/** * Copyright © 2019 IBM Corporation * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "config.h" #include "updater.hpp" #include "pmbus.hpp" #include "types.hpp" #include "utility.hpp" #include #include #include #include using namespace phosphor::logging; namespace util = phosphor::power::util; namespace updater { namespace internal { /* Get the device name from the device path */ std::string getDeviceName(std::string devPath) { if (devPath.back() == '/') { devPath.pop_back(); } return fs::path(devPath).stem().string(); } std::string getDevicePath(const std::string& psuInventoryPath) { auto data = util::loadJSONFromFile(PSU_JSON_PATH); if (data == nullptr) { return {}; } auto devicePath = data["psuDevices"][psuInventoryPath]; if (devicePath.empty()) { log("Unable to find psu devices or path"); } return devicePath; } std::pair parseDeviceName(const std::string& devName) { // Get I2C bus id and device address, e.g. 3-0068 // is parsed to bus id 3, device address 0x68 auto pos = devName.find('-'); assert(pos != std::string::npos); uint8_t busId = std::stoi(devName.substr(0, pos)); uint8_t devAddr = std::stoi(devName.substr(pos + 1), nullptr, 16); return {busId, devAddr}; } } // namespace internal bool update(const std::string& psuInventoryPath, const std::string& imageDir) { auto devPath = internal::getDevicePath(psuInventoryPath); if (devPath.empty()) { return false; } Updater updater(psuInventoryPath, devPath, imageDir); if (!updater.isReadyToUpdate()) { log("PSU not ready to update", entry("PSU=%s", psuInventoryPath.c_str())); return false; } updater.bindUnbind(false); updater.createI2CDevice(); int ret = updater.doUpdate(); updater.bindUnbind(true); return ret == 0; } Updater::Updater(const std::string& psuInventoryPath, const std::string& devPath, const std::string& imageDir) : bus(sdbusplus::bus::new_default()), psuInventoryPath(psuInventoryPath), devPath(devPath), devName(internal::getDeviceName(devPath)), imageDir(imageDir) { fs::path p = fs::path(devPath) / "driver"; try { driverPath = fs::canonical(p); // Get the path that points to the driver dir } catch (const fs::filesystem_error& e) { log("Failed to get canonical path", entry("DEVPATH=%s", devPath.c_str()), entry("ERROR=%s", e.what())); throw; } } // During PSU update, it needs to access the PSU i2c device directly, so it // needs to unbind the driver during the update, and re-bind after it's done. // After unbind, the hwmon sysfs will be gone, and the psu-monitor will report // errors. So set the PSU inventory's Present property to false so that // psu-monitor will not report any errors. void Updater::bindUnbind(bool doBind) { if (!doBind) { // Set non-present before unbind the driver setPresent(doBind); } auto p = driverPath; p /= doBind ? "bind" : "unbind"; std::ofstream out(p.string()); out << devName; if (doBind) { // Set to present after bind the driver setPresent(doBind); } } void Updater::setPresent(bool present) { try { auto service = util::getService(psuInventoryPath, INVENTORY_IFACE, bus); util::setProperty(INVENTORY_IFACE, PRESENT_PROP, psuInventoryPath, service, bus, present); } catch (const std::exception& e) { log("Failed to set present property", entry("PSU=%s", psuInventoryPath.c_str()), entry("PRESENT=%d", present)); } } bool Updater::isReadyToUpdate() { using namespace phosphor::pmbus; // Pre-condition for updating PSU: // * Host is powered off // * At least one other PSU is present // * All other PSUs that are present are having AC input and DC standby // output if (util::isPoweredOn(bus, true)) { log("Unable to update PSU when host is on"); return false; } bool hasOtherPresent = false; auto paths = util::getPSUInventoryPaths(bus); for (const auto& p : paths) { if (p == psuInventoryPath) { // Skip check for itself continue; } // Check PSU present bool present = false; try { auto service = util::getService(p, INVENTORY_IFACE, bus); util::getProperty(INVENTORY_IFACE, PRESENT_PROP, psuInventoryPath, service, bus, present); } catch (const std::exception& e) { log("Failed to get present property", entry("PSU=%s", p.c_str())); } if (!present) { log("PSU not present", entry("PSU=%s", p.c_str())); continue; } hasOtherPresent = true; // Typically the driver is still bound here, so it is possible to // directly read the debugfs to get the status. try { auto devPath = internal::getDevicePath(p); PMBus pmbus(devPath); uint16_t statusWord = pmbus.read(STATUS_WORD, Type::Debug); auto status0Vout = pmbus.insertPageNum(STATUS_VOUT, 0); uint8_t voutStatus = pmbus.read(status0Vout, Type::Debug); if ((statusWord & status_word::VOUT_FAULT) || (statusWord & status_word::INPUT_FAULT_WARN) || (statusWord & status_word::VIN_UV_FAULT) || // For ibm-cffps PSUs, the MFR (0x80)'s OV (bit 2) and VAUX // (bit 6) fault map to OV_FAULT, and UV (bit 3) fault maps to // UV_FAULT in vout status. (voutStatus & status_vout::UV_FAULT) || (voutStatus & status_vout::OV_FAULT)) { log( "Unable to update PSU when other PSU has input/ouput fault", entry("PSU=%s", p.c_str()), entry("STATUS_WORD=0x%04x", statusWord), entry("VOUT_BYTE=0x%02x", voutStatus)); return false; } } catch (const std::exception& ex) { // If error occurs on accessing the debugfs, it means something went // wrong, e.g. PSU is not present, and it's not ready to update. log(ex.what()); return false; } } return hasOtherPresent; } int Updater::doUpdate() { using namespace std::chrono; uint8_t data; uint8_t unlockData[12] = {0x45, 0x43, 0x44, 0x31, 0x36, 0x30, 0x33, 0x30, 0x30, 0x30, 0x34, 0x01}; uint8_t bootFlag = 0x01; static_assert(sizeof(unlockData) == 12); i2c->write(0xf0, sizeof(unlockData), unlockData); printf("Unlock PSU\n"); std::this_thread::sleep_for(milliseconds(5)); i2c->write(0xf1, bootFlag); printf("Set boot flag ret\n"); std::this_thread::sleep_for(seconds(3)); i2c->read(0xf1, data); printf("Read of 0x%02x, 0x%02x\n", 0xf1, data); return 0; } void Updater::createI2CDevice() { auto [id, addr] = internal::parseDeviceName(devName); i2c = i2c::create(id, addr); } } // namespace updater