#include #include #include #include #include #include #include #include #include #include #include #include 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& o_chips); /** * @brief Will create and submit a PEL using the given data. * @param i_rootCause A signature defining the attention root cause. * @param i_isoData The data gathered during isolation (for FFDC). */ void createPel(const libhei::Signature& i_rootCause, const libhei::IsolationData& i_isoData); //------------------------------------------------------------------------------ const char* __attn(libhei::AttentionType_t i_attnType) { const char* str = ""; switch (i_attnType) { 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_attnType); assert(0); } return str; } //------------------------------------------------------------------------------ bool __filterRootCause(const libhei::IsolationData& i_isoData, libhei::Signature& o_signature) { // We'll need to make a copy of the list so that the original list is // maintained for the log. std::vector sigList{i_isoData.getSignatureList()}; // For debug, trace out the original list of signatures before filtering. for (const auto& sig : sigList) { trace::inf("Signature: %s 0x%0" PRIx32 " %s", util::pdbg::getPath(sig.getChip()), sig.toUint32(), __attn(sig.getAttnType())); } // Special and host attentions are not supported by this user application. auto newEndItr = std::remove_if(sigList.begin(), sigList.end(), [&](const auto& t) { return (libhei::ATTN_TYPE_SP_ATTN == t.getAttnType() || libhei::ATTN_TYPE_HOST_ATTN == t.getAttnType()); }); // Shrink the vector, if needed. sigList.resize(std::distance(sigList.begin(), newEndItr)); // START WORKAROUND // TODO: Filtering should be determined by the RAS Data Files provided by // the host firmware via the PNOR (similar to the Chip Data Files). // Until that support is available, use a rudimentary filter that // first looks for any recoverable attention, then any unit checkstop, // and then any system checkstop. This is built on the premise that // recoverable errors could be the root cause of an system checkstop // attentions. Fortunately, we just need to sort the list by the // greater attention type value. std::sort(sigList.begin(), sigList.end(), [&](const auto& a, const auto& b) { return a.getAttnType() > b.getAttnType(); }); // END WORKAROUND // Check if a root cause attention was found. if (!sigList.empty()) { // The entry at the front of the list will be the root cause. o_signature = sigList.front(); return true; } return false; // default, no active attentions found. } //------------------------------------------------------------------------------ bool __analyze(const libhei::IsolationData& i_isoData) { bool attnFound = false; libhei::Signature rootCause{}; attnFound = __filterRootCause(i_isoData, rootCause); if (!attnFound) { // NOTE: It is possible for TI handling that there will not be an active // attention. In which case, we will not do anything and let the // caller of this function determine if this is the expected // behavior. trace::inf("No active attentions found"); } else { trace::inf("Root cause attention: %s 0x%0" PRIx32 " %s", util::pdbg::getPath(rootCause.getChip()), rootCause.toUint32(), __attn(rootCause.getAttnType())); // TODO: Perform service actions based on the root cause. // Create and commit a PEL. createPel(rootCause, i_isoData); } return attnFound; } //------------------------------------------------------------------------------ bool analyzeHardware() { bool attnFound = false; trace::inf(">>> enter analyzeHardware()"); if (util::pdbg::queryHardwareAnalysisSupported()) { // Initialize the isolator and get all of the chips to be analyzed. trace::inf("Initializing the isolator..."); std::vector chips; initializeIsolator(chips); // Isolate attentions. trace::inf("Isolating errors: # of chips=%u", chips.size()); libhei::IsolationData isoData{}; libhei::isolate(chips, isoData); // Analyze the isolation data and perform service actions if needed. attnFound = __analyze(isoData); // All done, clean up the isolator. trace::inf("Uninitializing isolator..."); libhei::uninitialize(); } else { trace::err("Hardware error analysis is not supported on this system"); } trace::inf("<<< exit analyzeHardware()"); return attnFound; } } // namespace analyzer