blob: 3ef0bb6c5698ce529d905eaad400b530ff05dad0 [file] [log] [blame]
Brandon Wyman18a24d92022-04-19 22:48:34 +00001#include "config.h"
2
Brandon Wymana0f33ce2019-10-17 18:32:29 -05003#include "psu_manager.hpp"
4
5#include "utility.hpp"
6
Brandon Wymanb76ab242020-09-16 18:06:06 -05007#include <fmt/format.h>
8#include <sys/types.h>
9#include <unistd.h>
10
Jim Wright7f9288c2022-12-08 11:57:04 -060011#include <xyz/openbmc_project/State/Chassis/server.hpp>
12
Shawn McCarney9252b7e2022-06-10 12:47:38 -050013#include <algorithm>
Brandon Wymanecbecbc2021-08-31 22:53:21 +000014#include <regex>
Shawn McCarney9252b7e2022-06-10 12:47:38 -050015#include <set>
Brandon Wymanecbecbc2021-08-31 22:53:21 +000016
Brandon Wymanaed1f752019-11-25 18:10:52 -060017using namespace phosphor::logging;
18
Brandon Wyman63ea78b2020-09-24 16:49:09 -050019namespace phosphor::power::manager
Brandon Wymana0f33ce2019-10-17 18:32:29 -050020{
Adriana Kobylakc9b05732022-03-19 15:15:10 +000021constexpr auto managerBusName = "xyz.openbmc_project.Power.PSUMonitor";
22constexpr auto objectManagerObjPath =
23 "/xyz/openbmc_project/power/power_supplies";
24constexpr auto powerSystemsInputsObjPath =
25 "/xyz/openbmc_project/power/power_supplies/chassis0/psus";
Brandon Wymana0f33ce2019-10-17 18:32:29 -050026
Brandon Wyman510acaa2020-11-05 18:32:04 -060027constexpr auto IBMCFFPSInterface =
28 "xyz.openbmc_project.Configuration.IBMCFFPSConnector";
29constexpr auto i2cBusProp = "I2CBus";
30constexpr auto i2cAddressProp = "I2CAddress";
31constexpr auto psuNameProp = "Name";
B. J. Wyman681b2a32021-04-20 22:31:22 +000032constexpr auto presLineName = "NamedPresenceGpio";
Brandon Wyman510acaa2020-11-05 18:32:04 -060033
Adriana Kobylak9bab9e12021-02-24 15:32:03 -060034constexpr auto supportedConfIntf =
35 "xyz.openbmc_project.Configuration.SupportedConfiguration";
Adriana Kobylak9bab9e12021-02-24 15:32:03 -060036
Faisal Awadab66ae502023-04-01 18:30:32 -050037const auto deviceDirPath = "/sys/bus/i2c/devices/";
38const auto driverDirName = "/driver";
39
Brandon Wymanc9e840e2022-05-10 20:48:41 +000040constexpr auto INPUT_HISTORY_SYNC_DELAY = 5;
Brandon Wyman18a24d92022-04-19 22:48:34 +000041
Patrick Williams7354ce62022-07-22 19:26:56 -050042PSUManager::PSUManager(sdbusplus::bus_t& bus, const sdeventplus::Event& e) :
Adriana Kobylakc9b05732022-03-19 15:15:10 +000043 bus(bus), powerSystemInputs(bus, powerSystemsInputsObjPath),
Brandon Wymanc3324422022-03-24 20:30:57 +000044 objectManager(bus, objectManagerObjPath),
Matt Spinlera068f422023-03-10 13:06:49 -060045 sensorsObjManager(bus, "/xyz/openbmc_project/sensors")
Brandon Wyman510acaa2020-11-05 18:32:04 -060046{
Brandon Wyman510acaa2020-11-05 18:32:04 -060047 // Subscribe to InterfacesAdded before doing a property read, otherwise
48 // the interface could be created after the read attempt but before the
49 // match is created.
50 entityManagerIfacesAddedMatch = std::make_unique<sdbusplus::bus::match_t>(
51 bus,
52 sdbusplus::bus::match::rules::interfacesAdded() +
53 sdbusplus::bus::match::rules::sender(
54 "xyz.openbmc_project.EntityManager"),
55 std::bind(&PSUManager::entityManagerIfaceAdded, this,
56 std::placeholders::_1));
57 getPSUConfiguration();
58 getSystemProperties();
59
Adriana Kobylakc9b05732022-03-19 15:15:10 +000060 // Request the bus name before the analyze() function, which is the one that
61 // determines the brownout condition and sets the status d-bus property.
62 bus.request_name(managerBusName);
63
Brandon Wyman510acaa2020-11-05 18:32:04 -060064 using namespace sdeventplus;
65 auto interval = std::chrono::milliseconds(1000);
66 timer = std::make_unique<utility::Timer<ClockId::Monotonic>>(
67 e, std::bind(&PSUManager::analyze, this), interval);
68
Adriana Kobylaka4d38fa2021-10-05 19:57:47 +000069 validationTimer = std::make_unique<utility::Timer<ClockId::Monotonic>>(
70 e, std::bind(&PSUManager::validateConfig, this));
71
Adriana Kobylakc0a07582021-10-13 15:52:25 +000072 try
73 {
74 powerConfigGPIO = createGPIO("power-config-full-load");
75 }
76 catch (const std::exception& e)
77 {
78 // Ignore error, GPIO may not be implemented in this system.
79 powerConfigGPIO = nullptr;
80 }
81
Brandon Wyman510acaa2020-11-05 18:32:04 -060082 // Subscribe to power state changes
83 powerService = util::getService(POWER_OBJ_PATH, POWER_IFACE, bus);
84 powerOnMatch = std::make_unique<sdbusplus::bus::match_t>(
85 bus,
86 sdbusplus::bus::match::rules::propertiesChanged(POWER_OBJ_PATH,
87 POWER_IFACE),
88 [this](auto& msg) { this->powerStateChanged(msg); });
89
90 initialize();
91}
92
Jim Wrightaca86d02022-06-10 12:01:39 -050093void PSUManager::initialize()
94{
95 try
96 {
97 // pgood is the latest read of the chassis pgood
98 int pgood = 0;
99 util::getProperty<int>(POWER_IFACE, "pgood", POWER_OBJ_PATH,
100 powerService, bus, pgood);
101
102 // state is the latest requested power on / off transition
Jim Wright5c186c82022-11-17 17:09:33 -0600103 auto method = bus.new_method_call(powerService.c_str(), POWER_OBJ_PATH,
Jim Wrightaca86d02022-06-10 12:01:39 -0500104 POWER_IFACE, "getPowerState");
105 auto reply = bus.call(method);
106 int state = 0;
107 reply.read(state);
108
109 if (state)
110 {
111 // Monitor PSUs anytime state is on
112 powerOn = true;
113 // In the power fault window if pgood is off
114 powerFaultOccurring = !pgood;
115 validationTimer->restartOnce(validationTimeout);
116 }
117 else
118 {
119 // Power is off
120 powerOn = false;
121 powerFaultOccurring = false;
122 runValidateConfig = true;
123 }
124 }
125 catch (const std::exception& e)
126 {
127 log<level::INFO>(
128 fmt::format(
129 "Failed to get power state, assuming it is off, error {}",
130 e.what())
131 .c_str());
132 powerOn = false;
133 powerFaultOccurring = false;
134 runValidateConfig = true;
135 }
136
137 onOffConfig(phosphor::pmbus::ON_OFF_CONFIG_CONTROL_PIN_ONLY);
138 clearFaults();
139 updateMissingPSUs();
Jim Wrightaca86d02022-06-10 12:01:39 -0500140 setPowerConfigGPIO();
141
142 log<level::INFO>(
143 fmt::format("initialize: power on: {}, power fault occurring: {}",
144 powerOn, powerFaultOccurring)
145 .c_str());
146}
147
Brandon Wyman510acaa2020-11-05 18:32:04 -0600148void PSUManager::getPSUConfiguration()
149{
150 using namespace phosphor::power::util;
151 auto depth = 0;
152 auto objects = getSubTree(bus, "/", IBMCFFPSInterface, depth);
153
154 psus.clear();
155
156 // I should get a map of objects back.
157 // Each object will have a path, a service, and an interface.
158 // The interface should match the one passed into this function.
159 for (const auto& [path, services] : objects)
160 {
161 auto service = services.begin()->first;
162
163 if (path.empty() || service.empty())
164 {
165 continue;
166 }
167
168 // For each object in the array of objects, I want to get properties
169 // from the service, path, and interface.
Patrick Williams48781ae2023-05-10 07:50:50 -0500170 auto properties = getAllProperties(bus, path, IBMCFFPSInterface,
171 service);
Brandon Wyman510acaa2020-11-05 18:32:04 -0600172
173 getPSUProperties(properties);
174 }
175
176 if (psus.empty())
177 {
178 // Interface or properties not found. Let the Interfaces Added callback
179 // process the information once the interfaces are added to D-Bus.
180 log<level::INFO>(fmt::format("No power supplies to monitor").c_str());
181 }
182}
183
184void PSUManager::getPSUProperties(util::DbusPropertyMap& properties)
185{
186 // From passed in properties, I want to get: I2CBus, I2CAddress,
187 // and Name. Create a power supply object, using Name to build the inventory
188 // path.
189 const auto basePSUInvPath =
190 "/xyz/openbmc_project/inventory/system/chassis/motherboard/powersupply";
191 uint64_t* i2cbus = nullptr;
192 uint64_t* i2caddr = nullptr;
193 std::string* psuname = nullptr;
B. J. Wyman681b2a32021-04-20 22:31:22 +0000194 std::string* preslineptr = nullptr;
Brandon Wyman510acaa2020-11-05 18:32:04 -0600195
196 for (const auto& property : properties)
197 {
198 try
199 {
200 if (property.first == i2cBusProp)
201 {
202 i2cbus = std::get_if<uint64_t>(&properties[i2cBusProp]);
203 }
204 else if (property.first == i2cAddressProp)
205 {
206 i2caddr = std::get_if<uint64_t>(&properties[i2cAddressProp]);
207 }
208 else if (property.first == psuNameProp)
209 {
210 psuname = std::get_if<std::string>(&properties[psuNameProp]);
211 }
B. J. Wyman681b2a32021-04-20 22:31:22 +0000212 else if (property.first == presLineName)
213 {
214 preslineptr =
215 std::get_if<std::string>(&properties[presLineName]);
216 }
Brandon Wyman510acaa2020-11-05 18:32:04 -0600217 }
Patrick Williamsc1d4de52021-10-06 12:45:57 -0500218 catch (const std::exception& e)
Adriana Kobylak0c9a33d2021-09-13 18:05:09 +0000219 {}
Brandon Wyman510acaa2020-11-05 18:32:04 -0600220 }
221
222 if ((i2cbus) && (i2caddr) && (psuname) && (!psuname->empty()))
223 {
224 std::string invpath = basePSUInvPath;
225 invpath.push_back(psuname->back());
B. J. Wyman681b2a32021-04-20 22:31:22 +0000226 std::string presline = "";
Brandon Wyman510acaa2020-11-05 18:32:04 -0600227
228 log<level::DEBUG>(fmt::format("Inventory Path: {}", invpath).c_str());
229
B. J. Wyman681b2a32021-04-20 22:31:22 +0000230 if (nullptr != preslineptr)
231 {
232 presline = *preslineptr;
233 }
234
Patrick Williams48781ae2023-05-10 07:50:50 -0500235 auto invMatch = std::find_if(psus.begin(), psus.end(),
236 [&invpath](auto& psu) {
237 return psu->getInventoryPath() == invpath;
238 });
Brandon Wymanecbecbc2021-08-31 22:53:21 +0000239 if (invMatch != psus.end())
240 {
241 // This power supply has the same inventory path as the one with
242 // information just added to D-Bus.
243 // Changes to GPIO line name unlikely, so skip checking.
244 // Changes to the I2C bus and address unlikely, as that would
245 // require corresponding device tree updates.
246 // Return out to avoid duplicate object creation.
247 return;
248 }
249
Faisal Awadab66ae502023-04-01 18:30:32 -0500250 buildDriverName(*i2cbus, *i2caddr);
B. J. Wyman681b2a32021-04-20 22:31:22 +0000251 log<level::DEBUG>(
Faisal Awadab66ae502023-04-01 18:30:32 -0500252 fmt::format("make PowerSupply bus: {} addr: {} presline: {}",
253 *i2cbus, *i2caddr, presline)
B. J. Wyman681b2a32021-04-20 22:31:22 +0000254 .c_str());
George Liu9464c422023-02-27 14:30:27 +0800255 auto psu = std::make_unique<PowerSupply>(
Faisal Awadab66ae502023-04-01 18:30:32 -0500256 bus, invpath, *i2cbus, *i2caddr, driverName, presline,
George Liu9464c422023-02-27 14:30:27 +0800257 std::bind(
258 std::mem_fn(&phosphor::power::manager::PSUManager::isPowerOn),
259 this));
Brandon Wyman510acaa2020-11-05 18:32:04 -0600260 psus.emplace_back(std::move(psu));
Adriana Kobylak9ba38232021-11-16 20:27:45 +0000261
262 // Subscribe to power supply presence changes
263 auto presenceMatch = std::make_unique<sdbusplus::bus::match_t>(
264 bus,
265 sdbusplus::bus::match::rules::propertiesChanged(invpath,
266 INVENTORY_IFACE),
267 [this](auto& msg) { this->presenceChanged(msg); });
268 presenceMatches.emplace_back(std::move(presenceMatch));
Brandon Wyman510acaa2020-11-05 18:32:04 -0600269 }
270
271 if (psus.empty())
272 {
273 log<level::INFO>(fmt::format("No power supplies to monitor").c_str());
274 }
Faisal Awadab7131a12023-10-26 19:38:45 -0500275 else
276 {
277 populateDriverName();
278 }
Brandon Wyman510acaa2020-11-05 18:32:04 -0600279}
280
Adriana Kobylake1074d82021-03-16 20:46:44 +0000281void PSUManager::populateSysProperties(const util::DbusPropertyMap& properties)
282{
283 try
284 {
Adriana Kobylak9ea66a62021-03-24 17:54:14 +0000285 auto propIt = properties.find("SupportedType");
286 if (propIt == properties.end())
287 {
288 return;
289 }
290 const std::string* type = std::get_if<std::string>(&(propIt->second));
291 if ((type == nullptr) || (*type != "PowerSupply"))
292 {
293 return;
294 }
295
Adriana Kobylak9ea66a62021-03-24 17:54:14 +0000296 propIt = properties.find("SupportedModel");
297 if (propIt == properties.end())
298 {
299 return;
300 }
Adriana Kobylakd3a70d92021-06-04 16:24:45 +0000301 const std::string* model = std::get_if<std::string>(&(propIt->second));
302 if (model == nullptr)
Adriana Kobylak9ea66a62021-03-24 17:54:14 +0000303 {
304 return;
305 }
Adriana Kobylak9ea66a62021-03-24 17:54:14 +0000306
Adriana Kobylakd3a70d92021-06-04 16:24:45 +0000307 sys_properties sys;
Adriana Kobylak9ea66a62021-03-24 17:54:14 +0000308 propIt = properties.find("RedundantCount");
Adriana Kobylake1074d82021-03-16 20:46:44 +0000309 if (propIt != properties.end())
310 {
311 const uint64_t* count = std::get_if<uint64_t>(&(propIt->second));
312 if (count != nullptr)
313 {
Adriana Kobylakd3a70d92021-06-04 16:24:45 +0000314 sys.powerSupplyCount = *count;
Adriana Kobylake1074d82021-03-16 20:46:44 +0000315 }
316 }
Adriana Kobylak9ea66a62021-03-24 17:54:14 +0000317 propIt = properties.find("InputVoltage");
318 if (propIt != properties.end())
319 {
Adriana Kobylakd3a70d92021-06-04 16:24:45 +0000320 const std::vector<uint64_t>* voltage =
321 std::get_if<std::vector<uint64_t>>(&(propIt->second));
Adriana Kobylak9ea66a62021-03-24 17:54:14 +0000322 if (voltage != nullptr)
323 {
324 sys.inputVoltage = *voltage;
325 }
326 }
327
Adriana Kobylak886574c2021-11-01 18:22:28 +0000328 // The PowerConfigFullLoad is an optional property, default it to false
329 // since that's the default value of the power-config-full-load GPIO.
330 sys.powerConfigFullLoad = false;
331 propIt = properties.find("PowerConfigFullLoad");
332 if (propIt != properties.end())
333 {
334 const bool* fullLoad = std::get_if<bool>(&(propIt->second));
335 if (fullLoad != nullptr)
336 {
337 sys.powerConfigFullLoad = *fullLoad;
338 }
339 }
340
Adriana Kobylakd3a70d92021-06-04 16:24:45 +0000341 supportedConfigs.emplace(*model, sys);
Adriana Kobylake1074d82021-03-16 20:46:44 +0000342 }
Patrick Williamsc1d4de52021-10-06 12:45:57 -0500343 catch (const std::exception& e)
Adriana Kobylak0c9a33d2021-09-13 18:05:09 +0000344 {}
Adriana Kobylake1074d82021-03-16 20:46:44 +0000345}
346
Adriana Kobylak9bab9e12021-02-24 15:32:03 -0600347void PSUManager::getSystemProperties()
348{
Adriana Kobylak9bab9e12021-02-24 15:32:03 -0600349 try
350 {
Patrick Williams48781ae2023-05-10 07:50:50 -0500351 util::DbusSubtree subtree = util::getSubTree(bus, INVENTORY_OBJ_PATH,
352 supportedConfIntf, 0);
Adriana Kobylake1074d82021-03-16 20:46:44 +0000353 if (subtree.empty())
Adriana Kobylak9bab9e12021-02-24 15:32:03 -0600354 {
355 throw std::runtime_error("Supported Configuration Not Found");
356 }
Adriana Kobylak9bab9e12021-02-24 15:32:03 -0600357
Adriana Kobylake1074d82021-03-16 20:46:44 +0000358 for (const auto& [objPath, services] : subtree)
359 {
360 std::string service = services.begin()->first;
361 if (objPath.empty() || service.empty())
362 {
363 continue;
Adriana Kobylak9bab9e12021-02-24 15:32:03 -0600364 }
Adriana Kobylake1074d82021-03-16 20:46:44 +0000365 auto properties = util::getAllProperties(
366 bus, objPath, supportedConfIntf, service);
367 populateSysProperties(properties);
Adriana Kobylak9bab9e12021-02-24 15:32:03 -0600368 }
369 }
Patrick Williamsc1d4de52021-10-06 12:45:57 -0500370 catch (const std::exception& e)
Adriana Kobylak9bab9e12021-02-24 15:32:03 -0600371 {
372 // Interface or property not found. Let the Interfaces Added callback
373 // process the information once the interfaces are added to D-Bus.
374 }
375}
376
Patrick Williams7354ce62022-07-22 19:26:56 -0500377void PSUManager::entityManagerIfaceAdded(sdbusplus::message_t& msg)
Adriana Kobylak9bab9e12021-02-24 15:32:03 -0600378{
379 try
380 {
381 sdbusplus::message::object_path objPath;
Adriana Kobylake1074d82021-03-16 20:46:44 +0000382 std::map<std::string, std::map<std::string, util::DbusVariant>>
Adriana Kobylak9bab9e12021-02-24 15:32:03 -0600383 interfaces;
384 msg.read(objPath, interfaces);
385
386 auto itIntf = interfaces.find(supportedConfIntf);
Brandon Wyman510acaa2020-11-05 18:32:04 -0600387 if (itIntf != interfaces.cend())
Adriana Kobylak9bab9e12021-02-24 15:32:03 -0600388 {
Brandon Wyman510acaa2020-11-05 18:32:04 -0600389 populateSysProperties(itIntf->second);
Brandon Wymanf477eb72022-07-28 16:30:54 +0000390 updateMissingPSUs();
Adriana Kobylak9bab9e12021-02-24 15:32:03 -0600391 }
392
Brandon Wyman510acaa2020-11-05 18:32:04 -0600393 itIntf = interfaces.find(IBMCFFPSInterface);
394 if (itIntf != interfaces.cend())
395 {
396 log<level::INFO>(
397 fmt::format("InterfacesAdded for: {}", IBMCFFPSInterface)
398 .c_str());
399 getPSUProperties(itIntf->second);
Brandon Wymanf477eb72022-07-28 16:30:54 +0000400 updateMissingPSUs();
Brandon Wyman510acaa2020-11-05 18:32:04 -0600401 }
Adriana Kobylak8f16fb52021-03-31 15:50:15 +0000402
403 // Call to validate the psu configuration if the power is on and both
404 // the IBMCFFPSConnector and SupportedConfiguration interfaces have been
405 // processed
406 if (powerOn && !psus.empty() && !supportedConfigs.empty())
407 {
Adriana Kobylaka4d38fa2021-10-05 19:57:47 +0000408 validationTimer->restartOnce(validationTimeout);
Adriana Kobylak8f16fb52021-03-31 15:50:15 +0000409 }
Adriana Kobylak9bab9e12021-02-24 15:32:03 -0600410 }
Patrick Williamsc1d4de52021-10-06 12:45:57 -0500411 catch (const std::exception& e)
Adriana Kobylak9bab9e12021-02-24 15:32:03 -0600412 {
413 // Ignore, the property may be of a different type than expected.
414 }
415}
416
Patrick Williams7354ce62022-07-22 19:26:56 -0500417void PSUManager::powerStateChanged(sdbusplus::message_t& msg)
Brandon Wymana0f33ce2019-10-17 18:32:29 -0500418{
Brandon Wymana0f33ce2019-10-17 18:32:29 -0500419 std::string msgSensor;
Jim Wrightaca86d02022-06-10 12:01:39 -0500420 std::map<std::string, std::variant<int>> msgData;
Brandon Wymana0f33ce2019-10-17 18:32:29 -0500421 msg.read(msgSensor, msgData);
422
Jim Wrightaca86d02022-06-10 12:01:39 -0500423 // Check if it was the state property that changed.
Brandon Wymana0f33ce2019-10-17 18:32:29 -0500424 auto valPropMap = msgData.find("state");
425 if (valPropMap != msgData.end())
426 {
Jim Wrightaca86d02022-06-10 12:01:39 -0500427 int state = std::get<int>(valPropMap->second);
Brandon Wymana0f33ce2019-10-17 18:32:29 -0500428 if (state)
429 {
Jim Wrightaca86d02022-06-10 12:01:39 -0500430 // Power on requested
Brandon Wymana0f33ce2019-10-17 18:32:29 -0500431 powerOn = true;
Jim Wrightaca86d02022-06-10 12:01:39 -0500432 powerFaultOccurring = false;
Adriana Kobylaka4d38fa2021-10-05 19:57:47 +0000433 validationTimer->restartOnce(validationTimeout);
Brandon Wymana0f33ce2019-10-17 18:32:29 -0500434 clearFaults();
Brandon Wyman49b8ec42022-04-20 21:18:33 +0000435 syncHistory();
Adriana Kobylakc0a07582021-10-13 15:52:25 +0000436 setPowerConfigGPIO();
Matt Spinlera068f422023-03-10 13:06:49 -0600437 setInputVoltageRating();
Brandon Wymana0f33ce2019-10-17 18:32:29 -0500438 }
439 else
440 {
Jim Wrightaca86d02022-06-10 12:01:39 -0500441 // Power off requested
Brandon Wymana0f33ce2019-10-17 18:32:29 -0500442 powerOn = false;
Jim Wrightaca86d02022-06-10 12:01:39 -0500443 powerFaultOccurring = false;
Adriana Kobylak8f16fb52021-03-31 15:50:15 +0000444 runValidateConfig = true;
Brandon Wymana0f33ce2019-10-17 18:32:29 -0500445 }
446 }
Jim Wrightaca86d02022-06-10 12:01:39 -0500447
448 // Check if it was the pgood property that changed.
449 valPropMap = msgData.find("pgood");
450 if (valPropMap != msgData.end())
451 {
452 int pgood = std::get<int>(valPropMap->second);
453 if (!pgood)
454 {
455 // Chassis power good has turned off
456 if (powerOn)
457 {
458 // pgood is off but state is on, in power fault window
459 powerFaultOccurring = true;
460 }
461 }
462 }
463 log<level::INFO>(
464 fmt::format(
465 "powerStateChanged: power on: {}, power fault occurring: {}",
466 powerOn, powerFaultOccurring)
467 .c_str());
Brandon Wymana0f33ce2019-10-17 18:32:29 -0500468}
469
Patrick Williams7354ce62022-07-22 19:26:56 -0500470void PSUManager::presenceChanged(sdbusplus::message_t& msg)
Adriana Kobylak9ba38232021-11-16 20:27:45 +0000471{
472 std::string msgSensor;
473 std::map<std::string, std::variant<uint32_t, bool>> msgData;
474 msg.read(msgSensor, msgData);
475
476 // Check if it was the Present property that changed.
477 auto valPropMap = msgData.find(PRESENT_PROP);
478 if (valPropMap != msgData.end())
479 {
480 if (std::get<bool>(valPropMap->second))
481 {
482 // A PSU became present, force the PSU validation to run.
483 runValidateConfig = true;
484 validationTimer->restartOnce(validationTimeout);
485 }
486 }
487}
488
Brandon Wyman10fc6e82022-02-08 20:51:22 +0000489void PSUManager::setPowerSupplyError(const std::string& psuErrorString)
490{
491 using namespace sdbusplus::xyz::openbmc_project;
Brandon Wyman10fc6e82022-02-08 20:51:22 +0000492 constexpr auto method = "setPowerSupplyError";
493
494 try
495 {
496 // Call D-Bus method to inform pseq of PSU error
Jim Wright5c186c82022-11-17 17:09:33 -0600497 auto methodMsg = bus.new_method_call(
498 powerService.c_str(), POWER_OBJ_PATH, POWER_IFACE, method);
Brandon Wyman10fc6e82022-02-08 20:51:22 +0000499 methodMsg.append(psuErrorString);
500 auto callReply = bus.call(methodMsg);
501 }
502 catch (const std::exception& e)
503 {
504 log<level::INFO>(
505 fmt::format("Failed calling setPowerSupplyError due to error {}",
506 e.what())
507 .c_str());
508 }
509}
510
Brandon Wyman8b662882021-10-08 17:31:51 +0000511void PSUManager::createError(const std::string& faultName,
512 std::map<std::string, std::string>& additionalData)
Brandon Wymanb76ab242020-09-16 18:06:06 -0500513{
514 using namespace sdbusplus::xyz::openbmc_project;
515 constexpr auto loggingObjectPath = "/xyz/openbmc_project/logging";
516 constexpr auto loggingCreateInterface =
517 "xyz.openbmc_project.Logging.Create";
518
519 try
520 {
Brandon Wyman8b662882021-10-08 17:31:51 +0000521 additionalData["_PID"] = std::to_string(getpid());
522
Patrick Williams48781ae2023-05-10 07:50:50 -0500523 auto service = util::getService(loggingObjectPath,
524 loggingCreateInterface, bus);
Brandon Wymanb76ab242020-09-16 18:06:06 -0500525
526 if (service.empty())
527 {
528 log<level::ERR>("Unable to get logging manager service");
529 return;
530 }
531
532 auto method = bus.new_method_call(service.c_str(), loggingObjectPath,
533 loggingCreateInterface, "Create");
534
535 auto level = Logging::server::Entry::Level::Error;
536 method.append(faultName, level, additionalData);
537
538 auto reply = bus.call(method);
Brandon Wyman10fc6e82022-02-08 20:51:22 +0000539 setPowerSupplyError(faultName);
Brandon Wymanb76ab242020-09-16 18:06:06 -0500540 }
Patrick Williamsc1d4de52021-10-06 12:45:57 -0500541 catch (const std::exception& e)
Brandon Wymanb76ab242020-09-16 18:06:06 -0500542 {
543 log<level::ERR>(
544 fmt::format(
545 "Failed creating event log for fault {} due to error {}",
546 faultName, e.what())
547 .c_str());
548 }
549}
550
Brandon Wyman18a24d92022-04-19 22:48:34 +0000551void PSUManager::syncHistory()
552{
Faisal Awadae9b37262023-07-30 21:02:16 -0500553 if (driverName != ACBEL_FSG032_DD_NAME)
Brandon Wyman18a24d92022-04-19 22:48:34 +0000554 {
Faisal Awadae9b37262023-07-30 21:02:16 -0500555 if (!syncHistoryGPIO)
Brandon Wyman18a24d92022-04-19 22:48:34 +0000556 {
Faisal Awadae9b37262023-07-30 21:02:16 -0500557 syncHistoryGPIO = createGPIO(INPUT_HISTORY_SYNC_GPIO);
558 }
559 if (syncHistoryGPIO)
560 {
561 const std::chrono::milliseconds delay{INPUT_HISTORY_SYNC_DELAY};
562 log<level::INFO>("Synchronize INPUT_HISTORY");
563 syncHistoryGPIO->toggleLowHigh(delay);
564 for (auto& psu : psus)
565 {
566 psu->clearSyncHistoryRequired();
567 }
568 log<level::INFO>("Synchronize INPUT_HISTORY completed");
Brandon Wyman18a24d92022-04-19 22:48:34 +0000569 }
570 }
Brandon Wyman18a24d92022-04-19 22:48:34 +0000571}
572
Brandon Wyman63ea78b2020-09-24 16:49:09 -0500573void PSUManager::analyze()
574{
Patrick Williams319b0dd2023-10-20 11:19:11 -0500575 auto syncHistoryRequired = std::any_of(
576 psus.begin(), psus.end(),
577 [](const auto& psu) { return psu->isSyncHistoryRequired(); });
Brandon Wyman18a24d92022-04-19 22:48:34 +0000578 if (syncHistoryRequired)
579 {
580 syncHistory();
581 }
582
Brandon Wyman63ea78b2020-09-24 16:49:09 -0500583 for (auto& psu : psus)
584 {
585 psu->analyze();
586 }
587
Jim Wright7f9288c2022-12-08 11:57:04 -0600588 analyzeBrownout();
Adriana Kobylake5b1e082022-03-02 15:37:32 +0000589
Jim Wrightcefe85f2022-11-18 09:57:47 -0600590 // Only perform individual PSU analysis if power is on and a brownout has
591 // not already been logged
592 if (powerOn && !brownoutLogged)
Brandon Wyman63ea78b2020-09-24 16:49:09 -0500593 {
Brandon Wyman3180f4d2020-12-08 17:53:46 -0600594 for (auto& psu : psus)
Brandon Wyman63ea78b2020-09-24 16:49:09 -0500595 {
Jim Wright7f9288c2022-12-08 11:57:04 -0600596 std::map<std::string, std::string> additionalData;
Brandon Wyman39ea02b2021-11-23 23:22:23 +0000597
Brandon Wyman3180f4d2020-12-08 17:53:46 -0600598 if (!psu->isFaultLogged() && !psu->isPresent())
599 {
Brandon Wymanda369c72021-10-08 18:43:30 +0000600 std::map<std::string, std::string> requiredPSUsData;
601 auto requiredPSUsPresent = hasRequiredPSUs(requiredPSUsData);
Shawn McCarney9252b7e2022-06-10 12:47:38 -0500602 if (!requiredPSUsPresent && isRequiredPSU(*psu))
Adriana Kobylakf2ba1462021-06-24 15:16:17 +0000603 {
Brandon Wymanda369c72021-10-08 18:43:30 +0000604 additionalData.merge(requiredPSUsData);
Adriana Kobylakf2ba1462021-06-24 15:16:17 +0000605 // Create error for power supply missing.
606 additionalData["CALLOUT_INVENTORY_PATH"] =
607 psu->getInventoryPath();
608 additionalData["CALLOUT_PRIORITY"] = "H";
609 createError(
610 "xyz.openbmc_project.Power.PowerSupply.Error.Missing",
611 additionalData);
612 }
Brandon Wyman3180f4d2020-12-08 17:53:46 -0600613 psu->setFaultLogged();
614 }
615 else if (!psu->isFaultLogged() && psu->isFaulted())
616 {
Brandon Wyman786b6f42021-10-12 20:21:41 +0000617 // Add STATUS_WORD and STATUS_MFR last response, in padded
618 // hexadecimal format.
Brandon Wyman3180f4d2020-12-08 17:53:46 -0600619 additionalData["STATUS_WORD"] =
Brandon Wyman786b6f42021-10-12 20:21:41 +0000620 fmt::format("{:#04x}", psu->getStatusWord());
Patrick Williams48781ae2023-05-10 07:50:50 -0500621 additionalData["STATUS_MFR"] = fmt::format("{:#02x}",
622 psu->getMFRFault());
Brandon Wyman3180f4d2020-12-08 17:53:46 -0600623 // If there are faults being reported, they possibly could be
624 // related to a bug in the firmware version running on the power
625 // supply. Capture that data into the error as well.
626 additionalData["FW_VERSION"] = psu->getFWVersion();
627
Brandon Wymanb85b9dd2021-10-19 21:25:17 +0000628 if (psu->hasCommFault())
629 {
Brandon Wyman85c7bf42021-10-19 22:28:48 +0000630 additionalData["STATUS_CML"] =
631 fmt::format("{:#02x}", psu->getStatusCML());
Brandon Wymanb85b9dd2021-10-19 21:25:17 +0000632 /* Attempts to communicate with the power supply have
633 * reached there limit. Create an error. */
634 additionalData["CALLOUT_DEVICE_PATH"] =
635 psu->getDevicePath();
636
637 createError(
638 "xyz.openbmc_project.Power.PowerSupply.Error.CommFault",
639 additionalData);
640
641 psu->setFaultLogged();
642 }
643 else if ((psu->hasInputFault() || psu->hasVINUVFault()))
Brandon Wyman3180f4d2020-12-08 17:53:46 -0600644 {
Brandon Wymanf07bc792021-10-12 19:00:35 +0000645 // Include STATUS_INPUT for input faults.
646 additionalData["STATUS_INPUT"] =
647 fmt::format("{:#02x}", psu->getStatusInput());
648
Brandon Wyman3180f4d2020-12-08 17:53:46 -0600649 /* The power supply location might be needed if the input
650 * fault is due to a problem with the power supply itself.
651 * Include the inventory path with a call out priority of
652 * low.
653 */
654 additionalData["CALLOUT_INVENTORY_PATH"] =
655 psu->getInventoryPath();
656 additionalData["CALLOUT_PRIORITY"] = "L";
657 createError("xyz.openbmc_project.Power.PowerSupply.Error."
658 "InputFault",
659 additionalData);
660 psu->setFaultLogged();
661 }
Brandon Wyman39ea02b2021-11-23 23:22:23 +0000662 else if (psu->hasPSKillFault())
663 {
664 createError(
665 "xyz.openbmc_project.Power.PowerSupply.Error.PSKillFault",
666 additionalData);
667 psu->setFaultLogged();
668 }
Brandon Wyman6710ba22021-10-27 17:39:31 +0000669 else if (psu->hasVoutOVFault())
670 {
671 // Include STATUS_VOUT for Vout faults.
672 additionalData["STATUS_VOUT"] =
673 fmt::format("{:#02x}", psu->getStatusVout());
674
675 additionalData["CALLOUT_INVENTORY_PATH"] =
676 psu->getInventoryPath();
677
678 createError(
679 "xyz.openbmc_project.Power.PowerSupply.Error.Fault",
680 additionalData);
681
682 psu->setFaultLogged();
683 }
Brandon Wymanb10b3be2021-11-09 22:12:15 +0000684 else if (psu->hasIoutOCFault())
685 {
686 // Include STATUS_IOUT for Iout faults.
687 additionalData["STATUS_IOUT"] =
688 fmt::format("{:#02x}", psu->getStatusIout());
689
690 createError(
691 "xyz.openbmc_project.Power.PowerSupply.Error.IoutOCFault",
692 additionalData);
693
694 psu->setFaultLogged();
695 }
Brandon Wyman39ea02b2021-11-23 23:22:23 +0000696 else if (psu->hasVoutUVFault() || psu->hasPS12VcsFault() ||
697 psu->hasPSCS12VFault())
Brandon Wyman2cf46942021-10-28 19:09:16 +0000698 {
699 // Include STATUS_VOUT for Vout faults.
700 additionalData["STATUS_VOUT"] =
701 fmt::format("{:#02x}", psu->getStatusVout());
702
703 additionalData["CALLOUT_INVENTORY_PATH"] =
704 psu->getInventoryPath();
705
706 createError(
707 "xyz.openbmc_project.Power.PowerSupply.Error.Fault",
708 additionalData);
709
710 psu->setFaultLogged();
711 }
Brandon Wyman7ee4d7e2021-11-19 20:48:23 +0000712 // A fan fault should have priority over a temperature fault,
713 // since a failed fan may lead to a temperature problem.
Jim Wrightaca86d02022-06-10 12:01:39 -0500714 // Only process if not in power fault window.
715 else if (psu->hasFanFault() && !powerFaultOccurring)
Brandon Wyman7ee4d7e2021-11-19 20:48:23 +0000716 {
717 // Include STATUS_TEMPERATURE and STATUS_FANS_1_2
718 additionalData["STATUS_TEMPERATURE"] =
719 fmt::format("{:#02x}", psu->getStatusTemperature());
720 additionalData["STATUS_FANS_1_2"] =
721 fmt::format("{:#02x}", psu->getStatusFans12());
722
723 additionalData["CALLOUT_INVENTORY_PATH"] =
724 psu->getInventoryPath();
725
726 createError(
727 "xyz.openbmc_project.Power.PowerSupply.Error.FanFault",
728 additionalData);
729
730 psu->setFaultLogged();
731 }
Brandon Wyman96893a42021-11-05 19:56:57 +0000732 else if (psu->hasTempFault())
733 {
734 // Include STATUS_TEMPERATURE for temperature faults.
735 additionalData["STATUS_TEMPERATURE"] =
736 fmt::format("{:#02x}", psu->getStatusTemperature());
737
738 additionalData["CALLOUT_INVENTORY_PATH"] =
739 psu->getInventoryPath();
740
741 createError(
742 "xyz.openbmc_project.Power.PowerSupply.Error.Fault",
743 additionalData);
744
745 psu->setFaultLogged();
746 }
Brandon Wyman3180f4d2020-12-08 17:53:46 -0600747 else if (psu->hasMFRFault())
748 {
749 /* This can represent a variety of faults that result in
750 * calling out the power supply for replacement: Output
751 * OverCurrent, Output Under Voltage, and potentially other
752 * faults.
753 *
754 * Also plan on putting specific fault in AdditionalData,
755 * along with register names and register values
756 * (STATUS_WORD, STATUS_MFR, etc.).*/
757
758 additionalData["CALLOUT_INVENTORY_PATH"] =
759 psu->getInventoryPath();
760
761 createError(
762 "xyz.openbmc_project.Power.PowerSupply.Error.Fault",
Brandon Wyman52e54e82020-10-08 14:44:58 -0500763 additionalData);
Brandon Wyman63ea78b2020-09-24 16:49:09 -0500764
Brandon Wyman3180f4d2020-12-08 17:53:46 -0600765 psu->setFaultLogged();
766 }
Jim Wrightaca86d02022-06-10 12:01:39 -0500767 // Only process if not in power fault window.
768 else if (psu->hasPgoodFault() && !powerFaultOccurring)
Brandon Wyman2916ea52021-11-06 03:31:18 +0000769 {
770 /* POWER_GOOD# is not low, or OFF is on */
771 additionalData["CALLOUT_INVENTORY_PATH"] =
772 psu->getInventoryPath();
773
774 createError(
775 "xyz.openbmc_project.Power.PowerSupply.Error.Fault",
776 additionalData);
777
778 psu->setFaultLogged();
779 }
Brandon Wyman4176d6b2020-10-07 17:41:06 -0500780 }
Brandon Wyman63ea78b2020-09-24 16:49:09 -0500781 }
782 }
783}
784
Jim Wright7f9288c2022-12-08 11:57:04 -0600785void PSUManager::analyzeBrownout()
786{
787 // Count number of power supplies failing
788 size_t presentCount = 0;
789 size_t notPresentCount = 0;
790 size_t acFailedCount = 0;
791 size_t pgoodFailedCount = 0;
792 for (const auto& psu : psus)
793 {
794 if (psu->isPresent())
795 {
796 ++presentCount;
797 if (psu->hasACFault())
798 {
799 ++acFailedCount;
800 }
801 else if (psu->hasPgoodFault())
802 {
803 ++pgoodFailedCount;
804 }
805 }
806 else
807 {
808 ++notPresentCount;
809 }
810 }
811
812 // Only issue brownout failure if chassis pgood has failed, it has not
813 // already been logged, at least one PSU has seen an AC fail, and all
814 // present PSUs have an AC or pgood failure. Note an AC fail is only set if
815 // at least one PSU is present.
816 if (powerFaultOccurring && !brownoutLogged && acFailedCount &&
817 (presentCount == (acFailedCount + pgoodFailedCount)))
818 {
819 // Indicate that the system is in a brownout condition by creating an
820 // error log and setting the PowerSystemInputs status property to Fault.
821 powerSystemInputs.status(
822 sdbusplus::xyz::openbmc_project::State::Decorator::server::
823 PowerSystemInputs::Status::Fault);
824
825 std::map<std::string, std::string> additionalData;
826 additionalData.emplace("NOT_PRESENT_COUNT",
827 std::to_string(notPresentCount));
828 additionalData.emplace("VIN_FAULT_COUNT",
829 std::to_string(acFailedCount));
830 additionalData.emplace("PGOOD_FAULT_COUNT",
831 std::to_string(pgoodFailedCount));
832 log<level::INFO>(
833 fmt::format(
834 "Brownout detected, not present count: {}, AC fault count {}, pgood fault count: {}",
835 notPresentCount, acFailedCount, pgoodFailedCount)
836 .c_str());
837
838 createError("xyz.openbmc_project.State.Shutdown.Power.Error.Blackout",
839 additionalData);
840 brownoutLogged = true;
841 }
842 else
843 {
844 // If a brownout was previously logged but at least one PSU is not
845 // currently in AC fault, determine if the brownout condition can be
846 // cleared
847 if (brownoutLogged && (acFailedCount < presentCount))
848 {
849 // Chassis only recognizes the PowerSystemInputs change when it is
850 // off
851 try
852 {
853 using PowerState = sdbusplus::xyz::openbmc_project::State::
854 server::Chassis::PowerState;
855 PowerState currentPowerState;
856 util::getProperty<PowerState>(
857 "xyz.openbmc_project.State.Chassis", "CurrentPowerState",
858 "/xyz/openbmc_project/state/chassis0",
859 "xyz.openbmc_project.State.Chassis", bus,
860 currentPowerState);
861
862 if (currentPowerState == PowerState::Off)
863 {
864 // Indicate that the system is no longer in a brownout
865 // condition by setting the PowerSystemInputs status
866 // property to Good.
867 log<level::INFO>(
868 fmt::format(
869 "Brownout cleared, not present count: {}, AC fault count {}, pgood fault count: {}",
870 notPresentCount, acFailedCount, pgoodFailedCount)
871 .c_str());
872 powerSystemInputs.status(
873 sdbusplus::xyz::openbmc_project::State::Decorator::
874 server::PowerSystemInputs::Status::Good);
875 brownoutLogged = false;
876 }
877 }
878 catch (const std::exception& e)
879 {
880 log<level::ERR>(
881 fmt::format("Error trying to clear brownout, error: {}",
882 e.what())
883 .c_str());
884 }
885 }
886 }
887}
888
Brandon Wyman64e97752022-06-03 23:50:13 +0000889void PSUManager::updateMissingPSUs()
890{
891 if (supportedConfigs.empty() || psus.empty())
892 {
893 return;
894 }
895
896 // Power supplies default to missing. If the power supply is present,
897 // the PowerSupply object will update the inventory Present property to
898 // true. If we have less than the required number of power supplies, and
899 // this power supply is missing, update the inventory Present property
900 // to false to indicate required power supply is missing. Avoid
901 // indicating power supply missing if not required.
902
903 auto presentCount =
904 std::count_if(psus.begin(), psus.end(),
905 [](const auto& psu) { return psu->isPresent(); });
906
907 for (const auto& config : supportedConfigs)
908 {
909 for (const auto& psu : psus)
910 {
911 auto psuModel = psu->getModelName();
912 auto psuShortName = psu->getShortName();
913 auto psuInventoryPath = psu->getInventoryPath();
914 auto relativeInvPath =
915 psuInventoryPath.substr(strlen(INVENTORY_OBJ_PATH));
916 auto psuPresent = psu->isPresent();
917 auto presProperty = false;
918 auto propReadFail = false;
919
920 try
921 {
922 presProperty = getPresence(bus, psuInventoryPath);
923 propReadFail = false;
924 }
Patrick Williams7354ce62022-07-22 19:26:56 -0500925 catch (const sdbusplus::exception_t& e)
Brandon Wyman64e97752022-06-03 23:50:13 +0000926 {
927 propReadFail = true;
928 // Relying on property change or interface added to retry.
929 // Log an informational trace to the journal.
930 log<level::INFO>(
931 fmt::format("D-Bus property {} access failure exception",
932 psuInventoryPath)
933 .c_str());
934 }
935
936 if (psuModel.empty())
937 {
938 if (!propReadFail && (presProperty != psuPresent))
939 {
940 // We already have this property, and it is not false
941 // set Present to false
942 setPresence(bus, relativeInvPath, psuPresent, psuShortName);
943 }
944 continue;
945 }
946
947 if (config.first != psuModel)
948 {
949 continue;
950 }
951
952 if ((presentCount < config.second.powerSupplyCount) && !psuPresent)
953 {
954 setPresence(bus, relativeInvPath, psuPresent, psuShortName);
955 }
956 }
957 }
958}
959
Adriana Kobylak8f16fb52021-03-31 15:50:15 +0000960void PSUManager::validateConfig()
961{
Adriana Kobylakb23e4432022-04-01 14:22:47 +0000962 if (!runValidateConfig || supportedConfigs.empty() || psus.empty())
Adriana Kobylak8f16fb52021-03-31 15:50:15 +0000963 {
964 return;
965 }
966
Brandon Wyman9666ddf2022-04-27 21:53:14 +0000967 for (const auto& psu : psus)
968 {
969 if ((psu->hasInputFault() || psu->hasVINUVFault()))
970 {
971 // Do not try to validate if input voltage fault present.
972 validationTimer->restartOnce(validationTimeout);
973 return;
974 }
975 }
976
Adriana Kobylak4d9aaf92021-06-30 15:27:42 +0000977 std::map<std::string, std::string> additionalData;
978 auto supported = hasRequiredPSUs(additionalData);
979 if (supported)
980 {
981 runValidateConfig = false;
Faisal Awadac6fa6662023-04-25 22:43:01 -0500982 double actualVoltage;
983 int inputVoltage;
984 int previousInputVoltage = 0;
985 bool voltageMismatch = false;
986
987 for (const auto& psu : psus)
988 {
989 if (!psu->isPresent())
990 {
991 // Only present PSUs report a valid input voltage
992 continue;
993 }
994 psu->getInputVoltage(actualVoltage, inputVoltage);
995 if (previousInputVoltage && inputVoltage &&
996 (previousInputVoltage != inputVoltage))
997 {
998 additionalData["EXPECTED_VOLTAGE"] =
999 std::to_string(previousInputVoltage);
1000 additionalData["ACTUAL_VOLTAGE"] =
1001 std::to_string(actualVoltage);
1002 voltageMismatch = true;
1003 }
1004 if (!previousInputVoltage && inputVoltage)
1005 {
1006 previousInputVoltage = inputVoltage;
1007 }
1008 }
1009 if (!voltageMismatch)
1010 {
1011 return;
1012 }
Adriana Kobylak4d9aaf92021-06-30 15:27:42 +00001013 }
1014
1015 // Validation failed, create an error log.
1016 // Return without setting the runValidateConfig flag to false because
1017 // it may be that an additional supported configuration interface is
1018 // added and we need to validate it to see if it matches this system.
1019 createError("xyz.openbmc_project.Power.PowerSupply.Error.NotSupported",
1020 additionalData);
1021}
1022
1023bool PSUManager::hasRequiredPSUs(
1024 std::map<std::string, std::string>& additionalData)
1025{
Adriana Kobylak8f16fb52021-03-31 15:50:15 +00001026 std::string model{};
Adriana Kobylak523704d2021-09-21 15:55:41 +00001027 if (!validateModelName(model, additionalData))
Adriana Kobylak8f16fb52021-03-31 15:50:15 +00001028 {
Adriana Kobylak523704d2021-09-21 15:55:41 +00001029 return false;
Adriana Kobylak8f16fb52021-03-31 15:50:15 +00001030 }
Adriana Kobylak70e7f932021-06-10 18:53:56 +00001031
Adriana Kobylak4d9aaf92021-06-30 15:27:42 +00001032 auto presentCount =
1033 std::count_if(psus.begin(), psus.end(),
1034 [](const auto& psu) { return psu->isPresent(); });
1035
Adriana Kobylak70e7f932021-06-10 18:53:56 +00001036 // Validate the supported configurations. A system may support more than one
Adriana Kobylak4175ffb2021-08-02 14:51:05 +00001037 // power supply model configuration. Since all configurations need to be
1038 // checked, the additional data would contain only the information of the
1039 // last configuration that did not match.
1040 std::map<std::string, std::string> tmpAdditionalData;
Adriana Kobylak70e7f932021-06-10 18:53:56 +00001041 for (const auto& config : supportedConfigs)
1042 {
Adriana Kobylak4d9aaf92021-06-30 15:27:42 +00001043 if (config.first != model)
Adriana Kobylak70e7f932021-06-10 18:53:56 +00001044 {
1045 continue;
1046 }
Brandon Wyman64e97752022-06-03 23:50:13 +00001047
Jim Wright941b60d2022-10-19 16:22:17 -05001048 // Number of power supplies present should equal or exceed the expected
1049 // count
1050 if (presentCount < config.second.powerSupplyCount)
Adriana Kobylak70e7f932021-06-10 18:53:56 +00001051 {
Adriana Kobylak4175ffb2021-08-02 14:51:05 +00001052 tmpAdditionalData.clear();
1053 tmpAdditionalData["EXPECTED_COUNT"] =
Adriana Kobylak70e7f932021-06-10 18:53:56 +00001054 std::to_string(config.second.powerSupplyCount);
Adriana Kobylak4175ffb2021-08-02 14:51:05 +00001055 tmpAdditionalData["ACTUAL_COUNT"] = std::to_string(presentCount);
Adriana Kobylak70e7f932021-06-10 18:53:56 +00001056 continue;
1057 }
Adriana Kobylak4175ffb2021-08-02 14:51:05 +00001058
1059 bool voltageValidated = true;
1060 for (const auto& psu : psus)
1061 {
1062 if (!psu->isPresent())
1063 {
1064 // Only present PSUs report a valid input voltage
1065 continue;
1066 }
1067
1068 double actualInputVoltage;
1069 int inputVoltage;
1070 psu->getInputVoltage(actualInputVoltage, inputVoltage);
1071
1072 if (std::find(config.second.inputVoltage.begin(),
1073 config.second.inputVoltage.end(),
1074 inputVoltage) == config.second.inputVoltage.end())
1075 {
1076 tmpAdditionalData.clear();
1077 tmpAdditionalData["ACTUAL_VOLTAGE"] =
1078 std::to_string(actualInputVoltage);
1079 for (const auto& voltage : config.second.inputVoltage)
1080 {
1081 tmpAdditionalData["EXPECTED_VOLTAGE"] +=
1082 std::to_string(voltage) + " ";
1083 }
1084 tmpAdditionalData["CALLOUT_INVENTORY_PATH"] =
1085 psu->getInventoryPath();
1086
1087 voltageValidated = false;
1088 break;
1089 }
1090 }
1091 if (!voltageValidated)
1092 {
1093 continue;
1094 }
1095
Adriana Kobylak4d9aaf92021-06-30 15:27:42 +00001096 return true;
Adriana Kobylak70e7f932021-06-10 18:53:56 +00001097 }
Adriana Kobylak70e7f932021-06-10 18:53:56 +00001098
Adriana Kobylak4175ffb2021-08-02 14:51:05 +00001099 additionalData.insert(tmpAdditionalData.begin(), tmpAdditionalData.end());
Adriana Kobylak4d9aaf92021-06-30 15:27:42 +00001100 return false;
Adriana Kobylak8f16fb52021-03-31 15:50:15 +00001101}
1102
Shawn McCarney9252b7e2022-06-10 12:47:38 -05001103unsigned int PSUManager::getRequiredPSUCount()
1104{
1105 unsigned int requiredCount{0};
1106
1107 // Verify we have the supported configuration and PSU information
1108 if (!supportedConfigs.empty() && !psus.empty())
1109 {
1110 // Find PSU models. They should all be the same.
1111 std::set<std::string> models{};
1112 std::for_each(psus.begin(), psus.end(), [&models](const auto& psu) {
1113 if (!psu->getModelName().empty())
1114 {
1115 models.insert(psu->getModelName());
1116 }
1117 });
1118
1119 // If exactly one model was found, find corresponding configuration
1120 if (models.size() == 1)
1121 {
1122 const std::string& model = *(models.begin());
1123 auto it = supportedConfigs.find(model);
1124 if (it != supportedConfigs.end())
1125 {
1126 requiredCount = it->second.powerSupplyCount;
1127 }
1128 }
1129 }
1130
1131 return requiredCount;
1132}
1133
1134bool PSUManager::isRequiredPSU(const PowerSupply& psu)
1135{
1136 // Get required number of PSUs; if not found, we don't know if PSU required
1137 unsigned int requiredCount = getRequiredPSUCount();
1138 if (requiredCount == 0)
1139 {
1140 return false;
1141 }
1142
1143 // If total PSU count <= the required count, all PSUs are required
1144 if (psus.size() <= requiredCount)
1145 {
1146 return true;
1147 }
1148
1149 // We don't currently get information from EntityManager about which PSUs
1150 // are required, so we have to do some guesswork. First check if this PSU
1151 // is present. If so, assume it is required.
1152 if (psu.isPresent())
1153 {
1154 return true;
1155 }
1156
1157 // This PSU is not present. Count the number of other PSUs that are
1158 // present. If enough other PSUs are present, assume the specified PSU is
1159 // not required.
1160 unsigned int psuCount =
1161 std::count_if(psus.begin(), psus.end(),
1162 [](const auto& psu) { return psu->isPresent(); });
1163 if (psuCount >= requiredCount)
1164 {
1165 return false;
1166 }
1167
1168 // Check if this PSU was previously present. If so, assume it is required.
1169 // We know it was previously present if it has a non-empty model name.
1170 if (!psu.getModelName().empty())
1171 {
1172 return true;
1173 }
1174
1175 // This PSU was never present. Count the number of other PSUs that were
1176 // previously present. If including those PSUs is enough, assume the
1177 // specified PSU is not required.
1178 psuCount += std::count_if(psus.begin(), psus.end(), [](const auto& psu) {
1179 return (!psu->isPresent() && !psu->getModelName().empty());
1180 });
1181 if (psuCount >= requiredCount)
1182 {
1183 return false;
1184 }
1185
1186 // We still haven't found enough PSUs. Sort the inventory paths of PSUs
1187 // that were never present. PSU inventory paths typically end with the PSU
1188 // number (0, 1, 2, ...). Assume that lower-numbered PSUs are required.
1189 std::vector<std::string> sortedPaths;
1190 std::for_each(psus.begin(), psus.end(), [&sortedPaths](const auto& psu) {
1191 if (!psu->isPresent() && psu->getModelName().empty())
1192 {
1193 sortedPaths.push_back(psu->getInventoryPath());
1194 }
1195 });
1196 std::sort(sortedPaths.begin(), sortedPaths.end());
1197
1198 // Check if specified PSU is close enough to start of list to be required
1199 for (const auto& path : sortedPaths)
1200 {
1201 if (path == psu.getInventoryPath())
1202 {
1203 return true;
1204 }
1205 if (++psuCount >= requiredCount)
1206 {
1207 break;
1208 }
1209 }
1210
1211 // PSU was not close to start of sorted list; assume not required
1212 return false;
1213}
1214
Adriana Kobylak523704d2021-09-21 15:55:41 +00001215bool PSUManager::validateModelName(
1216 std::string& model, std::map<std::string, std::string>& additionalData)
1217{
1218 // Check that all PSUs have the same model name. Initialize the model
1219 // variable with the first PSU name found, then use it as a base to compare
Adriana Kobylakb70eae92022-01-20 22:09:56 +00001220 // against the rest of the PSUs and get its inventory path to use as callout
1221 // if needed.
Adriana Kobylak523704d2021-09-21 15:55:41 +00001222 model.clear();
Adriana Kobylakb70eae92022-01-20 22:09:56 +00001223 std::string modelInventoryPath{};
Adriana Kobylak523704d2021-09-21 15:55:41 +00001224 for (const auto& psu : psus)
1225 {
1226 auto psuModel = psu->getModelName();
1227 if (psuModel.empty())
1228 {
1229 continue;
1230 }
1231 if (model.empty())
1232 {
1233 model = psuModel;
Adriana Kobylakb70eae92022-01-20 22:09:56 +00001234 modelInventoryPath = psu->getInventoryPath();
Adriana Kobylak523704d2021-09-21 15:55:41 +00001235 continue;
1236 }
1237 if (psuModel != model)
1238 {
Adriana Kobylakb70eae92022-01-20 22:09:56 +00001239 if (supportedConfigs.find(model) != supportedConfigs.end())
1240 {
1241 // The base model is supported, callout the mismatched PSU. The
1242 // mismatched PSU may or may not be supported.
1243 additionalData["EXPECTED_MODEL"] = model;
1244 additionalData["ACTUAL_MODEL"] = psuModel;
1245 additionalData["CALLOUT_INVENTORY_PATH"] =
1246 psu->getInventoryPath();
1247 }
1248 else if (supportedConfigs.find(psuModel) != supportedConfigs.end())
1249 {
1250 // The base model is not supported, but the mismatched PSU is,
1251 // callout the base PSU.
1252 additionalData["EXPECTED_MODEL"] = psuModel;
1253 additionalData["ACTUAL_MODEL"] = model;
1254 additionalData["CALLOUT_INVENTORY_PATH"] = modelInventoryPath;
1255 }
1256 else
1257 {
1258 // The base model and the mismatched PSU are not supported or
1259 // could not be found in the supported configuration, callout
1260 // the mismatched PSU.
1261 additionalData["EXPECTED_MODEL"] = model;
1262 additionalData["ACTUAL_MODEL"] = psuModel;
1263 additionalData["CALLOUT_INVENTORY_PATH"] =
1264 psu->getInventoryPath();
1265 }
Adriana Kobylak523704d2021-09-21 15:55:41 +00001266 model.clear();
1267 return false;
1268 }
1269 }
1270 return true;
1271}
1272
Adriana Kobylakc0a07582021-10-13 15:52:25 +00001273void PSUManager::setPowerConfigGPIO()
1274{
1275 if (!powerConfigGPIO)
1276 {
1277 return;
1278 }
1279
1280 std::string model{};
1281 std::map<std::string, std::string> additionalData;
1282 if (!validateModelName(model, additionalData))
1283 {
1284 return;
1285 }
1286
1287 auto config = supportedConfigs.find(model);
1288 if (config != supportedConfigs.end())
1289 {
1290 // The power-config-full-load is an open drain GPIO. Set it to low (0)
1291 // if the supported configuration indicates that this system model
1292 // expects the maximum number of power supplies (full load set to true).
1293 // Else, set it to high (1), this is the default.
1294 auto powerConfigValue =
1295 (config->second.powerConfigFullLoad == true ? 0 : 1);
1296 auto flags = gpiod::line_request::FLAG_OPEN_DRAIN;
1297 powerConfigGPIO->write(powerConfigValue, flags);
1298 }
1299}
1300
Faisal Awadab66ae502023-04-01 18:30:32 -05001301void PSUManager::buildDriverName(uint64_t i2cbus, uint64_t i2caddr)
1302{
1303 namespace fs = std::filesystem;
1304 std::stringstream ss;
1305 ss << std::hex << std::setw(4) << std::setfill('0') << i2caddr;
Patrick Williams48781ae2023-05-10 07:50:50 -05001306 std::string symLinkPath = deviceDirPath + std::to_string(i2cbus) + "-" +
1307 ss.str() + driverDirName;
Faisal Awadab66ae502023-04-01 18:30:32 -05001308 try
1309 {
1310 fs::path linkStrPath = fs::read_symlink(symLinkPath);
1311 driverName = linkStrPath.filename();
1312 }
1313 catch (const std::exception& e)
1314 {
1315 log<level::ERR>(fmt::format("Failed to find device driver {}, error {}",
1316 symLinkPath, e.what())
1317 .c_str());
1318 }
1319}
Faisal Awadab7131a12023-10-26 19:38:45 -05001320
1321void PSUManager::populateDriverName()
1322{
1323 std::string driverName;
1324 // Search in PSUs for driver name
1325 std::for_each(psus.begin(), psus.end(), [&driverName](auto& psu) {
1326 if (!psu->getDriverName().empty())
1327 {
1328 driverName = psu->getDriverName();
1329 }
1330 });
1331 // Assign driver name to all PSUs
1332 std::for_each(psus.begin(), psus.end(),
1333 [=](auto& psu) { psu->setDriverName(driverName); });
1334}
Brandon Wyman63ea78b2020-09-24 16:49:09 -05001335} // namespace phosphor::power::manager