#include "config.h" #include "item_updater.hpp" #include "images.hpp" #include "serialize.hpp" #include "version.hpp" #include "xyz/openbmc_project/Software/Version/server.hpp" #include #include #include #include #include #include #include #include #include #include namespace phosphor { namespace software { namespace updater { // When you see server:: you know we're referencing our base class namespace server = sdbusplus::xyz::openbmc_project::Software::server; namespace control = sdbusplus::xyz::openbmc_project::Control::server; using namespace phosphor::logging; using namespace sdbusplus::xyz::openbmc_project::Software::Image::Error; using namespace phosphor::software::image; namespace fs = std::experimental::filesystem; using NotAllowed = sdbusplus::xyz::openbmc_project::Common::Error::NotAllowed; void ItemUpdater::createActivation(sdbusplus::message::message& msg) { using SVersion = server::Version; using VersionPurpose = SVersion::VersionPurpose; using VersionClass = phosphor::software::manager::Version; namespace mesg = sdbusplus::message; namespace variant_ns = mesg::variant_ns; mesg::object_path objPath; auto purpose = VersionPurpose::Unknown; std::string version; std::map>> interfaces; msg.read(objPath, interfaces); std::string path(std::move(objPath)); std::string filePath; for (const auto& intf : interfaces) { if (intf.first == VERSION_IFACE) { for (const auto& property : intf.second) { if (property.first == "Purpose") { auto value = SVersion::convertVersionPurposeFromString( variant_ns::get(property.second)); if (value == VersionPurpose::BMC || value == VersionPurpose::System) { purpose = value; } } else if (property.first == "Version") { version = variant_ns::get(property.second); } } } else if (intf.first == FILEPATH_IFACE) { for (const auto& property : intf.second) { if (property.first == "Path") { filePath = variant_ns::get(property.second); } } } } if (version.empty() || filePath.empty() || purpose == VersionPurpose::Unknown) { return; } // Version id is the last item in the path auto pos = path.rfind("/"); if (pos == std::string::npos) { log("No version id found in object path", entry("OBJPATH=%s", path.c_str())); return; } auto versionId = path.substr(pos + 1); if (activations.find(versionId) == activations.end()) { // Determine the Activation state by processing the given image dir. auto activationState = server::Activation::Activations::Invalid; ItemUpdater::ActivationStatus result = ItemUpdater::validateSquashFSImage(filePath); AssociationList associations = {}; if (result == ItemUpdater::ActivationStatus::ready) { activationState = server::Activation::Activations::Ready; // Create an association to the BMC inventory item associations.emplace_back( std::make_tuple(ACTIVATION_FWD_ASSOCIATION, ACTIVATION_REV_ASSOCIATION, bmcInventoryPath)); } activations.insert(std::make_pair( versionId, std::make_unique(bus, path, *this, versionId, activationState, associations))); auto versionPtr = std::make_unique( bus, path, version, purpose, filePath, std::bind(&ItemUpdater::erase, this, std::placeholders::_1)); versionPtr->deleteObject = std::make_unique(bus, path, *versionPtr); versions.insert(std::make_pair(versionId, std::move(versionPtr))); } return; } void ItemUpdater::processBMCImage() { using VersionClass = phosphor::software::manager::Version; // Check MEDIA_DIR and create if it does not exist try { if (!fs::is_directory(MEDIA_DIR)) { fs::create_directory(MEDIA_DIR); } } catch (const fs::filesystem_error& e) { log("Failed to prepare dir", entry("ERR=%s", e.what())); return; } // Read os-release from /etc/ to get the functional BMC version auto functionalVersion = VersionClass::getBMCVersion(OS_RELEASE_FILE); // Read os-release from folders under /media/ to get // BMC Software Versions. for (const auto& iter : fs::directory_iterator(MEDIA_DIR)) { auto activationState = server::Activation::Activations::Active; static const auto BMC_RO_PREFIX_LEN = strlen(BMC_ROFS_PREFIX); // Check if the BMC_RO_PREFIXis the prefix of the iter.path if (0 == iter.path().native().compare(0, BMC_RO_PREFIX_LEN, BMC_ROFS_PREFIX)) { // The versionId is extracted from the path // for example /media/ro-2a1022fe. auto id = iter.path().native().substr(BMC_RO_PREFIX_LEN); auto osRelease = iter.path() / OS_RELEASE_FILE; if (!fs::is_regular_file(osRelease)) { log( "Failed to read osRelease", entry("FILENAME=%s", osRelease.string().c_str())); ItemUpdater::erase(id); continue; } auto version = VersionClass::getBMCVersion(osRelease); if (version.empty()) { log( "Failed to read version from osRelease", entry("FILENAME=%s", osRelease.string().c_str())); activationState = server::Activation::Activations::Invalid; } auto purpose = server::Version::VersionPurpose::BMC; auto path = fs::path(SOFTWARE_OBJPATH) / id; // Create functional association if this is the functional // version if (version.compare(functionalVersion) == 0) { createFunctionalAssociation(path); } AssociationList associations = {}; if (activationState == server::Activation::Activations::Active) { // Create an association to the BMC inventory item associations.emplace_back(std::make_tuple( ACTIVATION_FWD_ASSOCIATION, ACTIVATION_REV_ASSOCIATION, bmcInventoryPath)); // Create an active association since this image is active createActiveAssociation(path); } // Create Version instance for this version. auto versionPtr = std::make_unique( bus, path, version, purpose, "", std::bind(&ItemUpdater::erase, this, std::placeholders::_1)); auto isVersionFunctional = versionPtr->isFunctional(); if (!isVersionFunctional) { versionPtr->deleteObject = std::make_unique( bus, path, *versionPtr); } versions.insert(std::make_pair(id, std::move(versionPtr))); // Create Activation instance for this version. activations.insert(std::make_pair( id, std::make_unique( bus, path, *this, id, activationState, associations))); // If Active, create RedundancyPriority instance for this // version. if (activationState == server::Activation::Activations::Active) { uint8_t priority = std::numeric_limits::max(); if (!restoreFromFile(id, priority)) { if (isVersionFunctional) { priority = 0; } else { log("Unable to restore priority from file.", entry("VERSIONID=%s", id.c_str())); } } activations.find(id)->second->redundancyPriority = std::make_unique( bus, path, *(activations.find(id)->second), priority, false); } } } // If there is no ubi volume for bmc version then read the /etc/os-release // and create rofs- under /media if (activations.size() == 0) { auto version = VersionClass::getBMCVersion(OS_RELEASE_FILE); auto id = phosphor::software::manager::Version::getId(version); auto versionFileDir = BMC_ROFS_PREFIX + id + "/etc/"; try { if (!fs::is_directory(versionFileDir)) { fs::create_directories(versionFileDir); } auto versionFilePath = BMC_ROFS_PREFIX + id + OS_RELEASE_FILE; fs::create_directory_symlink(OS_RELEASE_FILE, versionFilePath); ItemUpdater::processBMCImage(); } catch (const std::exception& e) { log(e.what()); } } mirrorUbootToAlt(); return; } void ItemUpdater::erase(std::string entryId) { // Find entry in versions map auto it = versions.find(entryId); if (it != versions.end()) { if (it->second->isFunctional() && ACTIVE_BMC_MAX_ALLOWED > 1) { log("Error: Version is currently running on the BMC. " "Unable to remove.", entry("VERSIONID=%s", entryId.c_str())); return; } // Delete ReadOnly partitions if it's not active removeReadOnlyPartition(entryId); removeFile(entryId); // Removing entry in versions map this->versions.erase(entryId); } else { // Delete ReadOnly partitions even if we can't find the version removeReadOnlyPartition(entryId); removeFile(entryId); log("Error: Failed to find version in item updater " "versions map. Unable to remove.", entry("VERSIONID=%s", entryId.c_str())); } helper.clearEntry(entryId); // Removing entry in activations map auto ita = activations.find(entryId); if (ita == activations.end()) { log("Error: Failed to find version in item updater " "activations map. Unable to remove.", entry("VERSIONID=%s", entryId.c_str())); } else { removeAssociations(ita->second->path); this->activations.erase(entryId); } ItemUpdater::resetUbootEnvVars(); return; } void ItemUpdater::deleteAll() { std::vector deletableVersions; for (const auto& versionIt : versions) { if (!versionIt.second->isFunctional()) { deletableVersions.push_back(versionIt.first); } } for (const auto& deletableIt : deletableVersions) { ItemUpdater::erase(deletableIt); } helper.cleanup(); } ItemUpdater::ActivationStatus ItemUpdater::validateSquashFSImage(const std::string& filePath) { bool invalid = false; for (auto& bmcImage : bmcImages) { fs::path file(filePath); file /= bmcImage; std::ifstream efile(file.c_str()); if (efile.good() != 1) { log("Failed to find the BMC image.", entry("IMAGE=%s", bmcImage.c_str())); invalid = true; } } if (invalid) { return ItemUpdater::ActivationStatus::invalid; } return ItemUpdater::ActivationStatus::ready; } void ItemUpdater::savePriority(const std::string& versionId, uint8_t value) { storeToFile(versionId, value); helper.setEntry(versionId, value); } void ItemUpdater::freePriority(uint8_t value, const std::string& versionId) { std::map priorityMap; // Insert the requested version and priority, it may not exist yet. priorityMap.insert(std::make_pair(versionId, value)); for (const auto& intf : activations) { if (intf.second->redundancyPriority) { priorityMap.insert(std::make_pair( intf.first, intf.second->redundancyPriority.get()->priority())); } } // Lambda function to compare 2 priority values, use <= to allow duplicates typedef std::function, std::pair)> cmpPriority; cmpPriority cmpPriorityFunc = [](std::pair priority1, std::pair priority2) { return priority1.second <= priority2.second; }; // Sort versions by ascending priority std::set, cmpPriority> prioritySet( priorityMap.begin(), priorityMap.end(), cmpPriorityFunc); auto freePriorityValue = value; for (auto& element : prioritySet) { if (element.first == versionId) { continue; } if (element.second == freePriorityValue) { ++freePriorityValue; auto it = activations.find(element.first); it->second->redundancyPriority.get()->sdbusPriority( freePriorityValue); } } auto lowestVersion = prioritySet.begin()->first; if (value == prioritySet.begin()->second) { lowestVersion = versionId; } updateUbootEnvVars(lowestVersion); } void ItemUpdater::reset() { helper.factoryReset(); log("BMC factory reset will take effect upon reboot."); } void ItemUpdater::removeReadOnlyPartition(std::string versionId) { helper.removeVersion(versionId); } bool ItemUpdater::fieldModeEnabled(bool value) { // enabling field mode is intended to be one way: false -> true if (value && !control::FieldMode::fieldModeEnabled()) { control::FieldMode::fieldModeEnabled(value); helper.enableFieldMode(); } else if (!value && control::FieldMode::fieldModeEnabled()) { elog(xyz::openbmc_project::Common::NotAllowed::REASON( "FieldMode is not allowed to be cleared")); } return control::FieldMode::fieldModeEnabled(); } void ItemUpdater::restoreFieldModeStatus() { std::ifstream input("/dev/mtd/u-boot-env"); std::string envVar; std::getline(input, envVar); if (envVar.find("fieldmode=true") != std::string::npos) { ItemUpdater::fieldModeEnabled(true); } } void ItemUpdater::setBMCInventoryPath() { auto depth = 0; auto mapperCall = bus.new_method_call(MAPPER_BUSNAME, MAPPER_PATH, MAPPER_INTERFACE, "GetSubTreePaths"); mapperCall.append(INVENTORY_PATH); mapperCall.append(depth); std::vector filter = {BMC_INVENTORY_INTERFACE}; mapperCall.append(filter); try { auto response = bus.call(mapperCall); using ObjectPaths = std::vector; ObjectPaths result; response.read(result); if (!result.empty()) { bmcInventoryPath = result.front(); } } catch (const sdbusplus::exception::SdBusError& e) { log("Error in mapper GetSubTreePath"); return; } return; } void ItemUpdater::createActiveAssociation(const std::string& path) { assocs.emplace_back( std::make_tuple(ACTIVE_FWD_ASSOCIATION, ACTIVE_REV_ASSOCIATION, path)); associations(assocs); } void ItemUpdater::createFunctionalAssociation(const std::string& path) { assocs.emplace_back(std::make_tuple(FUNCTIONAL_FWD_ASSOCIATION, FUNCTIONAL_REV_ASSOCIATION, path)); associations(assocs); } void ItemUpdater::removeAssociations(const std::string& path) { for (auto iter = assocs.begin(); iter != assocs.end();) { if ((std::get<2>(*iter)).compare(path) == 0) { iter = assocs.erase(iter); associations(assocs); } else { ++iter; } } } bool ItemUpdater::isLowestPriority(uint8_t value) { for (const auto& intf : activations) { if (intf.second->redundancyPriority) { if (intf.second->redundancyPriority.get()->priority() < value) { return false; } } } return true; } void ItemUpdater::updateUbootEnvVars(const std::string& versionId) { helper.updateUbootVersionId(versionId); } void ItemUpdater::resetUbootEnvVars() { decltype(activations.begin()->second->redundancyPriority.get()->priority()) lowestPriority = std::numeric_limits::max(); decltype(activations.begin()->second->versionId) lowestPriorityVersion; for (const auto& intf : activations) { if (!intf.second->redundancyPriority.get()) { // Skip this version if the redundancyPriority is not initialized. continue; } if (intf.second->redundancyPriority.get()->priority() <= lowestPriority) { lowestPriority = intf.second->redundancyPriority.get()->priority(); lowestPriorityVersion = intf.second->versionId; } } // Update the U-boot environment variable to point to the lowest priority updateUbootEnvVars(lowestPriorityVersion); } void ItemUpdater::freeSpace(Activation& caller) { // Versions with the highest priority in front std::priority_queue, std::vector>, std::less>> versionsPQ; std::size_t count = 0; for (const auto& iter : activations) { if ((iter.second.get()->activation() == server::Activation::Activations::Active) || (iter.second.get()->activation() == server::Activation::Activations::Failed)) { count++; // Don't put the functional version on the queue since we can't // remove the "running" BMC version. // If ACTIVE_BMC_MAX_ALLOWED <= 1, there is only one active BMC, // so remove functional version as well. // Don't delete the the Activation object that called this function. if ((versions.find(iter.second->versionId) ->second->isFunctional() && ACTIVE_BMC_MAX_ALLOWED > 1) || (iter.second->versionId == caller.versionId)) { continue; } // Failed activations don't have priority, assign them a large value // for sorting purposes. auto priority = 999; if (iter.second.get()->activation() == server::Activation::Activations::Active) { priority = iter.second->redundancyPriority.get()->priority(); } versionsPQ.push(std::make_pair(priority, iter.second->versionId)); } } // If the number of BMC versions is over ACTIVE_BMC_MAX_ALLOWED -1, // remove the highest priority one(s). while ((count >= ACTIVE_BMC_MAX_ALLOWED) && (!versionsPQ.empty())) { erase(versionsPQ.top().second); versionsPQ.pop(); count--; } } void ItemUpdater::mirrorUbootToAlt() { helper.mirrorAlt(); } } // namespace updater } // namespace software } // namespace phosphor