t size2) {
for(size_t i = 0; i < size1; i++)
for (size_t j = 0; j < size2; j++)
if(arr1[i][j] != arr2[i][j])
return false;
return true;
}
class LibHidlTest : public ::testing::Test {
public:
virtual void SetUp() override {
}
virtual void TearDown() override {
}
};
TEST_F(LibHidlTest, StringTest) {
using android::hardware::hidl_string;
hidl_string s; // empty constructor
EXPECT_STREQ(s.c_str(), "");
hidl_string s1 = "s1"; // copy = from cstr
EXPECT_STREQ(s1.c_str(), "s1");
hidl_string s2("s2"); // copy constructor from cstr
EXPECT_STREQ(s2.c_str(), "s2");
hidl_string s2a(nullptr); // copy constructor from null cstr
EXPECT_STREQ("", s2a.c_str());
s2a = nullptr; // = from nullptr cstr
EXPECT_STREQ(s2a.c_str(), "");
hidl_string s3 = hidl_string("s3"); // move =
EXPECT_STREQ(s3.c_str(), "s3");
hidl_string s4 = hidl_string("12345", 3); // copy constructor from cstr w/ length
EXPECT_STREQ(s4.c_str(), "123");
hidl_string s5(hidl_string(hidl_string("s5"))); // move constructor
EXPECT_STREQ(s5.c_str(), "s5");
hidl_string s6(std::string("s6")); // copy constructor from std::string
EXPECT_STREQ(s6.c_str(), "s6");
hidl_string s7 = std::string("s7"); // copy = from std::string
EXPECT_STREQ(s7.c_str(), "s7");
hidl_string s8(s7); // copy constructor
EXPECT_STREQ(s8.c_str(), "s7");
hidl_string s9 = s8; // copy =
EXPECT_STREQ(s9.c_str(), "s7");
char myCString[20] = "myCString";
s.setToExternal(&myCString[0], strlen(myCString));
EXPECT_STREQ(s.c_str(), "myCString");
myCString[2] = 'D';
EXPECT_STREQ(s.c_str(), "myDString");
s.clear(); // should not affect myCString
EXPECT_STREQ(myCString, "myDString");
// casts
s = "great";
std::string myString = s;
const char *anotherCString = s.c_str();
EXPECT_EQ(myString, "great");
EXPECT_STREQ(anotherCString, "great");
const hidl_string t = "not so great";
std::string myTString = t;
const char * anotherTCString = t.c_str();
EXPECT_EQ(myTString, "not so great");
EXPECT_STREQ(anotherTCString, "not so great");
// Assignment from hidl_string to std::string
std::string tgt;
hidl_string src("some stuff");
tgt = src;
EXPECT_STREQ(tgt.c_str(), "some stuff");
// Stream output operator
hidl_string msg("hidl_string works with operator<<");
std::cout << msg;
// Comparisons
const char * cstr1 = "abc";
std::string string1(cstr1);
hidl_string hs1(cstr1);
const char * cstrE = "abc";
std::string stringE(cstrE);
hidl_string hsE(cstrE);
const char * cstrNE = "ABC";
std::string stringNE(cstrNE);
hidl_string hsNE(cstrNE);
const char * cstr2 = "def";
std::string string2(cstr2);
hidl_string hs2(cstr2);
EXPECT_TRUE(hs1 == hsE);
EXPECT_FALSE(hs1 == hsNE);
EXPECT_TRUE(hs1 == cstrE);
EXPECT_FALSE(hs1 == cstrNE);
EXPECT_TRUE(hs1 == stringE);
EXPECT_FALSE(hs1 == stringNE);
EXPECT_FALSE(hs1 != hsE);
EXPECT_TRUE(hs1 != hsNE);
EXPECT_FALSE(hs1 != cstrE);
EXPECT_TRUE(hs1 != cstrNE);
EXPECT_FALSE(hs1 != stringE);
EXPECT_TRUE(hs1 != stringNE);
EXPECT_TRUE(hs1 < hs2);
EXPECT_FALSE(hs2 < hs1);
EXPECT_TRUE(hs2 > hs1);
EXPECT_FALSE(hs1 > hs2);
EXPECT_TRUE(hs1 <= hs1);
EXPECT_TRUE(hs1 <= hs2);
EXPECT_FALSE(hs2 <= hs1);
EXPECT_TRUE(hs1 >= hs1);
EXPECT_TRUE(hs2 >= hs1);
EXPECT_FALSE(hs2 <= hs1);
}
TEST_F(LibHidlTest, MemoryTest) {
using android::hardware::hidl_memory;
hidl_memory mem1 = hidl_memory(); // default constructor
hidl_memory mem2 = mem1; // copy constructor (nullptr)
EXPECT_EQ(nullptr, mem2.handle());
native_handle_t* testHandle = native_handle_create(0 /* numInts */, 0 /* numFds */);
hidl_memory mem3 = hidl_memory("foo", testHandle, 42 /* size */); // owns testHandle
hidl_memory mem4 = mem3; // copy constructor (regular handle)
EXPECT_EQ(mem3.name(), mem4.name());
EXPECT_EQ(mem3.size(), mem4.size());
EXPECT_NE(nullptr, mem4.handle());
EXPECT_NE(mem3.handle(), mem4.handle()); // check handle cloned
hidl_memory mem5 = hidl_memory("foo", nullptr, 0); // hidl memory works with nullptr handle
hidl_memory mem6 = mem5;
EXPECT_EQ(nullptr, mem5.handle());
EXPECT_EQ(nullptr, mem6.handle());
}
TEST_F(LibHidlTest, VecInitTest) {
using android::hardware::hidl_vec;
using std::vector;
int32_t array[] = {5, 6, 7};
vector<int32_t> v(array, array + 3);
hidl_vec<int32_t> hv1 = v; // copy =
EXPECT_ARRAYEQ(hv1, array, 3);
EXPECT_ARRAYEQ(hv1, v, 3);
hidl_vec<int32_t> hv2(v); // copy constructor
EXPECT_ARRAYEQ(hv2, v, 3);
vector<int32_t> v2 = hv1; // cast
EXPECT_ARRAYEQ(v2, v, 3);
hidl_vec<int32_t> v3 = {5, 6, 7}; // initializer_list
EXPECT_EQ(v3.size(), 3ul);
EXPECT_ARRAYEQ(v3, array, v3.size());
}
TEST_F(LibHidlTest, VecIterTest) {
int32_t array[] = {5, 6, 7};
android::hardware::hidl_vec<int32_t> hv1 = std::vector<int32_t>(array, array + 3);
auto iter = hv1.begin(); // iterator begin()
EXPECT_EQ(*iter++, 5);
EXPECT_EQ(*iter, 6);
EXPECT_EQ(*++iter, 7);
EXPECT_EQ(*iter--, 7);
EXPECT_EQ(*iter, 6);
EXPECT_EQ(*--iter, 5);
iter += 2;
EXPECT_EQ(*iter, 7);
iter -= 2;
EXPECT_EQ(*iter, 5);
iter++;
EXPECT_EQ(*(iter + 1), 7);
EXPECT_EQ(*(1 + iter), 7);
EXPECT_EQ(*(iter - 1), 5);
EXPECT_EQ(*iter, 6);
auto five = iter - 1;
auto seven = iter + 1;
EXPECT_EQ(seven - five, 2);
EXPECT_EQ(five - seven, -2);
EXPECT_LT(five, seven);
EXPECT_LE(five, seven);
EXPECT_GT(seven, five);
EXPECT_GE(seven, five);
EXPECT_EQ(seven[0], 7);
EXPECT_EQ(five[1], 6);
}
TEST_F(LibHidlTest, VecIterForTest) {
using android::hardware::hidl_vec;
int32_t array[] = {5, 6, 7};
hidl_vec<int32_t> hv1 = std::vector<int32_t>(array, array + 3);
int32_t sum = 0; // range based for loop interoperability
for (auto &&i: hv1) {
sum += i;
}
EXPECT_EQ(sum, 5+6+7);
for (auto iter = hv1.begin(); iter < hv1.end(); ++iter) {
*iter += 10;
}
const hidl_vec<int32_t> &v4 = hv1;
sum = 0;
for (const auto &i : v4) {
sum += i;
}
EXPECT_EQ(sum, 15+16+17);
}
TEST_F(LibHidlTest, VecEqTest) {
android::hardware::hidl_vec<int32_t> hv1{5, 6, 7};
android::hardware::hidl_vec<int32_t> hv2{5, 6, 7};
android::hardware::hidl_vec<int32_t> hv3{5, 6, 8};
// use the == and != operator intentionally here
EXPECT_TRUE(hv1 == hv2);
EXPECT_TRUE(hv1 != hv3);
}
TEST_F(LibHidlTest, ArrayTest) {
using android::hardware::hidl_array;
int32_t array[] = {5, 6, 7};
hidl_array<int32_t, 3> ha(array);
EXPECT_ARRAYEQ(ha, array, 3);
}
TEST_F(LibHidlTest, TaskRunnerTest) {
using android::hardware::details::TaskRunner;
TaskRunner tr;
tr.start(1 /* limit */);
bool flag = false;
tr.push([&] {
usleep(1000);
flag = true;
});
usleep(500);
EXPECT_FALSE(flag);
usleep(1000);
EXPECT_TRUE(flag);
}
TEST_F(LibHidlTest, StringCmpTest) {
using android::hardware::hidl_string;
const char * s = "good";
hidl_string hs(s);
EXPECT_NE(hs.c_str(), s);
EXPECT_TRUE(hs == s); // operator ==
EXPECT_TRUE(s == hs);
EXPECT_FALSE(hs != s); // operator ==
EXPECT_FALSE(s != hs);
}
template <typename T>
void great(android::hardware::hidl_vec<T>) {}
TEST_F(LibHidlTest, VecCopyTest) {
android::hardware::hidl_vec<int32_t> v;
great(v);
}
TEST_F(LibHidlTest, StdArrayTest) {
using android::hardware::hidl_array;
hidl_array<int32_t, 5> array{(int32_t[5]){1, 2, 3, 4, 5}};
std::array<int32_t, 5> stdArray = array;
EXPECT_ARRAYEQ(array.data(), stdArray.data(), 5);
hidl_array<int32_t, 5> array2 = stdArray;
EXPECT_ARRAYEQ(array.data(), array2.data(), 5);
}
TEST_F(LibHidlTest, MultiDimStdArrayTest) {
using android::hardware::hidl_array;
hidl_array<int32_t, 2, 3> array;
for (size_t i = 0; i < 2; i++) {
for (size_t j = 0; j < 3; j++) {
array[i][j] = i + j + i * j;
}
}
std::array<std::array<int32_t, 3>, 2> stdArray = array;
EXPECT_2DARRAYEQ(array, stdArray, 2, 3);
hidl_array<int32_t, 2, 3> array2 = stdArray;
EXPECT_2DARRAYEQ(array, array2, 2, 3);
}
TEST_F(LibHidlTest, HidlVersionTest) {
using android::hardware::hidl_version;
hidl_version v1_0{1, 0};
EXPECT_EQ(1, v1_0.get_major());
EXPECT_EQ(0, v1_0.get_minor());
hidl_version v2_0{2, 0};
hidl_version v2_1{2, 1};
hidl_version v2_2{2, 2};
hidl_version v3_0{3, 0};
hidl_version v3_0b{3,0};
EXPECT_TRUE(v1_0 < v2_0);
EXPECT_TRUE(v2_0 < v2_1);
EXPECT_TRUE(v2_1 < v3_0);
EXPECT_TRUE(v2_0 > v1_0);
EXPECT_TRUE(v2_1 > v2_0);
EXPECT_TRUE(v3_0 > v2_1);
EXPECT_TRUE(v3_0 == v3_0b);
EXPECT_TRUE(v3_0 <= v3_0b);
EXPECT_TRUE(v2_2 <= v3_0);
EXPECT_TRUE(v3_0 >= v3_0b);
EXPECT_TRUE(v3_0 >= v2_2);
}
TEST_F(LibHidlTest, ReturnMoveTest) {
using namespace ::android;
using ::android::hardware::Return;
using ::android::hardware::Status;
Return<void> ret{Status::fromStatusT(DEAD_OBJECT)};
ret.isOk();
ret = {Status::fromStatusT(DEAD_OBJECT)};
ret.isOk();
}
TEST_F(LibHidlTest, ReturnTest) {
using ::android::DEAD_OBJECT;
using ::android::hardware::Return;
using ::android::hardware::Status;
using ::android::hardware::hidl_string;
EXPECT_FALSE(Return<void>(Status::fromStatusT(DEAD_OBJECT)).isOk());
EXPECT_TRUE(Return<void>(Status::ok()).isOk());
hidl_string one = "1";
hidl_string two = "2";
Return<hidl_string> ret = Return<hidl_string>(Status::fromStatusT(DEAD_OBJECT));
EXPECT_EQ(one, Return<hidl_string>(one).withDefault(two));
EXPECT_EQ(two, ret.withDefault(two));
hidl_string&& moved = ret.withDefault(std::move(two));
EXPECT_EQ("2", moved);
const hidl_string three = "3";
EXPECT_EQ(three, ret.withDefault(three));
}
std::string toString(const ::android::hardware::Status &s) {
using ::android::hardware::operator<<;
std::ostringstream oss;
oss << s;
return oss.str();
}
TEST_F(LibHidlTest, StatusStringTest) {
using namespace ::android;
using ::android::hardware::Status;
using ::testing::HasSubstr;
EXPECT_EQ(toString(Status::ok()), "No error");
EXPECT_THAT(toString(Status::fromStatusT(DEAD_OBJECT)), HasSubstr("DEAD_OBJECT"));
EXPECT_THAT(toString(Status::fromStatusT(-EBUSY)), HasSubstr("busy"));
EXPECT_THAT(toString(Status::fromExceptionCode(Status::EX_NULL_POINTER)),
HasSubstr("EX_NULL_POINTER"));
}
int main(int argc, char **argv) {
::testing::InitGoogleTest(&argc, argv);
return RUN_ALL_TESTS();
}