/* * Copyright (C) 2017 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 "android/hidl/base/1.0/IBase.h" #define LOG_TAG "Lshal" #include #include #include #include #include #include #include #include #include #include #include #include "ListCommand.h" #include "Lshal.h" #define NELEMS(array) static_cast(sizeof(array) / sizeof(array[0])) using namespace testing; using std::chrono_literals::operator""ms; using ::android::hidl::base::V1_0::DebugInfo; using ::android::hidl::base::V1_0::IBase; using ::android::hidl::manager::V1_0::IServiceManager; using ::android::hidl::manager::V1_0::IServiceNotification; using ::android::hardware::hidl_array; using ::android::hardware::hidl_death_recipient; using ::android::hardware::hidl_handle; using ::android::hardware::hidl_string; using ::android::hardware::hidl_vec; using ::android::hardware::Void; using android::vintf::Arch; using android::vintf::CompatibilityMatrix; using android::vintf::HalManifest; using android::vintf::Transport; using android::vintf::VintfObject; using InstanceDebugInfo = IServiceManager::InstanceDebugInfo; using hidl_hash = hidl_array; namespace android { namespace hardware { namespace tests { namespace inheritance { namespace V1_0 { namespace implementation { struct Child : android::hardware::tests::inheritance::V1_0::IChild { ::android::hardware::Return doChild() override { return Void(); } ::android::hardware::Return doParent() override { return Void(); } ::android::hardware::Return doGrandparent() override { return Void(); } ::android::hardware::Return debug(const hidl_handle& hh, const hidl_vec& options) override { const native_handle_t *handle = hh.getNativeHandle(); if (handle->numFds < 1) { return Void(); } int fd = handle->data[0]; std::string content{descriptor}; for (const auto &option : options) { content += "\n"; content += option.c_str(); } if (options.size() > 0) { uint64_t len; if (android::base::ParseUint(options[0], &len)) { content += "\n"; content += std::string(len, 'X'); } } ssize_t written = write(fd, content.c_str(), content.size()); if (written != (ssize_t)content.size()) { LOG(WARNING) << "SERVER(Child) debug writes " << written << " bytes < " << content.size() << " bytes, errno = " << errno; } return Void(); } }; } // namespace implementation } // namespace V1_0 } // namespace inheritance } // namespace tests } // namespace hardware namespace lshal { class MockServiceManager : public IServiceManager { public: template using R = ::android::hardware::Return; using String = const hidl_string&; ~MockServiceManager() = default; #define MOCK_METHOD_CB(name) MOCK_METHOD1(name, R(IServiceManager::name##_cb)) MOCK_METHOD2(get, R>(String, String)); MOCK_METHOD2(add, R(String, const sp&)); MOCK_METHOD2(getTransport, R(String, String)); MOCK_METHOD_CB(list); MOCK_METHOD2(listByInterface, R(String, listByInterface_cb)); MOCK_METHOD3(registerForNotifications, R(String, String, const sp&)); MOCK_METHOD_CB(debugDump); MOCK_METHOD2(registerPassthroughClient, R(String, String)); MOCK_METHOD_CB(interfaceChain); MOCK_METHOD2(debug, R(const hidl_handle&, const hidl_vec&)); MOCK_METHOD_CB(interfaceDescriptor); MOCK_METHOD_CB(getHashChain); MOCK_METHOD0(setHalInstrumentation, R()); MOCK_METHOD2(linkToDeath, R(const sp&, uint64_t)); MOCK_METHOD0(ping, R()); MOCK_METHOD_CB(getDebugInfo); MOCK_METHOD0(notifySyspropsChanged, R()); MOCK_METHOD1(unlinkToDeath, R(const sp&)); }; class DebugTest : public ::testing::Test { public: void SetUp() override { using ::android::hardware::tests::inheritance::V1_0::IChild; using ::android::hardware::tests::inheritance::V1_0::IParent; using ::android::hardware::tests::inheritance::V1_0::IGrandparent; using ::android::hardware::tests::inheritance::V1_0::implementation::Child; err.str(""); out.str(""); serviceManager = new testing::NiceMock(); ON_CALL(*serviceManager, get(_, _)) .WillByDefault( Invoke([](const auto& iface, const auto& inst) -> ::android::hardware::Return> { if (inst != "default") return nullptr; if (iface == IChild::descriptor || iface == IParent::descriptor || iface == IGrandparent::descriptor) return new Child(); return nullptr; })); lshal = std::make_unique(out, err, serviceManager, serviceManager); } void TearDown() override {} std::stringstream err; std::stringstream out; sp serviceManager; std::unique_ptr lshal; }; static Arg createArg(const std::vector& args) { return Arg{static_cast(args.size()), const_cast(args.data())}; } template static Status callMain(const std::unique_ptr& lshal, const std::vector& args) { return lshal->main(createArg(args)); } TEST_F(DebugTest, Debug) { EXPECT_EQ(0u, callMain(lshal, { "lshal", "debug", "android.hardware.tests.inheritance@1.0::IChild/default", "foo", "bar" })); EXPECT_THAT(out.str(), StrEq("android.hardware.tests.inheritance@1.0::IChild\nfoo\nbar")); EXPECT_THAT(err.str(), IsEmpty()); } TEST_F(DebugTest, Debug2) { EXPECT_EQ(0u, callMain(lshal, { "lshal", "debug", "android.hardware.tests.inheritance@1.0::IChild", "baz", "quux" })); EXPECT_THAT(out.str(), StrEq("android.hardware.tests.inheritance@1.0::IChild\nbaz\nquux")); EXPECT_THAT(err.str(), IsEmpty()); } TEST_F(DebugTest, Debug3) { EXPECT_NE(0u, callMain(lshal, { "lshal", "debug", "android.hardware.tests.doesnotexist@1.0::IDoesNotExist", })); EXPECT_THAT(err.str(), HasSubstr("does not exist")); } TEST_F(DebugTest, DebugLarge) { EXPECT_EQ(0u, callMain(lshal, { "lshal", "debug", "android.hardware.tests.inheritance@1.0::IChild/default", "10000" })); EXPECT_THAT(out.str(), StrEq("android.hardware.tests.inheritance@1.0::IChild\n10000\n" + std::string(10000, 'X'))); EXPECT_THAT(err.str(), IsEmpty()); } TEST_F(DebugTest, DebugParent) { EXPECT_EQ(0u, callMain(lshal, { "lshal", "debug", "android.hardware.tests.inheritance@1.0::IParent", "calling parent" })); EXPECT_THAT(out.str(), StrEq("android.hardware.tests.inheritance@1.0::IChild\ncalling parent")); EXPECT_THAT(err.str(), IsEmpty()); } TEST_F(DebugTest, DebugParentExclude) { EXPECT_EQ(0u, callMain(lshal, { "lshal", "debug", "-E", "android.hardware.tests.inheritance@1.0::IParent", "excluding" })); EXPECT_THAT(out.str(), IsEmpty()); EXPECT_THAT(err.str(), IsEmpty()); } class MockLshal : public Lshal { public: MockLshal() {} ~MockLshal() = default; MOCK_CONST_METHOD0(out, NullableOStream()); MOCK_CONST_METHOD0(err, NullableOStream()); }; // expose protected fields and methods for ListCommand class MockListCommand : public ListCommand { public: explicit MockListCommand(Lshal* lshal) : ListCommand(*lshal) {} Status parseArgs(const Arg& arg) { return ListCommand::parseArgs(arg); } Status main(const Arg& arg) { return ListCommand::main(arg); } void forEachTable(const std::function &f) { return ListCommand::forEachTable(f); } void forEachTable(const std::function &f) const { return ListCommand::forEachTable(f); } Status fetch() { return ListCommand::fetch(); } void dumpVintf(const NullableOStream& out) { return ListCommand::dumpVintf(out); } void internalPostprocess() { ListCommand::postprocess(); } const BinderPidInfo* getPidInfoCached(pid_t serverPid) { return ListCommand::getPidInfoCached(serverPid); } MOCK_METHOD0(postprocess, void()); MOCK_CONST_METHOD2(getPidInfo, bool(pid_t, BinderPidInfo*)); MOCK_CONST_METHOD1(parseCmdline, std::string(pid_t)); MOCK_METHOD1(getPartition, Partition(pid_t)); MOCK_CONST_METHOD0(getDeviceManifest, std::shared_ptr()); MOCK_CONST_METHOD0(getDeviceMatrix, std::shared_ptr()); MOCK_CONST_METHOD0(getFrameworkManifest, std::shared_ptr()); MOCK_CONST_METHOD0(getFrameworkMatrix, std::shared_ptr()); }; class ListParseArgsTest : public ::testing::Test { public: void SetUp() override { mockLshal = std::make_unique>(); mockList = std::make_unique(mockLshal.get()); ON_CALL(*mockLshal, err()).WillByDefault(Return(NullableOStream(err))); // ListCommand::parseArgs should parse arguments from the second element optind = 1; } std::unique_ptr mockLshal; std::unique_ptr mockList; std::stringstream err; }; TEST_F(ListParseArgsTest, Args) { EXPECT_EQ(0u, mockList->parseArgs(createArg({"lshal", "-p", "-i", "-a", "-c"}))); mockList->forEachTable([](const Table& table) { EXPECT_EQ(SelectedColumns({TableColumnType::SERVER_PID, TableColumnType::INTERFACE_NAME, TableColumnType::SERVER_ADDR, TableColumnType::CLIENT_PIDS}), table.getSelectedColumns()); }); EXPECT_EQ("", err.str()); } TEST_F(ListParseArgsTest, Cmds) { EXPECT_EQ(0u, mockList->parseArgs(createArg({"lshal", "-m"}))); mockList->forEachTable([](const Table& table) { EXPECT_THAT(table.getSelectedColumns(), Not(Contains(TableColumnType::SERVER_PID))) << "should not print server PID with -m"; EXPECT_THAT(table.getSelectedColumns(), Not(Contains(TableColumnType::CLIENT_PIDS))) << "should not print client PIDs with -m"; EXPECT_THAT(table.getSelectedColumns(), Contains(TableColumnType::SERVER_CMD)) << "should print server cmd with -m"; EXPECT_THAT(table.getSelectedColumns(), Contains(TableColumnType::CLIENT_CMDS)) << "should print client cmds with -m"; }); EXPECT_EQ("", err.str()); } TEST_F(ListParseArgsTest, DebugAndNeat) { EXPECT_NE(0u, mockList->parseArgs(createArg({"lshal", "--neat", "-d"}))); EXPECT_THAT(err.str(), HasSubstr("--neat should not be used with --debug.")); } /// Fetch Test // A set of deterministic functions to generate fake debug infos. static uint64_t getPtr(pid_t serverId) { return 10000 + serverId; } static std::vector getClients(pid_t serverId) { return {serverId + 1, serverId + 3}; } static BinderPidInfo getPidInfoFromId(pid_t serverId) { BinderPidInfo info; info.refPids[getPtr(serverId)] = getClients(serverId); info.threadUsage = 10 + serverId; info.threadCount = 20 + serverId; return info; } static std::string getInterfaceName(pid_t serverId) { return "a.h.foo" + std::to_string(serverId) + "@" + std::to_string(serverId) + ".0::IFoo"; } static std::string getInstanceName(pid_t serverId) { return std::to_string(serverId); } static pid_t getIdFromInstanceName(const hidl_string& instance) { return atoi(instance.c_str()); } static std::string getFqInstanceName(pid_t serverId) { return getInterfaceName(serverId) + "/" + getInstanceName(serverId); } static std::string getCmdlineFromId(pid_t serverId) { if (serverId == NO_PID) return ""; return "command_line_" + std::to_string(serverId); } static bool getIsReleasedFromId(pid_t p) { return p % 2 == 0; } static hidl_hash getHashFromId(pid_t serverId) { hidl_hash hash; bool isReleased = getIsReleasedFromId(serverId); for (size_t i = 0; i < hash.size(); ++i) { hash[i] = isReleased ? static_cast(serverId) : 0u; } return hash; } // Fake service returned by mocked IServiceManager::get. class TestService : public IBase { public: explicit TestService(pid_t id) : mId(id) {} hardware::Return getDebugInfo(getDebugInfo_cb cb) override { cb({ mId /* pid */, getPtr(mId), DebugInfo::Architecture::IS_64BIT }); return hardware::Void(); } hardware::Return interfaceChain(interfaceChain_cb cb) override { cb({getInterfaceName(mId), IBase::descriptor}); return hardware::Void(); } hardware::Return getHashChain(getHashChain_cb cb) override { cb({getHashFromId(mId), getHashFromId(0xff)}); return hardware::Void(); } private: pid_t mId; }; class ListTest : public ::testing::Test { public: virtual void SetUp() override { initMockServiceManager(); lshal = std::make_unique(out, err, serviceManager, passthruManager); initMockList(); } void initMockList() { mockList = std::make_unique>(lshal.get()); ON_CALL(*mockList, getPidInfo(_,_)).WillByDefault(Invoke( [](pid_t serverPid, BinderPidInfo* info) { *info = getPidInfoFromId(serverPid); return true; })); ON_CALL(*mockList, parseCmdline(_)).WillByDefault(Invoke(&getCmdlineFromId)); ON_CALL(*mockList, postprocess()).WillByDefault(Invoke([&]() { mockList->internalPostprocess(); size_t i = 0; mockList->forEachTable([&](Table& table) { table.setDescription("[fake description " + std::to_string(i++) + "]"); }); })); ON_CALL(*mockList, getPartition(_)).WillByDefault(Return(Partition::VENDOR)); ON_CALL(*mockList, getDeviceManifest()) .WillByDefault(Return(std::make_shared())); ON_CALL(*mockList, getDeviceMatrix()) .WillByDefault(Return(std::make_shared())); ON_CALL(*mockList, getFrameworkManifest()) .WillByDefault(Return(std::make_shared())); ON_CALL(*mockList, getFrameworkMatrix()) .WillByDefault(Return(std::make_shared())); } void initMockServiceManager() { serviceManager = new testing::NiceMock(); passthruManager = new testing::NiceMock(); using A = DebugInfo::Architecture; ON_CALL(*serviceManager, list(_)).WillByDefault(Invoke( [] (IServiceManager::list_cb cb) { cb({ getFqInstanceName(1), getFqInstanceName(2) }); return hardware::Void(); })); ON_CALL(*serviceManager, get(_, _)).WillByDefault(Invoke( [&](const hidl_string&, const hidl_string& instance) { int id = getIdFromInstanceName(instance); return sp(new TestService(id)); })); ON_CALL(*serviceManager, debugDump(_)).WillByDefault(Invoke( [] (IServiceManager::debugDump_cb cb) { cb({InstanceDebugInfo{getInterfaceName(3), getInstanceName(3), 3, getClients(3), A::IS_32BIT}, InstanceDebugInfo{getInterfaceName(4), getInstanceName(4), 4, getClients(4), A::IS_32BIT}}); return hardware::Void(); })); ON_CALL(*passthruManager, debugDump(_)).WillByDefault(Invoke( [] (IServiceManager::debugDump_cb cb) { cb({InstanceDebugInfo{getInterfaceName(5), getInstanceName(5), 5, getClients(5), A::IS_32BIT}, InstanceDebugInfo{getInterfaceName(6), getInstanceName(6), 6, getClients(6), A::IS_32BIT}}); return hardware::Void(); })); } std::stringstream err; std::stringstream out; std::unique_ptr lshal; std::unique_ptr mockList; sp serviceManager; sp passthruManager; }; TEST_F(ListTest, GetPidInfoCached) { EXPECT_CALL(*mockList, getPidInfo(5, _)).Times(1); EXPECT_NE(nullptr, mockList->getPidInfoCached(5)); EXPECT_NE(nullptr, mockList->getPidInfoCached(5)); } TEST_F(ListTest, Fetch) { optind = 1; // mimic Lshal::parseArg() ASSERT_EQ(0u, mockList->parseArgs(createArg({"lshal"}))); ASSERT_EQ(0u, mockList->fetch()); vintf::TransportArch hwbinder{Transport::HWBINDER, Arch::ARCH_64}; vintf::TransportArch passthrough{Transport::PASSTHROUGH, Arch::ARCH_32}; std::array transportArchs{{hwbinder, hwbinder, passthrough, passthrough, passthrough, passthrough}}; int i = 0; mockList->forEachTable([&](const Table& table) { for (const auto& entry : table) { if (i >= transportArchs.size()) { break; } int id = i + 1; auto transport = transportArchs.at(i).transport; TableEntry expected{ .interfaceName = getFqInstanceName(id), .transport = transport, .serverPid = transport == Transport::HWBINDER ? id : NO_PID, .threadUsage = transport == Transport::HWBINDER ? getPidInfoFromId(id).threadUsage : 0, .threadCount = transport == Transport::HWBINDER ? getPidInfoFromId(id).threadCount : 0, .serverCmdline = {}, .serverObjectAddress = transport == Transport::HWBINDER ? getPtr(id) : NO_PTR, .clientPids = getClients(id), .clientCmdlines = {}, .arch = transportArchs.at(i).arch, }; EXPECT_EQ(expected, entry) << expected.to_string() << " vs. " << entry.to_string(); ++i; } }); EXPECT_EQ(transportArchs.size(), i) << "Not all entries are tested."; } TEST_F(ListTest, DumpVintf) { const std::string expected = " \n" " a.h.foo1\n" " hwbinder\n" " @1.0::IFoo/1\n" " \n" " \n" " a.h.foo2\n" " hwbinder\n" " @2.0::IFoo/2\n" " \n" " \n" " a.h.foo3\n" " passthrough\n" " @3.0::IFoo/3\n" " \n" " \n" " a.h.foo4\n" " passthrough\n" " @4.0::IFoo/4\n" " \n"; optind = 1; // mimic Lshal::parseArg() EXPECT_EQ(0u, mockList->main(createArg({"lshal", "--init-vintf"}))); auto output = out.str(); EXPECT_THAT(output, HasSubstr(expected)); EXPECT_THAT(output, HasSubstr("a.h.foo5@5.0::IFoo/5")); EXPECT_THAT(output, HasSubstr("a.h.foo6@6.0::IFoo/6")); EXPECT_EQ("", err.str()); std::string error; vintf::HalManifest m; EXPECT_EQ(true, vintf::fromXml(&m, out.str(), &error)) << "--init-vintf does not emit valid HAL manifest: " << error; } // test default columns TEST_F(ListTest, DumpDefault) { const std::string expected = "[fake description 0]\n" "VINTF R Interface Thread Use Server Clients\n" "X N a.h.foo1@1.0::IFoo/1 11/21 1 2 4\n" "X Y a.h.foo2@2.0::IFoo/2 12/22 2 3 5\n" "\n" "[fake description 1]\n" "VINTF R Interface Thread Use Server Clients\n" "X ? a.h.foo3@3.0::IFoo/3 N/A N/A 4 6\n" "X ? a.h.foo4@4.0::IFoo/4 N/A N/A 5 7\n" "\n" "[fake description 2]\n" "VINTF R Interface Thread Use Server Clients\n" "X ? a.h.foo5@5.0::IFoo/5 N/A N/A 6 8\n" "X ? a.h.foo6@6.0::IFoo/6 N/A N/A 7 9\n" "\n"; optind = 1; // mimic Lshal::parseArg() EXPECT_EQ(0u, mockList->main(createArg({"lshal"}))); EXPECT_EQ(expected, out.str()); EXPECT_EQ("", err.str()); } TEST_F(ListTest, DumpHash) { const std::string expected = "[fake description 0]\n" "Interface R Hash\n" "a.h.foo1@1.0::IFoo/1 N 0000000000000000000000000000000000000000000000000000000000000000\n" "a.h.foo2@2.0::IFoo/2 Y 0202020202020202020202020202020202020202020202020202020202020202\n" "\n" "[fake description 1]\n" "Interface R Hash\n" "a.h.foo3@3.0::IFoo/3 ? \n" "a.h.foo4@4.0::IFoo/4 ? \n" "\n" "[fake description 2]\n" "Interface R Hash\n" "a.h.foo5@5.0::IFoo/5 ? \n" "a.h.foo6@6.0::IFoo/6 ? \n" "\n"; optind = 1; // mimic Lshal::parseArg() EXPECT_EQ(0u, mockList->main(createArg({"lshal", "-ils"}))); EXPECT_EQ(expected, out.str()); EXPECT_EQ("", err.str()); } TEST_F(ListTest, Dump) { const std::string expected = "[fake description 0]\n" "Interface Transport Arch Thread Use Server PTR Clients\n" "a.h.foo1@1.0::IFoo/1 hwbinder 64 11/21 1 0000000000002711 2 4\n" "a.h.foo2@2.0::IFoo/2 hwbinder 64 12/22 2 0000000000002712 3 5\n" "\n" "[fake description 1]\n" "Interface Transport Arch Thread Use Server PTR Clients\n" "a.h.foo3@3.0::IFoo/3 passthrough 32 N/A N/A N/A 4 6\n" "a.h.foo4@4.0::IFoo/4 passthrough 32 N/A N/A N/A 5 7\n" "\n" "[fake description 2]\n" "Interface Transport Arch Thread Use Server PTR Clients\n" "a.h.foo5@5.0::IFoo/5 passthrough 32 N/A N/A N/A 6 8\n" "a.h.foo6@6.0::IFoo/6 passthrough 32 N/A N/A N/A 7 9\n" "\n"; optind = 1; // mimic Lshal::parseArg() EXPECT_EQ(0u, mockList->main(createArg({"lshal", "-itrepac"}))); EXPECT_EQ(expected, out.str()); EXPECT_EQ("", err.str()); } TEST_F(ListTest, DumpCmdline) { const std::string expected = "[fake description 0]\n" "Interface Transport Arch Thread Use Server CMD PTR Clients CMD\n" "a.h.foo1@1.0::IFoo/1 hwbinder 64 11/21 command_line_1 0000000000002711 command_line_2;command_line_4\n" "a.h.foo2@2.0::IFoo/2 hwbinder 64 12/22 command_line_2 0000000000002712 command_line_3;command_line_5\n" "\n" "[fake description 1]\n" "Interface Transport Arch Thread Use Server CMD PTR Clients CMD\n" "a.h.foo3@3.0::IFoo/3 passthrough 32 N/A N/A command_line_4;command_line_6\n" "a.h.foo4@4.0::IFoo/4 passthrough 32 N/A N/A command_line_5;command_line_7\n" "\n" "[fake description 2]\n" "Interface Transport Arch Thread Use Server CMD PTR Clients CMD\n" "a.h.foo5@5.0::IFoo/5 passthrough 32 N/A N/A command_line_6;command_line_8\n" "a.h.foo6@6.0::IFoo/6 passthrough 32 N/A N/A command_line_7;command_line_9\n" "\n"; optind = 1; // mimic Lshal::parseArg() EXPECT_EQ(0u, mockList->main(createArg({"lshal", "-itrepacm"}))); EXPECT_EQ(expected, out.str()); EXPECT_EQ("", err.str()); } TEST_F(ListTest, DumpNeat) { const std::string expected = "a.h.foo1@1.0::IFoo/1 11/21 1 2 4\n" "a.h.foo2@2.0::IFoo/2 12/22 2 3 5\n" "a.h.foo3@3.0::IFoo/3 N/A N/A 4 6\n" "a.h.foo4@4.0::IFoo/4 N/A N/A 5 7\n" "a.h.foo5@5.0::IFoo/5 N/A N/A 6 8\n" "a.h.foo6@6.0::IFoo/6 N/A N/A 7 9\n"; optind = 1; // mimic Lshal::parseArg() EXPECT_EQ(0u, mockList->main(createArg({"lshal", "-iepc", "--neat"}))); EXPECT_EQ(expected, out.str()); EXPECT_EQ("", err.str()); } TEST_F(ListTest, DumpSingleHalType) { const std::string expected = "[fake description 0]\n" "Interface Transport Arch Thread Use Server PTR Clients\n" "a.h.foo1@1.0::IFoo/1 hwbinder 64 11/21 1 0000000000002711 2 4\n" "a.h.foo2@2.0::IFoo/2 hwbinder 64 12/22 2 0000000000002712 3 5\n" "\n"; optind = 1; // mimic Lshal::parseArg() EXPECT_EQ(0u, mockList->main(createArg({"lshal", "-itrepac", "--types=binderized"}))); EXPECT_EQ(expected, out.str()); EXPECT_EQ("", err.str()); } TEST_F(ListTest, DumpReorderedHalTypes) { const std::string expected = "[fake description 0]\n" "Interface Transport Arch Thread Use Server PTR Clients\n" "a.h.foo3@3.0::IFoo/3 passthrough 32 N/A N/A N/A 4 6\n" "a.h.foo4@4.0::IFoo/4 passthrough 32 N/A N/A N/A 5 7\n" "\n" "[fake description 1]\n" "Interface Transport Arch Thread Use Server PTR Clients\n" "a.h.foo5@5.0::IFoo/5 passthrough 32 N/A N/A N/A 6 8\n" "a.h.foo6@6.0::IFoo/6 passthrough 32 N/A N/A N/A 7 9\n" "\n" "[fake description 2]\n" "Interface Transport Arch Thread Use Server PTR Clients\n" "a.h.foo1@1.0::IFoo/1 hwbinder 64 11/21 1 0000000000002711 2 4\n" "a.h.foo2@2.0::IFoo/2 hwbinder 64 12/22 2 0000000000002712 3 5\n" "\n"; optind = 1; // mimic Lshal::parseArg() EXPECT_EQ(0u, mockList->main(createArg({"lshal", "-itrepac", "--types=passthrough_clients", "--types=passthrough_libs", "--types=binderized"}))); EXPECT_EQ(expected, out.str()); EXPECT_EQ("", err.str()); } TEST_F(ListTest, DumpAbbreviatedHalTypes) { const std::string expected = "[fake description 0]\n" "Interface Transport Arch Thread Use Server PTR Clients\n" "a.h.foo3@3.0::IFoo/3 passthrough 32 N/A N/A N/A 4 6\n" "a.h.foo4@4.0::IFoo/4 passthrough 32 N/A N/A N/A 5 7\n" "\n" "[fake description 1]\n" "Interface Transport Arch Thread Use Server PTR Clients\n" "a.h.foo5@5.0::IFoo/5 passthrough 32 N/A N/A N/A 6 8\n" "a.h.foo6@6.0::IFoo/6 passthrough 32 N/A N/A N/A 7 9\n" "\n"; optind = 1; // mimic Lshal::parseArg() EXPECT_EQ(0u, mockList->main(createArg({"lshal", "-itrepac", "--types=c,l"}))); EXPECT_EQ(expected, out.str()); EXPECT_EQ("", err.str()); } TEST_F(ListTest, DumpEmptyAndDuplicateHalTypes) { const std::string expected = "[fake description 0]\n" "Interface Transport Arch Thread Use Server PTR Clients\n" "a.h.foo3@3.0::IFoo/3 passthrough 32 N/A N/A N/A 4 6\n" "a.h.foo4@4.0::IFoo/4 passthrough 32 N/A N/A N/A 5 7\n" "\n" "[fake description 1]\n" "Interface Transport Arch Thread Use Server PTR Clients\n" "a.h.foo5@5.0::IFoo/5 passthrough 32 N/A N/A N/A 6 8\n" "a.h.foo6@6.0::IFoo/6 passthrough 32 N/A N/A N/A 7 9\n" "\n"; optind = 1; // mimic Lshal::parseArg() EXPECT_EQ(0u, mockList->main(createArg({"lshal", "-itrepac", "--types=c,l,,,l,l,c,", "--types=passthrough_libs,passthrough_clients"}))); EXPECT_EQ(expected, out.str()); EXPECT_EQ("", err.str()); } TEST_F(ListTest, UnknownHalType) { optind = 1; // mimic Lshal::parseArg() EXPECT_EQ(1u, mockList->main(createArg({"lshal", "-itrepac", "--types=c,r"}))); EXPECT_THAT(err.str(), HasSubstr("Unrecognized HAL type: r")); } TEST_F(ListTest, Vintf) { std::string deviceManifestXml = "\n" " \n" " a.h.foo1\n" " hwbinder\n" " @1.0::IFoo/1\n" " \n" " \n" " a.h.foo3\n" " passthrough\n" " @3.0::IFoo/3\n" " \n" "\n"; std::string frameworkManifestXml = "\n" " \n" " a.h.foo5\n" " passthrough\n" " @5.0::IFoo/5\n" " \n" "\n"; std::string deviceMatrixXml = "\n" " \n" " a.h.foo5\n" " 5.0\n" " \n" " IFoo\n" " 5\n" " \n" " \n" "\n"; std::string frameworkMatrixXml = "\n" " \n" " a.h.foo1\n" " 1.0\n" " \n" " IFoo\n" " 1\n" " \n" " \n" " \n" " a.h.foo3\n" " 3.0\n" " \n" " IFoo\n" " 3\n" " \n" " \n" "\n"; std::string expected = "DM,FC a.h.foo1@1.0::IFoo/1\n" "X a.h.foo2@2.0::IFoo/2\n" "DM,FC a.h.foo3@3.0::IFoo/3\n" "X a.h.foo4@4.0::IFoo/4\n" "DC,FM a.h.foo5@5.0::IFoo/5\n" "X a.h.foo6@6.0::IFoo/6\n"; auto deviceManifest = std::make_shared(); auto frameworkManifest = std::make_shared(); auto deviceMatrix = std::make_shared(); auto frameworkMatrix = std::make_shared(); ASSERT_TRUE(fromXml(deviceManifest.get(), deviceManifestXml)); ASSERT_TRUE(fromXml(frameworkManifest.get(), frameworkManifestXml)); ASSERT_TRUE(fromXml(deviceMatrix.get(), deviceMatrixXml)); ASSERT_TRUE(fromXml(frameworkMatrix.get(), frameworkMatrixXml)); ON_CALL(*mockList, getDeviceManifest()).WillByDefault(Return(deviceManifest)); ON_CALL(*mockList, getDeviceMatrix()).WillByDefault(Return(deviceMatrix)); ON_CALL(*mockList, getFrameworkManifest()).WillByDefault(Return(frameworkManifest)); ON_CALL(*mockList, getFrameworkMatrix()).WillByDefault(Return(frameworkMatrix)); optind = 1; // mimic Lshal::parseArg() EXPECT_EQ(0u, mockList->main(createArg({"lshal", "-Vi", "--neat"}))); EXPECT_THAT(out.str(), HasSubstr(expected)); EXPECT_EQ("", err.str()); } TEST_F(ListTest, AllColumns) { // clang-format off const std::string expected = "[fake description 0]\n" "Interface Transport Server PTR Arch Thread Use R Hash VINTF Status Clients\n" "a.h.foo1@1.0::IFoo/1 hwbinder 1 0000000000002711 64 11/21 N 0000000000000000000000000000000000000000000000000000000000000000 X alive 2 4\n" "a.h.foo2@2.0::IFoo/2 hwbinder 2 0000000000002712 64 12/22 Y 0202020202020202020202020202020202020202020202020202020202020202 X alive 3 5\n" "\n" "[fake description 1]\n" "Interface Transport Server PTR Arch Thread Use R Hash VINTF Status Clients\n" "a.h.foo3@3.0::IFoo/3 passthrough N/A N/A 32 N/A ? X N/A 4 6\n" "a.h.foo4@4.0::IFoo/4 passthrough N/A N/A 32 N/A ? X N/A 5 7\n" "\n" "[fake description 2]\n" "Interface Transport Server PTR Arch Thread Use R Hash VINTF Status Clients\n" "a.h.foo5@5.0::IFoo/5 passthrough N/A N/A 32 N/A ? X N/A 6 8\n" "a.h.foo6@6.0::IFoo/6 passthrough N/A N/A 32 N/A ? X N/A 7 9\n" "\n"; // clang-format on optind = 1; // mimic Lshal::parseArg() EXPECT_EQ(0u, mockList->main(createArg({"lshal", "--all"}))); EXPECT_EQ(expected, out.str()); EXPECT_EQ("", err.str()); } TEST_F(ListTest, AllColumnsWithCmd) { // clang-format off const std::string expected = "[fake description 0]\n" "Interface Transport Server CMD PTR Arch Thread Use R Hash VINTF Status Clients CMD\n" "a.h.foo1@1.0::IFoo/1 hwbinder command_line_1 0000000000002711 64 11/21 N 0000000000000000000000000000000000000000000000000000000000000000 X alive command_line_2;command_line_4\n" "a.h.foo2@2.0::IFoo/2 hwbinder command_line_2 0000000000002712 64 12/22 Y 0202020202020202020202020202020202020202020202020202020202020202 X alive command_line_3;command_line_5\n" "\n" "[fake description 1]\n" "Interface Transport Server CMD PTR Arch Thread Use R Hash VINTF Status Clients CMD\n" "a.h.foo3@3.0::IFoo/3 passthrough N/A 32 N/A ? X N/A command_line_4;command_line_6\n" "a.h.foo4@4.0::IFoo/4 passthrough N/A 32 N/A ? X N/A command_line_5;command_line_7\n" "\n" "[fake description 2]\n" "Interface Transport Server CMD PTR Arch Thread Use R Hash VINTF Status Clients CMD\n" "a.h.foo5@5.0::IFoo/5 passthrough N/A 32 N/A ? X N/A command_line_6;command_line_8\n" "a.h.foo6@6.0::IFoo/6 passthrough N/A 32 N/A ? X N/A command_line_7;command_line_9\n" "\n"; // clang-format on optind = 1; // mimic Lshal::parseArg() EXPECT_EQ(0u, mockList->main(createArg({"lshal", "-Am"}))); EXPECT_EQ(expected, out.str()); EXPECT_EQ("", err.str()); } TEST_F(ListTest, AllSections) { optind = 1; // mimic Lshal::parseArg() EXPECT_EQ(0u, mockList->main(createArg({"lshal", "--types=all"}))); using HalTypeBase = std::underlying_type_t; for (HalTypeBase i = 0; i < static_cast(HalType::LAST); ++i) { EXPECT_THAT(out.str(), HasSubstr("[fake description " + std::to_string(i) + "]")); } EXPECT_THAT(out.str(), Not(HasSubstr("[fake description " + std::to_string(static_cast(HalType::LAST)) + "]"))); EXPECT_EQ("", err.str()); } // Fake service returned by mocked IServiceManager::get for DumpDebug. // The interfaceChain and getHashChain functions returns // foo(id - 1) -> foo(id - 2) -> ... foo1 -> IBase. class InheritingService : public IBase { public: explicit InheritingService(pid_t id) : mId(id) {} android::hardware::Return interfaceDescriptor(interfaceDescriptor_cb cb) override { cb(getInterfaceName(mId)); return hardware::Void(); } android::hardware::Return interfaceChain(interfaceChain_cb cb) override { std::vector ret; for (auto i = mId; i > 0; --i) { ret.push_back(getInterfaceName(i)); } ret.push_back(IBase::descriptor); cb(ret); return hardware::Void(); } android::hardware::Return getHashChain(getHashChain_cb cb) override { std::vector ret; for (auto i = mId; i > 0; --i) { ret.push_back(getHashFromId(i)); } ret.push_back(getHashFromId(0xff)); cb(ret); return hardware::Void(); } android::hardware::Return debug(const hidl_handle& hh, const hidl_vec&) override { const native_handle_t* handle = hh.getNativeHandle(); if (handle->numFds < 1) { return Void(); } int fd = handle->data[0]; std::string content = "debug info for "; content += getInterfaceName(mId); ssize_t written = write(fd, content.c_str(), content.size()); if (written != (ssize_t)content.size()) { LOG(WARNING) << "SERVER(" << descriptor << ") debug writes " << written << " bytes < " << content.size() << " bytes, errno = " << errno; } return Void(); } private: pid_t mId; }; TEST_F(ListTest, DumpDebug) { size_t inheritanceLevel = 3; sp service = new InheritingService(inheritanceLevel); EXPECT_CALL(*serviceManager, list(_)).WillRepeatedly(Invoke([&](IServiceManager::list_cb cb) { std::vector ret; for (auto i = 1; i <= inheritanceLevel; ++i) { ret.push_back(getInterfaceName(i) + "/default"); } cb(ret); return hardware::Void(); })); EXPECT_CALL(*serviceManager, get(_, _)) .WillRepeatedly(Invoke([&](const hidl_string&, const hidl_string&) -> sp { return sp(service); })); const std::string expected = "[fake description 0]\n" "Interface\n" "a.h.foo1@1.0::IFoo/default\n" "[See a.h.foo3@3.0::IFoo/default]\n" "a.h.foo2@2.0::IFoo/default\n" "[See a.h.foo3@3.0::IFoo/default]\n" "a.h.foo3@3.0::IFoo/default\n" "debug info for a.h.foo3@3.0::IFoo\n" "\n"; optind = 1; // mimic Lshal::parseArg() EXPECT_EQ(0u, mockList->main(createArg({"lshal", "--types=b", "-id"}))); EXPECT_EQ(expected, out.str()); EXPECT_EQ("", err.str()); } // In SlowService, everything goes slooooooow. Each IPC call will wait for // the specified time before calling the callback function or returning. class SlowService : public IBase { public: explicit SlowService(std::chrono::milliseconds wait) : mWait(wait) {} android::hardware::Return interfaceDescriptor(interfaceDescriptor_cb cb) override { std::this_thread::sleep_for(mWait); cb(getInterfaceName(1)); storeHistory("interfaceDescriptor"); return hardware::Void(); } android::hardware::Return interfaceChain(interfaceChain_cb cb) override { std::this_thread::sleep_for(mWait); std::vector ret; ret.push_back(getInterfaceName(1)); ret.push_back(IBase::descriptor); cb(ret); storeHistory("interfaceChain"); return hardware::Void(); } android::hardware::Return getHashChain(getHashChain_cb cb) override { std::this_thread::sleep_for(mWait); std::vector ret; ret.push_back(getHashFromId(0)); ret.push_back(getHashFromId(0xff)); cb(ret); storeHistory("getHashChain"); return hardware::Void(); } android::hardware::Return debug(const hidl_handle&, const hidl_vec&) override { std::this_thread::sleep_for(mWait); storeHistory("debug"); return Void(); } template bool waitForHistory(std::chrono::duration wait, Pred predicate) { std::unique_lock lock(mLock); return mCv.wait_for(lock, wait, [&]() { return predicate(mCallHistory); }); } private: void storeHistory(std::string hist) { { std::lock_guard lock(mLock); mCallHistory.emplace_back(std::move(hist)); } mCv.notify_all(); } const std::chrono::milliseconds mWait; std::mutex mLock; std::condition_variable mCv; // List of functions that have finished being called on this interface. std::vector mCallHistory; }; class TimeoutTest : public ListTest { public: void setMockServiceManager(sp service) { EXPECT_CALL(*serviceManager, list(_)) .WillRepeatedly(Invoke([&](IServiceManager::list_cb cb) { std::vector ret; ret.push_back(getInterfaceName(1) + "/default"); cb(ret); return hardware::Void(); })); EXPECT_CALL(*serviceManager, get(_, _)) .WillRepeatedly(Invoke([&](const hidl_string&, const hidl_string&) -> sp { return service; })); } }; TEST_F(TimeoutTest, BackgroundThreadIsKept) { auto lshalIpcTimeout = 100ms; auto serviceIpcTimeout = 200ms; lshal->setWaitTimeForTest(lshalIpcTimeout, lshalIpcTimeout); sp service = new SlowService(serviceIpcTimeout); setMockServiceManager(service); optind = 1; // mimic Lshal::parseArg() EXPECT_NE(0u, mockList->main(createArg({"lshal", "--types=b", "-i", "--neat"}))); EXPECT_THAT(err.str(), HasSubstr("Skipping \"a.h.foo1@1.0::IFoo/default\"")); EXPECT_TRUE(service->waitForHistory(serviceIpcTimeout * 5, [](const auto& hist) { return hist.size() == 1 && hist[0] == "interfaceChain"; })) << "The background thread should continue after the main thread moves on, but it is killed"; } TEST_F(TimeoutTest, BackgroundThreadDoesNotBlockMainThread) { auto lshalIpcTimeout = 100ms; auto serviceIpcTimeout = 2000ms; auto start = std::chrono::system_clock::now(); lshal->setWaitTimeForTest(lshalIpcTimeout, lshalIpcTimeout); sp service = new SlowService(serviceIpcTimeout); setMockServiceManager(service); optind = 1; // mimic Lshal::parseArg() EXPECT_NE(0u, mockList->main(createArg({"lshal", "--types=b", "-i", "--neat"}))); EXPECT_LE(std::chrono::system_clock::now(), start + 5 * lshalIpcTimeout) << "The main thread should not be blocked by the background task"; } class ListVintfTest : public ListTest { public: virtual void SetUp() override { ListTest::SetUp(); const std::string mockManifestXml = "\n" " \n" " a.h.foo1\n" " hwbinder\n" " @1.0::IFoo/1\n" " \n" " \n" " a.h.bar1\n" " hwbinder\n" " @1.0::IBar/1\n" " \n" " \n" " a.h.bar2\n" " passthrough\n" " @2.0::IBar/2\n" " \n" ""; auto manifest = std::make_shared(); EXPECT_TRUE(fromXml(manifest.get(), mockManifestXml)); EXPECT_CALL(*mockList, getDeviceManifest()) .Times(AnyNumber()) .WillRepeatedly(Return(manifest)); } }; TEST_F(ListVintfTest, ManifestHals) { optind = 1; // mimic Lshal::parseArg() EXPECT_EQ(0u, mockList->main(createArg({"lshal", "-iStr", "--types=v", "--neat"}))); EXPECT_THAT(out.str(), HasSubstr("a.h.bar1@1.0::IBar/1 declared hwbinder ?")); EXPECT_THAT(out.str(), HasSubstr("a.h.bar2@2.0::IBar/2 declared passthrough 32+64")); EXPECT_THAT(out.str(), HasSubstr("a.h.foo1@1.0::IFoo/1 declared hwbinder ?")); EXPECT_EQ("", err.str()); } TEST_F(ListVintfTest, Lazy) { optind = 1; // mimic Lshal::parseArg() EXPECT_EQ(0u, mockList->main(createArg({"lshal", "-iStr", "--types=z", "--neat"}))); EXPECT_THAT(out.str(), HasSubstr("a.h.bar1@1.0::IBar/1 declared hwbinder ?")); EXPECT_THAT(out.str(), HasSubstr("a.h.bar2@2.0::IBar/2 declared passthrough 32+64")); EXPECT_EQ("", err.str()); } TEST_F(ListVintfTest, NoLazy) { optind = 1; // mimic Lshal::parseArg() EXPECT_EQ(0u, mockList->main(createArg({"lshal", "-iStr", "--types=b,c,l", "--neat"}))); EXPECT_THAT(out.str(), Not(HasSubstr("IBar"))); EXPECT_EQ("", err.str()); } class HelpTest : public ::testing::Test { public: void SetUp() override { lshal = std::make_unique(out, err, new MockServiceManager() /* serviceManager */, new MockServiceManager() /* passthruManager */); } std::stringstream err; std::stringstream out; std::unique_ptr lshal; }; TEST_F(HelpTest, GlobalUsage) { (void)callMain(lshal, {"lshal", "--help"}); // ignore return std::string errStr = err.str(); EXPECT_THAT(errStr, ContainsRegex("(^|\n)commands:($|\n)")) << "`lshal --help` does not contain global usage"; EXPECT_THAT(errStr, ContainsRegex("(^|\n)list:($|\n)")) << "`lshal --help` does not contain usage for 'list' command"; EXPECT_THAT(errStr, ContainsRegex("(^|\n)debug:($|\n)")) << "`lshal --help` does not contain usage for 'debug' command"; EXPECT_THAT(errStr, ContainsRegex("(^|\n)help:($|\n)")) << "`lshal --help` does not contain usage for 'help' command"; err.str(""); (void)callMain(lshal, {"lshal", "help"}); // ignore return EXPECT_EQ(errStr, err.str()) << "`lshal help` should have the same output as `lshal --help`"; err.str(""); EXPECT_NE(0u, callMain(lshal, {"lshal", "--unknown-option"})); EXPECT_THAT(err.str(), ContainsRegex("unrecognized option")); EXPECT_THAT(err.str(), EndsWith(errStr)) << "`lshal --unknown-option` should have the same output as `lshal --help`"; EXPECT_EQ("", out.str()); } TEST_F(HelpTest, UnknownOptionList1) { (void)callMain(lshal, {"lshal", "help", "list"}); EXPECT_THAT(err.str(), ContainsRegex("(^|\n)list:($|\n)")) << "`lshal help list` does not contain usage for 'list' command"; } TEST_F(HelpTest, UnknownOptionList2) { EXPECT_NE(0u, callMain(lshal, {"lshal", "list", "--unknown-option"})); EXPECT_THAT(err.str(), ContainsRegex("unrecognized option")); EXPECT_THAT(err.str(), ContainsRegex("(^|\n)list:($|\n)")) << "`lshal list --unknown-option` does not contain usage for 'list' command"; EXPECT_EQ("", out.str()); } TEST_F(HelpTest, UnknownOptionHelp1) { (void)callMain(lshal, {"lshal", "help", "help"}); EXPECT_THAT(err.str(), ContainsRegex("(^|\n)help:($|\n)")) << "`lshal help help` does not contain usage for 'help' command"; } TEST_F(HelpTest, UnknownOptionHelp2) { (void)callMain(lshal, {"lshal", "help", "--unknown-option"}); EXPECT_THAT(err.str(), ContainsRegex("(^|\n)help:($|\n)")) << "`lshal help --unknown-option` does not contain usage for 'help' command"; EXPECT_EQ("", out.str()); } } // namespace lshal } // namespace android int main(int argc, char **argv) { ::testing::InitGoogleMock(&argc, argv); // Use _exit() to force terminate background threads in Timeout.h _exit(RUN_ALL_TESTS()); }