/* * Copyright (C) 2019 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 #include #include #include #include #include #include "android-base/file.h" namespace android { // --- InputDeviceIdentifierTest --- TEST(InputDeviceIdentifierTest, getCanonicalName) { InputDeviceIdentifier identifier; identifier.name = "test device"; ASSERT_EQ(std::string("test_device"), identifier.getCanonicalName()); identifier.name = "deviceName-123 version_C!"; ASSERT_EQ(std::string("deviceName-123_version_C_"), identifier.getCanonicalName()); } class InputDeviceKeyMapTest : public testing::Test { protected: void loadKeyLayout(const char* name) { std::string path = getInputDeviceConfigurationFilePathByName(name, InputDeviceConfigurationFileType:: KEY_LAYOUT); ASSERT_FALSE(path.empty()); base::Result> ret = KeyLayoutMap::load(path); ASSERT_TRUE(ret.ok()) << "Cannot load KeyLayout at " << path; mKeyMap.keyLayoutMap = std::move(*ret); mKeyMap.keyLayoutFile = path; } void loadKeyCharacterMap(const char* name) { InputDeviceIdentifier identifier; identifier.name = name; std::string path = getInputDeviceConfigurationFilePathByName(identifier.getCanonicalName(), InputDeviceConfigurationFileType:: KEY_CHARACTER_MAP); ASSERT_FALSE(path.empty()) << "KeyCharacterMap for " << name << " not found"; base::Result> ret = KeyCharacterMap::load(path, KeyCharacterMap::Format::BASE); ASSERT_TRUE(ret.ok()) << "Cannot load KeyCharacterMap at " << path; mKeyMap.keyCharacterMap = *ret; mKeyMap.keyCharacterMapFile = path; } void SetUp() override { loadKeyLayout("Generic"); loadKeyCharacterMap("Generic"); } KeyMap mKeyMap; }; TEST_F(InputDeviceKeyMapTest, keyCharacterMapParcelingTest) { Parcel parcel; mKeyMap.keyCharacterMap->writeToParcel(&parcel); parcel.setDataPosition(0); std::shared_ptr map = KeyCharacterMap::readFromParcel(&parcel); // Verify the key character map is the same as original ASSERT_EQ(*map, *mKeyMap.keyCharacterMap); } TEST_F(InputDeviceKeyMapTest, keyCharacterMapWithOverlayParcelingTest) { Parcel parcel; std::string overlayPath = base::GetExecutableDirectory() + "/data/german.kcm"; base::Result> overlay = KeyCharacterMap::load(overlayPath, KeyCharacterMap::Format::OVERLAY); ASSERT_TRUE(overlay.ok()) << "Cannot load KeyCharacterMap at " << overlayPath; mKeyMap.keyCharacterMap->combine(*overlay->get()); mKeyMap.keyCharacterMap->writeToParcel(&parcel); parcel.setDataPosition(0); std::shared_ptr map = KeyCharacterMap::readFromParcel(&parcel); ASSERT_EQ(*map, *mKeyMap.keyCharacterMap); } TEST_F(InputDeviceKeyMapTest, keyCharacteMapApplyMultipleOverlaysTest) { std::string frenchOverlayPath = base::GetExecutableDirectory() + "/data/french.kcm"; std::string englishOverlayPath = base::GetExecutableDirectory() + "/data/english_us.kcm"; std::string germanOverlayPath = base::GetExecutableDirectory() + "/data/german.kcm"; base::Result> frenchOverlay = KeyCharacterMap::load(frenchOverlayPath, KeyCharacterMap::Format::OVERLAY); ASSERT_TRUE(frenchOverlay.ok()) << "Cannot load KeyCharacterMap at " << frenchOverlayPath; base::Result> englishOverlay = KeyCharacterMap::load(englishOverlayPath, KeyCharacterMap::Format::OVERLAY); ASSERT_TRUE(englishOverlay.ok()) << "Cannot load KeyCharacterMap at " << englishOverlayPath; base::Result> germanOverlay = KeyCharacterMap::load(germanOverlayPath, KeyCharacterMap::Format::OVERLAY); ASSERT_TRUE(germanOverlay.ok()) << "Cannot load KeyCharacterMap at " << germanOverlayPath; // Apply the French overlay mKeyMap.keyCharacterMap->combine(*frenchOverlay->get()); // Copy the result for later std::shared_ptr frenchOverlaidKeyCharacterMap = std::make_shared(*mKeyMap.keyCharacterMap); // Apply the English overlay mKeyMap.keyCharacterMap->combine(*englishOverlay->get()); // Verify that the result is different from the French overlay result ASSERT_NE(*mKeyMap.keyCharacterMap, *frenchOverlaidKeyCharacterMap); // Apply the German overlay mKeyMap.keyCharacterMap->combine(*germanOverlay->get()); // Verify that the result is different from the French overlay result ASSERT_NE(*mKeyMap.keyCharacterMap, *frenchOverlaidKeyCharacterMap); // Apply the French overlay mKeyMap.keyCharacterMap->combine(*frenchOverlay->get()); // Verify that the result is the same like after applying it initially ASSERT_EQ(*mKeyMap.keyCharacterMap, *frenchOverlaidKeyCharacterMap); } TEST(InputDeviceKeyLayoutTest, DoesNotLoadWhenRequiredKernelConfigIsMissing) { std::string klPath = base::GetExecutableDirectory() + "/data/kl_with_required_fake_config.kl"; base::Result> ret = KeyLayoutMap::load(klPath); ASSERT_FALSE(ret.ok()) << "Should not be able to load KeyLayout at " << klPath; // We assert error message here because it's used by 'validatekeymaps' tool ASSERT_EQ("Missing kernel config", ret.error().message()); } TEST(InputDeviceKeyLayoutTest, LoadsWhenRequiredKernelConfigIsPresent) { std::string klPath = base::GetExecutableDirectory() + "/data/kl_with_required_real_config.kl"; base::Result> ret = KeyLayoutMap::load(klPath); ASSERT_TRUE(ret.ok()) << "Cannot load KeyLayout at " << klPath; const std::shared_ptr& map = *ret; ASSERT_NE(nullptr, map) << "Map should be valid because CONFIG_UHID should always be present"; } } // namespace android