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/* SPDX-License-Identifier: GPL-2.0-only */
#include <bootstate.h>
#include <cbmem.h>
#include <console/console.h>
#include <cpu/x86/name.h>
#include <cpu/x86/msr.h>
#include <cpu/x86/lapic.h>
#include <acpi/acpi.h>
#include <arch/bert_storage.h>
#include <string.h>
#include <types.h>
/* BERT region management: Allow the chipset to determine the specific
* location of the BERT region. We find that base and size, then manage
* the allocation of error information within it.
*
* Use simple static variables for managing the BERT region. This is a thin
* implementation; it is only created and consumed by coreboot, and only in
* a single stage, and we don't want its information to survive reboot or
* resume cycles. If the requirements change, consider using IMD to help
* manage the space.
*/
static bool bert_region_broken;
static void *bert_region_base;
static size_t bert_region_size;
static size_t bert_region_used;
/* Calculate the remaining space in the BERT region. This knowledge may help
* the caller prioritize the information to store.
*/
size_t bert_storage_remaining(void)
{
return bert_region_broken ? 0 : bert_region_size - bert_region_used;
}
bool bert_errors_present(void)
{
return !bert_region_broken && bert_region_used;
}
void bert_errors_region(void **start, size_t *size)
{
if (bert_region_broken) {
*start = NULL;
*size = 0;
return;
}
/* No metadata, etc. with our region, so this is easy */
*start = bert_region_base;
*size = bert_region_used;
}
static void *bert_allocate_storage(size_t size)
{
size_t alloc;
if (bert_region_broken)
return NULL;
if (bert_region_used + size > bert_region_size)
return NULL;
alloc = bert_region_used;
bert_region_used += size;
return (void *)((u8 *)bert_region_base + alloc);
}
/* Generic Error Status: Each Status represents a unique error event within
* the BERT errors region. Each event may have multiple errors associated
* with it.
*/
/* Find the nth (1-based) Generic Data Structure attached to an Error Status */
static void *acpi_hest_generic_data_nth(
acpi_generic_error_status_t *status, int num)
{
acpi_hest_generic_data_v300_t *ptr;
size_t struct_size;
if (!num || num > bert_entry_count(status))
return NULL;
ptr = (acpi_hest_generic_data_v300_t *)(status + 1);
while (--num) {
if (ptr->revision == HEST_GENERIC_ENTRY_V300)
struct_size = sizeof(acpi_hest_generic_data_v300_t);
else
struct_size = sizeof(acpi_hest_generic_data_t);
ptr = (acpi_hest_generic_data_v300_t *)(
(u8 *)ptr
+ ptr->data_length
+ struct_size);
}
return ptr;
}
/* Update data_length for this Error Status, and final Data Entry it contains */
static void revise_error_sizes(acpi_generic_error_status_t *status, size_t size)
{
acpi_hest_generic_data_v300_t *entry;
int entries;
if (!status)
return;
entries = bert_entry_count(status);
entry = acpi_hest_generic_data_nth(status, entries);
status->data_length += size;
if (entry)
entry->data_length += size;
}
/* Create space for a new BERT Generic Error Status Block, by finding the next
* available slot and moving the ending location. There is nothing to designate
* this as another Generic Error Status Block (e.g. no signature); only that it
* is within the BERT region.
*
* It is up to the caller to correctly fill the information, including status
* and error severity, and to update/maintain data offsets and lengths as
* entries are added.
*/
static acpi_generic_error_status_t *new_bert_status(void)
{
acpi_generic_error_status_t *status;
status = bert_allocate_storage(sizeof(*status));
if (!status) {
printk(BIOS_ERR, "New BERT error entry would exceed available region\n");
return NULL;
}
status->error_severity = ACPI_GENERROR_SEV_NONE;
return status;
}
/* Generic Error Data: Each Generic Error Status may contain zero or more
* Generic Error Data structures. The data structures describe particular
* error(s) associated with an event. The definition for the structure is
* found in the ACPI spec, however the data types and any accompanying data
* definitions are in the Common Platform Error Record appendix of the UEFI
* spec.
*/
/* Create space for a new BERT Generic Data Entry. Update the count and
* data length in the parent Generic Error Status Block. Version 0x300 of
* the structure is used, and the timestamp is filled and marked precise
* (i.e. assumed close enough for reporting).
*
* It is up to the caller to fill the Section Type field and add the Common
* Platform Error Record type data as appropriate. In addition, the caller
* should update the error severity, and may optionally add FRU information
* or override any existing information.
*/
static acpi_hest_generic_data_v300_t *new_generic_error_entry(
acpi_generic_error_status_t *status)
{
acpi_hest_generic_data_v300_t *entry;
if (bert_entry_count(status) == GENERIC_ERR_STS_ENTRY_COUNT_MAX) {
printk(BIOS_ERR, "New BERT error would exceed maximum entries\n");
return NULL;
}
entry = bert_allocate_storage(sizeof(*entry));
if (!entry) {
printk(BIOS_ERR, "New BERT error entry would exceed available region\n");
return NULL;
}
entry->revision = HEST_GENERIC_ENTRY_V300;
entry->timestamp = cper_timestamp(CPER_TIMESTAMP_PRECISE);
entry->validation_bits |= ACPI_GENERROR_VALID_TIMESTAMP;
status->data_length += sizeof(*entry);
bert_bump_entry_count(status);
return entry;
}
/* Find the size of a CPER error section w/o any add-ons */
static size_t sizeof_error_section(guid_t *guid)
{
if (!guidcmp(guid, &CPER_SEC_PROC_GENERIC_GUID))
return sizeof(cper_proc_generic_error_section_t);
else if (!guidcmp(guid, &CPER_SEC_PROC_IA32X64_GUID))
return sizeof(cper_ia32x64_proc_error_section_t);
else if (!guidcmp(guid, &CPER_SEC_FW_ERR_REC_REF_GUID))
return sizeof(cper_fw_err_rec_section_t);
/* else if ... sizeof(structures not yet defined) */
printk(BIOS_ERR, "Requested size of unrecognized CPER GUID\n");
return 0;
}
void *new_cper_fw_error_crashlog(acpi_generic_error_status_t *status, size_t cl_size)
{
void *cl_data = bert_allocate_storage(cl_size);
if (!cl_data) {
printk(BIOS_ERR, "Crashlog entry (size %zu) would exceed available region\n",
cl_size);
return NULL;
}
revise_error_sizes(status, cl_size);
return cl_data;
}
/* Helper to append an ACPI Generic Error Data Entry per crashlog data */
acpi_hest_generic_data_v300_t *bert_append_fw_err(acpi_generic_error_status_t *status)
{
acpi_hest_generic_data_v300_t *entry;
cper_fw_err_rec_section_t *fw_err;
entry = bert_append_error_datasection(status, &CPER_SEC_FW_ERR_REC_REF_GUID);
if (!entry)
return NULL;
status->block_status |= GENERIC_ERR_STS_UNCORRECTABLE_VALID;
status->error_severity = ACPI_GENERROR_SEV_FATAL;
entry->error_severity = ACPI_GENERROR_SEV_FATAL;
fw_err = section_of_acpientry(fw_err, entry);
fw_err->record_type = CRASHLOG_RECORD_TYPE;
fw_err->revision = CRASHLOG_FW_ERR_REV;
fw_err->record_id = 0;
guidcpy(&fw_err->record_guid, &FW_ERR_RECORD_ID_CRASHLOG_GUID);
return entry;
}
/* Append a new ACPI Generic Error Data Entry plus CPER Error Section to an
* existing ACPI Generic Error Status Block. The caller is responsible for
* the setting the status and entry severity, as well as populating all fields
* of the error section.
*/
acpi_hest_generic_data_v300_t *bert_append_error_datasection(
acpi_generic_error_status_t *status, guid_t *guid)
{
acpi_hest_generic_data_v300_t *entry;
void *sect;
size_t sect_size;
sect_size = sizeof_error_section(guid);
if (!sect_size)
return NULL; /* Don't allocate structure if bad GUID passed */
if (sizeof(*entry) + sect_size > bert_storage_remaining())
return NULL;
entry = new_generic_error_entry(status);
if (!entry)
return NULL;
/* error section immediately follows the Generic Error Data Entry */
sect = bert_allocate_storage(sect_size);
if (!sect)
return NULL;
revise_error_sizes(status, sect_size);
guidcpy(&entry->section_type, guid);
return entry;
}
/* Helper to append an ACPI Generic Error Data Entry plus a CPER Processor
* Generic Error Section. As many fields are populated as possible for the
* caller.
*/
acpi_hest_generic_data_v300_t *bert_append_genproc(
acpi_generic_error_status_t *status)
{
acpi_hest_generic_data_v300_t *entry;
cper_proc_generic_error_section_t *ges;
entry = bert_append_error_datasection(status,
&CPER_SEC_PROC_GENERIC_GUID);
if (!entry)
return NULL;
status->block_status |= GENERIC_ERR_STS_UNCORRECTABLE_VALID;
status->error_severity = ACPI_GENERROR_SEV_FATAL;
entry->error_severity = ACPI_GENERROR_SEV_FATAL;
ges = section_of_acpientry(ges, entry);
ges->proc_type = GENPROC_PROCTYPE_IA32X64;
ges->validation |= GENPROC_VALID_PROC_TYPE;
ges->cpu_version = cpuid_eax(1);
ges->validation |= GENPROC_VALID_CPU_VERSION;
fill_processor_name(ges->cpu_brand_string);
ges->validation |= GENPROC_VALID_CPU_BRAND;
ges->proc_id = lapicid();
ges->validation |= GENPROC_VALID_CPU_ID;
return entry;
}
/* Add a new IA32/X64 Processor Context Structure (Table 261), following any
* other contexts, to an existing Processor Error Section (Table 255). Contexts
* may only be added after the entire Processor Error Info array has been
* created.
*
* This function fills only the minimal amount of information required to parse
* or step through the contexts. The type is filled and PROC_CONTEXT_INFO_NUM
* is updated.
*
* type is one of:
* CPER_IA32X64_CTX_UNCL
* CPER_IA32X64_CTX_MSR
* CPER_IA32X64_CTX_32BIT_EX
* CPER_IA32X64_CTX_64BIT_EX
* CPER_IA32X64_CTX_FXSAVE
* CPER_IA32X64_CTX_32BIT_DBG
* CPER_IA32X64_CTX_64BIT_DBG
* CPER_IA32X64_CTX_MEMMAPPED
* num is the number of bytes eventually used to fill the context's register
* array, e.g. 4 MSRs * sizeof(msr_t)
*
* status and entry data_length values are updated.
*/
cper_ia32x64_context_t *new_cper_ia32x64_ctx(
acpi_generic_error_status_t *status,
cper_ia32x64_proc_error_section_t *x86err, int type, int num)
{
size_t size;
cper_ia32x64_context_t *ctx;
static const char * const ctx_names[] = {
"Unclassified Data",
"MSR Registers",
"32-bit Mode Execution",
"64-bit Mode Execution",
"FXSAVE",
"32-bit Mode Debug",
"64-bit Mode Debug",
"Memory Mapped"
};
if (type > CPER_IA32X64_CTX_MEMMAPPED)
return NULL;
if (cper_ia32x64_proc_num_ctxs(x86err) == I32X64SEC_VALID_CTXNUM_MAX) {
printk(BIOS_ERR, "New IA32X64 %s context entry would exceed max allowable contexts\n",
ctx_names[type]);
return NULL;
}
size = cper_ia32x64_ctx_sz_bytype(type, num);
ctx = bert_allocate_storage(size);
if (!ctx) {
printk(BIOS_ERR, "New IA32X64 %s context entry would exceed available region\n",
ctx_names[type]);
return NULL;
}
revise_error_sizes(status, size);
ctx->type = type;
ctx->array_size = num;
cper_bump_ia32x64_ctx_count(x86err);
return ctx;
}
/* Add a new IA32/X64 Processor Error Information Structure (Table 256),
* following any other errors, to an existing Processor Error Section
* (Table 255). All error structures must be added before any contexts are
* added.
*
* This function fills only the minimal amount of information required to parse
* or step through the errors. The type is filled and PROC_ERR_INFO_NUM is
* updated.
*/
cper_ia32x64_proc_error_info_t *new_cper_ia32x64_check(
acpi_generic_error_status_t *status,
cper_ia32x64_proc_error_section_t *x86err,
enum cper_x86_check_type type)
{
cper_ia32x64_proc_error_info_t *check;
static const char * const check_names[] = {
"cache",
"TLB",
"bus",
"MS"
};
const guid_t check_guids[] = {
X86_PROCESSOR_CACHE_CHK_ERROR_GUID,
X86_PROCESSOR_TLB_CHK_ERROR_GUID,
X86_PROCESSOR_BUS_CHK_ERROR_GUID,
X86_PROCESSOR_MS_CHK_ERROR_GUID
};
if (type > X86_PROCESSOR_CHK_MAX)
return NULL;
if (cper_ia32x64_proc_num_chks(x86err) == I32X64SEC_VALID_ERRNUM_MAX) {
printk(BIOS_ERR, "New IA32X64 %s check entry would exceed max allowable errors\n",
check_names[type]);
return NULL;
}
check = bert_allocate_storage(sizeof(*check));
if (!check) {
printk(BIOS_ERR, "New IA32X64 %s check entry would exceed available region\n",
check_names[type]);
return NULL;
}
revise_error_sizes(status, sizeof(*check));
guidcpy(&check->type, &check_guids[type]);
cper_bump_ia32x64_chk_count(x86err);
return check;
}
/* Helper to append an ACPI Generic Error Data Entry plus a CPER IA32/X64
* Processor Error Section. As many fields are populated as possible for the
* caller.
*/
acpi_hest_generic_data_v300_t *bert_append_ia32x64(
acpi_generic_error_status_t *status)
{
acpi_hest_generic_data_v300_t *entry;
cper_ia32x64_proc_error_section_t *ipe;
struct cpuid_result id;
entry = bert_append_error_datasection(status,
&CPER_SEC_PROC_IA32X64_GUID);
if (!entry)
return NULL;
status->block_status |= GENERIC_ERR_STS_UNCORRECTABLE_VALID;
status->error_severity = ACPI_GENERROR_SEV_FATAL;
entry->error_severity = ACPI_GENERROR_SEV_FATAL;
ipe = section_of_acpientry(ipe, entry);
ipe->apicid = lapicid();
ipe->validation |= I32X64SEC_VALID_LAPIC;
id = cpuid(1);
ipe->cpuid[0] = id.eax;
ipe->cpuid[1] = id.ebx;
ipe->cpuid[2] = id.ecx;
ipe->cpuid[3] = id.edx;
ipe->validation |= I32X64SEC_VALID_CPUID;
return entry;
}
static const char * const generic_error_types[] = {
"PROCESSOR_GENERIC",
"PROCESSOR_SPECIFIC_X86",
"PROCESSOR_SPECIFIC_ARM",
"PLATFORM_MEMORY",
"PLATFORM_MEMORY2",
"PCIE",
"FW_ERROR_RECORD",
"PCI_PCIX_BUS",
"PCI_DEVICE",
"DMAR_GENERIC",
"DIRECTED_IO_DMAR",
"IOMMU_DMAR",
"UNRECOGNIZED"
};
static const char *generic_error_name(guid_t *guid)
{
if (!guidcmp(guid, &CPER_SEC_PROC_GENERIC_GUID))
return generic_error_types[0];
if (!guidcmp(guid, &CPER_SEC_PROC_IA32X64_GUID))
return generic_error_types[1];
if (!guidcmp(guid, &CPER_SEC_PROC_ARM_GUID))
return generic_error_types[2];
if (!guidcmp(guid, &CPER_SEC_PLATFORM_MEM_GUID))
return generic_error_types[3];
if (!guidcmp(guid, &CPER_SEC_PLATFORM_MEM2_GUID))
return generic_error_types[4];
if (!guidcmp(guid, &CPER_SEC_PCIE_GUID))
return generic_error_types[5];
if (!guidcmp(guid, &CPER_SEC_FW_ERR_REC_REF_GUID))
return generic_error_types[6];
if (!guidcmp(guid, &CPER_SEC_PCI_X_BUS_GUID))
return generic_error_types[7];
if (!guidcmp(guid, &CPER_SEC_PCI_DEV_GUID))
return generic_error_types[8];
if (!guidcmp(guid, &CPER_SEC_DMAR_GENERIC_GUID))
return generic_error_types[9];
if (!guidcmp(guid, &CPER_SEC_DMAR_VT_GUID))
return generic_error_types[10];
if (!guidcmp(guid, &CPER_SEC_DMAR_IOMMU_GUID))
return generic_error_types[11];
return generic_error_types[12];
}
/* Add a new event to the BERT region. An event consists of an ACPI Error
* Status Block, a Generic Error Data Entry, and an associated CPER Error
* Section.
*/
acpi_generic_error_status_t *bert_new_event(guid_t *guid)
{
size_t size;
acpi_generic_error_status_t *status;
acpi_hest_generic_data_v300_t *entry, *r;
size = sizeof(*status);
size += sizeof(*entry);
size += sizeof_error_section(guid);
if (size > bert_storage_remaining()) {
printk(BIOS_ERR, "Not enough BERT region space to add event for type %s\n",
generic_error_name(guid));
return NULL;
}
status = new_bert_status();
if (!status)
return NULL;
if (!guidcmp(guid, &CPER_SEC_PROC_GENERIC_GUID))
r = bert_append_genproc(status);
else if (!guidcmp(guid, &CPER_SEC_PROC_GENERIC_GUID))
r = bert_append_ia32x64(status);
else if (!guidcmp(guid, &CPER_SEC_FW_ERR_REC_REF_GUID))
r = bert_append_fw_err(status);
/* else if other types not implemented */
else
r = NULL;
if (r)
return status;
return NULL;
}
/* Helper to add an MSR context to an existing IA32/X64-type error entry */
cper_ia32x64_context_t *cper_new_ia32x64_context_msr(
acpi_generic_error_status_t *status,
cper_ia32x64_proc_error_section_t *x86err, u32 addr, int num)
{
cper_ia32x64_context_t *ctx;
int i;
msr_t *dest;
ctx = new_cper_ia32x64_ctx(status, x86err, CPER_IA32X64_CTX_MSR, num);
if (!ctx)
return NULL;
/* already filled ctx->type = CPER_IA32X64_CTX_MSR; */
ctx->msr_addr = addr;
ctx->array_size = num * sizeof(msr_t);
dest = (msr_t *)((u8 *)(ctx + 1)); /* point to the Register Array */
for (i = 0 ; i < num ; i++)
*(dest + i) = rdmsr(addr + i);
return ctx;
}
/* The region must be in memory marked as reserved. If not implemented,
* skip generating the information in the region.
*/
__weak void bert_reserved_region(void **start, size_t *size)
{
printk(BIOS_ERR, "%s not implemented. BERT region generation disabled\n",
__func__);
*start = NULL;
*size = 0;
}
static void bert_storage_setup(void *unused)
{
/* Always start with a blank bert region. Make sure nothing is
* maintained across reboots or resumes.
*/
bert_region_broken = false;
bert_region_used = 0;
bert_reserved_region(&bert_region_base, &bert_region_size);
if (!bert_region_base || !bert_region_size) {
printk(BIOS_ERR, "Bug: Can't find/add BERT storage area\n");
bert_region_broken = true;
return;
}
memset(bert_region_base, 0, bert_region_size);
}
BOOT_STATE_INIT_ENTRY(BS_PRE_DEVICE, BS_ON_EXIT, bert_storage_setup, NULL);
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