| #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; |
| } |
| |
| //------------------------------------------------------------------------------ |
| |
| // Helper function to get the connected target on the other side of the |
| // given bus. |
| pdbg_target* __getConnectedTarget(pdbg_target* i_rxTarget, |
| const callout::BusType& i_busType) |
| { |
| assert(nullptr != i_rxTarget); |
| |
| pdbg_target* txTarget = nullptr; |
| |
| auto rxType = util::pdbg::getTrgtType(i_rxTarget); |
| std::string rxPath = util::pdbg::getPath(i_rxTarget); |
| |
| if (callout::BusType::SMP_BUS == i_busType && |
| util::pdbg::TYPE_IOLINK == rxType) |
| { |
| // TODO: Will need to reference some sort of data that can tell us how |
| // the processors are connected in the system. For now, return the |
| // RX target to avoid returning a nullptr. |
| trace::inf("No support to get peer target on SMP bus"); |
| txTarget = i_rxTarget; |
| } |
| else if (callout::BusType::SMP_BUS == i_busType && |
| util::pdbg::TYPE_IOHS == rxType) |
| { |
| // TODO: Will need to reference some sort of data that can tell us how |
| // the processors are connected in the system. For now, return the |
| // RX target to avoid returning a nullptr. |
| trace::inf("No support to get peer target on SMP bus"); |
| txTarget = i_rxTarget; |
| } |
| else if (callout::BusType::OMI_BUS == i_busType && |
| util::pdbg::TYPE_OMI == rxType) |
| { |
| // This is a bit clunky. The pdbg APIs only give us the ability to |
| // iterate over the children instead of just returning a list. So we'll |
| // push all the children to a list and go from there. |
| std::vector<pdbg_target*> childList; |
| |
| pdbg_target* childTarget = nullptr; |
| pdbg_for_each_target("ocmb", i_rxTarget, childTarget) |
| { |
| if (nullptr != childTarget) |
| { |
| childList.push_back(childTarget); |
| } |
| } |
| |
| // We know there should only be one OCMB per OMI. |
| if (1 != childList.size()) |
| { |
| throw std::logic_error("Invalid child list size for " + rxPath); |
| } |
| |
| // Get the connected target. |
| txTarget = childList.front(); |
| } |
| else if (callout::BusType::OMI_BUS == i_busType && |
| util::pdbg::TYPE_OCMB == rxType) |
| { |
| txTarget = pdbg_target_parent("omi", i_rxTarget); |
| if (nullptr == txTarget) |
| { |
| throw std::logic_error("No parent OMI found for " + rxPath); |
| } |
| } |
| else |
| { |
| // This would be a code bug. |
| throw std::logic_error("Unsupported config: i_rxTarget=" + rxPath + |
| " i_busType=" + i_busType.getString()); |
| } |
| |
| assert(nullptr != txTarget); // just in case we missed something above |
| |
| return txTarget; |
| } |
| |
| //------------------------------------------------------------------------------ |
| |
| void HardwareCalloutResolution::resolve(ServiceData& io_sd) const |
| { |
| // Get the target for the hardware callout. |
| auto target = __getUnitTarget(__getRootCauseChipTarget(io_sd), iv_unitPath); |
| |
| // Get the location code and entity path for this target. |
| auto locCode = util::pdbg::getLocationCode(target); |
| auto entityPath = util::pdbg::getPhysDevPath(target); |
| |
| // Add the actual callout to the service data. |
| nlohmann::json callout; |
| callout["LocationCode"] = locCode; |
| callout["Priority"] = iv_priority.getUserDataString(); |
| io_sd.addCallout(callout); |
| |
| // Add the guard info to the service data. |
| Guard guard = io_sd.addGuard(entityPath, iv_guard); |
| |
| // Add the callout FFDC to the service data. |
| nlohmann::json ffdc; |
| ffdc["Callout Type"] = "Hardware Callout"; |
| ffdc["Target"] = entityPath; |
| ffdc["Priority"] = iv_priority.getRegistryString(); |
| ffdc["Guard Type"] = guard.getString(); |
| io_sd.addCalloutFFDC(ffdc); |
| } |
| |
| //------------------------------------------------------------------------------ |
| |
| 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); |
| |
| // Get the endpoint target for the transfer side of the bus. |
| auto txTarget = __getConnectedTarget(rxTarget, iv_busType); |
| |
| // Callout the TX endpoint. |
| nlohmann::json txCallout; |
| txCallout["LocationCode"] = util::pdbg::getLocationCode(txTarget); |
| txCallout["Priority"] = iv_priority.getUserDataString(); |
| io_sd.addCallout(txCallout); |
| |
| // Guard the TX endpoint. |
| Guard txGuard = |
| io_sd.addGuard(util::pdbg::getPhysDevPath(txTarget), iv_guard); |
| |
| // Add the callout FFDC to the service data. |
| nlohmann::json ffdc; |
| ffdc["Callout Type"] = "Connected Callout"; |
| ffdc["Bus Type"] = iv_busType.getString(); |
| ffdc["Target"] = util::pdbg::getPhysDevPath(txTarget); |
| ffdc["Priority"] = iv_priority.getRegistryString(); |
| ffdc["Guard Type"] = txGuard.getString(); |
| io_sd.addCalloutFFDC(ffdc); |
| } |
| |
| //------------------------------------------------------------------------------ |
| |
| 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); |
| |
| // Get the endpoint target for the transfer side of the bus. |
| auto txTarget = __getConnectedTarget(rxTarget, iv_busType); |
| |
| // Callout the RX endpoint. |
| nlohmann::json rxCallout; |
| rxCallout["LocationCode"] = util::pdbg::getLocationCode(rxTarget); |
| rxCallout["Priority"] = iv_priority.getUserDataString(); |
| io_sd.addCallout(rxCallout); |
| |
| // Callout the TX endpoint. |
| nlohmann::json txCallout; |
| txCallout["LocationCode"] = util::pdbg::getLocationCode(txTarget); |
| txCallout["Priority"] = iv_priority.getUserDataString(); |
| io_sd.addCallout(txCallout); |
| |
| // Callout everything else in between. |
| // TODO: For P10 (OMI bus and XBUS), the callout is simply the backplane. |
| // There isn't a devtree object for this, yet. 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 bpCallout; |
| bpCallout["LocationCode"] = "P0"; |
| bpCallout["Priority"] = iv_priority.getUserDataString(); |
| io_sd.addCallout(bpCallout); |
| |
| // Guard the RX endpoint. |
| Guard guard = |
| io_sd.addGuard(util::pdbg::getPhysDevPath(rxTarget), iv_guard); |
| |
| // Guard the TX endpoint. |
| // No need to check return because it is the same as RX target. |
| io_sd.addGuard(util::pdbg::getPhysDevPath(txTarget), iv_guard); |
| |
| // TODO: Currently no guard for "everything else in between". |
| |
| // Add the callout FFDC to the service data. |
| nlohmann::json ffdc; |
| ffdc["Callout Type"] = "Bus Callout"; |
| ffdc["Bus Type"] = iv_busType.getString(); |
| ffdc["RX Target"] = util::pdbg::getPhysDevPath(rxTarget); |
| ffdc["TX Target"] = util::pdbg::getPhysDevPath(txTarget); |
| ffdc["Priority"] = iv_priority.getRegistryString(); |
| ffdc["Guard Type"] = guard.getString(); |
| io_sd.addCalloutFFDC(ffdc); |
| } |
| |
| //------------------------------------------------------------------------------ |
| |
| void ClockCalloutResolution::resolve(ServiceData& io_sd) const |
| { |
| // Add the callout to the service data. |
| // TODO: For P10, the callout is simply the backplane. There isn't a devtree |
| // object for this, yet. 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"] = iv_priority.getUserDataString(); |
| io_sd.addCallout(callout); |
| |
| // Add the guard info to the service data. |
| // TODO: Still waiting for clock targets to be defined in the device tree. |
| // For get the processor path for the FFDC. |
| // static const std::map<callout::ClockType, std::string> m = { |
| // {callout::ClockType::OSC_REF_CLOCK_0, ""}, |
| // {callout::ClockType::OSC_REF_CLOCK_1, ""}, |
| // }; |
| // auto target = std::string{util::pdbg::getPath(m.at(iv_clockType))}; |
| // auto guardPath = util::pdbg::getPhysDevPath(target); |
| // Guard guard = io_sd.addGuard(guardPath, iv_guard); |
| auto target = __getRootCauseChipTarget(io_sd); |
| auto guardPath = util::pdbg::getPhysDevPath(target); |
| |
| // Add the callout FFDC to the service data. |
| nlohmann::json ffdc; |
| ffdc["Callout Type"] = "Clock Callout"; |
| ffdc["Clock Type"] = iv_clockType.getString(); |
| ffdc["Target"] = guardPath; |
| ffdc["Priority"] = iv_priority.getRegistryString(); |
| ffdc["Guard Type"] = ""; // TODO: guard.getString(); |
| io_sd.addCalloutFFDC(ffdc); |
| } |
| |
| //------------------------------------------------------------------------------ |
| |
| void ProcedureCalloutResolution::resolve(ServiceData& io_sd) const |
| { |
| // Add the actual callout to the service data. |
| nlohmann::json callout; |
| callout["Procedure"] = iv_procedure.getString(); |
| callout["Priority"] = iv_priority.getUserDataString(); |
| io_sd.addCallout(callout); |
| |
| // Add the callout FFDC to the service data. |
| nlohmann::json ffdc; |
| ffdc["Callout Type"] = "Procedure Callout"; |
| ffdc["Procedure"] = iv_procedure.getString(); |
| ffdc["Priority"] = iv_priority.getRegistryString(); |
| io_sd.addCalloutFFDC(ffdc); |
| } |
| |
| //------------------------------------------------------------------------------ |
| |
| } // namespace analyzer |