blob: 4e9bdfc566143f902082e7cc610e8c1cd96bedd8 [file] [log] [blame]
/*
* Copyright (c) 2017-2023, Arm Limited and Contributors. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
/* Runtime firmware routines to report errata status for the current CPU. */
#include <assert.h>
#include <stdbool.h>
#include <arch_helpers.h>
#include <common/debug.h>
#include <lib/cpus/cpu_ops.h>
#include <lib/cpus/errata.h>
#include <lib/el3_runtime/cpu_data.h>
#include <lib/spinlock.h>
#ifdef IMAGE_BL1
# define BL_STRING "BL1"
#elif defined(__aarch64__) && defined(IMAGE_BL31)
# define BL_STRING "BL31"
#elif !defined(__aarch64__) && defined(IMAGE_BL32)
# define BL_STRING "BL32"
#elif defined(IMAGE_BL2) && RESET_TO_BL2
# define BL_STRING "BL2"
#else
# error This image should not be printing errata status
#endif
/* Errata format: BL stage, CPU, errata ID, message */
#define ERRATA_FORMAT "%s: %s: CPU workaround for %s was %s\n"
#define CVE_FORMAT "%s: %s: CPU workaround for CVE %u_%u was %s\n"
#define ERRATUM_FORMAT "%s: %s: CPU workaround for erratum %u was %s\n"
static __unused void print_status(int status, char *cpu_str, uint16_t cve, uint32_t id)
{
if (status == ERRATA_MISSING) {
if (cve) {
WARN(CVE_FORMAT, BL_STRING, cpu_str, cve, id, "missing!");
} else {
WARN(ERRATUM_FORMAT, BL_STRING, cpu_str, id, "missing!");
}
} else if (status == ERRATA_APPLIES) {
if (cve) {
INFO(CVE_FORMAT, BL_STRING, cpu_str, cve, id, "applied");
} else {
INFO(ERRATUM_FORMAT, BL_STRING, cpu_str, id, "applied");
}
} else {
if (cve) {
VERBOSE(CVE_FORMAT, BL_STRING, cpu_str, cve, id, "not applied");
} else {
VERBOSE(ERRATUM_FORMAT, BL_STRING, cpu_str, id, "not applied");
}
}
}
#if !REPORT_ERRATA
void print_errata_status(void) {}
#else /* !REPORT_ERRATA */
/*
* New errata status message printer
* The order checking function is hidden behind the FEATURE_DETECTION flag to
* save space. This functionality is only useful on development and platform
* bringup builds, when FEATURE_DETECTION should be used anyway
*/
void __unused generic_errata_report(void)
{
struct cpu_ops *cpu_ops = get_cpu_ops_ptr();
struct erratum_entry *entry = cpu_ops->errata_list_start;
struct erratum_entry *end = cpu_ops->errata_list_end;
long rev_var = cpu_get_rev_var();
#if FEATURE_DETECTION
uint32_t last_erratum_id = 0;
uint16_t last_cve_yr = 0;
bool check_cve = false;
bool failed = false;
#endif /* FEATURE_DETECTION */
for (; entry != end; entry += 1) {
uint64_t status = entry->check_func(rev_var);
assert(entry->id != 0);
/*
* Errata workaround has not been compiled in. If the errata
* would have applied had it been compiled in, print its status
* as missing.
*/
if (status == ERRATA_APPLIES && entry->chosen == 0) {
status = ERRATA_MISSING;
}
print_status(status, cpu_ops->cpu_str, entry->cve, entry->id);
#if FEATURE_DETECTION
if (entry->cve) {
if (last_cve_yr > entry->cve ||
(last_cve_yr == entry->cve && last_erratum_id >= entry->id)) {
ERROR("CVE %u_%u was out of order!\n",
entry->cve, entry->id);
failed = true;
}
check_cve = true;
last_cve_yr = entry->cve;
} else {
if (last_erratum_id >= entry->id || check_cve) {
ERROR("Erratum %u was out of order!\n",
entry->id);
failed = true;
}
}
last_erratum_id = entry->id;
#endif /* FEATURE_DETECTION */
}
#if FEATURE_DETECTION
/*
* enforce errata and CVEs are in ascending order and that CVEs are
* after errata
*/
assert(!failed);
#endif /* FEATURE_DETECTION */
}
/*
* Returns whether errata needs to be reported. Passed arguments are private to
* a CPU type.
*/
static __unused int errata_needs_reporting(spinlock_t *lock, uint32_t *reported)
{
bool report_now;
/* If already reported, return false. */
if (*reported != 0U)
return 0;
/*
* Acquire lock. Determine whether status needs reporting, and then mark
* report status to true.
*/
spin_lock(lock);
report_now = (*reported == 0U);
if (report_now)
*reported = 1;
spin_unlock(lock);
return report_now;
}
/*
* Function to print errata status for the calling CPU (and others of the same
* type). Must be called only:
* - when MMU and data caches are enabled;
* - after cpu_ops have been initialized in per-CPU data.
*/
void print_errata_status(void)
{
struct cpu_ops *cpu_ops;
#ifdef IMAGE_BL1
/*
* BL1 doesn't have per-CPU data. So retrieve the CPU operations
* directly.
*/
cpu_ops = get_cpu_ops_ptr();
if (cpu_ops->errata_func != NULL) {
cpu_ops->errata_func();
}
#else /* IMAGE_BL1 */
cpu_ops = (void *) get_cpu_data(cpu_ops_ptr);
assert(cpu_ops != NULL);
if (cpu_ops->errata_func == NULL) {
return;
}
if (errata_needs_reporting(cpu_ops->errata_lock, cpu_ops->errata_reported)) {
cpu_ops->errata_func();
}
#endif /* IMAGE_BL1 */
}
/*
* Old errata status message printer
* TODO: remove once all cpus have been converted to the new printing method
*/
void __unused errata_print_msg(unsigned int status, const char *cpu, const char *id)
{
/* Errata status strings */
static const char *const errata_status_str[] = {
[ERRATA_NOT_APPLIES] = "not applied",
[ERRATA_APPLIES] = "applied",
[ERRATA_MISSING] = "missing!"
};
static const char *const __unused bl_str = BL_STRING;
const char *msg __unused;
assert(status < ARRAY_SIZE(errata_status_str));
assert(cpu != NULL);
assert(id != NULL);
msg = errata_status_str[status];
switch (status) {
case ERRATA_NOT_APPLIES:
VERBOSE(ERRATA_FORMAT, bl_str, cpu, id, msg);
break;
case ERRATA_APPLIES:
INFO(ERRATA_FORMAT, bl_str, cpu, id, msg);
break;
case ERRATA_MISSING:
WARN(ERRATA_FORMAT, bl_str, cpu, id, msg);
break;
default:
WARN(ERRATA_FORMAT, bl_str, cpu, id, "unknown");
break;
}
}
#endif /* !REPORT_ERRATA */