/** * Describes high level functions for converting an entire CPER log, and functions for parsing * CPER headers and section descriptions into an intermediate JSON format. * * Author: Lawrence.Tang@arm.com **/ #include #include #include #include "base64.h" #include "Cper.h" #include "cper-parse.h" #include "cper-parse-str.h" #include "cper-utils.h" #include "sections/cper-section.h" //Private pre-definitions. json_object *cper_header_to_ir(EFI_COMMON_ERROR_RECORD_HEADER *header); json_object * cper_section_descriptor_to_ir(EFI_ERROR_SECTION_DESCRIPTOR *section_descriptor); json_object *cper_section_to_ir(FILE *handle, long base_pos, EFI_ERROR_SECTION_DESCRIPTOR *descriptor); //Reads a CPER log file at the given file location, and returns an intermediate //JSON representation of this CPER record. json_object *cper_to_ir(FILE *cper_file) { //Read the current file pointer location as the base of the record. long base_pos = ftell(cper_file); //Ensure this is really a CPER log. EFI_COMMON_ERROR_RECORD_HEADER header; if (fread(&header, sizeof(EFI_COMMON_ERROR_RECORD_HEADER), 1, cper_file) != 1) { printf("Invalid CPER file: Invalid length (log too short).\n"); return NULL; } //Check if the header contains the magic bytes ("CPER"). if (header.SignatureStart != EFI_ERROR_RECORD_SIGNATURE_START) { printf("Invalid CPER file: Invalid header (incorrect signature).\n"); return NULL; } //Create the header JSON object from the read bytes. json_object *header_ir = cper_header_to_ir(&header); //Read the appropriate number of section descriptors & sections, and convert them into IR format. json_object *section_descriptors_ir = json_object_new_array(); json_object *sections_ir = json_object_new_array(); for (int i = 0; i < header.SectionCount; i++) { //Create the section descriptor. EFI_ERROR_SECTION_DESCRIPTOR section_descriptor; if (fread(§ion_descriptor, sizeof(EFI_ERROR_SECTION_DESCRIPTOR), 1, cper_file) != 1) { printf("Invalid number of section headers: Header states %d sections, could not read section %d.\n", header.SectionCount, i + 1); // Free json objects json_object_put(sections_ir); json_object_put(section_descriptors_ir); json_object_put(header_ir); return NULL; } json_object_array_add( section_descriptors_ir, cper_section_descriptor_to_ir(§ion_descriptor)); //Read the section itself. json_object_array_add(sections_ir, cper_section_to_ir(cper_file, base_pos, §ion_descriptor)); } //Add the header, section descriptors, and sections to a parent object. json_object *parent = json_object_new_object(); json_object_object_add(parent, "header", header_ir); json_object_object_add(parent, "sectionDescriptors", section_descriptors_ir); json_object_object_add(parent, "sections", sections_ir); return parent; } char *cper_to_str_ir(FILE *cper_file) { json_object *jobj = cper_to_ir(cper_file); char *str = jobj ? strdup(json_object_to_json_string(jobj)) : NULL; json_object_put(jobj); return str; } char *cperbuf_to_str_ir(const unsigned char *cper, size_t size) { FILE *cper_file = fmemopen((void *)cper, size, "r"); return cper_file ? cper_to_str_ir(cper_file) : NULL; } //Converts a parsed CPER record header into intermediate JSON object format. json_object *cper_header_to_ir(EFI_COMMON_ERROR_RECORD_HEADER *header) { json_object *header_ir = json_object_new_object(); //Revision/version information. json_object_object_add(header_ir, "revision", revision_to_ir(header->Revision)); //Section count. json_object_object_add(header_ir, "sectionCount", json_object_new_int(header->SectionCount)); //Error severity (with interpreted string version). json_object *error_severity = json_object_new_object(); json_object_object_add(error_severity, "code", json_object_new_uint64(header->ErrorSeverity)); json_object_object_add(error_severity, "name", json_object_new_string(severity_to_string( header->ErrorSeverity))); json_object_object_add(header_ir, "severity", error_severity); //The validation bits for each section. json_object *validation_bits = bitfield_to_ir( header->ValidationBits, 3, CPER_HEADER_VALID_BITFIELD_NAMES); json_object_object_add(header_ir, "validationBits", validation_bits); //Total length of the record (including headers) in bytes. json_object_object_add(header_ir, "recordLength", json_object_new_uint64(header->RecordLength)); //If a timestamp exists according to validation bits, then add it. if (header->ValidationBits & 0x2) { char timestamp_string[TIMESTAMP_LENGTH]; timestamp_to_string(timestamp_string, &header->TimeStamp); json_object_object_add( header_ir, "timestamp", json_object_new_string(timestamp_string)); json_object_object_add( header_ir, "timestampIsPrecise", json_object_new_boolean(header->TimeStamp.Flag)); } //If a platform ID exists according to the validation bits, then add it. if (header->ValidationBits & 0x1) { char platform_string[GUID_STRING_LENGTH]; guid_to_string(platform_string, &header->PlatformID); json_object_object_add(header_ir, "platformID", json_object_new_string(platform_string)); } //If a partition ID exists according to the validation bits, then add it. if (header->ValidationBits & 0x4) { char partition_string[GUID_STRING_LENGTH]; guid_to_string(partition_string, &header->PartitionID); json_object_object_add( header_ir, "partitionID", json_object_new_string(partition_string)); } //Creator ID of the header. char creator_string[GUID_STRING_LENGTH]; guid_to_string(creator_string, &header->CreatorID); json_object_object_add(header_ir, "creatorID", json_object_new_string(creator_string)); //Notification type for the header. Some defined types are available. json_object *notification_type = json_object_new_object(); char notification_type_string[GUID_STRING_LENGTH]; guid_to_string(notification_type_string, &header->NotificationType); json_object_object_add( notification_type, "guid", json_object_new_string(notification_type_string)); //Add the human readable notification type if possible. char *notification_type_readable = "Unknown"; if (guid_equal(&header->NotificationType, &gEfiEventNotificationTypeCmcGuid)) { notification_type_readable = "CMC"; } else if (guid_equal(&header->NotificationType, &gEfiEventNotificationTypeCpeGuid)) { notification_type_readable = "CPE"; } else if (guid_equal(&header->NotificationType, &gEfiEventNotificationTypeMceGuid)) { notification_type_readable = "MCE"; } else if (guid_equal(&header->NotificationType, &gEfiEventNotificationTypePcieGuid)) { notification_type_readable = "PCIe"; } else if (guid_equal(&header->NotificationType, &gEfiEventNotificationTypeInitGuid)) { notification_type_readable = "INIT"; } else if (guid_equal(&header->NotificationType, &gEfiEventNotificationTypeNmiGuid)) { notification_type_readable = "NMI"; } else if (guid_equal(&header->NotificationType, &gEfiEventNotificationTypeBootGuid)) { notification_type_readable = "Boot"; } else if (guid_equal(&header->NotificationType, &gEfiEventNotificationTypeDmarGuid)) { notification_type_readable = "DMAr"; } else if (guid_equal(&header->NotificationType, &gEfiEventNotificationTypeSeaGuid)) { notification_type_readable = "SEA"; } else if (guid_equal(&header->NotificationType, &gEfiEventNotificationTypeSeiGuid)) { notification_type_readable = "SEI"; } else if (guid_equal(&header->NotificationType, &gEfiEventNotificationTypePeiGuid)) { notification_type_readable = "PEI"; } else if (guid_equal(&header->NotificationType, &gEfiEventNotificationTypeCxlGuid)) { notification_type_readable = "CXL Component"; } json_object_object_add( notification_type, "type", json_object_new_string(notification_type_readable)); json_object_object_add(header_ir, "notificationType", notification_type); //The record ID for this record, unique on a given system. json_object_object_add(header_ir, "recordID", json_object_new_uint64(header->RecordID)); //Flag for the record, and a human readable form. json_object *flags = integer_to_readable_pair( header->Flags, sizeof(CPER_HEADER_FLAG_TYPES_KEYS) / sizeof(int), CPER_HEADER_FLAG_TYPES_KEYS, CPER_HEADER_FLAG_TYPES_VALUES, "Unknown"); json_object_object_add(header_ir, "flags", flags); //Persistence information. Outside the scope of specification, so just a uint32 here. json_object_object_add(header_ir, "persistenceInfo", json_object_new_uint64(header->PersistenceInfo)); return header_ir; } //Converts the given EFI section descriptor into JSON IR format. json_object * cper_section_descriptor_to_ir(EFI_ERROR_SECTION_DESCRIPTOR *section_descriptor) { json_object *section_descriptor_ir = json_object_new_object(); //The offset of the section from the base of the record header, length. json_object_object_add( section_descriptor_ir, "sectionOffset", json_object_new_uint64(section_descriptor->SectionOffset)); json_object_object_add( section_descriptor_ir, "sectionLength", json_object_new_uint64(section_descriptor->SectionLength)); //Revision. json_object_object_add(section_descriptor_ir, "revision", revision_to_ir(section_descriptor->Revision)); //Validation bits. json_object *validation_bits = bitfield_to_ir(section_descriptor->SecValidMask, 2, CPER_SECTION_DESCRIPTOR_VALID_BITFIELD_NAMES); json_object_object_add(section_descriptor_ir, "validationBits", validation_bits); //Flag bits. json_object *flags = bitfield_to_ir(section_descriptor->SectionFlags, 8, CPER_SECTION_DESCRIPTOR_FLAGS_BITFIELD_NAMES); json_object_object_add(section_descriptor_ir, "flags", flags); //Section type (GUID). json_object *section_type = json_object_new_object(); char section_type_string[GUID_STRING_LENGTH]; guid_to_string(section_type_string, §ion_descriptor->SectionType); json_object_object_add(section_type, "data", json_object_new_string(section_type_string)); //Readable section type, if possible. const char *section_type_readable = "Unknown"; for (size_t i = 0; i < section_definitions_len; i++) { if (guid_equal(section_definitions[i].Guid, §ion_descriptor->SectionType)) { section_type_readable = section_definitions[i].ReadableName; break; } } json_object_object_add(section_type, "type", json_object_new_string(section_type_readable)); json_object_object_add(section_descriptor_ir, "sectionType", section_type); //If validation bits indicate it exists, add FRU ID. if (section_descriptor->SecValidMask & 0x1) { char fru_id_string[GUID_STRING_LENGTH]; guid_to_string(fru_id_string, §ion_descriptor->FruId); json_object_object_add(section_descriptor_ir, "fruID", json_object_new_string(fru_id_string)); } //If validation bits indicate it exists, add FRU text. if ((section_descriptor->SecValidMask & 0x2) >> 1) { json_object_object_add( section_descriptor_ir, "fruText", json_object_new_string(section_descriptor->FruString)); } //Section severity. json_object *section_severity = json_object_new_object(); json_object_object_add( section_severity, "code", json_object_new_uint64(section_descriptor->Severity)); json_object_object_add(section_severity, "name", json_object_new_string(severity_to_string( section_descriptor->Severity))); json_object_object_add(section_descriptor_ir, "severity", section_severity); return section_descriptor_ir; } //Converts the section described by a single given section descriptor. json_object *cper_section_to_ir(FILE *handle, long base_pos, EFI_ERROR_SECTION_DESCRIPTOR *descriptor) { //Save our current position in the stream. long position = ftell(handle); //Read section as described by the section descriptor. fseek(handle, base_pos + descriptor->SectionOffset, SEEK_SET); void *section = malloc(descriptor->SectionLength); if (fread(section, descriptor->SectionLength, 1, handle) != 1) { printf("Section read failed: Could not read %u bytes from global offset %d.\n", descriptor->SectionLength, descriptor->SectionOffset); free(section); return NULL; } //Seek back to our original position. fseek(handle, position, SEEK_SET); //Parse section to IR based on GUID. json_object *result = NULL; json_object *section_ir = NULL; int section_converted = 0; for (size_t i = 0; i < section_definitions_len; i++) { if (guid_equal(section_definitions[i].Guid, &descriptor->SectionType) && section_definitions[i].ToIR != NULL) { section_ir = section_definitions[i].ToIR(section); result = json_object_new_object(); json_object_object_add(result, section_definitions[i].ShortName, section_ir); section_converted = 1; break; } } //Was it an unknown GUID/failed read? if (!section_converted) { //Output the data as formatted base64. int32_t encoded_len = 0; char *encoded = base64_encode( section, descriptor->SectionLength, &encoded_len); if (encoded == NULL) { printf("Failed to allocate encode output buffer. \n"); } else { section_ir = json_object_new_object(); json_object_object_add(section_ir, "data", json_object_new_string_len( encoded, encoded_len)); free(encoded); result = json_object_new_object(); json_object_object_add(result, "Unknown", section_ir); } } //Free section memory, return result. free(section); return result; } //Converts a single CPER section, without a header but with a section descriptor, to JSON. json_object *cper_single_section_to_ir(FILE *cper_section_file) { json_object *ir = json_object_new_object(); //Read the current file pointer location as base record position. long base_pos = ftell(cper_section_file); //Read the section descriptor out. EFI_ERROR_SECTION_DESCRIPTOR section_descriptor; if (fread(§ion_descriptor, sizeof(EFI_ERROR_SECTION_DESCRIPTOR), 1, cper_section_file) != 1) { printf("Failed to read section descriptor for CPER single section (fread() returned an unexpected value).\n"); return NULL; } //Convert the section descriptor to IR. json_object *section_descriptor_ir = cper_section_descriptor_to_ir(§ion_descriptor); json_object_object_add(ir, "sectionDescriptor", section_descriptor_ir); //Parse the single section. json_object *section_ir = cper_section_to_ir( cper_section_file, base_pos, §ion_descriptor); json_object_object_add(ir, "section", section_ir); return ir; } char *cper_single_section_to_str_ir(FILE *cper_section_file) { json_object *jobj = cper_single_section_to_ir(cper_section_file); char *str = jobj ? strdup(json_object_to_json_string(jobj)) : NULL; json_object_put(jobj); return str; } char *cperbuf_single_section_to_str_ir(const unsigned char *cper_section, size_t size) { FILE *cper_section_file = fmemopen((void *)cper_section, size, "r"); return cper_section_file ? cper_single_section_to_str_ir(cper_section_file) : NULL; }