/* * 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 "ListCommand.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "Lshal.h" #include "PipeRelay.h" #include "Timeout.h" #include "utils.h" using ::android::hardware::hidl_string; using ::android::hardware::hidl_vec; using ::android::hidl::base::V1_0::DebugInfo; using ::android::hidl::base::V1_0::IBase; using ::android::hidl::manager::V1_0::IServiceManager; namespace android { namespace lshal { vintf::SchemaType toSchemaType(Partition p) { return (p == Partition::SYSTEM) ? vintf::SchemaType::FRAMEWORK : vintf::SchemaType::DEVICE; } Partition toPartition(vintf::SchemaType t) { switch (t) { case vintf::SchemaType::FRAMEWORK: return Partition::SYSTEM; // TODO(b/71555570): Device manifest does not distinguish HALs from vendor or ODM. case vintf::SchemaType::DEVICE: return Partition::VENDOR; } return Partition::UNKNOWN; } std::string getPackageAndVersion(const std::string& fqInstance) { return splitFirst(fqInstance, ':').first; } NullableOStream ListCommand::out() const { return mLshal.out(); } NullableOStream ListCommand::err() const { return mLshal.err(); } std::string ListCommand::GetName() { return "list"; } std::string ListCommand::getSimpleDescription() const { return "List HIDL HALs."; } std::string ListCommand::parseCmdline(pid_t pid) const { return android::procpartition::getCmdline(pid); } const std::string &ListCommand::getCmdline(pid_t pid) { static const std::string kEmptyString{}; if (pid == NO_PID) return kEmptyString; auto pair = mCmdlines.find(pid); if (pair != mCmdlines.end()) { return pair->second; } mCmdlines[pid] = parseCmdline(pid); return mCmdlines[pid]; } void ListCommand::removeDeadProcesses(Pids *pids) { static const pid_t myPid = getpid(); pids->erase(std::remove_if(pids->begin(), pids->end(), [this](auto pid) { return pid == myPid || this->getCmdline(pid).empty(); }), pids->end()); } Partition ListCommand::getPartition(pid_t pid) { if (pid == NO_PID) return Partition::UNKNOWN; auto it = mPartitions.find(pid); if (it != mPartitions.end()) { return it->second; } Partition partition = android::procpartition::getPartition(pid); mPartitions.emplace(pid, partition); return partition; } // Give sensible defaults when nothing can be inferred from runtime. // process: Partition inferred from executable location or cmdline. Partition ListCommand::resolvePartition(Partition process, const FqInstance& fqInstance) const { if (fqInstance.inPackage("vendor") || fqInstance.inPackage("com")) { return Partition::VENDOR; } if (fqInstance.inPackage("android.frameworks") || fqInstance.inPackage("android.system") || fqInstance.inPackage("android.hidl")) { return Partition::SYSTEM; } // Some android.hardware HALs are served from system. Check the value from executable // location / cmdline first. if (fqInstance.inPackage("android.hardware")) { if (process != Partition::UNKNOWN) { return process; } return Partition::VENDOR; } return process; } bool match(const vintf::ManifestInstance& instance, const FqInstance& fqInstance, vintf::TransportArch ta) { // For hwbinder libs, allow missing arch in manifest. // For passthrough libs, allow missing interface/instance in table. return (ta.transport == instance.transport()) && (ta.transport == vintf::Transport::HWBINDER || vintf::contains(instance.arch(), ta.arch)) && (!fqInstance.hasInterface() || fqInstance.getInterface() == instance.interface()) && (!fqInstance.hasInstance() || fqInstance.getInstance() == instance.instance()); } bool match(const vintf::MatrixInstance& instance, const FqInstance& fqInstance, vintf::TransportArch /* ta */) { return (!fqInstance.hasInterface() || fqInstance.getInterface() == instance.interface()) && (!fqInstance.hasInstance() || instance.matchInstance(fqInstance.getInstance())); } template VintfInfo getVintfInfo(const std::shared_ptr& object, const FqInstance& fqInstance, vintf::TransportArch ta, VintfInfo value) { bool found = false; (void)object->forEachHidlInstanceOfVersion(fqInstance.getPackage(), fqInstance.getVersion(), [&](const auto& instance) { found = match(instance, fqInstance, ta); return !found; // continue if not found }); return found ? value : VINTF_INFO_EMPTY; } std::shared_ptr ListCommand::getDeviceManifest() const { return vintf::VintfObject::GetDeviceHalManifest(); } std::shared_ptr ListCommand::getDeviceMatrix() const { return vintf::VintfObject::GetDeviceCompatibilityMatrix(); } std::shared_ptr ListCommand::getFrameworkManifest() const { return vintf::VintfObject::GetFrameworkHalManifest(); } std::shared_ptr ListCommand::getFrameworkMatrix() const { return vintf::VintfObject::GetFrameworkCompatibilityMatrix(); } VintfInfo ListCommand::getVintfInfo(const std::string& fqInstanceName, vintf::TransportArch ta) const { FqInstance fqInstance; if (!fqInstance.setTo(fqInstanceName) && // Ignore interface / instance for passthrough libs !fqInstance.setTo(getPackageAndVersion(fqInstanceName))) { err() << "Warning: Cannot parse '" << fqInstanceName << "'; no VINTF info." << std::endl; return VINTF_INFO_EMPTY; } return lshal::getVintfInfo(getDeviceManifest(), fqInstance, ta, DEVICE_MANIFEST) | lshal::getVintfInfo(getFrameworkManifest(), fqInstance, ta, FRAMEWORK_MANIFEST) | lshal::getVintfInfo(getDeviceMatrix(), fqInstance, ta, DEVICE_MATRIX) | lshal::getVintfInfo(getFrameworkMatrix(), fqInstance, ta, FRAMEWORK_MATRIX); } bool ListCommand::getPidInfo( pid_t serverPid, BinderPidInfo *pidInfo) const { const auto& status = getBinderPidInfo(BinderDebugContext::HWBINDER, serverPid, pidInfo); return status == OK; } const BinderPidInfo* ListCommand::getPidInfoCached(pid_t serverPid) { auto pair = mCachedPidInfos.insert({serverPid, BinderPidInfo{}}); if (pair.second /* did insertion take place? */) { if (!getPidInfo(serverPid, &pair.first->second)) { return nullptr; } } return &pair.first->second; } bool ListCommand::shouldFetchHalType(const HalType &type) const { return (std::find(mFetchTypes.begin(), mFetchTypes.end(), type) != mFetchTypes.end()); } Table* ListCommand::tableForType(HalType type) { switch (type) { case HalType::BINDERIZED_SERVICES: return &mServicesTable; case HalType::PASSTHROUGH_CLIENTS: return &mPassthroughRefTable; case HalType::PASSTHROUGH_LIBRARIES: return &mImplementationsTable; case HalType::VINTF_MANIFEST: return &mManifestHalsTable; case HalType::LAZY_HALS: return &mLazyHalsTable; default: LOG(FATAL) << "Unknown HAL type " << static_cast(type); return nullptr; } } const Table* ListCommand::tableForType(HalType type) const { return const_cast(this)->tableForType(type); } void ListCommand::forEachTable(const std::function &f) { for (const auto& type : mListTypes) { f(*tableForType(type)); } } void ListCommand::forEachTable(const std::function &f) const { for (const auto& type : mListTypes) { f(*tableForType(type)); } } void ListCommand::postprocess() { forEachTable([this](Table &table) { if (mSortColumn) { std::sort(table.begin(), table.end(), mSortColumn); } for (TableEntry &entry : table) { entry.serverCmdline = getCmdline(entry.serverPid); removeDeadProcesses(&entry.clientPids); for (auto pid : entry.clientPids) { entry.clientCmdlines.push_back(this->getCmdline(pid)); } } for (TableEntry& entry : table) { if (entry.partition == Partition::UNKNOWN) { entry.partition = getPartition(entry.serverPid); } entry.vintfInfo = getVintfInfo(entry.interfaceName, {entry.transport, entry.arch}); } }); // use a double for loop here because lshal doesn't care about efficiency. for (TableEntry &packageEntry : mImplementationsTable) { std::string packageName = packageEntry.interfaceName; FQName fqPackageName; if (!FQName::parse(packageName.substr(0, packageName.find("::")), &fqPackageName)) { continue; } for (TableEntry &interfaceEntry : mPassthroughRefTable) { if (interfaceEntry.arch != vintf::Arch::ARCH_EMPTY) { continue; } FQName interfaceName; if (!FQName::parse(splitFirst(interfaceEntry.interfaceName, '/').first, &interfaceName)) { continue; } if (interfaceName.getPackageAndVersion() == fqPackageName) { interfaceEntry.arch = packageEntry.arch; } } } mServicesTable.setDescription( "| All HIDL binderized services (registered with hwservicemanager)"); mPassthroughRefTable.setDescription( "| All HIDL interfaces getService() has ever returned as a passthrough interface;\n" "| PIDs / processes shown below might be inaccurate because the process\n" "| might have relinquished the interface or might have died.\n" "| The Server / Server CMD column can be ignored.\n" "| The Clients / Clients CMD column shows all process that have ever dlopen'ed \n" "| the library and successfully fetched the passthrough implementation."); mImplementationsTable.setDescription( "| All available HIDL passthrough implementations (all -impl.so files).\n" "| These may return subclasses through their respective HIDL_FETCH_I* functions."); mManifestHalsTable.setDescription( "| All HIDL HALs that are in VINTF manifest."); mLazyHalsTable.setDescription( "| All HIDL HALs that are declared in VINTF manifest:\n" "| - as hwbinder HALs but are not registered to hwservicemanager, and\n" "| - as hwbinder/passthrough HALs with no implementation."); } bool ListCommand::addEntryWithInstance(const TableEntry& entry, vintf::HalManifest* manifest) const { FqInstance fqInstance; if (!fqInstance.setTo(entry.interfaceName)) { err() << "Warning: '" << entry.interfaceName << "' is not a valid FqInstance." << std::endl; return false; } if (fqInstance.getPackage() == "android.hidl.base") { return true; // always remove IBase from manifest } Partition partition = resolvePartition(entry.partition, fqInstance); if (partition == Partition::UNKNOWN) { err() << "Warning: Cannot guess the partition of FqInstance " << fqInstance.string() << std::endl; return false; } if (partition != mVintfPartition) { return true; // strip out instances that is in a different partition. } vintf::Arch arch; if (entry.transport == vintf::Transport::HWBINDER) { arch = vintf::Arch::ARCH_EMPTY; // no need to specify arch in manifest } else if (entry.transport == vintf::Transport::PASSTHROUGH) { if (entry.arch == vintf::Arch::ARCH_EMPTY) { err() << "Warning: '" << entry.interfaceName << "' doesn't have bitness info."; return false; } arch = entry.arch; } else { err() << "Warning: '" << entry.transport << "' is not a valid transport." << std::endl; return false; } std::string e; if (!manifest->insertInstance(fqInstance, entry.transport, arch, vintf::HalFormat::HIDL, &e)) { err() << "Warning: Cannot insert '" << fqInstance.string() << ": " << e << std::endl; return false; } return true; } bool ListCommand::addEntryWithoutInstance(const TableEntry& entry, const vintf::HalManifest* manifest) const { const auto& packageAndVersion = splitFirst(getPackageAndVersion(entry.interfaceName), '@'); const auto& package = packageAndVersion.first; vintf::Version version; if (!vintf::parse(packageAndVersion.second, &version)) { err() << "Warning: Cannot parse version '" << packageAndVersion.second << "' for entry '" << entry.interfaceName << "'" << std::endl; return false; } bool found = false; (void)manifest->forEachHidlInstanceOfVersion(package, version, [&found](const auto&) { found = true; return false; // break }); return found; } void ListCommand::dumpVintf(const NullableOStream& out) const { using vintf::operator|=; using vintf::operator<<; using namespace std::placeholders; vintf::HalManifest manifest; manifest.setType(toSchemaType(mVintfPartition)); std::vector error; for (const TableEntry& entry : mServicesTable) if (!addEntryWithInstance(entry, &manifest)) error.push_back(entry.interfaceName); for (const TableEntry& entry : mPassthroughRefTable) if (!addEntryWithInstance(entry, &manifest)) error.push_back(entry.interfaceName); for (const TableEntry& entry : mManifestHalsTable) if (!addEntryWithInstance(entry, &manifest)) error.push_back(entry.interfaceName); std::vector passthrough; for (const TableEntry& entry : mImplementationsTable) if (!addEntryWithoutInstance(entry, &manifest)) passthrough.push_back(entry.interfaceName); out << "" << std::endl; out << vintf::toXml(manifest, vintf::SerializeFlags::HALS_ONLY); } std::string ListCommand::INIT_VINTF_NOTES{ " 1. If a HAL is supported in both hwbinder and passthrough transport,\n" " only hwbinder is shown.\n" " 2. It is likely that HALs in passthrough transport does not have\n" " declared; users will have to write them by hand.\n" " 3. A HAL with lower minor version can be overridden by a HAL with\n" " higher minor version if they have the same name and major version.\n" " 4. This output is intended for launch devices.\n" " Upgrading devices should not use this tool to generate device\n" " manifest and replace the existing manifest directly, but should\n" " edit the existing manifest manually.\n" " Specifically, devices which launched at Android O-MR1 or earlier\n" " should not use the 'fqname' format for required HAL entries and\n" " should instead use the legacy package, name, instance-name format\n" " until they are updated.\n" }; static vintf::Arch fromBaseArchitecture(::android::hidl::base::V1_0::DebugInfo::Architecture a) { switch (a) { case ::android::hidl::base::V1_0::DebugInfo::Architecture::IS_64BIT: return vintf::Arch::ARCH_64; case ::android::hidl::base::V1_0::DebugInfo::Architecture::IS_32BIT: return vintf::Arch::ARCH_32; case ::android::hidl::base::V1_0::DebugInfo::Architecture::UNKNOWN: // fallthrough default: return vintf::Arch::ARCH_EMPTY; } } void ListCommand::dumpTable(const NullableOStream& out) const { if (mNeat) { std::vector tables; forEachTable([&tables](const Table &table) { tables.push_back(&table); }); MergedTable(std::move(tables)).createTextTable().dump(out.buf()); return; } forEachTable([this, &out](const Table &table) { // We're only interested in dumping debug info for already // instantiated services. There's little value in dumping the // debug info for a service we create on the fly, so we only operate // on the "mServicesTable". std::function emitDebugInfo = nullptr; if (mEmitDebugInfo && &table == &mServicesTable) { emitDebugInfo = [this](const auto& iName) { std::stringstream ss; auto pair = splitFirst(iName, '/'); mLshal.emitDebugInfo(pair.first, pair.second, {}, ParentDebugInfoLevel::FQNAME_ONLY, ss, NullableOStream(nullptr)); return ss.str(); }; } table.createTextTable(mNeat, emitDebugInfo).dump(out.buf()); out << std::endl; }); } Status ListCommand::dump() { auto dump = mVintf ? &ListCommand::dumpVintf : &ListCommand::dumpTable; if (mFileOutputPath.empty()) { (*this.*dump)(out()); return OK; } std::ofstream fileOutput(mFileOutputPath); if (!fileOutput.is_open()) { err() << "Could not open file '" << mFileOutputPath << "'." << std::endl; return IO_ERROR; } chown(mFileOutputPath.c_str(), AID_SHELL, AID_SHELL); (*this.*dump)(NullableOStream(fileOutput)); fileOutput.flush(); fileOutput.close(); return OK; } void ListCommand::putEntry(HalType type, TableEntry &&entry) { tableForType(type)->add(std::forward(entry)); } Status ListCommand::fetchAllLibraries(const sp &manager) { if (!shouldFetchHalType(HalType::PASSTHROUGH_LIBRARIES)) { return OK; } using namespace ::android::hardware; using namespace ::android::hidl::manager::V1_0; using namespace ::android::hidl::base::V1_0; using std::literals::chrono_literals::operator""s; auto ret = timeoutIPC(10s, manager, &IServiceManager::debugDump, [&] (const auto &infos) { std::map entries; for (const auto &info : infos) { std::string interfaceName = std::string{info.interfaceName.c_str()} + "/" + std::string{info.instanceName.c_str()}; entries.emplace(interfaceName, TableEntry{ .interfaceName = interfaceName, .transport = vintf::Transport::PASSTHROUGH, .clientPids = info.clientPids, }).first->second.arch |= fromBaseArchitecture(info.arch); } for (auto &&pair : entries) { putEntry(HalType::PASSTHROUGH_LIBRARIES, std::move(pair.second)); } }); if (!ret.isOk()) { err() << "Error: Failed to call list on getPassthroughServiceManager(): " << ret.description() << std::endl; return DUMP_ALL_LIBS_ERROR; } return OK; } Status ListCommand::fetchPassthrough(const sp &manager) { if (!shouldFetchHalType(HalType::PASSTHROUGH_CLIENTS)) { return OK; } using namespace ::android::hardware; using namespace ::android::hardware::details; using namespace ::android::hidl::manager::V1_0; using namespace ::android::hidl::base::V1_0; auto ret = timeoutIPC(manager, &IServiceManager::debugDump, [&] (const auto &infos) { for (const auto &info : infos) { if (info.clientPids.size() <= 0) { continue; } putEntry(HalType::PASSTHROUGH_CLIENTS, { .interfaceName = std::string{info.interfaceName.c_str()} + "/" + std::string{info.instanceName.c_str()}, .transport = vintf::Transport::PASSTHROUGH, .serverPid = info.clientPids.size() == 1 ? info.clientPids[0] : NO_PID, .clientPids = info.clientPids, .arch = fromBaseArchitecture(info.arch) }); } }); if (!ret.isOk()) { err() << "Error: Failed to call debugDump on defaultServiceManager(): " << ret.description() << std::endl; return DUMP_PASSTHROUGH_ERROR; } return OK; } Status ListCommand::fetchBinderized(const sp &manager) { using vintf::operator<<; if (!shouldFetchHalType(HalType::BINDERIZED_SERVICES)) { return OK; } const vintf::Transport mode = vintf::Transport::HWBINDER; hidl_vec fqInstanceNames; // copying out for timeoutIPC auto listRet = timeoutIPC(manager, &IServiceManager::list, [&] (const auto &names) { fqInstanceNames = names; }); if (!listRet.isOk()) { err() << "Error: Failed to list services for " << mode << ": " << listRet.description() << std::endl; return DUMP_BINDERIZED_ERROR; } Status status = OK; std::map allTableEntries; for (const auto &fqInstanceName : fqInstanceNames) { // create entry and default assign all fields. TableEntry& entry = allTableEntries[fqInstanceName]; entry.interfaceName = fqInstanceName; entry.transport = mode; entry.serviceStatus = ServiceStatus::NON_RESPONSIVE; status |= fetchBinderizedEntry(manager, &entry); } for (auto& pair : allTableEntries) { putEntry(HalType::BINDERIZED_SERVICES, std::move(pair.second)); } return status; } Status ListCommand::fetchBinderizedEntry(const sp &manager, TableEntry *entry) { Status status = OK; const auto handleError = [&](Status additionalError, const std::string& msg) { err() << "Warning: Skipping \"" << entry->interfaceName << "\": " << msg << std::endl; status |= DUMP_BINDERIZED_ERROR | additionalError; }; const auto pair = splitFirst(entry->interfaceName, '/'); const auto &serviceName = pair.first; const auto &instanceName = pair.second; auto getRet = timeoutIPC(manager, &IServiceManager::get, serviceName, instanceName); if (!getRet.isOk()) { handleError(TRANSACTION_ERROR, "cannot be fetched from service manager:" + getRet.description()); return status; } sp service = getRet; if (service == nullptr) { handleError(NO_INTERFACE, "cannot be fetched from service manager (null)"); return status; } // getDebugInfo do { DebugInfo debugInfo; auto debugRet = timeoutIPC(service, &IBase::getDebugInfo, [&] (const auto &received) { debugInfo = received; }); if (!debugRet.isOk()) { handleError(TRANSACTION_ERROR, "debugging information cannot be retrieved: " + debugRet.description()); break; // skip getPidInfo } entry->serverPid = debugInfo.pid; entry->serverObjectAddress = debugInfo.ptr; entry->arch = fromBaseArchitecture(debugInfo.arch); if (debugInfo.pid != NO_PID) { const BinderPidInfo* pidInfo = getPidInfoCached(debugInfo.pid); if (pidInfo == nullptr) { handleError(IO_ERROR, "no information for PID " + std::to_string(debugInfo.pid) + ", are you root?"); break; } if (debugInfo.ptr != NO_PTR) { auto it = pidInfo->refPids.find(debugInfo.ptr); if (it != pidInfo->refPids.end()) { entry->clientPids = it->second; } } entry->threadUsage = pidInfo->threadUsage; entry->threadCount = pidInfo->threadCount; } } while (0); // hash do { ssize_t hashIndex = -1; auto ifaceChainRet = timeoutIPC(service, &IBase::interfaceChain, [&] (const auto& c) { for (size_t i = 0; i < c.size(); ++i) { if (serviceName == c[i]) { hashIndex = static_cast(i); break; } } }); if (!ifaceChainRet.isOk()) { handleError(TRANSACTION_ERROR, "interfaceChain fails: " + ifaceChainRet.description()); break; // skip getHashChain } if (hashIndex < 0) { handleError(BAD_IMPL, "Interface name does not exist in interfaceChain."); break; // skip getHashChain } auto hashRet = timeoutIPC(service, &IBase::getHashChain, [&] (const auto& hashChain) { if (static_cast(hashIndex) >= hashChain.size()) { handleError(BAD_IMPL, "interfaceChain indicates position " + std::to_string(hashIndex) + " but getHashChain returns " + std::to_string(hashChain.size()) + " hashes"); return; } auto&& hashArray = hashChain[hashIndex]; std::vector hashVec{hashArray.data(), hashArray.data() + hashArray.size()}; entry->hash = Hash::hexString(hashVec); }); if (!hashRet.isOk()) { handleError(TRANSACTION_ERROR, "getHashChain failed: " + hashRet.description()); } } while (0); if (status == OK) { entry->serviceStatus = ServiceStatus::ALIVE; } return status; } Status ListCommand::fetchManifestHals() { if (!shouldFetchHalType(HalType::VINTF_MANIFEST)) { return OK; } Status status = OK; for (auto manifest : {getDeviceManifest(), getFrameworkManifest()}) { if (manifest == nullptr) { status |= VINTF_ERROR; continue; } std::map entries; manifest->forEachHidlInstance([&] (const vintf::ManifestInstance& manifestInstance) { TableEntry entry{ .interfaceName = manifestInstance.description(), .transport = manifestInstance.transport(), .arch = manifestInstance.arch(), // TODO(b/71555570): Device manifest does not distinguish HALs from vendor or ODM. .partition = toPartition(manifest->type()), .serviceStatus = ServiceStatus::DECLARED}; std::string key = entry.interfaceName; entries.emplace(std::move(key), std::move(entry)); return true; }); for (auto&& pair : entries) mManifestHalsTable.add(std::move(pair.second)); } return status; } Status ListCommand::fetchLazyHals() { using vintf::operator<<; if (!shouldFetchHalType(HalType::LAZY_HALS)) { return OK; } Status status = OK; for (const TableEntry& manifestEntry : mManifestHalsTable) { if (manifestEntry.transport == vintf::Transport::HWBINDER) { if (!hasHwbinderEntry(manifestEntry)) { mLazyHalsTable.add(TableEntry(manifestEntry)); } continue; } if (manifestEntry.transport == vintf::Transport::PASSTHROUGH) { if (!hasPassthroughEntry(manifestEntry)) { mLazyHalsTable.add(TableEntry(manifestEntry)); } continue; } err() << "Warning: unrecognized transport in VINTF manifest: " << manifestEntry.transport; status |= VINTF_ERROR; } return status; } bool ListCommand::hasHwbinderEntry(const TableEntry& entry) const { for (const TableEntry& existing : mServicesTable) { if (existing.interfaceName == entry.interfaceName) { return true; } } return false; } bool ListCommand::hasPassthroughEntry(const TableEntry& entry) const { FqInstance entryFqInstance; if (!entryFqInstance.setTo(entry.interfaceName)) { return false; // cannot parse, so add it anyway. } for (const TableEntry& existing : mImplementationsTable) { FqInstance existingFqInstance; if (!existingFqInstance.setTo(getPackageAndVersion(existing.interfaceName))) { continue; } // For example, manifest may say graphics.mapper@2.1 but passthroughServiceManager // can only list graphics.mapper@2.0. if (entryFqInstance.getPackage() == existingFqInstance.getPackage() && vintf::Version{entryFqInstance.getVersion()} .minorAtLeast(vintf::Version{existingFqInstance.getVersion()})) { return true; } } return false; } Status ListCommand::fetch() { Status status = OK; auto bManager = mLshal.serviceManager(); if (bManager == nullptr) { err() << "Failed to get defaultServiceManager()!" << std::endl; status |= NO_BINDERIZED_MANAGER; } else { status |= fetchBinderized(bManager); // Passthrough PIDs are registered to the binderized manager as well. status |= fetchPassthrough(bManager); } auto pManager = mLshal.passthroughManager(); if (pManager == nullptr) { err() << "Failed to get getPassthroughServiceManager()!" << std::endl; status |= NO_PASSTHROUGH_MANAGER; } else { status |= fetchAllLibraries(pManager); } status |= fetchManifestHals(); status |= fetchLazyHals(); return status; } void ListCommand::initFetchTypes() { // TODO: refactor to do polymorphism on each table (so that dependency graph is not hardcoded). static const std::map> kDependencyGraph{ {HalType::LAZY_HALS, {HalType::BINDERIZED_SERVICES, HalType::PASSTHROUGH_LIBRARIES, HalType::VINTF_MANIFEST}}, }; mFetchTypes.insert(mListTypes.begin(), mListTypes.end()); for (HalType listType : mListTypes) { auto it = kDependencyGraph.find(listType); if (it != kDependencyGraph.end()) { mFetchTypes.insert(it->second.begin(), it->second.end()); } } } // Get all values of enum type T, assuming the first value is 0 and the last value is T::LAST. // T::LAST is not included in the returned list. template std::vector GetAllValues() { using BaseType = std::underlying_type_t; std::vector ret; for (BaseType i = 0; i < static_cast(T::LAST); ++i) { ret.push_back(static_cast(i)); } return ret; } void ListCommand::registerAllOptions() { int v = mOptions.size(); // A list of acceptable command line options // key: value returned by getopt_long // long options with short alternatives mOptions.push_back({'h', "help", no_argument, v++, [](ListCommand*, const char*) { return USAGE; }, ""}); mOptions.push_back({'i', "interface", no_argument, v++, [](ListCommand* thiz, const char*) { thiz->mSelectedColumns.push_back(TableColumnType::INTERFACE_NAME); return OK; }, "print the instance name column"}); mOptions.push_back({'l', "released", no_argument, v++, [](ListCommand* thiz, const char*) { thiz->mSelectedColumns.push_back(TableColumnType::RELEASED); return OK; }, "print the 'is released?' column\n(Y=released, N=unreleased, ?=unknown)"}); mOptions.push_back({'t', "transport", no_argument, v++, [](ListCommand* thiz, const char*) { thiz->mSelectedColumns.push_back(TableColumnType::TRANSPORT); return OK; }, "print the transport mode column"}); mOptions.push_back({'r', "arch", no_argument, v++, [](ListCommand* thiz, const char*) { thiz->mSelectedColumns.push_back(TableColumnType::ARCH); return OK; }, "print the bitness column"}); mOptions.push_back({'s', "hash", no_argument, v++, [](ListCommand* thiz, const char*) { thiz->mSelectedColumns.push_back(TableColumnType::HASH); return OK; }, "print hash of the interface"}); mOptions.push_back({'p', "pid", no_argument, v++, [](ListCommand* thiz, const char*) { thiz->mSelectedColumns.push_back(TableColumnType::SERVER_PID); return OK; }, "print the server PID, or server cmdline if -m is set"}); mOptions.push_back({'a', "address", no_argument, v++, [](ListCommand* thiz, const char*) { thiz->mSelectedColumns.push_back(TableColumnType::SERVER_ADDR); return OK; }, "print the server object address column"}); mOptions.push_back({'c', "clients", no_argument, v++, [](ListCommand* thiz, const char*) { thiz->mSelectedColumns.push_back(TableColumnType::CLIENT_PIDS); return OK; }, "print the client PIDs, or client cmdlines if -m is set"}); mOptions.push_back({'e', "threads", no_argument, v++, [](ListCommand* thiz, const char*) { thiz->mSelectedColumns.push_back(TableColumnType::THREADS); return OK; }, "print currently used/available threads\n(note, available threads created lazily)"}); mOptions.push_back({'m', "cmdline", no_argument, v++, [](ListCommand* thiz, const char*) { thiz->mEnableCmdlines = true; return OK; }, "print cmdline instead of PIDs"}); mOptions.push_back({'d', "debug", optional_argument, v++, [](ListCommand* thiz, const char* arg) { thiz->mEmitDebugInfo = true; if (arg) thiz->mFileOutputPath = arg; return OK; }, "Emit debug info from\nIBase::debug with empty options. Cannot be used with --neat.\n" "Writes to specified file if 'arg' is provided, otherwise stdout."}); mOptions.push_back({'V', "vintf", no_argument, v++, [](ListCommand* thiz, const char*) { thiz->mSelectedColumns.push_back(TableColumnType::VINTF); return OK; }, "print VINTF info. This column contains a comma-separated list of:\n" " - DM: if the HIDL HAL is in the device manifest\n" " - DC: if the HIDL HAL is in the device compatibility matrix\n" " - FM: if the HIDL HAL is in the framework manifest\n" " - FC: if the HIDL HAL is in the framework compatibility matrix\n" " - X: if the HIDL HAL is in none of the above lists"}); mOptions.push_back({'S', "service-status", no_argument, v++, [](ListCommand* thiz, const char*) { thiz->mSelectedColumns.push_back(TableColumnType::SERVICE_STATUS); return OK; }, "print service status column. Possible values are:\n" " - alive: alive and running hwbinder service;\n" " - registered;dead: registered to hwservicemanager but is not responsive;\n" " - declared: only declared in VINTF manifest but is not registered to hwservicemanager;\n" " - N/A: no information for passthrough HALs."}); mOptions.push_back({'A', "all", no_argument, v++, [](ListCommand* thiz, const char*) { auto allColumns = GetAllValues(); thiz->mSelectedColumns.insert(thiz->mSelectedColumns.end(), allColumns.begin(), allColumns.end()); return OK; }, "print all columns"}); // long options without short alternatives mOptions.push_back({'\0', "init-vintf", no_argument, v++, [](ListCommand* thiz, const char* arg) { thiz->mVintf = true; if (thiz->mVintfPartition == Partition::UNKNOWN) thiz->mVintfPartition = Partition::VENDOR; if (arg) thiz->mFileOutputPath = arg; return OK; }, "form a skeleton HAL manifest to specified file,\nor stdout if no file specified."}); mOptions.push_back({'\0', "init-vintf-partition", required_argument, v++, [](ListCommand* thiz, const char* arg) { if (!arg) return USAGE; thiz->mVintfPartition = android::procpartition::parsePartition(arg); if (thiz->mVintfPartition == Partition::UNKNOWN) return USAGE; return OK; }, "Specify the partition of the HAL manifest\ngenerated by --init-vintf.\n" "Valid values are 'system', 'vendor', and 'odm'. Default is 'vendor'."}); mOptions.push_back({'\0', "sort", required_argument, v++, [](ListCommand* thiz, const char* arg) { if (strcmp(arg, "interface") == 0 || strcmp(arg, "i") == 0) { thiz->mSortColumn = TableEntry::sortByInterfaceName; } else if (strcmp(arg, "pid") == 0 || strcmp(arg, "p") == 0) { thiz->mSortColumn = TableEntry::sortByServerPid; } else { thiz->err() << "Unrecognized sorting column: " << arg << std::endl; return USAGE; } return OK; }, "sort by a column. 'arg' can be (i|interface) or (p|pid)."}); mOptions.push_back({'\0', "neat", no_argument, v++, [](ListCommand* thiz, const char*) { thiz->mNeat = true; return OK; }, "output is machine parsable (no explanatory text).\nCannot be used with --debug."}); mOptions.push_back( {'\0', "types", required_argument, v++, [](ListCommand* thiz, const char* arg) { if (!arg) { return USAGE; } static const std::map> kHalTypeMap{ {"binderized", {HalType::BINDERIZED_SERVICES}}, {"b", {HalType::BINDERIZED_SERVICES}}, {"passthrough_clients", {HalType::PASSTHROUGH_CLIENTS}}, {"c", {HalType::PASSTHROUGH_CLIENTS}}, {"passthrough_libs", {HalType::PASSTHROUGH_LIBRARIES}}, {"l", {HalType::PASSTHROUGH_LIBRARIES}}, {"vintf", {HalType::VINTF_MANIFEST}}, {"v", {HalType::VINTF_MANIFEST}}, {"lazy", {HalType::LAZY_HALS}}, {"z", {HalType::LAZY_HALS}}, {"all", GetAllValues()}, {"a", GetAllValues()}, }; std::vector halTypesArgs = split(std::string(arg), ','); for (const auto& halTypeArg : halTypesArgs) { if (halTypeArg.empty()) continue; const auto& halTypeIter = kHalTypeMap.find(halTypeArg); if (halTypeIter == kHalTypeMap.end()) { thiz->err() << "Unrecognized HAL type: " << halTypeArg << std::endl; return USAGE; } // Append unique (non-repeated) HAL types to the reporting list for (auto halType : halTypeIter->second) { if (std::find(thiz->mListTypes.begin(), thiz->mListTypes.end(), halType) == thiz->mListTypes.end()) { thiz->mListTypes.push_back(halType); } } } if (thiz->mListTypes.empty()) { return USAGE; } return OK; }, "comma-separated list of one or more sections.\nThe output is restricted to the " "selected section(s). Valid options\nare: (b|binderized), (c|passthrough_clients), (l|" "passthrough_libs), (v|vintf), (z|lazy), and (a|all).\nDefault is `b,c,l`."}); } // Create 'longopts' argument to getopt_long. Caller is responsible for maintaining // the lifetime of "options" during the usage of the returned array. static std::unique_ptr getLongOptions( const ListCommand::RegisteredOptions& options, int* longOptFlag) { std::unique_ptr ret{new struct option[options.size() + 1]}; int i = 0; for (const auto& e : options) { ret[i].name = e.longOption.c_str(); ret[i].has_arg = e.hasArg; ret[i].flag = longOptFlag; ret[i].val = e.val; i++; } // getopt_long last option has all zeros ret[i].name = nullptr; ret[i].has_arg = 0; ret[i].flag = nullptr; ret[i].val = 0; return ret; } // Create 'optstring' argument to getopt_long. static std::string getShortOptions(const ListCommand::RegisteredOptions& options) { std::stringstream ss; for (const auto& e : options) { if (e.shortOption != '\0') { ss << e.shortOption; } } return ss.str(); } Status ListCommand::parseArgs(const Arg &arg) { mListTypes.clear(); if (mOptions.empty()) { registerAllOptions(); } int longOptFlag; std::unique_ptr longOptions = getLongOptions(mOptions, &longOptFlag); std::string shortOptions = getShortOptions(mOptions); // suppress output to std::err for unknown options opterr = 0; int optionIndex; int c; // Lshal::parseArgs has set optind to the next option to parse for (;;) { c = getopt_long(arg.argc, arg.argv, shortOptions.c_str(), longOptions.get(), &optionIndex); if (c == -1) { break; } const RegisteredOption* found = nullptr; if (c == 0) { // see long option for (const auto& e : mOptions) { if (longOptFlag == e.val) found = &e; } } else { // see short option for (const auto& e : mOptions) { if (c == e.shortOption) found = &e; } } if (found == nullptr) { // see unrecognized options err() << "unrecognized option `" << arg.argv[optind - 1] << "'" << std::endl; return USAGE; } Status status = found->op(this, optarg); if (status != OK) { return status; } } if (optind < arg.argc) { // see non option err() << "unrecognized option `" << arg.argv[optind] << "'" << std::endl; return USAGE; } if (mNeat && mEmitDebugInfo) { err() << "Error: --neat should not be used with --debug." << std::endl; return USAGE; } if (mSelectedColumns.empty()) { mSelectedColumns = {TableColumnType::VINTF, TableColumnType::RELEASED, TableColumnType::INTERFACE_NAME, TableColumnType::THREADS, TableColumnType::SERVER_PID, TableColumnType::CLIENT_PIDS}; } if (mEnableCmdlines) { for (size_t i = 0; i < mSelectedColumns.size(); ++i) { if (mSelectedColumns[i] == TableColumnType::SERVER_PID) { mSelectedColumns[i] = TableColumnType::SERVER_CMD; } if (mSelectedColumns[i] == TableColumnType::CLIENT_PIDS) { mSelectedColumns[i] = TableColumnType::CLIENT_CMDS; } } } // By default, list all HAL types if (mListTypes.empty()) { mListTypes = {HalType::BINDERIZED_SERVICES, HalType::PASSTHROUGH_CLIENTS, HalType::PASSTHROUGH_LIBRARIES}; } initFetchTypes(); forEachTable([this] (Table& table) { table.setSelectedColumns(this->mSelectedColumns); }); return OK; } Status ListCommand::main(const Arg &arg) { Status status = parseArgs(arg); if (status != OK) { return status; } status = fetch(); postprocess(); status |= dump(); return status; } const std::string& ListCommand::RegisteredOption::getHelpMessageForArgument() const { static const std::string empty{}; static const std::string optional{"[=]"}; static const std::string required{"="}; if (hasArg == optional_argument) { return optional; } if (hasArg == required_argument) { return required; } return empty; } void ListCommand::usage() const { err() << "list:" << std::endl << " lshal" << std::endl << " lshal list" << std::endl << " List all hals with default ordering and columns (`lshal list -Vliepc`)" << std::endl << " lshal list [-h|--help]" << std::endl << " -h, --help: Print help message for list (`lshal help list`)" << std::endl << " lshal [list] [OPTIONS...]" << std::endl; for (const auto& e : mOptions) { if (e.help.empty()) { continue; } err() << " "; if (e.shortOption != '\0') err() << "-" << e.shortOption << e.getHelpMessageForArgument(); if (e.shortOption != '\0' && !e.longOption.empty()) err() << ", "; if (!e.longOption.empty()) err() << "--" << e.longOption << e.getHelpMessageForArgument(); err() << ": "; std::vector lines = split(e.help, '\n'); for (const auto& line : lines) { if (&line != &lines.front()) err() << " "; err() << line << std::endl; } } } } // namespace lshal } // namespace android