1 /**
2 * Copyright © 2020 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 "device_callouts.hpp"
17
18 #include "paths.hpp"
19
20 #include <phosphor-logging/lg2.hpp>
21
22 #include <fstream>
23 #include <regex>
24
25 namespace openpower::pels::device_callouts
26 {
27
28 constexpr auto debugFilePath = "/etc/phosphor-logging/";
29 constexpr auto calloutFileSuffix = "_dev_callouts.json";
30
31 namespace fs = std::filesystem;
32
33 namespace util
34 {
35
getJSONFilename(const std::vector<std::string> & compatibleList)36 fs::path getJSONFilename(const std::vector<std::string>& compatibleList)
37 {
38 std::vector<std::string> names{compatibleList};
39 auto basePath = getPELReadOnlyDataPath();
40 fs::path fullPath;
41
42 // Find an entry in the list of compatible system names that
43 // matches a filename we have.
44
45 // Also match on just _dev_callouts.json, which may be present
46 // when it's known that compatibleList won't be correct.
47 names.push_back("");
48
49 for (const auto& name : names)
50 {
51 fs::path filename = name + calloutFileSuffix;
52
53 // Check the debug path first
54 fs::path path{fs::path{debugFilePath} / filename};
55
56 if (fs::exists(path))
57 {
58 lg2::info("Found device callout debug file");
59 fullPath = path;
60 break;
61 }
62
63 path = basePath / filename;
64
65 if (fs::exists(path))
66 {
67 fullPath = path;
68 break;
69 }
70 }
71
72 if (fullPath.empty())
73 {
74 throw std::invalid_argument(
75 "No JSON dev path callout file for this system");
76 }
77
78 return fullPath;
79 }
80
81 /**
82 * @brief Reads the callout JSON into an object based on the
83 * compatible system names list.
84 *
85 * @param[in] compatibleList - The list of compatible names for this
86 * system.
87 *
88 * @return nlohmann::json - The JSON object
89 */
loadJSON(const std::vector<std::string> & compatibleList)90 nlohmann::json loadJSON(const std::vector<std::string>& compatibleList)
91 {
92 auto filename = getJSONFilename(compatibleList);
93 std::ifstream file{filename};
94 return nlohmann::json::parse(file);
95 }
96
getI2CSearchKeys(const std::string & devPath)97 std::tuple<size_t, uint8_t> getI2CSearchKeys(const std::string& devPath)
98 {
99 std::smatch match;
100
101 // Look for i2c-A/A-00BB
102 // where A = bus number and BB = address
103 std::regex regex{"i2c-[0-9]+/([0-9]+)-00([0-9a-f]{2})"};
104
105 regex_search(devPath, match, regex);
106
107 if (match.size() != 3)
108 {
109 std::string msg = "Could not get I2C bus and address from " + devPath;
110 throw std::invalid_argument{msg.c_str()};
111 }
112
113 size_t bus = std::stoul(match[1].str(), nullptr, 0);
114
115 // An I2C bus on a CFAM has everything greater than the 10s digit
116 // as the CFAM number, so strip it off. Like:
117 // 112 = cfam1 bus 12
118 // 1001 = cfam10 bus 1
119 bus = bus % 100;
120
121 uint8_t address = std::stoul(match[2].str(), nullptr, 16);
122
123 return {bus, address};
124 }
125
getFSISearchKeys(const std::string & devPath)126 std::string getFSISearchKeys(const std::string& devPath)
127 {
128 std::string links;
129 std::smatch match;
130 auto search = devPath;
131
132 // Look for slave@XX:
133 // where XX = link number in hex
134 std::regex regex{"slave@([0-9a-f]{2}):"};
135
136 // Find all links in the path and separate them with hyphens.
137 while (regex_search(search, match, regex))
138 {
139 // Convert to an int first to handle a hex number like "0a"
140 // though in reality there won't be more than links 0 - 9.
141 auto linkNum = std::stoul(match[1].str(), nullptr, 16);
142 links += std::to_string(linkNum) + '-';
143
144 search = match.suffix();
145 }
146
147 if (links.empty())
148 {
149 std::string msg = "Could not get FSI links from " + devPath;
150 throw std::invalid_argument{msg.c_str()};
151 }
152
153 // Remove the trailing '-'
154 links.pop_back();
155
156 return links;
157 }
158
159 std::tuple<std::string, std::tuple<size_t, uint8_t>>
getFSII2CSearchKeys(const std::string & devPath)160 getFSII2CSearchKeys(const std::string& devPath)
161 {
162 // This combines the FSI and i2C search keys
163
164 auto links = getFSISearchKeys(devPath);
165 auto busAndAddr = getI2CSearchKeys(devPath);
166
167 return {std::move(links), std::move(busAndAddr)};
168 }
169
getSPISearchKeys(const std::string & devPath)170 size_t getSPISearchKeys(const std::string& devPath)
171 {
172 std::smatch match;
173
174 // Look for spi_master/spiX/ where X is the SPI bus/port number
175 // Note: This doesn't distinguish between multiple chips on
176 // the same port as no need for it yet.
177 std::regex regex{"spi_master/spi(\\d+)/"};
178
179 regex_search(devPath, match, regex);
180
181 if (match.size() != 2)
182 {
183 std::string msg = "Could not get SPI bus from " + devPath;
184 throw std::invalid_argument{msg.c_str()};
185 }
186
187 size_t port = std::stoul(match[1].str());
188
189 return port;
190 }
191
getFSISPISearchKeys(const std::string & devPath)192 std::tuple<std::string, size_t> getFSISPISearchKeys(const std::string& devPath)
193 {
194 // Combine the FSI and SPI search keys.
195 auto links = getFSISearchKeys(devPath);
196 auto bus = getSPISearchKeys(devPath);
197
198 return {std::move(links), std::move(bus)};
199 }
200
201 /**
202 * @brief Pull the callouts out of the JSON callout array passed in
203 *
204 * Create a vector of Callout objects based on the JSON.
205 *
206 * This will also fill in the 'debug' member on the first callout
207 * in the list, which could contain things like the I2C address and
208 * bus extracted from the device path.
209 *
210 * The callouts are in the order they should be added to the PEL.
211 *
212 * @param[in] calloutJSON - The Callouts JSON array to extract from
213 * @param[in] debug - The debug message to add to the first callout
214 *
215 * @return std::vector<Callout> - The Callout objects
216 */
extractCallouts(const nlohmann::json & calloutJSON,const std::string & debug)217 std::vector<Callout> extractCallouts(const nlohmann::json& calloutJSON,
218 const std::string& debug)
219 {
220 std::vector<Callout> callouts;
221 bool addDebug = true;
222
223 // The JSON element passed in is the array of callouts
224 if (!calloutJSON.is_array())
225 {
226 throw std::runtime_error(
227 "Dev path callout JSON entry doesn't contain a 'Callouts' array");
228 }
229
230 for (auto& callout : calloutJSON)
231 {
232 Callout c;
233
234 // Add any debug data to the first callout
235 if (addDebug && !debug.empty())
236 {
237 addDebug = false;
238 c.debug = debug;
239 }
240
241 try
242 {
243 c.locationCode = callout.at("LocationCode").get<std::string>();
244 c.name = callout.at("Name").get<std::string>();
245 c.priority = callout.at("Priority").get<std::string>();
246
247 if (callout.contains("MRU"))
248 {
249 c.mru = callout.at("MRU").get<std::string>();
250 }
251 }
252 catch (const nlohmann::json::out_of_range& e)
253 {
254 std::string msg =
255 "Callout entry missing either LocationCode, Name, or Priority "
256 "properties: " +
257 callout.dump();
258 throw std::runtime_error(msg.c_str());
259 }
260
261 callouts.push_back(c);
262 }
263
264 return callouts;
265 }
266
267 /**
268 * @brief Looks up the callouts in the JSON using the I2C keys.
269 *
270 * @param[in] i2cBus - The I2C bus
271 * @param[in] i2cAddress - The I2C address
272 * @param[in] calloutJSON - The JSON containing the callouts
273 *
274 * @return std::vector<Callout> - The callouts
275 */
calloutI2C(size_t i2cBus,uint8_t i2cAddress,const nlohmann::json & calloutJSON)276 std::vector<device_callouts::Callout> calloutI2C(
277 size_t i2cBus, uint8_t i2cAddress, const nlohmann::json& calloutJSON)
278 {
279 auto busString = std::to_string(i2cBus);
280 auto addrString = std::to_string(i2cAddress);
281
282 try
283 {
284 const auto& callouts =
285 calloutJSON.at("I2C").at(busString).at(addrString).at("Callouts");
286
287 auto dest = calloutJSON.at("I2C")
288 .at(busString)
289 .at(addrString)
290 .at("Dest")
291 .get<std::string>();
292
293 std::string msg = "I2C: bus: " + busString + " address: " + addrString +
294 " dest: " + dest;
295
296 return extractCallouts(callouts, msg);
297 }
298 catch (const nlohmann::json::out_of_range& e)
299 {
300 std::string msg = "Problem looking up I2C callouts on " + busString +
301 " " + addrString + ": " + std::string{e.what()};
302 throw std::invalid_argument(msg.c_str());
303 }
304 }
305
306 /**
307 * @brief Looks up the callouts in the JSON for this I2C path.
308 *
309 * @param[in] devPath - The device path
310 * @param[in] calloutJSON - The JSON containing the callouts
311 *
312 * @return std::vector<Callout> - The callouts
313 */
calloutI2CUsingPath(const std::string & devPath,const nlohmann::json & calloutJSON)314 std::vector<device_callouts::Callout> calloutI2CUsingPath(
315 const std::string& devPath, const nlohmann::json& calloutJSON)
316 {
317 auto [bus, address] = getI2CSearchKeys(devPath);
318
319 return calloutI2C(bus, address, calloutJSON);
320 }
321
322 /**
323 * @brief Looks up the callouts in the JSON for this FSI path.
324 *
325 * @param[in] devPath - The device path
326 * @param[in] calloutJSON - The JSON containing the callouts
327 *
328 * @return std::vector<Callout> - The callouts
329 */
330 std::vector<device_callouts::Callout>
calloutFSI(const std::string & devPath,const nlohmann::json & calloutJSON)331 calloutFSI(const std::string& devPath, const nlohmann::json& calloutJSON)
332 {
333 auto links = getFSISearchKeys(devPath);
334
335 try
336 {
337 const auto& callouts = calloutJSON.at("FSI").at(links).at("Callouts");
338
339 auto dest =
340 calloutJSON.at("FSI").at(links).at("Dest").get<std::string>();
341
342 std::string msg = "FSI: links: " + links + " dest: " + dest;
343
344 return extractCallouts(callouts, msg);
345 }
346 catch (const nlohmann::json::out_of_range& e)
347 {
348 std::string msg = "Problem looking up FSI callouts on " + links + ": " +
349 std::string{e.what()};
350 throw std::invalid_argument(msg.c_str());
351 }
352 }
353
354 /**
355 * @brief Looks up the callouts in the JSON for this FSI-I2C path.
356 *
357 * @param[in] devPath - The device path
358 * @param[in] calloutJSON - The JSON containing the callouts
359 *
360 * @return std::vector<Callout> - The callouts
361 */
362 std::vector<device_callouts::Callout>
calloutFSII2C(const std::string & devPath,const nlohmann::json & calloutJSON)363 calloutFSII2C(const std::string& devPath, const nlohmann::json& calloutJSON)
364 {
365 auto linksAndI2C = getFSII2CSearchKeys(devPath);
366 auto links = std::get<std::string>(linksAndI2C);
367 const auto& busAndAddr = std::get<1>(linksAndI2C);
368
369 auto busString = std::to_string(std::get<size_t>(busAndAddr));
370 auto addrString = std::to_string(std::get<uint8_t>(busAndAddr));
371
372 try
373 {
374 auto& callouts = calloutJSON.at("FSI-I2C")
375 .at(links)
376 .at(busString)
377 .at(addrString)
378 .at("Callouts");
379
380 auto dest = calloutJSON.at("FSI-I2C")
381 .at(links)
382 .at(busString)
383 .at(addrString)
384 .at("Dest")
385 .get<std::string>();
386
387 std::string msg = "FSI-I2C: links: " + links + " bus: " + busString +
388 " addr: " + addrString + " dest: " + dest;
389
390 return extractCallouts(callouts, msg);
391 }
392 catch (const nlohmann::json::out_of_range& e)
393 {
394 std::string msg = "Problem looking up FSI-I2C callouts on " + links +
395 " " + busString + " " + addrString + ": " + e.what();
396 throw std::invalid_argument(msg.c_str());
397 }
398 }
399
400 /**
401 * @brief Looks up the callouts in the JSON for this FSI-SPI path.
402 *
403 * @param[in] devPath - The device path
404 * @param[in] calloutJSON - The JSON containing the callouts
405 *
406 * @return std::vector<Callout> - The callouts
407 */
408 std::vector<device_callouts::Callout>
calloutFSISPI(const std::string & devPath,const nlohmann::json & calloutJSON)409 calloutFSISPI(const std::string& devPath, const nlohmann::json& calloutJSON)
410 {
411 auto linksAndSPI = getFSISPISearchKeys(devPath);
412 auto links = std::get<std::string>(linksAndSPI);
413 auto busString = std::to_string(std::get<size_t>(linksAndSPI));
414
415 try
416 {
417 auto& callouts =
418 calloutJSON.at("FSI-SPI").at(links).at(busString).at("Callouts");
419
420 auto dest = calloutJSON.at("FSI-SPI")
421 .at(links)
422 .at(busString)
423 .at("Dest")
424 .get<std::string>();
425
426 std::string msg = "FSI-SPI: links: " + links + " bus: " + busString +
427 " dest: " + dest;
428
429 return extractCallouts(callouts, msg);
430 }
431 catch (const nlohmann::json::out_of_range& e)
432 {
433 std::string msg = "Problem looking up FSI-SPI callouts on " + links +
434 " " + busString + ": " + std::string{e.what()};
435 throw std::invalid_argument(msg.c_str());
436 }
437 }
438
439 /**
440 * @brief Returns the callouts from the JSON based on the input
441 * device path.
442 *
443 * @param[in] devPath - The device path
444 * @param[in] json - The callout JSON
445 *
446 * @return std::vector<Callout> - The list of callouts
447 */
448 std::vector<device_callouts::Callout>
findCallouts(const std::string & devPath,const nlohmann::json & json)449 findCallouts(const std::string& devPath, const nlohmann::json& json)
450 {
451 std::vector<Callout> callouts;
452 fs::path path;
453
454 // Gives the /sys/devices/platform/ path
455 try
456 {
457 path = fs::canonical(devPath);
458 }
459 catch (const fs::filesystem_error& e)
460 {
461 // Path not there, still try to do the callout
462 path = devPath;
463 }
464
465 switch (util::getCalloutType(path))
466 {
467 case util::CalloutType::i2c:
468 callouts = calloutI2CUsingPath(path, json);
469 break;
470 case util::CalloutType::fsi:
471 callouts = calloutFSI(path, json);
472 break;
473 case util::CalloutType::fsii2c:
474 callouts = calloutFSII2C(path, json);
475 break;
476 case util::CalloutType::fsispi:
477 callouts = calloutFSISPI(path, json);
478 break;
479 default:
480 std::string msg =
481 "Could not get callout type from device path: " + path.string();
482 throw std::invalid_argument{msg.c_str()};
483 break;
484 }
485
486 return callouts;
487 }
488
getCalloutType(const std::string & devPath)489 CalloutType getCalloutType(const std::string& devPath)
490 {
491 if ((devPath.find("fsi-master") != std::string::npos) &&
492 (devPath.find("i2c-") != std::string::npos))
493 {
494 return CalloutType::fsii2c;
495 }
496
497 if ((devPath.find("fsi-master") != std::string::npos) &&
498 (devPath.find("spi") != std::string::npos))
499 {
500 return CalloutType::fsispi;
501 }
502
503 // Treat anything else FSI related as plain FSI
504 if (devPath.find("fsi-master") != std::string::npos)
505 {
506 return CalloutType::fsi;
507 }
508
509 if (devPath.find("i2c-") != std::string::npos)
510 {
511 return CalloutType::i2c;
512 }
513
514 return CalloutType::unknown;
515 }
516
517 } // namespace util
518
getCallouts(const std::string & devPath,const std::vector<std::string> & compatibleList)519 std::vector<Callout> getCallouts(const std::string& devPath,
520 const std::vector<std::string>& compatibleList)
521 {
522 auto json = util::loadJSON(compatibleList);
523 return util::findCallouts(devPath, json);
524 }
525
526 std::vector<Callout>
getI2CCallouts(size_t i2cBus,uint8_t i2cAddress,const std::vector<std::string> & compatibleList)527 getI2CCallouts(size_t i2cBus, uint8_t i2cAddress,
528 const std::vector<std::string>& compatibleList)
529 {
530 auto json = util::loadJSON(compatibleList);
531 return util::calloutI2C(i2cBus, i2cAddress, json);
532 }
533
534 } // namespace openpower::pels::device_callouts
535