1 /* 2 // Copyright (c) 2018 Intel 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 /// \file overlay.cpp 17 18 #include "overlay.hpp" 19 20 #include "utils.hpp" 21 #include "devices.hpp" 22 23 #include <boost/algorithm/string/predicate.hpp> 24 #include <boost/asio/io_context.hpp> 25 #include <boost/asio/steady_timer.hpp> 26 #include <boost/container/flat_map.hpp> 27 #include <boost/container/flat_set.hpp> 28 #include <boost/process/child.hpp> 29 #include <nlohmann/json.hpp> 30 31 #include <filesystem> 32 #include <iomanip> 33 #include <iostream> 34 #include <regex> 35 #include <string> 36 37 constexpr const char* outputDir = "/tmp/overlays"; 38 constexpr const char* templateChar = "$"; 39 constexpr const char* i2CDevsDir = "/sys/bus/i2c/devices"; 40 constexpr const char* muxSymlinkDir = "/dev/i2c-mux"; 41 42 constexpr const bool debug = false; 43 44 std::regex illegalNameRegex("[^A-Za-z0-9_]"); 45 46 // helper function to make json types into string 47 std::string jsonToString(const nlohmann::json& in) 48 { 49 if (in.type() == nlohmann::json::value_t::string) 50 { 51 return in.get<std::string>(); 52 } 53 if (in.type() == nlohmann::json::value_t::array) 54 { 55 // remove brackets and comma from array 56 std::string array = in.dump(); 57 array = array.substr(1, array.size() - 2); 58 boost::replace_all(array, ",", " "); 59 return array; 60 } 61 return in.dump(); 62 } 63 64 static std::string deviceDirName(uint64_t bus, uint64_t address) 65 { 66 std::ostringstream name; 67 name << bus << "-" << std::hex << std::setw(4) << std::setfill('0') << address; 68 return name.str(); 69 } 70 71 void linkMux(const std::string& muxName, size_t busIndex, size_t address, 72 const nlohmann::json::array_t& channelNames) 73 { 74 std::error_code ec; 75 std::filesystem::path muxSymlinkDirPath(muxSymlinkDir); 76 std::filesystem::create_directory(muxSymlinkDirPath, ec); 77 // ignore error codes here if the directory already exists 78 ec.clear(); 79 std::filesystem::path linkDir = muxSymlinkDirPath / muxName; 80 std::filesystem::create_directory(linkDir, ec); 81 82 std::filesystem::path devDir(i2CDevsDir); 83 devDir /= deviceDirName(busIndex, address); 84 85 for (std::size_t channelIndex = 0; channelIndex < channelNames.size(); 86 channelIndex++) 87 { 88 const std::string* channelName = 89 channelNames[channelIndex].get_ptr<const std::string*>(); 90 if (channelName == nullptr) 91 { 92 continue; 93 } 94 if (channelName->empty()) 95 { 96 continue; 97 } 98 99 std::filesystem::path channelPath = 100 devDir / ("channel-" + std::to_string(channelIndex)); 101 if (!is_symlink(channelPath)) 102 { 103 std::cerr << channelPath << " for mux channel " << *channelName 104 << " doesn't exist!\n"; 105 continue; 106 } 107 std::filesystem::path bus = std::filesystem::read_symlink(channelPath); 108 109 std::filesystem::path fp("/dev" / bus.filename()); 110 std::filesystem::path link(linkDir / *channelName); 111 112 std::filesystem::create_symlink(fp, link, ec); 113 if (ec) 114 { 115 std::cerr << "Failure creating symlink for " << fp << " to " << link 116 << "\n"; 117 } 118 } 119 } 120 121 static int deleteDevice(const std::string& busPath, 122 const std::shared_ptr<uint64_t>& address, 123 const std::string& destructor) 124 { 125 if (!address) 126 { 127 return -1; 128 } 129 std::filesystem::path deviceDestructor(busPath); 130 deviceDestructor /= destructor; 131 std::ofstream deviceFile(deviceDestructor); 132 if (!deviceFile.good()) 133 { 134 std::cerr << "Error writing " << deviceDestructor << "\n"; 135 return -1; 136 } 137 deviceFile << std::to_string(*address); 138 deviceFile.close(); 139 return 0; 140 } 141 142 static int createDevice(const std::string& busPath, 143 const std::string& parameters, 144 const std::string& constructor) 145 { 146 std::filesystem::path deviceConstructor(busPath); 147 deviceConstructor /= constructor; 148 std::ofstream deviceFile(deviceConstructor); 149 if (!deviceFile.good()) 150 { 151 std::cerr << "Error writing " << deviceConstructor << "\n"; 152 return -1; 153 } 154 deviceFile << parameters; 155 deviceFile.close(); 156 157 return 0; 158 } 159 160 static bool deviceIsCreated(const std::string& busPath, 161 const std::shared_ptr<uint64_t>& bus, 162 const std::shared_ptr<uint64_t>& address, 163 const bool retrying) 164 { 165 if (!bus || !address) 166 { 167 return false; 168 } 169 170 std::string dirName = deviceDirName(*bus, *address); 171 172 std::error_code ec; 173 auto path = std::filesystem::recursive_directory_iterator(busPath, ec); 174 if (ec) 175 { 176 std::cerr << "Unable to open path " << busPath << "\n"; 177 return false; 178 } 179 for (; path != std::filesystem::recursive_directory_iterator(); path++) 180 { 181 if (!std::filesystem::is_directory(*path)) 182 { 183 continue; 184 } 185 186 const std::string foundName = path->path().filename(); 187 if (foundName == dirName) 188 { 189 // The first time the BMC boots the kernel has creates a 190 // filesystem enumerating the I2C devices. The I2C device has not 191 // been initialized for use. This requires a call to a device 192 // node, such as "new_device". The first pass through this 193 // function is only confirming the filesystem contains the device 194 // entry of interest (i.e. i2c4-0050). 195 // 196 // An upper level function performs the device creation 197 // action. This action may fail. The device driver (dd) used to 198 // create the I2C filesystem substructure eats any error codes, 199 // and always returns 0. This is by design. It is also possible 200 // for the new_device action to fail because the device is not 201 // actually in the system, i.e. optional equipment. 202 // 203 // The 'retrying' pass of this function is used to confirm the 204 // 'dd' device driver succeeded. Success is measured by finding 205 // the 'hwmon' subdirectory in the filesystem. The first attempt 206 // is delayed by an arbitrary amount, in order to permit the 207 // kernel time to create the filesystem entries. The upper level 208 // function determines the number of times to retry calling this 209 // function. 210 if (retrying) 211 { 212 std::error_code ec; 213 std::filesystem::path hwmonDir(busPath); 214 hwmonDir /= dirName; 215 hwmonDir /= "hwmon"; 216 return std::filesystem::is_directory(hwmonDir, ec); 217 } 218 return true; 219 } 220 path.disable_recursion_pending(); 221 } 222 return false; 223 } 224 225 static int buildDevice(const std::string& busPath, 226 const std::string& parameters, 227 const std::shared_ptr<uint64_t>& bus, 228 const std::shared_ptr<uint64_t>& address, 229 const std::string& constructor, 230 const std::string& destructor, const bool createsHWMon, 231 const size_t retries = 5) 232 { 233 bool tryAgain = false; 234 if (!retries) 235 { 236 return -1; 237 } 238 239 if (!deviceIsCreated(busPath, bus, address, false)) 240 { 241 createDevice(busPath, parameters, constructor); 242 tryAgain = true; 243 } 244 else if (createsHWMon && !deviceIsCreated(busPath, bus, address, true)) 245 { 246 // device is present, hwmon subdir missing 247 deleteDevice(busPath, address, destructor); 248 tryAgain = true; 249 } 250 251 if (tryAgain) 252 { 253 std::shared_ptr<boost::asio::steady_timer> createTimer = 254 std::make_shared<boost::asio::steady_timer>(io); 255 createTimer->expires_after(std::chrono::milliseconds(500)); 256 createTimer->async_wait([createTimer, busPath, parameters, bus, 257 address, constructor, destructor, createsHWMon, 258 retries](const boost::system::error_code& ec) { 259 if (ec) 260 { 261 std::cerr << "Timer error: " << ec << "\n"; 262 return -2; 263 } 264 return buildDevice(busPath, parameters, bus, address, 265 constructor, destructor, createsHWMon, 266 retries - 1); 267 }); 268 } 269 return 0; 270 } 271 272 void exportDevice(const std::string& type, 273 const devices::ExportTemplate& exportTemplate, 274 const nlohmann::json& configuration) 275 { 276 277 std::string parameters = exportTemplate.parameters; 278 std::string busPath = exportTemplate.busPath; 279 std::string constructor = exportTemplate.add; 280 std::string destructor = exportTemplate.remove; 281 bool createsHWMon = exportTemplate.createsHWMon; 282 std::string name = "unknown"; 283 std::shared_ptr<uint64_t> bus = nullptr; 284 std::shared_ptr<uint64_t> address = nullptr; 285 const nlohmann::json::array_t* channels = nullptr; 286 287 for (auto keyPair = configuration.begin(); keyPair != configuration.end(); 288 keyPair++) 289 { 290 std::string subsituteString; 291 292 if (keyPair.key() == "Name" && 293 keyPair.value().type() == nlohmann::json::value_t::string) 294 { 295 subsituteString = std::regex_replace( 296 keyPair.value().get<std::string>(), illegalNameRegex, "_"); 297 name = subsituteString; 298 } 299 else 300 { 301 subsituteString = jsonToString(keyPair.value()); 302 } 303 304 if (keyPair.key() == "Bus") 305 { 306 bus = std::make_shared<uint64_t>( 307 *keyPair.value().get_ptr<const uint64_t*>()); 308 } 309 else if (keyPair.key() == "Address") 310 { 311 address = std::make_shared<uint64_t>( 312 *keyPair.value().get_ptr<const uint64_t*>()); 313 } 314 else if (keyPair.key() == "ChannelNames") 315 { 316 channels = 317 keyPair.value().get_ptr<const nlohmann::json::array_t*>(); 318 } 319 boost::replace_all(parameters, templateChar + keyPair.key(), 320 subsituteString); 321 boost::replace_all(busPath, templateChar + keyPair.key(), 322 subsituteString); 323 } 324 325 int err = buildDevice(busPath, parameters, bus, address, constructor, 326 destructor, createsHWMon); 327 328 if (!err && boost::ends_with(type, "Mux") && bus && address && channels) 329 { 330 linkMux(name, static_cast<size_t>(*bus), static_cast<size_t>(*address), 331 *channels); 332 } 333 } 334 335 bool loadOverlays(const nlohmann::json& systemConfiguration) 336 { 337 std::filesystem::create_directory(outputDir); 338 for (auto entity = systemConfiguration.begin(); 339 entity != systemConfiguration.end(); entity++) 340 { 341 auto findExposes = entity.value().find("Exposes"); 342 if (findExposes == entity.value().end() || 343 findExposes->type() != nlohmann::json::value_t::array) 344 { 345 continue; 346 } 347 348 for (auto& configuration : *findExposes) 349 { 350 auto findStatus = configuration.find("Status"); 351 // status missing is assumed to be 'okay' 352 if (findStatus != configuration.end() && *findStatus == "disabled") 353 { 354 continue; 355 } 356 auto findType = configuration.find("Type"); 357 if (findType == configuration.end() || 358 findType->type() != nlohmann::json::value_t::string) 359 { 360 continue; 361 } 362 std::string type = findType.value().get<std::string>(); 363 auto device = devices::exportTemplates.find(type.c_str()); 364 if (device != devices::exportTemplates.end()) 365 { 366 exportDevice(type, device->second, configuration); 367 continue; 368 } 369 370 // Because many devices are intentionally not exportable, 371 // this error message is not printed in all situations. 372 // If wondering why your device not appearing, add your type to 373 // the exportTemplates array in the devices.hpp file. 374 if constexpr (debug) 375 { 376 std::cerr << "Device type " << type 377 << " not found in export map whitelist\n"; 378 } 379 } 380 } 381 382 return true; 383 } 384