analyzer/service_data.cpp - openbmc/openpower-hw-diags - Gitiles

 #include <analyzer/service_data.hpp>

 namespace analyzer
 {

 //------------------------------------------------------------------------------

 void ServiceData::calloutTarget(pdbg_target* i_target,
                                 callout::Priority i_priority, bool i_guard)
 {
     // Add the target to the callout list.
     addTargetCallout(i_target, i_priority, i_guard);

     // Add the callout FFDC.
     nlohmann::json ffdc;
     ffdc["Callout Type"] = "Hardware Callout";
     ffdc["Target"]       = util::pdbg::getPhysDevPath(i_target);
     ffdc["Priority"]     = callout::getStringFFDC(i_priority);
     ffdc["Guard"]        = i_guard;
     addCalloutFFDC(ffdc);
     setSrcSubsystem(getTargetSubsystem(i_target), i_priority);
 }

 //------------------------------------------------------------------------------

 void ServiceData::calloutConnected(pdbg_target* i_rxTarget,
                                    const callout::BusType& i_busType,
                                    callout::Priority i_priority, bool i_guard)
 {
     // Get the endpoint target for the transfer side of the bus.
     auto txTarget = util::pdbg::getConnectedTarget(i_rxTarget, i_busType);

     // Callout the TX endpoint.
     addTargetCallout(txTarget, i_priority, i_guard);

     // Add the callout FFDC.
     nlohmann::json ffdc;
     ffdc["Callout Type"] = "Connected Callout";
     ffdc["Bus Type"]     = i_busType.getString();
     ffdc["RX Target"]    = util::pdbg::getPhysDevPath(i_rxTarget);
     ffdc["TX Target"]    = util::pdbg::getPhysDevPath(txTarget);
     ffdc["Priority"]     = callout::getStringFFDC(i_priority);
     ffdc["Guard"]        = i_guard;
     addCalloutFFDC(ffdc);
     setSrcSubsystem(getTargetSubsystem(txTarget), i_priority);
 }

 //------------------------------------------------------------------------------

 void ServiceData::calloutBus(pdbg_target* i_rxTarget,
                              const callout::BusType& i_busType,
                              callout::Priority i_priority, bool i_guard)
 {
     // Get the endpoint target for the transfer side of the bus.
     auto txTarget = util::pdbg::getConnectedTarget(i_rxTarget, i_busType);

     // Callout the RX endpoint.
     addTargetCallout(i_rxTarget, i_priority, i_guard);

     // Callout the TX endpoint.
     addTargetCallout(txTarget, i_priority, i_guard);

     // Callout everything else in between.
     // TODO: For P10 (OMI bus and XBUS), the callout is simply the backplane.
     addBackplaneCallout(i_priority);

     // Add the callout FFDC.
     nlohmann::json ffdc;
     ffdc["Callout Type"] = "Bus Callout";
     ffdc["Bus Type"]     = i_busType.getString();
     ffdc["RX Target"]    = util::pdbg::getPhysDevPath(i_rxTarget);
     ffdc["TX Target"]    = util::pdbg::getPhysDevPath(txTarget);
     ffdc["Priority"]     = callout::getStringFFDC(i_priority);
     ffdc["Guard"]        = i_guard;
     addCalloutFFDC(ffdc);
     setSrcSubsystem(i_busType.getSrcSubsystem(), i_priority);
 }

 //------------------------------------------------------------------------------

 void ServiceData::calloutClock(const callout::ClockType& i_clockType,
                                callout::Priority i_priority, bool)
 {
     // Callout the clock target.
     // TODO: For P10, the callout is simply the backplane. Also, there are no
     //       clock targets in the device tree. So at the moment there is no
     //       guard support for clock targets.
     addBackplaneCallout(i_priority);

     // Add the callout FFDC.
     // TODO: Add the target and guard type if guard is ever supported.
     nlohmann::json ffdc;
     ffdc["Callout Type"] = "Clock Callout";
     ffdc["Clock Type"]   = i_clockType.getString();
     ffdc["Priority"]     = callout::getStringFFDC(i_priority);
     addCalloutFFDC(ffdc);
     setSrcSubsystem(i_clockType.getSrcSubsystem(), i_priority);
 }

 //------------------------------------------------------------------------------

 void ServiceData::calloutProcedure(const callout::Procedure& i_procedure,
                                    callout::Priority i_priority)
 {
     // Add the actual callout to the service data.
     nlohmann::json callout;
     callout["Procedure"] = i_procedure.getString();
     callout["Priority"]  = callout::getString(i_priority);
     addCallout(callout);

     // Add the callout FFDC.
     nlohmann::json ffdc;
     ffdc["Callout Type"] = "Procedure Callout";
     ffdc["Procedure"]    = i_procedure.getString();
     ffdc["Priority"]     = callout::getStringFFDC(i_priority);
     addCalloutFFDC(ffdc);
     setSrcSubsystem(i_procedure.getSrcSubsystem(), i_priority);
 }

 //------------------------------------------------------------------------------

 void ServiceData::calloutPart(const callout::PartType& i_part,
                               callout::Priority i_priority)
 {
     if (callout::PartType::PNOR == i_part)
     {
         // The PNOR is on the BMC card.
         // TODO: Will need to be modified if we ever support systems with more
         //       than one BMC.
         addTargetCallout(util::pdbg::getTrgt("/bmc0"), i_priority, false);
     }
     else
     {
         throw std::logic_error("Unsupported part type: " + i_part.getString());
     }

     // Add the callout FFDC.
     nlohmann::json ffdc;
     ffdc["Callout Type"] = "Part Callout";
     ffdc["Part Type"]    = i_part.getString();
     ffdc["Priority"]     = callout::getStringFFDC(i_priority);
     addCalloutFFDC(ffdc);
     setSrcSubsystem(i_part.getSrcSubsystem(), i_priority);
 }

 //------------------------------------------------------------------------------

 void ServiceData::addCallout(const nlohmann::json& i_callout)
 {
     // The new callout is either a hardware callout with a location code or a
     // procedure callout.

     std::string type{};
     if (i_callout.contains("LocationCode"))
     {
         type = "LocationCode";
     }
     else if (i_callout.contains("Procedure"))
     {
         type = "Procedure";
     }
     else
     {
         throw std::logic_error("Unsupported callout: " + i_callout.dump());
     }

     // A map to determine the priority order. All of the medium priorities,
     // including the medium group priorities, are all the same level.
     // clang-format off
     static const std::map<std::string, unsigned int> m = {
         {callout::getString(callout::Priority::HIGH),  3},
         {callout::getString(callout::Priority::MED),   2},
         {callout::getString(callout::Priority::MED_A), 2},
         {callout::getString(callout::Priority::MED_B), 2},
         {callout::getString(callout::Priority::MED_C), 2},
         {callout::getString(callout::Priority::LOW),   1},
     };
     // clang-format on

     // The new callout must contain a valid priority.
     assert(i_callout.contains("Priority") &&
            m.contains(i_callout.at("Priority")));

     bool addCallout = true;

     for (auto& c : iv_calloutList)
     {
         if (c.contains(type) && (c.at(type) == i_callout.at(type)))
         {
             // The new callout already exists. Don't add a new callout.
             addCallout = false;

             if (m.at(c.at("Priority")) < m.at(i_callout.at("Priority")))
             {
                 // The new callout has a higher priority, update it.
                 c["Priority"] = i_callout.at("Priority");
             }
         }
     }

     if (addCallout)
     {
         iv_calloutList.push_back(i_callout);
     }
 }

 //------------------------------------------------------------------------------

 void ServiceData::addTargetCallout(pdbg_target* i_target,
                                    callout::Priority i_priority, bool i_guard)
 {
     nlohmann::json callout;

     callout["LocationCode"] = util::pdbg::getLocationCode(i_target);
     callout["Priority"]     = callout::getString(i_priority);
     callout["Deconfigured"] = false;
     callout["Guarded"]      = false; // default

     // Check if guard info should be added.
     if (i_guard)
     {
         auto guardType = queryGuardPolicy();

         if (!(callout::GuardType::NONE == guardType))
         {
             callout["Guarded"]    = true;
             callout["EntityPath"] = util::pdbg::getPhysBinPath(i_target);
             callout["GuardType"]  = guardType.getString();
         }
     }

     addCallout(callout);
 }

 //------------------------------------------------------------------------------

 void ServiceData::addBackplaneCallout(callout::Priority i_priority)
 {
     // TODO: There isn't a device tree object for this. So will need to hardcode
     //       the location code for now. In the future, we will need a mechanism
     //       to make this data driven.

     nlohmann::json callout;

     callout["LocationCode"] = "P0";
     callout["Priority"]     = callout::getString(i_priority);
     callout["Deconfigured"] = false;
     callout["Guarded"]      = false;

     addCallout(callout);
 }

 //------------------------------------------------------------------------------

 void ServiceData::setSrcSubsystem(callout::SrcSubsystem i_subsystem,
                                   callout::Priority i_priority)
 {
     // clang-format off
     static const std::map<callout::Priority, unsigned int> m =
     {
         // Note that all medium priorities, including groups A, B, and C, are
         // the same priority.
         {callout::Priority::HIGH,  3},
         {callout::Priority::MED,   2},
         {callout::Priority::MED_A, 2},
         {callout::Priority::MED_B, 2},
         {callout::Priority::MED_C, 2},
         {callout::Priority::LOW,   1},
     };
     // clang-format on

     // The default subsystem is CEC_HARDWARE with LOW priority. Change the
     // subsystem if the given subsystem has a higher priority or if the stored
     // subsystem is still the default.
     if (m.at(iv_srcSubsystem.second) < m.at(i_priority) ||
         (callout::SrcSubsystem::CEC_HARDWARE == iv_srcSubsystem.first &&
          callout::Priority::LOW == iv_srcSubsystem.second))
     {
         iv_srcSubsystem.first  = i_subsystem;
         iv_srcSubsystem.second = i_priority;
     }
 }

 //------------------------------------------------------------------------------

 callout::SrcSubsystem ServiceData::getTargetSubsystem(pdbg_target* i_target)
 {
     using TargetType_t = util::pdbg::TargetType_t;

     // Default the subsystem to CEC_HARDWARE
     callout::SrcSubsystem o_subSys = callout::SrcSubsystem::CEC_HARDWARE;

     // clang-format off
     static const std::map<uint8_t, callout::SrcSubsystem> subSysMap =
     {
         {TargetType_t::TYPE_DIMM,     callout::SrcSubsystem::MEMORY_DIMM   },
         {TargetType_t::TYPE_PROC,     callout::SrcSubsystem::PROCESSOR_FRU },
         {TargetType_t::TYPE_CORE,     callout::SrcSubsystem::PROCESSOR_UNIT},
         {TargetType_t::TYPE_NX,       callout::SrcSubsystem::PROCESSOR     },
         {TargetType_t::TYPE_EQ,       callout::SrcSubsystem::PROCESSOR_UNIT},
         {TargetType_t::TYPE_PEC,      callout::SrcSubsystem::PROCESSOR_UNIT},
         {TargetType_t::TYPE_PHB,      callout::SrcSubsystem::PHB           },
         {TargetType_t::TYPE_MC,       callout::SrcSubsystem::MEMORY_CTLR   },
         {TargetType_t::TYPE_IOLINK,   callout::SrcSubsystem::PROCESSOR_BUS },
         {TargetType_t::TYPE_OMI,      callout::SrcSubsystem::MEMORY_CTLR   },
         {TargetType_t::TYPE_MCC,      callout::SrcSubsystem::MEMORY_CTLR   },
         {TargetType_t::TYPE_OMIC,     callout::SrcSubsystem::MEMORY_CTLR   },
         {TargetType_t::TYPE_OCMB,     callout::SrcSubsystem::MEMORY_FRU    },
         {TargetType_t::TYPE_MEM_PORT, callout::SrcSubsystem::MEMORY_CTLR   },
         {TargetType_t::TYPE_NMMU,     callout::SrcSubsystem::PROCESSOR_UNIT},
         {TargetType_t::TYPE_PAU,      callout::SrcSubsystem::PROCESSOR_UNIT},
         {TargetType_t::TYPE_IOHS,     callout::SrcSubsystem::PROCESSOR_UNIT},
         {TargetType_t::TYPE_PAUC,     callout::SrcSubsystem::PROCESSOR_UNIT},
     };
     // clang-format on

     auto targetType = util::pdbg::getTrgtType(i_target);

     // If the type of the input target exists in the map, update the output
     if (subSysMap.count(targetType) > 0)
     {
         o_subSys = subSysMap.at(targetType);
     }

     return o_subSys;
 }

 //------------------------------------------------------------------------------

 } // namespace analyzer
	#include <analyzer/service_data.hpp>

	namespace analyzer
	{

	//------------------------------------------------------------------------------

	void ServiceData::calloutTarget(pdbg_target* i_target,
	callout::Priority i_priority, bool i_guard)
	{
	// Add the target to the callout list.
	addTargetCallout(i_target, i_priority, i_guard);

	// Add the callout FFDC.
	nlohmann::json ffdc;
	ffdc["Callout Type"] = "Hardware Callout";
	ffdc["Target"] = util::pdbg::getPhysDevPath(i_target);
	ffdc["Priority"] = callout::getStringFFDC(i_priority);
	ffdc["Guard"] = i_guard;
	addCalloutFFDC(ffdc);
	setSrcSubsystem(getTargetSubsystem(i_target), i_priority);
	}

	//------------------------------------------------------------------------------

	void ServiceData::calloutConnected(pdbg_target* i_rxTarget,
	const callout::BusType& i_busType,
	callout::Priority i_priority, bool i_guard)
	{
	// Get the endpoint target for the transfer side of the bus.
	auto txTarget = util::pdbg::getConnectedTarget(i_rxTarget, i_busType);

	// Callout the TX endpoint.
	addTargetCallout(txTarget, i_priority, i_guard);

	// Add the callout FFDC.
	nlohmann::json ffdc;
	ffdc["Callout Type"] = "Connected Callout";
	ffdc["Bus Type"] = i_busType.getString();
	ffdc["RX Target"] = util::pdbg::getPhysDevPath(i_rxTarget);
	ffdc["TX Target"] = util::pdbg::getPhysDevPath(txTarget);
	ffdc["Priority"] = callout::getStringFFDC(i_priority);
	ffdc["Guard"] = i_guard;
	addCalloutFFDC(ffdc);
	setSrcSubsystem(getTargetSubsystem(txTarget), i_priority);
	}

	//------------------------------------------------------------------------------

	void ServiceData::calloutBus(pdbg_target* i_rxTarget,
	const callout::BusType& i_busType,
	callout::Priority i_priority, bool i_guard)
	{
	// Get the endpoint target for the transfer side of the bus.
	auto txTarget = util::pdbg::getConnectedTarget(i_rxTarget, i_busType);

	// Callout the RX endpoint.
	addTargetCallout(i_rxTarget, i_priority, i_guard);

	// Callout the TX endpoint.
	addTargetCallout(txTarget, i_priority, i_guard);

	// Callout everything else in between.
	// TODO: For P10 (OMI bus and XBUS), the callout is simply the backplane.
	addBackplaneCallout(i_priority);

	// Add the callout FFDC.
	nlohmann::json ffdc;
	ffdc["Callout Type"] = "Bus Callout";
	ffdc["Bus Type"] = i_busType.getString();
	ffdc["RX Target"] = util::pdbg::getPhysDevPath(i_rxTarget);
	ffdc["TX Target"] = util::pdbg::getPhysDevPath(txTarget);
	ffdc["Priority"] = callout::getStringFFDC(i_priority);
	ffdc["Guard"] = i_guard;
	addCalloutFFDC(ffdc);
	setSrcSubsystem(i_busType.getSrcSubsystem(), i_priority);
	}

	//------------------------------------------------------------------------------

	void ServiceData::calloutClock(const callout::ClockType& i_clockType,
	callout::Priority i_priority, bool)
	{
	// Callout the clock target.
	// TODO: For P10, the callout is simply the backplane. Also, there are no
	// clock targets in the device tree. So at the moment there is no
	// guard support for clock targets.
	addBackplaneCallout(i_priority);

	// Add the callout FFDC.
	// TODO: Add the target and guard type if guard is ever supported.
	nlohmann::json ffdc;
	ffdc["Callout Type"] = "Clock Callout";
	ffdc["Clock Type"] = i_clockType.getString();
	ffdc["Priority"] = callout::getStringFFDC(i_priority);
	addCalloutFFDC(ffdc);
	setSrcSubsystem(i_clockType.getSrcSubsystem(), i_priority);
	}

	//------------------------------------------------------------------------------

	void ServiceData::calloutProcedure(const callout::Procedure& i_procedure,
	callout::Priority i_priority)
	{
	// Add the actual callout to the service data.
	nlohmann::json callout;
	callout["Procedure"] = i_procedure.getString();
	callout["Priority"] = callout::getString(i_priority);
	addCallout(callout);

	// Add the callout FFDC.
	nlohmann::json ffdc;
	ffdc["Callout Type"] = "Procedure Callout";
	ffdc["Procedure"] = i_procedure.getString();
	ffdc["Priority"] = callout::getStringFFDC(i_priority);
	addCalloutFFDC(ffdc);
	setSrcSubsystem(i_procedure.getSrcSubsystem(), i_priority);
	}

	//------------------------------------------------------------------------------

	void ServiceData::calloutPart(const callout::PartType& i_part,
	callout::Priority i_priority)
	{
	if (callout::PartType::PNOR == i_part)
	{
	// The PNOR is on the BMC card.
	// TODO: Will need to be modified if we ever support systems with more
	// than one BMC.
	addTargetCallout(util::pdbg::getTrgt("/bmc0"), i_priority, false);
	}
	else
	{
	throw std::logic_error("Unsupported part type: " + i_part.getString());
	}

	// Add the callout FFDC.
	nlohmann::json ffdc;
	ffdc["Callout Type"] = "Part Callout";
	ffdc["Part Type"] = i_part.getString();
	ffdc["Priority"] = callout::getStringFFDC(i_priority);
	addCalloutFFDC(ffdc);
	setSrcSubsystem(i_part.getSrcSubsystem(), i_priority);
	}

	//------------------------------------------------------------------------------

	void ServiceData::addCallout(const nlohmann::json& i_callout)
	{
	// The new callout is either a hardware callout with a location code or a
	// procedure callout.

	std::string type{};
	if (i_callout.contains("LocationCode"))
	{
	type = "LocationCode";
	}
	else if (i_callout.contains("Procedure"))
	{
	type = "Procedure";
	}
	else
	{
	throw std::logic_error("Unsupported callout: " + i_callout.dump());
	}

	// A map to determine the priority order. All of the medium priorities,
	// including the medium group priorities, are all the same level.
	// clang-format off
	static const std::map<std::string, unsigned int> m = {
	{callout::getString(callout::Priority::HIGH), 3},
	{callout::getString(callout::Priority::MED), 2},
	{callout::getString(callout::Priority::MED_A), 2},
	{callout::getString(callout::Priority::MED_B), 2},
	{callout::getString(callout::Priority::MED_C), 2},
	{callout::getString(callout::Priority::LOW), 1},
	};
	// clang-format on

	// The new callout must contain a valid priority.
	assert(i_callout.contains("Priority") &&
	m.contains(i_callout.at("Priority")));

	bool addCallout = true;

	for (auto& c : iv_calloutList)
	{
	if (c.contains(type) && (c.at(type) == i_callout.at(type)))
	{
	// The new callout already exists. Don't add a new callout.
	addCallout = false;

	if (m.at(c.at("Priority")) < m.at(i_callout.at("Priority")))
	{
	// The new callout has a higher priority, update it.
	c["Priority"] = i_callout.at("Priority");
	}
	}
	}

	if (addCallout)
	{
	iv_calloutList.push_back(i_callout);
	}
	}

	//------------------------------------------------------------------------------

	void ServiceData::addTargetCallout(pdbg_target* i_target,
	callout::Priority i_priority, bool i_guard)
	{
	nlohmann::json callout;

	callout["LocationCode"] = util::pdbg::getLocationCode(i_target);
	callout["Priority"] = callout::getString(i_priority);
	callout["Deconfigured"] = false;
	callout["Guarded"] = false; // default

	// Check if guard info should be added.
	if (i_guard)
	{
	auto guardType = queryGuardPolicy();

	if (!(callout::GuardType::NONE == guardType))
	{
	callout["Guarded"] = true;
	callout["EntityPath"] = util::pdbg::getPhysBinPath(i_target);
	callout["GuardType"] = guardType.getString();
	}
	}

	addCallout(callout);
	}

	//------------------------------------------------------------------------------

	void ServiceData::addBackplaneCallout(callout::Priority i_priority)
	{
	// TODO: There isn't a device tree object for this. So will need to hardcode
	// the location code for now. In the future, we will need a mechanism
	// to make this data driven.

	nlohmann::json callout;

	callout["LocationCode"] = "P0";
	callout["Priority"] = callout::getString(i_priority);
	callout["Deconfigured"] = false;
	callout["Guarded"] = false;

	addCallout(callout);
	}

	//------------------------------------------------------------------------------

	void ServiceData::setSrcSubsystem(callout::SrcSubsystem i_subsystem,
	callout::Priority i_priority)
	{
	// clang-format off
	static const std::map<callout::Priority, unsigned int> m =
	{
	// Note that all medium priorities, including groups A, B, and C, are
	// the same priority.
	{callout::Priority::HIGH, 3},
	{callout::Priority::MED, 2},
	{callout::Priority::MED_A, 2},
	{callout::Priority::MED_B, 2},
	{callout::Priority::MED_C, 2},
	{callout::Priority::LOW, 1},
	};
	// clang-format on

	// The default subsystem is CEC_HARDWARE with LOW priority. Change the
	// subsystem if the given subsystem has a higher priority or if the stored
	// subsystem is still the default.
	if (m.at(iv_srcSubsystem.second) < m.at(i_priority) \|\|
	(callout::SrcSubsystem::CEC_HARDWARE == iv_srcSubsystem.first &&
	callout::Priority::LOW == iv_srcSubsystem.second))
	{
	iv_srcSubsystem.first = i_subsystem;
	iv_srcSubsystem.second = i_priority;
	}
	}

	//------------------------------------------------------------------------------

	callout::SrcSubsystem ServiceData::getTargetSubsystem(pdbg_target* i_target)
	{
	using TargetType_t = util::pdbg::TargetType_t;

	// Default the subsystem to CEC_HARDWARE
	callout::SrcSubsystem o_subSys = callout::SrcSubsystem::CEC_HARDWARE;

	// clang-format off
	static const std::map<uint8_t, callout::SrcSubsystem> subSysMap =
	{
	{TargetType_t::TYPE_DIMM, callout::SrcSubsystem::MEMORY_DIMM },
	{TargetType_t::TYPE_PROC, callout::SrcSubsystem::PROCESSOR_FRU },
	{TargetType_t::TYPE_CORE, callout::SrcSubsystem::PROCESSOR_UNIT},
	{TargetType_t::TYPE_NX, callout::SrcSubsystem::PROCESSOR },
	{TargetType_t::TYPE_EQ, callout::SrcSubsystem::PROCESSOR_UNIT},
	{TargetType_t::TYPE_PEC, callout::SrcSubsystem::PROCESSOR_UNIT},
	{TargetType_t::TYPE_PHB, callout::SrcSubsystem::PHB },
	{TargetType_t::TYPE_MC, callout::SrcSubsystem::MEMORY_CTLR },
	{TargetType_t::TYPE_IOLINK, callout::SrcSubsystem::PROCESSOR_BUS },
	{TargetType_t::TYPE_OMI, callout::SrcSubsystem::MEMORY_CTLR },
	{TargetType_t::TYPE_MCC, callout::SrcSubsystem::MEMORY_CTLR },
	{TargetType_t::TYPE_OMIC, callout::SrcSubsystem::MEMORY_CTLR },
	{TargetType_t::TYPE_OCMB, callout::SrcSubsystem::MEMORY_FRU },
	{TargetType_t::TYPE_MEM_PORT, callout::SrcSubsystem::MEMORY_CTLR },
	{TargetType_t::TYPE_NMMU, callout::SrcSubsystem::PROCESSOR_UNIT},
	{TargetType_t::TYPE_PAU, callout::SrcSubsystem::PROCESSOR_UNIT},
	{TargetType_t::TYPE_IOHS, callout::SrcSubsystem::PROCESSOR_UNIT},
	{TargetType_t::TYPE_PAUC, callout::SrcSubsystem::PROCESSOR_UNIT},
	};
	// clang-format on

	auto targetType = util::pdbg::getTrgtType(i_target);

	// If the type of the input target exists in the map, update the output
	if (subSysMap.count(targetType) > 0)
	{
	o_subSys = subSysMap.at(targetType);
	}

	return o_subSys;
	}

	//------------------------------------------------------------------------------

	} // namespace analyzer