1*9ed0f38eSFaisal Awada #include "config.h"
2*9ed0f38eSFaisal Awada
3*9ed0f38eSFaisal Awada #include "new_power_supply.hpp"
4*9ed0f38eSFaisal Awada
5*9ed0f38eSFaisal Awada #include "types.hpp"
6*9ed0f38eSFaisal Awada #include "util.hpp"
7*9ed0f38eSFaisal Awada
8*9ed0f38eSFaisal Awada #include <phosphor-logging/lg2.hpp>
9*9ed0f38eSFaisal Awada #include <xyz/openbmc_project/Common/Device/error.hpp>
10*9ed0f38eSFaisal Awada
11*9ed0f38eSFaisal Awada #include <chrono> // sleep_for()
12*9ed0f38eSFaisal Awada #include <cmath>
13*9ed0f38eSFaisal Awada #include <cstdint> // uint8_t...
14*9ed0f38eSFaisal Awada #include <format>
15*9ed0f38eSFaisal Awada #include <fstream>
16*9ed0f38eSFaisal Awada #include <regex>
17*9ed0f38eSFaisal Awada #include <thread> // sleep_for()
18*9ed0f38eSFaisal Awada
19*9ed0f38eSFaisal Awada namespace phosphor::power::psu
20*9ed0f38eSFaisal Awada {
21*9ed0f38eSFaisal Awada // Amount of time in milliseconds to delay between power supply going from
22*9ed0f38eSFaisal Awada // missing to present before running the bind command(s).
23*9ed0f38eSFaisal Awada constexpr auto bindDelay = 1000;
24*9ed0f38eSFaisal Awada
25*9ed0f38eSFaisal Awada using namespace sdbusplus::xyz::openbmc_project::Common::Device::Error;
26*9ed0f38eSFaisal Awada
PowerSupply(sdbusplus::bus_t & bus,const std::string & invpath,std::uint8_t i2cbus,std::uint16_t i2caddr,const std::string & driver,const std::string & gpioLineName,std::function<bool ()> && callback,const std::string & chassisShortName)27*9ed0f38eSFaisal Awada PowerSupply::PowerSupply(
28*9ed0f38eSFaisal Awada sdbusplus::bus_t& bus, const std::string& invpath, std::uint8_t i2cbus,
29*9ed0f38eSFaisal Awada std::uint16_t i2caddr, const std::string& driver,
30*9ed0f38eSFaisal Awada const std::string& gpioLineName, std::function<bool()>&& callback,
31*9ed0f38eSFaisal Awada const std::string& chassisShortName) :
32*9ed0f38eSFaisal Awada bus(bus), inventoryPath(invpath),
33*9ed0f38eSFaisal Awada bindPath("/sys/bus/i2c/drivers/" + driver), isPowerOn(std::move(callback)),
34*9ed0f38eSFaisal Awada driverName(driver), chassisName(chassisShortName)
35*9ed0f38eSFaisal Awada {
36*9ed0f38eSFaisal Awada if (inventoryPath.empty())
37*9ed0f38eSFaisal Awada {
38*9ed0f38eSFaisal Awada throw std::invalid_argument{"Invalid empty inventoryPath"};
39*9ed0f38eSFaisal Awada }
40*9ed0f38eSFaisal Awada
41*9ed0f38eSFaisal Awada if (gpioLineName.empty())
42*9ed0f38eSFaisal Awada {
43*9ed0f38eSFaisal Awada throw std::invalid_argument{"Invalid empty gpioLineName"};
44*9ed0f38eSFaisal Awada }
45*9ed0f38eSFaisal Awada
46*9ed0f38eSFaisal Awada shortName = findShortName(inventoryPath);
47*9ed0f38eSFaisal Awada
48*9ed0f38eSFaisal Awada lg2::debug("{SHORT_NAME} gpioLineName: {GPIO_LINE_NAME}", "SHORT_NAME",
49*9ed0f38eSFaisal Awada shortName, "GPIO_LINE_NAME", gpioLineName);
50*9ed0f38eSFaisal Awada presenceGPIO = createGPIO(gpioLineName);
51*9ed0f38eSFaisal Awada
52*9ed0f38eSFaisal Awada std::ostringstream ss;
53*9ed0f38eSFaisal Awada ss << std::hex << std::setw(4) << std::setfill('0') << i2caddr;
54*9ed0f38eSFaisal Awada std::string addrStr = ss.str();
55*9ed0f38eSFaisal Awada std::string busStr = std::to_string(i2cbus);
56*9ed0f38eSFaisal Awada bindDevice = busStr;
57*9ed0f38eSFaisal Awada bindDevice.append("-");
58*9ed0f38eSFaisal Awada bindDevice.append(addrStr);
59*9ed0f38eSFaisal Awada
60*9ed0f38eSFaisal Awada pmbusIntf = phosphor::pmbus::createPMBus(i2cbus, addrStr);
61*9ed0f38eSFaisal Awada
62*9ed0f38eSFaisal Awada // Get the current state of the Present property.
63*9ed0f38eSFaisal Awada try
64*9ed0f38eSFaisal Awada {
65*9ed0f38eSFaisal Awada updatePresenceGPIO();
66*9ed0f38eSFaisal Awada }
67*9ed0f38eSFaisal Awada catch (...)
68*9ed0f38eSFaisal Awada {
69*9ed0f38eSFaisal Awada // If the above attempt to use the GPIO failed, it likely means that the
70*9ed0f38eSFaisal Awada // GPIOs are in use by the kernel, meaning it is using gpio-keys.
71*9ed0f38eSFaisal Awada // So, I should rely on phosphor-gpio-presence to update D-Bus, and
72*9ed0f38eSFaisal Awada // work that way for power supply presence.
73*9ed0f38eSFaisal Awada presenceGPIO = nullptr;
74*9ed0f38eSFaisal Awada // Setup the functions to call when the D-Bus inventory path for the
75*9ed0f38eSFaisal Awada // Present property changes.
76*9ed0f38eSFaisal Awada presentMatch = std::make_unique<sdbusplus::bus::match_t>(
77*9ed0f38eSFaisal Awada bus,
78*9ed0f38eSFaisal Awada sdbusplus::bus::match::rules::propertiesChanged(inventoryPath,
79*9ed0f38eSFaisal Awada INVENTORY_IFACE),
80*9ed0f38eSFaisal Awada [this](auto& msg) { this->inventoryChanged(msg); });
81*9ed0f38eSFaisal Awada
82*9ed0f38eSFaisal Awada presentAddedMatch = std::make_unique<sdbusplus::bus::match_t>(
83*9ed0f38eSFaisal Awada bus,
84*9ed0f38eSFaisal Awada sdbusplus::bus::match::rules::interfacesAdded() +
85*9ed0f38eSFaisal Awada sdbusplus::bus::match::rules::argNpath(0, inventoryPath),
86*9ed0f38eSFaisal Awada [this](auto& msg) { this->inventoryAdded(msg); });
87*9ed0f38eSFaisal Awada
88*9ed0f38eSFaisal Awada updatePresence();
89*9ed0f38eSFaisal Awada updateInventory();
90*9ed0f38eSFaisal Awada setupSensors();
91*9ed0f38eSFaisal Awada }
92*9ed0f38eSFaisal Awada try
93*9ed0f38eSFaisal Awada {
94*9ed0f38eSFaisal Awada setInputVoltageRating();
95*9ed0f38eSFaisal Awada }
96*9ed0f38eSFaisal Awada catch (const std::exception& e)
97*9ed0f38eSFaisal Awada {
98*9ed0f38eSFaisal Awada lg2::info("setInputVoltageRating exception: {ERR}", "ERR", e);
99*9ed0f38eSFaisal Awada }
100*9ed0f38eSFaisal Awada }
101*9ed0f38eSFaisal Awada
PowerSupply(sdbusplus::bus_t & bus,const std::string & invpath,std::uint8_t i2cbus,std::uint16_t i2caddr,const std::string & driver,const std::string & gpioLineName,std::function<bool ()> && callback)102*9ed0f38eSFaisal Awada PowerSupply::PowerSupply(
103*9ed0f38eSFaisal Awada sdbusplus::bus_t& bus, const std::string& invpath, std::uint8_t i2cbus,
104*9ed0f38eSFaisal Awada std::uint16_t i2caddr, const std::string& driver,
105*9ed0f38eSFaisal Awada const std::string& gpioLineName, std::function<bool()>&& callback) :
106*9ed0f38eSFaisal Awada PowerSupply(bus, invpath, i2cbus, i2caddr, driver, gpioLineName,
107*9ed0f38eSFaisal Awada std::move(callback), "")
108*9ed0f38eSFaisal Awada {}
109*9ed0f38eSFaisal Awada
bindOrUnbindDriver(bool present)110*9ed0f38eSFaisal Awada void PowerSupply::bindOrUnbindDriver(bool present)
111*9ed0f38eSFaisal Awada {
112*9ed0f38eSFaisal Awada // Symbolic link to the device will exist if the driver is bound.
113*9ed0f38eSFaisal Awada // So exit no action required if both the link and PSU are present
114*9ed0f38eSFaisal Awada // or neither is present.
115*9ed0f38eSFaisal Awada namespace fs = std::filesystem;
116*9ed0f38eSFaisal Awada fs::path path;
117*9ed0f38eSFaisal Awada auto action = (present) ? "bind" : "unbind";
118*9ed0f38eSFaisal Awada
119*9ed0f38eSFaisal Awada // This case should not happen, if no device driver name return.
120*9ed0f38eSFaisal Awada if (driverName.empty())
121*9ed0f38eSFaisal Awada {
122*9ed0f38eSFaisal Awada lg2::info("No device driver name found");
123*9ed0f38eSFaisal Awada return;
124*9ed0f38eSFaisal Awada }
125*9ed0f38eSFaisal Awada if (bindPath.string().find(driverName) != std::string::npos)
126*9ed0f38eSFaisal Awada {
127*9ed0f38eSFaisal Awada // bindPath has driver name
128*9ed0f38eSFaisal Awada path = bindPath / action;
129*9ed0f38eSFaisal Awada }
130*9ed0f38eSFaisal Awada else
131*9ed0f38eSFaisal Awada {
132*9ed0f38eSFaisal Awada // Add driver name to bindPath
133*9ed0f38eSFaisal Awada path = bindPath / driverName / action;
134*9ed0f38eSFaisal Awada bindPath = bindPath / driverName;
135*9ed0f38eSFaisal Awada }
136*9ed0f38eSFaisal Awada
137*9ed0f38eSFaisal Awada if ((std::filesystem::exists(bindPath / bindDevice) && present) ||
138*9ed0f38eSFaisal Awada (!std::filesystem::exists(bindPath / bindDevice) && !present))
139*9ed0f38eSFaisal Awada {
140*9ed0f38eSFaisal Awada return;
141*9ed0f38eSFaisal Awada }
142*9ed0f38eSFaisal Awada if (present)
143*9ed0f38eSFaisal Awada {
144*9ed0f38eSFaisal Awada std::this_thread::sleep_for(std::chrono::milliseconds(bindDelay));
145*9ed0f38eSFaisal Awada lg2::info("Binding device driver. path: {PATH} device: {BIND_DEVICE}",
146*9ed0f38eSFaisal Awada "PATH", path, "BIND_DEVICE", bindDevice);
147*9ed0f38eSFaisal Awada }
148*9ed0f38eSFaisal Awada else
149*9ed0f38eSFaisal Awada {
150*9ed0f38eSFaisal Awada lg2::info("Unbinding device driver. path: {PATH} device: {BIND_DEVICE}",
151*9ed0f38eSFaisal Awada "PATH", path, "BIND_DEVICE", bindDevice);
152*9ed0f38eSFaisal Awada }
153*9ed0f38eSFaisal Awada
154*9ed0f38eSFaisal Awada std::ofstream file;
155*9ed0f38eSFaisal Awada
156*9ed0f38eSFaisal Awada file.exceptions(std::ofstream::failbit | std::ofstream::badbit |
157*9ed0f38eSFaisal Awada std::ofstream::eofbit);
158*9ed0f38eSFaisal Awada
159*9ed0f38eSFaisal Awada try
160*9ed0f38eSFaisal Awada {
161*9ed0f38eSFaisal Awada file.open(path);
162*9ed0f38eSFaisal Awada file << bindDevice;
163*9ed0f38eSFaisal Awada file.close();
164*9ed0f38eSFaisal Awada }
165*9ed0f38eSFaisal Awada catch (const std::exception& e)
166*9ed0f38eSFaisal Awada {
167*9ed0f38eSFaisal Awada auto err = errno;
168*9ed0f38eSFaisal Awada
169*9ed0f38eSFaisal Awada lg2::error("Failed binding or unbinding device. errno={ERRNO}", "ERRNO",
170*9ed0f38eSFaisal Awada err);
171*9ed0f38eSFaisal Awada }
172*9ed0f38eSFaisal Awada }
173*9ed0f38eSFaisal Awada
updatePresence()174*9ed0f38eSFaisal Awada void PowerSupply::updatePresence()
175*9ed0f38eSFaisal Awada {
176*9ed0f38eSFaisal Awada try
177*9ed0f38eSFaisal Awada {
178*9ed0f38eSFaisal Awada present = getPresence(bus, inventoryPath);
179*9ed0f38eSFaisal Awada }
180*9ed0f38eSFaisal Awada catch (const sdbusplus::exception_t& e)
181*9ed0f38eSFaisal Awada {
182*9ed0f38eSFaisal Awada // Relying on property change or interface added to retry.
183*9ed0f38eSFaisal Awada // Log an informational trace to the journal.
184*9ed0f38eSFaisal Awada lg2::info("D-Bus property {INVENTORY_PATH} access failure exception",
185*9ed0f38eSFaisal Awada "INVENTORY_PATH", inventoryPath);
186*9ed0f38eSFaisal Awada }
187*9ed0f38eSFaisal Awada }
188*9ed0f38eSFaisal Awada
updatePresenceGPIO()189*9ed0f38eSFaisal Awada void PowerSupply::updatePresenceGPIO()
190*9ed0f38eSFaisal Awada {
191*9ed0f38eSFaisal Awada bool presentOld = present;
192*9ed0f38eSFaisal Awada
193*9ed0f38eSFaisal Awada try
194*9ed0f38eSFaisal Awada {
195*9ed0f38eSFaisal Awada if (presenceGPIO->read() > 0)
196*9ed0f38eSFaisal Awada {
197*9ed0f38eSFaisal Awada present = true;
198*9ed0f38eSFaisal Awada }
199*9ed0f38eSFaisal Awada else
200*9ed0f38eSFaisal Awada {
201*9ed0f38eSFaisal Awada present = false;
202*9ed0f38eSFaisal Awada }
203*9ed0f38eSFaisal Awada }
204*9ed0f38eSFaisal Awada catch (const std::exception& e)
205*9ed0f38eSFaisal Awada {
206*9ed0f38eSFaisal Awada lg2::error("presenceGPIO read fail: {ERROR}", "ERROR", e);
207*9ed0f38eSFaisal Awada throw;
208*9ed0f38eSFaisal Awada }
209*9ed0f38eSFaisal Awada
210*9ed0f38eSFaisal Awada if (presentOld != present)
211*9ed0f38eSFaisal Awada {
212*9ed0f38eSFaisal Awada lg2::debug("{SHORT_NAME} presentOld: {PRESENT_OLD} present: {PRESENT}",
213*9ed0f38eSFaisal Awada "SHORT_NAME", shortName, "PRESENT_OLD", presentOld,
214*9ed0f38eSFaisal Awada "PRESENT", present);
215*9ed0f38eSFaisal Awada
216*9ed0f38eSFaisal Awada auto invpath = inventoryPath.substr(strlen(INVENTORY_OBJ_PATH));
217*9ed0f38eSFaisal Awada
218*9ed0f38eSFaisal Awada bindOrUnbindDriver(present);
219*9ed0f38eSFaisal Awada if (present)
220*9ed0f38eSFaisal Awada {
221*9ed0f38eSFaisal Awada // If the power supply was present, then missing, and present again,
222*9ed0f38eSFaisal Awada // the hwmon path may have changed. We will need the correct/updated
223*9ed0f38eSFaisal Awada // path before any reads or writes are attempted.
224*9ed0f38eSFaisal Awada pmbusIntf->findHwmonDir();
225*9ed0f38eSFaisal Awada }
226*9ed0f38eSFaisal Awada
227*9ed0f38eSFaisal Awada setPresence(bus, invpath, present, shortName);
228*9ed0f38eSFaisal Awada setupSensors();
229*9ed0f38eSFaisal Awada updateInventory();
230*9ed0f38eSFaisal Awada
231*9ed0f38eSFaisal Awada // Need Functional to already be correct before calling this.
232*9ed0f38eSFaisal Awada checkAvailability();
233*9ed0f38eSFaisal Awada
234*9ed0f38eSFaisal Awada if (present)
235*9ed0f38eSFaisal Awada {
236*9ed0f38eSFaisal Awada onOffConfig(phosphor::pmbus::ON_OFF_CONFIG_CONTROL_PIN_ONLY);
237*9ed0f38eSFaisal Awada clearFaults();
238*9ed0f38eSFaisal Awada // Indicate that the input history data and timestamps between all
239*9ed0f38eSFaisal Awada // the power supplies that are present in the system need to be
240*9ed0f38eSFaisal Awada // synchronized.
241*9ed0f38eSFaisal Awada syncHistoryRequired = true;
242*9ed0f38eSFaisal Awada }
243*9ed0f38eSFaisal Awada else
244*9ed0f38eSFaisal Awada {
245*9ed0f38eSFaisal Awada setSensorsNotAvailable();
246*9ed0f38eSFaisal Awada }
247*9ed0f38eSFaisal Awada }
248*9ed0f38eSFaisal Awada }
249*9ed0f38eSFaisal Awada
analyzeCMLFault()250*9ed0f38eSFaisal Awada void PowerSupply::analyzeCMLFault()
251*9ed0f38eSFaisal Awada {
252*9ed0f38eSFaisal Awada if (statusWord & phosphor::pmbus::status_word::CML_FAULT)
253*9ed0f38eSFaisal Awada {
254*9ed0f38eSFaisal Awada if (cmlFault < DEGLITCH_LIMIT)
255*9ed0f38eSFaisal Awada {
256*9ed0f38eSFaisal Awada if (statusWord != statusWordOld)
257*9ed0f38eSFaisal Awada {
258*9ed0f38eSFaisal Awada lg2::error(
259*9ed0f38eSFaisal Awada "{SHORT_NAME} CML fault: STATUS_WORD = {STATUS_WORD}, "
260*9ed0f38eSFaisal Awada "STATUS_CML = {STATUS_CML}",
261*9ed0f38eSFaisal Awada "SHORT_NAME", shortName, "STATUS_WORD",
262*9ed0f38eSFaisal Awada lg2::hex | lg2::field16, statusWord, "STATUS_CML",
263*9ed0f38eSFaisal Awada lg2::hex | lg2::field8, statusCML);
264*9ed0f38eSFaisal Awada }
265*9ed0f38eSFaisal Awada cmlFault++;
266*9ed0f38eSFaisal Awada }
267*9ed0f38eSFaisal Awada }
268*9ed0f38eSFaisal Awada else
269*9ed0f38eSFaisal Awada {
270*9ed0f38eSFaisal Awada cmlFault = 0;
271*9ed0f38eSFaisal Awada }
272*9ed0f38eSFaisal Awada }
273*9ed0f38eSFaisal Awada
analyzeInputFault()274*9ed0f38eSFaisal Awada void PowerSupply::analyzeInputFault()
275*9ed0f38eSFaisal Awada {
276*9ed0f38eSFaisal Awada if (statusWord & phosphor::pmbus::status_word::INPUT_FAULT_WARN)
277*9ed0f38eSFaisal Awada {
278*9ed0f38eSFaisal Awada if (inputFault < DEGLITCH_LIMIT)
279*9ed0f38eSFaisal Awada {
280*9ed0f38eSFaisal Awada if (statusWord != statusWordOld)
281*9ed0f38eSFaisal Awada {
282*9ed0f38eSFaisal Awada lg2::error(
283*9ed0f38eSFaisal Awada "{SHORT_NAME} INPUT fault: STATUS_WORD = {STATUS_WORD}, "
284*9ed0f38eSFaisal Awada "STATUS_MFR_SPECIFIC = {STATUS_MFR_SPECIFIC}, "
285*9ed0f38eSFaisal Awada "STATUS_INPUT = {STATUS_INPUT}",
286*9ed0f38eSFaisal Awada "SHORT_NAME", shortName, "STATUS_WORD",
287*9ed0f38eSFaisal Awada lg2::hex | lg2::field16, statusWord, "STATUS_MFR_SPECIFIC",
288*9ed0f38eSFaisal Awada lg2::hex | lg2::field8, statusMFR, "STATUS_INPUT",
289*9ed0f38eSFaisal Awada lg2::hex | lg2::field8, statusInput);
290*9ed0f38eSFaisal Awada }
291*9ed0f38eSFaisal Awada inputFault++;
292*9ed0f38eSFaisal Awada }
293*9ed0f38eSFaisal Awada }
294*9ed0f38eSFaisal Awada
295*9ed0f38eSFaisal Awada // If had INPUT/VIN_UV fault, and now off.
296*9ed0f38eSFaisal Awada // Trace that odd behavior.
297*9ed0f38eSFaisal Awada if (inputFault &&
298*9ed0f38eSFaisal Awada !(statusWord & phosphor::pmbus::status_word::INPUT_FAULT_WARN))
299*9ed0f38eSFaisal Awada {
300*9ed0f38eSFaisal Awada lg2::info(
301*9ed0f38eSFaisal Awada "{SHORT_NAME} INPUT fault cleared: STATUS_WORD = {STATUS_WORD}, "
302*9ed0f38eSFaisal Awada "STATUS_MFR_SPECIFIC = {STATUS_MFR_SPECIFIC}, "
303*9ed0f38eSFaisal Awada "STATUS_INPUT = {STATUS_INPUT}",
304*9ed0f38eSFaisal Awada "SHORT_NAME", shortName, "STATUS_WORD", lg2::hex | lg2::field16,
305*9ed0f38eSFaisal Awada statusWord, "STATUS_MFR_SPECIFIC", lg2::hex | lg2::field8,
306*9ed0f38eSFaisal Awada statusMFR, "STATUS_INPUT", lg2::hex | lg2::field8, statusInput);
307*9ed0f38eSFaisal Awada inputFault = 0;
308*9ed0f38eSFaisal Awada }
309*9ed0f38eSFaisal Awada }
310*9ed0f38eSFaisal Awada
analyzeVoutOVFault()311*9ed0f38eSFaisal Awada void PowerSupply::analyzeVoutOVFault()
312*9ed0f38eSFaisal Awada {
313*9ed0f38eSFaisal Awada if (statusWord & phosphor::pmbus::status_word::VOUT_OV_FAULT)
314*9ed0f38eSFaisal Awada {
315*9ed0f38eSFaisal Awada if (voutOVFault < DEGLITCH_LIMIT)
316*9ed0f38eSFaisal Awada {
317*9ed0f38eSFaisal Awada if (statusWord != statusWordOld)
318*9ed0f38eSFaisal Awada {
319*9ed0f38eSFaisal Awada lg2::error(
320*9ed0f38eSFaisal Awada "{SHORT_NAME} VOUT_OV_FAULT fault: STATUS_WORD = {STATUS_WORD}, "
321*9ed0f38eSFaisal Awada "STATUS_MFR_SPECIFIC = {STATUS_MFR_SPECIFIC}, "
322*9ed0f38eSFaisal Awada "STATUS_VOUT = {STATUS_VOUT}",
323*9ed0f38eSFaisal Awada "SHORT_NAME", shortName, "STATUS_WORD",
324*9ed0f38eSFaisal Awada lg2::hex | lg2::field16, statusWord, "STATUS_MFR_SPECIFIC",
325*9ed0f38eSFaisal Awada lg2::hex | lg2::field8, statusMFR, "STATUS_VOUT",
326*9ed0f38eSFaisal Awada lg2::hex | lg2::field8, statusVout);
327*9ed0f38eSFaisal Awada }
328*9ed0f38eSFaisal Awada
329*9ed0f38eSFaisal Awada voutOVFault++;
330*9ed0f38eSFaisal Awada }
331*9ed0f38eSFaisal Awada }
332*9ed0f38eSFaisal Awada else
333*9ed0f38eSFaisal Awada {
334*9ed0f38eSFaisal Awada voutOVFault = 0;
335*9ed0f38eSFaisal Awada }
336*9ed0f38eSFaisal Awada }
337*9ed0f38eSFaisal Awada
analyzeIoutOCFault()338*9ed0f38eSFaisal Awada void PowerSupply::analyzeIoutOCFault()
339*9ed0f38eSFaisal Awada {
340*9ed0f38eSFaisal Awada if (statusWord & phosphor::pmbus::status_word::IOUT_OC_FAULT)
341*9ed0f38eSFaisal Awada {
342*9ed0f38eSFaisal Awada if (ioutOCFault < DEGLITCH_LIMIT)
343*9ed0f38eSFaisal Awada {
344*9ed0f38eSFaisal Awada if (statusWord != statusWordOld)
345*9ed0f38eSFaisal Awada {
346*9ed0f38eSFaisal Awada lg2::error(
347*9ed0f38eSFaisal Awada "{SHORT_NAME} IOUT fault: STATUS_WORD = {STATUS_WORD}, "
348*9ed0f38eSFaisal Awada "STATUS_MFR_SPECIFIC = {STATUS_MFR_SPECIFIC}, "
349*9ed0f38eSFaisal Awada "STATUS_IOUT = {STATUS_IOUT}",
350*9ed0f38eSFaisal Awada "SHORT_NAME", shortName, "STATUS_WORD",
351*9ed0f38eSFaisal Awada lg2::hex | lg2::field16, statusWord, "STATUS_MFR_SPECIFIC",
352*9ed0f38eSFaisal Awada lg2::hex | lg2::field8, statusMFR, "STATUS_IOUT",
353*9ed0f38eSFaisal Awada lg2::hex | lg2::field8, statusIout);
354*9ed0f38eSFaisal Awada }
355*9ed0f38eSFaisal Awada
356*9ed0f38eSFaisal Awada ioutOCFault++;
357*9ed0f38eSFaisal Awada }
358*9ed0f38eSFaisal Awada }
359*9ed0f38eSFaisal Awada else
360*9ed0f38eSFaisal Awada {
361*9ed0f38eSFaisal Awada ioutOCFault = 0;
362*9ed0f38eSFaisal Awada }
363*9ed0f38eSFaisal Awada }
364*9ed0f38eSFaisal Awada
analyzeVoutUVFault()365*9ed0f38eSFaisal Awada void PowerSupply::analyzeVoutUVFault()
366*9ed0f38eSFaisal Awada {
367*9ed0f38eSFaisal Awada if ((statusWord & phosphor::pmbus::status_word::VOUT_FAULT) &&
368*9ed0f38eSFaisal Awada !(statusWord & phosphor::pmbus::status_word::VOUT_OV_FAULT))
369*9ed0f38eSFaisal Awada {
370*9ed0f38eSFaisal Awada if (voutUVFault < DEGLITCH_LIMIT)
371*9ed0f38eSFaisal Awada {
372*9ed0f38eSFaisal Awada if (statusWord != statusWordOld)
373*9ed0f38eSFaisal Awada {
374*9ed0f38eSFaisal Awada lg2::error(
375*9ed0f38eSFaisal Awada "{SHORT_NAME} VOUT_UV_FAULT fault: STATUS_WORD = {STATUS_WORD}, "
376*9ed0f38eSFaisal Awada "STATUS_MFR_SPECIFIC = {STATUS_MFR_SPECIFIC}, "
377*9ed0f38eSFaisal Awada "STATUS_VOUT = {STATUS_VOUT}",
378*9ed0f38eSFaisal Awada "SHORT_NAME", shortName, "STATUS_WORD",
379*9ed0f38eSFaisal Awada lg2::hex | lg2::field16, statusWord, "STATUS_MFR_SPECIFIC",
380*9ed0f38eSFaisal Awada lg2::hex | lg2::field8, statusMFR, "STATUS_VOUT",
381*9ed0f38eSFaisal Awada lg2::hex | lg2::field8, statusVout);
382*9ed0f38eSFaisal Awada }
383*9ed0f38eSFaisal Awada voutUVFault++;
384*9ed0f38eSFaisal Awada }
385*9ed0f38eSFaisal Awada }
386*9ed0f38eSFaisal Awada else
387*9ed0f38eSFaisal Awada {
388*9ed0f38eSFaisal Awada voutUVFault = 0;
389*9ed0f38eSFaisal Awada }
390*9ed0f38eSFaisal Awada }
391*9ed0f38eSFaisal Awada
analyzeFanFault()392*9ed0f38eSFaisal Awada void PowerSupply::analyzeFanFault()
393*9ed0f38eSFaisal Awada {
394*9ed0f38eSFaisal Awada if (statusWord & phosphor::pmbus::status_word::FAN_FAULT)
395*9ed0f38eSFaisal Awada {
396*9ed0f38eSFaisal Awada if (fanFault < DEGLITCH_LIMIT)
397*9ed0f38eSFaisal Awada {
398*9ed0f38eSFaisal Awada if (statusWord != statusWordOld)
399*9ed0f38eSFaisal Awada {
400*9ed0f38eSFaisal Awada lg2::error("{SHORT_NAME} FANS fault/warning: "
401*9ed0f38eSFaisal Awada "STATUS_WORD = {STATUS_WORD}, "
402*9ed0f38eSFaisal Awada "STATUS_MFR_SPECIFIC = {STATUS_MFR_SPECIFIC}, "
403*9ed0f38eSFaisal Awada "STATUS_FANS_1_2 = {STATUS_FANS_1_2}",
404*9ed0f38eSFaisal Awada "SHORT_NAME", shortName, "STATUS_WORD",
405*9ed0f38eSFaisal Awada lg2::hex | lg2::field16, statusWord,
406*9ed0f38eSFaisal Awada "STATUS_MFR_SPECIFIC", lg2::hex | lg2::field8,
407*9ed0f38eSFaisal Awada statusMFR, "STATUS_FANS_1_2", lg2::hex | lg2::field8,
408*9ed0f38eSFaisal Awada statusFans12);
409*9ed0f38eSFaisal Awada }
410*9ed0f38eSFaisal Awada fanFault++;
411*9ed0f38eSFaisal Awada }
412*9ed0f38eSFaisal Awada }
413*9ed0f38eSFaisal Awada else
414*9ed0f38eSFaisal Awada {
415*9ed0f38eSFaisal Awada fanFault = 0;
416*9ed0f38eSFaisal Awada }
417*9ed0f38eSFaisal Awada }
418*9ed0f38eSFaisal Awada
analyzeTemperatureFault()419*9ed0f38eSFaisal Awada void PowerSupply::analyzeTemperatureFault()
420*9ed0f38eSFaisal Awada {
421*9ed0f38eSFaisal Awada if (statusWord & phosphor::pmbus::status_word::TEMPERATURE_FAULT_WARN)
422*9ed0f38eSFaisal Awada {
423*9ed0f38eSFaisal Awada if (tempFault < DEGLITCH_LIMIT)
424*9ed0f38eSFaisal Awada {
425*9ed0f38eSFaisal Awada if (statusWord != statusWordOld)
426*9ed0f38eSFaisal Awada {
427*9ed0f38eSFaisal Awada lg2::error("{SHORT_NAME} TEMPERATURE fault/warning: "
428*9ed0f38eSFaisal Awada "STATUS_WORD = {STATUS_WORD}, "
429*9ed0f38eSFaisal Awada "STATUS_MFR_SPECIFIC = {STATUS_MFR_SPECIFIC}, "
430*9ed0f38eSFaisal Awada "STATUS_TEMPERATURE = {STATUS_TEMPERATURE}",
431*9ed0f38eSFaisal Awada "SHORT_NAME", shortName, "STATUS_WORD",
432*9ed0f38eSFaisal Awada lg2::hex | lg2::field16, statusWord,
433*9ed0f38eSFaisal Awada "STATUS_MFR_SPECIFIC", lg2::hex | lg2::field8,
434*9ed0f38eSFaisal Awada statusMFR, "STATUS_TEMPERATURE",
435*9ed0f38eSFaisal Awada lg2::hex | lg2::field8, statusTemperature);
436*9ed0f38eSFaisal Awada }
437*9ed0f38eSFaisal Awada tempFault++;
438*9ed0f38eSFaisal Awada }
439*9ed0f38eSFaisal Awada }
440*9ed0f38eSFaisal Awada else
441*9ed0f38eSFaisal Awada {
442*9ed0f38eSFaisal Awada tempFault = 0;
443*9ed0f38eSFaisal Awada }
444*9ed0f38eSFaisal Awada }
445*9ed0f38eSFaisal Awada
analyzePgoodFault()446*9ed0f38eSFaisal Awada void PowerSupply::analyzePgoodFault()
447*9ed0f38eSFaisal Awada {
448*9ed0f38eSFaisal Awada if ((statusWord & phosphor::pmbus::status_word::POWER_GOOD_NEGATED) ||
449*9ed0f38eSFaisal Awada (statusWord & phosphor::pmbus::status_word::UNIT_IS_OFF))
450*9ed0f38eSFaisal Awada {
451*9ed0f38eSFaisal Awada if (pgoodFault < PGOOD_DEGLITCH_LIMIT)
452*9ed0f38eSFaisal Awada {
453*9ed0f38eSFaisal Awada if (statusWord != statusWordOld)
454*9ed0f38eSFaisal Awada {
455*9ed0f38eSFaisal Awada lg2::error("{SHORT_NAME} PGOOD fault: "
456*9ed0f38eSFaisal Awada "STATUS_WORD = {STATUS_WORD}, "
457*9ed0f38eSFaisal Awada "STATUS_MFR_SPECIFIC = {STATUS_MFR_SPECIFIC}",
458*9ed0f38eSFaisal Awada "SHORT_NAME", shortName, "STATUS_WORD",
459*9ed0f38eSFaisal Awada lg2::hex | lg2::field16, statusWord,
460*9ed0f38eSFaisal Awada "STATUS_MFR_SPECIFIC", lg2::hex | lg2::field8,
461*9ed0f38eSFaisal Awada statusMFR);
462*9ed0f38eSFaisal Awada }
463*9ed0f38eSFaisal Awada pgoodFault++;
464*9ed0f38eSFaisal Awada }
465*9ed0f38eSFaisal Awada }
466*9ed0f38eSFaisal Awada else
467*9ed0f38eSFaisal Awada {
468*9ed0f38eSFaisal Awada pgoodFault = 0;
469*9ed0f38eSFaisal Awada }
470*9ed0f38eSFaisal Awada }
471*9ed0f38eSFaisal Awada
determineMFRFault()472*9ed0f38eSFaisal Awada void PowerSupply::determineMFRFault()
473*9ed0f38eSFaisal Awada {
474*9ed0f38eSFaisal Awada if (bindPath.string().find(IBMCFFPS_DD_NAME) != std::string::npos)
475*9ed0f38eSFaisal Awada {
476*9ed0f38eSFaisal Awada // IBM MFR_SPECIFIC[4] is PS_Kill fault
477*9ed0f38eSFaisal Awada if (statusMFR & 0x10)
478*9ed0f38eSFaisal Awada {
479*9ed0f38eSFaisal Awada if (psKillFault < DEGLITCH_LIMIT)
480*9ed0f38eSFaisal Awada {
481*9ed0f38eSFaisal Awada psKillFault++;
482*9ed0f38eSFaisal Awada }
483*9ed0f38eSFaisal Awada }
484*9ed0f38eSFaisal Awada else
485*9ed0f38eSFaisal Awada {
486*9ed0f38eSFaisal Awada psKillFault = 0;
487*9ed0f38eSFaisal Awada }
488*9ed0f38eSFaisal Awada // IBM MFR_SPECIFIC[6] is 12Vcs fault.
489*9ed0f38eSFaisal Awada if (statusMFR & 0x40)
490*9ed0f38eSFaisal Awada {
491*9ed0f38eSFaisal Awada if (ps12VcsFault < DEGLITCH_LIMIT)
492*9ed0f38eSFaisal Awada {
493*9ed0f38eSFaisal Awada ps12VcsFault++;
494*9ed0f38eSFaisal Awada }
495*9ed0f38eSFaisal Awada }
496*9ed0f38eSFaisal Awada else
497*9ed0f38eSFaisal Awada {
498*9ed0f38eSFaisal Awada ps12VcsFault = 0;
499*9ed0f38eSFaisal Awada }
500*9ed0f38eSFaisal Awada // IBM MFR_SPECIFIC[7] is 12V Current-Share fault.
501*9ed0f38eSFaisal Awada if (statusMFR & 0x80)
502*9ed0f38eSFaisal Awada {
503*9ed0f38eSFaisal Awada if (psCS12VFault < DEGLITCH_LIMIT)
504*9ed0f38eSFaisal Awada {
505*9ed0f38eSFaisal Awada psCS12VFault++;
506*9ed0f38eSFaisal Awada }
507*9ed0f38eSFaisal Awada }
508*9ed0f38eSFaisal Awada else
509*9ed0f38eSFaisal Awada {
510*9ed0f38eSFaisal Awada psCS12VFault = 0;
511*9ed0f38eSFaisal Awada }
512*9ed0f38eSFaisal Awada }
513*9ed0f38eSFaisal Awada }
514*9ed0f38eSFaisal Awada
analyzeMFRFault()515*9ed0f38eSFaisal Awada void PowerSupply::analyzeMFRFault()
516*9ed0f38eSFaisal Awada {
517*9ed0f38eSFaisal Awada if (statusWord & phosphor::pmbus::status_word::MFR_SPECIFIC_FAULT)
518*9ed0f38eSFaisal Awada {
519*9ed0f38eSFaisal Awada if (mfrFault < DEGLITCH_LIMIT)
520*9ed0f38eSFaisal Awada {
521*9ed0f38eSFaisal Awada if (statusWord != statusWordOld)
522*9ed0f38eSFaisal Awada {
523*9ed0f38eSFaisal Awada lg2::error("{SHORT_NAME} MFR fault: "
524*9ed0f38eSFaisal Awada "STATUS_WORD = {STATUS_WORD} "
525*9ed0f38eSFaisal Awada "STATUS_MFR_SPECIFIC = {STATUS_MFR_SPECIFIC}",
526*9ed0f38eSFaisal Awada "SHORT_NAME", shortName, "STATUS_WORD",
527*9ed0f38eSFaisal Awada lg2::hex | lg2::field16, statusWord,
528*9ed0f38eSFaisal Awada "STATUS_MFR_SPECIFIC", lg2::hex | lg2::field8,
529*9ed0f38eSFaisal Awada statusMFR);
530*9ed0f38eSFaisal Awada }
531*9ed0f38eSFaisal Awada mfrFault++;
532*9ed0f38eSFaisal Awada }
533*9ed0f38eSFaisal Awada
534*9ed0f38eSFaisal Awada determineMFRFault();
535*9ed0f38eSFaisal Awada }
536*9ed0f38eSFaisal Awada else
537*9ed0f38eSFaisal Awada {
538*9ed0f38eSFaisal Awada mfrFault = 0;
539*9ed0f38eSFaisal Awada }
540*9ed0f38eSFaisal Awada }
541*9ed0f38eSFaisal Awada
analyzeVinUVFault()542*9ed0f38eSFaisal Awada void PowerSupply::analyzeVinUVFault()
543*9ed0f38eSFaisal Awada {
544*9ed0f38eSFaisal Awada if (statusWord & phosphor::pmbus::status_word::VIN_UV_FAULT)
545*9ed0f38eSFaisal Awada {
546*9ed0f38eSFaisal Awada if (vinUVFault < DEGLITCH_LIMIT)
547*9ed0f38eSFaisal Awada {
548*9ed0f38eSFaisal Awada if (statusWord != statusWordOld)
549*9ed0f38eSFaisal Awada {
550*9ed0f38eSFaisal Awada lg2::error(
551*9ed0f38eSFaisal Awada "{SHORT_NAME} VIN_UV fault: STATUS_WORD = {STATUS_WORD}, "
552*9ed0f38eSFaisal Awada "STATUS_MFR_SPECIFIC = {STATUS_MFR_SPECIFIC}, "
553*9ed0f38eSFaisal Awada "STATUS_INPUT = {STATUS_INPUT}",
554*9ed0f38eSFaisal Awada "SHORT_NAME", shortName, "STATUS_WORD",
555*9ed0f38eSFaisal Awada lg2::hex | lg2::field16, statusWord, "STATUS_MFR_SPECIFIC",
556*9ed0f38eSFaisal Awada lg2::hex | lg2::field8, statusMFR, "STATUS_INPUT",
557*9ed0f38eSFaisal Awada lg2::hex | lg2::field8, statusInput);
558*9ed0f38eSFaisal Awada }
559*9ed0f38eSFaisal Awada vinUVFault++;
560*9ed0f38eSFaisal Awada }
561*9ed0f38eSFaisal Awada // Remember that this PSU has seen an AC fault
562*9ed0f38eSFaisal Awada acFault = AC_FAULT_LIMIT;
563*9ed0f38eSFaisal Awada }
564*9ed0f38eSFaisal Awada else
565*9ed0f38eSFaisal Awada {
566*9ed0f38eSFaisal Awada if (vinUVFault != 0)
567*9ed0f38eSFaisal Awada {
568*9ed0f38eSFaisal Awada lg2::info(
569*9ed0f38eSFaisal Awada "{SHORT_NAME} VIN_UV fault cleared: STATUS_WORD = {STATUS_WORD}, "
570*9ed0f38eSFaisal Awada "STATUS_MFR_SPECIFIC = {STATUS_MFR_SPECIFIC}, "
571*9ed0f38eSFaisal Awada "STATUS_INPUT = {STATUS_INPUT}",
572*9ed0f38eSFaisal Awada "SHORT_NAME", shortName, "STATUS_WORD", lg2::hex | lg2::field16,
573*9ed0f38eSFaisal Awada statusWord, "STATUS_MFR_SPECIFIC", lg2::hex | lg2::field8,
574*9ed0f38eSFaisal Awada statusMFR, "STATUS_INPUT", lg2::hex | lg2::field8, statusInput);
575*9ed0f38eSFaisal Awada vinUVFault = 0;
576*9ed0f38eSFaisal Awada }
577*9ed0f38eSFaisal Awada // No AC fail, decrement counter
578*9ed0f38eSFaisal Awada if (acFault != 0)
579*9ed0f38eSFaisal Awada {
580*9ed0f38eSFaisal Awada --acFault;
581*9ed0f38eSFaisal Awada }
582*9ed0f38eSFaisal Awada }
583*9ed0f38eSFaisal Awada }
584*9ed0f38eSFaisal Awada
analyze()585*9ed0f38eSFaisal Awada void PowerSupply::analyze()
586*9ed0f38eSFaisal Awada {
587*9ed0f38eSFaisal Awada using namespace phosphor::pmbus;
588*9ed0f38eSFaisal Awada
589*9ed0f38eSFaisal Awada if (presenceGPIO)
590*9ed0f38eSFaisal Awada {
591*9ed0f38eSFaisal Awada updatePresenceGPIO();
592*9ed0f38eSFaisal Awada }
593*9ed0f38eSFaisal Awada
594*9ed0f38eSFaisal Awada if (present)
595*9ed0f38eSFaisal Awada {
596*9ed0f38eSFaisal Awada try
597*9ed0f38eSFaisal Awada {
598*9ed0f38eSFaisal Awada statusWordOld = statusWord;
599*9ed0f38eSFaisal Awada statusWord = pmbusIntf->read(STATUS_WORD, Type::Debug,
600*9ed0f38eSFaisal Awada (readFail < LOG_LIMIT));
601*9ed0f38eSFaisal Awada // Read worked, reset the fail count.
602*9ed0f38eSFaisal Awada readFail = 0;
603*9ed0f38eSFaisal Awada
604*9ed0f38eSFaisal Awada if (statusWord)
605*9ed0f38eSFaisal Awada {
606*9ed0f38eSFaisal Awada statusInput = pmbusIntf->read(STATUS_INPUT, Type::Debug);
607*9ed0f38eSFaisal Awada if (bindPath.string().find(IBMCFFPS_DD_NAME) !=
608*9ed0f38eSFaisal Awada std::string::npos)
609*9ed0f38eSFaisal Awada {
610*9ed0f38eSFaisal Awada statusMFR = pmbusIntf->read(STATUS_MFR, Type::Debug);
611*9ed0f38eSFaisal Awada }
612*9ed0f38eSFaisal Awada statusCML = pmbusIntf->read(STATUS_CML, Type::Debug);
613*9ed0f38eSFaisal Awada auto status0Vout = pmbusIntf->insertPageNum(STATUS_VOUT, 0);
614*9ed0f38eSFaisal Awada statusVout = pmbusIntf->read(status0Vout, Type::Debug);
615*9ed0f38eSFaisal Awada statusIout = pmbusIntf->read(STATUS_IOUT, Type::Debug);
616*9ed0f38eSFaisal Awada statusFans12 = pmbusIntf->read(STATUS_FANS_1_2, Type::Debug);
617*9ed0f38eSFaisal Awada statusTemperature =
618*9ed0f38eSFaisal Awada pmbusIntf->read(STATUS_TEMPERATURE, Type::Debug);
619*9ed0f38eSFaisal Awada
620*9ed0f38eSFaisal Awada analyzeCMLFault();
621*9ed0f38eSFaisal Awada
622*9ed0f38eSFaisal Awada analyzeInputFault();
623*9ed0f38eSFaisal Awada
624*9ed0f38eSFaisal Awada analyzeVoutOVFault();
625*9ed0f38eSFaisal Awada
626*9ed0f38eSFaisal Awada analyzeIoutOCFault();
627*9ed0f38eSFaisal Awada
628*9ed0f38eSFaisal Awada analyzeVoutUVFault();
629*9ed0f38eSFaisal Awada
630*9ed0f38eSFaisal Awada analyzeFanFault();
631*9ed0f38eSFaisal Awada
632*9ed0f38eSFaisal Awada analyzeTemperatureFault();
633*9ed0f38eSFaisal Awada
634*9ed0f38eSFaisal Awada analyzePgoodFault();
635*9ed0f38eSFaisal Awada
636*9ed0f38eSFaisal Awada analyzeMFRFault();
637*9ed0f38eSFaisal Awada
638*9ed0f38eSFaisal Awada analyzeVinUVFault();
639*9ed0f38eSFaisal Awada }
640*9ed0f38eSFaisal Awada else
641*9ed0f38eSFaisal Awada {
642*9ed0f38eSFaisal Awada if (statusWord != statusWordOld)
643*9ed0f38eSFaisal Awada {
644*9ed0f38eSFaisal Awada lg2::info("{SHORT_NAME} STATUS_WORD = {STATUS_WORD}",
645*9ed0f38eSFaisal Awada "SHORT_NAME", shortName, "STATUS_WORD",
646*9ed0f38eSFaisal Awada lg2::hex | lg2::field16, statusWord);
647*9ed0f38eSFaisal Awada }
648*9ed0f38eSFaisal Awada
649*9ed0f38eSFaisal Awada // if INPUT/VIN_UV fault was on, it cleared, trace it.
650*9ed0f38eSFaisal Awada if (inputFault)
651*9ed0f38eSFaisal Awada {
652*9ed0f38eSFaisal Awada lg2::info(
653*9ed0f38eSFaisal Awada "{SHORT_NAME} INPUT fault cleared: STATUS_WORD = {STATUS_WORD}",
654*9ed0f38eSFaisal Awada "SHORT_NAME", shortName, "STATUS_WORD",
655*9ed0f38eSFaisal Awada lg2::hex | lg2::field16, statusWord);
656*9ed0f38eSFaisal Awada }
657*9ed0f38eSFaisal Awada
658*9ed0f38eSFaisal Awada if (vinUVFault)
659*9ed0f38eSFaisal Awada {
660*9ed0f38eSFaisal Awada lg2::info(
661*9ed0f38eSFaisal Awada "{SHORT_NAME} VIN_UV cleared: STATUS_WORD = {STATUS_WORD}",
662*9ed0f38eSFaisal Awada "SHORT_NAME", shortName, "STATUS_WORD",
663*9ed0f38eSFaisal Awada lg2::hex | lg2::field16, statusWord);
664*9ed0f38eSFaisal Awada }
665*9ed0f38eSFaisal Awada
666*9ed0f38eSFaisal Awada if (pgoodFault > 0)
667*9ed0f38eSFaisal Awada {
668*9ed0f38eSFaisal Awada lg2::info("{SHORT_NAME} pgoodFault cleared", "SHORT_NAME",
669*9ed0f38eSFaisal Awada shortName);
670*9ed0f38eSFaisal Awada }
671*9ed0f38eSFaisal Awada
672*9ed0f38eSFaisal Awada clearFaultFlags();
673*9ed0f38eSFaisal Awada // No AC fail, decrement counter
674*9ed0f38eSFaisal Awada if (acFault != 0)
675*9ed0f38eSFaisal Awada {
676*9ed0f38eSFaisal Awada --acFault;
677*9ed0f38eSFaisal Awada }
678*9ed0f38eSFaisal Awada }
679*9ed0f38eSFaisal Awada
680*9ed0f38eSFaisal Awada // Save off old inputVoltage value.
681*9ed0f38eSFaisal Awada // Get latest inputVoltage.
682*9ed0f38eSFaisal Awada // If voltage went from below minimum, and now is not, clear faults.
683*9ed0f38eSFaisal Awada // Note: getInputVoltage() has its own try/catch.
684*9ed0f38eSFaisal Awada int inputVoltageOld = inputVoltage;
685*9ed0f38eSFaisal Awada double actualInputVoltageOld = actualInputVoltage;
686*9ed0f38eSFaisal Awada getInputVoltage(actualInputVoltage, inputVoltage);
687*9ed0f38eSFaisal Awada if ((inputVoltageOld == in_input::VIN_VOLTAGE_0) &&
688*9ed0f38eSFaisal Awada (inputVoltage != in_input::VIN_VOLTAGE_0))
689*9ed0f38eSFaisal Awada {
690*9ed0f38eSFaisal Awada lg2::info(
691*9ed0f38eSFaisal Awada "{SHORT_NAME} READ_VIN back in range: actualInputVoltageOld = {ACTUAL_INPUT_VOLTAGE_OLD} "
692*9ed0f38eSFaisal Awada "actualInputVoltage = {ACTUAL_INPUT_VOLTAGE}",
693*9ed0f38eSFaisal Awada "SHORT_NAME", shortName, "ACTUAL_INPUT_VOLTAGE_OLD",
694*9ed0f38eSFaisal Awada actualInputVoltageOld, "ACTUAL_INPUT_VOLTAGE",
695*9ed0f38eSFaisal Awada actualInputVoltage);
696*9ed0f38eSFaisal Awada clearVinUVFault();
697*9ed0f38eSFaisal Awada }
698*9ed0f38eSFaisal Awada else if (vinUVFault && (inputVoltage != in_input::VIN_VOLTAGE_0))
699*9ed0f38eSFaisal Awada {
700*9ed0f38eSFaisal Awada lg2::info(
701*9ed0f38eSFaisal Awada "{SHORT_NAME} CLEAR_FAULTS: vinUVFault {VIN_UV_FAULT} actualInputVoltage {ACTUAL_INPUT_VOLTAGE}",
702*9ed0f38eSFaisal Awada "SHORT_NAME", shortName, "VIN_UV_FAULT", vinUVFault,
703*9ed0f38eSFaisal Awada "ACTUAL_INPUT_VOLTAGE", actualInputVoltage);
704*9ed0f38eSFaisal Awada // Do we have a VIN_UV fault latched that can now be cleared
705*9ed0f38eSFaisal Awada // due to voltage back in range? Attempt to clear the
706*9ed0f38eSFaisal Awada // fault(s), re-check faults on next call.
707*9ed0f38eSFaisal Awada clearVinUVFault();
708*9ed0f38eSFaisal Awada }
709*9ed0f38eSFaisal Awada else if (std::abs(actualInputVoltageOld - actualInputVoltage) >
710*9ed0f38eSFaisal Awada 10.0)
711*9ed0f38eSFaisal Awada {
712*9ed0f38eSFaisal Awada lg2::info(
713*9ed0f38eSFaisal Awada "{SHORT_NAME} actualInputVoltageOld = {ACTUAL_INPUT_VOLTAGE_OLD} actualInputVoltage = {ACTUAL_INPUT_VOLTAGE}",
714*9ed0f38eSFaisal Awada "SHORT_NAME", shortName, "ACTUAL_INPUT_VOLTAGE_OLD",
715*9ed0f38eSFaisal Awada actualInputVoltageOld, "ACTUAL_INPUT_VOLTAGE",
716*9ed0f38eSFaisal Awada actualInputVoltage);
717*9ed0f38eSFaisal Awada }
718*9ed0f38eSFaisal Awada
719*9ed0f38eSFaisal Awada monitorSensors();
720*9ed0f38eSFaisal Awada
721*9ed0f38eSFaisal Awada checkAvailability();
722*9ed0f38eSFaisal Awada }
723*9ed0f38eSFaisal Awada catch (const ReadFailure& e)
724*9ed0f38eSFaisal Awada {
725*9ed0f38eSFaisal Awada if (readFail < SIZE_MAX)
726*9ed0f38eSFaisal Awada {
727*9ed0f38eSFaisal Awada readFail++;
728*9ed0f38eSFaisal Awada }
729*9ed0f38eSFaisal Awada if (readFail == LOG_LIMIT)
730*9ed0f38eSFaisal Awada {
731*9ed0f38eSFaisal Awada phosphor::logging::commit<ReadFailure>();
732*9ed0f38eSFaisal Awada }
733*9ed0f38eSFaisal Awada }
734*9ed0f38eSFaisal Awada }
735*9ed0f38eSFaisal Awada }
736*9ed0f38eSFaisal Awada
onOffConfig(uint8_t data)737*9ed0f38eSFaisal Awada void PowerSupply::onOffConfig(uint8_t data)
738*9ed0f38eSFaisal Awada {
739*9ed0f38eSFaisal Awada using namespace phosphor::pmbus;
740*9ed0f38eSFaisal Awada
741*9ed0f38eSFaisal Awada if (present && driverName != ACBEL_FSG032_DD_NAME)
742*9ed0f38eSFaisal Awada {
743*9ed0f38eSFaisal Awada lg2::info("ON_OFF_CONFIG write: DATA={DATA}", "DATA",
744*9ed0f38eSFaisal Awada lg2::hex | lg2::field8, data);
745*9ed0f38eSFaisal Awada try
746*9ed0f38eSFaisal Awada {
747*9ed0f38eSFaisal Awada std::vector<uint8_t> configData{data};
748*9ed0f38eSFaisal Awada pmbusIntf->writeBinary(ON_OFF_CONFIG, configData,
749*9ed0f38eSFaisal Awada Type::HwmonDeviceDebug);
750*9ed0f38eSFaisal Awada }
751*9ed0f38eSFaisal Awada catch (...)
752*9ed0f38eSFaisal Awada {
753*9ed0f38eSFaisal Awada // The underlying code in writeBinary will log a message to the
754*9ed0f38eSFaisal Awada // journal if the write fails. If the ON_OFF_CONFIG is not setup
755*9ed0f38eSFaisal Awada // as desired, later fault detection and analysis code should
756*9ed0f38eSFaisal Awada // catch any of the fall out. We should not need to terminate
757*9ed0f38eSFaisal Awada // the application if this write fails.
758*9ed0f38eSFaisal Awada }
759*9ed0f38eSFaisal Awada }
760*9ed0f38eSFaisal Awada }
761*9ed0f38eSFaisal Awada
clearVinUVFault()762*9ed0f38eSFaisal Awada void PowerSupply::clearVinUVFault()
763*9ed0f38eSFaisal Awada {
764*9ed0f38eSFaisal Awada // Read in1_lcrit_alarm to clear bits 3 and 4 of STATUS_INPUT.
765*9ed0f38eSFaisal Awada // The fault bits in STAUTS_INPUT roll-up to STATUS_WORD. Clearing those
766*9ed0f38eSFaisal Awada // bits in STATUS_INPUT should result in the corresponding STATUS_WORD bits
767*9ed0f38eSFaisal Awada // also clearing.
768*9ed0f38eSFaisal Awada //
769*9ed0f38eSFaisal Awada // Do not care about return value. Should be 1 if active, 0 if not.
770*9ed0f38eSFaisal Awada if (driverName != ACBEL_FSG032_DD_NAME)
771*9ed0f38eSFaisal Awada {
772*9ed0f38eSFaisal Awada static_cast<void>(
773*9ed0f38eSFaisal Awada pmbusIntf->read("in1_lcrit_alarm", phosphor::pmbus::Type::Hwmon));
774*9ed0f38eSFaisal Awada }
775*9ed0f38eSFaisal Awada else
776*9ed0f38eSFaisal Awada {
777*9ed0f38eSFaisal Awada static_cast<void>(
778*9ed0f38eSFaisal Awada pmbusIntf->read("curr1_crit_alarm", phosphor::pmbus::Type::Hwmon));
779*9ed0f38eSFaisal Awada }
780*9ed0f38eSFaisal Awada vinUVFault = 0;
781*9ed0f38eSFaisal Awada }
782*9ed0f38eSFaisal Awada
clearFaults()783*9ed0f38eSFaisal Awada void PowerSupply::clearFaults()
784*9ed0f38eSFaisal Awada {
785*9ed0f38eSFaisal Awada lg2::debug("clearFaults() inventoryPath: {INVENTORY_PATH}",
786*9ed0f38eSFaisal Awada "INVENTORY_PATH", inventoryPath);
787*9ed0f38eSFaisal Awada faultLogged = false;
788*9ed0f38eSFaisal Awada // The PMBus device driver does not allow for writing CLEAR_FAULTS
789*9ed0f38eSFaisal Awada // directly. However, the pmbus hwmon device driver code will send a
790*9ed0f38eSFaisal Awada // CLEAR_FAULTS after reading from any of the hwmon "files" in sysfs, so
791*9ed0f38eSFaisal Awada // reading in1_input should result in clearing the fault bits in
792*9ed0f38eSFaisal Awada // STATUS_BYTE/STATUS_WORD.
793*9ed0f38eSFaisal Awada // I do not care what the return value is.
794*9ed0f38eSFaisal Awada if (present)
795*9ed0f38eSFaisal Awada {
796*9ed0f38eSFaisal Awada clearFaultFlags();
797*9ed0f38eSFaisal Awada checkAvailability();
798*9ed0f38eSFaisal Awada readFail = 0;
799*9ed0f38eSFaisal Awada
800*9ed0f38eSFaisal Awada try
801*9ed0f38eSFaisal Awada {
802*9ed0f38eSFaisal Awada clearVinUVFault();
803*9ed0f38eSFaisal Awada static_cast<void>(
804*9ed0f38eSFaisal Awada pmbusIntf->read("in1_input", phosphor::pmbus::Type::Hwmon));
805*9ed0f38eSFaisal Awada }
806*9ed0f38eSFaisal Awada catch (const ReadFailure& e)
807*9ed0f38eSFaisal Awada {
808*9ed0f38eSFaisal Awada // Since I do not care what the return value is, I really do not
809*9ed0f38eSFaisal Awada // care much if it gets a ReadFailure either. However, this
810*9ed0f38eSFaisal Awada // should not prevent the application from continuing to run, so
811*9ed0f38eSFaisal Awada // catching the read failure.
812*9ed0f38eSFaisal Awada }
813*9ed0f38eSFaisal Awada }
814*9ed0f38eSFaisal Awada }
815*9ed0f38eSFaisal Awada
inventoryChanged(sdbusplus::message_t & msg)816*9ed0f38eSFaisal Awada void PowerSupply::inventoryChanged(sdbusplus::message_t& msg)
817*9ed0f38eSFaisal Awada {
818*9ed0f38eSFaisal Awada std::string msgSensor;
819*9ed0f38eSFaisal Awada std::map<std::string, std::variant<uint32_t, bool>> msgData;
820*9ed0f38eSFaisal Awada msg.read(msgSensor, msgData);
821*9ed0f38eSFaisal Awada
822*9ed0f38eSFaisal Awada // Check if it was the Present property that changed.
823*9ed0f38eSFaisal Awada auto valPropMap = msgData.find(PRESENT_PROP);
824*9ed0f38eSFaisal Awada if (valPropMap != msgData.end())
825*9ed0f38eSFaisal Awada {
826*9ed0f38eSFaisal Awada if (std::get<bool>(valPropMap->second))
827*9ed0f38eSFaisal Awada {
828*9ed0f38eSFaisal Awada present = true;
829*9ed0f38eSFaisal Awada // TODO: Immediately trying to read or write the "files" causes
830*9ed0f38eSFaisal Awada // read or write failures.
831*9ed0f38eSFaisal Awada using namespace std::chrono_literals;
832*9ed0f38eSFaisal Awada std::this_thread::sleep_for(20ms);
833*9ed0f38eSFaisal Awada pmbusIntf->findHwmonDir();
834*9ed0f38eSFaisal Awada onOffConfig(phosphor::pmbus::ON_OFF_CONFIG_CONTROL_PIN_ONLY);
835*9ed0f38eSFaisal Awada clearFaults();
836*9ed0f38eSFaisal Awada updateInventory();
837*9ed0f38eSFaisal Awada }
838*9ed0f38eSFaisal Awada else
839*9ed0f38eSFaisal Awada {
840*9ed0f38eSFaisal Awada present = false;
841*9ed0f38eSFaisal Awada
842*9ed0f38eSFaisal Awada // Clear out the now outdated inventory properties
843*9ed0f38eSFaisal Awada updateInventory();
844*9ed0f38eSFaisal Awada }
845*9ed0f38eSFaisal Awada checkAvailability();
846*9ed0f38eSFaisal Awada }
847*9ed0f38eSFaisal Awada }
848*9ed0f38eSFaisal Awada
inventoryAdded(sdbusplus::message_t & msg)849*9ed0f38eSFaisal Awada void PowerSupply::inventoryAdded(sdbusplus::message_t& msg)
850*9ed0f38eSFaisal Awada {
851*9ed0f38eSFaisal Awada sdbusplus::message::object_path path;
852*9ed0f38eSFaisal Awada msg.read(path);
853*9ed0f38eSFaisal Awada // Make sure the signal is for the PSU inventory path
854*9ed0f38eSFaisal Awada if (path == inventoryPath)
855*9ed0f38eSFaisal Awada {
856*9ed0f38eSFaisal Awada std::map<std::string, std::map<std::string, std::variant<bool>>>
857*9ed0f38eSFaisal Awada interfaces;
858*9ed0f38eSFaisal Awada // Get map of interfaces and their properties
859*9ed0f38eSFaisal Awada msg.read(interfaces);
860*9ed0f38eSFaisal Awada
861*9ed0f38eSFaisal Awada auto properties = interfaces.find(INVENTORY_IFACE);
862*9ed0f38eSFaisal Awada if (properties != interfaces.end())
863*9ed0f38eSFaisal Awada {
864*9ed0f38eSFaisal Awada auto property = properties->second.find(PRESENT_PROP);
865*9ed0f38eSFaisal Awada if (property != properties->second.end())
866*9ed0f38eSFaisal Awada {
867*9ed0f38eSFaisal Awada present = std::get<bool>(property->second);
868*9ed0f38eSFaisal Awada
869*9ed0f38eSFaisal Awada lg2::info("Power Supply {INVENTORY_PATH} Present {PRESENT}",
870*9ed0f38eSFaisal Awada "INVENTORY_PATH", inventoryPath, "PRESENT", present);
871*9ed0f38eSFaisal Awada
872*9ed0f38eSFaisal Awada updateInventory();
873*9ed0f38eSFaisal Awada checkAvailability();
874*9ed0f38eSFaisal Awada }
875*9ed0f38eSFaisal Awada }
876*9ed0f38eSFaisal Awada }
877*9ed0f38eSFaisal Awada }
878*9ed0f38eSFaisal Awada
readVPDValue(const std::string & vpdName,const phosphor::pmbus::Type & type,const std::size_t & vpdSize)879*9ed0f38eSFaisal Awada auto PowerSupply::readVPDValue(const std::string& vpdName,
880*9ed0f38eSFaisal Awada const phosphor::pmbus::Type& type,
881*9ed0f38eSFaisal Awada const std::size_t& vpdSize)
882*9ed0f38eSFaisal Awada {
883*9ed0f38eSFaisal Awada std::string vpdValue;
884*9ed0f38eSFaisal Awada const std::regex illegalVPDRegex =
885*9ed0f38eSFaisal Awada std::regex("[^[:alnum:]]", std::regex::basic);
886*9ed0f38eSFaisal Awada
887*9ed0f38eSFaisal Awada try
888*9ed0f38eSFaisal Awada {
889*9ed0f38eSFaisal Awada vpdValue = pmbusIntf->readString(vpdName, type);
890*9ed0f38eSFaisal Awada }
891*9ed0f38eSFaisal Awada catch (const ReadFailure& e)
892*9ed0f38eSFaisal Awada {
893*9ed0f38eSFaisal Awada // Ignore the read failure, let pmbus code indicate failure,
894*9ed0f38eSFaisal Awada // path...
895*9ed0f38eSFaisal Awada // TODO - ibm918
896*9ed0f38eSFaisal Awada // https://github.com/openbmc/docs/blob/master/designs/vpd-collection.md
897*9ed0f38eSFaisal Awada // The BMC must log errors if any of the VPD cannot be properly
898*9ed0f38eSFaisal Awada // parsed or fails ECC checks.
899*9ed0f38eSFaisal Awada }
900*9ed0f38eSFaisal Awada
901*9ed0f38eSFaisal Awada if (vpdValue.size() != vpdSize)
902*9ed0f38eSFaisal Awada {
903*9ed0f38eSFaisal Awada lg2::info("{SHORT_NAME} {VPD_NAME} resize needed. size: {SIZE}",
904*9ed0f38eSFaisal Awada "SHORT_NAME", shortName, "VPD_NAME", vpdName, "SIZE",
905*9ed0f38eSFaisal Awada vpdValue.size());
906*9ed0f38eSFaisal Awada vpdValue.resize(vpdSize, ' ');
907*9ed0f38eSFaisal Awada }
908*9ed0f38eSFaisal Awada
909*9ed0f38eSFaisal Awada // Replace any illegal values with space(s).
910*9ed0f38eSFaisal Awada std::regex_replace(vpdValue.begin(), vpdValue.begin(), vpdValue.end(),
911*9ed0f38eSFaisal Awada illegalVPDRegex, " ");
912*9ed0f38eSFaisal Awada
913*9ed0f38eSFaisal Awada return vpdValue;
914*9ed0f38eSFaisal Awada }
915*9ed0f38eSFaisal Awada
updateInventory()916*9ed0f38eSFaisal Awada void PowerSupply::updateInventory()
917*9ed0f38eSFaisal Awada {
918*9ed0f38eSFaisal Awada using namespace phosphor::pmbus;
919*9ed0f38eSFaisal Awada
920*9ed0f38eSFaisal Awada #if IBM_VPD
921*9ed0f38eSFaisal Awada std::string pn;
922*9ed0f38eSFaisal Awada std::string fn;
923*9ed0f38eSFaisal Awada std::string header;
924*9ed0f38eSFaisal Awada std::string sn;
925*9ed0f38eSFaisal Awada // The IBM power supply splits the full serial number into two parts.
926*9ed0f38eSFaisal Awada // Each part is 6 bytes long, which should match up with SN_KW_SIZE.
927*9ed0f38eSFaisal Awada const auto HEADER_SIZE = 6;
928*9ed0f38eSFaisal Awada const auto SERIAL_SIZE = 6;
929*9ed0f38eSFaisal Awada // The IBM PSU firmware version size is a bit complicated. It was originally
930*9ed0f38eSFaisal Awada // 1-byte, per command. It was later expanded to 2-bytes per command, then
931*9ed0f38eSFaisal Awada // up to 8-bytes per command. The device driver only reads up to 2 bytes per
932*9ed0f38eSFaisal Awada // command, but combines all three of the 2-byte reads, or all 4 of the
933*9ed0f38eSFaisal Awada // 1-byte reads into one string. So, the maximum size expected is 6 bytes.
934*9ed0f38eSFaisal Awada // However, it is formatted by the driver as a hex string with two ASCII
935*9ed0f38eSFaisal Awada // characters per byte. So the maximum ASCII string size is 12.
936*9ed0f38eSFaisal Awada const auto IBMCFFPS_FW_VERSION_SIZE = 12;
937*9ed0f38eSFaisal Awada const auto ACBEL_FSG032_FW_VERSION_SIZE = 6;
938*9ed0f38eSFaisal Awada
939*9ed0f38eSFaisal Awada using PropertyMap =
940*9ed0f38eSFaisal Awada std::map<std::string,
941*9ed0f38eSFaisal Awada std::variant<std::string, std::vector<uint8_t>, bool>>;
942*9ed0f38eSFaisal Awada PropertyMap assetProps;
943*9ed0f38eSFaisal Awada PropertyMap operProps;
944*9ed0f38eSFaisal Awada PropertyMap versionProps;
945*9ed0f38eSFaisal Awada PropertyMap ipzvpdDINFProps;
946*9ed0f38eSFaisal Awada PropertyMap ipzvpdVINIProps;
947*9ed0f38eSFaisal Awada using InterfaceMap = std::map<std::string, PropertyMap>;
948*9ed0f38eSFaisal Awada InterfaceMap interfaces;
949*9ed0f38eSFaisal Awada using ObjectMap = std::map<sdbusplus::message::object_path, InterfaceMap>;
950*9ed0f38eSFaisal Awada ObjectMap object;
951*9ed0f38eSFaisal Awada #endif
952*9ed0f38eSFaisal Awada lg2::debug("updateInventory() inventoryPath: {INVENTORY_PATH}",
953*9ed0f38eSFaisal Awada "INVENTORY_PATH", inventoryPath);
954*9ed0f38eSFaisal Awada
955*9ed0f38eSFaisal Awada if (present)
956*9ed0f38eSFaisal Awada {
957*9ed0f38eSFaisal Awada // TODO: non-IBM inventory updates?
958*9ed0f38eSFaisal Awada
959*9ed0f38eSFaisal Awada #if IBM_VPD
960*9ed0f38eSFaisal Awada if (driverName == ACBEL_FSG032_DD_NAME)
961*9ed0f38eSFaisal Awada {
962*9ed0f38eSFaisal Awada getPsuVpdFromDbus("CC", modelName);
963*9ed0f38eSFaisal Awada getPsuVpdFromDbus("PN", pn);
964*9ed0f38eSFaisal Awada getPsuVpdFromDbus("FN", fn);
965*9ed0f38eSFaisal Awada getPsuVpdFromDbus("SN", sn);
966*9ed0f38eSFaisal Awada assetProps.emplace(SN_PROP, sn);
967*9ed0f38eSFaisal Awada fwVersion = readVPDValue(FW_VERSION, Type::Debug,
968*9ed0f38eSFaisal Awada ACBEL_FSG032_FW_VERSION_SIZE);
969*9ed0f38eSFaisal Awada versionProps.emplace(VERSION_PROP, fwVersion);
970*9ed0f38eSFaisal Awada }
971*9ed0f38eSFaisal Awada else
972*9ed0f38eSFaisal Awada {
973*9ed0f38eSFaisal Awada modelName = readVPDValue(CCIN, Type::HwmonDeviceDebug, CC_KW_SIZE);
974*9ed0f38eSFaisal Awada pn = readVPDValue(PART_NUMBER, Type::Debug, PN_KW_SIZE);
975*9ed0f38eSFaisal Awada fn = readVPDValue(FRU_NUMBER, Type::Debug, FN_KW_SIZE);
976*9ed0f38eSFaisal Awada
977*9ed0f38eSFaisal Awada header = readVPDValue(SERIAL_HEADER, Type::Debug, HEADER_SIZE);
978*9ed0f38eSFaisal Awada sn = readVPDValue(SERIAL_NUMBER, Type::Debug, SERIAL_SIZE);
979*9ed0f38eSFaisal Awada assetProps.emplace(SN_PROP, header + sn);
980*9ed0f38eSFaisal Awada fwVersion = readVPDValue(FW_VERSION, Type::HwmonDeviceDebug,
981*9ed0f38eSFaisal Awada IBMCFFPS_FW_VERSION_SIZE);
982*9ed0f38eSFaisal Awada versionProps.emplace(VERSION_PROP, fwVersion);
983*9ed0f38eSFaisal Awada }
984*9ed0f38eSFaisal Awada
985*9ed0f38eSFaisal Awada assetProps.emplace(MODEL_PROP, modelName);
986*9ed0f38eSFaisal Awada assetProps.emplace(PN_PROP, pn);
987*9ed0f38eSFaisal Awada assetProps.emplace(SPARE_PN_PROP, fn);
988*9ed0f38eSFaisal Awada
989*9ed0f38eSFaisal Awada ipzvpdVINIProps.emplace(
990*9ed0f38eSFaisal Awada "CC", std::vector<uint8_t>(modelName.begin(), modelName.end()));
991*9ed0f38eSFaisal Awada ipzvpdVINIProps.emplace("PN",
992*9ed0f38eSFaisal Awada std::vector<uint8_t>(pn.begin(), pn.end()));
993*9ed0f38eSFaisal Awada ipzvpdVINIProps.emplace("FN",
994*9ed0f38eSFaisal Awada std::vector<uint8_t>(fn.begin(), fn.end()));
995*9ed0f38eSFaisal Awada std::string header_sn = header + sn;
996*9ed0f38eSFaisal Awada ipzvpdVINIProps.emplace(
997*9ed0f38eSFaisal Awada "SN", std::vector<uint8_t>(header_sn.begin(), header_sn.end()));
998*9ed0f38eSFaisal Awada std::string description = "IBM PS";
999*9ed0f38eSFaisal Awada ipzvpdVINIProps.emplace(
1000*9ed0f38eSFaisal Awada "DR", std::vector<uint8_t>(description.begin(), description.end()));
1001*9ed0f38eSFaisal Awada
1002*9ed0f38eSFaisal Awada // Populate the VINI Resource Type (RT) keyword
1003*9ed0f38eSFaisal Awada ipzvpdVINIProps.emplace("RT", std::vector<uint8_t>{'V', 'I', 'N', 'I'});
1004*9ed0f38eSFaisal Awada
1005*9ed0f38eSFaisal Awada // Update the Resource Identifier (RI) keyword
1006*9ed0f38eSFaisal Awada // 2 byte FRC: 0x0003
1007*9ed0f38eSFaisal Awada // 2 byte RID: 0x1000, 0x1001...
1008*9ed0f38eSFaisal Awada std::uint8_t num = std::stoul(
1009*9ed0f38eSFaisal Awada inventoryPath.substr(inventoryPath.size() - 1, 1), nullptr, 0);
1010*9ed0f38eSFaisal Awada std::vector<uint8_t> ri{0x00, 0x03, 0x10, num};
1011*9ed0f38eSFaisal Awada ipzvpdDINFProps.emplace("RI", ri);
1012*9ed0f38eSFaisal Awada
1013*9ed0f38eSFaisal Awada // Fill in the FRU Label (FL) keyword.
1014*9ed0f38eSFaisal Awada std::string fl = "E";
1015*9ed0f38eSFaisal Awada fl.push_back(inventoryPath.back());
1016*9ed0f38eSFaisal Awada fl.resize(FL_KW_SIZE, ' ');
1017*9ed0f38eSFaisal Awada ipzvpdDINFProps.emplace("FL",
1018*9ed0f38eSFaisal Awada std::vector<uint8_t>(fl.begin(), fl.end()));
1019*9ed0f38eSFaisal Awada
1020*9ed0f38eSFaisal Awada // Populate the DINF Resource Type (RT) keyword
1021*9ed0f38eSFaisal Awada ipzvpdDINFProps.emplace("RT", std::vector<uint8_t>{'D', 'I', 'N', 'F'});
1022*9ed0f38eSFaisal Awada
1023*9ed0f38eSFaisal Awada interfaces.emplace(ASSET_IFACE, std::move(assetProps));
1024*9ed0f38eSFaisal Awada interfaces.emplace(VERSION_IFACE, std::move(versionProps));
1025*9ed0f38eSFaisal Awada interfaces.emplace(DINF_IFACE, std::move(ipzvpdDINFProps));
1026*9ed0f38eSFaisal Awada interfaces.emplace(VINI_IFACE, std::move(ipzvpdVINIProps));
1027*9ed0f38eSFaisal Awada
1028*9ed0f38eSFaisal Awada // Update the Functional
1029*9ed0f38eSFaisal Awada operProps.emplace(FUNCTIONAL_PROP, present);
1030*9ed0f38eSFaisal Awada interfaces.emplace(OPERATIONAL_STATE_IFACE, std::move(operProps));
1031*9ed0f38eSFaisal Awada
1032*9ed0f38eSFaisal Awada auto path = inventoryPath.substr(strlen(INVENTORY_OBJ_PATH));
1033*9ed0f38eSFaisal Awada object.emplace(path, std::move(interfaces));
1034*9ed0f38eSFaisal Awada
1035*9ed0f38eSFaisal Awada try
1036*9ed0f38eSFaisal Awada {
1037*9ed0f38eSFaisal Awada auto service =
1038*9ed0f38eSFaisal Awada util::getService(INVENTORY_OBJ_PATH, INVENTORY_MGR_IFACE, bus);
1039*9ed0f38eSFaisal Awada
1040*9ed0f38eSFaisal Awada if (service.empty())
1041*9ed0f38eSFaisal Awada {
1042*9ed0f38eSFaisal Awada lg2::error("Unable to get inventory manager service");
1043*9ed0f38eSFaisal Awada return;
1044*9ed0f38eSFaisal Awada }
1045*9ed0f38eSFaisal Awada
1046*9ed0f38eSFaisal Awada auto method =
1047*9ed0f38eSFaisal Awada bus.new_method_call(service.c_str(), INVENTORY_OBJ_PATH,
1048*9ed0f38eSFaisal Awada INVENTORY_MGR_IFACE, "Notify");
1049*9ed0f38eSFaisal Awada
1050*9ed0f38eSFaisal Awada method.append(std::move(object));
1051*9ed0f38eSFaisal Awada
1052*9ed0f38eSFaisal Awada auto reply = bus.call(method);
1053*9ed0f38eSFaisal Awada }
1054*9ed0f38eSFaisal Awada catch (const std::exception& e)
1055*9ed0f38eSFaisal Awada {
1056*9ed0f38eSFaisal Awada lg2::error(
1057*9ed0f38eSFaisal Awada "Exception in updateInventory(): {ERROR}, PATH={INVENTORY_PATH}",
1058*9ed0f38eSFaisal Awada "ERROR", e, "INVENTORY_PATH", inventoryPath);
1059*9ed0f38eSFaisal Awada }
1060*9ed0f38eSFaisal Awada #endif
1061*9ed0f38eSFaisal Awada }
1062*9ed0f38eSFaisal Awada }
1063*9ed0f38eSFaisal Awada
getMaxPowerOut() const1064*9ed0f38eSFaisal Awada auto PowerSupply::getMaxPowerOut() const
1065*9ed0f38eSFaisal Awada {
1066*9ed0f38eSFaisal Awada using namespace phosphor::pmbus;
1067*9ed0f38eSFaisal Awada
1068*9ed0f38eSFaisal Awada auto maxPowerOut = 0;
1069*9ed0f38eSFaisal Awada
1070*9ed0f38eSFaisal Awada if (present)
1071*9ed0f38eSFaisal Awada {
1072*9ed0f38eSFaisal Awada try
1073*9ed0f38eSFaisal Awada {
1074*9ed0f38eSFaisal Awada // Read max_power_out, should be direct format
1075*9ed0f38eSFaisal Awada auto maxPowerOutStr =
1076*9ed0f38eSFaisal Awada pmbusIntf->readString(MFR_POUT_MAX, Type::HwmonDeviceDebug);
1077*9ed0f38eSFaisal Awada lg2::info("{SHORT_NAME} MFR_POUT_MAX read {MAX_POWER_OUT_STR}",
1078*9ed0f38eSFaisal Awada "SHORT_NAME", shortName, "MAX_POWER_OUT_STR",
1079*9ed0f38eSFaisal Awada maxPowerOutStr);
1080*9ed0f38eSFaisal Awada maxPowerOut = std::stod(maxPowerOutStr);
1081*9ed0f38eSFaisal Awada }
1082*9ed0f38eSFaisal Awada catch (const std::exception& e)
1083*9ed0f38eSFaisal Awada {
1084*9ed0f38eSFaisal Awada lg2::error("{SHORT_NAME} MFR_POUT_MAX read error: {ERROR}",
1085*9ed0f38eSFaisal Awada "SHORT_NAME", shortName, "ERROR", e);
1086*9ed0f38eSFaisal Awada }
1087*9ed0f38eSFaisal Awada }
1088*9ed0f38eSFaisal Awada
1089*9ed0f38eSFaisal Awada return maxPowerOut;
1090*9ed0f38eSFaisal Awada }
1091*9ed0f38eSFaisal Awada
setupSensors()1092*9ed0f38eSFaisal Awada void PowerSupply::setupSensors()
1093*9ed0f38eSFaisal Awada {
1094*9ed0f38eSFaisal Awada setupInputPowerPeakSensor();
1095*9ed0f38eSFaisal Awada }
1096*9ed0f38eSFaisal Awada
setupInputPowerPeakSensor()1097*9ed0f38eSFaisal Awada void PowerSupply::setupInputPowerPeakSensor()
1098*9ed0f38eSFaisal Awada {
1099*9ed0f38eSFaisal Awada if (peakInputPowerSensor || !present ||
1100*9ed0f38eSFaisal Awada (bindPath.string().find(IBMCFFPS_DD_NAME) == std::string::npos))
1101*9ed0f38eSFaisal Awada {
1102*9ed0f38eSFaisal Awada return;
1103*9ed0f38eSFaisal Awada }
1104*9ed0f38eSFaisal Awada
1105*9ed0f38eSFaisal Awada // This PSU has problems with the input_history command
1106*9ed0f38eSFaisal Awada if (getMaxPowerOut() == phosphor::pmbus::IBM_CFFPS_1400W)
1107*9ed0f38eSFaisal Awada {
1108*9ed0f38eSFaisal Awada return;
1109*9ed0f38eSFaisal Awada }
1110*9ed0f38eSFaisal Awada
1111*9ed0f38eSFaisal Awada auto sensorPath = std::format(
1112*9ed0f38eSFaisal Awada "/xyz/openbmc_project/sensors/power/{}_ps{}_input_power_peak",
1113*9ed0f38eSFaisal Awada chassisName, shortName.back());
1114*9ed0f38eSFaisal Awada peakInputPowerSensor = std::make_unique<PowerSensorObject>(
1115*9ed0f38eSFaisal Awada bus, sensorPath.c_str(), PowerSensorObject::action::defer_emit);
1116*9ed0f38eSFaisal Awada
1117*9ed0f38eSFaisal Awada // The others can remain at the defaults.
1118*9ed0f38eSFaisal Awada peakInputPowerSensor->functional(true, true);
1119*9ed0f38eSFaisal Awada peakInputPowerSensor->available(true, true);
1120*9ed0f38eSFaisal Awada peakInputPowerSensor->value(0, true);
1121*9ed0f38eSFaisal Awada peakInputPowerSensor->unit(
1122*9ed0f38eSFaisal Awada sdbusplus::xyz::openbmc_project::Sensor::server::Value::Unit::Watts,
1123*9ed0f38eSFaisal Awada true);
1124*9ed0f38eSFaisal Awada
1125*9ed0f38eSFaisal Awada auto associations = getSensorAssociations();
1126*9ed0f38eSFaisal Awada peakInputPowerSensor->associations(associations, true);
1127*9ed0f38eSFaisal Awada
1128*9ed0f38eSFaisal Awada peakInputPowerSensor->emit_object_added();
1129*9ed0f38eSFaisal Awada }
1130*9ed0f38eSFaisal Awada
setSensorsNotAvailable()1131*9ed0f38eSFaisal Awada void PowerSupply::setSensorsNotAvailable()
1132*9ed0f38eSFaisal Awada {
1133*9ed0f38eSFaisal Awada if (peakInputPowerSensor)
1134*9ed0f38eSFaisal Awada {
1135*9ed0f38eSFaisal Awada peakInputPowerSensor->value(std::numeric_limits<double>::quiet_NaN());
1136*9ed0f38eSFaisal Awada peakInputPowerSensor->available(false);
1137*9ed0f38eSFaisal Awada }
1138*9ed0f38eSFaisal Awada }
1139*9ed0f38eSFaisal Awada
monitorSensors()1140*9ed0f38eSFaisal Awada void PowerSupply::monitorSensors()
1141*9ed0f38eSFaisal Awada {
1142*9ed0f38eSFaisal Awada monitorPeakInputPowerSensor();
1143*9ed0f38eSFaisal Awada }
1144*9ed0f38eSFaisal Awada
monitorPeakInputPowerSensor()1145*9ed0f38eSFaisal Awada void PowerSupply::monitorPeakInputPowerSensor()
1146*9ed0f38eSFaisal Awada {
1147*9ed0f38eSFaisal Awada if (!peakInputPowerSensor)
1148*9ed0f38eSFaisal Awada {
1149*9ed0f38eSFaisal Awada return;
1150*9ed0f38eSFaisal Awada }
1151*9ed0f38eSFaisal Awada
1152*9ed0f38eSFaisal Awada constexpr size_t recordSize = 5;
1153*9ed0f38eSFaisal Awada std::vector<uint8_t> data;
1154*9ed0f38eSFaisal Awada
1155*9ed0f38eSFaisal Awada // Get the peak input power with input history command.
1156*9ed0f38eSFaisal Awada // New data only shows up every 30s, but just try to read it every 1s
1157*9ed0f38eSFaisal Awada // anyway so we always have the most up to date value.
1158*9ed0f38eSFaisal Awada try
1159*9ed0f38eSFaisal Awada {
1160*9ed0f38eSFaisal Awada data = pmbusIntf->readBinary(INPUT_HISTORY,
1161*9ed0f38eSFaisal Awada pmbus::Type::HwmonDeviceDebug, recordSize);
1162*9ed0f38eSFaisal Awada }
1163*9ed0f38eSFaisal Awada catch (const ReadFailure& e)
1164*9ed0f38eSFaisal Awada {
1165*9ed0f38eSFaisal Awada peakInputPowerSensor->value(std::numeric_limits<double>::quiet_NaN());
1166*9ed0f38eSFaisal Awada peakInputPowerSensor->functional(false);
1167*9ed0f38eSFaisal Awada throw;
1168*9ed0f38eSFaisal Awada }
1169*9ed0f38eSFaisal Awada
1170*9ed0f38eSFaisal Awada if (data.size() != recordSize)
1171*9ed0f38eSFaisal Awada {
1172*9ed0f38eSFaisal Awada lg2::debug(
1173*9ed0f38eSFaisal Awada "Input history command returned {DATA_SIZE} bytes instead of 5",
1174*9ed0f38eSFaisal Awada "DATA_SIZE", data.size());
1175*9ed0f38eSFaisal Awada peakInputPowerSensor->value(std::numeric_limits<double>::quiet_NaN());
1176*9ed0f38eSFaisal Awada peakInputPowerSensor->functional(false);
1177*9ed0f38eSFaisal Awada return;
1178*9ed0f38eSFaisal Awada }
1179*9ed0f38eSFaisal Awada
1180*9ed0f38eSFaisal Awada // The format is SSAAAAPPPP:
1181*9ed0f38eSFaisal Awada // SS = packet sequence number
1182*9ed0f38eSFaisal Awada // AAAA = average power (linear format, little endian)
1183*9ed0f38eSFaisal Awada // PPPP = peak power (linear format, little endian)
1184*9ed0f38eSFaisal Awada auto peak = static_cast<uint16_t>(data[4]) << 8 | data[3];
1185*9ed0f38eSFaisal Awada auto peakPower = linearToInteger(peak);
1186*9ed0f38eSFaisal Awada
1187*9ed0f38eSFaisal Awada peakInputPowerSensor->value(peakPower);
1188*9ed0f38eSFaisal Awada peakInputPowerSensor->functional(true);
1189*9ed0f38eSFaisal Awada peakInputPowerSensor->available(true);
1190*9ed0f38eSFaisal Awada }
1191*9ed0f38eSFaisal Awada
getInputVoltage(double & actualInputVoltage,int & inputVoltage) const1192*9ed0f38eSFaisal Awada void PowerSupply::getInputVoltage(double& actualInputVoltage,
1193*9ed0f38eSFaisal Awada int& inputVoltage) const
1194*9ed0f38eSFaisal Awada {
1195*9ed0f38eSFaisal Awada using namespace phosphor::pmbus;
1196*9ed0f38eSFaisal Awada
1197*9ed0f38eSFaisal Awada actualInputVoltage = in_input::VIN_VOLTAGE_0;
1198*9ed0f38eSFaisal Awada inputVoltage = in_input::VIN_VOLTAGE_0;
1199*9ed0f38eSFaisal Awada
1200*9ed0f38eSFaisal Awada if (present)
1201*9ed0f38eSFaisal Awada {
1202*9ed0f38eSFaisal Awada try
1203*9ed0f38eSFaisal Awada {
1204*9ed0f38eSFaisal Awada // Read input voltage in millivolts
1205*9ed0f38eSFaisal Awada auto inputVoltageStr = pmbusIntf->readString(READ_VIN, Type::Hwmon);
1206*9ed0f38eSFaisal Awada
1207*9ed0f38eSFaisal Awada // Convert to volts
1208*9ed0f38eSFaisal Awada actualInputVoltage = std::stod(inputVoltageStr) / 1000;
1209*9ed0f38eSFaisal Awada
1210*9ed0f38eSFaisal Awada // Calculate the voltage based on voltage thresholds
1211*9ed0f38eSFaisal Awada if (actualInputVoltage < in_input::VIN_VOLTAGE_MIN)
1212*9ed0f38eSFaisal Awada {
1213*9ed0f38eSFaisal Awada inputVoltage = in_input::VIN_VOLTAGE_0;
1214*9ed0f38eSFaisal Awada }
1215*9ed0f38eSFaisal Awada else if (actualInputVoltage < in_input::VIN_VOLTAGE_110_THRESHOLD)
1216*9ed0f38eSFaisal Awada {
1217*9ed0f38eSFaisal Awada inputVoltage = in_input::VIN_VOLTAGE_110;
1218*9ed0f38eSFaisal Awada }
1219*9ed0f38eSFaisal Awada else
1220*9ed0f38eSFaisal Awada {
1221*9ed0f38eSFaisal Awada inputVoltage = in_input::VIN_VOLTAGE_220;
1222*9ed0f38eSFaisal Awada }
1223*9ed0f38eSFaisal Awada }
1224*9ed0f38eSFaisal Awada catch (const std::exception& e)
1225*9ed0f38eSFaisal Awada {
1226*9ed0f38eSFaisal Awada lg2::error("{SHORT_NAME} READ_VIN read error: {ERROR}",
1227*9ed0f38eSFaisal Awada "SHORT_NAME", shortName, "ERROR", e);
1228*9ed0f38eSFaisal Awada }
1229*9ed0f38eSFaisal Awada }
1230*9ed0f38eSFaisal Awada }
1231*9ed0f38eSFaisal Awada
checkAvailability()1232*9ed0f38eSFaisal Awada void PowerSupply::checkAvailability()
1233*9ed0f38eSFaisal Awada {
1234*9ed0f38eSFaisal Awada bool origAvailability = available;
1235*9ed0f38eSFaisal Awada bool faulted = isPowerOn() && (hasPSKillFault() || hasIoutOCFault());
1236*9ed0f38eSFaisal Awada available = present && !hasInputFault() && !hasVINUVFault() && !faulted;
1237*9ed0f38eSFaisal Awada
1238*9ed0f38eSFaisal Awada if (origAvailability != available)
1239*9ed0f38eSFaisal Awada {
1240*9ed0f38eSFaisal Awada auto invpath = inventoryPath.substr(strlen(INVENTORY_OBJ_PATH));
1241*9ed0f38eSFaisal Awada phosphor::power::psu::setAvailable(bus, invpath, available);
1242*9ed0f38eSFaisal Awada
1243*9ed0f38eSFaisal Awada // Check if the health rollup needs to change based on the
1244*9ed0f38eSFaisal Awada // new availability value.
1245*9ed0f38eSFaisal Awada phosphor::power::psu::handleChassisHealthRollup(bus, inventoryPath,
1246*9ed0f38eSFaisal Awada !available);
1247*9ed0f38eSFaisal Awada }
1248*9ed0f38eSFaisal Awada }
1249*9ed0f38eSFaisal Awada
setInputVoltageRating()1250*9ed0f38eSFaisal Awada void PowerSupply::setInputVoltageRating()
1251*9ed0f38eSFaisal Awada {
1252*9ed0f38eSFaisal Awada if (!present)
1253*9ed0f38eSFaisal Awada {
1254*9ed0f38eSFaisal Awada if (inputVoltageRatingIface)
1255*9ed0f38eSFaisal Awada {
1256*9ed0f38eSFaisal Awada inputVoltageRatingIface->value(0);
1257*9ed0f38eSFaisal Awada inputVoltageRatingIface.reset();
1258*9ed0f38eSFaisal Awada }
1259*9ed0f38eSFaisal Awada return;
1260*9ed0f38eSFaisal Awada }
1261*9ed0f38eSFaisal Awada
1262*9ed0f38eSFaisal Awada double inputVoltageValue{};
1263*9ed0f38eSFaisal Awada int inputVoltageRating{};
1264*9ed0f38eSFaisal Awada getInputVoltage(inputVoltageValue, inputVoltageRating);
1265*9ed0f38eSFaisal Awada
1266*9ed0f38eSFaisal Awada if (!inputVoltageRatingIface)
1267*9ed0f38eSFaisal Awada {
1268*9ed0f38eSFaisal Awada auto path = std::format(
1269*9ed0f38eSFaisal Awada "/xyz/openbmc_project/sensors/voltage/ps{}_input_voltage_rating",
1270*9ed0f38eSFaisal Awada shortName.back());
1271*9ed0f38eSFaisal Awada
1272*9ed0f38eSFaisal Awada inputVoltageRatingIface = std::make_unique<SensorObject>(
1273*9ed0f38eSFaisal Awada bus, path.c_str(), SensorObject::action::defer_emit);
1274*9ed0f38eSFaisal Awada
1275*9ed0f38eSFaisal Awada // Leave other properties at their defaults
1276*9ed0f38eSFaisal Awada inputVoltageRatingIface->unit(SensorInterface::Unit::Volts, true);
1277*9ed0f38eSFaisal Awada inputVoltageRatingIface->value(static_cast<double>(inputVoltageRating),
1278*9ed0f38eSFaisal Awada true);
1279*9ed0f38eSFaisal Awada
1280*9ed0f38eSFaisal Awada inputVoltageRatingIface->emit_object_added();
1281*9ed0f38eSFaisal Awada }
1282*9ed0f38eSFaisal Awada else
1283*9ed0f38eSFaisal Awada {
1284*9ed0f38eSFaisal Awada inputVoltageRatingIface->value(static_cast<double>(inputVoltageRating));
1285*9ed0f38eSFaisal Awada }
1286*9ed0f38eSFaisal Awada }
1287*9ed0f38eSFaisal Awada
getPsuVpdFromDbus(const std::string & keyword,std::string & vpdStr)1288*9ed0f38eSFaisal Awada void PowerSupply::getPsuVpdFromDbus(const std::string& keyword,
1289*9ed0f38eSFaisal Awada std::string& vpdStr)
1290*9ed0f38eSFaisal Awada {
1291*9ed0f38eSFaisal Awada try
1292*9ed0f38eSFaisal Awada {
1293*9ed0f38eSFaisal Awada std::vector<uint8_t> value;
1294*9ed0f38eSFaisal Awada vpdStr.clear();
1295*9ed0f38eSFaisal Awada util::getProperty(VINI_IFACE, keyword, inventoryPath,
1296*9ed0f38eSFaisal Awada INVENTORY_MGR_IFACE, bus, value);
1297*9ed0f38eSFaisal Awada for (char c : value)
1298*9ed0f38eSFaisal Awada {
1299*9ed0f38eSFaisal Awada vpdStr += c;
1300*9ed0f38eSFaisal Awada }
1301*9ed0f38eSFaisal Awada }
1302*9ed0f38eSFaisal Awada catch (const sdbusplus::exception_t& e)
1303*9ed0f38eSFaisal Awada {
1304*9ed0f38eSFaisal Awada lg2::error("Failed getProperty error: {ERROR}", "ERROR", e);
1305*9ed0f38eSFaisal Awada }
1306*9ed0f38eSFaisal Awada }
1307*9ed0f38eSFaisal Awada
linearToInteger(uint16_t data)1308*9ed0f38eSFaisal Awada double PowerSupply::linearToInteger(uint16_t data)
1309*9ed0f38eSFaisal Awada {
1310*9ed0f38eSFaisal Awada // The exponent is the first 5 bits, followed by 11 bits of mantissa.
1311*9ed0f38eSFaisal Awada int8_t exponent = (data & 0xF800) >> 11;
1312*9ed0f38eSFaisal Awada int16_t mantissa = (data & 0x07FF);
1313*9ed0f38eSFaisal Awada
1314*9ed0f38eSFaisal Awada // If exponent's MSB on, then it's negative.
1315*9ed0f38eSFaisal Awada // Convert from two's complement.
1316*9ed0f38eSFaisal Awada if (exponent & 0x10)
1317*9ed0f38eSFaisal Awada {
1318*9ed0f38eSFaisal Awada exponent = (~exponent) & 0x1F;
1319*9ed0f38eSFaisal Awada exponent = (exponent + 1) * -1;
1320*9ed0f38eSFaisal Awada }
1321*9ed0f38eSFaisal Awada
1322*9ed0f38eSFaisal Awada // If mantissa's MSB on, then it's negative.
1323*9ed0f38eSFaisal Awada // Convert from two's complement.
1324*9ed0f38eSFaisal Awada if (mantissa & 0x400)
1325*9ed0f38eSFaisal Awada {
1326*9ed0f38eSFaisal Awada mantissa = (~mantissa) & 0x07FF;
1327*9ed0f38eSFaisal Awada mantissa = (mantissa + 1) * -1;
1328*9ed0f38eSFaisal Awada }
1329*9ed0f38eSFaisal Awada
1330*9ed0f38eSFaisal Awada auto value = static_cast<double>(mantissa) * pow(2, exponent);
1331*9ed0f38eSFaisal Awada return value;
1332*9ed0f38eSFaisal Awada }
1333*9ed0f38eSFaisal Awada
getSensorAssociations()1334*9ed0f38eSFaisal Awada std::vector<AssociationTuple> PowerSupply::getSensorAssociations()
1335*9ed0f38eSFaisal Awada {
1336*9ed0f38eSFaisal Awada std::vector<AssociationTuple> associations;
1337*9ed0f38eSFaisal Awada
1338*9ed0f38eSFaisal Awada associations.emplace_back("inventory", "sensors", inventoryPath);
1339*9ed0f38eSFaisal Awada
1340*9ed0f38eSFaisal Awada auto chassis = getChassis(bus, inventoryPath);
1341*9ed0f38eSFaisal Awada associations.emplace_back("chassis", "all_sensors", std::move(chassis));
1342*9ed0f38eSFaisal Awada
1343*9ed0f38eSFaisal Awada return associations;
1344*9ed0f38eSFaisal Awada }
1345*9ed0f38eSFaisal Awada
1346*9ed0f38eSFaisal Awada } // namespace phosphor::power::psu
1347