#include #include #include #include #include #include #include #include #include #include #include #include "host-ipmid/ipmid-api.h" #include "elog-errors.hpp" #include "error-HostEvent.hpp" #include "sensorhandler.h" #include "storagehandler.h" #include "types.hpp" #include "xyz/openbmc_project/Logging/Entry/server.hpp" using namespace std; using namespace phosphor::logging; using namespace sdbusplus::xyz::openbmc_project::Logging::server; extern const ipmi::sensor::InvObjectIDMap invSensors; ////////////////////////// struct esel_section_headers_t { uint8_t sectionid[2]; uint8_t sectionlength[2]; uint8_t version; uint8_t subsectiontype; uint8_t compid; }; struct severity_values_t { uint8_t type; Entry::Level level; }; const std::vector g_sev_desc = { {0x10, Entry::Level::Warning}, // recoverable error {0x20, Entry::Level::Warning}, // predictive error // TODO via github issue 3066 : map level below to Level::Unrecoverable {0x40, Entry::Level::Error}, // unrecoverable error // TODO via github issue 3066 : map level below to Level::Critical {0x50, Entry::Level::Error}, // critical error {0x60, Entry::Level::Error}, // error from a diagnostic test {0x70, Entry::Level::Warning}, // recoverable symptom {0xFF, Entry::Level::Error}, //unknown error }; Entry::Level sev_lookup(uint8_t n) { auto i = std::find_if(std::begin(g_sev_desc), std::end(g_sev_desc), [n](auto p){ return p.type == n || p.type == 0xFF; }); return i->level; } int find_sensor_type_string(uint8_t sensor_number, char **s) { dbus_interface_t a; const char *p; int r; r = find_openbmc_path(sensor_number, &a); if ((r < 0) || (a.bus[0] == 0)) { // Just make a generic message for errors that // occur on sensors that don't exist r = asprintf(s, "Unknown Sensor (0x%02x)", sensor_number); } else { if ((p = strrchr (a.path, '/')) == NULL) { p = "/Unknown Sensor"; } *s = strdup(p+1); } return 0; } size_t getfilestream(const char *fn, uint8_t **buffer) { FILE *fp; ssize_t size = 0; int r; if ((fp = fopen(fn, "rb")) != NULL) { r = fseek(fp, 0, SEEK_END); if (r) { log("Fseek failed"); goto fclose_fp; } size = ftell(fp); if (size == -1L) { log("Ftell failed", entry("ERROR=%s", strerror(errno))); size = 0; goto fclose_fp; } r = fseek(fp, 0, SEEK_SET); if (r) { log("Fseek failed"); size = 0; goto fclose_fp; } *buffer = new uint8_t [size]; r = fread(*buffer, 1, size, fp); if ( r != size) { size = 0; log("Fread failed\n"); } fclose_fp: fclose(fp); } return static_cast(size); } Entry::Level create_esel_severity(const uint8_t *buffer) { uint8_t severity; // Dive in to the IBM log to find the severity severity = (0xF0 & buffer[0x4A]); return sev_lookup(severity); } int create_esel_association(const uint8_t *buffer, std::string& inventoryPath) { ipmi_add_sel_request_t *p; uint8_t sensor; p = ( ipmi_add_sel_request_t *) buffer; sensor = p->sensornumber; inventoryPath = {}; /* * Search the sensor number to inventory path mapping to figure out the * inventory associated with the ESEL. */ for (auto const &iter : invSensors) { if (iter.second.sensorID == sensor) { inventoryPath = iter.first; break; } } return 0; } int create_esel_description(const uint8_t *buffer, Entry::Level level, char **message) { ipmi_add_sel_request_t *p; char *m; int r; p = ( ipmi_add_sel_request_t *) buffer; find_sensor_type_string(p->sensornumber,&m); r = asprintf(message, "A %s has experienced an error of level %d", m, static_cast(level) ); if (r == -1) { log("Failed to allocate memory for ESEL description"); } free(m); return 0; } int send_esel_to_dbus(const char *desc, Entry::Level level, const std::string& inventoryPath, uint8_t *debug, size_t debuglen) { // Allocate enough space to represent the data in hex separated by spaces, // to mimic how IPMI would display the data. unique_ptr selData(new char[(debuglen*3) + 1]()); uint32_t i = 0; for(i = 0; i < debuglen; i++) { sprintf(&selData[i*3], "%02x ", 0xFF & ((char*)debug)[i]); } selData[debuglen*3] = '\0'; using error = sdbusplus::org::open_power::Host::Error::Event; using metadata = org::open_power::Host::Event; report(level, metadata::ESEL(selData.get()), metadata::CALLOUT_INVENTORY_PATH(inventoryPath.c_str())); return 0; } void send_esel(uint16_t recordid) { char *desc; uint8_t *buffer = NULL; const char *path = "/tmp/esel"; ssize_t sz; int r; std::string inventoryPath; sz = getfilestream(path, &buffer); if (sz == 0) { log("Error file does not exist", entry("FILENAME=%s", path)); return; } auto sev = create_esel_severity(buffer); create_esel_association(buffer, inventoryPath); create_esel_description(buffer, sev, &desc); r = send_esel_to_dbus(desc, sev, inventoryPath, buffer, sz); if (r < 0) { log("Failed to send esel to dbus"); } free(desc); delete[] buffer; return; } std::string readESEL(const char* fileName) { std::string content; std::ifstream handle(fileName); if (handle.fail()) { log("Failed to open eSEL", entry("FILENAME=%s", fileName)); return content; } handle.seekg(0, std::ios::end); content.resize(handle.tellg()); handle.seekg(0, std::ios::beg); handle.read(&content[0], content.size()); handle.close(); return content; } void createProcedureLogEntry(uint8_t procedureNum) { // Read the eSEL data from the file. static constexpr auto eSELFile = "/tmp/esel"; auto eSELData = readESEL(eSELFile); // Each byte in eSEL is formatted as %02x with a space between bytes and // insert '/0' at the end of the character array. static constexpr auto byteSeparator = 3; std::unique_ptr data(new char[ (eSELData.size() * byteSeparator) + 1]()); for (size_t i = 0; i < eSELData.size(); i++) { sprintf(&data[i * byteSeparator], "%02x ", eSELData[i]); } data[eSELData.size() * byteSeparator] = '\0'; using error = sdbusplus::org::open_power::Host::Error::MaintenanceProcedure; using metadata = org::open_power::Host::MaintenanceProcedure; report(metadata::ESEL(data.get()), metadata::PROCEDURE(static_cast(procedureNum))); }