1 /** 2 * Copyright © 2016 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 "manager.hpp" 17 18 #include "errors.hpp" 19 20 #include <algorithm> 21 #include <chrono> 22 #include <exception> 23 #include <filesystem> 24 #include <iostream> 25 26 using namespace std::literals::chrono_literals; 27 28 namespace phosphor 29 { 30 namespace inventory 31 { 32 namespace manager 33 { 34 /** @brief Fowrarding signal callback. 35 * 36 * Extracts per-signal specific context and forwards the call to the manager 37 * instance. 38 */ 39 auto _signal(sd_bus_message* m, void* data, sd_bus_error* /* e */) noexcept 40 { 41 try 42 { 43 auto msg = sdbusplus::message_t(m); 44 auto& args = *static_cast<Manager::SigArg*>(data); 45 sd_bus_message_ref(m); 46 auto& mgr = *std::get<0>(args); 47 mgr.handleEvent(msg, static_cast<const DbusSignal&>(*std::get<1>(args)), 48 *std::get<2>(args)); 49 } 50 catch (const std::exception& e) 51 { 52 std::cerr << e.what() << std::endl; 53 } 54 55 return 0; 56 } 57 58 Manager::Manager(sdbusplus::bus_t&& bus, const char* root) : 59 ServerObject<ManagerIface>(bus, root), _root(root), _bus(std::move(bus)), 60 _manager(_bus, root), 61 #ifdef CREATE_ASSOCIATIONS 62 _associations(_bus), 63 #endif 64 _status(ManagerStatus::STARTING) 65 { 66 for (auto& group : _events) 67 { 68 for (auto pEvent : std::get<std::vector<EventBasePtr>>(group)) 69 { 70 if (pEvent->type != Event::Type::DBUS_SIGNAL) 71 { 72 continue; 73 } 74 75 // Create a callback context for this event group. 76 auto dbusEvent = static_cast<DbusSignal*>(pEvent.get()); 77 78 // Go ahead and store an iterator pointing at 79 // the event data to avoid lookups later since 80 // additional signal callbacks aren't added 81 // after the manager is constructed. 82 _sigargs.emplace_back( 83 std::make_unique<SigArg>(this, dbusEvent, &group)); 84 85 // Register our callback and the context for 86 // each signal event. 87 _matches.emplace_back(_bus, dbusEvent->signature, _signal, 88 _sigargs.back().get()); 89 } 90 } 91 92 // Restore any persistent inventory 93 restore(); 94 } 95 96 void Manager::shutdown() noexcept 97 { 98 _status = ManagerStatus::STOPPING; 99 } 100 101 void Manager::run(const char* busname) 102 { 103 sdbusplus::message_t unusedMsg{nullptr}; 104 105 // Run startup events. 106 for (auto& group : _events) 107 { 108 for (auto pEvent : std::get<std::vector<EventBasePtr>>(group)) 109 { 110 if (pEvent->type == Event::Type::STARTUP) 111 { 112 handleEvent(unusedMsg, *pEvent, group); 113 } 114 } 115 } 116 117 _status = ManagerStatus::RUNNING; 118 _bus.request_name(busname); 119 120 while (_status != ManagerStatus::STOPPING) 121 { 122 try 123 { 124 _bus.process_discard(); 125 _bus.wait((5000000us).count()); 126 } 127 catch (const std::exception& e) 128 { 129 std::cerr << e.what() << std::endl; 130 } 131 } 132 } 133 134 void Manager::updateInterfaces( 135 const sdbusplus::message::object_path& path, const Object& interfaces, 136 ObjectReferences::iterator pos, bool newObject, bool restoreFromCache) 137 { 138 auto& refaces = pos->second; 139 auto ifaceit = interfaces.cbegin(); 140 auto opsit = _makers.cbegin(); 141 auto refaceit = refaces.begin(); 142 std::vector<std::string> signals; 143 144 while (ifaceit != interfaces.cend()) 145 { 146 try 147 { 148 // Find the binding ops for this interface. 149 opsit = std::lower_bound(opsit, _makers.cend(), ifaceit->first, 150 compareFirst(_makers.key_comp())); 151 152 if (opsit == _makers.cend() || opsit->first != ifaceit->first) 153 { 154 // This interface is not supported. 155 throw InterfaceError("Encountered unsupported interface.", 156 ifaceit->first); 157 } 158 159 // Find the binding insertion point or the binding to update. 160 refaceit = std::lower_bound(refaceit, refaces.end(), ifaceit->first, 161 compareFirst(refaces.key_comp())); 162 163 if (refaceit == refaces.end() || refaceit->first != ifaceit->first) 164 { 165 // Add the new interface. 166 auto& ctor = std::get<MakeInterfaceType>(opsit->second); 167 // skipSignal = true here to avoid getting PropertiesChanged 168 // signals while the interface is constructed. We'll emit an 169 // ObjectManager signal for this interface below. 170 refaceit = refaces.insert( 171 refaceit, std::make_pair(ifaceit->first, 172 ctor(_bus, path.str.c_str(), 173 ifaceit->second, true))); 174 signals.push_back(ifaceit->first); 175 } 176 else 177 { 178 // Set the new property values. 179 auto& assign = std::get<AssignInterfaceType>(opsit->second); 180 assign(ifaceit->second, refaceit->second, 181 _status != ManagerStatus::RUNNING); 182 } 183 if (!restoreFromCache) 184 { 185 auto& serialize = 186 std::get<SerializeInterfaceType<SerialOps>>(opsit->second); 187 serialize(path, ifaceit->first, refaceit->second); 188 } 189 else 190 { 191 auto& deserialize = 192 std::get<DeserializeInterfaceType<SerialOps>>( 193 opsit->second); 194 deserialize(path, ifaceit->first, refaceit->second); 195 } 196 } 197 catch (const InterfaceError& e) 198 { 199 // Reset the binding ops iterator since we are 200 // at the end. 201 opsit = _makers.cbegin(); 202 e.log(); 203 } 204 205 ++ifaceit; 206 } 207 208 if (_status == ManagerStatus::RUNNING) 209 { 210 if (newObject) 211 { 212 _bus.emit_object_added(path.str.c_str()); 213 } 214 else if (!signals.empty()) 215 { 216 _bus.emit_interfaces_added(path.str.c_str(), signals); 217 } 218 } 219 } 220 221 void Manager::updateObjects( 222 const std::map<sdbusplus::message::object_path, Object>& objs, 223 bool restoreFromCache) 224 { 225 auto objit = objs.cbegin(); 226 auto refit = _refs.begin(); 227 std::string absPath; 228 bool newObj; 229 230 while (objit != objs.cend()) 231 { 232 // Find the insertion point or the object to update. 233 refit = std::lower_bound(refit, _refs.end(), objit->first, 234 compareFirst(RelPathCompare(_root))); 235 236 absPath.assign(_root); 237 absPath.append(objit->first); 238 239 newObj = false; 240 if (refit == _refs.end() || refit->first != absPath) 241 { 242 refit = _refs.insert( 243 refit, std::make_pair(absPath, decltype(_refs)::mapped_type())); 244 newObj = true; 245 } 246 247 updateInterfaces(absPath, objit->second, refit, newObj, 248 restoreFromCache); 249 #ifdef CREATE_ASSOCIATIONS 250 if (!_associations.pendingCondition() && newObj) 251 { 252 _associations.createAssociations(absPath, 253 _status != ManagerStatus::RUNNING); 254 } 255 else if (!restoreFromCache && 256 _associations.conditionMatch(objit->first, objit->second)) 257 { 258 // The objit path/interface/property matched a pending condition. 259 // Now the associations are valid so attempt to create them against 260 // all existing objects. If this was the restoreFromCache path, 261 // objit doesn't contain property values so don't bother checking. 262 std::for_each(_refs.begin(), _refs.end(), [this](const auto& ref) { 263 _associations.createAssociations( 264 ref.first, _status != ManagerStatus::RUNNING); 265 }); 266 } 267 #endif 268 ++objit; 269 } 270 } 271 272 void Manager::notify(std::map<sdbusplus::message::object_path, Object> objs) 273 { 274 updateObjects(objs); 275 } 276 277 void Manager::handleEvent(sdbusplus::message_t& msg, const Event& event, 278 const EventInfo& info) 279 { 280 auto& actions = std::get<1>(info); 281 282 for (auto& f : event) 283 { 284 if (!f(_bus, msg, *this)) 285 { 286 return; 287 } 288 } 289 for (auto& action : actions) 290 { 291 action(_bus, *this); 292 } 293 } 294 295 void Manager::destroyObjects(const std::vector<const char*>& paths) 296 { 297 std::string p; 298 299 for (const auto& path : paths) 300 { 301 p.assign(_root); 302 p.append(path); 303 _bus.emit_object_removed(p.c_str()); 304 _refs.erase(p); 305 } 306 } 307 308 void Manager::createObjects( 309 const std::map<sdbusplus::message::object_path, Object>& objs) 310 { 311 updateObjects(objs); 312 } 313 314 std::any& Manager::getInterfaceHolder(const char* path, const char* interface) 315 { 316 return const_cast<std::any&>( 317 const_cast<const Manager*>(this)->getInterfaceHolder(path, interface)); 318 } 319 320 const std::any& 321 Manager::getInterfaceHolder(const char* path, const char* interface) const 322 { 323 std::string p{path}; 324 auto oit = _refs.find(_root + p); 325 if (oit == _refs.end()) 326 throw std::runtime_error(_root + p + " was not found"); 327 328 auto& obj = oit->second; 329 auto iit = obj.find(interface); 330 if (iit == obj.end()) 331 throw std::runtime_error("interface was not found"); 332 333 return iit->second; 334 } 335 336 void Manager::restore() 337 { 338 namespace fs = std::filesystem; 339 340 if (!fs::exists(fs::path(PIM_PERSIST_PATH))) 341 { 342 return; 343 } 344 345 static const std::string remove = 346 std::string(PIM_PERSIST_PATH) + INVENTORY_ROOT; 347 348 std::map<sdbusplus::message::object_path, Object> objects; 349 for (const auto& dirent : 350 fs::recursive_directory_iterator(PIM_PERSIST_PATH)) 351 { 352 const auto& path = dirent.path(); 353 if (fs::is_regular_file(path)) 354 { 355 auto ifaceName = path.filename().string(); 356 auto objPath = path.parent_path().string(); 357 objPath.erase(0, remove.length()); 358 auto objit = objects.find(objPath); 359 Interface propertyMap{}; 360 if (objects.end() != objit) 361 { 362 auto& object = objit->second; 363 object.emplace(std::move(ifaceName), std::move(propertyMap)); 364 } 365 else 366 { 367 Object object; 368 object.emplace(std::move(ifaceName), std::move(propertyMap)); 369 objects.emplace(std::move(objPath), std::move(object)); 370 } 371 } 372 } 373 if (!objects.empty()) 374 { 375 auto restoreFromCache = true; 376 updateObjects(objects, restoreFromCache); 377 378 #ifdef CREATE_ASSOCIATIONS 379 // There may be conditional associations waiting to be loaded 380 // based on certain path/interface/property values. Now that 381 // _refs contains all objects with their property values, check 382 // which property values the conditions need and set them in the 383 // condition structure entries, using the actualValue field. Then 384 // the associations manager can check if the conditions are met. 385 if (_associations.pendingCondition()) 386 { 387 ObjectReferences::iterator refIt; 388 InterfaceComposite::iterator ifaceIt; 389 390 auto& conditions = _associations.getConditions(); 391 for (auto& condition : conditions) 392 { 393 refIt = _refs.find(_root + condition.path); 394 if (refIt != _refs.end()) 395 { 396 ifaceIt = refIt->second.find(condition.interface); 397 } 398 399 if ((refIt != _refs.end()) && (ifaceIt != refIt->second.end())) 400 { 401 const auto& maker = _makers.find(condition.interface); 402 if (maker != _makers.end()) 403 { 404 auto& getProperty = 405 std::get<GetPropertyValueType>(maker->second); 406 407 condition.actualValue = 408 getProperty(condition.property, ifaceIt->second); 409 } 410 } 411 } 412 413 // Check if a property value in a condition matches an 414 // actual property value just saved. If one did, now the 415 // associations file is valid so create its associations. 416 if (_associations.conditionMatch()) 417 { 418 std::for_each( 419 _refs.begin(), _refs.end(), [this](const auto& ref) { 420 _associations.createAssociations( 421 ref.first, _status != ManagerStatus::RUNNING); 422 }); 423 } 424 } 425 #endif 426 } 427 } 428 429 } // namespace manager 430 } // namespace inventory 431 } // namespace phosphor 432 433 // vim: tabstop=8 expandtab shiftwidth=4 softtabstop=4 434