1 /** 2 * Copyright © 2022 IBM Corporation 3 * 4 * Licensed under the Apache License, Version 2.0 (the "License"); 5 * you may not use this file except in compliance with the License. 6 * You may obtain a copy of the License at 7 * 8 * http://www.apache.org/licenses/LICENSE-2.0 9 * 10 * Unless required by applicable law or agreed to in writing, software 11 * distributed under the License is distributed on an "AS IS" BASIS, 12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 13 * See the License for the specific language governing permissions and 14 * limitations under the License. 15 */ 16 #include "config.h" 17 18 #include "manager.hpp" 19 20 #include "action.hpp" 21 #include "dbus_paths.hpp" 22 #include "event.hpp" 23 #include "fan.hpp" 24 #include "group.hpp" 25 #include "json_config.hpp" 26 #include "power_state.hpp" 27 #include "profile.hpp" 28 #include "sdbusplus.hpp" 29 #include "utils/flight_recorder.hpp" 30 #include "zone.hpp" 31 32 #include <systemd/sd-bus.h> 33 34 #include <nlohmann/json.hpp> 35 #include <sdbusplus/bus.hpp> 36 #include <sdbusplus/server/manager.hpp> 37 #include <sdeventplus/event.hpp> 38 #include <sdeventplus/utility/timer.hpp> 39 40 #include <algorithm> 41 #include <chrono> 42 #include <filesystem> 43 #include <functional> 44 #include <map> 45 #include <memory> 46 #include <tuple> 47 #include <utility> 48 #include <vector> 49 50 namespace phosphor::fan::control::json 51 { 52 53 using json = nlohmann::json; 54 55 std::vector<std::string> Manager::_activeProfiles; 56 std::map<std::string, 57 std::map<std::string, std::pair<bool, std::vector<std::string>>>> 58 Manager::_servTree; 59 std::map<std::string, 60 std::map<std::string, std::map<std::string, PropertyVariantType>>> 61 Manager::_objects; 62 std::unordered_map<std::string, PropertyVariantType> Manager::_parameters; 63 std::unordered_map<std::string, TriggerActions> Manager::_parameterTriggers; 64 65 const std::string Manager::dumpFile = "/tmp/fan_control_dump.json"; 66 67 Manager::Manager(const sdeventplus::Event& event) : 68 _bus(util::SDBusPlus::getBus()), _event(event), 69 _mgr(util::SDBusPlus::getBus(), CONTROL_OBJPATH), _loadAllowed(true), 70 _powerState(std::make_unique<PGoodState>( 71 util::SDBusPlus::getBus(), 72 std::bind(std::mem_fn(&Manager::powerStateChanged), this, 73 std::placeholders::_1))) 74 {} 75 76 void Manager::sighupHandler(sdeventplus::source::Signal&, 77 const struct signalfd_siginfo*) 78 { 79 FlightRecorder::instance().log("main", "SIGHUP received"); 80 // Save current set of available and active profiles 81 std::map<configKey, std::unique_ptr<Profile>> profiles; 82 profiles.swap(_profiles); 83 std::vector<std::string> activeProfiles; 84 activeProfiles.swap(_activeProfiles); 85 86 try 87 { 88 _loadAllowed = true; 89 load(); 90 } 91 catch (const std::runtime_error& re) 92 { 93 // Restore saved available and active profiles 94 _loadAllowed = false; 95 _profiles.swap(profiles); 96 _activeProfiles.swap(activeProfiles); 97 log<level::ERR>("Error reloading configs, no changes made", 98 entry("LOAD_ERROR=%s", re.what())); 99 FlightRecorder::instance().log( 100 "main", fmt::format("Error reloading configs, no changes made: {}", 101 re.what())); 102 } 103 } 104 105 void Manager::dumpDebugData(sdeventplus::source::Signal&, 106 const struct signalfd_siginfo*) 107 { 108 json data; 109 FlightRecorder::instance().dump(data); 110 dumpCache(data); 111 112 std::for_each(_zones.begin(), _zones.end(), [&data](const auto& zone) { 113 data["zones"][zone.second->getName()] = zone.second->dump(); 114 }); 115 116 std::ofstream file{Manager::dumpFile}; 117 if (!file) 118 { 119 log<level::ERR>("Could not open file for fan dump"); 120 return; 121 } 122 123 file << std::setw(4) << data; 124 } 125 126 void Manager::dumpCache(json& data) 127 { 128 auto& objects = data["objects"]; 129 for (const auto& [path, interfaces] : _objects) 130 { 131 auto& interfaceJSON = objects[path]; 132 133 for (const auto& [interface, properties] : interfaces) 134 { 135 auto& propertyJSON = interfaceJSON[interface]; 136 for (const auto& [propName, propValue] : properties) 137 { 138 std::visit( 139 [&obj = propertyJSON[propName]](auto&& val) { obj = val; }, 140 propValue); 141 } 142 } 143 } 144 145 auto& parameters = data["parameters"]; 146 for (const auto& [name, value] : _parameters) 147 { 148 std::visit([&obj = parameters[name]](auto&& val) { obj = val; }, value); 149 } 150 151 std::for_each(_events.begin(), _events.end(), [&data](const auto& event) { 152 data["events"][event.second->getName()] = event.second->dump(); 153 }); 154 155 data["services"] = _servTree; 156 } 157 158 void Manager::load() 159 { 160 if (_loadAllowed) 161 { 162 // Load the available profiles and which are active 163 setProfiles(); 164 165 // Load the zone configurations 166 auto zones = getConfig<Zone>(false, _event, this); 167 // Load the fan configurations and move each fan into its zone 168 auto fans = getConfig<Fan>(false); 169 for (auto& fan : fans) 170 { 171 configKey fanProfile = std::make_pair(fan.second->getZone(), 172 fan.first.second); 173 auto itZone = std::find_if(zones.begin(), zones.end(), 174 [&fanProfile](const auto& zone) { 175 return Manager::inConfig(fanProfile, zone.first); 176 }); 177 if (itZone != zones.end()) 178 { 179 if (itZone->second->getTarget() != fan.second->getTarget() && 180 fan.second->getTarget() != 0) 181 { 182 // Update zone target to current target of the fan in the 183 // zone 184 itZone->second->setTarget(fan.second->getTarget()); 185 } 186 itZone->second->addFan(std::move(fan.second)); 187 } 188 } 189 190 // Save all currently available groups, if any, then clear for reloading 191 auto groups = std::move(Event::getAllGroups(false)); 192 Event::clearAllGroups(); 193 194 std::map<configKey, std::unique_ptr<Event>> events; 195 try 196 { 197 // Load any events configured, including all the groups 198 events = getConfig<Event>(true, this, zones); 199 } 200 catch (const std::runtime_error& re) 201 { 202 // Restore saved set of all available groups for current events 203 Event::setAllGroups(std::move(groups)); 204 throw re; 205 } 206 207 // Enable zones 208 _zones = std::move(zones); 209 std::for_each(_zones.begin(), _zones.end(), 210 [](const auto& entry) { entry.second->enable(); }); 211 212 // Clear current timers and signal subscriptions before enabling events 213 // To save reloading services and/or objects into cache, do not clear 214 // cache 215 _timers.clear(); 216 _signals.clear(); 217 218 // Enable events 219 _events = std::move(events); 220 FlightRecorder::instance().log("main", "Enabling events"); 221 std::for_each(_events.begin(), _events.end(), 222 [](const auto& entry) { entry.second->enable(); }); 223 FlightRecorder::instance().log("main", "Done enabling events"); 224 225 _loadAllowed = false; 226 } 227 } 228 229 void Manager::powerStateChanged(bool powerStateOn) 230 { 231 if (powerStateOn) 232 { 233 if (_zones.empty()) 234 { 235 throw std::runtime_error("No configured zones found at poweron"); 236 } 237 std::for_each(_zones.begin(), _zones.end(), [](const auto& entry) { 238 entry.second->setTarget(entry.second->getPoweronTarget()); 239 }); 240 241 // Tell events to run their power on triggers 242 std::for_each(_events.begin(), _events.end(), 243 [](const auto& entry) { entry.second->powerOn(); }); 244 } 245 else 246 { 247 // Tell events to run their power off triggers 248 std::for_each(_events.begin(), _events.end(), 249 [](const auto& entry) { entry.second->powerOff(); }); 250 } 251 } 252 253 const std::vector<std::string>& Manager::getActiveProfiles() 254 { 255 return _activeProfiles; 256 } 257 258 bool Manager::inConfig(const configKey& input, const configKey& comp) 259 { 260 // Config names dont match, do not include in config 261 if (input.first != comp.first) 262 { 263 return false; 264 } 265 // No profiles specified by input config, can be used in any config 266 if (input.second.empty()) 267 { 268 return true; 269 } 270 else 271 { 272 // Profiles must have one match in the other's profiles(and they must be 273 // an active profile) to be used in the config 274 return std::any_of(input.second.begin(), input.second.end(), 275 [&comp](const auto& lProfile) { 276 return std::any_of(comp.second.begin(), comp.second.end(), 277 [&lProfile](const auto& rProfile) { 278 if (lProfile != rProfile) 279 { 280 return false; 281 } 282 auto activeProfs = getActiveProfiles(); 283 return std::find(activeProfs.begin(), activeProfs.end(), 284 lProfile) != activeProfs.end(); 285 }); 286 }); 287 } 288 } 289 290 bool Manager::hasOwner(const std::string& path, const std::string& intf) 291 { 292 auto itServ = _servTree.find(path); 293 if (itServ == _servTree.end()) 294 { 295 // Path not found in cache, therefore owner missing 296 return false; 297 } 298 for (const auto& service : itServ->second) 299 { 300 auto itIntf = std::find_if( 301 service.second.second.begin(), service.second.second.end(), 302 [&intf](const auto& interface) { return intf == interface; }); 303 if (itIntf != std::end(service.second.second)) 304 { 305 // Service found, return owner state 306 return service.second.first; 307 } 308 } 309 // Interface not found in cache, therefore owner missing 310 return false; 311 } 312 313 void Manager::setOwner(const std::string& serv, bool hasOwner) 314 { 315 // Update owner state on all entries of `serv` 316 for (auto& itPath : _servTree) 317 { 318 auto itServ = itPath.second.find(serv); 319 if (itServ != itPath.second.end()) 320 { 321 itServ->second.first = hasOwner; 322 323 // Remove associated interfaces from object cache when service no 324 // longer has an owner 325 if (!hasOwner && _objects.find(itPath.first) != _objects.end()) 326 { 327 for (auto& intf : itServ->second.second) 328 { 329 _objects[itPath.first].erase(intf); 330 } 331 } 332 } 333 } 334 } 335 336 void Manager::setOwner(const std::string& path, const std::string& serv, 337 const std::string& intf, bool isOwned) 338 { 339 // Set owner state for specific object given 340 auto& ownIntf = _servTree[path][serv]; 341 ownIntf.first = isOwned; 342 auto itIntf = std::find_if(ownIntf.second.begin(), ownIntf.second.end(), 343 [&intf](const auto& interface) { 344 return intf == interface; 345 }); 346 if (itIntf == std::end(ownIntf.second)) 347 { 348 ownIntf.second.emplace_back(intf); 349 } 350 351 // Update owner state on all entries of the same `serv` & `intf` 352 for (auto& itPath : _servTree) 353 { 354 if (itPath.first == path) 355 { 356 // Already set/updated owner on this path for `serv` & `intf` 357 continue; 358 } 359 for (auto& itServ : itPath.second) 360 { 361 if (itServ.first != serv) 362 { 363 continue; 364 } 365 auto itIntf = std::find_if( 366 itServ.second.second.begin(), itServ.second.second.end(), 367 [&intf](const auto& interface) { return intf == interface; }); 368 if (itIntf != std::end(itServ.second.second)) 369 { 370 itServ.second.first = isOwned; 371 } 372 } 373 } 374 } 375 376 const std::string& Manager::findService(const std::string& path, 377 const std::string& intf) 378 { 379 static const std::string empty = ""; 380 381 auto itServ = _servTree.find(path); 382 if (itServ != _servTree.end()) 383 { 384 for (const auto& service : itServ->second) 385 { 386 auto itIntf = std::find_if( 387 service.second.second.begin(), service.second.second.end(), 388 [&intf](const auto& interface) { return intf == interface; }); 389 if (itIntf != std::end(service.second.second)) 390 { 391 // Service found, return service name 392 return service.first; 393 } 394 } 395 } 396 397 return empty; 398 } 399 400 void Manager::addServices(const std::string& intf, int32_t depth) 401 { 402 // Get all subtree objects for the given interface 403 auto objects = util::SDBusPlus::getSubTreeRaw(util::SDBusPlus::getBus(), 404 "/", intf, depth); 405 // Add what's returned to the cache of path->services 406 for (auto& itPath : objects) 407 { 408 auto pathIter = _servTree.find(itPath.first); 409 if (pathIter != _servTree.end()) 410 { 411 // Path found in cache 412 for (auto& itServ : itPath.second) 413 { 414 auto servIter = pathIter->second.find(itServ.first); 415 if (servIter != pathIter->second.end()) 416 { 417 if (std::find(servIter->second.second.begin(), 418 servIter->second.second.end(), 419 intf) == servIter->second.second.end()) 420 { 421 // Add interface to cache 422 servIter->second.second.emplace_back(intf); 423 } 424 } 425 else 426 { 427 // Service not found in cache 428 auto intfs = {intf}; 429 pathIter->second[itServ.first] = std::make_pair(true, 430 intfs); 431 } 432 } 433 } 434 else 435 { 436 // Path not found in cache 437 auto intfs = {intf}; 438 for (const auto& [servName, servIntfs] : itPath.second) 439 { 440 _servTree[itPath.first][servName] = std::make_pair(true, intfs); 441 } 442 } 443 } 444 } 445 446 const std::string& Manager::getService(const std::string& path, 447 const std::string& intf) 448 { 449 // Retrieve service from cache 450 const auto& serviceName = findService(path, intf); 451 if (serviceName.empty()) 452 { 453 addServices(intf, 0); 454 return findService(path, intf); 455 } 456 457 return serviceName; 458 } 459 460 std::vector<std::string> Manager::findPaths(const std::string& serv, 461 const std::string& intf) 462 { 463 std::vector<std::string> paths; 464 465 for (const auto& path : _servTree) 466 { 467 auto itServ = path.second.find(serv); 468 if (itServ != path.second.end()) 469 { 470 if (std::find(itServ->second.second.begin(), 471 itServ->second.second.end(), 472 intf) != itServ->second.second.end()) 473 { 474 if (std::find(paths.begin(), paths.end(), path.first) == 475 paths.end()) 476 { 477 paths.push_back(path.first); 478 } 479 } 480 } 481 } 482 483 return paths; 484 } 485 486 std::vector<std::string> Manager::getPaths(const std::string& serv, 487 const std::string& intf) 488 { 489 auto paths = findPaths(serv, intf); 490 if (paths.empty()) 491 { 492 addServices(intf, 0); 493 return findPaths(serv, intf); 494 } 495 496 return paths; 497 } 498 499 void Manager::insertFilteredObjects(ManagedObjects& ref) 500 { 501 // Filter out objects that aren't part of a group 502 const auto& allGroupMembers = Group::getAllMembers(); 503 auto it = ref.begin(); 504 505 while (it != ref.end()) 506 { 507 if (allGroupMembers.find(it->first) == allGroupMembers.end()) 508 { 509 it = ref.erase(it); 510 } 511 else 512 { 513 it++; 514 } 515 } 516 517 for (auto& [path, pathMap] : ref) 518 { 519 for (auto& [intf, intfMap] : pathMap) 520 { 521 // for each property on this path+interface 522 for (auto& [prop, value] : intfMap) 523 { 524 setProperty(path, intf, prop, value); 525 } 526 } 527 } 528 } 529 530 void Manager::addObjects(const std::string& path, const std::string& intf, 531 const std::string& prop, 532 const std::string& serviceName) 533 { 534 auto service = serviceName; 535 if (service.empty()) 536 { 537 service = getService(path, intf); 538 if (service.empty()) 539 { 540 // Log service not found for object 541 log<level::DEBUG>( 542 fmt::format( 543 "Unable to get service name for path {}, interface {}", 544 path, intf) 545 .c_str()); 546 return; 547 } 548 } 549 else 550 { 551 // The service is known, so the service cache can be 552 // populated even if the path itself isn't present. 553 const auto& s = findService(path, intf); 554 if (s.empty()) 555 { 556 addServices(intf, 0); 557 } 558 } 559 560 auto objMgrPaths = getPaths(service, "org.freedesktop.DBus.ObjectManager"); 561 if (objMgrPaths.empty()) 562 { 563 // No object manager interface provided by service? 564 // Attempt to retrieve property directly 565 try 566 { 567 auto value = 568 util::SDBusPlus::getPropertyVariant<PropertyVariantType>( 569 _bus, service, path, intf, prop); 570 571 setProperty(path, intf, prop, value); 572 } 573 catch (const std::exception& e) 574 {} 575 return; 576 } 577 578 for (const auto& objMgrPath : objMgrPaths) 579 { 580 // Get all managed objects of service 581 auto objects = util::SDBusPlus::getManagedObjects<PropertyVariantType>( 582 _bus, service, objMgrPath); 583 584 // insert all objects that are in groups but remove any NaN values 585 insertFilteredObjects(objects); 586 } 587 } 588 589 const std::optional<PropertyVariantType> 590 Manager::getProperty(const std::string& path, const std::string& intf, 591 const std::string& prop) 592 { 593 // TODO Objects hosted by fan control (i.e. ThermalMode) are required to 594 // update the cache upon being set/updated 595 auto itPath = _objects.find(path); 596 if (itPath != _objects.end()) 597 { 598 auto itIntf = itPath->second.find(intf); 599 if (itIntf != itPath->second.end()) 600 { 601 auto itProp = itIntf->second.find(prop); 602 if (itProp != itIntf->second.end()) 603 { 604 return itProp->second; 605 } 606 } 607 } 608 609 return std::nullopt; 610 } 611 612 void Manager::setProperty(const std::string& path, const std::string& intf, 613 const std::string& prop, PropertyVariantType value) 614 { 615 // filter NaNs out of the cache 616 if (PropertyContainsNan(value)) 617 { 618 // dont use operator [] if paths dont exist 619 if (_objects.find(path) != _objects.end() && 620 _objects[path].find(intf) != _objects[path].end()) 621 { 622 _objects[path][intf].erase(prop); 623 } 624 } 625 else 626 { 627 _objects[path][intf][prop] = std::move(value); 628 } 629 } 630 631 void Manager::addTimer(const TimerType type, 632 const std::chrono::microseconds interval, 633 std::unique_ptr<TimerPkg> pkg) 634 { 635 auto dataPtr = 636 std::make_unique<TimerData>(std::make_pair(type, std::move(*pkg))); 637 Timer timer(_event, 638 std::bind(&Manager::timerExpired, this, std::ref(*dataPtr))); 639 if (type == TimerType::repeating) 640 { 641 timer.restart(interval); 642 } 643 else if (type == TimerType::oneshot) 644 { 645 timer.restartOnce(interval); 646 } 647 else 648 { 649 throw std::invalid_argument("Invalid Timer Type"); 650 } 651 _timers.emplace_back(std::move(dataPtr), std::move(timer)); 652 } 653 654 void Manager::addGroups(const std::vector<Group>& groups) 655 { 656 std::string lastServ; 657 std::vector<std::string> objMgrPaths; 658 std::set<std::string> services; 659 for (const auto& group : groups) 660 { 661 for (const auto& member : group.getMembers()) 662 { 663 try 664 { 665 auto service = group.getService(); 666 if (service.empty()) 667 { 668 service = getService(member, group.getInterface()); 669 } 670 671 if (!service.empty()) 672 { 673 if (lastServ != service) 674 { 675 objMgrPaths = getPaths( 676 service, "org.freedesktop.DBus.ObjectManager"); 677 lastServ = service; 678 } 679 680 // Look for the ObjectManager as an ancestor from the 681 // member. 682 auto hasObjMgr = std::any_of(objMgrPaths.begin(), 683 objMgrPaths.end(), 684 [&member](const auto& path) { 685 return member.find(path) != std::string::npos; 686 }); 687 688 if (!hasObjMgr) 689 { 690 // No object manager interface provided for group member 691 // Attempt to retrieve group member property directly 692 try 693 { 694 auto value = util::SDBusPlus::getPropertyVariant< 695 PropertyVariantType>(_bus, service, member, 696 group.getInterface(), 697 group.getProperty()); 698 setProperty(member, group.getInterface(), 699 group.getProperty(), value); 700 } 701 catch (const std::exception& e) 702 {} 703 continue; 704 } 705 706 if (services.find(service) == services.end()) 707 { 708 services.insert(service); 709 for (const auto& objMgrPath : objMgrPaths) 710 { 711 // Get all managed objects from the service 712 auto objects = util::SDBusPlus::getManagedObjects< 713 PropertyVariantType>(_bus, service, objMgrPath); 714 715 // Insert objects into cache 716 insertFilteredObjects(objects); 717 } 718 } 719 } 720 } 721 catch (const util::DBusError&) 722 { 723 // No service or property found for group member with the 724 // group's configured interface 725 continue; 726 } 727 } 728 } 729 } 730 731 void Manager::timerExpired(TimerData& data) 732 { 733 if (std::get<bool>(data.second)) 734 { 735 addGroups(std::get<const std::vector<Group>&>(data.second)); 736 } 737 738 auto& actions = 739 std::get<std::vector<std::unique_ptr<ActionBase>>&>(data.second); 740 // Perform the actions in the timer data 741 std::for_each(actions.begin(), actions.end(), 742 [](auto& action) { action->run(); }); 743 744 // Remove oneshot timers after they expired 745 if (data.first == TimerType::oneshot) 746 { 747 auto itTimer = std::find_if(_timers.begin(), _timers.end(), 748 [&data](const auto& timer) { 749 return (data.first == timer.first->first && 750 (std::get<std::string>(data.second) == 751 std::get<std::string>(timer.first->second))); 752 }); 753 if (itTimer != std::end(_timers)) 754 { 755 _timers.erase(itTimer); 756 } 757 } 758 } 759 760 void Manager::handleSignal(sdbusplus::message_t& msg, 761 const std::vector<SignalPkg>* pkgs) 762 { 763 for (auto& pkg : *pkgs) 764 { 765 // Handle the signal callback and only run the actions if the handler 766 // updated the cache for the given SignalObject 767 if (std::get<SignalHandler>(pkg)(msg, std::get<SignalObject>(pkg), 768 *this)) 769 { 770 // Perform the actions in the handler package 771 auto& actions = std::get<TriggerActions>(pkg); 772 std::for_each(actions.begin(), actions.end(), [](auto& action) { 773 if (action.get()) 774 { 775 action.get()->run(); 776 } 777 }); 778 } 779 // Only rewind message when not last package 780 if (&pkg != &pkgs->back()) 781 { 782 sd_bus_message_rewind(msg.get(), true); 783 } 784 } 785 } 786 787 void Manager::setProfiles() 788 { 789 // Profiles JSON config file is optional 790 auto confFile = fan::JsonConfig::getConfFile(confAppName, 791 Profile::confFileName, true); 792 793 _profiles.clear(); 794 if (!confFile.empty()) 795 { 796 for (const auto& entry : fan::JsonConfig::load(confFile)) 797 { 798 auto obj = std::make_unique<Profile>(entry); 799 _profiles.emplace( 800 std::make_pair(obj->getName(), obj->getProfiles()), 801 std::move(obj)); 802 } 803 } 804 805 // Ensure all configurations use the same set of active profiles 806 // (In case a profile's active state changes during configuration) 807 _activeProfiles.clear(); 808 for (const auto& profile : _profiles) 809 { 810 if (profile.second->isActive()) 811 { 812 _activeProfiles.emplace_back(profile.first.first); 813 } 814 } 815 } 816 817 void Manager::addParameterTrigger( 818 const std::string& name, std::vector<std::unique_ptr<ActionBase>>& actions) 819 { 820 auto it = _parameterTriggers.find(name); 821 if (it != _parameterTriggers.end()) 822 { 823 std::for_each(actions.begin(), actions.end(), 824 [&actList = it->second](auto& action) { 825 actList.emplace_back(std::ref(action)); 826 }); 827 } 828 else 829 { 830 TriggerActions triggerActions; 831 std::for_each(actions.begin(), actions.end(), 832 [&triggerActions](auto& action) { 833 triggerActions.emplace_back(std::ref(action)); 834 }); 835 _parameterTriggers[name] = std::move(triggerActions); 836 } 837 } 838 839 void Manager::runParameterActions(const std::string& name) 840 { 841 auto it = _parameterTriggers.find(name); 842 if (it != _parameterTriggers.end()) 843 { 844 std::for_each(it->second.begin(), it->second.end(), 845 [](auto& action) { action.get()->run(); }); 846 } 847 } 848 849 } // namespace phosphor::fan::control::json 850