/* * Copyright (c) 2013-2014 Wind River Systems, Inc. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * @file * @brief Nanokernel fatal error handler * * This module provides the _NanoFatalErrorHandler() routine. */ #include #include #include #include #include #include #include /* * Define a default ESF for use with _NanoFatalErrorHandler() in the event * the caller does not have a NANO_ESF to pass */ const NANO_ESF _default_esf = { 0xdeaddead, /* ESP */ 0xdeaddead, /* EBP */ 0xdeaddead, /* EBX */ 0xdeaddead, /* ESI */ 0xdeaddead, /* EDI */ 0xdeaddead, /* EDX */ 0xdeaddead, /* ECX */ 0xdeaddead, /* EAX */ 0xdeaddead, /* error code */ 0xdeaddead, /* EIP */ 0xdeaddead, /* CS */ 0xdeaddead, /* EFLAGS */ }; /** * * @brief Nanokernel fatal error handler * * This routine is called when a fatal error condition is detected by either * hardware or software. * * The caller is expected to always provide a usable ESF. In the event that the * fatal error does not have a hardware generated ESF, the caller should either * create its own or use a pointer to the global default ESF <_default_esf>. * * @param reason the reason that the handler was called * @param pEsf pointer to the exception stack frame * * @return This function does not return. */ FUNC_NORETURN void _NanoFatalErrorHandler(unsigned int reason, const NANO_ESF *pEsf) { #ifdef CONFIG_PRINTK /* Display diagnostic information about the error */ switch (reason) { case _NANO_ERR_CPU_EXCEPTION: break; case _NANO_ERR_SPURIOUS_INT: printk("***** Unhandled interrupt vector %d occurred! " "*****\n", _loapic_isr_vector_get()); break; case _NANO_ERR_INVALID_TASK_EXIT: printk("***** Invalid Exit Software Error! *****\n"); break; #if defined(CONFIG_STACK_CANARIES) case _NANO_ERR_STACK_CHK_FAIL: printk("***** Stack Check Fail! *****\n"); break; #endif /* CONFIG_STACK_CANARIES */ case _NANO_ERR_ALLOCATION_FAIL: printk("**** Kernel Allocation Failure! ****\n"); break; default: printk("**** Unknown Fatal Error %d! ****\n", reason); break; } printk("Current thread ID = 0x%x\n" "Faulting segment:address = 0x%x:0x%x\n" "eax: 0x%x, ebx: 0x%x, ecx: 0x%x, edx: 0x%x\n" "esi: 0x%x, edi: 0x%x, ebp: 0%x, esp: 0x%x\n" "eflags: 0x%x\n", sys_thread_self_get(), pEsf->cs & 0xFFFF, pEsf->eip, pEsf->eax, pEsf->ebx, pEsf->ecx, pEsf->edx, pEsf->esi, pEsf->edi, pEsf->ebp, pEsf->esp, pEsf->eflags); #endif /* CONFIG_PRINTK */ /* * Error was fatal to a kernel task or a fiber; invoke the system * fatal error handling policy defined for the platform. */ _SysFatalErrorHandler(reason, pEsf); } #if CONFIG_EXCEPTION_DEBUG static FUNC_NORETURN void generic_exc_handle(unsigned int vector, const NANO_ESF *pEsf) { printk("***** CPU exception %d\n", vector); if ((1 << vector) & _EXC_ERROR_CODE_FAULTS) { printk("***** Exception code: 0x%x\n", pEsf->errorCode); } _NanoFatalErrorHandler(_NANO_ERR_CPU_EXCEPTION, pEsf); } #define EXC_FUNC(vector) \ FUNC_NORETURN void handle_exc_##vector(const NANO_ESF *pEsf) \ { \ generic_exc_handle(vector, pEsf); \ } EXC_FUNC(IV_DIVIDE_ERROR); EXC_FUNC(IV_NON_MASKABLE_INTERRUPT); EXC_FUNC(IV_OVERFLOW); EXC_FUNC(IV_BOUND_RANGE); EXC_FUNC(IV_INVALID_OPCODE); #ifndef CONFIG_FP_SHARING EXC_FUNC(IV_DEVICE_NOT_AVAILABLE); #endif EXC_FUNC(IV_DOUBLE_FAULT); EXC_FUNC(IV_INVALID_TSS); EXC_FUNC(IV_SEGMENT_NOT_PRESENT); EXC_FUNC(IV_STACK_FAULT); EXC_FUNC(IV_GENERAL_PROTECTION); EXC_FUNC(IV_PAGE_FAULT); EXC_FUNC(IV_X87_FPU_FP_ERROR); EXC_FUNC(IV_ALIGNMENT_CHECK); EXC_FUNC(IV_MACHINE_CHECK); #endif /* CONFIG_EXCEPTION_DEBUG */