/* * Copyright (c) 2014 Wind River Systems, Inc. * * SPDX-License-Identifier: Apache-2.0 */ /** * @file * @brief Kernel fatal error handler for ARM Cortex-M and Cortex-R * * This module provides the z_arm_fatal_error() routine for ARM Cortex-M * and Cortex-R CPUs. */ #include #include #include LOG_MODULE_DECLARE(os, CONFIG_KERNEL_LOG_LEVEL); static void esf_dump(const z_arch_esf_t *esf) { LOG_ERR("r0/a1: 0x%08x r1/a2: 0x%08x r2/a3: 0x%08x", esf->basic.a1, esf->basic.a2, esf->basic.a3); LOG_ERR("r3/a4: 0x%08x r12/ip: 0x%08x r14/lr: 0x%08x", esf->basic.a4, esf->basic.ip, esf->basic.lr); LOG_ERR(" xpsr: 0x%08x", esf->basic.xpsr); #if defined(CONFIG_FPU) && defined(CONFIG_FPU_SHARING) for (int i = 0; i < ARRAY_SIZE(esf->fpu.s); i += 4) { LOG_ERR("s[%2d]: 0x%08x s[%2d]: 0x%08x" " s[%2d]: 0x%08x s[%2d]: 0x%08x", i, (uint32_t)esf->fpu.s[i], i + 1, (uint32_t)esf->fpu.s[i + 1], i + 2, (uint32_t)esf->fpu.s[i + 2], i + 3, (uint32_t)esf->fpu.s[i + 3]); } #ifdef CONFIG_VFP_FEATURE_REGS_S64_D32 for (int i = 0; i < ARRAY_SIZE(esf->fpu.d); i += 4) { LOG_ERR("d[%2d]: 0x%16llx d[%2d]: 0x%16llx" " d[%2d]: 0x%16llx d[%2d]: 0x%16llx", i, (uint64_t)esf->fpu.d[i], i + 1, (uint64_t)esf->fpu.d[i + 1], i + 2, (uint64_t)esf->fpu.d[i + 2], i + 3, (uint64_t)esf->fpu.d[i + 3]); } #endif LOG_ERR("fpscr: 0x%08x", esf->fpu.fpscr); #endif #if defined(CONFIG_EXTRA_EXCEPTION_INFO) const struct _callee_saved *callee = esf->extra_info.callee; if (callee != NULL) { LOG_ERR("r4/v1: 0x%08x r5/v2: 0x%08x r6/v3: 0x%08x", callee->v1, callee->v2, callee->v3); LOG_ERR("r7/v4: 0x%08x r8/v5: 0x%08x r9/v6: 0x%08x", callee->v4, callee->v5, callee->v6); LOG_ERR("r10/v7: 0x%08x r11/v8: 0x%08x psp: 0x%08x", callee->v7, callee->v8, callee->psp); } LOG_ERR("EXC_RETURN: 0x%0x", esf->extra_info.exc_return); #endif /* CONFIG_EXTRA_EXCEPTION_INFO */ LOG_ERR("Faulting instruction address (r15/pc): 0x%08x", esf->basic.pc); } void z_arm_fatal_error(unsigned int reason, const z_arch_esf_t *esf) { if (esf != NULL) { esf_dump(esf); } z_fatal_error(reason, esf); } /** * @brief Handle a software-generated fatal exception * (e.g. kernel oops, panic, etc.). * * Notes: * - the function is invoked in SVC Handler * - if triggered from nPRIV mode, only oops and stack fail error reasons * may be propagated to the fault handling process. * - We expect the supplied exception stack frame to always be a valid * frame. That is because, if the ESF cannot be stacked during an SVC, * a processor fault (e.g. stacking error) will be generated, and the * fault handler will executed instead of the SVC. * * @param esf exception frame * @param callee_regs Callee-saved registers (R4-R11) */ void z_do_kernel_oops(const z_arch_esf_t *esf, _callee_saved_t *callee_regs) { #if !(defined(CONFIG_EXTRA_EXCEPTION_INFO) && defined(CONFIG_ARMV7_M_ARMV8_M_MAINLINE)) ARG_UNUSED(callee_regs); #endif /* Stacked R0 holds the exception reason. */ unsigned int reason = esf->basic.r0; #if defined(CONFIG_USERSPACE) if (z_arm_preempted_thread_in_user_mode(esf)) { /* * Exception triggered from user mode. * * User mode is only allowed to induce oopses and stack check * failures via software-triggered system fatal exceptions. */ if (!((esf->basic.r0 == K_ERR_KERNEL_OOPS) || (esf->basic.r0 == K_ERR_STACK_CHK_FAIL))) { reason = K_ERR_KERNEL_OOPS; } } #endif /* CONFIG_USERSPACE */ #if !defined(CONFIG_EXTRA_EXCEPTION_INFO) z_arm_fatal_error(reason, esf); #else z_arch_esf_t esf_copy; memcpy(&esf_copy, esf, offsetof(z_arch_esf_t, extra_info)); #if defined(CONFIG_ARMV7_M_ARMV8_M_MAINLINE) /* extra exception info is collected in callee_reg param * on CONFIG_ARMV7_M_ARMV8_M_MAINLINE */ esf_copy.extra_info = (struct __extra_esf_info) { .callee = callee_regs, }; #else /* extra exception info is not collected for kernel oops * path today so we make a copy of the ESF and zero out * that information */ esf_copy.extra_info = (struct __extra_esf_info) { 0 }; #endif /* CONFIG_ARMV7_M_ARMV8_M_MAINLINE */ z_arm_fatal_error(reason, &esf_copy); #endif /* CONFIG_EXTRA_EXCEPTION_INFO */ } FUNC_NORETURN void arch_syscall_oops(void *ssf_ptr) { uint32_t *ssf_contents = ssf_ptr; z_arch_esf_t oops_esf = { 0 }; /* TODO: Copy the rest of the register set out of ssf_ptr */ oops_esf.basic.pc = ssf_contents[3]; z_arm_fatal_error(K_ERR_KERNEL_OOPS, &oops_esf); CODE_UNREACHABLE; }