#include "watchdog.hpp" #include "watchdog_service.hpp" #include #include #include #include #include #include #include #include #include using phosphor::logging::commit; using phosphor::logging::level; using phosphor::logging::log; using sdbusplus::error::xyz::openbmc_project::common::InternalFailure; static bool lastCallSuccessful = false; void reportError() { // We don't want to fill the SEL with errors if the daemon dies and doesn't // come back but the watchdog keeps on ticking. Instead, we only report the // error if we haven't reported one since the last successful call if (!lastCallSuccessful) { return; } lastCallSuccessful = false; // TODO: This slow down the end of the IPMI transaction waiting // for the commit to finish. commit<>() can take at least 5 seconds // to complete. 5s is very slow for an IPMI command and ends up // congesting the IPMI channel needlessly, especially if the watchdog // is ticking fairly quickly and we have some transient issues. commit(); } ipmi::RspType<> ipmiAppResetWatchdogTimer() { try { WatchdogService wd_service; // Notify the caller if we haven't initialized our timer yet // so it can configure actions and timeouts if (!wd_service.getInitialized()) { lastCallSuccessful = true; constexpr uint8_t ccWatchdogNotInit = 0x80; return ipmi::response(ccWatchdogNotInit); } // The ipmi standard dictates we enable the watchdog during reset wd_service.resetTimeRemaining(true); lastCallSuccessful = true; return ipmi::responseSuccess(); } catch (const InternalFailure& e) { reportError(); return ipmi::responseUnspecifiedError(); } catch (const std::exception& e) { const std::string e_str = std::string("wd_reset: ") + e.what(); log(e_str.c_str()); return ipmi::responseUnspecifiedError(); } catch (...) { log("wd_reset: Unknown Error"); return ipmi::responseUnspecifiedError(); } } static constexpr uint8_t wd_dont_stop = 0x1 << 6; static constexpr uint8_t wd_timeout_action_mask = 0x3; static constexpr uint8_t wdTimerUseResTimer1 = 0x0; static constexpr uint8_t wdTimerUseResTimer2 = 0x6; static constexpr uint8_t wdTimerUseResTimer3 = 0x7; static constexpr uint8_t wdTimeoutActionMax = 3; static constexpr uint8_t wdTimeoutInterruptTimer = 0x04; enum class IpmiAction : uint8_t { None = 0x0, HardReset = 0x1, PowerOff = 0x2, PowerCycle = 0x3, }; /** @brief Converts an IPMI Watchdog Action to DBUS defined action * @param[in] ipmi_action The IPMI Watchdog Action * @return The Watchdog Action that the ipmi_action maps to */ WatchdogService::Action ipmiActionToWdAction(IpmiAction ipmi_action) { switch (ipmi_action) { case IpmiAction::None: { return WatchdogService::Action::None; } case IpmiAction::HardReset: { return WatchdogService::Action::HardReset; } case IpmiAction::PowerOff: { return WatchdogService::Action::PowerOff; } case IpmiAction::PowerCycle: { return WatchdogService::Action::PowerCycle; } default: { throw std::domain_error("IPMI Action is invalid"); } } } enum class IpmiTimerUse : uint8_t { Reserved = 0x0, BIOSFRB2 = 0x1, BIOSPOST = 0x2, OSLoad = 0x3, SMSOS = 0x4, OEM = 0x5, }; WatchdogService::TimerUse ipmiTimerUseToWdTimerUse(IpmiTimerUse ipmiTimerUse) { switch (ipmiTimerUse) { case IpmiTimerUse::Reserved: { return WatchdogService::TimerUse::Reserved; } case IpmiTimerUse::BIOSFRB2: { return WatchdogService::TimerUse::BIOSFRB2; } case IpmiTimerUse::BIOSPOST: { return WatchdogService::TimerUse::BIOSPOST; } case IpmiTimerUse::OSLoad: { return WatchdogService::TimerUse::OSLoad; } case IpmiTimerUse::SMSOS: { return WatchdogService::TimerUse::SMSOS; } case IpmiTimerUse::OEM: { return WatchdogService::TimerUse::OEM; } default: { return WatchdogService::TimerUse::Reserved; } } } static bool timerNotLogFlags = false; static std::bitset<8> timerUseExpirationFlags = 0; static uint3_t timerPreTimeoutInterrupt = 0; static constexpr uint8_t wdExpirationFlagReservedBit0 = 0x0; static constexpr uint8_t wdExpirationFlagReservedBit6 = 0x6; static constexpr uint8_t wdExpirationFlagReservedBit7 = 0x7; /**@brief The Set Watchdog Timer ipmi command. * * @param * - timerUse * - dontStopTimer * - dontLog * - timerAction * - pretimeout * - expireFlags * - initialCountdown * * @return completion code on success. **/ ipmi::RspType<> ipmiSetWatchdogTimer(uint3_t timerUse, uint3_t reserved, bool dontStopTimer, bool dontLog, uint3_t timeoutAction, uint1_t reserved1, uint3_t preTimeoutInterrupt, uint1_t reserved2, uint8_t preTimeoutInterval, std::bitset<8> expFlagValue, uint16_t initialCountdown) { if ((timerUse == wdTimerUseResTimer1) || (timerUse == wdTimerUseResTimer2) || (timerUse == wdTimerUseResTimer3) || (timeoutAction > wdTimeoutActionMax) || (preTimeoutInterrupt == wdTimeoutInterruptTimer) || (reserved | reserved1 | reserved2 | expFlagValue.test(wdExpirationFlagReservedBit0) | expFlagValue.test(wdExpirationFlagReservedBit6) | expFlagValue.test(wdExpirationFlagReservedBit7))) { return ipmi::responseInvalidFieldRequest(); } if (preTimeoutInterval > (initialCountdown / 10)) { return ipmi::responseInvalidFieldRequest(); } timerNotLogFlags = dontLog; timerPreTimeoutInterrupt = preTimeoutInterrupt; try { WatchdogService wd_service; // Stop the timer if the don't stop bit is not set if (!(dontStopTimer)) { wd_service.setEnabled(false); } // Set the action based on the request const auto ipmi_action = static_cast( static_cast(timeoutAction) & wd_timeout_action_mask); wd_service.setExpireAction(ipmiActionToWdAction(ipmi_action)); const auto ipmiTimerUse = types::enum_cast(timerUse); wd_service.setTimerUse(ipmiTimerUseToWdTimerUse(ipmiTimerUse)); wd_service.setExpiredTimerUse(WatchdogService::TimerUse::Reserved); timerUseExpirationFlags &= ~expFlagValue; // Set the new interval and the time remaining deci -> mill seconds const uint64_t interval = initialCountdown * 100; wd_service.setInterval(interval); wd_service.resetTimeRemaining(false); // Mark as initialized so that future resets behave correctly wd_service.setInitialized(true); wd_service.setLogTimeout(!dontLog); lastCallSuccessful = true; return ipmi::responseSuccess(); } catch (const std::domain_error&) { return ipmi::responseInvalidFieldRequest(); } catch (const InternalFailure& e) { reportError(); return ipmi::responseUnspecifiedError(); } catch (const std::exception& e) { const std::string e_str = std::string("wd_set: ") + e.what(); log(e_str.c_str()); return ipmi::responseUnspecifiedError(); } catch (...) { log("wd_set: Unknown Error"); return ipmi::responseUnspecifiedError(); } } /** @brief Converts a DBUS Watchdog Action to IPMI defined action * @param[in] wd_action The DBUS Watchdog Action * @return The IpmiAction that the wd_action maps to */ IpmiAction wdActionToIpmiAction(WatchdogService::Action wd_action) { switch (wd_action) { case WatchdogService::Action::None: { return IpmiAction::None; } case WatchdogService::Action::HardReset: { return IpmiAction::HardReset; } case WatchdogService::Action::PowerOff: { return IpmiAction::PowerOff; } case WatchdogService::Action::PowerCycle: { return IpmiAction::PowerCycle; } default: { // We have no method via IPMI to signal that the action is unknown // or unmappable in some way. // Just ignore the error and return NONE so the host can reconcile. return IpmiAction::None; } } } IpmiTimerUse wdTimerUseToIpmiTimerUse(WatchdogService::TimerUse wdTimerUse) { switch (wdTimerUse) { case WatchdogService::TimerUse::Reserved: { return IpmiTimerUse::Reserved; } case WatchdogService::TimerUse::BIOSFRB2: { return IpmiTimerUse::BIOSFRB2; } case WatchdogService::TimerUse::BIOSPOST: { return IpmiTimerUse::BIOSPOST; } case WatchdogService::TimerUse::OSLoad: { return IpmiTimerUse::OSLoad; } case WatchdogService::TimerUse::SMSOS: { return IpmiTimerUse::SMSOS; } case WatchdogService::TimerUse::OEM: { return IpmiTimerUse::OEM; } default: { return IpmiTimerUse::Reserved; } } } static constexpr uint8_t wd_running = 0x1 << 6; /**@brief The getWatchdogTimer ipmi command. * * @return Completion code plus timer details. * - timerUse * - timerAction * - pretimeout * - expireFlags * - initialCountdown * - presentCountdown **/ ipmi::RspType, // expireFlags uint16_t, // initial Countdown - Little Endian (deciseconds) uint16_t // present Countdown - Little Endian (deciseconds) > ipmiGetWatchdogTimer() { uint16_t presentCountdown = 0; uint8_t pretimeout = 0; try { WatchdogService wd_service; WatchdogService::Properties wd_prop = wd_service.getProperties(); // Build and return the response // Interval and timeRemaining need converted from milli -> deci seconds uint16_t initialCountdown = htole16(wd_prop.interval / 100); if (wd_prop.expiredTimerUse != WatchdogService::TimerUse::Reserved) { timerUseExpirationFlags.set(static_cast( wdTimerUseToIpmiTimerUse(wd_prop.expiredTimerUse))); } if (wd_prop.enabled) { presentCountdown = htole16(wd_prop.timeRemaining / 100); } else { if (wd_prop.expiredTimerUse == WatchdogService::TimerUse::Reserved) { presentCountdown = initialCountdown; } else { presentCountdown = 0; // Automatically clear it whenever a timer expiration occurs. timerNotLogFlags = false; } } // TODO: Do something about having pretimeout support pretimeout = 0; lastCallSuccessful = true; return ipmi::responseSuccess( types::enum_cast( wdTimerUseToIpmiTimerUse(wd_prop.timerUse)), 0, wd_prop.enabled, timerNotLogFlags, types::enum_cast( wdActionToIpmiAction(wd_prop.expireAction)), 0, timerPreTimeoutInterrupt, 0, pretimeout, timerUseExpirationFlags, initialCountdown, presentCountdown); } catch (const InternalFailure& e) { reportError(); return ipmi::responseUnspecifiedError(); } catch (const std::exception& e) { const std::string e_str = std::string("wd_get: ") + e.what(); log(e_str.c_str()); return ipmi::responseUnspecifiedError(); } catch (...) { log("wd_get: Unknown Error"); return ipmi::responseUnspecifiedError(); } }