zephyr/arch/riscv/core/fatal.c

212 lines
5.3 KiB
C

/*
* Copyright (c) 2016 Jean-Paul Etienne <fractalclone@gmail.com>
*
* SPDX-License-Identifier: Apache-2.0
*/
#include <zephyr/kernel.h>
#include <zephyr/kernel_structs.h>
#include <kernel_internal.h>
#include <inttypes.h>
#include <zephyr/exc_handle.h>
#include <zephyr/logging/log.h>
LOG_MODULE_DECLARE(os, CONFIG_KERNEL_LOG_LEVEL);
#ifdef CONFIG_USERSPACE
Z_EXC_DECLARE(z_riscv_user_string_nlen);
static const struct z_exc_handle exceptions[] = {
Z_EXC_HANDLE(z_riscv_user_string_nlen),
};
#endif /* CONFIG_USERSPACE */
#if __riscv_xlen == 32
#define PR_REG "%08" PRIxPTR
#define NO_REG " "
#elif __riscv_xlen == 64
#define PR_REG "%016" PRIxPTR
#define NO_REG " "
#endif
FUNC_NORETURN void z_riscv_fatal_error(unsigned int reason,
const z_arch_esf_t *esf)
{
if (esf != NULL) {
LOG_ERR(" a0: " PR_REG " t0: " PR_REG, esf->a0, esf->t0);
LOG_ERR(" a1: " PR_REG " t1: " PR_REG, esf->a1, esf->t1);
LOG_ERR(" a2: " PR_REG " t2: " PR_REG, esf->a2, esf->t2);
#if defined(CONFIG_RISCV_ISA_RV32E)
LOG_ERR(" a3: " PR_REG, esf->a3);
LOG_ERR(" a4: " PR_REG, esf->a4);
LOG_ERR(" a5: " PR_REG, esf->a5);
#else
LOG_ERR(" a3: " PR_REG " t3: " PR_REG, esf->a3, esf->t3);
LOG_ERR(" a4: " PR_REG " t4: " PR_REG, esf->a4, esf->t4);
LOG_ERR(" a5: " PR_REG " t5: " PR_REG, esf->a5, esf->t5);
LOG_ERR(" a6: " PR_REG " t6: " PR_REG, esf->a6, esf->t6);
LOG_ERR(" a7: " PR_REG, esf->a7);
#endif /* CONFIG_RISCV_ISA_RV32E */
#ifdef CONFIG_USERSPACE
LOG_ERR(" sp: " PR_REG, esf->sp);
#endif
LOG_ERR(" ra: " PR_REG, esf->ra);
LOG_ERR(" mepc: " PR_REG, esf->mepc);
LOG_ERR("mstatus: " PR_REG, esf->mstatus);
LOG_ERR("");
}
z_fatal_error(reason, esf);
CODE_UNREACHABLE;
}
static char *cause_str(unsigned long cause)
{
switch (cause) {
case 0:
return "Instruction address misaligned";
case 1:
return "Instruction Access fault";
case 2:
return "Illegal instruction";
case 3:
return "Breakpoint";
case 4:
return "Load address misaligned";
case 5:
return "Load access fault";
case 6:
return "Store/AMO address misaligned";
case 7:
return "Store/AMO access fault";
case 8:
return "Environment call from U-mode";
case 9:
return "Environment call from S-mode";
case 11:
return "Environment call from M-mode";
case 12:
return "Instruction page fault";
case 13:
return "Load page fault";
case 15:
return "Store/AMO page fault";
default:
return "unknown";
}
}
static bool bad_stack_pointer(z_arch_esf_t *esf)
{
#ifdef CONFIG_PMP_STACK_GUARD
/*
* Check if the kernel stack pointer prior this exception (before
* storing the exception stack frame) was in the stack guard area.
*/
uintptr_t sp = (uintptr_t)esf + sizeof(z_arch_esf_t);
#ifdef CONFIG_USERSPACE
if (_current->arch.priv_stack_start != 0 &&
sp >= _current->arch.priv_stack_start &&
sp < _current->arch.priv_stack_start + Z_RISCV_STACK_GUARD_SIZE) {
return true;
}
if (z_stack_is_user_capable(_current->stack_obj) &&
sp >= _current->stack_info.start - K_THREAD_STACK_RESERVED &&
sp < _current->stack_info.start - K_THREAD_STACK_RESERVED
+ Z_RISCV_STACK_GUARD_SIZE) {
return true;
}
#endif /* CONFIG_USERSPACE */
if (sp >= _current->stack_info.start - K_KERNEL_STACK_RESERVED &&
sp < _current->stack_info.start - K_KERNEL_STACK_RESERVED
+ Z_RISCV_STACK_GUARD_SIZE) {
return true;
}
#endif /* CONFIG_PMP_STACK_GUARD */
#ifdef CONFIG_USERSPACE
if ((esf->mstatus & MSTATUS_MPP) == 0 &&
(esf->sp < _current->stack_info.start ||
esf->sp > _current->stack_info.start +
_current->stack_info.size -
_current->stack_info.delta)) {
/* user stack pointer moved outside of its allowed stack */
return true;
}
#endif
return false;
}
void _Fault(z_arch_esf_t *esf)
{
#ifdef CONFIG_USERSPACE
/*
* Perform an assessment whether an PMP fault shall be
* treated as recoverable.
*/
for (int i = 0; i < ARRAY_SIZE(exceptions); i++) {
unsigned long start = (unsigned long)exceptions[i].start;
unsigned long end = (unsigned long)exceptions[i].end;
if (esf->mepc >= start && esf->mepc < end) {
esf->mepc = (unsigned long)exceptions[i].fixup;
return;
}
}
#endif /* CONFIG_USERSPACE */
unsigned long mcause;
__asm__ volatile("csrr %0, mcause" : "=r" (mcause));
#ifndef CONFIG_SOC_OPENISA_RV32M1_RISCV32
unsigned long mtval;
__asm__ volatile("csrr %0, mtval" : "=r" (mtval));
#endif
mcause &= SOC_MCAUSE_EXP_MASK;
LOG_ERR("");
LOG_ERR(" mcause: %ld, %s", mcause, cause_str(mcause));
#ifndef CONFIG_SOC_OPENISA_RV32M1_RISCV32
LOG_ERR(" mtval: %lx", mtval);
#endif
unsigned int reason = K_ERR_CPU_EXCEPTION;
if (bad_stack_pointer(esf)) {
reason = K_ERR_STACK_CHK_FAIL;
}
z_riscv_fatal_error(reason, esf);
}
#ifdef CONFIG_USERSPACE
FUNC_NORETURN void arch_syscall_oops(void *ssf_ptr)
{
user_fault(K_ERR_KERNEL_OOPS);
CODE_UNREACHABLE;
}
void z_impl_user_fault(unsigned int reason)
{
z_arch_esf_t *oops_esf = _current->syscall_frame;
if (((_current->base.user_options & K_USER) != 0) &&
reason != K_ERR_STACK_CHK_FAIL) {
reason = K_ERR_KERNEL_OOPS;
}
z_riscv_fatal_error(reason, oops_esf);
}
static void z_vrfy_user_fault(unsigned int reason)
{
z_impl_user_fault(reason);
}
#include <syscalls/user_fault_mrsh.c>
#endif /* CONFIG_USERSPACE */