/* * Copyright (c) 2013-2017 ARM Limited. All rights reserved. * * SPDX-License-Identifier: Apache-2.0 * * 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 * * 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. * * ----------------------------------------------------------------------------- * * Project: CMSIS-RTOS RTX * Title: Exception handlers (C functions) * * ----------------------------------------------------------------------------- */ #include "RTE_Components.h" #include CMSIS_device_header //Fault Status Register (IFSR/DFSR) definitions #define FSR_ALIGNMENT_FAULT 0x01 //DFSR only. Fault on first lookup #define FSR_INSTRUCTION_CACHE_MAINTENANCE 0x04 //DFSR only - async/external #define FSR_SYNC_EXT_TTB_WALK_FIRST 0x0c //sync/external #define FSR_SYNC_EXT_TTB_WALK_SECOND 0x0e //sync/external #define FSR_SYNC_PARITY_TTB_WALK_FIRST 0x1c //sync/external #define FSR_SYNC_PARITY_TTB_WALK_SECOND 0x1e //sync/external #define FSR_TRANSLATION_FAULT_FIRST 0x05 //MMU Fault - internal #define FSR_TRANSLATION_FAULT_SECOND 0x07 //MMU Fault - internal #define FSR_ACCESS_FLAG_FAULT_FIRST 0x03 //MMU Fault - internal #define FSR_ACCESS_FLAG_FAULT_SECOND 0x06 //MMU Fault - internal #define FSR_DOMAIN_FAULT_FIRST 0x09 //MMU Fault - internal #define FSR_DOMAIN_FAULT_SECOND 0x0b //MMU Fault - internal #define FSR_PERMISSION_FAULT_FIRST 0x0f //MMU Fault - internal #define FSR_PERMISSION_FAULT_SECOND 0x0d //MMU Fault - internal #define FSR_DEBUG_EVENT 0x02 //internal #define FSR_SYNC_EXT_ABORT 0x08 //sync/external #define FSR_TLB_CONFLICT_ABORT 0x10 //sync/external #define FSR_LOCKDOWN 0x14 //internal #define FSR_COPROCESSOR_ABORT 0x1a //internal #define FSR_SYNC_PARITY_ERROR 0x19 //sync/external #define FSR_ASYNC_EXTERNAL_ABORT 0x16 //DFSR only - async/external #define FSR_ASYNC_PARITY_ERROR 0x18 //DFSR only - async/external void CDAbtHandler(uint32_t DFSR, uint32_t DFAR, uint32_t LR) { uint32_t FS = (DFSR & (1 << 10)) >> 6 | (DFSR & 0x0f); //Store Fault Status switch(FS) { //Synchronous parity errors - retry case FSR_SYNC_PARITY_ERROR: case FSR_SYNC_PARITY_TTB_WALK_FIRST: case FSR_SYNC_PARITY_TTB_WALK_SECOND: return; //Your code here. Value in DFAR is invalid for some fault statuses. case FSR_ALIGNMENT_FAULT: case FSR_INSTRUCTION_CACHE_MAINTENANCE: case FSR_SYNC_EXT_TTB_WALK_FIRST: case FSR_SYNC_EXT_TTB_WALK_SECOND: case FSR_TRANSLATION_FAULT_FIRST: case FSR_TRANSLATION_FAULT_SECOND: case FSR_ACCESS_FLAG_FAULT_FIRST: case FSR_ACCESS_FLAG_FAULT_SECOND: case FSR_DOMAIN_FAULT_FIRST: case FSR_DOMAIN_FAULT_SECOND: case FSR_PERMISSION_FAULT_FIRST: case FSR_PERMISSION_FAULT_SECOND: case FSR_DEBUG_EVENT: case FSR_SYNC_EXT_ABORT: case FSR_TLB_CONFLICT_ABORT: case FSR_LOCKDOWN: case FSR_COPROCESSOR_ABORT: case FSR_ASYNC_EXTERNAL_ABORT: //DFAR invalid case FSR_ASYNC_PARITY_ERROR: //DFAR invalid default: while(1); } } void CPAbtHandler(uint32_t IFSR, uint32_t IFAR, uint32_t LR) { uint32_t FS = (IFSR & (1 << 10)) >> 6 | (IFSR & 0x0f); //Store Fault Status switch(FS) { //Synchronous parity errors - retry case FSR_SYNC_PARITY_ERROR: case FSR_SYNC_PARITY_TTB_WALK_FIRST: case FSR_SYNC_PARITY_TTB_WALK_SECOND: return; //Your code here. Value in IFAR is invalid for some fault statuses. case FSR_SYNC_EXT_TTB_WALK_FIRST: case FSR_SYNC_EXT_TTB_WALK_SECOND: case FSR_TRANSLATION_FAULT_FIRST: case FSR_TRANSLATION_FAULT_SECOND: case FSR_ACCESS_FLAG_FAULT_FIRST: case FSR_ACCESS_FLAG_FAULT_SECOND: case FSR_DOMAIN_FAULT_FIRST: case FSR_DOMAIN_FAULT_SECOND: case FSR_PERMISSION_FAULT_FIRST: case FSR_PERMISSION_FAULT_SECOND: case FSR_DEBUG_EVENT: //IFAR invalid case FSR_SYNC_EXT_ABORT: case FSR_TLB_CONFLICT_ABORT: case FSR_LOCKDOWN: case FSR_COPROCESSOR_ABORT: default: while(1); } } //returns amount to decrement lr by //this will be 0 when we have emulated the instruction and want to execute the next instruction //this will be 2 when we have performed some maintenance and want to retry the instruction in Thumb (state == 2) //this will be 4 when we have performed some maintenance and want to retry the instruction in ARM (state == 4) uint32_t CUndefHandler(uint32_t opcode, uint32_t state, uint32_t LR) { const int THUMB = 2; const int ARM = 4; //Lazy VFP/NEON initialisation and switching // (ARM ARM section A7.5) VFP data processing instruction? // (ARM ARM section A7.6) VFP/NEON register load/store instruction? // (ARM ARM section A7.8) VFP/NEON register data transfer instruction? // (ARM ARM section A7.9) VFP/NEON 64-bit register data transfer instruction? if ((state == ARM && ((opcode & 0x0C000000) >> 26 == 0x03)) || (state == THUMB && ((opcode & 0xEC000000) >> 26 == 0x3B))) { if (((opcode & 0x00000E00) >> 9) == 5) { __FPU_Enable(); return state; } } // (ARM ARM section A7.4) NEON data processing instruction? if ((state == ARM && ((opcode & 0xFE000000) >> 24 == 0xF2)) || (state == THUMB && ((opcode & 0xEF000000) >> 24 == 0xEF)) || // (ARM ARM section A7.7) NEON load/store instruction? (state == ARM && ((opcode >> 24) == 0xF4)) || (state == THUMB && ((opcode >> 24) == 0xF9))) { __FPU_Enable(); return state; } //Add code here for other Undef cases while(1); }