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

 #include <assert.h>
 #include <unistd.h>

 #include <analyzer/analyzer_main.hpp>
 #include <analyzer/ras-data/ras-data-parser.hpp>
 #include <analyzer/service_data.hpp>
 #include <attn/attn_dump.hpp>
 #include <hei_main.hpp>
 #include <util/pdbg.hpp>
 #include <util/trace.hpp>

 namespace analyzer
 {

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

 // Forward references for externally defined functions.

 /**
  * @brief Will get the list of active chip and initialize the isolator.
  * @param o_chips The returned list of active chips.
  */
 void initializeIsolator(std::vector<libhei::Chip>& o_chips);

 /**
  * @brief  Will get the list of active chip and initialize the isolator.
  * @param  i_type      The type of analysis to perform. See enum for details.
  * @param  i_isoData   The data gathered during isolation (for FFDC).
  * @param  o_rootCause The returned root cause signature.
  * @return True, if root cause has been found. False, otherwise.
  */
 bool filterRootCause(AnalysisType i_type,
                      const libhei::IsolationData& i_isoData,
                      libhei::Signature& o_rootCause);

 /**
  * @brief Will create and submit a PEL using the given data.
  * @param i_servData  Data regarding service actions gathered during analysis.
  * @return The platform log ID. Will return zero if no PEL is generated.
  */
 uint32_t commitPel(const ServiceData& i_servData);

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

 const char* __attn(libhei::AttentionType_t i_type)
 {
     const char* str = "";
     switch (i_type)
     {
         case libhei::ATTN_TYPE_CHECKSTOP:
             str = "CHECKSTOP";
             break;
         case libhei::ATTN_TYPE_UNIT_CS:
             str = "UNIT_CS";
             break;
         case libhei::ATTN_TYPE_RECOVERABLE:
             str = "RECOVERABLE";
             break;
         case libhei::ATTN_TYPE_SP_ATTN:
             str = "SP_ATTN";
             break;
         case libhei::ATTN_TYPE_HOST_ATTN:
             str = "HOST_ATTN";
             break;
         default:
             trace::err("Unsupported attention type: %u", i_type);
             assert(0);
     }
     return str;
 }

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

 const char* __analysisType(AnalysisType i_type)
 {
     const char* str = "";
     switch (i_type)
     {
         case AnalysisType::SYSTEM_CHECKSTOP:
             str = "SYSTEM_CHECKSTOP";
             break;
         case AnalysisType::TERMINATE_IMMEDIATE:
             str = "TERMINATE_IMMEDIATE";
             break;
         case AnalysisType::MANUAL:
             str = "MANUAL";
             break;
         default:
             trace::err("Unsupported analysis type: %u", i_type);
             assert(0);
     }
     return str;
 }

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

 uint32_t analyzeHardware(AnalysisType i_type, attn::DumpParameters& o_dump)
 {
     uint32_t o_plid = 0; // default, zero indicates PEL was not created

     if (!util::pdbg::queryHardwareAnalysisSupported())
     {
         trace::err("Hardware error analysis is not supported on this system");
         return o_plid;
     }

     trace::inf(">>> enter analyzeHardware(%s)", __analysisType(i_type));

     // Initialize the isolator and get all of the chips to be analyzed.
     trace::inf("Initializing the isolator...");
     std::vector<libhei::Chip> chips;
     initializeIsolator(chips);

     // Isolate attentions.
     trace::inf("Isolating errors: # of chips=%u", chips.size());
     libhei::IsolationData isoData{};
     libhei::isolate(chips, isoData);

     // For debug, trace out the original list of signatures before filtering.
     for (const auto& sig : isoData.getSignatureList())
     {
         trace::inf("Signature: %s 0x%0" PRIx32 " %s",
                    util::pdbg::getPath(sig.getChip()), sig.toUint32(),
                    __attn(sig.getAttnType()));
     }

     // Filter for root cause attention.
     libhei::Signature rootCause{};
     bool attnFound = filterRootCause(i_type, isoData, rootCause);

     // If a root cause attention was found, or if this was a system checkstop,
     // generate a PEL.
     if (attnFound || AnalysisType::SYSTEM_CHECKSTOP == i_type)
     {
         if (attnFound)
         {
             trace::inf("Root cause attention: %s 0x%0" PRIx32 " %s",
                        util::pdbg::getPath(rootCause.getChip()),
                        rootCause.toUint32(), __attn(rootCause.getAttnType()));
         }
         else
         {
             // This is bad. Analysis should have found a root cause attention
             // for a system checkstop. Issues could range from code bugs to SCOM
             // errors. Regardless, generate a PEL with FFDC to assist with
             // debug.
             trace::err("System checkstop with no root cause attention");
             rootCause = libhei::Signature{}; // just in case
         }

         // Start building the service data.
         ServiceData servData{rootCause, i_type, isoData};

         // Apply any service actions, if needed. Note that there are no
         // resolutions for manual analysis.
         if (AnalysisType::MANUAL != i_type)
         {
             if (attnFound)
             {
                 try
                 {
                     // Resolve the root cause attention.
                     RasDataParser rasData{};
                     rasData.getResolution(rootCause)->resolve(servData);
                 }
                 catch (const std::exception& e)
                 {
                     trace::err("Exception caught during root cause analysis");
                     trace::err(e.what());

                     // We'll still want to create a PEL for the FFDC, but
                     // since the analysis failed, we need to callout Level 2
                     // Support.
                     servData.calloutProcedure(callout::Procedure::NEXTLVL,
                                               callout::Priority::HIGH);
                 }
             }
             else
             {
                 // Analysis failed so callout the Level 2 Support.
                 servData.calloutProcedure(callout::Procedure::NEXTLVL,
                                           callout::Priority::HIGH);
             }
         }

         // Create and commit a PEL.
         o_plid = commitPel(servData);

         if (0 == o_plid)
         {
             trace::err("Failed to create PEL");
         }
         else
         {
             trace::inf("PEL created: PLID=0x%0" PRIx32, o_plid);

             // Gather/return information needed for dump. A hardware dump will
             // always be used for system checkstop attenions. Software dumps
             // will be reserved for MP-IPLs during TI analysis.
             // TODO: Need ID from root cause. At the moment, HUID does not exist
             //       in devtree. Will need a better ID definition.
             o_dump.unitId   = 0;
             o_dump.dumpType = attn::DumpType::Hardware;
         }
     }
     else
     {
         // It is possible for TI handling, or manually initiated analysis via
         // the command line, that there will not be an active attention. In
         // which case, we will do nothing and let the caller of this function
         // determine if this is the expected behavior.
         trace::inf("No active attentions found");
     }

     // All done, clean up the isolator.
     trace::inf("Uninitializing isolator...");
     libhei::uninitialize();

     trace::inf("<<< exit analyzeHardware()");

     return o_plid;
 }

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

 /**
  * @brief Get error isolator build information
  *
  * @return Pointer to build information
  */
 const char* getBuildInfo()
 {
     return libhei::getBuildInfo();
 }

 } // namespace analyzer
	#include <assert.h>
	#include <unistd.h>

	#include <analyzer/analyzer_main.hpp>
	#include <analyzer/ras-data/ras-data-parser.hpp>
	#include <analyzer/service_data.hpp>
	#include <attn/attn_dump.hpp>
	#include <hei_main.hpp>
	#include <util/pdbg.hpp>
	#include <util/trace.hpp>

	namespace analyzer
	{

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

	// Forward references for externally defined functions.

	/**
	* @brief Will get the list of active chip and initialize the isolator.
	* @param o_chips The returned list of active chips.
	*/
	void initializeIsolator(std::vector<libhei::Chip>& o_chips);

	/**
	* @brief Will get the list of active chip and initialize the isolator.
	* @param i_type The type of analysis to perform. See enum for details.
	* @param i_isoData The data gathered during isolation (for FFDC).
	* @param o_rootCause The returned root cause signature.
	* @return True, if root cause has been found. False, otherwise.
	*/
	bool filterRootCause(AnalysisType i_type,
	const libhei::IsolationData& i_isoData,
	libhei::Signature& o_rootCause);

	/**
	* @brief Will create and submit a PEL using the given data.
	* @param i_servData Data regarding service actions gathered during analysis.
	* @return The platform log ID. Will return zero if no PEL is generated.
	*/
	uint32_t commitPel(const ServiceData& i_servData);

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

	const char* __attn(libhei::AttentionType_t i_type)
	{
	const char* str = "";
	switch (i_type)
	{
	case libhei::ATTN_TYPE_CHECKSTOP:
	str = "CHECKSTOP";
	break;
	case libhei::ATTN_TYPE_UNIT_CS:
	str = "UNIT_CS";
	break;
	case libhei::ATTN_TYPE_RECOVERABLE:
	str = "RECOVERABLE";
	break;
	case libhei::ATTN_TYPE_SP_ATTN:
	str = "SP_ATTN";
	break;
	case libhei::ATTN_TYPE_HOST_ATTN:
	str = "HOST_ATTN";
	break;
	default:
	trace::err("Unsupported attention type: %u", i_type);
	assert(0);
	}
	return str;
	}

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

	const char* __analysisType(AnalysisType i_type)
	{
	const char* str = "";
	switch (i_type)
	{
	case AnalysisType::SYSTEM_CHECKSTOP:
	str = "SYSTEM_CHECKSTOP";
	break;
	case AnalysisType::TERMINATE_IMMEDIATE:
	str = "TERMINATE_IMMEDIATE";
	break;
	case AnalysisType::MANUAL:
	str = "MANUAL";
	break;
	default:
	trace::err("Unsupported analysis type: %u", i_type);
	assert(0);
	}
	return str;
	}

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

	uint32_t analyzeHardware(AnalysisType i_type, attn::DumpParameters& o_dump)
	{
	uint32_t o_plid = 0; // default, zero indicates PEL was not created

	if (!util::pdbg::queryHardwareAnalysisSupported())
	{
	trace::err("Hardware error analysis is not supported on this system");
	return o_plid;
	}

	trace::inf(">>> enter analyzeHardware(%s)", __analysisType(i_type));

	// Initialize the isolator and get all of the chips to be analyzed.
	trace::inf("Initializing the isolator...");
	std::vector<libhei::Chip> chips;
	initializeIsolator(chips);

	// Isolate attentions.
	trace::inf("Isolating errors: # of chips=%u", chips.size());
	libhei::IsolationData isoData{};
	libhei::isolate(chips, isoData);

	// For debug, trace out the original list of signatures before filtering.
	for (const auto& sig : isoData.getSignatureList())
	{
	trace::inf("Signature: %s 0x%0" PRIx32 " %s",
	util::pdbg::getPath(sig.getChip()), sig.toUint32(),
	__attn(sig.getAttnType()));
	}

	// Filter for root cause attention.
	libhei::Signature rootCause{};
	bool attnFound = filterRootCause(i_type, isoData, rootCause);

	// If a root cause attention was found, or if this was a system checkstop,
	// generate a PEL.
	if (attnFound \|\| AnalysisType::SYSTEM_CHECKSTOP == i_type)
	{
	if (attnFound)
	{
	trace::inf("Root cause attention: %s 0x%0" PRIx32 " %s",
	util::pdbg::getPath(rootCause.getChip()),
	rootCause.toUint32(), __attn(rootCause.getAttnType()));
	}
	else
	{
	// This is bad. Analysis should have found a root cause attention
	// for a system checkstop. Issues could range from code bugs to SCOM
	// errors. Regardless, generate a PEL with FFDC to assist with
	// debug.
	trace::err("System checkstop with no root cause attention");
	rootCause = libhei::Signature{}; // just in case
	}

	// Start building the service data.
	ServiceData servData{rootCause, i_type, isoData};

	// Apply any service actions, if needed. Note that there are no
	// resolutions for manual analysis.
	if (AnalysisType::MANUAL != i_type)
	{
	if (attnFound)
	{
	try
	{
	// Resolve the root cause attention.
	RasDataParser rasData{};
	rasData.getResolution(rootCause)->resolve(servData);
	}
	catch (const std::exception& e)
	{
	trace::err("Exception caught during root cause analysis");
	trace::err(e.what());

	// We'll still want to create a PEL for the FFDC, but
	// since the analysis failed, we need to callout Level 2
	// Support.
	servData.calloutProcedure(callout::Procedure::NEXTLVL,
	callout::Priority::HIGH);
	}
	}
	else
	{
	// Analysis failed so callout the Level 2 Support.
	servData.calloutProcedure(callout::Procedure::NEXTLVL,
	callout::Priority::HIGH);
	}
	}

	// Create and commit a PEL.
	o_plid = commitPel(servData);

	if (0 == o_plid)
	{
	trace::err("Failed to create PEL");
	}
	else
	{
	trace::inf("PEL created: PLID=0x%0" PRIx32, o_plid);

	// Gather/return information needed for dump. A hardware dump will
	// always be used for system checkstop attenions. Software dumps
	// will be reserved for MP-IPLs during TI analysis.
	// TODO: Need ID from root cause. At the moment, HUID does not exist
	// in devtree. Will need a better ID definition.
	o_dump.unitId = 0;
	o_dump.dumpType = attn::DumpType::Hardware;
	}
	}
	else
	{
	// It is possible for TI handling, or manually initiated analysis via
	// the command line, that there will not be an active attention. In
	// which case, we will do nothing and let the caller of this function
	// determine if this is the expected behavior.
	trace::inf("No active attentions found");
	}

	// All done, clean up the isolator.
	trace::inf("Uninitializing isolator...");
	libhei::uninitialize();

	trace::inf("<<< exit analyzeHardware()");

	return o_plid;
	}

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

	/**
	* @brief Get error isolator build information
	*
	* @return Pointer to build information
	*/
	const char* getBuildInfo()
	{
	return libhei::getBuildInfo();
	}

	} // namespace analyzer