// // Copyright (C) 2023 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 "task.h" #include "fastboot.h" #include "fastboot_driver_mock.h" #include #include #include #include "android-base/strings.h" #include "gmock/gmock.h" using android::base::Split; using testing::_; class ParseTest : public ::testing ::Test { protected: void SetUp() override { fp = std::make_unique(); fp->slot_override = "b"; fp->secondary_slot = "a"; fp->wants_wipe = false; } void TearDown() override {} std::unique_ptr fp; private: }; static std::vector> collectTasks(FlashingPlan* fp, const std::vector& commands) { std::vector> vec_commands; for (auto& command : commands) { vec_commands.emplace_back(android::base::Split(command, " ")); } std::vector> tasks; for (auto& command : vec_commands) { tasks.emplace_back(ParseFastbootInfoLine(fp, command)); } return tasks; } std::unique_ptr ParseCommand(FlashingPlan* fp, std::string command) { std::vector vec_command = android::base::Split(command, " "); return ParseFastbootInfoLine(fp, vec_command); } // tests if tasks_a is a superset of tasks_b. Used for checking to ensure all partitions flashed // from hardcoded image list is also flashed in new fastboot-info.txt static bool compareTaskList(std::vector>& tasks_a, std::vector>& tasks_b) { std::set list; for (auto& task : tasks_a) { list.insert(task->ToString()); } for (auto& task : tasks_b) { if (list.find(task->ToString()) == list.end()) { std::cout << "ERROR: " << task->ToString() << " not found in task list created by fastboot-info.txt"; return false; } } return true; } static std::string tasksToString(std::vector>& tasks) { std::string output; for (auto& task : tasks) { output.append(task->ToString()); output.append("\n"); } return output; } TEST_F(ParseTest, CorrectFlashTaskFormed) { std::vector commands = {"flash dtbo", "flash --slot-other system system_other.img", "flash system", "flash --apply-vbmeta vbmeta"}; std::vector> tasks = collectTasks(fp.get(), commands); std::vector> expected_values{ {"dtbo", "dtbo_b", "b", "dtbo.img"}, {"system", "system_a", "a", "system_other.img"}, {"system", "system_b", "b", "system.img"}, {"vbmeta", "vbmeta_b", "b", "vbmeta.img"} }; for (auto& task : tasks) { ASSERT_TRUE(task != nullptr); } for (size_t i = 0; i < tasks.size(); i++) { auto task = tasks[i]->AsFlashTask(); ASSERT_TRUE(task != nullptr); ASSERT_EQ(task->GetPartition(), expected_values[i][0]); ASSERT_EQ(task->GetPartitionAndSlot(), expected_values[i][1]); ASSERT_EQ(task->GetSlot(), expected_values[i][2]); ASSERT_EQ(task->GetImageName(), expected_values[i][3]); } } TEST_F(ParseTest, VersionCheckCorrect) { std::vector correct_versions = {"version 1", "version 22", "version 5", "version 17"}; std::vector bad_versions = {"version", "version .01", "version x1", "version 1.0.1", "version 1.", "s 1.0", "version 1.0 2.0", "version 100.00", "version 1 2"}; for (auto& version : correct_versions) { ASSERT_TRUE(CheckFastbootInfoRequirements(android::base::Split(version, " "), 26)) << version; } // returning False for failing version check for (auto& version : correct_versions) { ASSERT_FALSE(CheckFastbootInfoRequirements(android::base::Split(version, " "), 0)) << version; } // returning False for bad format for (auto& version : bad_versions) { ASSERT_FALSE(CheckFastbootInfoRequirements(android::base::Split(version, " "), 100)) << version; } } TEST_F(ParseTest, BadFastbootInput) { ASSERT_EQ(ParseCommand(fp.get(), "flash"), nullptr); ASSERT_EQ(ParseCommand(fp.get(), "flash --slot-other --apply-vbmeta"), nullptr); ASSERT_EQ(ParseCommand(fp.get(), "flash --apply-vbmeta"), nullptr); ASSERT_EQ(ParseCommand(fp.get(), "if-wipe"), nullptr); ASSERT_EQ(ParseCommand(fp.get(), "if-wipe flash"), nullptr); ASSERT_EQ(ParseCommand(fp.get(), "wipe dtbo"), nullptr); ASSERT_EQ(ParseCommand(fp.get(), "update-super dtbo"), nullptr); ASSERT_EQ(ParseCommand(fp.get(), "flash system system.img system"), nullptr); ASSERT_EQ(ParseCommand(fp.get(), "reboot bootloader fastboot"), nullptr); ASSERT_EQ(ParseCommand(fp.get(), "flash --slot-other --apply-vbmeta system system_other.img system"), nullptr); ASSERT_EQ(ParseCommand(fp.get(), "erase"), nullptr); ASSERT_EQ(ParseCommand(fp.get(), "erase dtbo dtbo"), nullptr); ASSERT_EQ(ParseCommand(fp.get(), "wipe this"), nullptr); } TEST_F(ParseTest, CorrectTaskFormed) { std::vector commands = {"flash dtbo", "flash --slot-other system system_other.img", "reboot bootloader", "update-super", "erase cache"}; std::vector> tasks = collectTasks(fp.get(), commands); ASSERT_TRUE(tasks[0]->AsFlashTask()); ASSERT_TRUE(tasks[0]->AsFlashTask()); ASSERT_TRUE(tasks[1]->AsFlashTask()); ASSERT_TRUE(tasks[2]->AsRebootTask()); ASSERT_TRUE(tasks[3]->AsUpdateSuperTask()); ASSERT_TRUE(tasks[4]->AsWipeTask()); } TEST_F(ParseTest, CorrectDriverCalls) { fastboot::MockFastbootDriver fb; fp->fb = &fb; EXPECT_CALL(fb, RebootTo(_, _, _)).Times(1); EXPECT_CALL(fb, Reboot(_, _)).Times(1); EXPECT_CALL(fb, WaitForDisconnect()).Times(2); std::vector commands = {"reboot bootloader", "reboot"}; std::vector> tasks = collectTasks(fp.get(), commands); for (auto& task : tasks) { task->Run(); } } TEST_F(ParseTest, CorrectTaskLists) { if (!get_android_product_out()) { GTEST_SKIP(); } fp->source.reset(new LocalImageSource); fp->sparse_limit = std::numeric_limits::max(); fastboot::MockFastbootDriver fb; fp->fb = &fb; fp->should_optimize_flash_super = false; ON_CALL(fb, GetVar("super-partition-name", _, _)) .WillByDefault(testing::Return(fastboot::BAD_ARG)); FlashAllTool tool(fp.get()); fp->should_use_fastboot_info = false; auto hardcoded_tasks = tool.CollectTasks(); fp->should_use_fastboot_info = true; auto fastboot_info_tasks = tool.CollectTasks(); auto is_non_flash_task = [](const auto& task) -> bool { return task->AsFlashTask() == nullptr; }; // remove non flash tasks for testing purposes hardcoded_tasks.erase( std::remove_if(hardcoded_tasks.begin(), hardcoded_tasks.end(), is_non_flash_task), hardcoded_tasks.end()); fastboot_info_tasks.erase(std::remove_if(fastboot_info_tasks.begin(), fastboot_info_tasks.end(), is_non_flash_task), fastboot_info_tasks.end()); if (!compareTaskList(fastboot_info_tasks, hardcoded_tasks)) { std::cout << "\n\n---Hardcoded Task List---\n" << tasksToString(hardcoded_tasks) << "\n---Fastboot-Info Task List---\n" << tasksToString(fastboot_info_tasks); } ASSERT_TRUE(compareTaskList(fastboot_info_tasks, hardcoded_tasks)); ASSERT_TRUE(fastboot_info_tasks.size() >= hardcoded_tasks.size()) << "size of fastboot-info task list: " << fastboot_info_tasks.size() << " size of hardcoded task list: " << hardcoded_tasks.size(); } TEST_F(ParseTest, IsDynamicParitiontest) { if (!get_android_product_out()) { GTEST_SKIP(); } fp->source.reset(new LocalImageSource); fastboot::MockFastbootDriver fb; fp->fb = &fb; fp->should_optimize_flash_super = true; fp->should_use_fastboot_info = true; std::vector> test_cases = { {"flash boot", false}, {"flash init_boot", false}, {"flash --apply-vbmeta vbmeta", false}, {"flash product", true}, {"flash system", true}, {"flash --slot-other system system_other.img", true}, }; for (auto& test : test_cases) { std::unique_ptr task = ParseFastbootInfoLine(fp.get(), android::base::Tokenize(test.first, " ")); auto flash_task = task->AsFlashTask(); ASSERT_FALSE(flash_task == nullptr); ASSERT_EQ(FlashTask::IsDynamicParitition(fp->source.get(), flash_task), test.second); } } TEST_F(ParseTest, CanOptimizeTest) { if (!get_android_product_out()) { GTEST_SKIP(); } fp->source.reset(new LocalImageSource); fp->sparse_limit = std::numeric_limits::max(); fastboot::MockFastbootDriver fb; fp->fb = &fb; fp->should_optimize_flash_super = false; fp->should_use_fastboot_info = true; std::vector, bool>> patternmatchtest = { {{"flash boot", "flash init_boot", "flash vendor_boot", "reboot fastboot", "update-super", "flash product", "flash system", "flash system_ext", "flash odm", "if-wipe erase userdata"}, true}, {{"flash boot", "flash init_boot", "flash vendor_boot", "reboot fastboot", "update-super", "flash product", "flash system", "flash system_ext", "flash odm", "if-wipe erase userdata"}, true}, {{"flash boot", "flash init_boot", "flash vendor_boot", "reboot fastboot", "flash product", "flash system", "flash system_ext", "flash odm", "if-wipe erase userdata"}, false}, {{"flash boot", "flash init_boot", "flash vendor_boot", "update-super", "flash product", "flash system", "flash system_ext", "flash odm", "if-wipe erase userdata"}, false}, }; auto remove_if_callback = [&](const auto& task) -> bool { return !!task->AsResizeTask(); }; for (auto& test : patternmatchtest) { std::vector> tasks = ParseFastbootInfo(fp.get(), test.first); tasks.erase(std::remove_if(tasks.begin(), tasks.end(), remove_if_callback), tasks.end()); ASSERT_EQ(OptimizedFlashSuperTask::CanOptimize(fp->source.get(), tasks), test.second); } } // Note: this test is exclusively testing that optimized flash super pattern matches a given task // list and is able to optimized based on a correct sequence of tasks TEST_F(ParseTest, OptimizedFlashSuperPatternMatchTest) { if (!get_android_product_out()) { GTEST_SKIP(); } fp->source.reset(new LocalImageSource); fp->sparse_limit = std::numeric_limits::max(); fastboot::MockFastbootDriver fb; fp->fb = &fb; fp->should_optimize_flash_super = true; fp->should_use_fastboot_info = true; ON_CALL(fb, GetVar("super-partition-name", _, _)) .WillByDefault(testing::Return(fastboot::BAD_ARG)); ON_CALL(fb, GetVar("slot-count", _, _)) .WillByDefault(testing::DoAll(testing::SetArgPointee<1>("2"), testing::Return(fastboot::SUCCESS))); ON_CALL(fb, GetVar("partition-size:super", _, _)) .WillByDefault(testing::DoAll(testing::SetArgPointee<1>("1000"), testing::Return(fastboot::SUCCESS))); std::vector, bool>> patternmatchtest = { {{"flash boot", "flash init_boot", "flash vendor_boot", "reboot fastboot", "update-super", "flash product", "flash system", "flash system_ext", "flash odm", "if-wipe erase userdata"}, true}, {{"flash boot", "flash init_boot", "flash vendor_boot", "reboot fastboot", "update-super", "flash product", "flash system", "flash system_ext", "flash odm", "if-wipe erase userdata"}, true}, {{"flash boot", "flash init_boot", "flash vendor_boot", "reboot fastboot", "flash product", "flash system", "flash system_ext", "flash odm", "if-wipe erase userdata"}, false}, {{"flash boot", "flash init_boot", "flash vendor_boot", "update-super", "flash product", "flash system", "flash system_ext", "flash odm", "if-wipe erase userdata"}, false}, }; for (auto& test : patternmatchtest) { std::vector> tasks = ParseFastbootInfo(fp.get(), test.first); // Check to make sure we have an optimized flash super task && no more dynamic partition // flashing tasks auto&& IsOptimized = [](const FlashingPlan* fp, const std::vector>& tasks) { bool contains_optimized_task = false; for (auto& task : tasks) { if (task->AsOptimizedFlashSuperTask()) { contains_optimized_task = true; } if (auto flash_task = task->AsFlashTask()) { if (FlashTask::IsDynamicParitition(fp->source.get(), flash_task)) { return false; } } } return contains_optimized_task; }; ASSERT_EQ(IsOptimized(fp.get(), tasks), test.second); } }