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

 #include <analyzer/plugins/plugin.hpp>
 #include <analyzer/resolution.hpp>
 #include <util/pdbg.hpp>
 #include <util/trace.hpp>

 namespace analyzer
 {

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

 // Helper function to get the root cause chip target from the service data.
 pdbg_target* __getRootCauseChipTarget(const ServiceData& i_sd)
 {
     auto target = util::pdbg::getTrgt(i_sd.getRootCause().getChip());
     assert(nullptr != target); // This would be a really bad bug.
     return target;
 }

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

 // Helper function to get a unit target from the given unit path, which is a
 // devtree path relative the the containing chip. An empty string indicates the
 // chip target should be returned.
 pdbg_target* __getUnitTarget(pdbg_target* i_chipTarget,
                              const std::string& i_unitPath)
 {
     assert(nullptr != i_chipTarget);

     auto target = i_chipTarget; // default, if i_unitPath is empty

     if (!i_unitPath.empty())
     {
         auto path = std::string{util::pdbg::getPath(target)} + "/" + i_unitPath;

         target = util::pdbg::getTrgt(path);
         if (nullptr == target)
         {
             // Likely a bug the RAS data files.
             throw std::logic_error("Unable to find target for " + path);
         }
     }

     return target;
 }

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

 void HardwareCalloutResolution::resolve(ServiceData& io_sd) const
 {
     // Get the target for the hardware callout.
     auto target = __getUnitTarget(__getRootCauseChipTarget(io_sd), iv_unitPath);

     // Add the callout and the FFDC to the service data.
     io_sd.calloutTarget(target, iv_priority, iv_guard);
 }

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

 void ConnectedCalloutResolution::resolve(ServiceData& io_sd) const
 {
     // Get the chip target from the root cause signature.
     auto chipTarget = __getRootCauseChipTarget(io_sd);

     // Get the endpoint target for the receiving side of the bus.
     auto rxTarget = __getUnitTarget(chipTarget, iv_unitPath);

     // Add the callout and the FFDC to the service data.
     io_sd.calloutConnected(rxTarget, iv_busType, iv_priority, iv_guard);
 }

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

 void BusCalloutResolution::resolve(ServiceData& io_sd) const
 {
     // Get the chip target from the root cause signature.
     auto chipTarget = __getRootCauseChipTarget(io_sd);

     // Get the endpoint target for the receiving side of the bus.
     auto rxTarget = __getUnitTarget(chipTarget, iv_unitPath);

     // Add the callout and the FFDC to the service data.
     io_sd.calloutBus(rxTarget, iv_busType, iv_priority, iv_guard);
 }

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

 void ClockCalloutResolution::resolve(ServiceData& io_sd) const
 {
     // Add the callout and the FFDC to the service data.
     io_sd.calloutClock(iv_clockType, iv_priority, iv_guard);
 }

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

 void ProcedureCalloutResolution::resolve(ServiceData& io_sd) const
 {
     // Add the callout and the FFDC to the service data.
     io_sd.calloutProcedure(iv_procedure, iv_priority);
 }

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

 void PartCalloutResolution::resolve(ServiceData& io_sd) const
 {
     // Add the callout and the FFDC to the service data.
     io_sd.calloutPart(iv_part, iv_priority);
 }

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

 void PluginResolution::resolve(ServiceData& io_sd) const
 {
     // Get the plugin function and call it.

     auto chip = io_sd.getRootCause().getChip();

     auto func = PluginMap::getSingleton().get(chip.getType(), iv_name);

     func(iv_instance, chip, io_sd);
 }

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

 } // namespace analyzer
	#include <analyzer/plugins/plugin.hpp>
	#include <analyzer/resolution.hpp>
	#include <util/pdbg.hpp>
	#include <util/trace.hpp>

	namespace analyzer
	{

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

	// Helper function to get the root cause chip target from the service data.
	pdbg_target* __getRootCauseChipTarget(const ServiceData& i_sd)
	{
	auto target = util::pdbg::getTrgt(i_sd.getRootCause().getChip());
	assert(nullptr != target); // This would be a really bad bug.
	return target;
	}

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

	// Helper function to get a unit target from the given unit path, which is a
	// devtree path relative the the containing chip. An empty string indicates the
	// chip target should be returned.
	pdbg_target* __getUnitTarget(pdbg_target* i_chipTarget,
	const std::string& i_unitPath)
	{
	assert(nullptr != i_chipTarget);

	auto target = i_chipTarget; // default, if i_unitPath is empty

	if (!i_unitPath.empty())
	{
	auto path = std::string{util::pdbg::getPath(target)} + "/" + i_unitPath;

	target = util::pdbg::getTrgt(path);
	if (nullptr == target)
	{
	// Likely a bug the RAS data files.
	throw std::logic_error("Unable to find target for " + path);
	}
	}

	return target;
	}

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

	void HardwareCalloutResolution::resolve(ServiceData& io_sd) const
	{
	// Get the target for the hardware callout.
	auto target = __getUnitTarget(__getRootCauseChipTarget(io_sd), iv_unitPath);

	// Add the callout and the FFDC to the service data.
	io_sd.calloutTarget(target, iv_priority, iv_guard);
	}

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

	void ConnectedCalloutResolution::resolve(ServiceData& io_sd) const
	{
	// Get the chip target from the root cause signature.
	auto chipTarget = __getRootCauseChipTarget(io_sd);

	// Get the endpoint target for the receiving side of the bus.
	auto rxTarget = __getUnitTarget(chipTarget, iv_unitPath);

	// Add the callout and the FFDC to the service data.
	io_sd.calloutConnected(rxTarget, iv_busType, iv_priority, iv_guard);
	}

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

	void BusCalloutResolution::resolve(ServiceData& io_sd) const
	{
	// Get the chip target from the root cause signature.
	auto chipTarget = __getRootCauseChipTarget(io_sd);

	// Get the endpoint target for the receiving side of the bus.
	auto rxTarget = __getUnitTarget(chipTarget, iv_unitPath);

	// Add the callout and the FFDC to the service data.
	io_sd.calloutBus(rxTarget, iv_busType, iv_priority, iv_guard);
	}

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

	void ClockCalloutResolution::resolve(ServiceData& io_sd) const
	{
	// Add the callout and the FFDC to the service data.
	io_sd.calloutClock(iv_clockType, iv_priority, iv_guard);
	}

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

	void ProcedureCalloutResolution::resolve(ServiceData& io_sd) const
	{
	// Add the callout and the FFDC to the service data.
	io_sd.calloutProcedure(iv_procedure, iv_priority);
	}

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

	void PartCalloutResolution::resolve(ServiceData& io_sd) const
	{
	// Add the callout and the FFDC to the service data.
	io_sd.calloutPart(iv_part, iv_priority);
	}

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

	void PluginResolution::resolve(ServiceData& io_sd) const
	{
	// Get the plugin function and call it.

	auto chip = io_sd.getRootCause().getChip();

	auto func = PluginMap::getSingleton().get(chip.getType(), iv_name);

	func(iv_instance, chip, io_sd);
	}

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

	} // namespace analyzer