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gerrit.openbmc.org / openbmc / libcper / 13f099ff1b755b738a9c8541c6646c7acbcb5d00 / . / sections / cper-section-ia32x64.c
blob: bdeb4fa3a6d81d4367265ee57169f292084eb72c [file] [log] [blame]
/**
* Describes functions for converting IA32/x64 CPER sections from binary and JSON format
* into an intermediate format.
*
* Author: Lawrence.Tang@arm.com
**/
#include <stdio.h>
#include <json.h>
#include <libcper/base64.h>
#include <libcper/Cper.h>
#include <libcper/cper-utils.h>
#include <libcper/sections/cper-section-ia32x64.h>
//Private pre-definitions.
json_object *cper_ia32x64_processor_error_info_to_ir(
EFI_IA32_X64_PROCESS_ERROR_INFO *error_info);
json_object *cper_ia32x64_cache_tlb_check_to_ir(
EFI_IA32_X64_CACHE_CHECK_INFO *cache_tlb_check);
json_object *
cper_ia32x64_bus_check_to_ir(EFI_IA32_X64_BUS_CHECK_INFO *bus_check);
json_object *cper_ia32x64_ms_check_to_ir(EFI_IA32_X64_MS_CHECK_INFO *ms_check);
json_object *cper_ia32x64_processor_context_info_to_ir(
EFI_IA32_X64_PROCESSOR_CONTEXT_INFO *context_info, void **cur_pos);
json_object *
cper_ia32x64_register_32bit_to_ir(EFI_CONTEXT_IA32_REGISTER_STATE *registers);
json_object *
cper_ia32x64_register_64bit_to_ir(EFI_CONTEXT_X64_REGISTER_STATE *registers);
void ir_ia32x64_error_info_to_cper(json_object *error_info, FILE *out);
void ir_ia32x64_context_info_to_cper(json_object *context_info, FILE *out);
void ir_ia32x64_cache_tlb_check_error_to_cper(
json_object *check_info,
EFI_IA32_X64_CACHE_CHECK_INFO *check_info_cper);
void ir_ia32x64_bus_check_error_to_cper(
json_object *check_info, EFI_IA32_X64_BUS_CHECK_INFO *check_info_cper);
void ir_ia32x64_ms_check_error_to_cper(
json_object *check_info, EFI_IA32_X64_MS_CHECK_INFO *check_info_cper);
void ir_ia32x64_ia32_registers_to_cper(json_object *registers, FILE *out);
void ir_ia32x64_x64_registers_to_cper(json_object *registers, FILE *out);
//////////////////
/// CPER TO IR ///
//////////////////
//Converts the IA32/x64 error section described in the given descriptor into intermediate format.
json_object *cper_section_ia32x64_to_ir(void *section)
{
EFI_IA32_X64_PROCESSOR_ERROR_RECORD *record =
(EFI_IA32_X64_PROCESSOR_ERROR_RECORD *)section;
json_object *record_ir = json_object_new_object();
//Validation bits.
json_object *validationBits = json_object_new_object();
json_object_object_add(validationBits, "localAPICIDValid",
json_object_new_boolean(record->ValidFields &
0x1));
json_object_object_add(
validationBits, "cpuIDInfoValid",
json_object_new_boolean((record->ValidFields >> 1) & 0x1));
int processor_error_info_num = (record->ValidFields >> 2) & 0x3F;
json_object_object_add(validationBits, "processorErrorInfoNum",
json_object_new_int(processor_error_info_num));
int processor_context_info_num = (record->ValidFields >> 8) & 0x3F;
json_object_object_add(validationBits, "processorContextInfoNum",
json_object_new_int(processor_context_info_num));
json_object_object_add(record_ir, "validationBits", validationBits);
//APIC ID.
json_object_object_add(record_ir, "localAPICID",
json_object_new_uint64(record->ApicId));
//CPUID information.
json_object *cpuid_info_ir = json_object_new_object();
EFI_IA32_X64_CPU_ID *cpuid_info =
(EFI_IA32_X64_CPU_ID *)record->CpuIdInfo;
json_object_object_add(cpuid_info_ir, "eax",
json_object_new_uint64(cpuid_info->Eax));
json_object_object_add(cpuid_info_ir, "ebx",
json_object_new_uint64(cpuid_info->Ebx));
json_object_object_add(cpuid_info_ir, "ecx",
json_object_new_uint64(cpuid_info->Ecx));
json_object_object_add(cpuid_info_ir, "edx",
json_object_new_uint64(cpuid_info->Edx));
json_object_object_add(record_ir, "cpuidInfo", cpuid_info_ir);
//Processor error information, of the amount described above.
EFI_IA32_X64_PROCESS_ERROR_INFO *current_error_info =
(EFI_IA32_X64_PROCESS_ERROR_INFO *)(record + 1);
json_object *error_info_array = json_object_new_array();
for (int i = 0; i < processor_error_info_num; i++) {
json_object_array_add(error_info_array,
cper_ia32x64_processor_error_info_to_ir(
current_error_info));
current_error_info++;
}
json_object_object_add(record_ir, "processorErrorInfo",
error_info_array);
//Processor context information, of the amount described above.
EFI_IA32_X64_PROCESSOR_CONTEXT_INFO *current_context_info =
(EFI_IA32_X64_PROCESSOR_CONTEXT_INFO *)current_error_info;
void *cur_pos = (void *)current_context_info;
json_object *context_info_array = json_object_new_array();
for (int i = 0; i < processor_context_info_num; i++) {
json_object_array_add(context_info_array,
cper_ia32x64_processor_context_info_to_ir(
current_context_info, &cur_pos));
current_context_info =
(EFI_IA32_X64_PROCESSOR_CONTEXT_INFO *)cur_pos;
//The context array is a non-fixed size, pointer is shifted within the above function.
}
json_object_object_add(record_ir, "processorContextInfo",
context_info_array);
return record_ir;
}
//Converts a single IA32/x64 processor error info block into JSON IR format.
json_object *cper_ia32x64_processor_error_info_to_ir(
EFI_IA32_X64_PROCESS_ERROR_INFO *error_info)
{
json_object *error_info_ir = json_object_new_object();
//Error structure type (as GUID).
char error_type[GUID_STRING_LENGTH];
guid_to_string(error_type, &error_info->ErrorType);
json_object *type = json_object_new_object();
json_object_object_add(type, "guid",
json_object_new_string(error_type));
//Get the error structure type as a readable string.
const char *readable_type = "Unknown";
if (guid_equal(&error_info->ErrorType,
&gEfiIa32x64ErrorTypeCacheCheckGuid)) {
readable_type = "Cache Check Error";
} else if (guid_equal(&error_info->ErrorType,
&gEfiIa32x64ErrorTypeTlbCheckGuid)) {
readable_type = "TLB Check Error";
} else if (guid_equal(&error_info->ErrorType,
&gEfiIa32x64ErrorTypeBusCheckGuid)) {
readable_type = "Bus Check Error";
} else if (guid_equal(&error_info->ErrorType,
&gEfiIa32x64ErrorTypeMsCheckGuid)) {
readable_type = "MS Check Error";
}
json_object_object_add(type, "name",
json_object_new_string(readable_type));
json_object_object_add(error_info_ir, "type", type);
//Validation bits.
json_object *validation =
bitfield_to_ir(error_info->ValidFields, 5,
IA32X64_PROCESSOR_ERROR_VALID_BITFIELD_NAMES);
json_object_object_add(error_info_ir, "validationBits", validation);
//Add the check information on a per-structure basis.
//Cache and TLB check information are identical, so can be equated.
json_object *check_information = NULL;
if (guid_equal(&error_info->ErrorType,
&gEfiIa32x64ErrorTypeCacheCheckGuid) ||
guid_equal(&error_info->ErrorType,
&gEfiIa32x64ErrorTypeTlbCheckGuid)) {
check_information = cper_ia32x64_cache_tlb_check_to_ir(
(EFI_IA32_X64_CACHE_CHECK_INFO *)&error_info->CheckInfo);
} else if (guid_equal(&error_info->ErrorType,
&gEfiIa32x64ErrorTypeBusCheckGuid)) {
check_information = cper_ia32x64_bus_check_to_ir(
(EFI_IA32_X64_BUS_CHECK_INFO *)&error_info->CheckInfo);
} else if (guid_equal(&error_info->ErrorType,
&gEfiIa32x64ErrorTypeMsCheckGuid)) {
check_information = cper_ia32x64_ms_check_to_ir(
(EFI_IA32_X64_MS_CHECK_INFO *)&error_info->CheckInfo);
} else {
//Unknown check information.
printf("WARN: Invalid/unknown check information GUID found in IA32/x64 CPER section. Ignoring.\n");
}
json_object_object_add(error_info_ir, "checkInfo", check_information);
//Target, requestor, and responder identifiers.
json_object_object_add(error_info_ir, "targetAddressID",
json_object_new_uint64(error_info->TargetId));
json_object_object_add(error_info_ir, "requestorID",
json_object_new_uint64(error_info->RequestorId));
json_object_object_add(error_info_ir, "responderID",
json_object_new_uint64(error_info->ResponderId));
json_object_object_add(
error_info_ir, "instructionPointer",
json_object_new_uint64(error_info->InstructionIP));
return error_info_ir;
}
//Converts a single IA32/x64 cache or TLB check check info block into JSON IR format.
json_object *cper_ia32x64_cache_tlb_check_to_ir(
EFI_IA32_X64_CACHE_CHECK_INFO *cache_tlb_check)
{
json_object *cache_tlb_check_ir = json_object_new_object();
//Validation bits.
json_object *validation =
bitfield_to_ir(cache_tlb_check->ValidFields, 8,
IA32X64_CHECK_INFO_VALID_BITFIELD_NAMES);
json_object_object_add(cache_tlb_check_ir, "validationBits",
validation);
//Transaction type.
json_object *transaction_type = integer_to_readable_pair(
cache_tlb_check->TransactionType, 3,
IA32X64_CHECK_INFO_TRANSACTION_TYPES_KEYS,
IA32X64_CHECK_INFO_TRANSACTION_TYPES_VALUES,
"Unknown (Reserved)");
json_object_object_add(cache_tlb_check_ir, "transactionType",
transaction_type);
//Operation.
json_object *operation = integer_to_readable_pair(
cache_tlb_check->Operation, 9,
IA32X64_CHECK_INFO_OPERATION_TYPES_KEYS,
IA32X64_CHECK_INFO_OPERATION_TYPES_VALUES,
"Unknown (Reserved)");
json_object_object_add(cache_tlb_check_ir, "operation", operation);
//Affected cache/TLB level.
json_object_object_add(cache_tlb_check_ir, "level",
json_object_new_uint64(cache_tlb_check->Level));
//Miscellaneous boolean fields.
json_object_object_add(
cache_tlb_check_ir, "processorContextCorrupt",
json_object_new_boolean(cache_tlb_check->ContextCorrupt));
json_object_object_add(
cache_tlb_check_ir, "uncorrected",
json_object_new_boolean(cache_tlb_check->ErrorUncorrected));
json_object_object_add(
cache_tlb_check_ir, "preciseIP",
json_object_new_boolean(cache_tlb_check->PreciseIp));
json_object_object_add(
cache_tlb_check_ir, "restartableIP",
json_object_new_boolean(cache_tlb_check->RestartableIp));
json_object_object_add(
cache_tlb_check_ir, "overflow",
json_object_new_boolean(cache_tlb_check->Overflow));
return cache_tlb_check_ir;
}
//Converts a single IA32/x64 bus check check info block into JSON IR format.
json_object *
cper_ia32x64_bus_check_to_ir(EFI_IA32_X64_BUS_CHECK_INFO *bus_check)
{
json_object *bus_check_ir = json_object_new_object();
//Validation bits.
json_object *validation =
bitfield_to_ir(bus_check->ValidFields, 11,
IA32X64_CHECK_INFO_VALID_BITFIELD_NAMES);
json_object_object_add(bus_check_ir, "validationBits", validation);
//Transaction type.
json_object *transaction_type = integer_to_readable_pair(
bus_check->TransactionType, 3,
IA32X64_CHECK_INFO_TRANSACTION_TYPES_KEYS,
IA32X64_CHECK_INFO_TRANSACTION_TYPES_VALUES,
"Unknown (Reserved)");
json_object_object_add(bus_check_ir, "transactionType",
transaction_type);
//Operation.
json_object *operation = integer_to_readable_pair(
bus_check->Operation, 9,
IA32X64_CHECK_INFO_OPERATION_TYPES_KEYS,
IA32X64_CHECK_INFO_OPERATION_TYPES_VALUES,
"Unknown (Reserved)");
json_object_object_add(bus_check_ir, "operation", operation);
//Affected bus level.
json_object_object_add(bus_check_ir, "level",
json_object_new_uint64(bus_check->Level));
//Miscellaneous boolean fields.
json_object_object_add(
bus_check_ir, "processorContextCorrupt",
json_object_new_boolean(bus_check->ContextCorrupt));
json_object_object_add(
bus_check_ir, "uncorrected",
json_object_new_boolean(bus_check->ErrorUncorrected));
json_object_object_add(bus_check_ir, "preciseIP",
json_object_new_boolean(bus_check->PreciseIp));
json_object_object_add(
bus_check_ir, "restartableIP",
json_object_new_boolean(bus_check->RestartableIp));
json_object_object_add(bus_check_ir, "overflow",
json_object_new_boolean(bus_check->Overflow));
json_object_object_add(bus_check_ir, "timedOut",
json_object_new_boolean(bus_check->TimeOut));
//Participation type.
json_object *participation_type = integer_to_readable_pair(
bus_check->ParticipationType, 4,
IA32X64_BUS_CHECK_INFO_PARTICIPATION_TYPES_KEYS,
IA32X64_BUS_CHECK_INFO_PARTICIPATION_TYPES_VALUES, "Unknown");
json_object_object_add(bus_check_ir, "participationType",
participation_type);
//Address space.
json_object *address_space = integer_to_readable_pair(
bus_check->AddressSpace, 4,
IA32X64_BUS_CHECK_INFO_ADDRESS_SPACE_TYPES_KEYS,
IA32X64_BUS_CHECK_INFO_ADDRESS_SPACE_TYPES_VALUES, "Unknown");
json_object_object_add(bus_check_ir, "addressSpace", address_space);
return bus_check_ir;
}
//Converts a single IA32/x64 MS check check info block into JSON IR format.
json_object *cper_ia32x64_ms_check_to_ir(EFI_IA32_X64_MS_CHECK_INFO *ms_check)
{
json_object *ms_check_ir = json_object_new_object();
//Validation bits.
json_object *validation = bitfield_to_ir(
ms_check->ValidFields, 6,
IA32X64_CHECK_INFO_MS_CHECK_VALID_BITFIELD_NAMES);
json_object_object_add(ms_check_ir, "validationBits", validation);
//Error type (operation that caused the error).
json_object *error_type = integer_to_readable_pair(
ms_check->ErrorType, 4, IA32X64_MS_CHECK_INFO_ERROR_TYPES_KEYS,
IA32X64_MS_CHECK_INFO_ERROR_TYPES_VALUES,
"Unknown (Processor Specific)");
json_object_object_add(ms_check_ir, "errorType", error_type);
//Miscellaneous fields.
json_object_object_add(
ms_check_ir, "processorContextCorrupt",
json_object_new_boolean(ms_check->ContextCorrupt));
json_object_object_add(
ms_check_ir, "uncorrected",
json_object_new_boolean(ms_check->ErrorUncorrected));
json_object_object_add(ms_check_ir, "preciseIP",
json_object_new_boolean(ms_check->PreciseIp));
json_object_object_add(
ms_check_ir, "restartableIP",
json_object_new_boolean(ms_check->RestartableIp));
json_object_object_add(ms_check_ir, "overflow",
json_object_new_boolean(ms_check->Overflow));
return ms_check_ir;
}
//Converts a single IA32/x64 processor context info entry into JSON IR format.
json_object *cper_ia32x64_processor_context_info_to_ir(
EFI_IA32_X64_PROCESSOR_CONTEXT_INFO *context_info, void **cur_pos)
{
json_object *context_info_ir = json_object_new_object();
//Register context type.
json_object *context_type = integer_to_readable_pair(
context_info->RegisterType, 8,
IA32X64_REGISTER_CONTEXT_TYPES_KEYS,
IA32X64_REGISTER_CONTEXT_TYPES_VALUES, "Unknown (Reserved)");
json_object_object_add(context_info_ir, "registerContextType",
context_type);
//Register array size, MSR and MM address.
json_object_object_add(context_info_ir, "registerArraySize",
json_object_new_uint64(context_info->ArraySize));
json_object_object_add(
context_info_ir, "msrAddress",
json_object_new_uint64(context_info->MsrAddress));
json_object_object_add(
context_info_ir, "mmRegisterAddress",
json_object_new_uint64(context_info->MmRegisterAddress));
//Register array.
json_object *register_array = NULL;
if (context_info->RegisterType == EFI_REG_CONTEXT_TYPE_IA32) {
EFI_CONTEXT_IA32_REGISTER_STATE *register_state =
(EFI_CONTEXT_IA32_REGISTER_STATE *)(context_info + 1);
register_array =
cper_ia32x64_register_32bit_to_ir(register_state);
*cur_pos = (void *)(register_state + 1);
} else if (context_info->RegisterType == EFI_REG_CONTEXT_TYPE_X64) {
EFI_CONTEXT_X64_REGISTER_STATE *register_state =
(EFI_CONTEXT_X64_REGISTER_STATE *)(context_info + 1);
register_array =
cper_ia32x64_register_64bit_to_ir(register_state);
*cur_pos = (void *)(register_state + 1);
} else {
//No parseable data, just dump as base64 and shift the head to the next item.
*cur_pos = (void *)(context_info + 1);
int32_t encoded_len = 0;
char *encoded = base64_encode((UINT8 *)*cur_pos,
context_info->ArraySize,
&encoded_len);
if (encoded == NULL) {
printf("Failed to allocate encode output buffer. \n");
} else {
register_array = json_object_new_object();
json_object_object_add(register_array, "data",
json_object_new_string_len(
encoded, encoded_len));
free(encoded);
}
*cur_pos =
(void *)(((char *)*cur_pos) + context_info->ArraySize);
}
json_object_object_add(context_info_ir, "registerArray",
register_array);
return context_info_ir;
}
//Converts a single CPER IA32 register state into JSON IR format.
json_object *
cper_ia32x64_register_32bit_to_ir(EFI_CONTEXT_IA32_REGISTER_STATE *registers)
{
json_object *ia32_registers = json_object_new_object();
json_object_object_add(ia32_registers, "eax",
json_object_new_uint64(registers->Eax));
json_object_object_add(ia32_registers, "ebx",
json_object_new_uint64(registers->Ebx));
json_object_object_add(ia32_registers, "ecx",
json_object_new_uint64(registers->Ecx));
json_object_object_add(ia32_registers, "edx",
json_object_new_uint64(registers->Edx));
json_object_object_add(ia32_registers, "esi",
json_object_new_uint64(registers->Esi));
json_object_object_add(ia32_registers, "edi",
json_object_new_uint64(registers->Edi));
json_object_object_add(ia32_registers, "ebp",
json_object_new_uint64(registers->Ebp));
json_object_object_add(ia32_registers, "esp",
json_object_new_uint64(registers->Esp));
json_object_object_add(ia32_registers, "cs",
json_object_new_uint64(registers->Cs));
json_object_object_add(ia32_registers, "ds",
json_object_new_uint64(registers->Ds));
json_object_object_add(ia32_registers, "ss",
json_object_new_uint64(registers->Ss));
json_object_object_add(ia32_registers, "es",
json_object_new_uint64(registers->Es));
json_object_object_add(ia32_registers, "fs",
json_object_new_uint64(registers->Fs));
json_object_object_add(ia32_registers, "gs",
json_object_new_uint64(registers->Gs));
json_object_object_add(ia32_registers, "eflags",
json_object_new_uint64(registers->Eflags));
json_object_object_add(ia32_registers, "eip",
json_object_new_uint64(registers->Eip));
json_object_object_add(ia32_registers, "cr0",
json_object_new_uint64(registers->Cr0));
json_object_object_add(ia32_registers, "cr1",
json_object_new_uint64(registers->Cr1));
json_object_object_add(ia32_registers, "cr2",
json_object_new_uint64(registers->Cr2));
json_object_object_add(ia32_registers, "cr3",
json_object_new_uint64(registers->Cr3));
json_object_object_add(ia32_registers, "cr4",
json_object_new_uint64(registers->Cr4));
json_object_object_add(
ia32_registers, "gdtr",
json_object_new_uint64(registers->Gdtr[0] +
((UINT64)registers->Gdtr[1] << 32)));
json_object_object_add(
ia32_registers, "idtr",
json_object_new_uint64(registers->Idtr[0] +
((UINT64)registers->Idtr[1] << 32)));
json_object_object_add(ia32_registers, "ldtr",
json_object_new_uint64(registers->Ldtr));
json_object_object_add(ia32_registers, "tr",
json_object_new_uint64(registers->Tr));
return ia32_registers;
}
//Converts a single CPER x64 register state into JSON IR format.
json_object *
cper_ia32x64_register_64bit_to_ir(EFI_CONTEXT_X64_REGISTER_STATE *registers)
{
json_object *x64_registers = json_object_new_object();
json_object_object_add(x64_registers, "rax",
json_object_new_uint64(registers->Rax));
json_object_object_add(x64_registers, "rbx",
json_object_new_uint64(registers->Rbx));
json_object_object_add(x64_registers, "rcx",
json_object_new_uint64(registers->Rcx));
json_object_object_add(x64_registers, "rdx",
json_object_new_uint64(registers->Rdx));
json_object_object_add(x64_registers, "rsi",
json_object_new_uint64(registers->Rsi));
json_object_object_add(x64_registers, "rdi",
json_object_new_uint64(registers->Rdi));
json_object_object_add(x64_registers, "rbp",
json_object_new_uint64(registers->Rbp));
json_object_object_add(x64_registers, "rsp",
json_object_new_uint64(registers->Rsp));
json_object_object_add(x64_registers, "r8",
json_object_new_uint64(registers->R8));
json_object_object_add(x64_registers, "r9",
json_object_new_uint64(registers->R9));
json_object_object_add(x64_registers, "r10",
json_object_new_uint64(registers->R10));
json_object_object_add(x64_registers, "r11",
json_object_new_uint64(registers->R11));
json_object_object_add(x64_registers, "r12",
json_object_new_uint64(registers->R12));
json_object_object_add(x64_registers, "r13",
json_object_new_uint64(registers->R13));
json_object_object_add(x64_registers, "r14",
json_object_new_uint64(registers->R14));
json_object_object_add(x64_registers, "r15",
json_object_new_uint64(registers->R15));
json_object_object_add(x64_registers, "cs",
json_object_new_int(registers->Cs));
json_object_object_add(x64_registers, "ds",
json_object_new_int(registers->Ds));
json_object_object_add(x64_registers, "ss",
json_object_new_int(registers->Ss));
json_object_object_add(x64_registers, "es",
json_object_new_int(registers->Es));
json_object_object_add(x64_registers, "fs",
json_object_new_int(registers->Fs));
json_object_object_add(x64_registers, "gs",
json_object_new_int(registers->Gs));
json_object_object_add(x64_registers, "rflags",
json_object_new_uint64(registers->Rflags));
json_object_object_add(x64_registers, "eip",
json_object_new_uint64(registers->Rip));
json_object_object_add(x64_registers, "cr0",
json_object_new_uint64(registers->Cr0));
json_object_object_add(x64_registers, "cr1",
json_object_new_uint64(registers->Cr1));
json_object_object_add(x64_registers, "cr2",
json_object_new_uint64(registers->Cr2));
json_object_object_add(x64_registers, "cr3",
json_object_new_uint64(registers->Cr3));
json_object_object_add(x64_registers, "cr4",
json_object_new_uint64(registers->Cr4));
json_object_object_add(x64_registers, "cr8",
json_object_new_uint64(registers->Cr8));
json_object_object_add(x64_registers, "gdtr_0",
json_object_new_uint64(registers->Gdtr[0]));
json_object_object_add(x64_registers, "gdtr_1",
json_object_new_uint64(registers->Gdtr[1]));
json_object_object_add(x64_registers, "idtr_0",
json_object_new_uint64(registers->Idtr[0]));
json_object_object_add(x64_registers, "idtr_1",
json_object_new_uint64(registers->Idtr[1]));
json_object_object_add(x64_registers, "ldtr",
json_object_new_int(registers->Ldtr));
json_object_object_add(x64_registers, "tr",
json_object_new_int(registers->Tr));
return x64_registers;
}
//////////////////
/// IR TO CPER ///
//////////////////
//Converts a single IA32/x64 CPER-JSON section into CPER binary, outputting to the provided stream.
void ir_section_ia32x64_to_cper(json_object *section, FILE *out)
{
EFI_IA32_X64_PROCESSOR_ERROR_RECORD *section_cper =
(EFI_IA32_X64_PROCESSOR_ERROR_RECORD *)calloc(
1, sizeof(EFI_IA32_X64_PROCESSOR_ERROR_RECORD));
//Validation bits.
json_object *validation =
json_object_object_get(section, "validationBits");
section_cper->ValidFields = 0x0;
section_cper->ValidFields |= json_object_get_boolean(
json_object_object_get(validation, "localAPICIDValid"));
section_cper->ValidFields |=
json_object_get_boolean(
json_object_object_get(validation, "cpuIDInfoValid"))
<< 1;
int proc_error_info_num =
json_object_get_int(json_object_object_get(
validation, "processorErrorInfoNum")) &
0x3F;
int proc_ctx_info_num =
json_object_get_int(json_object_object_get(
validation, "processorContextInfoNum")) &
0x3F;
section_cper->ValidFields |= proc_error_info_num << 2;
section_cper->ValidFields |= proc_ctx_info_num << 8;
//Local APIC ID.
section_cper->ApicId = json_object_get_uint64(
json_object_object_get(section, "localAPICID"));
//CPUID info.
json_object *cpuid_info = json_object_object_get(section, "cpuidInfo");
EFI_IA32_X64_CPU_ID *cpuid_info_cper =
(EFI_IA32_X64_CPU_ID *)section_cper->CpuIdInfo;
cpuid_info_cper->Eax = json_object_get_uint64(
json_object_object_get(cpuid_info, "eax"));
cpuid_info_cper->Ebx = json_object_get_uint64(
json_object_object_get(cpuid_info, "ebx"));
cpuid_info_cper->Ecx = json_object_get_uint64(
json_object_object_get(cpuid_info, "ecx"));
cpuid_info_cper->Edx = json_object_get_uint64(
json_object_object_get(cpuid_info, "edx"));
//Flush the header to file before dealing w/ info sections.
fwrite(section_cper, sizeof(EFI_IA32_X64_PROCESSOR_ERROR_RECORD), 1,
out);
fflush(out);
free(section_cper);
//Iterate and deal with sections.
json_object *error_info =
json_object_object_get(section, "processorErrorInfo");
json_object *context_info =
json_object_object_get(section, "processorContextInfo");
for (int i = 0; i < proc_error_info_num; i++) {
ir_ia32x64_error_info_to_cper(
json_object_array_get_idx(error_info, i), out);
}
for (int i = 0; i < proc_ctx_info_num; i++) {
ir_ia32x64_context_info_to_cper(
json_object_array_get_idx(context_info, i), out);
}
}
//Converts a single CPER-JSON IA32/x64 error information structure into CPER binary, outputting to the
//provided stream.
void ir_ia32x64_error_info_to_cper(json_object *error_info, FILE *out)
{
EFI_IA32_X64_PROCESS_ERROR_INFO *error_info_cper =
(EFI_IA32_X64_PROCESS_ERROR_INFO *)calloc(
1, sizeof(EFI_IA32_X64_PROCESS_ERROR_INFO));
//Error structure type.
json_object *type = json_object_object_get(error_info, "type");
string_to_guid(
&error_info_cper->ErrorType,
json_object_get_string(json_object_object_get(type, "guid")));
//Validation bits.
error_info_cper->ValidFields = ir_to_bitfield(
json_object_object_get(error_info, "validationBits"), 5,
IA32X64_PROCESSOR_ERROR_VALID_BITFIELD_NAMES);
//Check information, parsed based on the error type.
json_object *check_info =
json_object_object_get(error_info, "checkInfo");
if (guid_equal(&error_info_cper->ErrorType,
&gEfiIa32x64ErrorTypeCacheCheckGuid) ||
guid_equal(&error_info_cper->ErrorType,
&gEfiIa32x64ErrorTypeTlbCheckGuid)) {
ir_ia32x64_cache_tlb_check_error_to_cper(
check_info,
(EFI_IA32_X64_CACHE_CHECK_INFO *)&error_info_cper
->CheckInfo);
} else if (guid_equal(&error_info_cper->ErrorType,
&gEfiIa32x64ErrorTypeBusCheckGuid)) {
ir_ia32x64_bus_check_error_to_cper(
check_info,
(EFI_IA32_X64_BUS_CHECK_INFO *)&error_info_cper
->CheckInfo);
} else if (guid_equal(&error_info_cper->ErrorType,
&gEfiIa32x64ErrorTypeMsCheckGuid)) {
ir_ia32x64_ms_check_error_to_cper(
check_info,
(EFI_IA32_X64_MS_CHECK_INFO *)&error_info_cper
->CheckInfo);
}
//Miscellaneous numeric fields.
error_info_cper->TargetId = json_object_get_uint64(
json_object_object_get(error_info, "targetAddressID"));
error_info_cper->RequestorId = json_object_get_uint64(
json_object_object_get(error_info, "requestorID"));
error_info_cper->ResponderId = json_object_get_uint64(
json_object_object_get(error_info, "responderID"));
error_info_cper->InstructionIP = json_object_get_uint64(
json_object_object_get(error_info, "instructionPointer"));
//Write out to stream, then free resources.
fwrite(error_info_cper, sizeof(EFI_IA32_X64_PROCESS_ERROR_INFO), 1,
out);
fflush(out);
free(error_info_cper);
}
//Converts a single CPER-JSON IA32/x64 cache/TLB check error info structure to CPER binary.
void ir_ia32x64_cache_tlb_check_error_to_cper(
json_object *check_info, EFI_IA32_X64_CACHE_CHECK_INFO *check_info_cper)
{
//Validation bits.
check_info_cper->ValidFields = ir_to_bitfield(
json_object_object_get(check_info, "validationBits"), 8,
IA32X64_CHECK_INFO_VALID_BITFIELD_NAMES);
//Transaction type, operation.
check_info_cper->TransactionType = readable_pair_to_integer(
json_object_object_get(check_info, "transactionType"));
check_info_cper->Operation = readable_pair_to_integer(
json_object_object_get(check_info, "operation"));
//Miscellaneous raw value fields.
check_info_cper->Level = json_object_get_uint64(
json_object_object_get(check_info, "level"));
check_info_cper->ContextCorrupt = json_object_get_boolean(
json_object_object_get(check_info, "processorContextCorrupt"));
check_info_cper->ErrorUncorrected = json_object_get_boolean(
json_object_object_get(check_info, "uncorrected"));
check_info_cper->PreciseIp = json_object_get_boolean(
json_object_object_get(check_info, "preciseIP"));
check_info_cper->RestartableIp = json_object_get_boolean(
json_object_object_get(check_info, "restartableIP"));
check_info_cper->Overflow = json_object_get_boolean(
json_object_object_get(check_info, "overflow"));
}
//Converts a single CPER-JSON IA32/x64 bus error info structure to CPER binary.
void ir_ia32x64_bus_check_error_to_cper(
json_object *check_info, EFI_IA32_X64_BUS_CHECK_INFO *check_info_cper)
{
//Validation bits.
check_info_cper->ValidFields = ir_to_bitfield(
json_object_object_get(check_info, "validationBits"), 11,
IA32X64_CHECK_INFO_VALID_BITFIELD_NAMES);
//Readable pair fields.
check_info_cper->TransactionType = readable_pair_to_integer(
json_object_object_get(check_info, "transactionType"));
check_info_cper->Operation = readable_pair_to_integer(
json_object_object_get(check_info, "operation"));
check_info_cper->ParticipationType = readable_pair_to_integer(
json_object_object_get(check_info, "participationType"));
check_info_cper->AddressSpace = readable_pair_to_integer(
json_object_object_get(check_info, "addressSpace"));
//Miscellaneous raw value fields.
check_info_cper->Level = json_object_get_uint64(
json_object_object_get(check_info, "level"));
check_info_cper->ContextCorrupt = json_object_get_boolean(
json_object_object_get(check_info, "processorContextCorrupt"));
check_info_cper->ErrorUncorrected = json_object_get_boolean(
json_object_object_get(check_info, "uncorrected"));
check_info_cper->PreciseIp = json_object_get_boolean(
json_object_object_get(check_info, "preciseIP"));
check_info_cper->RestartableIp = json_object_get_boolean(
json_object_object_get(check_info, "restartableIP"));
check_info_cper->Overflow = json_object_get_boolean(
json_object_object_get(check_info, "overflow"));
check_info_cper->TimeOut = json_object_get_boolean(
json_object_object_get(check_info, "timedOut"));
}
//Converts a single CPER-JSON IA32/x64 MS error info structure to CPER binary.
void ir_ia32x64_ms_check_error_to_cper(
json_object *check_info, EFI_IA32_X64_MS_CHECK_INFO *check_info_cper)
{
//Validation bits.
check_info_cper->ValidFields = ir_to_bitfield(
json_object_object_get(check_info, "validationBits"), 6,
IA32X64_CHECK_INFO_MS_CHECK_VALID_BITFIELD_NAMES);
//Type of MS check error.
check_info_cper->ErrorType = readable_pair_to_integer(
json_object_object_get(check_info, "errorType"));
//Miscellaneous raw value fields.
check_info_cper->ContextCorrupt = json_object_get_boolean(
json_object_object_get(check_info, "processorContextCorrupt"));
check_info_cper->ErrorUncorrected = json_object_get_boolean(
json_object_object_get(check_info, "uncorrected"));
check_info_cper->PreciseIp = json_object_get_boolean(
json_object_object_get(check_info, "preciseIP"));
check_info_cper->RestartableIp = json_object_get_boolean(
json_object_object_get(check_info, "restartableIP"));
check_info_cper->Overflow = json_object_get_boolean(
json_object_object_get(check_info, "overflow"));
}
//Converts a single CPER-JSON IA32/x64 context information structure into CPER binary, outputting to the
//provided stream.
void ir_ia32x64_context_info_to_cper(json_object *context_info, FILE *out)
{
EFI_IA32_X64_PROCESSOR_CONTEXT_INFO *context_info_cper =
(EFI_IA32_X64_PROCESSOR_CONTEXT_INFO *)calloc(
1, sizeof(EFI_IA32_X64_PROCESSOR_CONTEXT_INFO));
//Register context type.
context_info_cper->RegisterType = (UINT16)readable_pair_to_integer(
json_object_object_get(context_info, "registerContextType"));
//Miscellaneous numeric fields.
context_info_cper->ArraySize = (UINT16)json_object_get_uint64(
json_object_object_get(context_info, "registerArraySize"));
context_info_cper->MsrAddress = (UINT32)json_object_get_uint64(
json_object_object_get(context_info, "msrAddress"));
context_info_cper->MmRegisterAddress = json_object_get_uint64(
json_object_object_get(context_info, "mmRegisterAddress"));
//Flush header to stream.
fwrite(context_info_cper, sizeof(EFI_IA32_X64_PROCESSOR_CONTEXT_INFO),
1, out);
fflush(out);
//Handle the register array, depending on type provided.
json_object *register_array =
json_object_object_get(context_info, "registerArray");
if (context_info_cper->RegisterType == EFI_REG_CONTEXT_TYPE_IA32) {
ir_ia32x64_ia32_registers_to_cper(register_array, out);
} else if (context_info_cper->RegisterType ==
EFI_REG_CONTEXT_TYPE_X64) {
ir_ia32x64_x64_registers_to_cper(register_array, out);
} else {
//Unknown/structure is not defined.
json_object *encoded =
json_object_object_get(register_array, "data");
int32_t decoded_len = 0;
const char *j_string = json_object_get_string(encoded);
int j_size = json_object_get_string_len(encoded);
UINT8 *decoded = base64_decode(j_string, j_size, &decoded_len);
if (decoded == NULL) {
printf("Failed to allocate decode output buffer. \n");
} else {
fwrite(decoded, decoded_len, 1, out);
fflush(out);
free(decoded);
}
}
//Free remaining resources.
free(context_info_cper);
}
//Converts a single CPER-JSON IA32 register array into CPER binary, outputting to the given stream.
void ir_ia32x64_ia32_registers_to_cper(json_object *registers, FILE *out)
{
EFI_CONTEXT_IA32_REGISTER_STATE register_state;
register_state.Eax = (UINT32)json_object_get_uint64(
json_object_object_get(registers, "eax"));
register_state.Ebx = (UINT32)json_object_get_uint64(
json_object_object_get(registers, "ebx"));
register_state.Ecx = (UINT32)json_object_get_uint64(
json_object_object_get(registers, "ecx"));
register_state.Edx = (UINT32)json_object_get_uint64(
json_object_object_get(registers, "edx"));
register_state.Esi = (UINT32)json_object_get_uint64(
json_object_object_get(registers, "esi"));
register_state.Edi = (UINT32)json_object_get_uint64(
json_object_object_get(registers, "edi"));
register_state.Ebp = (UINT32)json_object_get_uint64(
json_object_object_get(registers, "ebp"));
register_state.Esp = (UINT32)json_object_get_uint64(
json_object_object_get(registers, "esp"));
register_state.Cs = (UINT16)json_object_get_uint64(
json_object_object_get(registers, "cs"));
register_state.Ds = (UINT32)json_object_get_uint64(
json_object_object_get(registers, "ds"));
register_state.Ss = (UINT16)json_object_get_uint64(
json_object_object_get(registers, "ss"));
register_state.Es = (UINT16)json_object_get_uint64(
json_object_object_get(registers, "es"));
register_state.Fs = (UINT16)json_object_get_uint64(
json_object_object_get(registers, "fs"));
register_state.Gs = (UINT16)json_object_get_uint64(
json_object_object_get(registers, "gs"));
register_state.Eflags = (UINT32)json_object_get_uint64(
json_object_object_get(registers, "eflags"));
register_state.Eip = (UINT32)json_object_get_uint64(
json_object_object_get(registers, "eip"));
register_state.Cr0 = (UINT32)json_object_get_uint64(
json_object_object_get(registers, "cr0"));
register_state.Cr1 = (UINT32)json_object_get_uint64(
json_object_object_get(registers, "cr1"));
register_state.Cr2 = (UINT32)json_object_get_uint64(
json_object_object_get(registers, "cr2"));
register_state.Cr3 = (UINT32)json_object_get_uint64(
json_object_object_get(registers, "cr3"));
register_state.Cr4 = (UINT32)json_object_get_uint64(
json_object_object_get(registers, "cr4"));
//64-bit registers are split into two 32-bit parts.
UINT64 gdtr = json_object_get_uint64(
json_object_object_get(registers, "gdtr"));
register_state.Gdtr[0] = gdtr & 0xFFFFFFFF;
register_state.Gdtr[1] = gdtr >> 32;
UINT64 idtr = json_object_get_uint64(
json_object_object_get(registers, "idtr"));
register_state.Idtr[0] = idtr & 0xFFFFFFFF;
register_state.Idtr[1] = idtr >> 32;
//16-bit registers.
register_state.Ldtr = (UINT16)json_object_get_uint64(
json_object_object_get(registers, "ldtr"));
register_state.Tr = (UINT16)json_object_get_uint64(
json_object_object_get(registers, "tr"));
//Write out to stream.
fwrite(&register_state, sizeof(EFI_CONTEXT_IA32_REGISTER_STATE), 1,
out);
fflush(out);
}
//Converts a single CPER-JSON x64 register array into CPER binary, outputting to the given stream.
void ir_ia32x64_x64_registers_to_cper(json_object *registers, FILE *out)
{
EFI_CONTEXT_X64_REGISTER_STATE register_state;
register_state.Rax = json_object_get_uint64(
json_object_object_get(registers, "rax"));
register_state.Rbx = json_object_get_uint64(
json_object_object_get(registers, "rbx"));
register_state.Rcx = json_object_get_uint64(
json_object_object_get(registers, "rcx"));
register_state.Rdx = json_object_get_uint64(
json_object_object_get(registers, "rdx"));
register_state.Rsi = json_object_get_uint64(
json_object_object_get(registers, "rsi"));
register_state.Rdi = json_object_get_uint64(
json_object_object_get(registers, "rdi"));
register_state.Rbp = json_object_get_uint64(
json_object_object_get(registers, "rbp"));
register_state.Rsp = json_object_get_uint64(
json_object_object_get(registers, "rsp"));
register_state.R8 =
json_object_get_uint64(json_object_object_get(registers, "r8"));
register_state.R9 =
json_object_get_uint64(json_object_object_get(registers, "r9"));
register_state.R10 = json_object_get_uint64(
json_object_object_get(registers, "r10"));
register_state.R11 = json_object_get_uint64(
json_object_object_get(registers, "r11"));
register_state.R12 = json_object_get_uint64(
json_object_object_get(registers, "r12"));
register_state.R13 = json_object_get_uint64(
json_object_object_get(registers, "r13"));
register_state.R14 = json_object_get_uint64(
json_object_object_get(registers, "r14"));
register_state.R15 = json_object_get_uint64(
json_object_object_get(registers, "r15"));
register_state.Cs = (UINT16)json_object_get_int(
json_object_object_get(registers, "cs"));
register_state.Ds = (UINT16)json_object_get_int(
json_object_object_get(registers, "ds"));
register_state.Ss = (UINT16)json_object_get_int(
json_object_object_get(registers, "ss"));
register_state.Es = (UINT16)json_object_get_int(
json_object_object_get(registers, "es"));
register_state.Fs = (UINT16)json_object_get_int(
json_object_object_get(registers, "fs"));
register_state.Gs = (UINT16)json_object_get_int(
json_object_object_get(registers, "gs"));
register_state.Resv1 = 0;
register_state.Rflags = json_object_get_uint64(
json_object_object_get(registers, "rflags"));
register_state.Rip = json_object_get_uint64(
json_object_object_get(registers, "eip"));
register_state.Cr0 = json_object_get_uint64(
json_object_object_get(registers, "cr0"));
register_state.Cr1 = json_object_get_uint64(
json_object_object_get(registers, "cr1"));
register_state.Cr2 = json_object_get_uint64(
json_object_object_get(registers, "cr2"));
register_state.Cr3 = json_object_get_uint64(
json_object_object_get(registers, "cr3"));
register_state.Cr4 = json_object_get_uint64(
json_object_object_get(registers, "cr4"));
register_state.Cr8 = json_object_get_uint64(
json_object_object_get(registers, "cr8"));
register_state.Gdtr[0] = json_object_get_uint64(
json_object_object_get(registers, "gdtr_0"));
register_state.Gdtr[1] = json_object_get_uint64(
json_object_object_get(registers, "gdtr_1"));
register_state.Idtr[0] = json_object_get_uint64(
json_object_object_get(registers, "idtr_0"));
register_state.Idtr[1] = json_object_get_uint64(
json_object_object_get(registers, "idtr_1"));
register_state.Ldtr = (UINT16)json_object_get_int(
json_object_object_get(registers, "ldtr"));
register_state.Tr = (UINT16)json_object_get_int(
json_object_object_get(registers, "tr"));
//Write out to stream.
fwrite(&register_state, sizeof(EFI_CONTEXT_X64_REGISTER_STATE), 1, out);
fflush(out);
}